Electronics & Computers

Acceleration Resistant HiK Heat Spreader

As electronic technologies advance in defense and aerospace applications, heat fluxes are becoming larger and more centralized[1,2]. In order to meet the performance specifications of new technologies, thermal solutions must also advance. The push for more capable thermal technologies is evident with the U.S. Air Force Research Laboratory (AFRL) signing an agreement with private companies and contractors for the development of innovative vapor cooling technologies capable of handling high heat fluxes[2].

Posted in: Articles, Aerospace, Electronic Components, Electronics & Computers, Power Management, Power Supplies, Thermal Management, Materials, Metals, Power, Semiconductors & ICs

Understanding Fiber Optic Transceiver Design and Test Rules

The design of avionics systems must balance several factors. First, engineers want to increase the performance of the systems installed in aircraft or spacecraft. Second, they want to reduce the size and weight of the equipment that must be carried. Third, they want to maximize the safety of the in-flight systems and maintain communication between the aircraft or spacecraft and other flight vessels and the command center, regardless of the circumstances.

Posted in: Articles, Aeronautics, Aerospace, Aviation, Defense, Computers, Electronic Components, Electronics, Electronics & Computers, Thermal Management, Mechanical Components, Fiber Optics, Optical Components, Optics, Inspection Equipment, Instrumentation, Measuring Instruments, Monitoring, Test & Measurement, Testing Procedures

Microturbine Propulsion for UAVs

The continued use of reciprocating engines has limited the UAV market’s ability to reach its true growth potential.
Posted in: Articles, Aeronautics, Aerospace, Aviation, Electronic Components, Electronics, Electronics & Computers, Power Management, Power Supplies, Mechanical Components, Power, Power Transmission, Propulsion

Pathfinder Radar ISR and SAR Systems: Tactical Eyes for the Warfighter

Sandia National Laboratories’ (Albuquerque, NM) Radar Intelligence, Surveillance and Reconnaissance (ISR) systems enable a new product paradigm in radar capabilities and modalities. With the ability to shrink sensor size, increase resolution, raise image quality, and advance realtime onboard processing, Sandia has been producing next-generation systems for nearly three decades. Sandia specializes in the full system design of Synthetic Aperture Radar (SAR), Ground Moving Target Indicator (GMTI), target recognition, and other sensor systems for the Department of Defense, other government agencies, and industry partners.

Posted in: Articles, Aeronautics, Aerospace, Aviation, Data Acquisition, Defense, Electronic Components, Electronics, Electronics & Computers, Imaging, Optical Components, Optics, Antennas, RF & Microwave Electronics, Data Acquisition

Preventing Ice Buildup on Electric Aircraft

Afaq Ahmed Abbasi of Northwestern Polytechnical University explains his innovative approach.
Posted in: Articles, Aeronautics, Aerospace, Aviation, Power Management, Thermal Management, Cameras, Imaging, Composites, Materials, Fluid Handling, Mechanical Components, MEMs, Power, Power Transmission

Broadband 1.2- and 2.4-mm Gallium Nitride (GaN) Power Amplifier Designs

The US Army Research Laboratory (ARL) has been working with Raytheon to design efficient, broadband, linear, high-power amplifiers and robust, broadband, low-noise amplifiers for future adaptive, multimodal radar systems. Raytheon has a high-performance, W-band, gallium nitride (GaN) fabrication process and a process design kit (PDK) that ARL used to design low-noise amplifiers, power amplifiers, and other circuits for future radar, communications, and sensor systems. After the first set of ARL and Raytheon designs was submitted for fabrication, test designs of broadband Class A/B power amplifiers were developed. While these designs did not get fabricated in the initial effort, they serve to demonstrate the performance, bandwidth, and capability of this GaN process and could potentially be fabricated in the future.

Posted in: Articles, Aerospace, Defense, Electronic Components, Power Management, Power Supplies, Mechanical Components, RF & Microwave Electronics, Semiconductors & ICs

Underwater Drone Technology

Finding ways to overcome physical limitations so that humans can dive deeper and stay underwater longer has been an ongoing quest. Back in the 15th century, Leonardo Da Vinci drew sketches of a submarine and a robot. Had he thought to combine the two concepts, he would have created a prototype of an unmanned underwater vehicle, or underwater drone. Instead, the world had to wait another five hundred years.

Posted in: Articles, Aeronautics, Aerospace, Aviation, Communications, Defense, Power Management, Power Supplies, Cameras, Manufacturing & Prototyping, Motion Control, Power, Robotics, Sensors, Instrumentation, Transportation

Thermoplastic Composites to Play Enhanced Role in Next-Generation Aerospace Applications

Advanced thermoplastic composites-and their emergence as prominent materials for future aerospace applications–are sparking a flurry of activity from aerospace manufacturers, designers, component producers and formatters.

Posted in: Articles, Aerospace Manufacturing and Machining, Aeronautics, Aerospace, Aviation, Thermal Management, Manufacturing & Prototyping, Composites, Materials, Plastics, Mechanical Components

Understanding the “Black Art” of RF and Microwave Switching

Understanding RF, especially microwave switching, can be a challenge. In many cases, test systems have been compromised because a test engineer did not consider all the components of their test system: instruments, switching, cabling, Mass Interconnect (test fixture interface), fixture design, and so on. Each component has its own set of characteristics. With RF and microwave components, effects including insertion loss, VSWR, bandwidth, and so on all need to be considered as well.

Posted in: Articles, Aerospace, Electronic Components, Electronics, Electronics & Computers, Joining & Assembly, Mechanical Components, RF & Microwave Electronics, Instrumentation, Measuring Instruments, Test & Measurement

A New Approach to Satellite Communications

In the Heinrich Hertz satellite mission, which will be launched in 2020, the DLR Space Administration (German Aerospace Center) plans to develop and operate a German communications satellite. The chief objective of the mission is the scientific validation and testing of payload technologies in space.

Posted in: Articles, Aerospace, Communications, Board-Level Electronics, Electronic Components, Electronics, Electronics & Computers, Imaging, Antennas