Abstract: When the overcurrent detection circuit detects that a voltage drop of the output transistor exceeds a threshold value, it turns on the switch by the first operational amplifier. In the shut-down signal generation circuit, the capacitor is charged with a charge current determined based on a current depending on the voltage drop of the output transistor. The shut-down signal generation circuit generates a shut-down signal to turn off the output switch when a voltage of the capacitor exceeds a voltage of the inverting input terminal of the second operational amplifier.

Abstract: The power IC includes an output transistor M0 which controls a current flowing into an L load, a dynamic clamp circuit which clamps an overvoltage, and a clamp control circuit which controls the operation of the dynamic clamp circuit. The clamp control circuit activates the dynamic clamp circuit, which is normally inactive, upon detection of a back EMF by the L load.

Abstract: A charge charge-pump circuit according to an embodiment of the invention includes: a first boosting capacitor; a second boosting capacitor series-connected with the first boosting capacitor; a first boosting clock driver connected between the first boosting capacitor and the second boosting capacitor and boosting the first boosting capacitor; and a second boosting clock driver connected with the second boosting capacitor and boosting the first boosting capacitor and the second boosting capacitor after the first boosting clock driver boosts the first boosting capacitor.

Abstract: The power IC includes an output transistor MO which controls a current flowing into an L load, a dynamic clamp circuit which clamps an overvoltage, and a clamp control circuit which controls the operation of the dynamic clamp circuit. The clamp control circuit activates the dynamic clamp circuit, which is normally inactive, upon detection of a back EMF by the L load.

Abstract: In a power supply control apparatus for controlling supplying of power from a battery to a load, a power supply switch circuit chip is connected to the load, to turn ON and OFF a connection between the battery and the load. A control circuit chip is powered by the battery to control the power supply switch circuit chip. The control circuit chip is constructed by an internal circuit for controlling the power supply switch circuit chip, a parasitic diode connected in parallel to the internal circuit, and a depletion type MOS transistor connected in series to the internal circuit. Diode characteristics of the parasitic diode and the depletion type MOS transistor are opposite to each other with respect to the battery. That is, in a forward-connected battery state, the parasitic diode and the depletion type MOS transistor are reverse-biased and forward-biased, respectively.

Abstract: When the overcurrent detection circuit detects that a voltage drop of the output transistor exceeds a threshold value, it turns on the switch by the first operational amplifier. In the shut-down signal generation circuit, the capacitor is charged with a charge current determined based on a current depending on the voltage drop of the output transistor. The shut-down signal generation circuit generates a shut-down signal to turn off the output switch when a voltage of the capacitor exceeds a voltage of the inverting input terminal of the second operational amplifier.

Abstract: A power semiconductor circuit drives a load connected an output terminal. An output switch switches the output terminal to either one of an on-state and an off state. An internal state signal terminal produces an internal state of the circuit as a signal. An internal state signal switch switches the internal state signal terminal to either one of an on-state and an off-state. An internal state sensor detects the internal state of the circuit. A logic circuit is given with a control signal from an external control circuit, a detecting signal of the internal state sensor, and the signal from the internal state signal terminal, and switches the output switch and the internal state signal switch to either one of the on-state and the off-state on the basis of the given signals.

Abstract: A power semiconductor circuit drives a load connected an output terminal. An output switch switches the output terminal to either one of an on-state and an off state. An internal state signal terminal produces an internal state of the circuit as a signal. An internal state signal switch switches the internal state signal terminal to either one of an on-state and an off-state. An internal state sensor detects the internal state of the circuit. A logic circuit is given with a control signal from an external control circuit, a detecting signal of the internal state sensor, and the signal from the internal state signal terminal, and switches the output switch and the internal state signal switch to either one of the on-state and the off-state on the basis of the given signals.

Abstract: A current sensing circuit is provided for a current driving transistor to see whether or not excess current flows into an external load, a vertical transistor serves as the current driving transistor and a resistor for converting the amount of driving current to a potential drop, and a drain node connected to a power supply line, and a source node connected to the external load and a sensing node connected to a voltage comparator are provided on a major surface of a semiconductor substrate so as to supply various electric powers through a plurality of current driving transistors respectively accompanied with current sensing circuits and integrated on a single semiconductor chip to the external load.

Abstract: An overheat detecting circuit for detecting overheating of an integrated circuit has a band gap voltage source circuit for emitting a substantially constant voltage, which is connected between a positive power source line and a reference power source line. The voltage output from the band gap voltage source circuit is independent of the power source voltages and the ambient temperature. A constant current source circuit is provided for generating a constant current according to the output of the band gap voltage source circuit. At least one circuit element is connected between an output terminal of the constant current source circuit and the reference power source line. The circuit element has a predetermined temperature coefficient. A comparator compares the output voltage of the band gap voltage source circuit with that of the circuit element.