JPH0214715B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an efficient communication control method between a terminal control device such as a computer and a keyboard terminal equipped with a CRT.

[Conventional technology]

Generally, a cable connects a terminal control device such as a computer and a keyboard terminal equipped with a CRT, and normal data communication is performed via the cable. The data communicated is serial or parallel data. In such conventional communication systems, a refresh memory for CRT display is generally provided on the terminal side. Therefore, the write signal to the refresh memory and the read signal from the refresh memory are as follows.
It is necessary to send it from the terminal control device side to the terminal side via a cable.

[Problem that the invention seeks to solve]

In such a method, the execution time is limited by the transfer speed of the write and read signals. Therefore, when displaying a large amount of data and also receiving signals from the terminal side, high-speed response cannot be achieved. Furthermore, since digital data communication is performed, communication control procedures are required and complicated.

The present invention has been made in view of these points, and by providing a refresh memory on the terminal control device side, the above-mentioned write signal and read signal can be processed at high speed. The contact point information is allocated to the blanking time of the video signal line on a one-to-one basis for transmission, thereby realizing a communication control system that can transmit contact point information at high speed and efficiently.

[Means for solving problems]

The present invention provides a first terminal for transmitting a video signal and a timing signal synchronized with the video signal, a second terminal for receiving an external signal, and a second terminal for selecting one of the first and second terminals. a terminal control device consisting of a switch, a third terminal that receives a video signal and a timing signal, a fourth terminal that sends keyboard input data to the outside, and one of the third and fourth terminals; A communication control system comprising a terminal configured with a second switch for selecting one of the horizontal synchronizing signals and a cable connecting the terminal and the terminal control device, the horizontal synchronizing signal and the next horizontal synchronizing signal. A video signal of information for one raster is superimposed in between, the timing signal is output during the generation period of each horizontal synchronization signal, and each of the keyboards is output during the idle time after the timing signal is generated until the horizontal synchronization signal ends. This communication control method is characterized in that keys are assigned on a one-to-one basis and contact information of the corresponding keys is sent from the terminal side to the terminal control device side during each free time.

〔Example〕

Hereinafter, the present invention will be explained in detail with reference to the drawings.

FIG. 1 is a timing chart showing the method of the present invention, and FIG. 2 is a diagram showing an example of an electrical connection diagram for implementing the present invention. In Figure 1,
_PD indicates a horizontal synchronization signal and a vertical synchronization signal (hereinafter simply referred to as synchronization signal). In P _D , W _V is a vertical synchronization signal and W _H is a horizontal synchronization signal. As shown in the figure, there are many horizontal synchronization signals W _H in one period of the vertical synchronization signal. Although not shown,
A video signal is superimposed on the _PD signal.

P ₁ is an enlarged view of the signal P _D. In P ₁ waveform,
V ₁ to V ₃ are image information for one raster superimposed between a horizontal synchronization signal and the next horizontal synchronization signal.
_P2 is output during the horizontal synchronization signal generation period,
This is a timing signal for capturing image information V ₁ to _{V 3} into a CRT. In Figure 1, the period t _r from when the P ₂ pulse is output until the W _H signal ends is:
This is a vacant time during which the original image information is not transmitted between the terminal control device side and the terminal side. This free time is used on the CRT side as a time to control the raster blanking line so that it does not appear on the screen, that is, as a blanking time. but,
This is a period in which no signals are exchanged via the cable.

Therefore, during this free time _tr , signals can be transmitted from the terminal side to the terminal control device. Information that cannot be transmitted in time _tr can be sent again using the next free time. Generally, the period of the horizontal synchronization signal W _H is about 60 μsec, and about 10 μsec can be taken as the idle time. Although it is not possible to send much information in about 10 μsec, for example, contact information of the keyboard on the terminal side can be sent relatively easily.
Therefore, in the present invention, keys on the keyboard are assigned to free time _Ttr on a one-to-one basis, and contact information of the corresponding keys is sent during the free time.

FIG. 2 is an example of an electrical connection diagram for implementing the present invention as described above. In the same figure,
1 is a refresh memory containing character information.
A character generator 2 receives the output of the refresh memory and outputs corresponding dot data. 3 is a shift register which receives the parallel dot output of the character generator and converts it into a serial video signal. 4 is a first control circuit that controls the refresh memory 1 and the shift register 3; U ₁ is an OR gate that receives the outputs of the control circuit 4 and shift register 3.

The output of the OR gate U ₁ is the output of the first switch SW ₁
is connected to contact A of A buffer _U2 is connected to the other contact B of the switch _SW1 . 5 is
This is a receiving circuit that receives the output of the buffer. 6 is
It is the CPU. The output of the receiving circuit 5 is transmitted to the CPU 6 via the data bus 20. CPU6 is
An address signal and character code data are applied to the refresh memory 1 via a data bus 20. The device configured with the circuit described above is the terminal control device 30. As is clear from the figure, since the refresh memory 1 is provided on the control device side, writing and reading are facilitated.

21 is a cable whose one end is connected to the first switch _SW1 . The other end of the cable is the second
is connected to switch SW ₂ . _U3 is a buffer connected to contact A' of the switch.
10 is a synchronization separation circuit that receives the video signal sent from the buffer and separates it into a horizontal synchronization signal W _H and a vertical synchronization signal W _V. 11 is
This is a CRT monitor device that receives the W _H and W _V signals and the image signal V _N separated by a synchronous separation circuit.

9 receives the horizontal synchronization signal W _H and outputs the second
This is the second control circuit that controls the switch _SW2 . 7 is a keyboard for inputting various control commands and character signals. 8 is a transmitting circuit that receives the output of the keyboard and control circuit 9; V ₄ is
This is a buffer that receives the output of the transmitting circuit.
B' is a contact that receives the output of the buffer. SW ₂ , U ₃ , U ₄ , 7, 8, 9, 10, explained above
11 constitutes the terminal 40. Terminal control device 30, cable 21
and the terminal 40 constitute a communication control system. The present invention will be explained using a system configured in this way.

When transmitting the video signal from the terminal control device side to the terminal side, select the first changeover switch.
Set SW ₁ to the A side and the second changeover switch SW ₂ to the A' side. When connected in this way, the control device 3
First, a video signal is sent from the terminal 40 side to the terminal 40 side. Although not shown, timing signals
P ₂ is sent in the same way. Then the timing signal _P2
After the first shot is completed, during the free time t _r mentioned above, the first switch SW ₁ is set to the B side, the second switch SW ₂ is set to the B' side, and this time, reversely, the terminal 40 is set to the B side. A signal is sent from the side to the control device 30 side.

Here, numbers are assigned to the free time for the first shot, to the free time for the second shot, and so on. on the other hand,
Numbers are sequentially assigned to each key of the keyboard 7, starting from number 1. Then, change the numbers of both to 1
Make a one-to-one correspondence. The on/off of the first key is inserted into the 2nd free time, and the on/off of the 2nd key is inserted into the 2nd free time for transmission. The key signal sent from the terminal 40 is transmitted via the receiving circuit 5 and the data bus 20.
It is transmitted to CPU6. If the meaning of each key is memorized in the CPU in advance, the CPU can learn the necessary meaning from the contact interrupt signal or the on/off status signal of the contact generated by the receiving circuit 5.

Switching of the switches SW ₁ and SW ₂ is performed every horizontal synchronization signal period. Therefore, the switch must be able to withstand high-speed response. As such a switch, for example, a three-state logic circuit using an IC or a multiplexer using an FET is used.

Above, we have explained the case where information is sent from the terminal side to the control device side using free time.
It is also possible to send information from the control device side to the terminal side. The signals sent at this time may include, for example, sending various status signals. Furthermore, although we took the example of a terminal with a CRT, any device that uses video signals may be used. For example, a hard copy device that can copy images for one CRT screen may be used.

〔effect〕

According to the present invention, the following effects can be obtained.

In other words, each key on the keyboard is assigned one-to-one to the free time t _r that occurs between each horizontal synchronization signal,
During each free time, contact information for the corresponding key is sent from the terminal side to the terminal control device side. As a result, the contact information is sent each time one raster worth of data is displayed, so the contact information can be transmitted at high speed and efficiently. For example, 1
When using a display device with 512 scanning lines on the screen, 512 pieces of contact information are sent while displaying one screen, and most keyboards can cover the contact information of all keys.

[Brief explanation of drawings]

FIG. 1 is a timing chart showing the method of the present invention. FIG. 2 is a diagram showing an example of an electrical connection diagram for implementing the present invention. DESCRIPTION OF SYMBOLS 1... Refresh memory, 2... Character generator, 3... Shift register, 4, 9... Control circuit, 5... Receiving circuit, 6... CPU, 7... Keyboard,
8... Transmission circuit, 10... Synchronization separation circuit, 11...
CRT, 20...data bus, 21...cable,
SW ₁ , SW ₂ ... changeover switch, U ₁ ... OR gate,
U ₂ , U ₃ , U ₄ ... Batsuhua.

Claims (1)

[Claims] 1. A first terminal that sends out a video signal and a timing signal synchronized with the video signal, a second terminal that receives an external signal, and one of the first and second terminals. a terminal control device consisting of a first selector for selection, a third terminal for receiving a video signal and a timing signal, a fourth terminal for transmitting keyboard input data to the outside, and third and fourth terminals. In a communication control system comprising a terminal comprising a second switch for selecting one of the two, and a cable connecting the terminal and the terminal control device, the horizontal synchronization signal and the next horizontal A video signal of information for one raster is superimposed between the synchronization signals, the timing signal is output during the generation period of each horizontal synchronization signal, and the timing signal is output during the free time after the timing signal is generated until the horizontal synchronization signal ends. A communication control method characterized in that each key on a keyboard is assigned on a one-to-one basis, and contact information of the corresponding key is sent from the terminal side to the terminal control device side during each free time.