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BDHD-BD-AL-HL6-S600 Radio Altimeter
HL6-S600 Radio Altimeter: The world's smallest, lightest, and most accurate radio altimeter, suitable for all types of aerospace aircraft.

BDHD-EZT-GC20 Pod Touch Terminal

BDHD-EZK-IN-G20 Metal Hemispherical Resonator Gyroscope
The hemispherical resonator gyroscope (HRG) is the most promising gyro technology today, with a strong trend toward replacing modern fiber optic, laser, and electrostatic gyroscopes. Its compact size, lightweight design, long service life, and high resistance to environmental factors make it ideal for extensive market applications. A metal hemispherical resonator gyroscope is a device that measures a carrier's angular rate by detecting the precession of standing waves. It uses a symmetric metal shell as the resonant structure, operates via electrostatic excitation and capacitive detection, and responds to input rotation through the Coriolis effect. When the carrier rotates, this effect induces a "rotational" perturbation in the vibrating mode of the metal resonator—the fundamental mechanism by which the HRG senses rotation. The BDHD-EZK-IN-G20 is a metal hemispherical resonator gyroscope characterized by its small size, light weight, high precision, robust shock and vibration resistance, and self-calibration capability. As an essential component for strapdown inertial navigation systems in aerospace, marine, and oil drilling applications, it is indispensable for critical navigation and guidance systems.

BDHD-EZT-DL100 Integrated Image-Data Long-Range Data Link

BDHD-EZT-ZT200 Ground Turntable Antenna System

BDHD-EZK-IN-G50 Quartz Flexure Accelerometer

BDHD-EZT-CM3010 Tri-Axis, Three-Light Gimbal

BDHD-EZT-FC All-in-One Drone Flight Controller

BDHD-EZT-CM3030 Tri-Axis, Three-Light Gimbal

BDHD-EBL-IN-G90A High-Precision Inertial Navigation System
The BDHD-EBL-IN-G90A high-precision inertial navigation system consists of a tri-axis integrated 0.01°/h high-precision fiber optic gyroscope, three high-precision quartz flexure accelerometers, a power module, high-precision I/F conversion circuitry, computer circuitry, and a dual-axis positioning mechanism. It features self-calibration, self-testing, and self-alignment capabilities, making it suitable for applications in smart vehicles, large-caliber guided munitions, geodetic surveying, and more.

BDHD-EBL-IN-L060B Medium-Precision Inertial Navigation System
The BDHD-EBL-IN-L060B medium-precision inertial navigation system consists of three 0.3°/h fiber optic gyroscopes (gyro diameter: 60 mm), three quartz flexure accelerometers, a power module, a high-precision I/F conversion circuit, a computer circuit, and structural components. Across the full operating temperature range, error compensation is applied to the inertial sensors. Power isolation and differential circuit design techniques are employed to effectively enhance accuracy and interference immunity. The system can be configured with an integrated GNSS or receive data from an external GNSS unit to form an integrated Inertial/GNSS navigation system.

BDHD-EBL-IN-L050A Compact Three-Axis Integrated Fiber Optic Gyro INS
BDHD-EBL-IN-L050A Compact Three-Axis Integrated Fiber Optic Gyroscope Inertial Navigation System is built around the company's latest three-axis integrated fiber optic gyroscope (0.3°/h), a three-axis quartz flexure accelerometer, power module, high-precision I/F conversion circuit, computer circuit, and structural components. The navigation computer, I/F conversion circuit, and gyroscope circuit feature deep integration, significantly reducing the system's size and power consumption while enhancing reliability. Comprehensive error compensation across the full temperature range improves accuracy. Key advantages include compact size, excellent stability, and strong adaptability. It supports external GNSS input to form an integrated INS/GNSS navigation system.








