Pioneering for You
en Installation and operation instructions with functional description
The language of the original operating instructions is German. All other languages of these instructions are translations of the original operating instructions.
These installation and operating instructions are an integral part of the product. They must be kept readily available at the place where the product is installed. Strict adherence to these instructions is a precondition for the proper use and correct operation of the product.
These installation and operating instructions correspond to the relevant version of the product and the underlying safety standards valid at the time of going to print.
These operating instructions contain basic information which must be adhered to during installation and operation. For this reason, these operating instructions must, without fail, be read by the service technician and the responsible operator before installation and commissioning.
It is not only the general safety instructions listed under the main point “safety” that must be adhered to but also the special safety instructions with danger symbols included under the following main points.
Symbols:
General danger symbol
Danger due to electrical voltage
Note
Signal words:
DANGER!
Acutely dangerous situation.Non-observance results in death or the most serious of injuries.
WARNING!
The user can suffer (serious) injuries. ‘Warning’ implies that (serious) injury to persons is probable if this information is disregarded.
CAUTION!
There is a risk of damage to the product/unit. ‘Caution’ implies that damage to the product is likely if this information is disregarded.
NOTE: Useful information on handling the product. It draws attention to possible problems.
The installation, maintenance and repair personnel must have the necessary qualifications for this work.
Non-observance of the safety instructions can result in risk of injury to persons and damage to product/unit. Non-observance of the safety instructions will result in the loss of any claims to damages.
In detail, non-observance can, for example, result in the following risks:
The existing directives for accident prevention must be adhered to. Danger from electrical current must be eliminated. Local directives or general directives [e.g. IEC, VDE etc.] and those of local power supply companies must be adhered to.
This device may be used by children with an age of 8 years or above as well as by persons with reduced corporal, sensorial or mental capacity or lack of experience and/or lack of knowledge, if they are supervised or instructed regarding the safe operation of the device and understand the resulting dangers. Children shall not play with the device. Cleaning or user maintenance shall not be performed by children without supervision.
The operator must ensure that all inspection and installation work is carried out by authorised and qualified personnel, who are sufficiently informed from their own detailed study of the operating instructions.
Work on the product/unit should only be carried out when it has been brought to a standstill. It is mandatory that the procedure described in the installation and operating instructions for shutting down the product/unit be complied with.
Modifications to the product are only permissible after consultation with the manufacturer. Original spare parts and accessories authorised by the manufacturer ensure safety. The use of other parts can nullify the liability from the results of their usage.
The operating reliability of the supplied product is only guaranteed if the product/unit is used as intended in accordance with Section 4 of the operating instructions. The limit values must on no account fall under or exceed those specified in the catalogue/data sheet.
Immediately check for any transit damage and/or completeness on arrival. Complain immediately if necessary.
CAUTION! Danger of damage to the CIF-Module! Danger of damage due to incorrect handling during transportation and storage.
The unit must be protected from moisture, frost and mechanical damage during transport and interim storage.
The CIF-Modules are designed for external control and operating status signalling of Wilo pumps. The CIF-Modules are not designed for safe deactivation of the pump.
DANGER! Risk of injury and material damage!
Never user the control inputs for safety functions.
Never mount the CIF-Module in a non compatible device.
This document is valid for a firmware version of up to 3.02 of the CIF-module.
To ensure the functionality of the module the following (or higher) firmware versions for the product where the CIF-module is mounted are necessary:
Note: firmware version (SW) is on a sticker close to mains terminal.
Note: firmware version (SW) can be read out at <4.4.2.0>.
Note: firmware version (SW) can be read out at Monitoring/Device Information / Software Version
Pump | Pump SW Version | Remark |
---|---|---|
WILO Stratos Maxo | 01002500 | CIF module version 1.00 |
WILO Stratos Maxo | 01032101 | CIF module version 3.00 |
WILO Stratos Maxo | 01040000 | CIF module version 3.02 |
WILO Stratos | 1.005.005.09 | |
WILO TOP-E | 1.004.00not compatible | |
WILO Stratos GIGA | 1.00 | |
WILO Stratos GIGA B | 1.00 | |
WILO BL-E | 1.00 | |
WILO IP-E/DP-E | 2.003.00 | LC Display |
WILO IL-E/DL-E | 1.294.00 | LC Matrix Display |
WILO IL-E/DL-E | 3.02not compatible | LC Segment Display |
WILO Helix EXCEL | 1.00 | |
WILO MVIE/MVISE/MHIE/HELIX VE (1,1…4 kW) | 2.003.00 | LC Display |
WILO MVIE/MVISE/MHIE/HELIX VE (5.5…7.5 kW) | 1.294.00 | LC Display |
For compatibility with products not listed above, refer to www.wilo.com/automation
Pumps IL-E…BF cannot be used together with IF-Modules.
This document does not apply for the DigiCon-LBF (2083942).
For pumps of the series Stratos GIGA, Stratos GIGA B, BL-E, IP-E/DP-E or IL-E/DL-E functionality may vary.
If the menu item <5.7.2.0> "pressure correction" is not available on the pump display, the following functions are not available:
Example: CIF-Module Modbus RTU
Example: IF-Module Modbus
Example: IF-Module Modbus Stratos
Key | Description |
---|---|
CIF-ModuleIF-Module | Communication Interface ModuleInterface Module |
Modbus |
Model/function identifier: Modbus RTU= RS485 interface, Modbus RTU protocol BACnet MS/TP= RS485 interface, BACnet MS/TP protocol |
Stratos | suitable for this pump series |
Fig. 5.1.1: type key
Technical Specification | |
---|---|
General data | |
Terminal cross-section (finely stranded, no ferrules) | 1.5 mm² (max) |
Electric circuit | SELV, galvanically isolated |
mechanical mating cycles | 250 |
Safety according EN 60335 | mains voltage <=230 V TN/TT system |
Interface CAN in accordance with ISO 11898-2 | |
Cable length | 200 m (max) |
Contact Input (Ext. Off/Min) | |
type | SELV, isolated |
ground reference | shared with 0…10 V input |
open loop voltage | 10 V (max) |
loop current | 10 mA (typical) |
Contact Output SBM | |
type | dry contact |
rating | 30 V AC/60 V DC: 1 A AC1/DC1 (SELV) |
min. load | 12 V DC / 10 mA |
Control input 0…10 V | |
type | SELV, isolated |
ground reference | shared with contact input |
Voltage range | 0…10 V |
Input resistance | > 100 kΩ |
Precision (full range) | 5% |
Absolute maximum input voltage | 24 V DC |
Interface RS485 in accordance with TIA-485-A | |
Load (unit load) | 1/8 |
Input voltage | Max. 12 V (differential A-B) |
Termination resistor | 120 Ω (integrated, switchable) |
Interface type TP/FT-10 | |
cable type | J-Y(St) Y 1 x 2 x 0,8 mm / CAT 5 AWG 22 |
cable length | 900 m with bus topology (terminated on both ends) with max. 3 m stub length |
450 m with free topology, with max. 250 m between two inter-communicating nodes | |
Interface PLR | |
Interface type | current loop (≅ 5 mA) |
Cable length | 200 m (max / 0.5 mm²) |
Double pump interface (DP) | |
Interface type | Wilo specific, short circuit proof, polarity independent |
Voltage | max. 10 Vpp |
Frequency | approx. 150 kHz |
Cable length | max. 3 m |
Digital sensor input | |
Interface type | 3.3 V digital, half duplex |
Cable length | max. 3 m |
Wireless interface | |
Interface type | Bluetooth® LE 4.0 |
profile | GATT peripheral server |
Frequency band | 2400.0…2483.5 MHz |
Maximum radiated transmission power | <10 dBm (EIRP) |
Overview about ProgramIDs and firmware versions (SW) of the IF-Modules LON.
Version | ProgramId | Remark |
---|---|---|
1.1c | 90:00:00:00:00:03:04:01 | - |
1.2 | 9F:FF:CC:00:00:03:04:02 | - |
1.3 | 9F:FF:CC:81:20:43:04:03 | - |
2.01 | 9F:FF:CC:51:14:06:04:04 | - |
2.02 | 9F:FF:CC:51:14:06:04:06 | - |
3.00 | 9F:FF:CC:51:14:06:04:05 | - |
The firmware version can also be read out at nciObjMajVer and nciObjMinVer.
The CIF-Modules BACnet comply to ISO 16485-5:2016 (protocol revision 1.4). For details refer to the PICS statement.
Date: 2019-01-22
Vendor Name: Wilo SE
Product Name: CIF-Module BACnet Stratos MS/TP
Product Model Number: 219036720978112097810
Application Software Version ≥: 1.012.00
Firmware Revision ≥: 4.102.26
BACnet Protocol Revision: 1.4
This product extends a Wilo device with a BACnet Interface as defined in this statement. It is mounted inside the device.
BACnet Smart Actuator (B-SA)
BACnet Smart Sensor (B-SS)
Data Sharing Read Property Execute (DS-RP-B)
Data Sharing Write Property Execute (DS-WP-B)
Device Management Dynamic Object Binding (DM-DOB-B)
Device Management Dynamic Device Binding (DM-DDB-B)
Device Management Device Communication Control (DM-DCC-B)
The product does not support segmentation.
Object type | Object Supported | Dynamically Creatable | Dynamically Deletable | Optional Properties Supported | Optionally Writable Properties |
---|---|---|---|---|---|
Analog Input | yes | no | no | device-type | |
Analog Output | yes | no | no | device-type | |
Binary Input | yes | no | no | device-type | |
Binary Output | yes | no | no | device-type | |
Multistate Input | yes | no | no | device-type | |
Multistate Output | yes | no | no | device-type | |
Device | yes | no | no | location, description | max-master |
MS/TP master (Clause 9), baud rate(s): 9600, 19200, 38400, 76800, 115200
MS/TP slave (Clause 9), baud rate(s): 9600, 19200, 38400, 76800, 115200
The device is configured as MS/TP slave if MAC address is set to 128 or higher, otherwise it is configured as MS/TP master.
Static device binding is not supported.
The product has no networking options.
ISO 10646 (UTF-8)
ISO 8859-1
Indicating support for multiple character sets does not imply that they can all be supported simultaneously.
This product does not support any gateway options.
Non-secure Device - is capable of operating without BACnet Network Security
- End of PICS statement -
The CIF-Modules CANopen comply to the following CAN in Automation standards
The CIF-Modules LON complies to the following LonMark International standards:
In order to get correct decoding of data, make sure that you have the resource files version 13.00 or later installed (available at LonMark International
If problems decoding data remain, you may refer to the online LONMARK type definition.
The CIF-Modules Modbus RTU comply to MODBUS APPLICATION PROTOCOL SPECIFICATION V1.1 and Modbus Serial line protocol V 1.02 in transmission mode RTU available at modbus.org .
The CIF-modules expand the the device with communication capability for various standards.
Further information available at www.wilo.com/automation
The following description replaces the reference to the website and contains the detailed description of the objects. The EDE file is available for download at the URL given below.
The IF-modules BACnet support MS/TP master functionality starting with firmware version (SW) 2.00. The firmware version can be found on the sticker on top of the module.
When writing NULL (no value) to all elements of the priority array, the BACnet standard defines that in this case the reliquish default shall be used as present value. Some of the commandable objects (i.e. outputs) need to have a floating default. This cannot be achieved wit the BACnet relinquish default, which is static by definition. Therefore the floating default comes from inside the device and appears as a virtual write on priority 16.
The following description replaces the reference to the website and contains the detailed description of the objects. The .eds file is available for download at the URL given below.
This paragraph is intentionally empty.
Two objects, the node object and pump object, are implemented in the IF-Module LON. The node object is used to control individual objects within the node; errors which occur in the individual objects are also indicated centrally here.
When registers are 32 Bits wide (including REAL), the the most significant part ist stored at the base address, the least significant part is stored at base address +1.
When registers are 64 Bits wide (including LREAL), the the most significant part ist stored at the base address, the least significant part is stored at base address +3.
This paragraph is intentionally empty.
NOTE
Beside the normal on/off control of the pump there are several methods to override this. The following list shows the priority of those commands. Lower numbers have higher priority
This paragraph is intentionally empty.
For pumps from the Stratos series a simple fluid temperature dependent variation of the delivery head was available as control function. Via IF-module, IR-Monitor or even IR-Stick, adjustment of parameters Tmin / Tmax and p(Tmin) / p(Tmax) was possible.
Pumps with CIF-Modules support a full featured constant temperature control with a sensor mounted directly in the fluid. The datapoints for the legacy function are still existing but without any function.
For usage of this function, select the mode "T-const" from the basic control functions.
As setpoint source "internal setpoint" has to be selected.
A simple approach for adjustment may be to select the mean value of former Tmin and Tmax values as setpoint for the temperature control. There is no general recommendation for the settings. Also WILO does not guarantee full compatibility between Δp-c = F(T) and T-const control.
The usage of remote sensors is currently non functional with CIF-Modules
In case of replacement the pressure or temperature control functionality has to be moved to the DDC controller and the pump should be used as an actuator in constant speed mode.
If the IF-module receives a "wink" command via the LON bus, a corresponding command is sent to the pump also in this condition and the "Id" indication is displayed at the pump for 30 s.
The "wink" function is not available for CIF-modules.
For CIF modules, the data of the master and slave pump are not available individually (even if defined on the interface for compatibility). Only data of the system is provided. To achieve maximum compatibility in existing applications, all datapoints with the scope "master" show values of the pump system while all datapoints with the scope "slave" deliver the error value (if applicable) or a static value. Nevertheless, the pump on signal of the slave is provided individually.
When a scale is mentioned in the following sections, this is always a presentation scale. Read values have to be multiplied by this factor to get the result for presentation.
The setpoint (duty point (rel.)) is defined as a percentage. To scale to absolute values, you may use one of the values speed max-pres value / max pressure dp-c / max pressure dp-v which represent 100 % for the specific control function. A more generic approach is available for software versions 3.00 or higher. Here we provide a duty point 100% value indication the absolute value corresponding 100 %, the physical unit of this 100 % value (duty point (rel.) units) and additionally the relative limits of the duty point (duty point (rel.) min.-output / duty point (rel.) max.-output).
data type | Bit | min | max | encoding | description |
---|---|---|---|---|---|
BOOL | 1 | 0 | 1 | boolean (bit) - can be true or false | |
BYTE | 8 | 0 | 255 | used for e.g. bitsets, no error value | |
DATE | 32 | date | |||
DINT | 32 | -2147483648 | 2147483647 | signed numeric value | |
DWORD | 32 | 0 | 4294967295 | used for e.g. bitsets, no error value | |
INT | 16 | -32768 | 32767 | signed numeric value | |
LINT | 64 | signed numeric value | |||
LREAL | 64 | floating point value according IEEE754 | |||
LWORD | 64 | used for e.g. bitsets, no error value | |||
REAL | 32 | -3.4028234663852886e38 | 3.4028234663852886e38 | floating point value according IEEE754 | |
SINT | 8 | -128 | 127 | signed numeric value | |
STRING | US-ASCII | string with variable length up to declared maximum size | |||
TIME | 32 | time of day up to 24 hours (resolution 1 ms) | |||
TIME_OF_DAY | 32 | time of day | |||
UDINT | 32 | 0 | 4294967295 | unsigned numeric value | |
UINT | 16 | 0 | 65535 | unsigned numeric value | |
ULINT | 64 | used for e.g. bitsets, no error value | |||
USINT | 8 | 0 | 255 | unsigned numeric value | |
WORD | 16 | 0 | 65535 | used for e.g. bitsets, no error value | |
WSTRING | UNICODE | string with variable length up to declared maximum size |
In the subsequent sections, the keyword "error value " appears in the functional description. If a read value is identical to the error value, it indicates that the reading is not available or invalid. Sometimes error values are also indicated for write values. In this case, writing the error value may invalidate the functionality of this datapoint.
In general, several parameters can be written to the pump not only from the specified setpoint source, but also from other sources like HMI or a remote control. The write access is typically possible in parallel to the write access from the CIF-module. Normally the last write wins, independent from the source. To realize that, values from the interface are forwarded to the pump on change. If you want to guarantee that a desired value is forced, you should first read the active value from the pump, write that back to the input and then write the value to be forced. With this principle we ensure that writing from serveral sources in parallel works as desired - especially in combination with gateways, where some of them repeat writing in a timer cycle regardless of a value change.
To monitor a change of value from HMI or remote control, the "active" value can be read from the pump and compared with the current value to be written.
Interfaces/ modules | Ext. Off Stratos | Ext. Min Stratos | Ext. Off/SBM Stratos | SBM Stratos | DP Stratos | Modbus Stratos | BACnet Stratos | CAN Stratos | LON Stratos | PLR Stratos | Smart-IF Stratos |
---|---|---|---|---|---|---|---|---|---|---|---|
Interfaces | |||||||||||
dry contact input | • | • | • | ||||||||
dry contact output | • | • | |||||||||
analog input 0…10 V | • | • | • | ||||||||
digital sensor interface | • | ||||||||||
CAN 2.0A | • | • | |||||||||
RS485 | • | • | |||||||||
LON TP/FT-10 | • | ||||||||||
Bluetooth LE | • | ||||||||||
WILO PLR | • | ||||||||||
dual pump | • | • | • | • | • | • | • | • | • | • | |
Functions | |||||||||||
Override OFF control | • | • | |||||||||
Override Min control | • | ||||||||||
Setpoint Control | • | • | • | • | • | • | • | • | • | ||
run signal (SBM) | • | • | • | • | • | • | • | • | |||
BACnet | • | ||||||||||
Modbus RTU | • | ||||||||||
CANopen | • | ||||||||||
WILO Net | • | ||||||||||
digital temperature input | 2 |
instance | name |
---|---|
0 | System Effective Capacity |
1 | Speed |
2 | Estimated Flow |
3 | (Estimated) Pressure |
4 | Power Rating |
5 | Medium Temperature |
6 | Operation Time |
7 | Consumption (System) |
8 | Speed min-pres-value |
9 | Speed max-pres-value |
10 | Min Pressure dp-v |
11 | Max Pressure dp-v |
12 | Flow (estimated) max-pres-value |
13 | Min Pressure dp-c |
14 | Max Pressure dp-c |
15 | power input max-pres-value |
16 | temperature fluid forward |
17 | temperature fluid return |
18 | Analog In 1 Measured Val. |
19 | Analog In 2 Measured Val. |
20 | power heating |
21 | power refrigeration |
22 | Energy heat. rst.able |
23 | Energy heat. rst.able strt.-tm. |
24 | Energy refrig. rst.able |
25 | Energy refrig. rst.able strt.-tm. |
26 | Energy heating total |
27 | Energy refrigeration total |
28 | Voltage Input |
29 | Electrical Current |
30 | System Time |
31 | duty point (rel.) min.-outp. |
32 | duty point (rel.) max.-outp. |
33 | duty point 100 % value |
34 | duty point (rel.) |
35 | Bus Command Timer Time remain. |
36 | Flow (estimated) limit. min |
37 | Flow (estimated) limit. max |
38 | Flow (estimated) limit. off |
39 | Flow nominal for Ctrl. Fun. |
40 | Flow zero setpoint red. factor |
90 | Debug ID Out |
91 | Debug Value |
1031 | duty point (rel.) min.-outp. |
1032 | duty point (rel.) max.-outp. |
1033 | duty point 100 % value |
1034 | duty point (rel.) |
1131 | duty point (rel.) preset min.-outp. |
1132 | duty point (rel.) preset max.-outp. |
1133 | duty point 100 % value preset |
1231 | duty point (rel.) aux. min.-outp. |
1232 | duty point (rel.) aux. max.-outp. |
1233 | duty point 100 % value aux. |
2009 | temperature reference T1 |
2010 | temperature reference T2 |
2031 | duty point (rel.) min.-outp. |
2032 | duty point (rel.) max.-outp. |
2033 | duty point 100 % value |
3015 | Flow replacement value |
property | value |
---|---|
instance # | 0 |
unit | % |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1 |
unit | 1/min |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows the rotational speed of the pump. (Master-Pump)
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2 |
unit | m³/h |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the (calculated) flow. Calculated values are not suitable for closed loop control applications due to restricted availibility and precision over the range of operation.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 3 |
unit | bar |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the current pressure at the pump system. Depending on the sensor arrangement, this value is an absolute or a differential pressure. It can also be a signal of a remote sensor. Some pump type operate without a pressure sensor. In this case, the value is calculated.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 4 |
unit | W |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the current electrical input power.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 5 |
unit | °C |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows the measurement value of the fluid temperature sensor. It can also be a remote sensor signal.
Support reference
Stratos MAXO; Stratos;property | value |
---|---|
instance # | 6 |
unit | min |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This value represents the total time where the device was running (motor turning).
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 7 |
unit | kWh |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This value represent the totally consumed electrical energy. This value is suitable for an energy performance evaluation.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 8 |
unit | 1/min |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows the rotational speed of the pump.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 9 |
unit | 1/min |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows the rotational speed of the pump.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 10 |
unit | bar |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows the minimum possible pressure setpoint in the operation mode Δ p-v.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 11 |
unit | bar |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows the maximum possible pressure setpoint for the operation mode Δ p-v. It can be used to scale a setpoint in percent back to the physical unit. For multistage pumps, this value is not the maximum head of the pump, but the measurement range of the sensor.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 12 |
unit | m³/h |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the (calculated) flow. Calculated values are not suitable for closed loop control applications due to restricted availibility and precision over the range of operation.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 13 |
unit | bar |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows the minimum possible pressure setpoint in the operation mode Δ p-c.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 14 |
unit | bar |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows the maximum possible pressure setpointfor the operation mode Δ p-c. It can be used to scale a setpoint in percent back to the physical unit. For multistage pumps, this value is not the maximum head of the pump, but the measurement range of the sensor.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 15 |
unit | W |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the current electrical input power.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 16 |
unit | °C |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represents the forward fluid temperature of the hydronic circuit.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 17 |
unit | °C |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represents the return fluid temperature of the hydronic circuit.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 18 |
unit | - |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represents the measured value of the analog input #1.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 19 |
unit | - |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represents the measured value of the analog input #2.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 20 |
unit | W |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal shows the heating power in the measured hydronic circuit.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 21 |
unit | W |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal shows the refrigeration power in the measured hydronic circuit.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 22 |
unit | kWh |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal shows the accumulated heating energy in the measured hydronic circuit. This value can be resetted. N.B.: Reset is not necessarily possible on this interface
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 23 |
unit | s (1970-01-01 0:00 UTC) |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal shows the accumulated heating energy in the measured hydronic circuit. This value can be resetted. N.B.: Reset is not necessarily possible on this interface
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 24 |
unit | kWh |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal shows the accumulated refrigeration energy in the measured hydronic circuit. This value can be resetted. N.B.: Reset is not necessarily possible on this interface
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 25 |
unit | s (1970-01-01 0:00 UTC) |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal shows the accumulated refrigeration energy in the measured hydronic circuit. This value can be resetted. N.B.: Reset is not necessarily possible on this interface
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 26 |
unit | kWh |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal shows the accumulated heating energy in the measured hydronic circuit. This value cannot be resetted.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 27 |
unit | kWh |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal shows the accumulated refrigeration energy in the measured hydronic circuit. This value cannot be resetted.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 28 |
unit | V |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represents the input voltage.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 29 |
unit | A |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represents the electrical input current.
Support reference
Stratos; IL_E, … MVIE, …(0.55…7.5 kW);property | value |
---|---|
instance # | 30 |
unit | s (1970-01-01 0:00 UTC) |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. The time information used for the system is available here. Starting point is 1970-01-01 0:00 UTC.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 31 |
unit | % |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 32 |
unit | % |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 33 |
unit | - |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represent the 100 % reference value for the duty point in the current control function.
Support reference
CIF-/IF-Module mapped;property | value |
---|---|
instance # | 34 |
unit | % |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 35 |
unit | s |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This value represents the remaining time until the bus command timer elapses.
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 36 |
unit | m³/h |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This defines the minimum limit of the following signal. This signal represents the (calculated) flow. Calculated values are not suitable for closed loop control applications due to restricted availibility and precision over the range of operation.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 37 |
unit | m³/h |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This defines the maximum limit of the following signal. This signal represents the (calculated) flow. Calculated values are not suitable for closed loop control applications due to restricted availibility and precision over the range of operation.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 38 |
unit | m³/h |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This incorporates the 'off' limit for the signal This signal represents the (calculated) flow. Calculated values are not suitable for closed loop control applications due to restricted availibility and precision over the range of operation.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 39 |
unit | m³/h |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the nominal flow where the setpoint of a flow variable control function refers to.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 40 |
unit | % |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the setpoint reduction factor for flow dependent control funtions at zero flow.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 90 |
unit | - |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the ID of a value for software debugging. This signal shall never be used in productive environments.
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 91 |
unit | - |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents a value for software debugging. This signal shall never be used in productive environments.
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 1031 |
unit | % |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1032 |
unit | % |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1033 |
unit | - |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represent the 100 % reference value for the duty point in the current control function.
Support reference
CIF-/IF-Module mapped;property | value |
---|---|
instance # | 1034 |
unit | % |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1131 |
unit | % |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This incorporates a preset or fallback function for the following signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1132 |
unit | % |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This incorporates a preset or fallback function for the following signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1133 |
unit | - |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This incorporates a preset or fallback function for the following signal. This signal represent the 100 % reference value for the duty point in the current control function.
Support reference
CIF-/IF-Module mapped;property | value |
---|---|
instance # | 1231 |
unit | % |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This defines an alternative value for the following signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1232 |
unit | % |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This defines an alternative value for the following signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1233 |
unit | - |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This defines an alternative value for the following signal. This signal represent the 100 % reference value for the duty point in the current control function.
Support reference
CIF-/IF-Module mapped;property | value |
---|---|
instance # | 2009 |
unit | °C |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the first fluid reference temperature (T1) of the hydronic circuit for control purposes.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 2010 |
unit | °C |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the second fluid reference temperature (T2) of the hydronic circuit for control purposes.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 2031 |
unit | % |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2032 |
unit | % |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2033 |
unit | - |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This is the base signal. This signal represent the 100 % reference value for the duty point in the current control function.
Support reference
CIF-/IF-Module mapped;property | value |
---|---|
instance # | 3015 |
unit | m³/h |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the accumulated flow replacement value for all pumps of a pump combination, which permanently cannot provide a flow information.
Support reference
Stratos MAXO;instance | name |
---|---|
0 | Bus Setpoint |
1 | TEMP_VARIABLE Tmin |
2 | TEMP_VARIABLE Tmax |
3 | TEMP_VARIABLE Pmin |
4 | TEMP_VARIABLE Pmax |
5 | CONST_CONTROL Kp |
6 | CONST_CONTROL Ti |
7 | CONST_CONTROL Td |
8 | Bus Command Timer Timeout |
9 | temperature reference T1 |
10 | temperature reference T2 |
11 | sensor signal |
36 | Flow (estimated) limit. min |
37 | Flow (estimated) limit. max |
38 | Flow (estimated) limit. off |
39 | Flow nominal for Ctrl. Fun. |
40 | Flow zero setpoint red. factor |
90 | Debug ID In |
100 | duty point (rel.) preset |
200 | duty point (rel.) aux. |
3012 | Flow replacement value |
property | value |
---|---|
instance # | 0 |
unit | % |
relinquish default | 100 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1 |
unit | °C |
relinquish default | 3.40282e+38 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This Parameter sets the lower temperature limit for temperature dependent pressure control. Below this temperature, the head is always constant Since this value must always be at least 10 K smaller than Tmax, the value Tmax is always set to 10 K higher than this value with every write access.
Support reference
CIF-/IF-Module internal; Stratos;property | value |
---|---|
instance # | 2 |
unit | °C |
relinquish default | 3.40282e+38 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This Parameter sets the upper limit for temperature dependent pressure head control. The head above this temperature is constant. Since this value must always be at least 10 K higher than Tmin, the value Tmin is always set to at least 10 K lower than this value.
Support reference
CIF-/IF-Module internal; Stratos;property | value |
---|---|
instance # | 3 |
unit | bar |
relinquish default | 3.40282e+38 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This parameter belongs to the operation mode Δp-c = f(T). It sets the presssure at and below the temperature Tmin. This value can be higheer or lower than the value of Tmax.
Support reference
CIF-/IF-Module internal; Stratos;property | value |
---|---|
instance # | 4 |
unit | bar |
relinquish default | 3.40282e+38 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This parameter belongs to the operation mode Δp-c = f(T). It sets the presssure at and above the temperature Tmax. This value can be higher or lower than the value of Δp(Tmin).
Support reference
CIF-/IF-Module internal; Stratos;property | value |
---|---|
instance # | 5 |
unit | - |
relinquish default | 0.5 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. The parameter Kp controls the gain of the PID closed loop controller.
Support reference
Stratos MAXO; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 6 |
unit | s |
relinquish default | 0 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. The parameter Ti represent the integral time for the PID closed loop controller.
Support reference
CIF-/IF-Module mapped; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 7 |
unit | s |
relinquish default | 0 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. The Td parameter represents the derivative time for the PID closed loop controller.
Support reference
CIF-/IF-Module mapped; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 8 |
unit | s |
relinquish default | 300 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This value sets the timeout for the Bus Command Timer. Minimum value is 20 s; factory default is 300 s.
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 9 |
unit | °C |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represents the first fluid reference temperature (T1) of the hydronic circuit for control purposes.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 10 |
unit | °C |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal represents the second fluid reference temperature (T2) of the hydronic circuit for control purposes.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 11 |
unit | - |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal defines a sensor value for closed loop control applications. Scaling and physical unit are corresponding to the current control function
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 36 |
unit | m³/h |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This defines the minimum limit of the following signal. This signal represents the (calculated) flow. Calculated values are not suitable for closed loop control applications due to restricted availibility and precision over the range of operation.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 37 |
unit | m³/h |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This defines the maximum limit of the following signal. This signal represents the (calculated) flow. Calculated values are not suitable for closed loop control applications due to restricted availibility and precision over the range of operation.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 38 |
unit | m³/h |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This incorporates the 'off' limit for the signal This signal represents the (calculated) flow. Calculated values are not suitable for closed loop control applications due to restricted availibility and precision over the range of operation.
Support reference
Stratos MAXO; Stratos; IL_E, …;property | value |
---|---|
instance # | 39 |
unit | m³/h |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the nominal flow where the setpoint of a flow variable control function refers to.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 40 |
unit | % |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the setpoint reduction factor for flow dependent control funtions at zero flow.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 90 |
unit | - |
relinquish default | 0 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the ID of a value for software debugging. This signal shall never be used in productive environments.
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 100 |
unit | % |
relinquish default | 100 |
function | input value / readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This incorporates a preset or fallback function for the following signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 200 |
unit | % |
relinquish default | 100 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This defines an alternative value for the following signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 3012 |
unit | m³/h |
relinquish default | 3.40282e+38 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the accumulated flow replacement value for all pumps of a pump combination, which permanently cannot provide a flow information.
Support reference
Stratos MAXO;instance | name |
---|---|
0 | System Command Pump on |
1 | System Command off override |
2 | System Command max override |
3 | System Command min override |
4 | Status Lower Regulation Limit |
5 | Status Upper Regulation Limit |
6 | Status Setpoint out of Range |
7 | Status Setpoint Diff. > 10 % |
8 | Auto Night Mode |
9 | Status Ready for Operation |
10 | Status Pump is operating |
11 | Status Service required |
12 | Status Warning Present |
13 | Status Error Present |
14 | Status Final Error Present |
15 | Status Local Operation Active |
16 | Status External Setpoint Active |
17 | Override on |
18 | actuation limit |
19 | Auto Night Mode |
2000 | Pump on |
property | value |
---|---|
instance # | 0 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the normal "ON" command. This signal is effektive, if no override functions are active.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal overrides the pump (system) command with "OFF" command.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal overrides the pump (system) command with "MAX" command.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 3 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal overrides the pump (system) command with "MIN" command.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 4 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows that the control output for the pump speed is at it´s low limit. The pump (system) cannot follow the control signal in this direction.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 5 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows that the control output for the pump speed is as it´s high limit. The pump (system) cannot follow the control signal in this direction.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 6 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows that the setpoint is out of the possible range. The pump (system) will not perform according the setpoint.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 7 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows that the setpoint is not reached. Possible causes are an insufficient pump size or a setpoint which is lower than the minimal setpoint.
Support reference
Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 8 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the automatic setback mode . This mode forces the device to run at lower settings than the normal duty point.
Support reference
Stratos MAXO; Stratos;property | value |
---|---|
instance # | 9 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal indicates that the motor of the pump is capable to run in case of a valid "on" command.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 10 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the normal "ON" command. This signal is effektive, if no override functions are active.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 11 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows a required service action for the device. It does not mean any current insufficency for the operation.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 12 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows a warning regarding a possible insufficency or switch off. It does not mean an effective insuffency for the operation.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 13 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows an error of the pump. It means that the motor is currently stopped. A start retry will be performed.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 14 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows a final error of the pump. It means that the motor is currently stopped. A start retry will not be performed.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 15 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows that the control via this communication channel is overidden by a local action at the device.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 16 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal shows that the setpoint is not provided by this communication channel.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 17 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal overrides the pump (system) command with "ON" command.
Support reference
CIF-/IF-Module internal; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 18 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal shows that the control output for the pump speed is at one of the limits. The pump (system) cannot follow further changes of the control signal in this direction.
Support reference
CIF-/IF-Module mapped;property | value |
---|---|
instance # | 19 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the automatic setback mode . This mode forces the device to run at lower settings than the normal duty point.
Support reference
Stratos MAXO; Stratos;property | value |
---|---|
instance # | 2000 |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This is the base signal. This signal represents the normal "ON" command. This signal is effektive, if no override functions are active.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;instance | name |
---|---|
0 | Bus Command Pump on |
1 | Bus Command off override |
2 | Bus Command max override |
3 | Bus Command min override |
8 | Auto Night Mode |
17 | Override on |
100 | Preset Command Pump on preset |
200 | Pump on aux. |
property | value |
---|---|
instance # | 0 |
relinquish default | 0 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal represents the normal "ON" command. This signal is effektive, if no override functions are active.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1 |
relinquish default | 0 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal overrides the pump (system) command with "OFF" command.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2 |
relinquish default | 0 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal overrides the pump (system) command with "MAX" command.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 3 |
relinquish default | 0 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This is the base signal. This signal overrides the pump (system) command with "MIN" command.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 8 |
relinquish default | 0 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
This is the base signal. This signal represents the automatic setback mode . This mode forces the device to run at lower settings than the normal duty point.
Support reference
Stratos MAXO; Stratos;property | value |
---|---|
instance # | 17 |
relinquish default | 0 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
This is the base signal. This signal overrides the pump (system) command with "ON" command.
Support reference
CIF-/IF-Module internal; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 100 |
relinquish default | 1 |
function | input value / readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
This incorporates a preset or fallback function for the following signal. This signal represents the normal "ON" command. This signal is effektive, if no override functions are active.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 200 |
relinquish default | 0 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
This defines an alternative value for the following signal. This signal represents the normal "ON" command. This signal is effektive, if no override functions are active.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;instance | name |
---|---|
0 | System Control Mode |
1 | Current Warning/Error Message |
2 | System Command Timer |
3 | Setpoint Signal Source |
4 | User Trouble Code |
18 | Analog In 1 Measured Val. units |
19 | Analog In 2 Measured Val. units |
33 | duty point (rel.) units |
1003 | Setpoint Signal Source |
1033 | duty point (rel.) units |
1133 | duty point (rel.) preset units |
1233 | duty point (rel.) aux. units |
2000 | Control Function |
2033 | duty point (rel.) units |
2034 | parameter set selector |
property | value |
---|---|
instance # | 0 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | Gen_Spd | This control mode operates the device with constant speed. | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | CONST_FREQ | reserved | − |
3 | CONST_POWER | reserved | − |
4 | CONST_HEAD | reserved | − |
5 | CONST_PRESSURE | This control mode operates the device with constant discharge pressure. | MVIE, …; |
6 | Gen_PHdConst | This control mode operates the device with constant differential pressure. | Stratos MAXO; Stratos; IL_E, …; |
7 | Gen_PHdVar | This control mode operates the device with a differential pressure which varies with the flow. | Stratos MAXO; Stratos; IL_E, …; |
8 | CONST_FLOW | reserved | − |
9 | Gen_T | This control mode operates the device with constant temperature for generic application. | Stratos MAXO; |
10 | Gen_TDiff | This control mode operates the device with constant differential temperature for generic application. | Stratos MAXO; |
11 | CONST_LEV | reserved | − |
12 | TEMP_VARIABLE | This control mode operates the device with a differential pressure which varies with the fluid temperature. | CIF-/IF-Module internal; Stratos; |
13 | Gen_UsrDfd | This control mode operates the device with user configurable PID controller. | Stratos MAXO; IL_E, …; MVIE, …; |
14 | VAR_PRESSURE | This control mode operates the device with a discharge pressure that varies with the flow. | MVIE, …; |
15 | INVALID | Invalid value | CIF-/IF-Module internal; |
16 | HeatRadiator_PHd | This control mode operates the device with a differential pressure which varies with the flow for heating radiator applications. | Stratos MAXO; |
17 | HeatRadiator_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating radiator applications. | Stratos MAXO; |
18 | HeatRadiator_T | This control mode operates the device with constant temperature for heating radiator application. | Stratos MAXO; |
19 | HeatFloor_PHd | This control mode operates the device with a differential pressure which varies with the flow for floor heating applications. | Stratos MAXO; |
20 | HeatFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor heating applications. | Stratos MAXO; |
21 | HeatFloor_T | This control mode operates the device with constant temperature for floor heating application. | Stratos MAXO; |
22 | HeatCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling heating applications. | Stratos MAXO; |
23 | HeatCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling heating applications. | Stratos MAXO; |
24 | HeatCeiling_T | This control mode operates the device with constant temperature for ceiling heating applications. | Stratos MAXO; |
25 | HeatFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil heating applications. | Stratos MAXO; |
26 | HeatFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil heating applications. | Stratos MAXO; |
27 | HeatFan_T | This control mode operates the device with constant temperature for fan coil heating applications. | Stratos MAXO; |
28 | HeatB._T | This control mode operates the device with constant temperature for heating applications with hydraulic separator. | Stratos MAXO; |
29 | HeatB._TDiff | This control mode operates the device with constant differential temperature for heating applications with hydraulic separator. | Stratos MAXO; |
30 | HeatB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with hydraulic separator. | Stratos MAXO; |
31 | HeatE._T | This control mode operates the device with constant temperature for heating applications with heat exchanger. | Stratos MAXO; |
32 | HeatE._TDiff | This control mode operates the device with constant differential temperature for heating applications with heat exchanger. | Stratos MAXO; |
33 | HeatE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with heat exchanger. | Stratos MAXO; |
34 | Heat_PHdConst | This control mode operates the device with constant differential pressure for heating applications. | Stratos MAXO; |
35 | Heat_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for heating applications. | Stratos MAXO; |
36 | Heat_PHdExt | This control mode operates the device with constant differential pressure for heating applications with external differential pressure sensor. | Stratos MAXO; |
37 | Heat_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating applications. | Stratos MAXO; |
38 | Heat_VolFlow | This control mode operates the device with constant volume flow for heating applications. | Stratos MAXO; |
39 | Heat_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications. | Stratos MAXO; |
40 | Heat_T | This control mode operates the device with constant temperature for heating application. | Stratos MAXO; |
41 | Heat_TDiff | This control mode operates the device with constant differential temperature for heating application. | Stratos MAXO; |
42 | Heat_Spd | This control mode operates the device with constant speed for heating applications. | Stratos MAXO; |
43 | CoolCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling cooling applications. | Stratos MAXO; |
44 | CoolCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling cooling applications. | Stratos MAXO; |
45 | CoolCeiling_T | This control mode operates the device with constant temperature for ceiling cooling application. | Stratos MAXO; |
46 | CoolFloor_PHd | This control mode operates the device with constant differential pressure for floor cooling applications. | Stratos MAXO; |
47 | CoolFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor cooling applications. | Stratos MAXO; |
48 | CoolFloor_T | This control mode operates the device with constant temperature mode for floor cooling applications. | Stratos MAXO; |
49 | CoolFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil cooling applications. | Stratos MAXO; |
50 | CoolFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil cooling applications. | Stratos MAXO; |
51 | CoolFan_T | This control mode operates the device with constant temperature mode for fan coil cooling application. | Stratos MAXO; |
52 | CoolB._T | This control mode operates the device with constant temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
53 | CoolB._TDiff | This control mode operates the device with constant differential temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
54 | CoolB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with hydraulic separator. | Stratos MAXO; |
55 | CoolE._T | This control mode operates the device with constant temperature mode for cooling application with heat exchanger. | Stratos MAXO; |
56 | CoolE._TDiff | This control mode operates the device with constant differential temperature for cooling applications with heat exchanger. | Stratos MAXO; |
57 | CoolE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with heat exhanger. | Stratos MAXO; |
58 | Cool_PHdConst | This control mode operates the device with constant differential pressure for cooling applications. | Stratos MAXO; |
59 | Cool_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for cooling applications. | Stratos MAXO; |
60 | Cool_PHdExt | This control mode operates the device with constant differential pressure for cooling application with external differential pressure sensor. | Stratos MAXO; |
61 | Cool_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for cooling applications. | Stratos MAXO; |
62 | Cool_VolFlow | This control mode operates the device with constant volume flow for cooling applications. | Stratos MAXO; |
63 | Cool_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications. | Stratos MAXO; |
64 | Cool_T | This control mode operates the device with constant temperature mode for cooling application. | Stratos MAXO; |
65 | Cool_TDiff | This control mode operates the device with constant differential temperature for cooling application. | Stratos MAXO; |
66 | Cool_Spd | This control mode operates the motor with constant speed for cooling applications. | Stratos MAXO; |
67 | San_Circ._T | This control mode operates the device with constant temperature for sanitary hot water circulation. | Stratos MAXO; |
68 | SanW.Heat._TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application with heat exchanger in the storage tank. | Stratos MAXO; |
69 | SanL.S._T | reserved | Stratos MAXO; |
70 | SanL.S._Acc.Flow | reserved | Stratos MAXO; |
71 | San_PHdConst | This control mode operates the device with constant differential pressure for sanitary hot water applications. | Stratos MAXO; |
72 | San_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for sanitary hot water applications. | Stratos MAXO; |
73 | San_PHdExternal | This control mode operates the device with constant differential pressure for sanitary hot water applications with external differential pressure sensor. | Stratos MAXO; |
74 | San_VolFlow | This control mode operates the device with constant volume flow for sanitary hot water applications. | Stratos MAXO; |
75 | San_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for sanitary hot water applications. | Stratos MAXO; |
76 | San_T | This control mode operates the device with constant temperature for sanitary hot water application. | Stratos MAXO; |
77 | San_TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application. | Stratos MAXO; |
78 | San_Spd | This control mode operates the motor with constant speed for sanitary hot water applications. | Stratos MAXO; |
79 | Gen_PHdExt | This control mode operates the device with constant differential pressure for generic applications with external diffential pressure sensor. | Stratos MAXO; |
80 | Gen_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for generic applications. | Stratos MAXO; |
81 | Gen_VolFlow | This control mode operates the device with constant volume flow for generic applications. | Stratos MAXO; |
82 | Gen_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for generic applications. | Stratos MAXO; |
83 | ScndPHdConst | This control mode operates the device with constant differential pressure. A special parameter set which is stored in the device is used. | Stratos MAXO; |
84 | ScndPHdVar | This control mode operates the device with a differential pressure which varies with the flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
85 | ScndFlow | This control mode operates the device with constant volume flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
86 | ScndSpd | This control mode operates the motor with constant speed. A special parameter set which is stored in the device is used. | Stratos MAXO; |
This is the base signal. This signal represents the control mode for the device. In case a selected mode is not supported, the device will stay in the previously selected mode.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | NO_ERROR | No error | CIF-/IF-Module mapped; Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | FLUID_FLOW_HI | Flow rate out of range, Q > 1,1 * Qnominal | CIF-/IF-Module mapped; MVIE, …; |
3 | FLUID_TEMP_LO | Fluid temperature < T min | CIF-/IF-Module mapped; |
4 | FLUID_TEMP_HI | Fluid temperature > T max | CIF-/IF-Module mapped; Stratos; |
5 | MAINS_VOLT_LO | mains under-voltage | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
6 | MAINS_VOLT_HI | mains overvoltage | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
7 | MAINS_PHASE | Missing mains phase | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
8 | PUMP_GENERATOR | Generator operation | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
9 | PUMP_CAVITATION | Cavitation | CIF-/IF-Module mapped; |
10 | PUMP_TURBINE | Turbine mode | CIF-/IF-Module mapped; Stratos; |
11 | PUMP_BLOCKED | Blocked rotor | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
12 | PUMP_DRY_RUN | Dry running | CIF-/IF-Module mapped; Stratos; MVIE, …; |
13 | PUMP_ROUGH_IMP | Rough running impeller | CIF-/IF-Module mapped; |
14 | PUMP_CLOGGED | Clogged or unfastened impeller | CIF-/IF-Module mapped; |
15 | PUMP_LEAK_INT | Internal motor leakage sensor tripped | CIF-/IF-Module mapped; |
16 | PUMP_VIBRATION | Vibration over limit | CIF-/IF-Module mapped; |
17 | PUMP_ROT_DIR | Wrong rotation direction | CIF-/IF-Module mapped; |
18 | PUMP_LEAK_EXT | Water leakage | CIF-/IF-Module mapped; |
19 | PUMP_SEAL | Mechanical seal defect | CIF-/IF-Module mapped; |
20 | FLUID_FLOW_LOW | error volume flow pump | CIF-/IF-Module mapped; |
21 | MOT_TEMP_HI | Over temperature motor winding | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
22 | MOT_TORQUE_HI | Overload motor (torque) | CIF-/IF-Module mapped; Stratos; IL_E, …; |
23 | MOT_INSULATION | Motor insulation fault | CIF-/IF-Module mapped; |
24 | MOT_SHORT_CIRC | Short circuit (phase - phase, phase - ground) | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
25 | MOT_CURR_LO | Current too low | CIF-/IF-Module mapped; |
26 | MOT_OPEN_CIRC | Missing motor/winding contact | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
27 | MOT_TEMP_SENS | WSK or PTC cable break | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
28 | MOT_SPEED_SENS | Speed sensor defect | CIF-/IF-Module mapped; |
29 | MOT_BEARING | Bearing wear over limit | CIF-/IF-Module mapped; |
30 | MOT_TEMP_WARN | Pre alarm WSK | CIF-/IF-Module mapped; |
31 | MOD_TEMP_HI | Over temperature module | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
32 | MOD_TEMP_COMP_HI | Over temperature power bridge / components | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
33 | MOD_VOLT_DC_LO | Undervoltage DC link | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
34 | MOD_VOLT_DC_HI | Overvoltage DC link | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
35 | E034 | Wrong combination pump - module | CIF-/IF-Module mapped; |
36 | E035 | DP/MP: several same identity | CIF-/IF-Module mapped; IL_E, …; |
37 | MOD_RELAY | Inrush current relay (Lader.) PFC defect (PFC) AD Converter (ADC) Synchronisation (Sync) Communication (Komm) | CIF-/IF-Module mapped; Stratos; |
38 | MOD_DC_LINK | DC link capacitor defect | CIF-/IF-Module mapped; |
39 | MOD_SENS_FLUID | PTC fluid defect | CIF-/IF-Module mapped; Stratos; |
40 | E039 | - | CIF-/IF-Module mapped; |
41 | SENS_PRESS | Ext. pressure sensor / switch defect | CIF-/IF-Module mapped; |
42 | SENS_ACC | Ext. accelaration sensor defect | CIF-/IF-Module mapped; |
43 | SENS_IN1 | Connection to signal source at IN1 open loop / short circuit (2…10V/4…20mA) | CIF-/IF-Module mapped; MVIE, …; |
44 | SENS_IN2 | Connection to signal source at IN2 open loop / short circuit (2…10V/4…20mA) | CIF-/IF-Module mapped; |
45 | SENS_SPEED | Ext. Revolution speed sensor defect | CIF-/IF-Module mapped; |
46 | SENS_TEMP_1 | Temperature sensor 1 defect | CIF-/IF-Module mapped; |
47 | SENS_TEMP_2 | Temperature sensor 2 defect | CIF-/IF-Module mapped; |
48 | SENS_TEMP_3 | Temperature sensor 3 defect | CIF-/IF-Module mapped; |
49 | E048 | - | CIF-/IF-Module mapped; |
50 | E049 | Expansion vessel / check valve | CIF-/IF-Module mapped; |
51 | COM_BMS | BMS-communication timeout | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
52 | COM_DP | Not permitted combination DP/MP | CIF-/IF-Module mapped; Stratos; IL_E, …; |
53 | COM_DP_TIMEOUT | DP/MP-communication timeout | CIF-/IF-Module mapped; Stratos; IL_E, …; |
54 | COM_CAN_ADR | Double / multiple adress (for CAN bus communication) | CIF-/IF-Module mapped; Stratos; |
55 | COM_CAN_BIND | Binding not possible, bus device missing | CIF-/IF-Module mapped; Stratos; MVIE, …; |
56 | COM_VFD | Frequency converter - communication error | CIF-/IF-Module mapped; |
57 | E056 | - | CIF-/IF-Module mapped; |
58 | E057 | - | CIF-/IF-Module mapped; |
59 | E058 | - | CIF-/IF-Module mapped; |
60 | E059 | - | CIF-/IF-Module mapped; |
61 | SYS_PRESS_HI | System over pressure | CIF-/IF-Module mapped; |
62 | SYS_PRESS_LO | System low pressure | CIF-/IF-Module mapped; |
63 | SYS_FLUID_LO | Lack of water (.x suffix for location) | CIF-/IF-Module mapped; |
64 | SYS_FLUID_LEAK | leakage in system (loss of water) | CIF-/IF-Module mapped; |
65 | SYS_FLUID_FROST | Frost protection | CIF-/IF-Module mapped; |
66 | SYS_FLUID_DRAIN | drainage failure | CIF-/IF-Module mapped; |
67 | SYS_FLUID_FLOOD | Flood (max. water level) | CIF-/IF-Module mapped; |
68 | SYS_OVD_FLUID_D | override of the standard discharge path (.x suffix for location) | CIF-/IF-Module mapped; |
69 | SYS_OVD_OFF | Priority off | CIF-/IF-Module mapped; |
70 | E069 | - | CIF-/IF-Module mapped; |
71 | E070 | Internal communication error | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
72 | E071 | memory-error | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
73 | E072 | Power components/ frequency converter | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
74 | E073 | Frequency converter number | CIF-/IF-Module mapped; |
75 | E074 | Internal fan defect | CIF-/IF-Module mapped; |
76 | E075 | Inrush current relay defect | CIF-/IF-Module mapped; MVIE, …; |
77 | E076 | Current sensor defect | CIF-/IF-Module mapped; IL_E, …; |
78 | E077 | 24V supply voltage defect | CIF-/IF-Module mapped; IL_E, …; |
79 | E078 | Unknown motor number | CIF-/IF-Module mapped; |
80 | E079 | - | CIF-/IF-Module mapped; |
81 | PUMP_FAULT | Pump (collective fault) | CIF-/IF-Module mapped; |
82 | E081 | Prealarm frequency converter (overtemperature, overload,…) | CIF-/IF-Module mapped; |
83 | E082 | Frequency converter | CIF-/IF-Module mapped; |
84 | E083 | - | CIF-/IF-Module mapped; |
85 | E084 | - | CIF-/IF-Module mapped; |
86 | E085 | - | CIF-/IF-Module mapped; |
87 | E086 | - | CIF-/IF-Module mapped; |
88 | E087 | - | CIF-/IF-Module mapped; |
89 | E088 | - | CIF-/IF-Module mapped; |
90 | MOT_MOD_FAULT | Motor or module fault | CIF-/IF-Module mapped; |
91 | E090 | Implausible combination | CIF-/IF-Module mapped; |
92 | E091 | - | CIF-/IF-Module mapped; |
93 | E092 | - | CIF-/IF-Module mapped; |
94 | E093 | - | CIF-/IF-Module mapped; |
95 | E094 | - | CIF-/IF-Module mapped; |
96 | E095 | - | CIF-/IF-Module mapped; |
97 | E096 | Infobyte not set | CIF-/IF-Module mapped; IL_E, …; |
98 | E097 | Flexpump type data missing | CIF-/IF-Module mapped; IL_E, …; |
99 | E098 | Flexpump type data not valid (Checksum) | CIF-/IF-Module mapped; IL_E, …; |
100 | E099 | Pump type | CIF-/IF-Module mapped; |
101 | CTRL_BATT | Battery down | CIF-/IF-Module mapped; |
102 | PAN_TEMP_HI | Panel overtemperature | CIF-/IF-Module mapped; |
103 | PAN_TEMP_LO | Panel low temperature | CIF-/IF-Module mapped; |
104 | PAN_FAN_INT | Panel fan defect | CIF-/IF-Module mapped; |
105 | MOT_FAN_EXT | External fan motor defect | CIF-/IF-Module mapped; |
106 | CTRL_SHORT_CIRC | Control / power circuit short circuit (.x suffix for location) | CIF-/IF-Module mapped; |
107 | CTRL_OPEN_LOOP | Control / power circuit open loop (.x suffix for location) | CIF-/IF-Module mapped; |
108 | CTRL_ELEC_FAULT | Control / power circuit electrical fault (.x suffix for location) | CIF-/IF-Module mapped; |
109 | E108 | Reserved block for controller faults | CIF-/IF-Module mapped; |
110 | CTRL_EXT_FAULT | external error | CIF-/IF-Module mapped; |
111 | E110 | loss of sync | CIF-/IF-Module mapped; |
112 | E111 | overcurrent | CIF-/IF-Module mapped; |
113 | E112 | Motor speed higher than synchronous value | CIF-/IF-Module mapped; |
114 | E113 | CIF-/IF-Module mapped; | |
115 | E114 | CIF-/IF-Module mapped; | |
116 | E115 | CIF-/IF-Module mapped; | |
117 | E116 | CIF-/IF-Module mapped; | |
118 | E117 | CIF-/IF-Module mapped; | |
119 | E118 | CIF-/IF-Module mapped; | |
120 | MOT_TURBINE | turbine driven | CIF-/IF-Module mapped; |
121 | E120 | Reserved | CIF-/IF-Module mapped; |
122 | E121 | Sensor error motor PTC short circuit | CIF-/IF-Module mapped; |
123 | E122 | Sensor error hybrid module open loop | CIF-/IF-Module mapped; |
124 | E123 | Sensor error hybrid module short circuit | CIF-/IF-Module mapped; |
125 | E124 | sensor error electronics open loop | CIF-/IF-Module mapped; |
126 | E125 | sensor error electronics short circuit | CIF-/IF-Module mapped; |
127 | E126 | CIF-/IF-Module mapped; | |
128 | E127 | CIF-/IF-Module mapped; | |
129 | E128 | CIF-/IF-Module mapped; | |
130 | E129 | CIF-/IF-Module mapped; | |
131 | ENG_FUEL | fuel level low | CIF-/IF-Module mapped; |
132 | ENG_PREHEAT | preheating engine | CIF-/IF-Module mapped; |
133 | ENG_PRESS_OIL_LO | oil pressure | CIF-/IF-Module mapped; |
134 | ENG_TEMP_HI | overtemperature motor | CIF-/IF-Module mapped; |
135 | E134 | CIF-/IF-Module mapped; | |
136 | E135 | CIF-/IF-Module mapped; | |
137 | E136 | CIF-/IF-Module mapped; | |
138 | ENG_DRIVE_BELT | drive belt | CIF-/IF-Module mapped; |
139 | ENG_FLUID_LO | Cooling liquid level motor | CIF-/IF-Module mapped; |
140 | E139 | CIF-/IF-Module mapped; | |
141 | E140 | Monitoring switching frequency | CIF-/IF-Module mapped; |
142 | E141 | Monitoring of runtime | CIF-/IF-Module mapped; |
143 | E142 | CIF-/IF-Module mapped; | |
144 | E143 | CIF-/IF-Module mapped; | |
145 | E144 | CIF-/IF-Module mapped; | |
146 | E145 | CIF-/IF-Module mapped; | |
147 | E146 | CIF-/IF-Module mapped; | |
148 | E147 | CIF-/IF-Module mapped; | |
149 | E148 | CIF-/IF-Module mapped; | |
150 | E149 | CIF-/IF-Module mapped; | |
151 | E150 | CIF-/IF-Module mapped; | |
152 | E151 | CIF-/IF-Module mapped; | |
153 | E152 | CIF-/IF-Module mapped; | |
154 | E153 | CIF-/IF-Module mapped; | |
155 | E154 | CIF-/IF-Module mapped; | |
156 | E155 | CIF-/IF-Module mapped; | |
157 | E156 | CIF-/IF-Module mapped; | |
158 | E157 | CIF-/IF-Module mapped; | |
159 | E158 | CIF-/IF-Module mapped; | |
160 | E159 | CIF-/IF-Module mapped; | |
161 | E160 | CIF-/IF-Module mapped; | |
162 | E161 | CIF-/IF-Module mapped; | |
163 | E162 | CIF-/IF-Module mapped; | |
164 | E163 | CIF-/IF-Module mapped; | |
165 | E164 | CIF-/IF-Module mapped; | |
166 | E165 | CIF-/IF-Module mapped; | |
167 | E166 | CIF-/IF-Module mapped; | |
168 | E167 | CIF-/IF-Module mapped; | |
169 | E168 | CIF-/IF-Module mapped; | |
170 | E169 | CIF-/IF-Module mapped; | |
171 | E170 | CIF-/IF-Module mapped; | |
172 | E171 | CIF-/IF-Module mapped; | |
173 | E172 | CIF-/IF-Module mapped; | |
174 | E173 | CIF-/IF-Module mapped; | |
175 | E174 | CIF-/IF-Module mapped; | |
176 | E175 | CIF-/IF-Module mapped; | |
177 | E176 | CIF-/IF-Module mapped; | |
178 | E177 | CIF-/IF-Module mapped; | |
179 | E178 | CIF-/IF-Module mapped; | |
180 | E179 | CIF-/IF-Module mapped; | |
181 | E180 | CIF-/IF-Module mapped; | |
182 | E181 | CIF-/IF-Module mapped; | |
183 | E182 | CIF-/IF-Module mapped; | |
184 | E183 | CIF-/IF-Module mapped; | |
185 | E184 | CIF-/IF-Module mapped; | |
186 | E185 | CIF-/IF-Module mapped; | |
187 | E186 | CIF-/IF-Module mapped; | |
188 | E187 | CIF-/IF-Module mapped; | |
189 | E188 | CIF-/IF-Module mapped; | |
190 | E189 | CIF-/IF-Module mapped; | |
191 | E190 | CIF-/IF-Module mapped; | |
192 | E191 | CIF-/IF-Module mapped; | |
193 | E192 | CIF-/IF-Module mapped; | |
194 | E193 | CIF-/IF-Module mapped; | |
195 | E194 | CIF-/IF-Module mapped; | |
196 | E195 | CIF-/IF-Module mapped; | |
197 | E196 | CIF-/IF-Module mapped; | |
198 | E197 | CIF-/IF-Module mapped; | |
199 | E198 | CIF-/IF-Module mapped; | |
200 | E199 | CIF-/IF-Module mapped; | |
201 | SIM_A | Error type A (simulated) | CIF-/IF-Module mapped; |
202 | SIM_B | Error type B (simulated) | CIF-/IF-Module mapped; |
203 | SIM_C | Error type C (simulated) | CIF-/IF-Module mapped; |
204 | SIM_D | Error type D (simulated) | CIF-/IF-Module mapped; |
205 | SIM_E | Error type E (simulated) | CIF-/IF-Module mapped; |
206 | SIM_F | Warning type F (simulated) | CIF-/IF-Module mapped; |
207 | E206 | CIF-/IF-Module mapped; | |
208 | E207 | CIF-/IF-Module mapped; | |
209 | E208 | CIF-/IF-Module mapped; | |
210 | E209 | CIF-/IF-Module mapped; | |
211 | E210 | CIF-/IF-Module mapped; | |
212 | E211 | CIF-/IF-Module mapped; | |
213 | E212 | CIF-/IF-Module mapped; | |
214 | E213 | CIF-/IF-Module mapped; | |
215 | E214 | CIF-/IF-Module mapped; | |
216 | E215 | CIF-/IF-Module mapped; | |
217 | E216 | CIF-/IF-Module mapped; | |
218 | E217 | CIF-/IF-Module mapped; | |
219 | E218 | CIF-/IF-Module mapped; | |
220 | E219 | CIF-/IF-Module mapped; | |
221 | E220 | CIF-/IF-Module mapped; | |
222 | E221 | CIF-/IF-Module mapped; | |
223 | E222 | CIF-/IF-Module mapped; | |
224 | E223 | CIF-/IF-Module mapped; | |
225 | E224 | CIF-/IF-Module mapped; | |
226 | E225 | CIF-/IF-Module mapped; | |
227 | E226 | CIF-/IF-Module mapped; | |
228 | E227 | CIF-/IF-Module mapped; | |
229 | E228 | CIF-/IF-Module mapped; | |
230 | E229 | CIF-/IF-Module mapped; | |
231 | E230 | CIF-/IF-Module mapped; | |
232 | E231 | CIF-/IF-Module mapped; | |
233 | E232 | CIF-/IF-Module mapped; | |
234 | E233 | CIF-/IF-Module mapped; | |
235 | E234 | CIF-/IF-Module mapped; | |
236 | E235 | CIF-/IF-Module mapped; | |
237 | E236 | CIF-/IF-Module mapped; | |
238 | E237 | CIF-/IF-Module mapped; | |
239 | E238 | CIF-/IF-Module mapped; | |
240 | E239 | CIF-/IF-Module mapped; | |
241 | E240 | CIF-/IF-Module mapped; | |
242 | E241 | CIF-/IF-Module mapped; | |
243 | E242 | CIF-/IF-Module mapped; | |
244 | E243 | CIF-/IF-Module mapped; | |
245 | E244 | CIF-/IF-Module mapped; | |
246 | E245 | CIF-/IF-Module mapped; | |
247 | E246 | CIF-/IF-Module mapped; | |
248 | E247 | CIF-/IF-Module mapped; | |
249 | E248 | CIF-/IF-Module mapped; | |
250 | E249 | CIF-/IF-Module mapped; | |
251 | E250 | CIF-/IF-Module mapped; | |
252 | E251 | CIF-/IF-Module mapped; | |
253 | E252 | CIF-/IF-Module mapped; | |
254 | EXTENDED | extended code | CIF-/IF-Module mapped; |
255 | UNDEFINED | undefined error | CIF-/IF-Module mapped; |
256 | INVALID | invalid error | CIF-/IF-Module mapped; |
This is the base signal. The current warning or error can be read out here. It is the WILO error code where the different codes can be found in the pump manual.
Support reference
Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | OFF | The functionality Bus Command timer is deactivated. The local operation is blocked permanently. | CIF-/IF-Module internal; |
2 | SET | This value starts a lockout time for the local pump operation. The lockout time may be adjustable. | CIF-/IF-Module internal; |
3 | ACTIVE | This value indicates that the lockout time is active. | CIF-/IF-Module internal; |
4 | RESET | This value indicates that the lockout time which was started with the signal "Bus Command Timer SET" has elapsed. Local operation of the device is possible, the write to the device over the communication interface is blocked. | CIF-/IF-Module internal; |
5 | MANUAL | This value indicates that the local as well as the remote operation is possible. The commands are accepted according "last write wins". | CIF-/IF-Module internal; |
6 | SET_PRESET | This value starts a lockout time for the local pump operation. After the lockout time has elapsed, PRESET values are used for operation. The lockout time may be adjustable. | CIF-/IF-Module internal; |
7 | ACTIVE_PRESET | This value indicates that the lockout time which was started with the signal "Bus Command Timer SET_PRESET" is currently active. After the lockout time has elapsed, PRESET values are used for operation. | CIF-/IF-Module internal; |
8 | RESET_PRESET | This value indicates that the lockout time which was started with the signal "Bus Command Timer SET" has elapsed. Local operation of the device is possible, the write to the device over the communication link is blocked. When this signal becomes ative, PRESET values are set once for operation. | CIF-/IF-Module internal; |
9 | MANUAL_PRESET | This value indicates that the local as well as the remote operation is possible. The commands are accepted according "last write wins". When this signal becomes active, PRESET values are loaded once. | CIF-/IF-Module internal; |
10 | INVALID | Invalid value | CIF-/IF-Module internal; |
This is the base signal. When using an IF-Module the local menu may be disabled by factory setting. The local menu can be enabled permanently by writing the value MANUAL. To use the local menu only when the BAS system fails, repeate writing the value SET at least before the optional Bus Command Timer timeout time (default or fixed value 300 s). The activation is stored and survives a power on reset. When the mechanism is no longer needed, write OFF to reset to factory setting..If the BAS fails,Then the menu can be entered to adjust the settings. E54 may be displayed at the pump. If it is desired to load fallback values when the bus faulure event occures, then use SET_PRESET instead of SET to trigger the bus command timer. This funtionality is available with Modbus and BACnet in IF-modules starting with firmware SW > 2.00. For CIF-modules, there is no restriction.
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 3 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | IF-Module | Signal source for setpoint: IF-Module | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | 0…10 V | Signal source for setpoint: IN2 mode 0…10 V | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
3 | 2…10 V | Signal source for setpoint: IN2 mode 2…10 V | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
4 | 0…20 mA | Signal source for setpoint: IN2 mode 0…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
5 | 4…20 mA | Signal source for setpoint: IN2 mode 4…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
6 | Internal | Signal source for setpoint: internal | Stratos MAXO; |
7 | EXT 1 | Signal source for setpoint: EXT 1 | Stratos MAXO; |
8 | EXT 2 | Signal source for setpoint: EXT 2 | Stratos MAXO; |
9 | INVALID | Invalid value | CIF-/IF-Module internal; |
This is the base signal. This signal represents the source for the setpoint for the current control function.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 4 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | CODE_0 | no error | CIF-/IF-Module mapped; Stratos MAXO; |
402 | CODE_401 | Voltage fluctuations in Mains | CIF-/IF-Module mapped; Stratos MAXO; |
403 | CODE_402 | Mains voltage too low | CIF-/IF-Module mapped; Stratos MAXO; |
404 | CODE_403 | Mains voltage too high | CIF-/IF-Module mapped; Stratos MAXO; |
405 | CODE_404 | Shaft is mechanically blocked or motor defect | CIF-/IF-Module mapped; Stratos MAXO; |
406 | CODE_405 | Electronic module temperature too high | CIF-/IF-Module mapped; Stratos MAXO; |
407 | CODE_406 | Motor temperature too high or connection of motor PTC resistor | CIF-/IF-Module mapped; Stratos MAXO; |
408 | CODE_407 | Contact between motor and module, motor or module defect | CIF-/IF-Module mapped; Stratos MAXO; |
409 | CODE_408 | The flow is driving the pump impeller (flow against flow direction) | CIF-/IF-Module mapped; Stratos MAXO; |
410 | CODE_409 | Software update incomplete | CIF-/IF-Module mapped; Stratos MAXO; |
411 | CODE_410 | External input power supply overload and binary Ext Off | CIF-/IF-Module mapped; Stratos MAXO; |
421 | CODE_420 | Motor or electronic Module defect | CIF-/IF-Module mapped; Stratos MAXO; |
422 | CODE_421 | Electronic Module Defect | CIF-/IF-Module mapped; Stratos MAXO; |
551 | CODE_550 | The flow is driving the pump impeller (flow against flow direction) | CIF-/IF-Module mapped; Stratos MAXO; |
552 | CODE_551 | Mains voltage too low | CIF-/IF-Module mapped; Stratos MAXO; |
553 | CODE_552 | Pump operated in generator mode (flow in flow direction) | CIF-/IF-Module mapped; Stratos MAXO; |
554 | CODE_553 | Electronic module failure | CIF-/IF-Module mapped; Stratos MAXO; |
556 | CODE_555 | Sensorvalue implausible on Analog In 1 | CIF-/IF-Module mapped; Stratos MAXO; |
557 | CODE_556 | Open Loop on Analog In 1 | CIF-/IF-Module mapped; Stratos MAXO; |
558 | CODE_557 | Sensor value implausible on Analog In 2 | CIF-/IF-Module mapped; Stratos MAXO; |
559 | CODE_558 | Open Loop on Analog In 2 | CIF-/IF-Module mapped; Stratos MAXO; |
560 | CODE_559 | electronic module temperature too high | CIF-/IF-Module mapped; Stratos MAXO; |
561 | CODE_560 | Software Update incomplete | CIF-/IF-Module mapped; Stratos MAXO; |
562 | CODE_561 | External Input Power Supply Overload and Binary Input not available | CIF-/IF-Module mapped; Stratos MAXO; |
563 | CODE_562 | External Input Power Supply Overload and Analog Input not available | CIF-/IF-Module mapped; Stratos MAXO; |
564 | CODE_563 | IF module sensor input missing | CIF-/IF-Module mapped; Stratos MAXO; |
565 | CODE_564 | IF module setpoint input missing | CIF-/IF-Module mapped; Stratos MAXO; |
566 | CODE_565 | Input signal too high on Analog In 1 | CIF-/IF-Module mapped; Stratos MAXO; |
567 | CODE_566 | Input signal too high on Analog In 2 | CIF-/IF-Module mapped; Stratos MAXO; |
568 | CODE_567 | Sensor calibration missing (Sensor + Module) | CIF-/IF-Module mapped; Stratos MAXO; |
569 | CODE_568 | Sensor defect | CIF-/IF-Module mapped; Stratos MAXO; |
570 | CODE_569 | Configuration lost | CIF-/IF-Module mapped; Stratos MAXO; |
571 | CODE_570 | Electronic module temperature too high | CIF-/IF-Module mapped; Stratos MAXO; |
572 | CODE_571 | Double pump connection lost | CIF-/IF-Module mapped; Stratos MAXO; |
573 | CODE_572 | Dry running | CIF-/IF-Module mapped; Stratos MAXO; |
574 | CODE_573 | No communication to HMI | CIF-/IF-Module mapped; Stratos MAXO; |
575 | CODE_574 | No communication to IF module | CIF-/IF-Module mapped; Stratos MAXO; |
576 | CODE_575 | No Bluetooth communication | CIF-/IF-Module mapped; Stratos MAXO; |
577 | CODE_576 | No communication to Wilo sensor | CIF-/IF-Module mapped; Stratos MAXO; |
578 | CODE_577 | Software update aborted | CIF-/IF-Module mapped; Stratos MAXO; |
579 | CODE_578 | HMI defect | CIF-/IF-Module mapped; Stratos MAXO; |
580 | CODE_579 | HMI software incomplete | CIF-/IF-Module mapped; Stratos MAXO; |
581 | CODE_580 | Number of wrong key inputs reached | CIF-/IF-Module mapped; Stratos MAXO; |
582 | CODE_581 | Double pump type mismatch | CIF-/IF-Module mapped; Stratos MAXO; |
583 | CODE_582 | Double pump incompatibility | CIF-/IF-Module mapped; Stratos MAXO; |
584 | CODE_583 | Fluid over temperature | CIF-/IF-Module mapped; Stratos MAXO; |
602 | CODE_601 | Configuration: Setpoint Ext1/2 for CF1 or CF2_H | CIF-/IF-Module mapped; Stratos MAXO; |
603 | CODE_602 | Configuration: Setpoint IF Module for CF1 or CF2_H | CIF-/IF-Module mapped; Stratos MAXO; |
604 | CODE_603 | Configuration: Sensor1 Ext1/2 for CF1 or CF2_H | CIF-/IF-Module mapped; Stratos MAXO; |
605 | CODE_604 | Configuration: Sensor1/2 identical for CF1 or CF2_H | CIF-/IF-Module mapped; Stratos MAXO; |
607 | CODE_606 | Configuration: Sensor1 IF Module for CF1 or CF2_H | CIF-/IF-Module mapped; Stratos MAXO; |
608 | CODE_607 | Configuration: Sensor2 Ext1/2 for CF1 or CF2_H | CIF-/IF-Module mapped; Stratos MAXO; |
610 | CODE_609 | Configuration: Sensor2 IF Module for CF1 or CF2_H | CIF-/IF-Module mapped; Stratos MAXO; |
611 | CODE_610 | Configuration: Sensor1 Ext1/2 for Heatmetering | CIF-/IF-Module mapped; Stratos MAXO; |
612 | CODE_611 | Configuration: Sensor1/2 identical for Heatmetering | CIF-/IF-Module mapped; Stratos MAXO; |
615 | CODE_614 | Configuration: Sensor1 IF Module for Heatmetering | CIF-/IF-Module mapped; Stratos MAXO; |
616 | CODE_615 | Configuration: Sensor2 Ext1/2 for Heatmetering | CIF-/IF-Module mapped; Stratos MAXO; |
619 | CODE_618 | Configuration: Sensor2 IF Module for Heatmetering | CIF-/IF-Module mapped; Stratos MAXO; |
620 | CODE_619 | Configuration: Sensor Ext1/2 for Automatic Switching | CIF-/IF-Module mapped; Stratos MAXO; |
622 | CODE_621 | Configuration: Sensor IF Module for Automatic Switching | CIF-/IF-Module mapped; Stratos MAXO; |
642 | CODE_641 | Configuration: Setpoint Ext1/2 for CF2_C | CIF-/IF-Module mapped; Stratos MAXO; |
643 | CODE_642 | Configuration: Setpoint IF Module for CF2_C | CIF-/IF-Module mapped; Stratos MAXO; |
644 | CODE_643 | Configuration: Sensor1 Ext1/2 for CF2_C | CIF-/IF-Module mapped; Stratos MAXO; |
645 | CODE_644 | Configuration: Sensor1/2 identical for CF2_C | CIF-/IF-Module mapped; Stratos MAXO; |
647 | CODE_646 | Configuration: Sensor1 IF Module for CF2_C | CIF-/IF-Module mapped; Stratos MAXO; |
648 | CODE_647 | Configuration: Sensor2 Ext1/2 for CF2_C | CIF-/IF-Module mapped; Stratos MAXO; |
650 | CODE_649 | Configuration: Sensor2 IF Module for CF2_C | CIF-/IF-Module mapped; Stratos MAXO; |
889 | CODE_888 | not defined | CIF-/IF-Module mapped; Stratos MAXO; |
1000 | CODE_999 | do not show to user | CIF-/IF-Module mapped; Stratos MAXO; |
This is the base signal. The current warning or error can be read out here. It is the WILO error code where the different codes can be found in the pump manual.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 18 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
value | Name | description | support |
---|---|---|---|
1 | [ft_i]2 | square-feet | CIF-/IF-Module mapped; |
2 | mA | milliamperes | CIF-/IF-Module mapped; |
3 | A | amperes | CIF-/IF-Module mapped; |
4 | Ohm | ohms | CIF-/IF-Module mapped; |
5 | V | volts | CIF-/IF-Module mapped; |
6 | kV | kilovolts | CIF-/IF-Module mapped; |
7 | MV | megavolts | CIF-/IF-Module mapped; |
8 | VA | volt-amperes | CIF-/IF-Module mapped; |
9 | kVA | kilovolt-amperes | CIF-/IF-Module mapped; |
10 | MVA | megavolt-amperes | CIF-/IF-Module mapped; |
11 | VAR | volt-amperes-reactive | CIF-/IF-Module mapped; |
12 | kVAR | kilovolt-amperes-reactive | CIF-/IF-Module mapped; |
13 | MVAR | megavolt-amperes-reactive | CIF-/IF-Module mapped; |
14 | deg | degrees-phase | CIF-/IF-Module mapped; |
15 | power-factor | CIF-/IF-Module mapped; | |
16 | J | joules | CIF-/IF-Module mapped; |
17 | kJ | kilojoules | CIF-/IF-Module mapped; |
18 | Wh | watt-hours | CIF-/IF-Module mapped; |
19 | kWh | kilowatt-hours | CIF-/IF-Module mapped; |
20 | [Btu] | btus | CIF-/IF-Module mapped; |
21 | therms | CIF-/IF-Module mapped; | |
22 | t.h | ton-hours | CIF-/IF-Module mapped; |
23 | joules-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
24 | btus-per-pound-dry-air | CIF-/IF-Module mapped; | |
25 | h-1 | cycles-per-hour | CIF-/IF-Module mapped; |
26 | min-1 | cycles-per-minute | CIF-/IF-Module mapped; |
27 | Hz | hertz | CIF-/IF-Module mapped; |
28 | grams-of-water-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
29 | % | percent-relative-humidity | CIF-/IF-Module mapped; |
30 | mm | millimeters | CIF-/IF-Module mapped; |
31 | m | meters | CIF-/IF-Module mapped; |
32 | [in_i] | inches | CIF-/IF-Module mapped; |
33 | [ft_i] | feet | CIF-/IF-Module mapped; |
34 | W/[ft_i]2 | watts-per-square-foot | CIF-/IF-Module mapped; |
35 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
36 | lm | lumens | CIF-/IF-Module mapped; |
37 | lx | luxes | CIF-/IF-Module mapped; |
38 | foot-candles | CIF-/IF-Module mapped; | |
39 | kg | kilograms | CIF-/IF-Module mapped; |
40 | [lb_av] | pounds-mass | CIF-/IF-Module mapped; |
41 | t | tons | CIF-/IF-Module mapped; |
42 | kg/s | kilograms-per-second | CIF-/IF-Module mapped; |
43 | kg/min | kilograms-per-minute | CIF-/IF-Module mapped; |
44 | kg/h | kilograms-per-hour | CIF-/IF-Module mapped; |
45 | [lb_av]/min | pounds-mass-per-minute | CIF-/IF-Module mapped; |
46 | [lb_av]/h | pounds-mass-per-hour | CIF-/IF-Module mapped; |
47 | W | watts | CIF-/IF-Module mapped; |
48 | kW | kilowatts | CIF-/IF-Module mapped; |
49 | MW | megawatts | CIF-/IF-Module mapped; |
50 | [Btu]/h | btus-per-hour | CIF-/IF-Module mapped; |
51 | [HP] | horsepower | CIF-/IF-Module mapped; |
52 | tons-refrigeration | CIF-/IF-Module mapped; | |
53 | Pa | pascals | CIF-/IF-Module mapped; |
54 | kPa | kilopascals | CIF-/IF-Module mapped; |
55 | bar | bars | CIF-/IF-Module mapped; |
56 | [lbf_av]/[in_i]2 | pounds-force-per-square-inch | CIF-/IF-Module mapped; |
57 | cm[H2O] | centimeters-of-water | CIF-/IF-Module mapped; |
58 | [in_i'H2O] | inches-of-water | CIF-/IF-Module mapped; |
59 | mm[Hg] | millimeters-of-mercury | CIF-/IF-Module mapped; |
60 | cm[Hg] | centimeters-of-mercury | CIF-/IF-Module mapped; |
61 | [in_i'Hg] | inches-of-mercury | CIF-/IF-Module mapped; |
62 | Cel | degrees-Celsius | CIF-/IF-Module mapped; |
63 | K | degrees-Kelvin | CIF-/IF-Module mapped; |
64 | [degF] | degrees-Fahrenheit | CIF-/IF-Module mapped; |
65 | Cel.d | degree-days-Celsius | CIF-/IF-Module mapped; |
66 | [degF].d | degree-days-Fahrenheit | CIF-/IF-Module mapped; |
67 | a | years | CIF-/IF-Module mapped; |
68 | m | months | CIF-/IF-Module mapped; |
69 | wk | weeks | CIF-/IF-Module mapped; |
70 | d | days | CIF-/IF-Module mapped; |
71 | h | hours | CIF-/IF-Module mapped; |
72 | min | minutes | CIF-/IF-Module mapped; |
73 | s | seconds | CIF-/IF-Module mapped; |
74 | m/s | meters-per-second | CIF-/IF-Module mapped; |
75 | km/h | kilometers-per-hour | CIF-/IF-Module mapped; |
76 | [ft_i]/s | feet-per-second | CIF-/IF-Module mapped; |
77 | [ft_i]/min | feet-per-minute | CIF-/IF-Module mapped; |
78 | [mi_us]/h | miles-per-hour | CIF-/IF-Module mapped; |
79 | [ft_i]3 | cubic-feet | CIF-/IF-Module mapped; |
80 | m3 | cubic-meters | CIF-/IF-Module mapped; |
81 | [gal_br] | imperial-gallons | CIF-/IF-Module mapped; |
82 | l | liters | CIF-/IF-Module mapped; |
83 | [gal_us] | us-gallons | CIF-/IF-Module mapped; |
84 | [ft_i]3/min | cubic-feet-per-minute | CIF-/IF-Module mapped; |
85 | m3/s | cubic-meters-per-second | CIF-/IF-Module mapped; |
86 | [gal_br]/m | imperial-gallons-per-m | CIF-/IF-Module mapped; |
87 | l/s | liters-per-second | CIF-/IF-Module mapped; |
88 | l/m | liters-per-minute | CIF-/IF-Module mapped; |
89 | [gal_us]/min | us-gallons-per-minute | CIF-/IF-Module mapped; |
90 | deg | degrees-angular | CIF-/IF-Module mapped; |
91 | Cel/h | degrees-Celsius-per-hour | CIF-/IF-Module mapped; |
92 | Cel/min | degrees-Celsius-per-minute | CIF-/IF-Module mapped; |
93 | [degF]/h | degrees-Fahrenheit-per-hour | CIF-/IF-Module mapped; |
94 | [degF]/min | degrees-Fahrenheit-per-minute | CIF-/IF-Module mapped; |
95 | no-units | CIF-/IF-Module mapped; | |
96 | [ppm] | parts-per-million | CIF-/IF-Module mapped; |
97 | [ppb] | parts-per-billion | CIF-/IF-Module mapped; |
98 | % | percent | CIF-/IF-Module mapped; |
99 | %/s | percent-per-second | CIF-/IF-Module mapped; |
100 | min-1 | per-minute | CIF-/IF-Module mapped; |
101 | s-1 | per-second | CIF-/IF-Module mapped; |
102 | [psi]/F | psi-per-degree-Fahrenheit | CIF-/IF-Module mapped; |
103 | rad | radians | CIF-/IF-Module mapped; |
104 | min-1 | revolutions-per-minute | CIF-/IF-Module mapped; |
105 | currency1 | CIF-/IF-Module mapped; | |
106 | currency2 | CIF-/IF-Module mapped; | |
107 | currency3 | CIF-/IF-Module mapped; | |
108 | currency4 | CIF-/IF-Module mapped; | |
109 | currency5 | CIF-/IF-Module mapped; | |
110 | currency6 | CIF-/IF-Module mapped; | |
111 | currency7 | CIF-/IF-Module mapped; | |
112 | currency8 | CIF-/IF-Module mapped; | |
113 | currency9 | CIF-/IF-Module mapped; | |
114 | currency10 | CIF-/IF-Module mapped; | |
115 | [in_i]2 | square-inches | CIF-/IF-Module mapped; |
116 | cm2 | square-centimeters | CIF-/IF-Module mapped; |
117 | btus-per-pound | CIF-/IF-Module mapped; | |
118 | cm | centimeters | CIF-/IF-Module mapped; |
119 | [lb_av]/s | pounds-mass-per-second | CIF-/IF-Module mapped; |
120 | delta-degrees-Fahrenheit | CIF-/IF-Module mapped; | |
121 | delta-degrees-Kelvin | CIF-/IF-Module mapped; | |
122 | kOhm | kilohms | CIF-/IF-Module mapped; |
123 | MOhm | megohms | CIF-/IF-Module mapped; |
124 | mV | millivolts | CIF-/IF-Module mapped; |
125 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
126 | MJ | megajoules | CIF-/IF-Module mapped; |
127 | J/K | joules-per-degree-Kelvin | CIF-/IF-Module mapped; |
128 | J/kg/K | joules-per-kilogram-degree-Kelvin | CIF-/IF-Module mapped; |
129 | kHz | kilohertz | CIF-/IF-Module mapped; |
130 | MHz | megahertz | CIF-/IF-Module mapped; |
131 | h-1 | per-hour | CIF-/IF-Module mapped; |
132 | mW | milliwatts | CIF-/IF-Module mapped; |
133 | hPa | hectopascals | CIF-/IF-Module mapped; |
134 | mbar | millibars | CIF-/IF-Module mapped; |
135 | m3/h | cubic-meters-per-hour | CIF-/IF-Module mapped; |
136 | l/h | liters-per-hour | CIF-/IF-Module mapped; |
137 | kWh/m2 | kilowatt-hours-per-square-meter | CIF-/IF-Module mapped; |
138 | kWh/[ft_i]2 | kilowatt-hours-per-square-foot | CIF-/IF-Module mapped; |
139 | MJ/m2 | megajoules-per-square-meter | CIF-/IF-Module mapped; |
140 | MJ/[ft_i]2 | megajoules-per-square-foot | CIF-/IF-Module mapped; |
141 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
142 | [ft_i]3/s | cubic-feet-per-second | CIF-/IF-Module mapped; |
143 | percent-obscuration-per-foot | CIF-/IF-Module mapped; | |
144 | percent-obscuration-per-meter | CIF-/IF-Module mapped; | |
145 | mOhm | milliohms | CIF-/IF-Module mapped; |
146 | MWh | megawatt-hours | CIF-/IF-Module mapped; |
147 | k[Btu] | kilo-btus | CIF-/IF-Module mapped; |
148 | M[Btu] | mega-btus | CIF-/IF-Module mapped; |
149 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
150 | MJ/kg | megajoules-per-kilogram | CIF-/IF-Module mapped; |
151 | kJ/K | kilojoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
152 | MJ/K | megajoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
153 | N | newton | CIF-/IF-Module mapped; |
154 | g/s | grams-per-second | CIF-/IF-Module mapped; |
155 | g/min | grams-per-minute | CIF-/IF-Module mapped; |
156 | t/h | tons-per-hour | CIF-/IF-Module mapped; |
157 | k[Btu]/h | kilo-btus-per-hour | CIF-/IF-Module mapped; |
158 | das | hundredths-seconds | CIF-/IF-Module mapped; |
159 | ms | milliseconds | CIF-/IF-Module mapped; |
160 | N.m | newton-meters | CIF-/IF-Module mapped; |
161 | mm/s | millimeters-per-second | CIF-/IF-Module mapped; |
162 | mm/min | millimeters-per-minute | CIF-/IF-Module mapped; |
163 | m/min | meters-per-minute | CIF-/IF-Module mapped; |
164 | m/h | meters-per-hour | CIF-/IF-Module mapped; |
165 | m3/min | cubic-meters-per-minute | CIF-/IF-Module mapped; |
166 | m/s2 | meters-per-second-per-second | CIF-/IF-Module mapped; |
167 | A/m | amperes-per-meter | CIF-/IF-Module mapped; |
168 | A/m2 | amperes-per-square-meter | CIF-/IF-Module mapped; |
169 | A.m2 | ampere-square-meters | CIF-/IF-Module mapped; |
170 | F | farads | CIF-/IF-Module mapped; |
171 | H | henrys | CIF-/IF-Module mapped; |
172 | Ohm.m | ohm-meters | CIF-/IF-Module mapped; |
173 | S | siemens | CIF-/IF-Module mapped; |
174 | S/m | siemens-per-meter | CIF-/IF-Module mapped; |
175 | T | teslas | CIF-/IF-Module mapped; |
176 | V/K | volts-per-degree-Kelvin | CIF-/IF-Module mapped; |
177 | V/m | volts-per-meter | CIF-/IF-Module mapped; |
178 | Wb | webers | CIF-/IF-Module mapped; |
179 | cd | candelas | CIF-/IF-Module mapped; |
180 | cd/m2 | candelas-per-square-meter | CIF-/IF-Module mapped; |
181 | K/h | degrees-Kelvin-per-hour | CIF-/IF-Module mapped; |
182 | K/min | degrees-Kelvin-per-minute | CIF-/IF-Module mapped; |
183 | Js | joule-seconds | CIF-/IF-Module mapped; |
184 | rad/s | radians-per-second | CIF-/IF-Module mapped; |
185 | m2/N | square-meters-per-Newton | CIF-/IF-Module mapped; |
186 | kg/m3 | kilograms-per-cubic-meter | CIF-/IF-Module mapped; |
187 | N.s | newton-seconds | CIF-/IF-Module mapped; |
188 | N/m | newtons-per-meter | CIF-/IF-Module mapped; |
189 | watts-per-meter-per-degree-Kelvin | CIF-/IF-Module mapped; | |
190 | uS | micro-siemens | CIF-/IF-Module mapped; |
191 | [ft_i]3/h | cubic-feet-per-hour | CIF-/IF-Module mapped; |
192 | [gal_us]/h | us-gallons-per-hour | CIF-/IF-Module mapped; |
193 | km | kilometers | CIF-/IF-Module mapped; |
194 | um | micrometers | CIF-/IF-Module mapped; |
195 | g | grams | CIF-/IF-Module mapped; |
196 | mg | milligrams | CIF-/IF-Module mapped; |
197 | ml | milliliters | CIF-/IF-Module mapped; |
198 | ml/s | milliliters-per-second | CIF-/IF-Module mapped; |
199 | dB | decibels | CIF-/IF-Module mapped; |
200 | dB[mV] | decibels-millivolt | CIF-/IF-Module mapped; |
201 | dB[V] | decibels-volt | CIF-/IF-Module mapped; |
202 | mS | millisiemens | CIF-/IF-Module mapped; |
203 | watt-hours-reactive | CIF-/IF-Module mapped; | |
204 | kilowatt-hours-reactive | CIF-/IF-Module mapped; | |
205 | megawatt-hours-reactive | CIF-/IF-Module mapped; | |
206 | mm[H2O] | millimeters-of-water | CIF-/IF-Module mapped; |
207 | [mi_i]-1 | per-mille | CIF-/IF-Module mapped; |
208 | g/g | grams-per-gram | CIF-/IF-Module mapped; |
209 | kg/kg | kilograms-per-kilogram | CIF-/IF-Module mapped; |
210 | g/kg | grams-per-kilogram | CIF-/IF-Module mapped; |
211 | mg/g | milligrams-per-gram | CIF-/IF-Module mapped; |
212 | mg/kg | milligrams-per-kilogram | CIF-/IF-Module mapped; |
213 | g/ml | grams-per-milliliter | CIF-/IF-Module mapped; |
214 | g/l | grams-per-liter | CIF-/IF-Module mapped; |
215 | mg/l | milligrams-per-liter | CIF-/IF-Module mapped; |
216 | ug/l | micrograms-per-liter | CIF-/IF-Module mapped; |
217 | g/m3 | grams-per-cubic-meter | CIF-/IF-Module mapped; |
218 | mg/m3 | milligrams-per-cubic-meter | CIF-/IF-Module mapped; |
219 | ug/m3 | micrograms-per-cubic-meter | CIF-/IF-Module mapped; |
220 | ng/m3 | nanograms-per-cubic-meter | CIF-/IF-Module mapped; |
221 | g/m3 | grams-per-cubic-centimeter | CIF-/IF-Module mapped; |
222 | Bq | becquerels | CIF-/IF-Module mapped; |
223 | kBq | kilobecquerels | CIF-/IF-Module mapped; |
224 | MBq | megabecquerels | CIF-/IF-Module mapped; |
225 | Gy | gray | CIF-/IF-Module mapped; |
226 | mGy | milligray | CIF-/IF-Module mapped; |
227 | uGy | microgray | CIF-/IF-Module mapped; |
228 | Sv | sieverts | CIF-/IF-Module mapped; |
229 | mSv | millisieverts | CIF-/IF-Module mapped; |
230 | uSv | microsieverts | CIF-/IF-Module mapped; |
231 | uSv/h | microsieverts-per-hour | CIF-/IF-Module mapped; |
232 | decibels-a | CIF-/IF-Module mapped; | |
233 | nephelometric-turbidity-unit | CIF-/IF-Module mapped; | |
234 | pH | CIF-/IF-Module mapped; | |
235 | g/m2 | grams-per-square-meter | CIF-/IF-Module mapped; |
236 | min/K | minutes-per-degree-kelvin | CIF-/IF-Module mapped; |
237 | m[H2O] | meters-of-water | CIF-/IF-Module mapped; |
238 | s {1970-01-01 0:00 UTC} | timestamp-unix | CIF-/IF-Module mapped; |
239 | m2 | square-meters | CIF-/IF-Module mapped; |
This is the base signal. This signal represents the measured value of the analog input #1.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 19 |
function | output value |
Module versions | CIF-Module BACnet MS/TP (3.02…99.99) |
value | Name | description | support |
---|---|---|---|
1 | [ft_i]2 | square-feet | CIF-/IF-Module mapped; |
2 | mA | milliamperes | CIF-/IF-Module mapped; |
3 | A | amperes | CIF-/IF-Module mapped; |
4 | Ohm | ohms | CIF-/IF-Module mapped; |
5 | V | volts | CIF-/IF-Module mapped; |
6 | kV | kilovolts | CIF-/IF-Module mapped; |
7 | MV | megavolts | CIF-/IF-Module mapped; |
8 | VA | volt-amperes | CIF-/IF-Module mapped; |
9 | kVA | kilovolt-amperes | CIF-/IF-Module mapped; |
10 | MVA | megavolt-amperes | CIF-/IF-Module mapped; |
11 | VAR | volt-amperes-reactive | CIF-/IF-Module mapped; |
12 | kVAR | kilovolt-amperes-reactive | CIF-/IF-Module mapped; |
13 | MVAR | megavolt-amperes-reactive | CIF-/IF-Module mapped; |
14 | deg | degrees-phase | CIF-/IF-Module mapped; |
15 | power-factor | CIF-/IF-Module mapped; | |
16 | J | joules | CIF-/IF-Module mapped; |
17 | kJ | kilojoules | CIF-/IF-Module mapped; |
18 | Wh | watt-hours | CIF-/IF-Module mapped; |
19 | kWh | kilowatt-hours | CIF-/IF-Module mapped; |
20 | [Btu] | btus | CIF-/IF-Module mapped; |
21 | therms | CIF-/IF-Module mapped; | |
22 | t.h | ton-hours | CIF-/IF-Module mapped; |
23 | joules-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
24 | btus-per-pound-dry-air | CIF-/IF-Module mapped; | |
25 | h-1 | cycles-per-hour | CIF-/IF-Module mapped; |
26 | min-1 | cycles-per-minute | CIF-/IF-Module mapped; |
27 | Hz | hertz | CIF-/IF-Module mapped; |
28 | grams-of-water-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
29 | % | percent-relative-humidity | CIF-/IF-Module mapped; |
30 | mm | millimeters | CIF-/IF-Module mapped; |
31 | m | meters | CIF-/IF-Module mapped; |
32 | [in_i] | inches | CIF-/IF-Module mapped; |
33 | [ft_i] | feet | CIF-/IF-Module mapped; |
34 | W/[ft_i]2 | watts-per-square-foot | CIF-/IF-Module mapped; |
35 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
36 | lm | lumens | CIF-/IF-Module mapped; |
37 | lx | luxes | CIF-/IF-Module mapped; |
38 | foot-candles | CIF-/IF-Module mapped; | |
39 | kg | kilograms | CIF-/IF-Module mapped; |
40 | [lb_av] | pounds-mass | CIF-/IF-Module mapped; |
41 | t | tons | CIF-/IF-Module mapped; |
42 | kg/s | kilograms-per-second | CIF-/IF-Module mapped; |
43 | kg/min | kilograms-per-minute | CIF-/IF-Module mapped; |
44 | kg/h | kilograms-per-hour | CIF-/IF-Module mapped; |
45 | [lb_av]/min | pounds-mass-per-minute | CIF-/IF-Module mapped; |
46 | [lb_av]/h | pounds-mass-per-hour | CIF-/IF-Module mapped; |
47 | W | watts | CIF-/IF-Module mapped; |
48 | kW | kilowatts | CIF-/IF-Module mapped; |
49 | MW | megawatts | CIF-/IF-Module mapped; |
50 | [Btu]/h | btus-per-hour | CIF-/IF-Module mapped; |
51 | [HP] | horsepower | CIF-/IF-Module mapped; |
52 | tons-refrigeration | CIF-/IF-Module mapped; | |
53 | Pa | pascals | CIF-/IF-Module mapped; |
54 | kPa | kilopascals | CIF-/IF-Module mapped; |
55 | bar | bars | CIF-/IF-Module mapped; |
56 | [lbf_av]/[in_i]2 | pounds-force-per-square-inch | CIF-/IF-Module mapped; |
57 | cm[H2O] | centimeters-of-water | CIF-/IF-Module mapped; |
58 | [in_i'H2O] | inches-of-water | CIF-/IF-Module mapped; |
59 | mm[Hg] | millimeters-of-mercury | CIF-/IF-Module mapped; |
60 | cm[Hg] | centimeters-of-mercury | CIF-/IF-Module mapped; |
61 | [in_i'Hg] | inches-of-mercury | CIF-/IF-Module mapped; |
62 | Cel | degrees-Celsius | CIF-/IF-Module mapped; |
63 | K | degrees-Kelvin | CIF-/IF-Module mapped; |
64 | [degF] | degrees-Fahrenheit | CIF-/IF-Module mapped; |
65 | Cel.d | degree-days-Celsius | CIF-/IF-Module mapped; |
66 | [degF].d | degree-days-Fahrenheit | CIF-/IF-Module mapped; |
67 | a | years | CIF-/IF-Module mapped; |
68 | m | months | CIF-/IF-Module mapped; |
69 | wk | weeks | CIF-/IF-Module mapped; |
70 | d | days | CIF-/IF-Module mapped; |
71 | h | hours | CIF-/IF-Module mapped; |
72 | min | minutes | CIF-/IF-Module mapped; |
73 | s | seconds | CIF-/IF-Module mapped; |
74 | m/s | meters-per-second | CIF-/IF-Module mapped; |
75 | km/h | kilometers-per-hour | CIF-/IF-Module mapped; |
76 | [ft_i]/s | feet-per-second | CIF-/IF-Module mapped; |
77 | [ft_i]/min | feet-per-minute | CIF-/IF-Module mapped; |
78 | [mi_us]/h | miles-per-hour | CIF-/IF-Module mapped; |
79 | [ft_i]3 | cubic-feet | CIF-/IF-Module mapped; |
80 | m3 | cubic-meters | CIF-/IF-Module mapped; |
81 | [gal_br] | imperial-gallons | CIF-/IF-Module mapped; |
82 | l | liters | CIF-/IF-Module mapped; |
83 | [gal_us] | us-gallons | CIF-/IF-Module mapped; |
84 | [ft_i]3/min | cubic-feet-per-minute | CIF-/IF-Module mapped; |
85 | m3/s | cubic-meters-per-second | CIF-/IF-Module mapped; |
86 | [gal_br]/m | imperial-gallons-per-m | CIF-/IF-Module mapped; |
87 | l/s | liters-per-second | CIF-/IF-Module mapped; |
88 | l/m | liters-per-minute | CIF-/IF-Module mapped; |
89 | [gal_us]/min | us-gallons-per-minute | CIF-/IF-Module mapped; |
90 | deg | degrees-angular | CIF-/IF-Module mapped; |
91 | Cel/h | degrees-Celsius-per-hour | CIF-/IF-Module mapped; |
92 | Cel/min | degrees-Celsius-per-minute | CIF-/IF-Module mapped; |
93 | [degF]/h | degrees-Fahrenheit-per-hour | CIF-/IF-Module mapped; |
94 | [degF]/min | degrees-Fahrenheit-per-minute | CIF-/IF-Module mapped; |
95 | no-units | CIF-/IF-Module mapped; | |
96 | [ppm] | parts-per-million | CIF-/IF-Module mapped; |
97 | [ppb] | parts-per-billion | CIF-/IF-Module mapped; |
98 | % | percent | CIF-/IF-Module mapped; |
99 | %/s | percent-per-second | CIF-/IF-Module mapped; |
100 | min-1 | per-minute | CIF-/IF-Module mapped; |
101 | s-1 | per-second | CIF-/IF-Module mapped; |
102 | [psi]/F | psi-per-degree-Fahrenheit | CIF-/IF-Module mapped; |
103 | rad | radians | CIF-/IF-Module mapped; |
104 | min-1 | revolutions-per-minute | CIF-/IF-Module mapped; |
105 | currency1 | CIF-/IF-Module mapped; | |
106 | currency2 | CIF-/IF-Module mapped; | |
107 | currency3 | CIF-/IF-Module mapped; | |
108 | currency4 | CIF-/IF-Module mapped; | |
109 | currency5 | CIF-/IF-Module mapped; | |
110 | currency6 | CIF-/IF-Module mapped; | |
111 | currency7 | CIF-/IF-Module mapped; | |
112 | currency8 | CIF-/IF-Module mapped; | |
113 | currency9 | CIF-/IF-Module mapped; | |
114 | currency10 | CIF-/IF-Module mapped; | |
115 | [in_i]2 | square-inches | CIF-/IF-Module mapped; |
116 | cm2 | square-centimeters | CIF-/IF-Module mapped; |
117 | btus-per-pound | CIF-/IF-Module mapped; | |
118 | cm | centimeters | CIF-/IF-Module mapped; |
119 | [lb_av]/s | pounds-mass-per-second | CIF-/IF-Module mapped; |
120 | delta-degrees-Fahrenheit | CIF-/IF-Module mapped; | |
121 | delta-degrees-Kelvin | CIF-/IF-Module mapped; | |
122 | kOhm | kilohms | CIF-/IF-Module mapped; |
123 | MOhm | megohms | CIF-/IF-Module mapped; |
124 | mV | millivolts | CIF-/IF-Module mapped; |
125 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
126 | MJ | megajoules | CIF-/IF-Module mapped; |
127 | J/K | joules-per-degree-Kelvin | CIF-/IF-Module mapped; |
128 | J/kg/K | joules-per-kilogram-degree-Kelvin | CIF-/IF-Module mapped; |
129 | kHz | kilohertz | CIF-/IF-Module mapped; |
130 | MHz | megahertz | CIF-/IF-Module mapped; |
131 | h-1 | per-hour | CIF-/IF-Module mapped; |
132 | mW | milliwatts | CIF-/IF-Module mapped; |
133 | hPa | hectopascals | CIF-/IF-Module mapped; |
134 | mbar | millibars | CIF-/IF-Module mapped; |
135 | m3/h | cubic-meters-per-hour | CIF-/IF-Module mapped; |
136 | l/h | liters-per-hour | CIF-/IF-Module mapped; |
137 | kWh/m2 | kilowatt-hours-per-square-meter | CIF-/IF-Module mapped; |
138 | kWh/[ft_i]2 | kilowatt-hours-per-square-foot | CIF-/IF-Module mapped; |
139 | MJ/m2 | megajoules-per-square-meter | CIF-/IF-Module mapped; |
140 | MJ/[ft_i]2 | megajoules-per-square-foot | CIF-/IF-Module mapped; |
141 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
142 | [ft_i]3/s | cubic-feet-per-second | CIF-/IF-Module mapped; |
143 | percent-obscuration-per-foot | CIF-/IF-Module mapped; | |
144 | percent-obscuration-per-meter | CIF-/IF-Module mapped; | |
145 | mOhm | milliohms | CIF-/IF-Module mapped; |
146 | MWh | megawatt-hours | CIF-/IF-Module mapped; |
147 | k[Btu] | kilo-btus | CIF-/IF-Module mapped; |
148 | M[Btu] | mega-btus | CIF-/IF-Module mapped; |
149 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
150 | MJ/kg | megajoules-per-kilogram | CIF-/IF-Module mapped; |
151 | kJ/K | kilojoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
152 | MJ/K | megajoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
153 | N | newton | CIF-/IF-Module mapped; |
154 | g/s | grams-per-second | CIF-/IF-Module mapped; |
155 | g/min | grams-per-minute | CIF-/IF-Module mapped; |
156 | t/h | tons-per-hour | CIF-/IF-Module mapped; |
157 | k[Btu]/h | kilo-btus-per-hour | CIF-/IF-Module mapped; |
158 | das | hundredths-seconds | CIF-/IF-Module mapped; |
159 | ms | milliseconds | CIF-/IF-Module mapped; |
160 | N.m | newton-meters | CIF-/IF-Module mapped; |
161 | mm/s | millimeters-per-second | CIF-/IF-Module mapped; |
162 | mm/min | millimeters-per-minute | CIF-/IF-Module mapped; |
163 | m/min | meters-per-minute | CIF-/IF-Module mapped; |
164 | m/h | meters-per-hour | CIF-/IF-Module mapped; |
165 | m3/min | cubic-meters-per-minute | CIF-/IF-Module mapped; |
166 | m/s2 | meters-per-second-per-second | CIF-/IF-Module mapped; |
167 | A/m | amperes-per-meter | CIF-/IF-Module mapped; |
168 | A/m2 | amperes-per-square-meter | CIF-/IF-Module mapped; |
169 | A.m2 | ampere-square-meters | CIF-/IF-Module mapped; |
170 | F | farads | CIF-/IF-Module mapped; |
171 | H | henrys | CIF-/IF-Module mapped; |
172 | Ohm.m | ohm-meters | CIF-/IF-Module mapped; |
173 | S | siemens | CIF-/IF-Module mapped; |
174 | S/m | siemens-per-meter | CIF-/IF-Module mapped; |
175 | T | teslas | CIF-/IF-Module mapped; |
176 | V/K | volts-per-degree-Kelvin | CIF-/IF-Module mapped; |
177 | V/m | volts-per-meter | CIF-/IF-Module mapped; |
178 | Wb | webers | CIF-/IF-Module mapped; |
179 | cd | candelas | CIF-/IF-Module mapped; |
180 | cd/m2 | candelas-per-square-meter | CIF-/IF-Module mapped; |
181 | K/h | degrees-Kelvin-per-hour | CIF-/IF-Module mapped; |
182 | K/min | degrees-Kelvin-per-minute | CIF-/IF-Module mapped; |
183 | Js | joule-seconds | CIF-/IF-Module mapped; |
184 | rad/s | radians-per-second | CIF-/IF-Module mapped; |
185 | m2/N | square-meters-per-Newton | CIF-/IF-Module mapped; |
186 | kg/m3 | kilograms-per-cubic-meter | CIF-/IF-Module mapped; |
187 | N.s | newton-seconds | CIF-/IF-Module mapped; |
188 | N/m | newtons-per-meter | CIF-/IF-Module mapped; |
189 | watts-per-meter-per-degree-Kelvin | CIF-/IF-Module mapped; | |
190 | uS | micro-siemens | CIF-/IF-Module mapped; |
191 | [ft_i]3/h | cubic-feet-per-hour | CIF-/IF-Module mapped; |
192 | [gal_us]/h | us-gallons-per-hour | CIF-/IF-Module mapped; |
193 | km | kilometers | CIF-/IF-Module mapped; |
194 | um | micrometers | CIF-/IF-Module mapped; |
195 | g | grams | CIF-/IF-Module mapped; |
196 | mg | milligrams | CIF-/IF-Module mapped; |
197 | ml | milliliters | CIF-/IF-Module mapped; |
198 | ml/s | milliliters-per-second | CIF-/IF-Module mapped; |
199 | dB | decibels | CIF-/IF-Module mapped; |
200 | dB[mV] | decibels-millivolt | CIF-/IF-Module mapped; |
201 | dB[V] | decibels-volt | CIF-/IF-Module mapped; |
202 | mS | millisiemens | CIF-/IF-Module mapped; |
203 | watt-hours-reactive | CIF-/IF-Module mapped; | |
204 | kilowatt-hours-reactive | CIF-/IF-Module mapped; | |
205 | megawatt-hours-reactive | CIF-/IF-Module mapped; | |
206 | mm[H2O] | millimeters-of-water | CIF-/IF-Module mapped; |
207 | [mi_i]-1 | per-mille | CIF-/IF-Module mapped; |
208 | g/g | grams-per-gram | CIF-/IF-Module mapped; |
209 | kg/kg | kilograms-per-kilogram | CIF-/IF-Module mapped; |
210 | g/kg | grams-per-kilogram | CIF-/IF-Module mapped; |
211 | mg/g | milligrams-per-gram | CIF-/IF-Module mapped; |
212 | mg/kg | milligrams-per-kilogram | CIF-/IF-Module mapped; |
213 | g/ml | grams-per-milliliter | CIF-/IF-Module mapped; |
214 | g/l | grams-per-liter | CIF-/IF-Module mapped; |
215 | mg/l | milligrams-per-liter | CIF-/IF-Module mapped; |
216 | ug/l | micrograms-per-liter | CIF-/IF-Module mapped; |
217 | g/m3 | grams-per-cubic-meter | CIF-/IF-Module mapped; |
218 | mg/m3 | milligrams-per-cubic-meter | CIF-/IF-Module mapped; |
219 | ug/m3 | micrograms-per-cubic-meter | CIF-/IF-Module mapped; |
220 | ng/m3 | nanograms-per-cubic-meter | CIF-/IF-Module mapped; |
221 | g/m3 | grams-per-cubic-centimeter | CIF-/IF-Module mapped; |
222 | Bq | becquerels | CIF-/IF-Module mapped; |
223 | kBq | kilobecquerels | CIF-/IF-Module mapped; |
224 | MBq | megabecquerels | CIF-/IF-Module mapped; |
225 | Gy | gray | CIF-/IF-Module mapped; |
226 | mGy | milligray | CIF-/IF-Module mapped; |
227 | uGy | microgray | CIF-/IF-Module mapped; |
228 | Sv | sieverts | CIF-/IF-Module mapped; |
229 | mSv | millisieverts | CIF-/IF-Module mapped; |
230 | uSv | microsieverts | CIF-/IF-Module mapped; |
231 | uSv/h | microsieverts-per-hour | CIF-/IF-Module mapped; |
232 | decibels-a | CIF-/IF-Module mapped; | |
233 | nephelometric-turbidity-unit | CIF-/IF-Module mapped; | |
234 | pH | CIF-/IF-Module mapped; | |
235 | g/m2 | grams-per-square-meter | CIF-/IF-Module mapped; |
236 | min/K | minutes-per-degree-kelvin | CIF-/IF-Module mapped; |
237 | m[H2O] | meters-of-water | CIF-/IF-Module mapped; |
238 | s {1970-01-01 0:00 UTC} | timestamp-unix | CIF-/IF-Module mapped; |
239 | m2 | square-meters | CIF-/IF-Module mapped; |
This is the base signal. This signal represents the measured value of the analog input #2.
Support reference
Stratos MAXO;property | value |
---|---|
instance # | 33 |
function | active value |
Module versions | CIF-Module BACnet MS/TP (3.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | [ft_i]2 | square-feet | CIF-/IF-Module mapped; |
2 | mA | milliamperes | CIF-/IF-Module mapped; |
3 | A | amperes | CIF-/IF-Module mapped; |
4 | Ohm | ohms | CIF-/IF-Module mapped; |
5 | V | volts | CIF-/IF-Module mapped; |
6 | kV | kilovolts | CIF-/IF-Module mapped; |
7 | MV | megavolts | CIF-/IF-Module mapped; |
8 | VA | volt-amperes | CIF-/IF-Module mapped; |
9 | kVA | kilovolt-amperes | CIF-/IF-Module mapped; |
10 | MVA | megavolt-amperes | CIF-/IF-Module mapped; |
11 | VAR | volt-amperes-reactive | CIF-/IF-Module mapped; |
12 | kVAR | kilovolt-amperes-reactive | CIF-/IF-Module mapped; |
13 | MVAR | megavolt-amperes-reactive | CIF-/IF-Module mapped; |
14 | deg | degrees-phase | CIF-/IF-Module mapped; |
15 | power-factor | CIF-/IF-Module mapped; | |
16 | J | joules | CIF-/IF-Module mapped; |
17 | kJ | kilojoules | CIF-/IF-Module mapped; |
18 | Wh | watt-hours | CIF-/IF-Module mapped; |
19 | kWh | kilowatt-hours | CIF-/IF-Module mapped; |
20 | [Btu] | btus | CIF-/IF-Module mapped; |
21 | therms | CIF-/IF-Module mapped; | |
22 | t.h | ton-hours | CIF-/IF-Module mapped; |
23 | joules-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
24 | btus-per-pound-dry-air | CIF-/IF-Module mapped; | |
25 | h-1 | cycles-per-hour | CIF-/IF-Module mapped; |
26 | min-1 | cycles-per-minute | CIF-/IF-Module mapped; |
27 | Hz | hertz | CIF-/IF-Module mapped; |
28 | grams-of-water-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
29 | % | percent-relative-humidity | CIF-/IF-Module mapped; |
30 | mm | millimeters | CIF-/IF-Module mapped; |
31 | m | meters | CIF-/IF-Module mapped; |
32 | [in_i] | inches | CIF-/IF-Module mapped; |
33 | [ft_i] | feet | CIF-/IF-Module mapped; |
34 | W/[ft_i]2 | watts-per-square-foot | CIF-/IF-Module mapped; |
35 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
36 | lm | lumens | CIF-/IF-Module mapped; |
37 | lx | luxes | CIF-/IF-Module mapped; |
38 | foot-candles | CIF-/IF-Module mapped; | |
39 | kg | kilograms | CIF-/IF-Module mapped; |
40 | [lb_av] | pounds-mass | CIF-/IF-Module mapped; |
41 | t | tons | CIF-/IF-Module mapped; |
42 | kg/s | kilograms-per-second | CIF-/IF-Module mapped; |
43 | kg/min | kilograms-per-minute | CIF-/IF-Module mapped; |
44 | kg/h | kilograms-per-hour | CIF-/IF-Module mapped; |
45 | [lb_av]/min | pounds-mass-per-minute | CIF-/IF-Module mapped; |
46 | [lb_av]/h | pounds-mass-per-hour | CIF-/IF-Module mapped; |
47 | W | watts | CIF-/IF-Module mapped; |
48 | kW | kilowatts | CIF-/IF-Module mapped; |
49 | MW | megawatts | CIF-/IF-Module mapped; |
50 | [Btu]/h | btus-per-hour | CIF-/IF-Module mapped; |
51 | [HP] | horsepower | CIF-/IF-Module mapped; |
52 | tons-refrigeration | CIF-/IF-Module mapped; | |
53 | Pa | pascals | CIF-/IF-Module mapped; |
54 | kPa | kilopascals | CIF-/IF-Module mapped; |
55 | bar | bars | CIF-/IF-Module mapped; |
56 | [lbf_av]/[in_i]2 | pounds-force-per-square-inch | CIF-/IF-Module mapped; |
57 | cm[H2O] | centimeters-of-water | CIF-/IF-Module mapped; |
58 | [in_i'H2O] | inches-of-water | CIF-/IF-Module mapped; |
59 | mm[Hg] | millimeters-of-mercury | CIF-/IF-Module mapped; |
60 | cm[Hg] | centimeters-of-mercury | CIF-/IF-Module mapped; |
61 | [in_i'Hg] | inches-of-mercury | CIF-/IF-Module mapped; |
62 | Cel | degrees-Celsius | CIF-/IF-Module mapped; |
63 | K | degrees-Kelvin | CIF-/IF-Module mapped; |
64 | [degF] | degrees-Fahrenheit | CIF-/IF-Module mapped; |
65 | Cel.d | degree-days-Celsius | CIF-/IF-Module mapped; |
66 | [degF].d | degree-days-Fahrenheit | CIF-/IF-Module mapped; |
67 | a | years | CIF-/IF-Module mapped; |
68 | m | months | CIF-/IF-Module mapped; |
69 | wk | weeks | CIF-/IF-Module mapped; |
70 | d | days | CIF-/IF-Module mapped; |
71 | h | hours | CIF-/IF-Module mapped; |
72 | min | minutes | CIF-/IF-Module mapped; |
73 | s | seconds | CIF-/IF-Module mapped; |
74 | m/s | meters-per-second | CIF-/IF-Module mapped; |
75 | km/h | kilometers-per-hour | CIF-/IF-Module mapped; |
76 | [ft_i]/s | feet-per-second | CIF-/IF-Module mapped; |
77 | [ft_i]/min | feet-per-minute | CIF-/IF-Module mapped; |
78 | [mi_us]/h | miles-per-hour | CIF-/IF-Module mapped; |
79 | [ft_i]3 | cubic-feet | CIF-/IF-Module mapped; |
80 | m3 | cubic-meters | CIF-/IF-Module mapped; |
81 | [gal_br] | imperial-gallons | CIF-/IF-Module mapped; |
82 | l | liters | CIF-/IF-Module mapped; |
83 | [gal_us] | us-gallons | CIF-/IF-Module mapped; |
84 | [ft_i]3/min | cubic-feet-per-minute | CIF-/IF-Module mapped; |
85 | m3/s | cubic-meters-per-second | CIF-/IF-Module mapped; |
86 | [gal_br]/m | imperial-gallons-per-m | CIF-/IF-Module mapped; |
87 | l/s | liters-per-second | CIF-/IF-Module mapped; |
88 | l/m | liters-per-minute | CIF-/IF-Module mapped; |
89 | [gal_us]/min | us-gallons-per-minute | CIF-/IF-Module mapped; |
90 | deg | degrees-angular | CIF-/IF-Module mapped; |
91 | Cel/h | degrees-Celsius-per-hour | CIF-/IF-Module mapped; |
92 | Cel/min | degrees-Celsius-per-minute | CIF-/IF-Module mapped; |
93 | [degF]/h | degrees-Fahrenheit-per-hour | CIF-/IF-Module mapped; |
94 | [degF]/min | degrees-Fahrenheit-per-minute | CIF-/IF-Module mapped; |
95 | no-units | CIF-/IF-Module mapped; | |
96 | [ppm] | parts-per-million | CIF-/IF-Module mapped; |
97 | [ppb] | parts-per-billion | CIF-/IF-Module mapped; |
98 | % | percent | CIF-/IF-Module mapped; |
99 | %/s | percent-per-second | CIF-/IF-Module mapped; |
100 | min-1 | per-minute | CIF-/IF-Module mapped; |
101 | s-1 | per-second | CIF-/IF-Module mapped; |
102 | [psi]/F | psi-per-degree-Fahrenheit | CIF-/IF-Module mapped; |
103 | rad | radians | CIF-/IF-Module mapped; |
104 | min-1 | revolutions-per-minute | CIF-/IF-Module mapped; |
105 | currency1 | CIF-/IF-Module mapped; | |
106 | currency2 | CIF-/IF-Module mapped; | |
107 | currency3 | CIF-/IF-Module mapped; | |
108 | currency4 | CIF-/IF-Module mapped; | |
109 | currency5 | CIF-/IF-Module mapped; | |
110 | currency6 | CIF-/IF-Module mapped; | |
111 | currency7 | CIF-/IF-Module mapped; | |
112 | currency8 | CIF-/IF-Module mapped; | |
113 | currency9 | CIF-/IF-Module mapped; | |
114 | currency10 | CIF-/IF-Module mapped; | |
115 | [in_i]2 | square-inches | CIF-/IF-Module mapped; |
116 | cm2 | square-centimeters | CIF-/IF-Module mapped; |
117 | btus-per-pound | CIF-/IF-Module mapped; | |
118 | cm | centimeters | CIF-/IF-Module mapped; |
119 | [lb_av]/s | pounds-mass-per-second | CIF-/IF-Module mapped; |
120 | delta-degrees-Fahrenheit | CIF-/IF-Module mapped; | |
121 | delta-degrees-Kelvin | CIF-/IF-Module mapped; | |
122 | kOhm | kilohms | CIF-/IF-Module mapped; |
123 | MOhm | megohms | CIF-/IF-Module mapped; |
124 | mV | millivolts | CIF-/IF-Module mapped; |
125 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
126 | MJ | megajoules | CIF-/IF-Module mapped; |
127 | J/K | joules-per-degree-Kelvin | CIF-/IF-Module mapped; |
128 | J/kg/K | joules-per-kilogram-degree-Kelvin | CIF-/IF-Module mapped; |
129 | kHz | kilohertz | CIF-/IF-Module mapped; |
130 | MHz | megahertz | CIF-/IF-Module mapped; |
131 | h-1 | per-hour | CIF-/IF-Module mapped; |
132 | mW | milliwatts | CIF-/IF-Module mapped; |
133 | hPa | hectopascals | CIF-/IF-Module mapped; |
134 | mbar | millibars | CIF-/IF-Module mapped; |
135 | m3/h | cubic-meters-per-hour | CIF-/IF-Module mapped; |
136 | l/h | liters-per-hour | CIF-/IF-Module mapped; |
137 | kWh/m2 | kilowatt-hours-per-square-meter | CIF-/IF-Module mapped; |
138 | kWh/[ft_i]2 | kilowatt-hours-per-square-foot | CIF-/IF-Module mapped; |
139 | MJ/m2 | megajoules-per-square-meter | CIF-/IF-Module mapped; |
140 | MJ/[ft_i]2 | megajoules-per-square-foot | CIF-/IF-Module mapped; |
141 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
142 | [ft_i]3/s | cubic-feet-per-second | CIF-/IF-Module mapped; |
143 | percent-obscuration-per-foot | CIF-/IF-Module mapped; | |
144 | percent-obscuration-per-meter | CIF-/IF-Module mapped; | |
145 | mOhm | milliohms | CIF-/IF-Module mapped; |
146 | MWh | megawatt-hours | CIF-/IF-Module mapped; |
147 | k[Btu] | kilo-btus | CIF-/IF-Module mapped; |
148 | M[Btu] | mega-btus | CIF-/IF-Module mapped; |
149 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
150 | MJ/kg | megajoules-per-kilogram | CIF-/IF-Module mapped; |
151 | kJ/K | kilojoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
152 | MJ/K | megajoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
153 | N | newton | CIF-/IF-Module mapped; |
154 | g/s | grams-per-second | CIF-/IF-Module mapped; |
155 | g/min | grams-per-minute | CIF-/IF-Module mapped; |
156 | t/h | tons-per-hour | CIF-/IF-Module mapped; |
157 | k[Btu]/h | kilo-btus-per-hour | CIF-/IF-Module mapped; |
158 | das | hundredths-seconds | CIF-/IF-Module mapped; |
159 | ms | milliseconds | CIF-/IF-Module mapped; |
160 | N.m | newton-meters | CIF-/IF-Module mapped; |
161 | mm/s | millimeters-per-second | CIF-/IF-Module mapped; |
162 | mm/min | millimeters-per-minute | CIF-/IF-Module mapped; |
163 | m/min | meters-per-minute | CIF-/IF-Module mapped; |
164 | m/h | meters-per-hour | CIF-/IF-Module mapped; |
165 | m3/min | cubic-meters-per-minute | CIF-/IF-Module mapped; |
166 | m/s2 | meters-per-second-per-second | CIF-/IF-Module mapped; |
167 | A/m | amperes-per-meter | CIF-/IF-Module mapped; |
168 | A/m2 | amperes-per-square-meter | CIF-/IF-Module mapped; |
169 | A.m2 | ampere-square-meters | CIF-/IF-Module mapped; |
170 | F | farads | CIF-/IF-Module mapped; |
171 | H | henrys | CIF-/IF-Module mapped; |
172 | Ohm.m | ohm-meters | CIF-/IF-Module mapped; |
173 | S | siemens | CIF-/IF-Module mapped; |
174 | S/m | siemens-per-meter | CIF-/IF-Module mapped; |
175 | T | teslas | CIF-/IF-Module mapped; |
176 | V/K | volts-per-degree-Kelvin | CIF-/IF-Module mapped; |
177 | V/m | volts-per-meter | CIF-/IF-Module mapped; |
178 | Wb | webers | CIF-/IF-Module mapped; |
179 | cd | candelas | CIF-/IF-Module mapped; |
180 | cd/m2 | candelas-per-square-meter | CIF-/IF-Module mapped; |
181 | K/h | degrees-Kelvin-per-hour | CIF-/IF-Module mapped; |
182 | K/min | degrees-Kelvin-per-minute | CIF-/IF-Module mapped; |
183 | Js | joule-seconds | CIF-/IF-Module mapped; |
184 | rad/s | radians-per-second | CIF-/IF-Module mapped; |
185 | m2/N | square-meters-per-Newton | CIF-/IF-Module mapped; |
186 | kg/m3 | kilograms-per-cubic-meter | CIF-/IF-Module mapped; |
187 | N.s | newton-seconds | CIF-/IF-Module mapped; |
188 | N/m | newtons-per-meter | CIF-/IF-Module mapped; |
189 | watts-per-meter-per-degree-Kelvin | CIF-/IF-Module mapped; | |
190 | uS | micro-siemens | CIF-/IF-Module mapped; |
191 | [ft_i]3/h | cubic-feet-per-hour | CIF-/IF-Module mapped; |
192 | [gal_us]/h | us-gallons-per-hour | CIF-/IF-Module mapped; |
193 | km | kilometers | CIF-/IF-Module mapped; |
194 | um | micrometers | CIF-/IF-Module mapped; |
195 | g | grams | CIF-/IF-Module mapped; |
196 | mg | milligrams | CIF-/IF-Module mapped; |
197 | ml | milliliters | CIF-/IF-Module mapped; |
198 | ml/s | milliliters-per-second | CIF-/IF-Module mapped; |
199 | dB | decibels | CIF-/IF-Module mapped; |
200 | dB[mV] | decibels-millivolt | CIF-/IF-Module mapped; |
201 | dB[V] | decibels-volt | CIF-/IF-Module mapped; |
202 | mS | millisiemens | CIF-/IF-Module mapped; |
203 | watt-hours-reactive | CIF-/IF-Module mapped; | |
204 | kilowatt-hours-reactive | CIF-/IF-Module mapped; | |
205 | megawatt-hours-reactive | CIF-/IF-Module mapped; | |
206 | mm[H2O] | millimeters-of-water | CIF-/IF-Module mapped; |
207 | [mi_i]-1 | per-mille | CIF-/IF-Module mapped; |
208 | g/g | grams-per-gram | CIF-/IF-Module mapped; |
209 | kg/kg | kilograms-per-kilogram | CIF-/IF-Module mapped; |
210 | g/kg | grams-per-kilogram | CIF-/IF-Module mapped; |
211 | mg/g | milligrams-per-gram | CIF-/IF-Module mapped; |
212 | mg/kg | milligrams-per-kilogram | CIF-/IF-Module mapped; |
213 | g/ml | grams-per-milliliter | CIF-/IF-Module mapped; |
214 | g/l | grams-per-liter | CIF-/IF-Module mapped; |
215 | mg/l | milligrams-per-liter | CIF-/IF-Module mapped; |
216 | ug/l | micrograms-per-liter | CIF-/IF-Module mapped; |
217 | g/m3 | grams-per-cubic-meter | CIF-/IF-Module mapped; |
218 | mg/m3 | milligrams-per-cubic-meter | CIF-/IF-Module mapped; |
219 | ug/m3 | micrograms-per-cubic-meter | CIF-/IF-Module mapped; |
220 | ng/m3 | nanograms-per-cubic-meter | CIF-/IF-Module mapped; |
221 | g/m3 | grams-per-cubic-centimeter | CIF-/IF-Module mapped; |
222 | Bq | becquerels | CIF-/IF-Module mapped; |
223 | kBq | kilobecquerels | CIF-/IF-Module mapped; |
224 | MBq | megabecquerels | CIF-/IF-Module mapped; |
225 | Gy | gray | CIF-/IF-Module mapped; |
226 | mGy | milligray | CIF-/IF-Module mapped; |
227 | uGy | microgray | CIF-/IF-Module mapped; |
228 | Sv | sieverts | CIF-/IF-Module mapped; |
229 | mSv | millisieverts | CIF-/IF-Module mapped; |
230 | uSv | microsieverts | CIF-/IF-Module mapped; |
231 | uSv/h | microsieverts-per-hour | CIF-/IF-Module mapped; |
232 | decibels-a | CIF-/IF-Module mapped; | |
233 | nephelometric-turbidity-unit | CIF-/IF-Module mapped; | |
234 | pH | CIF-/IF-Module mapped; | |
235 | g/m2 | grams-per-square-meter | CIF-/IF-Module mapped; |
236 | min/K | minutes-per-degree-kelvin | CIF-/IF-Module mapped; |
237 | m[H2O] | meters-of-water | CIF-/IF-Module mapped; |
238 | s {1970-01-01 0:00 UTC} | timestamp-unix | CIF-/IF-Module mapped; |
239 | m2 | square-meters | CIF-/IF-Module mapped; |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1003 |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | IF-Module | Signal source for setpoint: IF-Module | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | 0…10 V | Signal source for setpoint: IN2 mode 0…10 V | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
3 | 2…10 V | Signal source for setpoint: IN2 mode 2…10 V | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
4 | 0…20 mA | Signal source for setpoint: IN2 mode 0…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
5 | 4…20 mA | Signal source for setpoint: IN2 mode 4…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
6 | Internal | Signal source for setpoint: internal | Stratos MAXO; |
7 | EXT 1 | Signal source for setpoint: EXT 1 | Stratos MAXO; |
8 | EXT 2 | Signal source for setpoint: EXT 2 | Stratos MAXO; |
9 | INVALID | Invalid value | CIF-/IF-Module internal; |
This is the base signal. This signal represents the source for the setpoint for the current control function.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1033 |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | [ft_i]2 | square-feet | CIF-/IF-Module mapped; |
2 | mA | milliamperes | CIF-/IF-Module mapped; |
3 | A | amperes | CIF-/IF-Module mapped; |
4 | Ohm | ohms | CIF-/IF-Module mapped; |
5 | V | volts | CIF-/IF-Module mapped; |
6 | kV | kilovolts | CIF-/IF-Module mapped; |
7 | MV | megavolts | CIF-/IF-Module mapped; |
8 | VA | volt-amperes | CIF-/IF-Module mapped; |
9 | kVA | kilovolt-amperes | CIF-/IF-Module mapped; |
10 | MVA | megavolt-amperes | CIF-/IF-Module mapped; |
11 | VAR | volt-amperes-reactive | CIF-/IF-Module mapped; |
12 | kVAR | kilovolt-amperes-reactive | CIF-/IF-Module mapped; |
13 | MVAR | megavolt-amperes-reactive | CIF-/IF-Module mapped; |
14 | deg | degrees-phase | CIF-/IF-Module mapped; |
15 | power-factor | CIF-/IF-Module mapped; | |
16 | J | joules | CIF-/IF-Module mapped; |
17 | kJ | kilojoules | CIF-/IF-Module mapped; |
18 | Wh | watt-hours | CIF-/IF-Module mapped; |
19 | kWh | kilowatt-hours | CIF-/IF-Module mapped; |
20 | [Btu] | btus | CIF-/IF-Module mapped; |
21 | therms | CIF-/IF-Module mapped; | |
22 | t.h | ton-hours | CIF-/IF-Module mapped; |
23 | joules-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
24 | btus-per-pound-dry-air | CIF-/IF-Module mapped; | |
25 | h-1 | cycles-per-hour | CIF-/IF-Module mapped; |
26 | min-1 | cycles-per-minute | CIF-/IF-Module mapped; |
27 | Hz | hertz | CIF-/IF-Module mapped; |
28 | grams-of-water-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
29 | % | percent-relative-humidity | CIF-/IF-Module mapped; |
30 | mm | millimeters | CIF-/IF-Module mapped; |
31 | m | meters | CIF-/IF-Module mapped; |
32 | [in_i] | inches | CIF-/IF-Module mapped; |
33 | [ft_i] | feet | CIF-/IF-Module mapped; |
34 | W/[ft_i]2 | watts-per-square-foot | CIF-/IF-Module mapped; |
35 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
36 | lm | lumens | CIF-/IF-Module mapped; |
37 | lx | luxes | CIF-/IF-Module mapped; |
38 | foot-candles | CIF-/IF-Module mapped; | |
39 | kg | kilograms | CIF-/IF-Module mapped; |
40 | [lb_av] | pounds-mass | CIF-/IF-Module mapped; |
41 | t | tons | CIF-/IF-Module mapped; |
42 | kg/s | kilograms-per-second | CIF-/IF-Module mapped; |
43 | kg/min | kilograms-per-minute | CIF-/IF-Module mapped; |
44 | kg/h | kilograms-per-hour | CIF-/IF-Module mapped; |
45 | [lb_av]/min | pounds-mass-per-minute | CIF-/IF-Module mapped; |
46 | [lb_av]/h | pounds-mass-per-hour | CIF-/IF-Module mapped; |
47 | W | watts | CIF-/IF-Module mapped; |
48 | kW | kilowatts | CIF-/IF-Module mapped; |
49 | MW | megawatts | CIF-/IF-Module mapped; |
50 | [Btu]/h | btus-per-hour | CIF-/IF-Module mapped; |
51 | [HP] | horsepower | CIF-/IF-Module mapped; |
52 | tons-refrigeration | CIF-/IF-Module mapped; | |
53 | Pa | pascals | CIF-/IF-Module mapped; |
54 | kPa | kilopascals | CIF-/IF-Module mapped; |
55 | bar | bars | CIF-/IF-Module mapped; |
56 | [lbf_av]/[in_i]2 | pounds-force-per-square-inch | CIF-/IF-Module mapped; |
57 | cm[H2O] | centimeters-of-water | CIF-/IF-Module mapped; |
58 | [in_i'H2O] | inches-of-water | CIF-/IF-Module mapped; |
59 | mm[Hg] | millimeters-of-mercury | CIF-/IF-Module mapped; |
60 | cm[Hg] | centimeters-of-mercury | CIF-/IF-Module mapped; |
61 | [in_i'Hg] | inches-of-mercury | CIF-/IF-Module mapped; |
62 | Cel | degrees-Celsius | CIF-/IF-Module mapped; |
63 | K | degrees-Kelvin | CIF-/IF-Module mapped; |
64 | [degF] | degrees-Fahrenheit | CIF-/IF-Module mapped; |
65 | Cel.d | degree-days-Celsius | CIF-/IF-Module mapped; |
66 | [degF].d | degree-days-Fahrenheit | CIF-/IF-Module mapped; |
67 | a | years | CIF-/IF-Module mapped; |
68 | m | months | CIF-/IF-Module mapped; |
69 | wk | weeks | CIF-/IF-Module mapped; |
70 | d | days | CIF-/IF-Module mapped; |
71 | h | hours | CIF-/IF-Module mapped; |
72 | min | minutes | CIF-/IF-Module mapped; |
73 | s | seconds | CIF-/IF-Module mapped; |
74 | m/s | meters-per-second | CIF-/IF-Module mapped; |
75 | km/h | kilometers-per-hour | CIF-/IF-Module mapped; |
76 | [ft_i]/s | feet-per-second | CIF-/IF-Module mapped; |
77 | [ft_i]/min | feet-per-minute | CIF-/IF-Module mapped; |
78 | [mi_us]/h | miles-per-hour | CIF-/IF-Module mapped; |
79 | [ft_i]3 | cubic-feet | CIF-/IF-Module mapped; |
80 | m3 | cubic-meters | CIF-/IF-Module mapped; |
81 | [gal_br] | imperial-gallons | CIF-/IF-Module mapped; |
82 | l | liters | CIF-/IF-Module mapped; |
83 | [gal_us] | us-gallons | CIF-/IF-Module mapped; |
84 | [ft_i]3/min | cubic-feet-per-minute | CIF-/IF-Module mapped; |
85 | m3/s | cubic-meters-per-second | CIF-/IF-Module mapped; |
86 | [gal_br]/m | imperial-gallons-per-m | CIF-/IF-Module mapped; |
87 | l/s | liters-per-second | CIF-/IF-Module mapped; |
88 | l/m | liters-per-minute | CIF-/IF-Module mapped; |
89 | [gal_us]/min | us-gallons-per-minute | CIF-/IF-Module mapped; |
90 | deg | degrees-angular | CIF-/IF-Module mapped; |
91 | Cel/h | degrees-Celsius-per-hour | CIF-/IF-Module mapped; |
92 | Cel/min | degrees-Celsius-per-minute | CIF-/IF-Module mapped; |
93 | [degF]/h | degrees-Fahrenheit-per-hour | CIF-/IF-Module mapped; |
94 | [degF]/min | degrees-Fahrenheit-per-minute | CIF-/IF-Module mapped; |
95 | no-units | CIF-/IF-Module mapped; | |
96 | [ppm] | parts-per-million | CIF-/IF-Module mapped; |
97 | [ppb] | parts-per-billion | CIF-/IF-Module mapped; |
98 | % | percent | CIF-/IF-Module mapped; |
99 | %/s | percent-per-second | CIF-/IF-Module mapped; |
100 | min-1 | per-minute | CIF-/IF-Module mapped; |
101 | s-1 | per-second | CIF-/IF-Module mapped; |
102 | [psi]/F | psi-per-degree-Fahrenheit | CIF-/IF-Module mapped; |
103 | rad | radians | CIF-/IF-Module mapped; |
104 | min-1 | revolutions-per-minute | CIF-/IF-Module mapped; |
105 | currency1 | CIF-/IF-Module mapped; | |
106 | currency2 | CIF-/IF-Module mapped; | |
107 | currency3 | CIF-/IF-Module mapped; | |
108 | currency4 | CIF-/IF-Module mapped; | |
109 | currency5 | CIF-/IF-Module mapped; | |
110 | currency6 | CIF-/IF-Module mapped; | |
111 | currency7 | CIF-/IF-Module mapped; | |
112 | currency8 | CIF-/IF-Module mapped; | |
113 | currency9 | CIF-/IF-Module mapped; | |
114 | currency10 | CIF-/IF-Module mapped; | |
115 | [in_i]2 | square-inches | CIF-/IF-Module mapped; |
116 | cm2 | square-centimeters | CIF-/IF-Module mapped; |
117 | btus-per-pound | CIF-/IF-Module mapped; | |
118 | cm | centimeters | CIF-/IF-Module mapped; |
119 | [lb_av]/s | pounds-mass-per-second | CIF-/IF-Module mapped; |
120 | delta-degrees-Fahrenheit | CIF-/IF-Module mapped; | |
121 | delta-degrees-Kelvin | CIF-/IF-Module mapped; | |
122 | kOhm | kilohms | CIF-/IF-Module mapped; |
123 | MOhm | megohms | CIF-/IF-Module mapped; |
124 | mV | millivolts | CIF-/IF-Module mapped; |
125 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
126 | MJ | megajoules | CIF-/IF-Module mapped; |
127 | J/K | joules-per-degree-Kelvin | CIF-/IF-Module mapped; |
128 | J/kg/K | joules-per-kilogram-degree-Kelvin | CIF-/IF-Module mapped; |
129 | kHz | kilohertz | CIF-/IF-Module mapped; |
130 | MHz | megahertz | CIF-/IF-Module mapped; |
131 | h-1 | per-hour | CIF-/IF-Module mapped; |
132 | mW | milliwatts | CIF-/IF-Module mapped; |
133 | hPa | hectopascals | CIF-/IF-Module mapped; |
134 | mbar | millibars | CIF-/IF-Module mapped; |
135 | m3/h | cubic-meters-per-hour | CIF-/IF-Module mapped; |
136 | l/h | liters-per-hour | CIF-/IF-Module mapped; |
137 | kWh/m2 | kilowatt-hours-per-square-meter | CIF-/IF-Module mapped; |
138 | kWh/[ft_i]2 | kilowatt-hours-per-square-foot | CIF-/IF-Module mapped; |
139 | MJ/m2 | megajoules-per-square-meter | CIF-/IF-Module mapped; |
140 | MJ/[ft_i]2 | megajoules-per-square-foot | CIF-/IF-Module mapped; |
141 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
142 | [ft_i]3/s | cubic-feet-per-second | CIF-/IF-Module mapped; |
143 | percent-obscuration-per-foot | CIF-/IF-Module mapped; | |
144 | percent-obscuration-per-meter | CIF-/IF-Module mapped; | |
145 | mOhm | milliohms | CIF-/IF-Module mapped; |
146 | MWh | megawatt-hours | CIF-/IF-Module mapped; |
147 | k[Btu] | kilo-btus | CIF-/IF-Module mapped; |
148 | M[Btu] | mega-btus | CIF-/IF-Module mapped; |
149 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
150 | MJ/kg | megajoules-per-kilogram | CIF-/IF-Module mapped; |
151 | kJ/K | kilojoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
152 | MJ/K | megajoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
153 | N | newton | CIF-/IF-Module mapped; |
154 | g/s | grams-per-second | CIF-/IF-Module mapped; |
155 | g/min | grams-per-minute | CIF-/IF-Module mapped; |
156 | t/h | tons-per-hour | CIF-/IF-Module mapped; |
157 | k[Btu]/h | kilo-btus-per-hour | CIF-/IF-Module mapped; |
158 | das | hundredths-seconds | CIF-/IF-Module mapped; |
159 | ms | milliseconds | CIF-/IF-Module mapped; |
160 | N.m | newton-meters | CIF-/IF-Module mapped; |
161 | mm/s | millimeters-per-second | CIF-/IF-Module mapped; |
162 | mm/min | millimeters-per-minute | CIF-/IF-Module mapped; |
163 | m/min | meters-per-minute | CIF-/IF-Module mapped; |
164 | m/h | meters-per-hour | CIF-/IF-Module mapped; |
165 | m3/min | cubic-meters-per-minute | CIF-/IF-Module mapped; |
166 | m/s2 | meters-per-second-per-second | CIF-/IF-Module mapped; |
167 | A/m | amperes-per-meter | CIF-/IF-Module mapped; |
168 | A/m2 | amperes-per-square-meter | CIF-/IF-Module mapped; |
169 | A.m2 | ampere-square-meters | CIF-/IF-Module mapped; |
170 | F | farads | CIF-/IF-Module mapped; |
171 | H | henrys | CIF-/IF-Module mapped; |
172 | Ohm.m | ohm-meters | CIF-/IF-Module mapped; |
173 | S | siemens | CIF-/IF-Module mapped; |
174 | S/m | siemens-per-meter | CIF-/IF-Module mapped; |
175 | T | teslas | CIF-/IF-Module mapped; |
176 | V/K | volts-per-degree-Kelvin | CIF-/IF-Module mapped; |
177 | V/m | volts-per-meter | CIF-/IF-Module mapped; |
178 | Wb | webers | CIF-/IF-Module mapped; |
179 | cd | candelas | CIF-/IF-Module mapped; |
180 | cd/m2 | candelas-per-square-meter | CIF-/IF-Module mapped; |
181 | K/h | degrees-Kelvin-per-hour | CIF-/IF-Module mapped; |
182 | K/min | degrees-Kelvin-per-minute | CIF-/IF-Module mapped; |
183 | Js | joule-seconds | CIF-/IF-Module mapped; |
184 | rad/s | radians-per-second | CIF-/IF-Module mapped; |
185 | m2/N | square-meters-per-Newton | CIF-/IF-Module mapped; |
186 | kg/m3 | kilograms-per-cubic-meter | CIF-/IF-Module mapped; |
187 | N.s | newton-seconds | CIF-/IF-Module mapped; |
188 | N/m | newtons-per-meter | CIF-/IF-Module mapped; |
189 | watts-per-meter-per-degree-Kelvin | CIF-/IF-Module mapped; | |
190 | uS | micro-siemens | CIF-/IF-Module mapped; |
191 | [ft_i]3/h | cubic-feet-per-hour | CIF-/IF-Module mapped; |
192 | [gal_us]/h | us-gallons-per-hour | CIF-/IF-Module mapped; |
193 | km | kilometers | CIF-/IF-Module mapped; |
194 | um | micrometers | CIF-/IF-Module mapped; |
195 | g | grams | CIF-/IF-Module mapped; |
196 | mg | milligrams | CIF-/IF-Module mapped; |
197 | ml | milliliters | CIF-/IF-Module mapped; |
198 | ml/s | milliliters-per-second | CIF-/IF-Module mapped; |
199 | dB | decibels | CIF-/IF-Module mapped; |
200 | dB[mV] | decibels-millivolt | CIF-/IF-Module mapped; |
201 | dB[V] | decibels-volt | CIF-/IF-Module mapped; |
202 | mS | millisiemens | CIF-/IF-Module mapped; |
203 | watt-hours-reactive | CIF-/IF-Module mapped; | |
204 | kilowatt-hours-reactive | CIF-/IF-Module mapped; | |
205 | megawatt-hours-reactive | CIF-/IF-Module mapped; | |
206 | mm[H2O] | millimeters-of-water | CIF-/IF-Module mapped; |
207 | [mi_i]-1 | per-mille | CIF-/IF-Module mapped; |
208 | g/g | grams-per-gram | CIF-/IF-Module mapped; |
209 | kg/kg | kilograms-per-kilogram | CIF-/IF-Module mapped; |
210 | g/kg | grams-per-kilogram | CIF-/IF-Module mapped; |
211 | mg/g | milligrams-per-gram | CIF-/IF-Module mapped; |
212 | mg/kg | milligrams-per-kilogram | CIF-/IF-Module mapped; |
213 | g/ml | grams-per-milliliter | CIF-/IF-Module mapped; |
214 | g/l | grams-per-liter | CIF-/IF-Module mapped; |
215 | mg/l | milligrams-per-liter | CIF-/IF-Module mapped; |
216 | ug/l | micrograms-per-liter | CIF-/IF-Module mapped; |
217 | g/m3 | grams-per-cubic-meter | CIF-/IF-Module mapped; |
218 | mg/m3 | milligrams-per-cubic-meter | CIF-/IF-Module mapped; |
219 | ug/m3 | micrograms-per-cubic-meter | CIF-/IF-Module mapped; |
220 | ng/m3 | nanograms-per-cubic-meter | CIF-/IF-Module mapped; |
221 | g/m3 | grams-per-cubic-centimeter | CIF-/IF-Module mapped; |
222 | Bq | becquerels | CIF-/IF-Module mapped; |
223 | kBq | kilobecquerels | CIF-/IF-Module mapped; |
224 | MBq | megabecquerels | CIF-/IF-Module mapped; |
225 | Gy | gray | CIF-/IF-Module mapped; |
226 | mGy | milligray | CIF-/IF-Module mapped; |
227 | uGy | microgray | CIF-/IF-Module mapped; |
228 | Sv | sieverts | CIF-/IF-Module mapped; |
229 | mSv | millisieverts | CIF-/IF-Module mapped; |
230 | uSv | microsieverts | CIF-/IF-Module mapped; |
231 | uSv/h | microsieverts-per-hour | CIF-/IF-Module mapped; |
232 | decibels-a | CIF-/IF-Module mapped; | |
233 | nephelometric-turbidity-unit | CIF-/IF-Module mapped; | |
234 | pH | CIF-/IF-Module mapped; | |
235 | g/m2 | grams-per-square-meter | CIF-/IF-Module mapped; |
236 | min/K | minutes-per-degree-kelvin | CIF-/IF-Module mapped; |
237 | m[H2O] | meters-of-water | CIF-/IF-Module mapped; |
238 | s {1970-01-01 0:00 UTC} | timestamp-unix | CIF-/IF-Module mapped; |
239 | m2 | square-meters | CIF-/IF-Module mapped; |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1133 |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | [ft_i]2 | square-feet | CIF-/IF-Module mapped; |
2 | mA | milliamperes | CIF-/IF-Module mapped; |
3 | A | amperes | CIF-/IF-Module mapped; |
4 | Ohm | ohms | CIF-/IF-Module mapped; |
5 | V | volts | CIF-/IF-Module mapped; |
6 | kV | kilovolts | CIF-/IF-Module mapped; |
7 | MV | megavolts | CIF-/IF-Module mapped; |
8 | VA | volt-amperes | CIF-/IF-Module mapped; |
9 | kVA | kilovolt-amperes | CIF-/IF-Module mapped; |
10 | MVA | megavolt-amperes | CIF-/IF-Module mapped; |
11 | VAR | volt-amperes-reactive | CIF-/IF-Module mapped; |
12 | kVAR | kilovolt-amperes-reactive | CIF-/IF-Module mapped; |
13 | MVAR | megavolt-amperes-reactive | CIF-/IF-Module mapped; |
14 | deg | degrees-phase | CIF-/IF-Module mapped; |
15 | power-factor | CIF-/IF-Module mapped; | |
16 | J | joules | CIF-/IF-Module mapped; |
17 | kJ | kilojoules | CIF-/IF-Module mapped; |
18 | Wh | watt-hours | CIF-/IF-Module mapped; |
19 | kWh | kilowatt-hours | CIF-/IF-Module mapped; |
20 | [Btu] | btus | CIF-/IF-Module mapped; |
21 | therms | CIF-/IF-Module mapped; | |
22 | t.h | ton-hours | CIF-/IF-Module mapped; |
23 | joules-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
24 | btus-per-pound-dry-air | CIF-/IF-Module mapped; | |
25 | h-1 | cycles-per-hour | CIF-/IF-Module mapped; |
26 | min-1 | cycles-per-minute | CIF-/IF-Module mapped; |
27 | Hz | hertz | CIF-/IF-Module mapped; |
28 | grams-of-water-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
29 | % | percent-relative-humidity | CIF-/IF-Module mapped; |
30 | mm | millimeters | CIF-/IF-Module mapped; |
31 | m | meters | CIF-/IF-Module mapped; |
32 | [in_i] | inches | CIF-/IF-Module mapped; |
33 | [ft_i] | feet | CIF-/IF-Module mapped; |
34 | W/[ft_i]2 | watts-per-square-foot | CIF-/IF-Module mapped; |
35 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
36 | lm | lumens | CIF-/IF-Module mapped; |
37 | lx | luxes | CIF-/IF-Module mapped; |
38 | foot-candles | CIF-/IF-Module mapped; | |
39 | kg | kilograms | CIF-/IF-Module mapped; |
40 | [lb_av] | pounds-mass | CIF-/IF-Module mapped; |
41 | t | tons | CIF-/IF-Module mapped; |
42 | kg/s | kilograms-per-second | CIF-/IF-Module mapped; |
43 | kg/min | kilograms-per-minute | CIF-/IF-Module mapped; |
44 | kg/h | kilograms-per-hour | CIF-/IF-Module mapped; |
45 | [lb_av]/min | pounds-mass-per-minute | CIF-/IF-Module mapped; |
46 | [lb_av]/h | pounds-mass-per-hour | CIF-/IF-Module mapped; |
47 | W | watts | CIF-/IF-Module mapped; |
48 | kW | kilowatts | CIF-/IF-Module mapped; |
49 | MW | megawatts | CIF-/IF-Module mapped; |
50 | [Btu]/h | btus-per-hour | CIF-/IF-Module mapped; |
51 | [HP] | horsepower | CIF-/IF-Module mapped; |
52 | tons-refrigeration | CIF-/IF-Module mapped; | |
53 | Pa | pascals | CIF-/IF-Module mapped; |
54 | kPa | kilopascals | CIF-/IF-Module mapped; |
55 | bar | bars | CIF-/IF-Module mapped; |
56 | [lbf_av]/[in_i]2 | pounds-force-per-square-inch | CIF-/IF-Module mapped; |
57 | cm[H2O] | centimeters-of-water | CIF-/IF-Module mapped; |
58 | [in_i'H2O] | inches-of-water | CIF-/IF-Module mapped; |
59 | mm[Hg] | millimeters-of-mercury | CIF-/IF-Module mapped; |
60 | cm[Hg] | centimeters-of-mercury | CIF-/IF-Module mapped; |
61 | [in_i'Hg] | inches-of-mercury | CIF-/IF-Module mapped; |
62 | Cel | degrees-Celsius | CIF-/IF-Module mapped; |
63 | K | degrees-Kelvin | CIF-/IF-Module mapped; |
64 | [degF] | degrees-Fahrenheit | CIF-/IF-Module mapped; |
65 | Cel.d | degree-days-Celsius | CIF-/IF-Module mapped; |
66 | [degF].d | degree-days-Fahrenheit | CIF-/IF-Module mapped; |
67 | a | years | CIF-/IF-Module mapped; |
68 | m | months | CIF-/IF-Module mapped; |
69 | wk | weeks | CIF-/IF-Module mapped; |
70 | d | days | CIF-/IF-Module mapped; |
71 | h | hours | CIF-/IF-Module mapped; |
72 | min | minutes | CIF-/IF-Module mapped; |
73 | s | seconds | CIF-/IF-Module mapped; |
74 | m/s | meters-per-second | CIF-/IF-Module mapped; |
75 | km/h | kilometers-per-hour | CIF-/IF-Module mapped; |
76 | [ft_i]/s | feet-per-second | CIF-/IF-Module mapped; |
77 | [ft_i]/min | feet-per-minute | CIF-/IF-Module mapped; |
78 | [mi_us]/h | miles-per-hour | CIF-/IF-Module mapped; |
79 | [ft_i]3 | cubic-feet | CIF-/IF-Module mapped; |
80 | m3 | cubic-meters | CIF-/IF-Module mapped; |
81 | [gal_br] | imperial-gallons | CIF-/IF-Module mapped; |
82 | l | liters | CIF-/IF-Module mapped; |
83 | [gal_us] | us-gallons | CIF-/IF-Module mapped; |
84 | [ft_i]3/min | cubic-feet-per-minute | CIF-/IF-Module mapped; |
85 | m3/s | cubic-meters-per-second | CIF-/IF-Module mapped; |
86 | [gal_br]/m | imperial-gallons-per-m | CIF-/IF-Module mapped; |
87 | l/s | liters-per-second | CIF-/IF-Module mapped; |
88 | l/m | liters-per-minute | CIF-/IF-Module mapped; |
89 | [gal_us]/min | us-gallons-per-minute | CIF-/IF-Module mapped; |
90 | deg | degrees-angular | CIF-/IF-Module mapped; |
91 | Cel/h | degrees-Celsius-per-hour | CIF-/IF-Module mapped; |
92 | Cel/min | degrees-Celsius-per-minute | CIF-/IF-Module mapped; |
93 | [degF]/h | degrees-Fahrenheit-per-hour | CIF-/IF-Module mapped; |
94 | [degF]/min | degrees-Fahrenheit-per-minute | CIF-/IF-Module mapped; |
95 | no-units | CIF-/IF-Module mapped; | |
96 | [ppm] | parts-per-million | CIF-/IF-Module mapped; |
97 | [ppb] | parts-per-billion | CIF-/IF-Module mapped; |
98 | % | percent | CIF-/IF-Module mapped; |
99 | %/s | percent-per-second | CIF-/IF-Module mapped; |
100 | min-1 | per-minute | CIF-/IF-Module mapped; |
101 | s-1 | per-second | CIF-/IF-Module mapped; |
102 | [psi]/F | psi-per-degree-Fahrenheit | CIF-/IF-Module mapped; |
103 | rad | radians | CIF-/IF-Module mapped; |
104 | min-1 | revolutions-per-minute | CIF-/IF-Module mapped; |
105 | currency1 | CIF-/IF-Module mapped; | |
106 | currency2 | CIF-/IF-Module mapped; | |
107 | currency3 | CIF-/IF-Module mapped; | |
108 | currency4 | CIF-/IF-Module mapped; | |
109 | currency5 | CIF-/IF-Module mapped; | |
110 | currency6 | CIF-/IF-Module mapped; | |
111 | currency7 | CIF-/IF-Module mapped; | |
112 | currency8 | CIF-/IF-Module mapped; | |
113 | currency9 | CIF-/IF-Module mapped; | |
114 | currency10 | CIF-/IF-Module mapped; | |
115 | [in_i]2 | square-inches | CIF-/IF-Module mapped; |
116 | cm2 | square-centimeters | CIF-/IF-Module mapped; |
117 | btus-per-pound | CIF-/IF-Module mapped; | |
118 | cm | centimeters | CIF-/IF-Module mapped; |
119 | [lb_av]/s | pounds-mass-per-second | CIF-/IF-Module mapped; |
120 | delta-degrees-Fahrenheit | CIF-/IF-Module mapped; | |
121 | delta-degrees-Kelvin | CIF-/IF-Module mapped; | |
122 | kOhm | kilohms | CIF-/IF-Module mapped; |
123 | MOhm | megohms | CIF-/IF-Module mapped; |
124 | mV | millivolts | CIF-/IF-Module mapped; |
125 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
126 | MJ | megajoules | CIF-/IF-Module mapped; |
127 | J/K | joules-per-degree-Kelvin | CIF-/IF-Module mapped; |
128 | J/kg/K | joules-per-kilogram-degree-Kelvin | CIF-/IF-Module mapped; |
129 | kHz | kilohertz | CIF-/IF-Module mapped; |
130 | MHz | megahertz | CIF-/IF-Module mapped; |
131 | h-1 | per-hour | CIF-/IF-Module mapped; |
132 | mW | milliwatts | CIF-/IF-Module mapped; |
133 | hPa | hectopascals | CIF-/IF-Module mapped; |
134 | mbar | millibars | CIF-/IF-Module mapped; |
135 | m3/h | cubic-meters-per-hour | CIF-/IF-Module mapped; |
136 | l/h | liters-per-hour | CIF-/IF-Module mapped; |
137 | kWh/m2 | kilowatt-hours-per-square-meter | CIF-/IF-Module mapped; |
138 | kWh/[ft_i]2 | kilowatt-hours-per-square-foot | CIF-/IF-Module mapped; |
139 | MJ/m2 | megajoules-per-square-meter | CIF-/IF-Module mapped; |
140 | MJ/[ft_i]2 | megajoules-per-square-foot | CIF-/IF-Module mapped; |
141 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
142 | [ft_i]3/s | cubic-feet-per-second | CIF-/IF-Module mapped; |
143 | percent-obscuration-per-foot | CIF-/IF-Module mapped; | |
144 | percent-obscuration-per-meter | CIF-/IF-Module mapped; | |
145 | mOhm | milliohms | CIF-/IF-Module mapped; |
146 | MWh | megawatt-hours | CIF-/IF-Module mapped; |
147 | k[Btu] | kilo-btus | CIF-/IF-Module mapped; |
148 | M[Btu] | mega-btus | CIF-/IF-Module mapped; |
149 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
150 | MJ/kg | megajoules-per-kilogram | CIF-/IF-Module mapped; |
151 | kJ/K | kilojoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
152 | MJ/K | megajoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
153 | N | newton | CIF-/IF-Module mapped; |
154 | g/s | grams-per-second | CIF-/IF-Module mapped; |
155 | g/min | grams-per-minute | CIF-/IF-Module mapped; |
156 | t/h | tons-per-hour | CIF-/IF-Module mapped; |
157 | k[Btu]/h | kilo-btus-per-hour | CIF-/IF-Module mapped; |
158 | das | hundredths-seconds | CIF-/IF-Module mapped; |
159 | ms | milliseconds | CIF-/IF-Module mapped; |
160 | N.m | newton-meters | CIF-/IF-Module mapped; |
161 | mm/s | millimeters-per-second | CIF-/IF-Module mapped; |
162 | mm/min | millimeters-per-minute | CIF-/IF-Module mapped; |
163 | m/min | meters-per-minute | CIF-/IF-Module mapped; |
164 | m/h | meters-per-hour | CIF-/IF-Module mapped; |
165 | m3/min | cubic-meters-per-minute | CIF-/IF-Module mapped; |
166 | m/s2 | meters-per-second-per-second | CIF-/IF-Module mapped; |
167 | A/m | amperes-per-meter | CIF-/IF-Module mapped; |
168 | A/m2 | amperes-per-square-meter | CIF-/IF-Module mapped; |
169 | A.m2 | ampere-square-meters | CIF-/IF-Module mapped; |
170 | F | farads | CIF-/IF-Module mapped; |
171 | H | henrys | CIF-/IF-Module mapped; |
172 | Ohm.m | ohm-meters | CIF-/IF-Module mapped; |
173 | S | siemens | CIF-/IF-Module mapped; |
174 | S/m | siemens-per-meter | CIF-/IF-Module mapped; |
175 | T | teslas | CIF-/IF-Module mapped; |
176 | V/K | volts-per-degree-Kelvin | CIF-/IF-Module mapped; |
177 | V/m | volts-per-meter | CIF-/IF-Module mapped; |
178 | Wb | webers | CIF-/IF-Module mapped; |
179 | cd | candelas | CIF-/IF-Module mapped; |
180 | cd/m2 | candelas-per-square-meter | CIF-/IF-Module mapped; |
181 | K/h | degrees-Kelvin-per-hour | CIF-/IF-Module mapped; |
182 | K/min | degrees-Kelvin-per-minute | CIF-/IF-Module mapped; |
183 | Js | joule-seconds | CIF-/IF-Module mapped; |
184 | rad/s | radians-per-second | CIF-/IF-Module mapped; |
185 | m2/N | square-meters-per-Newton | CIF-/IF-Module mapped; |
186 | kg/m3 | kilograms-per-cubic-meter | CIF-/IF-Module mapped; |
187 | N.s | newton-seconds | CIF-/IF-Module mapped; |
188 | N/m | newtons-per-meter | CIF-/IF-Module mapped; |
189 | watts-per-meter-per-degree-Kelvin | CIF-/IF-Module mapped; | |
190 | uS | micro-siemens | CIF-/IF-Module mapped; |
191 | [ft_i]3/h | cubic-feet-per-hour | CIF-/IF-Module mapped; |
192 | [gal_us]/h | us-gallons-per-hour | CIF-/IF-Module mapped; |
193 | km | kilometers | CIF-/IF-Module mapped; |
194 | um | micrometers | CIF-/IF-Module mapped; |
195 | g | grams | CIF-/IF-Module mapped; |
196 | mg | milligrams | CIF-/IF-Module mapped; |
197 | ml | milliliters | CIF-/IF-Module mapped; |
198 | ml/s | milliliters-per-second | CIF-/IF-Module mapped; |
199 | dB | decibels | CIF-/IF-Module mapped; |
200 | dB[mV] | decibels-millivolt | CIF-/IF-Module mapped; |
201 | dB[V] | decibels-volt | CIF-/IF-Module mapped; |
202 | mS | millisiemens | CIF-/IF-Module mapped; |
203 | watt-hours-reactive | CIF-/IF-Module mapped; | |
204 | kilowatt-hours-reactive | CIF-/IF-Module mapped; | |
205 | megawatt-hours-reactive | CIF-/IF-Module mapped; | |
206 | mm[H2O] | millimeters-of-water | CIF-/IF-Module mapped; |
207 | [mi_i]-1 | per-mille | CIF-/IF-Module mapped; |
208 | g/g | grams-per-gram | CIF-/IF-Module mapped; |
209 | kg/kg | kilograms-per-kilogram | CIF-/IF-Module mapped; |
210 | g/kg | grams-per-kilogram | CIF-/IF-Module mapped; |
211 | mg/g | milligrams-per-gram | CIF-/IF-Module mapped; |
212 | mg/kg | milligrams-per-kilogram | CIF-/IF-Module mapped; |
213 | g/ml | grams-per-milliliter | CIF-/IF-Module mapped; |
214 | g/l | grams-per-liter | CIF-/IF-Module mapped; |
215 | mg/l | milligrams-per-liter | CIF-/IF-Module mapped; |
216 | ug/l | micrograms-per-liter | CIF-/IF-Module mapped; |
217 | g/m3 | grams-per-cubic-meter | CIF-/IF-Module mapped; |
218 | mg/m3 | milligrams-per-cubic-meter | CIF-/IF-Module mapped; |
219 | ug/m3 | micrograms-per-cubic-meter | CIF-/IF-Module mapped; |
220 | ng/m3 | nanograms-per-cubic-meter | CIF-/IF-Module mapped; |
221 | g/m3 | grams-per-cubic-centimeter | CIF-/IF-Module mapped; |
222 | Bq | becquerels | CIF-/IF-Module mapped; |
223 | kBq | kilobecquerels | CIF-/IF-Module mapped; |
224 | MBq | megabecquerels | CIF-/IF-Module mapped; |
225 | Gy | gray | CIF-/IF-Module mapped; |
226 | mGy | milligray | CIF-/IF-Module mapped; |
227 | uGy | microgray | CIF-/IF-Module mapped; |
228 | Sv | sieverts | CIF-/IF-Module mapped; |
229 | mSv | millisieverts | CIF-/IF-Module mapped; |
230 | uSv | microsieverts | CIF-/IF-Module mapped; |
231 | uSv/h | microsieverts-per-hour | CIF-/IF-Module mapped; |
232 | decibels-a | CIF-/IF-Module mapped; | |
233 | nephelometric-turbidity-unit | CIF-/IF-Module mapped; | |
234 | pH | CIF-/IF-Module mapped; | |
235 | g/m2 | grams-per-square-meter | CIF-/IF-Module mapped; |
236 | min/K | minutes-per-degree-kelvin | CIF-/IF-Module mapped; |
237 | m[H2O] | meters-of-water | CIF-/IF-Module mapped; |
238 | s {1970-01-01 0:00 UTC} | timestamp-unix | CIF-/IF-Module mapped; |
239 | m2 | square-meters | CIF-/IF-Module mapped; |
This incorporates a preset or fallback function for the following signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1233 |
function | readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | [ft_i]2 | square-feet | CIF-/IF-Module mapped; |
2 | mA | milliamperes | CIF-/IF-Module mapped; |
3 | A | amperes | CIF-/IF-Module mapped; |
4 | Ohm | ohms | CIF-/IF-Module mapped; |
5 | V | volts | CIF-/IF-Module mapped; |
6 | kV | kilovolts | CIF-/IF-Module mapped; |
7 | MV | megavolts | CIF-/IF-Module mapped; |
8 | VA | volt-amperes | CIF-/IF-Module mapped; |
9 | kVA | kilovolt-amperes | CIF-/IF-Module mapped; |
10 | MVA | megavolt-amperes | CIF-/IF-Module mapped; |
11 | VAR | volt-amperes-reactive | CIF-/IF-Module mapped; |
12 | kVAR | kilovolt-amperes-reactive | CIF-/IF-Module mapped; |
13 | MVAR | megavolt-amperes-reactive | CIF-/IF-Module mapped; |
14 | deg | degrees-phase | CIF-/IF-Module mapped; |
15 | power-factor | CIF-/IF-Module mapped; | |
16 | J | joules | CIF-/IF-Module mapped; |
17 | kJ | kilojoules | CIF-/IF-Module mapped; |
18 | Wh | watt-hours | CIF-/IF-Module mapped; |
19 | kWh | kilowatt-hours | CIF-/IF-Module mapped; |
20 | [Btu] | btus | CIF-/IF-Module mapped; |
21 | therms | CIF-/IF-Module mapped; | |
22 | t.h | ton-hours | CIF-/IF-Module mapped; |
23 | joules-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
24 | btus-per-pound-dry-air | CIF-/IF-Module mapped; | |
25 | h-1 | cycles-per-hour | CIF-/IF-Module mapped; |
26 | min-1 | cycles-per-minute | CIF-/IF-Module mapped; |
27 | Hz | hertz | CIF-/IF-Module mapped; |
28 | grams-of-water-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
29 | % | percent-relative-humidity | CIF-/IF-Module mapped; |
30 | mm | millimeters | CIF-/IF-Module mapped; |
31 | m | meters | CIF-/IF-Module mapped; |
32 | [in_i] | inches | CIF-/IF-Module mapped; |
33 | [ft_i] | feet | CIF-/IF-Module mapped; |
34 | W/[ft_i]2 | watts-per-square-foot | CIF-/IF-Module mapped; |
35 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
36 | lm | lumens | CIF-/IF-Module mapped; |
37 | lx | luxes | CIF-/IF-Module mapped; |
38 | foot-candles | CIF-/IF-Module mapped; | |
39 | kg | kilograms | CIF-/IF-Module mapped; |
40 | [lb_av] | pounds-mass | CIF-/IF-Module mapped; |
41 | t | tons | CIF-/IF-Module mapped; |
42 | kg/s | kilograms-per-second | CIF-/IF-Module mapped; |
43 | kg/min | kilograms-per-minute | CIF-/IF-Module mapped; |
44 | kg/h | kilograms-per-hour | CIF-/IF-Module mapped; |
45 | [lb_av]/min | pounds-mass-per-minute | CIF-/IF-Module mapped; |
46 | [lb_av]/h | pounds-mass-per-hour | CIF-/IF-Module mapped; |
47 | W | watts | CIF-/IF-Module mapped; |
48 | kW | kilowatts | CIF-/IF-Module mapped; |
49 | MW | megawatts | CIF-/IF-Module mapped; |
50 | [Btu]/h | btus-per-hour | CIF-/IF-Module mapped; |
51 | [HP] | horsepower | CIF-/IF-Module mapped; |
52 | tons-refrigeration | CIF-/IF-Module mapped; | |
53 | Pa | pascals | CIF-/IF-Module mapped; |
54 | kPa | kilopascals | CIF-/IF-Module mapped; |
55 | bar | bars | CIF-/IF-Module mapped; |
56 | [lbf_av]/[in_i]2 | pounds-force-per-square-inch | CIF-/IF-Module mapped; |
57 | cm[H2O] | centimeters-of-water | CIF-/IF-Module mapped; |
58 | [in_i'H2O] | inches-of-water | CIF-/IF-Module mapped; |
59 | mm[Hg] | millimeters-of-mercury | CIF-/IF-Module mapped; |
60 | cm[Hg] | centimeters-of-mercury | CIF-/IF-Module mapped; |
61 | [in_i'Hg] | inches-of-mercury | CIF-/IF-Module mapped; |
62 | Cel | degrees-Celsius | CIF-/IF-Module mapped; |
63 | K | degrees-Kelvin | CIF-/IF-Module mapped; |
64 | [degF] | degrees-Fahrenheit | CIF-/IF-Module mapped; |
65 | Cel.d | degree-days-Celsius | CIF-/IF-Module mapped; |
66 | [degF].d | degree-days-Fahrenheit | CIF-/IF-Module mapped; |
67 | a | years | CIF-/IF-Module mapped; |
68 | m | months | CIF-/IF-Module mapped; |
69 | wk | weeks | CIF-/IF-Module mapped; |
70 | d | days | CIF-/IF-Module mapped; |
71 | h | hours | CIF-/IF-Module mapped; |
72 | min | minutes | CIF-/IF-Module mapped; |
73 | s | seconds | CIF-/IF-Module mapped; |
74 | m/s | meters-per-second | CIF-/IF-Module mapped; |
75 | km/h | kilometers-per-hour | CIF-/IF-Module mapped; |
76 | [ft_i]/s | feet-per-second | CIF-/IF-Module mapped; |
77 | [ft_i]/min | feet-per-minute | CIF-/IF-Module mapped; |
78 | [mi_us]/h | miles-per-hour | CIF-/IF-Module mapped; |
79 | [ft_i]3 | cubic-feet | CIF-/IF-Module mapped; |
80 | m3 | cubic-meters | CIF-/IF-Module mapped; |
81 | [gal_br] | imperial-gallons | CIF-/IF-Module mapped; |
82 | l | liters | CIF-/IF-Module mapped; |
83 | [gal_us] | us-gallons | CIF-/IF-Module mapped; |
84 | [ft_i]3/min | cubic-feet-per-minute | CIF-/IF-Module mapped; |
85 | m3/s | cubic-meters-per-second | CIF-/IF-Module mapped; |
86 | [gal_br]/m | imperial-gallons-per-m | CIF-/IF-Module mapped; |
87 | l/s | liters-per-second | CIF-/IF-Module mapped; |
88 | l/m | liters-per-minute | CIF-/IF-Module mapped; |
89 | [gal_us]/min | us-gallons-per-minute | CIF-/IF-Module mapped; |
90 | deg | degrees-angular | CIF-/IF-Module mapped; |
91 | Cel/h | degrees-Celsius-per-hour | CIF-/IF-Module mapped; |
92 | Cel/min | degrees-Celsius-per-minute | CIF-/IF-Module mapped; |
93 | [degF]/h | degrees-Fahrenheit-per-hour | CIF-/IF-Module mapped; |
94 | [degF]/min | degrees-Fahrenheit-per-minute | CIF-/IF-Module mapped; |
95 | no-units | CIF-/IF-Module mapped; | |
96 | [ppm] | parts-per-million | CIF-/IF-Module mapped; |
97 | [ppb] | parts-per-billion | CIF-/IF-Module mapped; |
98 | % | percent | CIF-/IF-Module mapped; |
99 | %/s | percent-per-second | CIF-/IF-Module mapped; |
100 | min-1 | per-minute | CIF-/IF-Module mapped; |
101 | s-1 | per-second | CIF-/IF-Module mapped; |
102 | [psi]/F | psi-per-degree-Fahrenheit | CIF-/IF-Module mapped; |
103 | rad | radians | CIF-/IF-Module mapped; |
104 | min-1 | revolutions-per-minute | CIF-/IF-Module mapped; |
105 | currency1 | CIF-/IF-Module mapped; | |
106 | currency2 | CIF-/IF-Module mapped; | |
107 | currency3 | CIF-/IF-Module mapped; | |
108 | currency4 | CIF-/IF-Module mapped; | |
109 | currency5 | CIF-/IF-Module mapped; | |
110 | currency6 | CIF-/IF-Module mapped; | |
111 | currency7 | CIF-/IF-Module mapped; | |
112 | currency8 | CIF-/IF-Module mapped; | |
113 | currency9 | CIF-/IF-Module mapped; | |
114 | currency10 | CIF-/IF-Module mapped; | |
115 | [in_i]2 | square-inches | CIF-/IF-Module mapped; |
116 | cm2 | square-centimeters | CIF-/IF-Module mapped; |
117 | btus-per-pound | CIF-/IF-Module mapped; | |
118 | cm | centimeters | CIF-/IF-Module mapped; |
119 | [lb_av]/s | pounds-mass-per-second | CIF-/IF-Module mapped; |
120 | delta-degrees-Fahrenheit | CIF-/IF-Module mapped; | |
121 | delta-degrees-Kelvin | CIF-/IF-Module mapped; | |
122 | kOhm | kilohms | CIF-/IF-Module mapped; |
123 | MOhm | megohms | CIF-/IF-Module mapped; |
124 | mV | millivolts | CIF-/IF-Module mapped; |
125 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
126 | MJ | megajoules | CIF-/IF-Module mapped; |
127 | J/K | joules-per-degree-Kelvin | CIF-/IF-Module mapped; |
128 | J/kg/K | joules-per-kilogram-degree-Kelvin | CIF-/IF-Module mapped; |
129 | kHz | kilohertz | CIF-/IF-Module mapped; |
130 | MHz | megahertz | CIF-/IF-Module mapped; |
131 | h-1 | per-hour | CIF-/IF-Module mapped; |
132 | mW | milliwatts | CIF-/IF-Module mapped; |
133 | hPa | hectopascals | CIF-/IF-Module mapped; |
134 | mbar | millibars | CIF-/IF-Module mapped; |
135 | m3/h | cubic-meters-per-hour | CIF-/IF-Module mapped; |
136 | l/h | liters-per-hour | CIF-/IF-Module mapped; |
137 | kWh/m2 | kilowatt-hours-per-square-meter | CIF-/IF-Module mapped; |
138 | kWh/[ft_i]2 | kilowatt-hours-per-square-foot | CIF-/IF-Module mapped; |
139 | MJ/m2 | megajoules-per-square-meter | CIF-/IF-Module mapped; |
140 | MJ/[ft_i]2 | megajoules-per-square-foot | CIF-/IF-Module mapped; |
141 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
142 | [ft_i]3/s | cubic-feet-per-second | CIF-/IF-Module mapped; |
143 | percent-obscuration-per-foot | CIF-/IF-Module mapped; | |
144 | percent-obscuration-per-meter | CIF-/IF-Module mapped; | |
145 | mOhm | milliohms | CIF-/IF-Module mapped; |
146 | MWh | megawatt-hours | CIF-/IF-Module mapped; |
147 | k[Btu] | kilo-btus | CIF-/IF-Module mapped; |
148 | M[Btu] | mega-btus | CIF-/IF-Module mapped; |
149 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
150 | MJ/kg | megajoules-per-kilogram | CIF-/IF-Module mapped; |
151 | kJ/K | kilojoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
152 | MJ/K | megajoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
153 | N | newton | CIF-/IF-Module mapped; |
154 | g/s | grams-per-second | CIF-/IF-Module mapped; |
155 | g/min | grams-per-minute | CIF-/IF-Module mapped; |
156 | t/h | tons-per-hour | CIF-/IF-Module mapped; |
157 | k[Btu]/h | kilo-btus-per-hour | CIF-/IF-Module mapped; |
158 | das | hundredths-seconds | CIF-/IF-Module mapped; |
159 | ms | milliseconds | CIF-/IF-Module mapped; |
160 | N.m | newton-meters | CIF-/IF-Module mapped; |
161 | mm/s | millimeters-per-second | CIF-/IF-Module mapped; |
162 | mm/min | millimeters-per-minute | CIF-/IF-Module mapped; |
163 | m/min | meters-per-minute | CIF-/IF-Module mapped; |
164 | m/h | meters-per-hour | CIF-/IF-Module mapped; |
165 | m3/min | cubic-meters-per-minute | CIF-/IF-Module mapped; |
166 | m/s2 | meters-per-second-per-second | CIF-/IF-Module mapped; |
167 | A/m | amperes-per-meter | CIF-/IF-Module mapped; |
168 | A/m2 | amperes-per-square-meter | CIF-/IF-Module mapped; |
169 | A.m2 | ampere-square-meters | CIF-/IF-Module mapped; |
170 | F | farads | CIF-/IF-Module mapped; |
171 | H | henrys | CIF-/IF-Module mapped; |
172 | Ohm.m | ohm-meters | CIF-/IF-Module mapped; |
173 | S | siemens | CIF-/IF-Module mapped; |
174 | S/m | siemens-per-meter | CIF-/IF-Module mapped; |
175 | T | teslas | CIF-/IF-Module mapped; |
176 | V/K | volts-per-degree-Kelvin | CIF-/IF-Module mapped; |
177 | V/m | volts-per-meter | CIF-/IF-Module mapped; |
178 | Wb | webers | CIF-/IF-Module mapped; |
179 | cd | candelas | CIF-/IF-Module mapped; |
180 | cd/m2 | candelas-per-square-meter | CIF-/IF-Module mapped; |
181 | K/h | degrees-Kelvin-per-hour | CIF-/IF-Module mapped; |
182 | K/min | degrees-Kelvin-per-minute | CIF-/IF-Module mapped; |
183 | Js | joule-seconds | CIF-/IF-Module mapped; |
184 | rad/s | radians-per-second | CIF-/IF-Module mapped; |
185 | m2/N | square-meters-per-Newton | CIF-/IF-Module mapped; |
186 | kg/m3 | kilograms-per-cubic-meter | CIF-/IF-Module mapped; |
187 | N.s | newton-seconds | CIF-/IF-Module mapped; |
188 | N/m | newtons-per-meter | CIF-/IF-Module mapped; |
189 | watts-per-meter-per-degree-Kelvin | CIF-/IF-Module mapped; | |
190 | uS | micro-siemens | CIF-/IF-Module mapped; |
191 | [ft_i]3/h | cubic-feet-per-hour | CIF-/IF-Module mapped; |
192 | [gal_us]/h | us-gallons-per-hour | CIF-/IF-Module mapped; |
193 | km | kilometers | CIF-/IF-Module mapped; |
194 | um | micrometers | CIF-/IF-Module mapped; |
195 | g | grams | CIF-/IF-Module mapped; |
196 | mg | milligrams | CIF-/IF-Module mapped; |
197 | ml | milliliters | CIF-/IF-Module mapped; |
198 | ml/s | milliliters-per-second | CIF-/IF-Module mapped; |
199 | dB | decibels | CIF-/IF-Module mapped; |
200 | dB[mV] | decibels-millivolt | CIF-/IF-Module mapped; |
201 | dB[V] | decibels-volt | CIF-/IF-Module mapped; |
202 | mS | millisiemens | CIF-/IF-Module mapped; |
203 | watt-hours-reactive | CIF-/IF-Module mapped; | |
204 | kilowatt-hours-reactive | CIF-/IF-Module mapped; | |
205 | megawatt-hours-reactive | CIF-/IF-Module mapped; | |
206 | mm[H2O] | millimeters-of-water | CIF-/IF-Module mapped; |
207 | [mi_i]-1 | per-mille | CIF-/IF-Module mapped; |
208 | g/g | grams-per-gram | CIF-/IF-Module mapped; |
209 | kg/kg | kilograms-per-kilogram | CIF-/IF-Module mapped; |
210 | g/kg | grams-per-kilogram | CIF-/IF-Module mapped; |
211 | mg/g | milligrams-per-gram | CIF-/IF-Module mapped; |
212 | mg/kg | milligrams-per-kilogram | CIF-/IF-Module mapped; |
213 | g/ml | grams-per-milliliter | CIF-/IF-Module mapped; |
214 | g/l | grams-per-liter | CIF-/IF-Module mapped; |
215 | mg/l | milligrams-per-liter | CIF-/IF-Module mapped; |
216 | ug/l | micrograms-per-liter | CIF-/IF-Module mapped; |
217 | g/m3 | grams-per-cubic-meter | CIF-/IF-Module mapped; |
218 | mg/m3 | milligrams-per-cubic-meter | CIF-/IF-Module mapped; |
219 | ug/m3 | micrograms-per-cubic-meter | CIF-/IF-Module mapped; |
220 | ng/m3 | nanograms-per-cubic-meter | CIF-/IF-Module mapped; |
221 | g/m3 | grams-per-cubic-centimeter | CIF-/IF-Module mapped; |
222 | Bq | becquerels | CIF-/IF-Module mapped; |
223 | kBq | kilobecquerels | CIF-/IF-Module mapped; |
224 | MBq | megabecquerels | CIF-/IF-Module mapped; |
225 | Gy | gray | CIF-/IF-Module mapped; |
226 | mGy | milligray | CIF-/IF-Module mapped; |
227 | uGy | microgray | CIF-/IF-Module mapped; |
228 | Sv | sieverts | CIF-/IF-Module mapped; |
229 | mSv | millisieverts | CIF-/IF-Module mapped; |
230 | uSv | microsieverts | CIF-/IF-Module mapped; |
231 | uSv/h | microsieverts-per-hour | CIF-/IF-Module mapped; |
232 | decibels-a | CIF-/IF-Module mapped; | |
233 | nephelometric-turbidity-unit | CIF-/IF-Module mapped; | |
234 | pH | CIF-/IF-Module mapped; | |
235 | g/m2 | grams-per-square-meter | CIF-/IF-Module mapped; |
236 | min/K | minutes-per-degree-kelvin | CIF-/IF-Module mapped; |
237 | m[H2O] | meters-of-water | CIF-/IF-Module mapped; |
238 | s {1970-01-01 0:00 UTC} | timestamp-unix | CIF-/IF-Module mapped; |
239 | m2 | square-meters | CIF-/IF-Module mapped; |
This defines an alternative value for the following signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2000 |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | Gen_Spd | This control mode operates the device with constant speed. | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | CONST_FREQ | reserved | − |
3 | CONST_POWER | reserved | − |
4 | CONST_HEAD | reserved | − |
5 | CONST_PRESSURE | This control mode operates the device with constant discharge pressure. | MVIE, …; |
6 | Gen_PHdConst | This control mode operates the device with constant differential pressure. | Stratos MAXO; Stratos; IL_E, …; |
7 | Gen_PHdVar | This control mode operates the device with a differential pressure which varies with the flow. | Stratos MAXO; Stratos; IL_E, …; |
8 | CONST_FLOW | reserved | − |
9 | Gen_T | This control mode operates the device with constant temperature for generic application. | Stratos MAXO; |
10 | Gen_TDiff | This control mode operates the device with constant differential temperature for generic application. | Stratos MAXO; |
11 | CONST_LEV | reserved | − |
12 | TEMP_VARIABLE | This control mode operates the device with a differential pressure which varies with the fluid temperature. | CIF-/IF-Module internal; Stratos; |
13 | Gen_UsrDfd | This control mode operates the device with user configurable PID controller. | Stratos MAXO; IL_E, …; MVIE, …; |
14 | VAR_PRESSURE | This control mode operates the device with a discharge pressure that varies with the flow. | MVIE, …; |
15 | INVALID | Invalid value | CIF-/IF-Module internal; |
16 | HeatRadiator_PHd | This control mode operates the device with a differential pressure which varies with the flow for heating radiator applications. | Stratos MAXO; |
17 | HeatRadiator_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating radiator applications. | Stratos MAXO; |
18 | HeatRadiator_T | This control mode operates the device with constant temperature for heating radiator application. | Stratos MAXO; |
19 | HeatFloor_PHd | This control mode operates the device with a differential pressure which varies with the flow for floor heating applications. | Stratos MAXO; |
20 | HeatFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor heating applications. | Stratos MAXO; |
21 | HeatFloor_T | This control mode operates the device with constant temperature for floor heating application. | Stratos MAXO; |
22 | HeatCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling heating applications. | Stratos MAXO; |
23 | HeatCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling heating applications. | Stratos MAXO; |
24 | HeatCeiling_T | This control mode operates the device with constant temperature for ceiling heating applications. | Stratos MAXO; |
25 | HeatFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil heating applications. | Stratos MAXO; |
26 | HeatFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil heating applications. | Stratos MAXO; |
27 | HeatFan_T | This control mode operates the device with constant temperature for fan coil heating applications. | Stratos MAXO; |
28 | HeatB._T | This control mode operates the device with constant temperature for heating applications with hydraulic separator. | Stratos MAXO; |
29 | HeatB._TDiff | This control mode operates the device with constant differential temperature for heating applications with hydraulic separator. | Stratos MAXO; |
30 | HeatB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with hydraulic separator. | Stratos MAXO; |
31 | HeatE._T | This control mode operates the device with constant temperature for heating applications with heat exchanger. | Stratos MAXO; |
32 | HeatE._TDiff | This control mode operates the device with constant differential temperature for heating applications with heat exchanger. | Stratos MAXO; |
33 | HeatE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with heat exchanger. | Stratos MAXO; |
34 | Heat_PHdConst | This control mode operates the device with constant differential pressure for heating applications. | Stratos MAXO; |
35 | Heat_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for heating applications. | Stratos MAXO; |
36 | Heat_PHdExt | This control mode operates the device with constant differential pressure for heating applications with external differential pressure sensor. | Stratos MAXO; |
37 | Heat_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating applications. | Stratos MAXO; |
38 | Heat_VolFlow | This control mode operates the device with constant volume flow for heating applications. | Stratos MAXO; |
39 | Heat_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications. | Stratos MAXO; |
40 | Heat_T | This control mode operates the device with constant temperature for heating application. | Stratos MAXO; |
41 | Heat_TDiff | This control mode operates the device with constant differential temperature for heating application. | Stratos MAXO; |
42 | Heat_Spd | This control mode operates the device with constant speed for heating applications. | Stratos MAXO; |
43 | CoolCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling cooling applications. | Stratos MAXO; |
44 | CoolCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling cooling applications. | Stratos MAXO; |
45 | CoolCeiling_T | This control mode operates the device with constant temperature for ceiling cooling application. | Stratos MAXO; |
46 | CoolFloor_PHd | This control mode operates the device with constant differential pressure for floor cooling applications. | Stratos MAXO; |
47 | CoolFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor cooling applications. | Stratos MAXO; |
48 | CoolFloor_T | This control mode operates the device with constant temperature mode for floor cooling applications. | Stratos MAXO; |
49 | CoolFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil cooling applications. | Stratos MAXO; |
50 | CoolFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil cooling applications. | Stratos MAXO; |
51 | CoolFan_T | This control mode operates the device with constant temperature mode for fan coil cooling application. | Stratos MAXO; |
52 | CoolB._T | This control mode operates the device with constant temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
53 | CoolB._TDiff | This control mode operates the device with constant differential temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
54 | CoolB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with hydraulic separator. | Stratos MAXO; |
55 | CoolE._T | This control mode operates the device with constant temperature mode for cooling application with heat exchanger. | Stratos MAXO; |
56 | CoolE._TDiff | This control mode operates the device with constant differential temperature for cooling applications with heat exchanger. | Stratos MAXO; |
57 | CoolE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with heat exhanger. | Stratos MAXO; |
58 | Cool_PHdConst | This control mode operates the device with constant differential pressure for cooling applications. | Stratos MAXO; |
59 | Cool_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for cooling applications. | Stratos MAXO; |
60 | Cool_PHdExt | This control mode operates the device with constant differential pressure for cooling application with external differential pressure sensor. | Stratos MAXO; |
61 | Cool_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for cooling applications. | Stratos MAXO; |
62 | Cool_VolFlow | This control mode operates the device with constant volume flow for cooling applications. | Stratos MAXO; |
63 | Cool_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications. | Stratos MAXO; |
64 | Cool_T | This control mode operates the device with constant temperature mode for cooling application. | Stratos MAXO; |
65 | Cool_TDiff | This control mode operates the device with constant differential temperature for cooling application. | Stratos MAXO; |
66 | Cool_Spd | This control mode operates the motor with constant speed for cooling applications. | Stratos MAXO; |
67 | San_Circ._T | This control mode operates the device with constant temperature for sanitary hot water circulation. | Stratos MAXO; |
68 | SanW.Heat._TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application with heat exchanger in the storage tank. | Stratos MAXO; |
69 | SanL.S._T | reserved | Stratos MAXO; |
70 | SanL.S._Acc.Flow | reserved | Stratos MAXO; |
71 | San_PHdConst | This control mode operates the device with constant differential pressure for sanitary hot water applications. | Stratos MAXO; |
72 | San_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for sanitary hot water applications. | Stratos MAXO; |
73 | San_PHdExternal | This control mode operates the device with constant differential pressure for sanitary hot water applications with external differential pressure sensor. | Stratos MAXO; |
74 | San_VolFlow | This control mode operates the device with constant volume flow for sanitary hot water applications. | Stratos MAXO; |
75 | San_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for sanitary hot water applications. | Stratos MAXO; |
76 | San_T | This control mode operates the device with constant temperature for sanitary hot water application. | Stratos MAXO; |
77 | San_TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application. | Stratos MAXO; |
78 | San_Spd | This control mode operates the motor with constant speed for sanitary hot water applications. | Stratos MAXO; |
79 | Gen_PHdExt | This control mode operates the device with constant differential pressure for generic applications with external diffential pressure sensor. | Stratos MAXO; |
80 | Gen_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for generic applications. | Stratos MAXO; |
81 | Gen_VolFlow | This control mode operates the device with constant volume flow for generic applications. | Stratos MAXO; |
82 | Gen_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for generic applications. | Stratos MAXO; |
83 | ScndPHdConst | This control mode operates the device with constant differential pressure. A special parameter set which is stored in the device is used. | Stratos MAXO; |
84 | ScndPHdVar | This control mode operates the device with a differential pressure which varies with the flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
85 | ScndFlow | This control mode operates the device with constant volume flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
86 | ScndSpd | This control mode operates the motor with constant speed. A special parameter set which is stored in the device is used. | Stratos MAXO; |
This is the base signal. This signal represents the control mode for the device. In case a selected mode is not supported, the device will stay in the previously selected mode.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2033 |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | [ft_i]2 | square-feet | CIF-/IF-Module mapped; |
2 | mA | milliamperes | CIF-/IF-Module mapped; |
3 | A | amperes | CIF-/IF-Module mapped; |
4 | Ohm | ohms | CIF-/IF-Module mapped; |
5 | V | volts | CIF-/IF-Module mapped; |
6 | kV | kilovolts | CIF-/IF-Module mapped; |
7 | MV | megavolts | CIF-/IF-Module mapped; |
8 | VA | volt-amperes | CIF-/IF-Module mapped; |
9 | kVA | kilovolt-amperes | CIF-/IF-Module mapped; |
10 | MVA | megavolt-amperes | CIF-/IF-Module mapped; |
11 | VAR | volt-amperes-reactive | CIF-/IF-Module mapped; |
12 | kVAR | kilovolt-amperes-reactive | CIF-/IF-Module mapped; |
13 | MVAR | megavolt-amperes-reactive | CIF-/IF-Module mapped; |
14 | deg | degrees-phase | CIF-/IF-Module mapped; |
15 | power-factor | CIF-/IF-Module mapped; | |
16 | J | joules | CIF-/IF-Module mapped; |
17 | kJ | kilojoules | CIF-/IF-Module mapped; |
18 | Wh | watt-hours | CIF-/IF-Module mapped; |
19 | kWh | kilowatt-hours | CIF-/IF-Module mapped; |
20 | [Btu] | btus | CIF-/IF-Module mapped; |
21 | therms | CIF-/IF-Module mapped; | |
22 | t.h | ton-hours | CIF-/IF-Module mapped; |
23 | joules-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
24 | btus-per-pound-dry-air | CIF-/IF-Module mapped; | |
25 | h-1 | cycles-per-hour | CIF-/IF-Module mapped; |
26 | min-1 | cycles-per-minute | CIF-/IF-Module mapped; |
27 | Hz | hertz | CIF-/IF-Module mapped; |
28 | grams-of-water-per-kilogram-dry-air | CIF-/IF-Module mapped; | |
29 | % | percent-relative-humidity | CIF-/IF-Module mapped; |
30 | mm | millimeters | CIF-/IF-Module mapped; |
31 | m | meters | CIF-/IF-Module mapped; |
32 | [in_i] | inches | CIF-/IF-Module mapped; |
33 | [ft_i] | feet | CIF-/IF-Module mapped; |
34 | W/[ft_i]2 | watts-per-square-foot | CIF-/IF-Module mapped; |
35 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
36 | lm | lumens | CIF-/IF-Module mapped; |
37 | lx | luxes | CIF-/IF-Module mapped; |
38 | foot-candles | CIF-/IF-Module mapped; | |
39 | kg | kilograms | CIF-/IF-Module mapped; |
40 | [lb_av] | pounds-mass | CIF-/IF-Module mapped; |
41 | t | tons | CIF-/IF-Module mapped; |
42 | kg/s | kilograms-per-second | CIF-/IF-Module mapped; |
43 | kg/min | kilograms-per-minute | CIF-/IF-Module mapped; |
44 | kg/h | kilograms-per-hour | CIF-/IF-Module mapped; |
45 | [lb_av]/min | pounds-mass-per-minute | CIF-/IF-Module mapped; |
46 | [lb_av]/h | pounds-mass-per-hour | CIF-/IF-Module mapped; |
47 | W | watts | CIF-/IF-Module mapped; |
48 | kW | kilowatts | CIF-/IF-Module mapped; |
49 | MW | megawatts | CIF-/IF-Module mapped; |
50 | [Btu]/h | btus-per-hour | CIF-/IF-Module mapped; |
51 | [HP] | horsepower | CIF-/IF-Module mapped; |
52 | tons-refrigeration | CIF-/IF-Module mapped; | |
53 | Pa | pascals | CIF-/IF-Module mapped; |
54 | kPa | kilopascals | CIF-/IF-Module mapped; |
55 | bar | bars | CIF-/IF-Module mapped; |
56 | [lbf_av]/[in_i]2 | pounds-force-per-square-inch | CIF-/IF-Module mapped; |
57 | cm[H2O] | centimeters-of-water | CIF-/IF-Module mapped; |
58 | [in_i'H2O] | inches-of-water | CIF-/IF-Module mapped; |
59 | mm[Hg] | millimeters-of-mercury | CIF-/IF-Module mapped; |
60 | cm[Hg] | centimeters-of-mercury | CIF-/IF-Module mapped; |
61 | [in_i'Hg] | inches-of-mercury | CIF-/IF-Module mapped; |
62 | Cel | degrees-Celsius | CIF-/IF-Module mapped; |
63 | K | degrees-Kelvin | CIF-/IF-Module mapped; |
64 | [degF] | degrees-Fahrenheit | CIF-/IF-Module mapped; |
65 | Cel.d | degree-days-Celsius | CIF-/IF-Module mapped; |
66 | [degF].d | degree-days-Fahrenheit | CIF-/IF-Module mapped; |
67 | a | years | CIF-/IF-Module mapped; |
68 | m | months | CIF-/IF-Module mapped; |
69 | wk | weeks | CIF-/IF-Module mapped; |
70 | d | days | CIF-/IF-Module mapped; |
71 | h | hours | CIF-/IF-Module mapped; |
72 | min | minutes | CIF-/IF-Module mapped; |
73 | s | seconds | CIF-/IF-Module mapped; |
74 | m/s | meters-per-second | CIF-/IF-Module mapped; |
75 | km/h | kilometers-per-hour | CIF-/IF-Module mapped; |
76 | [ft_i]/s | feet-per-second | CIF-/IF-Module mapped; |
77 | [ft_i]/min | feet-per-minute | CIF-/IF-Module mapped; |
78 | [mi_us]/h | miles-per-hour | CIF-/IF-Module mapped; |
79 | [ft_i]3 | cubic-feet | CIF-/IF-Module mapped; |
80 | m3 | cubic-meters | CIF-/IF-Module mapped; |
81 | [gal_br] | imperial-gallons | CIF-/IF-Module mapped; |
82 | l | liters | CIF-/IF-Module mapped; |
83 | [gal_us] | us-gallons | CIF-/IF-Module mapped; |
84 | [ft_i]3/min | cubic-feet-per-minute | CIF-/IF-Module mapped; |
85 | m3/s | cubic-meters-per-second | CIF-/IF-Module mapped; |
86 | [gal_br]/m | imperial-gallons-per-m | CIF-/IF-Module mapped; |
87 | l/s | liters-per-second | CIF-/IF-Module mapped; |
88 | l/m | liters-per-minute | CIF-/IF-Module mapped; |
89 | [gal_us]/min | us-gallons-per-minute | CIF-/IF-Module mapped; |
90 | deg | degrees-angular | CIF-/IF-Module mapped; |
91 | Cel/h | degrees-Celsius-per-hour | CIF-/IF-Module mapped; |
92 | Cel/min | degrees-Celsius-per-minute | CIF-/IF-Module mapped; |
93 | [degF]/h | degrees-Fahrenheit-per-hour | CIF-/IF-Module mapped; |
94 | [degF]/min | degrees-Fahrenheit-per-minute | CIF-/IF-Module mapped; |
95 | no-units | CIF-/IF-Module mapped; | |
96 | [ppm] | parts-per-million | CIF-/IF-Module mapped; |
97 | [ppb] | parts-per-billion | CIF-/IF-Module mapped; |
98 | % | percent | CIF-/IF-Module mapped; |
99 | %/s | percent-per-second | CIF-/IF-Module mapped; |
100 | min-1 | per-minute | CIF-/IF-Module mapped; |
101 | s-1 | per-second | CIF-/IF-Module mapped; |
102 | [psi]/F | psi-per-degree-Fahrenheit | CIF-/IF-Module mapped; |
103 | rad | radians | CIF-/IF-Module mapped; |
104 | min-1 | revolutions-per-minute | CIF-/IF-Module mapped; |
105 | currency1 | CIF-/IF-Module mapped; | |
106 | currency2 | CIF-/IF-Module mapped; | |
107 | currency3 | CIF-/IF-Module mapped; | |
108 | currency4 | CIF-/IF-Module mapped; | |
109 | currency5 | CIF-/IF-Module mapped; | |
110 | currency6 | CIF-/IF-Module mapped; | |
111 | currency7 | CIF-/IF-Module mapped; | |
112 | currency8 | CIF-/IF-Module mapped; | |
113 | currency9 | CIF-/IF-Module mapped; | |
114 | currency10 | CIF-/IF-Module mapped; | |
115 | [in_i]2 | square-inches | CIF-/IF-Module mapped; |
116 | cm2 | square-centimeters | CIF-/IF-Module mapped; |
117 | btus-per-pound | CIF-/IF-Module mapped; | |
118 | cm | centimeters | CIF-/IF-Module mapped; |
119 | [lb_av]/s | pounds-mass-per-second | CIF-/IF-Module mapped; |
120 | delta-degrees-Fahrenheit | CIF-/IF-Module mapped; | |
121 | delta-degrees-Kelvin | CIF-/IF-Module mapped; | |
122 | kOhm | kilohms | CIF-/IF-Module mapped; |
123 | MOhm | megohms | CIF-/IF-Module mapped; |
124 | mV | millivolts | CIF-/IF-Module mapped; |
125 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
126 | MJ | megajoules | CIF-/IF-Module mapped; |
127 | J/K | joules-per-degree-Kelvin | CIF-/IF-Module mapped; |
128 | J/kg/K | joules-per-kilogram-degree-Kelvin | CIF-/IF-Module mapped; |
129 | kHz | kilohertz | CIF-/IF-Module mapped; |
130 | MHz | megahertz | CIF-/IF-Module mapped; |
131 | h-1 | per-hour | CIF-/IF-Module mapped; |
132 | mW | milliwatts | CIF-/IF-Module mapped; |
133 | hPa | hectopascals | CIF-/IF-Module mapped; |
134 | mbar | millibars | CIF-/IF-Module mapped; |
135 | m3/h | cubic-meters-per-hour | CIF-/IF-Module mapped; |
136 | l/h | liters-per-hour | CIF-/IF-Module mapped; |
137 | kWh/m2 | kilowatt-hours-per-square-meter | CIF-/IF-Module mapped; |
138 | kWh/[ft_i]2 | kilowatt-hours-per-square-foot | CIF-/IF-Module mapped; |
139 | MJ/m2 | megajoules-per-square-meter | CIF-/IF-Module mapped; |
140 | MJ/[ft_i]2 | megajoules-per-square-foot | CIF-/IF-Module mapped; |
141 | W/m2 | watts-per-square-meter | CIF-/IF-Module mapped; |
142 | [ft_i]3/s | cubic-feet-per-second | CIF-/IF-Module mapped; |
143 | percent-obscuration-per-foot | CIF-/IF-Module mapped; | |
144 | percent-obscuration-per-meter | CIF-/IF-Module mapped; | |
145 | mOhm | milliohms | CIF-/IF-Module mapped; |
146 | MWh | megawatt-hours | CIF-/IF-Module mapped; |
147 | k[Btu] | kilo-btus | CIF-/IF-Module mapped; |
148 | M[Btu] | mega-btus | CIF-/IF-Module mapped; |
149 | kJ/kg | kilojoules-per-kilogram | CIF-/IF-Module mapped; |
150 | MJ/kg | megajoules-per-kilogram | CIF-/IF-Module mapped; |
151 | kJ/K | kilojoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
152 | MJ/K | megajoules-per-degree-Kelvin | CIF-/IF-Module mapped; |
153 | N | newton | CIF-/IF-Module mapped; |
154 | g/s | grams-per-second | CIF-/IF-Module mapped; |
155 | g/min | grams-per-minute | CIF-/IF-Module mapped; |
156 | t/h | tons-per-hour | CIF-/IF-Module mapped; |
157 | k[Btu]/h | kilo-btus-per-hour | CIF-/IF-Module mapped; |
158 | das | hundredths-seconds | CIF-/IF-Module mapped; |
159 | ms | milliseconds | CIF-/IF-Module mapped; |
160 | N.m | newton-meters | CIF-/IF-Module mapped; |
161 | mm/s | millimeters-per-second | CIF-/IF-Module mapped; |
162 | mm/min | millimeters-per-minute | CIF-/IF-Module mapped; |
163 | m/min | meters-per-minute | CIF-/IF-Module mapped; |
164 | m/h | meters-per-hour | CIF-/IF-Module mapped; |
165 | m3/min | cubic-meters-per-minute | CIF-/IF-Module mapped; |
166 | m/s2 | meters-per-second-per-second | CIF-/IF-Module mapped; |
167 | A/m | amperes-per-meter | CIF-/IF-Module mapped; |
168 | A/m2 | amperes-per-square-meter | CIF-/IF-Module mapped; |
169 | A.m2 | ampere-square-meters | CIF-/IF-Module mapped; |
170 | F | farads | CIF-/IF-Module mapped; |
171 | H | henrys | CIF-/IF-Module mapped; |
172 | Ohm.m | ohm-meters | CIF-/IF-Module mapped; |
173 | S | siemens | CIF-/IF-Module mapped; |
174 | S/m | siemens-per-meter | CIF-/IF-Module mapped; |
175 | T | teslas | CIF-/IF-Module mapped; |
176 | V/K | volts-per-degree-Kelvin | CIF-/IF-Module mapped; |
177 | V/m | volts-per-meter | CIF-/IF-Module mapped; |
178 | Wb | webers | CIF-/IF-Module mapped; |
179 | cd | candelas | CIF-/IF-Module mapped; |
180 | cd/m2 | candelas-per-square-meter | CIF-/IF-Module mapped; |
181 | K/h | degrees-Kelvin-per-hour | CIF-/IF-Module mapped; |
182 | K/min | degrees-Kelvin-per-minute | CIF-/IF-Module mapped; |
183 | Js | joule-seconds | CIF-/IF-Module mapped; |
184 | rad/s | radians-per-second | CIF-/IF-Module mapped; |
185 | m2/N | square-meters-per-Newton | CIF-/IF-Module mapped; |
186 | kg/m3 | kilograms-per-cubic-meter | CIF-/IF-Module mapped; |
187 | N.s | newton-seconds | CIF-/IF-Module mapped; |
188 | N/m | newtons-per-meter | CIF-/IF-Module mapped; |
189 | watts-per-meter-per-degree-Kelvin | CIF-/IF-Module mapped; | |
190 | uS | micro-siemens | CIF-/IF-Module mapped; |
191 | [ft_i]3/h | cubic-feet-per-hour | CIF-/IF-Module mapped; |
192 | [gal_us]/h | us-gallons-per-hour | CIF-/IF-Module mapped; |
193 | km | kilometers | CIF-/IF-Module mapped; |
194 | um | micrometers | CIF-/IF-Module mapped; |
195 | g | grams | CIF-/IF-Module mapped; |
196 | mg | milligrams | CIF-/IF-Module mapped; |
197 | ml | milliliters | CIF-/IF-Module mapped; |
198 | ml/s | milliliters-per-second | CIF-/IF-Module mapped; |
199 | dB | decibels | CIF-/IF-Module mapped; |
200 | dB[mV] | decibels-millivolt | CIF-/IF-Module mapped; |
201 | dB[V] | decibels-volt | CIF-/IF-Module mapped; |
202 | mS | millisiemens | CIF-/IF-Module mapped; |
203 | watt-hours-reactive | CIF-/IF-Module mapped; | |
204 | kilowatt-hours-reactive | CIF-/IF-Module mapped; | |
205 | megawatt-hours-reactive | CIF-/IF-Module mapped; | |
206 | mm[H2O] | millimeters-of-water | CIF-/IF-Module mapped; |
207 | [mi_i]-1 | per-mille | CIF-/IF-Module mapped; |
208 | g/g | grams-per-gram | CIF-/IF-Module mapped; |
209 | kg/kg | kilograms-per-kilogram | CIF-/IF-Module mapped; |
210 | g/kg | grams-per-kilogram | CIF-/IF-Module mapped; |
211 | mg/g | milligrams-per-gram | CIF-/IF-Module mapped; |
212 | mg/kg | milligrams-per-kilogram | CIF-/IF-Module mapped; |
213 | g/ml | grams-per-milliliter | CIF-/IF-Module mapped; |
214 | g/l | grams-per-liter | CIF-/IF-Module mapped; |
215 | mg/l | milligrams-per-liter | CIF-/IF-Module mapped; |
216 | ug/l | micrograms-per-liter | CIF-/IF-Module mapped; |
217 | g/m3 | grams-per-cubic-meter | CIF-/IF-Module mapped; |
218 | mg/m3 | milligrams-per-cubic-meter | CIF-/IF-Module mapped; |
219 | ug/m3 | micrograms-per-cubic-meter | CIF-/IF-Module mapped; |
220 | ng/m3 | nanograms-per-cubic-meter | CIF-/IF-Module mapped; |
221 | g/m3 | grams-per-cubic-centimeter | CIF-/IF-Module mapped; |
222 | Bq | becquerels | CIF-/IF-Module mapped; |
223 | kBq | kilobecquerels | CIF-/IF-Module mapped; |
224 | MBq | megabecquerels | CIF-/IF-Module mapped; |
225 | Gy | gray | CIF-/IF-Module mapped; |
226 | mGy | milligray | CIF-/IF-Module mapped; |
227 | uGy | microgray | CIF-/IF-Module mapped; |
228 | Sv | sieverts | CIF-/IF-Module mapped; |
229 | mSv | millisieverts | CIF-/IF-Module mapped; |
230 | uSv | microsieverts | CIF-/IF-Module mapped; |
231 | uSv/h | microsieverts-per-hour | CIF-/IF-Module mapped; |
232 | decibels-a | CIF-/IF-Module mapped; | |
233 | nephelometric-turbidity-unit | CIF-/IF-Module mapped; | |
234 | pH | CIF-/IF-Module mapped; | |
235 | g/m2 | grams-per-square-meter | CIF-/IF-Module mapped; |
236 | min/K | minutes-per-degree-kelvin | CIF-/IF-Module mapped; |
237 | m[H2O] | meters-of-water | CIF-/IF-Module mapped; |
238 | s {1970-01-01 0:00 UTC} | timestamp-unix | CIF-/IF-Module mapped; |
239 | m2 | square-meters | CIF-/IF-Module mapped; |
This is the base signal. It contains the relative duty point of the device. The valid range is not necessarily 0…100 %. a duty point of 0 % is not necessarily linked to the OFF state of the device.
Support reference
CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 2034 |
function | value after parameter set selector (B) |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | norm | normal paremeter set | CIF-/IF-Module internal; |
2 | aux | auxiliary parameter set | CIF-/IF-Module internal; |
3 | preset | preset parameter set (startup/fallback) | CIF-/IF-Module internal; |
5 | INVALID | preset parameter set (startup/fallback) | CIF-/IF-Module internal; |
This is the base signal. This signal contains information about the parameter set for device control. The parameter set constist of at least the duty point, the control mode, the on/off command and the signal source for the duty point.
Support reference
CIF-/IF-Module internal;instance | name |
---|---|
0 | Bus Control Mode |
1 | Bus Command Timer |
2 | Current W/E Msg. Ackn. |
3 | Setpoint Signal Source |
34 | parameter set selector |
100 | Control Function preset |
101 | Setpoint Signal Source preset |
200 | Control Function aux. |
203 | Setpoint Signal Source aux. |
property | value |
---|---|
instance # | 0 |
relinquish default | 1 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | Gen_Spd | This control mode operates the device with constant speed. | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | CONST_FREQ | reserved | − |
3 | CONST_POWER | reserved | − |
4 | CONST_HEAD | reserved | − |
5 | CONST_PRESSURE | This control mode operates the device with constant discharge pressure. | MVIE, …; |
6 | Gen_PHdConst | This control mode operates the device with constant differential pressure. | Stratos MAXO; Stratos; IL_E, …; |
7 | Gen_PHdVar | This control mode operates the device with a differential pressure which varies with the flow. | Stratos MAXO; Stratos; IL_E, …; |
8 | CONST_FLOW | reserved | − |
9 | Gen_T | This control mode operates the device with constant temperature for generic application. | Stratos MAXO; |
10 | Gen_TDiff | This control mode operates the device with constant differential temperature for generic application. | Stratos MAXO; |
11 | CONST_LEV | reserved | − |
12 | TEMP_VARIABLE | This control mode operates the device with a differential pressure which varies with the fluid temperature. | CIF-/IF-Module internal; Stratos; |
13 | Gen_UsrDfd | This control mode operates the device with user configurable PID controller. | Stratos MAXO; IL_E, …; MVIE, …; |
14 | VAR_PRESSURE | This control mode operates the device with a discharge pressure that varies with the flow. | MVIE, …; |
15 | INVALID | Invalid value | CIF-/IF-Module internal; |
16 | HeatRadiator_PHd | This control mode operates the device with a differential pressure which varies with the flow for heating radiator applications. | Stratos MAXO; |
17 | HeatRadiator_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating radiator applications. | Stratos MAXO; |
18 | HeatRadiator_T | This control mode operates the device with constant temperature for heating radiator application. | Stratos MAXO; |
19 | HeatFloor_PHd | This control mode operates the device with a differential pressure which varies with the flow for floor heating applications. | Stratos MAXO; |
20 | HeatFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor heating applications. | Stratos MAXO; |
21 | HeatFloor_T | This control mode operates the device with constant temperature for floor heating application. | Stratos MAXO; |
22 | HeatCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling heating applications. | Stratos MAXO; |
23 | HeatCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling heating applications. | Stratos MAXO; |
24 | HeatCeiling_T | This control mode operates the device with constant temperature for ceiling heating applications. | Stratos MAXO; |
25 | HeatFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil heating applications. | Stratos MAXO; |
26 | HeatFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil heating applications. | Stratos MAXO; |
27 | HeatFan_T | This control mode operates the device with constant temperature for fan coil heating applications. | Stratos MAXO; |
28 | HeatB._T | This control mode operates the device with constant temperature for heating applications with hydraulic separator. | Stratos MAXO; |
29 | HeatB._TDiff | This control mode operates the device with constant differential temperature for heating applications with hydraulic separator. | Stratos MAXO; |
30 | HeatB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with hydraulic separator. | Stratos MAXO; |
31 | HeatE._T | This control mode operates the device with constant temperature for heating applications with heat exchanger. | Stratos MAXO; |
32 | HeatE._TDiff | This control mode operates the device with constant differential temperature for heating applications with heat exchanger. | Stratos MAXO; |
33 | HeatE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with heat exchanger. | Stratos MAXO; |
34 | Heat_PHdConst | This control mode operates the device with constant differential pressure for heating applications. | Stratos MAXO; |
35 | Heat_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for heating applications. | Stratos MAXO; |
36 | Heat_PHdExt | This control mode operates the device with constant differential pressure for heating applications with external differential pressure sensor. | Stratos MAXO; |
37 | Heat_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating applications. | Stratos MAXO; |
38 | Heat_VolFlow | This control mode operates the device with constant volume flow for heating applications. | Stratos MAXO; |
39 | Heat_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications. | Stratos MAXO; |
40 | Heat_T | This control mode operates the device with constant temperature for heating application. | Stratos MAXO; |
41 | Heat_TDiff | This control mode operates the device with constant differential temperature for heating application. | Stratos MAXO; |
42 | Heat_Spd | This control mode operates the device with constant speed for heating applications. | Stratos MAXO; |
43 | CoolCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling cooling applications. | Stratos MAXO; |
44 | CoolCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling cooling applications. | Stratos MAXO; |
45 | CoolCeiling_T | This control mode operates the device with constant temperature for ceiling cooling application. | Stratos MAXO; |
46 | CoolFloor_PHd | This control mode operates the device with constant differential pressure for floor cooling applications. | Stratos MAXO; |
47 | CoolFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor cooling applications. | Stratos MAXO; |
48 | CoolFloor_T | This control mode operates the device with constant temperature mode for floor cooling applications. | Stratos MAXO; |
49 | CoolFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil cooling applications. | Stratos MAXO; |
50 | CoolFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil cooling applications. | Stratos MAXO; |
51 | CoolFan_T | This control mode operates the device with constant temperature mode for fan coil cooling application. | Stratos MAXO; |
52 | CoolB._T | This control mode operates the device with constant temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
53 | CoolB._TDiff | This control mode operates the device with constant differential temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
54 | CoolB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with hydraulic separator. | Stratos MAXO; |
55 | CoolE._T | This control mode operates the device with constant temperature mode for cooling application with heat exchanger. | Stratos MAXO; |
56 | CoolE._TDiff | This control mode operates the device with constant differential temperature for cooling applications with heat exchanger. | Stratos MAXO; |
57 | CoolE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with heat exhanger. | Stratos MAXO; |
58 | Cool_PHdConst | This control mode operates the device with constant differential pressure for cooling applications. | Stratos MAXO; |
59 | Cool_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for cooling applications. | Stratos MAXO; |
60 | Cool_PHdExt | This control mode operates the device with constant differential pressure for cooling application with external differential pressure sensor. | Stratos MAXO; |
61 | Cool_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for cooling applications. | Stratos MAXO; |
62 | Cool_VolFlow | This control mode operates the device with constant volume flow for cooling applications. | Stratos MAXO; |
63 | Cool_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications. | Stratos MAXO; |
64 | Cool_T | This control mode operates the device with constant temperature mode for cooling application. | Stratos MAXO; |
65 | Cool_TDiff | This control mode operates the device with constant differential temperature for cooling application. | Stratos MAXO; |
66 | Cool_Spd | This control mode operates the motor with constant speed for cooling applications. | Stratos MAXO; |
67 | San_Circ._T | This control mode operates the device with constant temperature for sanitary hot water circulation. | Stratos MAXO; |
68 | SanW.Heat._TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application with heat exchanger in the storage tank. | Stratos MAXO; |
69 | SanL.S._T | reserved | Stratos MAXO; |
70 | SanL.S._Acc.Flow | reserved | Stratos MAXO; |
71 | San_PHdConst | This control mode operates the device with constant differential pressure for sanitary hot water applications. | Stratos MAXO; |
72 | San_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for sanitary hot water applications. | Stratos MAXO; |
73 | San_PHdExternal | This control mode operates the device with constant differential pressure for sanitary hot water applications with external differential pressure sensor. | Stratos MAXO; |
74 | San_VolFlow | This control mode operates the device with constant volume flow for sanitary hot water applications. | Stratos MAXO; |
75 | San_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for sanitary hot water applications. | Stratos MAXO; |
76 | San_T | This control mode operates the device with constant temperature for sanitary hot water application. | Stratos MAXO; |
77 | San_TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application. | Stratos MAXO; |
78 | San_Spd | This control mode operates the motor with constant speed for sanitary hot water applications. | Stratos MAXO; |
79 | Gen_PHdExt | This control mode operates the device with constant differential pressure for generic applications with external diffential pressure sensor. | Stratos MAXO; |
80 | Gen_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for generic applications. | Stratos MAXO; |
81 | Gen_VolFlow | This control mode operates the device with constant volume flow for generic applications. | Stratos MAXO; |
82 | Gen_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for generic applications. | Stratos MAXO; |
83 | ScndPHdConst | This control mode operates the device with constant differential pressure. A special parameter set which is stored in the device is used. | Stratos MAXO; |
84 | ScndPHdVar | This control mode operates the device with a differential pressure which varies with the flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
85 | ScndFlow | This control mode operates the device with constant volume flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
86 | ScndSpd | This control mode operates the motor with constant speed. A special parameter set which is stored in the device is used. | Stratos MAXO; |
This is the base signal. This signal represents the control mode for the device. In case a selected mode is not supported, the device will stay in the previously selected mode.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 1 |
relinquish default | 5 |
function | input value / active value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | OFF | The functionality Bus Command timer is deactivated. The local operation is blocked permanently. | CIF-/IF-Module internal; |
2 | SET | This value starts a lockout time for the local pump operation. The lockout time may be adjustable. | CIF-/IF-Module internal; |
3 | ACTIVE | This value indicates that the lockout time is active. | CIF-/IF-Module internal; |
4 | RESET | This value indicates that the lockout time which was started with the signal "Bus Command Timer SET" has elapsed. Local operation of the device is possible, the write to the device over the communication interface is blocked. | CIF-/IF-Module internal; |
5 | MANUAL | This value indicates that the local as well as the remote operation is possible. The commands are accepted according "last write wins". | CIF-/IF-Module internal; |
6 | SET_PRESET | This value starts a lockout time for the local pump operation. After the lockout time has elapsed, PRESET values are used for operation. The lockout time may be adjustable. | CIF-/IF-Module internal; |
7 | ACTIVE_PRESET | This value indicates that the lockout time which was started with the signal "Bus Command Timer SET_PRESET" is currently active. After the lockout time has elapsed, PRESET values are used for operation. | CIF-/IF-Module internal; |
8 | RESET_PRESET | This value indicates that the lockout time which was started with the signal "Bus Command Timer SET" has elapsed. Local operation of the device is possible, the write to the device over the communication link is blocked. When this signal becomes ative, PRESET values are set once for operation. | CIF-/IF-Module internal; |
9 | MANUAL_PRESET | This value indicates that the local as well as the remote operation is possible. The commands are accepted according "last write wins". When this signal becomes active, PRESET values are loaded once. | CIF-/IF-Module internal; |
10 | INVALID | Invalid value | CIF-/IF-Module internal; |
This is the base signal. When using an IF-Module the local menu may be disabled by factory setting. The local menu can be enabled permanently by writing the value MANUAL. To use the local menu only when the BAS system fails, repeate writing the value SET at least before the optional Bus Command Timer timeout time (default or fixed value 300 s). The activation is stored and survives a power on reset. When the mechanism is no longer needed, write OFF to reset to factory setting..If the BAS fails,Then the menu can be entered to adjust the settings. E54 may be displayed at the pump. If it is desired to load fallback values when the bus faulure event occures, then use SET_PRESET instead of SET to trigger the bus command timer. This funtionality is available with Modbus and BACnet in IF-modules starting with firmware SW > 2.00. For CIF-modules, there is no restriction. In case of MANUAL mode or timeout the objects for control (setpoint and others are set to "overridden".
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 2 |
relinquish default | 1 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | OFF | CIF-/IF-Module internal; | |
2 | ACK | CIF-/IF-Module internal; | |
3 | ACKed | CIF-/IF-Module internal; |
This is the base signal. Reserverd for acknowledgement of the current warning or error.
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 3 |
relinquish default | 1 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | IF-Module | Signal source for setpoint: IF-Module | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | 0…10 V | Signal source for setpoint: IN2 mode 0…10 V | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
3 | 2…10 V | Signal source for setpoint: IN2 mode 2…10 V | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
4 | 0…20 mA | Signal source for setpoint: IN2 mode 0…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
5 | 4…20 mA | Signal source for setpoint: IN2 mode 4…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
6 | Internal | Signal source for setpoint: internal | Stratos MAXO; |
7 | EXT 1 | Signal source for setpoint: EXT 1 | Stratos MAXO; |
8 | EXT 2 | Signal source for setpoint: EXT 2 | Stratos MAXO; |
9 | INVALID | Invalid value | CIF-/IF-Module internal; |
This is the base signal. This signal represents the source for the setpoint for the current control function.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 34 |
relinquish default | 1 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | norm | normal paremeter set | CIF-/IF-Module internal; |
2 | aux | auxiliary parameter set | CIF-/IF-Module internal; |
3 | preset | preset parameter set (startup/fallback) | CIF-/IF-Module internal; |
5 | INVALID | preset parameter set (startup/fallback) | CIF-/IF-Module internal; |
This is the base signal. This signal contains information about the parameter set for device control. The parameter set constist of at least the duty point, the control mode, the on/off command and the signal source for the duty point.
Support reference
CIF-/IF-Module internal;property | value |
---|---|
instance # | 100 |
relinquish default | 1 |
function | input value / readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | Gen_Spd | This control mode operates the device with constant speed. | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | CONST_FREQ | reserved | − |
3 | CONST_POWER | reserved | − |
4 | CONST_HEAD | reserved | − |
5 | CONST_PRESSURE | This control mode operates the device with constant discharge pressure. | MVIE, …; |
6 | Gen_PHdConst | This control mode operates the device with constant differential pressure. | Stratos MAXO; Stratos; IL_E, …; |
7 | Gen_PHdVar | This control mode operates the device with a differential pressure which varies with the flow. | Stratos MAXO; Stratos; IL_E, …; |
8 | CONST_FLOW | reserved | − |
9 | Gen_T | This control mode operates the device with constant temperature for generic application. | Stratos MAXO; |
10 | Gen_TDiff | This control mode operates the device with constant differential temperature for generic application. | Stratos MAXO; |
11 | CONST_LEV | reserved | − |
12 | TEMP_VARIABLE | This control mode operates the device with a differential pressure which varies with the fluid temperature. | CIF-/IF-Module internal; Stratos; |
13 | Gen_UsrDfd | This control mode operates the device with user configurable PID controller. | Stratos MAXO; IL_E, …; MVIE, …; |
14 | VAR_PRESSURE | This control mode operates the device with a discharge pressure that varies with the flow. | MVIE, …; |
15 | INVALID | Invalid value | CIF-/IF-Module internal; |
16 | HeatRadiator_PHd | This control mode operates the device with a differential pressure which varies with the flow for heating radiator applications. | Stratos MAXO; |
17 | HeatRadiator_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating radiator applications. | Stratos MAXO; |
18 | HeatRadiator_T | This control mode operates the device with constant temperature for heating radiator application. | Stratos MAXO; |
19 | HeatFloor_PHd | This control mode operates the device with a differential pressure which varies with the flow for floor heating applications. | Stratos MAXO; |
20 | HeatFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor heating applications. | Stratos MAXO; |
21 | HeatFloor_T | This control mode operates the device with constant temperature for floor heating application. | Stratos MAXO; |
22 | HeatCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling heating applications. | Stratos MAXO; |
23 | HeatCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling heating applications. | Stratos MAXO; |
24 | HeatCeiling_T | This control mode operates the device with constant temperature for ceiling heating applications. | Stratos MAXO; |
25 | HeatFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil heating applications. | Stratos MAXO; |
26 | HeatFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil heating applications. | Stratos MAXO; |
27 | HeatFan_T | This control mode operates the device with constant temperature for fan coil heating applications. | Stratos MAXO; |
28 | HeatB._T | This control mode operates the device with constant temperature for heating applications with hydraulic separator. | Stratos MAXO; |
29 | HeatB._TDiff | This control mode operates the device with constant differential temperature for heating applications with hydraulic separator. | Stratos MAXO; |
30 | HeatB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with hydraulic separator. | Stratos MAXO; |
31 | HeatE._T | This control mode operates the device with constant temperature for heating applications with heat exchanger. | Stratos MAXO; |
32 | HeatE._TDiff | This control mode operates the device with constant differential temperature for heating applications with heat exchanger. | Stratos MAXO; |
33 | HeatE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with heat exchanger. | Stratos MAXO; |
34 | Heat_PHdConst | This control mode operates the device with constant differential pressure for heating applications. | Stratos MAXO; |
35 | Heat_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for heating applications. | Stratos MAXO; |
36 | Heat_PHdExt | This control mode operates the device with constant differential pressure for heating applications with external differential pressure sensor. | Stratos MAXO; |
37 | Heat_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating applications. | Stratos MAXO; |
38 | Heat_VolFlow | This control mode operates the device with constant volume flow for heating applications. | Stratos MAXO; |
39 | Heat_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications. | Stratos MAXO; |
40 | Heat_T | This control mode operates the device with constant temperature for heating application. | Stratos MAXO; |
41 | Heat_TDiff | This control mode operates the device with constant differential temperature for heating application. | Stratos MAXO; |
42 | Heat_Spd | This control mode operates the device with constant speed for heating applications. | Stratos MAXO; |
43 | CoolCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling cooling applications. | Stratos MAXO; |
44 | CoolCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling cooling applications. | Stratos MAXO; |
45 | CoolCeiling_T | This control mode operates the device with constant temperature for ceiling cooling application. | Stratos MAXO; |
46 | CoolFloor_PHd | This control mode operates the device with constant differential pressure for floor cooling applications. | Stratos MAXO; |
47 | CoolFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor cooling applications. | Stratos MAXO; |
48 | CoolFloor_T | This control mode operates the device with constant temperature mode for floor cooling applications. | Stratos MAXO; |
49 | CoolFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil cooling applications. | Stratos MAXO; |
50 | CoolFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil cooling applications. | Stratos MAXO; |
51 | CoolFan_T | This control mode operates the device with constant temperature mode for fan coil cooling application. | Stratos MAXO; |
52 | CoolB._T | This control mode operates the device with constant temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
53 | CoolB._TDiff | This control mode operates the device with constant differential temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
54 | CoolB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with hydraulic separator. | Stratos MAXO; |
55 | CoolE._T | This control mode operates the device with constant temperature mode for cooling application with heat exchanger. | Stratos MAXO; |
56 | CoolE._TDiff | This control mode operates the device with constant differential temperature for cooling applications with heat exchanger. | Stratos MAXO; |
57 | CoolE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with heat exhanger. | Stratos MAXO; |
58 | Cool_PHdConst | This control mode operates the device with constant differential pressure for cooling applications. | Stratos MAXO; |
59 | Cool_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for cooling applications. | Stratos MAXO; |
60 | Cool_PHdExt | This control mode operates the device with constant differential pressure for cooling application with external differential pressure sensor. | Stratos MAXO; |
61 | Cool_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for cooling applications. | Stratos MAXO; |
62 | Cool_VolFlow | This control mode operates the device with constant volume flow for cooling applications. | Stratos MAXO; |
63 | Cool_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications. | Stratos MAXO; |
64 | Cool_T | This control mode operates the device with constant temperature mode for cooling application. | Stratos MAXO; |
65 | Cool_TDiff | This control mode operates the device with constant differential temperature for cooling application. | Stratos MAXO; |
66 | Cool_Spd | This control mode operates the motor with constant speed for cooling applications. | Stratos MAXO; |
67 | San_Circ._T | This control mode operates the device with constant temperature for sanitary hot water circulation. | Stratos MAXO; |
68 | SanW.Heat._TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application with heat exchanger in the storage tank. | Stratos MAXO; |
69 | SanL.S._T | reserved | Stratos MAXO; |
70 | SanL.S._Acc.Flow | reserved | Stratos MAXO; |
71 | San_PHdConst | This control mode operates the device with constant differential pressure for sanitary hot water applications. | Stratos MAXO; |
72 | San_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for sanitary hot water applications. | Stratos MAXO; |
73 | San_PHdExternal | This control mode operates the device with constant differential pressure for sanitary hot water applications with external differential pressure sensor. | Stratos MAXO; |
74 | San_VolFlow | This control mode operates the device with constant volume flow for sanitary hot water applications. | Stratos MAXO; |
75 | San_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for sanitary hot water applications. | Stratos MAXO; |
76 | San_T | This control mode operates the device with constant temperature for sanitary hot water application. | Stratos MAXO; |
77 | San_TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application. | Stratos MAXO; |
78 | San_Spd | This control mode operates the motor with constant speed for sanitary hot water applications. | Stratos MAXO; |
79 | Gen_PHdExt | This control mode operates the device with constant differential pressure for generic applications with external diffential pressure sensor. | Stratos MAXO; |
80 | Gen_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for generic applications. | Stratos MAXO; |
81 | Gen_VolFlow | This control mode operates the device with constant volume flow for generic applications. | Stratos MAXO; |
82 | Gen_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for generic applications. | Stratos MAXO; |
83 | ScndPHdConst | This control mode operates the device with constant differential pressure. A special parameter set which is stored in the device is used. | Stratos MAXO; |
84 | ScndPHdVar | This control mode operates the device with a differential pressure which varies with the flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
85 | ScndFlow | This control mode operates the device with constant volume flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
86 | ScndSpd | This control mode operates the motor with constant speed. A special parameter set which is stored in the device is used. | Stratos MAXO; |
This incorporates a preset or fallback function for the following signal. This signal represents the control mode for the device. In case a selected mode is not supported, the device will stay in the previously selected mode.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 101 |
relinquish default | 1 |
function | input value / readback input value (A) |
Module versions | CIF-Module BACnet MS/TP (1.00…99.99) |
value | Name | description | support |
---|---|---|---|
1 | IF-Module | Signal source for setpoint: IF-Module | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | 0…10 V | Signal source for setpoint: IN2 mode 0…10 V | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
3 | 2…10 V | Signal source for setpoint: IN2 mode 2…10 V | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
4 | 0…20 mA | Signal source for setpoint: IN2 mode 0…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
5 | 4…20 mA | Signal source for setpoint: IN2 mode 4…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
6 | Internal | Signal source for setpoint: internal | Stratos MAXO; |
7 | EXT 1 | Signal source for setpoint: EXT 1 | Stratos MAXO; |
8 | EXT 2 | Signal source for setpoint: EXT 2 | Stratos MAXO; |
9 | INVALID | Invalid value | CIF-/IF-Module internal; |
This incorporates a preset or fallback function for the following signal. This signal represents the source for the setpoint for the current control function.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 200 |
relinquish default | 1 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | Gen_Spd | This control mode operates the device with constant speed. | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | CONST_FREQ | reserved | − |
3 | CONST_POWER | reserved | − |
4 | CONST_HEAD | reserved | − |
5 | CONST_PRESSURE | This control mode operates the device with constant discharge pressure. | MVIE, …; |
6 | Gen_PHdConst | This control mode operates the device with constant differential pressure. | Stratos MAXO; Stratos; IL_E, …; |
7 | Gen_PHdVar | This control mode operates the device with a differential pressure which varies with the flow. | Stratos MAXO; Stratos; IL_E, …; |
8 | CONST_FLOW | reserved | − |
9 | Gen_T | This control mode operates the device with constant temperature for generic application. | Stratos MAXO; |
10 | Gen_TDiff | This control mode operates the device with constant differential temperature for generic application. | Stratos MAXO; |
11 | CONST_LEV | reserved | − |
12 | TEMP_VARIABLE | This control mode operates the device with a differential pressure which varies with the fluid temperature. | CIF-/IF-Module internal; Stratos; |
13 | Gen_UsrDfd | This control mode operates the device with user configurable PID controller. | Stratos MAXO; IL_E, …; MVIE, …; |
14 | VAR_PRESSURE | This control mode operates the device with a discharge pressure that varies with the flow. | MVIE, …; |
15 | INVALID | Invalid value | CIF-/IF-Module internal; |
16 | HeatRadiator_PHd | This control mode operates the device with a differential pressure which varies with the flow for heating radiator applications. | Stratos MAXO; |
17 | HeatRadiator_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating radiator applications. | Stratos MAXO; |
18 | HeatRadiator_T | This control mode operates the device with constant temperature for heating radiator application. | Stratos MAXO; |
19 | HeatFloor_PHd | This control mode operates the device with a differential pressure which varies with the flow for floor heating applications. | Stratos MAXO; |
20 | HeatFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor heating applications. | Stratos MAXO; |
21 | HeatFloor_T | This control mode operates the device with constant temperature for floor heating application. | Stratos MAXO; |
22 | HeatCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling heating applications. | Stratos MAXO; |
23 | HeatCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling heating applications. | Stratos MAXO; |
24 | HeatCeiling_T | This control mode operates the device with constant temperature for ceiling heating applications. | Stratos MAXO; |
25 | HeatFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil heating applications. | Stratos MAXO; |
26 | HeatFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil heating applications. | Stratos MAXO; |
27 | HeatFan_T | This control mode operates the device with constant temperature for fan coil heating applications. | Stratos MAXO; |
28 | HeatB._T | This control mode operates the device with constant temperature for heating applications with hydraulic separator. | Stratos MAXO; |
29 | HeatB._TDiff | This control mode operates the device with constant differential temperature for heating applications with hydraulic separator. | Stratos MAXO; |
30 | HeatB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with hydraulic separator. | Stratos MAXO; |
31 | HeatE._T | This control mode operates the device with constant temperature for heating applications with heat exchanger. | Stratos MAXO; |
32 | HeatE._TDiff | This control mode operates the device with constant differential temperature for heating applications with heat exchanger. | Stratos MAXO; |
33 | HeatE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications with heat exchanger. | Stratos MAXO; |
34 | Heat_PHdConst | This control mode operates the device with constant differential pressure for heating applications. | Stratos MAXO; |
35 | Heat_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for heating applications. | Stratos MAXO; |
36 | Heat_PHdExt | This control mode operates the device with constant differential pressure for heating applications with external differential pressure sensor. | Stratos MAXO; |
37 | Heat_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for heating applications. | Stratos MAXO; |
38 | Heat_VolFlow | This control mode operates the device with constant volume flow for heating applications. | Stratos MAXO; |
39 | Heat_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for heating applications. | Stratos MAXO; |
40 | Heat_T | This control mode operates the device with constant temperature for heating application. | Stratos MAXO; |
41 | Heat_TDiff | This control mode operates the device with constant differential temperature for heating application. | Stratos MAXO; |
42 | Heat_Spd | This control mode operates the device with constant speed for heating applications. | Stratos MAXO; |
43 | CoolCeiling_PHd | This control mode operates the device with constant differential pressure for ceiling cooling applications. | Stratos MAXO; |
44 | CoolCeiling_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for ceiling cooling applications. | Stratos MAXO; |
45 | CoolCeiling_T | This control mode operates the device with constant temperature for ceiling cooling application. | Stratos MAXO; |
46 | CoolFloor_PHd | This control mode operates the device with constant differential pressure for floor cooling applications. | Stratos MAXO; |
47 | CoolFloor_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for floor cooling applications. | Stratos MAXO; |
48 | CoolFloor_T | This control mode operates the device with constant temperature mode for floor cooling applications. | Stratos MAXO; |
49 | CoolFan_PHd | This control mode operates the device with a differential pressure which varies with the flow for fan coil cooling applications. | Stratos MAXO; |
50 | CoolFan_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for fan coil cooling applications. | Stratos MAXO; |
51 | CoolFan_T | This control mode operates the device with constant temperature mode for fan coil cooling application. | Stratos MAXO; |
52 | CoolB._T | This control mode operates the device with constant temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
53 | CoolB._TDiff | This control mode operates the device with constant differential temperature for cooling applications with hydraulic separator. | Stratos MAXO; |
54 | CoolB._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with hydraulic separator. | Stratos MAXO; |
55 | CoolE._T | This control mode operates the device with constant temperature mode for cooling application with heat exchanger. | Stratos MAXO; |
56 | CoolE._TDiff | This control mode operates the device with constant differential temperature for cooling applications with heat exchanger. | Stratos MAXO; |
57 | CoolE._Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications with heat exhanger. | Stratos MAXO; |
58 | Cool_PHdConst | This control mode operates the device with constant differential pressure for cooling applications. | Stratos MAXO; |
59 | Cool_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for cooling applications. | Stratos MAXO; |
60 | Cool_PHdExt | This control mode operates the device with constant differential pressure for cooling application with external differential pressure sensor. | Stratos MAXO; |
61 | Cool_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for cooling applications. | Stratos MAXO; |
62 | Cool_VolFlow | This control mode operates the device with constant volume flow for cooling applications. | Stratos MAXO; |
63 | Cool_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for cooling applications. | Stratos MAXO; |
64 | Cool_T | This control mode operates the device with constant temperature mode for cooling application. | Stratos MAXO; |
65 | Cool_TDiff | This control mode operates the device with constant differential temperature for cooling application. | Stratos MAXO; |
66 | Cool_Spd | This control mode operates the motor with constant speed for cooling applications. | Stratos MAXO; |
67 | San_Circ._T | This control mode operates the device with constant temperature for sanitary hot water circulation. | Stratos MAXO; |
68 | SanW.Heat._TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application with heat exchanger in the storage tank. | Stratos MAXO; |
69 | SanL.S._T | reserved | Stratos MAXO; |
70 | SanL.S._Acc.Flow | reserved | Stratos MAXO; |
71 | San_PHdConst | This control mode operates the device with constant differential pressure for sanitary hot water applications. | Stratos MAXO; |
72 | San_PHdVar | This control mode operates the device with a differential pressure which varies with the flow for sanitary hot water applications. | Stratos MAXO; |
73 | San_PHdExternal | This control mode operates the device with constant differential pressure for sanitary hot water applications with external differential pressure sensor. | Stratos MAXO; |
74 | San_VolFlow | This control mode operates the device with constant volume flow for sanitary hot water applications. | Stratos MAXO; |
75 | San_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for sanitary hot water applications. | Stratos MAXO; |
76 | San_T | This control mode operates the device with constant temperature for sanitary hot water application. | Stratos MAXO; |
77 | San_TDiff | This control mode operates the device with constant differential temperature for sanitary hot water application. | Stratos MAXO; |
78 | San_Spd | This control mode operates the motor with constant speed for sanitary hot water applications. | Stratos MAXO; |
79 | Gen_PHdExt | This control mode operates the device with constant differential pressure for generic applications with external diffential pressure sensor. | Stratos MAXO; |
80 | Gen_DA | This control mode operates the device with automatic setpoint adjustement (dynamic adapt) for generic applications. | Stratos MAXO; |
81 | Gen_VolFlow | This control mode operates the device with constant volume flow for generic applications. | Stratos MAXO; |
82 | Gen_Acc.Flow | This control mode operates the device with a setpoint depending on the volume flow of other pumps for generic applications. | Stratos MAXO; |
83 | ScndPHdConst | This control mode operates the device with constant differential pressure. A special parameter set which is stored in the device is used. | Stratos MAXO; |
84 | ScndPHdVar | This control mode operates the device with a differential pressure which varies with the flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
85 | ScndFlow | This control mode operates the device with constant volume flow. A special parameter set which is stored in the device is used. | Stratos MAXO; |
86 | ScndSpd | This control mode operates the motor with constant speed. A special parameter set which is stored in the device is used. | Stratos MAXO; |
This defines an alternative value for the following signal. This signal represents the control mode for the device. In case a selected mode is not supported, the device will stay in the previously selected mode.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;property | value |
---|---|
instance # | 203 |
relinquish default | 1 |
function | input value |
Module versions | CIF-Module BACnet MS/TP (3.01…99.99) |
value | Name | description | support |
---|---|---|---|
1 | IF-Module | Signal source for setpoint: IF-Module | Stratos MAXO; Stratos; IL_E, …; MVIE, …; |
2 | 0…10 V | Signal source for setpoint: IN2 mode 0…10 V | CIF-/IF-Module mapped; Stratos; IL_E, …; MVIE, …; |
3 | 2…10 V | Signal source for setpoint: IN2 mode 2…10 V | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
4 | 0…20 mA | Signal source for setpoint: IN2 mode 0…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
5 | 4…20 mA | Signal source for setpoint: IN2 mode 4…20 mA | CIF-/IF-Module mapped; IL_E, …; MVIE, …; |
6 | Internal | Signal source for setpoint: internal | Stratos MAXO; |
7 | EXT 1 | Signal source for setpoint: EXT 1 | Stratos MAXO; |
8 | EXT 2 | Signal source for setpoint: EXT 2 | Stratos MAXO; |
9 | INVALID | Invalid value | CIF-/IF-Module internal; |
This defines an alternative value for the following signal. This signal represents the source for the setpoint for the current control function.
Support reference
Stratos MAXO; Stratos; IL_E, …; MVIE, …;Generally the pump is controlled by three parameters.
The first is the setpoint which is scaled in percent. The maximum (100 %) values can be found at 21A1h (CONST_SPEED) 21A5h (VAR_DIFFPRSS) or 21ADh (CONST_PRESS / CONST_DIFFPRESS)
The second is the control mode which selects between constant speed (CONST_SPEED), constant (differential) pressure (CONST_PRES / CONST_DIFFPRESS) and other modes.
The third parameter is the command which generally swiches the pump on or off.
Depending on the type of CAN communication you have to use different parameter sets. If you use simple control (more static , as described in 6.2.2) then the parameter set starting at 2000h is preferrable. If you use CANopen PDO mechanism the the parameters starting at 2008h are to be used.
The readback of the parameters can be found starting with 2048h (selected ...).
The feedback (the really active) parameters can be found starting with 2040h (effective…)
For a very simple operation you might use SDO writes as follows:
Normally you would use a PLC with an .eds file import for your application.
First of all you have to check if the system supports MPDOs. If not, you should use the .eds file …_no_MPDO.eds. You should map the control parameters starting at 2008h into yor system and the values you desire. Please ensure that the systems sends out heartbeats and the parameter 1016h is configured correctly.
Normally the pump is configured to send out TPDO3 as an MPDO.
If your system supports MPDOs, the functionality can be defined in the system. If not, you may extract the data manually:
This Modbus implementation supports the function codes 03, 04, 06 and 16.
NOTE: All register addresses are raw addresses as they are transferred over the trunk. Sometimes an offset of 1 applies.
This paragraph is intentionally empty.
When one of the modules listed above is used, the menue offers an extra item where the 0...10 V input can be activated or deactivated. When using the module Ext. Off / SBM the 0…10 V input has to be deactivated in any case.
When one of these modes for the control input In2 is used <5.4.2.0>, please note that values below 2 V / 4 mA are processed as zero. No reaction on the open loop is performed.
Input for dry contact (NC)
Input for dry contact (NO)
The Ext. Min input results in operation at a rotational speed where the pump would achieve 20 % of the maximum head at zero flow. This is a pump type specific but constant value. No closed loop control is active.
Interface between two pumps acting together as a double pump. The roles of the two pumps (master/slave) and the operating mode (main/standby or paralleloperation) can be set.
The Ext. Off input is only active at the master pump.
The behavior of Ext. Off is selectable with the Wilo IR-Stick software: either the input at the master pump controls both pumps or both pumps use their individual inputs.
Wilo-Net is a network interface based on CAN physical interface. It it allows the following functionaliy
The Bluetooth® interface enables the remote connection from a pump with the Smart-IF to a smartphone or tablet computer for diagnostics and control.
Digital sensor interface allows the connection of the following devices:
The immersion temperature sensor marked with "1" is used for the forward temperature of the circuit and the sensor marked with "1" is used for the return temperature of the circuit
Installation and electrical connection must be carried out in accordance with local regulations and only by qualified personnel.
WARNING! Risk of personal injury! The existing directives for accident prevention must be adhered to.
DANGER! Risk of fatal electrical shock!
Danger from electrical current must be eliminated. Local directives or general directives [e.g. IEC, VDE etc.] and those of local power supply companies must be adhered to.
The mounting of the CIF-modules for other pump types is described in the pump manual.
To ensure immunity in industrial environments (EN 61000-6-2) the data cables must be shielded cables and must be used with an EMC-compliant cable gland (included with the module, if necessary). Shield shall be connected to earth on both ends.
For optimal transmission with BACnet MS/TP, CANopen or Modbus RTU, the data cable pair should be twisted and have a characteristic impedance of 120 Ω.
DANGER! Risk of fatal electrical shock!
Installation steps in accordance with Fig. 7.1.1 or 7.1.2:
Installation steps in accordance with Fig. 7.1.1:
Electrical connection follows (see section below).
DANGER! Risk of fatal electrical shock!
Electrical connection must be carried out by an electrician authorised by the local electricity supply company and in accordance with the applicable local regulations [e.g. VDE regulations].
CAUTION! The maximum torque for the terminal screws is 0.2 Nm. Exceeding this torque can damage the module.
CAUTION! No voltage shall be applied on the Ext. Off or Ext. Min inputs. Only dry contacts suitable for safety extra low voltage (SELV) shall be used. Applying a voltage can damage the module.
The terminals of the CIF-modules with RS485 are marked with A(-) and B(+). The marking complies with the RS485 standard. Nevertheless some manufacturers of automation equipment are using the opposite marking of A and B. This may cause communication issues.
RS485 does not allow any loops, star connections or stub lines. All devices shall be daisy chained.
This manual describes only the basic installation.
The complete manual can be found at www.wilo.com/automation
The following sections describe the test of the input/output functionality. It is recommended to test together with the connected system. The pump´s installation and operating instructions are needed for some settings.
For dual pump operation, only one IF-module of the type above shall be present in the master pump.
For dual pump operation, the master pump should have the higher software version (if not identical)
The slave should be equipped with one of the following modules:
The slave pump shall be connected to the master pump via the DP terminals of the IF module.
The slave pump shall be connected to the master pump via the MP terminals of the pump.
Please note for Y-pipe installations (pump heads not in common housing):
The slave pump shall be connected to the master pump via the MP terminals of the pump.
To access the menu settings <5.x.x.x>, the DIP-switch # 1 (not the one with the key symbol) unter the lid of the terminal box has to be set to "ON".
The settings for the CIF-modules can be found at Settings/External interfaces/
When a valid set of parameters (address, A and further) is chosen and the pump menu is left, the IF-module will start up and shows the ability to communicate with the ⇔ / ⇅ symbol in the pump. The symbol does not indicate the exchange of data.
After setting up the IF module according subsequent sections, the setpoint <1.0.0.0> , the control mode <2.0.0.0> and the on/off state <3.0.0.0> do no longer follow the local settings previously made, but they follow the values stored in the IF-module. If the building automation system is not available, you may set the address "⇅" <5.2.3.0> to OFF. In this state, local control is active.
Before starting with commissioning, please make sure that you are using the the latest firmware and .XIF files available at Wilo Automation (en)
By factory setting the LON module has the status offline/unconfigured. In this state the module does not communicate with the pump (no ⇔).
To initiate the service-pin of the device, you may press the button at the IF-module.
Status LED | Condition(s) | Remark |
---|---|---|
ON | Service pin pressed | |
Initialization | if configured (short flash) | |
Applicationless and unconfigured | ||
Defective memory | ||
flashing (0.5 Hz) | Module unconfigured | but with application (factory setting) |
OFF | Module configured |
Today, no permanent local control override is possible while the LON communication is active.
For all firmware versions below 3.00 the the maximum response time is 300 ms. For polling mode <i>(request message service)</i> the timeout shall be set equal or higher than 300 ms.
To ensure a reliable data transmission, at least 3 retries are recommended.
No settings are necessary at the pump.
Set the bus address in the pump menu <5.2.3.0> "⇅" .
Effectively the bus address is the BACnet MS/TP MAC address.
Effectively the bus address is the CANopen Node-ID.
Effectively the bus address is the WiloNet address.
OFF deactivates the interface.
With firmware 2.00 or higher the IF-modules support MS/TP master functionality.
If the MAC address is set to 0…127, the module operates as MS/TP master (standard setting), if set to 128…254, it operates as slave (only recommended for experienced users).
For best performance of the network choose MAC addresses without gaps starting at 0. Take care that your router/controller has also a MAC address to be respected.
After the system is successfully running, you may optimize performance by writing the BACnet property "max master" of the device object in each device to the highest MAC address used within the network plus a few spare addresses for extensions. A high setting of "max-master" as well as gaps of addresses reduce the performance of the network due to unwanted "poll for master" messages and their timeouts.
When planning the integration of IF-modules with SW 1.xx, please make sure that your system supports MS/TP slaves. Slaves cannot answer to the who-is broadcast requests used for device lookup.
If your system does not support MS/TP slaves, a slave proxy device or a slave proxy capable router (e.g. UBR-01 (MBS-Software), L-IP-ME201 (Loytec)) may be used. For further details please refer to the PICS statement.
We strongly recommend to create manual slave address bindings instead of automatic slave discovery.
Set baud rate in the pump menu <5.2.4.0> in accordance with the following table:
(Parameter A) | Speed Bit/s |
---|---|
0 | 300 |
1 | 600 |
2 | 1200 |
3 | 2400 |
4 | 4800 |
5 | 9600 |
6 | 19200 |
7 | 38400 |
8 | 57300 |
9 | 115200 |
10 | 76800 |
A value of 0 allows new pairings with the device while a value of 1 disallow new pairings with the device. Set a value of 1 to disable access from new end user devices.
(Parameter A is in menu <5.2.4.0>)
Modbus RTU defines a frame with 8 data bytes, a parity bit and one or two stop bits. The parity bit can be either even (E), odd (O) or no parity (N). The following options are available:
(Parameter C is in menu <5.2.5.0>)
(Parameter C) | format |
---|---|
2 | 8,N,1 |
3 | 8,N,2 |
6 | 8,E,1 |
10 | 8,O,1 |
All other values are reserved and shall not be used.
Setting a value of 1 will erase all Bluetooth® link keys (pairings) in the device. After successful operation, the value of this parameter is reset to 0.
(Parameter C is in menu <5.2.5.0>)
Setting a value of 1 will allow Bluetooth® connection, while a value of 0 will block Bluetooth® connection with the device.
(Parameter E is in menu <5.2.6.0>)
Set device instance # (device-id) the pump menu <5.2.5.0>…<5.2.7.0>.
Instead of following the instructions in the printed manual, you may use this online calculation tool instead.
The device instance number (aka device-id) is set with the parameters C, E, F. With the form below you can calculate the values for your selected instance number. This is more convenient than the procedure described in the printed manual.
The BACnet instance number is set with the parameters C, E and F. This requires conversion into a hexadecimal value) (indicated subsequently by an ‘h’ suffix). The instance number is divided between the three parameters (example 4660):
When using CIF-Modules, the local menu is active in the states MANUAL or MANUAL PRESET of the datapoint bus command timer. In these states, it is not necessary to write settings from fieldbus.
This paragraph is intentionally empty.
When using CIF-Modules, the local menu and the control input IN2 are disabled by factory setting. The local menu can be enabled permanently by writing the value MANUAL to the bus command timer.
The input IN2 can be enabled at the menue <5.4.1.0>.
With LON/PLR, an analog input cannot be used as setpoint source.
Assuming a pump with the transmission speed of 38400 bits/s, a MAC address of 127 and an Instance number (device-id) of 4660.
Parameter | Symbol | Menu | Setting | Remark |
---|---|---|---|---|
MAC | ↔ | 5.2.3.0 | 127 | |
A | A | 5.2.4.0 | 7 | |
B | not used | |||
C | C | 5.2.5.0 | 52 | |
D | not used | |||
E | E | 5.2.6.0 | 18 | |
F | F | 5.2.7.0 | 0 |
The following table shows a control example for speed mode 50 %, pump on:
Object name | Object type | Object instance | Setting | Remark |
---|---|---|---|---|
Bus Setpoint | AO | 0 | 50.0 | |
Bus Command Pump on | BO | 0 | ACTIVE | |
Bus Command off override | BO | 1 | INACTIVE | |
Bus Command max override | BO | 2 | INACTIVE | |
Bus Command min override | BO | 3 | INACTIVE | |
Bus Control Mode | MO | 0 | CONST_SPEED | state 1 |
Bus Command Timer | MO | 1 | OFF | state 1 |
External Source | MO | 3 | OFF | state 1 |
This paragraph is intentionally empty.
The following setup sequence shows a basic setting for the CIF-Modbus. the <a.b.c.d.e> indicate the menue numbers (not Stratos). For Stratos the menue is described in the text.
Below please find a snapshot for this communication example (M- Modbus Master S- Slave (the pump)):
01 04 02 BC 00 01 F1 96 M: 04-Rd_InputReg ID#2 Rd 30701, 1 01 04 02 02 00 B8 50 S: 04-Rd_InputReg ID#2 cnt=2, Rd 30701=512 (0x0200) // software version 2.00 01 06 01 2C 00 01 88 3F M: 06-Wr_SHoldReg ID#3 Wr 40301=1 (0x0001) 01 06 01 2C 00 01 88 3F s: 06-Wr_SHoldReg ID#3 Wr 40301=1 (0x0001) 01 06 00 2A 00 01 69 C2 M: 06-Wr_SHoldReg ID#4 Wr 40043=1 (0x0001) 01 06 00 2A 00 01 69 C2 s: 06-Wr_SHoldReg ID#4 Wr 40043=1 (0x0001) 01 06 00 01 00 C8 D9 9C M: 06-Wr_SHoldReg ID#5 Wr 40002=200 (0x00C8) 01 06 00 01 00 C8 D9 9C s: 06-Wr_SHoldReg ID#5 Wr 40002=200 (0x00C8) 01 06 00 28 00 09 C9 C4 M: 06-Wr_SHoldReg ID#6 Wr 40041=9 (0x0009) 01 06 00 28 00 09 C9 C4 s: 06-Wr_SHoldReg ID#6 Wr 40041=9 (0x0009)
The modules described in these instructions are maintenance-free.
Have repairs done by qualified skilled personnel only!
DANGER! Danger of electric shock! Any danger from electrical current should be ruled out.
WARNING! Risk of scalding! At high fluid temperatures and system pressures, allow the pump to cool down first and then depressurise the system.
Faults | Causes | Remedy |
---|---|---|
Communication with external control is disrupted | Wrong communication parameter(s) | Check, and adjust if necessary (see Commissioning) |
Damaged wiring | Check whether other bus nodes are affected in order to find position of missing conection | |
Flow value not available | R1 version of pump (w/o pressure sensor) | install pressure sensor |
Multistage pump (Helix et. al.) | not possible with those pumps | |
Single stage glanded pump (IL-E et. al) in n-c mode (CONST_SPEED) | change control mode to dp-c/dp-v | |
Flow value inaccurate | Viscosity of fluid changed by additives | |
Setpoint is not reached | Pumpe is at power or speed limit | Reduce setpoint |
Setpoint is not reached | Multistage pump (Helix et. al.): maximum value is sensor range, not max. head of the pump | Reduce setpoint |
Priority array set to NULL, present value is not the reliquish default | Default is dynamic and comes as virtual write from inside to priority 16 | - |
Parameter A not available | Firmware incompatible | change pump electronics |
Who-Is Requests are not answered | IF-Module has SW 1.11 (cannot respond) | replace by version >=SW 2.00 |
SW2.00 cannot answer to Who-Is without range(issue) | Initiate Who-Is request with range | |
SW 1.xx: MS/TP slave is not detected, even if inserted manually in a slave list | Slave detection uses wildcard instance number for other properties than object-identifier | use one of the routers specified |
Error E054 in pump display | Bus Command Timer timed out | check cyclic write of value "SET" or "SET_PRESET" or disable functionality by writing value "OFF" |
Pump does not start | Ext. Off contact not closed | Check the external control |
Voltage at 0-10 V input not sufficient | ||
Pump stays at minimum speed | Ext. Min contact closed | Check the external control |
Voltage at 0-10 V input not sufficient | ||
Dual Pump function does not work | Wiring damaged | Check wiring |
Incorrect menu setting | Setup pumps according to operating manual | |
bus address (⇅) is offered instead of 0-10 V setting in menu | Excess voltage has been attached between GND and Ext Off or ext min | Replace module |
If the operating fault cannot be remedied, please consult a specialist technician or the nearest Wilo after-sales service point or representative.
The following table shows the status information which is given corresponding to the Wilo E-code
name | error_code |
---|---|
Error Present | 10,20,21,23,24,25,26,30,31,36,70,71,72,73,74,75,76,77,78,89,96,97,98 |
Service Required | 10,12,16,21,23,24,25,26,27,34,36,37,38,40,41,42,50,52 |
Warning Present | 3,4,5,6,7,11,32,33,35,42,50,51,52,53,54 |
WILO LCD-Code | WILO Bedeutung | nvoPumpFault gesetzte Bits | nvoPumpStatus gesetzte Bits | nvoMaintenance gesetzte Bits | nvoStatus Meldung |
---|---|---|---|---|---|
E04 | Netz-Unterspannung | pump_ctrl.sf_voltage_low | pump_ctrl.supply_fault pump_ctrl.device_fault | electrical_fault in_alarm |
|
E05 | Netz-Überspannung | pump_ctrl.sf_voltage_high | pump_ctrl.supply_fault pump_ctrl.device_fault | electrical_fault in_alarm |
|
E06 | 2-Phasenlauf | pump_ctrl.sf_phase | pump_ctrl.supply_fault pump_ctrl.device_fault | electrical_fault in_alarm |
|
E10 | Blockierung | pump_ctrl.df_pump_blocked | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E11 | Leerlauf Motor | pump_ctrl.sf_no_fluid | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E12 | Laufr./Rotor schwergängig | pump_ctrl.df_pump_blocked | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E16 | Lagerverschleiß | pump_ctrl.df_motor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E20 | Übertemp. Wicklung | pump_ctrl.df_motor_temp | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E21 | Überlast Motor | pump_ctrl.df_motor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | electrical_fault in_alarm |
E23 | Kurz/Erdschluß | pump_ctrl.df_motor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | electrical_fault in_alarm |
E24 | Wicklungsschluß | pump_ctrl.df_motor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | electrical_fault in_alarm |
E25 | Kontaktfehler / Wicklung offen | pump_ctrl.df_motor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | electrical_fault in_alarm |
E26 | Temp.fühler Wicklung offen | pump_ctrl.df_motor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | electrical_fault in_alarm |
E27 | Drehzahlsensor defekt | pump_ctrl.df_sensor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E30 | Übertemperatur Modul | pump_ctrl.df_elect_failure_nf | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E31 | Übertemp. Leistungsteil | pump_ctrl.df_elect_failure_nf | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E34 | Zuordnung Modul/Pumpe | pump_ctrl.df_elect_failure_nf | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E36 | Laderelais/PFC defekt | pump_ctrl.df_elect_failure | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E37 | Zwischenkreiselko defekt | pump_ctrl.df_elect_failure | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E38 | Temp.sensor Medium | pump_ctrl.df_sensor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E40 | Ext. Drucksensor defekt | pump_ctrl.df_sensor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E41 | Ext. Schwingungs-sensor defekt | pump_ctrl.df_sensor_failure | pump_ctrl.device_fault | pump_ctrl.service_required | in_alarm |
E50 | GLT-Timeout | pump_ctrl.df_elect_failure | pump_ctrl.device_fault | pump_ctrl.service_required | unable_to_measure in_alarm |
E52 | DP-Timeout | pump_ctrl.df_elect_failure_nf | pump_ctrl.device_fault | in_alarm |
Spare parts may be ordered via a local specialist retailer and/or Wilo customer service.
To avoid queries and incorrect orders, all data on the type plate of the CIF-Module and the device where it is mounted should be submitted with each order.
Information about collection of used electric and electronic products
Proper disposal and recycling of this product prevents damage to the environment and risks to personal health.
NOTE: Prohibition of disposal with domestic garbage!
Within the European Union, this symbol may appear on the product, the package or on related documents. It means that the affected electric and electronic products shall not be disposed with the household garbage. For a proper treatment, recycling and disposal respect the following topics:
Request for information about proper disposal at local authorities, local waste collection points or at your dealer. Further information at
Product specifications are subject to change without prior notice!
WILO SE
Nortkirchenstr. 100
D-44263 Dortmund
Germany