EVAL-AD7606SDZ View Datasheet(PDF) - Analog Devices

Part Name

Description

MFG CO.

EVAL-AD7606SDZ

8-/6-/4-Channel DAS with 16-Bit, Bipolar Input, Simultaneous Sampling ADC

Analog Devices 

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AD7606/AD7606-6/AD7606-4

TYPICAL CONNECTION DIAGRAM

Figure 43 shows the typical connection diagram for the AD7606/

AD7606-6/AD7606-4. There are four AVCC supply pins on the

part, and each of the four pins should be decoupled using a 100 nF

capacitor at each supply pin and a 10 μF capacitor at the supply

source. The AD7606/AD7606-6/AD7606-4 can operate with the

internal reference or an externally applied reference. In this

configuration, the AD7606 is configured to operate with the

internal reference. When using a single AD7606/AD7606-6/

AD7606-4 device on the board, the REFIN/REFOUT pin

should be decoupled with a 10 μF capacitor. Refer to the

Internal/External Reference section when using an application

with multiple AD7606/AD7606-6/AD7606-4 devices. The

REFCAPA and REFCAPB pins are shorted together and

decoupled with a 10 μF ceramic capacitor.

The VDRIVE supply is connected to the same supply as the

processor. The VDRIVE voltage controls the voltage value of the

output logic signals. For layout, decoupling, and grounding

hints, see the Layout Guidelines section.

POWER-DOWN MODES

Two power-down modes are available on the AD7606/AD7606-6/

AD7606-4: standby mode and shutdown mode. The STBY pin

controls whether the AD7606/AD7606-6/AD7606-4 are in

normal mode or in one of the two power-down modes.

The power-down mode is selected through the state of the

RANGE pin when the STBY pin is low. Table 7 shows the

configurations required to choose the desired power-down mode.

When the AD7606/AD7606-6/AD7606-4 are placed in standby

mode, the current consumption is 8 mA maximum and power-

up time is approximately 100 μs because the capacitor on the

REFCAPA and REFCAPB pins must charge up. In standby mode,

the on-chip reference and regulators remain powered up, and

the amplifiers and ADC core are powered down.

When the AD7606/AD7606-6/AD7606-4 are placed in shutdown

mode, the current consumption is 6 μA maximum and power-up

time is approximately 13 ms (external reference mode). In shut-

down mode, all circuitry is powered down. When the AD7606/

AD7606-6/AD7606-4 are powered up from shutdown mode,

a RESET signal must be applied to the AD7606/AD7606-6/

AD7606-4 after the required power-up time has elapsed.

Table 7. Power-Down Mode Selection

Power-Down Mode

STBY

Standby

0

Shutdown

0

RANGE

1

0

ANALOG SUPPLY DIGITAL SUPPLY

VOLTAGE 5V1

VOLTAGE +2.3V TO +5.25V

+

10µF

1µF

100nF

100nF

10µF +

EIGHT ANALOG

INPUTS V1 TO V8

REFIN/REFOUT

REFCAPA

REGCAP2

REFCAPB

AVCC VDRIVE

DB0 TO DB15

REFGND

V1

V1GND

V2

V2GND

V3

V3GND

V4

V4GND

V5

V5GND

V6

V6GND

V7

V7GND

V8

V8GND

CONVST A, CONVST B

CS

RD

AD7606

BUSY

RESET

OS 2

OS 1

OS 0

REF SELECT

PAR/SER SEL

AGND

RANGE

STBY

PARALLEL

INTERFACE

OVERSAMPLING

VDRIVE

VDRIVE

1DECOUPLING SHOWN ON THE AVCC PIN APPLIES TO EACH AVCC PIN (PIN 1, PIN 37, PIN 38, PIN 48).

DECOUPLING CAPACITOR CAN BE SHARED BETWEEN AVCC PIN 37 AND PIN 38.

2DECOUPLING SHOWN ON THE REGCAP PIN APPLIES TO EACH REGCAP PIN (PIN 36, PIN 39).

Figure 43. AD7606 Typical Connection Diagram

Rev. 0 | Page 25 of 36

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