CS5381-KSZR Cirrus Logic Inc, CS5381-KSZR Datasheet - Page 18

CS5381-KSZR

Manufacturer Part Number

CS5381-KSZR

Description

IC,A/D CONVERTER,DUAL,24-BIT,SOP,24PIN

Manufacturer

Cirrus Logic Inc

Datasheet

1.CS5381-KZZ.pdf (24 pages)

Specifications of CS5381-KSZR

Number Of Bits

Sampling Rate (per Second)

216k

Data Interface

Serial

Number Of Converters

Power Dissipation (max)

445mW

Voltage Supply Source

Analog and Digital

Operating Temperature

-10°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

24-SOIC (0.300", 7.50mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

598-1592 - REFERENCE DESIGN CS5381 AUD ADC598-1008 - BOARD EVAL FOR CS5381 192KHZ ADC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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3.6

3.6.1

3.6.2

3.7

3.8

Overflow Detection

The CS5381 includes overflow detection on both the left and right channels. This time multiplexed informa-

tion is presented as open drain, active low on pin 15, OVFL. The OVFL_L and OVFL_R data will go to a

logical low as soon as an overrange condition in the opposite channel is detected. The data will remain low

as specified in the

time to detect an overrange condition regardless of the speed mode. After the timeout, the OVFL_L and

OVFL_R data will return to a logical high if there has not been any other overrange condition detected.

Please note that an overrange condition on either channel will restart the timeout period for both channels.

Grounding and Power Supply Decoupling

As with any high resolution converter, the CS5381 requires careful attention to power supply and grounding

arrangements if its potential performance is to be realized.

rangements, with VA and VL connected to clean supplies. VD, which powers the digital filter, may be run

from the system logic supply or may be powered from the analog supply via a resistor. In this case, no ad-

ditional devices should be powered from VD. Decoupling capacitors should be as near to the ADC as pos-

sible, with the low value ceramic capacitor being the nearest. All signals, especially clocks, should be kept

away from the FILT+ and VQ pins in order to avoid unwanted coupling into the modulators. The FILT+ and

VQ decoupling capacitors, particularly the 0.01 µF, must be positioned to minimize the electrical path from

FILT+ and REFGND. The CDB5381 evaluation board demonstrates the optimum layout and power supply

arrangements. To minimize digital noise, connect the ADC digital outputs only to CMOS inputs.

Synchronization of Multiple Devices

In systems where multiple ADCs are required, care must be taken to achieve simultaneous sampling. To

ensure synchronous sampling, the MCLK and LRCK must be the same for all of the CS5381’s in the system.

If only one master clock source is needed, one solution is to place one CS5381 in Master mode, and slave

all of the other CS5381’s to the one master. If multiple master clock sources are needed, a possible solution

would be to supply all clocks from the same external source and time the CS5381 reset with the falling edge

of MCLK. This will ensure that all converters begin sampling on the same clock edge.

OVFL Configuration

If the system does not require overflow detection, the user may leave the OVFL pin disconnected. When

using the overflow detection capability of the CS5381, a 10 kΩ pull-up resistor must be inserted between

the OVFL pin and VL because the OVFL output is open drain, active low. This means that the OVFL pin

is high impedance for the case of no overflow condition, but the pull-up resistor will pull the node to VL.

When an overflow condition occurs, the OVFL pin can drive the node to GND thus indicating the presence

of the overflow condition. In effect, the user can use the OVFL pin to illuminate an LED, or mute the chan-

nel with an external circuit or a DSP. Furthermore, because the OVFL output is open-drain, the OVFL pins

of multiple CS5381 devices can be tied together such that an overflow condition on a single device will

drive the line low. When connecting OVFL pins of multiple devices, only a single 10kΩ pull-up resistor is

necessary.

OVFL Output Timing

In left-justified format, the OVFL pin is updated one SCLK period after an LRCK transition. In I²S format,

the OVFL pin is updated two SCLK periods after an LRCK transition. Refer to

cases, the OVFL data can be easily demultiplexed by using the LRCK to latch the data. In left-justified

format, the rising edge of LRCK would latch the right channel overflow status, and the falling edge of

LRCK would latch the left channel overflow status. In I²S format, the falling edge of LRCK would latch the

right channel overflow status and the rising edge of LRCK would latch the left channel overflow status.

“Switching Characteristics - Serial Audio Port” section on page

Figure 22

shows the recommended power ar-

Figures 20

10. This ensures sufficient

and 21. In both

CS5381

DS563F2

CS5381-KSZR Cirrus Logic Inc, CS5381-KSZR Datasheet - Page 18

CS5381-KSZR

Specifications of CS5381-KSZR

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