CS5522-ASZR Cirrus Logic Inc, CS5522-ASZR Datasheet - Page 15

CS5522-ASZR

Manufacturer Part Number

CS5522-ASZR

Description

IC ADC 24BIT 2CH 20-SSOP

Manufacturer

Cirrus Logic Inc

Datasheet

1.CS5521-ASZ.pdf (56 pages)

Specifications of CS5522-ASZR

Number Of Bits

Data Interface

Serial

Number Of Converters

Power Dissipation (max)

14.8mW

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-SSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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1.1.3 Analog Input Span Considerations

The CS5521/22/23/24/28 is designed to measure

full-scale ranges of 25 mV, 55 mV, 100 mV, 1 V,

2.5 V, and 5 V. Other full scale values can be ac-

commodated by performing a system calibration

within the limits specified. See the Calibration sec-

tion for more details. Another way to change the

full scale range is to increase or to decrease the

voltage reference to a voltage other than 2.5 . See

the Voltage Reference section for more details.

Three factors set the operating limits for the input

span. They include: instrumentation amplifier satu-

ration, modulator 1’s density, and a lower reference

voltage. When the 25 mV, 55 mV, or 100 mV

range is selected, the input signal (including the

common-mode voltage and the amplifier offset

voltage) must not cause the 20X amplifier to satu-

rate in either its input stage or output stage. To pre-

vent saturation, the absolute voltages on AIN+ and

AIN- must stay within the limits specified (refer to

the Analog Input section). Additionally, the differ-

ential output voltage of the amplifier must not ex-

ceed 2.8 V. The equation

defines the differential output limit, where

DS317F8

Note:

Input Range

± 100 mV

± 25 mV

± 55 mV

± 1.0 V

± 2.5 V

± 5.0 V

1. The converter's actual input range, the delta-sigma's nominal full-scale input, and the delta-sigma's

2. The 2.8 V limit at the output of the 20X amplifier is the differential output voltage.

ABS(VIN + VOS) x 20 = 2.8 V

maximum full-scale input all scale directly with the value of the voltage reference. The values in the

table assume a 2.5 V VREF voltage.

Table 1. Relationship between Full Scale Input, Gain Factors, and Internal Analog

VIN = (AIN+) - (AIN-)

(1)

Max. Differential Output

20X Amplifier

2.8 V

(2)

Signal Limitations

VREF

2.5V

is the differential input voltage and VOS is the ab-

solute maximum offset voltage for the instrumenta-

tion amplifier (VOS will not exceed 40 mV). If the

differential output voltage from the amplifier ex-

ceeds 2.8 V, the amplifier may saturate, which will

cause a measurement error.

The input voltage into the modulator must not

cause the modulator to exceed a low of 20 percent

or a high of 80 percent 1's density. The nominal

full-scale input span of the modulator (from 30 per-

cent to 70 percent 1’s density) is determined by the

VREF voltage divided by the Gain Factor. See

Table 1 to determine if the CS5521/22/23/24/28 is

being used properly. For example, in the 55 mV

range, to determine the nominal input voltage to the

modulator, divide VREF (2.5 V) by the Gain Fac-

tor (2.2727).

When a smaller voltage reference is used, the re-

sulting code widths are smaller causing the con-

verter output codes to exhibit more changing codes

for a fixed amount of noise. Table 1 is based upon

a VREF = 2.5 V. For other values of VREF, the

values in Table 1 must be scaled accordingly.

1.1.4 Measuring Voltages Higher than 5 V

Some systems require the measurement of voltages

greater than 5 V. The input current of the instru-

Gain Factor

2.272727...

1.25

2.5

1.0

0.5

Differential Input

Δ-Σ Nominal

CS5521/22/23/24/28

± 0.5 V

± 1.1 V

± 2.0 V

± 1.0 V

± 2.5 V

± 5.0 V

(1)

Max. Input

± 1.65 V

± 0.75 V

0V, VA+

± 3.0 V

± 1.5 V

± 5.0 V

Δ-Σ

(1)

CS5522-ASZR Cirrus Logic Inc, CS5522-ASZR Datasheet - Page 15

CS5522-ASZR

Specifications of CS5522-ASZR

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