JP3866846B2 - Method of accommodating single transmission line in line interface unit mounting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a housing method for housing a single transmission path for electric signal transmission and optical signal transmission in a line interface section mounting apparatus in which at least various line interface sections are mounted so that they can be inserted and removed from the front side of the apparatus. In particular, when the single transmission line is accommodated in the line interface unit mounting device from the back side, it is accommodated via the line interface non-reserve / duplex attachment board attached to the back side. The present invention relates to a method for accommodating a transmission line in a line interface unit mounting apparatus.
[0002]
[Prior art]
Up to now, if a specific example is taken in a line interface unit mounting apparatus (hereinafter simply referred to as a mounting apparatus) in which various line interface units are mounted, for example, a small ATM switch constituted by one unit, the NEC technique Vol. As described on page 119 of .50 No. 5/1997, the device-side connector required to accommodate and connect each transmission line to the mounting device is often the front surface of the mounting device ( It is provided on the front) side. Here, the case where each transmission path is accommodated from the front side of the mounting apparatus will be described as follows.
[0003]
That is, FIG. 9 shows a plane in an example of a mounting apparatus when each transmission path is accommodated in this way. As shown in the figure, a line interface unit 71 as a duplex configuration, a line interface unit 70 as a non-reserved (single configuration), a duplex line interface system switching module 72, and the like are mounted on the mounting apparatus so that they can be inserted and removed from the front side. In addition, each transmission path is accommodated in a mounting device via connectors 80 and 81. As a result, the optical connector such as the OC3 interface and the electrical connector such as the DS3 interface can be mounted with various line interface units in the common slot regardless of the connector type.
[0004]
On the other hand, in addition to the above, it has been considered that each transmission path is accommodated with respect to the mounting apparatus from the back side. 10A and 10B, the transmission plane is accommodated on the back plane 20 via connectors 80 and 81, respectively, as shown as a plane and a part of the right side. Incidentally, in FIG. 10A, reference numeral 12 denotes a line interface slot.
[0005]
[Problems to be solved by the invention]
By the way, as shown in FIG. 9, in the DS3 interface, when the line interface unit has a duplex configuration and the transmission path has a single configuration, a system switching device (illustrated simplified display) is provided on the front side of the line interface unit. ) 82 needs to be attached separately, which causes various problems. That is, when the system switching device 82 is mounted on the front side, the service processing in the active system line interface unit is not interrupted, and the standby system line interface unit in the fault state is removed from the mounting apparatus and It is impossible to replace it with a new one, and there is a problem in terms of maintainability. In addition to the above problems, it is necessary to perform system switching in a state where each of the line interface units is drawn into the system switching device 82. Therefore, a duplex line interface system switching module 72 for system switching is also included. It is necessary to mount in the slot, and the increase in size of the mounting apparatus itself is inevitable.
[0006]
On the other hand, as shown in FIGS. 10A and 10B, when each transmission path is accommodated on the backplane 20 side via connectors 80 and 81, an optical connector space and an electrical BNC connector are mounted in the mounting slot. Space is required, and it is difficult to mount a large number of electrical BNC connectors, and the number of ports on the transmission path is limited accordingly.
[0007]
As can be seen from the above, in the conventional technology, the common interface slot can be used for both the redundant and non-reserved line interface sections, and also supports various transmission paths (for optical signal transmission and electrical signal transmission). In addition, it is possible to deal with a large number of ports, and furthermore, it is difficult to accommodate each transmission path in the mounting apparatus in a state of excellent maintainability.
[0008]
A first object of the present invention is to provide a single transmission line that is excellent in maintainability regardless of whether the line interface unit corresponding to the single transmission line for electric signal transmission has a single configuration or a duplex configuration. Is to be accommodated in the line interface unit mounting apparatus of the single transmission line, which can be accommodated in the mounting apparatus.
The second object of the present invention is to provide an excellent maintainability and a large number of ports regardless of whether the line interface unit corresponding to the single transmission line for electric signal transmission has a single configuration or a duplex configuration. As another example, a method for accommodating a single transmission line in a line interface unit mounting apparatus in which the single transmission line can be accommodated in the mounting apparatus is provided.
A third object of the present invention is to provide a single transmission line that can be accommodated in a mounting device as an excellent maintainability regardless of the shape of the connector on the single transmission line side for electric signal transmission. A method of accommodating the transmission line in the line interface unit mounting apparatus is provided.
It is a fourth object of the present invention to provide a line interface unit mounting apparatus for a single transmission line in which single transmission lines for electrical signal transmission and optical signal transmission can be accommodated in the mounting apparatus in an excellent maintainability state. To provide a housing method.
A fifth object of the present invention is to provide a single transmission line for electric signal transmission that can introduce a new service or maintain a failure without interrupting the service even when the line interface unit is switched. The present invention provides a method for accommodating a single transmission line in a line interface unit mounting apparatus that can be accommodated in a mounting apparatus.
A sixth object of the present invention is to provide a method for accommodating a single transmission line in a line interface unit mounting apparatus in which a single transmission line for electric signal transmission can be accommodated in the mounting apparatus in a state in which radiation noise is prevented. To serve.
The seventh object of the present invention is that when the transmission path for optical signal transmission has a single configuration, the transmission path can be accommodated in the mounting apparatus as being accommodated in one of the line interface sections of the duplex configuration. The method for accommodating the single transmission line in the line interface unit mounting apparatus is provided.
An eighth object of the present invention is to provide a system switching signal in a disconnected state when accommodating a single transmission path for electrical signal transmission and optical signal transmission in any of the dual-configuration line interface units, respectively. Or a single transmission line that can be accommodated in a mounting device so that the single transmission line is forcibly accommodated in any one of the line interface units when the power supply for system switching is cut off. In this case, a method for accommodating the line interface unit mounting apparatus is provided.
A ninth object of the present invention is that a single transmission line for optical signal transmission can be accommodated in a mounting apparatus so as to be accommodated in a single line interface unit corresponding to the transmission line, regardless of the shape of the connector. A method for accommodating a single transmission line in a line interface unit mounting apparatus is provided.
[0009]
[Means for Solving the Problems]
The first object is basically that a line that is attached to the back side of the mounting apparatus and has no system switching function when the line interface unit corresponding to the single transmission line has a single configuration. Achieved by accommodating a single transmission line via an interface non-spare attachment board, and if it is a duplex configuration, via a line interface duplex attachment board equipped with a system switching function. Is done.
[0010]
The second object is to accommodate each single transmission line in a high-density state via a line interface non-reserve attachment board and a dual line interface attachment board that are mounted on the back side of the mounting device in common with the single transmission line. Is achieved.
[0011]
The third object is achieved by accommodating the single transmission line in the mounting device via the line interface non-spare attachment board and the dual line interface attachment board corresponding to the connection connector shape on the single transmission line side. The
[0012]
The fourth object of the present invention is to provide a single transmission line for electric signal transmission via a line interface non-reserve attachment board or a double line interface attachment board, and a single transmission line for optical signal transmission. This is achieved by being directly accommodated in the mounting apparatus by connector connection to the line interface corresponding to the transmission line.
[0013]
The fifth object is that the line interface unit corresponding to the single transmission line has a duplex configuration, and it is possible to introduce a new service or perform maintenance for a failure without interrupting the service even when the system is switched. This is achieved by accommodating the single transmission line in the mounting apparatus via the circuit board duplex attachment board.
[0014]
The sixth object is achieved by attaching the line interface non-spare attachment board and the line interface duplication attachment board to the back side of the mounting device in a state where the whole board is covered with a metal plate for preventing radiation noise. Is done.
[0015]
The seventh object is achieved by accommodating a single transmission line in the mounting device via a line interface duplex attachment board attached to the back side of the mounting device and equipped with an optical switch as a system switching function. Is done.
[0016]
The eighth object is that the system switching signal from the line interface unit corresponding to the single transmission path to the system switching function is turned off, or the system switching function from the line interface unit corresponding to the single transmission path. When the power supply for system switching is turned off, the single transmission line is forcibly accommodated in one of the line interface sections of the duplex configuration via the system switching function. Is achieved.
[0017]
The ninth object is achieved in that the single transmission line is accommodated in the mounting apparatus via the line interface non-reserve attachment board corresponding to the connection connector shape on the single transmission line side.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described. An outline thereof will be described prior to specific description.
That is, in the method for accommodating the single transmission line in the line interface unit mounting apparatus according to the present invention, there is a single transmission line for electric signal transmission (currently, with a few exceptions, in most cases, a single configuration). When accommodated in a mounting device, a single transmission line can be mounted in multiple ports with a transmission line connection part to be connected to the transmission line and a backplane side connection part on which the line interface part is mounted. It is adapted to be accommodated via a simple attachment substrate. When the transmission path is for electrical signal transmission as in the DS3 interface, an attachment board on which a large number of BNC connectors are mounted is used, so that various line interface units can be mounted in the common slot. However, when a transmission path for optical signal transmission (currently, with the exception of some exceptions, in most cases, a duplex configuration) is accommodated, a small optical connector such as a mini SC is used in the line interface unit (configured as a card). The transmission path is directly accommodated through the network. When the transmission path for optical signal transmission has a single configuration, it may be accommodated via the attachment board as in the case of the transmission path for electrical signal transmission. Even in such a case, depending on the shape of the connectors to be connected to each other, it may be accommodated via an attachment board for connection adjustment.
[0019]
By the way, the types of attachment boards include a line interface non-spare attachment board on which only connectors that are connected in a one-to-one correspondence with the line interface section, an active / spare line interface section, and a single transmission line. There is a line interface duplexing attachment board with a system switching function for connecting the two, but if the attachment board is replaced as necessary, the configuration mode of the line interface section even if the transmission path is a single configuration (Single configuration or dual configuration) can be easily dealt with. When the attachment board is detachable for each slot, it is possible to switch between duplex and single without interrupting services provided in other slots.
[0020]
Furthermore, as a system switching control method when a transmission path is accommodated via a duplex attachment board equipped with a system switching function, a system switching signal and a power supply to the system switching device are supplied only from the standby system line interface unit. If supplied, it is not necessary to monitor the system switching signal and the power supply from both systems, and the system switching control can be easily and easily performed with high reliability. When a single transmission line for electrical signal transmission is accommodated via a non-reserve or duplex attachment board, the entire attachment board is covered with a metal plate, and the metal plate is attached to the cabinet rear cover. The radiated noise can be effectively shielded.
[0021]
Now, the embodiment of the present invention will be described in detail. First, FIG. 1 shows that the transmission paths for electric signal transmission and optical signal transmission both have a single configuration, and the line interface unit corresponding to these transmission paths. Fig. 6 also shows a method for accommodating these transmission lines when both are configured in a single configuration. As shown in the figure, the transmission path 40 for electric signal transmission is directly connected to the line interface section 10 via the line interface non-reserve attachment board 30, and the transmission path 41 for optical signal transmission is directly connected to the line interface section 11. Each is contained. More specifically, the transmission line 40 includes the transmission line side connector 302 in the line interface non-reserved attachment board 30, the attachment board 30 itself, the backplane side connector 301, the attachment side connector 202 of the backplane 20, and the backplane 20. It is accommodated in the line interface unit 10 via the line interface side connector 201 and the backplane side connector 101, respectively. On the other hand, the transmission line 41 is directly accommodated via the optical connector 111 attached to the line interface unit 11 in advance. As shown in the figure, when the transmission line 40 is accommodated in the line interface unit 10 via the line interface no-reserve attachment board 30, a no-reserve connection signal is transmitted from the attachment board 30 to the line interface part 10. As a result, the line interface unit 10 is in a single operation state. Incidentally, the setting as the single operation state in the line interface unit 11 corresponding to the transmission line 41 is performed by software.
[0022]
FIG. 2 also shows that the transmission paths for electrical signal transmission and optical signal transmission have a single configuration and a duplex configuration, respectively, and both the line interface units corresponding to the transmission paths for electrical signal transmission and optical signal transmission have a dual configuration. It shows the accommodation method of those transmission lines in the case where As shown in the figure, when the transmission path 40 for electric signal transmission has a single configuration and the corresponding line interface units 10a and 10b have a dual configuration, the transmission path 40 is an attachment board for dual line interface. The system is switched by the system switching unit 313b on 31 and is accommodated in one of the line interface units 10a and 10b. More specifically, in the transmission line 40, system switching is performed by the system switching unit 313b via the transmission path side connectors 312a and 312b and the attachment board 31 itself. For example, if the line interface unit 10a is operating as an active system, the transmission line 40 is then connected to the backplane side connector 311a on the attachment board 31, the attachment side connector 202 on the backplane 20, and the line interface side connector on the backplane 20. 201, which is accommodated in the line interface unit 10a via the backplane side connector 101 of the line interface unit 10a. Similarly, when the line interface 10b is operating as an active system, the transmission line 40 is then connected to the backplane side connector 311b on the attachment board 31, the attachment side connector 202 on the backplane 20, and the line interface on the backplane 20. It is accommodated in the line interface unit 10b through the side connector 201 and the backplane side connector 101 of the line interface unit 10b. On the other hand, the transmission path 42 for optical signal transmission has a duplex configuration and is accommodated in the line interface units 11a and 11b via the optical connectors 111a and 111b, respectively, as in the case of FIG. .
[0023]
In the operation, when the transmission line 40 is accommodated via the line interface duplex attachment board 31, a duplex connection signal is transmitted from the attachment board 31 to each of the line interface units 10a and 10b. Thus, one of the line interfaces 10a and 10b is in a duplex operation state in which one is operating as a working system and the other is operating as a standby system. Furthermore, if the line interface unit 10b is normally placed in a standby system, a system switching signal is transmitted from the line interface unit 10b to the system switching drive unit 313a on the attachment board 31, and a system switching drive is performed. Power is supplied. Thereby, the system switching is performed by the system switching unit 313b by the switching signal from the system switching driving unit 313a. On the other hand, in the case of the transmission line 42 for optical signal transmission, since the line interface units 11a and 11b are also configured in a duplex manner, the transmission line 42 is normally accommodated in the line interface units 11a and 11b so that no attachment board is required. It is what has been.
[0024]
FIGS. 3A and 3B show examples of a plane and a part of the right side of the mounting apparatus when assuming a DS3 interface / line interface unit single configuration. In this case, since the transmission line 40 has a single configuration for electric signal transmission, the transmission line 40 is provided with an electrical BNC connector 302 (302a, 302b) for connection with the transmission line 40 for non-reserved use. It is accommodated in the line interface unit 10 via the attachment board 30, high-density connectors 301 and 202, and the backplane 20, and transmission path signals and various control signals are transmitted and received via the high-density connectors 301 and 202.
[0025]
FIGS. 4A and 4B also show examples of a plane and a part of the right side of the mounting apparatus when an OC3 interface and a single line interface unit configuration are assumed. The transmission line 41 having a single configuration has an optical connector 111 (111a, 111b) attached to the line interface unit 11 in advance, so that no attachment board is required, and the line interface unit 11 directly accommodates the line interface unit 11 via the optical connector 111. It has been made.
[0026]
Furthermore, when the line interface unit of the DS3 interface and the OC3 interface is mounted on the mounting apparatus, an example of the rear appearance of the mounting apparatus is shown in FIG. As shown in the figure, in the present example, two non-reserved attachment boards 30 for the DS3 interface are detachably attached on the left side, and the BNC connector 302 ( 302a and 302b) are accommodated in large numbers. The type of the non-preliminary attachment board 30 is prepared in advance according to the shape type of the BNC connector 302, but which type of the non-preliminary attachment board 30 is adopted depends on the transmission line 40 side. It is only necessary to selectively adopt a connector that matches the connector shape. On the other hand, optical connectors 111 (111a, 111b) are provided in two rows on the right side of the non-reserve attachment board 30. Since the optical connector 111 itself is small, a large number of ports can be directly accommodated in the line interface unit. Incidentally, on the lower side of the optical connector 111, a high-density connector 202 connected to the non-reserve and duplex attachment boards 30 and 31 is located.
[0027]
FIGS. 6A and 6B also show the case shown in FIG. 2 described above, that is, the transmission paths for electrical signal transmission and optical signal transmission have a single configuration and a duplex configuration, respectively. 2A and 2B respectively show examples of the planar and rear appearances of the mounting apparatus when both the line interface units corresponding to the transmission paths for optical signal transmission have a duplex configuration. As shown in FIG. 6A, the duplex configuration as the DS3 interface is configured with line interface units 10a and 10b. Since the transmission line 40 has a single configuration, the transmission line 40 needs to be accommodated in the active system as one of the line interface units 10a and 10b. This is based on a system switching signal from the interface unit 10b. The system switching is performed by the switching unit 313 (313a, 313b) on the line interface duplex attachment board 31 by the system switching signal. On the other hand, the duplex configuration as the OC3 interface is configured by the line interfaces 11a and 11b. When the OC3 interface is configured in a duplex configuration, the transmission path 42 is also configured in a duplex configuration. Therefore, the transmission path is connected to the line interface units 11a and 11b via optical connectors 111a and 111b attached in advance to them. 42 is directly accommodated. FIG. 6B also shows an example of the rear appearance of the mounting apparatus at that time. In the case of the DS3 interface, each of the transmission paths 40 includes a line interface duplex attachment board 31 and a high-density connector 311 ( 311a, 311b), 202 and is accommodated in any of the line interface units 11a, 11b. On the other hand, in the case of the OC3 interface, it is the same as the case of FIGS. 4 (A), (B) and FIG.
[0028]
As described above, multiple types of line interface units can be accommodated in the same slot by adopting an accommodation method according to a single transmission channel, duplex configuration, or type of electrical / optical signal. It is. In addition, by using these detachable and redundant attachment boards that can be attached and detached, the line interface unit that is not equipped with a system switching function can be used as one that supports either a single configuration or a dual configuration, In the specific slot, the line interface unit of the single configuration or the dual configuration can be switched.
[0029]
By the way, a relay as a system switching unit is mounted on the line interface duplex attachment board 31. This is because the distance from the connection part (connector) to the transmission line side to the system switching unit is the signal rise time. The distance required for 1/4 of (the delay time on the substrate is 0.7 ns per 10 cm, and the signal rise time is 2 ns, 2 ns / 4 × 10 / 0.7≈7, which should be about 7 cm or less. If it is not shorter, the signal wiring pattern on the attachment board becomes a stub and reflection occurs, and signals are not correctly transmitted and received between the transmission line and the line interface unit. For this reason, it is necessary to mount the transmission line side connection unit and the system switching unit adjacent to each other. However, for example, when a system switching relay is mounted on the line interface unit, this condition is not observed.
[0030]
Here, a system switching control method for the line interface unit when the transmission line 40 is accommodated in any of the duplex interface line units via the line interface duplex attachment board 31 will be described below. It seems.
[0031]
That is, normally, the line interface units 10a and 10b are placed in the active system and the standby system, respectively, but in a state where both are in the normal state, as shown in FIG. Assuming the case where some kind of failure occurs, the fact is notified as a system switching signal to the backup system via another route. This system switching signal is sent as it is from the standby system to the system switching drive unit 313a on the duplex attachment board 31. As a result, in the system switching unit 313b, the transmission path 40 is switched to the standby system line interface unit 10b side. It has become. Similarly, when the line interface units 10a and 10b are in the active system and the standby system, respectively, and both are in the normal state, the standby system has a fault (system switching signal disconnection or system switching drive power supply disconnection). Assuming that a failure with a fault occurs), the system switching state is fixed to the break contact side, so that even if the standby system fails and the system switching signal is not sent actively, In the system, the operation as the working system can be maintained as it is. On the other hand, when the line interface units 10a and 10b are placed in the standby system and the active system, respectively, and both are in a normal state, the active system has a fault (system switching signal disconnection or system switching drive power supply). Assuming that a failure with a break occurs), as shown in FIG. 7B, the system switching state is fixedly switched to the break contact side, so that the active system fails. Even when the system switching signal is not actively transmitted, the standby system can operate as a new working system.
[0032]
By the way, in general, the line interface unit employs OBP (on-board power supply: for example, a + 5V power source is obtained on the line interface unit 10b from a -48V common power source). In the line interface unit 10b, FIG. As shown, an element 50 with a high output impedance guaranteed is used for sending a system switching signal. Therefore, when the line interface unit 10a is operating as an active system, even if the line interface unit 10b in the standby system is hot-plugged, the buffer 51 causes the relay driver 52 and the relay 313b to be connected. The line interface unit 10a can operate as an active system as it is without being affected by this. This also means that the transmission line of the single configuration can be accommodated in the line interface unit of the single configuration via the duplex attachment board.
[0033]
In addition, if a failure occurs in one of the active or standby line interface units and a failure occurs in the other, the service by the line interface unit will be interrupted, but both systems will fail. Assuming that only the active system is restored when it is in the state, it is the same as the disconnection state of the system switching signal from the standby system, so the system is switched to the active system on the break contact side. is there. Similarly, if it is assumed that only the standby system is restored when both systems are in a failure state, a system switching signal is transmitted from the standby system to the system switching unit on the attachment board. The system is switched to the system. With the above system switching control method, the system switching function is not required for each line interface unit, and the system switching signal is normally transmitted from the line interface unit operating as a standby system, thereby enabling system switching control with high reliability. Can be done.
[0034]
Further, the EMI countermeasure method will be described with reference to FIGS. 8A and 8B. When the above-described non-reserve and duplex attachment boards 30 and 31 are physically fixed to the rear cover of the cabinet, the EMI countermeasure is performed. As a countermeasure, the entire board is covered with the metal plates 60 and 61, respectively, and the metal plates 60 and 61 are attached and connected to the backplane 20, so that radiation noise from the attachment boards 30 and 31 is cut off. It is what you get.
[0035]
Finally, as for various related matters, there is a method of adding a switching unit using a mini-coaxial when the front cable access is desired. At this time, as already described, the transmission path side connector and the switching relay need to be mounted on the switching unit side in order to prevent reflection of the switching transmission path. In addition, when the transmission line is for electric signal transmission, there are a method of having a line termination part on the line interface part side and a method of having it on the attachment board side. May be implemented. Further, when the transmission line has a single configuration and is used for optical signal transmission, unlike the single configuration of the line interface unit, an attachment board for dual line interface for system switching of the line interface unit. The transmission path may be accommodated via At this time, since the optical connector is attached to the line interface unit, the line interface unit and the attachment board are connected with an optical cable, and the transmission path and the attachment board are connected with an optical connector. In the same way as in the case of electrical signals, the transmission line is switched by the system switching unit on the circuit board duplexing attachment board by the system switching signal transmitted and received via the high-density connector, and the duplexed circuit interface It is accommodated in any one of the parts. At this time, there are a method using an optical switch for the system switching unit and a method in which the received optical signal is converted into an optical signal after the system is switched once converted into an electrical signal. When a sufficient mounting area is secured on the attachment substrate, any method may be adopted.
[0036]
By the way, in the above description, the DS3 interface and the OC3 interface are mainly described. However, the transmission path used in other interfaces is an attachment board corresponding to various connector shapes for connecting to the transmission path. In the case of being accommodated, a plurality of types of line interface units can be mounted in the common slot.
[0037]
【The invention's effect】
As described above, in the case of using the method for accommodating the single transmission line in the line interface unit mounting apparatus according to the present invention, the following effects can be obtained.
[0038]
Claims 1 to 3: Even if the line interface unit corresponding to the single transmission line for electric signal transmission has either a single configuration or a dual configuration, the single transmission channel is mounted as a mounting device as an excellent state of maintainability. Can be accommodated.
[0039]
Claim 4: Regardless of whether the line interface unit corresponding to the single transmission line for electric signal transmission is of a single configuration or a dual configuration, it is in a single state transmission with excellent maintainability and a large number of ports. The path can be accommodated in the mounting device.
[0040]
Claim 5: Regardless of the shape of the connector on the side of the single transmission line for electric signal transmission, the single transmission line can be accommodated in the mounting device as a state of excellent maintainability.
[0041]
Claim 6: The single transmission path for electrical signal transmission and optical signal transmission can be accommodated in the mounting apparatus in a state excellent in maintainability.
[0042]
Claim 7: The single transmission line for electric signal transmission is accommodated in the mounting apparatus in such a state that a new service can be introduced or a failure can be maintained without interruption of service even when the line interface unit is switched. obtain.
[0043]
Claim 8: The single transmission line for electric signal transmission can be accommodated in the mounting apparatus in a state where radiation noise is prevented.
[0044]
Claim 9: When the transmission path for optical signal transmission has a single configuration, the transmission path can be accommodated in the mounting apparatus in a state where it is accommodated in one of the line interface sections of the duplex configuration.
[0045]
Claims 10 and 11: When a single transmission line for electric signal transmission and optical signal transmission is accommodated in any of the line interface units having a duplex configuration, respectively, or when the system switching signal is turned off, or the system A line interface of a single transmission line that can be accommodated in a mounting device so that the single transmission line is forcibly accommodated in one of the line interface units when the switching power supply is turned off. This is to provide a housing method for the partial mounting apparatus.
Claim 12: A single transmission line for optical signal transmission can be accommodated in a mounting apparatus so as to be accommodated in a single line interface corresponding to the transmission line, regardless of its connector shape.
[Brief description of the drawings]
FIG. 1 shows accommodation of transmission lines when both transmission paths for electric signal transmission and optical signal transmission have a single configuration, and the line interface unit also has a single configuration. Diagram showing the method
FIG. 2 is a circuit diagram showing a circuit interface unit corresponding to a transmission path for electrical signal transmission and an optical signal transmission, respectively. The figure which shows the accommodation method of those transmission lines when both are made into the duplex configuration
FIGS. 3A and 3B are diagrams respectively showing a plane and a part of the right side of the mounting apparatus when a DS3 interface and a single line interface unit configuration are assumed.
FIGS. 4A and 4B are diagrams respectively showing a plane and a part of the right side of the mounting apparatus assuming a single configuration of an OC3 interface and a line interface unit.
FIG. 5 is a diagram showing an example of the rear appearance of the mounting apparatus when the line interface unit of the DS3 interface and the OC3 interface is mounted on the mounting apparatus;
6 (A) and 6 (B) show transmission paths for electrical signal transmission and optical signal transmission, in which transmission paths for electrical signal transmission and optical signal transmission have a single configuration and duplex configuration, respectively. The figure which shows the example of the plane of a mounting device, and the back appearance when the line interface part corresponding to both is made into a duplex configuration, respectively
FIGS. 7A to 7C are diagrams for explaining a system switching control method according to the present invention.
FIGS. 8A and 8B are diagrams showing EMI countermeasure methods.
FIG. 9 is a diagram illustrating a plan view of an example of a line interface unit mounting apparatus when each transmission path is accommodated from the front side of the line interface unit mounting apparatus;
FIGS. 10A and 10B are a plan view and a part of an example of a line interface unit mounting apparatus when each transmission line is accommodated from the back side of the line interface unit mounting apparatus. Figure showing each right side
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10,11 ... Single line interface part, 10a, 10b, 11a, 11b ... Duplex line interface part, 12 ... Line interface slot, 20 ... Backplane, 30 ... Line interface non-reserve attachment board, 31 ... For line interface duplication Attachment board, 313a ... system switching drive unit, 313b ... system switching unit, 40 ... single transmission line (for electric signal transmission), 41 ... single transmission line (for optical signal transmission), 60, 61 ... metal plate (radiation) (For noise blocking)

Claims (11)

A line interface unit mounting apparatus in which at least various line interface units are mounted so as to be insertable / removable from the front side of the apparatus.
When the line interface unit corresponding to the single transmission line has a single configuration, the single transmission line is attached via a line interface non-reserve attachment board which is attached to the rear side of the apparatus and does not have a system switching function. On the other hand, if the line interface unit corresponding to the single transmission line has a duplex configuration, the single channel transmission is performed via the line interface duplex attachment board that is attached to the back side of the device and has a system switching function. A method for accommodating a single transmission line in a line interface unit mounting apparatus in which a line is accommodated. A line interface unit mounting apparatus in which at least various line interface units are mounted so as to be insertable / removable from the front side of the apparatus.
Regardless of whether the configuration of the line interface unit corresponding to the single transmission line is single or duplex, the line interface is attached to the back side of the device and the system is equipped with a dual line interface attachment board. A method for accommodating a single transmission line in a line interface unit mounting apparatus in which a single transmission line is accommodated. A line interface unit mounting apparatus in which at least various line interface units are mounted so as to be insertable / removable from the front side of the apparatus.
When the line interface unit corresponding to the single transmission line has a single configuration, the single transmission line is attached via a line interface non-reserve attachment board which is attached to the rear side of the apparatus and does not have a system switching function. The line interface unit corresponding to the single transmission line is placed in a single operation state by the single connection information from the attachment board, while the line interface unit corresponding to the single transmission line has a duplex configuration. In this case, a single transmission path is accommodated via a line interface duplexing attachment board that is attached to the rear side of the apparatus and has a system switching function, and is then transferred to the single transmission path by the duplexing information from the attachment board. A single transmission line in which each corresponding line interface unit is placed in a duplex operation state. The method accommodates for the line interface unit mounting apparatus. A line interface unit mounting apparatus in which at least various line interface units are mounted so as to be insertable / removable from the front side of the apparatus.
When the line interface unit corresponding to the single transmission line has a single configuration, the single transmission line is attached via a line interface non-reserve attachment board which is attached to the rear side of the apparatus and does not have a system switching function. On the other hand, if the line interface unit corresponding to the single transmission line has a duplex configuration, the single channel transmission is performed via the line interface duplex attachment board that is attached to the back side of the device and has a system switching function. A single transmission line that accommodates a single transmission line via a line interface non-spare attachment board and a dual line interface attachment board corresponding to the single transmission line side connector shape when the path is accommodated. Accommodation method in the line interface unit mounting apparatus. An accommodation method for accommodating a single transmission path for electric signal transmission and optical signal transmission in a line interface section mounting apparatus in which at least various line interface sections are mounted so that they can be inserted and removed from the front side of the apparatus. ,
A single transmission line for electrical signal transmission is attached to the back side of the device and is connected via a line interface non-reserve attachment board or a dual line interface attachment board equipped with a connector for connection to the single transmission line side. A line interface unit of a single transmission line, in which a single transmission line for optical signal transmission is accommodated directly by a connector connection to a line interface unit corresponding to the single transmission line. Accommodation method in mounting device. A line interface unit mounting apparatus in which at least various line interface units are mounted so as to be insertable / removable from the front side of the apparatus.
When the line interface unit corresponding to the single transmission line has a duplex configuration, the single transmission line is accommodated via the line interface duplex attachment board that is attached to the rear side of the device and has a system switching function. Then, a method for accommodating a single transmission line in a line interface unit mounting apparatus that enables introduction of a new service or maintenance for a failure without interrupting the service even when the system is switched. A line interface unit mounting apparatus in which at least various line interface units are mounted so as to be insertable / removable from the front side of the apparatus.
When the line interface unit corresponding to the single transmission line has a single configuration, the single transmission line is attached via a line interface non-reserve attachment board which is attached to the rear side of the apparatus and does not have a system switching function. On the other hand, if the line interface unit corresponding to the single transmission line has a duplex configuration, the single channel transmission is performed via the line interface duplex attachment board that is attached to the back side of the device and has a system switching function. When the road is accommodated, the line interface non-spare attachment board and the line interface duplication attachment board are each attached to the back side of the apparatus with the entire board covered with a metal plate for preventing radiation noise. A method of accommodating a single transmission line in a line interface unit mounting device. A line interface unit mounting device in which at least various line interface units are mounted so as to be insertable / removable from the front side of the device, and a housing method for housing a single transmission line for optical signal transmission,
When the line interface unit corresponding to the single transmission line has a duplex configuration, the single transmission line is connected via the line interface duplex attachment board that is attached to the rear side of the apparatus and is equipped with an optical switch as a system switching function. A method for accommodating a single transmission line in a line interface unit mounting apparatus that is accommodated. An accommodation method for accommodating a single transmission path for electric signal transmission and optical signal transmission in a line interface section mounting apparatus in which at least various line interface sections are mounted so as to be removable from the front side of the apparatus. ,
When a single transmission line is accommodated via a line interface duplex attachment board that is attached to the rear side of the apparatus and has a system switching function, the line interface unit corresponding to the single transmission path changes to the system switching function. When the system switch signal is disconnected, the single transmission line is forcibly accommodated in one of the line interface sections of the duplex configuration via the system switch function. , A method of accommodating a single transmission line in a line interface unit mounting device. An accommodation method for accommodating a single transmission path for electric signal transmission and optical signal transmission in a line interface section mounting apparatus in which at least various line interface sections are mounted so as to be removable from the front side of the apparatus. ,
When a single transmission line is accommodated via a line interface duplex attachment board that is attached to the rear side of the apparatus and has a system switching function, the line interface unit corresponding to the single transmission path changes to the system switching function. When the power supply for system switching is turned off, the single transmission line is forcibly accommodated in any one of the line interface sections of the duplex configuration via the system switching function. A method for accommodating the single transmission line in the line interface unit mounting apparatus. A line interface unit mounting device in which at least various line interface units are mounted so as to be insertable / removable from the front side of the device, and a housing method for housing a single transmission line for optical signal transmission,
When the single transmission line is accommodated via the line interface non-reserve attachment board that is attached to the rear side of the device and does not have a system switching function, the line interface non-reserve corresponding to the single transmission line side connection connector shape A method for accommodating a single transmission line in a line interface unit mounting apparatus, in which the single transmission line is accommodated via an attachment board for use.

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