CS5523-AS Cirrus Logic Inc, CS5523-AS Datasheet - Page 16

ADC (A/D Converters) 4-Ch 16-Bit Delta Sigma ADC

CS5523-AS

Manufacturer Part Number

CS5523-AS

Description

ADC (A/D Converters) 4-Ch 16-Bit Delta Sigma ADC

Manufacturer

Cirrus Logic Inc

Datasheet

1.CS5521-ASZ.pdf (56 pages)

Specifications of CS5523-AS

Architecture

Delta-Sigma

Conversion Rate

0.617 KSPs

Input Type

Voltage

Maximum Power Dissipation

500 mW

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

SOIC-8

Minimum Operating Temperature

- 40 C

Lead Free Status / Rohs Status

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mentation amplifier with a gain range setting of

100 mV or less, is typically 100 pA. This is low

enough to permit large external resistors to divide

down a large external signal without significant

loading. Figure 7 illustrates an example circuit. Re-

fer to

high-voltage (>5 V) measurement.

1.1.5 Voltage Reference

The CS5521/22/23/24/28 devices are specified for

operation with a 2.5 V reference voltage between

the VREF+ and VREF- pins of the device. For a

single-ended reference voltage, such as the

LT1019-2.5, the reference voltage is input into the

VREF+ pin of the converter and the VREF- pin is

grounded.

The differential voltage between the VREF+ and

VREF- can be any voltage from 1.0 V up to VA+,

however, the VREF+ cannot go above VA+ and the

VREF- pin can not go below NBV.

±10V

chop clock = 256 Hz

1 MΩ

Voltage

+5 V

Divider

PGIA set for

+ 100 mV

Application Note 158

Figure 7. Input Ranges Greater than 5 V

2.5 V

10 KΩ

BAT85

V ≈ -2.1 V

0.1 μF

NBV

VREF+

VREF-

PGIA

VA+

1N4148

10 μF

10 Ω

Charge Pump

Regulator

ΔΣ ADC

CPD

for more details on

1N4148

0.033 μF

VD+

DGND

Charge Pump

Circuitry

0.1 μF

Figure 8 illustrates the input models for the VREF

pins. The dynamic input current for each of the pins

can be determined from the models shown.

1.2 Overview of ADC Register Structure

and Operating Modes

The CS5521/22/23/24/28 ADCs have an on-chip

controller, which includes a number of user-acces-

sible registers. The registers are used to hold offset

and gain calibration results, configure the chip's

operating modes, hold conversion instructions, and

to store conversion data words. Figure 9 depicts a

block diagram of the on-chip controller’s internal

registers for the CS5523/24.

Each of the converters has 24-bit registers to func-

tion as offset and gain calibration registers for each

channel. The converters with two channels have

two offset and two gain calibration registers, the

converters with four channels have four offset and

four gain calibration registers, and the eight chan-

nel converter has eight offset and eight gain cali-

bration registers. These registers hold calibration

results. The contents of these registers can be read

or written by the user. This allows calibration data

to be off-loaded into an external EEPROM. The

user can also manipulate the contents of these reg-

isters to modify the offset or the gain slope of the

converter.

The converters include a 24-bit configuration reg-

ister of which 17 of the bits are used for setting op-

tions such as the conversion mode, operating power

options, setting the chop clock rate of the instru-

Figure 8. Input Model for VREF+ and VREF- Pins

i = fV

V R E F

≤ 25 m V

f = 3 2.76 8 kH z

CS5521/22/23/24/28

φ C o ars e

φ F in e

C = 10 pF

DS317F8

CS5523-AS Cirrus Logic Inc, CS5523-AS Datasheet - Page 16

CS5523-AS

Specifications of CS5523-AS

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