US1811954A - Transmission volume control - Google Patents
Transmission volume control Download PDFInfo
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- US1811954A US1811954A US326597A US32659728A US1811954A US 1811954 A US1811954 A US 1811954A US 326597 A US326597 A US 326597A US 32659728 A US32659728 A US 32659728A US 1811954 A US1811954 A US 1811954A
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- relay
- volume
- amplifier
- potentiometer
- line section
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B3/00—Line transmission systems
- H04B3/02—Details
- H04B3/04—Control of transmission; Equalising
- H04B3/06—Control of transmission; Equalising by the transmitted signal
Definitions
- Sheets-Sheet l wail 126 Silent D. MITCHELL ET AL TRANSMISSION VOLUME CONTROL Filed Dec.
- rangements of the invention provide an ar-.
- the relay chain arrangements of the invention and modifications thereof may be arranged in several different ways.
- one form may be termed a full neutral system, remaining on the position taken at the close of the last conversation.
- Another form may be normally set for the weakest talker (maximum gain) and at the conclusion of the conversation returns to this setting.
- Another form may be normally set for the strongest talker (minimum gain) and at the conclusion of the conversation returns to this setting.
- a further form may be normally set at some intermediate position and at the conclusion of the conversation returns to this position.
- a still further form may be the semi-neutral type having a region of volume adjustment in which the system is neutral, but if this region be exceeded,automatically returns into the neutralregion at the conclusion of the conversation.
- Fig. 1 shows the basic relay chain arrangement of the invention.
- Figs. 2, 3, 4 and 5 show modifications thereof.
- In 6 are shown in detail certain portions of the potentiometer control ap paratus. Similar reference characters have been utilized to denote like parts in all of the figures.
- Fig. 1 a portion of a one-way section of a transmission system. Of this there are illustrated two line sections L and L together with amplifier apparatus 3 and a potentiometer P whereby the volume may be controlled.
- the potentiometer P is under the control of the apparatus 4.
- This potentiometer control apparatus may be of any convenient form to permit an increase or decrease in the adjustment of the potentiometer P
- a number of motor driven schemes have heretofore been utilized for the purpose of controlling a potentiometer and, also, relay operated devices have been used.
- the operating shaft of the potentiometer is extended to connect with a potentiometer on the other side of the line. This is not shown. However, when the shaft operates to increase the gain of P it will operate the other potentiometer to decrease the gain on the other side of the line and vice versa. 7
- Bridged across line section L is an amplifier-detector 2 which is set so that the strong peaks of the weakest volume just cause operation of the low volume relay A.
- Bridged across line section L will be the amplifier-detector 1.
- the plate circuit of amplifier-detector 1 will include the high volume relay E and the correct volume relay B. Under the above mentioned conditions amplifier-detector 1 may be insufficiently sensitive to operate relays B and E. Ground is therefore fed through the contact of relay A.
- relay A is operated by the incoming peaks of speech current until amplifier-detector 1 receives suiiicient volume to cause its plate current to operate the correct volume relay B.
- relays A and B are operated in such a manner that relay C is held operated. This will remove ground from the increase gain control circuit of apparatus l and transfer the ground fed from the contact of relay A to the armature of relay E through the contacts of relay C. Should the volume rise too high the high volume relay E which may be made, for example, 5 T. U. less sensitive than the correct volume relay B, becomes operated.
- Relay D is operated by relay E and in turn applies ground to the decrease gain circuit of the potentiometer control apparatus 4. This causes a reduction in the potentiometer setting until the Volume shall have fallen to such a value as to permit the release of relay E. All gain adjustment then ceases until the volume again requires adjustment. At the conclusion of the conversation all of the relays return to their normal setting without altering the potentiometer setting, and the system waits for further impulses, i. e., it is full neutral] It is pointed out that the relay ar rangement adjusts only when the volume is not correct, remaining at rest as long as the volume is correct or no one is speaking. For this reason any tendency for the control system to hunt is reduced to the minimum or eliminated.
- relay 0 slow release and relay D slow operate Relay A may or may not be a slow release relay but must not remain operated longer than the combined release time of relays C and B. Otherwise, the system will be caused to hunt. It is expected that relays B and E will be fluttering under the action of the voice peaks, relay E fluttering less often than relay B, so that unless the voice reaches a fairly well sustained value relay D, being slow operate,
- Relay E will be fairly quick release in order to prevent hunting.
- Fig. 2 the arrangements of the invention are shown in the form of a non-neutral system having certain auxiliary functions.
- the circuit provides for automatic return to any required normal setting, an interlocking action between the transmitting and receiving sides of the system, and certain other features required by these additions.
- Similar reference characters have been utilized to denote like parts with respect to Fig. 1.
- the arran ements are substantially similar to those of Fig. 1 in their performance with the following additions: when the system is set for the strongest talker. it is possible that amplifier-detector 2 may be more sensitive than the other voice operated switching devices on the line, such for example as the echo and singing suppressing apparatus.
- contact S In order to accomplish the restoring ac tion to the normal setting, where amplifierdetector 2 will have its full sensitivity, contact S has been provided which restores the system to contact S at the conclusion of speech. In order that there shall be no neutral region on S (or a negligible one), contact S has been provided whereby, if the setting be exceeded in the direction opposlte to S the potentiometer will again be returned to S Obviously, S S and S may be made to cover any required portions of the potentiometer setting so that by making S cover the entire potentiometer, a device which is normally set on maximum gain will be obtained. By making S cover the entirepotentiometer a device normally set on a minimum gain will be obtained. Any intermediate combinations of these may be employed.
- the operation is as follows: lVhen no speech currents are, present in the transmission paths, the potentiometer P will come to rest at the position S If a weak talker is received, the relay H, which may be termed the restoring relay, will be operated and remove the ground from the contact arm cooperating with S and S so that the restoring action will be stopped. Adjustment of volume will then take place in a manner similar to that heretofore described with respect to Fig. 1. A similar gain adjustment will "take place for too loud a speaker. At the conclusion of speech, relay H, which is a slow release relay, will remain operated for say 10 seconds and restoration to S will not take place until the conclusion of these 10 seconds.
- relay G Since it is not desirable to have restoration while the distant speakerv is speaking, relay G is provided. This relay is operated by the relay 20 which is connected to the receiving side ofthe line and is operated when the distant speaker talks. When relay 20 operates, it operates relay G. Thus ground will be removed from the potentiometer control apparatus during the time when the distant talker is speaking. Relay G also causes the operation of relay H and thus prevents the restoring action from starting until 10 seconds after the distant talker finishes speaking. Should the local talker answer the distant speaker before the expiration of the 10 seconds, the action of volume adjustment is not interfered with. Should he fail to reply until after the restoration of relay H the system will return to its normal setting and again adjust volume in the normal manner when the local speaker talks.
- FIG. 3 is shown a modification of the arrangements designed to give a system which is normally set for maximum gain and which returns to that setting when the speaker has ceased talking. Similar reference characters have been utilized to denote like-parts with respect to the other figures. Since the system is normally set for maximum gain and the weakest talker, the functions of the low volume relay A may be omitted and consequently, relay A and its associated amplifierdetector, may be eliminated. It is still necessary, however, to retain the interlocking action with the distant speaker. Accordingly, relays G and 20 are retained to prevent restoration when the distant talker is speaking.
- Fig. 4 is shown a further modification of the invention which is arranged to have minimum gain at its normal setting.
- S has been eliminated and S made to cover the entire range of the potentiometer.
- relay A In order that the weakest talker may be picked up and action initiated, it is relay A.
- relays G and H are. provided. The presence of relays A and H permit adjustment during actual speech by the local talker, but prevent restoration during his pauses unless he stops speaking for, say, ten seconds (the restoration time of H).
- Fig. 5 further modifications of the invention.
- This arrangement provides a semineutral system which returns to an increased gain setting after the loudest speaker but which'is neutral after all other speakers.
- S has been made to cover the same range of P provided by'S and a step of P has been provided which prevents the system being more subject to false operation than the voice operated switching system.
- Fig. 5 The operation of the arrangements of Fig. 5 is substantially as follows Normally, with no one speaking, the potentiometer may rest in any position of S If a weak speaker. is receivechthe operation is identical with that of Fig. 1. If a strong speaker is received, a .similar'action takes place, putting thepotentiometer control on to a part of P covered Closure of the contact S results in a reduction in the sensitivity of amplifier-detector 2 which does not impair the operation of the device as long as the local talker is strong. ,Closure'of the contact S has no effect duringspeed since relayH is operated. When the strong talker ceases speaking, relay H restores at the end of ten seconds and the potentiometer control apparatus.
- Fig. 6 one suitable form of appara tus is illustrated in Fig. 6.
- the operating shaft of the potentiometer P There are provided two motor driven friction wheels. These wheels are rotated in opposite directions, as shown by the arrows. Each wheel may be caused to frictionally engage theshaft to move it up or down. This movement of the wheels into frictional engagement with the shaft may be controlled by the pivoted levers controlled by the separate magnets, each of which is controlled by a separate lead, as shown. 7
- a transmission system comprising a one way line section, a device included in said line section for controlling the volume of transmission over said line section, relay means associated with said line section on the incoming and outgoing sides of said device, said relay means being responsive to currents of different values in said line section, and circuit arrangements under the joint control of said relay means for operating said volume control device.
- a transmission system comprising a oneway line section, an amplifierincluded in-said line section, a potentiometer for controlling the gain of said amplifier, relay means having diiferent marginal adjustments associated with the incoming and outgoing sides of said amplifier and responsive to currents in said line section, and circuit arrangements under the joint control of said relay means for adjusting said potentiometer.
- a transmission system comprising a oneway line section, an amplifier included in said line section, a device for controlling said am plifier, relay means associated with the incoming side of said amplifier and adjusted to operate on low volume transmission, relay means associated with the outgoing side of said amplifier and adjusted to operate on correct volume transmission, relay means associated with the outgoing side of said amplifier and adjusted to operate on high volume transmission, and circuit arrangements under the joint control of said relays for operating said amplifier control device.
- a transmission system comprising a one-way line section, an amplifier included in said line section, a device for controlling said amplifier, relay means associated with the incoming side of said amplifier and adjusted to operate on low volume transmission, relay means associated with the outgoing side of said amplifier and adjusted to operate on correct volume transmission, relay means associated with the output side'of said amplifier and adjusted to operate on high volume transmission, and circuit arrangements under the oint control of said relays whereby when said low volume relay operates the gain of said amplifier will be increased, whereby when said correct volume relay is operated the gain of said amplifier will be held constant, and whereby when said high volume relay is operated the gain of said amplifier will be decreased.
- a transmission system comprising a one-way line section, an amplifier included in said line section, a potentiometer for controlling the gain of said amplifier, relay means having different marginal adjustments associated with the incoming and outgoing sides of said amplifier and responsive to currents in said line section, circuit arrangements under the joint control of said relay means for adjusting said potentiometer, another one-way line section for transmission in a direction opposite to that of said first men tioned line section, relay means associated with said second mentioned line section and responsive to currents therein, and means controlled by said last mentioned relay means for rendering ineffective the control of said marginal relays over said potentiometer.
- a transmission system comprising a one-way line section, an amplifier included in said line section, a potentiometer for controlling the gain of said amplifier, said potentiometer having anarbitrarily chosen normal setting, apparatus for controlling the setting of said potentiometer, relay means having difierent marginal adjustments associated with said line section, circuit arrangements controlled by said marginal relay means for causing said control apparatus to increase or decrease the setting of said potentiometer, and relay means associated with said line section for causing said control apparatus to return said potentiometer to its normal setting.
- a transmission system comprising a. one-way line section, an amplifier included in said line section, a potentiometer for controlling the gain of said amplifier, said potentiometer having an arbitrarily chosen normal set-ting, apparatus for controlling the setting of said potentiometer, relay means having different marginal adjustments associated with said line section, circuit arrangements controlled by said marginal relay means for causing said control apparatus to increase or decrease the setting of said potentiometer, a slow release relay associated with said line section on the incoming side of said amplifier and responsive to currents coming in over said line, and circuit arrangements operative when said relay releases for causing said control apparatus to return said potentiometer to its normal setting.
- a transmission system comprising a one-way line sect-ion, an amplifier included in said line section, control apparatus for increasing and decreasing the gain of said amplifier, an amplifier detector bridged across said line section on the incoming side of said amplifier, a potentiometer in the input circuit of said amplifier detector, marginal relay means associated with the output of said amplifier detector, marginal relay means associated with said line section on the output side of said amplifier, circuit arrangements under the joint control of said marginal relay means for causing said control apparatus to increase and decrease the gain of said amplifier, and means controlled by the increasing of the gain of said amplifier for controlling said potentiometer.
- a transmission system comprising a one-way line section, an amplifier included in said line section, relay means having different marginal adjustments, said relay means being associated with and responsive to current in the incoming and outgoing sides of said amplifier, and circuit arrangements under the joint control of said relay means for adjusting the gain of said amplifier.
- a transmitting channel for controlling the volume of the transmitted impulses
- a plura-lityof control means operated at different energy levels obtaining on said channel for governing said impedance varying means toimaint-ain' the volume of the transmitted impulses substantially constant and for jointly insuring against constant hunting when the incoming energy level is substantially constant.
- a transmitting channel for governing the volume of the transmitted signals, and automatic means controlled from said channel beyond said control means for governing said control means to maintain the volume of the transmitted signals substantially constant and for jointly insuring against constant hunting when the incoming energy level is substantially constant.
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- Engineering & Computer Science (AREA)
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- Mobile Radio Communication Systems (AREA)
- Control Of Amplification And Gain Control (AREA)
- Circuit For Audible Band Transducer (AREA)
Description
3 Sheets-Sheet l wail 126: Silent D. MITCHELL ET AL TRANSMISSION VOLUME CONTROL Filed Dec.
June 30, 1931.
Viv-fable Volume Input s L R 2 o .L r. &W0 I. W70 W a he a I t mm z 7 a, z I Mm I z p 4 m N t s M a S E L M Ma mm I A m m m m .1 m W M w I a 4 w 2 g L) h 4 H ATTORNEY 1928 3 Sheets-Sheet 2 V'mz'zzblp D. MITCHELL ET AL TRANSMISSION VOLUME CONTROL Fild Dec.
Constant Vlame June 30, 1931.
INVENTORS ATTORNEY te l .I fm U W k mV June 30, 1931.
13. MITCHELL ET AL TRANSMISSION VOLUME CONTROL Filed Dec. 17. 1928 3 Sheets-Sheet 3 INVENTORS fi gy'lcleell 152176.. 6 l'ZeI et ATTORNEY Patented June 30, 1931 UNITED STATES PATENTYOFFICE DOREN MITCHELL, OF NEW YORK, AN D HAROLD C. SILENT, OF LARCI-IMONT, NEW YORK, ASSIG'NORS T AMERICAN TELEPHONE AND TELEGRAPH COMPANY, A OORPORA- T1031 01' NEW YORK TRANSMISSION VOLUME CONTROL Application filed December 17, 1928. Serial No. 326,597.
rangements of the invention provide an ar-.
rangement of amplifier-detectors and relays whereby the volume may be automatically controlled by the voice or other signals themselves.
lVhen the volume is adjusted by hand there 90 are certain well defined operations to be performed by the technical operator. These operations are as follows: hear the speaker at the near end of the line and be ready to adjust hisvolume to the proper value; adjust the speakers volume under the guidance of the volume indicator to the proper value during conversation; make no change in adjustment as long as the volume remains at the correct value; make no change in adjustment when the distant talker speaks; prevent false operation of the voice operated systems by adjusting the regulating networks on the transmitting and receiving side of the line in a complementary manner; and at the. conclusion of the conversation to either restore the regulating networks to a normal step or leave them on the step at which the conversation was concluded. The arrangements of the invention by means of a basic relay chain will automatically perform the equivalent of the above operations.
The relay chain arrangements of the invention and modifications thereof may be arranged in several different ways. For example. one form may be termed a full neutral system, remaining on the position taken at the close of the last conversation. Another form may be normally set for the weakest talker (maximum gain) and at the conclusion of the conversation returns to this setting. Another form may be normally set for the strongest talker (minimum gain) and at the conclusion of the conversation returns to this setting. A further form may be normally set at some intermediate position and at the conclusion of the conversation returns to this position. A still further form may be the semi-neutral type having a region of volume adjustment in which the system is neutral, but if this region be exceeded,automatically returns into the neutralregion at the conclusion of the conversation. Other forms, objects and features of the invention will appear more fully from the detailed description thereof hereinafter given.
The invention may be more fully'understood from the following description together with the accompanying drawings in the Figures 1 2, 3, 4, 5. and 6 of which the invention is illustrated. Fig. 1 shows the basic relay chain arrangement of the invention. The Figs. 2, 3, 4 and 5 show modifications thereof. In 6 are shown in detail certain portions of the potentiometer control ap paratus. Similar reference characters have been utilized to denote like parts in all of the figures.
In Fig. 1 is shown a portion of a one-way section of a transmission system. Of this there are illustrated two line sections L and L together with amplifier apparatus 3 and a potentiometer P whereby the volume may be controlled. The potentiometer P is under the control of the apparatus 4. This potentiometer control apparatusmay be of any convenient form to permit an increase or decrease in the adjustment of the potentiometer P A number of motor driven schemes have heretofore been utilized for the purpose of controlling a potentiometer and, also, relay operated devices have been used. The operating shaft of the potentiometer is extended to connect with a potentiometer on the other side of the line. This is not shown. However, when the shaft operates to increase the gain of P it will operate the other potentiometer to decrease the gain on the other side of the line and vice versa. 7
In the case where a weak talker begins speaking, causing too low a volume to come in over line section L the operation of the system is as follows: Bridged across line section L is an amplifier-detector 2 which is set so that the strong peaks of the weakest volume just cause operation of the low volume relay A. Bridged across line section L will be the amplifier-detector 1. The plate circuit of amplifier-detector 1 will include the high volume relay E and the correct volume relay B. Under the above mentioned conditions amplifier-detector 1 may be insufficiently sensitive to operate relays B and E. Ground is therefore fed through the contact of relay A. and through the back contact of relay G to the potentiometer control apparatus 4 to cause it to increase gain through adjustment of the potentiometer P It in creases gain as long as relay A is operated by the incoming peaks of speech current until amplifier-detector 1 receives suiiicient volume to cause its plate current to operate the correct volume relay B. When the volume has reached the proper value relays A and B are operated in such a manner that relay C is held operated. This will remove ground from the increase gain control circuit of apparatus l and transfer the ground fed from the contact of relay A to the armature of relay E through the contacts of relay C. Should the volume rise too high the high volume relay E which may be made, for example, 5 T. U. less sensitive than the correct volume relay B, becomes operated. Relay D is operated by relay E and in turn applies ground to the decrease gain circuit of the potentiometer control apparatus 4. This causes a reduction in the potentiometer setting until the Volume shall have fallen to such a value as to permit the release of relay E. All gain adjustment then ceases until the volume again requires adjustment. At the conclusion of the conversation all of the relays return to their normal setting without altering the potentiometer setting, and the system waits for further impulses, i. e., it is full neutral] It is pointed out that the relay ar rangement adjusts only when the volume is not correct, remaining at rest as long as the volume is correct or no one is speaking. For this reason any tendency for the control system to hunt is reduced to the minimum or eliminated.
In order that the above actions may be properly effected certain requirements in the time relationships of the relays must be fulfilled. It appears desirable to make relay 0 slow release and relay D slow operate. Relay A may or may not be a slow release relay but must not remain operated longer than the combined release time of relays C and B. Otherwise, the system will be caused to hunt. It is expected that relays B and E will be fluttering under the action of the voice peaks, relay E fluttering less often than relay B, so that unless the voice reaches a fairly well sustained value relay D, being slow operate,
will not be pulled up to cause reduction of the volume. Relay E will be fairly quick release in order to prevent hunting.
In Fig. 2, the arrangements of the invention are shown in the form of a non-neutral system having certain auxiliary functions. The circuit provides for automatic return to any required normal setting, an interlocking action between the transmitting and receiving sides of the system, and certain other features required by these additions. Similar reference characters have been utilized to denote like parts with respect to Fig. 1. The arran ements are substantially similar to those of Fig. 1 in their performance with the following additions: when the system is set for the strongest talker. it is possible that amplifier-detector 2 may be more sensitive than the other voice operated switching devices on the line, such for example as the echo and singing suppressing apparatus. From the standpoint of false operation, this is an undesirable situation since echoes set up by transmission in the receiving side of the system which are too weak to cause false operation of the voice operated switching devices and are therefore not suppressed by the receiving side relays might cause the volume control system to begin adjusting. Accordingly, provision is made for the reduction in the sensitivity of amplifier-detector 2 when certain settings are exceeded in order that this condition shall be corrected. This in turn requires that the device when operated by strong talkers, shall at the conclusion of conversation be automatically returned to a certain setting at which the full sensitivity of amplifier-detector 2 may be employed in order that it shall be ready for the weakest talker at the conclusion of speech.
The reduction in sensitivity is provided by the contact S and its associated contact arm, relay F and the potentiometer P Thus, if the potentiometer P be operated on certain regions, the contact S will be closed. This will complete an operating circuit for relay F. This will reduce the setting of potentiometer P and accordingly reduce the sensitivity of amplifier-detector 2. If desired, S may be increased in number to give successive steps on P If S be made to cover the entire travel of the potentiometer in successive steps, then amplifier-detector '2 may be eliminated and relay A. operated directly from amplifier-detector 1.
In order to accomplish the restoring ac tion to the normal setting, where amplifierdetector 2 will have its full sensitivity, contact S has been provided which restores the system to contact S at the conclusion of speech. In order that there shall be no neutral region on S (or a negligible one), contact S has been provided whereby, if the setting be exceeded in the direction opposlte to S the potentiometer will again be returned to S Obviously, S S and S may be made to cover any required portions of the potentiometer setting so that by making S cover the entire potentiometer, a device which is normally set on maximum gain will be obtained. By making S cover the entirepotentiometer a device normally set on a minimum gain will be obtained. Any intermediate combinations of these may be employed.
In the system shown in Fig. 2, the operation is as follows: lVhen no speech currents are, present in the transmission paths, the potentiometer P will come to rest at the position S If a weak talker is received, the relay H, which may be termed the restoring relay, will be operated and remove the ground from the contact arm cooperating with S and S so that the restoring action will be stopped. Adjustment of volume will then take place in a manner similar to that heretofore described with respect to Fig. 1. A similar gain adjustment will "take place for too loud a speaker. At the conclusion of speech, relay H, which is a slow release relay, will remain operated for say 10 seconds and restoration to S will not take place until the conclusion of these 10 seconds. Since it is not desirable to have restoration while the distant speakerv is speaking, relay G is provided. This relay is operated by the relay 20 which is connected to the receiving side ofthe line and is operated when the distant speaker talks. When relay 20 operates, it operates relay G. Thus ground will be removed from the potentiometer control apparatus during the time when the distant talker is speaking. Relay G also causes the operation of relay H and thus prevents the restoring action from starting until 10 seconds after the distant talker finishes speaking. Should the local talker answer the distant speaker before the expiration of the 10 seconds, the action of volume adjustment is not interfered with. Should he fail to reply until after the restoration of relay H the system will return to its normal setting and again adjust volume in the normal manner when the local speaker talks.
InFig. 3 is shown a modification of the arrangements designed to give a system which is normally set for maximum gain and which returns to that setting when the speaker has ceased talking. Similar reference characters have been utilized to denote like-parts with respect to the other figures. Since the system is normally set for maximum gain and the weakest talker, the functions of the low volume relay A may be omitted and consequently, relay A and its associated amplifierdetector, may be eliminated. It is still necessary, however, to retain the interlocking action with the distant speaker. Accordingly, relays G and 20 are retained to prevent restoration when the distant talker is speaking.
by s. and s3.
The actions of the circuit under the impulses of speech are similar to those heretofore described with respect to Fig. 1. At the conclusion of speech, the arrangement restores to the maximum gain setting.
In Fig. 4: is shown a further modification of the invention which is arranged to have minimum gain at its normal setting. In this circuit arrangement, S has been eliminated and S made to cover the entire range of the potentiometer. In order that the weakest talker may be picked up and action initiated, it is relay A. In order that the system shall not return to its normal setting when the distant talker speaks or during short-pauses by the local talker, relays G and H are. provided. The presence of relays A and H permit adjustment during actual speech by the local talker, but prevent restoration during his pauses unless he stops speaking for, say, ten seconds (the restoration time of H). Since this system is normally set for the strongest talker, it isimpossible to employ the actions of S F and P as in other figures, since the system. would be unable to find the weakest talker on its normal setting. In other respects the operation of the arrangements are substantially similar to those heretofore described. I
In Fig. 5 are shown further modifications of the invention. This arrangement provides a semineutral system which returns to an increased gain setting after the loudest speaker but which'is neutral after all other speakers. In the circuit arrangements, it will be noted that S has been made to cover the same range of P provided by'S and a step of P has been provided which prevents the system being more subject to false operation than the voice operated switching system.
I The operation of the arrangements of Fig. 5 is substantially as follows Normally, with no one speaking, the potentiometer may rest in any position of S If a weak speaker. is receivechthe operation is identical with that of Fig. 1. If a strong speaker is received, a .similar'action takes place, putting thepotentiometer control on to a part of P covered Closure of the contact S results in a reduction in the sensitivity of amplifier-detector 2 which does not impair the operation of the device as long as the local talker is strong. ,Closure'of the contact S has no effect duringspeed since relayH is operated. When the strong talker ceases speaking, relay H restores at the end of ten seconds and the potentiometer control apparatus. withdraws the contact from S stopping at the end of S If, however, the distant talkerbegins speaking before the restoration of relay H, he operates relay G to prevent restoration and also relay H to prevent restoration until, say, ten seconds after the conclusion of his speech. If the local talker necessary to employ amplifier-detector 2 and then replies before the restoration of relay H, the system continues volume adjustment in the normal manner.
The arrangements have shown certain relay circuits which may be employed for a volume adjusting system'controlled by the voice. It may in certain cases be necessary to increase the number of relays in order that the required time actions may be obtained.
The potentiometer control system has been shown without detail in the foregoing figures of the drawing, since there are many systems which would prove satisfactory for this service. However, one suitable form of appara tus is illustrated in Fig. 6. In the arrangements of Fig. 6 there is shown the operating shaft of the potentiometer P There are provided two motor driven friction wheels. These wheels are rotated in opposite directions, as shown by the arrows. Each wheel may be caused to frictionally engage theshaft to move it up or down. This movement of the wheels into frictional engagement with the shaft may be controlled by the pivoted levers controlled by the separate magnets, each of which is controlled by a separate lead, as shown. 7
By means of the automatic volume adjustment arrangements heretofore disclosed, a closer regulation of the outgoing volume on long transmission lines or transoceanic'circuits may be obtained than is now provided by the technical operation where the human element must enter in. If the voice control, by the arrangement of this invention, could be maintained at a more uniform volume than at present, even to the extent of 3 T. U., it would correspond to a doubling of the power at, for example, the radio transmitter of a transoceanic system and represent a corresponding improvement in the service pro vided by the system.
While the arrangements of the invention have been disclosed as embodied in certain specific forms which are deemed desirable, it is understood that they are capable of embodiment in many and other widely varied forms without departing from the spirit of the invention as defined by the appended claims.
What is claimed is:.
1. A transmission system comprising a one way line section, a device included in said line section for controlling the volume of transmission over said line section, relay means associated with said line section on the incoming and outgoing sides of said device, said relay means being responsive to currents of different values in said line section, and circuit arrangements under the joint control of said relay means for operating said volume control device.
2. A transmission system comprising a oneway line section, an amplifierincluded in-said line section, a potentiometer for controlling the gain of said amplifier, relay means having diiferent marginal adjustments associated with the incoming and outgoing sides of said amplifier and responsive to currents in said line section, and circuit arrangements under the joint control of said relay means for adjusting said potentiometer.
3. A transmission system comprising a oneway line section, an amplifier included in said line section, a device for controlling said am plifier, relay means associated with the incoming side of said amplifier and adjusted to operate on low volume transmission, relay means associated with the outgoing side of said amplifier and adjusted to operate on correct volume transmission, relay means associated with the outgoing side of said amplifier and adjusted to operate on high volume transmission, and circuit arrangements under the joint control of said relays for operating said amplifier control device.
at. A transmission system comprising a one-way line section, an amplifier included in said line section, a device for controlling said amplifier, relay means associated with the incoming side of said amplifier and adjusted to operate on low volume transmission, relay means associated with the outgoing side of said amplifier and adjusted to operate on correct volume transmission, relay means associated with the output side'of said amplifier and adjusted to operate on high volume transmission, and circuit arrangements under the oint control of said relays whereby when said low volume relay operates the gain of said amplifier will be increased, whereby when said correct volume relay is operated the gain of said amplifier will be held constant, and whereby when said high volume relay is operated the gain of said amplifier will be decreased.
5. A transmission system comprising a one-way line section, an amplifier included in said line section, a potentiometer for controlling the gain of said amplifier, relay means having different marginal adjustments associated with the incoming and outgoing sides of said amplifier and responsive to currents in said line section, circuit arrangements under the joint control of said relay means for adjusting said potentiometer, another one-way line section for transmission in a direction opposite to that of said first men tioned line section, relay means associated with said second mentioned line section and responsive to currents therein, and means controlled by said last mentioned relay means for rendering ineffective the control of said marginal relays over said potentiometer.
6. A transmission system comprising a one-way line section, an amplifier included in said line section, a potentiometer for controlling the gain of said amplifier, said potentiometer having anarbitrarily chosen normal setting, apparatus for controlling the setting of said potentiometer, relay means having difierent marginal adjustments associated with said line section, circuit arrangements controlled by said marginal relay means for causing said control apparatus to increase or decrease the setting of said potentiometer, and relay means associated with said line section for causing said control apparatus to return said potentiometer to its normal setting.
7. A transmission system comprising a. one-way line section, an amplifier included in said line section, a potentiometer for controlling the gain of said amplifier, said potentiometer having an arbitrarily chosen normal set-ting, apparatus for controlling the setting of said potentiometer, relay means having different marginal adjustments associated with said line section, circuit arrangements controlled by said marginal relay means for causing said control apparatus to increase or decrease the setting of said potentiometer, a slow release relay associated with said line section on the incoming side of said amplifier and responsive to currents coming in over said line, and circuit arrangements operative when said relay releases for causing said control apparatus to return said potentiometer to its normal setting.
8. A transmission system comprising a one-way line sect-ion, an amplifier included in said line section, control apparatus for increasing and decreasing the gain of said amplifier, an amplifier detector bridged across said line section on the incoming side of said amplifier, a potentiometer in the input circuit of said amplifier detector, marginal relay means associated with the output of said amplifier detector, marginal relay means associated with said line section on the output side of said amplifier, circuit arrangements under the joint control of said marginal relay means for causing said control apparatus to increase and decrease the gain of said amplifier, and means controlled by the increasing of the gain of said amplifier for controlling said potentiometer.
9. A. transmission system comprising a one-way line section, a device included in said line section for controlling the volume of transmission over said line section, responsive means having different marginal adjustments, said means being associated with and responsive to current in said line section on the incoming and outgoing sides of said device, and circuit arrangements under the joint control of said responsive means for operating said volume control device in such a manner that the electrical volume of the sound currents at its output is maintained essentially constant.
10. A transmission system comprising a one-way line section, an amplifier included in said line section, relay means having different marginal adjustments, said relay means being associated with and responsive to current in the incoming and outgoing sides of said amplifier, and circuit arrangements under the joint control of said relay means for adjusting the gain of said amplifier.
11. In a signal transmission system, a transmitting channel, impedance varying means in said channel for controlling the volume of the transmitted impulses, and a plura-lityof control means operated at different energy levels obtaining on said channel for governing said impedance varying means toimaint-ain' the volume of the transmitted impulses substantially constant and for jointly insuring against constant hunting when the incoming energy level is substantially constant.
12. In a signal transmission system, a transmitting channel, control means for governing the volume of the transmitted signals, and automatic means controlled from said channel beyond said control means for governing said control means to maintain the volume of the transmitted signals substantially constant and for jointly insuring against constant hunting when the incoming energy level is substantially constant.
In testimony whereof, we have signed our names to this specification this 15th day of December, 1928.
DOREN MITCHELL. HAROLD C. SILENT.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US326597A US1811954A (en) | 1928-12-17 | 1928-12-17 | Transmission volume control |
GB17821/29A GB334869A (en) | 1928-12-17 | 1929-06-10 | Improvements in transmission volume control systems for electric signalling |
DEE39365D DE577865C (en) | 1928-12-17 | 1929-06-11 | Automatic amplitude control in Zwischenverstaerkeraemtern |
FR679605D FR679605A (en) | 1928-12-17 | 1929-07-31 | Transmission volume control system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US326597A US1811954A (en) | 1928-12-17 | 1928-12-17 | Transmission volume control |
Publications (1)
Publication Number | Publication Date |
---|---|
US1811954A true US1811954A (en) | 1931-06-30 |
Family
ID=23272900
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US326597A Expired - Lifetime US1811954A (en) | 1928-12-17 | 1928-12-17 | Transmission volume control |
Country Status (4)
Country | Link |
---|---|
US (1) | US1811954A (en) |
DE (1) | DE577865C (en) |
FR (1) | FR679605A (en) |
GB (1) | GB334869A (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2666098A (en) * | 1945-12-13 | 1954-01-12 | John L Leonard | Vacuum tube amplifier for measuring signals having a large variation in level |
US2791743A (en) * | 1949-10-11 | 1957-05-07 | Nederlanden Staat | Automatic volume control device |
US2813156A (en) * | 1953-11-30 | 1957-11-12 | Hoffman Electronics Corp | Variable gain amplifier |
US2817014A (en) * | 1950-06-16 | 1957-12-17 | Nederlanden Staat | Syllabic frequency discriminator |
US2856589A (en) * | 1954-04-20 | 1958-10-14 | Rca Corp | Light-controlled waveguide attenuator |
US2921267A (en) * | 1950-08-02 | 1960-01-12 | Int Standard Electric Corp | Protection against failure of pilot wave in carrier communication systems |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE3226279A1 (en) * | 1982-07-14 | 1984-01-19 | Neumann Elektronik GmbH, 4330 Mülheim | ARRANGEMENT FOR COMPENSATING DIFFERENT DAMPING BEHAVIOR OF TELECOMMUNICATION LINES |
-
1928
- 1928-12-17 US US326597A patent/US1811954A/en not_active Expired - Lifetime
-
1929
- 1929-06-10 GB GB17821/29A patent/GB334869A/en not_active Expired
- 1929-06-11 DE DEE39365D patent/DE577865C/en not_active Expired
- 1929-07-31 FR FR679605D patent/FR679605A/en not_active Expired
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2666098A (en) * | 1945-12-13 | 1954-01-12 | John L Leonard | Vacuum tube amplifier for measuring signals having a large variation in level |
US2791743A (en) * | 1949-10-11 | 1957-05-07 | Nederlanden Staat | Automatic volume control device |
US2817014A (en) * | 1950-06-16 | 1957-12-17 | Nederlanden Staat | Syllabic frequency discriminator |
US2921267A (en) * | 1950-08-02 | 1960-01-12 | Int Standard Electric Corp | Protection against failure of pilot wave in carrier communication systems |
US2813156A (en) * | 1953-11-30 | 1957-11-12 | Hoffman Electronics Corp | Variable gain amplifier |
US2856589A (en) * | 1954-04-20 | 1958-10-14 | Rca Corp | Light-controlled waveguide attenuator |
Also Published As
Publication number | Publication date |
---|---|
FR679605A (en) | 1930-04-15 |
GB334869A (en) | 1930-09-10 |
DE577865C (en) | 1933-06-06 |
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