Vehicle starter and electrical system protection
First Claim
1. A starter protection system for a machine having an internal combustion engine, a starter motor for starting said internal combustion engine, and an alternator for producing alternating electric power in response to rotation of said internal combustion engine, at a frequency which is dependent on engine rotation speed, said starter protection device comprising:
- a) starter control apparatus and circuitry for assuming a first state in which said starter motor is disabled, and a second state in which said starter motor is enabled, said starter control apparatus and circuitry comprising a solenoid for controlling application of electric power to said starter motor, a field effect transistor for controlling operation of said solenoid, and a second transistor coupled to the gate of said field effect transistor for actuating said field effect transistor;
b) circuitry including a frequency to voltage convertor for detecting and indicating the frequency of the alternating electric power produced by said alternator, said frequency to voltage converter being connected to receive as an input a signal from said alternator having a frequency corresponding to instantaneous alternator frequency, said frequency to voltage converter producing at a single output an analog voltage signal whose magnitude is a function of the received frequency signal, said frequency to voltage converter further including a separate input for receiving a reference voltage signal and an internal comparator for grounding said output analog signal in response to said analog signal having reached the value of said reference signal; and
c) voltage divider circuitry for establishing the value of said reference signal;
d) circuitry responsive to said dropping of said frequency to voltage converter output for re-establishing a second lower value of said reference signal by reconnecting circuit elements to form a second voltage divider configuration which differs from the configuration of said voltage divider circuitry utilized in establishing said first reference value, such that said output of said frequency to voltage converter remains in its low state until the frequency of the signal received by the frequency to voltage converter is reduced to a level significantly lower than the level which caused the initial dropping of said output of said frequency to voltage converter to its low state; and
e) circuitry for governing the state of said transistors of said starter control apparatus and circuitry in response to the dropping of said frequency to voltage converter output signal to its low level.
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Accused Products
Abstract
A protective control box is disclosed for providing protection for a starter system and other components of equipment, such as vehicles, incorporating internal combustion engines. Improved starter protection apparatus and circuitry using frequency to voltage conversion disables a starter motor from starting the internal combustion engine when engine speed exceeds a pre-determined level. The starter cannot be re-actuated until and unless engine speed has fallen below a second lower pre-determined speed level. The protection box includes a lockout solenoid which in turn selectively locks out the main starter solenoid in accordance with the foregoing conditions. A wait-to-start lamp and associated comparator and latching circuitry is provided for actuating the wait lamp in response to initiation of glow plug controller pre-glow operation, and for subsequently extinguishing the lamp. Once extinguished, the lamp cannot be re-actuated until and unless the ignition has been toggled. Circuitry including a field effect transistor is provided for controlling glow plug controller operation by means of an auxiliary solenoid. Load dump control circuitry responsive to frequency to voltage conversion inhibits disconnection of electrical loads from a motor-driven alternator even when the ignition is turned off, until engine speed has dropped to a safe level. This prevents voltage spikes which would otherwise result from the sudden unloading of the alternator, a phenomenon which could damage a voltage regulator or other electrical circuitry. Afterglow control maintains glow plug controller operation until ambient engine temperature has reached a pre-determined level.
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Citations
5 Claims
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1. A starter protection system for a machine having an internal combustion engine, a starter motor for starting said internal combustion engine, and an alternator for producing alternating electric power in response to rotation of said internal combustion engine, at a frequency which is dependent on engine rotation speed, said starter protection device comprising:
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a) starter control apparatus and circuitry for assuming a first state in which said starter motor is disabled, and a second state in which said starter motor is enabled, said starter control apparatus and circuitry comprising a solenoid for controlling application of electric power to said starter motor, a field effect transistor for controlling operation of said solenoid, and a second transistor coupled to the gate of said field effect transistor for actuating said field effect transistor; b) circuitry including a frequency to voltage convertor for detecting and indicating the frequency of the alternating electric power produced by said alternator, said frequency to voltage converter being connected to receive as an input a signal from said alternator having a frequency corresponding to instantaneous alternator frequency, said frequency to voltage converter producing at a single output an analog voltage signal whose magnitude is a function of the received frequency signal, said frequency to voltage converter further including a separate input for receiving a reference voltage signal and an internal comparator for grounding said output analog signal in response to said analog signal having reached the value of said reference signal; and c) voltage divider circuitry for establishing the value of said reference signal; d) circuitry responsive to said dropping of said frequency to voltage converter output for re-establishing a second lower value of said reference signal by reconnecting circuit elements to form a second voltage divider configuration which differs from the configuration of said voltage divider circuitry utilized in establishing said first reference value, such that said output of said frequency to voltage converter remains in its low state until the frequency of the signal received by the frequency to voltage converter is reduced to a level significantly lower than the level which caused the initial dropping of said output of said frequency to voltage converter to its low state; and e) circuitry for governing the state of said transistors of said starter control apparatus and circuitry in response to the dropping of said frequency to voltage converter output signal to its low level. - View Dependent Claims (2, 3, 4, 5)
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Specification