Vehicle with supplemental energy storage system for engine cranking
First Claim
1. In a vehicle comprising an internal combustion engine, a generator driven by the engine, a cranking motor coupled with the engine to crank the engine, and a battery coupled with the cranking motor, the improvement comprising:
- a double layer capacitor characterized by a capacitance greater than 320 farads and an internal resistance at 1 kHz and 20°
C. less than 0.008 ohms;
a set of paths interconnecting the generator and the capacitor, said set of paths comprising a circuit for preventing the capacitor from discharging excessively and a switch;
a switch controller operative to open the switch automatically to protect the capacitor against excessive discharge during non-cranking conditions, and to close the switch automatically during cranking conditions; and
a charging voltage controller operative to increase a charging voltage applied to the capacitor at temperatures below a threshold temperature as compared to the charging voltage applied to the capacitor at temperatures above the threshold temperature.
1 Assignment
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Accused Products
Abstract
A vehicle having an internal combustion engine that drives a generator and a cranking motor that cranks the engine is provided with a standard electrical system as well as a supplemental electrical system. This supplemental electrical system includes a capacitor that is charged by the primary electrical system of the vehicle and is protected against excessive discharge. When it is desired to start the engine, the capacitor is connected to the cranking motor to supply adequate cranking power to the cranking motor, regardless of the state of charge of the batteries.
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Citations
15 Claims
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1. In a vehicle comprising an internal combustion engine, a generator driven by the engine, a cranking motor coupled with the engine to crank the engine, and a battery coupled with the cranking motor, the improvement comprising:
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a double layer capacitor characterized by a capacitance greater than 320 farads and an internal resistance at 1 kHz and 20°
C. less than 0.008 ohms;
a set of paths interconnecting the generator and the capacitor, said set of paths comprising a circuit for preventing the capacitor from discharging excessively and a switch;
a switch controller operative to open the switch automatically to protect the capacitor against excessive discharge during non-cranking conditions, and to close the switch automatically during cranking conditions; and
a charging voltage controller operative to increase a charging voltage applied to the capacitor at temperatures below a threshold temperature as compared to the charging voltage applied to the capacitor at temperatures above the threshold temperature. - View Dependent Claims (2, 3, 4, 5, 6, 13, 14, 15)
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7. In a vehicle comprising an internal combustion engine, a generator driven by the engine, a cranking motor coupled with the engine to crank the engine, and a battery coupled with the cranking motor, the improvement comprising:
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a double layer capacitor characterized by a capacitance greater than 320 farads and an internal resistance at 1 kHz and 20°
C. less than 0.008 ohms;
a set of paths interconnecting the generator and the capacitor, said set of paths comprising first means for preventing the capacitor from discharging excessively and a switch;
second means for opening the switch automatically to protect the capacitor against excessive discharge during non-cranking conditions, and for closing the switch automatically during cranking conditions; and
third means for increasing a charging voltage applied to the capacitor at temperatures below a threshold temperature as compared to the charging voltage at temperatures above the threshold temperature. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification