SP9500 Communication Test Set (CTS) is the world first testing platform that fully meets the requirements of 100MHz channel bandwidth (for Sub-6GHz band), carrier aggregation, downlink 8-stream / uplink 4-stream MIMO and other characteristics defined in 3
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SP9500-CTS is a high-performance instrument product independently developed by Beijing Starpoint Technology Co., Ltd. to meet the test requirements of the 5th generation mobile communication.
SP9500 Communication Test Set (CTS) is the world first testing platform that fully meets the requirements of 100MHz channel bandwidth (for Sub-6GHz band), carrier aggregation, SUL, downlink 8-stream / uplink 4-stream MIMO and other characteristics defined in 3GPP R15 version. It can be used as a full functional 5G base station emulation with all wireless test set functions such as connection, coverage performance and RF characteristic analysis. By cascading multiple test instrument, 9500-CTS can fulfill larger scale MIMO and carrier aggregation for future technology evolution.
SP9500-CTS has powerful baseband processing capability and excellent RF module design. By constructing various complex network environments, it can verify the functions and performance of 5G terminals more efficiently.
SP9500-CTS contains a complete 5G protocol stack, which can simulate the end-to-end communication between 5G BS and terminals. It can fully covers the RF Tx/Rx characteristics of terminals defined by 3GPP TS38.508-1, TS38.521-1 (in-band TCs), TS38.521-3 (in-band TCs), TS38.521-4, etc.
Test Case
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Test Case Name
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6.2.1
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UE maximum output power
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6.2.2
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Maximum Power Reduction (MPR)
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6.2.3
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UE additional maximum output power reduction
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6.2.4
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Configured transmitted power
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6.3.1
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Minimum output power
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6.3.2
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Transmit OFF power
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6.3.3.2
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General ON/OFF time mask
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6.3.3.4
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PRACH time mask
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6.3.3.6
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SRS time mask
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6.3.4.2
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Absolute power tolerance
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6.3.4.3
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Power Control Relative power tolerance
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6.3.4.4
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Aggregate power tolerance
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6.4.1
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Frequency error
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6.4.2.1
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Error Vector Magnitude
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6.4.2.2
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Carrier leakage
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6.4.2.3
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In-band emissions
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6.4.2.4
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EVM equalizer spectrum flatness
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6.5.1
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Occupied bandwidth
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6.5.2.2
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Spectrum Emission Mask
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6.5.2.3
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Additional spectrum emission mask
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6.5.2.4.1
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NR ACLR
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6.5.2.4.2
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UTRA ACLR
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7.3.2
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Reference sensitivity power level
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7.4
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Maximum input level
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Test Case
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Test Case Name
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6.2B.1.3
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UE Maximum Output Power for Inter-Band EN-DC within FR1
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6.2B.2.3
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UE Maximum Output power reduction for inter-band EN-DC within FR1
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6.2B.3.3
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UE additional Maximum Output power reduction for inter-band EN-DC within FR1
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6.2B.4.1.3
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Configured Output power level for inter-band EN-DC within FR1
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6.3B.1.3
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Minimum output power for inter-band EN-DC within FR1
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6.3B.2.3
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Transmit OFF Power for inter-band EN-DC within FR1
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6.3B.3.3
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Tx ON/OFF time mask for inter-band EN-DC within FR1
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6.3B.4.3
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PRACH Time Mask for inter-band EN-DC within FR1
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6.4B.1.3
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Frequency Error for inter-band EN-DC within FR1
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6.4B.2.3.1
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Error Vector Magnitude for inter-band EN-DC within FR1
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6.4B.2.3.2
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Carrier Leakage for inter-band EN-DC within FR1
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6.4B.2.3.3
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In-band Emissions for inter-band EN-DC within FR1
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6.4B.2.3.4
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EVM Equalizer Flatness for inter-band EN-DC within FR1
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6.5B.1.3
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Occupied bandwidth for inter-band EN-DC within FR1
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6.5B.2.3.1
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Spectrum emissions mask for Inter-band EN-DC within FR1
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6.5B.2.3.2
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Additional Spectrum emissions mask for Inter-band EN-DC within FR1
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6.5B.2.3.3
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Adjacent channel leakage ratio for inter-band EN-DC within FR1
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7.3B.2.3
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Reference sensitivity for Inter-band EN-DC within FR1
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7.4B.3
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Maximum Input Level for inter-band EN-DC within FR1
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SP9500-CTS can be used as the core instrument or vector signal source to build the RF conformance test system, and also can be used as the system simulator to build protocol and radio resource management conformance testing system, which fully meets the requirements of 5G industry chain including chip enterprises, module manufacturers, antenna manufacturers, network equipment manufacturers, MNOs, as well as various research institutes or communication laboratories. It is an ideal choice for 5G instrument users.
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