DS1343 Maxim, DS1343 Datasheet

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DS1343

Manufacturer Part Number
DS1343
Description
The DS1343/DS1344 low-current real-time clocks (RTCs) are timekeeping devices that provide an extremely low standby current, permitting longer life from a backup supply source
Manufacturer
Maxim
Datasheet
1.DS1343.pdf (20 pages)

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19-5801; Rev 1; 12/11
The DS1343/DS1344 low-current real-time clocks (RTCs)
are timekeeping devices that provide an extremely low
standby current, permitting longer life from a backup
supply source. The devices also support high-ESR
crystals, broadening the pool of usable crystals for the
devices. The clock/calendar provides seconds, minutes,
hours, day, date, month, and year information. The date
at the end of the month is automatically adjusted for
months with fewer than 31 days, including corrections
for leap year. The clock operates in either 24-hour or
12-hour format with an AM/PM indicator.
Address and data are transferred serially through an
SPI or 3-wire interface. Two programmable time-of-day
alarms are provided. Each alarm can generate an inter-
rupt on a combination of seconds, minutes, hours, and
day. Don’t-care states can be inserted into one or more
fields if it is desired for them to be ignored for the alarm
condition. The time-of-day alarms can be programmed
to assert two different interrupt outputs, or they can be
combined to assert one common interrupt output. Both
interrupt outputs operate when the device is powered by
either V
The devices are available in a lead-free/RoHS-compliant,
20-pin TSSOP or 14-pin TDFN package, and support a
-40°C to +85°C extended industrial temperature range.
Ordering Information
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,
or visit Maxim’s website at www.maxim-ic.com.
Medical
Handheld Devices
Telematics
Embedded Timestamping
CC
or V
BAT
________________________________________________________________ _Maxim Integrated Products_ _ 1
.
appears at end of data sheet.
General Description
Applications
Low-Current SPI/3-Wire RTCs
S Low_Timekeeping_Current_of_250nA_(typ)
S Compatible_with_Crystal_ESR_Up_to_100kI
S Versions_Available_to_Support_Either_6pF_or_
S RTC_Counts_Seconds,_Minutes,_Hours,_Day,_Date,_
S Power-Fail_and_Switch_Circuitry
S Three_Operating_Voltages
S Trickle-Charge_Capability
S Maintain_Time_Down_to_1.15V_(typ)
S Support_Motorola_SPI_Modes_1_and_3,_or_Standard_
S Burst_Mode_for_Reading/Writing_Successive_
S 96-Byte_Battery-Backed_NV_RAM_for_Data_Storage
S Two_Time-of-Day_Alarms_with_Two_Interrupt_
S Industrial_Temperature_Range
S 20-Pin_TSSOP_or_14-Pin_TDFN_Package
S Underwriters_Laboratories_(UL)_Recognized
12.5pF_Crystals
Month,_and_Year_with_Leap_Year_Compensation_
Valid_Through_2099
1.8V_±5%
3.0V±10%
3.3V_±10%
3-Wire_Interface
Addresses_in_Clock/RAM
Outputs
NOTE: SHOWN IN 3-WIRE I/O CONFIGURATION.
3-WIRE
PORT
P
RST
INT
Typical Operating Circuit
R
PU
INT0
PF
INT1
CE
SCLK
SDI
SDO
SERMODE
DS1343
DS1344
V
V
CC
CC
GND
V
BAT
Features
X1
X2

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DS1343 Summary of contents

Page 1

... Rev 1; 12/11 General Description The DS1343/DS1344 low-current real-time clocks (RTCs) are timekeeping devices that provide an extremely low standby current, permitting longer life from a backup supply source. The devices also support high-ESR crystals, broadening the pool of usable crystals for the devices. The clock/calendar provides seconds, minutes, hours, day, date, month, and year information ...

Page 2

... BAT PARAMETER SYMBOL Power-Supply Active Current Power-Supply Standby Current (Note 5) Backup Leakage Current I BATLKG Backup Current (Oscillator Off) DS1343 Backup Current (Note 6) DS1344 2 Junction Temperature Maximum .....................................+150NC Storage Temperature Range ............................ -55NC to +125NC Lead Temperature (soldering, 10s) ................................+260NC + 0.3V) Soldering Temperature (reflow) ......................................+260NC ...

Page 3

... DC_ELECTRICAL_CHARACTERISTICS_(continued +5.5V +1.3V to +5.5V CC(MIN) BAT PARAMETER SYMBOL DS1343 Backup Current (Note 7) DS1344 Input Leakage (CE, SERMODE, SCLK, SDI) Output Leakage (INT0, INT1, PF, SDO) Output Logic 1 (PF, SDO) Output Logic 0.4V OL (INT0, INT1, PF, SDO) Power-Fail Trip Point Switchover Voltage Trickle-Charger Resistors AC_ELECTRICAL_CHARACTERISTICS ...

Page 4

... OSF flag to be set. OSF Note_10: Guaranteed by design; not 100% production tested. 4 CONDITIONS t REC VCCF VCCR CONDITIONS C (Note 10 (Note 10) O CONDITIONS f O ESR DS1343 C L DS1344 = 0mA, trickle charger disabled. OUT MIN TYP MAX UNITS 150 MIN TYP MAX ...

Page 5

SCLK* t CDH t DC SDI R WRITE ADDRESS BYTE *SCLK CAN BE EITHER POLARITY. TIMING SHOWN FOR CPOL = 1. SERMODE = SCLK* t CDH t ...

Page 6

Low-Current SPI/3-Wire RTCs SCLK t CDH I/O* *I/O IS SDI AND SDO CONNECTED TOGETHER. SERMODE = GND SCLK t CDH I/O* *I/O IS SDI AND SDO CONNECTED TOGETHER. ...

Page 7

... POWER-SUPPLY CURRENT vs. POWER-SUPPLY VOLTAGE 0mA OUT T = +85° +25° -40°C A 3.5 4.0 4.5 5.0 5.5 SUPPLY VOLTAGE (V) DS1343 BATTERY CURRENT2 vs. BATTERY VOLTAGE EGFIL = 1 DOSF = 0mA OUT T = +85° +25° -40°C A 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 BATTERY VOLTAGE (V) DS1344 BATTERY CURRENT2 vs. BATTERY VOLTAGE EGFIL = 1, DOSF = 0, I ...

Page 8

... Alarm 1 only. INT1 remains low as long as the status bit causing the interrupt is present and the corresponding interrupt enable bit is set. INT1 operates when the component is powered by V drain output and requires an external pullup resistor. Pin Configurations DS1343 DS1344 TDFN (3mm × ...

Page 9

... Power-Supply Input Exposed Pad (TDFN Only). Connect to GND or leave unconnected. 32.768kHz X1 X2 OSCILLATOR AND COUNTDOWN CHAIN CLOCK, CALENDAR, AND ALARM REGISTERS DS1343 CONTROL DS1344 REGISTERS INPUT SHIFT USER RAM REGISTER , SPI communication is selected the PF pin is driven low. PF Functional Diagram ...

Page 10

... V . BAT capacitors to operate. The DS1343 includes integrated capacitive loading for a 6pF C includes integrated capacitive loading for a 12.5pF C crystal. See the Crystal Parameters table for the external crystal parameters. The Functional Diagram shows a simplified schematic of the oscillator circuit ...

Page 11

LOCAL GROUND PLANE (LAYER 2) NOTE: AVOID ROUTING SIGNAL LINES IN THE CROSSHATCHED AREA (UPPER LEFT QUADRANT) OF THE PACKAGE UNLESS THERE IS A GROUND PLANE BETWEEN THE SIGNAL LINE AND THE DEVICE PACKAGE. Figure 1. Layout Example Register Map ...

Page 12

Low-Current SPI/3-Wire RTCs Table_1._Register_Map BIT_7_ ADDRESS BIT_6 MSB 00h 0 10 Seconds 01h 0 10 Minutes 02h 0 12/24 03h 0 0 04h 0 0 05h Century 0 06h 10 Year 07h A0M1 10 Seconds 08h A0M2 10 Minutes 09h ...

Page 13

BIT_7 BIT_6 BIT_5 X DOSF EOSC EOSC: Enable oscillator. During battery backup, when EOSC is set to 0, the oscillator is enabled during back- BIT 7 up operation. When set to 1, the oscillator is stopped when ...

Page 14

... V select the resistor and diodes, as shown in Table 3. The user determines diode and resistor selection according to the maximum current desired for secondary battery or super cap charging. The maximum charging current can be calculated using the equation that follows. Status Register (10h) ...

Page 15

... Assume, for the purposes of the example, that a system power supply applied connected Also assume that the trickle charger BAT has been enabled with one diode and resistor R1. The maximum current I would be calculated as follows: MAX I = (5.0V - diode drop)/R1 ≈ (5.0V - 0.6V)/2kΩ ≈ MAX 2.2mA ...

Page 16

Low-Current SPI/3-Wire RTCs Serial Peripheral Interface (SPI) The serial peripheral interface (SPI synchronous bus for address and data transfer, and is used when interfacing with the SPI bus on specific Motorola micro- controllers, such as the 68HC05C4 and ...

Page 17

CE SCLK SDI R/W SDO *SCLK CAN BE EITHER POLARITY. SERMODE = Figure 4. SPI Single-Byte Write CE SCLK SDI R/W HIGH-Z SDO *SCLK CAN BE EITHER POLARITY. SERMODE = V ...

Page 18

... The INT0 and INT1 outputs are open drain and therefore require external pullup resistors to realize a logic-high output level. The devices contain Maxim’s redundant battery-charge protection circuit to prevent any charging of an external battery. The DS1343 and DS1344 are recognized by Underwriters Laboratories (UL) under file E141114 ...

Page 19

... PART TEMP_RANGE DS1343E-18+* -40NC to +85NC DS1343E-3+* -40NC to +85NC DS1343E-33+ -40NC to +85NC DS1343D-18+* -40NC to +85NC DS1343D-3+* -40NC to +85NC DS1343D-33+ -40NC to +85NC DS1344E-18+* -40NC to +85NC DS1344E-3+* -40NC to +85NC DS1344E-33+ -40NC to +85NC DS1344D-18+* -40NC to +85NC DS1344D-3+* -40NC to +85NC DS1344D-33+ -40NC to +85NC +Denotes a lead(Pb)-free/RoHS-compliant package. ...

Page 20

... DS1344 Typical Operating Characteristics graphs 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. ...

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