KR200204191Y1 - Power supply device for data convertor - Google Patents

Abstract

The present invention relates to a power supply device used for a data changer that converts asynchronous type data to a synchronous type data and asynchronous type data to asynchronous type data. ,

In particular, the rectifier diodes are installed in parallel on each line through which data and various signals are transmitted and received, thereby driving the data converter IC and the interface IC which constitute the data converter with the voltage collected through the respective diodes. The present invention relates to a power supply device for a data converter in which the size of the data converter is remarkably small because the drive voltage of the power supply is not supplied from the outside, and the reliability of the power supply is improved by supplying power by itself.

Description

Power Supply for Data Converters

The present invention relates to a power supply device used for a data changer that converts asynchronous type data to a synchronous type data and asynchronous type data to asynchronous type data. In particular, since rectification diodes are installed in parallel on each line through which data and various signals are transmitted and received to drive the data converter with the voltage collected through each diode, the drive voltage of the data converter does not need to be supplied from the outside. The present invention relates to a power supply device for a data converter in which the size of the data converter is significantly reduced and power is supplied by itself, thereby improving reliability of the power supply.

1 illustrates a general apparatus for data communication with an Internet network or a dedicated circuit network.

As a data communication and signal processing means on the user side, a PC 1 for transmitting and receiving asynchronous type data, and a data server 2 for transmitting and receiving synchronous type data and communicating with the PC 1 while connected to the Internet network; Is installed between the PC 1 and the data server 2 to convert the asynchronous type data output from the PC 1 into a synchronous type and to supply it to the data server 2 and output from the data server 2. It consists of a data converter 3 which converts data of a synchronous type into an asynchronous type and supplies it to the PC 1.

That is, the data converter 3 is installed between the PC 1 and the data server 2 which are different in the format of the data to be transmitted / received from each other in an asynchronous type and a synchronous type. It is a device that enables data transmission and reception between PC 1 and data server 2 by converting asynchronous data into synchronous data and synchronous data into asynchronous data.

The data converter 3 operating as described above is composed of a data conversion IC for converting data transmitted and received, and an interface for connecting the data conversion IC with a PC 1 and a data server 2. It is generally composed of a power supply unit for supplying the driving power of the conversion IC and the interface.

In addition, the power supply unit includes a trans to reduce the commercial power (110V or 220V) input from the outside to a predetermined voltage.

As described above, the conventional data converter requires a separate power supply for supplying the driving power of the data conversion IC and the interface stably, that is, a pressure reducing transformer, so that the data converter installed between the PC 1 and the data server 2 is provided. Since the size is increased, and a separate plug must be drawn out to be connected to the external commercial power source, there is a problem that the installation position of the data converter is subject to many restrictions.

Accordingly, the present invention for solving the above problems is to install a rectifying diode in parallel on each line through which data and various signals are transmitted and received to drive the data converter with the voltage collected through each diode, It is an object of the present invention to provide a power supply for a data converter in which the size of the data converter is significantly reduced since the drive voltage does not need to be supplied from the outside, and the self-power is supplied to improve the reliability of the power supply.

Features of the present invention for achieving the above object,

A first connector connected to a PC, a second connector connected to a data server, and a data conversion IC for converting asynchronous and synchronous data transmitted and received between the PC and the data server into synchronous and asynchronous data, and the first and second connections. In a data converter comprising an interface IC connected to two connectors by a plurality of lines to enable data communication between the data conversion IC, a PC, and a data server.

A plurality of lines connecting the first and second connectors and the interface IC are connected in parallel on a line through which a pulse type signal having a potential change passes, and rectifies a positive (+) pulse signal passing through the corresponding line. A plurality of rectifying diodes, a plurality of rectifying diodes connected in parallel on the line to rectify a negative pulse signal passing through the corresponding line, and a voltage collected from the rectifying diode to a predetermined voltage Characterized in that it consists of a constant voltage supply to the drive power of the data conversion IC and the interface IC.

1 is a diagram for explaining a conventional data converter.

2 is a circuit diagram showing a data converter to which the power supply of the present invention is applied.

※ Explanation of code for main part of drawing

1: PC 2: Data Server

11,12 connector 13 IC for data conversion

14: interface IC 15: constant voltage

D1 to D13: rectification diode

Hereinafter, a preferred embodiment of the present invention with reference to the accompanying drawings, as follows.

2 is a diagram provided between the PC 1 and the data server 2 to convert asynchronous data output from the PC 1 to the data server 2 into synchronous data, and from the data server 2 to the PC 1. The data converter converts the synchronous data supplied to the asynchronous data.

The first connector 11 connected to the PC 1 side and the second connector 12 connected to the data server 2 side are connected by a plurality of lines L, and the interface IC 14 is described above. One of the lines L is connected to a specific line L through which necessary data and signals pass.

The interface IC 14 is connected with a data conversion IC 13 for converting asynchronous and synchronous data communicated between the PC 1 and the data server 2 into synchronous and asynchronous data.

For reference, the data and signals passing through each line L will be described.

* TD: Transmitted data, data sent from PC to data server.

* TXC: Transmit clock, transmit clock.

* RD: Received data, data received from the data server to the PC.

* RTS: Request To Send.

* RXC: Receive Clock, Receive Clock.

* CTS: Clear To Send, send permission.

* DSR: Data Set Ready.

* SG: Signal Ground, Signal Ground.

* DTR: Data Terminal Ready, Data Terminal Ready.

* DCD: Data Carrier Detector, transfer data detection.

* DC (+): Plus DC voltage

* DC (-): negative DC voltage

Meanwhile, a positive voltage is applied to the TXC, RTS, RXC, CTS, DSR, DTR, DCD, and DC (+) lines L through which pulsed data and signals having a potential change among the lines L pass. The rectifier diodes D1 to D8 are connected in parallel to rectify a predetermined positive voltage from the pulsed signal flowing in the corresponding line L, and further, TD, TXC, RXC, and RD of the line L. The negative voltage rectifying diodes D9 to D13 are connected in parallel to the DC line L to rectify a predetermined negative voltage from the pulsed signal flowing through the corresponding line. At the output terminal of the diodes D1 to D8, the voltage collected by each of the rectifying diodes D1 to D8 is changed to a predetermined voltage and supplied to the drive power supply of the data conversion IC 13 and the interface IC 14. The constant voltage 15 is connected.

Incidentally, reference numerals C1 to C3, which are not described, are capacitors.

Referring to the operation and effects of the present invention configured as described above are as follows.

First, when data communication between the PC 1 and the data server 2 is started, a plurality of lines L connected between the first connector 11 and the second connector 12 may transmit or receive data (TD, RD) as well as clocks for transmitting and receiving (TXC, RXC) and other signals pass through. At this time, the data conversion IC 13 is outputted from the PC 1 and input through the interface IC 14. The transmission data TD is converted into synchronous data and supplied to the data server 2 through the second connector 12, and is output from the data server 2 and input through the interface IC 14. The received data RD is converted into asynchronous data and supplied to the PC 1 through the first connector 11.

Meanwhile, as described above, when data for transmission and reception and respective signals pass through each line L, the positive voltage rectifying diodes D1 to D8 are pulse signals of positive potential flowing through the corresponding line L. Is rectified and supplied to the voltage regulator 15, and the voltage regulator 15 changes the voltage input from each of the diodes D1 to D8 to a constant value so that the data conversion IC 13 and the interface IC 14 The data conversion IC 13 and the interface IC 14 can operate normally by supplying the power to the driving power supply.

Then, the negative voltage rectifying diodes D9 to D13 connected to the line L rectify a pulse signal of a negative potential flowing through the line L to obtain a negative voltage. The negative voltage is converted into the interface IC ( Supply to the drive voltage of 14).

That is, since the drive voltage of the interface IC 14 is + DC to -DC, and the drive voltage of the data conversion IC 13 is + DC, it is rectified by the diodes D1 to D8 so that the voltage regulator 15 The positive voltage regulated at is supplied to the positive power of the interface IC 14 and the data conversion IC 13, and the negative voltage rectified at the diodes D9 to D13 is the negative power of the interface IC 14. To be supplied.

As described above, the present invention provides a data conversion IC and an interface IC for configuring a data converter with voltages collected through each diode by installing rectifying diodes in parallel on each line through which data and various signals are transmitted and received. By driving, since the drive voltage of the data converter does not need to be supplied from the outside, the size of the data converter is significantly reduced, and since the power is supplied by itself, the power supply for the data converter improves the reliability of the power supply.

Claims (1)

The first connector 11 connected to the PC 1, the second connector 12 connected to the data server 2, and the asynchronous and synchronous data transmitted and received between the PC 1 and the data server 2 Data conversion IC 13 for converting synchronous and asynchronous data, and the first and second connectors 11, 12 are connected by a plurality of lines (L) to the data conversion IC 13 and In a data converter composed of an interface IC 14 for connecting data communication between a PC 1 and a data server 2, Among the plurality of lines L connecting the first and second connectors 11 and 12 and the interface IC 14, parallel lines are connected on a line through which a pulse type signal having a potential change passes. A plurality of rectifying diodes for rectifying a positive (+) pulse signal passing through the circuit; a plurality of rectifying diodes for rectifying a negative (-) pulse signal connected in parallel on the line and passing through the corresponding line; A power supply for a data converter, comprising: a constant voltage converter (15) for changing a voltage collected from a diode to a predetermined voltage and supplying the data conversion IC (13) and the driving power of the interface IC (14).