JPH04208036A - Signal processor - Google Patents

Abstract

PURPOSE:To obtain a signal processor provided with a simple, economic and highly reliable power supply system by providing each extension module with a single power supply board connected with a power supply line while on the other hand receiving output from a power supply board for an adjacent module. CONSTITUTION:An extension module 11 is provided with only one power supply board 36 and one 39 of two diodes 39, 40 receives output from the current power supply board 36, as conventional, but the other diode 40 receives output from a power supply board for an adjacent module thus duplexing the power supply route and substantially employing a duplex power supply system. According to the constitution, the extension module can be simplified in constitution and reduced in size and cost because no standby power supply board is required and since a duplex power supply route is employed, reliability comparable with conventional redundancy scheme can be ensured.

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a signal processing device composed of one basic module and a large number of expansion modules, and in particular, each module is connected in parallel from a common power supply line. This invention relates to a power supply method when receiving power supply.

(Prior Art) Various types of signal processing devices are known that are composed of one basic module and a large number of expansion modules.
The following will explain the terminal equipment of a communication system as an example.

As is well known, in recent years the demand for data communications has increased, and the low-speed data communications using existing telephone lines etc. are no longer sufficient. Construction of dedicated data communication systems with high capacity and high functionality is becoming popular. An example is shown in FIG.

FIG. 2 shows a configuration example of a two-way data communication system in which terminal equipment 1 and terminal equipment 2 communicate via a wireless transmission path.
In the figure, a terminal station device 1 (2) is one that centrally manages communication services between a large number of data terminal devices (not shown), and basically includes an antenna 21 (22) and a transmitting/receiving device 23 ( 24) and a basic module 25 (26>).

In order to be able to flexibly respond to the number of data terminal devices included in the system, the terminal device 1 (2)
or 2 or more expansion modules 26,...(2
7,...) can be added.

In other words, the minimum necessary data communication functions are realized using only the basic components up to basic module 25 (26).
Without using the expansion module 26 (27), it is possible to construct a small-scale system with a small number of data terminal devices or a system at the time of initial construction at a low cost, and it can be used for a large-scale system with a large number of data terminal devices or after operation. It is possible to respond flexibly to increases in subscribers by adding additional modules as needed.

By the way, the basic module is equipped with a control panel that performs data multiplexing and demultiplexing, etc., and one or more boat module panels that interface with data terminal devices as units that realize various functions. It is equipped with an interface board and a boat module board for making signal connections, but the power supply system for these needs to be highly reliable. Conventionally, the following two methods have been adopted. Both types have the same thing in common: the basic module has two power supply systems, one for working and one for backup, but the power supply system for the expansion module is different.

The first method is a method in which the expansion modules do not have a power supply panel, and power is supplied to all the expansion modules only by the power supply panel in the basic module.

However, with this method, there are problems with line drops when a large number of expansion modules are connected, and problems with the stability of the power supply panel output voltage due to large load fluctuations, making it difficult to design the power supply panel. .

In addition, even for small-scale systems that can be supported by only the number of boat modules in the basic module, a large-capacity power supply panel that can supply power to all expansion modules must be used, which is uneconomical. be.

On the other hand, the second method, which is the method targeted by the present invention, is a method in which the expansion module is provided with an individual power supply panel,
This is intended to simplify design and reduce the burden on the basic module. A terminal station device of this type is specifically configured as shown in FIG. 3, for example.

In FIG. 3, the basic module 31 (a plurality of expansion modules 32, 32, . . .) is a standby power supply panel 33 (34, 34, . . .) and a working power supply panel 35, respectively. (36, 36, . . . ), and these two types of power boards are commonly connected in parallel to the primary power line 100. And the current power supply panel 35 (36, 36
,...) output is the diode 37 (39,3
9,...), and the backup power supply panel 3B (3
The output of diode 38 (4, 34, ...)
0, 40, . . . ), and the outputs of these two diodes are electrically connected to form one power output, which is supplied to each unit in the module. Here,
As described above, each unit is the control panel 41 and a plurality of boat module panels 43 in the basic module 31,
Further, the expansion module 32 includes an interface panel 42 and a plurality of boat module panels 44.

(Problem to be solved by the invention) However, in a power supply system in which the expansion module also has a working power supply panel and a backup power supply panel, the reliability is high, but it is extremely difficult to use because it requires two power supply panels like the basic module. There are problems in that it is uneconomical and the size of the module itself increases. This is a common problem in other signal processing devices having a similar configuration.

The present invention was made in view of such conventional problems, and its purpose is to provide a module that is composed of one basic module and one or more expansion modules that receive power supply in parallel from a common power supply line. An object of the present invention is to provide a signal processing device that has a simple and economical configuration and has a highly reliable power supply system.

(Means for Solving the Problems) In order to achieve the above object, the signal processing device of the present invention has the following configuration.

That is, the signal processing device of the present invention is composed of one basic module and one or more expansion modules that receive power supply in parallel from a common power supply line, and in each module, two power outputs are connected to corresponding diodes. In the signal processing device, the outputs of the two diodes are electrically connected to supply power to the module content unit: The expansion module has one power board connected to the power supply line. ; One of the two diodes receives the output of the power supply panel, and the other receives the output of the power supply panel of another adjacent module (if the other module is a basic module, one of the current and standby diodes) It is characterized by: receiving the output of the power supply panel).

(Function) Next, the function of the signal processing device of the present invention configured as described above will be explained.

In the FA processing device of the present invention, the basic module is the same as the conventional one, but the expansion module has only one power supply panel, which is currently in use, and receives power input from the other of the two diodes from the power supply panel of the adjacent module.

As a result, the expansion module eliminates the need for a backup power supply panel, making the configuration simpler and more compact, making it more economical. This means that reliability equivalent to that of a redundant configuration can be ensured.

(Example) Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a terminal device as a signal processing device according to an embodiment of the present invention. Note that the same reference numerals are given to the same parts as in the conventional case. Hereinafter, parts related to the present invention will be mainly explained.

In FIG. 1, the basic module 31 is the same as the conventional one, but the expansion modules 11, 11, . . . have only one power supply panel, the working power supply panel 36, and two diodes 39 One of the three diodes 40 receives the output from the working power supply panel 36 as in the past, but the other diode 40 receives the output from the power supply panel of another adjacent module, thus creating a dual power supply route. In order to improve the efficiency of the system, it is essentially a two-power system.

Here, the power supply panel of another module refers to one of the two power supply panels of the basic module when there is one expansion module (in the illustrated example, it is the backup power supply panel 33).
If the expansion module is installed in multiple stages, the current power supply of the expansion module in the previous stage! This means 136.

(Effects of the Invention) As explained above, according to the signal processing device of the present invention,
Since the expansion module has only one power supply panel and is designed to duplicate the power supply route, the expansion module eliminates the need for a backup power supply panel, making the configuration simpler and smaller, making it more economical. In addition, since the power supply route has a redundant configuration, it has the effect of ensuring the same level of reliability as a conventional redundant configuration.

[Brief explanation of the drawing]

FIG. 1 is a configuration block diagram of a terminal station device as a signal processing device according to an embodiment of the present invention, FIG. 2 is a configuration block diagram showing an example of a data communication system, and FIG. 3 is a configuration block diagram of a conventional terminal station device. It is a configuration block diagram. 11... Expansion module, 31... Basic module, 33... Standby power supply panel, 35.36... Current power supply panel, 37.38, 39 .40...Diode, 41
...Control panel, 42...Interface panel, 43.44...Boat module board. Agent Patent Attorney Yoshi Hachiman Hiromoto Month's Force Bureau Y-T Nobu 1 Ora A Published 1st Senganka Example 2 Bureau Device 1 3rd V OS Precept Ro

Claims (1)

[Claims] It consists of one basic module and one or more expansion modules that receive power supply in parallel from a common power supply line, and each module receives two power outputs through corresponding diodes. In a signal processing device whose outputs are electrically connected to supply power to each unit in the module; the expansion module includes one power panel connected to the power line, and the two diodes. One side receives the output from the power supply panel, and the other receives the output from the power supply panel of another adjacent module (if the other module is a basic module, the power supply panel of either the active or standby power supply panel); A signal processing device characterized by: