Analog Devices Advances RF and Microwave Designs from Bits to Antenna and Back at IMS2012
At this years IMS – International Microwave Symposium, Analog Devices, Inc. (ADI), will present the newest members of its portfolio of RF ICs designed to advance radio architectures in a broad array of applications.
Analog Devices will demonstrate a complete line-up of high-performance RF ICs, including data converters, amplifiers, phase-locked loops (PLLs) direct digital synthesis (DDS) ICs, integrated RF ICs, microwave technology as well as a new Software Defined Radio (SDR) FPGA mezzanine card (FMC) that allow engineers to quickly combine high-speed analog and high-performance digital circuitry.
“With a product portfolio of over 1,000 high performance RF ICs, that is complemented by the world’s leading data converters, Analog Devices is the only single source supplier to cover the entire signal chain from bits to antenna and back,” said Peter Real, vice president, Linear and RF Group. “From functional blocks to highly-integrated solutions, our RF devices address the cost, functionality, performance and reliability requirements of an ever-widening range of applications and enable system designers to improve the conversion, conditioning and processing of real-world phenomena.”
Analog devices will be introducing the following new RF Solutions at the IMS 2012 in Booth #1725
The ADF4159 is the industry’s highest performance 13 GHz PLL synthesizer, which achieves breakthrough phase detector operating frequency of 110 MHz and simultaneously consumes less than 100 mW of power, which is 5 times less than competitive solutions. In addition, the ADF4159 contains a 25-bit fixed modulus as well as on-chip functionality to generate highly linear ramp profiles, making it an ideal solution for Frequency Modulated Continuous Wave (FMCW) radar applications, including automotive radar systems, microwave Point-to-Point (PtP) systems, communications instrumentation and test equipment.
The AD9914 and AD9915 DDS ICs are the industry’s fastest 12-bit, direct digital synthesizers for frequency-agile wireless applications. The AD9914 achieves a speed of 3.5 giga samples per second (GSPS), while the AD9915 runs to 2.5 GSPS. Both device cores support advanced digital programmable technology capable of synthesizing frequency-agile, analog output sinusoidal waveforms at up to 1.4 GHz.
The AD9128, dual 16-bit, 1.25 GSPS, high-performance digital-to-analog converter features a JESD204A-compatible high-speed serial input. This 4-lane, 3.125 Gbps, interface greatly simplifies and improves the data connection between the DAC and the FPGA. The AD9128 supports multicarrier generation up to the Nyquist frequency and delivers single-carrier W-CDMA ACLR = 83 dBc @ 122.88 MHz IF, FDAC = 983.04 MSPS.
The new Software Defined Radio FMC board, the FMCOMMS1-EBZ, provides an analog front-end, which can be quickly configured to operate with a variety of compute-intensive FPGA-based applications. When used in conjunction with the Xilinx Zynq® Software-Defined Radio Kit, the FMCOMMS1-EBZ board from Analog Devices enables a variety of wireless communications functions at the physical layer from baseband to RF.
In addition to these products introduced today, Analog Devices will conduct demonstrations of the ADL5324 ½ Watt Driver Amplifier with dynamically adjustable bias and extended temperature range; I/Q RF modulators which achieve breakthrough levels of integration and reduction in board space; JESD204B-compliant high-speed serial interface technology as integrated in a wideband dual A/D converter core; AD9739 RF digital-to-analog converter and more.