Measurement Setup and Control

The advanced graphical user-interface enables computer-aided control and measurement setup:

  • Measurement planning is based on a stereoscopic image of the device-under-test (DUT)
  • High-precision computer vision reconstruction techniques allow automatic contactless acquisition of high-resolution 3D images of the DUT surface structure before starting the measurement
  • Computer-controlled robotic scanning system enables fully autonomous performance of actual measurements
  • In-scan automation of external measurement and test equipment

Power Density Compliance Testing

The ICEy-mmWave software enables power density compliance testing as close as 2 mm from any surface for frequencies from 10 up to 110 GHz with minimal uncertainty. The module is compatible with all international and national standards, e.g., IEC TC106 AHG10, FCC, etc.

Optimized Measurement Grid


Based on the frequency, modulation, evaluation distance, spatial location, and extent of the transmitter array, the software automatically determines the optimal measurement grid and the separation of the two planes to minimize the total evaluation time.

Post Processing Algorithms

ICEy mmWave module uses pseudo-vector E-field measurements captured with the EUmmWV2 probe to reconstruct all components of the E-field, the H-field, and the power density on the measurement plane. The results can be directly overlayed over the reconstructed 3D model of the DUT.

Python Interface

The Python interface allows the user to customize the testing process with simple or extensive scripts. The test sequence can be fully automated, as can the control of external devices, data post-processing, and even entire QA protocols. 

Test scripts and customer support are provided by SPEAG.

Release September 2017