Aerospace Equipment Application Field

Applications in the aerospace equipment application field provide different products and solutions according to different needs:

IC is the "brain" of the circuit board, which can realize various functions, such as signal processing, data conversion, control logic, storage, etc. ICs can help aerospace equipment achieve smarter control and management. The transistor is the "heart" of the circuit board. It can generate oscillation frequency, provide clock frequency signal, and can also be used as a switch or amplifier. Transistors could help space equipment achieve more efficient power conversion and regulation. A module is an assembly that integrates multiple components, which can simplify circuit design and reduce costs. Modules can help aerospace equipment to achieve more convenient connection and communication. Passive devices are components that do not require an external power source, such as resistors, capacitors, inductors, etc. Passive devices can help aerospace equipment achieve more stable work and lower power consumption.

The requirements of aerospace equipment for electronic components mainly include the following aspects:

High reliability: Space equipment to work stably in a complex space environment for a long time, requiring electronic components to have high reliability, able to resist high temperature, low temperature, vacuum, radiation, mechanical shock, vibration and other stresses, without failure or performance degradation.

High performance: To achieve high-speed, high-precision, high-efficiency signal processing and control, aerospace equipment requires electronic components to have high performance, such as high integration, high speed, high precision, low power consumption, low noise, etc.

High environmental adaptability: aerospace equipment to work or store in harsh environments, requiring electronic components to have corresponding environmental adaptability, able to work normally under extreme temperature, humidity, air pressure and other conditions, not affected by environmental factors.

High security: Aerospace equipment involves national security and interests, requires electronic components to have high security, can prevent interference, theft or destruction by the enemy, does not contain backdoors or malicious code, and ensures information security and equipment integrity.

According to the needs of different aerospace equipment, we provide different products and solutions:

1. For aerospace control systems that require high speed, high precision and high reliability, we provide high-performance, highly integrated, low-power ICs and modules to realize data acquisition, processing, transmission and other functions, and cooperate with cloud services to achieve data analysis and optimization.

2. For space launch systems that require high power, high efficiency and high stability, we provide transistors and modules with high speed, high sensitivity and high withstand voltage to realize power switching, amplification, adjustment and other functions, and cooperate with passive devices to achieve filtering, isolation, protection and other functions.

3. For aerospace observation systems that require high-definition imaging, we provide high-speed, high-sensitivity, high-resolution ICs and modules to realize image acquisition, processing, display and other functions, and cooperate with cloud services to realize data storage and sharing.

Product Solutions:

In communication systems, radio transceiver modules, modems, codecs, amplifiers, filters, mixers, etc. are commonly used.

Radio transceiver module: A circuit board used to transmit and convert radio signals, usually including components such as RF amplifiers, mixers, filters, local oscillators, modems, etc.

Modem: A circuit used to modulate and demodulate a signal, usually including components such as a digital signal processor, analog-to-digital converter, digital-to-analog converter, etc.

Codec: A circuit used to encode and decode a signal, typically including components such as encoders, decoders, and verifiers.

Amplifier: A circuit used to amplify a signal, typically including components such as transistors, resistors, capacitors, etc.

Filter: A circuit used to filter a signal, usually including components such as inductors, capacitors, and resistors.

Mixer: A circuit used to achieve the mixing of signals, usually including components such as transistors and diodes.

In telemetry remote control systems, data acquisition modules, data converters, data processors, data transmitters, etc. are commonly used.

Data acquisition module: A circuit board used to realize the acquisition and conversion of various parameters of the spacecraft, usually including sensors, analog-to-digital converters, data processors and other components.

Data converter: A circuit used to realize the conversion of a data format or encoding method, usually including components such as analog-to-digital converters, digital-to-analog converters, encoders, decoders, etc.

Data processor: A circuit used to implement data processing and operations, usually including components such as microprocessors, memory, logic gates, etc.

Data transmitter: A circuit used to realize data transmission and reception, usually including components such as modems, codecs, amplifiers, filters, etc.

In the guidance countermeasure system, navigation modules, guidance modules, countermeasure modules, etc. are commonly used, which also need to use ic, transistors, modules, passive devices, etc.

Navigation module: a circuit board used to measure and control the position and attitude of the spacecraft, usually including inertial navigation system, satellite navigation system, gyroscope, accelerometer and other components.

Guidance module: a circuit board used to realize the planning and control of the trajectory of the spacecraft, usually including flight control system, flight management system, autopilot and other components.

Countermeasure module: A circuit board used to resist or counter enemy interference or attacks, usually including radar systems, infrared systems, laser systems, jammers, decoy bombs and other components.

In the component system, integrated circuits, sensors, relays, microwave devices, etc. are commonly used. These are basic ic, transistors, modules, passive devices, etc. Including capacitors, resistors, inductors, filters, etc., can be used in various power modules and signal processing modules.

Sensor: A device used to detect and convert physical or chemical quantities, usually including temperature sensors, pressure sensors, photoelectric sensors, magnetoelectric sensors and other components.

Relay: A device used to connect or disconnect a circuit, usually including electromagnetic relays, solid state relays and other components.

Microwave devices: devices used to realize functions such as microwave signal generation, amplification, modulation, filtering, and frequency mixing, usually including components such as microwave tubes, microwave transistors, and microwave diodes.