KR100233122B1 - The testing circuit of modem management - Google Patents

Abstract

A control unit for testing a signal transmission state between the modem chips connected to each other, giving a signal necessary for operation between the modem chips, reading and comparing the state values, and outputting a test result, and a test result signal from the inter-modem chip of the control unit A modem operation test circuit having an eye pattern generator for generating X and Y patterns to receive and observe a signal, the modem operation test circuit comprising: information for signal transmission and testing according to data transmission and reception between a reference modem and a target modem to be tested, and Direct transmission of test result data can be easily configured to control attenuation of the transmission line according to signal transmission between the plurality of connected modems under the control of the controller.

Description

Modem operation test circuit

1 is a conventional circuit diagram.

2 is a block diagram according to an embodiment of the present invention.

3 is a detailed circuit diagram of FIG. 2 in accordance with an embodiment of the present invention.

The present invention relates to a mutual data transmission line test circuit when a plurality of modems are interconnected, and in particular, to allow all or part of the operation test of the modem to be automatically or partially tested and to continuously display the test status. It relates to an operational test circuit.

A description for testing the state of data transmission and operation of a conventional modem is disclosed as shown in FIG. 1 based on a data book model ?? RP6MFX ?? provided by the US Rock Well. The first and second host computers 103 and 203 are connected to each of the first and second modems 102 and 202 to initialize and control the first and second modems 102 and 202, and the state from the first and second modems 102 and 202. The data is controlled to be read and controlled by the first and second eye pattern generators 104 and 204 to process the read data and output the same through the first and second scopes 105 and 205. The first and second test units 101 and 201 may check a transmission state transmitted and received through serial data communication with the first and second modems 102 and 202. The performance of the first and second modems 102 and 202 may be measured by changing the state of the transmission line such as a telephone line by using the line simulator 208 between the transmission and reception lines.

However, it is difficult to compare the state of the first and second modems 102 and 202 by using the first and second host processors 103 and 203 for the test of the conventional modem, and the first and second eye pattern generators 104 and 204 are difficult to compare. It is difficult to compare the mutual states by using each independently, and in order to test the transmission line, since the line simulator 208 is directly connected to the transmission / reception lines Tx and Rx, the state of the line can be changed from the line simulator 205. There was no problem.

Accordingly, it is an object of the present invention to provide a circuit capable of automatically testing each part of a modem and testing all or part of the modem.

Another object of the present invention is to provide a circuit which can continuously display the test status and can be compared with the modem chip that has been tested for performance.

In order to accomplish the above object, the present invention connects a terminal, a X, Y pattern display scope, an objective / reference modem / programmable attenuator from a microcomputer to a common bus (address, data), and the terminal under control of the microcomputer. Data can be transmitted / received through the program, and the attenuation code can be set to the target / reference modem by control data with a programmable attenuator to know the status of the transmission line, and X, Y pattern data can be transmitted by X, Y selection control signal. It can generate the eye pattern according to the selection, and it is configured to transmit and receive the status and control data by giving a control signal to the terminal and the reference / target modem through the input and output interface circuit for the entire modem performance test and modem-specific test It is intended to be easy.

Hereinafter, with reference to the accompanying drawings of the present invention will be described in detail.

2 is a block diagram according to an exemplary embodiment of the present invention, wherein the eye pattern generator 222, the input / output (I / O) interface unit 216, and the programmable attenuator are used as a common bus (data, address) from the microcomputer 211. 217 is connected, and the DTEs 204 and 205 for the terminal are connected to the input / output (I / O) interface unit 216, and the target / reference modems 218 and 219 are connected through another I / O port. Connected. The programmable attenuator 217 is configured to set the attenuation codes of the reference / target modems 218 and 219 from the microcomputer 211 to adjust the state of transmission lines between the two modems.

And the eye pattern generator 222 is connected to the common bus from the microcomputer 211, the X and Y pattern data under the control of the microcomputer 211 is converted into an analog signal after the scope 210 It is configured to output through). The microcomputer 211 provides a signal necessary for the target / reference modems 218 and 219 through the input / output (I / O) interface unit 216, or reads and compares register values in the modem. The state at this time can be immediately confirmed through the DTE (214, 215). The eye pattern generator 222 receives a signal from the target / reference modems 218 and 219 and transmits data to the eye pattern generator 222 and observes it through the scope 210. At this time, the microcomputer 211 removes the eye pattern data of the target modem 218 and the eye pattern data of the reference modem 219 to select or export the target pattern or the reference eye pattern alternately. The microcomputer 211 sets attenuation values in the programmable attenuator 217 to adjust the state of the transmission line between the target / reference modems 218 and 219. The microcomputer 211 may directly monitor the transmission data between the target / reference modems 218 and 219. The test procedure may be batch processed using a program or a part thereof may be selected. The test result confirms using a monitor or a printer through the DTEs 204 and 205.

3 is a detailed circuit diagram of FIG. 2 according to an embodiment of the present invention, in which the address decoder 301 decodes an address signal generated from the microcomputer 211 to input / output circuits I / 01-I / 0n and a data selector. The control signal 21 is generated, and control data for setting the attenuation adjustment of the dual D / A converter 207 is generated. Accordingly, data communication is performed with the microcomputer 211 under the control of the respective units of the address decoder 301, and the data and the microcomputer processed by the terminals DTE1 and DTE2 through the input / output circuits I / 01 and I / 02. Data processed at 211 may be mutually transmitted according to a selection. The dual D / A converter 207 selects the attenuation control of the target / reference modems 218 and 219 by the output of the address decoder 301, and attenuates the data from the microcomputer 211 through the bus. It is possible to adjust the state of the transmission line between the target / reference modem (218,219) by the coding data, the attenuation control state is checked in the microcomputer 211 through the input and output circuits (I / 03, I / 04), The result is output to the terminals DTE1 and DTE2 or to the scope 210 through the eye pattern generator 222.

In the eye pattern generator 222, the value read from the reference and destination modems 218 and 219 by the output control signal of the address decoder 301 is divided into values corresponding to the X and Y of the microcomputer 211 and the data selector 21 is separated. Separately, the D / A C1 (22) or D / A C2 (23) is converted into an analog signal, and the state is output to the scope (210).

As described above, in testing the modem, the whole test process can be executed automatically or by selection using a microcomputer, or the transmission line state can be changed using an attenuator without using a line simulator. By checking each eye pattern of the modem and alternately exporting the data as a data decoder, the eye patterns can be viewed and compared at once, and the microcomputation can directly remove the data to be transmitted.

Claims (1)

A microcomputer 211 having a plurality of terminals 214 and 215 and reference / purpose modems 218 and 219, which give signals necessary for the movement of the reference / purpose modems 218 and 219, read and compare state values, and test them; In the modem operation test circuit including the eye pattern generator 222 which generates the test results from the reference / purpose modems 218 and 219 of (211) in X and Y patterns, under the control of the microcomputer 211. The plurality of terminals 214 and 215, the reference / purpose modems 218 and 219, and the eye pattern generator 222 are commonly connected so that the microcomputer 211 receives a signal from the reference / purpose modems 218 and 219. An I / O interface for interfacing the data processed by the terminals 214 and 215 and the data processed by the microcomputer 211 to the reference / purpose modems 218 and 219. Receiving a control signal and data for the attenuation control of the transmission line according to the signal transmission in the unit 216 and the microcomputer 211 to freely adjust the attenuation of the transmission data signal between the reference / destination modems (218,219) Modem operation test circuit, characterized in that consisting of a dual D / A conversion unit (217).