KR890000975B1 - Signal modulating circuit - Google Patents

Abstract

Ths circuit uses a short-distance RS-232C line method but possesses also a mid-distance data transmission function. Especially, this circuit changes a RS-422C transmission method to a differential transmission method such as a RS-422 transmission method. This provides a signal converting circuit which transmits a data effectively without a local power. This circuit is composed of a data terminal which inputs and outputs a control signal and a data signal, a detecting circuit, a comparator, and a amplifier.

Description

Signal conversion circuit

1 is a block diagram of a signal converter according to the present invention.

2 is a concrete circuit diagram of the block diagram of FIG.

3 is a configuration diagram of an embodiment of data transmission using the signal conversion circuit of the present invention.

* Explanation of symbols for main parts of the drawings

1: data terminal 2: rectifier circuit

3: sense amplifier 4: comparator

5: level detector 6: amplifier

The present invention relates to a circuit having a medium-range data transmission function in a terminal using a short-range RS-232C line method of the present invention, and more particularly, to a circuit for converting an RS-422C transmission method into a differential transmission method such as an RS-422 transmission method. . In general, when the transmission equipment and terminal or computer, terminal and terminal, computer and computer data transmission is asynchronous serial data transmission, RS-232C transmission method has been widely used. However, since the RS-232C transmission method transmits data by voltage, the transmission signal and voltage become unstable when the transmission distance between two devices is too long. Therefore, the RS-232C transmission method is used for short-range transmission method rather than forensic data transmission. Has been. Meanwhile, in order to transmit data at a medium distance from a terminal or a transmission device using the RS-232C line method, a medium distance data transmission is performed by converting an RS-232C transmission method into a RS-422 transmission method which is a differential transmission method using a signal converter. However, although the conventional signal converter uses a RS-232C dedicated line driver (Line Driver) and an integrated circuit for a line receiver (Line Receiver), the use of local power is essential. In addition, the local power converts 100VAC to supply power of 12.5 + 5VDC, and the signal converter operates the circuit in response to the voltage, and there are many failures due to power shock. It became a factor. Therefore, the purpose of the present invention is to provide a signal conversion circuit for medium-distance data transmission in order to solve the conventional problems.

Another object of the present invention is to provide a signal conversion circuit capable of smoothly transmitting data transmission without local power. Therefore, the present invention for achieving the above object is a data terminal for inputting and outputting a control signal and a data signal, and outputs a positive voltage, a negative voltage and a ground voltage by inputting a control signal and a data signal output from the data terminal A rectifying circuit for inputting and outputting a transmission signal, a transmission signal output from the rectifying circuit, amplifying the signal, filtering the amplified pulse, and outputting a charge sensing amplifier and a transmission signal output from the charge sensing amplifier. The comparator adjusts the transmission level in comparison with the reference voltage and outputs the transmission signal as the difference signal, and detects the detected signal by detecting the transmission signal of the received difference signal to a certain level by threshold action. A level detector circuit for amplifying and outputting a transmission signal and outputting the received signal from the level detector circuit; It is characterized by consisting of an amplifier that amplifies and outputs a transmission call, feeds back a high frequency signal component among the output signals, and inputs the received transmission signal to the receiving terminal of the rectifying circuit according to the transmission pulse. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram of a signal conversion circuit according to the present invention (Data Terminal Equipment: DET) for outputting a data signal and a control signal (1), and the control signal and data output from the DTE (1) A current circuit 2 for inputting a signal to output a transmission data signal, a positive voltage V _CC , a negative voltage V _EE , and a ground voltage GND, and a positive output from the rectifying circuit 2. A charge sensing amplifier 3 for inputting a voltage V _CC and a negative voltage V _EE and sensing and amplifying and filtering the data signal output from the rectifier circuit 2, and the output of the charge sensing amplifier 3. The comparator 4 which compares and adjusts the signal to a predetermined level and transmits the transmission signal as a difference signal, and amplifies the received transmission signal of the difference signal input from another terminal with a constant lab gel by a dressing action. A level detector circuit 5 for filtering, And an amplifier 6 which amplifies and outputs a detector transmission signal output from the level detector circuit 5, and feeds back a high frequency signal among the output signals, and outputs only the transmission signal in synchronization with the transmission side pulse. Therefore, when the data signal and the control signal are output from the DTE 1, the signal of the rectifier circuit 2 is inputted to convert and output the positive voltage V _CC , the negative voltage V _EE , and the ground voltage GND. At the same time, a data signal is output through the terminal TX. In addition, the charge sensing amplifier 3 detects and amplifies the data signal output from the rectifier circuit 82 and filters the data signal, and inputs the input signal to the input terminal of the comparator 4. In comparison, the transmission signal of the difference signal output by adjusting the transmission output level is output through the terminals 21 and 31.

On the other hand, the level detector circuit 5 detects the received information of the input difference signal only at a certain frequency by a threshold operation, outputs the result of amplification filtering, and becomes an input of the amplifier 6. At this time, the amplifier 6 amplifies and outputs the input transmission signal. When there is a high frequency signal among the output signals, the amplifier feeds back, adjusts the output of the reception transmission signal to the transmission pulse side, and inputs it to the reception terminal RX of the rectifier circuit 2. In addition, the reception information signal input to the rectifier circuit 2 is input as a data signal of the DTE 1. Therefore, it is possible to transmit data up to medium distance even in the terminal using RS-232C line method.

FIG. 2 is a specific circuit diagram of one embodiment of the block diagram of FIG. 1, which includes a data terminal (DTE) 1, a rectifier circuit 2, resistors R ₁ -R ₆ , capacitors C ₁ -C _2, and FIG. Charge sense amplifier 3 composed of operational amplifier 10, comparator 4 composed of resistors R ₇ -R ₈ and operational amplifiers 20, 30, resistors R _12- R ₁₈ , capacitor C ₃ and operational A level detector circuit 5 composed of an amplifier 40, and an amplifier 6 composed of resistors R ₁₅ -R ₁₉ , a capacitor C _4, and an operational amplifier 50. When the data signal and the control signal are output from the DTE 1 and the rectifier circuit 2 is inputted, the rectifier circuit 2 has a positive voltage V _CC , a negative voltage V _EE , and a ground voltage GND. The data signal is input to the charge sense amplifier (3) input resistors (R ₁ ) and (R ₂ ). In addition, the data signal is adjusted to the resistance value of the resistor (R ₁ ), the resistance (R ₂ ) can be a suitable input, and the data signal passed through the input resistance (R ₂ ) is input to the inverting terminal of the operational amplifier (10) The input of the non-inverting terminal of the operational amplifier 10 receives a voltage applied to the resistor R ₃ and inverts and amplifies the data signal input to the non-inverting terminal. The signal of the amplified data is connected to the resistor R ₂ and ( adjusting an amplification gain of a resistance R _5), and are outputted to filter the data signal pulse to be output to the capacitor (C ₁₎ (C ₂₎ resistance (R ₆₎ resistors (R _5). On the other hand, the heavy amplifier data signal output from the operational amplifier 10 is input to the non-inverting terminal of the operational amplifier 20 constituting the comparator 4 and the inverting terminal of another operational amplifier 30 and the operational amplifier 20 The input of the inverting terminal and the non-inverting terminal of the operational amplifier 30 inputs a voltage obtained by dividing the positive voltage (V _CC ) into the resistor (R ₇ ) and the resistor (R ₈ ) and compares the data signal with the data signal. The signal output to the operational amplifier 20 and the signal output from another operational amplifier 30 are output as differential signals through the terminals 21 and 31 as differential signals, such as the RS-422 transmission method. In this case, the resistors R ₉ , R ₁₀ , and R ₁₁ are resistors that match the impedance of the transmission line.

On the other hand, if a data signal, i.e., a received differential signal, is input through the terminals 41 and 42, it passes through the input resistors R ₁₃ and R _{12 and} detects only a certain frequency by the threshold operation. The operational amplifier 40 The amplified signal is amplified and the output signal is amplified to increase the gain by adjusting the resistor (R ₁₄ ) (R ₁₅ ) and the increased data signal is the resistor (R ₁₆ ) and capacitor (C ₃ ). Is filtered out.

The operational amplifier 50 inputs the signal output from the operational amplifier 40 as the non-inverting terminal and outputs the non-inverted amplification. The high frequency signal included in the output signal of the operational amplifier 50 is the capacitor C ₄ . And a feedback through an inverting terminal through a resistor (R ₁₇ ) connected in series with the capacitor (C ₄ ) and input to the output resistor (R ₁₉ ), the data signal input to the resistor (R ₁₉ ) is the resistor (R). _By adjusting the resistance value of ₁₉ ), the received data signal is input to the receiving terminal (RX) of the rectifier circuit 82 according to the transmitting pulse side, so that the differential transmission like the RS-422 transmission method is used in the terminal using the RS-232C line method. In this way, day transmission can be performed up to medium distance.

FIG. 3 is a diagram showing the construction of the transmission between the data terminal A and the data terminal B according to the embodiment using the signal conversion circuit according to the present invention, which is different from the DTE (A) using the RS-232C transmission scheme. By connecting the signal converter of the present invention to the DTE (B) and transmitting and receiving the transmission signal between the DTE (A) and the DTE (B) as a difference signal, a difference signal such as the RS-422 method can be output and data can be transmitted to a medium distance. . Therefore, as described above, the signal output from the data terminal is transmitted as a difference signal like the RS-422 transmission method, rather than using the RS-232C transmission method, thereby reducing the labor costs and cost. .

Claims (1)

In the transmission method of a data terminal (DTE) using the RS-232C transmission method, a rectifying circuit for inputting a data signal and a control signal output from the data terminal (DTE) 1 and outputting a predetermined voltage and data signal ( 2) and the resistors R ₁ -R ₆ , the capacitors C ₁ -C ₂ , and the operational amplifiers so as to amplify and filter the detected data signals by inputting predetermined voltages and data signals output from the rectifier circuit 2. 10) a charge sensing amplifier 3 composed of a charge sensing amplifier 3 and a data signal output from the charge amplifier 3 as a comparison voltage, and a resistance for outputting the data signal as a difference signal by adjusting a transmission level by comparing with a reference voltage ( R ₇ -R ₈ ) and the comparator 4 composed of the operational amplifiers 20 and 30, and the received information signal is input to the threshold action to input the threshold signal by the threshold action. Detect at level and boost The high-frequency signal is fed back by inputting a level detector circuit 5 composed of a resistor R ₁₂ -R ₁₆ , a capacitor C ₂ , and an operational amplifier 40, and a signal output from the level detector circuit 5. And a resistor (R _17- R ₁₉ ), a capacitor (C ₄ ), and an operational amplifier (50) for amplifying the reception information signal so as to be synchronized with the transmission pulse to be input to the receiving terminal of the rectifier circuit (2). Signal conversion circuit.

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