CDK-5581 Cirrus Logic Inc, CDK-5581 Datasheet - Page 13

CDK-5581

Manufacturer Part Number

CDK-5581

Description

Audio Modules & Development Tools KIT CDB558 w/ Capture Plus II

Manufacturer

Cirrus Logic Inc

Datasheet

1.CS5581-ISZ.pdf (32 pages)

Specifications of CDK-5581

Product

Audio Modules

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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CS5581

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2. OVERVIEW

The CS5581 is a 16-bit analog-to-digital converter capable of 200 kSps conversion rate. The analog input

accepts a single-ended input with a magnitude of ±VREF / 2

The ADC uses a low-latency digital filter

volts.

architecture. The filter is designed for fast settling and settles to full accuracy in one conversion.

The converter is a serial output device. The serial port can be configured to function as either a master or

a slave.

The converter can operate from an analog supply of 5V or from ±2.5V. The digital interface supports stan-

dard logic operating from 1.8, 2.5, or 3.3 V.

The CS5581 may convert at rates up to 200 kSps when operating from a 16 MHz input clock.

3. THEORY OF OPERATION

The CS5581 converter provides high-performance measurement of DC or AC signals. The converter can

be used to perform single conversions or continuous conversions upon command. Each conversion is in-

dependent of previous conversions and settles to full specified accuracy, even with a full-scale input volt-

age step. This is due to the converter architecture which uses a combination of a high-speed delta-sigma

modulator and a low-latency filter architecture.

Once power is established to the converter, a reset must be performed. A reset initializes the internal con-

verter logic.

If CONV is held low, the converter will convert continuously with RDY falling every 80 MCLKs. This is

equivalent to 200 kSps if MCLK = 16.0 MHz. If CONV is tied to RDY, a conversion will occur every 82

MCLKs. If CONV is operated asynchronously to MCLK, it may take up to 84 MCLKs from CONV falling to

RDY falling.

Multiple converters can operate synchronously if they are driven by the same MCLK source and CONV

to each converter falls on the same MCLK falling edge. Alternately, CONV can be held low and all devices

can be synchronized if they are reset with RST rising on the same falling edge of MCLK.

The output coding of the conversion word is a function of the BP/UP pin.

3.1 Converter Operation

The converter should be reset after the power supplies and voltage reference are stable.

The CS5581 converts at 200 kSps when synchronously operated (CONV = VLR) from a 16.0 MHz master

clock. Conversion is initiated by taking CONV low. A conversion lasts 80 master clock cycles, but if CONV

is asynchronous to MCLK there may be an uncertainty of 0-4 MCLK cycles after CONV falls to when a

conversion actually begins. This may extend the throughput to 84 MCLKs per conversion.

When the conversion is completed, the output word is placed into the serial port and RDY goes low. To

convert continuously, CONV should be held low. In continuous conversion mode with CONV held low, a

conversion is performed in 80 MCLK cycles. Alternately RDY can be tied to CONV and a conversion will

occur every 82 MCLK cycles.

To perform only one conversion, CONV should return high at least 20 master clock cycles before RDY

falls.

DS796PP1

CDK-5581 Cirrus Logic Inc, CDK-5581 Datasheet - Page 13

CDK-5581

Specifications of CDK-5581

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