ACI BACnet / Modbus ROOM SERIES Installation Guide
- June 5, 2024
- ACI
Table of Contents
- ACI BACnet / Modbus ROOM SERIES
- GENERAL INFORMATION
- WIRING INSTRUCTIONS
- LAYOUT
- WIRING CONNECTIONS
- MOUNTING INSTRUCTIONS
- BACnet MS/TP and Modbus RTU INTERFACE
- EOL TERMINATION RESISTANCE SELECTION
- DEVICE CONFIGURATION THROUGH BACnet
- TEMPERATURE UNITS CONFIGURATION
- DEVICE CONFIGURATION THROUGH MODBUS RTU
- PRODUCT SPECIFICATIONS
- WARRANTY
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
ACI BACnet / Modbus ROOM SERIES
GENERAL INFORMATION
The BACnet MS/TP / Modbus RTU Room Series sensor is designed for use with electronic controllers in commercial heating and cooling building management systems. The ACI BACnet MS/TP / Modbus RTU Room Series sensor can be ordered to monitor temperature, RH, or temp/RH in Commercial Room environments. It uses BACnet MS/TP or Modbus RTU for physical connection to a BAS or controller, has dip switches to set addresses and baud rate, parity and stop bits (Modbus RTU only), and has on board end-of-line termination. There is no analog output.
WIRING INSTRUCTIONS
16 to 22 AWG two conductor shielded cable is recommended for powering the sensors.
PRECAUTIONS
- DO NOT RUN THE WIRING IN ANY CONDUIT WITH LINE VOLTAGE (24/120/230VAC).
- Remove power before wiring. NEVER connect or disconnect wiring with power applied.
- It is recommended that you use an isolated UL-listed Class 2 transformer when powering the unit with 24 VAC. Failure to wire the devices with the correct polarity when sharing transformers may result in damage to any device powered by the shared transformer.
- If the 24 VDC or 24VAC power is shared with devices that have coils such as relays, solenoids, or other inductors, each coil must have an MOV, DC/AC Transorb, Transient Voltage Suppressor (ACI Part: 142583), or diode placed across the coil or inductor. The cathode, or banded side of the DC Transorb or diode, connects to the positive side of the power supply. Without these snubbers, coils produce very large voltage spikes when de-energizing that can cause malfunction or destruction of electronic circuits.
LAYOUT
WIRING CONNECTIONS
TERMINAL BLOCKS
|
CONNECTIONS
---|---
+V
|
Power Supply Positive 8-34VDC / 10-28VAC
GN
|
Power Supply Common or Ground
D-
|
EIA-485 Data Negative
D+
|
EIA-485 Data Positive
MOUNTING INSTRUCTIONS
ACI recommends using BELDEN 3105 for communication wiring. This wire has 120 ohm input impendence. The terminal blocks allow for (1) or (2) wires to be connected in each position for daisy chaining. Daisy chain the RS-485 wiring and do not use “Star” or “T” wiring. Avoid running communication wires next to AC line voltage wires. These can be sources of noise that can affect signal quality. For optimal temperature measurement, follow these tips:
- Do not install on external walls
- Avoid air registers, diffusers, vents, and windows
- Avoid confined areas such as shelves, closed cabinets, closets, and behind curtains
- Eliminate and seal all wall and conduit penetrations. Air migration from wall cavities may alter temperature readings.
- Do not install near heat sources. eg: lamps, radiators, direct sunlight, copiers, chimney walls, walls concealing hot-water pipes
- A thermally-insulated backing should be used when fitting to solid walls (concrete, steel, etc.). ACI part: A/ROOM-FOAM-PAD Separate the cover from the base. Attach the base directly to the wall or to a standard 2” x 4” junction box using the (2) #6-32 x 1” screws that are provided. Refer to the wiring instructions (p. 1-2) to make
necessary connections. After wiring, attach the cover to the base by snapping the top of the cover on first and then the bottom. Tighten the cover down, using the (2) 1/16” Allen screws located in the bottom of the housing. A 1/16” Hex driver is needed to secure the cover to the base. Take care when mounting. Check local code for mounting height requirements. Typical mounting heights are 48-60”(1.22-1.52m) off the ground and at least 1.5’(0.5m) from the adjacent wall. The sensor should be mounted in an area where air circulation is well mixed, and not blocked by obstructions.
ENCLOSURE DIMENSIONS
MOUNTING DIAGRAM
BACnet MS/TP and Modbus RTU INTERFACE
The BACnet Master-Slave/Token-Passing (MS/TP) and Modbus Remote Terminal Unit (RTU) data link protocol uses EIA-485 as a two-wire, daisy chain network. A branch is a discrete chain of devices connected to a controller. The max number of devices per segment is 32, as per the BACnet and Modbus specifications. 4000 ft (1219.2 m) is the maximum recommended length for a segment, which includes all devices from the controller to the last device in the daisy chain. BACnet or Modbus RTU protocol selection is done via SW4 switch. Place dipswitch #4 to the OFF position for BACnet and the ON position for Modbus. Refer to FIGURE 4. ACI’s BACnet sensors are master devices. Only master nodes are allowed to send and receive tokens on the MSTP network. ACI’s Modbus RTU sensors are slave devices. Only one master is connected to the bus and several slave nodes are connected to the same trunk. The Master initiates communication. The slave nodes only respond to a request from the Master. Slave nodes do not communicate with each other. Each branch must have all devices connected with (+) connected to (+) and (-) connected to (-). If a shielded cable is used, this is not to be connected to the devices. The shield cable should only be connected on one end to earth ground, usually at the controller. The start and end of each branch should have a termination resistor at the device level or at the controller. Each device must be configured for the correct baud rate and have a unique address in each branch. The baud rate for the branch is set by the controller. This product has auto- baud for ease of network configuration but setting the baud rate using the DIP switches is recommended. Note: Auto-baud feature does not function when Modbus is the selected protocol.
SW4 DIPSWITCH SETTINGS
- DIP 1 :PAR2 (only applies to Modbus)
- DIP 2 : PAR1(only applies to Modbus)
- DIP 3 : OPEN (For Future Use)
- DIP 4 -: OFF is BACNET, ON is MODBUS
BAUD RATE SELECTION
By default, BACnet Protocol and Auto-Baud is factory set. If the sensor is field adjusted for Modbus RTU, the baud rate should be selected at this time to match the Master configuration. If Modbus RTU protocol is selected it is recommended the sensor unique address is selected at this time. Switches 8-10 are used to set the BACnet and Modbus baud rate. Refer to for switch settings. Where (0) is OFF and (1) is ON. If the system’s baud rate is known, it is recommended to set the specific baud rate to match the system. If the device is powered when a change is made, the device must be power cycled or reset for changes in baud rate to be made.
BAUD RATE | SW 8 | SW 9 | SW 10 |
---|---|---|---|
Auto-Baud | 0 | 0 | 0 |
9600 | 0 | 0 | 1 |
19200 | 0 | 1 | 0 |
38400 | 0 | 1 | 1 |
57600 | 1 | 0 | 0 |
76800 | 1 | 0 | 1 |
Reserved | 1 | 1 | 0 |
Note: Auto-Baud not available for Modbus RTU.
EOL TERMINATION RESISTANCE SELECTION
RS-485 requires that the last device in a chain have a termination resistor. This is controlled using a jumper in the EN (enabled) position marked on . When the jumper is set to EN (enabled), a 120Ω resistance is added in parallel to the data line. When the jumper is set to DIS (disable), the resistance is not added. By default, the jumper is placed in the DIS (disabled) position.
EOL TERMINATION JUMPERS
END OF LINE TERMINATION ENABLED
END OF LINE TERMINATION DI SABLED
RESET
The reset button can be used to reset the device without disconnecting power. The location of this button is shown in FIGURE 1 ˜P.1°.
LED INFORMATION
One LED indicates four statuses. Solid green shows that power is good, but no data is transmitting. A solid Amber indicates that auto-baud is set and no data has been received to set a baud rate. Green/Amber flashing indicates data is being transmitted or received. Solid Red LED status indicates an error state, usually loss of communication on the network. If BACnet is the selected protocol, and this status remains for 10 times the APDU timeout, the device will automatically reset. If this state remains longer than that, reset the device.
ADDRESS SELECTION
Switches 1-7 are used to set the BACnet and Modbus addressing. Refer to TABLE 3 for switch settings. Each device in a network branch must have a unique address. The value of each position is printed on the board. By default, the address is (0). Note: (0) cannot be used if Modbus RTU protocol is selected and will require a unique address. If the device is powered when a change is made, the device must be power cycled or reset for changes in address to be made.
ADDRESS SELECTION
ADDRESS
| SW 1
(64)
| SW 2
(32)
| SW 3
(16)
| SW 4
(8)
| SW 5
(4)
| SW 6
(2)
|
SW 7
(1)
---|---|---|---|---|---|---|---
0| 0| 0| 0| 0| 0| 0| 0
1| 0| 0| 0| 0| 0| 0| 1
12| 0| 0| 0| 1| 1| 0| 0
DEVICE CONFIGURATION THROUGH BACnet
DEVICE INSTANCE
The Device Instance, by default, is 1035000 plus the Address. For example, an Address of 21 results in a default address of 1035021. This can be changed once the device is connected to the network, but each device instance must be unique within the network, not just this segment.
DEVICE NAME
By default, the device name is based on the type of device and the address. The device name can be a character string up to 32 characters in length. This can be changed once the device is connected to the network. For example: Temperature Sensor – 034. The device name must be unique throughout the entire BACnet network, not just this segment.
TEST MODE BACnet
For the Sensor objects (AI0 and AI1), a test mode can be set by writing the Boolean value true to the “out-of-service” property. Then the present-value can be set to any valid test value the user requires. This allows a user to test reactions to specific values returned by this device.
DEVICE LOCATION
The device location is optional but is intended to allow for further definition of the device’s location. The device location can be a character string up to 64 characters in length.
DEVICE DESCRIPTION
By default, the device description is optional but is intended to allow for further information about the device or its environment. The device location can be a character string up to 64 characters in length.
TEMPERATURE UNITS CONFIGURATION
For temperature, the units of measure can be configured using BACnet. By writing to the units property of the temperature sensor (AI0), the reported temperature units can be changed. shows the values to write.
TEMPERATURE AND RH OFFSET
This device allows for a temperature offset of +/-5C (9F) and an RH offset of
+/-10%. By default, these values are set to 0, meaning no offset is added.
These are set by writing to the present value of the Temperature Calibration
Offset (AV0) or RH Calibration Offset (AV1). The value written must be within
the specified range or an error will be returned. To set back to factory
settings, write any changed values to 0.
UNIT SETTING
UNITS
|
VALUE
---|---
°F
| 64
K|
63
°C
|
62
BACnet OBJECT TABLE
OBJECT TYPE
| OBJECT ID| OBJECT NAME| RANGE| BACnet ENGINEERING UNITS|
PIC STATEMENT QR
---|---|---|---|---|---
Device
| – – – – – – – – – –| BN11x0| 0-4194302| – – – – – – – – – – – – – – – – – –
– – – – – – – –|
Analog
Inputs
| AI-0| Temperature Sensor| 34.7 – 122.0|
degrees-Fahrenheit (64) – default
AI-1
| RH Sensor| 0.0 – 95.0|
percent-relative-humidity (29)
Analog
Values
| AV-0| Temperature
Calibration Offset
| -9.0 – 9.0|
delta-degrees-Fahrenheit (120)
|
AV-1
| RH Calibration Offset| -10.0 -10.0|
percent-relative-humidity (29)
Note:
The table shows all objects for Temperature and RH. If you have a
Temperature only model, the RH objects(AI-1 and AV-1) will not be present. If
you have a RH only model, the Temperature objects (AI-0 and AV-0) will not be
present.
DEVICE CONFIGURATION THROUGH MODBUS RTU
MODBUS RTU DATA BITS, PARITY, AND STOP BITS SELECTION
Confirm Modbus Protocol is selected via dipswitch #4 on SW4 – see FIGURE 5. The device that requests information is called the Modbus Master and the devices giving the information are Modbus Slaves. The Modbus sensors are slave devices and the number of Data Bits needs to be the same as in the Master device configuration. ACI’s Modbus RTU sensors utilize 8 data bits during communication exchange. Parity and stop bit selection is performed via the SW4 switch located on the board. Dipswtiches #1 and #2 are adjusted to select the Parity and stop
PARITY AND STOP BITS
PAR 2
| PAR 1|
Mode (Databits- Parity-Stop Bits)
---|---|---
0
| 0| 8-Even-1
0| 1|
8-Odd-1
1
| 0| 8-None-2
1| 1|
8-None-1 (Non-Standard)
bits – see TABLE 6. Where (0) is OFF and (1) is ON. If BACnet protocol is selected these dipswitches are irrelevant.
TEST MODE Modbus RTU
There are 5 data values in test mode. Coil 1001, Holding Registers (HR) 1001 and 1002, and the Input Registers (IR) 0003 and 0004 for Temp and RH values. When Coil 1001 is enabled, reading IR 0003 and 0004 will respond with the values in HR 1001 and 1002, other wise they will respond with the actual sensor values. General process for this is to write initial test values to HR 1001 and 1002, Enable Coil 1001 and then read as normal from IR 0003 and 0004. While Coil 1001 is enable, it is possible to write a change of value to IR 1001 and 1002, which will be reflected in the next read from IR 0003 and 0004. When testing completed, disable Coil 1001. The status of Coil 1001 and HR 1001 and 1002 are not persistent between reset/power cycle.
MODBUS RTU MODEL
Modbus data model:
Four (4) primary data tables (addressable registers)
- Discrete Input (read only bit).
- Coil (read / write bit).
- Input register (read only 16 bit word, interpretation is up to application).
- Holding register (read / write 16 bit word).
MODBUS RTU MAP
REFERENCE
|
ADDRESS
| NAME|
DESCRIPTION
---|---|---|---
COILS (CL)
1001
|
1000
|
Test Mode Enable
| 0 = Disable Test Mode. IR3 and IR4 will read with current Sensor Value.
1 = Enable Test Mode. IR3 and IR4 will read with the values stored in HR1001
and HR1002 .
INPUT REGISTER (IR)
1
|
0
|
Sensors Present
| For each bit location: 0 = Sensor not present 1 = Sensor present
Bit 0 – Temperature Sensor Bit 1 – RH sensor
2
|
1
|
Reserved
| N/A
3
| 2| Temperature Sensor Value|
For example, a value of 312 would represent 31.2 Degrees of the units selected in HR1. Signed Integer.
4| 3|
RH Sensor Value
| For Example: A value of 429 would represent 42.9% Relative Humidity.
2001
| 2000| Temperature Range Min|
Temperature range Minimum value (Tenths). Signed Integer.
2002| 2001|
Temperature Range Max
| Temperature range Maximum value (Tenths). Signed Integer.
2003
|
2002
|
RH Range Min
| Relative Humidity range Minimum value (Tenths)
2004
|
2003
|
RH Range Max
| Relative Humidity range Maximum value (Tenths)
9001
|
9000
|
Unsigned Integer Test Value
| Always reads a value of 12345. For testing proper communication and interpretation of values.
9002
|
9001
|
Signed Integer Test Value
| Always reads a value of -12345. For testing proper communication and interpretation of values.
9003 Thru
9006
|
9002 Thru
9005
|
Test String Test Value
| Always reads a string value of “-123.45” (Null terminated). For testing proper communication and interpretation of values.
9007 Thru
9010
|
9006 Thru
9009
| Serial Number|
Non-null terminated character string of the Serial Number. For example, “12345678”
9011 Thru
9016|
9010 Thru
9015
|
Firmware Version
| Non-null terminated character string of the Firmware Version. For
example, “02.00.000.90”
HOLDING REGISTER (HR)
1
|
0
| Temperature Units| Value – Units:
62 – Degrees Celsius 63 – Degrees Kelvin
64 – Degrees Fahrenheit
HOLDING REGISTER (HR)
2
|
1
|
Temperature Offset Value
| Temperature Offset Value (Tenths) Signed Integer.
User can set an offset that will be added to Temperature sensor and reflected
in IR3. Range of -5.0 to 5.0 degrees Celsius/degrees Kelvin (-9.0 to 9.0
degrees Fahrenheit).
For example, writing -16 would add an offset of -1.6 degrees.
3
|
2
|
RH Offset Value
| Relative Humidity Offset (Tenths)
User can set an offset that will be added to RH sensor and reflected in IR4.
Range of -10.0 to 10.0 %RH.
For example, writing -16 would add an offset of -1.6 %RH.
1001
|
1000
|
Test Mode Temperature Value
| User can set what temperature value (Tenths) that would be returned when reading IR3 and Test Mode is Enabled in CL1001. For Example -400 would be -40.0.
1002
|
1001
| Test Mode RH Value| User can set what RH value (Tenths) that would be returned when reading IR4 and Test Mode is Enabled in CL1001.
9001 Thru
9016
|
9000 Thru
9015
|
Device Name
| Device Name, Device Location, and Device Description are user settable
character strings (Null terminated) that can be used to allow for system
customization and device identification.
For example:
Device Name (Modbus 9001 thru 9016) could be set to a system ID: “S2253”
Device Location (Modbus 9017 thru 9048) could be set to: “Building 5, Floor 2,
Duct 3”
Device Description (Modbus 9049 thru 9080) could be set to: “Cold air return
sensor”
9017 Thru
9048
|
9016 Thru
9047
|
Device Location
9049 Thru
9080
|
9048 Thru
9079
|
Device Description
PRODUCT SPECIFICATIONS
Supply Voltage:| 12 to 36 VDC / 24 VAC +/- 10%, 50/60 Hz (Reverse
Polarity Protected)
Current Consumption:| 25 mA maximum (0.67 VA)
Temperature Measurement Range:| 35 to 122°F (1.5 to 50°C)
Temperature Measurement Accuracy:| @ 77°F (25°C): +/- 1.0°F (+/-
0.5°C)
Temperature Calibration Offset:| +/- 9°F (+/- 5°C) (Field Configurable)
RH Measurement Range:| 0 to 100%
RH Measurement Accuracy:| @ 77°F (25°C): +/- 2% from 10 to 90% RH
RH Calibration Offset:| +/- 10% RH (Field Configurable)
Temperature / RH Update Rate:| 4 seconds
Communication Protocol:| BACnet MS/TP or Modbus RTU = Field
Selectable; EIA RS-485
Sensor Addresses:| 0 to 127 (0 (Default – Must be changed if Modbus RTU
is selected protocol);
Field Selectable)
Supported Baud Rates:| Auto Baud (Default, BACnet Only ), 9600, 19200, 38400, 57600, 76800, 115200
(Field Selectable)
Device Instance Number:| 1035000 + Address (example: Address 127 =
1035127; Field Configurable)
Parity (Modbus RTU)| None/Even/Odd = Field Selectable
Stop Bits (Modbus RTU)| 1 or 2 = Field Selectable
Data Bits (Modbus RTU)| 8
Connections / Wire Size:| Screw Terminal Blocks / 16 AWG (1.31 mm2)
to 22 AWG (0.33 mm2)
Terminal Block Torque Rating:| 0.45 lb.-in (0.5 Nm) nominal
Operating Temperature Range:| 35 to 122°F (1.5 to 50°C)
Storage Temperature Range:| -40 to 185°F (-40 to 85°C)
Operating Humidity Range:| 10 to 95% RH, non-condensing
Enclosure Material / UL Flammability:| ABS Plastic / UL94-HB
WARRANTY
The ACI BACnet and Modbus RTU Room Series temperature sensors are covered by
ACI’s Five (5) Year Limited Warranty, which is located in the front of ACI’S
SENSORS & TRANSMITTERS CATALOG or can be found on ACI’s web site:
www.workaci.com.
W.E.E.E. DIRECTIVE
At the end of their useful life the packaging and product should be disposed
of via a suitable recycling center. Do not dispose of with household waste. Do
not burn.
Automation Components, Inc.
2305 Pleasant View Road
| Middleton, WI 53562 Phone:
1-888-967-5224
| Website: workaci.com
References
- Building Automation Sensors | Automation Components, Inc.
- Building Automation Sensors | Automation Components, Inc.