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Rigid Rogowski Coil Image 1

Rigid Rogowski Coil

Features

  • Working temperature: -20℃~70℃
  • Storage temperature: -40℃~80℃
  • Working humidity: 15~85%RH
  • Measuring range: 1A~10kA
  • Output: 1A, 2mV, or specified by user
  • Frequency bandwidth (-3DB): 10Hz~100kHz
  • Flame retardant rating: UL94 V-0
  • RoHS compliant
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Product Overview

YuanXing Electronics offers a high-precision Rigid Rogowski Coil engineered for stable and reliable AC current measurement in fixed industrial systems. Featuring a non-magnetic air-core design, these sensors eliminate magnetic saturation, ensuring 0.5% accuracy and excellent linearity across a wide dynamic range, from low mA to hundreds of kA. With IP68-rated protection and superior shielding against external magnetic fields, they are ideal for smart meters, power quality analysis, and motor protection. Their compact construction provides long-term stability and easy integration for manufacturers.

Typical Products

Image Part Number Rated Input (A) Turn Ratio Frequency (Hz) Secondary Burden (Ω) Accuracy Class Dimensions (mm) PDF
Rigid Rogowski Coil Image 1 TA1111 5~30 1000:1
2000:1
2500:1 		50 to 400 ≤200 0.1
0.2
0.5 		ID-L-W-H 7.0-22.0-18.0-23.0
Rigid Rogowski Coil Image 2 TA1311 5~80 1000:1
2000:1
2500:1 		50 to 400 ≤800 0.1
0.2
0.5 		ID-L-W-H 7.0-22.0-18.0-23.0
Image Part Number Rated Input (A) Turn Ratio Frequency (Hz) Secondary Burden (Ω) Accuracy Class Dimensions (mm) PDF
Rigid Rogowski Coil Image 3 CTT0150 5-150 1:1000
1:2000
1:3000
1:5000 		50 to 400 50-400 0.1
0.2 		15-58-23-45
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    Frequently Asked Questions

    Honeywell needed a stable and highly accurate way to measure current fluctuations in large commercial buildings. Existing sensors often produced noise and drifted over time, creating errors in smart energy dashboards

    Honeywell needed a stable and highly accurate way to measure current fluctuations in large commercial buildings. Existing sensors often produced noise and drifted over time, creating errors in smart energy dashboards

    Honeywell needed a stable and highly accurate way to measure current fluctuations in large commercial buildings. Existing sensors often produced noise and drifted over time, creating errors in smart energy dashboards

    Honeywell needed a stable and highly accurate way to measure current fluctuations in large commercial buildings. Existing sensors often produced noise and drifted over time, creating errors in smart energy dashboards

    Honeywell needed a stable and highly accurate way to measure current fluctuations in large commercial buildings. Existing sensors often produced noise and drifted over time, creating errors in smart energy dashboards