The amplifier developed by Chalmers researchers is compact, measuring just a few centimeters, yet it can process 10 times larger amounts of data per second than current optical communication systems.

Texas Instruments Inc. (TI) has claimed the industry’s widest-bandwidth high-input-impedance (Hi-Z) buffer amplifier that can support frequency bandwidths up to 3 GHz. Reporting a 10× increase in ...

Texas Instruments (TI) has introduced a high-input-impedance (Hi-Z) buffer amplifier, capable of supporting frequency bandwidths as high as 3 GHz. The wider bandwidth and high slew rates of the BUF802 ...

Kevin Tretter, Product Marketer at Microchip’s Analog Division, opens an Amp-titudes episode with a discussion of speed in relation to amplifiers. In this video, one will understand why slew rate must ...

The continually increasing data traffic across the globe is placing greater demands on the capacity of communication systems. A research team from Chalmers University of Technology, in Sweden, has ...

The amplifier developed by Chalmers researchers is compact, measuring just a few centimeters, yet it can process ten times larger amounts of data per second than current optical communication systems.

With pinpoint focus on video processing and wireless-communications, the OPA695 current-feedback amplifier provides a bandwidth in excess of 450 MHz with a gain of +8 and a slew rate of 4.3 kV/ms. The ...

STMicroelectronics has introduced a low noise, wide bandwidth operational amplifier for high-end industrial, medical, and instrumentation applications. The TSH300 features low input noise of 0.65 ...

National Semiconductor has added three op amps with voltage feedback and rail-to-rail output options. The LMH6622 has an input voltage noise of 1.6nV per root hertz and input current noise of 1.5pA ...

More often than not we see folks on our forums and other forum websites debating how powerful a particular amplifier or receiver is based upon a single test popularized by many print magazines and ...

As you can see, there are a number of variables and the answer is simply not that straight forward. When conducting amplifier measurements, we tend to be a bit more forgiving with receivers than multi ...