Vehicle having a diagnostic system for an electrical fuse

What is claimed is: 1. A vehicle having a diagnostic system for an electrical fuse, comprising: a first voltage sensor generating a first signal indicating a first voltage level at a first end of the electrical fuse; a second voltage sensor generating a second signal indicating a second voltage level at a second end of the electrical fuse; a current sensor generating a third signal indicating an amount of electrical current flowing through the electrical fuse; a microcontroller determining first and second voltage values based on the first and second signals, respectively, and a current value based on the third signal; the microcontroller determining a first resistance value of the electrical fuse utilizing the first and second voltage values, and the current value; the microcontroller retrieving a first stored resistance value associated with the electrical fuse from a plurality of resistance values in a table, utilizing the current value as an index to the table; the microcontroller multiplying the first stored resistance value by a first value to obtain an end-of-life resistance value; the microcontroller generating a first diagnostic signal indicating degraded operation of the electrical fuse if the first resistance value is greater than or equal to the end-of-life resistance value; and a vehicle controller operably communicating with the microcontroller, the vehicle controller receiving the first diagnostic signal and generating a fuse servicing message that is displayed on a vehicle display device in response to the first diagnostic signal. 2. The vehicle of claim 1 , wherein the plurality of resistance values in the table correspond to beginning-of-life resistance values for the electrical fuse. 3. The vehicle of claim 1 , wherein the electrical fuse is a high-current slow-blow electrical fuse. 4. The vehicle of claim 1 , wherein the microcontroller determines the first resistance value of the electrical fuse only if the current value is greater than a threshold current value. 5. The vehicle of claim 1 , wherein: the microcontroller being operably coupled to the first voltage sensor, the second voltage sensor, and the current sensor; the microcontroller having a memory device that stores the table therein, the table having the plurality of resistance values and a plurality of current values associated with the electrical fuse. 6. A vehicle having a diagnostic system for an electrical fuse, comprising: a first voltage sensor generating a first signal indicating a first voltage level at a first end of the electrical fuse; a second voltage sensor generating a second signal indicating a second voltage level at a second end of the electrical fuse; a current sensor generating a third signal indicating an amount of electrical current flowing through the electrical fuse; a microcontroller determining first and second voltage values based on the first and second signals, respectively, and a current value based on the third signal; the microcontroller determining a first resistance value of the electrical fuse utilizing the first and second voltage values, and the current value; the microcontroller retrieving a first stored resistance value associated with the electrical fuse from a plurality of resistance values in a table, utilizing the current value as an index to the table; the microcontroller generating a first diagnostic signal indicating degraded operation of the electrical fuse if the first resistance value is greater than or equal to the first stored resistance value; and a vehicle controller operably communicating with the microcontroller, the vehicle controller receiving the first diagnostic signal and generating a fuse servicing message that is displayed on a vehicle display device in response to the first diagnostic signal. 7. The vehicle of claim 6 , wherein the plurality of resistance values in the table correspond to end-of-life resistance values for the electrical fuse. 8. The vehicle of claim 6 , wherein the electrical fuse is a high-current slow-blow electrical fuse. 9. The vehicle of claim 6 , wherein the microcontroller determines the first resistance value of the electrical fuse only if the current value is greater than a threshold current value. 10. The vehicle of claim 6 , wherein: the microcontroller being operably coupled to the first voltage sensor, the second voltage sensor, and the current sensor; the microcontroller having a memory device that stores the table therein, the table having the plurality of resistance values and a plurality of current values associated with the electrical fuse.