ADS1255IDB Burr-Brown Corporation, ADS1255IDB Datasheet - Page 27

ADS1255IDB

Manufacturer Part Number

ADS1255IDB

Description

Very Low Noise/ 24-Bit Analog-to-Digital Converter

Manufacturer

Burr-Brown Corporation

Datasheet

1.ADS1255IDB.pdf (39 pages)

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DATA READY (DRDY)

The DRDY output is used as a status signal to indicate

when conversion data is ready to be read. DRDY goes low

when new conversion data is available. It is reset high

when all 24 bits have been read back using Read Data

(RDATA) or Read Data Continuous (RDATAC) command.

It also goes high when the new conversion data is being

updated. Do not retrieve during this update period as the

data is invalid. If data is not retrieved, DRDY will only be

high during the update time as shown in Figure 24.

After changing the PGA, data rate, buffer status, writing to

the OFC or FSC registers, and enabling or disabling the

sensor detect circuitry, perform a synchronization

operation to force DRDY high. It will stay high until valid

data is ready. If auto-calibration is enabled (by setting the

ACAL bit in the ADCON register), DRDY will go low after

the self-calibration is complete and new data is valid.

Exiting

Power-Down mode will also force DRDY high. DRDY will

go low as soon as valid data is ready.

SYNCHRONIZATION

Synchronization of the ADS1255/6 is available to

coordinate the A/D conversion with an external event and

also to speed settling after an instantaneous change on

the

Synchronization section).

Synchronization can be achieved either using the

SYNC/PDWN pin or with the SYNC command. To use the

SYNC/PDWN pin, take it low and then high, making sure

to meet timing specification t

the first rising edge of the master clock after SYNC/PDWN

is taken high. No communication is possible on the serial

interface while SYNC/PDWN is low. If the SYNC/PDWN

pin is held low for 20 DRDY periods the ADS1255/6 will

enter Power-Down mode.

To synchronize using the SYNC command, first shift in all

eight bits of the SYNC command. This stops the operation

of the ADS1255/6. When ready to synchronize, issue the

WAKEUP command. Synchronization occurs on the first

rising edge of the master clock after the first SCLK used to

shift in the WAKEUP command. After a synchronization

operation, either with the SYNC/PDWN pin or the SYNC

command, DRDY stays high until valid data is ready.

www.ti.com

Figure 24. DRDY with No Data Retreival

analog

from Reset, Synchronization, Standby or

DRDY

inputs

(see

Data Updating

. Synchronization occurs on

Conversion

Time

using

STANDBY MODE

The standby mode shuts down all of the analog circuitry

and most of the digital features. The oscillator continues to

run to allow for fast wakeup. If enabled, clock output

D0/CLKOUT will also continue to run during during

Standby mode. To enter Standby mode, issue the

STANDBY command. To exit Standby mode, issue the

WAKEUP command. DRDY will stay high after exiting

Standby mode until valid data is ready. Standby mode can

be used to perform one-shot conversions; see Settling

Time Using One-Shot Mode section for more details.

POWER-DOWN MODE

Holding the SYNC/PDWN pin low for 20 DRDY cycles

activates the Power-Down mode. During Power-Down

mode, all circuitry is disabled including the oscillator and

the clock output.

To exit Power-Down mode, take the SYNC/PDWN pin

high. Upon exiting from Power-Down mode, the

ADS1255/6 crystal oscillator typically requires 30ms to

wake up. If using an external clock source, 8192 CLKIN

cycles are needed before conversions begin.

RESET

There are three methods to reset the ADS1255/6: the

RESET input pin, RESET command, and a special SCLK

reset pattern.

When using the RESET pin, take it low to force a reset.

Make sure to follow the minimum pulse width timing

specifications before taking the RESET pin back high.

The RESET command takes effect after all eight bits have

been shifted into DIN. Afterwards, the reset releases

automatically.

The ADS1255/6 can also be reset with a special pattern on

SCLK (see Figure 2). Reset occurs on the falling edge of

the last SCLK edge in the pattern. After performing the

operation, the reset releases automatically.

On reset, the configuration registers are initialized to their

default state except for the CLK0 and CLK1 bits in the

ADCON register that control the D0/CLKOUT pin. These

bits are only initialized to the default state when RESET is

performed using the RESET pin. After releasing from

RESET, self-calibration is performed, regardless of the

reset method or the state of the ACAL bit before RESET.

POWER-UP

All of the configuration registers are initialized to their

default state at power-up. A self-calibration is then

performed automatically. For the best performance, it is

strongly

self-calibration by issuing the SELFCAL command after

the power supplies and voltage reference have had time

to settle to their final values.

recommended

SBAS288D − JUNE 2003 − REVISED AUGUST 2004

perform

ADS1255

ADS1256

additional

ADS1255IDB Burr-Brown Corporation, ADS1255IDB Datasheet - Page 27

ADS1255IDB

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