| 摘要 |
A battery power detecting device and method are provided. It can detect the battery power of a battery rod in a non-disposable electronic cigarette. The battery power detecting device includes a spare battery unit, a current sampling unit, a voltage sampling unit, a charging control unit, a main control unit, and a power display unit. The main control unit is configured to control the charging control unit to adjust and output the voltage provided by the spare battery unit according to the charging current sampled by the current sampling unit, in order to make the charging current equal to a preset current. Then, the main control unit calculates the battery power of the battery rod according to the charging voltage currently sampled by the voltage sampling unit, and finally controls the power display unit to display the battery power of the battery rod. |
| 主权项 |
1. A battery power detecting device configured to detect the battery power of a battery rod of an electronic cigarette, comprising: a spare battery unit, a current sampling unit, a voltage sampling unit, a charging control unit, a main control unit, and a power display unit;
the main control unit is connected to the spare battery unit, the current sampling unit, the voltage sampling unit, the charging control unit, and the power display unit respectively; the current sampling unit, the voltage sampling unit, and the charging control unit are all connected to the battery rod; and both the charging control unit and the power display unit are connected to the spare battery unit; the main control unit includes a microprocessor; the battery rod includes a positive output end and a negative output end; the charging control unit includes a MOS transistor, a boost converter chip, a triode, an inductor, a diode, a first resistor, a second resistor, and a third resistor; and the type of the boost converter chip is CP2121; the fourth pin of the boost converter chip is connected to the microprocessor, and the fourth pin of the boost converter chip is further connected to the base of the triode via the first resistor; the base of the triode is further connected to the ground via the second resistor, the emitter of the triode is connected to the ground, the collector of the triode is connected to the source of the MOS transistor via the third resistor, and the collector of the triode is further connected to the gate of the MOS transistor; the source of the MOS transistor is configured to receive a voltage provided by the spare battery unit, and the drain of the MOS transistor is connected to the anode of the diode via the inductor; the fifth pin of the boost converter chip is connected between the MOS transistor and the inductor, the first pin of the boost converter chip is connected between the diode and the inductor, and the cathode of the diode is connected to the positive output end. |
