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Product category: Analogue and Mixed Signal ICs
News Release from: Xignal Technologies | Subject: XT11200 and XT11400 ADC devices
Edited by the Electronicstalk Editorial Team on 25 November 2005

ADC has greater functionality but uses
less power

Following a technology announcement from Xignal during September 2005, the company is now launching the first analogue-to-digital conversion products based on its continuous time delta sigma ADCs.

Following a technology announcement from Xignal during September 2005, the company is now launching the first analogue-to-digital conversion products based on its continuous time delta sigma ADCs These devices consume less than half the power of present best-in-class, high performance ADCs and integrate a lot of additional functionality on-chip at the same time

Based on the company's recently announced breakthrough in Continuous Time Delta Sigma (CTDS) technology, the 12bit (XT11200) and 14bit (XT11400) resolution devices consume only 70mW while operating at 20-40Msample/s datarate.

This is half the power consumption of the nearest best-in-class alternatives and the first time such performance has been available at the sub-100mW power level, and in this instance with increased integration to simplify system design.

These new ADCs eliminate costly and power-hungry antialias filters.

They further simplify system design by providing an on-chip, precision (low jitter) sample clock.

Additionally, the devices are easy to drive, needing no differential input buffer.

XT11x00 ADCs can handle 4V peak-peak input signals while operating from a 1.2V DC supply and they offer exceptional linearity and signal-to-noise (SNR) performance.

The XT11 family uses a fast, third-order continuous time delta sigma modulator, combined with an on-chip digital filter and tuneable loop filter.

These circuit innovations substantially reduce the design effort needed to deploy a high performance data acquisition system.

In addition, CTDS architecture eliminates the need for external anti-aliasing filters allowing the ADC to sample the entire first Nyquist frequency zone (0 to 20MHz) with almost no wasted bandwidth.

Despite offering a power Figure of Merit (FOM) half that of current pipeline ADCs, there is no trade-off in linearity or electrical performance.

The XT11400 has a signal-to-noise ratio (SNR) of 76dB and total harmonic distortion (THD) of -82dB.

The XT11200 turns in an SNR of 71dB and THD of -78dB.

Previous low-voltage ADCs have only been able to handle limited analogue input signal ranges, typically less than the supply voltage.

This works against achieving high SNR and low THD.

Attempts to increase dynamic range have traditionally been at the expense of increased power consumption.

In contrast, Xignal's ADCs can handle 4V peak-peak signal levels - over three times their 1.2V operating voltage.

Accurate clock signals are key to an ADC achieving high dynamic range; errors in clock signals (eg jitter) show up as errors in the ADC conversion process, and consequently a reduction in the SNR of the device.

The XT11 family members utilise a proprietary self-clocking circuit that eliminates the need for an external highly accurate, complex clocking scheme.

The on-chip clock is driven from an inexpensive external crystal (ranging from 13.5 to 27MHz).

An on-chip inductive resonator based PLL generates a clean (low jitter) sample clock that is also brought to an external pin and made available for use as an accurate reference clock for other components on the printed circuit board.

This is ideal for parallel operation of multiple ADCs in multichannel systems.

Conventional pipeline ADC's require sample-and-hold amplifiers comprising distributed switched capacitors as the input stage to the ADC quantiser.

These capacitive stages require an external, fast and high bandwidth differential amplifier to drive the resulting complex impedance of the input stage.

Xignal's CTDS based XT11 family requires no sample and hold circuit to function, but rather uses a simple, current driven (resistive) input stage.

This eliminates the need for expensive external differential drivers, reducing overall system cost, design time and system power.

The XT11400 and XT11200 are pin-compatible and are available in a 6 x 6mm QFN 40 pin package.

The XT11400 is sampling now with production quantities available in Q1, 2006.

Pricing of the XT11400 in quantity of 1000 units is $18.00.

The XT11200 will start sampling in December 2005 with production quantities being available in Q2, 2006.

Pricing for 1000 units of the XT11200 is $9.95.

Easy-to-use evaluation kits for each part will be offered and made available at the time of sampling.

The combination of low power and high dynamic range offered by the XT11 family makes these parts ideal for performance driven applications such as medical imaging, ultrasound, radar-based applications, communication systems, image sensing, and test and measurement.

"The XT11 family of products represents a real breakthrough in fast ADCs".

stated Mark Holdaway, Xignal's Marketing Director.

"Designers need no longer accept the relatively high power associated with pipeline ADCs or take time out to achieve data sheet performance by optimising the design of external input circuits and the sample clock".

"CTDS ADCs like the XT11 make data conversion technology work for the designer and not the other way round".

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