Infrared wireless communication between electronic system components
First Claim
1. In a wireless infrared pulse-transmitting apparatus having a transmitter, a receiver comprising:
- a photodetector which receives input pulses from the transmitter;
an input amplifier which receives current signals from the detector and outputs voltage signals;
active clamping circuitry which prevents signal saturation at the input amplifier regardless of the incoming signal strength, by monitoring continuously the signal amplitude at the input amplifier and diverting all excess current therefrom once a preselected signal amplitude at the input amplifier is reached, in order to avoid loss of signal transmission time;
a second amplifier which receives its input signals as pulses from the input amplifier, and outputs pulsed signals; and
a comparator which receives the amplified signals, and outputs digital information.
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Accused Products
Abstract
A wireless infrared pulse-transmitting system for communication with electronic components. The receiver for such a system has radically reduced current (and power) values, which permit a battery-powered receiver to remain on while awaiting transmitter signals. Use of several mosfet transistors operating in the subthreshold region minimizes power. Bandwidth requirements are met, in spite of the low power operation. In order to eliminate amplifier saturation, with the accompanying problem of recovery time which slows the transmission process, clamping circuitry is used to cause instantaneous shunting of signals when a predetermined signal level is reached.
77 Citations
12 Claims
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1. In a wireless infrared pulse-transmitting apparatus having a transmitter, a receiver comprising:
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a photodetector which receives input pulses from the transmitter; an input amplifier which receives current signals from the detector and outputs voltage signals; active clamping circuitry which prevents signal saturation at the input amplifier regardless of the incoming signal strength, by monitoring continuously the signal amplitude at the input amplifier and diverting all excess current therefrom once a preselected signal amplitude at the input amplifier is reached, in order to avoid loss of signal transmission time; a second amplifier which receives its input signals as pulses from the input amplifier, and outputs pulsed signals; and a comparator which receives the amplified signals, and outputs digital information. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. For use in a wireless infrared pulse-transmitting apparatus having a transmitter:
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photo detector which receives input pulses from the transmitter; a low power consuming receiver which is kept in a turned on mode to be continuously ready for input from the transmitter; said receiver including as components (a) an input amplifier which receives current signals from the detector and outputs voltage signals;
(b) means for preventing signal saturation at the input amplifier;
(c) a second amplifier which receives its input signals as pulses from the input amplifier and outputs pulsed signals; and
(d) a comparator which receives signals which have been output by the second amplifier, and outputs digital information;said receiver components incorporating mosfet transistors, a substantial number of which are operating in the sub-threshold region. - View Dependent Claims (10)
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11. In a wireless infrared pulse-transmitting apparatus having a transmitter and a photodetector which receives infrared pulses from the transmitter, an integrated circuit (IC) receiver chip which contains:
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an input amplifier which receives varying amplitude current signals from the photodetector; a clamping circuit which cuts off the current coming from the photodetector at a preselected amplitude, by shunting excess current before it reaches the input amplifier; and means for converting output signals from the input amplifier into digital signals representing the transmitter message.
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12. In a wireless infrared pulse-transmitting apparatus having two receiver/transmitter combinations in which the receiver in each combination receives signals from the transmitter in the other combination, and is subject to possible signal saturation from either of the two transmitters, a receiver comprising:
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a photodetector which receives pulses from transmitter, and emits current signals; an input amplifier which receives current signals from the photodetector and outputs voltage signals as pulses; clamping circuitry which responds to signal amplitude to cut off the input current into the input amplifier in order to prevent saturation of the amplifier; and a comparator which converts output signals from the input amplifier into digital signals representing the transmitter message.
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Specification