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Zero Sequence Current Transformers Image 1

Zero Sequence Current Transformers

Applications

  • Current and voltage monitoring
  • Electric leakage prevention device
  • Low current grounding system
  • Relay protection device

Features

  • Low cost
  • High accuracy
  • More than 10 dimensions available
  • Various specifications available
Download Datasheet

Specifications

  • Accuracy class: class
    0.2, 0.5, 1.0, 2.0.
  • Frequency:
    50-2000 Hz
  • Working temperature:
    -20℃ - +50℃ / (optional) -40℃- +85℃
  • Working voltage:
    600V AC
  • Dielectric strength:
    2500V AC/min
  • Impulse voltage:
    5000V (1.2/50μs standard lightning wave)
  • RoHS compliant

Product Overview

YuanXing Electronics Zero Sequence Current Transformers deliver high-precision monitoring for leakage prevention, relay protection, and grounding systems. Featuring solid and split-core configurations for cables and busbars (ZCTA, ZCTSA, ZCTB, ZCTSB series), they support inputs from 10mA to 20A. These transformers provide accuracy classes of 0.2 to 2.0 across a 50-2000 Hz frequency bandwidth. With 2500V AC dielectric strength and 5000V impulse protection, they ensure safety in harsh conditions. Operational from -20°C to +50°C and RoHS compliant, they are essential for manufacturers requiring reliable electronic components.

Typical Products

Image Part Number Rated Input (A) Turn Ratio Frequency (Hz) Secondary Burden (Ω) Accuracy Class Dimensions (mm) PDF
Zero Sequence Current Transformers 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
Zero Sequence Current Transformers 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
Zero Sequence Current Transformers 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

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