Electrical load control device, abnormality determination method, and abnormality determination program

What is claimed is: 1. An abnormality determination method for controlling a supply of electrical power to an electrical load by determining whether or not there is an abnormality in an electrical load control device that calculates a duty ratio to eliminate a difference between a current command value indicating a current to be supplied to the electrical load and a current value that is an actually detected value of a current flowing through the electrical load, and performs pulse width modulation (PWM) control to control driving of the electrical load based on the duty ratio, comprising: making a determination that there is an overcurrent abnormality, when a maximum current value, which is a largest current value among the current values sampled in a PWM duty cycle at timings based on the duty ratio, is equal to or larger than an abnormal current threshold value, and a detection time for which an abnormal current is detected in the PWM duty cycle, is equal to or larger than an abnormality detection time threshold value; and shutting off the supply of electrical power to the electrical load when the determination is made that there is an overcurrent abnormality, wherein the electrical load is a driving force distribution device that adjusts a ratio between driving forces transmitted from a driving source of a vehicle to a plurality of wheels through a driving force transmission system. 2. An electrical load control device for an electrical load, the electrical load control device comprising an abnormality determination device, wherein the electrical load control device comprises a processor that calculates a duty ratio to eliminate a difference between a current command value indicating a current to be supplied to the electrical load and a current value that is an actually detected value of a current flowing through the electrical load, and the electrical load control device performs pulse width modulation (PWM) control to control driving of the electrical load based on the duty ratio, and wherein the abnormality determination device includes: a maximum current value detection unit of the processor that detects a maximum current value that is a largest current value among the current values in a PWM duty cycle; an abnormal current determination unit of the processor that determines whether or not there is an abnormal current based on a result of comparison between the detected maximum current value and an abnormal current threshold value; an abnormality detection time determination unit of the processor that determines whether or not a detection time for which the abnormal current is detected in the PWM duty cycle, is equal to or larger than an abnormality detection time threshold value based on a result of comparison between the detection time and the abnormality detection time threshold value; an abnormality determination unit of the processor that determines that there is an overcurrent abnormality when the maximum current value is equal to or larger than the abnormal current threshold value and the detection time is equal to or larger than the abnormality detection time threshold value; and a power off unit of the processor that shuts off the supply of electrical power to the electrical load when a determination is made that there is an overcurrent abnormality, wherein the electrical load is a driving force distribution device that adjusts a ratio between driving forces transmitted from a driving source of a vehicle to a plurality of wheels through a driving force transmission system. 3. The electrical load control device according to claim 2 , wherein the electrical load is connected to a power supply through a relay in the abnormality determination device, and the abnormality determination unit performs off control to turn off the relay when the abnormality determination unit determines that there is the overcurrent abnormality in the electrical load control device. 4. The electrical load control device according to claim 2 , wherein the abnormality determination device includes a notification unit of the processor that provides a notification that there is the overcurrent abnormality when the abnormality determination unit determines that there is the overcurrent abnormality. 5. The electrical load control device according to claim 2 , wherein the electrical load control device stores a correlation between the maximum current value and the abnormality detection time threshold value, and the abnormality determination unit sets the abnormality detection time threshold value based on the detected maximum current value and the stored correlation. 6. An abnormality determination program for controlling a supply of electrical power to an electrical load by determining whether or not there is an abnormality in an electrical load control device that calculates a duty ratio to eliminate a difference between a current command value indicating a current to be supplied to the electrical load and a current value that is an actually detected value of a current flowing through the electrical load, and performs pulse width modulation (PWM) control to control driving of the electrical load based on the duty ratio, the abnormality determination program comprising: a maximum current value detection step of detecting a maximum current value that is a largest current value among the current values sampled at timings based on the duty ratio in a PWM duty cycle; an abnormal current determination step of determining whether or not there is an abnormal current based on a result of comparison between the detected maximum current value and an abnormal current threshold value; and an abnormality detection time determination step of determining whether or not a detection time for which the abnormal current is detected in the PWM duty cycle, is equal to or larger than an abnormality detection time threshold value based on a result of comparison between the detection time and the abnormality detection time threshold value, an overcurrent abnormality determining step of determining an overcurrent abnormality based on a determination result in each of the abnormal current determination step and the abnormality detection time determination step; and an electrical power supply shutting off step of shutting off power to the electrical load when the determination is made that there is an overcurrent abnormality, wherein the electrical load is a driving force distribution device that adjusts a ratio between driving forces transmitted from a driving source of a vehicle to a plurality of wheels through a driving force transmission system.