cSAR3D V4.0: A Breakthrough in Array System Technology
The new X10 Combiner gives cSAR3D Flat phantoms higher measurement resolution, driving the measurement uncertainty below 30% for any source and extending the frequency range to 10 GHz.
cSAR3D V4.0 marks a major advancement for vector measurement-based array measurement systems: the newly integrated "X10 Combiner", a novel algorithm developed by the IT'IS Foundation that reliably combines multiple randomly shifted individual measurements onto a high-resolution grid, eliminates the physical limitation of the sensor density of fixed arrays by virtually increasing the spatial sampling resolution. As a result, the frequency range of cSAR3D has been extended to 10 GHz and the uncertainty has been reduced to 30% for any source. The timing is perfect as the Federal Communications Commission (FCC) and other regulators have recently opened unlicensed spectrum above 6 GHz and the soon-to-be-published IEC/IEEE Standard 62209-1528 includes SAR measurement procedures up to 10 GHz.
X10 Combiner – novel spatial combining algorithm to give a higher measurement resolution
Extended frequency range up to 10 GHz
Estimation of absorbed power density (epithelial power density) for comparison with new limits in new ICNIRP guidelines and the IEEE C95.1 standard
Even faster measurement time
The user video nicely illustrates these new features and how easy they are to use.
Higher Measurement Resolution
The spatial combining algorithm, called the X10 Combiner, is easy to use and does not require any new equipment. The software guides the user to make multiple measurements with the device at random positions on the cSAR3D Flat. It then automatically determines the shift in the device position from the specific absorption rate (SAR) distribution and uses these shifts to reconstruct the 3D pattern using these high-density measurement points. Thus, the physical resolution can be overcome, allowing measurement of devices having very sharp SAR distributions.
Extended Frequency Range
SPEAG extended the frequency range of DASY6 last year to include the 6 – 10 GHz frequency range and has now done the same for the cSAR3D Flat. This meets the emerging needs of wireless device manufacturers to test Wi-Fi and 5G devices in this frequency range.
No change is needed to the cSAR3D hardware. The miniature sensors inside the phantom have good sensitivity and are electrically small at 10 GHz. The tissue-equivalent medium is already compatible with the requirements for dielectric parameters up to 10 GHz. The only requirement is that the cSAR3D Flat or Quad is re-calibrated to include the 6 – 10 GHz frequency range. Note that SPEAG is now accredited to ISO/IEC 17025 for calibration of cSAR3D Flat and Quad at all frequencies in the 650 MHz – 10 GHz range.
cSAR3D V4.0 leads to a significant accuracy improvement for very localized SAR distributions. The full IEC 62209-3 validation (264 test conditions) has been performed on the cSAR3D Flat using the X10 Combiner as well as single measurements. Additional validation tests have been performed in the 6 – 10 GHz frequency range using the X10 Combiner. The results show that all combined values are within +/-1 dB of the target values indicating that the measurement uncertainty when using the X10 Combiner is less than 30% for any source.
Absorbed power density
Another novelty is that cSAR3D V4.0 also assesses and displays the absorbed power density (also known as epithelial power density in IEEE C95.1) averaged over an area of either 1 cm2 or 4 cm2. These dosimetric limits have been defined by ICNIRP (2020) and IEEE C95.1 (2019) in the frequency range above 6 GHz. It is expected that these new basic restrictions will soon be adopted by regulators.
SPEAG has also improved the measurement speed. The assessment time is now 2.6 s including acquisition, evaluation of 3D field reconstruction, calculation of uncertainty, and graphical output of the results. This also improves throughput for quality assurance testing in factory environments. Wireless device manufacturers have implemented cSAR3D for factory sampling due to its speed and automation features.
cSAR3D V4.0, together with the manual, are available for download here.
SPEAG introduces a new series of tissue simulating liquids that are broad-band based on the environmental friendlier Tween ingredient and fully compliant with the new IEC/IEEE standards allowing ±10% tolerance on the liquid parameters.
The National Research Council Institute for Biodiagnostics (NRC-IBD) has teamed up with SPEAG to offer a unique software platform for magnetic resonance imaging (MRI) scanner design. The new platform seamlessly integrates powerful new tools for radiofrequency (RF) array design and post-processing and is the first software of its kind to combine all the tools needed to design RF-phased arrays into a single user friendly program.
This new product PRE - 10 is a 3 channel voltage divider which extends the operation of existing SPEAG probes for use in very high fields (> 5 kV/m; > 10 kW/kg). It is compatible with all our E-Field, H-field and SAR probes.
The SEMCAD X Team is pleased to announce the release of SEMCAD X V14.2 Aletsch, a major upgrade six months of intense deincorporatingvelopment work. This release offers a range of powerful new features, more robust handling, as well as new customization options.
The relevant SEMCAD X for Win XP/ Win 7 and 32/64bit platforms are available for download.
The new EASY4 software release V4.6 extends the usage to fields with large peak-to-average (PAR) ratios by adaption to the improved probe modulation signal calibration and also includes setting of Access Levels. The changes to the user interface are minimal and old setup and calibration files are still compatible with this version.
A new iSAR2 software release is now available. This release is the result of the popularity of our ultra-fast SAR scanners (iSAR Head and iSAR Flat) and great suggestions from our customers. Version 2.1 of the iSAR software has several new features, including a new multi-iSAR interface, a smart Combiner feature, and full extension of the software for frequencies up to 6 GHz. It also includes enhancements to our existing features, such as an improved Python interface and enhanced control of the CMU200.