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JPS6030147B2 - telephone terminal circuit - Google Patents

telephone terminal circuit

Info

Publication number
JPS6030147B2
JPS6030147B2 JP54144192A JP14419279A JPS6030147B2 JP S6030147 B2 JPS6030147 B2 JP S6030147B2 JP 54144192 A JP54144192 A JP 54144192A JP 14419279 A JP14419279 A JP 14419279A JP S6030147 B2 JPS6030147 B2 JP S6030147B2
Authority
JP
Japan
Prior art keywords
winding
circuit
transformer
telephone
capacitor
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
Application number
JP54144192A
Other languages
Japanese (ja)
Other versions
JPS5668051A (en
Inventor
希一 清水
道雄 水戸
和之 後藤
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.)
Nippon Telegraph and Telephone Corp
Nippon Tsushin Kogyo KK
Original Assignee
Nippon Telegraph and Telephone Corp
Nippon Tsushin Kogyo KK
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
Application filed by Nippon Telegraph and Telephone Corp, Nippon Tsushin Kogyo KK filed Critical Nippon Telegraph and Telephone Corp
Priority to JP54144192A priority Critical patent/JPS6030147B2/en
Publication of JPS5668051A publication Critical patent/JPS5668051A/en
Publication of JPS6030147B2 publication Critical patent/JPS6030147B2/en
Expired legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M19/00Current supply arrangements for telephone systems
    • H04M19/001Current supply source at the exchanger providing current to substations
    • H04M19/003Arrangements for compensation of the DC flux in line transformers

Landscapes

  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Signal Processing (AREA)
  • Devices For Supply Of Signal Current (AREA)
  • Interface Circuits In Exchanges (AREA)

Description

【発明の詳細な説明】 本発明は、交換装置またはボタン電話装置において、電
話機配線のA線、B線に変成器を用いて通話電流と呼出
信号電流を供給する電話機終端回路に関するものである
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a telephone termination circuit for supplying a talking current and a ringing signal current using a transformer to the A line and B line of the telephone wiring in a switching device or a button telephone device.

交換装置においては、一般に電話機の送話器に対する通
話電流として、また通話開始、終了の監視用の直流ルー
プ電流として電話機配線に直流を供給する回路と、呼出
信号として約20HZの交流信号を供給する回路等から
なる電話機終端回路が設けられてる。
In a switching device, there is generally a circuit that supplies direct current to the telephone wiring as a talking current to the telephone transmitter and a direct current loop current for monitoring the start and end of a call, and an alternating current signal of about 20 Hz as a ringing signal. A telephone termination circuit consisting of circuits, etc. is provided.

この電話機終端回路に要求される条件としては、直流供
給の値のほかに、音声信号に対する伝送特性と対地平碗
を劣化させないことが望まれている。
The conditions required for this telephone terminal circuit include, in addition to the value of direct current supply, the transmission characteristics for voice signals and the fact that it does not deteriorate the ground plane.

第1図は従来の一般的なこの種の回路を示すもので、図
においてEは電話機、A,Bは電話機配線、Tは変成器
、L.,−,L3はそれぞれ変成器の第1、第2および
第3巻線、C,は音声周波結合用の第1コンデンサ、S
,,S2は呼出信号を送出するための継電器の接点、V
,,V2は直流電源、F,,F2は電話機のオフフック
を検出する発光ダイオード回路、Wは呼出信号源、R,
,R2,R3,R4は電流を制限する抵抗、Y,,Y2
は出力端子である。
FIG. 1 shows a conventional general circuit of this type. In the figure, E is a telephone, A and B are telephone wiring, T is a transformer, and L. ,−,L3 are the first, second and third windings of the transformer, C, is the first capacitor for audio frequency coupling, and S
,,S2 is a relay contact for sending out a calling signal, V
,,V2 is a DC power supply, F,,F2 is a light emitting diode circuit that detects off-hook of the telephone, W is a calling signal source, R,
, R2, R3, R4 are resistances that limit the current, Y, , Y2
is the output terminal.

このような構成の電話機終機回路においては、変成器T
に直流電源V,からの直流が重畳されているので電話機
配線A,Bから変成器Tの第3巻線L3へ伝送される音
声周波信号の伝送特性の劣化が問題であり、劣化を防ぐ
ために変成器Tを大きくする必要があり、その場合装置
が著しく大形となると共に価格も高価となる欠点があっ
た。
In a telephone terminal circuit with such a configuration, the transformer T
Since the direct current from the DC power source V is superimposed on the , there is a problem of deterioration of the transmission characteristics of the audio frequency signal transmitted from the telephone wiring A and B to the third winding L3 of the transformer T. To prevent this deterioration, It is necessary to increase the size of the transformer T, which has the disadvantage that the device becomes extremely large and expensive.

本発明は以上の点に鑑み、このような欠点を解決すべく
提案されたもので、その目的は簡明な回路構成で伝送特
性等の劣化が多く、かつ小形で経済化を図った電話機終
端回路を提供することにある。第2図は本発明による電
話機終橋回路の一実施例を示す回路図であり、第1図と
同一符号のものは対応する部分を示している。
In view of the above points, the present invention was proposed to solve these drawbacks.The purpose of the present invention is to provide a telephone termination circuit that has a simple circuit configuration, is prone to deterioration in transmission characteristics, etc., and is compact and economical. Our goal is to provide the following. FIG. 2 is a circuit diagram showing an embodiment of the telephone terminal bridge circuit according to the present invention, and the same reference numerals as in FIG. 1 indicate corresponding parts.

すなわち、Eは電話機でこの電話機EのA線およびB線
は変成器Tの1次側と接続されている。
That is, E is a telephone, and the A line and B line of this telephone E are connected to the primary side of the transformer T.

変成器Tの1次側には第1巻線Lと第2巻線L2が設け
られ、かつ2次側には第3巻線−が設けられており、こ
の場合第1巻線Lと第2巻線L2の巻回数の和が第3巻
線L3の巻回数に等しく、かつ励磁方向が反対になるよ
うに構成されている。しかして、第1巻線L,と第2巻
線−との間には音声周波結合用のコンデンサC,が挿入
され、このコンデンサC,と第1巻線Lとの接続点に電
流制限用の抵抗R,を介して直流電源V,が接続されて
いる。また、第2巻線L2には低レベルの音声周波信号
に対しては高インピーダンスを示し、高レベルの呼出信
号および雷サージ電流に対しては導適するバリスタZが
並列に接続され、かつコンデンサC,と第2巻線L2と
の接続点はコンデンサC4を介し接地されていると共に
、この接続則こは高インピーダンス電流通過回路日の一
端が接続されている。この電流通過回路日は、交流に対
しインピーダンスが高く、かつ直流に対しては低抵抗な
例えばトランジスタを用いた定電流回路のような回から
なっており、その他端は変成器Tの第3巻線−の第1の
出力端子Y,側に接続されている。第3巻線−の第1の
出力端子Y,にはまた音声信号を後続の回路に送出する
ためのコンデンサC2が、第2の出力端子Y2側には音
声信号を接地へ側路するコンデンサC3が接続され、か
っこの第3巻線L3の第2端子Y2側には第3端子Y3
を有する直流電位検出回路F3が後続されている。また
、第3巻線らの第1の出力端子Y,側には端子X,,X
2が設けられ、この端子X,,X2を介し後述するネガ
ティブインピーダンス回路Nを接続し得るようになって
いる。なお、S,はA線に挿入された継電器の接点で、
電流制限用の抵抗R3を介しての呼出信号源Wへのライ
ンと変成器Tの第1巻線L,へのラインとを切替えるた
めのものである。
The primary side of the transformer T is provided with a first winding L and a second winding L2, and the secondary side is provided with a third winding. It is configured such that the sum of the number of turns of the two windings L2 is equal to the number of turns of the third winding L3, and the excitation direction is opposite. Therefore, a capacitor C for audio frequency coupling is inserted between the first winding L and the second winding L, and a current limiting capacitor C is inserted at the connection point between the capacitor C and the first winding L. A DC power supply V, is connected through a resistor R,. In addition, a varistor Z is connected in parallel to the second winding L2, which exhibits high impedance for low-level audio frequency signals, and is conductive for high-level calling signals and lightning surge currents. , and the second winding L2 are grounded via a capacitor C4, and one end of the high impedance current passing circuit is connected to this connection point. This current passing circuit consists of a circuit that has high impedance for alternating current and low resistance for direct current, such as a constant current circuit using a transistor, and the other end is the third volume of transformer T. It is connected to the first output terminal Y side of the line -. The first output terminal Y of the third winding - also has a capacitor C2 for sending the audio signal to the subsequent circuit, and the second output terminal Y2 has a capacitor C3 for bypassing the audio signal to ground. is connected, and the third terminal Y3 is connected to the second terminal Y2 side of the third winding L3 in parentheses.
A DC potential detection circuit F3 having the following is followed. In addition, terminals X, , X are connected to the first output terminal Y, side of the third winding.
2, and a negative impedance circuit N, which will be described later, can be connected through these terminals X, , X2. In addition, S is the relay contact inserted into the A line,
This is for switching the line to the ringing signal source W via the current limiting resistor R3 and the line to the first winding L of the transformer T.

また、V2は呼出信号源Wへ供給される直流電源である
。次に本発明の動作を詳述する。
Further, V2 is a DC power supply supplied to the calling signal source W. Next, the operation of the present invention will be explained in detail.

本発明によれば、電話機配線A線、B線からの音声周波
信号は変成器Tの第1巻線L,、コンデンサC,、第2
巻線L2を流れ、変成器Tの第3巻線に音声周波数が現
われコンデンサC2,C3により出力端子Y,,Y2に
出力されるようになっている。
According to the invention, the audio frequency signals from the telephone wires A and B are transferred to the first winding L, capacitor C, and second winding of transformer T.
Flowing through winding L2, the audio frequency appears in the third winding of transformer T and is output to output terminals Y, , Y2 by capacitors C2 and C3.

この場合、もしコンデンサC3を接地すれば出力端子Y
,,Y2から得られる音声周波信号は不平衡出力となる
が、直流電位検出回路F3は音声周波に対し高インピー
ダンスとする必要がないので経済的になる。また電話機
Eへの直流電流は、直流電源V,から抵抗R,、変成器
Tの第1巻線L、A線、電話機E、B線、変成器Tの第
2巻線L2、高インピーダンス電流通過回路日、変成器
Tの第3巻線L3、直流電位検出回路F3、接地の経路
で供給される。ところで本発明によれば、前述のように
変成器Tは第1巻線Lと第2巻線−の巻回数の和が第3
巻線−の巻回数に等しく、かつ第3巻線−の巻回方向は
第1、第2巻線L,,L2によって生じる励磁とその励
磁方向が反対になるように構成されているので、結果と
して変成器Tには直流励磁は無いこととなる。したがっ
て、従釆は大形の変成器を用いて伝送特性の劣化を防い
でいたが、本発明の回路を用いることにより変成器Tを
非常に小形化しても良好な伝送特性を確保できることと
なった。一方、最近この種の回路にICや小形部品の採
用が試みられる傾向があるが、従来の回路では大形の変
成器のためプリント板の間隙が無駄に中広くならざるを
得ず、また実装密度が低下することにより装置が大形で
高価格となる欠点があった。
In this case, if capacitor C3 is grounded, output terminal Y
Although the audio frequency signals obtained from , , Y2 are unbalanced outputs, the DC potential detection circuit F3 does not need to have a high impedance with respect to audio frequencies, making it economical. Also, the direct current to the telephone E is from the DC power supply V, to the resistor R, to the first winding L of the transformer T, A wire, to the telephone E, B wire, to the second winding L2 of the transformer T, to the high impedance current. The power is supplied through the passage circuit, the third winding L3 of the transformer T, the DC potential detection circuit F3, and the ground. By the way, according to the present invention, as mentioned above, in the transformer T, the sum of the number of turns of the first winding L and the second winding - is the third
The number of turns of the third winding - is equal to the number of turns of the third winding -, and the winding direction of the third winding - is configured so that the excitation direction generated by the first and second windings L, L2 is opposite to the excitation direction. As a result, transformer T is not subjected to DC excitation. Therefore, although the conventional conventional method used a large transformer to prevent transmission characteristics from deteriorating, by using the circuit of the present invention, it is possible to ensure good transmission characteristics even if the transformer T is made very small. Ta. On the other hand, recently there has been a tendency to try to use ICs and small components in this type of circuit, but in conventional circuits, the gap between the printed circuit boards is unnecessarily wide due to the large transformer, and the mounting This has the drawback that the reduced density makes the device large and expensive.

また変成器をトランジスタ回路で置きかえる試みもなさ
れているが雷サージ電圧に対する保護のためトランジス
タの高耐圧対策、消費電力のための放熱対策、A線B線
に対する高平衡度対策、雑音防止対策などの問題があり
、高価格となる欠点がある。本発明は、前記の変成器の
トランジスタ化の欠点を解決するため前述のように変成
器を使用してその優れた対雷サージ耐力、良好な対地平
衡度、微少な電力消費を活かしながら簡単な電子回路と
の組合せで磁気的には直流を非重量化して変成器の磁束
を有効に利用することに特徴があり、回路の小形化と経
済化を実現できるので実用上の効果が大きい。また、本
発明の実施例を示す第2図において端子X,,X2間の
短絡を除き、点線で示すように電流制御形または電圧制
御形のネガティブインピーダンス回路Nを挿入すると、
加入者線損失を補償することができるため出力端子Y,
,Y2に対し効率よく音声信号を伝送することができる
Attempts have also been made to replace the transformer with a transistor circuit, but measures such as high voltage resistance of the transistor to protect against lightning surge voltage, heat dissipation measures to reduce power consumption, high balance between A and B lines, noise prevention measures, etc. There are problems and disadvantages of high prices. In order to solve the disadvantages of the transistorized transformer, the present invention utilizes the transformer as described above to take advantage of its excellent anti-surge resistance, good ground balance, and minimal power consumption, while also achieving simple construction. In combination with electronic circuits, it is characterized by the fact that the direct current is magnetically weightless and the magnetic flux of the transformer is effectively used, making it possible to make the circuit smaller and more economical, which has a great practical effect. In addition, in FIG. 2 showing the embodiment of the present invention, if the short circuit between terminals X and X2 is removed and a current control type or voltage control type negative impedance circuit N is inserted as shown by the dotted line,
Since it is possible to compensate for subscriber line loss, the output terminal Y,
, Y2 can be efficiently transmitted.

本発明によれば、前記の利点に加えて、交換装置の通話
路を電子化したときに生じる伝送損失を簡単で経済的な
回路により高い精度で補償できるので実用上の価値が高
い。
According to the present invention, in addition to the above-mentioned advantages, the transmission loss that occurs when the communication path of the switching device is computerized can be compensated for with high precision using a simple and economical circuit, and therefore has high practical value.

第3図は第2図におけるコンデンサC3を除去し、変成
器Tの第3巻線L3の第2の出力端子側Y3に音声周波
側路回路Kおよび直流電位検出回路T4をそれぞれ接続
した実施例を示す。
FIG. 3 shows an embodiment in which the capacitor C3 in FIG. 2 is removed and an audio frequency bypass circuit K and a DC potential detection circuit T4 are connected to the second output terminal side Y3 of the third winding L3 of the transformer T, respectively. shows.

音声周波側路回路Kとしては、出力端子Y2と接地間に
ダイオードD,およびD2を電話機がオフフツクしたと
き直流電流が流れるように直列接続して構成されている
。また、直流電位検出回路F4としては、トランジスタ
Q、抵抗R5,R6により出力端子Y2の電位レベルを
適当な電圧に変換して出力端子Y3に出力するように構
成されている。したがって、音声周波信号の不平衡出力
化と電話器のオフフックの検出が可能となり実用的価値
が高い。以上の通り本発明によれば、主として1次側の
第1巻線と第2巻線との巻回数の和が2次側の第3巻線
の巻回数と等しく、かつ2次側の励磁方向が1次側と逆
になるように構成された変成器を用い、かつ前記変成器
の1次側のコンデンサと第2巻線との接続点と2次側と
の間に直流非励磁化のための電流の経路として作用する
電流通過回路を接続して構成しているため、変成器にお
ける直流励磁を防止することができ、これによって小型
の変成器においても音声信号の伝送特性を向上せしめ、
かつ全体として回路構成が簡単で経済的な利点を有する
The audio frequency bypass circuit K is constructed by connecting diodes D and D2 in series between the output terminal Y2 and the ground so that a direct current flows when the telephone goes off-hook. Further, the DC potential detection circuit F4 is configured to convert the potential level of the output terminal Y2 into an appropriate voltage using a transistor Q and resistors R5 and R6 and output it to the output terminal Y3. Therefore, it is possible to output an audio frequency signal unbalanced and to detect off-hook of the telephone, which has high practical value. As described above, according to the present invention, the sum of the number of turns of the first winding and the second winding on the primary side is equal to the number of turns of the third winding on the secondary side, and the excitation of the secondary side A transformer configured such that the direction is opposite to that of the primary side is used, and a direct current de-energizer is applied between the connection point between the primary side capacitor and the second winding of the transformer and the secondary side. Because the transformer is constructed by connecting a current passing circuit that acts as a current path for the ,
Moreover, the overall circuit configuration is simple and economical.

【図面の簡単な説明】[Brief explanation of drawings]

第1図は従来の電話機終端回路、第2図は本発明にかか
る電話機終端回路の実施例、第3図は本発明の実施例に
適用される音声周波出力を不平衡とする音声周波側路回
路および電話機のオフフックを検出する直流電位検出回
路の具体的構成を示す。 E…・・・電話機、T……変成器、L,〜L…・・・第
1〜第3巻線、C,〜C4・・・・・・コンデンサ、V
,,V2・・・・・・直流電源、日・・・・・・高イン
ピーダンス電流通過回路、F3・・・…直流電位検出回
路、N……ネガティブインピーダンス回路、Y,,Y2
……出力端子、S.・・・・・・接点、W・・・…呼出
信号源、Z・・・・・・バリスタ。 オ3図 汁1図 オ2図
FIG. 1 shows a conventional telephone terminal circuit, FIG. 2 shows an embodiment of the telephone terminal circuit according to the present invention, and FIG. 3 shows an audio frequency bypass circuit that makes the audio frequency output unbalanced, which is applied to an embodiment of the present invention. The circuit and the specific configuration of a DC potential detection circuit for detecting off-hook of a telephone are shown. E...Telephone, T...Transformer, L, ~L...1st to 3rd windings, C, ~C4...Capacitor, V
,,V2...DC power supply, Day...High impedance current passing circuit, F3...DC potential detection circuit, N...Negative impedance circuit, Y,,Y2
...Output terminal, S. ...Contact, W...Call signal source, Z...Varistor. O 3 figures Juice 1 figure O 2 figures

Claims (1)

【特許請求の範囲】[Claims] 1 電話機配線のA線、B線に変成器の第1巻線および
第2巻線の一端を夫々接続し、前記第1巻線および第2
巻線を通して電話機へ直流電流を供給する交換装置の電
話機終端回路において、前記変成器の第1巻線および第
2巻線の他端間に第1コンデンサを挿入して音声周波結
合し、前記第1巻線と第1コンデンサとの接続点に直流
電源の一端を接続し、この直流電源の他端を接地し、前
記第2巻線および第1コンデンサの接続点と前記変成器
の第3巻線の第1端子との間に交流信号に対してインピ
ーダンスが高く直流信号に対しては低抵抗な高インピー
ダンス電流通過回路を接続し、前記第3巻線の第2端子
を入力抵抗の小さい直流電位検出回路の入力部を介して
接地し、前記第3巻線の両端よりコンデンサ結合にて音
声信号を取り出すことを特徴とする電話機終端回路。
1 Connect one end of the first winding and the second winding of the transformer to the A line and B line of the telephone wiring, respectively, and
In a telephone terminal circuit of a switching device that supplies direct current to a telephone through a winding, a first capacitor is inserted between the other ends of the first winding and the second winding of the transformer to perform audio frequency coupling; One end of a DC power source is connected to the connection point between the first winding and the first capacitor, the other end of the DC power source is grounded, and the connection point between the second winding and the first capacitor and the third winding of the transformer are connected. A high impedance current passing circuit with high impedance for AC signals and low resistance for DC signals is connected between the first terminal of the third winding and the second terminal of the third winding. 1. A telephone terminal terminal circuit, characterized in that the input section of the third winding is grounded through an input section thereof, and an audio signal is extracted from both ends of the third winding through capacitor coupling.
JP54144192A 1979-11-07 1979-11-07 telephone terminal circuit Expired JPS6030147B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP54144192A JPS6030147B2 (en) 1979-11-07 1979-11-07 telephone terminal circuit

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP54144192A JPS6030147B2 (en) 1979-11-07 1979-11-07 telephone terminal circuit

Publications (2)

Publication Number Publication Date
JPS5668051A JPS5668051A (en) 1981-06-08
JPS6030147B2 true JPS6030147B2 (en) 1985-07-15

Family

ID=15356338

Family Applications (1)

Application Number Title Priority Date Filing Date
JP54144192A Expired JPS6030147B2 (en) 1979-11-07 1979-11-07 telephone terminal circuit

Country Status (1)

Country Link
JP (1) JPS6030147B2 (en)

Also Published As

Publication number Publication date
JPS5668051A (en) 1981-06-08

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