| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
Talema |
CURR SENSE XFMR 150A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 10A T/H |
1108 |
|
 |
Talema |
CURR SENSE XFMR 1:200 15A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 5A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 15A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 15A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 2500:1 50A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 15A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 2500:1 75A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 750:1 40A SMD |
0 |
|
 |
Talema |
CURR SENSE XFMR 40A T/H |
696 |
|
 |
Talema |
CURR SENSE XFMR 20A T/H |
2328 |
|
 |
Talema |
CURR SENSE XFMR 50A T/H |
0 |
|
 |
Talema |
CURR SENSE XFMR 1:500 80A T/H |
0 |
|
Current Sense Transformers (CSTs) are specialized electromagnetic devices designed to accurately detect and measure alternating current (AC) in electrical circuits. By converting primary current signals into proportional secondary currents or voltages, CSTs enable safe and reliable monitoring for control systems, energy management, and protection circuits. Their importance in modern technology spans power electronics, industrial automation, renewable energy systems, and smart grid infrastructure, where precise current measurement is critical for efficiency optimization and system safety.
| Type | Functional Features | Application Examples |
|---|---|---|
| Open-Circuit Core CST | Low cost, wide current range, moderate accuracy | Smart meters, household appliances |
| Closed-Loop Core CST | High accuracy (0.1%~0.5%), low phase error | Motor drives, precision power supplies |
| Hall Effect Integration | DC/AC hybrid measurement, galvanic isolation | Electric vehicle BMS, energy storage systems |
| High-Frequency CST | Operates >100kHz, minimized core loss | Wireless charging systems, induction heating |
| Miniature Surface-Mount | Compact size, PCB-mountable | Consumer electronics, IoT devices |
Typical CST construction includes: - Magnetic Core: Made from ferrite, silicon steel, or nanocrystalline materials to ensure high permeability and low loss - Primary Winding: Single-turn or multi-turn conductor depending on current range - Secondary Winding: Multi-turn coil with precise turns ratio for signal scaling - Insulation System: Epoxy resin or plastic housing meeting UL/IEC dielectric standards - Termination: Screw terminals, PCB pins, or integrated connectors Advanced models incorporate shielding layers and temperature-compensated materials for enhanced stability.
| Parameter | Typical Range | Significance |
|---|---|---|
| Current Ratio | 100:1 to 5000:1 | Determines scaling factor for measurement |
| Accuracy Class | 0.1% to 1% | Critical for metering and control precision |
| Frequency Range | 50Hz-1MHz | Dictates application suitability |
| Phase Shift | <1 | Affects power factor calculation accuracy |
| Isolation Voltage | 2.5kV-10kV | Ensures safety in high-voltage systems |
| Operating Temp. | -40 C to +125 C | Environmental reliability indicator |
Major industries and equipment utilizing CSTs include:
| Manufacturer | Representative Product | Key Features |
|---|---|---|
| ABB | ACS711 | 2kV isolation, 1% accuracy for EV charging |
| LEM | HASS 25-S | Open-loop sensor with 120A measurement range |
| TE Connectivity | CurrentSense 55512 | Surface-mount design for PCB integration |
| Vacuumschmelze | DIN43858 | High-frequency capability up to 500kHz |
| Allegro Micro | ACS37610 | Digital output with I C interface |
Key considerations for CST selection:
Example: For PV inverter applications, select a closed-loop core CST with >200kHz bandwidth and IP67 rating to ensure reliable operation under fluctuating environmental conditions.
Emerging trends shaping CST development include:
Market forecasts indicate 8.2% CAGR through 2030, driven by renewable energy integration and industrial IoT expansion.