JPS6262090B2 - - Google Patents
Info
- Publication number
- JPS6262090B2 JPS6262090B2 JP1808580A JP1808580A JPS6262090B2 JP S6262090 B2 JPS6262090 B2 JP S6262090B2 JP 1808580 A JP1808580 A JP 1808580A JP 1808580 A JP1808580 A JP 1808580A JP S6262090 B2 JPS6262090 B2 JP S6262090B2
- Authority
- JP
- Japan
- Prior art keywords
- branch
- terminal
- secondary winding
- transformer
- transformer used
- 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
Links
Classifications
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03H—IMPEDANCE NETWORKS, e.g. RESONANT CIRCUITS; RESONATORS
- H03H7/00—Multiple-port networks comprising only passive electrical elements as network components
- H03H7/48—Networks for connecting several sources or loads, working on the same frequency or frequency band, to a common load or source
Landscapes
- Details Of Television Systems (AREA)
Description
【発明の詳細な説明】
本発明は、例えばUHF,VHF帯テレビ信号
と、例えば搬送式インターホン信号等の相互通信
信号とを共存させる有線通信設備に使用される分
岐器に関する。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a branching device used in wired communication equipment that allows for example UHF and VHF band television signals to coexist with mutual communication signals such as carrier intercom signals.
搬送式インターホン等の通信回線として、テレ
ビ共同受信設備を共用することが考えられる。例
えば第1図に示す有線通信設備の配線図を用いて
説明すると、分岐器2の分岐端子2a,2cには
それぞれテレビ受像機3が接続され、また2b,
2dにはそれぞれ搬送式インターホン4が接続さ
れる。かゝる配線状態において、受信アンテナ1
で受信されたテレビ信号は分岐器2の分岐端子2
a,2cに接続されたテレビ受像機3にそれぞれ
供給される。一方、搬送式インターホン相互の通
信信号は分岐器2の分岐端子2b,2d間を行き
来する。ところが周知のように、テレビ共同受信
に用いられる分岐器は、テレビ受像機の局部発振
器から漏洩するスプリアスが分岐端子から逆流し
て他のテレビ受像機にビート妨害を与えることを
防止する目的で信号分岐特性に方向性を持たせて
ある。このことを第2図を用いて説明するに、入
力端子5から分岐端子7へ分岐される信号は、例
えば結合損失10dB、逆結合損失30dBの分岐器の
場合、10dBの減衰を受け、また出力端子6から
分岐端子7へ抜ける信号は30dBの減衰を受ける
ため、分岐器2の分岐端子2b,2d間を行き来
する双方向信号それぞれは、分岐器2に上記例の
分岐器を使用した場合10dBと30dBを加算した
40dBとなり、これは相手の搬送式インターホン
からの信号が比率で表わすと100分の1に減じら
れることを意味し、通信の明瞭度が著しく低下す
るといつた問題点がある。 It is conceivable to share common television reception equipment as a communication line such as a carrier-type intercom. For example, using the wiring diagram of wired communication equipment shown in FIG. 1, a television receiver 3 is connected to branch terminals 2a and 2c of a branch 2, and
A transport type intercom 4 is connected to each of the terminals 2d. In such a wiring state, the receiving antenna 1
The TV signal received at the branch terminal 2 of the branch 2
The signals are supplied to the television receivers 3 connected to terminals a and 2c, respectively. On the other hand, communication signals between the carrier intercoms go back and forth between the branch terminals 2b and 2d of the branching device 2. However, as is well known, the branching device used for joint TV reception is designed to prevent spurious signals leaking from the local oscillator of the TV receiver from flowing back from the branch terminal and causing beat interference to other TV receivers. The branching characteristics have directionality. To explain this using Figure 2, the signal branched from the input terminal 5 to the branch terminal 7 will be attenuated by 10 dB in the case of a splitter with a coupling loss of 10 dB and a reverse coupling loss of 30 dB, Since the signal passing from the terminal 6 to the branch terminal 7 is attenuated by 30 dB, each bidirectional signal going back and forth between the branch terminals 2b and 2d of the branch 2 has an attenuation of 10 dB when the branch in the above example is used as the branch 2. and 30dB added
40 dB, which means that the signal from the other party's carrier intercom is reduced by a factor of 100, which poses the problem of significantly reducing the clarity of communication.
本発明は、例えば搬送式インターホン等の特定
の周波数帯の通信回線としてテレビ共同受信設備
を共用させる場合に用いて好適な、特定周波数の
信号のみ双方向性を有し、テレビ信号においては
方向性を有する分岐器を提供することを目的とす
る。 The present invention is suitable for use when common television reception equipment is shared as a communication line of a specific frequency band such as a carrier intercom, and only signals of a specific frequency have bidirectionality, and television signals have directional properties. The object of the present invention is to provide a turnout having the following features.
第3図は本発明の分岐器の第1番目の実施例を
示すもので、8は入力端子、9は出力端子、10
は分岐端子、11は第1の分岐要素として用いら
れている1:nの巻比で構成されるトランスで、
L1を1次巻線、L2を2次巻線として、それら
は互いに充分な結合状態で例えば円筒状のフエラ
イトコアーに閉磁路を形成するごとく巻かれて構
成される。そして1次巻線L1のa側は入力端子
8に接続され、b側は出力端子9に接続され、2
次巻線L2のc側は分岐端子10に接続され、d
側は特定周波数双方向性発生要素16のk側に接
続される。12は第2の分岐要素として用いられ
ているトランスで、L3を1次巻線、I4を2次
巻線として、それらは互いに充分な結合状態で例
えば円筒状のフエライトコアーに閉磁路を形成す
るごとく巻かれて構成される。2次巻線L4のe
側は入力端子8に接続され、f側は高周波的に接
地される。1次巻線L3のg側は分岐端子10に
接続され、h側は抵抗要素13の例えばi側に接
続され、他端j側は接地される。尚抵抗要素13
は、分岐器の方向性を生じせしめるためのもの
で、例えば第4図に示す周知の抵抗器14が用い
られ、更に第5図に示すように抵抗器14に直流
もしくは商用電源周波数の交流を阻止し、高周波
のみを通過させることを目的として、高周波にお
いて極めてリアクタンスの小さなコンデンサー1
5を直列に接続し用いてもよい。16は特定の周
波数において、分岐器に双方向性の特性を持たせ
るようにしてある特定周波数双方向性発生要素
で、例えば第6図に示すようにコンデンサー17
とコイル18で構成される並列共振回路が用いら
れ、その一端例えばm側が接地されればその他端
k側は前記トランス11の2次巻線L2のd側と
接続される。尚、特定周波数双方向性発生要素1
6は第7図に示すように、コンデンサー17とコ
イル18との並列回路と、直流もしくは商用電源
周波数の交流を阻止し、高周波のみを通過させる
ことを目的とした高周波において極めてリアクタ
ンスの小さなコンデンサー19とを直列に接続し
たものを用いてもよい。第8図は、本発明の分岐
器の第2番目の実施例を示すもので、第1のトラ
ンス11の2次巻線のc側に、特定周波数双方向
性発生要素16の一端例えばk側を接続し、他端
m側は分岐端子10に接続し、d側は高周波的に
接地してあり、その他は第3図の構成で説明した
ものと同一である。第9図は、本発明の分岐器の
第3番目の実施例を示すもので、8は入力端子、
9は出力端子、10は分岐端子である。11,1
2はそれぞれ第1,第2の分岐要素を形成するた
めのトランスで、これらは第3図の構成で説明し
たものと同一である。トランス11の1次巻線L
1のa側は入力端子8に接続され、b側は出力端
子9に接続され、2次巻線L2のc側は分岐端子
10に接続され、d側は高周波的に接地される。
トランス12の2次巻線L4のe側は入力端子8
に接続され、f側は特定周波数双方向性発生要素
16の例えばk側に接続される。1次巻線L3の
g側は分岐端子10に接続され、h側は抵抗要素
13の例えばi側に接続される。13は第3図で
説明したごとく作用をする抵抗要素でその構成は
第4図、第5図に示すものと同一のものを用い、
前記トランス12の1次巻線L3のh側に接続さ
れた反対側の他の一端j側は接地される。16
は、第3図で説明したごとく作用する特定周波数
双方向性発生要素で、その構成は第6図、第7図
に示すものと同一のものを用い、前記トランス1
2の2次巻線L4のf側に接続された反対側の他
の一端m側は接地される。第10図は、本発明の
分岐器の第4番目の実施例を示すもので、第2の
トランス12の2次巻線のe側に、特定周波数双
方向性発生要素16の一端例えばk側を接続し、
他端m側は入力端子8に接続し、f側は高周波的
に接地してあり、その他は第9図の構成で説明し
たものと同一である。 FIG. 3 shows the first embodiment of the branching device of the present invention, in which 8 is an input terminal, 9 is an output terminal, and 10 is an input terminal.
is a branch terminal, 11 is a transformer with a turns ratio of 1:n used as the first branch element,
L1 is a primary winding, L2 is a secondary winding, and these windings are sufficiently coupled to each other and wound around a cylindrical ferrite core, for example, to form a closed magnetic path. The a side of the primary winding L1 is connected to the input terminal 8, the b side is connected to the output terminal 9, and the
The c side of the next winding L2 is connected to the branch terminal 10, and the d
side is connected to the k side of the specific frequency bidirectional generation element 16. 12 is a transformer used as a second branching element, with L3 as a primary winding and I4 as a secondary winding, these are sufficiently coupled to each other to form a closed magnetic path in, for example, a cylindrical ferrite core. It is made up of a roll. e of secondary winding L4
The side is connected to the input terminal 8, and the f side is grounded in terms of high frequency. The g side of the primary winding L3 is connected to the branch terminal 10, the h side is connected to, for example, the i side of the resistance element 13, and the other end j side is grounded. Furthermore, resistance element 13
The resistor 14 shown in FIG. 4 is used to create the directionality of the branch, and the resistor 14 is connected to a direct current or an alternating current at the commercial power frequency as shown in FIG. A capacitor 1 with extremely low reactance at high frequencies for the purpose of blocking high frequencies and passing only high frequencies.
5 may be connected in series. Reference numeral 16 denotes a specific frequency bidirectional generation element which is designed to give the splitter bidirectional characteristics at a specific frequency, for example, as shown in FIG. 6, a capacitor 17
A parallel resonant circuit composed of a coil 18 and a coil 18 is used, and if one end, for example, the m side is grounded, the other end k side is connected to the d side of the secondary winding L2 of the transformer 11. In addition, specific frequency bidirectionality generation element 1
6, as shown in FIG. 7, includes a parallel circuit of a capacitor 17 and a coil 18, and a capacitor 19 with extremely low reactance at high frequencies, whose purpose is to block direct current or alternating current at the commercial power frequency and pass only high frequencies. You may also use one in which these are connected in series. FIG. 8 shows a second embodiment of the branching switch of the present invention, in which one end of the specific frequency bidirectionality generating element 16 is connected to the c side of the secondary winding of the first transformer 11, for example, to the k side. The other end m side is connected to the branch terminal 10, and the d side is grounded in terms of high frequency, and the other end is the same as that explained in the configuration of FIG. 3. FIG. 9 shows a third embodiment of the branching switch of the present invention, in which 8 is an input terminal;
9 is an output terminal, and 10 is a branch terminal. 11,1
2 are transformers for forming the first and second branch elements, respectively, and these are the same as those described in the configuration of FIG. 3. Primary winding L of transformer 11
The a side of the secondary winding L2 is connected to the input terminal 8, the b side is connected to the output terminal 9, the c side of the secondary winding L2 is connected to the branch terminal 10, and the d side is grounded at high frequency.
The e side of the secondary winding L4 of the transformer 12 is connected to the input terminal 8.
The f side is connected to, for example, the k side of the specific frequency bidirectionality generating element 16. The g side of the primary winding L3 is connected to the branch terminal 10, and the h side is connected to, for example, the i side of the resistance element 13. Reference numeral 13 denotes a resistance element that operates as explained in FIG. 3, and its configuration is the same as that shown in FIGS. 4 and 5.
The other end j side of the primary winding L3 of the transformer 12 on the opposite side connected to the h side is grounded. 16
is a specific frequency bidirectionality generating element that operates as explained in FIG. 3, and its configuration is the same as that shown in FIGS. 6 and 7.
The other end m side of the secondary winding L4 on the opposite side connected to the f side is grounded. FIG. 10 shows a fourth embodiment of the branching switch of the present invention, in which one end of the specific frequency bidirectionality generating element 16 is connected to the e side of the secondary winding of the second transformer 12, for example, to the k side. connect,
The other end m side is connected to the input terminal 8, the f side is grounded in terms of high frequency, and the other end is the same as that described in the configuration of FIG. 9.
次に、上記構成の分岐回路について、例えば第
3図に示すものを代表的に選び、その入力端子
8、出力端子9、分岐端子10のインピーダンス
をそれぞれ75Ω、結合損失10dBで、搬送式イン
ターホンの信号周波数を20MHzとした場合の各部
の定数について説明する。 Next, for the branch circuit having the above configuration, for example, the one shown in FIG. The constants of each part when the signal frequency is 20MHz will be explained.
第1のトランス11は、筒状のフエライトコア
ーを用いて、それに1次巻線L1と2次巻線L2
を1:3で巻き、第2のトランス12には筒状の
フエライトコアーを用いてそれに1次巻線L3と
2次巻線L4を巻数比1:3で巻く。抵抗要素1
3の抵抗値は50〜80Ω、特定周波数双方向性発生
要素16のコンデンサー17は20PF、コイル1
8は3μHとする。 The first transformer 11 uses a cylindrical ferrite core, and has a primary winding L1 and a secondary winding L2.
A cylindrical ferrite core is used for the second transformer 12, and a primary winding L3 and a secondary winding L4 are wound around it at a turns ratio of 1:3. Resistance element 1
The resistance value of 3 is 50 to 80Ω, the capacitor 17 of the specific frequency bidirectional generation element 16 is 20PF, the coil 1
8 is 3 μH.
第11図は上記数値で構成された分岐回路につ
いての特性図を示すもので、Aは挿入損失で、入
力端子8から信号を入れた場合における出力端子
9での信号の損失量、Bは結合損失で入力端子8
から信号を入れた場合における分岐端子10での
信号の損失量、Cは逆結合損失で出力端子9から
信号を入れた場合における分岐端子10での信号
の損失量を示す。図に示す様にテレビの周波数帯
域において90〜222MHzのVHF帯では結合損失
10dB、逆結合損失30〜35dB、挿入損失1dB、470
〜770MHzのUHF帯では結合損失11dB、逆結合損
失20〜25dB、挿入損失1.5dB、搬送式インターホ
ンの使用周波数である20MHzにおいて結合損失
11dB、逆結合損失12dB、挿入損失1.2dBの特性が
得られた。尚上記分岐器を2個縦続してその分岐
端子それぞれに搬送式インターホンを接続した場
合の、インターホン相互間の信号の減衰は逆結合
損失12dBと結合損失11dBを加算した23dBとな
り、相手の搬送式インターホンからの信号は、比
率で表わすと約14分の1の減衰で済む。 Figure 11 shows a characteristic diagram for the branch circuit configured with the above numerical values, where A is the insertion loss, the amount of signal loss at the output terminal 9 when a signal is input from the input terminal 8, and B is the coupling Input terminal 8 due to loss
C indicates the amount of signal loss at the branch terminal 10 when a signal is input from the output terminal 9, and C represents the amount of signal loss at the branch terminal 10 when a signal is input from the output terminal 9. As shown in the figure, coupling loss occurs in the VHF band from 90 to 222MHz in the television frequency band.
10dB, reverse coupling loss 30-35dB, insertion loss 1dB, 470
In the UHF band ~770MHz, coupling loss is 11 dB, reverse coupling loss is 20 to 25 dB, insertion loss is 1.5 dB, and coupling loss is at 20 MHz, which is the frequency used by carrier intercoms.
Characteristics of 11 dB, reverse coupling loss of 12 dB, and insertion loss of 1.2 dB were obtained. In addition, when two of the above branchers are connected in series and a carrier type intercom is connected to each branch terminal, the signal attenuation between the intercoms will be 23 dB, which is the sum of the reverse coupling loss of 12 dB and the coupling loss of 11 dB. The signal from the intercom only needs to be attenuated by a factor of about 14.
尚、第12図は本発明の第3図の分岐器の分岐
端子10に周知の2分配器20を接続し、テレビ
受像機3と搬送式インターホン4を独立して接続
できるように構成した回路を示す。 FIG. 12 shows a circuit in which a well-known two-way splitter 20 is connected to the branch terminal 10 of the turnout shown in FIG. shows.
第13図は第12図の分岐回路を用いた分岐器
の共同受信設備の配線図で、2個の分岐端子2
1,22の一方分岐端子21はテレビ受像機3の
アンテナ端子に、また、他の分岐端子22は搬送
式インターホン4の送受信端子にそれぞれ給電線
23を介して接続する。 Figure 13 is a wiring diagram of a joint reception facility for a branch using the branch circuit shown in Figure 12, with two branch terminals 2
One branch terminal 21 of 1 and 22 is connected to the antenna terminal of the television receiver 3, and the other branch terminal 22 is connected to the transmitting/receiving terminal of the transport type intercom 4, respectively, via a feed line 23.
以上のように本発明のものは、テレビ放送の信
号においては方向性を持つようにしてあり、例え
ば搬送式インターホン等の任意に選ばれ定められ
る周波数帯の信号については双方向性を持つよう
にしてあるから、テレビ受像機の局部発振器から
漏洩するスプリアスが分岐端子から逆流して受信
設備後段へ流入することが防止でき、また前段分
岐器の分岐端子に接続されたテレビ受像機の画質
に悪影響を及ぼすこともなく、更に例えば搬送式
インターホン等の相互間の通信回線における損失
は著しく少なくなるので明瞭度の極めて高い通信
ができ、重要な通信内容を正確に伝えることがで
きるという効果を得ることができる。 As described above, in the present invention, TV broadcast signals have directional properties, and signals in arbitrarily selected and determined frequency bands such as carrier intercoms have bidirectional properties. This prevents spurious signals leaking from the TV receiver's local oscillator from flowing backwards through the branch terminals and into the later stages of the receiving equipment, and also prevents negative effects on the image quality of the TV receiver connected to the branch terminals of the front branch. Furthermore, since the loss in communication lines between devices such as carrier intercoms is significantly reduced, communication with extremely high clarity can be achieved, and important communication contents can be accurately conveyed. Can be done.
第1図は有線通信設備の配線図、第2図は分岐
器のシンボルマークを示す図、第3図は本発明の
分岐器の第1番目の実施例を示す図、第4図は抵
抗要素の一例を示す図、第5図は抵抗要素の異な
る図、第6図は特定周波数双方向性発生要素の一
例を示す図、第7図は特定周波数双方向性発生要
素の異なる図、第8図は本発明の分岐器の第2番
目の実施例を示す図、第9図は本発明の分岐器の
第3番目の実施例を示す図、第10図は本発明の
分岐器の第4番目の実施例を示す図、第11図は
第3図に示した第1番目の分岐器による特性図、
第12図は第3図に示した第1番目の分岐器の異
なる図、第13図は第12図に示した分岐器を用
いた共同受信設備の使用状態を示す図。
8……入力端子、9……出力端子、10……分
岐端子、11……第1のトランス、12……第2
のトランス、13……抵抗要素、16……特定周
波数双方向性発生要素。
Fig. 1 is a wiring diagram of wired communication equipment, Fig. 2 is a diagram showing the symbol mark of a switch, Fig. 3 is a diagram showing the first embodiment of the switch of the present invention, and Fig. 4 is a resistance element. FIG. 5 is a diagram showing an example of a different resistance element; FIG. 6 is a diagram showing an example of a specific frequency bidirectional generating element; FIG. 7 is a diagram showing a different specific frequency bidirectional generating element; FIG. The figure shows the second embodiment of the turnout of the present invention, FIG. 9 shows the third embodiment of the turnout of the invention, and FIG. 10 shows the fourth embodiment of the turnout of the invention. FIG. 11 is a characteristic diagram of the first turnout shown in FIG. 3,
FIG. 12 is a different view of the first branch shown in FIG. 3, and FIG. 13 is a diagram showing how the communal reception equipment using the branch shown in FIG. 12 is used. 8...Input terminal, 9...Output terminal, 10...Branch terminal, 11...First transformer, 12...Second
transformer, 13... resistance element, 16... specific frequency bidirectional generation element.
Claims (1)
スの1次巻線の一端を入力端子に、また他端を出
力端子にそれぞれ接続し、2次巻線の一端を分岐
端子に接続すると共に、その他端を接地し、一
方、第2の分岐要素として用いられているトラン
スの1次巻線の一端を上記分岐端子に接続すると
共に、その他端は抵抗要素を介して接地し、2次
巻線の1端は入力端子に接続すると共に、その他
端は接地し、かつ上記第1の分岐要素として用い
られているトランスの二次巻線の他端とは接続状
態にしてあり、その上、入力端子と第2の分岐要
素として用いられているトランスの二次巻線の一
端とを結ぶ接続回路、第2の分岐要素として用い
られているトランスの二次巻線の他端と第1の分
岐要素として用いられているトランスの二次巻線
の他端とを結ぶ接続回路および第1の分岐要素と
して用いられているトランスの二次巻線の一端と
分岐端子とを結ぶ接続回路のいずれかに、特定周
波数双方向性発生要素を介設したことを特徴とす
る分岐器。1 Connect one end of the primary winding of the transformer used as the first branch element to the input terminal and the other end to the output terminal, connect one end of the secondary winding to the branch terminal, and On the other hand, one end of the primary winding of the transformer used as the second branch element is connected to the branch terminal, and the other end is grounded via a resistance element, and the secondary winding is connected to the branch terminal. One end is connected to the input terminal, the other end is grounded, and connected to the other end of the secondary winding of the transformer used as the first branch element, and the input terminal and one end of the secondary winding of the transformer used as the second branch element, and the other end of the secondary winding of the transformer used as the second branch element and the first branch element. Either the connection circuit that connects the other end of the secondary winding of the transformer used as the first branch element and the connection circuit that connects the branch terminal and one end of the secondary winding of the transformer used as the first branch , a branching device characterized by having a specific frequency bidirectional generation element interposed therein.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1808580A JPS56115015A (en) | 1980-02-18 | 1980-02-18 | Branching device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1808580A JPS56115015A (en) | 1980-02-18 | 1980-02-18 | Branching device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS56115015A JPS56115015A (en) | 1981-09-10 |
| JPS6262090B2 true JPS6262090B2 (en) | 1987-12-24 |
Family
ID=11961801
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1808580A Granted JPS56115015A (en) | 1980-02-18 | 1980-02-18 | Branching device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS56115015A (en) |
-
1980
- 1980-02-18 JP JP1808580A patent/JPS56115015A/en active Granted
Also Published As
| Publication number | Publication date |
|---|---|
| JPS56115015A (en) | 1981-09-10 |
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