JPH0369239A - Isdn communication equipment - Google Patents

Abstract

PURPOSE:To prevent signal distortion to improve resistance to noise and to simplify circuit constitution by subjecting transmission data to V29 MODEM modulation without intervention of an analog signal and subjecting a reception digital signal to PCM demodulation and V29 MODEM decoding processing without intervention of an analog signal. CONSTITUTION:A first processing circuit 17 and a second processing circuit 18 are constituted as a single semiconductor integrated circuit 16. The processing circuit 17 collectively performs V29 MODEM modulation and PCM encoding processing of digital transmission data which passes a line 15 from a facsimile encoding processing circuit 14 and transmits an obtained digital signal through a line 19, an ISDN layer 1 controller 20, and an ISDN line 21. The digital signal received through the ISDN line 21 is given to the processing circuit 18 from a line 22 through the controller 20. The processing circuit 18 collectively performs PCM demodulation and V29 MODEM decoding processing of the received digital signal and gives an obtained digital signal from a line 23 to a facsimile encoding processing circuit 14.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention is directed to the I5DN (Integrated Digital Communication Network).
ated 5service De8ital Netw
The present invention relates to an ISDN communication device that performs communication using an ISDN communication line.

Conventional technology A typical prior art is shown in FIG.

CCITT (Telegraph and Telephone Advisory Committee) for facsimile communications
When performing communication in the standard G3 mode, the transmitted data is applied to the V29 modem 1 and modulated, and the analog signal obtained by modulation is sent via line 2 to a PCM (pulse code modulation) encoding circuit 3. , where it is PCM'F'f encoded, and the digital signal is given from line 4 to the l5DN layer 1 controller 5, l5DN times! ! 6 is sent out. (2) The transmission data given to the 29 modem 1 is a digital signal.

The digital signal received via the I SDN line 6 is
The analog signal thus obtained is supplied to the PCM decoding circuit 8 via line 7 from the controller 5 and is decoded into PCM 7%, and the analog signal obtained in this way is supplied to the V29 modem 1 via line 9 and demodulated, and the digital signal is received. Obtained as data.

Problems to be solved by the invention In such prior art, ■29 model b 1 and PCMr
Analog signals flow through line 2 between the f coding circuit 3 and line 9 between the PCM i1 coding circuit 8 and the V29 modem 1. For this reason, there is a problem in that signal distortion is likely to occur and noise resistance is poor, so transmission errors are likely to occur.

Furthermore, in such prior art, in order to process the transmitted data, a digital/analog converter is required inside the V29 modem 1 and an analog/digital converter is required inside the PCMn encoding circuit 3, and furthermore, a digital/analog converter is required inside the V29 modem 1 and an analog/digital converter inside the PCMn encoding circuit 3. In order to process this, a digital/analog converter is required inside the PCM decoding circuit 8 and an analog/digital converter inside the V29 modem 1. In this way, in the prior art that performs signal processing via analog signals, the circuit configuration is complicated. There is a title 8'I.

An object of the present invention is to provide an ISDN communication device that can prevent signal distortion, improve noise resistance, and simplify the circuit configuration.

Means for Solving the Problems The present invention provides a transmission data generation means for generating digital transmission data, and a first process that collectively performs V29 modem modulation and PCM encoding processing on the transmission data from the transmission data generation means. circuit, PCM demodulation and V29 for the received digital signal.
A second processing circuit performs modem decoding processing all at once, and the output from the first processing circuit is sent to the I SDN line.
an IS'DN layer 1 controller that receives signals from the SDN line and supplies them to the second processing circuit, and processes the signals in the first and second processing circuits using a digital/digital conversion method without going through analog signals. This is an ISDN communication device characterized by performing the following.

According to the present invention, it is possible to modulate transmitted data with a V29 modem and perform PCM encoding processing without using an analog signal, and to perform PCM demodulation and V29 modem decoding of a received digital signal without using an analog signal. It becomes possible to process. Therefore, signal distortion associated with digital/analog conversion and analog/digital conversion does not occur, and since only digital signal processing is performed, noise resistance is excellent, and transmission errors are less likely to occur.

Further, since a digital/analog converter and an analog/digital converter are not required, the circuit configuration becomes simple.

Embodiment FIG. 1 is an overall block diagram of an ISDN communication device according to an embodiment of the present invention. Although this communication device is used to perform facsimile communication in CCITT standard G3 mode, it may also be configured to perform facsimile communication in other modes, or may also be configured to perform telephone communication. generates digital transmission data and provides it on line 13 to facsimile encoding processing circuit 14. This digital signal to be transmitted is applied from line 15 to a first processing circuit 17 of a semiconductor integrated circuit 16 according to the invention. The semiconductor integrated circuit 16 also includes another second processing circuit 18, so that the first and second processing circuits 17,18 are configured as a single semiconductor integrated circuit 16. The first processing circuit 17 is
For digital transmission data via line 15, V29
The digital signal thus obtained, which undergoes mode 11 modulation and PCM (pulse code modulation) encoding processing, is sent from the first processing circuit 17 via line 19 to ISD.
N layer 1 controller 20, l5DNii
It is transmitted via the iI line 21.

The digital signal received via the ISDN line 21 passes through the ISDN layer 1 controller 20 and is applied to the second processing circuit 18 of the semiconductor integrated circuit 16 from line 22 . This second processing circuit 18 collectively performs PCMfIL and V29 modem decoding processing on the received digital signal.

The digital signal from the second processing circuit 18 obtained in this way is given to the facsimile encoding processing circuit 14 from line 23, and the obtained digital signal is given from line 24 to the recording control circuit 25, where printing on recording paper is performed. be exposed.

Monarchy realized by a microcomputer etc. The circuit 26 includes a reading processing circuit 12, a facsimile encoding processing circuit 14, a semiconductor a product circuit 16, and an I SDN layer 1.
A controller 20 and a recording control circuit 25 are controlled, and a signal is given to this control circuit 26 from an operation input means 27.

The facsimile encoding processing circuit 14 is a so-called MMR,
The I5DN layer 1 controller 20, which is responsible for converting the signals into codes such as MH and MR, and vice versa, sends the output from the first processing circuit 17 to the ISDN line 21. Also, this I SDN
The layer 1 controller 20 receives the signal from the ISDN line 21 and provides it to the second processing circuit n18.

In the embodiments described above, the first and second processing circuits 17.18
is included in a single semiconductor & product circuit 16, and does not include an internal digital/analog converter or analog/digital converter, and processes only digital signals, thereby preventing signal distortion and improving durability. It is possible to improve the noise property and thereby prevent transmission errors, and also to simplify the circuit configuration and reduce the manufacturing cost.

Effects of the Invention As described above, according to the present invention, the digital/analog converter and the analog/digital converter are abolished, and the first and second processing circuits are realized by a single semiconductor integrated circuit. Analog signals are not used, which causes signal distortion, and noise resistance is improved, transmission errors are prevented, and the circuit configuration can be simplified.

[Brief explanation of drawings]

FIG. 1 is an overall block diagram of one embodiment of the present invention, and FIG. 2 is a partial block diagram of the prior art. 12...Reading processing circuit, 14...Facsimile code processing circuit, 16...Semiconductor integrated circuit, 17...First processing circuit, 18...Second processing circuit, 2o...I
SDN layer 1 controller, 21...I SDN line, 25z...recording control circuit, 26...main control circuit,
27...Operation input means

Claims (1)

[Claims] Transmission data generation means for generating digital transmission data; and a first system that collectively performs V29 modem, modulation, and PCM encoding processing on the transmission data from the transmission data generation means.
The processing circuit performs PCM demodulation and V29 processing on the received digital signal.
A second processing circuit performs modem decoding processing all at once, and the output from the first processing circuit is sent to the ISDN line.
I receives the signal from the DN line and supplies it to the second processing circuit
1. An ISDN communication device, comprising: an SDN layer 1 controller, and wherein the first and second processing circuits perform processing using a digital/digital conversion method without using an analog signal.