cs5566 Cirrus Logic, Inc., cs5566 Datasheet - Page 27

cs5566

Manufacturer Part Number

cs5566

Description

?2.5 V / 5 V, 5 Ksps, 24-bit ?? Adc

Manufacturer

Cirrus Logic, Inc.

Datasheet

1.CS5566.pdf (30 pages)

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DS806PP1

VLR2, VLR, VL – Logic Interface Power/Return, Pins 14, 20, 21

SLEEP – Sleep Mode Select, Pin 12

BP/UP – Bipolar/Unipolar Select, Pin 11

CONV – Convert, Pin 15

MCLK – Master Clock, Pin 19

DCR – Digital Core Regulator, Pin 16

SDO – Serial Data Output, Pin 22

RST – Reset, Pin 13

V2+ – Positive Power 2, Pin 17

V2- – Negative Power 2, Pin 18

The BP/UP pin determines the span and the output coding of the converter. When set high to

select BP (bipolar), the input span of the converter is -4.096 volts to +4.096 volts fully differential

(assuming the voltage reference is 4.096 volts) and output data is coded in two's complement

format. When set low to select UP (unipolar), the input span is 0 to +4.096 fully differential and

the output data is coded in binary format.

When taken low, the SLEEP pin will cause the converter to enter into a low-power state. SLEEP

will stop the internal oscillator and power down all internal analog circuitry.

Reset is necessary after power is initially applied to the converter. When the RST input is taken

low, the logic in the converter will be reset. When RST is released to go high, certain portions of

the analog circuitry are started. RDY falls when reset is complete.

The CONV pin initiates a conversion cycle if taken low, unless a previous conversion is in

progress. When the conversion cycle is completed, the conversion word is output to the serial

port register and the RDY signal goes low. If CONV is held low and remains low when RDY

falls, another conversion cycle will be started.

DCR is the output of the on-chip regulator for the digital logic core. DCR should be bypassed

with a capacitor to V2-. The DCR pin is not designed to power any external load.

The V1+ and V2+ pins provide a positive supply voltage to the circuitry of the chip. These two

pins should be decoupled as shown in the application block diagrams. V1+ and V2+ should be

supplied from the same source voltage. For single-supply operation, these two voltages are

nominally +5 V. For dual-supply operation, they are nominally +2.5 V.

The V1- and V2- pins provide a negative supply voltage to the circuitry of the chip. These two

pins should be decoupled as shown in the application block diagrams. V1- and V2- should be

supplied from the same source voltage. For single-supply operation, these two voltages are

nominally 0 V (Ground). For dual-supply operation, they are nominally -2.5 V.

The master clock pin (MCLK) is a multi-function pin. If tied low (MCLK = VLR), the on-chip oscil-

lator will be enabled. If tied high (MCLK = VL), all clocks to the internal circuitry of the converter

will stop. When MCLK is held high the internal oscillator will also be stopped. MCLK can also

function as the input for an external CMOS-compatible clock that conforms to supply voltages

on the VL and VLR pins.

VL and VLR are the supply voltages for the digital logic interface. VL and VLR can be config-

ured with a wide range of common mode voltage. The following interface pins function from the

VL/VLR supply: SMODE, CS, SCLK, SDO, RDY, SLEEP, CONV, RST, BP/UP, and MCLK.

SDO is the output pin for the serial output port. Data from this pin will be output at a rate deter-

mined by SCLK and in a format determined by the BP/UP pin. Data is output MSB first and

advances to the next data bit on the rising edges of SCLK. SDO will be in a high impedance

state when CS is high.

3/25/08

CS5566

cs5566 Cirrus Logic, Inc., cs5566 Datasheet - Page 27

cs5566

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