AD7610BCPZ1 AD [Analog Devices], AD7610BCPZ1 Datasheet - Page 22

AD7610BCPZ1

Manufacturer Part Number

AD7610BCPZ1

Description

16-Bit, 250 kSPS, Unipolar/Bipolar Programmable Input PulSAR ADC

Manufacturer

AD [Analog Devices]

Datasheet

1.AD7610BCPZ1.pdf (32 pages)

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AD7610

Power Sequencing

The AD7610 is independent of power supply sequencing and is

very insensitive to power supply variations on AVDD over a wide

frequency range as shown in Figure 31.

Power Dissipation vs. Throughput

The AD7610 automatically reduces its power consumption at

the end of each conversion phase. During the acquisition phase,

the operating currents are very low, which allows a significant

power savings when the conversion rate is reduced (see Figure 32).

This feature makes the AD7610 ideal for very low power, battery-

operated applications.

It should be noted that the digital interface remains active even

during the acquisition phase. To reduce the operating digital supply

currents even further, drive the digital inputs close to the power

rails (that is, OVDD and OGND).

1000

100

Figure 32. Power Dissipation vs. Sample Rate

INT REF

Figure 31. AVDD PSRR vs. Frequency

SAMPLING RATE (kSPS)

100

FREQUENCY (kHz)

EXT REF

1000

100

PDREF = PDBUF = HIGH

10000

1000

100000

1000000

10000

Rev. 0 | Page 22 of 32

Power Down

Setting PD = high powers down the AD7610, thus reducing

supply currents to their minimums as shown in Figure 23. When

the ADC is in power down, the current conversion (if any) is

completed and the digital bus remains active. To further reduce

the digital supply currents, drive the inputs to OVDD or OGND.

Power down can also be programmed with the configuration

that when using the configuration register, the PD input is a

don’t care and should be tied to either high or low.

CONVERSION CONTROL

The AD7610 is controlled by the CNVST input. A falling edge

on CNVST is all that is necessary to initiate a conversion. Detailed

timing diagrams of the conversion process are shown in Figure 33.

Once initiated, it cannot be restarted or aborted, even by the

power-down input, PD, until the conversion is complete. The

CNVST signal operates independently of CS and RD signals.

CNVST

Although CNVST is a digital signal, it should be designed with

special care with fast, clean edges, and levels with minimum

overshoot, undershoot, or ringing.

The CNVST trace should be shielded with ground and a low value

(such as 50 Ω) serial resistor termination should be added close

to the output of the component that drives this line.

For applications where SNR is critical, the CNVST signal should

have very low jitter. This can be achieved by using a dedicated

oscillator for CNVST generation, or by clocking CNVST with a

high frequency, low jitter clock, as shown in Figure 27.

MODE

BUSY

ACQUIRE

Figure 33. Basic Conversion Timing

CONVERT

ACQUIRE

CONVERT

AD7610BCPZ1 AD [Analog Devices], AD7610BCPZ1 Datasheet - Page 22

AD7610BCPZ1

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