KR0150140B1 - Pin connector - Google Patents

Abstract

The present invention relates to a connection device that can be used with a 30-pin SIMM in a 72-pin SIMM socket, and includes a 72-pin SIMM card including a socket for mounting a 30-pin SIMM on both sides, and a 72-pin SIMM card or a 72-pin SIMM. The circuit configuration includes a 30-pin SIMM made of a plurality of RAMs on a small board and a connection terminal on the board, an address line for sending an address to input or output specific data of the memory, and memory data. Is a data line that acts as a passage for input and output, and an enable terminal that permits input and output of data, a control line for controlling memory, and a data line that acts as a passage for memory data. And;

The application of connecting the four sockets of one bank of the main board equipped with a conventional 30-pin SIMM socket, the most important point to solve in the present invention is to use the existing 30-pin SIMM in the 72-pin SIMM socket And a 30-pin SIMM that can also be used in a 72-pin SIMM socket with the effect of memory expansion at low cost.

Description

Connection available for 30-pin depth in 72-pin shim socket

1 is a block diagram of a general memory structure.

2 is a block diagram of a typical 30-pin shim.

3 is a block diagram of a typical 72-pin shim.

4 is a main board sharing a conventional 30-pin and 72-pin shim.

5 is a 72-pin shim card and socket according to an embodiment of the invention.

6 is a circuit diagram of a 72-pin shim according to an embodiment of the present invention.

7 is a plan view connected to the 72-pin shim and the socket according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

11: 72 pin shim 12: 30 pin shim

300: 72 pin SIM card 310: 30 pin SIM socket

350: edge connection 400: 72-pin shim socket

The present invention relates to a connection device capable of using a 30-pin depth in a 72-pin shim socket. More specifically, a 30-pin shim control terminal is used where a 30-pin shim is used. The present invention relates to a connection device capable of using a 30-pin depth in a 72-pin shim socket for use with a conventional 30-pin depth by operating a 72-pin shim control terminal so that it can be mounted in a 72-pin shim socket mounted on a main board.

In the XT and AT class in the early days of the development of the first IBM compatible computer, DRAM (DYNAMIC RANDOM ACCESS MEMORY) can be installed directly on the MAIN BOARD or memory to be mounted in the socket. The capacity was made to be scalable.

Since 386 DX / SX, 486-class computer models have been popularized, a 30-pin SIM socket was installed on the main board, and it is called SIMMLE IN-LINE MEMORY MODULE (hereinafter referred to as SIMM). ) To expand the memory became the basic structure of a typical computer design.

During this period, the 30-pin SIMM has become the basic structure that constitutes the memory system of a computer, and as the computer becomes popular, the popularity of the SIMM has become popular.

Hereinafter, a conventional 30-pin SIMM will be described with reference to the accompanying drawings.

2 is a block diagram of a general memory structure.

As shown in FIG. 2, the structure of a block in a general memory structure is a memory device in which data is stored and read or controlled by means of lead signals and write signals, which are data, that is, 1 and 0, as control parts. (200), and the address of the designated data, each data in the memory device is assigned an address from 0 to the maximum value of available data, and in order to communicate with specific data, the address of the data is specific to the internal circuit of the memory device. A memory address register 210 which opens a path necessary for receiving a address and communicating with the data pointed to by the address, and information in the memory according to the address in the address register 210 above between a register inside the memory device and the outside; Or a memory buffer register 220 for transmitting external data. It is.

When a CPU (not shown) sends a address to the memory address register 210 to find specific data in the memory device 200, the address of the data is specific to an internal circuit (not shown) of the memory device 200. The address is received and connected to the data pointed to by the address and a path required for communication, and the CPU sends a control signal to the memory device 200 again, READ or WRITE.

The two control signals connected to the memory device 200 are called read and write. The write signal indicates a command to store in the memory device 200 and the read signal indicates a command to read from the memory device 200.

If one of the two control signals is received, the internal control circuit (not shown) in the memory device 200 immediately performs the indicated function and outputs data to the memory buffer register 220 or the memory buffer register. At 220, data is input.

3 is a block diagram of a typical 30-pin SIMM.

4 is a block diagram of a typical 72-pin SIMM.

In the case of a 30-pin SIMM, referring to Figure 3, four 30-pin SIMMs form a bank in a system with a 32-bit data bus.

One SIMM has eleven address lines, eight data lines, and the remaining n control lines. A SIMM has 32-bit data buses, such as 386 and 486, so that four SIMMs consist of 32-bit data lines.

Also, referring to FIG. 4, the 72-pin SIMM is composed of eleven address lines, 32 data lines, and m control lines, so that one bank of 72-pin SIMMs can be configured.

Table 1 shows the types and loading formats of typical 30-pin SIMMs.

There are various types of 30-pin SIMMs, such as 256KB, 1MB, and 4MB.

The first SIMM socket in the related art is a 30-pin SIMM. One bank is composed of four 30-pin SIMM sockets. The same type of SIMM is mounted and two banks (BANK) are provided.

For example, as shown in Table 1, a four 256 KB SIMM consists of a computer with 1 MB of RAM.

Therefore, the capacity of memory supported by each mail board may vary, but in Table 1, RAM can be expanded up to 32MB.

Table 1

4 is a main board sharing a conventional 30-pin SIMM and 72-pin SIMM.

As shown in FIG. 4, the conventional MAIN BOARD configuration, which shares a 30-pin SIMM and a 72-pin SIMM, is a central processing unit that operates, processes, and controls all data at the core of a computer. CENTRAL PROCESSING UNIT, CPU, 30, ROM 40, which is responsible for the basic input and output of the computer and contains a bias, slot 50, which allows the CPU to control external devices, and computer operations. RAM 10 provides a work area and a main board 100 including the above.

The RAM 10 includes a 72-pin SIMM socket 11 for mounting a 72-pin SIMM and a 30-pin SIMM socket 12 for mounting a 30-pin SIMM.

Conventionally, there were two banks of 30-pin SIMM sockets, but around 1994, 72-pin SIMM sockets began to be replaced instead of 30-pin SIMMs. The 72-pin SIMMs are one 32-bit SIMMs. In a computer system with a data bus of size, one bank (BANK) can be constructed.

The main board 100 is made to use the conventional 30-pin SIMM and 72-pin SIMM while changing to the 72-pin SIMM in the step of the 30-pin SIMM.

However, the conventional technique described above uses up a lot of space when the socket is mounted on the main board because four 30-pin SIMMs fill one bank, and space utilization is poor, and SIMMs are not enough to buy a new 72-pin SIMM. This is so expensive that there are many difficult problems at the time of purchase.

Accordingly, an object of the present invention is to solve the above-mentioned problems. The 30-pin SIMM can be used in a 72-pin SIMM socket that can be reused without discarding the 30-pin SIMM used in the past, and the memory of a computer can be secured at low cost. It is also to provide a connection device usable.

As a means for achieving the above object, the configuration of the present invention.

72-pin SIMM card with double-sided socket for 30-pin SIMM.

It consists of a socket for 72-pin SIMM card or 72-pin SIMM.

The 72-pin SIMM card is configured.

8 sockets for 30-pin SIMM.

It consists of an edge connection with 72 pin counts.

As a means for achieving the above object, the configuration of the block of the 72-pin SIMM of the present invention.

A 30-pin SIMM made of a computer memory device with a connection terminal on a board using several RAMs on a small board.

An address line that sends an address to input or output specific data in the memory.

An enable terminal that permits input and output of data in the memory;

Control lines to control the memory.

It consists of data lines that act as a path for memory data to be input or output.

By the above configuration, the most preferred embodiment that can be easily carried out by those skilled in the art with reference to the present invention will be described in detail with reference to the accompanying drawings.

5 is a 72-pin SIMM card according to an embodiment of this invention.

As shown in FIG. 5, the configuration of the 72-pin SIMM card according to the embodiment of the present invention includes a 72-pin SIMM card 300 and a 72-pin SIMM card including a socket capable of mounting a 30-pin SIMM on both sides. It consists of a socket 400 that can be mounted 300 or 72-pin SIMM.

The 72-pin SIMM card 300 includes four sockets 310 for mounting a 30-pin SIMM, and an edge connection unit 350 having 72 pins.

6 is a circuit diagram of a 72-pin SIMM according to an embodiment of the present invention.

As shown in FIG. 6, the configuration of the 72-pin SIMM block according to the embodiment of the present invention includes a 30-pin SIMM0 (500) and a SIMM1 made by attaching a terminal to a substrate using a plurality of RAMs on a small substrate as a computer storage device. 510, SIMM2 520, SIMM3 530, address line L1 which sends an address to input or output specific data of the memory, and enable L2 which permits the input and output of the data in the memory. ), A control line L3 for controlling the memory, and a data line L4 serving as a path through which the memory data is input or output, and are added on both sides by using the same constituent RAS signal.

With the above configuration, the operation according to the embodiment of the present invention is as follows.

In the 30-pin SIMM, the pins are rearranged to match the pin characteristics of the 72-pin SIMM. The 30-pin SIMM has 11 address lines, and the 72-pin SIMM has 11 address lines. Consists of eight for each SIMM.

Thus, the data for a 30-pin SIMM is eight bits, and four 30-pin SIMMs are required to make a 32-bit data line.

The 32-bit data line is connected by connecting the 30-pin SIMM0 through SIMM3 data lines to the 72-pin data line pins.

The same applies to the control line of the 30-pin SIMM. By connecting the control pins of the 30-pin SIMM to match the pin characteristics of the 72-pin, the 30-pin SIMM is controlled as a signal according to the 72-pin control.

Referring to FIG. 6, the circuit of the 72-pin SIMM composed of the 30-pin SIMM is formed into one card.

The 72-pin SIMM card is equipped with four 30-pin SIMM sockets. Each socket has a 30-pin SIMM installed in the 72-pin SIMM socket on the motherboard.

A two-sided SIMM configuration is possible by adding RAS1 * (not shown) in the control line of the 72-pin SIMM and adding SIMM7 in the same SIMM4 as SIMM0 through SIMM3, and the appearance made in this way is shown in FIG.

As described above, in the embodiment of the present invention, a portion connecting four sockets of one bank of a main board equipped with a conventional 30-pin SIMM socket is applied, and the most important point to be solved in the present invention is 72 The existing 30-pin SIMM can be used for the pin SIMM socket, and a 30-pin SIMM can also be provided for the 72-pin SIMM socket, which has the effect of expanding memory at low cost.

Claims (2)

In computer memory. 72-pin SIMM card with both sides socket which can attach 30-pin SIMM. The 72-pin SIMM card, 72 pin SIMM socket characterized in that it comprises a socket for mounting a 72 pin SIMM connection device can also be used. The method of claim 1. The 72-pin SIMM card is configured. 8 sockets for 30-pin SIMM. Connection device also available for 30-pin SIMM to 72-pin SIMM socket, characterized in that it comprises an edge connection having a number of 72 pins. 3. Paragraph 1 or 2 above. The circuit configuration of the 72-pin SIMM card is. A 30-pin SIMM made of a computer memory device with a connection terminal on a board using several RAMs on a small board. An address line that sends an address to input or output specific data in the memory. Enable to allow input and output of data in memory; Control lines to control the memory. Connection is also possible for a 30-pin SIMM to a 72-pin SIMM socket, characterized in that the memory data comprises input and output data lines for the dynamics of the passage. Device.