JPS599741A - Interface system - Google Patents

Abstract

PURPOSE:To prevent a malfunction and to perform maintenance efficiently, by arraying in time series a command of status showing a state, etc., so that a signal can be transmitted and received by the radio of a single system, in an interface between electronic communication apparatuses. CONSTITUTION:A titled system is constituted of an electronic communication apparatus 1 such as a magnetic disk storage device, etc., an electronic computer 7, and a driver receiver 8 provided between them, which transfers a signal to the right and left by radio of a single system in accordance with an output DO of a decoder 10. A series-parallel converter 9 converts series information SI and parallel information PI, and decides the direction of conversion and selection of read and write. A status ST is sent to the electronic computer 7 from the electronic communication apparatus 1, its contents are decided, and thereafter, transmission or reception is switched, and a command CO is sent. The command CO is converted to parallel information PI from series information SI, and is outputted to a controlling circuit 6. In such a way, a signal can be transmitted and received by radio of a single system.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention: The present invention relates to communication between single devices or multiple devices connected to each other to exchange information signals, such as electronic communication devices such as magnetic disk storage devices. It relates to an interface method for connecting a collection of devices (systems or devices).

1. Configuration of Prior Art FIG. 1 is a block diagram showing an interface method in, for example, a magnetic disk storage device among electronic communication equipment. In the figure, (1) is an electronic communication device such as a magnetic disk storage device, in which information is transmitted by a magnetic head (4) onto the magnetic surface of a plurality of magnetic disks (3) that are rotated at a predetermined speed by a drive motor (2). or write
It is designed to read and erase written information. (5) is a positioning motor that moves the magnetic head (4) in a predetermined direction, (6) is a control circuit that controls the electronic communication device (1), and (7) is an electronic computer that outputs command signals. It is configured to exchange commands (CO), write data for recording (status (ST) indicating the WDχ state, read data (RD) for reproduction, etc.) with the electronic communication device (1).

-Operation of the prior art- The conventional interface method is configured as described above, in which the electronic computer (7) receives the status (ST) from the electronic communication device (1) such as a magnetic disk storage device, and the electronic communication device A command (CO) is sent to (1).

However, the above status (ST) is
) is in normal condition, and whether the magnetic head (4
) is moving normally by the positioning motor (5), as well as information such as the current position of the magnetic head (4), electronic communication equipment (1) and computer (7)
) is usually made up of about 10 connecting wires.

Next, the command (Co) of the above command signal is sent only when the status (ST) is in a state where the command (CO) can be sent, and is used to return the electronic communication device (1) to a normal state. Alternatively, the electronic communication device (1) moves or selects the magnetic head (4), sends write data (WD), or receives read data (RD). and electronic computers (
7), and the command signal (Co) is generally sent in response to the status (ST),
And it is being implemented.

Therefore, when the electronic communication device (1) is in a normal state, that is, when the magnetic disk (3) is normally rotated by the drive motor (2) and there is no other failure, the magnetic head (4) can move in a predetermined manner. At the end of the process or while stopped, the electronic computer (7) determines the status (ST) and moves the magnetic head (4) or transmits and reproduces the write data (WD) to be recorded. A command (Co) is sent to cause the reception of fixed data (RD), and information recording/reproduction is executed.

1. Disadvantages of the prior art ~ Since the interface method in the conventional electronic communication equipment is configured as described above, several dozen
Since a large number of connection wires, a large number of connection terminals corresponding to each connection wire, and circuit elements for interfaces and peripherals are required, the number of parts is extremely large, resulting in increased costs and poor functional reliability. This is not only a problem that leads to a decrease in performance, but also has the drawback that, especially since there are many connection lines, the generated noise becomes significantly large, and the crosstalk noise between the connection lines is also large, making it easy to cause malfunctions.

1.Object of the present invention: This invention has been made by paying attention to the above points, and includes the status (ST) indicating the state and the command (CO) of the command signal.
, write data (WD) to be recorded, and read data (RD) to be reproduced are arranged in chronological order, and information for setting whether to transmit or receive the next signal is placed at a predetermined position of each signal. By incorporating this, the aim is to provide an interface system consisting of a single wireless system.

1. Configuration of the present invention - That is, FIG. 2 and FIG. 3 both show an embodiment of the present invention, where FIG. 2 is a signal form diagram and FIG. 3 is a block diagram showing an interface system according to the present invention. It is a diagram. First, in Fig. 2, (ST) is the status indicating the state, (CO) is the command signal, (WD) is the write data for recording, (RD) is the read data for reproduction, (RT) is the receiving-transmitting signal when the computer (7) finishes receiving and then switches to transmitting, and (TR) is the transmitting-receiving signal when the computer (7) finishes transmitting and then switches to receiving. As shown in the figure, status (ST), command (CO), and status (ST) are arranged in chronological order.
ST), write data (WD), read data (RD)
It is installed at the top of each ridge. Then, the computer (7) receives - in each time period for the status (ST) and read data (RD), and the computer (7) transmits in each time period for command (CO) and write data (WD). is configured to do so.

Next, in the block diagram of the interface method shown in Fig. 3, (1) is an electronic communication device such as a magnetic disk storage device, (6) is a control circuit, (7) is a computer, and (8) is a control circuit.
) is a serial-parallel converter (9) and an electronic computer (7).
), and this driver receiver (8) is used to transmit signals in accordance with the output (DO) of the decoder 0I, for example from right to left or from left to right, in a single system wirelessly. It was established in

Therefore, the serial-parallel converter (9) is provided to convert temporally serial information (SI) and parallel information (PI), and the direction of conversion is
Selection of internal read data (RD') or internal write data (WD') is made using the output (DO) of the above decoder α1.
It is set to be determined by In addition, this decoder C1O inputs a receive-transmit signal (RT), t, or a transmit-receive signal (TR) from the input (DI) of decoder a1, determines the direction of the signal, and outputs the output (DO) of decoder 01. The electronic computer (7) also has a similar circuit. Needless to say, it has.

Operation of the present invention - Since the interface system of the present invention is configured as described above, the status (ST) is sent from the electronic communication device (1) such as a magnetic disk storage device to the computer (7), After the electronic computer (7) judges the contents,
A receiving/transmitting signal (RT) enters the input (DI) of the decoder 00, the output (DO) of the decoder (1 (J)), the receiver (8), the serial/parallel converter (9)
, and the signal flow of the control circuit (6) is switched to the left, ie, the electronic communication device (1) is switched to receive. Similarly,
The electronic computer (7) switches to sending and sends the command (CO
). This command (CO) is converted from serial information (SI) by a serial-parallel converter (9).
It is converted into parallel information (PI) and output to the control circuit (6). Then, at the end of the command (CO), a transmission/reception signal (TR) is added by the electronic computer (7).
enters the input (DI) of decoder α1, the signal flow is in the right direction, that is, the electronic communication device (1) switches to transmitting, the computer (7) switches to receiving, and the electronic communication device (1) switches to transmitting. Again, the status (ST) is transferred from the parallel information (PI) of the circuit (6) to the serial-parallel converter (9).
), it is converted into serial information (SI) and sent via the driver receiver (8), and a receive-transmit signal (RT) is added by the circuit to the end of the status (ST), so the decoder 01 Go back to reception. Next, write data (WD) is sent from the electronic computer (7), and the decoder 01 outputs internal write data (WD') from the serial-parallel converter (9) to the control circuit (6).
The electronic communication device (1) switches to transmission again by the transmission/reception signal (TR) and sends the internal read data (RD') as read data (RD). Furthermore, depending on the need for transmission or reception, a receive-transmit signal (RT) or transmit-receive signal (TR) is added to the signal transmitted from the electronic computer (7) or electronic communication device (1). Needless to say, it is possible to continue transmitting or receiving, or to change the combination, time, or order of the signals.

In addition, in one embodiment described above, electronic communication equipment (1
), we have described an interface method with a computer using a magnetic disk storage device, but the same effect can be obtained when using any other electronic device, communication device, or mechanical control device as an interface method with a computer. Needless to say, this can be obtained.

1. Effects of the present invention - As described above, according to the present invention, since the information that determines the direction of information flow is included in the information group arranged in chronological order, electronic communication equipment and electronic computers A single wireless system can be used as the interface method connection means to connect the two to each other, and the reduction in the number of parts reduces costs and improves functional reliability. The generated noise is extremely small, and it also has the effect of significantly reducing the occurrence of malfunctions due to the elimination of crosstalk noise between conventional connection lines. Furthermore, according to the present invention, since a single system radio is used as the interface method, replacement at the time of failure is no longer required as in the past, and maintenance efficiency is significantly improved, thereby reducing maintenance costs. It goes without saying that a significant reduction is possible.

[Brief explanation of drawings]

Fig. 1 is a block diagram showing a conventional interface system, Figs. 2 and 6 each show an embodiment of the present invention, Fig. 2 is a signal form diagram, and Fig. 6 is an example of the present invention. FIG. 2 is a block diagram of an interface system showing an embodiment. In the drawings, (1) is an electronic communication device, (6) is a control circuit, (
7) is an electronic computer, (8) is a driver receiver, (9)
is serial-parallel converter, 00 is decoder, (ST)
is the status indicating the state, (CO) is the command signal, (WD) is the write data for recording, (RD)
is the read data for reproduction, (RT) is the receive-transmit signal, (TR) is the transmit-receive signal, (SI) is the serial information, (p
r) is parallel information, (RD') is internal read data,
(WD') is internal write data, (Do) is decoder 0
The output of O, (DI) is the input of decoder α1. Note that the same reference numerals in the figures indicate the same or corresponding parts. Agent Shin Kuzuno −

Claims (4)

[Claims] (1) Information that determines the direction of information flow between individual devices or a collection of devices that are connected to each other via a single wireless system to exchange information signals, arranged in chronological order. An interface method that is characterized by being placed in a group. (2) The interface method according to claim 1, wherein the devices that are connected to each other by a single wireless system are a computer and an electronic communication device. (3) The interface system according to claim 2, characterized in that a magnetic disk storage device is used as the electronic communication device. (4) The interface system according to claim 2, wherein the electronic communication device is constituted by a control circuit, a receiver, a serial-to-parallel converter, and a decoder.