CS214919B1 - Connection of modulation and demodulation circuits for bidirectional serial simplex transmission of power supply line between main and secondary - Google Patents

Abstract

The invention solves the connection of modulation and demodulation circuits for bidirectional serial simplex transmission of information via a power line between the main and secondary device, for example between a digital measuring instrument and its external display and control unit. The transmission of information is based on the interruption of the supply current. The power part of the main and secondary modulator consists of a switching transistor connected in series with a diode, placed in the power line for powering the secondary device from the power supply in the main device. The main demodulator consists of a sensing transistor that senses the voltage drop across the switching transistor and diode, i.e. evaluates the magnitude of the current through the switch. The sensing transistor of the secondary demodulator senses the voltage on the power line. In the main modulator, a damping transistor is connected parallel to the power supply line, which damps transients in the line when the main switching transistor is turned off. The connection is suitable for cases where the supply current of the secondary device does not exceed several hundred mA and the supply voltage is in the range of 5 V to several tens of V.

Description

2

It is an object of the present invention to provide modulation and demodulation circuits for a two-way serial simplex transmission of information and power lines between the main and the larger devices based on the intermittent and current flow.

The problem of transmitting information between the master and the downstream device, for example the digital meter and its external display, is usually solved by one-way separate wires. If the additional device is supplied from the mains power supply, the power lines are separated from the data transmission wires. In circumstances where circumstances require, the power lines are transmitted so that they are modulated to the high frequency carrier. Such a solution requires, in the main, the auxiliary equipment for generating a sufficiently stable frequency and its coupling to power lines, modulation and demodulation circuits, and is rather complex. In addition, there are problems with beam carrier and radio and television interference.

The above disadvantages are eliminated by the connection of the modulation and demodulation circuits with a pre-directional series simplex transmission of information by the power supply line according to the invention, based on the interruption of the power supply. The principle is that the power supply of the positive potential side device is connected directly to the positive the main power supply source output, while the negative power supply lead is connected to the negative output of the main device power supply via a diode and a main modulator main transistor consisting of an upper exciter, a lower excitation transistor, a damping transistor, a first resistor, a second resistor resistor, third resistor and fourth resistor connected such that the serial output of the main device is connected via a first resistor to the base of the upper excitation transistor and via a second resistor to the base of the lower wake transistor, collector of the upper excitation transistor ore is through a third resistor coupled to a damping transistor, which collector-emitter transistor is coupled to the intermediate and negative supply conductors of the sub-device, wherein the collector is coupled to the negative and emitter to the positive conductor, the collector of the lower excitation transistor is connected to the base of the main modulation transistor and through the fourth resistor to the positive pole of the power supply of the main device, the emitters of the main drive transistor, the lower drive transistor, the main modulation transistor, are connected to the negative pole of the power supply of the main device, the main modulator transistor is connected to a cathode of the diode whose data is connected to the negative power lead, the further serial input of the main device is connected to a collector of the main transistor transistor, the base of which is connected via a fifth resistor to the negative supply conductor, the collector is connected via the sixth resistor and the emito r to the negative pole of the source device, the negative power supply of the bypass device is connected directly to the negative supply conductor, while the current supply line of the sub-device is to the positive supply conductor connected through the collector-emitter transition of the sub-modulation transistor and through the separator a diode, wherein the anode of the separating diode is coupled to a positive power conductor and its cathode connected to a sub modulator emitter of a sub-modulator, further comprising an excitation transistor, a resistor, a twelfth resistor, a tri-resistor connected so that the serial output of the sub-device is over two a sixth resistor coupled to the base excitation transistor, which is connected via the eleventh resistor to the cathode of the resistor diode, and the emitter of the sub modulation transistor, the emitter of the excitation transistor is connected to the negative supply conductor and its collector is via the thirteenth resistor coupled to the side of the modulation transistor, the serial input of the secondary device is connected to the collector of the output transistor of the secondary demodulator, which further consists of a secondary transistor, a separating transistor, a seventh resistor, an eighth resistor, a ninth resistor of the tenth resistor, so connected that the base output transistor is coupled to a side scan transistor coaxial, wherein the output transistor base is simultaneously through the ninth resistor connected to the positive power supply of the downstream device, and the coil of the output transistor is at the same time a sixty resistor connected to the positive power supply of the downstream device, the base sensor transistor is a seventh resistor coupled to the positive power conductor, the emitter of the transducer side transistor is on the negative supply conductor connected through the collector-emitter transition transistor, the base of which is connected from the eighth resistor to the serial output of the secondary device, wherein a storage and filter condenser is connected between the positive and negative power supply of the secondary device.

The main advantage of the circuitry according to the invention is that there is a wide range of power supply voltage variations and resistance tolerances and, unlike high frequency modulation and demodulation circuits, contains no inductances.

1 shows a circuit diagram of the main modulator and demodulator circuits, FIG. 2 shows the circuit diagram of the auxiliary modulator and demodulator circuits. 3

The auxiliary devices 28, for example the external digital display, are powered from the mains power supply device 1, for example a number meter, a positive + and a negative power lead. The positive solder wire is connected directly to the + H positive output of the power supply of the main device 1, while the negative power lead is connected to the negative output - H of the main device power supply 1 via the diode 9 and the collector-emitter transition of the main modulating transistor 10, the main power supply. controller. The main modulator further comprises an upper excitation transistor 4, a lower wake-up transistor 7, a damping transistor 8, a first resistor 2, a second resistor 3, a third resistor S and a fourth resistor 6 connected such that the damping transistor 8 is controlled from the serial output the main device 1 through the transistor 4 and the main modulation transistor 10 through the lower drive transistor 7. When the L-signal logic level is on the serial output, the lower excitation transistor 7 is closed and the main modulation transistor 10 is open so that the bypass circuit is energized. the device is closed and the solder current flows. The upper excitation transistor 4 as well as the damping transistor 8 are closed at that time. In the H signal state at the serial output of the main device, the state of the main modulator transistors is reversed, so that the on-circuit is interrupted and the transistor 8 damped by its transition. the collector-emitter shortens the power wires. This achieves the suppression of the transient phenomena on the power supply and ensures faultless evaluation of the non-current state of the line by the sub-modulator. The sub demodulator consists of a sub-transistor 15, a decoupling transistor 16, an output transistor 19, a seventh resistor 14, an eighth resistor 17, a ninth resistor 18, and a decoder 20 connected such that a sub sensing transistor 15 across the seventh resistor 14 senses the voltage level on the supply conductors, its collector is connected to the base of the output transistor 19 connected as an inverter, the emitter of the transducer 16 being connected to the negative supply conductor via the collector-emitter transistor transition 16. the circuit closed, the supply voltage of the main device source 1 being present on the supply conductors only reduced by the loss on the main modulation transistor 10, the diode 9a on the supply line. The transducer 15 is open at that time, so the level input of the secondary device is og. At the time of data reception, the by-stream output of the sub-device 28 is non-active, it is level H, so that the splitter 16 is open. Upon interruption of the feed current, the voltage at the power wires will be zero and at the serial input of the downstream device 28, the logic level L will be at the time of transmitting the data from the slave 28 to the main device 1, for example, to transmit control commands or trigger measurements. the serial output of the next device controls the operation of the more modulator. The side modulator consists of transistors of a modulation transistor 24, an excitation transistor 26, an eleventh resistor 22, a twelfth resistor 23, and a thirteenth resistor 25 connected so that the transistor 26 actuates a secondary transistor 24 through its thirteenth resistor 25. When is the serial output of the bypass device 28 in the state H, the remote transistor 26 is open and the power supply circuit is closed via the open secondary transistor 24. In the state L of the serial output of the sub-device 28 the transistors 24, 26 are the modulator side and the supply circuit is interrupted. In the present state, the accumulator and filter condenser 27 are provided to supply the bypass device, the separating diode 21 being separated from the positive supply conductor, which is then shorted to the negative supply conductor by the main transistor 8 of the main modulator. At the same time, the demodulator separator transistor 16 is closed. At the time when the power circuit is closed, the main sensing transistor 12 of the main demodulator and is open because the current from the source represented by the voltage drop on the main modulation transistor 10 and the diode 9 is sufficient to build it up. There is a logical level on the serial master device at that time. Upon interruption of the supply circuit by the side modulator side modulating transistors 24, the main transistor 12 is closed because the transistor 8 is closed at that time, due to the current interruption, there will be no loss of voltage and main base current on the main modulator transistor 10 and diode 9 the transistor 12 cannot flow through the secondary transducer 15 of the secondary demodulator, since at that time the transistor 16 is closed. Thus, the serial input of the master device 1 will be H.

The connection according to the invention is advantageous in cases where the power supply of the bypass device does not exceed a few hundreds of rhAa and the supply voltage is in the range of 5 to several tens of V. It allows a very simple connection-side device, for example an external digital display equipped with control elements, with a main device, such as a digital measuring device, and a few hundred meters long twisted-pair cable, after which two-way information transfer is provided in addition to the auxiliary equipment being sold. The simple modulation and demodulation circuits allow "transmission of information, for example, the measurement result, from the main device to the downstream side, or the wrong transmission, e.g.

Claims (1)

4 commands, from the main device to the secondary device. Wiring enables the main power supply to be switched off and the power switch in the sub-grid. , only connected directly to the positive output (+ H) of the power supply of the main device (1), while the power lead with the negative potential is connected to the negative output (HH) of the main device (1) via a diode (9) and a transistor (10) of a main modulator further comprising an upper excitation transistor (4), a lower excitation transistor (7), a damping transistor (8), a first resistor (2), a second resistor (3), a third resistor ( 5) and a fourth resistor (6) connected such that the serial output of the main device is via the first resistor (2) connected to the base of the upper excitation transistor (4) and via the second resistor (3) to the base exciting transistor (7), the collector-up excitation transistor (4) is the third resistor (5) connected to the base of the quenching transistor (8) whose collector-emitter transition is coupled between the positive and negative supply conductors of the sub-device (28), wherein the collector is connected to the negative and emitter to the positive conductors, the collector of the lower excitation transistor (7) is connected to the base of the main modulating transistor (10) and via a fourth resistor (6) to the positive pole (+ H) of the main power supply source (i), the emitters of the main drive transistor (4), the lower drive transistor (7), the main modulating transistor (10) are connected to the negative pole (HH) of the power supply of the main device (1), the collector of the main modulation transistor (10) being connected to the cathode of the diode (9) whose anode is connected to the negative power lead furthermore, the serial input of the main device connected to the collector of the main sensing transistor (12), the base of which is connected to the negative supply conductor via a fifth resistor (11), is connected to the positive and emitter via the sixth resistor (13) the main device (1), the negative power supply (—V) of the secondary device (28) is connected directly to the negative power supply conductor, yet. positive if the control input of the main power supply is connected to the output of the main modulator via a suitable rated RC filter element. A solder lead is fed out + In the bypass device (28), a collector-emitter transition junction (24) is connected to the positive power lead, and through the separation diode (21), where the lead-in anode (21) is connected to the positive power lead and its cathode is coupled to an emitter of an additional modulator transistor (24), which further comprises an excitation transistor (26), an eleven resistor (22), a twelfth resistor (23), and a tri-resistor (25) connected that the serial output of the secondary device (28) is a twelfth resistor (23) connected to a base building transistor (26) which is further connected to the cathode of the separating diode (21) and the emitter of the secondary modulating transistor. (24), the emitter transistor (26) is coupled to the negative supply conductor and its collector is connected via a thirteenth resistor (25) to the next modulation transistor (24), furthermore, the serial input of the bypass device (28) is connected to a collector of the output demodulator transistor (19), which further consists of a side transistor (15), a separator transistor (16), a seventh resistor (14), an eight-way (17) , a ninth resistor (18) and a resistive resistor (20) connected such that the base output transistor (19) is coupled to a side scan transistor (15) collector, the base of the output transistor (19) being simultaneously via the ninth resistor (18) at connected to the positive power supply (+ V) of the bypass device (28) and the collector of the output transistor (19) being simultaneously the sixth resistance (20) connected also by the feed power supply (+ V) of the bypass device (28); the transistor (15) is connected via a seventh resistor (14) to a positive power conductor, the emitter sensing transistor (15) is a negative power conductor connected via a transistor emitter collector a separating transistor (16), the base of which is connected via a cross-resistor (17) to a serial output of a secondary device (28), wherein a storage accumulator is connected in parallel between the positive (+ V) and the negative (-V) power supply devices. and a filter capacitor (27). 2 drawings