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The AC voltage Transducer DAT5023/V is designed to measure the True Root Mean Square (TRMS) value of the AC voltage signal and convert it into a DC voltage or current output signal.
The DIP DIP switch allow the Transducer to program the input and output ranges the DIP-switches are located on the side of the device.
The regulation of Zero and Span values is made by the ZERO and SPAN potentiometers located on the top of device.
The DAT5023/V is accurate to 0.1% full scale and has less than 0.01%/°f thermal drift.
The 1500 Vac isolation between Input, power supply and output eliminates the effects of all ground loops eventually existing and allows the use of the converter in heavy environmental conditions found in industrial applications.
The DAT5023/V provides a power supply on the output side so both active and passive loads can be connected.
The DAT5023/V is in compliance with the standard 89/336/CEE on the Electromagnetic Compatibility.
The DAT5023/V is housed in a plastic enclosure of 27.5 mm thickness suitable for DIN rail mounting in compliance with EN-50022 and EN-50035 standards.
|Input:||AC Voltage0-36 Vac, 0-80 Vac,0-170 Vac,0-370 Vac,0-550 Vac.|
|Output:||Voltage 0-10V, 0-5V, 2-10V, 1-5V.
Current 4-20mA, 0-20mA.
|Power Supply:||18 to 32 Vdc. Reverse polarity protection 60 Vdc.|
|Current Consumption:||Current output 35 mA max. Voltage output 25 mA max.|
|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:||3 1/2" x 4 1/2 " x 1/2", 90 x 112x x 12.5 mm.|
|Weight:||3 oz 90 g.|
|EMC.||For industrial environments.|
|Immunity: EN 61000-6-2.|
|Emission: EN 61000-6-4.|
|Configuration:||PC Configurable and DIP Switch Configurable|
|AC GND||Terminal F|
|0-36 Vac||Terminal E|
|0-80 Vac||Terminal H|
|0-170 Vac||Terminal G|
|0-370 Vac||Terminal L|
|0-550 Vac||Terminal I|
|Voltage||Positive N Negative M|
|Current Passive||Positive N Negative M|
|Current Active||Positive O Negative N|
|Power Supply||+Vdc Q GND1 R|