Abstract: A semiconductor integrated circuit device includes digital output terminals and output circuits. Each output circuit includes a switch, and applies a potential, which corresponds to either one of binary logic levels, to corresponding one of the digital output terminals through the switch. An indefinite range is interposed between one of the binary logic levels and the other one of the binary logic levels. The output circuits respectively include potential fixers. Each potential fixer has an identical circuit arrangement, and the potential fixer fixes a potential applied to the digital output terminals through the switch to a potential corresponding to either one of the binary logic levels apart from the indefinite range, in response to that a short circuit occurs between the digital output terminals.

Abstract: A resolver signal processing circuit for amplifying two phase signals output from a resolver includes first and second amplifier circuits configured to adjust an input in-phase voltage range to output an intended voltage even when a short-circuit arises in the resolver. The resolver signal processing circuit further includes first and second short-circuit detection circuits configured to detect the short-circuit arising in the resolver and short-circuits in first and second signal input paths from the resolver to the first and the second amplifier circuits, respectively, and first and second voltage adjusting units configured to adjust input in-phase voltage ranges of the first and second amplifier circuits when the first and second short-circuit detection circuits detect short-circuits, respectively. The first and second amplifier circuits are configured to adjust the input in-phase voltage ranges, respectively.

Abstract: A semiconductor integrated circuit device includes digital output terminals and output circuits. Each output circuit includes a switch, and applies a potential, which corresponds to either one of binary logic levels, to corresponding one of the digital output terminals through the switch. An indefinite range is interposed between one of the binary logic levels and the other one of the binary logic levels. The output circuits respectively include potential fixers. Each potential fixer has an identical circuit arrangement, and the potential fixer fixes a potential applied to the digital output terminals through the switch to a potential corresponding to either one of the binary logic levels apart from the indefinite range, in response to that a short circuit occurs between the digital output terminals.

Abstract: A switching power supply device includes a switching element and a diode and generates an output voltage by supplying current to a coil by controlling the switching element to turn on and off. A current detection circuit detects a current flowing in the switching element. A voltage detection circuit monitors a voltage at an output terminal OUT. A control circuit controls the switching element to turn on and off by a current control mode based on a current detection signal and a feedback voltage. The control circuit drives a bleeder circuit to supply a load current to the output terminal when a level of the current detection signal is lower than a predetermined level.

Abstract: A semiconductor integrated circuit device comprises a first oscillation circuit which is supplied with an external DC power and generates a first clock, a power supply circuit which is supplied with the external DC power and outputs a DC voltage by a switching operation based on the first clock, a second oscillation circuit which generates a second clock, a load circuit which is supplied with the output DC voltage and operates based on the second clock, a monitor which monitors an operation of the first oscillation circuit based on the second clock under a state that the first and second oscillation circuits are in operation, and a switch circuit which switches to supply the power supply circuit with the second clock in place of the first clock when the monitor circuit detects a failure of the first oscillation circuit.

Abstract: In an integrated circuit formed into a single chip, a drive signal generating unit generates drive signals for switching elements of a power conversion circuit. A monitoring unit monitors a microcomputer that calculates generation information that is information used to generate the drive signals, and determines whether or not an abnormality has occurred in the microcomputer. An angle converting unit converts an output signal of an angle sensor to rotation angle information of a rotating electric machine. A drive signal generating unit generates the drive signals for controlling driving of the rotating electric machine based on the generation information and the rotation angle information when the monitoring unit determines that an abnormality has not occurred in the microcomputer, and generates the drive signals based on the rotation angle information, without using the generation information, when the monitoring unit determines that an abnormality has occurred in the microcomputer.

Abstract: A switching power supply device includes a switching element and a diode and generates an output voltage by supplying current to a coil by controlling the switching element to turn on and off. A current detection circuit detects a current flowing in the switching element. A voltage detection circuit monitors a voltage at an output terminal OUT. A control circuit controls the switching element to turn on and off by a current control mode based on a current detection signal and a feedback voltage. The control circuit drives a bleeder circuit to supply a load current to the output terminal when a level of the current detection signal is lower than a predetermined level.

Abstract: In an integrated circuit formed into a single chip, a drive signal generating unit generates drive signals for switching elements of a power conversion circuit. A monitoring unit monitors a microcomputer that calculates generation information that is information used to generate the drive signals, and determines whether or not an abnormality has occurred in the microcomputer. An angle converting unit converts an output signal of an angle sensor to rotation angle information of a rotating electric machine. A drive signal generating unit generates the drive signals for controlling driving of the rotating electric machine based on the generation information and the rotation angle information when the monitoring unit determines that an abnormality has not occurred in the microcomputer, and generates the drive signals based on the rotation angle information, without using the generation information, when the monitoring unit determines that an abnormality has occurred in the microcomputer.

Abstract: A temperature detecting apparatus includes an integrated circuit that integrates an overheating detecting circuit, a breakage detecting circuit and a disabling circuit, and an element connection terminal connecting a temperature sensing element. The disabling circuit disables the breakage detecting circuit from detecting a breakage of wire when a voltage at the element connection exceeds a disabling threshold which is set higher than an overheating detection threshold and a breakage detection threshold. A predetermined voltage higher than the disabling threshold is applied to the element connection terminal when the temperature sensing element is not connected to the element connection terminal.

Abstract: A charging current is supplied to the gate (control terminal) of a driven switching device during an on-state command interval, for raising the gate voltage to an on-state value. Otherwise, discharging of the gate capacitance is enabled, for decreasing the gate voltage to an off-state value. A second switching device is connected between the gate and a circuit point held at the off-state voltage value, and is maintained in an on state while the gate discharging is enabled. At a first time point, the gate voltage rises above a threshold value. At a second time point, a voltage detection circuit detects that that the gate voltage has risen above the threshold value, causing the second switching device to be set in the off state. It is ensured that the delay between the first and second time points is shorter than a minimum duration of an on-state command interval.

Abstract: A charging current is supplied to the gate (control terminal) of a driven switching device during an on-state command interval, for raising the gate voltage to an on-state value. Otherwise, discharging of the gate capacitance is enabled, for decreasing the gate voltage to an off-state value. A second switching device is connected between the gate and a circuit point held at the off-state voltage value, and is maintained in an on state while the gate discharging is enabled. At a first time point, the gate voltage rises above a threshold value. At a second time point, a voltage detection circuit detects that that the gate voltage has risen above the threshold value, causing the second switching device to be set in the off state. It is ensured that the delay between the first and second time points is shorter than a minimum duration of an on-state command interval.

Abstract: A temperature detecting apparatus includes an integrated circuit that integrates an overheating detecting circuit, a breakage detecting circuit and a disabling circuit, and an element connection terminal connecting a temperature sensing element. The disabling circuit disables the breakage detecting circuit from detecting a breakage of wire when a voltage at the element connection exceeds a disabling threshold which is set higher than an overheating detection threshold and a breakage detection threshold. A predetermined voltage higher than the disabling threshold is applied to the element connection terminal when the temperature sensing element is not connected to the element connection terminal.

Abstract: An input protection circuit comprises a reverse flow preventing diode, a series circuit of a diode and a Zener diode, and a current path forming resistor or diode. The reverse flow preventing diode is connected between an input terminal and an internal circuit. The series circuit is connected between the input terminal and a ground. The current path forming resistor or diode is connected between a first common connection point of the reverse flow preventing diode and the internal circuit and a second common connection point of the series circuit, and sets a potential at the first common connection point to be less than a potential at the input terminal when the surge voltage is applied to the input terminal.

Abstract: An input protection circuit comprises a reverse flow preventing diode, a series circuit of a diode and a Zener diode, and a current path forming resistor or diode. The reverse flow preventing diode is connected between an input terminal and an internal circuit. The series circuit is connected between the input terminal and a ground. The current path forming resistor or diode is connected between a first common connection point of the reverse flow preventing diode and the internal circuit and a second common connection point of the series circuit, and sets a potential at the first common connection point to be less than a potential at the input terminal when the surge voltage is applied to the input terminal.

Abstract: An image format conversion device that performs format conversion between image formats in an image format group comprising at least a first image format having a first horizontal dot number and a second image format having a second horizontal dot number smaller than the first horizontal dot number, has a changeover circuit that changes over the order of the horizontal filter and vertical filter in accordance with the type of input or output image format. If the input image data is of the first image format, the horizontal filter is provided on the upstream side and the vertical filter is provided on the downstream side. If the output image data is of the first image format, the vertical filter is provided on the upstream side and the horizontal filter is provided on the downstream side.