Enable CAN Flexible Data Rate (CAN FD) in new and existing designs using Microchip’s unique external CAN FD controller
Microchip announces the availability of the industry’s first external CAN Flexible Data Rate (CAN FD)…
Microchip announces the availability of the industry’s first external CAN Flexible Data Rate (CAN FD)…
New Si5381/82/86 Timing Devices Replace Multiple Clock ICs and VCXOs in Radio Access Networks
LEM expands its miniature, integrated circuit transducers range for AC and DC isolated current measurement…
At PCIM 2017, LEM launched six new current transducer series to add to their already…
Industry’s First USB Power Delivery Controller Supporting Both USB PD Rev. 3.0 and USB Type-C™ Authentication Rev 1.0 in a Single Package
In order to lengthen their storage life, fruit and vegetables are often transported inside refrigerated…
microchipDIRECT Debuts Updated Mobile-Optimized E-Commerce Website with Industry-Leading Functionality
The semi-expert techniques for automating amplifier circuit designs calls for a combination of hard specification requirements and judgement margins. A design tool must support these techniques to zero in on the appropriate operational amplifier (op amp) and external components. Figure 1 shows two fundamental circuit examples that implore this type of tool.
Yes, these are simple topologies – but the difficulty is in the detail when selecting amplifiers and external components to meet the performance criteria for the application.
MAX2175 RF to Bits® tuner-based solution reduces cables and simplifies vehicle head unit design
Industry-leading current-shunt monitor improves efficiency and accuracy for motor and solenoid control applications