KR900006189Y1 - Data transfer circuit - Google Patents

Abstract

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Description

Data transmission circuit

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: Asynchronous Communication Interface 2: Logic Circuit

3: Primary data transmission / reception port 4: Auxiliary data transmission / reception port

CTL ₁ -CTL ₃ : Control Signal 21,23,26.28.29.31: Oagate

22: AND gate 24, 30: line driver

25,32: Line Receiver

The present invention relates to a data transmission circuit having a main data transmission / reception port and an auxiliary data transmission / reception port and allowing a main computer and a terminal device or a peripheral device to transmit and receive data with each other. The present invention relates to a data transmission circuit having a simple circuit configuration by using one asynchronous communication interface integrated circuit in common without using each one, and configuring a data transmission path by controlling a logic circuit as a control signal.

In a conventional data transmission circuit, a main computer, a terminal, or a peripheral device using an asynchronous communication interface adapter (commonly referred to as an ACIA), a line driver, and a line receiver for transmitting and receiving main data. A transmission / reception circuit is configured by connecting the main data transmission / reception port of the main data transmission circuit, and the auxiliary data transmission / reception circuit connects a line driver and a line receiver to the auxiliary data transmission / reception port, and connects the asynchronous communication interface for data transmission / reception with the data communication interface for transmission / reception of the main data. Was configured separately.

At this time, the auxiliary data transmission / reception asynchronous communication interface does not operate when the main data transmission / reception port is used, and the asynchronous communication interface for transmission / reception of the main data does not operate when the auxiliary data transmission / reception port is used.

However, these asynchronous communication interfaces for the primary and secondary transmit and receive ports have two chip select signals, register select signals, reset signals, write / read signals, clock signals, and data buses to operate the interfaces regardless of the operation. It is configured to be connected together so that they can be simultaneously supplied to the communication interface.

As such, the conventional data transmission circuits constitute asynchronous communication interfaces for the primary and secondary transmission / reception ports, respectively, and when one interface operates, the other interface does not operate, which implies inefficiency in circuit configuration, thereby causing a high product price. Was becoming.

Therefore, the present invention was devised in view of the above situation, and an asynchronous communication interface integrated circuit is used in common in the main data transmission / reception port and the auxiliary data transmission / reception port. It is an object of the present invention to provide a data transmission circuit configured by configuring a logic circuit section controlled by a control signal so that mutual data collision does not occur.

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

1 shows a circuit diagram of the present invention, and reference numeral 1 denotes a data output terminal TXD for converting parallel data DATA into serial data, and serial input data of the data receiving terminal RXD as parallel data. As a general asynchronous communication interface (ACIA) for converting and supplying to the data bus DATA, an integrated circuit of one chip is used.

In this asynchronous communication interface 1, the main data transmission / reception port 3 and the auxiliary data transmission / reception port 4 are designated, respectively, and controlled by the logic circuit unit 2 to transmit and receive data to each other.

That is, when data is transmitted through the data transmission terminal TXM of the main data transmission / reception port 3, and when data is received through the data reception terminal RXM, the data transmission terminal TXM of the auxiliary data transmission / reception port 4 is transmitted. This is the case where data is transmitted and data is received through the data receiving end RXM.

For each of these cases, control signals CTL _{1 to} CTL ₃ are supplied as shown in Table 1, which will be described below.

Table 1. Control signal for each data communication case

First, when data is transmitted to the transmitting terminal TXM of the main transmission / reception port 3, under the control of a microcomputer (not shown), as shown in Table 1, the control signal CTL ₁ is low and the control signal CTL ₃ is high. Becomes

At this time, data output from the transmission data output terminal TXD of the asynchronous communication interface 1 is applied to one input terminal of the end gate 22 through the oragate 21, and the other input terminal of the end gate 22 is provided to the input terminal of the end gate 22. Since the control signal CTL _{3 in} the high state passing through the gate 23 is applied, the AND gate 22 is turned on to apply the signal input from the transmission data output terminal TXD to the line driver 24. The line driver 24 then provides the transmission data to the transmission terminal TXM of the main data transmission / reception port 3.

On the other hand, when data is transmitted from the receiving end RXM of the main data transmission / reception port 3, only the control signal CTL ₂ is low as shown in Table 1. The control signals CTL ₁ and CTL ₃ are in a don't care state.

The data received from the receiving end RXM is applied to one input terminal of the ocate 26 through the line receiver 25. At this time, the control signal CTL ₂ in the low state is inverted to the high state by the inverter 27 to the other input terminal of the ora gate 26, and a high state signal logically combined at the ora gate 28 is applied. Then, the oragate 26 generates a high state signal, so that the signal received at the receiving end RXM can be supplied to the receiving end RXD of the asynchronous communication interface 1 via the oragate 26.

When data is transmitted to the transmitting end TXA of the auxiliary transmission / reception port 4, only the control signals CTL ₂ and CTL ₃ are high as shown in Table 1, and the control signal CTL1 is Don Care.

At this time, the signal output through the transmission data output terminal (TXD) in the asynchronous communication interface 1 is applied to one side of the line driver 30 through the oragate 29, the control signals (CTL ₂ , CTL ₃ ) is in a high state Therefore, since the output of the oragate 31 which logically combines these control signals CTL ₂ and CTL ₃ is applied to the other side of the line driver 30, the transmission data TXD is transmitted to the line driver via the oragate 29. It is supplied to the transmission terminal (TXA) of the auxiliary data port 4 through the (30).

In addition, when data is transmitted to the receiving end RXA of the auxiliary data transmission / reception port 4, the control signals CTL ₁ and CTL _{3 go} low as shown in Table 1, and the control signals CTL _{2 go} high. It becomes a state.

At this time, the data transmitted to the receiving end RXA of the auxiliary data transmission / reception port 4 passes through the line receiver 32, the oragate 28, and the oragate 26. RXD). In addition to the above-mentioned cases, data may be simultaneously transmitted to the primary auxiliary receiving port 3 and 4 or the transmission data received from the auxiliary auxiliary receiving port 4 may be directly supplied to the primary transmitting and receiving port 3 without passing through the communication interface 1. This can be done by properly supplying control signals (CTL _1- CTL ₃ ).

In addition, the control signals CTL _{1 to} CLT ₃ may be supplied through an input / output port such as a computer or by using a separate switch. Unexplained in FIG. 1 ψ ₂ , , , OSC, DATA are known signal terminals provided from the microcomputer to operate the asynchronous communication interface 1.

In this way, one asynchronous communication interface integrated circuit can be used to transmit and receive the transmission data of the main transmission port and the auxiliary transmission port, thereby increasing the efficiency of using each element in the circuit configuration.

As described above, the present invention can reduce the production cost by being able to use the asynchronous communication interface integrated circuit in common, and have a feature of reducing the defect rate by simplifying the circuit.

Claims (3)

A data transmission circuit for transmitting and receiving data to and from each other, having one asynchronous communication interface (1), a primary data transmission / reception port (3) and an auxiliary data transmission / reception port (4), from the asynchronous communication interface (1) described above. The first logic circuit for supplying serial data from the asynchronous communication interface 1 to the transmission terminal of the main data transmission / reception port 3 by operating by the control signal CTL when data is transmitted to the data transmission / reception port 3. When the asynchronous communication interface 1 receives data from the main data transmission / reception port 3, the data received by the main data transmission / reception port 3 is operated by the control signal CTL ₂ . The second logic circuit for supplying to the receiving end of (1) and the second logical circuit for transmitting data from the asynchronous communication interface 1 to the auxiliary data transmission / reception port 4 above A third logic circuit for supplying serial data from the asynchronous communication interface 1 to the transmitting end of the auxiliary data transmission / reception port 4 by operating by the fish signals CTL ₁ and CTL ₃ and the auxiliary data transmission / reception port described above ( When the asynchronous communication interface 1 receives data from 4), the asynchronous communication interface 1 is operated by the control signal CTL ₂ to supply the data received at the auxiliary data transmission / reception port 3 to the receiving end of the asynchronous communication interface 1. And a fourth logic circuit. The first logic circuit of claim 1, wherein the first logic circuit comprises: an oragate 21 for passing serial data generated at the asynchronous communication interface 1, an oragate 23 for passing a control signal CTL ₃ , An AND gate 22 for logically combining the output signals of the OR gates 21 and 23 and a line driver 24 for supplying serial data passed through the AND gate 22 to the transmission terminal of the main data transmission / reception port 3. And the second logic circuit comprises a line receiver (25) for transferring serial data transmitted from the main data transmission / reception port (3). An inverter 27 for inverting the control signal CTL ₂ and an inverted control signal ( OA gate (28) passing through, and the serial data from the line receiver 25 and the output signal of the OA gate 28 is logically combined to transfer the logically combined data signal to the receiving end of the asynchronous communication interface (1). A data transmission circuit comprising an oragate 26 for supplying. 3. The third logic circuit according to claim 1 or 2, wherein the third logic circuit is configured to control the oragate 29 and the control signals CTL ₂ and CLT ₃ for passing serial data generated in the asynchronous communication interface 1. The OA gate 31 to be combined and the output signals of the O gate 29 and the O gate 31 are logically combined to supply serial data passing through the O gate 29 to the transmission terminal of the auxiliary data transmission / reception port 4. And a fourth logic circuit for transmitting the serial data transmitted from the auxiliary data transmission / reception port (4) via the above-described orifices (26) and (28). And a line receiver (32) for supplying to a receiving end of the data receiver.