DS1646 Datasheet, PDF(4/11 Page) Dallas Semiconductor – Nonvolatile Timekeeping RAM

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DS1646 Datasheet, PDF (4/11 Pages) Dallas Semiconductor – Nonvolatile Timekeeping RAM

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DS1646/DS1646P

CLOCK ACCURACY (DIP MODULE)

The DS1646 is guaranteed to keep time accuracy to within Â±1 minute per month at 25Â°C. The RTC is

calibrated at the factory by Dallas Semiconductor using nonvolatile tuning elements, and does not require

additional calibration. For this reason, methods of field clock calibration are not available and not

necessary. Clock accuracy is also effected by the electrical environment and caution should be taken to

place the RTC in the lowest level EMI section of the PCB layout. For additional information please see

application note 58.

CLOCK ACCURACY (POWERCAP MODULE)

The DS1646 and DS9034PCX are each individually tested for accuracy. Once mounted together, the

module will typically keep time accuracy to within Â±1.53 minutes per month (35 ppm) at 25Â°C. Clock

accuracy is also effected by the electrical environment and caution should be taken to place the RTC in

the lowest level EMI section of the PCB layout. For additional information please see application note

58.

1646 REGISTER MAP - BANK1 Table 2

ADDRESS B7

B6

B5

DATA

B4

B3

B2

B1

B0

1FFFF

-

-

-

-

-

-

-

-

FUNCTION

YEAR 00-99

1FFFE

XXX

-

-

-

-

-

MONTH 01-12

1FFFD

XX

-

-

-

-

-

-

DATE 01-31

1FFFC

X FT X

X

X

-

-

-

DAY

01-07

1FFFB

XX

-

-

-

-

-

-

HOUR 00-23

1FFFA

X

-

-

-

-

-

-

- MINUTES 00-59

1FFF9

OSC

-

-

-

-

-

-

- SECONDS 00-59

1FFF8

WR X

X

X

X

X

X CONTROL A

OSC = STOP BIT

W = WRITE BIT

R = READ BIT

X = UNUSED

FT = FREQUENCY TEST

NOTE:

All indicated âXâ bits are not dedicated to any particular function and can be used as normal RAM bits.

RETRIEVING DATA FROM RAM OR CLOCK

The DS1646 is in the read mode whenever WE (write enable) is high; CE (chip enable) is low. The

device architecture allows ripple-through access to any of the address locations in the NVSRAM. Valid

data will be available at the DQ pins within tAA after the last address input is stable, providing that the CE

and OE access times and states are satisfied. If CE or OE access times are not met, valid data will be

available at the latter of chip-enable access (tCEA) or at output enable access time (tOEA). The state of the

data input/output pins (DQ) is controlled by CE and OE . If the outputs are activated before tAA, the data

lines are driven to an intermediate state until tAA. If the address inputs are changed while CE and OE

remain valid, output data will remain valid for output data hold time (tOH) but will then go indeterminate

until the next address access.

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