DS1500_11 MAXIM [Maxim Integrated Products], DS1500_11 Datasheet - Page 12
DS1500_11
Manufacturer Part Number
DS1500_11
Description
Y2K Watchdog RTC with Nonvolatile Control
Manufacturer
MAXIM [Maxim Integrated Products]
Datasheet
1.DS1500_11.pdf
(20 pages)
DATA RETENTION MODE
The DS1500 is fully accessible and data can be written and read only when V
when V
and SRAM are blocked from any access. While in the data retention mode, all inputs are don’t cares and outputs
go to a high-Z state, with the exception of V
CEO is forced high. If V
and V
switched from V
operation and SRAM data are maintained from the battery until V
square-wave and battery-backup 32kHz functions are enabled, V
output, when the device is in battery-backup mode. All control, data, and address signals must be no more than
0.3V above V
AUXILIARY BATTERY
The V
output features in the absence of V
no V
This auxiliary battery can be used as the primary backup power source for maintaining the clock/calendar and
external SRAM. This occurs if the V
a single battery with the auxiliary features enabled, then V
not to be used, it should be grounded.
POWER-ON RESET
A temperature-compensated comparator circuit monitors the level of V
point, the RST signal (open drain) is pulled low. When V
pulled low for a period of t
operational whether or not the oscillator is enabled.
TIME AND DATE OPERATION
The time and date information is obtained by reading the appropriate register bytes. Table 2 shows the RTC
registers. The time and date are set or initialized by writing the appropriate register bytes. The contents of the time
and date registers are in the binary-coded decimal (BCD) format. Hours are in 24-hour mode. The day-of-week
register increments at midnight. Values that correspond to the day of week are user-defined, but must be
sequential (i.e., if 1 equals Sunday, then 2 equals Monday, and so on). Illogical time and date entries result in
undefined operation.
READING THE CLOCK
When reading the clock and calendar data, it is possible to access the registers while an update (once per second)
occurs. There are three ways to avoid using invalid time and date data.
The first method uses the transfer enable (TE) bit in the control B register. Transfers are halted when a 0 is written
to the TE bit. Setting TE to 0 halts updates to the user-accessible registers, while allowing the internal registers to
advance. After the registers are read, the TE bit should be written to 1. TE must be kept at 1 for at least 366μs to
ensure a user register update.
The time and date registers can be read and stored in temporary variables. The time and date registers are then
read again, and compared to the first values. If the values do not match, the time and date registers should be read
a third time and compared to the previous values. This should be done until two consecutive reads of the time and
date registers match. The TE bit should always be enabled when using this method for reading the time and date,.
The third method of reading the time and date uses the alarm function. The alarm can be configured to activate
once per second, and the time-of-day alarm-interrupt enable bit (TIE) is enabled. The TE bit should always be
enabled. When the IRQ pin goes active, the time and date information does not change until the next update.
CCI
BAUX
BAUX
CCI
is applied to the device.
input is provided to supply power from an auxiliary battery for the DS1500 kickstart and square-wave
falls below the power-fail point V
when V
CCI
.
CCI
CCI
to the larger of V
drops below V
PF
is less than V
REC
. The power-on reset function is independent of the RTC oscillator and therefore
BAT
CCI
PF
. This power source must be available to use these auxiliary features when
BAT
pin is at a lower voltage than V
BAT
. If V
and V
and V
CCO
PF
PF
, CEO, and with the possible exception of KS, PWR, SQW, and RST.
(point at which write protection occurs) the internal clock registers
is greater than V
BAUX
BAUX
, the device power is switched from V
12 of 20
when V
CCI
returns to nominal levels, the RST signal continues to be
BAUX
CCI
should be used and connected to V
drops below the larger of V
BAUX
BAT
CC
is returned to nominal levels (Table 1). If the
and V
BAUX
always provides power for the square-wave
CCI
. If the DS1500 is to be backed-up using
. When V
BAUX
, the device power and V
CCI
is greater than V
CCI
falls to the power-fail trip
CCI
to the greater of V
BAT
and V
BAT
PF
. If V
. However,
BAUX
CCO
. RTC
BAUX
are
BAT
is
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