R&S®CMQ200 Shielding cube

R&S®CMQ200 Shielding cube
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R&S®CMQ200 Shielding cube
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R&S®CMQ200 Shielding cube
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R&S®CMQ200 Shielding cube
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R&S®CMQ200 Shielding cube
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R&S®CMQ200 shielding cube, side view R&S®CMQ200 shielding cube, side view R&S®CMQ200 shielding cube, application image R&S®CMQ200 shielding cube, application image R&S®CMQ200 shielding cube, front view

Key facts

  • Models available for 5G FR2 and FR1 up to 14 GHz.
  • Reduced floor space: fits into 19" racks
  • Cost-efficient for large production lot sizes
  • Specially designed compact antennas and power sensors available
  • Antennas with special mounts and swivel heads

The compact shielding solution for 5G mmWave and UWB RF testing

The R&S®CMQ200 is a compact and fully integrated solution that covers most 5G FR2 and UWB devices in various applications. The drawer concept allows fully automated handling in manufacturing environments. The robust mechanical design ensures millions of test cycles for reliable mass production environments. The flexible cube design covers applications for smart devices, CPEs, RFIC and prototypes. The R&S®CMQ200 has two expansion possibilities, one is ready for 5G and other technologies in the frequency range from 20 GHz to 77 GHz. The other covers UWB and other technologies in the frequency range from 0.3 GHz to 14 GHz.

Features & benefits

Automation

Fully automatic processes are vital to short production cycles. The R&S®CMQ200 is available with an automatic door to automate and speed up opening and closing of the chamber.

R&S®CMQ200
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R&S®CMQ200

Efficient and future-ready

Its outstanding performance, compact design and future-proof concept make the R&S®CMQ200 the ultimate solution for 5G mmWave RF testing from 20 GHz to 77 GHz and for other technologies in the frequency range from 0.3 GHz up to 14 GHz. 

Feedthroughs

Integrated feedthroughs

As an alternative or supplement to radiated RF signals from antennas, the DUT can be subjected to conducted RF signals via feedthroughs for RF cables. The same holds true for guiding conducted RF signals away from the DUT, which emits these signals. The susceptibility and behavior of the DUT can be monitored via USB or D-Sub feedthrough connections, which can also be used to send control commands to the DUT.

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