Mixed Signal/Analog

DAC supports all wireless & mobile frequency standards

24th March 2015
Siobhan O'Gorman
0

 

Operating across a 100 to 300MHz band, the AD9154 quad-channel, 2.4GSPS, 16-bit DAC has been released by Analog Devices. Designed for complex IF transmitters, the converter is claimed to be the only device of its kind to feature an on-chip PLL and eight-lane JESD204B interface. 

This combination of features allows designers to use a single device to meet all of their requirements in multicarrier GSM and LTE transmitters designed for wireless macro base stations, point-to-point microwave radio, military radios and radio test equipment. The DAC includes a range of features optimised for complex IF transmit applications, including complex digital modulation, input-signal power detection and gain, phase and offset compensation.

The AD9154 is designed to up-convert a pair of I/Q digital input signals, creating a complex IF signal at the input to a pair of on-chip DAC cores. The device features several interpolation modes, increasing the sampling rate of the digital signal to the Nyquist frequency to enable simpler, less costly transmitter filters following the DAC analogue output. The converter additionally includes digital-signal correction for quadrature modulator up-converters to cancel RF local oscillator feed-through and unwanted side-bands.

The AD9154 was designed with an eight-lane JESD204B interface that simplifies board layout by providing deterministic latency and multi-device synchronisation for radio transmitters that use multiple antennas. This is an increasingly common feature in wireless base stations, radar and military radio communications.

The converter’s outputs are optimised to interface with ADI’s ADRF672x line of RF quadrature modulators, the ADL5375 quadrature modulator, ADM7150 low-dropout linear regulator and the ADF4351 wideband synthesiser with integrated VCO.

Featured products

Product Spotlight

Upcoming Events

View all events
Newsletter
Latest global electronics news
© Copyright 2024 Electronic Specifier