BE470231A - - Google Patents

Description

       

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  Telephone system.



   This invention relates to transmission circuits and more particularly relates to transmission circuits provided with an amplifier and control circuits operated by the signals. The invention is particularly applicable to circuits in which two one-way transmission paths are suitable to be associated with a two-way transmission path as are employed, for example, in high-speed telephone systems. speaker.



   Heretofore, subscriber station circuits in loudspeaker telephone systems have been provided with a hybrid system or antilocal impedance networks to prevent signal currents generated during operation of the transmitter. are transmitted to the receiver and in the same way to prevent signal currents entering through the connection line of the station

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 subscriber are transmitted to and reproduced therein.



  In such an arrangement one of the factors which determine the effectiveness of sidetone suppression is the impedance of the speech circuit formed by means of two subscriber lines connected together. Since the impedance is not the same for any different soft communications,
 EMI2.1
 the S.Y> 3tL9 hybrid of each subscriber station is usually balanced to provide l) J! n? 'f7C3.cLt:

   ma;: ima. deletion of the local effect for characteristics -the line Yj '0 T' ÎÎ- '' 8jl., ': 3: ¯: J} J13tallat¯'O'D C it is necessary rj.'8r' = Jîier 2.:';3 CO'11 "n.ts of incoming and outgoing signals, CrVY1 (',,., For example, in loudspeaker command gates, the imbalance conditions d2 introduced -: t. (::; n3 the circuit of the subscriber station by the line impedances by l..8sqclles 1.n18 C (1rīrF1¯ctOJ1 is established may become inadmissible) What is true in
 EMI2.2
 In particular in the subscriber installations that exist in a 002 network the subscriber lines have very different lengths' For the purpose of preventing or reducing to the h:

   iYl ÍnJ.uII1 the whistle that comes from the. subscriber station circuit imbalance) signal controlled switching means can be inserted into the subscriber station circuit to selectively block the channels when they are not in use.

   However, in some arrangements the signal paths are completely blocked when they are not in use, in other arrangements the signal path which is not in service is partially rendered inactive.

   Devices of this type, in which the channels are not only partially blocked when they are / are not in use, have the advantage of allowing interruptions in conversations. Usually the telephone circuits of the post office which has channel amplifiers are so arranged that their operation always necessitates the use of such amplifiers.

   Since this does not guarantee

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 Still the desired secrecy for telephone communications, an arrangement had been provided whereby either a loudspeaker type communication or a regular telephone type communication could be achieved. Such an arrangement requires means by which one can quickly switch between the two types of conversation without appreciable interruption: In order to minimize the amputation of the conversation, the amplification channels were provided with control circuits arranged for be excessively quick in their action.

   In order to achieve such a rapid action it was found necessary to reduce the delay time in the appropriate circuit equipment which however made the equipment more sensitive to the feedback between the control circuits and the control amplifiers. way. The advantage of a relatively fast acting control circuit which would minimize the amputation of the conversation and at the same time possess the advantages of the elimination of the reaction between the different parts of the The apparatus has been made possible by certain circuit arrangements and by the use of various types of valves.



   One of the objects of the present invention is to provide arrangements by which the gain of an amplifier is controlled in a perfect manner in response to signal currents.



   Another object of the invention is to provide arrangements for controlling the amplifiers in an incoming and outgoing channel, in an improved manner.



   In connection with a feature of the invention, in a transmission circuit provided. signal-operated amplifier and control circuits, in the absence of signal currents the amplifier is self-biased to have minimal gain and on reception of signal currents the control circuit is arranged to generate a polarization proportional to the signal currents which is applied so as to increase immediately

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 and strongly the gain of the amplifier while subsequently the bias applied to the amplifier is stabilized.
 EMI4.1
 12 entered a value yes- 1 Ln n .--,

  ic-au con & .- set a value which keeps ':': 2ln level suitably> 1-em.ent high.



  Ln report with another characteristic of .L'invention. in a transmission circuit provided with a to:. = mJ..i.X lcul <. # i: .. and operated control circuits] iJ3. 1-3 signals, a C -'- IQCIJ.i. +, E f% 'i' <7 îj l g. > y¯.j; çt; j, y .t, <, j> ù du '"air is inserted -n.tre .es at cj¯ rc j = ¯ 1 .t of input and output of w 1. 'ia <; i ". l Ù. : i 'J. c:

   a ': .. = u = j Li is nor!'. alert gn.fo-'pola.risé to have minimal gain and the control circuit is .1 'f,? - o3i e2-i = - éi?,; n.se ès cli.i- control is arranged so generate in. response of the signal currents a proportional polarization these COl1.- currents (the signals 1: 1J5 is applied so as to immediately and strongly increase the gain of the amplifier t, an: 5,1.st = j1 =, e =,> z> following this second polarization, is replaced by a "'() lS.I-tsation' con.sta11te which r'2: tnt =, and the e g x. 5 has a level con- "'1-'r-) l -" .- (o "l," ", + J ... lc .--;

   and, c5- = cis-.l c.:1 "" - ,,,. 1-1Alr āv¯ta #; g¯.r.4¯g;,> e venably high automatic control circuit r, * = ī = 1 is er'oeché to have,: ¯e. the effect: Jl.13'1n'al) #; # where..ent, od le s: 1- ê "j" lc \ 'l C1J.tr8nt has reached a predetermined level. in relation to another characteristic of 1- "D.'veil, 131i.0l1., in a transmission circuit which comprises two one-way transmission paths suitable to be associated with a two-way transmission path and provided with voice control,

   in the absence of currents you
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 lime the two one-way paths are self-polarized to have a ;; ::, e5n minimal and en, enonse la. reception of voice currents by a channel the associated control circuit is arranged so as to generate a polarization proportional to the
 EMI4.3
 voice currents which is applied in a way e.ufl7ll-e # l ± ".r immediately and strongly the gain of this channel while thereafter this second polarization is stabilized a value
 EMI4.4
 This keeps the c-ain at a suitably high level and the gain of the other channel is reduced so,

   that this path is blocked for vocal currents *

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The invention will be better understood from the following description which relates to the accompanying drawings, in which 1 @ ures 1 to 4 inclusive explain the circuit of the subscriber station in which some of the characteristics of the invention are incorporated such as: it is described above in summary '.



   Referring more particularly to Figure 1 of the drawings we see there a subscriber telephone set comprising an ICI transmitter, receiver 102, receiver (hook) switch 103, induction coils 108, 109 and 111 , and an isolation or coupling capacitor 112. The station may have a switch disk 113 and also a bell 122 and a bell capacitor 124. These parts are the conventional elements commonly found in a subscriber telephone set. The typical station is arranged for optional use with a loudspeaker command device.

   The choice of one or the other kind of communication, which will be understood later, is effected in part by the switch 125 which being operated makes the operation of the loudspeaker equipment possible. The loudspeaker equipment contains a microphone 133 and a loudspeaker 134.



   Telephone transmitter 101, receiver 102, induction coils 108, 109 and 111, pager 113, and receiver switch 103 are interconnected to form an extension circuit. subscriber of the well-known anti-local type. This circuit comprises the line conductors IIO and 120 between which the three inductively coupled windings 108, 109 and 111 are connected in series in a branch circuit. This branch circuit also contains an isolation capacitor 112 connected between the two windings 108 and III, this capacitor having the role of preventing the excitation of the receiver by the direct current which runs through the conductors 110 and 120 when the station is switched on. employee.

   The part of the branch circuit which contains the two windings 109 and 111 and the capacitor 112 is shunted by the emitter 101, and the receiver 102 is connected between the junction point of the

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 two windings 109 and 111 and the line 120 through the contacts Ill É and 105 of the switch of the receiver 103.

     Since the capacitor 112 is connected between the two windings 108 and 111, it is protected against high voltages which may occur on the line. It includes the conductors 110 and 120, which voltage peaks could result in the breakthrough of the line. insulation of the capacitor.



     In order to give an audible indication of incoming calls to the station, a signaling device has been provided.
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 in the form of a bell 122 which is normally connected to be actuated by a working circuit which encloses the line conductor 110, the capacitor 124, the contacts
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 114 and 115 of the calling device 113. and the contacts 181 and 132 of the switch 125 which are connected 3.; 1 second line conductor 120.

   The induction coil 102, one end of which is connected to the common point of the emitter 101 and the condenser.
 EMI6.4
 sator 112, is connected by the other end to the working contact 128 of the switch 125 and also b. a resistor 123 which is connected to the contact 116 of the call device -13. The goal of contact 12S of switch 125 and the goal of resistor 123 will become cor:, r 2îe ^ S:! Lî! eS thereafter.



  The call device 113 is provided with a tra-
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 vail 116 which is associated with the contact 115 which, it will be remembered, is connected to the capacitor 124. The support device
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 -eJ, moreover, has two working contacts 1-7 and US yes are connected between the line conductor 120 and the common point of the resistor 123 of the gas induction coil and the nail working contact 12S. -2c switch.

   Following the activation of the call device: 1 :: L3 an area of switch contacts II9 and 121 s' üLJ.vreJ1t? Oi. ''. R generate these pulses, contacts are connected 811 :: ; (-; 1113.1'81 '.Les u: pu] .s ".ons CI.' A :: Jpē. 'E & contacts'" "the C) u'L'2C v8b between contact 118 of the switch, which is connected to the point
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 common of the bzz resistance of the induction coil 1C /: 3, and of the c, ontact 123 of the switch, and the second conductor of
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 line 110.

   When the disc or call device 113 esp

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 actuated bell 122 is isolated from the conductors 110 and 120 which form the telephone line, and the capacitor 124 is connected through the resistor 123 so as to lie in parallel with the switch contacts 119 and 121, and thereby of prevent or minimize the transient phenomena generated by the closing and opening of contacts 119 and 121. The calling device 113 is arranged to become active when the hook or the switch of the receiver 103 has been operated to the position drawn , whereby the contacts 104 and 105 have been closed so as to close the circuit of the contacts 119, 121 of the calling device through the induction coil 108 and the transmitter IOI to the contact 104.



  At the same time that the contacts 104 and 105 close, the contacts 106 and 107 are also closed so as to prepare a circuit which is arranged to render inactive by its operation the hybrid system connected to the telephone lines 110 and 120 if the station to speaker is in action. The operation of this circuit will become clear later in the description which follows. The contacts 106 and 107 of the hook switch 103 are connected to the make contacts 126 and 127 of the switch 125, the last contact being connected to the conductor 140 which in turn is connected so as to control a relay which will perform the mentioned action.



   The call device or the mechanism of the disc 113 is also arranged to have its effect after the operation of the switch 125 which will close the working contacts 128 and 129, the latter contact being connected to the conductor 130 which is connected to a hybrid system. which is interposed between the line conductors 110 and 120, and the two channels connected to the microphone 133 and to the loudspeaker by their 134. After the operation of the switch 125, the rest contacts 131 and 132 are opened so as to isolate ringer 122 from line conductors
110 and 120.



   Microphone 133 is connected to a pair of conductors
150 and 160 which in turn are connected to the primary winding

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 mayor of a transformer 145. The resistors. 135 and 136 are bridged on the conductors 150 and 160, and their point
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 middle is related to the ± + 1 ..: .. <. through a device .ie s-'p'na-- lisation or through a lamp 137. At the other end of the c Q? 1 .3. '#. C '"j' '' ù. The 150 and 150 3 1 '"? Ô,:? "lS, ifl¯ f. c L É ± '. 2iJ¯ l>' É ± '. i' É, esl," 1 '± 135 and 13l', whose point mif - 1;:;, 1 e = t r81ié aūx contact ':; the work 141 and 142 of a relay> = there. Contact 142 is connected to conductor 100 which, in turn, is connected to a suitable voltage day.

   The relay 143, which is shunted by a capacitor 1 \ ;; 4, is connected between the conductors 2.20 eb 170. The conductor 220 is connected to the output circuit of the amplifier of the outgoing channel and to the hybrid system. , and the purpose of this provision will be understood later. Conductor 170 is connected to a suitable voltage source.



     If we now refer to Figures 1 and 2, we will see that the secondary winding of the transformer of the microphone 145 is connected to the conductors 190 and 200 which are connected to the '' themselves terminals of the coupling resistor.
 EMI8.2
 inlet ± 1l3 connected to the grid of an empty tube 201.

   The ni- cr0pjo11e 133 is thus coupled with an outgoing channel amplifier which contains a control tube and 1.cs vacuum tubes triodes 201, 20Lm 203 204 and 205. The anode of 1.- .t.¯ .. .:., 201 is connected to the primary winding of a 2-LF transformer.



  The secondary winding of .i = <., Ans foina - "at e igT> 21- is shunted by a resistance of couples i îz including a terminal 8 ::, t connected to the, + 1 1 1 cd;; -, , i; i vacuum 202. eg, the vacuum tube 2 02; is coupled to the vacuum tube 203 by means of a transformer LT 3 and a coupled resistor e 2 1 '± and the like. -; -;

   . --- -, z,> a - tube 203 is coupled to.through the transformer 215 and the resistor.,:, the c cv: pî ±., gc LIS au, empty outlet bube 204. a The primary winding terminal of each of the transformers 211, 213 and 215 is connected to conductor 170 which provides a suitable anode potential. The anode of the vacuum tube 20-1 is connected to the conductor 210, which in turn is

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 connected to a hybrid system 401 shown in Figure 4, and which is also connected to conductor 220.

   Conductor 220 is also connected to relay 143, and between. Conductors 210 and
220 is input a shock coil-217, a potentiometric resistor 218, and a second potentiometric resistor 219. A moving contact of the potentiometric resistor 219 is connected through a capacitor 221, a limiting resistor 222. the current, and a dry or contact rectifier 223, to a resistor 225 which is connected to earth while being shunted by a capacitor 224.

   The common point of the dry rectifier 223 of the capacitor 224 'and of the resistor 225 is connected to the resistors 226 and 228, which together with the capacitors 227 and 229 form a delay circuit which is connected to the gate circuit of the tube. input vacuum 201. The capacitors 227 and 229 are connected between the earth and the opposite terminals of the resistance 228.



   The movable contact on resistor 219 takes a certain portion of the output voltage of vacuum tube 204, which is flowing through dry rectifier 223, to thereby generate across resistor 225 and capacitor 224 a certain value. DC voltage, which is a function of the current of the signals being transmitted and which is used to provide an automatic gain control voltage to the input tube 201. How this arrangement works will be more readily understood from the description. other elements of the circuit and a further explanation will be given in connection with a description of the operation of the system.

   The grid return of the vacuum tube 202 comprises a resistor 231, shunted to ground by a capacitor 232, and a conductor 230 which is connected to a circuit which will be described later. The vacuum tube gate return circuit 203 includes a resistor 233 connected to ground, and a connection to the contact 261 of a relay 286.



  The secondary winding of transformer 215 and coupling resistor 216 of vacuum tube 204 are directly connected.

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 f: nt l tGrF.



  : T: t "1E 'part Íle: 1" :, t01' ":.: J-On enpendr'e: 17f; boundrs of 2 -; ::. R '" - distance e 2 Z'; = 1 .t. () -, I-7¯ '-': 'i'E: tr:, v - :: T-3 the capacitor -.-. 34 l: trj¯1J.e' J: ili ": '\ )) 2 \ read 205 \ lJ pst: rn'J¯ ';, r;' TH =: ('- \ S5¯, task of CO \ J'ÎJ.: - 3.s of # i'ZC 233 st which 2. a home, ^ rls ^ F 1 ', ..;' ¯ re. The anode of tube 2 \ T (1st SC) 5 is connected to a capacitor; which is connected to the supply conductor I70, of the tension ci 'Zr71oc1e.



  Relay 237 is only one; ¯ of cont2cts: t, S, iI:;: 5J.- 2 / <. LÉ f.:-I .. -.4,. Connected on one side to conductor 17C and on the other to 2. a slow release relay 241 which in turn is connected to a conductor 280 cu is connected to the lower potential side of a 5th voltage source. The relay: Yl3 is not equipped with working contacts S33 pt 2'l "= connected to conductors 300 and ln?" 1 jui they are connected to a circuit qjj-i ser? described: - '} 1J, S away. Relay 2 <3 is ïfl1ïni 11 'UYl capacitor 244 connects between conductor' 280 and psr the rest contacts :: Y6 and 241 and.; 2r a resistor limiting the current 239, to conductor I'7C which is 1? Els.é to the positive terminal of the source to. high tension.

   The contact 246 is arranged so as to. close contact 247 to bypass relay 243 and give it
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 well and increase its. characteristic, delayed release.
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  The slow release relay 243 is also provided with make contacts 248 and 2'-i9 which are arranged to turn off the amplifier of the incoming channel.



  L 'er,: ilifj, c2teur of the incoming channel is excited by a potentiometer 265 bridged on the incoming conductors 290 and 300 which are connected to the hybrid system 401 of 1 .'-; f-tEürc; 4. The entry E '; ; - ;. 1 vacuum tube Po 2C \ is connected 211 potentiometer 265 and the anode of vacuum tube 206 is connected. the winding; r.e ".t 1, r <oy> <, this of a trrms ± ror'r; *, tev.1 = 266, of which the sec0n-
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 EMI10.5
 daire is shunted by a resistor 267 and connected between the earth and the grid of an output vacuum tube 207.

   The anode of the empty tube 207 is connected, the conductor 130 to. a transformer for loudspeaker 146 which by its enryu-

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 The secondary element energizes the loudspeaker 134. Between the anode conductors 180 of the vacuum tube 207 and the anode voltage conductor 170 are connected the potentiometers 268 and 269. The moving contact on the potentiometer 268 is connected. connected through a coupling capacitor 271, a resistor which limits the current 272, and a dry rectifier 273 to a resistance-capacitor circuit which includes a capacitor 274 shunted by a resistor 275.

   Part of the voltage of the signals which exists at the terminals of the potentiometer 268 is thus rectified by the dry rectifier 273 and generates at the terminals of the resistance-capacitor circuit 274,275 a direct voltage proportional to the current of the signals which passes through the amplifier. This voltage is applied to. one terminal, from the gate coupling potentiometer 265 of the vacuum tube 206 through a resistor-capacitor filter circuit including resistors 276 and 278 and capacitors 277 and 279. Capacitors 277 and 279 are connected. between earth and opposite terminals of resistor 278.

   The common point of dry rectifier 273, resistor 275 and capacitor 274 is connected to contact 248 of slow release relay 243, for a purpose which will be understood in the following. The other terminal of resistor 275 is connected to contact 295 of a slow release relay 286 and also to a conductor 350 which leads to the voltage source shown in Figure 3 '
A portion of the output voltage which is generated across the potentiometer 269 is connected through a coupling capacitor 297 to the gate of the control tube 203 which is provided with a gate coupling resistor 296 connected between the gate. and the earth.

   The anode of the control tube 208 is connected to a capacitor connected to earth 232 and to a relay 283 which is energized by the high voltage conductor 170. this conductor is also connected to the contact 283, of the relay 233, which is arranged for close contact with contact 285. Contact 285 is connected to relay 286 which in turn is connected to conductor 240 which is connected to the negative pole of the high voltage source.

   A condensate

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 their 291, connects "- through l (c" -3 rest contacts 2.- 'and 1., ¯, J Cl1l1 "' '.. :::, J-; 3 5 2 ù'l (-; 11 otT-il :.:. \ ïC c 1 i'm r'Jistsnc'2 J: '(. t :: -: Tlt b C (': ¯lC = l.llt '01, ê3t connected 1 fl ": fz? '? - e conductors 170 and = = 1 = î;. - 1 2: -3 is arranged, r,.; - i,, ^ r, l. r =, t.; -. \ 1 work ,% '.' i ', the contact ± /] "? thus connecting 1 1, r; () I'; -. iS: 't {J'.11' 2 5 1 in .'7? .S. îi-, Sil "; - ', = ¯, ..¯ 1.,.; .-", f ();) :: "- i - ;. ¯3sa-t: ¯"' <ns "i. C: 2 Y> 212.L '2t:' 1lTt2'1t {.J. "R :, l.:.,.," ::. C ': -, 3 +, -iJ' lp,; r : J¯e; '; / Ji.' ;, ', -1. 2Tl'J.? 1' "'2 l: - =,:;' .. C" .. J? '. C:} -r'¯ ':, -.' î--. \ -, t:.:; 0 es - :, n "¯l. ::> 1" tl.R 'li, ,, ",' - ' i -) - 1 ',' 0.: *, se tT - ':. \ 1 :: 5.

   J: jC '; ";!,;. <: R -: =: t.: ..: =,' <J, c;: 2". '? "" <' '7' c "':' 1t: -. R; t ét.8", -, t .onï 6 1. ":. trrtp çJ; = 1 u 1; 1., z; ; n¯ <n Zi ll. '!. <. h' ': '52 which in turn is related to 1 Cof ..'. ¯C rl 7 - i, et-, ¯ 240. -;:, L ¯ ¯, C -. = Μ.t is connects t1'tî C 1.GUCLP1.1n 10 t.?.1 S '1 "'") :) '0 -,;: - 0' 'JCi' le power supply circuit IL '1 J.JUf "I' ': \.' 1 figure 3.

   The relay c. : C'e Ï; ',VS. 'ei' e t7T, slow 2ià) (). 3S'I-t a contact 2'jl connects - ',' 1. Vacuum tube input circuit 203, This connection 261 is arranged 1'Olï-Y 'open the contact with the 2ë0 contact which is connected to the earth, and for proudi'fl = i?' the contact with the contact 262 is connected to the cn1r18n- sator 253 which is connected to the earth at the other end) and with a resistor 256 which in turn is re-read, to a contact 1 "" nllile of the potentiometer 2ë5 and it a capacitor 257 which is 2-elî --- '2::! .. s 1; <= ir.> J? e a, lltre extJ ") orl1it6. T, hl:' otel1t: tOE) 0 - being 254 carries a moving contact connected 2 through a resistor 252 to the working contact 249 of the reset relay! ": 1811t slow 243. - Suitable filter capacitors 251 and L53 are connected between the earth and the opposite terminals of resistance 252.

   The potentiometers 254 and 255 are each connected between earth and a conductor 250 which is connected to the negative terminal of a source of COU2.; O: t COTltinu at low voltage.
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  'We will now refer to Figures 3 and 4, which
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 show the incoming line circuit and power source
 EMI12.4
 rant which supplies the gate, anode and wire voltages
 EMI12.5
 ment for the different tubes. The telephone 11gB 120 is connected to the hybrid system 401 which is preferably formed of two transformers 402 and 403 which each have two secondary windings, ie respectively 404, 405 and 406407 '. The conductor 2Q is thus connected through the second winding
 EMI12.6
 

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 daire 406, a relay 408 shunted by a capacitor 405) and the secondary winding 404 to the rest contacts 416 and 417 of a relay 413, whose contact 416 is connected to a conductor 130.

   It will be recalled that the conductor 130 is extended to figure 1 where this conductor is connected to the working contact 129 of the switch 125. The two remaining secondary windings 405 and 407 of the transformers 402 and 403 are connected in reverse direction through an impedance or balancing resistor 427. The winding of transformer 403 is bridged across conductors 290 and 300, in order to feed potentiometer 265 which is connected to the grid of the tube. amplifier input 206 (the incoming channel.

   The conductors 290 and 300 are also connected to the working contacts 418 and 419 of the relay 413. The other winding of the transformer 402 is connected to the conductors 210 and 220 through a T network formed of the resistors 424, 425 and 426. .



   It will be recalled that the conductors 210 and 220 are connected to the output circuit of the output tube 204 of the amplifier of the outgoing channel. 3If it is assumed that the switch 125 of Fig. 1 is operated to close the contacts 128 and 129, the conductor 130 is connected to the line conductor 110 through the contacts 119 and 121 of the device of the disc 113.



  When this circuit is closed relay 408 and transformer windings 404 and 406 are bridged to line conductors 110 and 120, through which current flows to energize relay 408. The pull of relay 405 closes the contacts 411 and 412, to thereby energize relay 421 from a suitable source of ac current) as a result of four contacts 422 and 423 of that relay close, thereby providing ac power to conductors 310 and 320 which . in turn are connected to the primary windings of three power transformers 301, 302 and 303.

   The secondary winding of transformer 301 is connected to a bridge-connected rectifier 304, the output of which is connected on one side to earth and on the other side to a conductor 250. A filter coil 305 is placed.

 <Desc / Clms Page number 14>

 
 EMI14.1
 22 ".7, rG b, <j, = = i o'II, 'c, t,' :::. T ',: l, -; -' lus shp. <: ¯; r'C :: ; 2; ::, .. ';': "lU3") 'J :: c' 3- .1 of conductor 21Lô, t?: 0dis, # les lzì? 'LlilE O [:': #. 5 < ÔGS dE. This coil are; m ç] ¯ fl =] ±, g%.?. L¯: = tr # Î "tl '#, lra 3' des, j C Ond. e #. s.teurs 305 and 307. The rectifier and 1. p; .i; ' c i'i o s F. 't ± - fi. C¯ i = T: 1 1..t, ib = -.



  -e thus provide j¯, ¯? ¯, çi t, + ig s 1? n 30 Ç = 1 ei t. Àv eTll é ô.Î. continuous low zjjjj = in'üe? "jf; 1¯ <> zIfT0.S 2.oà and 55 of Ù ..%. É'.f"?. 5 "± S. and fn .-; r .r 1. sse #; f eing--, r. certain voltage of e.> / i - * =? .i 5 at- t 5-; = 1.1 '2 é - 72t: iV' -our - 7 ', & .-. 1 F- 1 Q' ??? q - j ô ....>. - no 2 of determined circuits d .. the j5. ""? Ff ±; =: t .. * i <T.5 ('1¯0 \ j :) 28.



  T j tr3fcrn; at-r C02 is j ';: 1.m: i ds two c -;) .: :) nle:' c :: .-;:,; ..- cor.d.Fires = 1 ±, 8 cf 3CE ..-: u <feed the filait and the * "<'<ei,, z>, ,, tube rectifier-cnt tctal 311. Lp cathode eov 1 bound to #L, ... j -.- vf; <] mgz n. c 1 = .. = c 1 :. it is rcl-'ee through a rcuc- .r, = nczp, =: 1 qjt, = * ¯ q. C 3 the with. With c? - conductor of e "" - T i î t <: 'f,. " "a E 1> G 1 7 1-, - ;; = j provides 1¯g anodic voltage to all the tubes of -": Ili] -FÉ. "f - '. c.teu.r and put the tubos of control- The secondary winding point el 303 which is the side at the potential
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 lower rectifier circuit is connected to the conductors
 EMI14.3
 240 and 280, the conductor 240 being connected to the slow release relay 286 and the conductor 280 being connected to the slow release relay 41. Two condensateÉ. $ E $ à'ifÙilI4 are slow release zij :.

   Two capacitors: 5 -.;:> L /: i: 30: nit connected J.i.iir opposite ends of the shock coil 2 and RU negative conductor: -.- 0.



  The filament feed trsfo # ator .03 is ,, i = iia; ¯ j¯ several 8nT01JJ.8C1P "lts econ.è.2 ':' E:, S with dot.-Place -.-! - o , I'c, .jI / .Ll and 321. L 'sl1Jo1Jlc ;; E'1ts2c (Y'1.cI8ire 3lo' jo "- sde es output terminals and ui do not provide 2.- jg ; ==, q./,i: ±jj=m du; 1 = [ij'¯ieT.t of control tube 2Co. The midpoint of t: C '-? Ds: forc'2tsur 215 is connected through a resistor 322 to the common point of the conductors 230 and 230 which in turn is connected to the earth: \ through a. capacitor 32 ... The point --place of the transformer É It. is also connected to a circuit
 EMI14.4
 filter leakage formed by the adjustable resistor 324 and the fixed resistor 325. One terminal of the fixed resistor

 <Desc / Clms Page number 15>

 325 is connected to earth and the other terminal is connected to the negative pole of the power supply. supplied by rectifier 311.

   The capacitors 326 and 327 are connected between the earth and the filter resistor to the two opposite terminals of this resistor 324. @
The output terminals of transformer 316, which are named C and D, provide power to the non-second stage vacuum tube of the outgoing channel amplifier.

   The midpoint of this secondary winding 316 is connected through a resistor 329 to a conductor 270 and an adjustable resistor 331 which in turn is connected to conductors 240 and 280 and the negative pole of the anode voltage. A capacitor 328 is connected between the midpoint of transformer 316 and ground to provide some degree of filtering.
The midpoint of transformer 317 is connected to resistor 332 which is connected to earth and is shunted by capacitor 333. The output terminals E and F of this transformer provide the power for the filament of the vacuum tubes 20I, 203 and 204 of the amplifier of the outgoing channel.



   The secondary winding 318 having the output terminals G and H supplies power to the single output tube 207 of the amplifier of the incoming channel and the midpoint of this transformer is connected to earth through the resistor 234 which in turn is shunted by a capacitor 335.



   Transformer 319 having output terminals 1. and J feeds the filament of control vacuum tube 208. The midpoint of transformer 319 is connected through resistor 336 to conductor 330 which, it will be remembered, is connected to NO contact 295 of slow release relay 286, and to the other terminal of automatic gain control resistor 275. On each side of resistor 336 are provided capacitors 337 and 338 connected to ground to the opposite end:

     The midpoint of transformer 319 is also connected through a resistor 339 in the middle of the secondary winding.

 <Desc / Clms Page number 16>

 
 EMI16.1
 clear of transformer 309 which forms the negative conductor
 EMI16.2
 of the anode voltage supply.
 EMI16.3
 



  The transformer 321 having the terminals K and L supplies the current 1, v. filament of the empty inlet tube 203 (the 1 '. :: amplifier of the incoming channel. The midpoint of the t1 "ahs'" former 321 is connected through a resistor 343 aii cbh- conductor 340 which is connected to NO contact 294 of relay 2) slow release 836. A 3 / I shuntame capacitor is
 EMI16.4
 connected between earth and the midpoint of the transformer.
 EMI16.5
 



  T ,? , ¯Lï-te bC'I'l'1.P ne I. C'J5-.S ia CC 2/2: 2 gī1 is connected to CCH1c1l1c- tor 340, is connected through an adjustable resistor 2Jtl3 to the negative terminal of the plate voltage source. The purpose and function of certain elements and circuit arrangements will become C1el: 1 :: :) in J. ' e> i;,; 1.àé; - following description of the operation of the system.

   If it is assumed that the handset yes includes the transmitter 101 and the l8.ce-, tel) T in2 is at rest on its cradle-, then the receiver switch 103 is in the open position, c1u cir- cuit., and 51 it is further assumed that one wishes to communicate by means of the telephone system e orders by il ll t-y2,! '- P Llw. switch 125 should be rnan02L1v "'J"' ê Operation of switch 125 opens contacts 131 and 132, and ,, 'jolE: thus ringing 122 for telephone lines 110 and 120.! 1.1 .. moment the contacts 128 and 129 close, thus connecting the conductor 130 through the contacts 11? and I2I du. '.: ¯ô'7.5 t¯:' of call Tri3 to the driver: the ¯: i: ï'i1e Iso .3.e so that the current -cass 1 .. through the transformer coils 404 and 406 to the hybrid system 40r oe 18 figure 4 and thus energizes the relay 403.

   The relay ..08 by its attraction closes its contacts 411 and 412, which forces the relay 421 to close its contacts 423 and 422. With an alternating current source is consequently connected to the conductors 310 and 320 and thus transform them. --Lirs l; . c 'U-'T -'0' ") and 302" -'- -, ".L, -, O 'teurs, 5' pī =: = .- en.t * ti, we 301,302 and 303 are The different transformer windings of the transformer 303 thus heat the different vacuum tubes 201 to /?

 <Desc / Clms Page number 17>

 208 inclusive and thus make the loudspeaker command apparatus ready for use.

   The anode of the output vacuum tube 204 of the outgoing channel is connected through the conductor 210, the hybrid transformer 402, the conductor 220, the relay 143,1 and the conductor 170 to the high voltage terminal of the plate feed which is provided by the straightening tube 311 of figure 3. As soon as the tubes have reached their working temperature} an anode current will be generated which will energize the relay 143 which closes its contacts 141 and 142.

   Closing contacts 141 and 142 closes a circuit through conductor 100 which is connected to the positive terminal of the low voltage direct current source supplied by transformer 301 and bridge rectifier 304, so that current flows. in a phantom simplex circuit on the conductors of the microphone 150 and 160. This current thus enters the common point of the resistors 138 and 139, flows on the microphone conductors 150 and 160 and leaves the circuit at the common point of the resistors 135 and 136 to energize lamp or signaling device 137.



  When the signal lamp 137 'is on, there will be an indication that the channel amplifiers and control tubes are ready for use.



   The operation of the switch 125 switched on the call device 113 by closing the contacts 128 and
129 so that a subscriber can be called by the operation of this device. At the same time the operation of the switch
125 has closed the contacts 126 and 127 and thus prepared a circuit which includes the conductor: 140 and the contact 107 of the switch of the receiver 103. The conductor 140 is connected as shown in figure 4 to the relay 413 which in turn is connected to conductor 100 which is powered from bridge rectifier 304 providing direct current.

   If after a communication has been initiated in the loudspeaker command system it is desired, in order to guarantee the @

 <Desc / Clms Page number 18>

 
 EMI18.1
 secret, reuse 1- combine, the switch of. r5,:; e: rt, 'uJ "103 will be operated which then closes the contacts 106 and 107, As a result of which the relay 113 is energized to close the contacts 414 and 415 which close a blocking circuit for relay 421, and to open contacts 415 and 41? which disconnect 1.:# hybrid system 401 from the telephone line, 1.].: - C ..- v ..L [: - 'Jï, S 9ut:.: .'Î3T: r Í) .e '..l .. :::: te 121-re QU. T <: L2 .- :::.' Lone, and to also shorten the entry of the incoming signals by closing contacts 418 and 419.
 EMI18.2
 



  Each of the channel amplifiers is arranged in such
 EMI18.3
 -The, -on that by providing :: c ertai: 1s tubes a negative voltage
 EMI18.4
 relatively high, the amplification is then 2.a level
 EMI18.5
 low enough and predetermines who is Insufficient F o. : r supply to the line (the due signals of desired amplitude.

   For this reason each flight of signals is provided with a control tube which reacts to the sequence of currents.
 EMI18.6
 signals passing in this flight, as a result of which the gain
 EMI18.7
 of one of the "\ io # é.J increases rapidly and sets this flight in working order, while the gain of the (le1.; JièÍile flies diminished and blocks this second flight. 'Part of the currents) VOITal1-}: brought to the amplifier of the outgoing flight appears in the output circuit of the output tube Lj04 at the terminals of the potentloïpeter 2 IS, A certain part of this signal voltage is er'enée 'r coupling capacitor 234 r1e s¯ s: n8.1J. :: '-': is 0JT, e (1.88 - '.).:!: -. cOTIJle1139.teur <i.ù eov.plz; é1e' ... J1. the tube Trill control 205, thus causing an increase = rez .t ,,., =.;

   , i? of the current n o ç¯ e - = a; -. li r,: 1. ',' the c c ube. l circuit <3. c2tJt () (e dJ1 control tube 205 starts from the midpoint of on- r01.11e;, e] lt of tzn,: nsìrr, é-1.> e; īr key 1> ē15. ;; entati: JIJ ... iv f = 11.ai: eirt 31o through the adjustable resistor l = there, 1 to the negative pol- of the plate voltage supplied by the rectifier tube III. A variation of the snode current of the control tube 2ô5 thus varies the voltage drop which is t:} n1.fE ', :) te at the terminals of the reslst? ncc 324. Resistance K-4 is effectively connected in circuit with the circuit fl.e grid to. cathode q.y¯ empty tube 202.

   A circuit starting from the grid

 <Desc / Clms Page number 19>

 of vacuum tube 202 can be traced through the secondary winding of transformer 211 which is shunted by resistor 212 through resistor 231, resistor 324, resistor 331 and resistor 329 back to the midpoint. of the transformer winding of the wire which feeds the filament of the vacuum tube 202. The effective negative potential applied to the vacuum tube 202 is therefore the voltage drop which appears across resistors 329 and 331 when the current is zero across. the vacuum tube 205.

   However, when the anode-cathode current of the vacuum tube 205 increases, the negative potential supplied by resistors 329 and 331 is counteracted by the negative potential which develops across resistor 324: The potential supplied by resistor 324 arises from a resistance-capacitance arrangement which has a relatively low time constant so as to obtain rapid operation of the vacuum tube 202.



  By arranging so that the negative potential which is obtained at the terminals of resistors 329 and 331 does not vary much with the variation of the plate current of the empty tube .202 and that the voltage which is obtained at the terminals of the resistor 324 varies within wide limits from the idle position of the channel amplifier to the on position the effective negative potential of vacuum tube 202 becomes less negative as the plate current of vacuum tube 205 increases, and thus increases the gain of the amplifier of the output channel so that it is ready for use:

     
Since the voltage which appears across resistor 324 varies in proportion to the currents of the signals passing through the amplifier, and since this negative rotential circuit has a relatively small time constant, it is preferable to eliminate this variable effect by connecting the common points of the resistors together
329 and 331 and resistors 231 and 322 which is operated by the work contacts 263 and 264 d release relays

 <Desc / Clms Page number 20>

 
 EMI20.1
 "have slow 24. As the anode current had a tube of (" 'C.t, 1'in.



  - 's summer; L.-rtj /. ] ï = sequence of 3 c n1JJ :, -: -: t3 des, ') j¯'J12! jX (liJ Î10S,' p: r; + - t'-J "";: - \ - ÇcrQ Y "l Í" ". 11-D, - - :: -! - P '-, r -" C1 "" \' -., ......, "" 1 'ii 9 5 3 e5 E trarers amplifier of 1 V \ .J .. -} \ .. 1. \ l, t; -: c current -¯r '¯ er: C: i =' r: LO ^. of relay Ils7: l1- '.'jon .r,.> ii;., 0-, C- te by 1.9 closing the ses COYltocts 241 and 2:, =, the relay 6.slow release S /:.:;. 7, ç t'OnC t- Qn. '' 1J ra ili '. du. rclaJ.:, 1;: cflDc11C- GeYl - slow 243 3 anene 2. (er: (J1et, ül') E of contacts 1:; .. :) and ± G / 1, and apply sinf5-! a born potential - :; 11..13 weak 1 .. the gate,: the control of the amplifier tube 2: É.



  At the same time the capacitor:.:; 44 is bridged to the slow release relay 2-12 by the closing of contacts 245 and 247. This increases the slow release characteristics of this relay. The capacitor 244 is released. - very large and would have a tendency to decrease T: "O1T1CI'ltSl'1 the voltage at the terminals of the relay coil if it was connected directly without having taken care to charge this capacitor beforehand.

   The capacitor 244 is for this first connected to the rest contacts 245 and 246 through a current limiting resistor 239, so that the capacitor can be bridged to the relay without the voltage at the terminals falling. The current limiting resistor 239 prevents the flow of strong charge currents whenever contacts 245 and 246 are closed,
 EMI20.2
 this yes could otherwise disturb 5¯; ¯t ::? '?: i.i ¯C- tor enough to give rise to a noise or a sharp change in level,:':

  operation. Slow release relay 243 also closes contacts 243 and 249 thus connecting the filament of vacuum tube 206 through resistors 276, 278 and 252 to an adjustable contact of potentiometer 254. Potentiometer 254 is connected between earth and conductor 250 and is thus between the negative terminal and the earth of the potential source which supplies the low direct voltage for the negative bias supplied by the transformer
 EMI20.3
 301. the bridge rectifier 304 and the shock coil 305.

   The

 <Desc / Clms Page number 21>

 input tube 206 of the amplifier of the incoming channel thus receives a negative bias sufficient to effectively put this amplifier out of service.



   In addition to the control by the self-polarization provisions, of the control voltage applied by the control tube 205 and of the variation of the negative polarization brought about by the operation of the relay 243, the amplifier of the outgoing channel is also controlled by the automatic gain control arrangement. This arrangement includes resistor 219 which is connected across the vacuum tube output circuit 204.

   Part of the voltage that arises across it is coupled by capacitor 221 through current limiting resistor 222 to dry rectifier 223 which causes a voltage across capacitor 224 proportional to the signal current flowing through the amplifier. tor. Capacitor 224 is discharged at a relatively constant rate by resistor 225.

   This automatic gain control voltage which appears across capacitor 224 is applied through a delay circuit which includes resistors 226 and 228 and capacitors 227 and 229 to the gate of vacuum tube 201. The gate circuit The cathode of this vacuum tube 201 also contains the self-polarization resistor 332 which is shunted by the capacitor 333 and which is connected between the midpoint of the transformer winding 317 and earth. Thus the voltage of the automatic gain control supplied to the input tube 201 is superposed on the automatic bias which exists across the terminals of the bias resistor 332.

   The arrangement of the resistance-capacitance filter introduces sufficient time constant into the automatic gain control voltage to maintain amplifier gain beyond word-to-syllable intervals. Since transformer winding 317 provides also the current of the filament at the vacuum tubes 203 and 204, the existing bias voltage across resistor 332 is very strongly stabilized so that @

 <Desc / Clms Page number 22>

 
 EMI22.1
 > "" '-il "" the 2' f: "'± <;;' .."! .. c o <i;

    :.;:> t, of plate "t11 {'a v'-de 20Y din-nue considrab ## nt .pj.d le, ç, j¯,, m ç¯, g¯ t = j oi, du control # .vX clnz * t 1 qiie; 1 ..;.-ain. applied, this no-load ube ç ç <, i, c ii q <, 1,, with an appropriate value of negative bias voltage '.



  When some runs -'- appear in the incoming conductors 22'Ù and 200 le = ;: Ó \) 11 to j;:;, o, fli; īre an oi..i; t ùe te11; jjon 1 '<î5Â;) or-r19s du P #t t. in "% .ln.: 'Ô. <ii: ei 1 1 1. * currents of 6.n.ux are 1- # tubes - v, 5., = = EE> ./, .07 with ee sic. 'cnts' '' heart'3 cLrcuits if E .s .mc Ô. é s. '"Tr.ee; =>. = <> - + .." of the t. eis; nn of s' " 'rt.' tube> #, = -v: 1> <: 1 -: 07 is obtained &, v ;: bornëb du ;;

   -len.l; loiuh.ij; o <SP and is applied to r.0 "OierL.: 1.'1]" 1l i>; nJ, i # n = i, t, e <; ifl;: le cou '' "'la =' e 297 1s q = r: 11.1.e; iie control of the empty control tube 205. this izuà Troduces an irw>? m:" sion in the current .7lu vacuum tube 208, bringing thus a variation in voltage across resistor 336 which is related to the midpoint of the winding of transformer 319 which supplies the current of. fi
 EMI22.2
 lament to the vacuum tube 208.

   The midpoint of transformer 319 is connected through resistors 339, 343 and 342 to the midpoint of current transformer 321 which supplies filament current to input vacuum tube 206. The change in bias voltage brought about by the change in voltage. neck-
 EMI22.3
 The anode flux of the vacuum tube 208 is incidentally applied to the grid-cathode circuit of the inlet vacuum tube 206.

   The
 EMI22.4
 voltage that arises at the terminals of resistor 53 Varies within wide limits from the rest position to the position of
 EMI22.5
 (liio-ic the voltages which appear across resistors 342 and 343 do not vary greatly. Since the voltage which appears across the resistor 339 varies considerably in accordance with the variation of the anode current of the check 208, the po-
 EMI22.6
 negative larisatisn applied to the inlet vacuum tube 216 decreases '' rapidly,

   which quickly increases the amplifier gain of the incoming channel to prepare for work

 <Desc / Clms Page number 23>

 this amplifier. It will readily be appreciated that the operation of the vacuum tube 208 with respect to the inlet vacuum tube 206 is very similar to the operation of the control tube 205 with respect to the vacuum tube 202 of the outgoing channel amplifier.

     Given the initial increase in gain of the vacuum tube 206, the increased current flowing through the vacuum tube 208 causes the operation of relay 283 which closes its contacts 284 and 285 and thus energizes the slow release relay 286. capacitor 291 which is arranged to charge through a current limiting resistor 281 is connected across relay 286, thereby increasing its slow release characteristic.

   In order to vary the bias voltage applied to the vacuum tube 206 the contacts 294 and 295 close, thus rendering ineffective the variable bias provided by the operation of the vacuum tube 208 and also checking the degree of bias provided by the resistors. 342 and 343 such that the gain of the incoming channel amplifier is stabilized at a new gain level - At the same time contacts 293 and 294 close, which shunts resistor 292 across resistor 343. This gives a combination of voltage drop across the two resistors which is a little less than the voltage across resistor 325.

   Thus these voltage drops are opposite and equal and are in series with the automatic gain control voltage ground path so as to produce an automatic gain delay voltage. The automatic gain voltage which is obtained by means of potentiometer 268 by coupling capacitor 271, the resistor which limits the current 272 and the dry rectifier 273 appears across the capacitor 274.

   During the start of an incoming conversation and after the closure of contacts 294 and 295 of relay 286 the automatic gain control bias voltage from capacitor 274 is superimposed on the normal negative bias voltage applied to the vacuum tube
206 by means of the voltage drop that occurs in the

 <Desc / Clms Page number 24>

 
 EMI24.1
 resistance 242. Operation of 1 (1é '":. =: 3 release icnt 2'?. S" :: it, rz :: - 7r.a In contact 261 # 17. "c la Î. ±" J 3 ?. pt 12 f: - .. t close 2. \ l: 'the contact ¯> :: 2 thus connect s é -' 7,: t J¯E: du. tube srl 1 283. \ t: C8 -v8 "'3 = -. J / \,:, 8tê,; - :. ce 56 \' JJ1 (, ': -) / IT JX 1; 12..5.% é, ô: -1 l; ;:,.: J8.tj.n (L17 "'.ait au.3-' terminals: ô i potentiometer e - '- 1. ,, =; tt :. voltage n2.:\¯t -' T0 of , lō a ... ¯'J ¯'1;! i, s ':; - :: 3Li.f', 3. 'tt (;: 0' l "J t: 1. 1-C.

   F. '<'. "c'in the tube at. 'ç;: ¯-'3 2CS le' i ow il.: '.' ="; '/.T l) ::' \ '-'c' 3 & C ') 11- (.. "tio}) :: C-; t'e ,, \, i0.-r. Fi ¯' Ç. : "- '. ¯? ) jί ± ..cat (-: -; '3 "1? -. =, ô.i. 3;: =:>' .1 E" 1 1.? É 2.



  'iJO,' -... 1.8 J¯ ':: -:': 'I ..; i .. -C8-: eU} of the vol'j. ; 1.L '-; W .i ll, l .: 2 .. ";.'; to iw '(' .J3.LTJ.é. 2.it '.;. C 1-11.t'jtcc :; - '; ..:; r; u' 2 ':,.,! l..I: r.¯cs. "l,:; ¯cn!., ¯.l. C', j" f :., '- ""' '..,' 0 ..;. "O; -. Ô '.' Stretched uc -10-ij :. un ¯20? - ,,, ¯¯ '¯ + ¯> J¯i, 1, 5 é 1- <"orl .it un ^, r,., - ,: 1'E n - ,, - .. 17: 'j' t tC: 3 iG? 111 W'f '.?.', 11.'1 -il ':>, and':.: "3: -: :) cet; :: ¯¯. '.' Y.¯1: c 'i11" -, t:; '8 th to 1 g' u J. ' 2vT:] Jf5.catioD. Have ets jiJ.7és necessary for) 1.11''lil) a 16 '"cr cxcss of' 2i.l C:? .- '2T,. (Jcnt (J.110 + .1e ( ) j> 3 6 "t'J: GS c.1J.r2-¯Í =: nt etc insufficient.

   Daus the purpose of balancing or of COL) e., Li: i8J: 'this excess' rie' '-' "1 a reed, eT! 'R nlil includes the' n / 0 '' + a; nce '-'.... "- .. ¯ -'--"' \ .. ,, 1.-...'- ¯ ... ¯, -. ' .. \ ,. - ,, .. I'-U '"> :;) 124 jo.3cue -' = 2 is inserted between the.'3 conductors j1C and 22C and the 8! 1.1" 8J.l. - :. r'Jît du t,: '? ll3for: n8tf? Ur f08 du 8Y: 3t, hybrid era 401.



  3if you want .1; 7.;: C. ;; - o; i:; ... r the # <a = i c 1; 1 o ;; = ;. E.; .. <..> it of d; 3tJE.G to orders it has -..'.- L = '..' '1 E; L'r to obtain the secret guaranteed by the combins, the closing contacts 103 and lC7 connect effect, 1¯ve :: 8: -1t to earth the I / iO conductor and thus the current T :::. nt, :::. ui travels through the conductors 250 and rOC will excite the relay s zi. u-. This disconnects the IOI hybrid system and bypasses the 3. channel input of incoming signals. 3i thereafter the communication must be transferred to a) .: 7'reils. speaker, the <. = P o c 1 <e lor replaced on its hook will operate the commutatour of the receiver 103 which will break the contacts lOS and l07, thus de-energizing the relay 4T3 and actuating again the amplifiers of channel of the signals.



  Higher we lied that it would be desirable
 EMI24.2
 
 EMI24.3
 that we had a system that used only one type of tube and,
 EMI24.4
 because following, in the accompanying drawings all the tubes have been drawn as triodes. We will understand of course that, what-
 EMI24.5
 that we. drew out triodes the principles that have been exposed

 <Desc / Clms Page number 25>

 
 EMI25.1
 Sés here 0eu can be applied to li-fiers with tubes that have larger ae> iectroaes. tubes which --0 bone, e tooth a greater number of electoJes.



  R L 'V., x N D I C A T 1 0' Il ¯¯¯¯¯ .... ¯¯¯¯¯¯¯¯, -.



  II Transmission circuit provided with an axfpler and operated control circuits) 2.:1: 'the signals in which, in the absence of signal currents, the amplifier is self-biased in order to present minimal gain and, when
 EMI25.2
 After receiving signals, the control circuit is arranged to provide a bias voltage proportional to the sigral currents, which is designed so as to cause an immediate and substantial increase. Aunt at the gain of the amplifier, 9 while, subsequently, the bias applied to the amplifier is stabilized at a value which maintains the gain at a suitably high level:

   2 / Transmission circuit provided with an amplifier and control circuits operated by the Signals, in which an automatic gain control circuit is connected between the output and input circuits of the amplifier which is normally self-polarized to have minimal gain and, in
 EMI25.3
 response to c1e signamc currents, the control circuit is ax'ranged to provide a correct bias:

  ne7le to the signal currents, which is applied in such a way as to lener the signal currents, @ an immediate and significant increase in the gain of the amplifier, while, subsequently, this second polarization is replaced by a constant polarization which is maintained. @ keeps the gain at a suitably high level and the automatic gain control circuit is prevented from becoming operative until the input signal has reached a predetermined level.

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

3 / Transmission circuit comprising two one-way transmission channels, arranged to be associated with a two-way transmission channel and provided with operated control circuits <Desc / Clms Page number 26> by voice, in which in the absence of voice current, the two one-way channels are self-polarized to have minimal gain and, upon reception of voice currents on one channel, the associa control circuit is arranged to provide a bias proportional to the voice currents which will be applied so as to bring a. immediate and significant increase in the gain of this channel while subsequently this second bias is stabilized at a value which maintains the gain at a suitably high level and the gain of the second channel is reduced such that it is blocked for the vocal currents. 4 / transmission circuit according to claims 1 to 3 wherein the minimal gain, in the absence of signal or voice currents, is due to a self-bias voltage supplied by an amplifier tube and the increase in gain on reception, the signal or voice currents is due to a voltage supplied by the control circuit which is applied in opposition to this self-polarization voltage. 5 / A transmission circuit according to claims 1 to 4. wherein the grid-cathode circuit of an amplifier tube comprises a resistor to generate a self-bias voltage and a second resistor which is also inserted into the conductor of the cathode of a vacuum tube in the control circuit whereby the reception of signal or voice currents causes the birth of a voltage across this second resistor in opposition with the self-bias voltage and increases the gain of the amplifier tube ' 6 / A transmission circuit according to claims 1 in which the current flowing through trayersun vacuum tube 1¯ins 1. c ci. ei.0.5.t d. This control, in response to the increase in the control circuit, in response to the initial increase in the hand, results in a switching operation which <Desc / Clms Page number 27> stabilizes the gain of an amplifier tube. 7 / A transmission circuit according to claim 5, wherein a switching operation which takes place in response to the initial increase in sound causes this second resistor and part of this first resistor to short-circuit which stabilizes the gain. of the amplifier tube to a suitably high level. 8 / transmission circuit according to claims 4 to 7, wherein the self-bias voltage is applied to the amplifier tube in series with an automatic gain control voltage. 9 / transmission circuit according to claim 8, wherein a switching operation which takes place in response to the initial gain with a view to stabilizing this gain, also serves to bias the automatic gain control circuit, so as to render it inoperative until the moment when the input signals reach a predetermined level: 10 / A transmission circuit according to claim 3, in which the gain of the second channel is reduced in response to a switching operation which has occurs in response to the initial increase in gain of the first channel. 11 / Transmission circuit according to claims 1 to 5, wherein the voltage which causes the initial increase in gain is applied through a small time constant circuit: 12 / A transmission circuit according to claims 2, and'9, wherein the automatic control voltage of the gain is applied through a circuit which has a sufficiently high time constant to prevent variation of the control voltage during 'intervals between words and syllables. <Desc / Clms Page number 28> I3 / A transmission circuit according to claims 2, 8, 9 or 12, in which several amplification tubes are employed and a number of these tubes are provided with a common cathode resistor whereby the self-biasing applies. - that the tube which is controlled by the voltage of the automatic gain control is stabilized at a suitable level. * I4 / Transmission circuit as described and substantially illustrated in the accompanying drawings.