US1808915A - Repeater circuits - Google Patents

Repeater circuits Download PDF

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Publication number
US1808915A
US1808915A US142566A US14256626A US1808915A US 1808915 A US1808915 A US 1808915A US 142566 A US142566 A US 142566A US 14256626 A US14256626 A US 14256626A US 1808915 A US1808915 A US 1808915A
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US
United States
Prior art keywords
relay
currents
current
path
detector
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US142566A
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English (en)
Inventor
Bjorn G Bjornson
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
AT&T Corp
Original Assignee
Bell Telephone Laboratories Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to NL25650D priority Critical patent/NL25650C/xx
Priority to BE345819D priority patent/BE345819A/xx
Application filed by Bell Telephone Laboratories Inc filed Critical Bell Telephone Laboratories Inc
Priority to US142566A priority patent/US1808915A/en
Priority to FR641152D priority patent/FR641152A/fr
Priority to DEI32239D priority patent/DE510109C/de
Priority to GB27761/27A priority patent/GB279455A/en
Application granted granted Critical
Publication of US1808915A publication Critical patent/US1808915A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L25/00Baseband systems
    • H04L25/02Details ; arrangements for supplying electrical power along data transmission lines
    • H04L25/08Modifications for reducing interference; Modifications for reducing effects due to line faults ; Receiver end arrangements for detecting or overcoming line faults
    • H04L25/085Arrangements for reducing interference in line transmission systems, e.g. by differential transmission
    • 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

  • This invention relates to transmission systems, and more particularly to telephone repeater systems.
  • An object of the invention is to reduce the effect of line noise on the operation of repeater circuits or similar ⁇ equipment.
  • a line for transmitting voice currents and subject to line noise is associated with the windings of a polarized relay through two parallel paths, one path including a vacuum tube, which may be termed a relay controlling tube and the other an auxiliary vacuum tube, these Apaths having such relative characteristics that any steady current through the former tube and below a certain energy level, determined by the saturation of the auxiliary tube,'will have its effect on the relay neutralized by the current flowing in a parallel path through the auxiliary tube.
  • the two tubes are so arranged with respect to the relay that the currents passing therethrough flow through the respective windings of the relay in such direction as to produce opposite magnetic effects en the relay armature and the tubes are so adjusted that the magnitude of the current in the output of the auxiliary tube, or protection detector, is slightly greater'than the current in the output of the relay-controlling tube, or operating detector, up to a certain point which is determined by the maximum permissible noise, so that the relay will remain inoperative in response to currents produced by noise on the line, but will be quite sensitive to speech impulses.
  • Fig. l shows a diagrammatic illustration of a portion of a voice-operated repeater circuit, embodying the invention
  • Figs. 2 and 3V are curves illustrating the operation of the system of Fig. l and the theory on which the invention is lased
  • FIG. 4 shows a modification of Referring to Fig. 1, LW and LE designate sections, interconnected through a repeater, of a transmission path, such as one-way paths, 0f a No. 22 type repeater circuit,vor the oneway lines of a four-wire circuit.
  • Such circuits normally have at least one of their respective transmission paths short-circuited so as to prevent singing and echoes on the line, and in order to control the operation of the short-circuit, a voice operated relay is employed whereby voice currentsare effective to open the short-circuit thereby permitting transmission over the path.
  • voice operated relay is employed whereby voice currentsare effective to open the short-circuit thereby permitting transmission over the path.
  • similar apparatus is associated with the other transmission path (not shown). Vhile voice currents are being transmitted over one of these paths, as for example, the path comprising sections LW and LE, a polarized relay in the protective circuit will hold the short-circuit across sec.
  • Fig. 1 the noise protective device of the invention is illustrated as applied to an amplifier-rectifier circuitused for operating switching relays in a voice-operated system.
  • the conductors L1 leading from the path of voice-operated repeater R, are associated through an amplifier 2 with a circuit arranged in two parallel paths 3 and 4L.
  • Each path includes a step-up transformer, a vacuum tube detector, and a winding of polarizedrelay 5 which has differential windings.
  • rlhese detectors are of the amplifier-rectifier, or three electrode, type.v
  • the output circuit of detector 6 extends through winding 10. of the polarized relay 5 and the -output circuit of detector 8 extends through winding 11 of that relay. 1t is desired that the opposing currents through the differential windings of the polarized relay shall hold the relay armature against one of its contacts, Vin order to maintain outgoing conductors L3 closed, thereby providing a short circuit across path LE under normal conditions.
  • This desired effect is obtainedby initially arrangingl the two paths so that the magnetic effects produced by the current in the output of the protection detector is opposite in direction and slightly greater in magnitude than .that of the operating detector up to a certain point which will be determined bythe maximum permissible noise on the line,-and above that point the magnetic effect produced by the current in the output of the operating detector exceeds that of the current. inthe output of the protection detector.
  • the detectors are adjusted for different degrees of saturation, the saturation point of the protection detector being set for the maximum permissible noise and that of the operating detector at some higher point, and the two paths adjusted to give unequal output effects for equal inputs in any one of several ways, as for example by providing transformers of different ratios or a polarized differential relay having unequal windings.
  • the continuous noise energy received over'the line will be divided, part being transmitted through one path and part through the other, and each being effective in one of the relay windings. As these noise effects continuously oppose each other, there will be no operation of the relay by the noise.
  • speech energy such as produced by spoken words
  • the speech wave received over path 3 and transmitting through transformer 7 is rectified by operating detector 6, and the resulting rectified Vspeech current, which is passedV through winding 10 of the polarized relay. 1 is of sumcient magnitude to vcause the relay to operate.
  • wave received over path 4 and through transformer 9 is rectified by protection detector 8.
  • FIG. 4 A modification of the circuit described above is illustrated in Fig. 4, in which conductors L2 branching from the path LlVl of the voice-operated repeater (not shown) is associated through an input transformer 13 with protection detector 14an-d operating detector 15. These detectors are arranged as shown, in push-pull relation. In this arrangement the steady noise current received over conductors L2 causes currents to be produced in the output circuits of the detectors 14 and 15 which are opposite in direction and are thus neutralized as to their effect on the input circuit of amplifier 21 in resistances 16 and 17, respectively.
  • a delay filter comprising a network composed of inductance 18 and capacityelements 19 and 20; lItis obvious then that when the voice impulse is received in transformer 13, and dividesover the operating andprotection paths, the resulting rectified current in the output of theoperating detector is permitted to pass unhindered toithe amplifier 21, but the curren-t' flowing-through the protection detector is delayed by the filter, as was described above in the ⁇ circuit shown in F ig. 1.
  • rlhe arrangement shown in Fig. 4 has an advantage over'that shown in Fig.
  • vthe arrangement in Figli requires the ⁇ use of some means, such as floating A and B batteries .for amplifier 21, to prevent a .short-circuit through the filament ground connection 22 of the detector tubes.
  • T he filters used inl both figures may be of a. low pass type,'as 'is disclosed in Fig. 7 of APatent No. 1,227,113, granted to G. A. Campbel on May 22, 1917.
  • the noise wave impressed on the input circuit of detector 6 is rectified land transmitted through winding 10 of polarized relay 5 and that part impressed on detector 8 is rectified and transmitted .through delay filter 12 and the winding 11 of relay 5, but inasmuch as the relay 5 is differentially wound, the resulting currents in the windings continuously oppose each other and the relay will not operate.
  • the filter is designed to delay noise currents as well as the speech impulses, but inasmuch as noise currents are steady for comparatively long intervals, the delay of such currents is effec-tive only to operate relay momentarily at the beginning of each interval.
  • the steady current intervals are of considerable duration, therefore, the momentary operation of relay 5, because of variations in the noise currents, may be regarded as a negligible factor.
  • the protection detector is adjusted to saturate for a certain energy level which is established by the maximum permissible noise and thus the potential of the current which passes through the filter unhindered and is ineffective to operate relay 5, is below this level.
  • the point at which this level is fixed is indicated by X on the curves, shown in Fig. 2, which represent the characteristics of detectors 6 and 8.
  • This current would be of suflicient magnitude to prevent the operation of relay 5,if it reached winding 11 simultaneously with the current in winding 10, but the delay encountered in the filter checks it until the relay is operated by the current in winding 10, "and at the time the current does reach winding 1l the opposing current in winding 10 is built to such a magnitude that lthe protection current is ineffective to return the relay to its normal position.
  • the time of operation of relay 5 varies from word to word, and if there was no current produced by speech energy in winding 11, it might be anywhere from .O02 to .02 of a second. As the delay in the filter circuit may be made greater than .02 of a second, the speed of operation of the circuit will beabout the same as if the circuit was adjusted for a quiet line.
  • relay 5 When relay 5 operates, it closes an operating circuit for hang-over relay 25 at contact 26 and opens 'at contact 27 the short circuit elected by conductors L3, thereby permitting the voice impulses to be repeated through repeater R and over the path LVV to the line west (not shown).
  • Relay 25 operates and opens contact 28, thereby eecting a double opening in lthe conductors L3. W'hen the current in the protection circuit, which was delayed by filter 12, finally reaches winding 11, it will not be of suicient amplitude because of the difference in the saturation points of the two detectors, to affect relay 5, and therefore the armature thereof will remain in its operated position with contact 27 open and contact 26 closed until sometime near the end of the word which effected the operation of the relay.
  • the rectified current in relay winding decreases sufhciently so-that the armature is attracted to its opposite contact, closing Contact 27 and opening contact 26.
  • the openingof contact 26 will open the circuit of hang-over relay 25, but this hang-over relay has one of its windings connected to a variable resistance 29, which may be adjusted to make relay sufficientlyA slow acting so that it will remain operated until after the end of the word.
  • Fig. 1 the noise currents are neutralized in the windings of relay 5, and it is .at this point that the noise and voice currents are most amplified. If high amplification is required to maintain high speed in the operation of the switching relays, such as 5 and 25, a modified arrangement may be provided in which the noise currents can be neutralized before the voice currents are amplified, and Fig. l represents such a modiiicat-ion.
  • Fig. l the arrangement shown is somewhat similar to that shown in Fig. 1, except that the protection detector. let and operating detector 15 are arranged in push-pull relation as is Well understood in the art. it noise Waves alone are on the path LVVI, they Will be received over conductors L2 and impressed 1 through transformer 13 upon the respective Afore be of equal, but of opposing potentials in the resist-ances 16 and 17 respectively, and in this manner the currents are neutralized before reaching the ampliiier 21.
  • the a rangement oi the ⁇ invention is particularly suitable tor protecting voice-operated repeaters against line noise, but it is not coniined to voice-operated repeaters beca use it may be applied for noise protection in. any circuits containing apparatus, the eperagiou orp which is based on the transmission of short impulses of energy.
  • the system illustrated. in the drawings and described above should be construed merely as typical and'uot. as limiting the invention, the scope orn which is cefined in the appended claims. lVhat is claimed is: 1. In a signaling system, a path for stealy alternating currents are alone flowing in said path and the etect in the other branch to predominate When voice currents are flowing in said path.
  • a path for transmitting alternating currents branches for said path, detectors in said branches for rectitying said currents, the detector in one branch being arranged toV produce a rectified current of greater magnitude than that in the other for received alternating currents ot magnitudes up to a certain value, the detector in the other branch being arranged to produce a rectified current or" greater magnitude than the detector in said one branch for received alternating currents of magnitudes exceeding said certain-value and electromagnetic means for receiving said rectified currents, said means being arranged to be normally biased in one manner by the rectified current in said one branch and to be operable in another manner by the rectified current in the other branch when the magnitudes of the received alternating currents therein exceed said cer tain value.
  • a path over which voice currents and continuous alternatingcurrents may be transmitted, a common receiving means for the transmitted currents having branches, means in each branch for translating the received currents into pulsating currents, a relay jointly controlled by the translated current-s, and means operating upon the translated currents in one of said branches to delay their effect upon said relay as compared with the corresponding translated current in the other branch.
  • a path over which voice currents andsteady alternating currents ⁇ may be transmitted branches for said path, means in each branch for translating alternating voice currents into pulsating currents, a relay having windings diiferentially Vassociated With said translating means, and means operating upon the translated current in one et said branches to delay its effect upon said relay as compared With the corresponding translated current in the otherbranch.
  • V5.. Ina transmission system, a path over which voice currents and steady alternating currents may be transmitted, a common receiving means for the transmitted currents having branches, a detector in each ot said branches for rectifying the-received currents, a relay controlled by the rectified currents, and a iilter in the output circuit ot one of said detectors tor delaying the rectified voice current in one branch as compared with the corresponding current in the other branch to permit said corresponding current to operate said relay.
  • a path over which voice currents and noise currents may be transmitted, a common means connected to said path for re eiving the transmitted currents and having branches for said paths, adetector in each ot' said branches for rectifying said currents, a relay controlled by the rectified currents, a iilter for delaying the rectitled voice current in one branch as compared with the corresponding current in the other branch, and means for amplifying said corresponding currents to operate said relay.
  • a path over which voice currents and noise currents may be transmitted branches for said paths, a detector in each of said branches 'for rectitying said currents, output circuits for each of said detectors for receiving said rectified voice and noise currents and for neutralizing the noise currents, a relay, a ilter for delaying the rectiiied voice currents in one branch as compared with the corresponding current in the other branch, and means for amplifying said corresponding current to operate said 1elayl 8.
  • a path over which momentary impulses of current and steady alternating currents may be transmitted branches for said path, means in each of said branches for increasing ⁇ the energy of said currents, electromagnetic means for receiving said currents and arranged to be normally biased, means in said branches for impressing said currents on said electromagnetic means, said steady currents being of greater magnitude in one oic said branches vthan those in the other up to a certain point to maintain the bias in said electromagnetic means in the absence of said momentary impulses, and means for delaying said momentary impulses in one of said branches to permit the impulses in the other of said branches to overcome the bias in said elect-romagnetic means.
  • a path over which momentary impulses of current and steady alternating currents may be transmitted branches for said pat-h, a transformer in each of said branches for increasing the energy of said currents, a polarized relay having differential windings respectively connected in each of said branches, means in each of said branches for rectifying said currents, the steady currents rectified being greater in magnitude in one branch than those in the other up to a cert-ain energy level to maint-ain a bias in said relay when said momentary impulses are absent from the path, and means in one of said branches for delaying said momentary impulses therein t0 permit the momentary impulses in the other of said branches to overcome said bias and operate said relay.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Power Engineering (AREA)
  • Cable Transmission Systems, Equalization Of Radio And Reduction Of Echo (AREA)
  • Amplifiers (AREA)
  • Meter Arrangements (AREA)
US142566A 1926-10-19 1926-10-19 Repeater circuits Expired - Lifetime US1808915A (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
NL25650D NL25650C (pt) 1926-10-19
BE345819D BE345819A (pt) 1926-10-19
US142566A US1808915A (en) 1926-10-19 1926-10-19 Repeater circuits
FR641152D FR641152A (fr) 1926-10-19 1927-09-20 Dispositif pour l'élimination des courants parasites dans les systèmes électriques de transmission
DEI32239D DE510109C (de) 1926-10-19 1927-09-23 Durch die Sprache betaetigte Verstaerkerschaltung, insbesondere fuer Leitungen, welche Leitungsgeraeuschen ausgesetzt sind
GB27761/27A GB279455A (en) 1926-10-19 1927-10-19 Improvements in telephone and like repeater circuits

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US142566A US1808915A (en) 1926-10-19 1926-10-19 Repeater circuits

Publications (1)

Publication Number Publication Date
US1808915A true US1808915A (en) 1931-06-09

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ID=22500346

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Application Number Title Priority Date Filing Date
US142566A Expired - Lifetime US1808915A (en) 1926-10-19 1926-10-19 Repeater circuits

Country Status (6)

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US (1) US1808915A (pt)
BE (1) BE345819A (pt)
DE (1) DE510109C (pt)
FR (1) FR641152A (pt)
GB (1) GB279455A (pt)
NL (1) NL25650C (pt)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2515187A (en) * 1942-04-09 1950-07-18 William R Bliss Wide dynamic range amplifying and demodulating system
US2852622A (en) * 1955-01-13 1958-09-16 Collins Radio Co Signal-to-noise squelch control circuit

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2515187A (en) * 1942-04-09 1950-07-18 William R Bliss Wide dynamic range amplifying and demodulating system
US2852622A (en) * 1955-01-13 1958-09-16 Collins Radio Co Signal-to-noise squelch control circuit

Also Published As

Publication number Publication date
DE510109C (de) 1930-10-16
BE345819A (pt)
FR641152A (fr) 1928-07-30
NL25650C (pt)
GB279455A (en) 1929-01-21

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