TSP 5G NR Transmitter

TSP 5G NR Transmitter

TSP 5G NR Transmitter

TSP Transmitter series is a special instrument for indoor and outdoor signal coverage simulation test and signal interference evaluation test. The main function of the equipment is to simulate the output of continuous wave signal, modulation signal, interference signal and so on, that is, to simulate the pilot signal transmitted by the actual base station. Based on the characteristics of integration of equipment, convenient deployment, high test efficiency and low cost, it simulates and replaces the actual base station equipment in the test system to carry out analog signal.
TSP Transmitter is compact, portable and equipped with large capacity external battery, which is very suitable for field or indoor scene engineering test. The equipment function configuration is flexible, and it can be customized according to the user’s needs to meet different test needs of users. It is commonly used in propagation model correction, coverage evaluation test and the auxiliary design of indoor coverage system.

Category: .
  • Support GSM, TD-SCDMA, WCDMA, LTE, NB-IoT, eMTC, LoRa, 5GNR, CW signal (700MHz-6000MHz) and WGN output
  • Can be applied in Beidou system test as interference source, support sweep interference mode, pulse interference mode, broadband interference mode and narrowband interference mode
  • High power regulation range, single support 0 – 43dbm (20W); adjustment step 0.5dB
  • Modulation bandwidth: 100MHz
  • Can work for 5-8 hours with external battery and is suitable for outdoor complex environment
  • Broadband device,T3919A(700MHz-2700MHz) T3919AS(700MHz-6000MHz),frequency adjust step 10kHz
  • App sets power, frequency and other parameters remotely, which is easy to operate and carry, with an effective operating distance of 10m, so as to reduce personnel radiation injury caused by high-power launch
  • Integrated design, small size (200 x 110 x 230 mm), light weight (4.5kg)
  • The configuration is flexible; the frequency band, power and protocol can be customized according to the user’s requirements

Product features

  • Support the signal emulation output of the existing multisystem network and the Internet of Things
  • Support terminal test applications
  • Large power adjustment range
  • APP remote control and simple deployment

Typical applications

  • Propagation model tuning test
  • Micro base station planing test
  • Static scene loss test
  • Distribution system acceptance test
  • Multi-operator interference evaluation

Support signal emulation of the existing multisystem network and the Internet of Things

A single TSP pilot transmitter meets the needs of CW and modulation signal output of all standard protocols and the protocol of the prevailing Internet of Things, saving the fund investment of customers and bringing conveniences for the user to test various signals.

Signal source for 5G frequency check

TSP transmitter support generate CW signal in 700MHz – 6000MHz. With the accurate power output and 0.5dB output adjust step, it is suitable 5G frequency check.

Large power adjustment range

The dynamic adjustment range of a single instrument is 43dB, meeting test needs of indoor and outdoor scenes.

APP remote control and simple deployment

The transmitter is a kind of engineering test instrument, which should be easy to deploy and operate for tests in various scenes. TSP transmitter is controlled by APP within 10m, facilitating remote operation and avoiding radiation injury caused by radio waves in high-power transmission of signals.

Propagation model tuning

Background: The propagation model is used for describing and reflecting the characteristics of the actual wireless signal propagation environment and rules of signal changes to certain degree via one mathematical mode. It represents the propagation environment of specific scene, and characterizes the radio wave propagation loss of specific environments or propagation paths. It mainly focuses on slow fading caused by shadow effects of barriers on propagation paths. The geographic types and topographies of various countries and regions vary greatly. Some parameters of one model to be applied in various regions must be modified, which is known as propagation model tuning.

Solution: As an simulating signal source, TSP pilot transmitter is able to output CW signals. The signal parametersincluding geographic information are collected by the receiver by means of field testing, and the output data are imported into the planned software to adjust model parameters.

Micro base station planing of indoor distribution system

Background: With building of 4G networks and popularization of intelligent terminals, data services are developed rapidly, and user behaviors of indoor scenes are more intensified. Operators can build indoor distribution systems to win indoor data traffic, improve the operation profits, expand new businesses and maintain the user loyalty. In order to improve the quality and management capability of the indoor distribution system, simplify the building of indoor distribution system, the new indoor distribution system was greatly promoted in 2017 in China, and more micro base stations were built. By means of emulation testing of new indoor distribution system, the layout problems of micro base stations can be solved effectively.
Signal coverage testing is able to accurately quantifying and locating base station to simulate the actual deployment.
CW signal and pilot signal are the most common signals for emulation and performance testing. In most of the indoor scenario, signal can be blocked by obstacles or affected by complex area then cause propagation loss. CW signal testing result often varies compare to actual performance in terms of narrow and non-identical indoor environment that leads to RSSI difference. In contrast, pilot signal behaves identical with the actual signal and can be further evaluate by CINR ratio. Thus pilot signal is the primary requirement for micro base station distribution planning.

Solution: As an simulating signal source, TSP pilot transmitter is able to output modulation signals of operating systems of LTE and other existing networks. The cell signal parameters(Channel, PCI, RSRP, RSRQ, SINR, etc.) are collected by the receiver by means of walk test, and the actual coverage of the base station is simulated to simulate the coverage of base station signals, further confirm the locations and quantity of base stations and provide accurate data for the layout of indoor distribution system.

Static scene loss test

Background: The scenes of indoor distribution system vary. Before the distribution system is designed, the signal attenuation in actual scenes should be understood, such as conference rooms, offices, restaurant, hotels, classrooms, etc. The signal attenuation emulation tests of various scenes can provide calculation reference for the indoor distribution system design and improve the final coverage of the distribution system.

Solution: As an simulating signal source, TSP pilot transmitter is able to output modulation signals of operating systems of LTE and other existing networks. The loss properties of actual signals in special scenes (such as doors, walls, fixed barriers, etc.) can be simulated by means of testing with the receiver at the given point, to provide data for the indoor distribution system design.

Acceptance of traditional indoor distribution system

Background: The cable, passive device and ceiling antenna are used as signal transmission parts of the traditional indoor distribution system. The coverage should be verified in acceptance. At the same time, the conformity of the downlink power attenuation, uplink power attenuation and antenna downlink power to design values should be verified.

Solution: As an simulating signal source, TSP pilot transmitter is able to output modulation signals of operating systems of LTE and other existing networks. Cell signal parameters(such as the Channel, PCI, RSRP, RSRQ, SINR, etc.) are collected by the receiver by means of walk test, and the acceptance of indoor distribution system is carried out based on analysis results of wireless signal coverage. The downlink power attenuation, uplink power attenuation and antenna downlink power are subject to sampling inspection with the handheld power test instrument, to verify the conformity to design values. The compliance of the indoor distribution system with engineering acceptance standards is evaluated based on the wireless test and power test data. Faults of the distribution system are located, in combination with the handheld antenna/feeder test instrument.

Multi-operator interference evaluation

Background: At present, networks are run by various operators. As the stations of operators are concentrated and frequency resources are adjacent to each other, mutual influence indoors and outdoors are unavoidable. Operators can evaluate the influence of other networks by simulating the coverage of competition networks and downloading the service rate, SINR value and other parameters.

Solution: As an simulating signal source, TSP pilot transmitter is able to output modulation signals of operating systems of LTE and other existing networks. RF signal parameters (such as the Channel, PCI, RSRP, RSRQ, SINR, etc.) of each operator are collected by the terminal. Change the channel, power and system of the transmitter, and observe the SINR value of the tested cell on the terminal. Evaluate the influence of competition networks by service testing.

ModelT3919AS (700MHz-6000MHz)T3919A700MHz-2700 MHz)
Applicable Network System
Electrical Characteristic
Output Power(Peak) 0dBm~43dBm(20W)
Frequency Step10kHz
Power Step0.5dB
Power AccuracyTypical:±1dB; Maximum:±1.5 dB
Spectrum ModeCW mode, Pilot mode
Out-of-band Spurious≤-50dBc (beyond the operating frequency of 200kHz)
Second Harmonic≤-15dBc ( Typical)
Phase Noise<-90dBc/Hz @1GHz 20kHz offset
Operating Temperature0 ~ +50℃
Storage Temperature-40°C ~ +70°C
Mechanical Features
Dimension200×110×230 mm (20W)
Weight4.5 kg
RF InterfaceN-type female connector
Power Supply220 V AC;28V DC;max power consumption: 140W
Communication InterfaceWiFi
TSPT-AS013Power Adapter (28V/5A); Max power 140W
TSPT-AS014TP-Link USB WIFI Adapter (TL-WDN5200)
TSPT-AS015Transmitter Control APP
TSPT-AS0015m length with N-type connector(NJ-NJ connect cable SVY-50-5)
TSPT-AS0025dBi Omni directional antenna 870MHz-960 MHz
TSPT-AS0035dBi Omni directional antenna 1710MHz-1990 MHz
TSPT-AS0045dBi Omni directional antenna 2000MHz-2200 MHz
TSPT-AS0055dBi Omni directional antenna 2300MHz-2400 MHz
TSPT-AS0066dBi Omni directional antenna 2500MHz-2700 MHz
TSPT-AS0075dBi Omni directional antenna 3400MHz-3600 MHz
TSPT-AS0085dBi Omni directional antenna 4800MHz-5000 MHz
TSPT-AS009Tripod, to mount antenna for the field test
TSPT-AS010Draw bar box
TSPT-AS011Portable carrying case
TSPT-AS012Battery suite (battery,charger,cable)
TSPT-AS013Power Adapter (28V/5A);max power consumption:140W
TSPT-AS014TP-LINk USB wireless adapter(TL-WDN5200)
TSPT-AS015Transmitter control APP
TSPT-AS0165dBi Omni directional antenna 698-960MHz 1710-2700MHz


For its powerful performance, Transcom TSP Transmitter 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 output power adjustment range, convenient Wi-Fi remote control, and support all the mainstream mobile and IoT signal modulation.

Hundreds of Transcom TSP Transmitter was sold in China. Currently, More than 100 units of pilot signal transmitter holding by Chinese operator China Unicom and China mobile is Transcom product. Reference customer also include Huawei and Datang Telecom.