JP2012257109A - Amplifier for catv transmission - Google Patents

Abstract

PROBLEM TO BE SOLVED: To employ a switching circuit for switching between terminal specifications 1, 2 by means of mechanical switches, and detect a setting error and notify an operator at terminal specification switching.SOLUTION: First to fourth slide switches 35a-35d are disposed between a first input terminal 31 for a trunk signal and a second input terminal 32 for a branch signal, and a first output terminal 33 and a second output terminal 34, to switch signal output states of the output terminals 33, 34 to terminal specifications 1 or 2. Light emitting diodes 67, 68 adapted to turn on or off in accordance with a current direction are disposed between signal output ends of the slide switches 35b, 35d, and a light emitting diode 53 is disposed on a signal input side of the slide switch 35c. A DC power supply E1 supplied from a signal input side of the slide switch 35a drives either of the light emitting diodes 67, 68 to provide a terminal specification indication on a correct switch setting, or drives the light emitting diode 53 to provide an error indication on a wrong switch operation.

Description

  The present invention relates to an amplifier for CATV transmission that can correspond to a plurality of terminal specifications using a mechanical switch.

  In a CATV system, when transmitting a television signal received by a receiving point device (head end), CATV transmission amplifiers (main line amplifiers) are connected in cascade in a multistage cascade with a high-quality coaxial cable. The signal is amplified and transmitted to an area where subscriber terminals gather (see, for example, Patent Document 1).

  In existing facilities, the CATV transmission amplifier may be replaced due to, for example, product life or failure, or expansion of the transmission band.

  In the above-mentioned CATV transmission amplifier, the terminal specifications of a trunk branch amplifier having a trunk output and a branch output or a trunk distribution amplifier having a trunk output and a distribution output are as shown in FIGS. 7 (a) to 7 (d). Various types are used.

  FIG. 7A shows an example of a trunk / branch type (1) in which one trunk line input is one trunk line output and four branch outputs.

  FIG. 7B shows an example of a trunk / branch type (2) in which one trunk line input is one trunk line output and two branch outputs.

  FIG. 7C shows an example of a branch type in which one main line input has five branch outputs.

  FIG. 7D shows an example of a main line distribution type in which one main line input is distributed to three three main line outputs.

  As described above, the terminal specifications of the main branch amplifier and main distribution amplifier have multiple output terminals, and output levels and signal quality (distortion characteristics and noise characteristics) differ depending on the connected terminals. Are used, but most of them are classified into two types: terminal specification 1 shown in FIG. 8 (a) and terminal specification 2 shown in FIG. 8 (b). FIG. 8 shows the terminal specifications of the trunk branch amplifier 10, but the same applies to the trunk distribution amplifier.

  The terminal specification 1 of the main branch amplifier 10 shown in FIG. 8A is provided with the input terminal 11 and the first branch output terminal 13a on the left side of the case body, and the main line output terminal 12 and the second branch output terminal on the right side. 13b is provided. In this case, the trunk line output terminal 12 is provided at a symmetrical position between the input terminal 11 and the case body. A second branch output terminal 13b is provided at a symmetrical position between the first branch output terminal 13a and the case body.

  The terminal specification 2 of the main branch amplifier 10 shown in FIG. 8B is provided with the input terminal 11 and the first branch output terminal 13a on the left side of the case body, and the second branch output terminal 13b and the main line output terminal on the right side. 12 are provided. In this case, the second branch output terminal 13b is provided at a symmetrical position between the input terminal 11 and the case body, and the main line output terminal 12 is provided at a symmetrical position between the first branch output terminal 13a and the case body. That is, in the terminal specification 2 of the trunk branch amplifier 10 shown in FIG. 8B, the positions of the trunk output terminal 12 and the second branch output terminal 13b are interchanged with respect to the terminal specification 1.

  Domestic manufacturers currently employ the terminal specification 1 shown in FIG. 8A as the main branching amplifier 10, but overseas manufacturers have adopted the terminal specification 2. Moreover, terminal specifications 2 may be adopted in old equipment.

  However, at present, few manufacturers adopt the terminal specification 2 shown in FIG. 8B. For this reason, when the amplifier of the terminal specification 2 is modified by exchanging the original position, that is, when only the amplifier is replaced using the cable as it is, the amplifier of the terminal specification 1 shown in FIG. 8A must be selected. In many cases, a main output cable and a branch output cable have to be crossed and connected, and the construction is complicated, the cable does not reach, and the cable has to be redrawn.

  In order to solve such a problem, conventionally, in the trunk branch amplifier 10 having the terminal specification 1 shown in FIG. 8A, the output side of the trunk amplifier 14 and the branch amplifier 15 as shown in FIG. Switching means 16 is provided, and the switching means 16 outputs the trunk signal amplified by the trunk amplifier 14 to the trunk output terminal 12, and the branch signal amplified by the branch amplifier 15 is supplied to the second branch output terminal 13b. Terminal specification 1 for output and a main line signal amplified by the main line amplifying unit 14 are output to the second branch output terminal 13b side, and a branch signal amplified by the branch amplifying unit 15 is output to the main line output terminal 12 side It is configured to be switched to specification 2.

In this case, as the switching means 16,
(1) One that uses an insertion-type switching printed circuit board and replaces the circuit board to switch the circuit.

(2) A circuit that uses a plurality of insertion-type switching printed circuit boards and switches the circuit board to switch circuits.

(3) The circuit is switched using an electronic switch.

(4) Switching a circuit using four mechanical switches, for example, four slide switches.

Etc. are considered.

  When one insertion type switching printed circuit board of (1) is used and the circuit is switched by replacing the circuit board, it is easy to use, but it is difficult to ensure isolation between the trunk line output and the branch output.

  Using a plurality of insertion-type switching printed circuit boards of (2) above and switching the circuit by replacing the board can ensure isolation between the trunk line output and the branch output, but the configuration becomes complicated and the material cost is expensive become.

  In the case of switching the circuit using the electronic switch of (3) above, an expensive switch element is required to switch a high level signal, and a switch circuit for driving the switch element is separately required and distortion is also required. It is likely to occur.

  Switching the circuit using four slide switches (4) above requires a large number of switches, but the unit price per switch is low, and the switches are arranged at intervals of a certain value or more. Therefore, it is possible to secure isolation between the main line output and the branch output.

  FIG. 10 shows a circuit configuration when the terminal specifications are switched by the switching circuit 20 using four slide switches as the switching means 16. FIG. 10A shows the case where the slide switches are switched so as to be the terminal specifications 1. (B) shows the circuit state when the slide switch is switched so that the terminal specification 2 is obtained.

  The switching circuit 20 shown in FIG. 10 includes a first input terminal 21, a second input terminal 22, a first output terminal 23, a second output terminal 24, and first to fourth slide switches 25a to 25d. I have. The trunk signal amplified by the trunk amplifier 14 of the trunk branch amplifier 10 shown in FIG. 9 is input to the first input terminal 21 and amplified by the branch amplifier 15 to the second input terminal 22. A branch signal is input. The first output terminal 23 is connected to the main line output terminal 12 in the main line branch amplifier 10, and the second output terminal 24 is connected to the second branch output terminal 13b.

  The first to fourth slide switches 25a to 25d include a first circuit composed of fixed contacts a1, b1, c1 and a movable contact D1, and a second circuit composed of fixed contacts a2, b2, c2 and a movable contact D2. When the movable contacts D1, D2 are switched to the upper fixed contacts a1, a2 side, the fixed contacts a1-b1 and the fixed contacts a2-b2 are connected, and the movable contacts D1, D2 are fixed on the lower side. When switching to the contact c1, c2 side, the fixed contacts b1-c1 and the fixed contacts b2-c2 are connected.

  In the first slide switch 25a, the fixed contacts a1 and b2 are connected to the first input terminal 21, and the fixed contacts c1 and a2 are grounded. The fixed contact b1 of the first slide switch 25a is connected to the fixed contact b2 of the second slide switch 25b, and the fixed contact b2 of the first slide switch 25a is connected to the fixed contact b1 of the fourth slide switch 25d. .

  In the second slide switch 25b, the fixed contacts c1 and a2 are connected to the first output terminal 23, and the fixed contacts a1 and c2 are grounded.

  In the third slide switch 25c, the fixed contacts c1 and a2 are connected to the second input terminal 22, and the fixed contacts a1 and c2 are grounded. The fixed contact b2 of the third slide switch 25c is connected to the fixed contact b1 of the second slide switch 25b, and the fixed contact b1 of the third slide switch 25c is connected to the fixed contact b2 of the fourth slide switch 25d. Is done.

  In the fourth slide switch 25d, the fixed contacts a1 and c2 are connected to the second output terminal 24, and the fixed contacts c1 and a2 are grounded.

  When the switching circuit 20 configured as described above is in the state of the terminal specification 1, as shown in FIG. 10A, the movable contact D1 of the first slide switch 25a and the second slide switch 25b, D2 is switched to the upper fixed contacts a1 and a2, and the movable contacts D1 and D2 of the third slide switch 25c and the fourth slide switch 25d are switched to the lower fixed contacts c1 and c2.

  When the first to fourth slide switches 25a to 25d are switched as shown in FIG. 10A, the trunk signal input from the trunk amplifier 14 to the first input terminal 21 is indicated by the arrow C1. To the main output terminal 12 from the first output terminal 23 through the fixed contact a1-b1 of the first slide switch 25a and further through the fixed contact b2-a2 of the second slide switch 25b.

  The branch signal input from the branch amplifier 15 to the second input terminal 22 passes through the fixed contact c1-b1 of the third slide switch 25c as indicated by the arrow C2, and further passes through the fourth slide switch 25d. The signal is output from the second output terminal 24 to the second branch output terminal 13b through the fixed contact b2-c2.

  As a result, the trunk signal input to the first input terminal 21 is output from the first output terminal 23, and the branch signal input to the second input terminal 22 is output from the second output terminal 24. Thus, the trunk branch amplifier 10 of FIG. 9 is switched to the terminal specification 1 state.

  When the switching circuit 20 is switched so that the main branching amplifier 10 is in the terminal specification 2, the first slide switch 25a and the second slide switch 25b are movable as shown in FIG. The contacts D1 and D2 are switched to the lower fixed contacts c1 and c2, and the movable contacts D1 and D2 of the third slide switch 25c and the fourth slide switch 25d are switched to the upper fixed contacts a1 and a2.

  When the first to fourth slide switches 25a to 25d are switched as shown in FIG. 10B, the trunk signal input from the trunk amplifier 14 to the first input terminal 21 is indicated by the arrow C1. To the second branch output terminal 13b from the second output terminal 24 through the fixed contact c2-b2 of the first slide switch 25a and further through the fixed contact b1-a1 of the fourth slide switch 25d. The

  The branch signal input from the branch amplifier 15 to the second input terminal 22 passes through the fixed contacts a2-b2 of the third slide switch 25c as indicated by the arrow C2, and further passes through the second slide switch 25b. The signal is output from the first output terminal 23 to the main line output terminal 12 through the fixed contact b1-c1.

  That is, when the first to fourth slide switches 25a to 25d are switched as shown in FIG. 10B, the first to fourth slide switches 25a to 25d are connected in a crossed state, and the trunk line The main line signal input from the amplifying unit 14 to the first input terminal 21 is output from the second output terminal 24 to the second branch output terminal 13b as the main line output, and from the branch amplifying unit 15 to the second input. The branch signal input to the terminal 22 is output from the first output terminal 23 to the main line output terminal 12 as a branch output. As a result, the trunk branch amplifier 10 is switched to the state of the terminal specification 2.

JP 2004-320416 A

  As shown in FIGS. 10A and 10B, the main branch amplifier 10 can be easily switched to the terminal specification 1 or terminal specification 2 state by switching the four slide switches 25a to 25d. .

  However, since the four slide switches 25a to 25d need to maintain a good isolation between the main line output and the branch output, they cannot be arranged close to each other and cannot be operated in conjunction with each other. For this reason, the four slide switches 25a to 25d are independently arranged at a predetermined distance. When the trunk branch amplifier 10 is switched to the terminal specification 1 or the terminal specification 2, each slide switch 25a to 25d is operated separately. There is a concern of making a switching error. In addition, when an error in switching the slide switches 25a to 25d occurs, no means for detecting the error in switching is provided, and the operator cannot be notified of the error.

  The present invention has been made to solve the above problems, and when switching the terminal specifications of a trunk branch amplifier and a trunk distribution amplifier using a plurality of mechanical switches, a setting error during switch operation is reliably detected. An object of the present invention is to provide a CATV transmission amplifier capable of notifying an operator.

The present invention outputs a trunk amplifier that amplifies an input trunk signal, a branch amplifier that branches and amplifies a part of the trunk signal, and a signal amplified by the trunk amplifier or the branch amplifier CATV transmission comprising: a first output terminal, a second output terminal, an output switching unit provided between the main line amplification unit, the branch amplification unit, and the first and second output terminals. An amplifier,
The output switching unit
A terminal specification 1 for outputting a main line signal amplified by the main line amplifying unit to a first output terminal and a branch signal amplified by the branch amplifying unit to a second output terminal, and the main line amplifying unit A plurality of mechanical switches for outputting the amplified trunk signal to the second output terminal and switching to the terminal specification 2 for outputting the branch signal amplified by the branch amplifier to the first output terminal;
Means for supplying a direct current for terminal specification detection to a switching circuit comprising the plurality of mechanical switches;
A terminal specification display lamp for displaying the terminal specification set by the mechanical switch;
An error display lamp for displaying a setting error at the time of switching the mechanical switch;
Terminal specification display means for controlling lighting of the terminal specification display lamp according to the direction of the detected current accompanying the switching of the terminal specification by the mechanical switch;
And setting error display means for detecting a circuit state other than the terminal specification 1 and the terminal specification 2 switched by the plurality of mechanical switches and lighting the error display lamp.

  According to the present invention, when the terminal specification of the CATV transmission amplifier is set by using a plurality of mechanical switches, the terminal specification can be easily switched by the switch operation, and the setting error at the time of the switch operation can be ensured. It can detect and notify an operator.

It is a circuit block diagram of the switching circuit of the main branching amplifier which concerns on one Embodiment of this invention. It is operation | movement explanatory drawing at the time of setting the switching circuit in the embodiment to the terminal specification 1. It is operation | movement explanatory drawing at the time of setting the switching circuit in the same embodiment to the terminal specification 2. It is operation | movement explanatory drawing when a setting error arises at the time of the terminal specification switching of the switching circuit in the embodiment. It is a figure which shows the display state of the light emitting diode for a terminal specification display and the light emitting diode for a setting error display at the time of the terminal specification switching of the switching circuit concerning the embodiment. It is a block diagram which shows the specific structural example of the trunk line branch amplifier which concerns on embodiment of this invention. It is a block diagram which shows the example of various terminal specifications in the conventional amplifier for CATV transmission. The terminal specification of the trunk | branch amplifier used as the object of this invention is shown, (a) is a block diagram of the terminal specification 1, (b) is a block diagram of the terminal specification 2. FIG. It is a block diagram which shows the structure of the trunk line branch amplifier provided with the switching means which switches the terminal specifications 1 and 2. FIG. The structure of the conventional switching circuit which switches the terminal specification of a trunk branch amplifier using four slide switches is shown, (a) is a circuit state diagram at the time of switching to terminal specification 1, (b) is terminal specification 2 It is a circuit state diagram at the time of switching.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a circuit configuration diagram of a switching circuit 30 for switching between terminal specifications 1 and terminal specifications 2 in a CATV transmission amplifier according to an embodiment of the present invention, for example, a trunk branch amplifier (trunk amplifier). This switching circuit 30 corresponds to the switching means 16 in the main branching amplifier shown in FIG.

  The switching circuit 30 includes a first input terminal 31, a second input terminal 32, a first output terminal 33, a second output terminal 34, and four mechanical switches such as first to fourth slide switches. 35a-35d. A signal amplified by the main line amplifying unit 14 of the main line branch amplifier 10 shown in FIG. 9 is input to the first input terminal 31, and a signal amplified by the branch amplifying unit 15 is input to the second input terminal 32. Is entered. The first output terminal 33 is connected to the main line output terminal 12 in the main line branch amplifier 10, and the second output terminal 34 is connected to the second branch output terminal 13b.

  The first to fourth slide switches 35a to 35d include a first circuit composed of fixed contacts a1, b1, c1 and a movable contact D1, and a second circuit composed of fixed contacts a2, b2, c2 and a movable contact D2. When the movable contacts D1, D2 are switched to the upper fixed contacts a1, a2 side, the fixed contacts a1-b1 and the fixed contacts a2-b2 are connected, and the movable contacts D1, D2 are fixed on the lower side. When switching to the contact c1, c2 side, the fixed contacts b1-c1 and the fixed contacts b2-c2 are connected.

  The first input terminal 31 is connected to fixed contacts a1 and c2 of the first slide switch 35a via a capacitor 41. A DC power source E1 is supplied to the fixed contacts a1 and c2 via a resistor 42 and a choke coil 43 in series. A connection point between the resistor 42 and the choke coil 43 is grounded via a capacitor 44. Further, the fixed contacts c1 and a2 of the first slide switch 35a are grounded via capacitors 45 and 46, respectively. Further, the fixed contact b1 of the first slide switch 35a is connected to the fixed contact b2 of the second slide switch 35b, and the fixed contact b2 of the first slide switch 35a is connected to the fixed contact b1 of the fourth slide switch 35d. Is done.

  The second input terminal 32 is connected to the fixed contacts c1 and a2 of the third slide switch 35c via the capacitor 47, and the NPN transistor 51 is connected to the choke coil 48 and the resistor 49 in series. Connected to the base. A connection point between the choke coil 48 and the resistor 49 is grounded via a capacitor 50. The transistor 51 has an emitter grounded, and a DC power supply E2 is supplied to the collector via a resistor 52. Between the collector of the transistor 51 and the ground, an error display lamp, for example, a forward connection light emitting diode (LED) 53 is provided. The light emitting diode 53 is for displaying whether or not the switching operation of the first to fourth slide switches 35a to 35d has been correctly performed, and the switching operation to the terminal specification 1 or the terminal specification 2 has been correctly performed. If the operation is incorrect, it will be lit in red, for example.

  In the third slide switch 35c, the fixed contacts a1 and c2 are grounded via capacitors 54 and 55, respectively. The fixed contact b2 of the third slide switch 35c is connected to the fixed contact b1 of the second slide switch 35b, and the fixed contact b1 of the third slide switch 35c is connected to the fixed contact b2 of the fourth slide switch 35d. Is done.

  In the second slide switch 35b, the fixed contacts a1 and c2 are grounded via capacitors 56 and 57, respectively, and the fixed contacts c1 and a2 are connected to the first output terminal 33 via a capacitor 58.

  In the fourth slide switch 35d, the fixed contacts c1 and a2 are grounded via capacitors 59 and 60, respectively, and the fixed contacts a1 and c2 are connected to the second output terminal 34 via a capacitor 61.

  A series circuit of a choke coil 62, a resistor 63, and a choke coil 64 is provided between the fixed contacts c1, a2 of the second slide switch 35b and the fixed contacts a1, c2 of the fourth slide switch 35d. The connection point between the choke coil 62 and the resistor 63 and the connection point between the resistor 63 and the choke coil 64 are grounded via capacitors 65 and 66, respectively. Further, two terminal specification display lamps, for example, a first light emitting diode 67 and a second light emitting diode 68 are connected in parallel to the resistor 63 so as to have opposite polarities. The two light emitting diodes 67 and 68 are for displaying which of the terminal specifications 1 and 2 is selected by the switching operation of the first to fourth slide switches 35a to 35d, and the terminal specification 1 is selected. If the terminal specification 2 is selected, the first light emitting diode 67 is lit in green.

  In the above configuration, when the main branching amplifier 10 shown in FIG. 9 is in the terminal specification 1, the movable contacts D1 and D2 of the first slide switch 35a and the second slide switch 35b are on the upper side, that is, fixed. In addition to switching to the contacts a1 and a2, the movable contacts D1 and D2 of the third slide switch 35c and the fourth slide switch 35d are switched to the lower side, that is, the fixed contacts c1 and c2.

  When the main branch amplifier 10 is in the terminal specification 2, the movable contacts D1, D2 of the first slide switch 35a and the second slide switch 35b are switched to the lower side, that is, the fixed contacts c1, c2 side. At the same time, the movable contacts D1, D2 of the third slide switch 35c and the fourth slide switch 35d are switched to the upper side, that is, the fixed contacts a1, a2 side.

  In a state where the first to fourth slide switches 35a to 35d are correctly switched, a base current flows through the transistor 51 to be turned on, and the light emitting diode 53 is turned off. At this time, when the terminal specification 1 is selected, the first light emitting diode 67 is turned on, and when the terminal specification 2 is selected, the second light emitting diode 68 is turned on. When the switching operation of the first to fourth slide switches 35a to 35d is not correctly performed, the transistor 51 is turned off, the light emitting diode 53 is turned on, and both the light emitting diodes 67 and 68 are turned off.

  Hereinafter, specific circuit operations accompanying the switching operation of the first to fourth slide switches 35a to 35d will be described with reference to FIGS.

[Switch to terminal specification 1]
In FIG. 2, the movable contacts D1 and D2 of the first slide switch 35a and the second slide switch 35b are switched to the upper fixed contacts a1 and a2 side, and the third slide switch 35c and the fourth slide switch 35d are switched. The circuit state when the movable contact D1, D2 is switched to the lower fixed contact c1, c2 side and the terminal specification 1 is selected is shown. In FIG. 2, a broken line A1 indicates a main line signal, a broken line A2 indicates a branch signal, and a solid line B indicates a flow of a detection current.

  When the terminal specification 1 is selected, the main line signal input from the main line amplifying unit 14 to the first input terminal 31 includes the capacitor 41, the fixed terminals a1-b1 of the first slide switch 35a, as shown by the broken line A1, and It passes through the fixed terminal b2-a2 of the second slide switch 35b, and is further sent to the main line output terminal 12 via the capacitor 58 and the first output terminal 33.

  Further, the branch signal input from the branch amplifier 15 to the second input terminal 32 is output from the capacitor 47, the fixed contact c1-b1 of the third slide switch 35c, and the fourth slide switch 35d as indicated by the broken line A2. Through the fixed terminal b2-c2 and further through the capacitor 61 and the second output terminal 34 to the second branch output terminal 13b.

  On the other hand, as shown by the solid line B, the detected current is supplied from the DC power source E1 through the resistor 42 and the choke coil 43, and the fixed terminal a1-b1 of the first slide switch 35a and the fixed terminal b2- of the second slide switch 35b. a2 through the choke coil 62, the resistor 63, the choke coil 64, the fixed contact c2-b2 of the fourth slide switch 35d, the fixed terminal b1-c1 of the third slide switch 35c, the choke coil 48, and the resistor 49. It flows to the base of the transistor 51. As a result, the transistor 51 is turned on, a collector current flows, a voltage drop is caused by the resistor 52, the collector potential is lowered, and the light emitting diode 53 is turned off. Since the light emitting diode 53 is in the off state, it can be seen that the first to fourth slide switches 35a to 35d are correctly switched.

  In addition, a voltage that causes the choke coil 62 to be positive is generated at both ends of the resistor 63 by the detection current indicated by the solid line B, and a current flows through the first light emitting diode 67. As a result, the first light emitting diode 67 is turned on, and it is displayed that the main branching amplifier is switched to the terminal specification 1 state.

[Switch to terminal specification 2]
In FIG. 3, the movable contacts D1, D2 of the first slide switch 35a and the second slide switch 35b are switched to the lower fixed contacts c1, c2, and the third slide switch 35c and the fourth slide switch 35d are switched. The circuit state when the movable contact D1, D2 is switched to the upper fixed contact a1, a2 and the terminal specification 2 is selected is shown. In FIG. 3, a broken line A1 indicates a main line signal, a broken line A2 indicates a branch signal, and a solid line B indicates a flow of a detection current.

  When the terminal specification 2 is selected, the main line signal input from the main line amplifying unit 14 to the first input terminal 31 includes the capacitor 41, the fixed terminal c2-b2 of the first slide switch 35a, as shown by the broken line A1, and It passes through the fixed terminal b1-a1 of the fourth slide switch 35d, and further passes through the capacitor 61 and the second output terminal 34 to be sent to the second branch output terminal 13b.

  Further, the branch signal input from the branch amplifier 15 to the second input terminal 32 is output from the capacitor 47, the fixed contact a2-b2 of the third slide switch 35c, and the second slide switch 35b as indicated by the broken line A2. Through the fixed terminal b1-c1 and further through the capacitor 58 and the first output terminal 33 to the main line output terminal 12.

  As a result, the main line signal input from the main line amplifying unit 14 to the first input terminal 31 is output from the second output terminal 34 to the second branch output terminal 13 b side, and the second input from the branch amplifying unit 15. The branch signal input to the terminal 32 is output from the first output terminal 33 to the trunk output terminal 12 side, and switching from the terminal specification 1 to the terminal specification 2 is performed.

  On the other hand, as shown by the solid line B, the detected current is supplied from the DC power source E1 through the resistor 42 and the choke coil 43, and the fixed terminal c2-b2 of the first slide switch 35a and the fixed terminal b1- of the fourth slide switch 35d. a1 through the choke coil 64, the resistor 63, the choke coil 62, the fixed terminal c1-b1 of the second slide switch 35b, the fixed contact b2-a2 of the third slide switch 35c, the choke coil 48, and the resistor 49. It flows to the base of the transistor 51. As a result, the transistor 51 is turned on, the collector potential is lowered, and the light emitting diode 53 is turned off. Since the light emitting diode 53 is in the off state, it can be seen that the first to fourth slide switches 35a to 35d are correctly switched.

  In addition, a voltage that causes the choke coil 64 to be positive is generated at both ends of the resistor 63 by the detection current indicated by the solid line B, and a current flows through the light emitting diode 68. As a result, the second light emitting diode 68 is turned on, and it is displayed that the main branching amplifier has been switched to the terminal specification 2 state.

[Setting error]
FIG. 4 shows that when switching from the terminal specification 1 in FIG. 2 to the terminal specification 2 in FIG. 3, the first slide switch 35a, the third slide switch 35c, and the fourth slide switch 35d are correctly switched. This shows a circuit state when the setting of the slide switch 35b is made an error and the movable contacts D1, D2 are left switched to the upper fixed terminals a1, a2.

  When the first to fourth slide switches 35a to 35d are switched as shown in FIG. 4, the main line signal input from the main line amplifying unit 14 to the first input terminal 31 is the capacitor 41, as shown by the broken line A1, The signal passes through the fixed terminal c2-b2 of the first slide switch 35a and the fixed terminal b1-a1 of the fourth slide switch 35d, and further passes through the capacitor 61 and the second output terminal 34 to the second branch output terminal 13b. It is done.

  However, the branch signal input from the branch amplifier 15 to the second input terminal 32 passes through the capacitor 47 and the fixed contact a2-b2 of the third slide switch 35c as shown by the broken line A2, and the second slide switch. Although it reaches 35b, it is grounded via the fixed contact b1-a1 and the capacitor 56, and is not output to the first output terminal 33 side.

  On the other hand, as shown by the solid line B, the detected current is supplied from the DC power source E1 through the resistor 42 and the choke coil 43, and the fixed terminal c2-b2 of the first slide switch 35a and the fixed terminal b1- of the fourth slide switch 35d. It passes through a1, further passes through the choke coil 64, the resistor 63, the choke coil 62, and the fixed terminals a2-b2 of the second slide switch 35b, toward the fixed terminals b1-c1 of the first slide switch 35a. And the capacitor 45 provided between and ground. For this reason, no detection current flows, and no voltage is generated across the resistor 63, so that neither the light emitting diodes 67 and 68 are lit. Thus, it can be seen that the main branch amplifier is not correctly switched to either of the terminal specifications 1 and 2.

  Further, since the detection current does not flow, no base current is supplied to the transistor 51. As a result, the transistor 51 is turned off, the collector is opened, and the DC power supply E2 is supplied to the light emitting diode 53 via the resistor 52. As a result, the light emitting diode 53 is turned on, and it is notified that a setting error has occurred in the first to fourth slide switches 35a to 35d.

  In FIG. 4, the case where the setting of the second slide switch 35 b has an error has been described. However, when a setting error occurs in any one or a plurality of the first to fourth slide switches 35 a to 35 d. Similarly to the above case, the light emitting diodes 67 and 68 indicating the terminal specifications are turned off, and the light emitting diode 53 indicating the setting error is turned on.

  FIG. 5 shows the switching positions of the first to fourth slide switches 35a to 35d and the lighting states of the terminal specification display light emitting diodes 67 and 68 and the setting error display light emitting diode 53. FIG.

  In FIG. 5A, the movable contacts D1, D2 of the first slide switch 35a and the second slide switch 35b are switched to the upper side (the fixed contacts a1, a2 side), and the third slide switch 35c and the fourth slide are switched. When the switch 35d is switched to the lower side (the fixed contacts c1, c2 side), the first light emitting diode 67 that displays the terminal specification 1 is turned on, and the second light emitting diode 68 that displays the terminal specification 2 is turned off. . At this time, the setting error display light emitting diode 53 is turned off.

  In FIG. 5B, the movable contacts D1, D2 of the first slide switch 35a and the second slide switch 35b are switched to the lower side (fixed contacts c1, c2 side), and the third slide switch 35c and the fourth slide switch 35c When the slide switch 35d is switched to the upper side (fixed contacts a1 and a2 side), the first light emitting diode 67 displaying the terminal specification 1 is turned off, and the second light emitting diode 68 displaying the terminal specification 2 is turned on. . At this time, the setting error display light emitting diode 53 is turned off.

  FIG. 5C shows the first light emitting diode 67 that displays the terminal specification 1 when the first to fourth slide switches 35a to 35d are switched to states other than those shown in FIGS. 5A and 5B. The second light emitting diode 68 that displays the terminal specification 2 is turned off, and the setting error display light emitting diode 53 is turned on. The light emitting diode 53 is lit to notify the operator that a setting error has occurred in the first to fourth slide switches 35a to 35d.

  Next, a specific configuration example of the trunk branch amplifier will be described.

  FIG. 6 is a block diagram showing a specific configuration example of the downstream signal trunk branch amplifier 70 according to the embodiment of the present invention.

  In FIG. 6, reference numeral 71 denotes a downstream input terminal. The downstream input terminal 71 has, for example, a 70 to 770 MHz CATV downstream signal (main line input) sent in the downstream direction from the head end device (not shown) side of the CATV system. Signal) is input. The trunk signal input to the downlink input terminal 71 is input to an EQ (equalizer) card 75 via a PSF (power source filter) 72 and a directional coupler 73 for branching the monitor signal.

  The PSF 72 separates the operation power from the downlink signal and supplies it to a power supply circuit (not shown) when the operation power is supplied superimposed on the downlink signal.

  The directional coupler 73 branches a part of the downstream signal (for example, −20 dB) to the monitor terminal 74. The monitor terminal 74 monitors the main line input signal input to the downlink input terminal 71.

  The EQ card 75 corrects and outputs the frequency deviation of the downstream signal. The signal corrected by the EQ card 75 is sent to an AGC circuit (automatic gain adjustment circuit) 80 via a variable attenuator (ATT) 76 for setting the signal attenuation, an amplifier 77, and a directional coupler 78 for branching the monitor signal. Sent. The directional coupler 78 separates a part of the signal (for example, −20 dB) and outputs it to the internal adjustment monitor terminal 79. The signal whose gain is adjusted by the AGC circuit 80 is sent to the two distributor 84 via the amplifier 81, the directional coupler 82, and the high pass filter (HPF) 83.

  A band pass filter (BPF) 85 is connected to the branch terminal of the directional coupler 82. The band pass filter 85 selects a pilot carrier having a predetermined frequency as an AGC signal. The pilot carrier selected by the band pass filter 85 is set at the signal level by the AGC setting attenuator 86, amplified by the amplifier 87, and sent to the AGC control circuit 88. The AGC control circuit 88 is connected to the control terminal of the AGC circuit 80 via the changeover switch 90 together with the MGC control circuit 89 that adjusts the level of gain control by manual operation. When the gain control of the amplifier is automatically performed, the AGC circuit 80 is selected by the changeover switch 90, and when the gain of the amplifier is manually set, the MGC control circuit 89 is selected by the changeover switch 90. The AGC control circuit 88 includes a detection diode, and controls the operation of the AGC circuit 80 in accordance with the level of the AGC signal detected by the detection diode. The AGC circuit 80 forms an attenuator with, for example, a pin diode, and the attenuation is adjusted by a control signal from the AGC control circuit 88 or the MGC control circuit 89.

  One signal distributed by the two distributor 84 is taken out via a temperature correction circuit 91, a variable attenuator 92, an amplifier 93, a slope setting circuit 94, and an amplifier 95. The power supply terminal of the amplifier 95 is supplied with operating power via an amplifier ON / OFF switch 96. The signal amplified by the amplifier 95 is input to the first input terminal 31 of the switching circuit 30 as a main line signal. Since the switching circuit 30 has the same configuration as that described in the above embodiment, a detailed description thereof is omitted. A signal output from the first output terminal 33 of the switching circuit 30 is sent to the main line output terminal 99 via the directional coupler 97 and the PSF 98.

  The other signal divided by the two distributors 84 is taken out via the temperature correction circuit 101, the variable attenuator 102, the amplifier 103, the slope setting circuit 104, and the amplifier 105. The power supply terminal of the amplifier 105 is supplied with operating power via the amplifier ON / OFF switch 106.

  The signal amplified by the amplifier 105 is input to the output setting card 107 as a branch signal. This output setting card 107 has two output terminals a and b, and has an output setting function of [JUMPER] and [D2]. [JUMPER] outputs a signal from one direction of the output terminals a and b, for example, from the output terminal a side, and [D2] distributes the input signal into two and outputs it from both the output terminals a and b.

  The signal output from the output terminal b of the output setting card 107 is sent to the output setting card 109 via the directional coupler 108. The output setting card 109 has two output terminals a and b, and has output setting functions of [JUMPER], [D2], [DC7], and [DC12]. [JUMPER] outputs a signal from one direction of the output terminals a and b, for example, from the output terminal a side, and [D2] distributes the input signal into two and outputs it from both the output terminals a and b. [DC7] outputs a [−7 dB] attenuated signal from the output terminal a, [−2 dB] attenuated signal from the output terminal b, and [DC12] outputs a [−12 dB] attenuated signal to the output terminal a, [ -1 dB] Output from the attenuated signal output terminal b. The signal output from the output terminal a of the output setting card 109 is sent to the first branch output terminal 111 via the PSF 110, and the signal output from the output terminal b of the output setting card 109 is transmitted through the PSF 112. 2 branch output terminals 113. The signal branched by the directional coupler 108 is sent from the monitor terminal 114 to an external monitor device and monitored.

  A signal output from the output terminal a of the output setting card 107 is input to the second input terminal 32 of the switching circuit 30. A signal output from the second output terminal 34 of the switching circuit 30 is input to the output setting card 116 via the directional coupler 115. This output setting card 116 has two output terminals a and b, and has output setting functions of [JUMPER], [D2], [DC7], and [DC12], similar to the output setting card 109.

  The signal output from the output terminal a of the output setting card 116 is sent to the third branch output terminal 118 via the PSF 117. The signal output from the output terminal b of the output setting card 116 is sent to the fourth branch output terminal 120 via the PSF 119.

  The signal branched by the directional coupler 115 is sent from the monitor terminal 121 to an external monitor device and monitored.

  In the main branching amplifier 70 configured as described above, the movable contacts D1, D2 of the first slide switch 35a and the second slide switch 35b in the switching circuit 30 are set to the upper side, and the third slide switch 35c and the second slide switch 35c When the movable contacts D1 and D2 of the fourth slide switch 35d are set to the lower side, the terminal specification 1 is designated as described in FIG. 2, and the main line signal amplified by the amplifier 95 is the first signal of the switching circuit 30. Is output from the main line output terminal 99 via the slide switch 35a and the second slide switch 35b. Further, the branch signal output from the output terminal a of the output setting card 107 passes through the third slide switch 35c and the fourth slide switch 35d of the switching circuit 30, and passes through the output setting card 116 to generate the third branch output. The signal is output from the terminal 118. At this time, when the output setting card 116 is set to a function other than [JUMPER], a branch signal is output from both the third branch output terminal 118 and the fourth branch output terminal 120.

  Further, the movable contacts D1, D2 of the first slide switch 35a and the second slide switch 35b in the switching circuit 30 are set to the lower side, and the movable contacts D1, of the third slide switch 35c and the fourth slide switch 35d, When D2 is set to the upper side, the terminal specification 2 is designated as described in FIG. 3, and the first to fourth slide switches 35a to 35d are crossed and connected, and are amplified by the amplifier 95. The main signal passes through the first slide switch 35a and the fourth slide switch 35d of the switching circuit 30, and passes through the output setting card 116 to the third branch output terminal 118 (or the third branch output terminal 118 and the second switch). 4 from both of the four branch output terminals 120). In addition, the branch signal output from the output terminal a of the output setting card 107 is output from the main line output terminal 99 side via the third slide switch 35c and the second slide switch 35b of the switching circuit 30. .

  According to the above-described embodiment, when the terminal specification of the CATV transmission amplifier is switched using a plurality of mechanical switches, the terminal specification can be easily switched by the switch operation, and the setting error at the time of the switch operation is ensured. Can be detected and notified to the operator.

  In the above embodiment, the case where the slide switches 35a to 35d are used as the mechanical switches has been described. However, for example, a toggle switch or a rotary switch may be used as long as it can constitute a circuit similar to that shown in the above embodiment. Of course, switches other than slide switches, such as switches, may be used.

  Moreover, although the case where it implemented to the trunk branch amplifier was shown in the said embodiment, other CATV transmission amplifiers, such as a trunk distribution amplifier, for example, can be implemented similarly to the said embodiment.

  Further, the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying constituent elements without departing from the scope of the invention in the implementation stage.

  DESCRIPTION OF SYMBOLS 30 ... Switching circuit, 31 ... 1st input terminal, 32 ... 2nd input terminal, 33 ... 1st output terminal, 34 ... 2nd output terminal, 35a-35d ... 1st-4th slide switch, 41, 44 to 47, 54 to 61, 65, 66 ... capacitor, 42, 49, 52, 63 ... resistor, 43, 48, 62, 64 ... choke coil, 51 ... transistor, 53, 67, 68 ... light emitting diode, 70 ... trunk branch amplifier, 71 ... downlink input terminal, 72, 98, 110, 112, 117, 119 ... PSF, 73, 78, 82, 97, 115 ... directional coupler, 74, 100, 114, 120, 121 ... Monitor terminal, 75 ... EQ card, 76 ... Variable attenuator, 77, 81, 87, 93, 95, 103, 105 ... Amplifier, 79 ... Monitor terminal for internal adjustment, 80 ... AGC circuit, 83 ... Ipass filter, 84 ... 2 distributor, 85 ... Band pass filter, 86 ... AGC setting attenuator, 88 ... AGC control circuit, 89 ... MGC control circuit, 90 ... Changeover switch, 91,101 ... Temperature correction circuit, ... Variable attenuator, 94, 104 ... Slope setting circuit, 96, 106 ... Amplifier ON / OFF switch, 99 ... Main line output terminal, 107, 109, 116 ... Output setting card, 111 ... First branch output terminal, 113 ... First 2 branch output terminals, 118... Third branch output terminal, 120... Fourth branch output terminal.

Claims (1)

A main line amplifying unit for amplifying an input main line signal, a branch amplifying unit for branching and amplifying a part of the main line signal, and a first signal for outputting the signal amplified by the main line amplifying unit or the branch amplifying unit. A CATV transmission amplifier comprising: an output terminal and a second output terminal; and an output switching unit provided between the main line amplification unit, the branch amplification unit, and the first and second output terminals. And
The output switching unit
A terminal specification 1 for outputting a main line signal amplified by the main line amplifying unit to a first output terminal and a branch signal amplified by the branch amplifying unit to a second output terminal, and the main line amplifying unit A plurality of mechanical switches for outputting the amplified trunk signal to the second output terminal and switching to the terminal specification 2 for outputting the branch signal amplified by the branch amplifier to the first output terminal;
Means for supplying a direct current for terminal specification detection to a switching circuit comprising the plurality of mechanical switches;
A terminal specification display lamp for displaying the terminal specification set by the mechanical switch;
An error display lamp for displaying a setting error at the time of switching the mechanical switch;
Terminal specification display means for controlling lighting of the terminal specification display lamp according to the direction of the detected current accompanying the switching of the terminal specification by the mechanical switch;
A setting error display means for detecting a circuit state other than the terminal specification 1 and the terminal specification 2 switched by the plurality of mechanical switches and lighting the error display lamp;
A CATV transmission amplifier comprising:

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