Produktbeskrivning
Witty Pi is an add-on board that adds realtime clock and power management to your Raspberry Pi. It can define your Raspberry Pi's ON/OFF sequence, and significantly reduce the energy usage. Witty Pi 4 is the fourth generation of Witty Pi and it has these hardware resources onboard:
Factory calibrated and temperature compensated realtime clock with ±2ppm accuracy.
Dedicated temperature sensor with 0.125 °C resolution.
On-board DC/DC converter that accepts up to 30V DC.
AVR 8-bit microcontroller (MCU) with 8 KB programmable flash.
Remarks: Witty Pi's software is developed and tested under Raspberry Pi OS (the former Raspbian). If you want to use Witty Pi on other Linux distributions, you may not be able to install the software without error. This is due to the fact that different Linux distributions have different packages installed by default, and their default users may have different privilege settings too. You may need to modify the software installation script or even the software itself, however this will need you to have some knowledge of BASH programming.
The realtime clock (RTC) on Witty Pi 4 has been calibrated in the factory and Witty Pi 4's firmware also makes temperature compensation for the crystal. This makes the RTC very accurate and the actual annual error is limited within ±2ppm. When your Raspberry Pi boots up, the time stored in the RTC will overwrite the system time. As a result, your Raspberry Pi knows the correct time even without accessing the Internet. You can schedule the startup and/or shutdown of your Raspberry Pi, and make it a time-controlled device. You can even define a schedule script to schedule complicated ON/OFF sequence for your Raspberry Pi.
Scheduling the ON/OFF sequence for Raspberry Pi is the most popular feature of Witty Pi, and it is extremely useful for systems that powered by battery. By only turning on Raspberry Pi when necessary, the battery can be used way much longer with Witty Pi installed.
The temperature sensor on Witty Pi 4 has 0.125 °C resolution. The temperature data is used for compensating the crystal and make the RTC more accurate.
You can also specific the action (startup or shutdown) when temperature goes above or below the preset threshold. Which means you can also make your Raspberry Pi a temperature-controlled device.
Witty Pi 4 comes with a DC/DC converter on board, which allows you to power your device with 6~30V power supply. You can also power your device with 5V via the USB type C connector.
Witty Pi 4 also implements an e-Latching power switch, which is very similar to the power switch on your PC/Laptop computer. You can gracefully turn on/off your Raspberry Pi with a single tap on the button. The software running in background will execute the shutdown command before the power gets cut, this avoid the data corruption caused by hard shutdown.
Witty Pi 4 supports all Raspberry Pi models that has the 40-pin GPIO header, including A+, B+, 2B, Zero, Zero W, Zero 2 W, 3B, 3B+, 3A+ and 4B. You will need to solder the 40-pin header to Zero/Zero W/Zero 2 W model beforehand, so they can make reliable connection with Witty Pi.
Witty Pi 4 uses MCU to emulate a single I2C device with default address 0x08, and also map all I2C registers in realtime clock and temperature sensor as virtual I2C registers in the same device. You can access all I2C registers in realtime clock and temperature sensor via the single I2C device emulated by Witty Pi 4.
The advantage of this new design is that Witty Pi 4 hides other I2C devices (realtime clock, temperature sensor) and becomes the proxy of them to talk to Raspberry Pi. Because the I2C address used by Witty Pi 4 can be changed to any value, you can always avoid the I2C address conflicting.
* Dimension: 65mm x 56mm x 19mm
* Weight: 23g (net weight without accessories)
* Microcontroller: ATtiny841
* Realtime Clock: PCF85063A, calibrated in factory.
* Temperature Sensor: LM75B
* DC/DC Converter: MP4462
* MOSFET Switch: AO4616
* Battery: CR2032 (for time keeping when power supply is disconnected)
* Power In: DC 5V (via USB type C connector)
* or DC 6V~30V (via XH2.54 connector)
* Output Current: Up to 3A for Raspberry Pi and its peripherals
* Standby Current: ~0.5mA
* Operating Environment: Temperature -30°C~80°C (-22°F~176°F)
* Humidity 0~80%RH, no condensing, no corrosive gas
Factory calibrated and temperature compensated realtime clock with ±2ppm accuracy.
Dedicated temperature sensor with 0.125 °C resolution.
On-board DC/DC converter that accepts up to 30V DC.
AVR 8-bit microcontroller (MCU) with 8 KB programmable flash.
Remarks: Witty Pi's software is developed and tested under Raspberry Pi OS (the former Raspbian). If you want to use Witty Pi on other Linux distributions, you may not be able to install the software without error. This is due to the fact that different Linux distributions have different packages installed by default, and their default users may have different privilege settings too. You may need to modify the software installation script or even the software itself, however this will need you to have some knowledge of BASH programming.
The realtime clock (RTC) on Witty Pi 4 has been calibrated in the factory and Witty Pi 4's firmware also makes temperature compensation for the crystal. This makes the RTC very accurate and the actual annual error is limited within ±2ppm. When your Raspberry Pi boots up, the time stored in the RTC will overwrite the system time. As a result, your Raspberry Pi knows the correct time even without accessing the Internet. You can schedule the startup and/or shutdown of your Raspberry Pi, and make it a time-controlled device. You can even define a schedule script to schedule complicated ON/OFF sequence for your Raspberry Pi.
Scheduling the ON/OFF sequence for Raspberry Pi is the most popular feature of Witty Pi, and it is extremely useful for systems that powered by battery. By only turning on Raspberry Pi when necessary, the battery can be used way much longer with Witty Pi installed.
The temperature sensor on Witty Pi 4 has 0.125 °C resolution. The temperature data is used for compensating the crystal and make the RTC more accurate.
You can also specific the action (startup or shutdown) when temperature goes above or below the preset threshold. Which means you can also make your Raspberry Pi a temperature-controlled device.
Witty Pi 4 comes with a DC/DC converter on board, which allows you to power your device with 6~30V power supply. You can also power your device with 5V via the USB type C connector.
Witty Pi 4 also implements an e-Latching power switch, which is very similar to the power switch on your PC/Laptop computer. You can gracefully turn on/off your Raspberry Pi with a single tap on the button. The software running in background will execute the shutdown command before the power gets cut, this avoid the data corruption caused by hard shutdown.
Witty Pi 4 supports all Raspberry Pi models that has the 40-pin GPIO header, including A+, B+, 2B, Zero, Zero W, Zero 2 W, 3B, 3B+, 3A+ and 4B. You will need to solder the 40-pin header to Zero/Zero W/Zero 2 W model beforehand, so they can make reliable connection with Witty Pi.
Witty Pi 4 uses MCU to emulate a single I2C device with default address 0x08, and also map all I2C registers in realtime clock and temperature sensor as virtual I2C registers in the same device. You can access all I2C registers in realtime clock and temperature sensor via the single I2C device emulated by Witty Pi 4.
The advantage of this new design is that Witty Pi 4 hides other I2C devices (realtime clock, temperature sensor) and becomes the proxy of them to talk to Raspberry Pi. Because the I2C address used by Witty Pi 4 can be changed to any value, you can always avoid the I2C address conflicting.
* Dimension: 65mm x 56mm x 19mm
* Weight: 23g (net weight without accessories)
* Microcontroller: ATtiny841
* Realtime Clock: PCF85063A, calibrated in factory.
* Temperature Sensor: LM75B
* DC/DC Converter: MP4462
* MOSFET Switch: AO4616
* Battery: CR2032 (for time keeping when power supply is disconnected)
* Power In: DC 5V (via USB type C connector)
* or DC 6V~30V (via XH2.54 connector)
* Output Current: Up to 3A for Raspberry Pi and its peripherals
* Standby Current: ~0.5mA
* Operating Environment: Temperature -30°C~80°C (-22°F~176°F)
* Humidity 0~80%RH, no condensing, no corrosive gas