Selecting an ADC driver to achieve optimized signal chain performance

Precision high-speed data-acquisition systems used in multichannel applications require state-of-the-art performance. This analog tip covers the specifications that are critical to consider when selecting an ADC driver to optimize signal chain performance. 

The figure shows a high-precision, low-noise, 18-bit data-acquisition signal chain that features ±0.8-LSB integral nonlinearity (INL), ±0.5-LSB differential nonlinearity (DNL), and 99-dB signal-to-noise ratio (SNR). The AD7960 18-bit, 5-MSPS PulSAR differential ADC uses a capacitive digital-to-analog converter (CAPDAC) to provide unprecedented noise and linearity without latency or pipeline delay. It provides the wide bandwidth, high accuracy (100 dB DR), and fast sampling (200 ns) required for multiplexed applications, while significantly reducing power dissipation and cost in multichannel applications.

ADC Driver

The acquisition time of the ADC determines the settling time requirements for the ADC driver. The table shows some specifications that must be considered when selecting an ADC driver. As always, the signal chain performance should be verified on the bench to ensure that the desired performance is achievable.

AD7960 ADC Driver Selection Benchmark

ADC Driver Specifications	General Formula	Minimum Requirements
Bandwidth (f-3db_amp)		40MHz
Slew Rate		100 V/µs
Settling Time	From data sheet	100 ns
SNR		105.5 dB

Notes: N = 18, t_acq = 100 ns, V_{rms_in}² = 5²/2 = 12.5 V², e_{n_amp} = 2 nV/√Hz,  f_{–3dB_ADC} = 28 MHz.

The op amp data sheet usually specifies the settling time as the combined time for linear settling and slewing; the formulas given are first-order approximations assuming 50% for linear settling and 50% for slewing (multiplexed application) using a 5-V single-ended input. 

The ADA4899-1 rail-to-rail amplifier features 600-MHz bandwidth, –117-dBc distortion @ 1 MHz, and 1-nV/√Hz noise. It settles to 0.1% within 50 ns when configured as a unity-gain buffer driving the inputs of the AD7960 with a 5-V differential signal.

著者について

Maithil Pachchigar

Maithil Pachchigarは、アナログ・デバイセズのシステム・アプリケーション・エンジニアです。産業＆マルチマーケット事業部門（マサチューセッツ州ウィルミントン）に所属しています。2010年に入社して以来、高精度のシグナル・チェーン向けソリューションを担当。計測分野、産業分野、ヘルスケア分野のお客様をサポートしています。半導体業界には2005年から携わっており、数多くの技術資料を執筆／共同執筆してきました。インドのセダー・バラブヒ...