JPH0764679A - Power source capacity informing method - Google Patents

Abstract

PURPOSE:To provide a power source capacity informing method to enable the packaging of the power unit module of adequate capacity by showing the information of the increase or the removal, etc., of the power unit module to a maintenance person when a circuit module is increased or decreased. CONSTITUTION:A system monitoring processor 3 retrieves the feeding power of the power unit module 1-1 from the identification information ID1 of that power unit module, and holds it previously. When the circuit module 2-1 is packaged, the system monitoring processor 3 knows its power consumption from the identification information ID3 of this circuit module 2-1, and compares this power consumption with the feeding power of the power unit module 1-1, and if the feeding power is larger than the power consumption, it turns on a switch 6, and if not, it displays a message to urge the increase of the power unit module on a display part 4 while keeping the switch 6 in an OFF state.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus in which a system is composed of an adjustable power module and a detachable circuit module, and more particularly to a method of notifying a maintenance person of an excess or deficiency of power capacity of a power module.

[0002]

2. Description of the Related Art For example, in an information processing device or a communication device, a system may include a plurality of detachable circuit modules. In such a device, the number of power supply modules can be increased and decreased, and the number of power supply modules can be increased and decreased by increasing and decreasing the circuit modules. FIG. 6 is a block diagram showing a conventional device of this type. Each of 1-1 and 1-2 is a power supply module having a capacity of 10 W. DC to the circuit modules 2-1 to 2-4 mounted from these power supply modules 1-1 and 1-2
Power is being supplied. a is a power supply line that is connected to the power supply modules 1-1 and 1-2 from a commercial power supply (not shown), and b is from the power supply module 1 to the circuit module 2.
Is a DC power supply line connected to. Here, the power consumption of each of the circuit modules 2-1 to 2-4 is 2 W,
3W, 5W, 7W, and the power consumption of all circuit modules in the maximum configuration is 17W. Therefore, the power supply modules 1-1 and 1-2 are operated in parallel so that the power supply capacity is 10 W, and the power supply required for the maximum configuration is secured.

By the way, in the minimum configuration of the above-mentioned conventional apparatus, since only 2-1 circuit modules are provided, if both of the power supply modules 1-1 and 1-2 are mounted, the power supply capability becomes excessive, and the power supply becomes Module 1-1 alone is sufficient. Therefore, in the basic configuration, the power supply module 1
It is economical to mount only -1 and add the power supply module 1-2 as needed as the circuit module 2 is added. However, since the power consumption of each circuit module 2 varies, it is cumbersome and time-consuming to determine how many circuit modules 2 should be mounted to newly install the power supply module 1. As a matter of fact, it was difficult for maintenance personnel to make the above judgment. In particular, it is not uncommon for a device having a configuration in which the number of circuit modules 2 is several tens, and in such a case, it is extremely difficult to add an appropriate number of power supply modules 1 in accordance with the number of mounted circuit modules 2. It was very difficult. Also, if you dare to do this, calculate the total power consumed by each circuit module mounted by the maintenance person,
The power supplied from the power supply module after the expansion has to be calculated with respect to this total power, which is a disadvantage that enormous effort and time are required.

[0004]

In a conventional device composed of a plurality of detachable circuit modules and a power supply module capable of increasing / decreasing, the power supply is increased if the power supply modules are increased / decreased according to the power consumption of the mounted circuit modules. It is possible to avoid an uneconomical state in which the device is operated with an excessive supply capacity. However, since the power consumption of each circuit module varies, it is not possible for a maintenance person in the field to judge how much more circuit modules should be added when a new power supply module is needed. Since it is difficult as a problem, conventionally, a power supply module that covers the power required for maximum configuration has been installed from the beginning, which makes the equipment excessive and uneconomical, and the cost of the device is unnecessary. It had the drawback of becoming expensive.

Therefore, the present invention eliminates the above-mentioned drawbacks and presents information such as addition or removal of power supply modules to the maintenance person when the number of circuit modules is increased or decreased to facilitate the increase or decrease of power supply modules of appropriate capacity. It is an object of the present invention to provide a power capacity notification method that can be carried out.

[0006]

SUMMARY OF THE INVENTION The present invention relates to a system power supply capacity notifying method for supplying power from an adjustable power supply module to a detachable circuit module, wherein the power supply module is newly installed when the circuit module is mounted. After the power supply to the circuit module from is temporarily cut off, the power supply power of all the mounted power supply modules is calculated, and the power consumption of all the mounted circuit modules including the newly mounted circuit module is calculated. Compare the power supply with the power consumption, and as a result, when the power consumption exceeds the power supply, notify the maintenance person of the power supply shortage of the power supply module while cutting off the power supply from the power supply module to the circuit module. Have a configuration.

[0007]

In the power capacity notification method according to the present invention, when the circuit module is newly mounted, the power supply to the circuit module from the power module is temporarily cut off, and then the power supplied to all the mounted power modules is calculated. , Calculate the power consumption of all mounted circuit modules including the newly mounted circuit module, and then compare the power supply with the power consumption, and as a result, if the power consumption exceeds the power supply, the power from the power supply module Since the maintenance personnel is notified of the power supply shortage of the power supply module while the power supply to the circuit module of the power supply is cut off, the maintenance personnel can easily add a new power supply module when the power supply is insufficient, and excessive power supply It is possible to avoid an uneconomical situation by avoiding the state of having electric power.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a system to which the power capacity notification method of the present invention is applied. 1-1 is a power supply module with power supply of 10 W, 2-1 is power consumption 2
W circuit module, 3 is a system monitoring processor that creates and displays on the display unit 4 information regarding the increase or decrease of the power supply module, 4 is a display unit such as an LCD that displays a message from the system monitoring processor 3, and 5 is a system monitoring processor. The power supply unit 3 supplies power to the display unit 4 and the display unit 4, and the switch 6 turns on / off the supply of power from the power supply module 1 to the circuit module 2. Further, a and b are power supply lines, and c is a bus for transmitting data.

Next, the operation of this embodiment will be described. It is assumed that the circuit module 2-1 is mounted when the power supply module 1-1 is mounted as shown in FIG. The system monitoring processor 3 uses the power supply module 1 through the bus c.
The identification information ID1 of -1 is accessed, and the identification information is collected and stored in the internal memory. Circuit module 2-
1 is not mounted, the switch 6 is open, and when the circuit module 2-1 is mounted in this state, the system monitoring processor 3 accesses the identification information ID3 of the circuit module 2-1 through the bus c. Then, the identification information is collected and stored in the internal memory.

At the same time, the system monitoring processor 3
Reads the power supply power (10 W) of this power supply module from the data table from the identification information of the power supply module 1-1, and at the same time, calculates the power consumption (2 W) of this circuit module 2-1 from the identification information of the circuit module 2-1. Read and compare both. Since the result is that the supplied power> consumed power, the system monitoring processor 3 closes the switch 6 and displays the information indicating that it is not necessary to increase the supplied power on the display unit 4. The data table is assumed to be registered in the system monitoring processor 3 in advance.

At this time, nothing may be displayed on the display unit 4, or the display unit 4 may be an LED or the like and the information may be represented by blinking. Further, the identification information contained in the power supply module 1 and the circuit module 2 operates regardless of whether or not the power supply to each module is turned on and off. For example, the identification information is composed of unevenness, and this unevenness is used as a switch or the like. There is something to detect with.

After that, the maintenance person uses the circuit module 2-2,
2-3 is mounted, but the system monitor processor 3 is notified of the mounting of the circuit module from an input unit (not shown) before the addition. Therefore, the system monitoring processor 3 opens the switch 6 before adding the circuit module 2 and performs the same processing as above. For example, when the circuit modules 2-2 and 2-3 are added, the circuit module 2
-2, 2-3 have power consumption of 3W and 5W, so that the power consumption of all circuit modules is 2 + 3 + 5 = 10 (W), and as a result, the power supply power = power consumption. The switch 3 closes the switch 6 and displays on the display unit 4 information that it is not necessary to increase the power supply.

However, after that, when the maintenance person further mounts the circuit module 2-4, the power consumption of all the circuit modules becomes 2 + 3 + 5 + 7 = 17 (W), and as a result, the power supply power <the power consumption. Since the system monitor processor 3 lacks power supply to the display unit 4,
Displays a message recommending to the maintenance personnel to add a power supply module having a power supply of 7 W or more. The message on the display unit 4 at this time may simply indicate a shortage of power supply. The maintenance person who sees this adds the power supply module 2-2 having the power supply of 10 W. At this time, the system monitoring processor 3 accesses the identification information ID2 of the power supply module 1-2 through the bus c of FIG. 2, collects the identification information, stores the identification information in the internal memory, and also the power supply module 1-1, Total of power supply of 1-2 (20
W) and the total power consumption (17 W) of the circuit modules 2-1 to 2-4, and the power supply power> the power consumption, the system monitoring processor 3 closes the switch 6 and the display unit. The information indicating that it is not necessary to increase the power supply is displayed in 4. Here, FIG. 2 is a power supply module 1-
1 illustrates an example of mounting the circuit modules 1-1 and 1-2 and the circuit modules 2-1 to 2-4.

According to the present embodiment, when the circuit module 2 is added, the power consumption increased by adding the circuit module 2 becomes larger than the power supply power of all the mounted power supply modules 1. In this case, the system monitor processor 3 notifies the maintenance person to recommend the addition of the power supply module 1, and unless the power supply is more than the power consumption, the switch 6 is not closed. It is possible to easily and appropriately add the power supply module 1 so as to prevent the power supply module 1 from being damaged or the device from not operating properly. Further, the power supply module 1 may be optimally mounted in accordance with the power consumption of all the circuit modules 2 mounted, so that although the power consumption of the circuit module 2 is small, it has an excessive power supply. Since it is not necessary to mount a separate power supply module, it is possible to prevent the price of the device from being unnecessarily increased.

FIG. 3 is a block diagram showing another embodiment of the present invention. In this example, the power supply module 1 and the circuit module 2 are identified by resistors R1 and R provided in each module.
It is identified by the voltage drop of 3. That is, when the power supply module 1-1 and the circuit module 2-1 are mounted, a current is supplied from the power supply unit 5 to the resistor R1 via the resistor R-1, and a resistor is supplied via the resistor R-2. Current is supplied to R3. Here, it is assumed that the resistors R1 and R3 are determined in proportion to the power supply power of the power supply module 1-1 and the power consumption of the circuit module 2-1. Further resistance R-
The voltage applied from the power supply unit 5 to 1 and R-2 has the same potential, and resistance R-1 = resistance R-2. The comparator 7 compares the potentials of C and D in the figure, and the potential of C is D
When the potential is larger than the potential of, the output becomes high level and this is input to the system monitoring processor 3. When the high level signal is input from the comparator 7, the system monitoring processor 3 receives the power supply module 1-1.
It is determined that the power supply power of the power supply of the circuit module 2-1 exceeds the power consumption of the circuit module 2-1, and this is displayed on the display unit 4 and the switch 6 is closed.

Thereafter, each time the circuit modules 2-2, 2-3, 2-4 are mounted as shown in FIG. 4, the resistors R4, R5, R6 built in each circuit module 2 are replaced by the resistor R3. , And the potential D rises each time. Then, when the circuit module 2-3 is mounted, the potential C becomes equal to the potential D, and the circuit module 2-
4 is mounted, the potential D degree becomes larger than the potential C, and the output of the comparator 7 is inverted and becomes low level. As a result, the system monitoring processor 3 determines that the power supply has fallen below the power consumption of the circuit module 2-1 and keeps the switch 6 open.
The display unit 4 displays a message recommending to the maintenance person to add a power supply module having a power supply of 7 W or more. The maintenance person who sees this adds the power supply module 2-2 having the power supply of 10 W. The subsequent operation is similar to that of the previous embodiment, and has the same effect.

FIG. 5 is a block diagram showing another embodiment of the present invention. This example is an effective configuration when the circuit module 2 needs to be mounted on a live line. When the maintenance person wants to add a new circuit module 2, the maintenance person informs the system monitoring processor 3 of this through an input unit (not shown). Upon receiving this notification, the system monitoring processor 3 compares the power supply power and the power consumption of all the power supply modules 1 and all the circuit modules 2 currently mounted, and obtains how much margin there is in the current power supply. And display this. That is, when the circuit module 2-1 is mounted, the margin of power supply is 10-2 = 8 (W),
Display this. The maintenance person who saw this learned that the power consumption of the circuit module 2-2 to be added from now on was 3 W, so that the power supply would not run short even if this was installed, and The circuit module 2-2 is mounted on the device. In this way, when the circuit module 2-3 is mounted and the circuit module 2-4 is further mounted and the maintenance person performs the same operation, the margin of the power supply is displayed as 0 on the display unit 4. . The maintenance person who saw this is 10W
The power supply module 2-2 is added and then the circuit module 2-4 is mounted. In this example, the live circuit is used for the circuit module 2
The same effect as in the previous embodiment can be obtained even when the above-mentioned method must be implemented.

[0018]

As described above, according to the power capacity notification method of the present invention, when the number of circuit modules is increased or decreased, information such as the addition or removal of the power modules is presented to the maintenance person to check the load. It is possible to easily increase or decrease the power supply module having an appropriate capacity and prevent the device from being unnecessarily expensive.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a system to which a power capacity notification method of the present invention is applied.

FIG. 2 is a block diagram when a circuit module is fully mounted on the device shown in FIG.

FIG. 3 is a block diagram showing another embodiment of a system to which the power capacity notification method of the present invention is applied.

FIG. 4 is a block diagram when a circuit module is fully mounted on the device shown in FIG.

FIG. 5 is a block diagram showing still another embodiment of the system to which the power capacity notification method of the present invention is applied.

FIG. 6 is a block diagram showing an example of a conventional system.

[Explanation of symbols]

1-1, 1-2 ... Power supply module 2-1 to 2-4
... Circuit module 3 ... System monitoring processor 4 ... Display unit 5 ... Power supply unit 6 ... Switch a, b ... Power supply line c ... Bus

Claims (4)

[Claims] 1. A power supply capacity informing method for a system in which power is supplied from an adjustable power supply module to a removable circuit module, and the power from the power supply module to the circuit module is newly mounted. After the power supply is cut off once, the power supply power of all installed power supply modules is calculated, and the power consumption of all the mounted circuit modules including the newly mounted circuit module is calculated, and then the power supply power and power consumption are compared. As a result, when the power consumption exceeds the power supply, the power supply capacity is characterized by notifying the maintenance person of the power supply shortage of the power supply module while cutting off the power supply from the power supply module to the circuit module. Notification method. 2. A power supply capacity informing method for a system in which power is supplied from an adjustable power supply module to a removable circuit module, which is installed when a maintenance person detects that a new circuit module is installed. In addition to determining the power supply power of all power supply modules, after determining the power consumption of all the circuit modules mounted so far, compare the power supply power and the power consumption, and calculate the power supply power reserve from the difference between the power supply power and the power consumption, A method for informing the capacity of a power source, which informs a maintenance person of the remaining power supply power. 3. The power capacity informing method according to claim 1, wherein a specific numerical value is raised to inform the maintenance person of the power supply shortage of the power supply module. 4. The power capacity notifying method according to claim 2, wherein a specific numerical value of the remaining power supply capacity of the power supply module is increased to notify the maintenance person.