Description.3 Power Supplies 3 Link and Switch Options.3 Setup Conditions ..3 Evaluation Board Interfacing4 Sockets .4 Connectors 4 Switches 4 Software Description 5 Software Requirements.5 Installing the Software..5 Evaluation Software.5 Using the Evaluation Board Interface.5 Frequency Registers.5 Phase Registers 6 Reset Mode .6 Sweep Facility 6 Programming Method6 Sleep Options 6 Sign Bit Output Options6 IOUT Output Options7 Additional Information.7 Evaluation Board Schematic and Artwork.8 Com

The AD7896 is a fast, 12-bit ADC that operates from a single 2.7 V to 5.5 V supply and is housed in small 8-lead PDIP and 8-lead SOIC packages. The part contains an 8 µs successive approximation ADC, an on-chip track-and-hold amplifier, an on-chip clock, and a high speed serial interface.

DESCRIPTION The AD9262 is a dual, 16-bit analog-to-digital converter (ADC) based on a continuous time sigma-delta ( - ) architecture that achieves 86 dB of dynamic range over a 10 MHz input bandwidth. The integrated features and characteristics unique to the and minimize the need for external components. The AD9262 has a resistive input impedance that relaxes the requirements of the driver amplifier. In addition, a 32 oversampled 5th-order continuous time loop filter significantly attenuates out

The ADXL103/ADXL203 are high precision, low power, complete single- and dual-axis accelerometers with signal conditioned voltage outputs, all on a single, monolithic IC. The ADXL103/ADXL203 measure acceleration with a full-scale range of ±1.7 g. The ADXL103/ADXL203 can measure both dynamic acceleration (for example, vibration) and static acceleration (for example, gravity).

The 3B20 is a wideband single-channel signal- onditioning module which interfaces 4-arm AC bridge transducer signals ranging between 1.5mV rms and 150mV rms, providing simultaneous precision voltage and current outputs. In addition, the module provides an AC excitation voltage of 2V rms to 10V rms at frequencies between 1kHz and 10kHz. The module withstands 130V rms at its current output terminals without damage thereby shielding computer-side circuitry from fieldside over-voltage conditions. Th

DESCRIPTIONThe AD7708/AD7718 are complete analog front-ends for lowfrequency measurement applications. The AD7718 contains a24-bit - ADC with PGA and can be configured as 4/5 fully-differential input channels or 8/10 pseudo-differential inputchannels. Two pins on the device are configurable as analoginputs or reference inputs. The AD7708 is a 16-bit version ofthe AD7718. Input signal ranges from 20 mV to 2.56V can bedirectly converted using these ADCs. Signals can be converteddirectly from a tra

Designed for space critical applications, the ADR510 is a low voltage (1.000 V), precision shunt-mode voltage reference in an ultracompact (3 mm - 3 mm) SOT-23-3 package. The ADR510 features low temperature drift (70 ppm/°C), high accuracy (±0.35%), and ultralow noise (4 ?V p-p) performance.

The AD9780/AD9781/AD9783 include pin-compatible, high dynamic range, dual digital-to-analog converters (DACs) with 12-/14-/16-bit resolutions, and sample rates of up to 600 MSPS. The devices include specific features for direct conversion transmit applications, including gain and offset compensation, and they interface seamlessly with analog quadrature modulators such as the ADL5370.

DESCRIPTION The ADXRS613 is a complete angular rate sensor (gyroscope) that uses the Analog Devices, Inc. surface-micromachining process to create a functionally complete and low cost angular rate sensor integrated with all required electronics on one chip. The manufacturing technique for this device is the same high volume BiMOS process used for high reliability automotive The output signal, RATEOUT (1B, 2A), is a voltage proportional to the angular rate about the axis that is normal to the top

specification of an ADC is critical to achieving high levels of signal-to-noise ratios (SNR). (See References 1, 2, and 3). ADCs are available with aperture jitter specifications as low as 60-fs rms (AD9445AD9446 16-bits @ 100 MSPS). Extremely low jitter sampling clocks must therefore be utilized so that the ADC performance is not degraded, because the total jitter is the root-sum-square of the internal converter aperture jitter and the external sampling clock jitter. However, oscillators used f