US3365546A - Microphone bias supply for eliminating or reducing key clicks - Google Patents

Microphone bias supply for eliminating or reducing key clicks Download PDF

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US3365546A
US3365546A US455872A US45587265A US3365546A US 3365546 A US3365546 A US 3365546A US 455872 A US455872 A US 455872A US 45587265 A US45587265 A US 45587265A US 3365546 A US3365546 A US 3365546A
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microphone
terminal
diode
circuit
condenser
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US455872A
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Arthur L Kemper
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Collins Radio Co
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Collins Radio Co
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03GCONTROL OF AMPLIFICATION
    • H03G11/00Limiting amplitude; Limiting rate of change of amplitude ; Clipping in general
    • H03G11/08Limiting rate of change of amplitude
    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03GCONTROL OF AMPLIFICATION
    • H03G11/00Limiting amplitude; Limiting rate of change of amplitude ; Clipping in general
    • H03G11/02Limiting amplitude; Limiting rate of change of amplitude ; Clipping in general by means of diodes

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  • This invention relates in general to a circuit for preventing objectionable voltage excursions and in particular to a circuit for use with a keyed microphone to eliminate clicks in the output circuit.
  • An objectionable key click is oftentimes heard when a microphone switch is closed and it is an object of the present invention to provide a circuit which substantially eliminates such key clicks.
  • Another object of this invention is to provide an improved keying circuit.
  • a feature of this invention is found in the provision for a keying circuit comprising a pair of diodes connected in parallel with opposite polarities in a microphone keying circuit so as to eliminate or reduce key clicks.
  • FIGURE 1 is a schematic diagram of the circuit of this invention.
  • FIGURE 2 is a current versus voltage characteristic of a typical diode
  • FIGURE 3 illustrates a prior art microphone keying circuit
  • FIGURE 4 illustrates another form of a microphone keying circuit common in the prior art.
  • FIGURE 3 illustrates a conventional method of keying a microphone in which a switch S has one terminal connected to ground and the other terminal connected to a microphone 10.
  • Condenser C is connected between microphone 10 and output terminal 11.
  • a biasing potential is connected to input terminal 12 and is coupled to the microphone through a resistance R
  • the bias voltage might be 28 volts DC.
  • R might be 470 ohms in a conventional circuit and the internal impedance of the microphone might be 150 ohms.
  • An amplifier is connected to point 11 and such amplifier is designed to work from the normal microphone AC v-oltage of 0.1 to 0.5 volt and the 21.25 voltage surge drives it to saturation or full output resulting in a loud pop on both make and break of the microphone switch circuit at the receiver.
  • FIG- URE 4 A similar situation occurs in the circuit shown in FIG- URE 4 wherein the 28 volts DC bias is connected to terminal 14 and to the primary P of a transformer 16. Microphone is connected between the primary and switch S The other side of switch S is connected to ground. The secondary P has output terminals 17 and 18 which are connected to a following amplifier, not shown.
  • a pop occurs at the receiver due to the high output voltage induced in the transformer secondary P which is caused by the high Patented Jan. 23, 1968 surge circuit in the transformer primary when the switch S is closed.
  • FIGURE 1 completely eliminates such key clicks on the make of microphone switch S and drastically reduces them on the break.
  • a battery E which might be 28 volts, has its positive terminal connected to a pair of resistors R and R
  • a diode CR is connected between points X and Y at the other sides of resistors R and R
  • a second pair of resistors R and R have one of their sides connected to points X and Y respectively.
  • Connected between the other sides of resistors R and R; from point Z to ground are a pair of diodes CR and CR which are connected in parallel with their polarities reversed and a condenser C
  • the second side of resistor R is connected to ground.
  • a microphone 21 has one side connected to point Z and the other side connected to terminal 22 of switch S
  • the movable contact of switch S is connected to ground.
  • the battery E has its negative terminal also connected to ground.
  • An output terminal 24 is connected to point Y between resistors R and R
  • the potential at point Y was 14 volts with switch S open.
  • the diode CR is reverse biased and the AC output at output terminal 24 is zero.
  • the key switch S is closed, the potential at point X between resistors R and R which would normally drop quickly to 10 volts is actually forced to drop slowly to 10 volts due to capacitor C which discharges slowly through diode CR and the microphone.
  • diode CR turns on since it becomes forward biased and the microphone is connected to the output terminal 24 without a potential change at point Y. Hence there is no click when the microphone switch S is closed.
  • a circuit for preventing key clicks comprising, a first diode, a condenser, a first impedance with one end connected to one terminal of the first diode and the other side connected to the cor denser, second and third diodes connected to the other terminal of the condenser and oppositely poled, the second sides of the second and third diodes connected together, a second impedance connected between the second terminal of the first diode and the second and third diodes, and a microphone and switch in series connected between the condenser and the second impedance.
  • a circuit for preventing key clicks comprising, a first diode, a condenser, a first impedance with one end connected to one terminal of the first diode and the other side connected to the condenser, second and third diodes connected to the other terminal of the condenser and oppositely poled, the second sides of the second and third diodes connected together, a second impedance connected between the second terminal of the first diode and the second and third diodes, a microphone and switch in series connected between the condenser and the second impedance, and a voltage source with one side connected to the condenser, third impedance means connected between the other side of the voltage source and one terminal of the first diode and fourth impedance means connected between the other side of the voltage source and the second terminal of the first diode.
  • a circuit for preventing key clicks comprising, a first diode, a condenser, a first impedance with one end connected to one terminal of the first diode and the other side connected to the condenser, second and third diodes connected to the other terminal of the condenser and oppositely poled, the second sides of the second and third diodes connected together, a second impedance connected between the second terminal of the first diode and the second and third diodes, a microphone and switch in series connected between the condenser and the second impedance, a voltage source with one side connected to the condenser, third impedance means connected between the other side of the voltage source and one terminal of the first diode and fourth impedance means connected between the other side of the voltage source and the second terminal of the first diode, and the fourth impedance being larger than either the first, second or third impedances.
  • a circuit for preventing key clicks comprising, a first diode, a condenser, a first impedance with one end connected to one terminal of the first diode and the other side connected to the condenser, second and third diodes connected to the other terminal of the condenser and oppositely poled, the second sides of the second and third diodes connected together, a second impedance connected between the second terminal of the first diode and the second and third diodes, a microphone and switch in series connected between the condenser and the second impedance, a voltage source with one side connected to the condenser, third impedance means connected between the other side of the voltage source and one terminal of the first diode and fourth impedance means connected between the other side of the voltage source and the second terminal of the first diode, the fourth impedance being larger than either the first, second or third impedances, and an output terminal connected to the first terminal of the first diode.

Description

Jan. 23, 1968 A. L. KEMPER 3,365,546
MICROPHONE BIAS SUPPLY FOR ELIMINATING OR REDUCING KEY CLICKS Filed May 14, 1965 LOW RESISTANCE //'/\HIGH RESISTANCE VOLTS FIG I FIG 2 PRIOR ART I PRIOR ART I. 28V/Z R5 /3 T54 P /7 /0 2 8 HA6 3 FIG 4 INVENTOR. ARTHUR L. KEMPER ATTORNEY United States Patent 3,365,546 MICROPHONE BIAS SUPPLY FOR ELIMINATING 0R REDUCING KEY CLICKS Arthur L. Kemper, Marion, Iowa, assignor to Collins Radio Company, Cedar Rapids, Iowa, a corporation of Iowa Filed May 14, 1965, Ser. No. 455,872 4 Claims. (Cl. 179-1) ABSTRACT OF THE DISCLOSURE Non-linear resistance elements are provided to shunt key clicks of high voltage but to pass without distortion microphone signals of low voltage.
This invention relates in general to a circuit for preventing objectionable voltage excursions and in particular to a circuit for use with a keyed microphone to eliminate clicks in the output circuit.
An objectionable key click is oftentimes heard when a microphone switch is closed and it is an object of the present invention to provide a circuit which substantially eliminates such key clicks.
Another object of this invention is to provide an improved keying circuit.
A feature of this invention is found in the provision for a keying circuit comprising a pair of diodes connected in parallel with opposite polarities in a microphone keying circuit so as to eliminate or reduce key clicks.
Further objects, features, and advantages of this invention will become apparent from the following description and claims when read in view of the accompanying drawings, in which:
FIGURE 1 is a schematic diagram of the circuit of this invention;
FIGURE 2 is a current versus voltage characteristic of a typical diode;
FIGURE 3 illustrates a prior art microphone keying circuit; and,
FIGURE 4 illustrates another form of a microphone keying circuit common in the prior art.
FIGURE 3 illustrates a conventional method of keying a microphone in which a switch S has one terminal connected to ground and the other terminal connected to a microphone 10. Condenser C is connected between microphone 10 and output terminal 11. A biasing potential is connected to input terminal 12 and is coupled to the microphone through a resistance R The bias voltage might be 28 volts DC. R might be 470 ohms in a conventional circuit and the internal impedance of the microphone might be 150 ohms. When switch S is closed, the direct current voltage at point 13 between the resistor R and condenser C quickly falls to approximately 6.75 volts which is a change of 21.25 volts from the open circuit condition. An amplifier is connected to point 11 and such amplifier is designed to work from the normal microphone AC v-oltage of 0.1 to 0.5 volt and the 21.25 voltage surge drives it to saturation or full output resulting in a loud pop on both make and break of the microphone switch circuit at the receiver.
A similar situation occurs in the circuit shown in FIG- URE 4 wherein the 28 volts DC bias is connected to terminal 14 and to the primary P of a transformer 16. Microphone is connected between the primary and switch S The other side of switch S is connected to ground. The secondary P has output terminals 17 and 18 which are connected to a following amplifier, not shown. In the circuit of FIGURE 4, a pop occurs at the receiver due to the high output voltage induced in the transformer secondary P which is caused by the high Patented Jan. 23, 1968 surge circuit in the transformer primary when the switch S is closed.
The circuit of FIGURE 1 completely eliminates such key clicks on the make of microphone switch S and drastically reduces them on the break.
A battery E which might be 28 volts, has its positive terminal connected to a pair of resistors R and R A diode CR is connected between points X and Y at the other sides of resistors R and R A second pair of resistors R and R have one of their sides connected to points X and Y respectively. Connected between the other sides of resistors R and R; from point Z to ground are a pair of diodes CR and CR which are connected in parallel with their polarities reversed and a condenser C The second side of resistor R is connected to ground.
A microphone 21 has one side connected to point Z and the other side connected to terminal 22 of switch S The movable contact of switch S is connected to ground. The battery E has its negative terminal also connected to ground. An output terminal 24 is connected to point Y between resistors R and R In a particular circuit constructed according to FIG- URE 1 and with a 28-volt DC battery, the potential at point Y was 14 volts with switch S open. The diode CR is reverse biased and the AC output at output terminal 24 is zero. When the key switch S is closed, the potential at point X between resistors R and R which would normally drop quickly to 10 volts is actually forced to drop slowly to 10 volts due to capacitor C which discharges slowly through diode CR and the microphone. As the potential of point X slowly drops to 10 volts, diode CR turns on since it becomes forward biased and the microphone is connected to the output terminal 24 without a potential change at point Y. Hence there is no click when the microphone switch S is closed.
When the key switch S is opened, the potential at point X between resistors R and R quickly rises approximately 0.5 volt at which time CR conducts and efiectively connects capacitor C to point Z. The voltage at point X then slowly rises to 28 volts and again reverse biases CR to interrupt the output. The 0.5 change of potential at the instant switch S is opened gives rise to a slight click in the output circuit. However, the magnitude is never greater than 0.5 volt as compared to 21.25 volts change in the conventional circuit shown in FIGURES 3 and 4.
The practicability of this circuit arises from the employment of the non-linear characteristics of diodes CR and CR A typical characteristic curve is shown in FIG- URE 2.
During normal operation of the microphone, the AC output voltage is below 0.5 volt at point Z which is not suiiicient to fire diodes CR and CR Under these conditions, the diodes have high resistance (see FIGURE 2) and therefore capacitor C cannot short the signal to ground. However, under conditions of change of state (when the key is opened or closed) the signal or DC potential changes are very large. During these periods the diode resistances are low and the capacitor C is connected in the circuit giving rise to slow charge and discharge times which eliminates or substantially reduces key clicks. When the key S is open, capacitor C charges through resistors R and R and diode CR In a particular circuit constructed according to this invention, the resistance values in FIGURE 1 were:
R ohms 2,000 R do.. 1,000 R do 1,000 R do 1,000 C micromicrofarads 50 It is seen that this invention provides a circuit which a eliminates key clicks caused by use of a microphone switch. Although this invention has been described with respect to a particular embodiment thereof, it is not to be so limited, as changes and modifications may be made therein which are within the spirit and scope of the invention as defined by the appended claims.
I claim:
1. A circuit for preventing key clicks comprising, a first diode, a condenser, a first impedance with one end connected to one terminal of the first diode and the other side connected to the cor denser, second and third diodes connected to the other terminal of the condenser and oppositely poled, the second sides of the second and third diodes connected together, a second impedance connected between the second terminal of the first diode and the second and third diodes, and a microphone and switch in series connected between the condenser and the second impedance.
2. A circuit for preventing key clicks comprising, a first diode, a condenser, a first impedance with one end connected to one terminal of the first diode and the other side connected to the condenser, second and third diodes connected to the other terminal of the condenser and oppositely poled, the second sides of the second and third diodes connected together, a second impedance connected between the second terminal of the first diode and the second and third diodes, a microphone and switch in series connected between the condenser and the second impedance, and a voltage source with one side connected to the condenser, third impedance means connected between the other side of the voltage source and one terminal of the first diode and fourth impedance means connected between the other side of the voltage source and the second terminal of the first diode.
3. A circuit for preventing key clicks comprising, a first diode, a condenser, a first impedance with one end connected to one terminal of the first diode and the other side connected to the condenser, second and third diodes connected to the other terminal of the condenser and oppositely poled, the second sides of the second and third diodes connected together, a second impedance connected between the second terminal of the first diode and the second and third diodes, a microphone and switch in series connected between the condenser and the second impedance, a voltage source with one side connected to the condenser, third impedance means connected between the other side of the voltage source and one terminal of the first diode and fourth impedance means connected between the other side of the voltage source and the second terminal of the first diode, and the fourth impedance being larger than either the first, second or third impedances.
4. A circuit for preventing key clicks comprising, a first diode, a condenser, a first impedance with one end connected to one terminal of the first diode and the other side connected to the condenser, second and third diodes connected to the other terminal of the condenser and oppositely poled, the second sides of the second and third diodes connected together, a second impedance connected between the second terminal of the first diode and the second and third diodes, a microphone and switch in series connected between the condenser and the second impedance, a voltage source with one side connected to the condenser, third impedance means connected between the other side of the voltage source and one terminal of the first diode and fourth impedance means connected between the other side of the voltage source and the second terminal of the first diode, the fourth impedance being larger than either the first, second or third impedances, and an output terminal connected to the first terminal of the first diode.
References Cited UNITED STATES PATENTS 3,020,422 2/1962 Mace 325l70 2,316,567 4/1943 Davis. 1,998,325 4/1935 Lyman 32517O WILLIAM C. COOPER, Primary Examiner.
R. P. TAYLOR, Assistant Examiner.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3530245A (en) * 1967-05-11 1970-09-22 Edwards Co Selective suppression control of amplifiers in intercommunication systems
US3659120A (en) * 1969-07-29 1972-04-25 Pioneer Electronic Corp Switching circuit
US3706852A (en) * 1971-01-04 1972-12-19 Mc Graw Edison Co Quiet turn-on circuit for carbon microphones
US3938043A (en) * 1975-02-10 1976-02-10 Motorola, Inc. Public address/radio switching system
US3943381A (en) * 1972-09-07 1976-03-09 Canon Kabushiki Kaisha Pulse generating apparatus having a chattering pulse elimination circuit
US4629910A (en) * 1982-04-21 1986-12-16 At&T Bell Laboratories High input impedance circuit
US20090121778A1 (en) * 2007-11-14 2009-05-14 Infineon Technologies Anti-Shock Methods for Processing Capacitive Sensor Signals

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1998325A (en) * 1933-08-23 1935-04-16 Gen Electric Uniform impedance filter
US2316567A (en) * 1942-06-18 1943-04-13 Gen Electric Phase reversing means
US3020422A (en) * 1959-07-24 1962-02-06 Daystrom Inc Time sequence control circuit

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1998325A (en) * 1933-08-23 1935-04-16 Gen Electric Uniform impedance filter
US2316567A (en) * 1942-06-18 1943-04-13 Gen Electric Phase reversing means
US3020422A (en) * 1959-07-24 1962-02-06 Daystrom Inc Time sequence control circuit

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3530245A (en) * 1967-05-11 1970-09-22 Edwards Co Selective suppression control of amplifiers in intercommunication systems
US3659120A (en) * 1969-07-29 1972-04-25 Pioneer Electronic Corp Switching circuit
US3706852A (en) * 1971-01-04 1972-12-19 Mc Graw Edison Co Quiet turn-on circuit for carbon microphones
US3943381A (en) * 1972-09-07 1976-03-09 Canon Kabushiki Kaisha Pulse generating apparatus having a chattering pulse elimination circuit
US3938043A (en) * 1975-02-10 1976-02-10 Motorola, Inc. Public address/radio switching system
US4629910A (en) * 1982-04-21 1986-12-16 At&T Bell Laboratories High input impedance circuit
US20090121778A1 (en) * 2007-11-14 2009-05-14 Infineon Technologies Anti-Shock Methods for Processing Capacitive Sensor Signals
US8401208B2 (en) * 2007-11-14 2013-03-19 Infineon Technologies Ag Anti-shock methods for processing capacitive sensor signals

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