Modbus RTU, Modbus TCP, Canbus, PLC's and Hmi's.
Call toll Free 1 887 877 4to 20mA or 1 877 486 2062
The Dual Channel RTD Pt100 Temperature Transmitter DAT2066 is a DIN Rail mount Temperature Transmitter with DIP Switch programmability and is designed to accept and transmit two separate channels.
The DAT2066 is accurate to 0.1% full scale and has less than 0.02%/°f thermal drift.
It is possible to set the coarse range and zero with the DIP switches. Then fine tune the output with the potentiometers whilst keeping within the minimum and maximum shown in the table in the data sheet.
The DAT2066 accepts both 2 wires and 3 wire RTD's.
The DAT2066 is in compliance with the standard 89/336/CEE on the Electromagnetic Compatibility.
The DAT2066 is housed in a plastic enclosure of 12.5 mm thickness suitable for DIN rail mounting in compliance with EN-50022 and EN-50035 standards.
The Calibration of zero and span values is made by the ZERO and SPAN potentiometers located on the top of the device.
The DAT2066 is isolated between the two channels to 1000V and eliminates the effects of any ground loops and allows the use of the transmitter in heavy environmental conditions found in industrial applications.
|Input: Channel 1||RTD Pt100. See Data sheet for range.|
|Input: Channel 2||RTD Pt100. See Data sheet for range.|
|Output: Channel 1||4-20mA.|
|Output: Channel 2||4-20mA.|
|Power Supply:||10 to 30 Vdc|
|Temperature rating:||Operative- 4°F +158°F - 20°C +70°C|
|Temperature Storage Temperature - 40°F +185°F - 40°C +85°C.|
|Humidity:||(non condensing) 0-90%.|
|Dimensions:||W x L x H inch 3 1/2 x 4 1/2 x 1/2, mm 90 x 112 x 12.5.|
|Weight:||3 oz 90 g.|
|EMC.||For industrial environments.|
|Immunity: EN 61000-6-2.|
|Emission: EN 61000-6-4.|
|Configuration:||DIP Switch Configurable|
|Input Channel 1|
|RTD 2 wires||Terminals L and G Short to I|
|RTD 3 wires||Terminal L and G Compensation I|
|Output and Power supply||Positive +V N Negative -V M|
|Input Channel 2|
|RTD 2 wires||Terminals H and F Short to E|
|RTD 3 wires||Terminal H and F Compensation E|
|Output and Power supply||Positive +V R Negative -V Q|