JPS63198436A - Data transmitter - Google Patents

Abstract

PURPOSE:To ensure the reliability of data transmission at the interruption of power of the lowermost equipment by detecting a change in an output voltage of a lowermost driver circuit of a host device and inhibiting the output of a receiver circuit of the host device accordingly. CONSTITUTION:Relay contacts 23, 24, 33, 34 are broken by interrupting the lower supply of a host slave device 1, a driver circuit 30 of the lowermost slave device 2 and a receiver circuit 27 are disconnected from a transmission line. Then a change in the output voltage of the driver circuit 3 of the device 1 becomes nearly twice because termination resistors 25, 26 of the device 2 are disconnected and then detected to inhibit the output of the receiver circuit 19.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a transmission system in which a plurality of data transmission devices form a transmission path through which data is connected to the next device via the own device. The present invention relates to a data transmission device that can reliably transmit data on a transmission line even when power is cut off.

[Conventional technology]

An example of a conventional data transmission system is shown in FIG. 2 and will be described.

In the figure, 37 is a mask device, and this master device 37
Slave devices 38, 39, . . . , 41 are connected in series.

Here, in order to enable data transmission as a whole system even if the power of any one of the slave devices 38 to 41 is cut off, a power cut-off device is set by a relay or the like as shown in FIG. It is configured to be bypassed. Note that FIG. 3, which is a conceptual diagram, shows a power-off state. In FIG. 3, 42 and 43 are slave devices, 42m, 42c, 43m, and 43e are receivers, and 42b, 42d, 43b, and 43d are drivers.

[Problem that the invention seeks to solve]

In the conventional data transmission system described above, when the data transmission device is powered off, it is bypassed by a relay, so in the system shown in FIG. In the slave device 40, the cable to the slave device 41 is in an open state hanging from the receiver and driver connected to the lower side of the slave device 40.

In such a state, the receiver of the slave device 40 is contaminated with noise and is sent to the host device as meaningless data, causing a data error in the data transmission system.

[Means for solving problems]

The uninvented data transmission device detects a change in the output voltage of a driver circuit connected to the lowest level device when power is turned off to the lowest level device in a data transmission system in which a plurality of data transmission devices are connected in series. and a means for controlling the output of the receiver circuit connected to the lowest-level device according to the detection signal obtained by the means.

[Effect]

In the present invention, by cutting off the power supply of the lowest slave device, a change in the output voltage of the lowest driver circuit of the upper slave device is detected, and the detection signal is used to control the output of the receiver circuit of the upper slave device. prohibit.

〔Example〕

Embodiments of the present invention will be described in detail below based on the drawings.

FIG. 1 is a block diagram showing an embodiment of a data transmission device according to the present invention.

In the figure, 1 is the upper slave device (upper slave device), which indicates the driver and receiver connected to the lower side. 2 is the lowest slave device (lowest slave device), which is connected to the upper side. The driver and receiver used are listed below.

In the upper slave device 1, the driver circuit is composed of a driver 3 and terminating resistors 4 and 5.

A detection circuit formed by a diode 10.11, a resistor 12.13 for detecting an output voltage change, and a comparator 14 is connected to the driver 3 in order to detect a change in the output voltage of the driver circuit. Here, this detection circuit constitutes a means for detecting a change in the output voltage of the driver circuit connected to the lowest device side. The output of this detection circuit is transmitted to the terminal resistor 17.18 and the receiver 19.
The signal is input to the AND gate 20 together with the output of the receiver circuit generated by ps. Here, this AND gate 20 constitutes a means for controlling the output of the receiver circuit connected to the lowest device side based on the detection signal obtained by the means for detecting the output voltage change.

Note that 6 to 9.15, 16.21.22 are relay contacts, and these relay contacts are used for binoculars.

In the lowest slave device 2, driver output data from the higher order slave device 1 is input to a receiver circuit composed of a connected end resistor 25, 26 and a receiver 2T. The output of the dry/< circuit, which is composed of multiple terminal resistors 30 and 31 and 32, is connected to the resino circuit of the upper slave device 1. Note that 23 and 24
, 28, 29. 33 to 36 are relay contacts, and these relay contacts are for bypass.

Next, the operation of the embodiment shown in FIG. 1 will be explained.

In the data transmission device configured as described above, when the power of the upper slave device 1 is cut off, the relay contacts 23, 24, 33, 34 are broken, and the driver circuit and receiver circuit of the lowest slave device 2 are transmitted. cut off from the road. Then, the output voltage of the driver circuit of the upper slave device 1 is determined by the terminating resistor 25 of the lowest slave device 2.
．． 26 is disconnected, the output voltage is approximately doubled, and this change in output voltage is detected and the output signal of the receiver circuit is inhibited.

〔Effect of the invention〕

As explained above, according to the present invention, by cutting off the power supply of the lowest slave device, a change in the output voltage of the lowest driver circuit of the higher slave device is detected, and the detection signal is used to control the lowermost slave device. By inhibiting the receiver circuit output, there is an effect that the reliability of data transmission in the data transmission system can be improved even when the power of the lowest slave device is cut off.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of a data transmission device according to the present invention, FIG. 2 is a block diagram showing an example of the structure of a conventional transmission system, and FIG. 3 is a block diagram showing the concept of a power-off state. be. 1...Upper slave device, 2...Lowest slave device, 3...φ driver, 4.5-φ termination resistor, 10, 11...diode, 12.13... −・
Resistor, 14... Comparator, 17.18φ-...
・Terminal resistor L19...receiver, 20...andcate.

Claims (1)

[Claims] Means for detecting a change in output voltage of a driver circuit connected to the lowest level device when power is cut off to the lowest level device in a data transmission system in which a plurality of data transmission devices are connected in series; A data transmission device comprising: means for controlling the output of a receiver circuit connected to the lowest level device based on the obtained detection signal.