AD7170 Analog Devices, AD7170 Datasheet - Page 11

AD7170

Manufacturer Part Number

AD7170

Description

12-Bit Low Power ??? ADC

Manufacturer

Analog Devices

Datasheet

1.AD7170.pdf (16 pages)

Specifications of AD7170

Resolution (bits)

12bit

# Chan

Interface

Ser,SPI

Analog Input Type

Diff-Bip,Diff-Uni

Ain Range

2 V p-p

Adc Architecture

Sigma-Delta

Pkg Type

CSP

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Current page: 11 of 16
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Data Sheet

DATA OUTPUT CODING

The AD7170 uses offset binary coding. Therefore, a negative

full-scale voltage results in a code of 000...000, a zero differential

input voltage results in a code of 100...000, and a positive full-

scale input voltage results in a code of 111...111. The output

code for any analog input voltage can be represented as

where:

N = 12 for the AD7170.

REFERENCE

The AD7170 has a fully differential input capability for the

channel. The common-mode range for these differential inputs

is GND to V

excessive R-C source impedances introduce gain errors. The

reference voltage REFIN (REFIN(+) − REFIN(−)) is V

nominal, but the AD7170 is functional with reference voltages

of 0.5 V to V

current) for the transducer on the analog input also drives the

reference voltage for the part, the effect of the low frequency

noise in the excitation source is removed because the application

is ratiometric. If the AD7170 is used in a nonratiometric

application, a low noise reference should be used.

Recommended 2.5 V reference voltage sources for the AD7170

include the

power references. Also, note that the reference inputs provide

a high impedance, dynamic load. Because the input impedance

of each reference input is dynamic, resistor/capacitor combinations

on these inputs can cause dc gain errors, depending on the output

impedance of the source that is driving the reference inputs.

Reference voltage sources such as those recommended above

(the ADR391, for example) typically have low output

impedances and are, therefore, tolerant to decoupling capacitors

on REFIN(+) without introducing gain errors in the system.

Deriving the reference input voltage across an external resistor

means that the reference input sees a significant external source

impedance. External decoupling on the REFIN(±) pins is not

recommended in this type of circuit configuration.

DIGITAL INTERFACE

The serial interface of the AD7170 consists of two signals: SCLK

and DOUT/ RDY . SCLK is the serial clock input for the device,

and data transfers occur with respect to the SCLK signal. The

INx

is the analog input voltage.

Code = 2

ADR381

N – 1

. The reference input is unbuffered; therefore,

. In applications where the excitation (voltage or

× [(V

and ADR391, which are low noise, low

INx

REF

) + 1]

Rev. A | Page 11 of 16

DOUT/ RDY pin is dual purpose: it functions as a data ready

pin and as a data out pin. DOUT/ RDY goes low when a new

data-word is available in the output register. A 24-bit word is

placed on the DOUT/ RDY pin when sufficient SCLK pulses are

applied. This consists of a 12-bit conversion result followed by

four 0s to generate a 16-bit word. Following this, eight status

bits are output.

RDY : ready bit. This bit is set low to indicate that a conversion

is available.

0: This bit is set to 0.

ERR: This bit is set to 1 if an error occurred during the conver-

sion. An error occurs when the analog input is outside range.

ID1, ID0: ID bits. These bits indicate the ID number for the

AD7170. Bit ID1 and Bit ID0 are set to 0 for the AD7170.

PAT2, PAT1, PAT0: status pattern bits. They are set to 101 by

default. When the user reads the data from the AD7170, a

pattern check can be performed. If the PAT2 to PAT0 bits are

different from their default values, the serial transfer from the

ADC was not performed correctly.

Table 8. Status Bits

RDY

DOUT/ RDY is reset high when the conversion is read. If the

conversion is not read, DOUT/ RDY goes high prior to the data

This ensures that a read operation is not attempted while the

once. The data register is updated for every conversion. So,

when a conversion is complete, the serial interface is reset, and

the new conversion is placed in the data register. Therefore, the

user must ensure that the complete word is read before the next

conversion is complete.

When PDRST is low, the DOUT/ RDY pin is tristated. When

PDRST is taken high, the internal clock requires 1 ms, approx-

imately, to power up. Following this, the ADC continuously

converts. The first conversion requires the complete settling

time (see

taken high and returns low only when a conversion is available.

The ADC then converts continuously, subsequent conversions

being available at 125 Hz.

operation from the AD7170.

Figure 4

ERR

Table 8

). DOUT/

ID1

shows the functions of the status bits.

Figure 3

RDY goes high when PDRST is

ID0

shows the timing for a read

PAT2

PAT1

AD7170

PAT0

AD7170 Analog Devices, AD7170 Datasheet - Page 11

AD7170

Specifications of AD7170

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