JPS63284645A - Ram memory device - Google Patents

Abstract

PURPOSE:To simplify the operation of a RAM memory device when it is started by securing such a constitution where the data never vanish as soon as the power supply of a computer main body is turned off and the memory device itself it set into a CPU system in a single body when the computer main body is started. CONSTITUTION:The data stored in a RAM 5 never vanish and are held by a back-up current although the power supply of a computer main body 7 is cut off in a working state of the computer 7. When the computer 7 is started, a CPU 8 writes the vector address information into a main memory 9 as soon as a switch is turned on. When this writing action is over, a boot circuit 10 delivers a command signal to the CPU 8 in order to change the branching destination command information on a packed device in the vector address information. The data are read out of the RAM 5 by the circuit 10 and a RAM memory device 1 is set into the CPU 8 in a single body to start its working.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention relates to a RAM that can be optionally added to a computer main body for the purpose of expanding the memory capacity of the computer.
The present invention relates to a memory device, and particularly to a RAM memory device that is capable of retaining RAM data even when the main body is powered off, and is configured such that the device itself is integrated into a CPU system when the main body is started.

(Conventional technology) Generally a personal computer. A relatively small computer called an office computer has a main memory within its main body.

It is equipped with a data storage device such as an FDD. The capacity of the main storage device is set to be sufficient for normal use, but when processing a large system or processing a large amount of data at high speed, the capacity may become insufficient. There were things to put away.

Particularly in recent years, due to the remarkable spread of this type of computers, the accompanying expansion of processing operations, and the spread of multifunctional integrated software, insufficient capacity of the storage device has become an inevitable problem. The following two methods are widely used to deal with this capacity shortage. That is, the first method is to connect a disk unit such as a hard disk device or a flexible disk device to the outside of the computer main body. The second method is to connect a RAM memory device called a RAM disk, an expansion memory board, etc. in which a large number of RAMs are arranged inside or outside the computer.

However, these two methods each have disadvantages that are difficult to overcome in terms of their construction. In other words, in the first method, since the disk device is composed of a mechanical drive unit, the processing speed is slower than that of a storage device using RAM memory, and the structure also makes the device expensive and large. It also has the disadvantage of requiring additional space for installation. On the other hand, in the second method, since the RAM itself as a storage element does not have a data retention function, it has the disadvantage that all data is lost as soon as the computer main body is turned off. Also,
Because all data is lost, information and data must be transferred from the disk each time the device is started up again, requiring unnecessary operations such as selecting and setting the disk and waiting for reading time. Its ease of use could hardly be said to be good. Also, if the purpose is simply to hold data in RAM memory, the backup power supply should be set to R'
It is sufficient to connect it to the Aλ4 memory, but starting the system with the data at the same time as the computer is started means that the RAM memory device itself is not part of the main unit's CPU system when the computer starts. Even if the application system were retained as data, it would be impossible to simplify the operation when starting the main unit.

(Object of the Invention) The present invention eliminates all of the above-mentioned drawbacks, does not require an expensive external disk device with slow processing speed, and does not require the power off of the computer body unlike conventional RAM memory devices.
A RAM that prevents data from disappearing at the same time as F, and also allows the device itself to be integrated into the CPU system when the main unit is started, significantly simplifying the operation at startup. The purpose is to provide a memory device.

(Detailed Description of the Invention) Hereinafter, a first embodiment of the present invention will be described in detail with reference to FIGS. 1 and 2 of the drawings. In the figure, (1) shows a RAM memory device. This RAM memory device M (1) is connected to an AC adapter (2) which is a backup power supply circuit, and this A
It consists of a memory board (4) connected to a C adapter (2) via a cord (3). (5), (5
), . . . are RAM memories. This RAM memory (5).

(5), . . . are mounted on the memory board (4) and electrically connected to the AC adapter. (6) is a connect section. This connector part (6) is formed at the negative end of the memory board (4) in order to be engaged and connected to an expansion slot (not shown) provided on the back surface of the computer main body (7). The computer main body (7) has a CPU system (8) therein, and a main storage device (9) connected to this CPU system (8).
It has (10) is a boot circuit. This boot circuit inputs R into the CPU system by changing vector address information stored on the main storage device (9) when the computer main body (7) is started up.
This is a circuit for outputting a command signal for integrating the AM memory device (1), and is mounted on the memory board (4) and connects the RAM memory (5) and the connection section (
6) to the main storage device (7) in the computer body (7).
9).

Next, the operation of the RAM memory device of the present invention configured as described above will be explained. R when using the computer main unit (7)
The data stored in the AM memories (5), (5), . . . is retained without being erased by the backup current supplied from the AC adapter even if the main body (7) is powered off. When reusing the computer (
7), the CPU system (8) writes the vector address information necessary for startup into the main memory (9) at the same time as the switch is turned on. During this writing, at a predetermined timing, the CPU system (8) After analyzing and confirming completion of writing, the foot circuit (10) outputs a command signal for changing the branch destination command information of the mounted device in the vector address information to the CPU system (8). By changing this branch destination command information, the CPU system (
8) immediately reads the data stored in the RAM memory (5) and starts the system based on this data. That is, this boot circuit (10) causes the main storage device (9
) is changed so that the data stored in the RAM memory (5) is immediately read and executed, so the RAM memory device (1) is
), it is integrated into the CPU system (8) and operates.

Next, a second embodiment of the boot circuit according to the present invention will be explained in detail with reference to FIG. do. In the figure, (11) indicates a RAM memory device. This R.A.
The M memory device (11) is composed of an AC adapter (2) and a memory board (12). A RAM memory (5) and a boot circuit (13) connected to the RAM memory (5) are mounted on this memory board (12). (7) is the main body of the computer. This computer main body (7) includes a CPU system (8) and this CPU
It has a ROM (14) connected to the U system (8). The boot circuit (13) connects the RO in the computer main body (7) when the computer main body (7) is started up.
By setting a part of the pass line signal of the start address from the CPU system (8) to M (14) to 0 value, a command signal to be executed from the address where one RAM memory device (1) is installed is output. It is provided for. That is, it is a circuit provided to output a command signal for integrally incorporating the RAM memory device (11) into the CPU system (8).

Next, the operation of the embodiment configured in this manner will be explained. R.A.
, M memory (5) is the data stored in the first memory (5) described above.
This is maintained by the backup current supplied by the AC adapter as in the embodiment.

Next, when starting up the computer (7), first
The PU system (8) is loaded into the ROM (1) at the same time as the switch is turned on.
4) Output the lotus line information of the start address.

The ROM (14) uses this path line information to send signals to the CPU system (8) for execution from a predetermined address.
The boot circuit (
13) is a RAM memory device (11) that stores the lotus line information of the start address at the same time as the power is turned on.
The CPU system (8) outputs a zero-value command signal to set its own installed address position.
The data stored in the M memory (5) is read and the system is started based on this data. That is, due to the command signal of this boot circuit (13), a part of the pass line of the start address output to the ROM (14) becomes O value, and the RAM memory device? ! ! (11), the RAM memory device (11) is used by the CPU system (7) when the computer main body (7) is started.
8) will be integrated into the system and operate.

In the description of the above embodiment, the RAM memory device of the present invention was applied as an expansion board that is engaged with and attached to an expansion slot provided in the computer main body, but the present invention is not limited to this. It may be installed inside the mold case and connected to the computer main body by a cord. We also explained an example of using an AC adapter as a backup power source, but
- A secondary battery or a secondary battery may be used as a backup power source. Furthermore, although an example has been described in which the boot circuit is mounted on the same board as the RAM memory, the boot circuit may be a separate part that is connected when necessary. Further, in the embodiment, the operation when the power of the computer body is turned on has been described, but the operation is not limited to this, and the same operation is performed when the computer body is reset. Furthermore, in the above description, as an example of the foot circuit, an example configured to change vector address information stored on the main memory of the computer main body, and an example configured to change the vector address information stored on the main memory of the computer main body, and an example configured to change the vector address information stored on the main memory of the computer main body, and
Although a configuration has been described in which a part of the path line of the start address for M is set to 0 value, the configuration is not limited to this, and the RAM memory may be integrated into the CPU system when starting up the computer main body. Any functional boot circuit may be used.

(Effects of the Invention) As is clear from the above description, according to the RAM memory device of the present invention, storage capacity can be expanded without requiring an expensive external disk drive with slow processing speed. Also, since a backup power source is connected, data will not be lost when the computer is turned off.
It becomes possible to hold data in the same way as a disk device. Furthermore, by providing a boot circuit, the RAM memory device itself is integrated into the CPU system and operates when the computer is started up or reset, so application software can be stored as data in the RAM memory. This has the advantage that the computer can be used immediately as soon as the computer is turned on.

[Brief explanation of drawings]

1 and 2 of the drawings show the first part of the RAM memory device of the present invention.
Fig. 1 is a perspective view showing its configuration, and Fig. 2 is a perspective view showing its configuration.
The figure shows the same block circuit diagram. FIG. 3 is a block circuit diagram showing a second embodiment of the RAM memory device of the present invention. (1)...RAM memory device. (2) AC adapter (backup power supply). (4)...Memory board. (5), (5), ... RAM memory. (7)...Computer body 9 (8)...CPU system. (9)...Main memory bag ff, (10)...Boot circuit. (11)...RAM memory device. (12)...Memory board, (13)...Boot circuit. (14)...ROM

Claims (3)

[Claims] (1) It has a RAM memory, a power supply circuit that backs up the RAM memory, and a boot circuit that is installed between the RAM memory and the computer main body and outputs a command signal for integrating the RAM memory. A RAM memory device characterized by: (2) The RA according to claim 1, wherein the boot circuit outputs a command signal for changing vector address information stored on the main memory of the main body.
M memory device. (3) The RAM memory device according to claim 1, wherein the boot circuit outputs a command signal for setting a part of the bus line of the start address for the main body ROM to 0 value.