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EM3027
Real-Time Clock with I2C or SPI Interface, Crystal Temperature Compensation, Battery Switchover and Trickle Charger

Contents:   • Datasheet
  • General description
  • Features
  • Applications

Datasheet

FactSheet
139 Kb

Datasheet
749 Kb

General description

The EM3027 is an Ultra Low Power CMOS real-time clock IC with two serial interface modes: I2C or SPI. The interface mode is selected by the chip version (see §12). The basic clock is obtained from the 32.768 kHz crystal
oscillator. A thermal compensation of the frequency is based on the temperature measurement and calculation of the correction value. The temperature can be measured internally or be input by an external application
to the register.

The chip provides clock and calendar information in BCD format with alarm possibility. The actual contents are latched at the beginning of a read transmission and afterwards data are read without clock counter data
corruption.

An integrated 16-bit timer can run in Zero-Stop or Auto-Reload mode.
An interrupt request signal can be provided through INT/IRQ pin generated from alarm, timer, voltage detector and Self-Recovery system.

An integrated trickle charger allows recharging backup supply VBack from the main supply voltage VCC through internal resistor(s). The internal device supply will switchover to VCC when VCC is higher than VBack and vice versa.

The device operates over a wide 1.4 to 5.5V supply range and requires only 900 nA at 5V. It can detect internally two supply voltage levels.

Features

• Fully operational from 2.1 to 5.5V
• Supply current typically 600 nA at 1.4V
• Thermal compensated crystal frequency
• Oscillator stability 0.5 ppm / Volt
• Counter for seconds, minutes, hours, day of week, date months, years in BCD format and alarm
• Leap year compensation
• 16-bits timer with 2 working modes
• Two low voltage detection levels VLow1, VLow2
• Automatic supply switchover
• Serial communication via I2C (I2C-bus specification Rev. 03 compatible – see §10.2) or SPI (3-line SPIbus with separate combinable data input and output)
• Thermometer readable by the host
• Trickle charger to maintain battery charge
• Integrated oscillator capacitors
• Two EEPROM and 8 RAM data bytes for application
• Digital Self-Recovery system
• No busy states and no risk of corrupted data while accessing
• One hour periodical configuration registers refresh
• Support for standard UL1642 for Lithium batteries
• Standard temperature range: -40°C to +85°C
• Extended temperature range: -40°C to +125°C
• Packages: TSSOP8, TSSOP14, SO8.

Applications

* Utility meters
* Battery operated and portable equipment
* Consumer electronics
* White/brown goods
* Pay phones
* Cash registers
* Personal computers
* Programmable controller systems
* Data loggers