Aiming for speed with somewhat reduced resolution, Hittite Microwave Corp. recently augmented its lines of low-power 8-to-14-b ADCs operating at lower clock rates with numerous high-speed, lower-resolution ADCs capable of running at sampling rates to 26 GSamples/s. These devices leverage the company’s track-and-hold design patents and advanced packaging capabilities in support of wideband receiver and test-equipment designs through Ku-band frequencies, at operating temperatures from -55 to +85°C.

For example, model HMCAD5831LP9BE is an ADC with integral over-ranging, inhibit, and 1:2 demux circuitry that operates at maximum sampling rates to 26 GSamples/s and typical sampling rates to 20 GSamples/s. It offer 3-b typical resolution for a typical Nyquist input bandwidth of 20 GHz and is supplied in a 64-lead plastic RoHS-compliant 9 x 9 mm SMT package. A data-inhibit function makes it possible to set ADC outputs to zero, and output data can be modulated by an external clock using the XOR CML input port. The ADC’s single-ended RF input can be AC or DC coupled and supports broadband operation. The data converter operates on -5- and -3.3-VDC voltage supplies.

Texas Instruments recently announced a number of single- and dual-channel converters with 12-b resolution and low power consumption. For example, model ADS5402 is a dual-channel device with two 12-b 800-MSamples/s ADCs that support a 1.2-GHz 3-dB input bandwidth. The converter operates with power dissipation of just 1.1 W/channel and boasts an SFDR of -74 dBc at 230 MHz for a 1-V peak-to-peak full-scale input. It operates at a maximum clock rate of 800 MSamples/s and is supplied in a 12 x 12 mm, 196-pin BGA package.

The company also offers a single-channel version, model ADS5401, with just 1.33 W/channel power dissipation and the same SFDR of -74 dBc. It boasts performance for one channel that is similar to that provided by the two-channel model ADS5402. Both are designed for the full industrial operating temperature range of -40 to +85°C. The low-power converters are suitable for microwave receivers, radar systems, satellite communications (satcom) systems, signal intelligence (SIGINT) receivers, and software defined radio (SDR) systems.

Analog Devices, which is known for both its ADCs and DACs, supports a wide range of data converters from audio frequencies through microwave frequencies. As an example, model AD9129 is a high-resolution, 14-b DAC that supports data rates to 2.8 GSamples/s. It is based on a quad-switch architecture that enables operation to 5.6 GSamples/s, with 2x interpolation for generation of multicarrier analog signals through 4.2 GHz.

The DAC has been used in cable-television (CATV) applications requiring many contiguous carriers with wide dynamic range. Based on NMOS semiconductor technology and fabricated on a 0.18-μm silicon CMOS process, the converter operates from +1.8 and -1.5 VDC supplies. The output current can be programmed over a range of 9.5 to 34.4 mA. The DAC includes a dual-port, source synchronous LVDS interface and a frame/parity bit is also included to monitor the integrity of the interface. It also features on-chip delay locked loops (DLLs) to optimize the timing between different clock domains. The AD9129 is supplied in a 160-ball chip-scale BGA package.

To aid designers, many data converter suppliers offer reference designs that provide a starting point for interleaving multiple devices and operating at accelerated clock rates. A 12-b, 2-GSamples/s reference design from Intersil, for example, interleaves four of the company’s model ISLA112P50 12-b, 500-Msamples/s ADCs to achieve the ADC board rate of 2 Gsamples/s. This reference design boasts an SNR of 65.5 dB full scale with an input signal of 190 MHz, and a SFDR of -82 dBc for an input signal of 190 MHz. Many other suppliers of data converters, such as Analog Devices, Linear Technology, Maxim Integrated Products, NXP Semiconductors, and  STMicroelectronics offer reference designs based on both their ADCs and DACs to help guide designers.