CS5560-ISZR Cirrus Logic Inc, CS5560-ISZR Datasheet - Page 2

CS5560-ISZR

Manufacturer Part Number

CS5560-ISZR

Description

IC 50 DSDS 24-bit Mux DS ADC

Manufacturer

Cirrus Logic Inc

Datasheets

1.CS5581-ISZ.pdf (4 pages)

2.CS5581-ISZ.pdf (10 pages)

3.CS5560-ISZ.pdf (32 pages)

Specifications of CS5560-ISZR

Number Of Bits

Data Interface

Serial

Number Of Converters

Power Dissipation (max)

85mW

Voltage Supply Source

Dual ±

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-SSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

598-1277 - KIT BOARD FOR CDB5560 ADC598-1273 - DEV BOARD FOR CS5560 W/MUX

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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3. REQUIREMENTS FOR MULTIPLEXING THE CS556X/7X/8X

For higher-throughput in multiplexed applications, it is desirable for the converter to fully settle on each conversion.

In other words, the digital filter's output must accurately reflect the analog value on the input during the conversion.

Additionally, the input multiplexer and any buffer amplifiers must be settled to the full accuracy of the converter be-

fore the samples are taken. This requires both the converter and the analog input circuitry to be fast settling. This

is especially true if any amplifier or anti-aliasing resistor and capacitor is placed between the multiplexer and the

ADC as illustrated in

conversion to the next. Any amplifier, or RC time constant due to resistance and capacitance, between the multi-

plexer and the ADC must fully settle to the new value before the sampling begins.

With high-throughput converters like the 50 kSps CS5560/61, 100 kSps CS5570/71, or the 200 kSps CS5580/81

the circuit must settle in less than 10 MCLK periods (625 nanoseconds). The multiplexer before a SAR converter

can be switched to the next channel after the conversion begins since the signal has already been sampled. How-

ever, many SAR ADC data sheets warn that a certain "quiet" period should be observed to prevent coupling of noise.

The CS556x/7x/8x requires that the multiplexer be switched at the end of the conversion, since it is taking multiple

samples of the input signal during the conversion (see

Therefore, an alternative should be considered where the amplifiers and anti-aliasing capacitors are on the input of

the multiplexer. This generally requires a multiplexer with very low “on” resistance but the benefits are that the am-

plifier(s) and RC networks do not have to settle from possible large step changes when the multiplexer switches to

another input.

CONV

RDY

AIN1

AIN2

AIN3

AIN4

See data sheet for specific timing

Figure 4

Figure

illustrates this arrangement.

2. With a multiplexer it is possible for the ADC input to see a full-scale change from one

Figure 2. Amplifier and Filter between Multiplexer and ADC

MUX

Figure 3. Multiplexer Timing Requirements

CS 5570/ 71 – 144 MCLKs

CS 5580/ 81 – 64 MCLKs

CS 5560/ 61 – 304 MCLKs

AMP

settled within 10 MCLKs after RDY falls.

If CONV is held low , input must be

Analog Input must be settled here.

Figure

3).

Switch MUX here

ADC

AN314REV1

AN314

CS5560-ISZR Cirrus Logic Inc, CS5560-ISZR Datasheet - Page 2

CS5560-ISZR

Specifications of CS5560-ISZR

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