LTC2414 LINER [Linear Technology], LTC2414 Datasheet - Page 22

LTC2414

Manufacturer Part Number

LTC2414

Description

8-/16-Channel 24-Bit No Latency TM ADCs

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC2414.pdf (48 pages)

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(INTERNAL)

APPLICATIO S I FOR ATIO

LTC2414/LTC2418

When testing EOC, if the conversion is complete (EOC = 0),

the device will exit the low power mode during the EOC

test. In order to allow the device to return to the low power

sleep state, CS must be pulled HIGH before the first rising

edge of SCK. In the internal SCK timing mode, SCK goes

HIGH and the device begins outputting data at time t

after the falling edge of CS (if EOC = 0) or t

goes LOW (if CS is LOW during the falling edge of EOC).

The value of t

oscillator (F

external oscillator of frequency f

3.6/f

device returns to the sleep state and the conversion result

is held in the internal static shift register.

If CS remains LOW longer than t

edge of SCK will occur and the conversion result is serially

shifted out of the SDO pin. The data I/O cycle concludes

after the 32nd rising edge. The input data is then shifted in

via the SDI pin on the rising edge of SCK (including the first

rising edge) and the output data is shifted out of the SDO

pin on each falling edge of SCK. The internally generated

serial clock is output to the SCK pin. This signal may be

SDO

SCK

SDI

EOSC

CONVERSION

Hi-Z

DON’T CARE

. If CS is pulled HIGH before time t

EOCtest

= logic LOW or HIGH). If F

SLEEP

TEST EOC

is 23µs if the device is using its internal

SLEEP

Hi-Z

EOCtest

(1)

BIT 31

EOC

BIT 30

EOCtest

(0)

EOSC

Figure 8. Internal Serial Clock, Single Cycle Operation

, then t

BIT 29

SIG

EOCtest

, the first rising

is driven by an

EOCtest

0.1V TO V

REFERENCE

BIT 28

MSB

ANALOG

INPUTS

VOLTAGE

after EOC

EOCtest

SGL

1µF

2.7V TO 5.5V

EOCtest

, the

BIT 27

•

ODD/

SIGN

DATA OUTPUT

REF

CH0

CH7

CH8

CH15

COM

•

LTC2414/

LTC2418

–

BIT 26

used to shift the conversion result into external circuitry.

EOC can be latched on the first rising edge of SCK and the

last bit of the conversion result on the 32nd rising edge of

SCK. After the 32nd rising edge, SDO goes HIGH (EOC =

1), SCK stays HIGH and a new conversion starts.

Typically, CS remains LOW during the data output state.

However, the data output state may be aborted by pulling

CS HIGH anytime between the first and 32nd rising edge

of SCK, see Figure 9. On the rising edge of CS, the device

aborts the data output state and immediately initiates a

new conversion. If the device has not finished loading the

last input bit A0 of SDI by the time CS is pulled HIGH, the

address information is discarded and the previous ad-

dress is still kept. This is useful for systems not requiring

all 32 bits of output data, aborting an invalid conversion

cycle, or synchronizing the start of a conversion. If CS is

pulled HIGH while the converter is driving SCK LOW, the

internal pull-up is not available to restore SCK to a logic

HIGH state. This will cause the device to exit the internal

serial clock mode on the next falling edge of CS. This can

be avoided by adding an external 10k pull-up resistor to

the SCK pin or by never pulling CS HIGH when SCK is LOW.

GND

SDO

SCK

SDI

BIT 25

4-WIRE

SPI INTERFACE

BIT 24

= 50Hz REJECTION

= EXTERNAL OSCILLATOR

= 60Hz REJECTION

DON’T CARE

BIT 6

LSB

10k

PARITY

BIT 0

CONVERSION

Hi-Z

TEST EOC

241418fa

241418 F08

Hi-Z

LTC2414 LINER [Linear Technology], LTC2414 Datasheet - Page 22

LTC2414

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