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公开(公告)号:US3340460A
公开(公告)日:1967-09-05
申请号:US56296866
申请日:1966-07-01
申请人: WEST INSTR LTD
发明人: CLARKE EDWIN L , OWENS ALWYN R
CPC分类号: G05F1/452 , G05D23/1913 , G05D23/22
摘要: 1, 021, 425. Automatic temperature control systems. WEST INSTRUMENTS Ltd., E. L. CLARKE and A. R. OWENS. Jan. 30,1963 [Jan. 31, 1962], No. 3769/62. Heading G3R. [Also in Divisions H2 and H3] The temperature of a furnace is automatically controlled by supplying its heater 4 with power in periods each comprising an integral number of complete half cycles of the source 2 passed by reverse-parallel-connected silicon controlled rectifiers 6, 6 1 . The output from a thermo-couple/ potentiometer comparator circuit 10a-1, 10a-2, is passed through an amplifier 16 to charge a capacitor 10b at a rate dependent on the power requirements of the heater 4. Superimposed on this capacitor voltage are pulses coincident with source waveform zeros and produced by a circuit comprising resistors 8a, 8c, Zener diode 8b and an inductance 8d. Upon firing of rectifier 6 by the resultant signal, capacitor 10b discharges assisted by the induced voltage in a transformer 20 caused by the heater current, rectifier 6 1 being fired by a pulse developed across an inductance 23 upon termination of conduction of rectifier 6. Further conduction is determined by the state of charge of capacitor 10b after each complete cycle, it being noted that rectifier 6 is always fired at a waveform zero by making the amplitude of the pulses such that the peak of each trigger pulse reaches at least to the base of the next. Thus the minimum pulse amplitude is determined by the maximum slope of the capacitor voltage characteristic that can occur. In a modification, Fig. 5 (not shown) the pulse generating circuit is connected directly across the source 2, the inductance 8d forming the primary of a transformer whose secondary is in series with the capacitor 10b. In another modification, Fig. 6 (not shown) the pulses are generated in a separate circuit using a capacitor-resistor type differentiating network 24, 26, and appropriate pulses are used to make momentarily conductive a transistor 22 1 which applies the capacitor voltage to an amplifying transistor 30 1 connected to the control electrode of rectifier 6 through a transformer 32. Current flow through the heater 4 is used to prevent recharge of the capacitor 10b until the rectifier 6 has finished conducting, a transformer/rectifierbridge network 37, 39 being provided for this purpose. A basic arrangement using one silicon controlled rectifier is described (see Division H2).
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