Foreword1 Scope2 References3 Definitions, abbreviations, frequency bands and channels4 General test conditions and declarations5 Format and interpretation of tests6 Transmitter6 Transmitter6.1 Static Layer 1 functions6.2 Modulation accuracy6.3 Mean transmitted RF carrier power and equivalent combined power6.4 Transmitted RF carrier power versus time6.5 Adjacent channel power6.6 Spurious emissions from the transmitter antenna connector6.7 Intermodulation attenuation (GSM 400, GSM 900, ER-GSM 900 and DCS 1800)6.8 Intra Base Station System intermodulation attenuation6.9 Intra Base Station System intermodulation attenuation, MXM 850 and MXM 19006.10 Intra Base Station System intermodulation attenuation, PCS 1900, GSM 850 and GSM 7006.11 Intermodulation attenuation (GSM 700, GSM 850, MXM 850, PCS 1900 and MXM 1900)6.12 Wideband noise and intra BSS intermodulation attenuation in multicarrier operation7 Receivers7 Receivers7.1 Static Layer 1 receiver functions (nominal error ratios)7.2 Erroneous Frame Indication Performance7.3 Static Reference Sensitivity Level7.4 Multipath Reference Sensitivity Level7.5 Reference interference level7.5.1 Test Purpose7.5.2 Test Case7.5.3 Void7.5.4 Conformance requirement7.5.5 Requirements Reference7.6 Blocking Characteristics7.7 Intermodulation characteristics7.8 AM suppression7.9 Spurious emissions from the receiver antenna connector8 Radiated spurious emissions9 Radio link managementA.1 General theoretical methodologyA.2 Detailed theoretical methodologyA.3 Limitations and corrections to the theoretical methodologyA.4 Alternative experimental methodologyA.5 Detailed definition of error eventsB.1 Base Station System Test Equipment (BSSTE)B.2 Measurement set ups for TX intermodulationC.1 GSM 900; Number of samples for testingC.2 DCS 1800; Number of Samples for Testing 7.5.3 Void 3GPP51.021Base Station System (BSS) equipment specificationRadio aspectsRelease 17TS Tools: ARFCN - Frequency Conversion for 5G NR/LTE/UMTS/GSM