TERACOM TST300v2 Precision Temperature Sensor User Manual
- June 12, 2024
- TERACOM
Table of Contents
TST300v2
Modbus RTU temperature sensor
Version 1.8 / April 2021
USER MANUAL
www.teracomsystems.com
Short description
TST300v2 (successor of TST300) is a high accuracy temperature sensor with an
RS-485 interface. The device doesn’t need external power supply, it is powered
through the interface.
The temperature sensor integrates a band-gap temperature sensor element plus
signals processing and provides a fully calibrated digital output. The
temperature sensors are factorycalibrated.
The calibration data is stored in the non-volatile memory. This ensures fully
interchangeable of the sensors without any extra efforts.
The sensor is delivered with one meter standard patch cable with RJ45
connectors. A 19” rack mount kit can be ordered separately.
Features
- RS-485 interface carrying up to 32 nods;
- LED indicator for status of communication;
- Changeable bitrate and another communication parameters;
- Firmware update via the interface.
Applications
- Server room and data centers temperature monitoring and logging.
- High precision temperature monitoring and logging for food and drug storages.
- Environmental quality monitoring and assessment.
- Temperature monitoring in building management systems.
Specifications
The device has following specifications:
-
Physical characteristics
Dimensions: 85 x 35.1 x 23.5 mm
Weight: 40 g -
Environmental limits
Operating temperature range: -20 to 60°C
Operating relative humidity range: 5 to 85% (non-condensing)
Storage temperature range: -20 to 60°C
Storage relative humidity range: 5 to 85% (non-condensing)
Ingress protection: IP20 -
Power requirements
Input Voltage: 4 to 5.5 VDC (from the bus)
Input Current: 2 mA -
Temperature measurements
Accuracy (min): ±0.13 °C (in +20 to +60°C range)
Accuracy (max): ±0.25 °C (in -20 to +60°C range)
Resolution: 0.1 °C -
Warranty
Warranty period: 3 years
Pinout
| Pin Description | Corresponding UTP wires color |
|---|---|
| 1 not connected (most right) | Orange/White Tracer |
| 2 not connected | Orange |
| 3 not connected | Green/White Tracer |
| 4 Line B- | Blue |
| 5 Line A+ | Blue/White Tracer |
| 6 not connected | Green |
| 7 +VDD | Brown/White Tracer |
| 8 GND | Brown |
Installation
A daisy-chained (linear) topology for multiple sensors should be used. UTP/FTP
cables with RJ-45 connectors are used for interconnection. The popular
ANSI/TIA/EIA T568B wiring is used. Standard patch LAN cables are
recommended.
Attention: The last sensor in the chain should
have a terminator installed on the free RJ45 socket.
Installation tips
The location and the mounting position of sensors has a direct effect on the accuracy of monitoring the room humidity and temperature. The tips below will ensure good measuring results:
- Sensor shall be installed about 1.2-1.4 m above the floor;
- Sensor should not be installed next to windows to avoid solar radiation;
- Sensors shall be installed in a place with sufficient air circulation;
- Sensors shall be wall mounted with vent holes up/down to ensure air circulation.
Status indicator
The status of the device is shown by single LED, located on the front panel:
- If the LED blinks on period of 1 second, sensor works properly;
- If the LED blinks on period of 3 seconds, there isn‘t communication with the controller;
- If LED doesn‘t blink, there isn‘t power supply.
Factory default settings
Disconnect the sensor from the bus (switch off the power supply).
Press and hold “config” button. Don’t release the button, connecting the
sensor to the bus (switch on the power supply).
The “status” LED will be ON for 3 seconds and after this will flash for 7
seconds. After the 10-th second the LED will be ON.
Release the button. The sensor will restart with factory default settings.
Firmware update
The firmware of the sensor can be updated with Teracom controller which supports MODBUS RTU or MBRTU-Config software. For more details ask your dealer.
Modbus address table
Register name| R/W| FC| PDU Address
(Decimal)| Logical address (Decimal)| Offset (Decimal| Data size| Default|
Valid values
---|---|---|---|---|---|---|---|---
RS-485 address| R/W| 03/06| 10| 40011| 40001| 16-bit Integer| 1| 1-247
Baud rate | R/W| 03/06| 11| 40012| 40001| 16-bit Integer| 19200| 2400, 4800,
9600,
19200, 38400, 57600
Parity, data, stop bits | R/W| 03/06| 12| 40013| 40001| 16-bit Integer| 1|
1=E81, 2=081, 3=N81
Data order| R/W| 03/06| 13| 40014| 40001| 16-bit Integer| 1| 1=MSWF (MSW, LSW)
2=LSWF (LSW, MSW)
Temperature °C
(MSWF/LSWF)| R| 3| 100| 40101| 40001| 32-bit Float| |
ID 64-49 bits| R| 3| 108| 40109| 40001| 16-bit Integer| |
ID 48-33 bits| R| 3| 109| 40110| 40001| 16-bit Integer| |
ID 32-17 bits| R| 3| 110| 40111| 40001| 16-bit Integer| |
ID 16-1 bits| R| 3| 111| 40112| 40001| 16-bit Integer| |
Sub-family number| R| 3| 112| 40113| 40001| 16-bit Integer| |
FW version| R| 3| 113| 40114| 40001| 16-bit Integer| |
Temperature °F (MSWF/LSWF)| R| 3| 200| 40201| 40001| 32-bit Float| |
Vendor URL| R| 3| 300| 40301| 40001| 64 bytes UTF-8| |
teracomsystems.com
MSWF test value| R| _ 03| 332| 40333| 40001| 32-bit Float| | -9.9(0xC11E6666)
MSWF – Most significant word first – (bits 31 … 16), (bits 15 … 0); LSWF –
Least significant word first – (bits 15 … 0), (bits 31 … 16);
PDU address – Actual address bytes used in a Modbus Protocol Data unit
A “NaN” value is returned for unavailable floating-point values (e.g. in case
of measurement error)
- The settings will take effect after restart of the sensor by power on reset.
Recycling
**** Recycle all applicable material.
Do not dispose of with regular household refuse.
863 Bowsprit Road, Chula Vista,
CA 91914,U.S.A.
Phones: (619) 616 7350
www.logicbusscom