H03B   1/00  \	0	0	5J078	H03B   1/00	1		Details
H03B   1/00  B	0	0	5J078	H03B   1/00	114	ƻ˴ؤ	related to monitoring
H03B   1/00  D	0	0	5J078	H03B   1/00	100	Ĵ˴ؤ	related to adjusting
H03B   1/00  E	0	0	5J078	H03B   1/00	249	¤˴ؤ	related to structures
H03B   1/00  Z	0	0	5J078	H03B   1/00	212	¾Τ	Others
H03B   1/02  \	1	1	5J078	H03B   1/02	15	ȯ㡥Ǯȯι¤κżˤǮΤȯȣ£	Structural details of power oscillators, e.g. for heating (generators for heating by electromagnetic fields H05B 6/00)
H03B   1/04  \	1	1	5J078	H03B   1/04	214	ȯ㡥Ĵȡ㸺	Reducing undesired oscillations, e.g. harmonics
H03B   5/00  \	0	0	5J081	H03B   5/00	170	ϤϤؤκԤˤѤưȯʣȣ£ȣ£ͥ	Generation of oscillations using amplifier with regenerative feedback from output to input (H03B 9/00, H03B 15/00 take precedence)
H03B   5/02  \	1	1	5J081	H03B   5/02	14		Details
H03B   5/02  A	1	0	5J081	H03B   5/02	66	¾εǽ뤿ȯѷ	deforming generators to provide other functions
H03B   5/02  B	1	0	5J081	H03B   5/02	164	Ū¤ħ	characterised by mechanical structures
H03B   5/02  C	1	0	5J081	H03B   5/02	160	İʾȯϩȹ礻ħ	characterised by combinations of two or more oscillation circuits
H03B   5/02  D	1	0	5J081	H03B   5/02	339	ϲϩħ	characterised by output circuits
H03B   5/02  Z	1	0	5J081	H03B   5/02	100	¾Τ	Others
H03B   5/04  \	2	2	5J081	H03B   5/04	17	ʪŪ͡㡥Ÿ١١Ѳ뤿ȯѷ	Modifications of generator to compensate for variations in physical values, e.g. power supply, load, temperature
H03B   5/04  A	2	0	5J081	H03B   5/04	54	٤Ѳ뤿Τ	for compensating changes in loads
H03B   5/04  B	2	0	5J081	H03B   5/04	134	٤Ѳ뤿Τ	for compensating changes in temperatures
H03B   5/04  C	2	1	5J081	H03B   5/04	231	̣ȯѷ	Modifications of LC oscillators
H03B   5/04  D	2	1	5J081	H03B   5/04	117	ʬȯѷ	Modifications of distribution constant oscillators
H03B   5/04  E	2	1	5J081	H03B   5/04	55	ãϣ̣ȯѷ	Modifications of CR or LR oscillators
H03B   5/04  F	2	1	5J081	H03B   5/04	218	ŵŪưҤѤȯѷ	Modifications of oscillators using electro-mechanical oscillators
H03B   5/04  G	2	0	5J081	H03B   5/04	181	ŸѲ뤿Τ	for compensating changes in power supplies
H03B   5/04  Z	2	0	5J081	H03B   5/04	207	¾Τ	Others
H03B   5/06  \	2	2	5J081	H03B   5/06	264	ȯεưμ¤ˤ뤿ȯѷȯεưȣ̣	Modifications of generator to ensure starting of oscillations (starting of generators H03L 3/00)
H03B   5/08  \	1	1	5J081	H03B   5/08	10	ȿǻҤ󥹤Ƚѥ󥹤Ȥʤ	with frequency-determining element comprising lumped inductance and capacitance
H03B   5/08  A	1	0	5J081	H03B   5/08	369	ȯϼȿѡĴ빽ħ	characterised by structures for varying or adjusting oscillated output frequencies
H03B   5/08  B	1	0	5J081	H03B   5/08	56	ȯϿѡĴ빽ħ	characterised by structures for varying or adjusting oscillated output amplitudes
H03B   5/08  C	1	0	5J081	H03B   5/08	157	Ӥ˱ȯѷħ	characterised by modifications of oscillators for a given application
H03B   5/08  Z	1	0	5J081	H03B   5/08	73	¾Τ	Others
H03B   5/10  \	2	2	5J081	H03B   5/10	354	ǽưǻҤɤǤΡʣȣ£ͥ	active element in amplifier being vacuum tube (H03B 5/14 takes precedence)
H03B   5/12  \	2	2	5J081	H03B   5/12	13	ǽưǻҤȾƳ֤ǤΡʣȣ£ȣ£ͥ	active element in amplifier being semiconductor device ()
H03B   5/12  A	2	0	5J081	H03B   5/12	265	ȥ󥸥ʣѤ	using multiple transistors
H03B   5/12  B	2	1	5J081	H03B   5/12	793	ưѤ	using differential amplifiers
H03B   5/12  C	2	0	5J081	H03B   5/12	109	ƣţԤ򣱸Ѥ	using one FET
H03B   5/12  D	2	0	5J081	H03B   5/12	252	Хݡݥȥ󥸥򣱸Ѥ	using one bi-port transistor
H03B   5/12  E	2	1	5J081	H03B   5/12	639	ȯϼȿѡĴ빽ħ	characterised by structures for varying or adjusting oscillated output frequencies
H03B   5/12  G	2	2	5J081	H03B   5/12	777	ŰǻҤѤ	using voltage controlled variable capacity elements
H03B   5/12  F	2	1	5J081	H03B   5/12	75	ȯϿѡĴ빽ħ	characterised by structures for varying or adjusting oscillated output amplitudes
H03B   5/12  Z	2	0	5J081	H03B   5/12	48	¾Τ	Others
H03B   5/14  \	2	2	5J081	H03B   5/14	9	ȿǻҤ֥åϩФƿ椬ĥ롼פ˷礵Ƥ	the frequency-determining element being connected <u>via</u> a bridge circuit to a closed&nbsp;loop in&nbsp;which the signal is transmitted
H03B   5/16  \	3	3	5J081	H03B   5/16	1	ǽưǻҤɤǤ	active element in amplifier being vacuum tube
H03B   5/18  \	1	1	5J081	H03B   5/18	24	ȿǻҤʬ󥹤ʬѥ󥹤Ȥʤ	with frequency-determining element comprising distributed inductance and capacitance
H03B   5/18  A	1	0	5J081	H03B   5/18	277	ƱѤ	using coaxial oscillators
H03B   5/18  B	1	0	5J081	H03B   5/18	68	ƹѤ	using hollow oscillators
H03B   5/18  C	1	0	5J081	H03B   5/18	1037	ȥĥϩѤ	using strip line oscillators
H03B   5/18  D	1	0	5J081	H03B   5/18	739	ͶζѤ	using inductive oscillators
H03B   5/18  E	1	0	5J081	H03B   5/18	133	κѤ	using ferromagnetic materials
H03B   5/18  Z	1	0	5J081	H03B   5/18	116	¾Τ	Others
H03B   5/20  \	1	1	5J081	H03B   5/20	9	ȿǻҤ񹳤ȥѥ󥹤ޤϥ󥹤Τ줫ȤʤΡ㡥ȯ	with frequency-determining element comprising resistance and either capacitance or inductance, e.g. phase-shift oscillator
H03B   5/20  A	1	0	5J081	H03B   5/20	197	ȯϼȿѡĴ빽ħ	characterised by structures for varying or adjusting oscillated output frequencies
H03B   5/20  B	1	0	5J081	H03B   5/20	28	ȯϿѡĴ빽ħ	characterised by structures for varying or adjusting oscillated output amplitudes
H03B   5/20  Z	1	0	5J081	H03B   5/20	160	¾Τ	Others
H03B   5/22  \	2	2	5J081	H03B   5/22	2	ǽưǻҤɤǤΡʣȣ£ͥ	active element in amplifier being vacuum tube (H03B 5/26 takes precedence)
H03B   5/24  \	2	2	5J081	H03B   5/24	15	ǽưǻҤȾƳ֤ǤΡʣȣ£ͥ	active element in amplifier being semiconductor device (H03B 5/26 takes precedence)
H03B   5/26  \	2	2	5J081	H03B   5/26	2	ȿǻҤ椬ĥ롼Υ֥åϩΰǤΡȿǻҤ֥åϩФơ嵭ĥ롼פ˷礵ƤΡ㡥֥åȯԷȯ	the frequency-determining element being part of a bridge circuit in a closed&nbsp;loop&nbsp;in&nbsp;which the signal is transmitted; the frequency-determining element being connected <u>via</u> a bridge circuit to such a closed loop, e.g. Wien-Bridge oscillator, parallel-T oscillator
H03B   5/26  A	2	0	5J081	H03B   5/26	141	ȯϼȿѡĴ빽ħ	characterised by structures for varying or adjusting oscillated output frequencies
H03B   5/26  B	2	0	5J081	H03B   5/26	27	ȯϿѡĴ빽ħ	characterised by structures for varying or adjusting oscillated output amplitudes
H03B   5/26  Z	2	0	5J081	H03B   5/26	76	¾Τ	Others
H03B   5/28  \	3	3	5J081	H03B   5/28	1	ǽưǻҤɤǤ	active element in amplifier being vacuum tube
H03B   5/30  \	1	1	5J079	H03B   5/30	30	ȿǻҤŵŪưҤǤ	with frequency-determining element being electromechanical resonator
H03B   5/30  A	1	0	5J079	H03B   5/30	581	ɽȯ	Resilient surface wave oscillators
H03B   5/30  B	1	0	5J079	H03B   5/30	311	ŵŪȯ̼˲ưҤȤΡ	Electro-mechanically controlled oscillators (mainly using tuning fork oscillators)
H03B   5/30  C	1	1	5J079	H03B   5/30	33	Ĵ	Adjusting amplitudes
H03B   5/30  D	1	1	5J079	H03B   5/30	57	ȿĴ	Adjusting frequencies
H03B   5/30  E	1	1	5J079	H03B   5/30	33	ưĴ	Adjusting starting
H03B   5/30  F	1	1	5J079	H03B   5/30	75		Compensating temperatures
H03B   5/30  G	1	0	5J079	H03B   5/30	59	Ķȯ	Ultrasonic generators
H03B   5/30  Z	1	0	5J079	H03B   5/30	194	¾Τ	Others
H03B   5/32  \	2	2	5J079	H03B   5/32	56	ŵưҤǤ	being a piezo-electric resonator
H03B   5/32  J	2	0	5J079	H03B   5/32	1698	徽ȯ	Quartz oscillators
H03B   5/32  A	2	1	5J079	H03B   5/32	2401		Compensating temperatures
H03B   5/32  B	2	2	5J079	H03B   5/32	177	Żһ֤β	Compensating temperatures with electronic clock devices
H03B   5/32  C	2	1	5J079	H03B   5/32	151	Ĵ	Adjusting amplitudes
H03B   5/32  D	2	1	5J079	H03B   5/32	808	ưϤĴ	Adjusting starting or outputs
H03B   5/32  E	2	1	5J079	H03B   5/32	1132	ȯȿĴ	Adjusting oscillated frequencies
H03B   5/32  F	2	2	5J079	H03B   5/32	164	ʣưҤؤˤ	by switching multiple oscillators
H03B   5/32  G	2	1	5J079	H03B   5/32	272	ݥСݥȡݥȯ	Overtone, oscillating
H03B   5/32  H	2	1	5J079	H03B   5/32	4010	¤	Structures
H03B   5/32  Z	2	0	5J079	H03B   5/32	437	¾Τ	Others
H03B   5/34  \	3	3	5J079	H03B   5/34	90	ǽưǻҤɤǤΡʣȣ£ͥ	active element in amplifier being vacuum tube (H03B 5/38 takes precedence)
H03B   5/36  \	3	3	5J079	H03B   5/36	965	ǽưǻҤȾƳ֤ǤΡʣȣ£ͥ	active element in amplifier being semiconductor device (H03B 5/38 takes precedence)
H03B   5/38  \	3	3	5J079	H03B   5/38	6	ȿǻҤ֥åϩФƿ椬ĥ롼פ˷礵Ƥ	the frequency-determining element being connected <u>via</u> a bridge circuit to a closed&nbsp;loop in&nbsp;which the signal is transmitted
H03B   5/40  \	2	2	5J079	H03B   5/40	54	襤ưҤǤΡʣȣ£ͥ	being a magnetostrictive resonator (H03B5/42 takes precedence)
H03B   5/42  \	2	2	5J079	H03B   5/42	6	ȿǻҤ֥åϩФơ椬ĥ롼פ˷礵Ƥ	the frequency-determining element being connected <u>via</u> a bridge circuit to a closed&nbsp;loop in&nbsp;which the signal is transmitted
H03B   7/00  \	0	0	5J078	H03B   7/00	46	ĤŶ˴֤񹳤ǽưǻҤѤưȯʣȣ£ͥ	Generation of oscillations using active element having a negative resistance between two of its electrodes (H03B 9/00 takes precedence)
H03B   7/02  \	1	1	5J078	H03B   7/02	4	󥹤Ƚѥ󥹤ȤʤȿǻҤͭ	with frequency-determining element comprising lumped inductance and capacitance
H03B   7/04  \	2	2	5J078	H03B   7/04	16	ǽưǻҤɤǤ	active element being vacuum tube
H03B   7/06  \	2	2	5J078	H03B   7/06	70	ǽưǻҤȾƳ֤Ǥ	active element being semiconductor device
H03B   7/08  \	3	3	5J078	H03B   7/08	165	ȥͥɤǤ	being a tunnel diode
H03B   7/10  \	2	2	5J078	H03B   7/10	2	ǽưǻҤŴɤޤϥŴɤǤ	active element being gas-discharge or arc-discharge tube
H03B   7/12  \	1	1	5J078	H03B   7/12	31	ʬ󥹤ʬѥ󥹤ȤʤȿǻҤͭ	with frequency-determining element comprising distributed inductance and capacitance
H03B   7/14  \	2	2	5J078	H03B   7/14	104	ǽưǻҤȾƳ֤Ǥ	active element being semiconductor device
H03B   9/00  \	0	0	5J078	H03B   9/00	29	Իָ̤ѤưȯΣ	Generation of oscillations using transit-time effects [2]
H03B   9/01  \	1	1	5J078	H03B   9/01	83	ŻҴɤѤΡΣ	using discharge tubes [2]
H03B   9/02  \	2	2	5J078	H03B   9/02	2	ٱżŻҴɤѤΡʥ饤ȥѤΣȣ£ˡΣ	using a retarding-field tube (using klystrons H03B 9/04) [2]
H03B   9/04  \	2	2	5J078	H03B   9/04	49	饤ȥѤΡΣ	using a klystron [2]
H03B   9/06  \	3	3	5J078	H03B   9/06	7	ȿͷ饤ȥѤΡΣ	using a reflex klystron [2]
H03B   9/08  \	2	2	5J078	H03B   9/08	21	ʹȴɤѤΡΣ	using a travelling-wave tube [2]
H03B   9/10  \	2	2	5J078	H03B   9/10	752	ޥͥȥѤΡΣ	using a magnetron [2]
H03B   9/12  \	1	1	5J003	H03B   9/12	1239	֤ѤΡ㡥֡Σ	using solid state devices, e.g. Gunn-effect devices [2]
H03B   9/14  \	2	2	5J003	H03B   9/14	354	ʬۥ󥹤ȥѥ󥹤ȤǻҤѤΡΣ	and elements comprising distributed inductance and capacitance [3]
H03B  11/00  \	0	0	5J080	H03B  11/00	21	ư忶ƱĴϩѤưȯʵԤĤΣȣ£	Generation of oscillations using a shock-excited tuned circuit (with feedback H03B 5/00)
H03B  11/02  \	1	1	5J080	H03B  11/02	153	ѡˤ忶	excited by spark
H03B  11/04  \	1	1	5J080	H03B  11/04	11	³ˤ忶	excited by interrupter
H03B  11/06  \	2	2	5J080	H03B  11/06	26	Ū³ˤ	by mechanical interrupter
H03B  11/08  \	2	2	5J080	H03B  11/08	5	³郎ŻҴɤǤ	interrupter being discharge tube
H03B  11/10  \	2	2	5J080	H03B  11/10	29	³郎ȾƳ֤Ǥ	interrupter being semiconductor device
H03B  13/00  \	0	0	5J080	H03B  13/00	5	ŻҥӡиѤưȯ	Generation of oscillations using deflection of electron beam in a cathode-ray tube
H03B  15/00  \	0	0	5J080	H03B  15/00	253	ή֡㡥ۡ֡ԥȥ󥹥ե̤Ѥ֡缧񹳤Ѥ֡ޤĶƳ̤Ѥưȯ	Generation of oscillations using galvano-magnetic devices, e.g. Hall-effect devices, devices using spin transfer effects, devices using giant magnetoresistance, or using super-conductivity effects
H03B  17/00  \	0	0	5J080	H03B  17/00	21	͸ȸдȤѤưȯ	Generation of oscillations using a radiation source and a detector
H03B  19/00  \	0	0	5J080	H03B  19/00	561	̸ĤȯοȿŪܤޤߤˤ뿶ưȯ	Generation of oscillations by non-regenerative frequency multiplication or division of a signal from a separate source
H03B  19/03  \	1	1	5J080	H03B  19/03	52	󥹤ѤΡΣ	using non-linear inductance [3]
H03B  19/05  \	1	1	5J080	H03B  19/05	158	ѥ󥹡㡥Х饯ɡѤΡΣ	using non-linear capacitance, e.g. varactor diodes [3]
H03B  19/06  \	1	1	5J080	H03B  19/06	6	ʾŶˤŻҴɤޤȾƳ֤ˤ	by means of discharge device or semiconductor device with more than two electrodes
H03B  19/08  \	2	2	5J080	H03B  19/08	102	ŻҴɤˤ	by means of a discharge device
H03B  19/10  \	3	3	5J080	H03B  19/10	16	ܤΤߤѤ	using multiplication only
H03B  19/12  \	3	3	5J080	H03B  19/12	6	ߤΤߤѤ	using division only
H03B  19/14  \	2	2	5J080	H03B  19/14	431	ȾƳ֤ˤ	by means of a semiconductor device
H03B  19/16  \	1	1	5J080	H03B  19/16	111	̵ή֤ѤΡ㡥ήɤޤϥåȥɤѤΡΣ	using uncontrolled rectifying devices, e.g. rectifying diodes or Schottky diodes [3]
H03B  19/18  \	2	2	5J080	H03B  19/18	77	ʬۥ󥹤ȥѥ󥹤ȤǻҤѤΡΣ	and elements comprising distributed inductance and capacitance [3]
H03B  19/20  \	2	2	5J080	H03B  19/20	16	ɤŲѤޤϥϥ󥹥ȸ̤򼨤ΡΣ	being diodes exhibiting charge storage or enhancement effects [3]
H03B  21/00  \	0	0	5J080	H03B  21/00	397	ۤʤȿĴ礹뤳Ȥˤ뿶ưȯʣȣ£ͥˡΣ	Generation of oscillations by combining unmodulated signals of different frequencies () [3]
H03B  21/01  \	1	1	5J080	H03B  21/01	28	ۤʤȿĴ֤ΥӡȤˤΡΣ	by beating unmodulated signals of different frequencies [3]
H03B  21/02  \	2	2	5J080	H03B  21/02	9	ʣΥӡȤˤΡ㡥ȿѡΣ	by plural beating, i.e. for frequency synthesis [3]
H03B  21/04  \	2	2	5J080	H03B  21/04	0	ĤλäʤѤΡΣ	using several similar stages [3]
H03B  23/00  \	0	0	5J080	H03B  23/00	366	ȿϰϤŪݰ뿶ưȯ	Generation of oscillations periodically swept over a predetermined frequency range
H03B  25/00  \	0	0	5J080	H03B  25/00	97	Ĥμȯˤ롤ۤʤʣĤμȿƱȯ	Simultaneous generation by a free-running oscillator of oscillations having different frequencies
H03B  27/00  \	0	0	5J080	H03B  27/00	237	ñʤطΣϤǤϤʤơȿۤʤʣĤνϤͿ뿶ưȯ	Generation of oscillations providing a plurality of outputs of the same frequency but differing in phase, other than merely two anti-phase outputs
H03B  28/00  \	0	0	5J078	H03B  28/00	41	ȿưȯ뤿ȷѷޤߡġȷνˤȾưȯޤߡ롼ףȣ£ȣ£ޤʤˡˤ뿶ưȯʷ׻ưԤΥʥؿȯǣǣˡΣ	Generation of oscillations by methods not covered by groups H03B 5/00-H03B 27/00, including modification of the waveform to produce sinusoidal oscillations (analogue function generators for performing computing operations G06G 7/26) [4]
H03B  28/00  A	0	0	5J078	H03B  28/00	362	ǥ뵻ѤѤȤȯ	Generating sinusoidal waves using digital technology
H03B  28/00  B	0	1	5J078	H03B  28/00	689	ޤϥȥ󥿤Ѥƿꤹ	Determining amplitudes using memory and memory counter
H03B  28/00  C	0	1	5J078	H03B  28/00	177	󥿤Ѥƿꤹ	Determining amplitudes using counter
H03B  28/00  Z	0	0	5J078	H03B  28/00	128	¾Τ	Others
H03B  29/00  \	0	0	5J080	H03B  29/00	250	ήӻŰȯʻȯȤ̤Ŭ礹αˤĥŻҴɣȣʣ	Generation of noise currents and voltages (gas-filled discharge tubes with solid cathode specially adapted as noise generators H01J 17/00)
