EMC Test Design introduces a new probe: PI-07 (2 MHz-60 GHz, 2-1000 V/m).
This ultra broadband probe is designed for all RF safety, industrial, military and 5G communication applications. It is used with our RFP-05M meter making a versatile tool for field strength measurements.
It is calibrated in our lab with UK NPL (United Kingdom National Physical Laboratory) traceability.
Shaped Frequency Response Probes: PI-SH-FCC and PI-SH-ICNIRP.
Shaped Frequency Response Probe: PI-SH
PI-SH (ICNIRP or FCC) electric field probe has shaped frequency response per ICNIRP or FCC RF safety standards for occupational and general public exposure.
See the probe Flyer:
EMC Test Design, LLC adds a new Isotropic Ultra Broadband Electric Field Probe
PI-05: 1 MHz- 40 GHz, 2 – 1000 V/m.
Modern design probe PI-05, extends the requirements of most EMC and RF safety standards for industrial, military and radar communication applications.
High overload field strength limit and operation up to 40 GHz makes this probe a versatile measuring tool for all applications including the microwave K-Band. This probe works with all RFP-05 type meters.
EMC Test Design introduces Isotropic Pulsed Electric Field Probe PI-03P 100 MHz-18 GHz:
100 MHz-18 GHz, 70-1400 V/m. Broadband isotropic electric field probe PI-03P measures the pulsed RF field produced by the microwave radars. It has fast sampling capability measuring the field strength of RF bursts (pulses) as short as 1 us (one microsecond). It operates in the frequency range 100 MHz – 18 GHz, covering the test requirements of MIL STD-461 and automotive EMC GM and Ford specifications. See PI-03P Flyer down on the page.
EMC Test Design, LLC introduces a new state of the art magnetic field probe: PI-H1.
EMC Test Design, LLC introduces a new state of the art magnetic field probe: PI-H1. Frequency range 500 KHz- 50 MHz, field range 0.05-20 A/m, meeting the needs of RF safety testing of industrial, lab and communication installations in ISM, MF, HF and VHF bands. This probe eliminates the need for two probes to cover the most important part of the required frequency range, thus making measurements simpler and faster.