| H | SK | ELECTRICITY |
| H03 | KL | BASIC ELECTRONIC CIRCUITRY |
| H03D | UKL | DEMODULATION OR TRANSFERENCE OF MODULATION FROM ONE CARRIER TO ANOTHER (masers, lasers H01S; circuits capable of acting both as modulator and demodulator H03C, e.g. balanced modulators H03C 1/54; details applicable to both modulators and frequency-changers H03C; demodulating pulses which have been modulated with a continuously-variable signal H03K 9/00; transforming types of pulse modulation H03K 11/00; relay systems, e.g. repeater stations H04B 7/14; demodulators adapted for digitally modulated-carrier systems H04L 27/00; synchronous demodulators adapted for colour television H04N 9/66) |
| H03D 1/00 | HGR | Demodulation of amplitude-modulated oscillations (H03D 5/00, H03D 9/00, H03D 11/00 take precedence; amplitude demodulators adapted for digitally modulated carrier systems, e.g. using on-off keying, single sideband or vestigial sideband modulation H04L 27/06) [1, 2006.01] |
| H03D 1/02 | UGR1 | |
| H03D 1/04 | UGR2 | | . . | Modifications of demodulators to reduce interference by undesired signals [1, 2006.01] |
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| H03D 1/06 | UGR2 | | . . | Modifications of demodulators to reduce distortion, e.g. by negative feedback [1, 2006.01] |
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| H03D 1/08 | UGR1 | |
| H03D 1/10 | UGR2 | | . . | of diodes [1, 2006.01] |
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| H03D 1/12 | UGR3 | | . . . | with provision for equalising ac and dc loads [1, 2006.01] |
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| H03D 1/14 | UGR1 | |
| H03D 1/16 | UGR2 | | . . | of discharge tubes [1, 2006.01] |
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| H03D 1/18 | UGR2 | | . . | of semiconductor devices [1, 2006.01] |
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| H03D 1/20 | UGR2 | | . . | with provision for preventing undesired type of demodulation, e.g. preventing anode detection in a grid detection circuit [1, 2006.01] |
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| H03D 1/22 | UGR1 | | . | Homodyne or synchrodyne circuits [1, 2006.01] |
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| H03D 1/24 | UGR2 | | . . | for demodulation of signals wherein one sideband or the carrier has been wholly or partially suppressed [1, 2006.01] |
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| H03D 1/26 | UGR1 | | . | by means of transit-time tubes [1, 2006.01] |
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| H03D 1/28 | UGR1 | | . | by deflecting an electron beam in a discharge tube (H03D 1/26 takes precedence) [1, 2006.01] |
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| H03D 3/00 | HGR | Demodulation of angle-modulated oscillations (H03D 5/00, H03D 9/00, H03D 11/00 take precedence; frequency demodulators adapted for digitally modulated carrier systems, i.e. using frequency shift keying H04L 27/14; phase demodulators adapted for digitally modulated carrier systems, i.e. using phase shift keying H04L 27/22) [1, 2006.01] |
| H03D 3/02 | UGR1 | | . | by detecting phase difference between two signals obtained from input signal (H03D 3/28-H03D 3/32 take precedence) [1, 2006.01] |
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| H03D 3/04 | UGR2 | | . . | by counting or integrating cycles of oscillations [1, 2006.01] |
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| H03D 3/06 | UGR2 | | . . | by combining signals additively or in product demodulators [1, 2006.01] |
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| H03D 3/08 | UGR3 | | . . . | by means of diodes, e.g. Foster-Seeley discriminator [1, 2006.01] |
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| H03D 3/10 | UGR4 | | . . . . | in which the diodes are simultaneously conducting during the same half period of the signal, e.g. ratio detector [1, 2006.01] |
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| H03D 3/12 | UGR3 | | . . . | by means of discharge tubes having more than two electrodes [1, 2006.01] |
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| H03D 3/14 | UGR3 | | . . . | by means of semiconductor devices having more than two electrodes [1, 2006.01] |
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| H03D 3/16 | UGR3 | | . . . | by means of electromechanical resonators [1, 2006.01] |
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| H03D 3/18 | UGR2 | | . . | by means of synchronous gating arrangements [1, 2006.01] |
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| H03D 3/20 | UGR3 | | . . . | producing pulses whose amplitude or duration depends on the phase difference [1, 2006.01] |
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| H03D 3/22 | UGR2 | | . . | by means of active elements with more than two electrodes to which two signals are applied derived from the signal to be demodulated and having a phase difference related to the frequency deviation, e.g. phase detector [1, 2006.01] |
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| H03D 3/24 | UGR2 | | . . | Modifications of demodulators to reject or remove amplitude variations by means of locked-in oscillator circuits [1, 2006.01] |
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| H03D 3/26 | UGR1 | | . | by means of sloping amplitude/frequency characteristic of tuned or reactive circuit (H03D 3/28-H03D 3/32 take precedence) [1, 2006.01] |
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| H03D 3/28 | UGR1 | | . | Modifications of demodulators to reduce effect of temperature variations [1, 2006.01] |
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| H03D 3/30 | UGR1 | | . | by means of transit-time tubes [1, 2006.01] |
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| H03D 3/32 | UGR1 | | . | by deflecting an electron beam in a discharge tube (H03D 3/30 takes precedence) [1, 2006.01] |
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| H03D 3/34 | UGR1 | | . | by means of electromechanical devices (H03D 3/16 takes precedence) [3, 2006.01] |
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| H03D 5/00 | HGR | Circuits for demodulating amplitude-modulated or angle-modulated oscillations at will (H03D 9/00, H03D 11/00 take precedence; demodulators adapted for digitally modulated carrier systems characterised by combinations of amplitude and angle modulation, e.g. quadrature amplitude modulation H04L 27/38) [1, 2006.01] |
| H03D 7/00 | HGR | Transference of modulation from one carrier to another, e.g. frequency-changing (H03D 9/00, H03D 11/00 take precedence; dielectric amplifiers, magnetic amplifiers, parametric amplifiers used as frequency-changers H03F) [1, 2006.01] |
| H03D 7/02 | UGR1 | |
| H03D 7/04 | UGR2 | | . . | having negative resistance characteristic, e.g. tunnel diode [1, 2006.01] |
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| H03D 7/06 | UGR1 | | . | by means of discharge tubes having more than two electrodes (H03D 7/14-H03D 7/22 take precedence) [1, 2006.01] |
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| H03D 7/08 | UGR2 | | . . | the signals to be mixed being applied between the same two electrodes [1, 2006.01] |
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| H03D 7/10 | UGR2 | | . . | the signals to be mixed being applied between different pairs of electrodes [1, 2006.01] |
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| H03D 7/12 | UGR1 | | . | by means of semiconductor devices having more than two electrodes (H03D 7/14-H03D 7/22 take precedence) [1, 2006.01] |
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| H03D 7/14 | UGR1 | | . | Balanced arrangements [1, 2006.01] |
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| H03D 7/16 | UGR1 | | . | Multiple frequency-changing (superheterodyne receivers H04B 1/26) [1, 2006.01] |
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| H03D 7/18 | UGR1 | | . | Modifications of frequency-changers for eliminating image frequencies [1, 2006.01] |
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| H03D 7/20 | UGR1 | | . | by means of transit-time tubes [1, 2006.01] |
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| H03D 7/22 | UGR1 | | . | by deflecting an electron beam in a discharge tube (H03D 7/20 takes precedence) [1, 2006.01] |
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| H03D 9/00 | HGR | Demodulation or transference of modulation of modulated electromagnetic waves (devices or arrangements for demodulating light, transferring the modulation of modulated light or for changing the frequency of light G02F 2/00) [1, 2006.01] |
| H03D 9/02 | UGR1 | | . | Demodulation using distributed inductance and capacitance, e.g. in feeder lines [1, 2006.01] |
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| H03D 9/04 | UGR2 | | . . | for angle-modulated oscillations [1, 2006.01] |
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| H03D 9/06 | UGR1 | | . | Transference of modulation using distributed inductance and capacitance [1, 2006.01] |
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| H03D 11/00 | HGR | Super-regenerative demodulator circuits [1, 2006.01] |
| H03D 11/02 | UGR1 | | . | for amplitude-modulated oscillations [1, 2006.01] |
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| H03D 11/04 | UGR2 | | . . | by means of semiconductor devices having more than two electrodes [1, 2006.01] |
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| H03D 11/06 | UGR1 | | . | for angle-modulated oscillations [1, 2006.01] |
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| H03D 11/08 | UGR2 | | . . | by means of semiconductor devices having more than two electrodes [1, 2006.01] |
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| H03D 13/00 | HGR | Circuits for comparing the phase or frequency of two mutually-independent oscillations (arrangements for measuring phase angle between a voltage and a current or between voltages or currents G01R 25/00) [1, 2006.01] |
| H03D 99/00 | HGR | Subject matter not provided for in other groups of this subclass [2006.01] |