Low power radio frequency transmitter with controllable gain
First Claim
1. A low power remote transmitter for use in a vehicle remote keyless entry system comprising:
- a signal transmitter circuit portion including an input for receiving data to be incorporated into a radio frequency signal and an output for transmitting said radio frequency signal to a remote receiver of the entry system, said output including a transistor having a base node, a collector node and an emitter node, said signal transmitter circuit portion further including an oscillator connected to said base node, said oscillator being for generating a radio frequency signal to be transmitted;
an inductor having a first end and a second end, said inductor first end connected to said collector node of said transistor;
a power supply connected to said second end of said inductor, said inductor being operative as an antenna to radiate said radio frequency signal; and
a gain control circuit for controlling a gain associated with said signal transmitter circuit portion so as to reduce power consumed by said remote transmitter, said gain control circuit being connected to said transistor emitter and collector nodes and including an inductive load that introduces a resonant frequency that controls the gain associated with said signal transmitter circuit portion by controlling power at the resonant frequency when generating the radio frequency signal to be transmitted.
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Accused Products
Abstract
A low power transmitter useful for vehicle remote keyless entry systems, for example, includes a transmitter circuit portion and a gain control circuit portion. The gain control circuit portion preferably includes an inductive load that introduces a resonant frequency that provides radio frequency gain control. The transmitter circuit portion preferably includes a transistor having a collector node and an emitter node. The gain controller circuit preferably includes a capacitive load coupled between the emitter node and the collector node of the transistor. The inductive load preferably is coupled between the emitter node of the transistor and ground.
254 Citations
17 Claims
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1. A low power remote transmitter for use in a vehicle remote keyless entry system comprising:
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a signal transmitter circuit portion including an input for receiving data to be incorporated into a radio frequency signal and an output for transmitting said radio frequency signal to a remote receiver of the entry system, said output including a transistor having a base node, a collector node and an emitter node, said signal transmitter circuit portion further including an oscillator connected to said base node, said oscillator being for generating a radio frequency signal to be transmitted;
an inductor having a first end and a second end, said inductor first end connected to said collector node of said transistor;
a power supply connected to said second end of said inductor, said inductor being operative as an antenna to radiate said radio frequency signal; and
a gain control circuit for controlling a gain associated with said signal transmitter circuit portion so as to reduce power consumed by said remote transmitter, said gain control circuit being connected to said transistor emitter and collector nodes and including an inductive load that introduces a resonant frequency that controls the gain associated with said signal transmitter circuit portion by controlling power at the resonant frequency when generating the radio frequency signal to be transmitted. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A low power remote transmitter for use in a security system that includes radio frequency signal communications, the transmitter comprising:
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a signal transmitter circuit portion having an input for receiving data to be incorporated into a radio frequency signal and an output for transmitting the radio frequency signal including a transistor having a base node, a collector node and an emitter node with said collector node connected through an inductor to a power supply, said inductor operative as an antenna to radiate said radio frequency signal, said output portion further including an oscillator connected to said transistor base node, said oscillator being operative to generate the radio frequency signal to be transmitted; and
a gain control circuit for controlling a gain associated with the signal transmitter circuit portion so as to reduce a power consumed by said remote transmitter, said gain control circuit including a feedback capacitor connected between said transistor collector and emitter nodes and a resonant circuit connected between said emitter node and ground such that said gain control circuit modifies the gain associated with the signal transmitter circuit portion by controlling power at a resonant frequency associated with the gain. - View Dependent Claims (9, 10, 11, 12)
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13. A low power remote transmitter for use in a vehicle keyless entry system that includes radio frequency signal communications, the transmitter comprising:
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a signal transmitter circuit portion having an input for receiving data to be incorporated into a radio frequency signal and an output for transmitting the radio frequency signal including a transistor having a base node, a collector node and an emitter node with said collector node connected through an inductor to a power supply, said inductor operative as an antenna to radiate said radio frequency signal, said output portion further including an oscillator connected to said transistor base node, said oscillator being operative to generate the radio frequency signal to be transmitted; and
a gain control circuit for controlling a gain associated with the signal transmitter circuit portion so as to reduce a power consumed by said remote transmitter, said gain control circuit including a feedback capacitor connected between said collector and emitter nodes and a resonant circuit connected between said emitter node and ground such that said gain control circuit modifies the gain associated with the signal transmitter circuit portion by controlling power at a resonant frequency associated with the gain. - View Dependent Claims (14, 15, 16, 17)
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Specification