Abstract: A current mode synchronous rectification direct current (DC)/DC converter according to the present invention includes: a soft start function unit (in FIG. 1, a reference voltage generation unit (104) enabling a reference voltage REF to slowly increase while starting), for inhibiting a target value of an output voltage VO to be lower than that at a normal action while starting; and an output stabilization function unit (in FIG. 1, a frequency variable type oscillator (110A) generating a clock signal CLK and a slope voltage SLOPE through an oscillation frequency corresponding to a reference voltage REF), for performing at least one of waiting for start of a switching action and reduction of a drive frequency while starting.

Abstract: A switching power supply includes a switching element connected to a power supply voltage and performs ON and OFF operation; a control circuit; a coil; a capacitor connected to the coil and performs a rectifying operation with the coil; an oscillator to output an oscillator signal to the control circuit; a first comparator for comparing a current detection voltage which transforms a detection current flowing through the coil into a voltage, and the feedback voltage according to a difference of a voltage according to an output voltage with a reference voltage; and a second comparator for comparing a deep threshold voltage set as a value higher than the current detection voltage and is lower than the power supply voltage, with the feedback voltage. A Deep Simple Light Load Mode control is introduced to improve efficiency in a light or no-load area in addition to PWM mode in a heavy loading.

Abstract: A semiconductor integrated circuit device (IC1) comprises a semiconductor chip (CHIP1), a first frame lead (FR1), and a second frame lead (FR2). The semiconductor chip (CHIP1) includes common-base transistors (P1, P2), pads (T11, T12) connected to the respective emitters of the common-base transistors (P1, P2), pads (T21, T22) connected to the respective collectors of the common-base transistors (P1, P2), and a means (DRV, ERR, E1) for generating a base signal. The pads (T11, T12) are connected through the respective bonding wires (W11, W12) to the first frame lead (FR1). The pads (T21, T22) are connected through the respective bonding wires (W21, W22) to the second frame lead (FR2). This structure can easily detect breaking of the bonding wires connected in parallel.

Abstract: A switching power supply includes a switching element connected to a power supply voltage and performs ON and OFF operation; a control circuit; a coil; a capacitor connected to the coil and performs a rectifying operation with the coil; an oscillator to output an oscillator signal to the control circuit; a first comparator for comparing a current detection voltage which transforms a detection current flowing through the coil into a voltage, and the feedback voltage according to a difference of a voltage according to an output voltage with a reference voltage; and a second comparator for comparing a deep threshold voltage set as a value higher than the current detection voltage and is lower than the power supply voltage, with the feedback voltage. A Deep Simple Light Load Mode control is introduced to improve efficiency in a light or no-load area in addition to PWM mode in a heavy loading.

Abstract: A switching regulator according to the invention includes: an output switching element; an output feedback circuit generating an error voltage (Verr) according to an error between an output voltage (Vout) and a target voltage; a switching control circuit turning on and off the output switching element based on the error voltage (Verr); a short-circuit current protection circuit that includes a first comparator (CMP1) comparing a reference voltage (Vs) commensurate with an output current (iout) with a first threshold voltage (Vth1) and that instructs, based on this comparison result, whether to drive the switching control circuit; and a drive current generating circuit that includes a second comparator (CMP2) comparing the error voltage (Verr) with a second threshold voltage (Vth2) and that determines, based on this comparison result, whether to supply a drive current (i1) to the first comparator (CMP1).

Abstract: A semiconductor integrated circuit device (IC1) comprises a semiconductor chip (CHIP1), a first frame lead (FR1), and a second frame lead (FR2). The semiconductor chip (CHIP1) includes common-base transistors (P1, P2), pads (T11, T12) connected to the respective emitters of the common-base transistors (P1, P2), pads (T21, T22) connected to the respective collectors of the common-base transistors (P1, P2), and a means (DRV, ERR, E1) for generating a base signal. The pads (T11, T12) are connected through the respective bonding wires (W11, W12) to the first frame lead (FR1). The pads (T21, T22) are connected through the respective bonding wires (W21, W22) to the second frame lead (FR2). This structure can easily detect breaking of the bonding wires connected in parallel.

Abstract: A switching regulator according to the invention includes: an output switching element; an output feedback circuit generating an error voltage (Verr) according to an error between an output voltage (Vout) and a target voltage; a switching control circuit turning on and off the output switching element based on the error voltage (Verr); a short-circuit current protection circuit that includes a first comparator (CMP1) comparing a reference voltage (Vs) commensurate with an output current (iout) with a first threshold voltage (Vth1) and that instructs, based on this comparison result, whether to drive the switching control circuit; and a drive current generating circuit that includes a second comparator (CMP2) comparing the error voltage (Verr) with a second threshold voltage (Vth2) and that determines, based on this comparison result, whether to supply a drive current (i1) to the first comparator (CMP1).

Abstract: A method and apparatus for molten salt electroplating a steel member are disclosed, in which the surface of the steel member is activated by anodic treatment and the molten salt electroplating is performed on the activated surface of said steel member.