| H | SK | SECTION H — ELECTRICITY |
| H03 | KL | BASIC ELECTRONIC CIRCUITRY |
| H03C | UKL | MODULATION (measuring, testing G01R; masers, lasers H01S; modulators specially adapted for use in dc amplifiers H03F 3/38; modulating pulses H03K 7/00; so-called modulators capable only of switching between predetermined states of amplitude, frequency or phase H03K 17/00, H04L; coding, decoding or code conversion, in general H03M; synchronous modulators specially adapted for colour television H04N 9/65) |
| H03C 1/00 | HGR | Amplitude modulation (H03C 5/00, H03C 7/00 take precedence) |
| H03C 1/02 | UGR1 | |
| H03C 1/04 | UGR2 | | . . | Means in, or combined with, modulating stage for reducing angle modulation |
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| H03C 1/06 | UGR2 | | . . | Modifications of modulator to reduce distortion, e.g. by feedback, and clearly applicable to more than one type of modulator |
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| H03C 1/08 | UGR1 | |
| H03C 1/10 | UGR2 | | . . | the element being a current-dependent inductor |
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| H03C 1/12 | UGR2 | | . . | the element being a voltage-dependent capacitor |
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| H03C 1/14 | UGR2 | | . . | the element being a diode |
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| H03C 1/16 | UGR1 | |
| H03C 1/18 | UGR2 | | . . | carrier applied to control grid |
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| H03C 1/20 | UGR3 | | . . . | modulating signal applied to anode |
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| H03C 1/22 | UGR3 | | . . . | modulating signal applied to same grid |
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| H03C 1/24 | UGR3 | | . . . | modulating signal applied to different grid |
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| H03C 1/26 | UGR3 | | . . . | modulating signal applied to cathode |
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| H03C 1/28 | UGR1 | | . | by means of transit-time tube |
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| H03C 1/30 | UGR2 | | . . | by means of a magnetron |
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| H03C 1/32 | UGR1 | | . | by deflection of electron beam in discharge tube |
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| H03C 1/34 | UGR1 | | . | by means of light-sensitive element |
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| H03C 1/36 | UGR1 | |
| H03C 1/38 | UGR2 | | . . | carrier applied to base of a transistor |
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| H03C 1/40 | UGR3 | | . . . | modulating signal applied to collector |
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| H03C 1/42 | UGR3 | | . . . | modulating signal applied to base |
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| H03C 1/44 | UGR3 | | . . . | modulating signal applied to emitter |
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| H03C 1/46 | UGR1 | | . | Modulators with mechanically- or acoustically-driven parts |
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| H03C 1/48 | UGR1 | | . | by means of Hall-effect devices |
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| H03C 1/50 | UGR1 | |
| H03C 1/52 | UGR1 | |
| H03C 1/54 | UGR2 | | . . | Balanced modulators, e.g. bridge type, ring type, double balanced type |
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| H03C 1/56 | UGR3 | | . . . | comprising variable two-pole elements only |
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| H03C 1/58 | UGR4 | |
| H03C 1/60 | UGR2 | | . . | with one sideband wholly or partially suppressed |
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| H03C 1/62 | UGR1 | | . | Modulators in which amplitude of carrier component in output is dependent upon strength of modulating signal, e.g. no carrier output when no modulating signal is present (H03C 1/28-H03C 1/34, H03C 1/46, H03C 1/48 take precedence) |
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| H03C 3/00 | HGR | Angle modulation (H03C 5/00, H03C 7/00 take precedence) |
| H03C 3/02 | UGR1 | |
| H03C 3/04 | UGR2 | | . . | Means in, or combined with, modulating stage for reducing amplitude modulation |
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| H03C 3/06 | UGR2 | | . . | Means for changing frequency deviation |
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| H03C 3/08 | UGR2 | | . . | Modifications of modulator to linearise modulation, e.g. by feedback, and clearly applicable to more than one type of modulator |
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| H03C 3/09 | UGR2 | | . . | Modifications of modulator for regulating the mean frequency [3] |
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| H03C 3/10 | UGR1 | |
| H03C 3/12 | UGR2 | | . . | by means of a variable reactive element |
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| H03C 3/14 | UGR3 | | . . . | simulated by circuit comprising active element with at least three electrodes, e.g. reactance-tube circuit |
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| H03C 3/16 | UGR4 | | . . . . | in which the active element simultaneously serves as the active element of an oscillator |
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| H03C 3/18 | UGR3 | | . . . | the element being a current-dependent inductor |
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| H03C 3/20 | UGR3 | | . . . | the element being a voltage-dependent capacitor |
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| H03C 3/22 | UGR3 | | . . . | the element being a semiconductor diode, e.g. varicap diode |
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| H03C 3/24 | UGR2 | | . . | by means of a variable resistive element, e.g. tube |
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| H03C 3/26 | UGR3 | | . . . | comprising two elements controlled in push-pull by modulating signal |
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| H03C 3/28 | UGR2 | | . . | using variable impedance driven mechanically or acoustically |
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| H03C 3/30 | UGR1 | | . | by means of transit-time tube |
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| H03C 3/32 | UGR2 | | . . | the tube being a magnetron |
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| H03C 3/34 | UGR1 | | . | by deflection of electron beam in discharge tube |
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| H03C 3/36 | UGR1 | | . | by means of light-sensitive element |
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| H03C 3/38 | UGR1 | | . | by converting amplitude modulation to angle modulation |
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| H03C 3/40 | UGR2 | | . . | using two signal paths the outputs of which have a predetermined phase difference and at least one output being amplitude-modulated |
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| H03C 3/42 | UGR1 | | . | by means of electromechanical devices (H03C 3/28 takes precedence) [3] |
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| H03C 5/00 | HGR | Amplitude modulation and angle modulation produced simultaneously or at will by the same modulating signal (H03C 7/00 takes precedence) |
| H03C 5/02 | UGR1 | | . | by means of transit-time tube |
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| H03C 5/04 | UGR2 | | . . | the tube being a magnetron |
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| H03C 5/06 | UGR1 | | . | by deflection of electron beam in discharge tube |
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| H03C 7/00 | HGR | Modulating electromagnetic waves (devices or arrangements for the modulation of light G02F 1/00; for generating oscillations H03B, H03K) |
| H03C 7/02 | UGR1 | | . | in transmission line, waveguide, cavity resonator, or radiation field of aerial |
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| H03C 7/04 | UGR2 | | . . | Polarisation of transmitted wave being modulated |
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| H03C 99/00 | HGR | Subject matter not provided for in other groups of this subclass [2006.01] |