Overcurrent detection method and detection circuit
First Claim
1. A method for detecting an overcurrent in a load-driving apparatus provided with a switching semiconductor element between a battery power source and a load, comprising:
- detecting a variable value corresponding to current flowing through the switching semiconductor element;
setting a reference value as a function of battery voltage of the battery power source so that an overcurrent detection current value for indicating an overcurrent condition increases as an amount of reduction in the battery voltage of the battery power source becomes smaller;
comparing the variable value corresponding to the current flowing through the switching semiconductor element with the reference value; and
determining the overcurrent condition exist when the variable value reaches the reference value.
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Abstract
In a load-driving apparatus with a FET between a battery and a load, an overcurrent detection circuit has a function generation circuit with a voltage divider circuit and a comparator. The voltage divider circuit has a pair of resistors connected to a drain of the FET, and a Zener diode connected to a connection point in parallel to the second resistor. The comparator compares a reference voltage at the connection point with a variable voltage of the FET, and outputs an overcurrent detection signal when the variable voltage becomes lower than the reference voltage. When no overcurrent exists and the battery voltage is not decreasing, the connection point is kept at a breakdown voltage of the Zener diode, and the difference with respect to the source voltage of the FET becomes particularly large. The comparator therefore does not erroneously output an overcurrent detection signal even when noise enters the system.
13 Citations
6 Claims
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1. A method for detecting an overcurrent in a load-driving apparatus provided with a switching semiconductor element between a battery power source and a load, comprising:
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detecting a variable value corresponding to current flowing through the switching semiconductor element;
setting a reference value as a function of battery voltage of the battery power source so that an overcurrent detection current value for indicating an overcurrent condition increases as an amount of reduction in the battery voltage of the battery power source becomes smaller;
comparing the variable value corresponding to the current flowing through the switching semiconductor element with the reference value; and
determining the overcurrent condition exist when the variable value reaches the reference value. - View Dependent Claims (2)
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3. An overcurrent detection circuit for detecting an overcurrent in a load-driving apparatus provided with a switching semiconductor element between a battery power source and a load, comprising:
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a function generation component configured to output a reference voltage as a function with respect to battery voltage of the battery power source, the function generation component being configured to be connected to a battery power source side of the switching semiconductor element; and
a comparator having a non-inverted input terminal operatively coupled to the function generation component to receive the reference voltage, an inverted input terminal configured to be operatively coupled to a load side of the switching semiconductor element to receive a load side voltage of the load side of the switching semiconductor element, and an output terminal configured to output an overcurrent detection signal when the load side voltage of the load side of the switching semiconductor element has decreased to the reference voltage, the reference voltage being set by the function generation component so that the overcurrent detection current value for indicating an overcurrent condition increases as an amount of reduction in the battery voltage of the battery power source becomes smaller. - View Dependent Claims (4, 5)
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6. An overcurrent detection circuit for detecting an overcurrent in a load-driving apparatus provided with a switching semiconductor element between a battery power source and a load, comprising:
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means for generating a reference value as a function with respect to voltage of the battery power source so that an overcurrent detection current value for indicating an overcurrent condition increases as an amount of reduction in a battery voltage of the battery power source becomes smaller means for comparing a variable value corresponding to current flowing through the switching semiconductor element with the reference value; and
means for determining the overcurrent condition exist when the variable value has reached the reference value.
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Specification