- Broadband device:700MHz-6GHz;
- Support customized 230MHz(220-240MHz)frequency check;
- Support CW, spectrum test;
- Support simultaneous tests of multi-system and multi- frequency of GSM, WCDMA, FDD/TDD-LTD, NB-IoT, eMTC, 5G NR signals (can be customized accordingly);
- The sweep speed can be adjusted by users, which is suitable for different scene applications, such as high-speed rail, highway, general road and indoor test, etc;
- Support blind scanning function, layer 3 decoding, and the decoding success rate is more than 90% when CINR > 0, which is conducive to improving the accuracy of signal attribution judgment;
- Support data import and export, playback analysis and parameter display, automatically generate special test reports, track charts, statistics and other information;
- Scan frequency automatic test, no need to connect test computer, remote monitoring test status, automatic data back to the server, built-in 8GB data storage space;
Product features
700MHz to 2.7GHz spectrum and multi-system demodulation
Support test NB-IoT/eMTC simultaneously
Support 5G CW test (3.3GHz to 3.6GHz, 4.8GHz to 5GHz)
High-speed measurement for various scenes
Powerful common frequency capabilities
Efficient SIB decoding
Automatic testing
Uplink time slot interference test
Typical applications
Propagation model tuning test
Indoor distribution system emulation test
Frequency check
Network DT optimization test
Operators network coverage comparison analyzing
Interference check
Propagation model tuning
The propagation model correct test is necessary to network planning. When test phone fails as a result of limitations, scanner is required. In the test process, Eagle transmitter is used for transmitting CW or pilot signals, and TSE Scanner, is used for scanning the fading and transmission distance. Data can be directly used for model tuning in planning software.
Solutions: TSE Scanner is used for receiving pilot or CW signals from the transmitter, collecting signal parameters including geographic information by DT testing, and importing data into the planning software to adjust model parameters.
NB-IoT/eMTC test
TSE Scanner support testing narrowband IoT (NB-IoT) and enhanced Machine-Type Communication (eMTC) simultaneously. It is an integrated platform based on all-standard scanner and Eagle LPWAN analysis software. As a third-party test solution, it guaranteed the neutrality of test. TSE Scanner overcomes the disadvantages of conventional test solutions that does not support terminal handover. The instrument can measure and test cells deployed standalone, in-band or in guard band. Support switching to cell with strongest signal coverage in real time. Ultra-fast test speed and very high sensitivity make the instrument suitable for a variety of test environments, including road test.
Solutions: TSE Scanner support NB-IoT/eMTC network coverage test and operator comparison test by scanning selected frequency points or all the frequency points. With TSP Transmitter, TSE Scanner can do NB-IoT/eMTC indoor DAS coverage simulation test.
Micro base station planning test
The propagation model correct test is necessary to network planning. When test phone fails as a result of limitations, scanner is required. In the test process, TSE transmitter is used for transmitting CW or pilot signals, and TSE Scanner, is used for scanning the fading and transmission distance. Data can be directly used for model correction in planning software.
Solutions: TSE Scanner is used for receiving pilot or CW signals from the TSP transmitter, collecting signal parameters data including geographic information by DT testing, and importing data into the planning software to adjust model parameters.
Frequency check
Solutions: The frequency check test should be performed within the planned frequency range before network planning and building, to know whether the frequency range is occupied or interfered. When TSE Scanner is used in the spectrum mode, the specific interference and occupation within the planned frequency range of urban roads can be analyzed based on spectrum, to evaluate whether the frequency range meet the operating requirements
Network DT optimization test
Solution: TSE Scanner can be used for collecting important parameters that cannot be collected by the mobile phone, such as cell parameters outside the planned adjacent cells that cannot be swept by the mobile phone. Thus, strong assistance is provided for the user to rapidly find and solve wireless problems of network coverage, interference and adjacent cells.
Operators network coverage comparison analyzing
Solutions: TSE Scanner is able to obtain network coverage of various operators by means of one test, distinguish the attributes of various operators based on the frequency or MNC, rank the coverage, network structure and interference indexes, evaluate the 4G network coverage and interference indicators of each operator, and demonstrate the problem areas an duty cycles in the form of statistical chart and trajectory chart. Understand the trends of competitors and highlight network optimization.
Interference inspect and eliminate
Solutions: TSE Scanner is able to receive RSSI to indicate the interference. When connected with a beam antenna, interference can be located and inspected. For TD-LTE, the uplink time slot interference testing function of TSE Scanner captures the RB power of the uplink, compare it with the reverse spectrum and approach the interference source by testing multiple points with beam antenna.
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Performance |
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5GNR |
Data mode Measurement mode Detection Capability of the Same Frequency Cell Measuring speed Carrier spacing Dynamic range (CINR) Level Measurement Accuracy Detection sensitivity: RSRP |
PCI, PSS_RP [dBm] ,SSS_RP [dBm], PSS_RQ [dB] ,SSS_RQ [dB], SS_ CINR[dB], RSPBCH_RP [dBm], RSPBCH_RQ [dB]. RSPBCH_CINR [dB], SSB_RP[dBm], SSB_RQ [dB], SSB_CINR [dB], SSB_idx (P-SS/S-SS) & PBCH >7dB >28 points/sec (Single freq. point) 15/30kHz PSS/SSS CINR: -10 to + 40 dB PBCH DMRS CINR: -8 to + 40 dB ±1dB |
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NB-IoT |
Supported band Data mode Measurement rate Sensitivity(RSRP) Common-frequency cell test capability Dynamic range (CINR) @20MHz: P-SCH/S-SCH Dynamic range (CINR) @20MHz: RS IoT deployment support Cell switch |
800MHz, 900MHz, 1800MHz, 2100MHz RSSI, RS, RQ, CINR, Timing, Cell ID, Cyclic Prefix, CFO, Delay Spread ≤1s per single frequency point -135dBm (RSRP@20MHz) 25dB
-20dB to +40 dB -23dB to +40 dB Standalone operation, in-band operation, guard band operation Support real time switch |
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eMTC |
Data mode Measurement rate Sensitivity(RSRP) Common-frequency cell test capability Dynamic range (CINR) @20MHz: P-SCH/S-SCH Dynamic range (CINR) @20MHz: RS Cell switch |
RSSI, RS, RQ, CINR, Timing, Cell ID, Cyclic Prefix, CFO, Delay Spread ≤1s per single frequency point -135dBm (RSRP@20MHz) > 25dB
-20dB to +40 dB -23dB to +40 dB Support real time switch |
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FDD/TD-LTE |
Measurement mode |
P-SCH/S-SCH, RS, and RB |
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Data mode |
RSSI, RS, RQ, CINR, Timing, Cell ID, Cyclic Prefix, CFO, Delay Spread, |
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Channel bandwidth |
1.4 / 3 / 5 / 10 / 15 / 20 MHz |
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Antenna skills |
SISO, MISO, MIMO (4×2) |
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Measurement rate @20MHz |
>40channel/sec |
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SIB decoding success rate |
90% @ CINR > 0 dB |
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Common-frequency cell test capability |
>15 dB |
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Dynamic range (CINR) @20MHz: P-SCH/S-SCH |
-20dB to +40 dB |
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Dynamic range (CINR) @20MHz: RS |
-23 to +40 dB |
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Test sensitivity: RS RP |
-130dBm (RSRP @20MHz) |
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UMTS [WCDMA/HSPA(+)] |
Test mode
Data mode Channel bandwidth Measurement speed SIB decoding rate CPICH detection dynamic range (Ec/Io) Sensitivity |
Top N Pilot
lo, Ec/Io, Aggregate Ec/Io, SIR, Rake Finger Count, Time Off- set, Delay Spread 200 kHz / 3.84 MHz 20 channel/sec 200ms/Single Cell -21dB -110 dBm |
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GSM |
Measurement mode Data mode Channel bandwidth Measurement speed SIB decoding rate Dynamic range Sensitivity |
Color Code BSIC, C/I,RSSI 30 kHz / 200 kHz ≥ 80Channel Decodes/sec 20s/ 95 Carriers; 30s/ 125Carriers +2 dB C/I @ 90% BSIC Detection -114 dBm |
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Power measurement |
CW measurement |
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Measurement rate |
>800 Channel/sec |
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Spectrum measurement |
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Measuring range |
>90dB |
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Measurement rate |
>3G/sec |
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RF Features |
Internal spurious response |
-114dBm |
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Operation level |
-15dBm Max |
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Safety input level |
≤ 10 dBm |
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Frequency accuracy |
± 0.05 ppm (GPS Locked ); ± 0.1 ppm (GPS Unlocked) |
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Physical |
Maximum power (+8 to +16 VDC) |
24W |
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RF operating range: In-Band |
-15dBm Max |
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Temperature range |
Operating: 0°C ~ + 50°C; Storage: – 40°C ~ + 85°C |
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Host data communications interface |
LAN |
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RF input |
RF: SMA Female (50OHm); GPS: Male (50OHm) SMB |
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Weight & size |
2.5kg, 120*100*220mm |
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Model |
Description |
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T2000 Series |
TSP scanner |
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Software/License |
Description |
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TSP-S001 |
GSM |
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TSP-S004 |
WCDMA |
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TSP-S006 |
TD-LTE |
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TSP-S007 |
FDD-LTE |
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TSP-S008 |
NB-IoT |
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TSP-S009 |
e-MTC |
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TSP-H011 |
MIMO |
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TSP-H012 |
Signal Back |
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TSP-H013 |
5G Freqeucny Check |
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TSP-H014 |
5G NR |
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Accessories Model |
Description |
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TSP-AS001 |
Indoor and outdoor general antenna for scanner |
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TSP-AS02 |
GPS antenna |
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TSP-AS03 |
Data Cable (2m) |
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TSP-AS04 |
Battery kit: include battery, charger and cable |
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TSP-AS05 |
Dongles and disk |
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TSP-AS06 |
Carrying Case |
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TSP-AS07 |
Scanner adapter |
Case 1 – Major DT scanner supplier in China
For its powerful performance, Transcom TSE multi-protocol DT scanner has received wide acclaim from customers including operators, base station equipment manufacturers and research institutes. It shows that it supports wide test frequency range, high sensitivity, large test dynamic range, and strong ability to demodulate signal in same frequency.
Hundreds of Transcom TSE multi-protocol DT scanner was sold in China. Currently, More than 60% of DT scanner holding by Chinese Giant operator China Mobile and China Telecom is designed and manufactured by Transcom. Reference customer also include Huawei, ZTE and Datang Telecom.