The ME7803NR RF Regulatory Test System from Anritsu Corporation supports certified North-American, European, and Asian bands as well as other future regional bands to be deployed (5G NR Bands and 5G NSA mode LTE Bands for LTE Anchor).
For regulatory compliance testing of 5G communications systems, the ME7803NR uses the MT8000A Radio Communication Test Station as a simulated 5G NR base station in combination with a spectrum analyzer and signal generator to implement ARIB/ETSI/FCC-compliant FR1 RF tests. In addition, the measurement efficiency and quality of 5G terminals are assured by the easy-to-operate GUI and built-in calibration function for improved reliability. It is a platform that can perform spurious tests and interference tests, which are difficult for customers to build their own test environment.
The ME7803NR makes it easy to evaluate whether the RF performance of 5G terminals meets regulatory requirements as well as simplifies evaluation of whether radio-waves are being used efficiently or not, helping 5G market penetration.
Anritsu expects the ME7803NR to play an important role in deploying commercial 5G mobile network services by facilitating the spread of 5G terminals.
The ME7803NR supports FR1 RF regulatory compliance tests of 5G NR terminals. It is used with the MT8000A simulating a 5G NR base station, the MT8821C Radio Communication Analyzer operating as an LTE Anchor, and with various other test equipment and dedicated software to implement required 5G RF Regulatory (ARIB/ETSI/FCC) Conducted tests using 5G NR Non-Standalone (NSA) mode call connections.
Customers can configure the ME7803NR test system by adding their own Anritsu standalone test equipment, such as the MT8000A, MT8821C, MS2840A/MS2850A, MG3710E, MG3694C, amongst others, to minimize additional required hardware purchases.
To support common regulatory tests, the MT8000A and MT8821C used by the ME7803NR can share SAR/OTA/EMC tests. Further, a built-in calibration function for use when changing the connection configuration improves measurement stability and measured value reliability.