Solar Mailbox Project Circuit, Solar Mailbox project This article refers to the address: http:// Final external Realization The purpose of this project is to develop a self sufficient Mailbox (real one) that will be powered only by the sun and that will display the number of the house, but only in accordance with the battery level. The system must work autonomously when there Is or not enough light to charge the battery. At night: Central Digit On, other one in PWM Modes The Mailbox is powered by a 5V/80mA Polysilicon solar cell. The sun energy is used to charge a 3 AA NiMH battery. Schematic Explanation Click on image to download fullresolution schematic Charger_Control: The Solar Cell is charging the 3 AA NiMH cell trough the "Sziklai pair" composed by the T5 (2N2907) and T4 (1N1711). This is necessary to ensure a very low reverse current when the sun is off and the battery at Full charge. Control of the charge can be applied on D5 with a "1" level from the PIC , which will reverse the T6 that define the current in T5 base. For Battery protection purpose, the value of Zener diode DZ6 must be 4.6V To prevent the battery for over-charging which will degrade significantly its life time. This function is not yet managed by the PIC program and is reserved for further use. LED control signal is the OR between a PWM signal, that ensure a constant background level of light plus a "blinking" part which is the Sequence generated by the PIC. Sun_Sense: Just a low pas filter composed of R8 and C6. Beware that leakage current from the PIC can affect the level. This prevent R8 to be bellow 39KOhms. Vbat_sense: These 2 diodes in serial create a 1.3V constant voltage that can be measured by the PIC to determine the level of the battery. This function is not yet managed by the PIC program and is reserved for further use. Cpu: The PIC16F628 operates with a 32.768KHz crystal oscillator. This frequency has been selected, not to consume too much. In this condition, the PIC is able to operate down to 3V. Behavioral Explanations Apart when the Battery is totally low, the PIC is running and infinity loop which period is approximately 1 second, the red led is blinking accordingly. During the light of the Sun Sense is is and the PIC is not performing any operation (than the 1 second blinking loop). The Green led is on. If the battery voltage is low enough, the Solar cell is charging it. Is above 4.6V (3 times 1.3V), then the DZ6 is drawing the current to ground protecting the battery cells. In the future Vbat_sense and Stop_Charge should be used. During night the SunSense signal get low and the PIC is programmed t - Generate a PWM signal (100Hz, Duty Cycle of 5%) on the PWM pin - Generate a "blinking" sequence on the 3 separate control signals (1 minute period) PIC Source code The mechanical Buzzer uses a magnet to move a reed up and down quickly to emit a lower-pitch buzz! It's quieter than the piezoelectric buzzer but uses more power, so you the terminals will have to be closer to the
battery packs. To use them, you'll need to match the wire colors to the
wires from the battery pack. Piezo Beeper,Mechanical Buzzer,Piezo Mechanical Buzzer,Low Frequency Mechanical Buzzer Jiangsu Huawha Electronices Co.,Ltd , https://www.hnbuzzer.com
At night, when there is no light, the PIC is driving the 3 Digit according with a sequence which is defined in its program given in Annex. 
