US1993861A - Combined automatic volume and tone control - Google Patents

Description

March 12, 1935. W. VAN a ROBERTS ,99 ,86

COMBINED AUTOMATIC VOLUME AND TONE CONTROL Filed April 29, 1930 a k W m w R 1 INVENTOR WALTER VAN B. ROBERTS ATTORNEY Patented Mar. 12, 1935 UNITED STATES,

COMBINED AUTOMATIC VOLUME AND TONE CONTROL Walter van B. Roberts, Princeton, N. J., assig'nor to Radio Corporation of America, a corporation of Delaware Application April 29, 1930, Serial No. 448,206

12 Claims.

My present nvention relates to acoustic reproducing devices, and more particularly to a combined automatic volume and tone control system adapted for use with audio frequency currents.

In my copending application Serial Number 446,202 filed April 22, 1930, there has been disclosed a control system for audio reproduction devices, the utilization of the'control resulting in a greater contrast between the maximum and minimum loudness during the reproduction of a sound passage, and simultaneously preserving fidelity of reproduction, or tonal quality, by proper proportionin-g of the low and high audio frequencies during all variations of volume. In short, means was disclosed in the aforementioned application for automatically increasing both the total amplification of an audio amplifying system, and, also, the ratio of low frequency to high frequency amplification in accordance with the average audio input intensity.

Briefly, 'the embodiment for accomplishing these results comprised a plurality of selective amplifiers, each of which wasarranged to stress a predetermined, independent portion of the audible spectrum, and a control, or pilot circuit,

for automatically regulating, in a predetermined manner and in accordance with the input to the amplifiers, the tone of the audio output of the amplifiers, as well as the total amplification of the latter. Additional investigation, however, has revealed the fact that in some cases, the aforedescribed embodiment may be unsatisfactory. The latter may be ascribed to a phase diiference phenomenon occurring between the currents during transmission through the independent amplifiers, and becoming manifest upon the recombination of the amplified currents.

Now, I have discovered a method of obviating such a phenomenon, by utilizing only a single 0 multi-stage audio amplifier, and controlling both the total gain and the frequency characteristics of the said amplifier.

Accordingly, it is one of the main objects of my present invention to provide a method of, and means for, controlling an audio amplifier which consists in varying the total amplification of the amplifier in a predetermined direction and in accordance with the average audio input intensity, and simultaneously varying the ratio of low to high audio frequency amplification in the opposite direction.

Another important object of the invention is to provide a method of and means for, controlling the tone and volume of a single multi-stage audio amplifier, which consists in employing one of ratio of low to high audio frequency amplifica-- tion in the opposite direction.

- Another object of the invention is to provide a I single, multi-stage audio amplifier circuit, one stage of which circuit is employed for automatically controlling thetone of the amplifier and another stage of which is employed for automatically and simultaneously controlling the volume of the amplifier, both tone and volume being regulated in accordance with the acoustical conditions within the range of the amplifier reproducer.

Still other objects of the invention are to improve generally the efliciency of audio amplifiers, and to provide a combined volume and tone control system for audio amplifiers which is not only reliable in operation, but automatic in regulation, and economical in circuit arrangement.

The novel features which I believe to be characteristic of my invention are set forth in particularity in the appended claims, the invention itself, however, as to both its organization and method of operation will bestbe understood by reference to the following description taken in connection with the drawing in which I have indicated diagrammatically one circuit arrangement whereby my invention may be carried into effect.

Referring to the accompanying drawing, which presents diagrammatically a circuit embodying my invention, an audio amplifier circuit is shown theinput leads 1, of which, have impressed across them modulated audio input energy; The input energy may be derived from any desired source such as, the output circuit of the detector stage of a radio telephone receiver; the output terminals of an electromagnetic pick-up device or other electric phonograph device; the output terminals of the microphone arrangement of a public address system; the output terminals of the photoelectric device of a sound motion !picture arrangement; or, any other source of modulated audio frequency currents. of these sources in the drawing connected to leads 1, for the reason that they are well known to those skilled in the art; and, additionally, to preserve simplicity of description throughout this specification.

The audio frequency input, applied to the innot leads 1,.is divided into two paths. One of I have not shown any these paths, by means of leads 50, conducts the input current into a single, multi-stage audio amplifier A; a second path, by means of leads 52, conducts the audio input current into a regulating, auxiliary, or pilot circuit P. It will be recognized that these two essential elements of the invention are basically similar to the elements of the invention disclosed inmy aforementioned copending application.

The regulating, or pilot circuit P, consists of one, or more, stages of audio amplification and a rectifier stage, the regulating circuit shownin the drawing specifically including in the input circuit of the first audio stage a triode 35, the control electrode of which triode is negatively biased by means of a resistance 35' disposed in the negative leg of the triode filament, the biasing resistance being shunted by a by-pass capacity 35". An audio transformer T couples the input circuit of the triode to the leads 1, the latter being connected by the leads 52 to the primary coil 3'7 of the transformer T.

The anode of the triode 35 has potential applied to it from a source B, through the primary coil 3'7 of a second audio transformer T1. The secondary coil of the transformer T1 isconnected across the input circuit of the triode 39 of the second audio stage, the control electrode of the triode 39 being biased in a manner similar to the control electrode of the triode 35. The anode of thetriode 39 has potential applied to it from a source B through the primary coil of the third audio transformer T2, it being apparent that the source B could also be used to supply potential to the anode of the triode 39.

A third triode 43 is connected to the output circuit of triode 39 through the audio transformer T2 the control electrode of the triode 43 bein negatively biased by a. source C, to operate it as a rectifier stage. The anode of triode 43 has potential applied to it from a source B, the positive terminal of the said source being connected to the anode of triode 43 through a choke coil 31. A capacity 46 is connected in series with the choke coil 31, and is shunted across the output terminals of the triode.43.

A second capacity 46' is connected in series with the choke coil 31, and in parallel with the capacity 46, between the choke coil and the positive terminal of the source B". The negative terminal of the latter is connected to one terminal of a resistance 53, while the opposite terminal of the latter is connected to one side of the capacity 46, the first terminal of the resistance 53 being grounded.

It will, thus, be seen that there is connected to the source of audio frequency current, the input c1rcuit of a pilot, or controlling circuit P, which circuit consists of one or more stages of audio amplification, which stages may be of any desired type, feeding a rectifier, such as an electron dis.- charge tube of the triode type. The control electrode of the rectifier tube is provided withsuflicient bias to reduce the plate current of the tube to a small value in the absence of impressed voltages upon the control electrode. The triode 43 acts as the rectifier, the biasing source C biasing the control electrode of the triode 43, to sufficiently reduce the anode current of the triode to a small value, in the absense of amplified voltages froni the output circuit of the triode 39, which amplified voltages are to be impressed upon the control electrode of the triode 43.

The rectified output of the triode 43 is smoothed out by the filter arrangement consisting of the capacity 46, the choke coil 31 and the capacity 46', the latter being designed in such a manner that the current output of the filter arrangement varies only slightly with variations in audio input intensity. The output of the pilot amplifier, rectifier and filter, is impressed across the potentiometer resistance 53, the grounded end of the resistance being the end of lowest potential.

The leads 50, connected to the audio frequency input, are connected to the primary coil of an audio transformer T3, the secondary coil 61 of the latter being connected across the control electrode and cathode of the triode 62 in the first stage of the audio amplifier A. The negativeleg of the cathode of triode 62 is grounded, it being, additionally, connected to one end of the coil 61 through a capacity 63, the same end of the coil 61 being adjustably connected, by a lead 64, to a point on the potentiometer resistance 53 of higher potential than the grounded end of the resistance. A source of current 65 is connected in series in the lead 64, the positive terminal of the source 65 being connected to the adjustable end of the lead 64.

The anode of the triode 62 has'potential applied to it from a source B1 (not shown) through a choke coil L, the anode of the triode 62 being connected to the control electrode of a screen grid tube '70, through a capacity '71. The screen element '72, of the screen grid tube, is adjustably connected by a lead '73 to a point on the potentiometer resistance 53 which is of higher potential than the point on the resistance to which the adjustable end of the lead 64 is connected. A source of current '74 is connected in series in the lead '73, the positive terminal of the source being connected to the screen element '72.

The control electrode of the tetrode '70 has negative bias applied to it by means of a resistance '76 disposed in the lead to the cathode of the tetrode, a capacity '77 being shunted across the resistance '76, the latter being grounded at one end thereof. The grounded end of the resistance '76 is connected by a capacity '78 to the screen element '12, there being a grid leak resistance '75 I connected to the control electrode of the tetrode '70.

The anode of the screen grid tube has potential applied to it from a source B2 (not shown) through a resistance '79, the anode being connected to the control electrode of the triode 81 of the last audio stage, through a capacity 80. The anode of triode 81 is supplied with potential from a source B3 (not shown) it being understood that the anodes of the three tubes 62, '70 and 81 can have potential applied to them from a common source. The output circuit of the triode 81 may be connected to any type of reproducer such as phones, loud speaker and the like. The control electrode of the triode 81 is negatively biased in a manner similar to the control electrode of the tube '70, a grid' leak resistance being connected between the control electrode and the grounded terminal of the bias resistance 76', which bias resistance is disposed in the cathode lead of triode 81.

It will thus be observed that a stage of resistance coupled screen grid amplification is provided in amplifier A, the said stage being preferably designed to have a substantially flat frequency response characteristic, but whose amplification depends upon the potential applied to the screen element '72. The stage of amplification prior to the screen grid stage has an iron cored reactance coil coupling, and this coil L is so designed that its impedance is high even at low frequencies, provided the steady component of current flowing through the coil is small. If the average current through the coil L is increased, the iron core becomes saturated and the inductance decreases so that the amplification of low frequencies is reduced, although the amplification of high-frequencies is not reduced to an appreciable extent.

Again, since the steady current flowing through the coil L is determined by the grid potential, it is possible to control the relative amount of low frequency amplification, as'compared with high frequency amplification by varying the bias on the control electrode of triode 62. Thus, the bias on the control electrode of the first triode 62 controls the frequency response characteristic of amplifier A, while the potential. applied to the screen element 72 of the tube 70 controls the total amplification of the amplifier A. In order to have these 'two controls automatically operated in response to the intensity of the audio frequency input, the pilot circuit P is provided in which an amplifier feeds a rectifier whose output current is filtered, so as to be determined by the long-period average of audio frequency input intensity;

This filtered current is impressed across the potentiometer resistance 53, the negative end of which is grounded. It is seen that the potential at any other point on theresistance 53 is then positive to an extent determined by the audio input intensity. The control electrode lead of the first triode 62 is connected to a point on this resistance 53, and-the screen element of the second tube 70 to another point on the resistance, the points being so chosen as to give the desired amount of control action. Again, there are included the sources 65 and '74 in the leads 64 and 73 to these two points, which sources bring the .normal grid and screen potentials to approximately the values that should exist for very weak audio inputs.

It will thus be seen that the result of strong signals is to decrease the negative potential on the control electrode of the first tube, thus increasing the average anode current, which in turn decreases the low frequency amplification of the first tube. Simultaneously, the increased potential on the screen element of the second tube increases the total amplification of the amplifier A, so as to obtain the desired expansion of the range of loud speaker output intensity.

While I have indicated and described one arrangement for carrying my invention into eifect, it will be apparent to one skilled in the art that my invention is by no means limited to the particular organization shown and described, but

* that many modifications may be made without departing from the scope of my invention as set forth in the appended claims.

What I claim is: 1. In combination with a multi-stage, cascaded audio amplifier, automatic means actuated in accordance with average audio input intensity, for varying the total gain of the amplifier in a predetermined direction, and additional means connected with the first means for simultaneously varying the ratio of low to high frequency amplification in the opposite direction.

2. In combination with a multi-stage audio amplifier, a regulating circuit connected between i one of the amplifier stages and the amplifier input for varying the total gain of the amplifier in a desired direction in accordance with audio input level, said circuit being additionally connected to another stage of the amplifier for varying the ratio of low to high frequency amplification of said second stage. t

. 3. In combination with an audio amplifier comprising at least two stages, a pilot circuit having a terminal impedance associated with one of the stages and the amplifier input, and operated in accordance with audio input level, for varying the volume of the amplifier, the other stage having its input circuit, additionally, connected to the said terminal impedance for simultaneously varying the tone of the amplifier output.

4. Means for controlling the relative gain of a vacuum tube audio amplifier with respect to high and low frequencies, said amplifier having a cathode, control,electrode and output circuit, a coil in said output'circuit, means for normally causing a small direct current to flow through 5. The structure recited in claim 4 in which said.

coil has a core of magnetic material which is normally unsaturated.

6. In combination with a multi-stage audio frequency cascaded amplifier, means connected to one of the stages for varying the gain of the amplifier, a second means connected to said one stage and another stage for varying the tone of the amplifier output, and a rectifier connected between the amplifier input and said first and second means for controlling the operation thereof.

7. The method of electrically transmitting and reproducing audio modulated electrical currents in a multi-stage audio frequency amplifier which consists in impressing the currents upon said amplifier, producing a current whose amplitude is proportional to the envelope of said audio modulated currents, varying in accordance with the amplitude of thecurrent so produced the gain of one stage of the amplifier, and simultaneously varying in another stage the ratio of the amplification of high and low audio frequencies.

8. The method of electrically transmitting and reproducing audio modulated electrical currents in a multi-stage audio frequency amplifier which consists in impressing the currents upon said amplifier, producing a current whose amplitude is proportional to the envelope of said audio modulated currents, varying in accordance with the amplitude of the current so produced the gain .of one stage of the amplifier, and simultaneously varying in accordance with said amplitude in anand low audio frequencies.

9. The method of operating a multi-stage audio frequency amplifier which consists in impressing audio frequency modulated electrical energy upon the amplifier input. rectifying a portion of the energy to produce a current whose amplitude is proportional to the envelope of the impressed energy, varying the gain of at least one stage of the amplifier in accordance with said amplitude, and simultaneously varying in another stage and in the opposite direction the ratio of .low to high audio frequency amplification.

10. In combination, an amplifier comprising a plurality of electron discharge tube stages connected in series, means for connecting the amplifier input to a source of alternating current to be amplified, a second means for producing from said current a second current whose amplitude is proportional to the envelope of the alternating current, means for connecting the second means to an amplification control element of a tube of at least one of said stages, and an additional means for connecting said second means to a different amplification control element of a tube of another stage.

11. In combination, an amplifier comprising a plurality of electron discharge tube stages coupled in cascade, means for connecting the amplifier input to a source of alternating current to be amplified, a second means including a rectifier for producing from said current a second current whose amplitude is proportional to the envelope of the alternating current, means for connecting .the second means to an amplification control grid element of a tube of at least one of said stages, and an additional means for connecting said second means to a difierent amplification control element of a tube of another stage.

12. In a signal receiving system, a plurality of amplifying devices, coupling means interconnecting said devices in cascade, means for increasing the high frequency response of the system to a greater extent than the low frequency response through at least one of said coupling means in response to an increase in the amplitude of a signal impressed on the system, and means connected with a point in the system between the said one coupling means and another coupling means for increasing the gain of the system when the said high frequency response is increased.

WALTER VAN B. ROBERTS.

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