JPH07263569A - RAM mounted module - Google Patents

Abstract

(57) [Summary] [Purpose] If removed from the backplane,
Provided is a RAM-mounted module capable of completely erasing the contents stored in RAM. [Structure] In response to the removal from the backplane 11, the pressing of the backplane 11 on the knob 6 of the switch 5 is released, the internal elastic member pushes it out of the switch 5, and the contact SW is closed. The power supply voltage V _CC and the resistor R are connected. As a result, the power source remaining in each capacitor C is forcibly discharged through the resistor R, and when the voltage of the power source voltage V _CC becomes lower than the minimum operating voltage of the RAM 3, the contents stored in each RAM 3 are erased. It

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a RAM-equipped module, and more particularly to a RAM for supplementally holding the stored contents by a power supply.
R (random access memory) is mounted and is detachably accommodated in the backplane of process control equipment.
The present invention relates to an AM mounted module.

[0002]

2. Description of the Related Art Generally, in a process control device or the like, a rack-shaped backplane having a plurality of connectors is provided in order to give flexibility to the structure of the device, and a module having various functions is detachably accommodated therein. Among these modules, the FA sequencer, controller, board computer, etc. are equipped with a RAM for storing control information.

Conventionally, this type of RAM mounted module has been
The configuration is as shown in FIG. In the figure, 1
1 is a backplane such as a process control device in which signal lines for power supply, control or data connect a plurality of connectors 12 in a bus shape, 1 is a module, 2 is a connector for connecting with the connector 12, 3 is a power supply RAMs and Cs that retain the stored contents and erase the stored contents when the power supply voltage drops are the control power supply V _CC and the ground voltage GN.
It is a capacitor mounted between D for power supply stabilization or for power failure countermeasures.

Maintenance and inspection of such a RAM-equipped module is usually carried out by removing it from the backplane 11. However, when the working time is short to some extent, it is used between the power supply and the ground for power supply stabilization or power failure countermeasures. The RAM 3 is backed up, that is, the stored contents are held by the power source remaining in each of the provided capacitors C.

[0005]

Therefore, in such a conventional RAM-equipped module, when the module is removed from the backplane 11 for maintenance and inspection, it is mounted on the backplane 11 again after the work is completed. RAM
The stored contents of No. 3 will be held, and there is a problem that the initial setting process is judged to be unnecessary based on the previous processing information held in this way, and the initial setting process is not normally performed. It was a cause of malfunction of equipment.

The present invention is intended to solve such a problem. When it is removed from the backplane, the contents stored in the RAM can be completely erased, and the initial setting process can be surely executed at the time of remounting. It is an object of the present invention to provide a RAM mounted module.

[0007]

In order to achieve such an object, the RAM mounted module according to the present invention is closed when the module is removed from the backplane,
A power supply that has a switch that has a contact that opens when it is mounted on the backplane and that holds the contents of RAM is
It is connected to the ground potential of the RAM through the contact of the switch.

A switch that is short-circuited according to the logical product of a signal that becomes H level when the module is removed from the backplane and becomes L level when the module is mounted on the backplane, and a power supply that holds the storage contents of the RAM. A power supply that includes means and holds the stored contents of the RAM is connected to the ground potential of the RAM through the switch means.

[0009]

Therefore, when the module is removed from the backplane, the contact of the switch is closed, and the power supply for holding the memory contents of the RAM is operated through the RA of the contact of the switch.
It is connected to the ground potential of M and is forcibly discharged.

Further, when the module is removed from the backplane, the signal becomes H level and the logical product with the power supply for holding the stored contents of RAM becomes H level, and accordingly the switch means is short-circuited. , The power supply for holding the stored contents of the RAM is connected to the ground potential of the RAM via the switch means and is forcibly discharged.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described with reference to the drawings. 1 and 2 are configuration diagrams showing a RAM mounting module which is an embodiment of the present invention. FIG. 1 shows a case where the RAM mounting module is mounted, and FIG. 2 shows a case where the RAM mounting module is removed.

In FIGS. 1 and 2, the same or equivalent parts as those described above (see FIG. 5) are designated by the same reference numerals.
Reference numeral 5 is a microswitch or the like, a switch whose contact point SW is switched according to the operation of the knob 6, and R is a resistor for short-circuiting the power source remaining in the capacitor C.

Next, the operation of this embodiment will be described.
First, as shown in FIG. 1, when the module 1 is mounted on the backplane 11, the knob 6 of the switch 5 is pressed by the backplane 11 to be housed inside the switch 5, whereby the contact SW is opened. Power supply voltage V _CC and resistance R supplied from the backplane 11 side.
Is not connected to.

Here, when the module 1 is removed from the backplane 11 for maintenance and inspection, as shown in FIG. 2, since the backplane 11 presses the knob 6 of the switch 5, the internal elasticity is released. The member is pushed out of the switch 5 and the contact SW is closed to connect the power supply voltage V _CC and the resistor R.

As a result, the power supply voltage V _CC and the ground voltage GN in the module 1 removed from the backplane 11
This means that the resistor R is connected between D and D, the power source remaining in each capacitor C is forcibly discharged via the resistor R, and the voltage of the power source voltage V _CC becomes lower than the minimum operating voltage of the RAM 3. At this point, the contents stored in each RAM 3 will be erased.

The time until the contents stored in the RAM 3 are erased is determined by the time constant based on the capacitance of each capacitor C and the value of the resistor R, the minimum operating voltage of the RAM 3 and the power supply voltage V _CC. A resistor R is used so that the contents stored in the RAM 3 are completely erased even during a short maintenance work.
You can select the value of.

Next, as another embodiment of the present invention, a case in which a mechanical switch is not used and only an electronic circuit is used will be described with reference to the drawings. FIG. 3 is a circuit diagram showing the present embodiment, and FIG. 4 is a timing chart showing signal levels in various parts of the module side circuit of FIG.

In FIG. 3, V _CM is a memory power supply voltage supplied for backing up the RAM 3 in each module 1 from the backplane 11 side, and IC operates at the memory power supply voltage V _CM and the memory power supply voltage V
An AND gate that outputs a logical product of _CM and the ground voltage GND from the backplane 11 side, and TR are control transistors (switch means) that short-circuit the residual voltage of the capacitor C via the resistor R.

At time t ₀ in FIG. 4, when the module 1 is removed from the backplane 11, V _CC on the module 1 side immediately becomes L level, but the memory power supply voltage V _CM is held by the capacitor C and the like. ing.

Since one input a of the IC is pulled up to the memory power supply voltage V _CM in the module 1, the module 1 is removed from the backplane 11 and at the same time from the L level (ground voltage GND) to the H level. level (memory power supply voltage V _CM) becomes, since the other input of the IC is always be connected to a memory power supply voltage V _CM (H level), the output of the IC becomes the H level from the logical product of both input.

Therefore, the transistor TR is turned on, the residual voltage of the capacitor C is discharged through the resistor R and the transistor TR, and the contents stored in the RAM 3 are erased.

When the module 1 is mounted on the backplane 11 at time t ₁ , the input a of the IC is connected to the ground voltage GND on the backplane 11 side, so that the memory power supply voltage supplied from the backplane 11 is increased. Regardless of whether V _CM is L or H level, the output of the IC which is the logical product of these becomes L level and the transistor TR
Remains off.

Further, at the subsequent time t ₂ , the power supply voltage V _CC is turned on again and reaches a normal value at the time t ₃ , but since the input a of the IC is the ground voltage, the transistor TR is the same as described above. Keeps OFF and the memory power supply voltage V _CM is not short-circuited via the resistor R.

Therefore, as means for detecting the attachment / detachment of the module 1, the signal a which changes according to the attachment / detachment of the module 1 is used.
By controlling the transistor TR in accordance with the logical product of the power supply voltage of the RAM3 and the power supply voltage of the RAM3, it becomes possible to erase the stored contents of the RAM3 when the module 1 is removed without using a mechanical switch.

In the above description, the case where the logical product of the memory power supply voltage V _CM and the ground voltage GND is obtained by using the IC (AND gate) has been described.
It is sufficient that the logical product of the two is obtained, and other circuit elements such as diodes and transistors may be used.

The IC supplies its power source to the memory power source voltage V.
_Although the case where the power supply voltage is obtained from _CM is explained, even if the module 1 is removed, any power supply voltage can be used as long as the power supply voltage is equal to or higher than the memory power supply voltage V _CM which is the power supply of the RAM 3. It can be used as a power source.

[0027]

As described above, according to the present invention, a switch having a contact which operates according to the attachment / detachment of a module is provided, and when the module is removed, the contact of this switch is closed to turn on the power of the RAM. Since it discharges through a resistor, when the module is removed from the backplane for maintenance work, etc., the contents stored in RAM are completely erased, and it is possible to ensure the prescribed initial settings when re-mounting. Processing will be carried out.

Further, an IC which outputs a logical product of a signal that changes according to the attachment and detachment of the module and the power supply voltage of the RAM is provided, and the power supply voltage of the RAM is discharged based on the output, so that it is mechanical. It is possible to improve the reliability of operation with a cheap structure that does not require a switch.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a RAM mounted module (when mounted) according to an embodiment of the present invention.

FIG. 2 is a configuration diagram of a RAM mounted module (at the time of removal) according to an embodiment of the present invention.

FIG. 3 is a circuit diagram of a RAM mounted module according to another embodiment of the present invention.

FIG. 4 is a timing chart showing signal levels of respective parts of FIG.

FIG. 5 is a configuration diagram of a conventional RAM mounted module.

[Explanation of symbols]

1 ... Module, 2 ... Connector, 3 ... RAM, 5 ... Switch, 6 ... Knob, 11 ... Backplane, 12 ... Connector, C ... Capacitor, R ... Resistor, SW ... Contact, IC ... A
ND gate, TR ... Transistor.

Claims (2)

[Claims] 1. A module equipped with a RAM that is detachably accommodated in a backplane such as a process control device, stores control information, and erases stored contents in accordance with a decrease in power supply. A power supply for holding the memory contents of the RAM is provided with a switch having a contact that is closed when the RAM is removed from the plane and that is opened when the RAM is mounted on the backplane, and the ground potential of the RAM is supplied via the contact of the switch. RAM mounted module characterized by being connected to. 2. A module equipped with a RAM that is detachably accommodated in a backplane such as a process control device, stores control information, and erases stored contents in accordance with a decrease in power supply. The RAM is provided with switch means for short-circuiting in accordance with a logical product of a signal that becomes H level when removed from the plane and becomes L level when mounted on the back plane and a power supply that holds the stored contents of the RAM. A RAM-equipped module, wherein a power supply for holding the stored contents of the RAM is connected to the ground potential of the RAM via the switch means.