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DS1643-100 |DS1643100DSN/a199avaiNonvolatile Timekeeping RAM
DS1643-100 |DS1643100DALLAS ?N/a24avaiNonvolatile Timekeeping RAM
DS1643-100 |DS1643100DALLASN/a8000avaiNonvolatile Timekeeping RAM
DS1643-120 |DS1643120DALLASN/a6000avaiNonvolatile timekeeping RAM, 120ns access
DS1643-150 |DS1643150DALLASN/a5704avaiNonvolatile timekeeping RAM, 150ns access


DS1643-100 ,Nonvolatile Timekeeping RAMBLOCK DIAGRAM Figure 1CLOCKOSCILLATOR ANDREGISTERS32.768 KHzCLOCK COUNTDOWNCHAINCEWE8K X 8 NV SRAMO ..
DS1643-100 ,Nonvolatile Timekeeping RAMFEATURES PIN ASSIGNMENT• Form, fit, and function compatible with the MK48T08NC 1 28 VCCTimekeeping ..
DS1643-100 ,Nonvolatile Timekeeping RAMDS1643DS1643Nonvolatile Timekeeping RAM
DS1643-100+ ,Nonvolatile Timekeeping RAMFEATURES PIN CONFIGURATIONS  Integrated NV SRAM, Real-Time Clock, VN.C. 1 28 CCCrystal, Power-Fail ..
DS1643-100+ ,Nonvolatile Timekeeping RAMFEATURES PIN CONFIGURATIONS  Integrated NV SRAM, Real-Time Clock, VN.C. 1 28 CCCrystal, Power-Fail ..
DS1643-120 ,Nonvolatile timekeeping RAM, 120ns accessFEATURES PIN ASSIGNMENT• Form, fit, and function compatible with the MK48T08NC 1 28 VCCTimekeeping ..
DTTI5516AUA ,DTTI5516 SINGLE MODULE DEMODULATOR AND DECODER IC FOR DIGITAL VIDEO SET-TOP BOXES Data Briefing®DTTi5516Single module demodulator and decoder ICfor digital video set-top boxesDATA BRIEFDescripti ..
DTV110 ,CRT HORIZONTAL DEFLECTION HIGH VOLTAGE DAMPER DIODEFEATURES AND BENEFITSHIGH BREAKDOWN VOLTAGE CAPABILITYISOWATT220ACTO-220ACVERY FAST RECOVERY DIODED ..
DTV110F ,CRT HORIZONTAL DEFLECTION HIGH VOLTAGE DAMPER DIODEFEATURES AND BENEFITSHIGH BREAKDOWN VOLTAGE CAPABILITYISOWATT220ACTO-220ACVERY FAST RECOVERY DIODED ..
DTV1500 ,CRT HORIZONTAL DEFLECTION HIGH VOLTAGE DAMPER DIODEABSOLUTE MAXIMUM RATINGSSymbol Parameter Value UnitV Repetitive peak reverse voltage 1500 VRRMI RMS ..
DTV1500H ,HIGH VOLTAGE DAMPER DIODE (CRT HORIZONTAL DEFLECTION)ABSOLUTE MAXIMUM RATINGSSymbol Parameter Value UnitV Repetitive peak reverse voltage 1500 VRRMI RMS ..
DTV1500HD ,HIGH VOLTAGE DAMPER DIODE (CRT HORIZONTAL DEFLECTION)ABSOLUTE MAXIMUM RATINGSSymbol Parameter Value UnitV Repetitive peak reverse voltage 1500 VRRMI RMS ..


DS1643-100-DS1643-120-DS1643-150
Nonvolatile Timekeeping RAM
Copyright 1995 by Dallas Semiconductor Corporation.All Rights Reserved. For important information regarding
patents and other intellectual property rights, please refer toDallas Semiconductor data books.
DS1643

Nonvolatile Timekeeping RAM
DS1643
041697 1/11
FEATURES
Form, fit, and function compatible with the MK48T08
Timekeeping RAMIntegrated NV SRAM, real time clock, crystal, power–
fail control circuit and lithium energy sourceStandard JEDEC bytewide 8K x 8 static RAM pinoutClock registers are accessed identical to the static
RAM. These registers are resident in the eight top
RAM locations.Totally nonvolatile with over 10 years of operation in
the absence of powerAccess times of 120 ns and 150 nsQuartz accuracy ±1 minute a month @ 25°C, factory
calibratedBCD coded year, month, date, day, hours, minutes,
and seconds with leap year compensation valid up to
2100Power–fail write protection allows for ±10% VCC
power supply tolerance
ORDERING INFORMATION

DS1643–XXX
–120120 ns access
150 ns access–150
28–pin DIP module
PIN ASSIGNMENT
NC
A12
DQ0
DQ1
DQ2
GND
VCC
CE2
A11
A10
DQ7
DQ6
DQ5
DQ4
DQ3
28–PIN ENCAPSULATED PACKAGE
(700 MIL EXTENDED)
DESCRIPTION

The DS1643 is an 8K x 8 nonvolatile static RAM with a
full function real time clock which are both accessible in
a bytewide format. The nonvolatile time keeping RAM is
pin and function equivalent to any JEDEC standard
8K x 8 SRAM. The device can also be easily substituted
in ROM, EPROM and EEPROM sockets providing read/
write nonvolatility and the addition of the real time clock
function. The real time clock information resides in the
eight uppermost RAM locations. The RTC registers
contain year, month, date, day, hours, minutes, and se-
conds data in 24 hour BCD format. Corrections for the
day of the month and leap year are made automatically.
The RTC clock registers are double buffered to avoid
access of incorrect data that can occur during clock up-
date cycles. The double buffered system also prevents
time loss as the timekeeping countdown continues un-
abated by access to time register data. The DS1643
also contains its own power–fail circuitry which dese-
lects the device when the VCC supply is in an out of toler-
ance condition. This feature prevents loss of data from
unpredictable system operation brought on by low VCC
as errant access and update cycles are avoided.
DS1643
041697 2/11
PIN DESCRIPTION

A0–A12–Address Input–Chip Enable–Output Enable–Write Enable–No Connection
VCC–+5 Volts
GND–Ground
DQ0-DQ7–Data Input/Output
CLOCK OPERATIONS–READING THE
CLOCK

While the double buffered register structure reduces the
chance of reading incorrect data, internal updates to the
DS1643 clock registers should be halted before clock
data is read to prevent reading of data in transition.
However, halting the internal clock register updating
process does not affect clock accuracy. Updating is
halted when a one is written into the read bit, the seventh
most significant bit in the control register. As long as a
one remains in that position, updating is halted. After a
halt is issued, the registers reflect the count, that is day,
date, and time that was current at the moment the halt
command was issued. However, the internal clock reg-
isters of the double buffered system continue to update
so that the clock accuracy is not affected by the access
of data. All of the DS1643 registers are updated simul-
taneously after the clock status is reset. Updating is
within a second after the read bit is written to zero.
DS1643 BLOCK DIAGRAM Figure 1

32.768 KHz
VBAT
DS1643
041697 3/11
DS1643 TRUTH TABLE Table 1
SETTING THE CLOCK

The 8–bit of the control register is the write bit. Setting
the write bit to a one, like the read bit, halts updates to
the DS1643 registers. The user can then load them with
the correct day, date and time data in 24 hour BCD for-
mat. Resetting the write bit to a zero then transfers
those values to the actual clock counters and allows
normal operation to resume.
STOPPING AND STARTING THE CLOCK
OSCILLATOR

The clock oscillator may be stopped at any time. To in-
crease the shelf life, the oscillator can be turned off to
minimize current drain from the battery. The OSC bit is
the MSB for the seconds registers. Setting it to a 1 stops
the oscillator.
FREQUENCY TEST BIT

Bit 6 of the day byte is the frequency test bit. When the
frequency test bit is set to logic “1” and the oscillator is
running, the LSB of the seconds register will toggle at
512 Hz. When the seconds register is being read, the
DQ0 line will toggle at the 512 Hz frequency as long as
conditions for access remain valid (i.e., CE low, OE low,
CE2 high, and address for seconds register remain valid
and stable).
CLOCK ACCURACY

The DS1643 is guaranteed to keep time accuracy to
within ±1 minute per month at 25°C. The clock is cali-
brated at the factory by Dallas Semiconductor using
special calibration nonvolatile tuning elements. The
DS1643 does not require additional calibration and tem-
perature deviations will have a negligible effect in most
applications. For this reason, methods of field clock cal-
ibration are not available and not necessary. Attempts
to calibrate the clock that may be used with similar de-
vice types (MK48T08 family) will not have any effect
even though the DS1643 appears to accept calibration
data.
DS1643
041697 4/11
DS1643 REGISTER MAP – BANK1 Table 2

OSC=STOP BITR=READ BITFT=FREQUENCY TEST=WRITE BITX=UNUSED
NOTE:

All indicated “X” bits are not dedicated to any particular function and can be used as normal RAM bits.
RETRIEVING DATA FROM RAM OR CLOCK

The DS1643 is in the read mode whenever WE (write
enable) is high and CE (chip enable) is low. The device
architecture allows ripple-through access to any of the
address locations in the NV SRAM. 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.
WRITING DATA TO RAM OR CLOCK

The DS1643 is in the write mode whenever WE and CE
are in their active state. The start of a write is referenced
to the latter occurring transition of WE or CE. The ad-
dresses must be held valid throughout the cycle. CE or
WE must return inactive for a minimum of tWR prior to
the initiation of another read or write cycle. Data in must
be valid tDS prior to the end of write and remain valid for
tDH afterward. In a typical application, the OE signal will
be high during a write cycle. However, OE can be active
provided that care is taken with the data bus to avoid bus
contention. If OE is low prior to WE transitioning low the
data bus can become active with read data defined by
the address inputs. A low transition on WE will then dis-
able the outputs tWEZ after WE goes active.
DS1643
041697 5/11
DATA RETENTION MODE

When VCC is within nominal limits (VCC > 4.5 volts) the
DS1643 can be accessed as described above by read
or write cycles. However, when VCC is below the pow-
er–fail point VPF (point at which write protection occurs)
the internal clock registers and RAM is blocked from ac-
cess. This is accomplished internally by inhibiting ac-
cess via the CE and CE2 signals. When VCC falls below
the level of the internal battery supply, power input is
switched from the VCC pin to the internal battery and
clock activity, RAM, and clock data are maintained from
the battery until VCC is returned to nominal level.
INTERNAL BATTERY LONGEVITY

The DS1643 has a self contained lithium power source
that is designed to provide energy for clock activity, and
clock and RAM data retention when the VCC supply is
not present. The capability of this internal power supply
is sufficient to power the DS1643 continuously for the
life of the equipment in which it is installed. For specifi-
cation purposes, the life expectancy is 10 years at 25°C
with the internal clock oscillator running in the absence
of VCC power. The DS1643 is shipped from Dallas
Semiconductor with the clock oscillator turned off, so
the expected life should be considered to start from the
time the clock oscillator is first turned on. Actual life ex-
pectancy of the DS1643 will be much longer than 10
years since no internal lithium battery energy is con-
sumed when VCC is present. In fact, in most applica-
tions, the life expectancy of the DS1643 will be approxi-
mately equal to the shelf life (expected useful life of the
lithium battery with no load attached) of the lithium bat-
tery which may prove to be as long as 20 years.
DS1643
041697 6/11
ABSOLUTE MAXIMUM RATINGS*

Voltage on Any Pin Relative to Ground–0.3V to +7.0V
Operating Temperature0°C to 70°C
Storage Temperature–20°C to +70°C
Soldering Temperature260°C for 10 seconds (See Note 7)This is a stress rating only and functional operation of the device at these or any other conditions above those
indicated in the operation sections of this specification is not implied. Exposure to absolute maximum rating
conditions for extended periods of time may affect reliability.
RECOMMENDED DC OPERATING CONDITIONS
(0°C to 70°C)
DC ELECTRICAL CHARACTERISTICS
(0°C ≤ tA ≤ 70°C; VCC = 5.0V ± 10%)
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