08-11-2024 | Mouser Electronics | Power
Mouser has announced a new eBook in collaboration with Analog Devices, Inc. (ADI), highlighting crucial strategies for optimising power systems. In 'Powering the Future: Advanced Power Solutions for Efficiency and Robustness', subject matter experts from the companies offer in-depth analyses of the most important components, architectures and applications in power systems.
Innovative designers and manufacturers are developing the next technologies in every industry to make our lives smarter, faster, and more efficient. Building reliable and efficient power systems enables designers to lower solution size and cost, minimise energy use, and accelerate time to market.
Chapters in the eBook discuss effective EMI management, reducing ESR, switching power supplies and managing power supply noise with voltage supervisors. Other topics include buck-boost circuits, enhancing system robustness with ideal diodes and eFuses, and leveraging GaN technology for improved efficiency.
ADI has a long history in power management and provides customers with a comprehensive portfolio of solutions, many of which are highlighted in the eBook. The LT3046 linear regulator features ultra-low noise and ultra-high PSRR architecture for powering noise-sensitive applications. The MAX16162 is an ultra-low current, single-channel supervisory IC designed to monitor the power supply voltage, facilitating the target microcontroller or microprocessor to leave the reset state and begin operating.
The LTM8080 is a super low-noise, dual output DC-DC μModule regulator with patented silicon, layout and packaging innovations, specifically designed to power digital loads while lowering switching regulator noise for data converters, RF transmitters, FPGAs, op-amps, transceivers, medical scanners and more. The LT8418 half-bridge GaN driver features integrated top and bottom driver stages, driver logic control, and protections. The driver can be configured into synchronous half-bridge, full-bridge topologies or buck, boost, and buck-boost topologies. The LTC7890/1 synchronous step-down controllers are high-performance, DC-DC devices that drive N-channel synchronous GaN FET power stages from input voltages up to 100V. These controllers offer a solution to challenges traditionally faced when using GaN FETs. Compared to silicon MOSFET solutions, the devices simplify the application design with no protection diodes or additional external components.
