Electrical / Electronic Probes
High Frequency Oscilloscope Compatible Probes measure AC current.
Press Release Summary:
Models MF 300-6-2-10 HF and MF 300-10-2-10 HF High Frequency MiniFlex® Probes feature flexible sensor available in lengths of 6 and 10 in. as well as electronic module. Measuring AC current from 5 Hz to 1 MHz, lightweight units use transformation principle based on air core, and present no load to system under test. Devices are insensitive to DC currents and have mV output proportional to current measured for direct readings on oscilloscopes, DMMs, data loggers, and power or harmonic meters.
Original Press Release:
AEMC® Introduces Its NEW High Frequency Probes
AEMC® introduces its NEW High Frequency Oscilloscope Compatible MiniFlex® Probes
Models: MF 300-6-2-10 HF and MF 300-10-2-10 HF
The High Frequency MiniFlex® Probe is a compact flexible AC current measurement device composed of a flexible sensor and an electronic module. It is designed to measure AC Current from 5Hz to 1MHz. The flexible sensor permits measurements on conductors where standard clamp-on probes could not be used. In particular, it can be installed in confined spaces, places where access is difficult, or even wrapped around irregular shapes. The flexible sensor is available in lengths of 6" and 10".
The High Frequency MiniFlex® Probe is lightweight. It does not use a magnetic core like standard transformers. The transformation principle is based on an air core. It presents virtually no load to the system under test, has a low phase shift and excellent frequency response from 5Hz to 1MHz at -3db, and cannot be damaged by overloads. The probe assembly is insulated for 1000V CAT III; 600V CAT IV. The High Frequency MiniFlex® Probe meets EN 61010 and is CE marked.
The High Frequency MiniFlex® Probe has a mV output proportional to the current measured for direct readings on oscilloscopes, DMMs, data loggers and power or harmonic meters. TRMS measurements are taken when connected to a TRMS meter. The High Frequency MiniFlex® Probe is insensitive to DC currents and only the AC component of the measured signal is measured.
