Abstract: A pulse controlled charging method for higher temperature charging in addition to the current-reducing operation at ambient temperature. A specific software control strategy for these purposes is proposed, which can be divided into two parts, (a) two-stage charging current control at ambient temperature, which sets different current-limiting transient points for chargers with different outputs; (b) high-temperature pulse charging, which utilizes an internal NTC (Negative temperature coefficient) thermistor inside the charger to detect the internal temperature of the charger, if the temperature exceeds a pre-determined value, the charging process will be stopped for a period of time to avoid the temperature of the charger becoming too high.

Abstract: A dual port battery charging system comprises a charger, a microcontroller, a first switching unit, a second switching unit, a first charging interface and a second charging interface, wherein the microcontroller is coupled with the first switching unit, the second switching unit, the first charging interface and the second charging interface to detect a voltage and a current of a first battery pack or a second battery pack, and the microcontroller can control the first switching unit and the second switching unit to charge the first battery pack and the second battery pack separately or alternately.

Abstract: A dual port battery charging system comprises a charger, a microcontroller, a first switching unit, a second switching unit, a first charging interface and a second charging interface, wherein the microcontroller is coupled with the first switching unit, the second switching unit, the first charging interface and the second charging interface to detect a voltage and a current of a first battery pack or a second battery pack, and the microcontroller can control the first switching unit and the second switching unit to charge the first battery pack and the second battery pack separately or alternately.

Abstract: A pulse controlled charging method for higher temperature charging in addition to the current-reducing operation at ambient temperature. A specific software control strategy for these purposes is proposed, which can be divided into two parts, (a) two-stage charging current control at ambient temperature, which sets different current-limiting transient points for chargers with different outputs; (b) high-temperature pulse charging, which utilizes an internal NTC (Negative temperature coefficient) thermistor inside the charger to detect the internal temperature of the charger, if the temperature exceeds a pre-determined value, the charging process will be stopped for a period of time to avoid the temperature of the charger becoming too high.

Abstract: The present invention discloses a modulation method for inverter AC waveform. The detailed steps of the modulation method comprise: generating an AC waveform which includes at least three time periods, wherein a middle time period corresponds to a peak segment of the AC waveform, and the remaining time periods are averaged corresponding to the rise and decline segments of the AC waveform; and during the at least three time periods, a duty ratio modulated driving signal is generated according to different duty ratios, so as to modulate the AC waveform and generate a stepping AC waveform converted from the AC waveform. The stepping AC waveform generated by the modulation method of the present invention will have a longer dwell time at zero potential, so as to turn on the AC electric tool more efficiently.

Abstract: An electronic circuit breaker of a power having dual output ports has an input port, two output ports, two field effect transistors, two current detection circuits and two control circuits. The control circuit has a silicon controlled rectifier (SCR) and an activation circuit detecting if a short circuit is present at one of the output ports through one of the current detection circuits, activating the SCR to turn off a corresponding FET after the occurrence of the short circuit, and disconnecting a corresponding output port from the input port. Due to the characteristics of the SCR, the SCR, once activated, stays in an on state between its anode and cathode. After the current of the output returns to its normal state, the FET is still turned off. Accordingly, high-frequency large current arising from alternately switching between the on and off states of the FET can be avoided.

Abstract: An electronic circuit breaker of a power having dual output ports has an input port, two output ports, two field effect transistors, two current detection circuits and two control circuits. The control circuit has a silicon controlled rectifier (SCR) and an activation circuit detecting if a short circuit is present at one of the output ports through one of the current detection circuits, activating the SCR to turn off a corresponding FET after the occurrence of the short circuit, and disconnecting a corresponding output port from the input port. Due to the characteristics of the SCR, the SCR, once activated, stays in an on state between its anode and cathode. After the current of the output returns to its normal state, the FET is still turned off. Accordingly, high-frequency large current arising from alternately switching between the on and off states of the FET can be avoided.

Abstract: A repairable multi-chip module which is used when failures are found after an electrically and functionally testing is described. A substrate is provided. At least a first normal die having a plurality of first pads is mounted on the substrate, wherein the first normal die is surrounded by the pads. At least a failed die is mounted on the substrate. Several third pads and fourth pads are mounted on the substrate, wherein the third pads surrounds the first normal die and the failed die and the fourth pads surrounds the first pads. At least a second normal die having a plurality of second pads is stacked over the failed die. Several conductive wires are electrically connecting the first pads on the first normal die and the third pads. Several reworking conductive wires are electrically connecting the second pads on the second normal die and the fourth pads.