June 10, 2013 - NK Technologies introduces the ATH Series AC Current Transducer. The ATH monitors power controlled by phase-angled fired, burst fired or time proportioned silicon-controlled rectifiers (SCRs) in heating applications, without requiring an external current transformer or shorting blocks. Time Integration functionality incorporated in the ATH design provides an output signal directly proportional to the RMS amperage to ensure accuracy regardless of the AC current wave shape. The sensor samples the AC current continuously, updating its own time base when the current returns to the load after a pause. Based on the magnitude of the burst and the time interval between bursts, the sensor output represents the amount of power used by the connected load.
ATH current transducer is ideal for heating applications because it provides faster response time than temperature sensors and is the simplest method to monitor pulsed or chopped wave forms. Unlike current transformers, the design allows the sensor to remain installed over the conductor while the heating circuit is energized, safely, even if there is no load connected to the output terminals. The ATH also is ideal for monitoring variable frequency drive applications because the sensor output is proportional to the RMS current used by the load. The high sample rate allows for a smooth and accurate output regardless of the distortion of the current wave shape created by the drive.
The ATH current transducer installs quickly and easily via a two-screw panel mount or with optional DIN rail brackets, or suspended from the conductor in any position. It is available in three industry standard outputs: 4-20mA, 0-5 VDC and 0-10 VDC. Its split-core case style can be externally powered by 24 VDC. Solid-core models that are externally powered by 24 VAC or DC or 120 VAC will be available in the near future. NK Technologies offers no-cost test and evaluation units to qualifying OEMs.
Visit the Engineering Resources section of NK Technologies website for access to numerous application notes and a technology white paper on current sensing technology.
