AD7812 Analog Devices, AD7812 Datasheet - Page 15

AD7812

Manufacturer Part Number

AD7812

Description

10-Bit, 8-Channel, 350 kSPS, Serial A/D Converter

Manufacturer

Analog Devices

Datasheet

1.AD7811.pdf (19 pages)

Specifications of AD7812

Resolution (bits)

10bit

# Chan

Sample Rate

350kSPS

Interface

Ser

Analog Input Type

Diff-Uni,SE-Uni

Ain Range

(Vref) p-p,Uni (Vref)

Adc Architecture

SAR

Pkg Type

DIP,SOIC,SOP

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enter during automatic power-down. These modes are discussed

in the Power-Up Times section of this data sheet. The timing

diagram in Figure 17 shows how to operate the part in Mode 2.

If the AD7811/AD7812 is powered down, the rising edge of the

CONVST pulse causes the part to power-up. Once the part

has powered up (~1.5 µs after the rising edge of CONVST)

the CONVST signal is brought low and a conversion is initiated

on this falling edge of the CONVST signal. The conversion

takes 2.3 µs and after this time the conversion result is latched

into the serial shift register and the part powers down. There-

fore, when the part is operated in Mode 2 the effective conver-

sion time is equal to the power-up time (1.5 µs) and the SAR

conversion time (2.3 µs).

NOTE: Although the AD7811 and AD7812 take 1.5 µs to

power up after the rising edge of CONVST, it is not necessary

to leave CONVST high for 1.5 µs after the rising edge before

bringing it low to initiate a conversion. If the CONVST signal

goes low before 1.5 µs in time has elapsed, then the power-up

time is timed out internally and a conversion is then initiated.

Hence the AD7811 and AD7812 are guaranteed to have always

powered-up before a conversion is initiated, even if the CONVST

pulsewidth is <1.5 µs. If the CONVST pulsewidth is > 1.5 µs,

then a conversion is initiated on the falling edge.

As in the case of Mode 1 operation, the rising edge of the first

SCLK after the rising edge of RFS enables the serial port of the

AD7811 and AD7812 (see Serial Interface section). If a serial

read is initiated soon after this rising edge (Point “A”), i.e.,

before the end of the conversion, the result of the previous con-

version is shifted out on pin DOUT. In order to read the result

of the current conversion, the user must wait at least 2.3 µs after

power-up or at least 2.3 µs after the falling edge of CONVST,

SCLK

DOUT

RFS

TFS

DIN

CONVST

DOUT

SCLK

DB9

DB8

DB7

POWER-UP

1.5 s

DB6

DB5

DB4

(Point “B”), whichever occurs latest before initiating a serial

read. The serial port of the AD7811 and AD7812 is still func-

tional even though the devices have been powered down.

Because it is possible to do a serial read from the part while it is

powered down, the AD7811 and AD7812 are powered up only

to do the conversion and are immediately powered down at the

end of a conversion. This significantly improves the power

consumption of the part at slower throughput rates—see Power

vs. Throughput section.

SERIAL INTERFACE

The serial interface of the AD7811 and AD7812 consists of five

wires, a serial clock input, SCLK, receive data to clock syn-

chronization input RFS, transmit data to clock synchronization

input TFS, a serial data output, DOUT, and a serial data

input, DIN, (see Figure 18). The serial interface is designed to

allow easy interfacing to most microcontrollers and DSPs,

e.g., PIC16C, PIC17C, QSPI, SPI, DSP56000, TMS320

and ADSP-21xx, without the need for any gluing logic. When

interfacing to the 8051, the SCLK must be inverted. The

Microprocessor/Microcontroller Interface section explains

how to interface to some popular DSPs and microcontrollers.

Figure 18 shows the timing diagram for a serial read and write

to the AD7811 and AD7812. The serial interface works with

both a continuous and a noncontinuous serial clock. The rising

edge of RFS and falling edge of TFS resets a counter that

counts the number of serial clocks to ensure the correct number

of bits are shifted in and out of the serial shift registers. Once

the correct number of bits have been shifted in and out, the

SCLK is ignored. In order for another serial transfer to take

place the counter must be reset by the active edges of TFS and

DB3

DB2

DB1

CURRENT CONVERSION

DB1

DB0

RESULT

DB0

AD7811/AD7812

AD7812 Analog Devices, AD7812 Datasheet - Page 15

AD7812

Specifications of AD7812

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