DS1343:Low-Current SPI/3-Wire RTCs

Compatible with Any 32.768kHz Crystal

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 active-low 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 interrupt 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 VCC or VBAT. 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.

Key Features
  • Low Timekeeping Current of 250nA (typ)
  • Compatible with Crystal ESR Up to 100kΩ
  • Versions Available to Support Either 6pF or 12.5pF Crystals
  • RTC Counts Seconds, Minutes, Hours, Day, Date, Month, and Year with Leap Year Compensation Valid Through 2099
  • Power-Fail and Switch Circuitry
  • Three Operating Voltages
    • 1.8V ±5%
    • 3.0V ±10%
    • 3.3V ±10%
  • Trickle-Charge Capability
  • Maintain Time Down to 1.15V (typ)
  • Support Motorola SPI Modes 1 and 3, or Standard 3-Wire Interface
  • Burst Mode for Reading/Writing Successive Addresses in Clock/RAM
  • 96-Byte Battery-Backed NV RAM for Data Storage
  • Two Time-of-Day Alarms with Two Interrupt Outputs
  • Industrial Temperature Range
  • 20-Pin TSSOP or 14-Pin TDFN Package
Applications/Uses
  • Embedded Timestamping
  • Handheld Devices
  • Medical
  • Telematics
DataSheet
titleDownload file
DS1343-DS1344 Data SheetDS1343-DS1344.pdf
Parametrics
Part NumberInterfaceVSUPPLY
(V)
Time Keeping Current
(nA)
CL
(pF)
Memory TypeMemory Size
(Bytes)
Time of Day AlarmsFunctionsPackage/PinsBudgetary
Price
typSee Notes
DS13433-Wire
SPI
1.8
3
3.3
2506NV SRAM962RTCTDFN-EP/14
TSSOP/20
$2.03 @1k
DS13441.8
3.3
5.5
12.5TDFN-EP/14
TSSOP/20
$2.05 @1k
Quality and Environmental Data
Related Products
  • DS1342:Low-Current I²C RTCs for High-ESR Crystals
  • DS1341:Low-Current I²C RTCs for High-ESR Crystals
  • DS1305:Serial Alarm Real-Time Clock
Ordering Information
Part NumberStatusRecommended ReplacementPackageTempRoHS
DS1343D-18+ActiveTDFN-EP,;14 pin;9.6 mm²-40°C to +85°CLead Free
DS1343D-18+T&RActiveTDFN-EP,;14 pin;9.6 mm²-40°C to +85°CLead Free
DS1343D-3+ActiveTDFN-EP,;14 pin;9.6 mm²-40°C to +85°CLead Free
DS1343D-3+T&RActiveTDFN-EP,;14 pin;9.6 mm²-40°C to +85°CLead Free
DS1343D-33+ActiveTDFN-EP,;14 pin;9.6 mm²-40°C to +85°CLead Free
DS1343D-33+T&RActiveTDFN-EP,;14 pin;9.6 mm²-40°C to +85°CLead Free
DS1343E-18+ActiveTSSOP,;20 pin;45.2 mm²-40°C to +85°CLead Free
DS1343E-18+T&RActiveTSSOP,;20 pin;45.2 mm²-40°C to +85°CLead Free
DS1343E-3+ActiveTSSOP,;20 pin;45.2 mm²-40°C to +85°CLead Free
DS1343E-3+T&RActiveTSSOP,;20 pin;45.2 mm²-40°C to +85°CLead Free
Part NumberStatusRecommended ReplacementPackageTempRoHS
DS1343E-33+ActiveTSSOP,;20 pin;45.2 mm²-40°C to +85°CLead Free
DS1343E-33+T&RActiveTSSOP,;20 pin;45.2 mm²-40°C to +85°CLead Free
DS1343-DS1344.pdf DS1344
Tips for Writing Bulletproof Real-Time Clock Control Code DS3234
State Machine Logic in Binary-Coded Decimal (BCD)-Formatted Real-Time Clocks DS3234
Oscillator Design Considerations for Low-Current Applications DS17885
Selecting a Backup Source for Real-Time Clocks DS3234
Interfacing an SPI RTC with a Motorola DSP DS3234
Interfacing an SPI-Interface RTC with a PIC Microcontroller DS3234
Lithium Coin-Cell Batteries: Predicting an Application Lifetime DS9034PCX
Design Considerations for Maxim Real-Time Clocks DS3234
Interfacing SPI Real-Time Clocks (RTCs) with a Microcontroller DS3234
Using the Dallas Tricklecharge Timekeeper DS1672
Crystal Considerations with Maxim Real-Time Clocks (RTCs) DS3234
DS1343.pdf DS1343