US2224569A - Control of transmission in two-way signaling systems - Google Patents

Control of transmission in two-way signaling systems Download PDF

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Publication number
US2224569A
US2224569A US297832A US29783239A US2224569A US 2224569 A US2224569 A US 2224569A US 297832 A US297832 A US 297832A US 29783239 A US29783239 A US 29783239A US 2224569 A US2224569 A US 2224569A
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circuit
detector
transmitting
amplifier
receiving
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US297832A
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Alton C Dickleson
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AT&T Corp
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Bell Telephone Laboratories Inc
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Priority to BE475750D priority Critical patent/BE475750A/xx
Priority to NL70924D priority patent/NL70924C/xx
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Priority to US297832A priority patent/US2224569A/en
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Priority to FR949301D priority patent/FR949301A/fr
Priority to GB19261/47A priority patent/GB628348A/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B3/00Line transmission systems
    • H04B3/02Details
    • H04B3/20Reducing echo effects or singing; Opening or closing transmitting path; Conditioning for transmission in one direction or the other

Definitions

  • the invention relates to ⁇ two-way signaling systems and particularly to circuits for controlling signal transmission in such systems.
  • An object of the invention is to improve the operation of such circuits.
  • a related object is to improve the operation of circuits for automatically controlling the volunie and direction of transmission in a two-way telephone system.
  • a more specific object is to provide maximum gain in the transmission paths of a two-Way signal transmission system consistent with the maintenance of anti-singing conditions and ldiscrimination against echoes, line noises.' and other interference such as that arising in radio paths.
  • Another object is to relatively arrange and ad- ⁇ ust automatic gain control devices and voiceoperated switching devices for suppressing echoes and singing, in a two-way telephone system in such manner as to obtain improved over-al1 operation of the system under service conditions.
  • the invention is directed mainly to improvements in automatic transmission control apparatus in a control terminal for a two-way tele- 25 phone system, particularly a two-way radio telephone system.
  • One feature is an improved tone-operated control circuit for automatically adjusting .the loss in the receiving branch of the terminal in such manner as to prevent echo operation of the transmitting vodas switching circuit, echo operation of the gainV increaser of the ⁇ transmitting circuit v vogad, and any operation of an echo suppressor on a connected circuit by received speech or noise too weak to operate the receiving vodas switching circuit.
  • Another feature is an improved syllabic type transmitting vodas circuit comprising the combnation of a vowel-operated switching detector with a consonant-operated detector enabler, to provide better discrimination between speech and line noise and improvement from the standpoint of signal clipping.
  • Fig. l shows a block diagram of one terminal of 0 a radio telephone system embodying the invention.
  • Fig. l shows in functional schematic form a semiautomatic control terminal for a radio telephone system illustrating the main features of 5 the invention.
  • each single line represents a two-wire transmission path
  • the transmission apparatus associated with the transmission paths are represented by suitably labeled boxes or simplified representations of Ifo' their functions.
  • Contacting arrowheads in a transmission path or within a box indicate that the path at that point or the transmission apparatus represented by the box is normally made or enabled
  • separated arrowheads in a trans- 15 mission ⁇ path indicate that the path at' that point is normally broken or disabled.
  • An arrow directed at a make point (contacting arrowheads) in va transmission path from a box indicates that the path will be disabled by operation of the 20 apparatus represented by the box, and an arrow directed towards a breakpoint (separated arrowheads) in a transmission path from a boxind-icates that the path will be enabled by operation of the apparatus represented by the box.
  • An arrow directed towards one box from another box indicates that the apparatus represented by the first box will be controlled ini some Way by operation of the apparatus represented by the latter box.
  • the control terminal of Fig. l is essentially a four-wire terminating circuit for a radio sys'- tem.
  • this four-wire circuit comprises a transmitting circuit TC leading to a radio transmitter RT and a .receiving circuit RC leading from a radio receiver RR.
  • the input of the. circuit TCand the output of the circuit RC are connected in substantially conjugate relation with each other and in energy transmitting relation with atwo-way circuit l by a hybrid coil H and associated balancing network N in well-known manner.
  • 'I'he two-way circuit I may be connected by apparatus in the toll switchboard 2 to a telephone line'leading to a ⁇ telephone subscribers circuit, ⁇ as indicated..
  • the transmission apparatus and associated control circuits illustrated in connection with the control terminal of Fig. 1 comprise only those portions necessary to explain broadly lthe main features of the invention. They include the volume control apparatus and circuits shown Within the dot-dash box 3 at the left of the iigure, for adjustably controlling the gain or4 loss in the transmitting circuit TC and in the receiving circuit RC, a two-way privacy device, which may be of any of the well-known types, represented by the box 4 at the right, and voice-operated switching circuits for preventing singing and suppressing echoes, commonly known as vodas (voice-operated device anti-singing) circuits, shown in the center of the figure.
  • vodas voice-operated device anti-sing
  • the transmitting circuit TC is disabled or blocked at the points 5 and 6 on either side of the transmitting portion of the privacy 4 as indicated by the separated arrows at those points, and the receiving circuit RC is operative as indicated by the contacting arrowheads at the points 'I and 8 on either side of the receiving portion of the privacy 4.
  • Transmitting circuit TC is adapted to be rendered operative at the points 5 and 6 to transmit to the radio transmitter RT, and the receiving circuit RC is adapted to be simultaneously disabled at the points 1 and 8 under control of the outgoing telephonic signals initiated in the transmitting circuit'TC, by operation of the transmitting vodas circuit TV including the transmitting amplier-detector I0, having its input connected to the circuit TC. through the hybrid coil H1 and associated balancing network N1.
  • the delay circuit II connected between hybrid coil H1 and the point 5 in the circuit TC is
  • speech currents of sufficient level incoming from the radio receiver RR will operate the receiving vodas RV to disable the transmitting vodas circuit TV at the point I 6 in its output, and to disable the vogad (volume-operated gainadjusting device) I'I in the transmitting circuit TC.
  • the disabling of the transmitting vodas TV will prevent false operation of that circuit by echoes of the received speech waves, and the disabling of the vogad II will prevent change in its gain during the period in which the receiving vodas RV remains operated.
  • the sensitivity of the transmitting amplifierdetector I0 in the transmitting vodas TV should be set so that the vodas will be certain to operate on even the weak parts of transmitted speech signals.
  • the manually-operated variable resistance pad 9 in the input of amplifier-detector I0 is provided for making part of the desired adjustment in sensitivity.
  • the sensitivity of the receiving amplifier-detector I4 in the receiving vodas RV should be set as high as possible consistent with preventing falsev operation of the receiving vodas by incoming static.
  • the manually-operated ladder-type potentiometer I2 is provided for making part of this sensitivity adjustment as well as to make an inverse adjustment in the level of the pilot tone current in the receiving loss adjusting circuit to be described later.
  • the gain in the transmitting circuit TC of the terminal must be adjusted so that the circuit transmits to the radio transmitter RT a signal volume that will modulate the transmitter properly. This is accomplished in ⁇ this terminal by the vogad I'I which operates automatically to adjust its gain so as to provide a predetermined volume output.
  • a secondary function of the vogad is to effectively vary the sensitivity of the transmitting vodas TV connected across the path TC on its output side, to compensate for the varying signal input to the vodas with strong and Weak talkers.
  • 'I'he vogad I1 may be of any of the Well-known types, for example, such as disclosed in the Mitchell et al. Patent No. 2,019,577 issued November 5, 1935.
  • Echo margin is expressed in decibels (db.) and may be defined as the difference between the volume delivered from the terminal apparatus to the twowire circuit I under a given set of operating conditions, and the maximum volume which could be delivered by reducing the receiving loss without producing echo operation.
  • the proper control of the received volume is obtained by a pilot channel control circuit or tone-operated loss adjusting circuit (tola), all elements of which are shown within the dot-dash box 3, which operates automatically to sum up certain gainsand losses in the transmitting circuit TC and in the receiving circuit RC, and to control a vario-repeater in the receiving circuit RC to insert loss or gain therein in accordance with the resultant measured value.
  • a pilot channel control circuit or tone-operated loss adjusting circuit tola
  • the pilot channel control circuit or tola includes an adjustable loss or gain element I8 in the receiving circuit RC, which preferably is a variable gain ampliiier adapted to operate either as a vario-repeater or a vario-losser; a source I9 of pilot current of a frequency, say, 6000 cycles, outside the voice frequency range, connected to the receiving circuit RC; and two amplifier-detectors 20 and 2I connected to points in the path traversed by the pilot tone, beyond the output of the vario-repeater or vario-losser I8, operating to control the gain or loss of the latter under control of the pilot current.
  • an adjustable loss or gain element I8 in the receiving circuit RC which preferably is a variable gain ampliiier adapted to operate either as a vario-repeater or a vario-losser
  • a source I9 of pilot current of a frequency say, 6000 cycles, outside the voice frequency range
  • two amplifier-detectors 20 and 2I connected to points in the path traverse
  • the vario-repeater I8 is connected in the receiving circuit RC at a point to the left of the point ofkconnection of the receiving vodas RV thereto.
  • the pilot current source I9 is connected to the receiving circuit RC at a point to the rieb* of the device I8 by the circuit dividing pad I5 through the ladder potentiometer I2 which is also effective in the input of the receiving vodas RV so that adjustment of the variable arm of the potentiometer to increase or decrease the sensitivity of the receiving vodas RV will proportionately decrease or increase the level of the 6000-cycle pilot current passing into the receiving circuit RC.
  • the input of amplier-detector 2 I is connected to the transmitting circuit TC at a point between the output of vogad I'I and low-pass filter I3.
  • the input of the amplifier-detector 20 is connected between the circuits TC and RC through the selective network 23 in the selective by-pass circuit 24, tuned to 6000 cycles, extending from a point in the output of the voice frequency amplifier 25 in the receiving circuit RC and a point between the low-pass filter l22 and the inout of the vogad I1 in the transmitting circuit TC.
  • the 6000-cycle pilot current introduced into the circuit RC through the circuit dividing pad I5 passes through the vario-repeater I8 operating as an amplifier, along with any received voice signals that may be present in the circuit RC, and is further amplified in the voice f requency amplier to the same extent as the received voice signals.
  • the output currents from the voice frequency ampliiier 25 separate, the voice frequency output passing through the low-pass iilter 26, which does not pass 6000 cycles, to the terminating hybrid coil H, and thence over the associated telephone line to the West telephone subscriber.
  • GOGO-cycle pilot current in the output of ampliiier 25 passes into the by-pass circuit 24 and is divided by the selective network 23 tuned to 6000 cycles therein, between the input oi the ampliiier-detector 20 and the transmitting circuit TC.
  • the portion of the SOOO-cycle Itone passing into the transmitting circuit TC is prevented from passing thereover to the left by the low-pass i'llter 22, the pass range cf which does not include the frequency 6000 cycles.
  • the GOGO-cycle pilot current therefore, is transmitted to the right through the vogad I'I.
  • the low-pass ii'lter I3 in the transmitting circuit TC on the output side of the vogad prevents the SOOO-cycle pilot current from passing to the right over that circuit.
  • the pilot current will pas-s through the sensitivity-adjusting variable loss pads 28 and 29 into the input of amplifier-detector 2I and will be amplified and detected thereby.
  • and the vario-repeater I8 in the tola are interconnected in the manner to be ⁇ described in connection with the detailed showing of these circuits in Fig. 2 so that the amplier-detector having the greatest output exercises sole control over the adjustment of the vario-repeater I8.
  • a sucient amount of ⁇ 6000-cycle pilot current is received by either -ampliiier-detecton the rectied output of the one having the greater output will be applied to the vario-repeater I8 in such manner as to make it operate as a transmission losser, instead of as an amplifier, to maintain the GOUD-cycle tone input to the amplifierdetector 20 or 2
  • echo margin to transmitting vodas detector equals receiving vodas detector sensitivity less transmitting vedas detector sensitivity, plus loss from the receiving vedas detector to the two-wire line I, plus return loss at that point, plus loss from the two-wire line l to the transmitting vodas detector I 0, it is obvious that by properly choosing the relationship between the ensitivity of the GOOD-cycle amplifier-detector 2l and the output level of the SOOO-cycle pilot oscillator i9, the echo margin can be held at zero (O) for any vogad gain, other factors being xed.
  • the connection of the ampl-ier-detector 20 to the GOOG-cycle pilot current path at a'point ahead of the vogad I'I prevents the gain increaser of the latter from operating falsely on echoes of incoming speech or noi-se which are not of sufficient amplitude to oper-ate the receiving amplier-detector I4 of the receiving vodas RV.
  • Operation of the receiving amplifier-'detector I4 by incoming speech disables -both the gain increaser and gain decreaser of thevogad, so that the vogad gain is held constant between lthe reversals of circuit direction eliminating a period of readjustment each time the local subscriber talks. It is very undesirable to allow the gain increaser ⁇ of the vogad to operate on static or incoming speech .too yweak to control the direction of the circuit since it interferes with outgoing speech.
  • the action is suchlthat the level ofthe 6000-cycle tone is held constant atthe input of amplifier-detector 20 forfany setting of the sensitivity of the receiving vodas amplifier-detector I4 if detector 2t is controlling.
  • This means that -the loss to the 60ml-cycle tone in the receiving detector sensitivity potentiometer I2 plus the loss of the tola is a constant, or in other words, receiving amplifier-'detector sensitivity plus tola loss is a constant, other factors remaining fixed.
  • echo margin to the vogad gain increaser equals receiving voda-s amplifier-detector sensitivity less the sensitivity of the gain increaser of the vogad pl-us the loss between :the receiving amplifier-detector and the input to the voga-d where the gain increaser is connected, it is obvious that, exactly as in the case of the transmitting vedas detector, by properly -choosing the relationship between the 6000- cycle amplifier-detector 2l and the output of the GOOG-cycle oscillator I9, the echo margin can be held at zero (0) for any receiving vodas amplifier-detector sensitivity, other factors remaining fixed.
  • the only other variable is the return loss at the hybrid coil H, which, of course, directly affects the loss from the receiving amplifierdetector Ill to the input of vogad Il and therefore echo margin.
  • the manually adjustable variable loss pads 2l and 20 in the inputs of the amplifier-detectors 20 and 2l, respectively, are arranged to be adjusted simultaneously -to t-ake care of different degrees of return loss.
  • the automatic receiving loss adjusting circuit of the invention illustrated in Fig. 1 and described above has an additional function when a toll telephone circuit equipped with ⁇ an echo suppressor is connected to the terminal.
  • the echo suppressor is prevented from operating on incoming speech or noise from the radio receiver RR which is not of suiiicient amplitude to operate the receiving vedas ampliiierdetector I4. 'I'his operation is undesirable since there would be two points in the circuit at which similar degradation of lthe circuit could originate and the problem of the technical operator in minimizing this degradation would be greatly increased.
  • the receiving loss control circuit insures that there is suiicient loss inserted in receiving circuit RC so that the speech or noise sensitivities of the receiving vodas amplifier-detector I4 and oi' the echo suppressor in the connected toll circuit are approximately the same as viewed from the radio receiver RR.
  • the apparent sensitivity of the echo suppressor as seen from the radio receiver'RR is greater than that of the gain increaser of the vogad I'I seen from the same point, it is possible to use the same control ampliiier-detector 20 for this purpose, merely increasing its sensitivity by the Since the sensitivity of the echo suppressor in the connected circuit would be independent of the return loss at the hybrid coil H, return loss control of the sensitivity of the ampliiier-detector 20 is eliminated.
  • the required changes in sensitivity of the amplifierdetector 20 are accomplished by controlling the loss value of loss pad
  • Figs. 2 and 3 when placed side by side with Fig. 2 at the left show schematically a radio control terminal, such as illustrated diagrammatically in Fig. 1, with certain of the transmission apparatus and circuits shown in detail in accordance with a preferred form of the invention.
  • the transmitting circuit TC of the control terminal shown in Figs. 2 and 3 includes in order connected between the hybrid coil H yand the radio transmitter RT:
  • a -decibel loss pad 3I normally in circuit but arranged to be removed therefrom by operation of relay 35 from the sleeve control circuit of switchboard 2 when the channel is made part of a via connection;
  • a 2-decibel fixed loss pad 36 which is used to properly set the operating range of the vogad;
  • the vogad I1 serving as an automatic control of the volume of speech applied to the radio transmitter RT, the control circuits of which are adapted to be disabled to prevent further change in gain by operation of relay 3,1 under control of the receiving master relay RM in the receiving vodas RV when the terminal is receiving signals, as indicated diagrammatically;
  • the delay circuit II for delaying the transmission of outgoing signals over the circuit TC during the period required to complete operation of the transmitting vodas TV;
  • a short-circuiting connection 5 normally disabling the transmitting circuit TC, and which is adapted to be opened to render circuit TC operative at that point by operation of the switching relay 38 in the transmitting vodas TV;
  • a two-way privacy device 4 coupled in common to the transmitting circuit TC and the receiving circuit RC by hybrid coil transformers H2 and H3 and associated balancing networks N2 and Ns;
  • a second short-circuiting connection 6 normally disabling transmitting circuitA TC on the outgoing side of privacy 4 and adapted to be opened to render the circuit TC operative at that point by operation of switching relay 39 in the transmitting vodas TV.
  • the receiving circuit RC includes in order between the radio receiver RR and the hybrid coil H:
  • the normally open short-circuiting connection 1 adapted to be closed to disable receiving circuit RC at that point in response to operation of the switching relay 40 in the transmitting vodas TV;
  • the two-way privacy 4 common to the transmitting circuit TC also;
  • the normally open short-circuiting connection 8 adapted to be closed to disable the circuit RC at that point in response to operation of the switching relay 4I in the transmitting vodas TV;
  • a noise reducer 42 which may be ofthe type disclosed in Norman Patent No. 2,063,334 issued December 8, 1936, operating to introduce an appreciable loss for low inputs and a Very low loss for high inputs, thus discriminating between the usual line noise and speech waves of relatively high amplitudes;
  • the circuit dividing resistance pad I5 provided for connecting the input of the amplifier-detector I4 of the receiving vodas RV, and the source I9 of pilot tone .(6000 cycles) for the tone-operated loss adjuster circuit, to the receiving circuit RC through the ladder potentiometer I2;
  • variable gain amplier I8 operating both as a vario-repeater and as a vario-losser in the tone-operated loss adjuster circuit (tola)
  • the circuit dividing pad 43 provided for connecting a monitoring circuit to the receiving circuit RC through the low-pass filter 44 operating to suppress the SOOO-cycle pilot tone while passing the speech frequency waves;
  • the voice frequency amplifier 25 The voice frequency amplifier 25;
  • a 3.5-decibel loss pad 32 which is normally connected in circuit but may be removed by operation of the relay 45 from the sleeve control circuit of switchboard ⁇ 2 when the terminal is connected to a toll line to form a via connection'.
  • the switching relays 38, 39, 40 and 4I are operated under control of the transmitting amplifier-detector I of the -transmitting vodas TV to respectively open the normal short-circuiting connections and 6 to render the transmitting circuit TC operative to transmit the outgoing speech signals, and to simultaneously close the short-circuiting connections 1 and 8 to disable the receiving circuit RC, so as to prevent the settingup of a singing condition between the circuits TC and RC.
  • 'I'he transmitting vodas TV includes besides the transmitting amplifier-detector I0 an input portion 46 including the relay-controlled variable loss pads 41 and 48 which, depending on the setting of the key control 49, pro-vide a total loss of 0, 5, or decibels in the input of the transmitting amplifier-detector I0 to control its sensitivity, the particular sensitivity adjustment chosen depending on the circuit conditions at the time of operation.
  • the transmitting amplifier-detector I0 is designed to be unoperated by the maximum noise which may be expected on the transmitting circuit TC but to be operated quickly by speech signals of both high and low amplitudes. New features of this amplier-detector to be described below provide added discrimination between speech and line noise, and the reduction in false operation aiorded by this protection enables improved operation to be attained for the case in which noisy telephone lines are connected to the terminal.
  • the amplifier-detector II comprises a voltage amplier-detector 50 for ⁇ controlling the operation of the switching relays of the transmitting vodas, and a syllabic type amplifier-detector 5I operating as an enabler for the voltage amplifier-detector 5
  • a portion of the secondary winding of input transformer 52 is shunted by a resistance VD arranged as a voltage divider.
  • the voltage-operated amplier-detector 50 comprises one stage of alternating current amplification consisting of a single pentode vacuum tube VA having its cathode connected to the lower terminal of the secondary winding of input transformer 52 and the lower terminal of voltage divider VD, and its control grid connected to the upper tap o-f the voltage divider VD; an interstage transformer VIS having a primary winding connected in the plate-cathode circuit of the tube VA and a secondary winding tuned to 1300 cycles by the condenser 56; a rec- 4tier VR consisting of copper oxide rectifier elements 5l' and 56 and condensers 59 and 60, having its input connected to the secondary winding of the interstage transformer VIS acrossshunt resistance 3
  • comprises a stage of alternating current amplification consisting of the single pentode amplifying vacuum tube SA having its control grid-cathode circuit connected to the -terminals of the secondary winding of input transformer 52; an interstage transformer SIS having a primary winding shunted by resistance 63, connected in the platecathode circuit of tube SA, and a secondary winding which is tuned to 1800 cycles by the shunt condenser Se; a rectifier SR comprising the diode portion of the diode-triode vacuum tube SDA, connected to the secondary winding of transformer SIS through series condenser
  • the various plate, screen and grid ⁇ filters and bias circuits shown are necessary for the successful operation of the amplifier-detectors 50 and 5
  • the tube SA obtains its grid bias by cathode voltage drop through the retard coil 65 which also provides series feedback.
  • the tubeA SDA obtains its grid bias by cathode voltagey drop through the fixed resistance 15 and adjustable resistance l5.
  • the condenser 'Il operates as the plate lter for tube SDA 'I'he tube VA obtains its grid bias by cathode voltage drop through the retard coil 18 which also provides series feedback, and the associated condenser and resistance provide the screen iilterfor the same tube.
  • the tube VDA obtains its grid bias from the filament battery by means of the voltage divider consisting of resstances 19 and 80.
  • will pass through the interstage transformer SIS which, being tuned to 1800 cycles, will pass most of the higher voice frequencies (1500"to 8000 cycles). It has been found that for consonants in speech a better signal-to-noise ratio is 0btained in the region of 1800 cycles and that words beginning or ending in consonants are the most susceptible to clipping.
  • the waves passed by the tuned transformer SIS are transmitted through the series condenser
  • the 70 result of operation of either of ⁇ these -relays isto remove the short circuit from the lower resistance portion of the voltage divider VD thereby increasing the voltage input to the .amplifying tube VA in the voltage amplier-detector 50 by7 ⁇ 5 about 10 decibels, and thus effectively increasing its sensitivity by that amount.
  • TheV- speech and line noise impressed on the input of the amplifying tube VA are amplified thereby and passed through the interstage transformer VIS.
  • This transformer being tuned to 1300 cycles will be particularly effective in transmitting the lower speech frequencies (800 to 1500 cycles), and in this frequency range a better signal-to-noise ratio is obtained for the vowels in speech.
  • the tuning of the circuit in this manner therefore, makes the voltage amplifier-detector 50 effectively a vowel-operated device.
  • the waves passed by interstage transformer VIS are rectified in rectifier VR, and the rectified voltages are applied across resistance 62 to the control grid-cathode circuit of the direct current amplifier tube VDA which is normally biased by the biasing circuit shown to approximately cut off. This normal bias is overcome by the opposing rectified voltage causing space current to flow in the anode-cathode circuit of the tube VDA to operatively energize the Winding of the master relay TM therein.
  • Relay TM operated will close an energizing circuit from battery 8
  • Relays 38 to 4I will then operate in the manner previously described to unblock the transmitting circuit TC for outgoing speech signals, and to simultaneously disable the receiving circuit RC so as to suppress echoes and prevent singing.
  • the combination of the vowel-operated switching detector with consonant-operated detector enabler described provides added discrimination between speech and line noise and thus improved koperation of the transmitting vodas TV especially from the standpoint of reduction in signal clipping.
  • Relay RM operated will open its left-hand contacts to disable the energizing circuit for the transmitting relay TM in the transmitting vodas 60'TV.
  • Relay RM operated also will close through its right-hand contacts anenergizing circuit foor relay 31 which will operate to disable the transmitting vogad I1, as indicated diagrammatically.
  • the hold-over times 65 of the switching relays in the transmitting vodas TV by the usual condenser-resistance hang-over circuits will be made such that on release of the transmitting vodas TV with cessationin the supply of controlling voice currents, 7.0 the relays 38 to 4I will be maintained operated for sufficient hang-over intervals to prevent loss of 'any part of the outgoing signal transmission and to suppress all echoes of that transmission ini the receiving circuit RC.
  • the hold-over times of the switching relays of the receiving vodas RV will be made such that these relays will remain operated after cessation in received speech signals for sucient hang-over time intervals to prevent false operation of the transmitting vodas TV or false adjustment of the gain of the vogad I1 by echoes of the received speech signals.
  • a removable (6 decibels) loss pad 33 normally disconnected from the receiving vodas RV will be connected in that circuit by operation of a relay 82 from the sleeve circuits of the toll switchboard 2 when the terminal is connected to la long toll telephone lineA to form a va circuit to provide a suitable reduction of the sensitivity of the receiving amplifier-detector I4 required in the case of such a connection. Also, the required inverse adjustment of the level of the pilot current from the source I9 for this condition is provided by causing the operation of the relay 84 from the sleeve circuits of toll switchboard 2 to effectively remove the loss pad 34 vof 1.5 decibels normally connected in the output of oscillator I9.
  • the SOOO-cycle pilot current from the source I9 first passes throughthe loss pad 83 having a semipermanent adjustment so as to make the output from the source I9 of the proper initial level, and then through the ladder potentiometer I2, which, as pointed out above, takes cognizance of the setting of the sensitivity of the receiving vodas RV, and is introduced into the receiving circuit RC through the circuit dividing pad I5.
  • the SOOO-cycle pilot tone and any received speech signals which may be present in the receiving circuit RC then pass through the vario-repeater 18.
  • the vario-repeater 18 consists essentially of the repeating coil 85 having its primary winding terminated ina resistance, operating as an input transformer, the pentode amplifying vacuum tube ⁇ RL and the output transformer 86 therefor having its primary winding terminated in the resistance 81.
  • 'Ihe screen grid of the tube RL receives its voltage from a voltage divider made Iup of the resistances 88 and 89 and filter condenser I3I.
  • the control grid bias for the tube RL is supplied by the voltage drop across resistance 90.
  • the direct current voltage controlling the amplifier gain is fed to the control grid through the filter TF made up of retard coil 9
  • the voice signal and pilot tone output of the amplifying tube RL pass from output transformer 86 through dividing network 43 to the voice frequency amplifier 25 and are amplified therein.
  • the voice current only passes from the dividing network 43 through low-pass filter 44 to the monitoring circuit.
  • the output currents from the voice frequency amplifier 25 separate, the voice 4frequency output going through the low-pass lter 26 and loss pad 32 to hybrid coil H, thence through switchboard 2 to the west subscriber.
  • the SOOO-cycle tone is transmitted through bypass circuit2 ⁇ 4 ⁇ connecting the receiving circuit RC to the transmitting circuit TC, which is tuned by condensers- 86 and 98 .and transformer 91 to transmit -the 6000-cycle tone but to provide a high loss to transmission in the voice band.
  • a portion of the 6000-cycle tone is transmitted through the circuit 24 to the transmitting circuit TC of the terminal, and another portion is impressed by the transformer 97 tuned by condensers 93 and 96 to 6000 cycles on the control grid-cathode circuit of the pentode amplifying vacuum tube RA forming the amplifier portion of amplifier-detector 20.
  • the 6000-cycle tone is amplified by the tube RA and appears across the interstage transformer RIS which is tuned by condensers S9 and
  • the 6000-cycle tone passing interstage transformer RIS is applied to the plate of one diode portion RD of the vacuum tube IOI, operating as the detector portion of ampliiier-detector 20, through adjustable series resistance
  • the portion of the 6000-cycle pilot current ntroduced into the transmitting circuit TC through by-pass circuit 24 is prevented from passing thereover to the left by the low-pass lter 22, the pass range of which does not include the frequency 6000 cycles.
  • the 6000-cycle pilot current therefore, is transmitted to the right through loss pads 3
  • the low-pass :Iilter I3 prevents the 6000-cycle pilot current in the output of the vogad from passing to the right over the circuit TC.
  • the pilot current is impressed by input transformer
  • the 6000- cycle tone passing interstage transformer TIS is then applied to the plate ⁇ of the other diode portion TD of the vacuum tube IBI, forming the detector portion of ,amplifier-detector 2
  • the rectified direct current output of the diode 'ID of detector tube IBI also appears across load resistance
  • Each of the diode plates of the detector tube it is biased negatively about 20 volts by the Voltage drop produced in the ,associated elements by current from battery Ici so that no rectied output appears from either diode RD or TD until the alternating current voltage applied to the diode is slightly greater than 20 volts peak.
  • This bias is ltered by retard coil
  • the plate supply of the tube RA is filtered by retard coil
  • Condenser II3 tunes transformer
  • is controlled by changing the amount of cathode feedback in the .ampliiier tubes RA and TA, respectively, which is determined by the size of the resistance shunted from the cathode to ground.
  • give five different sensitivities in 5decibelsteps over a range of 20 decibels, as determined by the armature positions of relays M, G, I-I and L, the first two of which are operated from the technical operators position .and the latter two by the key 49 controlling the sensitivity of the transmitting vodas TV.
  • 28 give seven different sensitivities ranging from 0 to 2l decibels, as determined by the armature 4positions of the relays V, NS, G and M, controlled from switchboard 2.
  • 30 prevent the cathode current of tubes TA and RA from flowing through the control resistances.
  • , respectively, is such that the ampliiier-detector having the greatest output exercises sole control over the control grid bias and thus the gain of the variable-gain amplifier tube RL, this control being of an amount and in a direction to change the normal gain of the tube RL to ⁇ a large loss.
  • the control is made very sharp, that is, at the critical input level to one of the amplifier-detectors, a
  • are connected to points in the pilot current path beyond the output of the variable-gain amplifier RL.
  • the Vlevel of the 6000-cycle tone at that amplier-detector is held constant for a given detector sensitivity.
  • the result of this is to prevent echo operation of the transmitting amplier-detector Il) in the transmitting vodas TV, echo operation of the gain increaser control of the vogad II, and any operation of an echo suppressor on a toll circuit connected to the terminal through switchboard 2, by radio received speech or noise too weak to operate the receiving amplier-detector I4 of the receiving vodas RV.
  • the technical operator might decrease tne sensitivity of the amplifier-detector I4 of the receiving vodas RV by shifting the position of the movable contact of the ladder type potentiometer I2 to the left. This would raise the level of the pilot current from the source I9 passing through the vario-repeater I8 and reaching the input of amplifier-detector 20 or 2
  • the relay L operates inserting a -decibel pad between the transmitting circuit TC and the transmitting vodas amplier-detector ID.
  • the operation of relay L of key control 49 also changes the cathode resistor of the amplifier tube TA of the amplier-detector 2
  • operation of the H key of the keying control 49 gives higher than normal sensitivity of the amplifier-detector 2
  • a control circuit for a two-way signal transmission system including a four-wire circuit having at a terminal an outgoing signal transmitting path and an incoming signal transmitting path, comprising signal-controlled switching apparatus for directionally controlling signal transmission in said system while suppressing echoes and preventing singing, an automatic device in said outgoing path for controlling outgoing signalv volume, and .means for automatically adjusting the loss or gain of said incoming path so that it delivers the largest received signal volume consistent with maintaining echo margin to prevent false operation of said signal-controlled switching apparatus and said automatic volume control device in said outgoing path, in response to transmission in said incoming path, comprising a variable loss device in said incoming path, means for transmitting a pilot current lrst through said variable loss device, and then through said automatic volume control device in said outgoing path, and means automatically responsive to the pilot current output of the one of said devices having the largest output to suitably adjust the loss value of said variable loss device.
  • a control circuit for a two-Way telephone signaling system including at a terminal thereof a signal transmitting path and a signal receiving path, comprising signal-controlled switching apparatus for directionally controlling signal transmission in said paths While suppressing echoes and preventing singing, an automatic device for controlling outgoing signal volume in said transmitting path, received signal volume control means including a variable loss device in said receiving path, means for transmitting a pilot current first through said variable loss device and then through said automatic volume control device in said transmitting path, and means automatically responsive to the pilot current output of the one of said devices having the largest output to adjust the loss value of said variable loss device so that said receiving path delivers the largest signal volume consistent with maintaining echo margin against false operation of said switching apparatus and said automatic volume control device in said transmitting path, by echoes of transmission in said receiving path.
  • said system includes a two-way telephone circuit with an associated echo suppressor, connected to said terminal of said four-wire circuit
  • said signalcontrolled switching apparatus includes a portion controlled from said outgoing path for conditioning said terminal for transmitting signals only, and a second portion controlled from said incoming path for conditioning the terminal for receiving signals only, and the adjustment of the loss or gain of said incoming path by said automatic means is such as to prevent any operation of the echo suppressor associated with the connected telephone circuit by sign-als or noise Waves transmitted over said incoming path, which are too weak to operate said second portion of said switching apparatus.
  • a control circuit for a two-way signal transmission system including at a terminal thereof f put of the one of said devices having the greater output to adjust the loss device so that said receiving path delivers the maximum signal volume consistent with maintaining echo margin t0 prevent false operation of said switching apparatus by signal echoes.
  • a control circuit for a two-way signaling system comprising at a terminal thereof signal transmitting and receiving circuits, one waveoperated switching device connected to the transmitting circuit, responsive to outgoing signals to condition the terminal for transmitting only, a second wave-operated switching device connected to the receiving circuit and responsive to received signals therein, in the absence of prior outgoing signals in the transmitting circuit, to disable said one switching device, a vogad in said transmitting circuit in front of the point of connection of said one switching device thereto, a variable loss device in said receiving circuit beyond the point of connection of said second switching device thereto, means to apply control tone of a frequency outside the signal frequency range to said receiving circuit in front of said variable loss device, means to select said tone in the output of said variable loss device, and to apply the selected tone to said transmitting circuit in front and in a direction such that said receiving circuit delivers the greatest signal volume consistent with maintaining echo margin to prevent false operation of said one switching device and of said vogad by signal echoes and noise in said system.
  • control circuit of claim 5 in which the sensitivity oi said one switching device is made such that it will operate in response to substantially all transmitted signal amplitudes, the sensitivity of said second switching device is set as high as possible consistent with preventing its false operation by noise or static incoming in said receiving circuit, and the level of the control tone applied to said receiving circuit is reduced in proportion to the increase in sensitivity of said second switching device, so that for a given setting of sensitivity of the said second switching device, the adjustment of said variable loss device is such as to maintain the control tone at constant level in the output of said variable loss device or in the output of said vogad depending on which controls the adjustment.l
  • variable loss device comprises a variable gain amplifying vacuum tube having a control grid circuit including a resistance, and the outputs of both of said amplifier-detectors being connected across said resistance so that the maximum voltage drop therein in response to the detected outputs determines the gain setting of said tube.
  • control circuit of claim 5 in which the last-mentioned means comprises two wave detectors tuned to the frequency of said control tone having their inputs respectively connected to said receiving circuit in the output of said variable loss device, and to said transmitting circuit in the output of said vogad, and their outputs connected to said variable loss device in such manner that the stronger has sole control of its adjustment.
  • said signal system is a telephone system
  • said one switching device comprises a voltage operated transmitting circuit, but will be operated in response to applied speech waves to condition the terminal for transmitting only, said syllabic type amplifier-detector being unresponsive to applied noise but beingoperatively responsive to speech waves received from said transmitting circuit to increase the sensitivity of said voltage-operated amplifier-detector, said syllabic ampliiierdetector being tuned to be more selective to the consonants than to vowels in the applied speech waves, and said voltage-operated amplifier-detector being tuned to be more selective to vowels than to consonants in the applied speech waves, whereby improved operation of said one switching device from the standpoint of reduction in signal clipping is attained.
  • a voice-operated switching device comprising a voltage amplifier-detector and a syllabic amplier-detector supplied from said circuit through a common input circuit, and means normally reducing the sensitivity of said voltage amplifier-detector so that it is unresponsive to applied noise Waves of normal amplitude level, said syllabic amplifier-detector being unresponsive to applied noise waves but responsive to the syllabic frequencies of applied speech waves to increase the sensitivity of said voltage amplierdetector so that it will operate quickly in response to applied speech waves, said voltage amplierdetector being tuned to be more selective to the vowels than to the consonants in the applied speech waves, and said syllabic amplifier-detector' being tuned to be more selective to the consonants than to the vowels in applied speech waves whereby improved operation of said voice-operated switching device is obtained.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Amplifiers (AREA)
  • Cable Transmission Systems, Equalization Of Radio And Reduction Of Echo (AREA)
US297832A 1939-10-04 1939-10-04 Control of transmission in two-way signaling systems Expired - Lifetime US2224569A (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
BE475750D BE475750A (en, 2012) 1939-10-04
NL70924D NL70924C (en, 2012) 1939-10-04
US297832A US2224569A (en) 1939-10-04 1939-10-04 Control of transmission in two-way signaling systems
FR949301D FR949301A (fr) 1939-10-04 1947-07-10 Contrôle de la transmission dans les systèmes de signalisation à deux directions
GB19261/47A GB628348A (en) 1939-10-04 1947-07-18 Improvements in or relating to control circuits for signal transmission systems

Applications Claiming Priority (1)

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US297832A US2224569A (en) 1939-10-04 1939-10-04 Control of transmission in two-way signaling systems

Publications (1)

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US2224569A true US2224569A (en) 1940-12-10

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US297832A Expired - Lifetime US2224569A (en) 1939-10-04 1939-10-04 Control of transmission in two-way signaling systems

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US (1) US2224569A (en, 2012)
BE (1) BE475750A (en, 2012)
FR (1) FR949301A (en, 2012)
GB (1) GB628348A (en, 2012)
NL (1) NL70924C (en, 2012)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2632052A (en) * 1950-11-02 1953-03-17 Bell Telephone Labor Inc Transmission control in two-way signaling system
US2876281A (en) * 1949-10-11 1959-03-03 Nederlanden Staat Communication system channel terminating apparatus
US3306982A (en) * 1962-03-30 1967-02-28 Ericsson Telefon Ab L M Level control device
US5471527A (en) * 1993-12-02 1995-11-28 Dsc Communications Corporation Voice enhancement system and method
CN118555373A (zh) * 2024-07-29 2024-08-27 广东柔乐电器有限公司 二线低功耗可视对讲门禁系统

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2876281A (en) * 1949-10-11 1959-03-03 Nederlanden Staat Communication system channel terminating apparatus
US2632052A (en) * 1950-11-02 1953-03-17 Bell Telephone Labor Inc Transmission control in two-way signaling system
US3306982A (en) * 1962-03-30 1967-02-28 Ericsson Telefon Ab L M Level control device
US5471527A (en) * 1993-12-02 1995-11-28 Dsc Communications Corporation Voice enhancement system and method
CN118555373A (zh) * 2024-07-29 2024-08-27 广东柔乐电器有限公司 二线低功耗可视对讲门禁系统

Also Published As

Publication number Publication date
FR949301A (fr) 1949-08-26
NL70924C (en, 2012)
GB628348A (en) 1949-08-26
BE475750A (en, 2012)

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