Brake light with adaptive shunt arrangement
First Claim
1. A device configured for installation in an existing vehicle brake light circuit having at least one brake light, a first line connected to a first side of the at least one brake light, and a severed second line connected to a second side of the at least one brake light, the device comprising:
- a first lead, a second lead and a third lead, the first lead configured for connection to the first line of the vehicle brake light circuit, the second lead and the third lead configured for connection to the severed second line of the vehicle brake light circuit, the first lead and the second lead defining a device output, the device output configured for connection in parallel with the at least one brake light;
a control unit; and
a switching member provided in a shunt path connected in parallel with the device output and controlled by the control unit, the switching member configured to operate in a first state or a second state, wherein the control unit is configured to control the switching member such that (i) a current through the shunt path is reduced when the switching member operates in the first state and thus a current through the at least one brake light is increased when the switching member operates in the first state, and (ii) the current through the shunt path is increased when the switching member operates in the second state and thus the current through the at least one brake light is reduced when the switching member operates in the second state.
2 Assignments
0 Petitions
Accused Products
Abstract
An electronics device is configured for installation in the brake light circuitry of a vehicle braking system. The electronics device is particularly configured to provide a flashing or pulsing appearance for a brake light, such as an automobile CHMSL. The pulsing is accomplished in a precise manner and that provides additional operational safety features than standard automotive brake lights. The electronics device is configured to avoid over-triggering of the pulsating lights due to multiple application of the automobile'"'"'s brakes in a short time frame. The electronics device is further configured to function correctly even if the automobile is equipped with sophisticated computer systems that analyze the brake light circuitry, and is configured to avoid detection as a problem by the vehicle'"'"'s diagnostic systems. At the same time, the electronics device will still allow the vehicle'"'"'s diagnostic scans to detect any actual problems with the brake light system without hindrance.
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Citations
18 Claims
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1. A device configured for installation in an existing vehicle brake light circuit having at least one brake light, a first line connected to a first side of the at least one brake light, and a severed second line connected to a second side of the at least one brake light, the device comprising:
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a first lead, a second lead and a third lead, the first lead configured for connection to the first line of the vehicle brake light circuit, the second lead and the third lead configured for connection to the severed second line of the vehicle brake light circuit, the first lead and the second lead defining a device output, the device output configured for connection in parallel with the at least one brake light; a control unit; and a switching member provided in a shunt path connected in parallel with the device output and controlled by the control unit, the switching member configured to operate in a first state or a second state, wherein the control unit is configured to control the switching member such that (i) a current through the shunt path is reduced when the switching member operates in the first state and thus a current through the at least one brake light is increased when the switching member operates in the first state, and (ii) the current through the shunt path is increased when the switching member operates in the second state and thus the current through the at least one brake light is reduced when the switching member operates in the second state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A brake light control unit connected to a vehicle brake light circuit, the vehicle brake light circuit including at least one brake light, a first line connected to a first side of the at least one brake light, and a severed second line connected to a second side of the at least one brake light, the brake light control unit comprising:
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a first lead, a second lead, and a third lead; a first switching member connected between the first lead and the second lead and in parallel with the at least one brake light, the first switching member provided in a shunt path extending between the first line and the severed second line of the vehicle brake light circuit; a second switching member connected between the second lead and the third lead and in series with the at least one brake light; and a control unit coupled to the first switching member and the second switching member, the control unit configured to (i) detect a braking voltage on one of the first line or the second line of the vehicle brake light circuit, (ii) control the second switching member such that a current through the second switching member is substantially constant when the braking voltage is detected, and (iii) control the first switching member such that a current through the at least one brake light cycles between a first magnitude and a second magnitude that is less than the first magnitude after the braking voltage is detected. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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17. A method of controlling illumination of at least one brake light in a brake light circuit of a vehicle, the brake light circuit including the at least one brake light and brake light wiring, the brake light wiring including a first line connected to a first side of the at least one brake light and a second line connected to a second side of the at least one brake light, the method comprising:
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severing the second line connecting a shunt path in parallel with the brake light between the first line and the severed second line, the shunt path including a switching member; and installing a control unit connected to the switching member, the control unit configured to control the switching member in a first state and a second state such that (i) a current through the shunt path is reduced when the switching member operates in the first state and thus a current through the at least one brake light is increased when the switching member operates in the first state, and (ii) the current through the shunt path is increased when the switching member operates in the second state and thus the current through the at least one brake light is reduced when the switching member operates in the second state. - View Dependent Claims (18)
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Specification