JPH08106401A - Package with redundant constitution - Google Patents

Abstract

PURPOSE: To provide the package with the redundant constitution which can greatly be reduced in power consumption and heating value while minimizing bit of main data. CONSTITUTION: The package of redundant constitution has at least one stand-by package and the packages 1 and 2 have on-board power sources 3 and are switched between an in-operation state and a stand-by state; and a driving voltage is supplied to only the on-board power source 3 in a package in operation and the driving voltage is supplied only for a specific delay time to the on-board power source 3 of a package which is switched from the in-operation state to the stand-by state. Then the output of the on-board power source 3 of the package switched to the stand-by state for the specific delay time and the output of the on-board power source 7 of the package switched to the in- operation state are connected to obtain confounding.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a package switching method in the case where a package having an on-board power supply has a redundant configuration, and more particularly, to reduce power consumption and heat generation while minimizing interruption of main data. The present invention relates to a package having a redundant configuration that can be reduced.

[0002]

2. Description of the Related Art Generally, there is known a technique in which a package having an on-board power supply has a redundant configuration and the package is switched to a standby package when a failure such as a failure occurs in the package in a certain operating state. FIG. 5 shows a conventional example of a package having the above redundant configuration. As shown in FIG. 5, the package having this redundant structure has a first package 1 and a second package 2, and the first and second packages 1 and 2 (2 is a spare) It has a redundant configuration. The first and second packages 1, 2
Each have an on-board power source 3 and a data processing unit 4 connected to the on-board power source 3, and each of the on-board power sources 3 is connected so that a drive voltage of -48V is supplied. Has been done.

Further, a main data supply line is connected to each of the data processing sections 4 via a switch SW1, and the switch SW1 normally becomes as shown by a solid line in FIG.
The data processing unit 4 of the first package 1 is connected to the main data to be in an operating state, and the data processing unit 4 of the second package 2 is separated from the main data to be in a standby state. When the switch SW1 is switched, the switch SW1 becomes as shown by the broken line in FIG. 5, the data processing unit 4 of the first package 1 is disconnected from the main data, and the standby state is established. The part 4 is connected to the main data and is in an operating state.

A time chart of the switching operation of the package is shown in FIG. 6 (here, the first package 1 is switched to the second package 2, and the first package is again switched to the first package 1).
Showing the operation of switching to the package 1). Also,
The on-board power supply 3 is configured to generate a voltage of + 5V from the driving voltage of −48V and supply the voltage to the data processing unit 4. Here, in the conventional package having the redundant configuration, as shown in (d) and (e) of FIG. 6, the on-board power supply 3 is not only when the package is in the operating state but also when in the standby state. Also, the drive voltage of -48V is supplied to generate a voltage of + 5V.

In the on-board power supply 3, the above + 5V
When the voltage is generated, energy is always lost and heat is generated, so the on-board power supply of the package in the standby state also consumes energy and generates heat. Therefore, there is a drawback that wasteful power consumption and an increase in heat generation are brought about.

[0006]

The present invention has been made in view of the above circumstances, and provides a package having a redundant configuration capable of significantly reducing power consumption and heat generation amount while minimizing a momentary interruption of main data. The purpose is to

[0007]

SUMMARY OF THE INVENTION To achieve the above object, the present invention provides a redundant configuration package having at least one spare package, each package having an on-board power supply, and each package being in an operating state and a standby state. And the drive voltage is supplied only to the on-board power supply of the package in the operating state, and to the on-board power supply of the package switched from the operating state to the standby state. Drive voltage is supplied, and the output of the on-board power supply of the package switched to the standby state for the predetermined delay time and the output of the on-board power supply of the package switched to the operation state are connected and entangled. It is characterized by

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Before describing the embodiments of the present invention, related inventions by the applicant of the present invention for clarifying the effects of the present invention will be described below. As shown in FIG. 7, the package having the redundant configuration of the related invention has a first package 1 and a second package 2, and the first and second packages 1 and 2 (either one of them is It is a spare, but the package 2 is a spare here.) Each of the first and second packages 1 and 2 has an on-board power supply 3 and a data processing unit 4 connected to the on-board power supply 3, and each of the on-board power supplies 3 includes a first It is connected so that a drive voltage of -48V is supplied via the second switch SW2.

A main data supply line is connected to each of the data processing units 4 via a first switch SW1. In the normal state, the first switch SW1 is as shown by the solid line in FIG. 7, and the data processing unit 4 of the first package 1 is connected to the main data to be in the operating state, and the second switch SW1 is in the operating state.
The data processing unit 4 of the package 2 is disconnected from the main data and is in a standby state. When switching, the data processing unit 4 of the first package 1 is disconnected from the main data and is in a standby state. Therefore, the data processing unit 4 of the second package 2 is connected to the main data and put into an operating state.

At the same time, the second switch SW2
Is normally connected as shown by the solid line in FIG. 7, and is connected so that the drive voltage of −48 V is supplied to the on-board power supply 3 of the first package 1 and the second package 2 is connected. The on-board power supply 3 is connected so that the drive voltage of −48 V is not supplied, and at the time of switching, it becomes as shown by the broken line in FIG.
Is connected so that the drive voltage of -48V is not supplied, and the on-board power supply 3 of the second package 2 is connected so that the drive voltage of -48V is supplied.

A time chart of the switching operation of the package is shown in FIG. 8 (here, switching from the first package 1 to the second package 2 and then again the first package 1 is performed).
Showing the operation of switching to the package 1). Also,
The on-board power supply 3 is configured to generate a voltage of + 5V from the driving voltage of −48V and supply the voltage to the data processing unit 4.

As described above, in the package having the redundant structure, as shown in (f) and (g) of FIG. 8, the drive voltage of -48V is supplied only to the on-board power source of the package in the operating state. Since the on-board power supply 3 of the package in the standby state does not consume energy and generate heat, it is very useful.

However, similarly, as shown in (f) and (g) of FIG.
Is lowered almost at the same time when the second switch SW2 is switched when shifting from the operating state to the standby state, but does not rise immediately when starting from the standby state to several tens of msec. It takes time Tup. Therefore, the interruption of the main data to the data processing unit 4 of the packages 1 and 2 (in the state of being momentarily disconnected) is
Not only the switching time of the first switch SW1 but also the start-up time Tup is included.

In addition to the effect of reducing the power consumption and the heat generation amount according to the related invention, the package having the redundant structure according to the present invention minimizes the instantaneous interruption time (that is, only the switching time of the first switch). Is what you are trying to
An example thereof will be described below with reference to FIGS.

As shown in FIG. 1, the package having the redundant configuration has a first package 1 and a second package 2, and the first and second packages 1 and 2 (one of them is a spare package). It becomes redundant). The first and second packages 1 and 2 respectively include an on-board power supply 3, a data processing unit 4 connected to the on-board power supply 3, and first, second and third switches SW1 and SW.
2, SW3 and the second and third switches SW2,
The timing control unit 5 controls the switching timing of the SW3 so that it has a delay.

The on-board power sources 3 are connected so that a drive voltage of -48 V is supplied via the second switch SW2, and the data processing sections 4 are connected to the first data processing section 4 by the first switch.
The main data supply line is connected through the switch SW1. Further, in order to confound the + 5V voltage output of each of the onboard power supplies 3, + 5V of each of the onboard power supplies 3 is used.
The voltage outputs are connected to each other via the third switch SW3. In addition, the timing control unit 5 is configured so that the second and third switches SW2 and SW2, as shown in FIG.
The switching timing of 3 is switched immediately when switching from the standby state to the operating state, and is switched with a predetermined delay time T _B when switching from the operating state to the standby state.

Next, the switching operation of the package having the above redundant structure will be described with reference to FIGS. The first, second and third switches SW1, SW2, S
W3 is normally switched as shown by the solid line in FIG. In this state, the first package 1 is in the operating state and the second package 2 is in the standby state. That is, the data processing unit 4 of the first package 1 is connected to the main data by the first switch SW1 to be in the operating state, and the data processing unit 4 of the second package 2 is disconnected from the main data and is in the standby state. (Fig. 3
(See (a), (b), (e)). In the normal state, the −48V drive voltage is supplied to the onboard power supply 3 of the first package 1 by the second switch SW2, and the onboard power supply 3 of the second package 2 is supplied. The drive voltage of −48V is not supplied (see FIGS. 3C and 3F). Then, in the normal time, the first switch is operated by the third switch SW3.
The output of the on-board power supply 3 of the package 1 and the output of the on-board power supply 3 of the second package 2 are not connected (see FIGS. 3D and 3G). The above state is shown in the range A of FIG.

Next, the states of the first and second packages 1 and 2 are switched, the second package 2 is in the operating state, and the first package 1 is in the standby state. In addition, the second and third switches SW2 and SW3 of the package (the first package 1 in this case) changing from the operating state to the standby state have a predetermined delay time T.
Because it switched with _B, a state shown in range B in FIG. At the time of this delay, the first, second, and third switches SW1, SW2, and SW3 are switched as shown by the solid line in FIG.

That is, at the time of this delay, the data processing unit 4 of the first package 1 is separated from the main data by the first switch SW1 to be in a standby state, and the data processing unit 4 of the second package 2 is in a standby state. Is connected to the main data and is in an operational state (see FIGS. 3 (a), 3 (b) and 3 (e)). At the time of the delay, the second switch SW2 of the first package 1 remains unchanged without being switched, so the drive voltage of −48V is supplied to the on-board power supply 3 of the first package 1. As a result, the output voltage of the on-board power supply 3 of the first package 1 remains + 5V (see FIGS. 3C and 3H). As a result, the power supply voltage to the data processing unit 4 of the first package 1 remains + 5V as shown in FIG. 3 (j).

At the time of the delay, the second switch SW2 of the second package 2 is switched, so that the on-board power supply 3 of the second package 2 is supplied with the drive voltage of -48V. To be done. As a result, the output voltage of the on-board power supply 3 of the second package 2 rises at a constant rise time Tup as shown in FIG. 3 (i). However, during this delay, the third switch SW3 of the first package 1 remains ON without being switched, and the third switch SW3 of the second package 2 remains.
Turns from OFF to ON, the output of the on-board power supply 3 of the first package 1 and the output of the on-board power supply 3 of the second package 2 are connected, and + 5V confounding is taken.

As a result, as shown in FIG. 3 (k), the power supply voltage of the data processing section 4 of the second package 2 immediately becomes + 5V. Therefore, when switching from the first package 1 to the second package 2, the interruption of the main data to the data processing unit 4 of the second package 2 is only at the moment when the first switch SW1 operates. .

Next, as shown in FIG. 3, when the range B of the delay state is passed and the range C of the state at the time of switching is reached, the first
Second and third switches SW2, S of the package 1 of
W3 is switched (in this case, it becomes as shown by the dotted line in FIG. 1). Therefore, the -48V drive voltage is not supplied to the on-board power supply 3 of the first package 1, and the output of the on-board power supply 3 of the first package 1 and the second
3 is disconnected from the output of the on-board power supply 3 of the package 2, and the output voltage of the on-board power supply 3 of the first package 1 and the output of the first package 1 as shown in FIGS. The power supply voltage of the data processing unit 4 is 0V
Becomes Also, the delay time T _B and the start-up time Tup
The relationship is with T _B > Tup. When the operation is switched from the second package 2 to the first package 1, the operation is the same as the first package 1 and the second package 2, but the description is omitted. .

[0023]

As described above, according to the present invention, in a package having a redundant configuration, the drive voltage is supplied only to the on-board power supply of the package in the operating state, and the package is switched from the operating state to the standby state. The drive voltage is supplied to the on-board power supply for a predetermined delay time from the time of switching, and the output of the on-board power supply of the package switched to the standby state for the predetermined delay time and the package switched to the operating state. Since the output of the on-board power supply is connected and the confounding is taken, the power consumption and the heat generation amount can be remarkably reduced while minimizing the interruption of the main data.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of a package having a redundant configuration according to the present invention.

FIG. 2 is a time chart of a switching operation with a delay in the package shown in FIG.

3 (a) to (k) are time charts of the switching operation of the package shown in FIG.

FIG. 4 is a diagram showing another switching state of the package shown in FIG.

FIG. 5 is a configuration diagram of a package having a conventional redundant configuration.

6A to 6E are time charts of the switching operation of the package shown in FIG.

FIG. 7 is a configuration diagram of a package having a redundant configuration according to a related invention of the present invention.

8A to 8G are time charts of the switching operation of the package shown in FIG.

[Explanation of symbols]

1, 2 ... First and second packages, 3 ... On-board power supply, 4 ... Data processing unit,
5 ... timing controller, SW1, SW2, SW3 ... first, second, and third switch, Tup ... rise time, T _B ... delay time,

Claims (2)

[Claims] 1. A redundant package having at least one spare package, wherein each package has an on-board power supply, and each of the packages is switched between an operating state and a standby state. The drive voltage is supplied only to the on-board power supply of the package in the state, and the drive voltage is supplied to the on-board power supply of the package that has been switched from the operating state to the standby state for a predetermined delay time from the above switching, and the predetermined voltage Has a redundant configuration in which the output of the on-board power supply of the package switched to the standby state for the delay time of and the output of the on-board power supply of the package switched to the operation state are connected and entangled. package. 2. The package having the redundant configuration supplies a drive voltage to the on-board power supply of the package in the operating state, and does not supply a drive voltage to the on-board power supply of the package in the standby state. With switching
The drive voltage is supplied to the on-board power supply of the package switched from the operating state to the standby state for a predetermined delay time from the switching time, and the on-board power supply of the package switched to the standby state for the predetermined delay time. The switch means for switching so that the output and the output of the on-board power supply of the package switched to the operating state are connected and entangled is provided.
A package with the redundant configuration described in.