Description

The PIA1000 series Optical Fiber Isolated Probes provide outstanding Common-mode Rejection Ratio and isolated voltage. They flexibly work with various attenuation cables, achieving full-scale output for Differential Mode Voltages ranging from ±0.01 V to ±2500 V.

Description

RIGOL Single-ended Probes feature high bandwidth and low noise, ideal for precision electronics and high-frequency use. The RP7000S features a plug-in probe head; PVA8000S supports probe and ground line replacement, features LED lighting, and offers magnetic probe combination for adaptability.

Description

RIGOL Active Differential Probes are engineered for high-frequency solutions, capable of measuring differential and single-ended signals with excellent common-mode rejection. Ideal for RF and digital systems, they ensure unmatched precision in signal integrity tests and high-speed circuit debugging.

Description

RIGOL Current Probes connect directly to BNC inputs and attach to conductors, capturing both DC and AC currents. They offer precise current measurement for applications in power electronics, motor control, and battery testing.

Description

RIGOL logic probes are designed for digital circuits, enabling real-time multi-channel signal capture and analysis. They connect digital signals to RIGOL oscilloscopes, offering high sensitivity and accuracy for effective detection and diagnostics in complex logic systems.

Description

No external power supply is required, simple and cost-effective, suitable for a wide range of daily measurement needs. The PVP series and RP series measure signals from DC to 1.5GHz. RIGOL Passive probes are ideal for various application scenarios from beginners to experts.

Description

RIGOL high-voltage differential probes convert high differential voltages to low voltages for oscilloscope display. The PHA series and RP1000D offer high bandwidth and common-mode rejection, ideal for high-voltage systems, ensuring accurate and safe measurements.

Description

Built on the exclusive SigOFIT™ leading technology, Micsig MOIP Series Optically Isolated Probes boast an extremely CMRR—still as high as 108dB at the 1GHz frequency bandalong with an isolation voltage of up to 85kV and a noise floor of less than 0.45mVrms. its bandwidth ranges from 200MHz to 1GHz, capable of measuring differential mode signals from ±0.01V to ±6250V. It reveals the complete truth of signals within its bandwidth range, serving as the ultimate judge for verifying the authenticity of signals measured by other voltage probes.

The MOIP Series adopts advanced laser power supply technology, utilizing laser for both signal transmission and power delivery (no batteries required, ensuring purer power supply). It supports 24*365 uninterrupted testing and features a standard BNC interface, compatible with oscilloscopes of all brands.

Present True Signal

SigOFIT probe has highest common mode rejection ratio, or CMRR, up to 128dB at 100MHz, over 100dB at 1GHz. It's the ultimate referee of signal fidelity measured by other voltage probes.

Highest Accuracy

As the ultimate referee of signal fidelity, SigOFIT optical-fiber isolated probe delivers highest test accuracy. It has excellent amplitude-frequency characteristics, DC gain accuracy ≤1%, while noise ≤ 0.45mVrms. Zero drift<0.1% (works 5 mins later), gain drift also <1%.

Best Probe for Third-Gen Semiconductor

SiC & GaN device can switch high voltages in a few nanoseconds, the signal may have high-energy high-frequency harmonics.

Even at the highest bandwidth, the SigOFIT probe still have nearly 100dB CMRR, perfectly suppressed the oscillation caused by high-frequency common-mode noise, no redundant components. It's the best choice for 3rd-gen semiconductor test & measurement.

Safe to Test GaN

The test leads of SigOFIT probe are short and with coaxial cable transmission, the input capacitance is as low as 1pF minimum, very safe to test GaN.

Real Optical Isolation Technology

Lasers transmit signals + Power over fiber (no batteries needed, the power supply is more pure), realizes continuous test for 365 days.

Wide Measurement Range

Unlike traditional differential probes can only test high-voltage signals, SigOFIT probe can be used with different attenuator tips to test differential mode signals from ±0.01V to ±6250V, achieve full-range output and very high signal-to-noise ratio.

Efficient & Affordable

Fastest response, can be tested immediately after power-on; AutoZero completed in less than 1 second, ensures accurate signal output in real time.

Applications

• Design of motor drive, power converter, electronic ballast
• Design of GaN, SiC, IGBT Half/Full bridge devices
• Design of inverter, UPS and switching power supply
• Safety test for high voltage, high bandwidth applications
• Power device evaluation
• Current shunt measurements
• EMI & ESD troubleshooting
• Floating measurements

Description

Micsig DP Series High-Voltage Differential Probe offers a bandwidth of 100-300 MHz and a maximum input voltage of 7000 Vpk. With a standard BNC interface, they are compatible with oscilloscopes of most brands. Features include one-button calibration, overload alarm, range power-off memory, dual voltage ranges, and a high-resistance, low-capacitance design to minimize loading. The probe delivers strong amplitude-frequency performance, and a high common-mode rejection ratio.

Command-based programming enables automated testing. 5 MHz bandwidth-limit function helps suppress high-frequency noise, delivering clearer waveforms.

Excellent Bandwidth Flatness

DP series features excellent bandwidth flatness. Within 100 MHz bandwidth, the gain/loss variation is small. It maintains the accuracy of signal test even in high-frequency bandwidth.

High Accuracy, High CMRR

High input impedance and low input capacitance, minimized load effect, greatly improved the accuracy of the differential signal. High common mode rejection capability, able to meet floating measurements of large common mode voltage at high frequencies.

CH1: @ 100KHz, 198.2V, output common mode signal amplitude 144.6mV, CMRR > -63dB

Low Noise

DP700 test results: noise at full bandwidth is 14.59mVrms (20X).

5MHz Bandwidth Limit

When measuring FET switching frequency in most switching power supplies, DP probe effectively eliminates high-frequency noise.

Quick Zero

Short-circuit the test leads, press Zero button, the probe can be zeroed very fast.

Dual Range Selection

Improves signal-to-noise ratio, meet more test requirements.

BNC Interface

Standard BNC interface, work with any oscilloscope.

Overvoltage Alarm

LED flashes, buzzer "beeps" rapidly, indicating an over-range alert.

Compact & Exquisite

Much smaller than traditional differential probes.

Applications

• Floating measurements
• High voltage isolation measurements
• Switching power supply design
• Power converter design
• Inverter, UPS power supply
• Welding, electroplating power supply
• Electronic ballast design
• Motor drive design
• Induction heating, induction cooker
• CRT display design
• Low-voltage electrical appliances
• Electronic power and electric drive experiments

Description

Micsig CP Series features 1% accuracy and 1 mA resolution for precise waveform capture and reliable measurements.A dual-range design covers both small-signal detection and high-current transient analysis, helping engineers optimize their designs. Featuring 5 mm and 20 mm jaw options, one-button degauss/auto-zero, and a built-in overcurrent alarm, the CP Series ensures easy operation and safety. The standard BNC interface is compatible with most oscilloscope brands, making it ideal for new energy and industrial electronics testing.

Excellent Design

Auto Degaussing and Zero: effortless, efficient, and precise.

Overcurrent alarm for safe range switching and reliable protection.

Standard BNC interface compatible with most oscilloscope brands.

HF Current Signal Measurements

Accurate measurement capability on high-frequency signals >20MHz. (CH1 Yellow, measured with the CP1003B).

Same signal completely distorted when measured by low-frequency probe. (CH2 Blue).

Easy to handle hign current measuremnets

It supports the measurement of large currents up to 300Arms and accurately captures AC signals. (The figure on the left shows the measurement of 300Arms high-current signals using the CP3008).

Observe Surge Current

Accurately capture the surge current waveform when the power adapter starts (Measured with the CP503B).

Applications

• Electric vehicle transportation design
• Switching power supply design
• Experiment of electronic engineering
• Semiconductor devices design
• Avionics design
• Inverter/Transformer design
• Electronic ballast design
• Industrial Control / Consumer Electronics design
• Engine driven design
• Power electronics and electric drive experimental design

Description

The Micsig RCP series Rogowski current probe measures AC currents up to 12000 Apk, offers a maximum bandwidth of 30MHz. With nearly zero insertion impedance, the probes minimize interference to the circuit under test. The coils exhibit high voltage resistance (up to 10 kVpk) and support customization of coil cross-sectional diameter, perimeter, and lead length to accommodate complex application scenarios.

It features a standard BNC interface for use with any oscilloscope. Its compact, flexible design easily solves the hard-to-reach part issue, and the coil diameter supports customization to meet more test requirements.

Measure the Id current of MOSFET

The RCP has excellent high-frequency measurement capabilities, easily handles high-speed signals and rapidly changing current waveforms, helping to observe high-frequency harmonic components when measuring the Id current of MOSFETs. (Signal measured with the RCP600XS-80)

Smallest coil cross-section

RCP-XS series coil has a cross-sectional diameter of just 1.6 mm, effortlessly passing through the narrow lead pitch of semiconductor devices such as TO-220 and TO-47.

Most compact flexible design easily solved the hard-to reach part issue, coil diameter support customzied made to meet more test requirements

BNC interface

Standard BNC interface to use on any oscilloscope.

Applications

• Measuring current in motor drives and power quality in VSD, UPS, or SMPS circuits
• Double-pulse testing for pin currents of MOSFET and IGBT chips (SiC, GaN)
• Measurement of load current and high-order harmonic current in power electronics
• Measuring high-frequency sinusoidal, pulsed, or transient currents
• Measuring AC currents in 3-phase supply systems
• Measuring power consumption in semiconductors
• Measurement of 50/60 Hz power frequency current
• Power converter development and diagnostics

Description

Auto & Manual "Zero" function.

Split design, small and exquisite appearance, easy to test.

Directly powered by USB port on oscilloscope, no extra adapter needed.

Compatible with all BNC-connected oscilloscopes, adapters can also work with multimeters.

Applications

Widely used in motor drives, industrial frequency, inverters, power supplies, avionics and other fields.

Description

1. Simple, easy, safe to use.

2. Premium material, durable.

3. Clamp design, no need to disconnect the circuit-under-test.

Applications

Applicable for current, electrical energy, power factor correction devices, motor drivers, inverters, converters, industrial control devices, oscilloscopes and harmonic analyzers, aviation electronic equipment.