CN0048: AD7265 12-Bit, 3-Channel SAR ADC in Differential and Single-Ended Configurations Using the AD8022 High Speed Op Amp

Разработаны. Протестированы. Готовы к интеграции.Узнать больше

Обзор

Преимущества и особенности
  • Converts single ended bipolar signal to differential unipolar signal
  • Low distortion and low noise
  • DC coupled
Используемые продукты
    Applications: 
  • Контрольно-измерительные приборы
Ресурсы для разработчиков
Драйверы устройств
Software, such as C code and/or FPGA code, used to communicate with a component's digital interface.

CIRCUIT FUNCTION AND BENEFITS

These driver circuits are optimized for dc-coupled applications requiring low distortion and low noise performance. They ensure that the maximum AD7265 performance is achieved by providing adequate settling time, low distortion, and low output impedance.

Figure 1. AD8022 DC-Coupled Circuit to Convert a Bipolar Single-Ended Signal into a Unipolar Differential Signal (Simplified Schematic: Decoupling and All Connections Not Shown)

CIRCUIT DESCRIPTION

In applications where the signal source has high impedance, it is recommended to buffer the analog input signal before applying it to the switched capacitor inputs of the AD7265. This isolates the source from the transient currents that appear at the input of the ADC. A dual op amp pair can be used to directly couple a differential signal to one of the analog input pairs of the AD7265. The AD8022 is an ideal choice for the dual op amp and has low power (4 mA/amp), low noise (2.7 nV/√Hz @ 100 kHz), and low distortion (110 dB SFDR @ 200 kHz). The AD7265 has a specified minimum acquisition time of 90 ns with a VDD of 5 V. This is the time from when the part enters track mode until the next conversion is initiated. The op amp selected must have adequate settling time to meet the acquisition time requirements of the AD7265 and achieve the specified performance.

The circuit configurations illustrated in Figure 1 shows how an AD8022 op amp can be used to convert a bipolar single-ended signal into a unipolar differential signal that can be applied directly to the AD7265 analog inputs. The circuit not only performs the single-ended-to-differential conversion but also level shifts the output signal to match the ADC input range. The voltage applied to Point A sets up the common-mode voltage for each half of the AD8022. The 10 kΩ/20 kΩ divider generates this voltage (1.67 V) from the AD7265 2.5 V internal reference. If the on-chip 2.5 V reference on the AD7265 is to be used elsewhere in a system (as illustrated in Figure 1and Figure 2), the output from DCAPA and DCAPB must first be buffered. The OP177 features the highest precision performance of any op amp currently available and is a perfect choice for a reference buffer.

The primary negative feedback path is provided by R2 to R1, and the gain from VIN to VA2 is set by the ratio of R2 to R1. In this case, the ratio is 0.5. The common-mode voltage of 1.67 V at the input of the upper half of the AD8022 produces an output common-mode voltage at VA2 of (1 + R2/R1) × 1.67 V = 2.5 V. Localized feedback supplied by the R3 and R4 resistors produces a signal at VA1 that is 180° out of phase with the signal at VA2.

Figure 2. AD8022 DC-Coupled Circuit for Single-Ended Input Mode of Operation (Simplified Schematic: Decoupling and All Connections Not Shown)

When the input voltage is 0 V, VA1 and VA2 must be 2.5 V. This requires a current in both R3 and R4 of (2.5 V – 1.67 V)/221 Ω = 3.76 mA. The current through R5 is therefore 2 × 3.76 mA = 7.52 mA. Hence, R5 must be equal to R3 and R4 to force the common-mode voltage at VA1 to be 2.5 V.

The AD7265 can have a total of 12 single-ended analog input channels. The analog input range can be programmed to be either 0 V to VREF or 0 V to 2 × VREF . Figure 2 shows a typical connection diagram when operating the ADC in single-ended mode, where an AD8022 is used to drive a pair of discrete channels. The AD8021 is a high performance single op amp that can be used as an alternative to a dual device in very high performance systems. The absolute value of R is flexible, but it must be chosen to achieve the desired bandwidth of the op amp.

In both Figure 1 and Figure 2, the AD8022 operates on dual 12 V supplies while the AD7265 is specified for power supply voltages of 2.7 V to 5.25 V. Care must be taken to ensure that the input maximum input voltage limits of the AD7265are not exceeded during transient or power-on conditions (see the MT-036 Tutorial). In addition, the circuit must be constructed on a multilayer PC board with a large area ground plane. Proper layout, grounding, and decoupling techniques must be used to achieve optimum performance (see the MT-031 Tutorial, the MT-101 Tutorial, and the AD7265 evaluation board layout).

COMMON VARIATIONS

The OP07D, an ultralow offset voltage op amp, is a lower cost alternative to the OP177. It offers similar performance with the exception of the VOS specification.

SAMPLE PRODUCTS USED IN THIS CIRCUIT:

Products Description Available Product Models to Sample
AD7265 Сдвоенный трехканальный 12-разрядный АЦП последовательного приближения с дифференциальным/несимметричным входом, быстродействие 1 MSPS AD7265BSUZ AD7265BCPZ
AD8022 Dual High Speed, Low Noise Op Amp AD8022ARZ AD8022ARMZ
OP177 Прецизионный операционный усилитель

To obtain samples of this part, please contact ADI

沪ICP备09046653号
Оцените схему X
content here.
content here.

Оцените схему

Закрыть