The MCP795W10 SPI RTCC is highly integrated with memory and advanced features normally found in higher priced devices. By starting with a basic real-time clock, digital trimming was added for higher accuracy, a battery switchover for backup power, a timestamp to log power failures and three types of memory, which includes SRAM, EEPROM and a blank unique ID in a locked section of EEPROM that can also be ordered with a 48-bit or 64-bit MAC Address. Then by adding a watchdog timer and two programmable event detect inputs, lower power and more system robustness can be achieved by performing these functions and allowing the MCU to sleep for longer periods of time.
Additional Features Full Featured RTCC targets smart energy, communications and home appliance applications.
Low Power Operation
VCC Min = 1.8V
Icc < 1 µA Typical Standby Current
Low Backup Power
VBAT Min = 1.3V
Ibat < 700nA Typical Timekeeping & SRAM Retention Current
Automatic Battery Switchover with Timestamp
VCC to VBAT (VCC Lost)
VBAT to VCC (VCC Restored)
Dual configurable alarms with a 0.01 sec count on one alarm
IRQ (VCC or VBAT)
WDO (VCC)
Clock Out frequencies: 32.768, 8.192 & 4.096 KHz and 1 Hz
Digital Trimming Range from -255 to + 255 ppm in 1 ppm steps
Adjustm up to 22 seconds/day
Watchdog Timer - Dual Retriggers
SPI Bus or EVHS digital input
Dual Configurable Event Detects
High speed with programmable pulse count (EVHS)
Low speed with programmable debounce delay (EVLS)
EEPROM has 8 Bytes/Page with Block Sector write protection
Protect: None, 1/4, 1/2 or all of array
Factory standard programming or custom ID available
The MCP795W10 SPI RTCC is highly integrated with memory and advanced features normally found in higher priced devices. By starting with a basic real-time clock, digital trimming was added for higher accuracy, a battery switchover for backup power, a timestamp to log power failures and three types of memory, which includes SRAM, EEPROM and a blank unique ID in a locked section of EEPROM that can also be ordered with a 48-bit or 64-bit MAC Address. Then by adding a watchdog timer and two programmable event detect inputs, lower power and more system robustness can be achieved by performing these functions and allowing the MCU to sleep for longer periods of time.
Additional Features
Full Featured RTCC targets smart energy, communications and home appliance applications.
- Low Power Operation
- VCC Min = 1.8V
- Icc < 1 µA Typical Standby Current
- Low Backup Power
- VBAT Min = 1.3V
- Ibat < 700nA Typical Timekeeping & SRAM Retention Current
- Automatic Battery Switchover with Timestamp
- VCC to VBAT (VCC Lost)
- VBAT to VCC (VCC Restored)
- Dual configurable alarms with a 0.01 sec count on one alarm
- IRQ (VCC or VBAT)
- WDO (VCC)
- Clock Out frequencies: 32.768, 8.192 & 4.096 KHz and 1 Hz
- Digital Trimming Range from -255 to + 255 ppm in 1 ppm steps
- Adjustm up to 22 seconds/day
- Watchdog Timer - Dual Retriggers
- SPI Bus or EVHS digital input
- Dual Configurable Event Detects
- High speed with programmable pulse count (EVHS)
- Low speed with programmable debounce delay (EVLS)
- EEPROM has 8 Bytes/Page with Block Sector write protection
- Protect: None, 1/4, 1/2 or all of array
- Factory standard programming or custom ID available
