The UT210E series mini digital clamp meter delivers high reliability, safety, auto ranging, and compact form. It accurately measures small current signals with a VFC startup mode and internal filters that suppress high frequency interference for precise readings. Suitable for VFC driven voltage and current environments, it offers full range overcurrent protection and a distinctive ergonomic design, making it a practical and enhanced electrical measurement instrument.
Key Features
- AC/DC current measurement with 1 mA minimum resolution and 100 A maximum
- True RMS measurement for both AC voltage and current
- Auto ranging for voltage, capacitance, and resistance
- Diode measurement with forward drop up to approx 3.0 V
- ZERO and HOLD functions
- NCV non-contact voltage detection via sensor at the top of the clamp
- VFC function for measuring AC voltage and current with variable frequency interference
- Compact and portable design for convenient use
Specifications Overview
| Model | UT210E |
| AC Current | 2A / 20A / 100A; ±(2.5%+5) |
| DC Current | 2A / 20A / 100A; ±(2%+3) |
| AC Voltage | 2V / 20V / 200V / 600V; ±(1%+3) |
| DC Voltage | 200mV / 2V / 20V / 200V / 600V; ±(0.7%+3) |
| Resistance | 200Ω / 2kΩ / 20kΩ / 200kΩ / 2MΩ / 20MΩ; ±(1%+2) |
| Capacitance | 2nF / 20nF / 200nF / 2µF / 20µF / 200µF / 2mF / 20mF; ±(4%+5) |
| Display | 2000 max |
| Auto Range | Yes |
| Jaw Opening | 17 mm |
| TRMS | Yes |
| Diode Test | Yes; approx 3.0 V |
| NCV | Yes |
| Data Hold | Yes |
| Zeroing | Yes |
| Backlight | Yes |
| Auto Power Off | Yes |
| Low Battery Indication | Yes |
| Input Protection | Yes |
| Input Impedance | ≥10 MΩ |
General Characteristics
- Power: AAA 1.5V × 2
- LCD Size: 39.3 mm × 26.5 mm
- Body Color: Red + Gray
- Weight: 170 g
- Dimensions: 175 mm × 60 mm × 33.5 mm
Package Contents
Includes UT210E meter, batteries, test leads, and standard accessories packaged in a color box and pouch.
Applications
Ideal for electrical maintenance, electronics troubleshooting, field service, and safe measurement in environments with VFC driven signals and interference.