In recent years, with the development of new models of China's spacecraft and the advancement of the localisation process, considering the demand for highly integrated and remotely dynamically reconfigurable telemetry equipment, the development of remotely dynamically reconfigurable telemetry encrypted transmitters compatible with multiple modulation regimes is an inevitable trend in the development of telemetry transmission equipment. Differing from the traditional transmitter baseband software architecture of FPGA+DA+channel approach, the transmitter architecture consists of a heterogeneous multi-core FMQL embedded system+RF integrated chip B9361 to form the transmitter baseband. This is combined with the software to achieve the functions of remote dynamically reconfigurable, power-on self-test, working status patrol, and real-time reporting of the working status. This improves the degree of integration of the measurement system and realizes the reconfiguration and sharing of the software and hardware resources to the maximum extent.It also significantly reduces the system volume, weight, power consumption, and cost. This scheme is based on the design ideas of generalization, serialization, and combination, so that the transmitter product has the advantages of high integration, serialization, and controllable components, generalized platform, flexible software configuration, etc. This provides strong technical support for the development of the new generation of telemetry transmitters in the direction of generalization, high performance, and dynamic reconfigurability.