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3_260_MC_TUNNEL_DIODE_OSCILLATOR

Published:2009/7/19 21:37:00 Author:Jessie

3_260_MC_TUNNEL_DIODE_OSCILLATOR
Uses plug-in coils to generate sine-wave output over wide frequency range.- Transistor Manual, Seventh Edition, General Electric Co., 1964, p 352.   (View)

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UNSTABILIZED_TUNNEL_DIODE

Published:2009/7/19 21:35:00 Author:Jessie

UNSTABILIZED_TUNNEL_DIODE
Simple but generally impractical because frequency varies greatly with supply voltage and waveform is poor, Frequency also varies with bias, from maximum of 2 Mc at 250 mv to 0.5 Mc at 80 mv and to 0.8 Mc of 400 mv. -Wen-Hsiung Ko, Designing Tunnel Diode Oscillators, Electronics, 34:6, p 68-72.   (View)

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SQUARE_WAVE_GENERATOR

Published:2009/7/10 4:10:00 Author:May

SQUARE_WAVE_GENERATOR
This relaxation oscillator circuit uses diodes to produce charge and discharge paths for C1. The duty cycle is set via R2 and the frequency via R4. C1 can be varied to vary the frequency ranae, which, for this circuit is approximately 300 to 3000 Hz.   (View)

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SCS_RLC_OSCILLATOR

Published:2009/7/19 21:34:00 Author:Jessie

SCS_RLC_OSCILLATOR
Positive transient, such as closing of switch, charges C through L. When current reverses, diode blocks and triggers scs. When capacitor discharges, scs turns off and C charges to repeat cycle.- Transistor Manual, Seventh Edition, General Electric Co., 1964, p 434.   (View)

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RING_OF_FIVE_NEON_OSCILLATOR

Published:2009/7/19 21:33:00 Author:Jessie

RING_OF_FIVE_NEON_OSCILLATOR
Can be used for sequential switching, with operating cycles of various lengths at audio and subaudio frequencies. When first turned on, one of lamps fires because of inequalities in lamp properties, and others then fire in sequence. Values of R and C determine cycle duration, according to formula given in article. Time is 1 sec for C=0.5 mfd and R=10 meg.-R. L. lves, Neon Oscillator Rings, Electronics, 31:41, p 108-115.   (View)

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VARIABLE_DUTY_CYCLE_SQUARE-WAVE_GENERATOR

Published:2009/7/10 4:06:00 Author:May

VARIABLE_DUTY_CYCLE_SQUARE-WAVE_GENERATOR
C1 alternately charges via R1/D1 and the upper half of R5, and discharges via R1/D2 and the lower half of R5. The duty cycle can be varied over the range from 1:10 to 10:1 via R5.   (View)

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STABLE_3_MC_CRYSTAL_COLPITTS

Published:2009/7/19 21:32:00 Author:Jessie

STABLE_3_MC_CRYSTAL_COLPITTS
Crystal operates at series resonance in feedback path between emitter of Q2 and tank tap. Q1 is shunt voltage regulator providing power-supply isolation. Two-stage feedback amplifier Q3-Q4 provides output impedance of about 150 ohms when R1 is adjusted for 0.5-V peak-to-peak output swing.-J. W. Hamblen and J. B. Oakes, Instrumentation and Telemetry of Transit Navigational Satellites, Electronics, 34:32, p 148-153.   (View)

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SQUARE_WAVE_OSCILLATOR

Published:2009/7/10 4:02:00 Author:May

SQUARE_WAVE_OSCILLATOR
SQUARE_WAVE_OSCILLATOR

The NE555 is connected in the astable mode and uses only three timing components (RA, RB, and Ct. A 0.01-μF bypass capacitor is used on pin 5 for noise immunity. The operating restrictions of the astable mode are few. The upper frequency limit is about 100 kHz for reliable operation, as a result of internal storage times. Theoretically, it has no lower frequency limit, only that which is imposed by Rt and Ct limitations. The frequency for the circuit can be calculated as:   (View)

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PREFERRED_08_20_MC_ELECTRON_COUPLED_COLPITTS_CRYSTAL

Published:2009/7/19 21:30:00 Author:Jessie

PREFERRED_08_20_MC_ELECTRON_COUPLED_COLPITTS_CRYSTAL
Provides higher output, greater harmonic content, better frequency correlation, and more immunity from effects of load changes than simpler Colpitts version. –NBS, Handbook Preferred Circuits Navy Aeronautical Electronic Equipment, Vol. 1. Electron Tube Circuits, 1963, PC 102, p 102-2.   (View)

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CODE_PRACTICE_OSCILLATOR_1

Published:2009/7/19 21:28:00 Author:Jessie

CODE_PRACTICE_OSCILLATOR_1
Basic tunnel-diode oscillator with single-transistor amplifier stage can be used as code practice oscillator, sensitive broadband c-w keying monitor, sensitive aural-visual parasitic detector, or as wavemeter. - Transisyor Manual, Seventh Edition, General Electric Co., 1964, p 362.   (View)

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PREFERRED_08_20_MC_COLPITTS_CRYSTAL

Published:2009/7/19 21:27:00 Author:Jessie

PREFERRED_08_20_MC_COLPITTS_CRYSTAL
Frequency is changed by substituting plug in crystals. Component values depend on frequency range. Serves as simple and stable frequency source.-NBS, Handbook Preferred Circuits Navy Aeronautical Electronic Equipment, Vol. I, Electron Tube Circuits, 1963, PC 101, p 101-2.   (View)

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SIMPLE_SQUARE_WAVE_OSCILLATOR

Published:2009/7/10 3:55:00 Author:May

SIMPLE_SQUARE_WAVE_OSCILLATOR
Using only four components, this circuit generates a square wave. Oscillation frequency is ≈ 1/ RCx Hz, R=MΩ, Cx-μF (in this case, R=10 kΩ).   (View)

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CONSTANT_OUTPUT_OSCILLATOR

Published:2009/7/19 21:26:00 Author:Jessie

CONSTANT_OUTPUT_OSCILLATOR
Used with automatic doppler cycle counter to determine position and velocity of missiles and satellites. Output signal amplitude is maintained constant over wide range of maintained constant over wide range of frequencies. –B. E. Keiser, Digital-Counter Techniques Increase Doppler Uses, Electronics, 32:21, p 46-50.   (View)

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10_CPS_PHASE_SHIFT_FET_OSCILLATOR

Published:2009/7/19 21:23:00 Author:Jessie

10_CPS_PHASE_SHIFT_FET_OSCILLATOR
Uses four-mesh feedback network to provide attenuation of 18:36, without use of lamps. –V. Glover, Using a New Device: Field-Effect Transistor Oscillators, Electronics,35:51, p 44-46.   (View)

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CODE_PRACTICE_OSCILLATOR

Published:2009/7/19 21:22:00 Author:Jessie

CODE_PRACTICE_OSCILLATOR
Requires only single flashlight cell and two transistors. - Transistor Manual, Seventh Edition, General Electric Co., 1964, p 378.   (View)

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30_MC_2N2188

Published:2009/7/19 21:21:00 Author:Jessie

30_MC_2N2188
Delivers 23 mw over temperature range of -40 to +60℃. Typical collector efficiency is 30%.-Texas Instruments Inc., Transistor Circuit Design, McGrctw-Hill, N.Y., 1963, p 319.   (View)

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PREFERRED_SERIES_TRIGGERED_BLOCKING_OSCILLATOR

Published:2009/7/19 21:48:00 Author:Jessie

PREFERRED_SERIES_TRIGGERED_BLOCKING_OSCILLATOR
Responds to more slowly rising trigger than parallel-triggered version. Gathode follower V1 is included to provide required low driving impedance and minimize reaction of oscillator on trigger source. Designed for repetition rates up to 2,000 pps. Four terminals give choice of positive or negative output from positive input. Plate voltage is 300 V for 5814A and 150 V for 6111.-NBS, Handbook Preferred Circuits, Navy Aeronautical Electronic Equipment, Vol.I, Electron Tube Circuits, 1963, PC 49, p 49-2.   (View)

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PREFERRED_DISTANCE_MARK_DIVIDER

Published:2009/7/19 21:46:00 Author:Jessie

PREFERRED_DISTANCE_MARK_DIVIDER
Used to generate distance marks when several must be displayed simultaneously. Maximum division factor is 5. For 5814A, R6 is 100 ohms and plate voltage is 300 V. For 6111, R6 is 150 ohms and plate voltage is 150 V. R7 should be maximum that will just suppress ringing.-NBS, Handbook Preferred Circuits Navy Aeronautical Electronic Equipment, Vol.I, Electron Tube Circuits,1963, PC 51, p 51-2.   (View)

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24_MC_CLAPP

Published:2009/7/19 21:45:00 Author:Jessie

24_MC_CLAPP
Delivers 300 mw to 50-ohm load, with collector efficiency of 35%.-Texas Instruments Inc., Transistor Circuit Design, McGraw-Hill, N.Y., 1963, p 319.   (View)

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23_MC_PUSH_PULL

Published:2009/7/19 21:44:00 Author:Jessie

23_MC_PUSH_PULL
Delivers 75 mw to 50-ohm load, through network. –Texas Instruments Inc., Transistor Circuit Design, McGraw-Hill, N. Y., 1963, p 318.   (View)

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