Articles Tagged with ''adi’s''

Analog Devices Inc. (ADI) introduced four new RF amplifier gain blocks which ease the design of high dynamic range communications, defense and instrumentation systems.

Analog Devices Inc. (ADI), a world leader in high-performance semiconductors for signal processing applications and RF ICs, introduced a high performance RMS power detector. Featuring operation up to 10 GHz and a 67 dB measurement range, the ADL5906 TruPwr™ RMS detector is frequency versatile and eliminates the need for external input tuning devices, such as a balun.

Analog Devices Inc. introduced a clock buffer and divider IC that combines high-speed, extremely low jitter (41 fs across the 12-kHz to 20-MHz band) and selectable division capability.

Analog Devices Inc. (ADI), a world leader in high-performance semiconductors for signal processing applications and RF ICs, introduced a dual-channel differential amplifier for driving high speed 12- to 18-bit A/D converters. Featuring a 3dB bandwidth of 4.5 GHz, the ADL5566 differential amplifier is optimized for wideband, high IF (intermediate frequency), low distortion, and noise performance out to 500 MHz.

Analog Devices, Inc. (ADI) introduced the AD9106 quad-channel, 12-bit, and the AD9102 single-channel, 14-bit, 180 MSPS waveform generators, integrating on-chip static random access memory (SRAM) and direct digital synthesis (DDS) for complex waveform generation. ADI’s new D/A converters generate the high-speed, high-dynamic-range, multichannel complex waveforms required in applications such as ultrasound transducer excitation, medical instrumentation, portable instrumentation, signal generators and arbitrary waveform generators.

Analog Devices Inc. (ADI) introduced a multiplexed 24-bit sigma-delta A/D converter that doubles the throughput rate of alternative sigma-delta converters while dissipating less power. Designed for process automation and instrumentation systems where data channel density is increasing and channels must be monitored faster, ADI’s new AD7176-2 A/D converter achieves a 50 kSPS (thousand samples per second) multi-channel scan rate.

Analog Devices Inc. introduced an FPGA mezzanine card (FMC) that incorporates JEDEC JESD204B SerDes (serializer/de-serializer) technology to allow digital and analog designers to simplify high-speed data converter-to-FPGA connectivity.

Analog Devices Inc. (ADI) is teaming up with Wasatch Photonics Inc. at electronica 2012 (November 13-16) to stage a “Name That Beer” demonstration using the Wasatch Photonics Stroker 785L Raman Spectrometer. Incorporating ADI’s A/D converter technology, the compact Raman laser spectrometer will distinguish from among 10 brands of German beer by reading the signature spectrum of each. The demonstration will be held at the Analog Devices booth (Hall A4 Stand 159).

Analog Devices Inc. (ADI), a global leader in high-performance semiconductors for signal-processing applications and leading provider of RF ICs (radio frequency integrated circuits), announced the release of a PLL synthesizer that offers leading phase noise performance. An upgrade to the widely used 4-GHz ADF4153 fractional-N PLL, the new, pin- and software-compatible ADF4153A PLL synthesizer facilitates improved integrated phase noise in a variety of applications including communications infrastructure, pulse-Doppler and FMCW (frequency-modulated continuous-wave) radar applications, test and instrumentation equipment, microwave point-to-point systems, PMR (professional mobile radio), VSATs (very small aperture terminals) and aerospace systems.

Analog Devices Inc. (ADI) introduced an RF clock IC, (radio frequency clock integrated circuit) with the industry’s lowest jitter for communications and instrumentation equipment that requires high-speed data conversion and optimum SNR (signal-to-noise ratio) performance. The AD9525 RF clock IC achieves absolute broadband rms (root-mean square) jitter of 83-fs (1-kHz to 100-MHz offset range), at 245.76 MHz, including jitter contribution from the external VCO (voltage-controlled oscillator).