US3761832A - Preamplifier for music and voice - Google Patents

Preamplifier for music and voice Download PDF

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US3761832A
US3761832A US00164724A US3761832DA US3761832A US 3761832 A US3761832 A US 3761832A US 00164724 A US00164724 A US 00164724A US 3761832D A US3761832D A US 3761832DA US 3761832 A US3761832 A US 3761832A
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coupled
source
voice
music
field effect
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D Blattenberger
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U S Holding Co Inc
Alcatel USA Corp
ITT Inc
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03GCONTROL OF AMPLIFICATION
    • H03G5/00Tone control or bandwidth control in amplifiers
    • H03G5/02Manually-operated control
    • H03G5/04Manually-operated control in untuned amplifiers
    • H03G5/10Manually-operated control in untuned amplifiers having semiconductor devices
    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03FAMPLIFIERS
    • H03F3/00Amplifiers with only discharge tubes or only semiconductor devices as amplifying elements
    • H03F3/68Combinations of amplifiers, e.g. multi-channel amplifiers for stereophonics
    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03GCONTROL OF AMPLIFICATION
    • H03G3/00Gain control in amplifiers or frequency changers without distortion of the input signal
    • H03G3/20Automatic control
    • H03G3/30Automatic control in amplifiers having semiconductor devices
    • H03G3/3005Automatic control in amplifiers having semiconductor devices in amplifiers suitable for low-frequencies, e.g. audio amplifiers
    • H03G3/301Automatic control in amplifiers having semiconductor devices in amplifiers suitable for low-frequencies, e.g. audio amplifiers the gain being continuously variable
    • H03G3/3015Automatic control in amplifiers having semiconductor devices in amplifiers suitable for low-frequencies, e.g. audio amplifiers the gain being continuously variable using diodes or transistors

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  • ABSTRACT There is disclosed a preamplifier for both music and voice that will enable achieving the best quality for both music and voice.
  • the preamplifier includes an amplifier circuit for music whose components are adjusted or selected to provide the desired music quality and a distinct amplifier circuit for voice whose components are adjusted or selected to provide the desired voice quality.-The output of these two distinct amplifier circuits are coupled to a common amplifier stage prior to being coupled to a common power amplifier. With this arrangement, a simplified automatic gain control circuit driven by the output signal of the power amplifier can be provided for the voice amplifier circuit.
  • boosts the raising or adjusting of both low and high frequency for bass quality
  • cuts adjusting or lowering both low and high frequencies for treble quality
  • Page quality is improved by tapering the high frequencies.
  • utilization of an expansion-compression circuit for automatic gain control of the page signal is complex and expensive.
  • An object of the present invention is to provide a-preamplifier for both music and voice which overcomes the aforementioned difficulties.
  • Another object of the present invention is to provide an amplifier for music and page signals which incorporates therein separate amplifying circuits for both page and music inputs so as to overcome the aforementioned difficulties.
  • a feature of the present invention is the provision of a preamplifier for both voice and music inputs comprising a first source of voice; a second source of music; a first amplifier means coupled to the first source; a second amplifier means coupled to the second source; and a third amplifier means coupled in common to the output of the first and second amplifier means to provide improved quality voice and music for coupling to a utilization device.
  • Another feature of the present invention is the provision of a preamplifier for both voice and music inputs incorporating the above-mentioned means and further including a power amplifier coupled between the output of the third amplifier means and the utilization de vice; and an automatic gain control circuit coupled between the first source and the first amplifier means and to the output of the power amplifier.
  • FIGURE is a schematic diagram of a preamplifier for both voice and music inputs in accordance with the principles of the present invention.
  • the preamplifier of the present invention further includes a power amplifier 6 coupled between the output of amplifier means 5 and the utilization device and when desired there is provided automatic gain control circuit 7 coupled between terminal 1 and amplifier means 3 and to the output of power amplifier 6.
  • Amplifier means 3 includes a n-type field effect transistor O3 to which the page or voice input signal applied to terminal] is coupled by means of capacitor C3 when switch S1 is in the position opposite to the one shown.
  • the signal'at terminal 1 is coupled by capacitor C3 to the gate electrode of transistor Q3.
  • Resistors R4, R5, R9 and R10 are DC (direct current) biasing resistors for transistor Q3.
  • Resistor R4 is coupled between the gate electrode and a positive operating voltage present on bus 8 while resistor R9 is coupled between the gate electrode and a reference potential, such as ground.
  • Resistor R5 is coupled between the drain electrode and bus 8 while resistor R10 is coupled between the source electrode and ground.
  • Capacitor C7 in parallel with resistor R10 improves frequency response of this amplifying stage while capacitor C5 coupled between the drain electrode and ground has a value selected or chosen to taper high frequencies for best page quality.
  • the output signal from transistor O3 is coupled from itsdrain electrode by the series circuit including capacitor C4 and resistor R29 and applied to the base electrode of an npn-type transistor Q5 which forms the major component of amplifier means 5.
  • Resistor R29 has its value adjusted or selected for desired gain of the page circuit.
  • the overall voltage gain of amplifier means 3 with the value for resistor R29 as shown in the TABLE presented hereinbelow is 25.
  • the voice signal applied to the base of transistor O5 is amplified and coupled by capacitor C12 to a suitable power amplifier 6.
  • amplifier means 5 includes resistors R18, R19, R26 and R27 which are DC biasing resistors. Resistor R18 is coupled between the operating potential bus 8 and the base electrode while resistor R26 is coupled between the base electrode and ground. Resistor R19 is coupled between the collector electrode and bus 8 while resistor R27 is coupled between the emitter electrode and ground. Capacitor Cl 1 coupled between the base and collector electrodes is THD (total harmonic distortion) for the page circuit without AGC is 0.5 percent.
  • resistor R12 which has a value chosen according to the desired output from the power amplifier.
  • the value shown in the TABLE presented hereinbelow is the typical value for a 70.7 VRMS (volts root means square) system.
  • Resistor R15 has its value selected for desired feedback resistor level.
  • the value for resistor R15 shown in the TABLE below supplies sufficient feedback such that with a 3 VRMS signal applied to terminal 1, a 0.7 VRMS is present at the preamplifier output (capacitor C12).
  • the attack time of the automatic gain control circuit is determined primarily by capacitor C8 and resistor R15.
  • Decay time for the automatic gain control circuit is determined by capacitor C8 and resistor R14.
  • Diode D2 is a high speed diode which converts a portion of the signal coupled to resistor R12 to a DC equivalent voltage.
  • Transistor Q1 a npn type transistor, has its emitter connected to ground, its collector connected to terminal 1 through the series circuit of capacitor Cl and resistor R1, and its base coupled to the junction of resistors R11 and R13.
  • Transistor Q1 acts as a voltage divider in series with resistor R1 and in shunt with resistor R6. The amount of signal transistor 01 shunts to ground depends on the applied DC voltage coupled to its base from resistors R1] and R13.
  • 36db (decibels) of dynamic range is obtainable by AGC action of transistor Q1 and its related components.
  • a typical page THD with automatic gain control is 1 percent.
  • the remainder of the automatic gain control circuit include the n-type field effect transistor Q2 which has the page input coupled through coupling capacitors C1 and C2 to its gate electrode.
  • Resistors R2, R3, R7 and R8 are DC biasing resistors. Resistor R2 is coupled between bus 8 the gate electrode while resistor R7 is coupled between the gate electrode and ground. Resistor R3 is coupled between the drain electrode and bus 8 while resistor R8 is coupled between the source electrode and ground. Capacitor C6 coupled in shunt relation with resistor R8 is utilized for better frequency response.
  • Resistor R28 is utilized as a load for transistor O2 to reduce no signal noise.
  • Transistors Q1 and Q2 and their associated circuits are used only where automatic gain control is desired. As previously mentioned, if automatic gain control is not desired switch S1 is moved to its other position and the voice (page) signal is applied directly to the gate electrode of transistor Q3 through capacitor C3.
  • the music input coupled to terminal 2 is coupled to amplifier 4 which includes coupling capacitor C14 to couple the music signal to the gate electrode of the ntype field effect transistor Q4.
  • Resistors R16, R17, R23 and R24 are DC biasing resistors. Resistor R16 is coupled between bus 8 and the gate electrode while resistor 23 is coupled between the gate electrode and ground. Resistor R17 is coupled between the drain electrode and bus 8 while resistor R24 is coupled be tween the source electrode and ground. Capacitor C18 coupled in shunt relation to resistor R24 is utilized to improve frequency response.
  • Transistor Q4 amplifies the music signal and capacitor C9 couples the amplified signal to cut circuits including the parallel circuit arrangement of capacitor C and potentiometer R21 which provides bass cut control and to the series circuit including capacitor C and potentiometer R which provides treble cut control.
  • These two cut control circuits supply a minimum of 9db reduction in gain at 50 hertz and 10 kilohertz, respectively.
  • the output of the base cut circuit is coupled through the series circuit including capacitor C16 and resistor R22 to the base electrode of transistor Q5. The value of resistor R22 is selected for the desired music channel gain.
  • the power supply for the preamplifier described herein is provided by a source of positive voltage applied to terminal B+.
  • Terminal 8+ is connected to one terminal lead of resistor R20.
  • the other terminal lead of resistor R20 is coupled to bus 8.
  • the value of resistor R20 is chosen by taking into consideration the value of the voltage applied to terminal 8+ and the amount of ripple present in this voltage.
  • the voltage must have a value of at least 18 voltages depending on the amount of ripple.
  • the zener diode D1 and capacitor C13 is used for filtering the voltage applied to terminal B+ with high ripple content.
  • TABLE is a list of the values of the various components and the type of diodes and transistors employed in a reduction to practice of the circuitry shown in the drawing.
  • the foregoing description of the drawing was directed toward a circuit employing n-type field effect transistors and npn-type transistors.
  • first amplifier means coupled to said first source; a second amplifier means coupled to said second source; a third amplifier means coupled in common to the output of said first and second amplifier means to provide improved quality voice and music for coupling to a utilization device;
  • said first amplifier means including a positive voltage power supply, a ground potential, and a first n-type field effect transistor having its gate coupled to said first source, its drain coupled to said power supply through a first load resistor and its source coupled to said ground potential;
  • said second amplifier means including a second n-type field effect transistor having its gate coupled to said second source, its drain coupled to said power supply through a second load resistor and its source coupled to said ground potential;
  • said third amplifier means including a first npn transistor having its base coupled to the drain of both said first and second field effect transistors, its emitter coupled to said ground potential and its collector coupled to said utilization device and said power supply through a third load resistor;
  • a power amplifier having its input coupled to the collector of said first npn transistor and its output coupled to said utilization device;
  • circuit having a semiconductor diode coupled to the output of said power amplifier to produce a direct current automatic gain control signal
  • a second npn transistor having its emitter coupled to said ground potential, its collector coupled to said first source and its base coupled to said semiconductor diode, said second npn transistor being responsive to said automatic gain control signal;
  • a third n-type field effect transistor having its gate coupled to said first source and the collector of said second npn transistor, its source coupled to said ground potential and its drain coupled to said power supply through a fourth load resistor and the gate of said first field effect transistor.
  • a preamplifier according to claim 1 further including a first capacitor coupled between the drain of said first field effect transistor and said ground potential having a value selected to provide the best voice quality;
  • a series circuit including a second capacitor and a first potentiometer, said series circuit being coupled between the drain of said second field effect transistor and said ground potential to adjust the treble cuts;
  • a parallel circuit including a third capacitor and a second potentiometer, said parallel circuit being coupled between the drain of said second field effect transistor and the base of said first npn transistor to adjust the base cuts.

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  • Power Engineering (AREA)
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Abstract

There is disclosed a preamplifier for both music and voice that will enable achieving the best quality for both music and voice. The preamplifier includes an amplifier circuit for music whose components are adjusted or selected to provide the desired music quality and a distinct amplifier circuit for voice whose components are adjusted or selected to provide the desired voice quality. The output of these two distinct amplifier circuits are coupled to a common amplifier stage prior to being coupled to a common power amplifier. With this arrangement, a simplified automatic gain control circuit driven by the output signal of the power amplifier can be provided for the voice amplifier circuit.

Description

ilnited States Patent [191 Blattenberger Sept. 25, 1973 PREAMPLIFIER FOR MUSIC AND VOICE David E. Blattenberger, Harrisburg, Pa.
22 Filed: July2l, 1971 21 Appl.No.: 164,724
[75] Inventor:
[52] US. Cl. 330/30 R, 330/35, 330/24 [51] Int. Cl. H03f 3/68 [58] Field of Search 330/9, 30 R, 147,
[56] References Cited UNITED STATES PATENTS I (voles) PAGE nvpu T FOREIGN PATENTS OR APPLICATIONS 157,771 8/1952 Australia 330/137 Primary Examiner-Nathan Kaufman Att0meyC. Cornell Remsen, Jr. et a1.
[57] ABSTRACT There is disclosed a preamplifier for both music and voice that will enable achieving the best quality for both music and voice. The preamplifier includes an amplifier circuit for music whose components are adjusted or selected to provide the desired music quality and a distinct amplifier circuit for voice whose components are adjusted or selected to provide the desired voice quality.-The output of these two distinct amplifier circuits are coupled to a common amplifier stage prior to being coupled to a common power amplifier. With this arrangement, a simplified automatic gain control circuit driven by the output signal of the power amplifier can be provided for the voice amplifier circuit.
2 Claims, 1 Drawing Figure TO UT/L/ZAT/O/V DEV/CE PO wax? AMPLIF/EI? 6 Patented Sept. 25, 1973 INVENTOR DAVID E. BLATTENBERGEQ mafia M AGENT 1 PREAMPLIFIER FOR MUSIC AND VOICE BACKGROUND OF THE INVENTION This invention relates to telecommunication amplifiers and more particularly to preamplifiers for both page (voice) and music signals.
Presently existing telecommunicating amplifiers utilize preamplifiers with a single input for both page and music signals. These two signals are amplified through several amplifier stages before being applied to a power amplifier section. For application employing automatic gain control for the page signal, an expansioncompression type automatic gain control circuit is utilized to avoid distortion of the music signal.
Several shortcomings exist with this approach due to conflicting'requirements necessary to achieve the best quality for both voice and music. First, boosts (the raising or adjusting of both low and high frequency for bass quality) and cuts (adjusting or lowering both low and high frequencies for treble quality) cannot be used for music because of their interaction with page quality. Page quality is improved by tapering the high frequencies. However, in doing this lower quality music results. In addition, utilization of an expansion-compression circuit for automatic gain control of the page signal is complex and expensive.
SUMMARY OF THE INVENTION An object of the present invention is to provide a-preamplifier for both music and voice which overcomes the aforementioned difficulties.
Another object of the present invention is to provide an amplifier for music and page signals which incorporates therein separate amplifying circuits for both page and music inputs so as to overcome the aforementioned difficulties.
A feature of the present invention is the provision of a preamplifier for both voice and music inputs comprising a first source of voice; a second source of music; a first amplifier means coupled to the first source; a second amplifier means coupled to the second source; and a third amplifier means coupled in common to the output of the first and second amplifier means to provide improved quality voice and music for coupling to a utilization device.
Another feature of the present invention is the provision of a preamplifier for both voice and music inputs incorporating the above-mentioned means and further including a power amplifier coupled between the output of the third amplifier means and the utilization de vice; and an automatic gain control circuit coupled between the first source and the first amplifier means and to the output of the power amplifier.
BRIEF DESCRIPTION OF THE DRAWING Above-mentioned and other features and objects of this invention will become more apparent by reference to the following description takenin conjunction with the accompanying drawing in which the sole FIGURE is a schematic diagram of a preamplifier for both voice and music inputs in accordance with the principles of the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENT As illustrated in the FIGURE the difficulties of a preamplifier having a single input for both page and music 65 utilized for high frequency stability. A typical page to terminal 1, a source of music input coupled to termi-' -nal 2, a first amplifier means 3 coupled to terminal 1,-
a second amplifier means 4 coupled to terminal 2 and a third amplifier means 5 coupled in common to the output of amplifier means 3 and 4 to provide improved quality voice and music signals for coupling to a utilization device, such as a load speaker or the like. In addition, the preamplifier of the present invention further includes a power amplifier 6 coupled between the output of amplifier means 5 and the utilization device and when desired there is provided automatic gain control circuit 7 coupled between terminal 1 and amplifier means 3 and to the output of power amplifier 6.
Amplifier means 3 includes a n-type field effect transistor O3 to which the page or voice input signal applied to terminal] is coupled by means of capacitor C3 when switch S1 is in the position opposite to the one shown. The signal'at terminal 1 is coupled by capacitor C3 to the gate electrode of transistor Q3. Resistors R4, R5, R9 and R10 are DC (direct current) biasing resistors for transistor Q3. Resistor R4 is coupled between the gate electrode and a positive operating voltage present on bus 8 while resistor R9 is coupled between the gate electrode and a reference potential, such as ground. Resistor R5 is coupled between the drain electrode and bus 8 while resistor R10 is coupled between the source electrode and ground. Capacitor C7 in parallel with resistor R10 improves frequency response of this amplifying stage while capacitor C5 coupled between the drain electrode and ground has a value selected or chosen to taper high frequencies for best page quality. The output signal from transistor O3 is coupled from itsdrain electrode by the series circuit including capacitor C4 and resistor R29 and applied to the base electrode of an npn-type transistor Q5 which forms the major component of amplifier means 5. Resistor R29 has its value adjusted or selected for desired gain of the page circuit. The overall voltage gain of amplifier means 3 with the value for resistor R29 as shown in the TABLE presented hereinbelow is 25. The voice signal applied to the base of transistor O5 is amplified and coupled by capacitor C12 to a suitable power amplifier 6.
In addition to transistor Q5, amplifier means 5 includes resistors R18, R19, R26 and R27 which are DC biasing resistors. Resistor R18 is coupled between the operating potential bus 8 and the base electrode while resistor R26 is coupled between the base electrode and ground. Resistor R19 is coupled between the collector electrode and bus 8 while resistor R27 is coupled between the emitter electrode and ground. Capacitor Cl 1 coupled between the base and collector electrodes is THD (total harmonic distortion) for the page circuit without AGC is 0.5 percent.
When AGC action is required this action is obtained by switching switch S1 into the position illustrated. The output signal from power amplifier 6 is coupled to resistor R12 which has a value chosen according to the desired output from the power amplifier. The value shown in the TABLE presented hereinbelow is the typical value for a 70.7 VRMS (volts root means square) system. Resistor R15 has its value selected for desired feedback resistor level. The value for resistor R15 shown in the TABLE below supplies sufficient feedback such that with a 3 VRMS signal applied to terminal 1, a 0.7 VRMS is present at the preamplifier output (capacitor C12). The attack time of the automatic gain control circuit is determined primarily by capacitor C8 and resistor R15. Decay time for the automatic gain control circuit is determined by capacitor C8 and resistor R14. Diode D2 is a high speed diode which converts a portion of the signal coupled to resistor R12 to a DC equivalent voltage. Transistor Q1, a npn type transistor, has its emitter connected to ground, its collector connected to terminal 1 through the series circuit of capacitor Cl and resistor R1, and its base coupled to the junction of resistors R11 and R13. Transistor Q1 acts as a voltage divider in series with resistor R1 and in shunt with resistor R6. The amount of signal transistor 01 shunts to ground depends on the applied DC voltage coupled to its base from resistors R1] and R13. 36db (decibels) of dynamic range is obtainable by AGC action of transistor Q1 and its related components. A typical page THD with automatic gain control is 1 percent. The remainder of the automatic gain control circuit include the n-type field effect transistor Q2 which has the page input coupled through coupling capacitors C1 and C2 to its gate electrode. Resistors R2, R3, R7 and R8 are DC biasing resistors. Resistor R2 is coupled between bus 8 the gate electrode while resistor R7 is coupled between the gate electrode and ground. Resistor R3 is coupled between the drain electrode and bus 8 while resistor R8 is coupled between the source electrode and ground. Capacitor C6 coupled in shunt relation with resistor R8 is utilized for better frequency response. Resistor R28 is utilized as a load for transistor O2 to reduce no signal noise. Transistors Q1 and Q2 and their associated circuits are used only where automatic gain control is desired. As previously mentioned, if automatic gain control is not desired switch S1 is moved to its other position and the voice (page) signal is applied directly to the gate electrode of transistor Q3 through capacitor C3.
The music input coupled to terminal 2 is coupled to amplifier 4 which includes coupling capacitor C14 to couple the music signal to the gate electrode of the ntype field effect transistor Q4. Resistors R16, R17, R23 and R24 are DC biasing resistors. Resistor R16 is coupled between bus 8 and the gate electrode while resistor 23 is coupled between the gate electrode and ground. Resistor R17 is coupled between the drain electrode and bus 8 while resistor R24 is coupled be tween the source electrode and ground. Capacitor C18 coupled in shunt relation to resistor R24 is utilized to improve frequency response. Transistor Q4 amplifies the music signal and capacitor C9 couples the amplified signal to cut circuits including the parallel circuit arrangement of capacitor C and potentiometer R21 which provides bass cut control and to the series circuit including capacitor C and potentiometer R which provides treble cut control. These two cut control circuits supply a minimum of 9db reduction in gain at 50 hertz and 10 kilohertz, respectively. The output of the base cut circuit is coupled through the series circuit including capacitor C16 and resistor R22 to the base electrode of transistor Q5. The value of resistor R22 is selected for the desired music channel gain.
The power supply for the preamplifier described herein is provided by a source of positive voltage applied to terminal B+. Terminal 8+ is connected to one terminal lead of resistor R20. The other terminal lead of resistor R20 is coupled to bus 8. The value of resistor R20 is chosen by taking into consideration the value of the voltage applied to terminal 8+ and the amount of ripple present in this voltage. The voltage must have a value of at least 18 voltages depending on the amount of ripple. The zener diode D1 and capacitor C13 is used for filtering the voltage applied to terminal B+ with high ripple content.
The following TABLE is a list of the values of the various components and the type of diodes and transistors employed in a reduction to practice of the circuitry shown in the drawing.
TABLE Cl=0.047 microfarad, 20 volts C2=O.l microfarad, 20
volts C3=O.33 microfarad, 20 volts C4=5.0 microfarad, 20 volts C5=0.0047 microfarad, 20 volts C6=22.0 microfarad, 20 volts C7=47.0 microfarad, 20 volts C8=l00.0 microfarad, 20'volts C9=5.0 microfarad, 20 volts Cl0=0.033 microfarad, 20 volts Cll=50.0 picofarad, 20 volts Cl2=6.4 microfarad, 20 volts Cl3=200.0 microfarad, 25 volts Cl4=0.2 microfarad, 20 volts Cl5=0.033 microfarad, 20 volts C16-=50 microfarad, 20 volts C17=0.002 microfarad, 20 volts Cl8=47.0 microfarad, 20 volts D1=Zener Diode, [8 volts, 0.5 watt Rl=320 kilohms, 0.5 watt R2=2.2 mcgohms, 0.5 watt R3=l0 kilohms, 0.5 watt R4=2.2 megohms, 05 watt R5=3.9 kilohms, 0.5 watt R6=33 kilohms, 0.5 watt R7=2.2 megohms, 0.5 watt R8=47 kilohms, 0.5 watt R9=2.2 megohms, 0.5 watt Rl0=l0 kilohms, 0.5 watt Rll=4.7 kilohms, 0.5 watt R12=4.7 kilohms, 0.5 watt R13=l00 kilohms, L0 watt R14=l0 kilohms, 0.5 watt Rl5=l50 ohms, 0.5 watt Rl6=2.2 megohms, 0.5 watt Rl7=l.5 kilohms, 0.5 watt R18=l50 kilohms, 0.5 watt R19=l.5 kilohms, 0.5 watt D2=BAX l7 R20=820 ohms, 0.5 watt Ql=2N3390 R2l=l00 kilohms, 0.5 watt,
potentiometer Q2=2N54S8 R22=33 kilohms, 0.5 watts QF2N54S8 R23=5.6 megohms, 0.5 watt Q4=2N5458 R24=l0 kilohms, 05 watt Q5=2N3390 R2$=25 kilohms, 0.5 watt potentiometer B4=at least 18 volts depending R26=l2 kilohms, 0.5 watt on ripple R27=7S ohms, 0.5 watt R28=22 kilohms, 0.5 watt The foregoing description of the drawing was directed toward a circuit employing n-type field effect transistors and npn-type transistors. It is to be understood that it is well within the skill of those working in the art to modify the circuit of the drawing to the extent of employing p-type field effect transistors in place of the n-type field effect transistors and pnp-type transisa first amplifier means coupled to said first source; a second amplifier means coupled to said second source; a third amplifier means coupled in common to the output of said first and second amplifier means to provide improved quality voice and music for coupling to a utilization device; said first amplifier means including a positive voltage power supply, a ground potential, and a first n-type field effect transistor having its gate coupled to said first source, its drain coupled to said power supply through a first load resistor and its source coupled to said ground potential; said second amplifier means including a second n-type field effect transistor having its gate coupled to said second source, its drain coupled to said power supply through a second load resistor and its source coupled to said ground potential;
said third amplifier means including a first npn transistor having its base coupled to the drain of both said first and second field effect transistors, its emitter coupled to said ground potential and its collector coupled to said utilization device and said power supply through a third load resistor;
a power amplifier having its input coupled to the collector of said first npn transistor and its output coupled to said utilization device;
a circuit having a semiconductor diode coupled to the output of said power amplifier to produce a direct current automatic gain control signal;
a second npn transistor having its emitter coupled to said ground potential, its collector coupled to said first source and its base coupled to said semiconductor diode, said second npn transistor being responsive to said automatic gain control signal; and
a third n-type field effect transistor having its gate coupled to said first source and the collector of said second npn transistor, its source coupled to said ground potential and its drain coupled to said power supply through a fourth load resistor and the gate of said first field effect transistor.
2. A preamplifier according to claim 1, further including a first capacitor coupled between the drain of said first field effect transistor and said ground potential having a value selected to provide the best voice quality;
a series circuit including a second capacitor and a first potentiometer, said series circuit being coupled between the drain of said second field effect transistor and said ground potential to adjust the treble cuts; and
a parallel circuit including a third capacitor and a second potentiometer, said parallel circuit being coupled between the drain of said second field effect transistor and the base of said first npn transistor to adjust the base cuts.

Claims (2)

1. A preamplifier for both voice and music inputs comprising: a first source of voice; a second source of music; a first amplifier means coupled to said first source; a second amplifier means coupled to said second source; a third amplifier means coupled in common to the output of said first and second amplifier means to provide improved quality voice and music for coupling to a utilization device; said first amplifier means including a positive voltage power supply, a ground potential, and a first n-type field effect transistor having its gate coupled to said first source, its drain coupled to said power supply through a first load resistor and its source coupled to said ground potential; said second amplifier means including a second n-type field effect transistor having its gate coupled to said second source, its drain coupled to said power supply through a second load resistor and its source coupled to said ground potential; said third amplifier means including a first npn transistor having its base coupled to the drain of both said first and second field effect transistors, its emitter coupled to said ground potential and its collector coupled to said utilization device and said power supply through a third load resistor; a power amplifier having its input coupled to the collector of said first npn transistor and its output coupled to said utilization device; a circuit having a semiconductor diode coupled to the output of said power amplifier to produce a direct current automatic gain control signal; a second npn transistor having its emitter coupled to said ground potential, its collector coupled to said first source and its base coupled to said semiconductor diode, said second npn transistor being responsive to said automatic gain control signal; and a third n-type field effect transistor having its gate coupled to said first source and the collector of said second npn transistor, its source coupled to said ground potential and its drain coupled to said power supply through a fourth load resistor and the gate of said first field effect transistor.
2. A preamplifier according to claim 1, further including a first capacitor coupled between the drain of said first field effect transistor and said ground potential having a value selected to provide the best voice quality; a series circuit including a second capacitor and a first potentiometer, said series circuit being coupled between the drain of said second field effect transistor and said ground potential to adjust the treble cuts; and a parallel circuit including a third capacitor and a second potentiometer, said parallel circuit being coupled between the drain of said second field effect transistor and the base of said first npn transistor to adjust the base cuts.
US00164724A 1971-07-21 1971-07-21 Preamplifier for music and voice Expired - Lifetime US3761832A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4037169A (en) * 1974-05-21 1977-07-19 Sony Corporation Transistor amplifier
US4075675A (en) * 1975-03-13 1978-02-21 Genoa Coal Company Ground conductor monitoring system and method
US6750713B1 (en) * 2003-01-14 2004-06-15 Sharp Corporation Variable gain amplifier
US20120060527A1 (en) * 2010-09-09 2012-03-15 Song Hyunsook Refrigerator

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2923888A (en) * 1954-08-27 1960-02-02 Gen Electric Signal combining circuit
US3140408A (en) * 1962-06-20 1964-07-07 Products Inc Comp Switch with plural inputs to, and plural feedback paths from, an operational amplifier
US3436674A (en) * 1966-03-14 1969-04-01 Fairchild Recording Equipment Gain control device for high fidelity audio systems
US3504603A (en) * 1967-08-24 1970-04-07 Us Army Automatic exposure control system
US3513404A (en) * 1966-10-26 1970-05-19 Reliance Electric Co Mode-switchable amplifier stabilized against drift

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2923888A (en) * 1954-08-27 1960-02-02 Gen Electric Signal combining circuit
US3140408A (en) * 1962-06-20 1964-07-07 Products Inc Comp Switch with plural inputs to, and plural feedback paths from, an operational amplifier
US3436674A (en) * 1966-03-14 1969-04-01 Fairchild Recording Equipment Gain control device for high fidelity audio systems
US3513404A (en) * 1966-10-26 1970-05-19 Reliance Electric Co Mode-switchable amplifier stabilized against drift
US3504603A (en) * 1967-08-24 1970-04-07 Us Army Automatic exposure control system

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4037169A (en) * 1974-05-21 1977-07-19 Sony Corporation Transistor amplifier
US4075675A (en) * 1975-03-13 1978-02-21 Genoa Coal Company Ground conductor monitoring system and method
US6750713B1 (en) * 2003-01-14 2004-06-15 Sharp Corporation Variable gain amplifier
US20120060527A1 (en) * 2010-09-09 2012-03-15 Song Hyunsook Refrigerator

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