Partsassembly
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MDY-71/74 Millimeter Wave Guidance Radar
The MDY-71/74 demonstration radar is a compact millimeter-wave coherent guidance radar that utilizes a phase difference system. It boasts key features including low cost, low power consumption, and high reliability, enabling it to detect and track targets—such as vehicles and vessels—within its beam coverage. Additionally, this radar can provide critical target information like distance and angle, while also supporting situational display functionality.
MFS-01A Radar Signal Emitter Simulator
The Seeker Simulation Radiation Source is designed to replicate the microwave radiation signal characteristics of aircraft-borne radar seekers, and provides simulated radar signals as intercepted and tracked targets for various warning devices. The Seeker Simulation Radiation Source developed by our company features controllable power, flexible system configuration, a wide frequency band, small size, light weight, ease of use, and no preheating requirement. It can be integrated with various test equipment and serve as a payload for UAV (Unmanned Aerial Vehicle) targets. Its signal modulation modes can cover the typical operating modes of terminal guidance radars, and the Seeker Simulation Radiation Source can be categorized into non-coherent simulation radiation sources and coherent simulation radiation sources.
Micro Radio Altimeter MY-2001
The MY-2001 altimeter is a new-generation radar altimeter designed for small missile aircraft; as a compact, full-function radio altimeter that meets aerospace standards, it serves as a key component for longitudinal height channel control and can be widely used in cruise missiles and UAVs to measure altitude relative to the sea or ground. The MY-2001 adopts linear modulation coefficient technology adaptive to height changes and echo signal narrow-band receiving technology to enhance the product’s resistance to active interference, uses coherent local oscillator mixing to achieve superior performance in resisting co-frequency asynchronous interference, employs echo signal spectrum front detection technology to improve tracking accuracy, and follows the three design principles of serialization, standardization, and modularization to ensure good product inheritance; moreover, built on a closed-loop tracking system, it integrates digital control technology, microwave integration technology, and hybrid integration technology to realize product miniaturization.
Microwave Frequency Source
Backed by its seasoned microwave team, process team, and management team, Hangtai Technology has been consistently upgrading the R&D and production capabilities of microwave components. The microwave components developed by this division not only meet the technical requirements of the company’s radar and radio altimeters but also extend their utility to serve societal needs.
Microwave Transceiver Front End of Altitude Simulator
The microwave transceiver front-end of the altitude simulator is designed to match the operating frequencies of both the altimeter and the altitude simulator itself. As a core component of the altitude simulator, this front-end is structured into three key units: a receiving frequency conversion unit, an output frequency conversion unit, and a control unit.
Millimeter Wave Module
Drawing on the proficiency of its experienced microwave team, process team, and management team, Hangtai Technology has been continuously enhancing the R&D and production standards of microwave components. The microwave components developed by this division are capable of not only meeting the requirements of the company’s radar and radio altimeter products but also contributing to societal service through practical applications.
MY-5001B Radio Altimeter for Sea Condition Identification
The MY-5001B radio altimeter is an all-solid-state C-band device featuring a frequency-modulated continuous wave (FM-CW) system, a constant differential beat frequency, and a closed-loop tracking and measurement mechanism. It ensures a constant beat frequency through servo control of the slope of the sawtooth wave that modulates the microwave oscillator, thereby achieving automatic height tracking. This altimeter incorporates a suite of advanced technologies, including narrowband reception, weighted frequency discrimination, equivalent spectrum leading edge detection, gain PID control, instantaneous sensitivity compensation, temperature compensation, horizon frequency selection design, and power silence. These technologies collectively endow it with advantages such as accurate height measurement, stable tracking, adaptability to various terrains, a wide height measurement range, high precision, and strong anti-interference capabilities.