Press Release Summary:
Monitoring resistive or inductive loads to detect current usage on large machines using AC current, ATCR Series flexible loop current transducers consist of sensing coil and True RMS signal conditioner. Each model uses 2 wires to provide power supply and output signal, allowing installer to pass coil around conductors without disconnecting existing wires. Supplied in 35 mm DIN-rail mount enclosure, series offers single range functionality and output magnetically isolated from input.
Original Press Release:
Easily Monitor Current Usage of Loads up to 2000 Amps with ATCR Current Transducers from NK Technologies
Innovative design enables installer to pass the coil around the conductors, without having to disconnect existing wires
SAN JOSE, CA - NK Technologies introduces ATCR Series Current Transducers. ATCR flexible loop current transducers are a perfectly matched and factory calibrated sensing coil and True RMS signal conditioner that use just two wires to provide the power supply and output signal, while eliminating the need to disconnect existing wires. This makes them a uniquely simple and convenient means of monitoring resistive or inductive loads to detect current usage on large machines using AC current up to 2000 amps. They meet UL508 and CE requirements, making them suitable for global application.
"One of the more significant challenges faced by installers needing to monitor current or power is placing a current transformer or other sensing device over existing conductors. Space is always at a premium inside any switchgear or control panel, and the size and shape of the conductors must be known before any sensor is selected," says Philip Gregory, President, NK Technologies. "It is even more difficult when the conductors are large wires or a bus bar and the time available for system de-energizing is limited. Large wire is bent and formed to fit during original installation, often using special tools designed for that purpose. Adding current sensing to a distribution point comprised of bus bar typically forces installers to use expensive and less accurate split core current transformers, or to find a splice plate in the bus assembly where a standard CT can be inserted."
ATCR flexible cable current sensors are specifically designed to address that challenge. With a compact 35 mm DIN-rail mount enclosure, the ATCR series quickly and easily installs over bus bar and single or multiple conductors, wrapping around the conductor using very little space. The cable is connected to a signal conditioner located up to several feet from the conductor to deliver an analog 4-20 mA signal proportional to AC current up to 2000 amps. With ranges of 0 - 500 to 0 - 2000 amps and frequencies to 400 hertz, ATCR transducers are an ideal AC current monitoring solution in a wide range of irrigation pump, submersible pump, main power feed, overhead crane drive, lumber processing, recycling, aluminum processing and material processing applications.
ATCR current transducers feature True RMS technology to deliver accurate monitoring even on distorted waveforms such as VFD or phase angle-fired SCR outputs. Single range functionality eliminates field range selection errors, as well as zero and span pots. Additionally, output is magnetically isolated from the input for safety, which also eliminates insertion losses.
ABOUT NK TECHNOLOGIES
Founded in 1982, NK Technologies designed the first the low-cost solid-state current sensing technology that underlies the industry today.
Today NK Technologies is a leading provider of current sensing, ground fault detection and power monitoring products to the industrial and factory automation markets, with a product portfolio that includes more than 1300 models to satisfy a wide range of specific application needs. As the needs of these markets change, NK Technologies is well-positioned to respond with sophisticated new product designs and improved product functionality necessary to meet those applications.
NK Technologies, 3511 Charter Park Drive, San Jose, CA 95136; 800.959.4014; fax: 408.871.7522; firstname.lastname@example.org; www.nktechnologies.com.