DS1553-100 Maxim Integrated Products, DS1553-100 Datasheet
DS1553-100
Specifications of DS1553-100
Related parts for DS1553-100
DS1553-100 Summary of contents
Page 1
... BCD format. Corrections for day of month and leap year are made automatically. Pin Configurations appear at end of data sheet. ORDERING INFORMATION PART VOLTAGE (V) DS1553-85+ 5.0 DS1553-100+ 5.0 DS1553W-120+ 3.3 DS1553W-150+ 3.3 DS1553P-85+ 5.0 DS1553P-100+ 5.0 DS1553WP-120+ 3 ...
Page 2
PIN DESCRIPTION PIN NAME EDIP PowerCap RST A12 A10 23 ...
Page 3
... DETAILED DESCRIPTION The RTC registers in the DS1553 are double-buffered into an internal and external set. The user has direct access to the external set. Clock/calendar updates to the external set of registers can be disabled and enabled to allow the user to access static data. Assuming the internal oscillator is turned on, the internal set of registers is continuously updated ...
Page 4
... If the address inputs are changed while AA output data hold time (t ) but will then go indeterminate until the next address access. OH DATA WRITE MODE The DS1553 is in write mode whenever referenced to the latter occurring transition of the cycle. and must return inactive for a minimum read or write cycle ...
Page 5
... All control, data, and address signals must be powered down when V BATTERY LONGEVITY The DS1553 has a lithium power source that is designed to provide energy for the clock activity and clock and RAM data retention when the V supply is sufficient to power the DS1553 continuously for the life of the equipment in which it is installed. For specification purposes, the life expectancy is 10 years at +25 ...
Page 6
... The MSB of the Seconds register (B7 of 1FF9h). Setting stops the oscillator; setting starts the oscillator. The DS1553 is shipped from Dallas Semiconductor with the clock oscillator turned off, with the bit set to 1 ...
Page 7
... RTC registers and allows normal operation to resume. CLOCK ACCURACY (DIP MODULE) The DS1553 is guaranteed to keep time accuracy to within 1 minute per month at +25C. The RTC is calibrated at the factory by Dallas Semiconductor using nonvolatile tuning elements and does not require additional calibration ...
Page 8
... The alarm can be programmed to activate on a specific day of the month or repeat every day, hour, minute, or second. It can also be programmed to go off while the DS1553 is in the battery-backed state of operation to serve as a system wakeup. Alarm mask bits AM1–AM4 control the alarm mode. Table 3 shows the possible settings ...
Page 9
Figure 2. Clearing IRQ Waveforms , CE Figure 3. Clearing IRQ Waveforms CE = Ø The /FT pin can also be activated in the battery-backed mode. The IRQ occurs and both ABE and AE are set. The ABE and AE ...
Page 10
USING THE WATCHDOG TIMER The watchdog timer can be used to detect an out-of-control processor. The user programs the watchdog timer by setting the desired amount of timeout into the 8-bit Watchdog register (Address 1FF7h). The five Watchdog register bits ...
Page 11
ABSOLUTE MAXIMUM RATINGS Voltage Range on Any Pin Relative to Ground……………………………………………..-0.3V to +6.0V Storage Temperature Range EDIP .......................………………………………………………………………..-40C to +85C PowerCap...............………………………………………………………………..-55C to +125C Lead Temperature (soldering, 10s)…………………………….........................................................+260°C (Note: EDIP is hand or wave-soldered only.) (Note 8) Soldering Temperature (reflow)……………………………………..................................................+260°C This ...
Page 12
DC ELECTRICAL CHARACTERISTICS (V = 3.3V ±10 Over the operating range PARAMETER Active Supply Current TTL Standby Current ( CMOS Standby Current (CE 0.2V) CC Input Leakage Current (Any Input) ...
Page 13
READ CYCLE, AC CHARACTERISTICS (V = 5.0V ± Over the operating range PARAMETER Read Cycle Time Address Access Time Low-Z CE Access Time CE Data Off Time Low-Z ...
Page 14
WRITE CYCLE, AC CHARACTERISTICS (V = 5.0V ±10 Over the operating range PARAMETER Write Cycle Time Address Access Time WE Pulse Width CE Pulse Width Data Setup Time Data Hold time Address Hold Time WE Data ...
Page 15
Figure 6. Write Cycle Timing, Write-Enable Controlled Figure 7. Write Cycle Timing, Chip-Enable Controlled ...
Page 16
POWER-UP/DOWN CHARACTERISTICS (V = 5.0V ± Over the operating range PARAMETER Before Power-Down IH V Fall Time PF(MAX) PF(MIN) V Fall Time ...
Page 17
POWER-UP/DOWN CHARACTERISTICS (V = 3.3V ± Over the operating range PARAMETER Before Power-Down IH V Fall Time PF(MAX) PF(MIN) V Rise Time ...
Page 18
... IRQ RST 6) Data retention time is at +25C. 7) Each DS1553 has a built-in switch that disconnects the lithium source until V user. The expected t is defined for DIP modules as a cumulative time in the absence from the time power is first applied by the user. ...
Page 19
... WE 23 A11 A10 DQ7 20 DQ6 CE DQ5 19 DQ7 DQ4 18 DQ6 DQ3 17 DQ5 DQ2 16 DQ4 DQ1 DQ0 15 DQ3 GND www.maxim-ic.com/packages PACKAGE CODE OUTLINE NO. MDP28+2 PC1 DS1553 GND BAT 34-Pin PowerCap Module Board (Uses DS9034PCX PowerCap) . Note that a “+”, “#”, or “-” ...
Page 20
... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time © 2010 Maxim Integrated Products DS1553 64kB, Nonvolatile, Year-2000-Compliant Timekeeping RAM DESCRIPTION ; changed 70ns Access to 85ns Access in the Write OEZ ...