ASK optical transmitter
First Claim
1. An amplitude-shift-keyed (ASK) optical transmitter for producing ASK modulated light signals and wherein a DC source powers a microcircuit to generate an ASK modulation signal on an output terminal and wherein an oscillator signal is used to operate the circuit, comprising:
- a light emitting semiconductor element;
first and second semiconductor switches connected in series relationship with the light emitting element located therebetween and effectively across the DC source;
said semiconductor switches each having an activating gate to render the switches conducting or non-conducting as a function of a voltage applied to their respective gates;
means for coupling the ASK modulation signal at the output terminal to the gate of the first switch;
means for coupling the oscillator signal to the gate of the second switch to turn the latter switch on and off at a rate commensurate with a desired carrier frequency;
whereby, when said ASK modulation signal renders the first switch conductive, the light emitting element produces light signals at said carrier frequency and when said first switch is rendered non-conductive by said ASK modulation signal no light is emitted by the element.
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Accused Products
Abstract
An amplitude-shift-keyed (ASK) optical transmitter is described for generating an ASK modulated infrared signal from a light-emitting-diode (LED). The transmitter includes a DC powered microcircuit for generating an ASK modulation signal. A pair of mosfet devices are connected in series with one or more LED'"'"'s between the mosfets. An oscillator signal used to operate the microcircuit is also employed as a carrier signal to activate one mosfet while the ASK modulating signal is coupled to operate the other mosfet. Input capacitances of the mosfets are used to tune the oscillator signal and smooth the leading and trailing edges of the ASK modulation signal. Several embodiments are described.
15 Citations
15 Claims
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1. An amplitude-shift-keyed (ASK) optical transmitter for producing ASK modulated light signals and wherein a DC source powers a microcircuit to generate an ASK modulation signal on an output terminal and wherein an oscillator signal is used to operate the circuit, comprising:
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a light emitting semiconductor element; first and second semiconductor switches connected in series relationship with the light emitting element located therebetween and effectively across the DC source;
said semiconductor switches each having an activating gate to render the switches conducting or non-conducting as a function of a voltage applied to their respective gates;means for coupling the ASK modulation signal at the output terminal to the gate of the first switch; means for coupling the oscillator signal to the gate of the second switch to turn the latter switch on and off at a rate commensurate with a desired carrier frequency; whereby, when said ASK modulation signal renders the first switch conductive, the light emitting element produces light signals at said carrier frequency and when said first switch is rendered non-conductive by said ASK modulation signal no light is emitted by the element. - View Dependent Claims (2, 3, 4, 5)
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6. An amplitude-shift-keyed (ASK) optical transmitter for producing ASK modulated light signals and wherein a DC source powers a microcircuit to generate an ASK modulation signal on an output terminal and wherein external oscillator components are connected to the microcircuit to select the operating frequency for a clock signal used to operate the microcircuit, comprising:
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a light emitting diode; an N channel mosfet having a gate, a source and a drain, said gate being connected to the clock signal; a P channel mosfet having a gate, a source and a drain, a smoothing element connecting the microcircuit terminal on which the ASK signal is generated to the gate of the P channel mosfet; said light emitting diode being connected between the drains of said P and N channel mosfets, and with said sources of the P and N channel mosfets being effectively connected across the DC source; and wherein said oscillator components generate a clock signal at a frequency that can serve as a carrier signal so that light from the light emitting diode has an ASK modulated envelope at the frequency of the carrier signal. - View Dependent Claims (7)
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8. An amplitude-shift-keyed (ASK) optical transmitter for producing ASK modulated light signals and wherein a DC source powers a microcircuit to generate an ASK modulation signal on an output terminal and wherein an oscillator signal is used to operate the circuit, comprising:
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a light emitting semiconductor element; first and second semiconductor switches connected in series relationship with and to one side of, the light-emitting element and with the light element effectively connected across the DC source; said semiconductor switches, each having an activating gate to render the switches conducting or non-conducing as a function of a voltage applied to their respective gates; means for coupling the ASK modulation signal at the output terminal to the gate of the first switch; means for coupling the oscillator signal to the gate of the second switch to turn the latter switch on and off at a rate commensurate with a desired carrier frequency; whereby, when said ASK modulation signal renders the first switch conductive, the light emitting element produces light signals at said carrier frequency and when said first switch is rendered non-conductive by said ASK modulation signal no light is emitted by the element. - View Dependent Claims (9, 10, 11, 12)
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13. An amplitude-shift-keyed (ASK) optical transmitter for producing ASK modulated light signals and wherein a DC source powers a microcircuit to generate an ASK modulation signal on an output terminal and wherein an oscillator signal is used to operate the circuit, comprising:
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a light emitting semiconductor element; a semiconductor switch connected in series relationship with the light emitting element and with the light element effectively coupled across the DC source;
said semiconductor switch having an activating gate to render the switch conducting or non-conducting as a function of a voltage applied to said gate;AND gate means having a first input coupled to the ASK modulation signal and having a second input coupled to the oscillator signal and having an output coupled to the gate of the switch for rendering said switch conductive at a frequency of the osillator signal when the ASK modulation signal is in an enabling state; whereby, when said ASK modulation signal enables the AND gate means the light emitting element produces light signals at said oscillator frequency and when said AND gate means is disabled by said ASK modulation signal no light is emitted by the element. - View Dependent Claims (14, 15)
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Specification