JPS6217855A - Interface circuit - Google Patents

Abstract

PURPOSE:To prevent the other devices to be controlled in working from bad influence when a power supply for one device to be controlled is turned off by connecting the power supplies for terminal circuits in respective devices to be controlled mutually through an one-way corrent supply element such as a diode. CONSTITUTION:Write data P, N are utilized for disk driving devices 5a-5c selected by a host device, a terminal circuit constituted of plural resistors 2 in the last disk driving device 5c is validated by a terminal resistance connecting connector 3 and the terminal circuits of the other disk driving devices 5a, 5b are invalidated. When the power supply of the disk driving device 5c is turned off due to maintenance or accident, a -5V power supply for the terminal circuit in the device 5c is also turned off. At that time, the -5V power supplies in the devices 5a, 5b are supplied to the terminal circuit in the device 5c through a diode 8 and a power supply connecting line 9 and the terminal circuit is normally functioned.

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to an interface circuit between a control device and a plurality of controlled devices, and in particular, when the power of a controlled device having a termination circuit is turned off, The present invention relates to an interface circuit that does not adversely affect controlled devices.

[Background of the invention]

Conventional data line interface circuits often use the so-called octopus-leg method, which increases the number of cables connecting the control device and multiple controlled devices, requires a lot of cable space, and takes up a lot of space in the housing. The problem was that it led to an increase in size and a high price of the system. To solve these problems, recent interface circuits include daisy chains.
) method is adopted. However, even if this daisy chain method is adopted, if the interface circuit is configured using ECL elements that can speed up information transfer without using TTL elements, which have slow information transfer, the following problems will occur. was there. That is, when an ECL element is used, a 15-inch power supply is required for the terminal circuit in the controlled circuit, and depending on the power supply method, a failure of one controlled device may affect all devices within the same user ring. This may lead to failure of the controlled device.

A conventional daisy chain type interface circuit having the above-mentioned problems will be explained with reference to FIG. In the conventional example shown in FIG. 2, a case is shown in which disk drive devices 5a, 5b, and 5c are used as controlled devices, and the control device 6 and each disk drive device 5a
y 5 br 5 c are connected in a daisy chain manner. In FIG. 2, write data P and N output from the control device 6 are received by the write data receiver 1 in each disk drive device 5a, 5b, 5c via the signal line 4. At this time, the disk 1 selected by the host device (not shown)! motion device 5a.

5b and 5c, the selected signal S has the logical value LL]-
I+, and the gate circuit 7 is in a conductive state. Therefore, the write data P and N pass through the gate circuit 7 and are utilized only in the disk drive devices 5a, 5b, and 5c selected by the host device.

The disk drive devices 5a, 5b, and 5c shown in FIG. It is enabled by connector 3. And another disk drive device 5a,
The ~5V power for the termination circuit 5b is supplied from the disk drive device 5c whose termination circuit is active. For this reason, the disk drive device 5 that supplies power to the termination circuit
When c is turned off due to maintenance or failure, -5
A phenomenon occurs in which the V power supply disappears, the termination circuit becomes abnormal, and the line data P and N become abnormal up to the other disk drive devices 11\58r5b in the same thread ring.

Incidentally, related prior art includes, for example, JP-A-58-
There is an invention disclosed in Publication No. 195320.

[Purpose of the invention]

The present invention was developed in view of the problems of the prior art described above, and is designed to prevent other operating controlled devices from being adversely affected even if the power to a controlled device is turned off due to maintenance or an accident. The purpose is to provide a flexible interface circuit.

[Summary of the invention]

In the interface circuit of the present invention, a control device and a plurality of controlled devices are connected in a daisy chain manner, and each f!
+! This is applicable to a system in which the I-controlled device α is provided with a termination circuit, and at least one controlled device is provided with a termination resistor connection connector that enables the termination circuit. It is characterized in that the power supply for the termination circuit in the controlled device is connected to a one-way conductive element such as a diode via a power supply connection line.

[Embodiments of the invention]

Hereinafter, the present invention will be explained in more detail with reference to embodiments shown in the accompanying drawings.

FIG. 1 is a block diagram showing an embodiment of the present invention, in which a disk drive device is used as the controlled device, similar to the conventional example shown in FIG. Also, in Figure 1, the second
The same parts as in the conventional example shown in the figure are given the same reference numerals.

As shown in FIG. 1, the control device 6 and the plurality of disk drive devices 5a, 5b, and 5c are connected in a daisy chain manner by a signal line 4. As shown in FIG. Each disk drive device 5a, 5
b, 5c are the write data receiver 1 and the gate circuit 7
, a plurality of resistors 2 constituting a termination circuit, and a diode 8
A termination resistor connection connector 3 is inserted into the last disk drive device 5c connected to the signal line 4. In addition, each disk drive device 5a, 5b, 5
The 15V power supplies for the termination circuits of c are connected to each other by a power supply connection line 9 through a diode 8.

The write data l), N output from the control device 6 is received by the write data receiver 1 in each disk drive device 5a, 5b, 5c. At this time, the disk drives 5a, 5b, 5c selected by the -1- position device (not shown) have the selected signal S at the logical value tt.
1 u, and the goo 1-circuit 7 is in a conductive state. Therefore, the write data P and N pass through the gate circuit 7 and are utilized only for the disk drive bag fii5al 5b15C selected by the host device. I”
The second operation is completely similar to the conventional example shown in FIG.

At this time, the termination circuit (consisting of a plurality of resistors 2) in the last disk drive device 5c is enabled by the termination resistor connection connector 3, and the termination circuit (consisting of a plurality of resistors 2) in the last disk drive device 5c is enabled by the termination resistor connection connector 3, and the Termination circuit is disabled. Now, if the power supply of the last disk drive device 5c is turned off due to maintenance or an accident, the 15V power supply for the termination circuit in the disk drive device 5c is also turned off. However, at this time, another disk drive device 5a is in operation.

5b is supplied to the termination circuit in the disk drive device 5c through the diode 8 and the power supply connection line 9,
Therefore, this termination circuit functions normally.

As is clear from the above description, according to this embodiment, even if the power of the disk drive device 5C in which the termination resistor connection connector 3 is inserted and the termination circuit is enabled is turned off, other disks This does not affect the drive devices 5a, 5b in any way. Therefore, there are advantages such as maintenance of the disk drive device 5C can be performed while other disk drive devices are operating.

〔Effect of the invention〕

H saturation 8...Diode, 9...Power connection line.

According to the present invention, when a control device and a plurality of controlled devices are connected in a daisy chain, even if the power of the controlled device whose termination circuit is enabled is turned off, other operating It is possible to provide a highly reliable interface circuit that does not affect the controlled device in any way. Therefore, for example, it is possible to perform maintenance on a controlled device whose termination circuit is enabled while other controlled devices are operating without affecting the operation of other controlled devices, which is also effective in preventing maintenance errors. be. Further, according to the present invention, it becomes possible to easily connect a control device and a plurality of controlled devices in a daisy chain manner, which has the effect of lowering the cost of the system.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an embodiment of the present invention, and FIG. 2 is a diagram showing a specific example of a conventional interface circuit.

Claims (1)

[Claims] A control device and a plurality of controlled devices are connected in a daisy chain manner, each controlled device is provided with a termination circuit, and at least one controlled device has a termination resistor connection that enables the termination circuit in the controlled device. 1. An interface circuit in a system equipped with a connector, characterized in that power supplies for termination circuits in each of the controlled devices are connected to each other via a unidirectional current-carrying element and a power supply connection line.