JPH02183900A - Data communication equipment - Google Patents

Abstract

PURPOSE:To receive data at a communicating speed corresponding to the communicating speed of a communication objective device by providing plural serial/ parallel conversion parts and data processing part to judge whether the data obtained respectively from these conversion parts are suitable or not. CONSTITUTION:A serial code string obtained by a demodulation part 13 is inputted to a synchronism detection part 40 and serial/parallel conversion parts 51-5N, and in the synchronism detection part 40, it is decided for each fastest reception clock outputted from a communication control part 20 whether the code string inputted from the demodulation part 13 is a specified code string or not. When the specified code string is detected, the operation of the serial/ parallel conversion parts 51-5N is started. Namely, in the serial/parallel conversion parts 5M(M=1-N), serial/parallel conversion is executed according to the reception clock outputted from the communication control part 20. The obtained parallel data are inputted to a data processing part 16 and it is decided whether the data are parallel data to satisfy a rated format or not. Thus, reception function can be realized corresponding to the communicating speed of the communication objective equipment.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a data communication device used in a half-duplex data communication device, etc. for guided communication, etc., which requires a plurality of communication methods, such as a bus operation management system.

BACKGROUND OF THE INVENTION FIG. 3 shows the configuration of a conventional data communication device using inductive communication. In FIG. 3, l is an antenna,
It is connected to the reception amplifier section 2.

3 is a demodulation section, which is connected to the reception amplification section 2, the synchronization verification section 4, and the serial/parallel conversion section 5. The synchronization test 4 is also connected to the serial/parallel converter 5.

The data processing section 6 includes a serial/parallel converter 5 and a parallel/parallel converter 5.
It is connected to the serial converter 7. The parallel/serial converter 7 is connected to the data processor 6 and the modulator 8 as described above. Modulating section 8 is connected to transmission amplifying section 9 . The transmission amplification section 9 is.

O 10 connected to the antenna lK is a communication control section, which includes a reception amplification section 2, a demodulation section 3, a synchronization detection section 4, a serial/parallel conversion section 5, a parallel/serial conversion section 7, and a modulation section. 8 and is also connected to the data processing section 6.

Next, the operation of the above conventional example will be explained. The data processing section 6 outputs parallel data to the parallel/serial conversion section 7, and also switches the command output from the communication control section 10 to a transmission operation command, and controls the demodulation operation of the demodulation section 3 and the synchronization detection section 4.
operation and the conversion operation of the serial/parallel converter 5,
The parallel/serial converter 7 and modulator 8 start operating. The parallel/serial conversion unit 7 performs parallel/serial conversion for each transmission zero outputted from the communication control unit IO. The modulator 8 converts the serial code string output from the parallel/serial converter 7 into a transmission signal in the form I/! 1. Modulate. The signal modulated by the modulation section 8 is input to the transmission amplification section 9, amplified, and then output to the antenna l. After the transmission is completed, the data processing section 6 instructs the communication control section 10 to switch the command output from the communication control section 10 to a reception operation command. This command causes the demodulating operation of the demodulating section 3, the operation of the 1σ1 determining section 4, and the converting operation of the serial/parallel converting section 5 to be started, and the operations of the parallel/serial converting section 7 and the modulating section 8 are completely prohibited. The reception amplification unit 2 completely amplifies the signal received by the antenna l. The signal amplified by the reception amplification section 2 is sent to the demodulation section 3 and the signal r5! I
11 and 10. The demodulator 3 demodulates the reception signal received by the reception amplifier 2 and generates a serial code string. The communication control section 10 generates a reception clock in synchronization with the reception signal. The serial code string obtained by the demodulator 3 is input to the synchronization detector 4 and the serial/parallel converter 5. The synchronization detection unit 4 determines whether the code string input from the demodulation unit 3 is a specific code string f:, and the communication control unit l
This is performed every time the received clock is output from O, and when a specific code string is detected, the operation of the serial/parallel converter 5 is started. In the serial/parallel converter 5, the communication 11ilJ
Series/parallel switching is performed according to the reception clock output from the N section 10. The parallel data obtained by the serial/parallel converter 5 is input to a data processor 6, which determines whether the parallel data satisfies a specified format and performs a receiving function.

Problems to be Solved by the Invention However, with the conventional configuration described above, data can only be received from data communication devices with one type of communication speed. It was not possible to expand the system by increasing the amount of information communicated.In addition, in order to fully improve the performance of the system by increasing the amount of communication information, there was the problem that all existing data communication equipment had to be replaced. There was 0
The present invention solves all of these conventional problems, and when expanding an existing system, it is possible to receive data from data communication devices with the existing communication speed, and also to receive data with improved communication speed and increased amount of communication information. It can also be received from communication devices. The purpose is to provide an excellent data communication device.

In order to achieve the above object, the present invention provides a plurality of serial/parallel conversion units and a data processing unit that determines whether data obtained from each of these conversion units is valid or not. In addition, the communication speed of the communication target device is determined, and reception is performed at the communication speed of the communication target device.

Function The present invention has the following effects due to the above configuration. That is, the receiving function is satisfied by determining whether or not each of the eight sets of data obtained from the plurality of serial/parallel converters is valid.

Example FIG. 1 shows the configuration of an embodiment of the present invention.

In FIG. 1, 11 is an antenna, and the receiving amplification section 1
Connected to 2. 13 is a demodulation section, which is connected to the reception amplification section 12, the synchronization verification section 40, and the serial/parallel conversion sections 51 to 5N. The synchronization verification section 40 is the serial/parallel conversion section 5
It is also connected to 1 to 5N. The data processing section 16 is connected to the serial/parallel converters 51 to 5N and the parallel/serial converter 7. Modulation section 18 is connected to transmission amplification section 19 . The transmission amplification section 19 includes a communication control section 020 connected to the antenna 11, a reception amplification section 12, a demodulation section 13, a synchronization verification section 40, and a serial/parallel conversion section 51 to
5M, the parallel/serial converter 71, and the modulator 18, as well as the data processor 16.

FIG. 2 shows the serial/
5 is a timing chart for each of N different communication speeds of code strings input to the parallel converters 51 to 5N and the synchronization test unit 40. FIG. Signal 61 is a timing chart when the communication speed is the slowest. signal 62 is signal 61
2 is a timing chart for a case where the communication speed is twice that of the case of . Signal 6N is a timing chart when the communication speed is eight times that of signal 61. 31, 32
, 3N are synchronization fixed points for each communication speed.

Next, the operation of the above embodiment of the present invention will be explained. The data processing section 16 outputs parallel data to the parallel/serial conversion section 71, switches to the command all transmission operation command issued from the communication control section 2o, and performs the demodulation operation of the demodulation section 13 and the operation of the synchronization verification section 40. and prohibits the conversion operation of the direct conversion unit 11/parallel conversion units 51 to 5N, and the parallel/serial conversion unit 71 and modulation unit 18
All operations begin. The parallel/serial converter 71 performs a parallel/serial conversion operation for each transmission clock output from the communication control unit 20. The modulator 18 modulates the serial code string output from the parallel/serial converter 71 into a transmission signal. The signal modulated by the modulation section 18 is transmitted to the transmission amplification section 19
After being input to the antenna IIK and amplified, the signal is outputted from the antenna IIK.

After the transmission is completed, the data processing unit 16.

The communication control unit 20 is instructed to switch the command output from the communication control unit 20 to a receiving operation command. According to this command, the operation of the demodulation section 13, the operation of the synchronization verification section 40,
Then, the conversion operations of the serial/parallel converters 51 to 5N are started, and the operations of the parallel/serial converter 71 and the modulator 18 are prohibited. The reception amplification section 12 amplifies the signal received by the antenna 11. The signal amplified by the reception amplification section 12 is sent to the demodulation section 1
3 and the communication control unit 20. The demodulation section 13 demodulates the reception signal received by the reception amplification section 12 and generates a serial code string. In the communication control section 20, the reception amplification section 12
N types of received CI knocks are generated in synchronization with the received signal obtained in . The serial code string obtained by the demodulator 13 is
The synchronization detection section 40 and the serial/parallel conversion sections 51 to 5N are manually operated. The synchronization detection unit 4o determines whether or not the code string input from the demodulation unit 13 is a specific code 1 for each fastest reception clock output from the communication control unit 2o. Row? If detected, the serial/parallel converters 51 to 5N are started to operate. That is, the serial/parallel converters 51 to 5 at the time of detection of 3N in FIG.
Start all operations of N. Series/lotus series conversion unit 5Nt (M
= l −N ), serial/parallel conversion is performed according to the reception rate 0.7 output from the communication control unit 20.
The parallel data obtained by the serial/parallel converters 51 to 5N are
By determining whether or not the parallel data input to the data processing unit 16 satisfies a prescribed format, a reception function corresponding to the communication speed of the communication device to be communicated can be realized.

Effects of the Invention As is clear from the embodiments described above, the present invention combines a plurality of serial/parallel conversion units and a data processing unit that determines whether the data obtained from each of these conversion units is appropriate. This has the effect that data can be received at a communication speed corresponding to the communication speed of one communication target device.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a data communication device according to an embodiment of the present invention, FIG. 2 is a timing chart of a code string obtained by the demodulator 13 according to the embodiment at a null communication speed, and FIG. is a block diagram of a conventional data communication device. 51-5N...Serial/parallel conversion section, 16.Data processing section, 71..Parallel/serial conversion section, 18..Modulation section, 19
...Transmission amplification section, 20...Communication control section, 61...
Demodulator code string when the communication speed is the slowest, 62...
Demodulator code string when the communication speed is twice that of signal 61, 6N
・Demodulator code string when the communication speed is 6108 times the signal,
31...Synchronization fixed point when the communication speed is the slowest, 32
...Synchronization fixed point when the communication speed is twice that of signal 61,
3N...Synchronization fixed point when the communication speed is 6108 times the signal. Name of agent: Patent attorney Shigetaka Awano and one other person

Claims (1)

[Claims] A data communication device that performs intermittent transmission to the communication target device and receives responses to the intermittent transmission, multiple data serial/parallel converters, and whether the data obtained from each of these converters is valid. What is claimed is: 1. A data communication device comprising: a data processing unit that determines a communication speed of a communication target device; and performs reception at a communication speed corresponding to the communication speed of the communication target device.