DE2835549A1 - Remote control circuit for coded receivers - operates with direct modification of power supply waveform by positive and negative half-wave clipping - Google Patents

Abstract

The application is to the remote control of loads connected to an AC power supply. The necessary control signals for the loads(2, 3) are generated by clipping either the positive or negative half waves of the power supply in a predetermined pattern. A sensor(6) in the load circuit detects the wave sequence and switches the load(7) accordingly. The signal transmitter(1) may be linked with a zero cross-over detector(8) in order to operate with minimum losses. The waveshape modifications may be applied to either voltage or current components of the supply.

Description

Method for the transmission of information and device

to carry out the process to carry out the. process The The invention relates to a method as specified in the preamble of claim 1 Genus in which two lines to electrical apparatus have the same effect and information can be transmitted.

It is known to modulate pulses in effect supply lines, however, this requires complicated and expensive control devices. At a alternating voltage supply, it is from the British patent 1,341,025 known to reduce the amplitude of predetermined voltage half-waves and a detector device for half-waves with reduced amplitude. This prior art indicates the Mangi that the introduction of an additional load in the effect supply lines, which is large enough to allow a voltage reduction that can be detected in the detection circuits cause a reduction in the half-wave amplitude. With this amplitude reduction there is a great loss of effect, which in practice is the possible number connected electrical devices and the effect consumption of such devices sets the upper limit.

The purpose of the invention is to create a method that enables the transfer of information to a large number of electrical devices, possibly with large effect consumption, enables without doing anything worth mentioning electrical losses occur. This purpose is supported by that in the characterizing part of claim 1 specified measures that have the consequence that the effect supply is interrupted essentially at predetermined intervals. The lack of effect supply does not cause any difficulties in practice. As preferably interrupted at times and is closed, in which the current is close to zero, are also reactive Loads can be switched on.

The invention also relates to a system in the preamble of claim 2 specified genus for exercising the method.

The information is preferably provided from a central point, ie according to claim 2 from a selected control device, while the other electrical devices are set up to detect and receive the information contained in the half-wave pattern, with more than a single device can send information to other devices in this way. The device according to the invention has the features specified in the characterizing part of claim 2.

The invention is in particular in connection with a conventional alternating voltage network with sinusoidal voltage at 50 or 60 Hertz, where there is an effect supply line one neutral conductor, while the other effect supply line is the phase conductor is. In this case, claim 3 characterizes a preferred Ausfüiirungsform of system according to the invention, in which the phase line is essentially interrupted that the output voltage of the control device is among selected halves the mains voltage is approximately zero.

This embodiment also shows how few means of exercising the Invention suffice. This inventive device is therefore with little Effort can be produced.

Claim 4 identifies useful individual features of the invention Device whereby the signal reception detectable by means of a counter without Reduction of the effect simultaneously received by the device can take place. The invention is but not on the usual mains power supply limited, since the alternating current does not have to have a predetermined frequency needs to be periodic at all. If the information transfer speed is too small at 50 Hertz, a frequency converter can be switched on to control the supply current converts into a much higher frequency, which is in connection with the external Units of a data system can be advantageous.

The invention is explained in more detail below with reference to the drawing. 1 shows a first embodiment of the device according to the invention, FIG. 2 shows a control device according to the invention shown in FIG. 1 Device generating half-wave course, FIG. 3 shows another embodiment of the Control device, FIG. 4 shows a control device with the control device shown in FIG. 3 Half-wave course to be realized, FIG. 5 shows a further embodiment of the inventive Device with the possibility of information recirculation, and FIG. 6 schematically a general device for connecting other devices of the same type.

The device shown in Fig. 1 includes a control device 1, as well as units 2, 3 connected in parallel to this for receiving Effect as well as information on common lines 4, 5. The connected Units can, for example, have a detector circuit as shown in relation to unit 2 6 included, which responds to the information transmitted via the lines 4, 5 and depending on this the connection to the remaining, effect-absorbing part 7 of the Unit closes or interrupts.

The control device 1 contains according to the invention on the drawing schematically illustrated switching elements 9 for switching between two impedances R1 and R2, both for example with a together with a neutral line O to the Input of the control device guided phase line F are connected. The impedances According to the invention, R1 and R2 are set up in such a way that the phase signal is in the switch position of the switching element 9, the control device x passed almost unhindered while it is essentially interrupted in the other switching position.

The two switch positions are determined by means of a zero crossing detector circuit 8 reached, which is connected to the neutral or the phase line and used to control the Switching member 9 is set up, the switching arm with one output terminal of the Control device 1 is connected, while the other output terminal directly is connected to the neutral line.

With the help of the system shown in Fig. 1, for example voltage output signal shown in Fig. 2 of the control device 1 are generated, first two positive half-waves and then a single negative half-wave are away. This signal can indicate the current through the control device 1, However, under normal circumstances it can also change the output voltage of the control device represent. Accordingly, the detector circuits can be used to detect a current or a voltage. In the case of reactive loading, the current is detected expedient. Characteristic for control circuit 1 is a switchover between the two voltage signals causes S that in the control device 1 no appreciable loss of effect occurs.

To generate the signal curve shown in FIG. 2, the Zero Crossing Circuit 8 devices for detecting zero crossings in both Have directions. The circle 8 preferably contains counters for dividing the half-waves arriving from the mains lead. The meters are from an im depending on the preset code that causes the output of the control device 1 a signal with a predetermined RF wave pattern is generated.

A preferred master is that first at a first Polarity is interrupted during a half-wave, and that then a predetermined number of complete half-waves are allowed to pass, after which again during a half-wave with one of the polarity of the first-mentioned half-wave opposite polarity is interrupted. The detector devices are in this Case set up so that after detecting a missing half-wave of the first polarity count the number of complete half-waves until a half-wave leather opposite polarity is absent. The counters then give the predetermined number full half-waves. This pattern only has the advantage that the information is transmitted only the interruption of the effect supply with two half-waves result so that it has practically no influence on the transfer of effects.

The detector circuits 6 are thus for detecting the predetermined half-wave pattern and set up for comparison of the same with a reference pattern in circle 6. Shows the comparison is a match, the detector circuit 6 sends to the device part 7 from a control signal. The device part 7 can be an effect consuming apparatus be in connection with a circuit 6 controlled breaker or only consist of the controlled breaker and an external connection to an effect consuming one Have apparatus.

Fig. 3 shows another embodiment of a control device 10, for example to generate the output voltage shown in FIG. 4, where certain half-waves with negative polarity are essentially removed. The switching organs of the control device 10 consist of a zero crossing circuit switched according to the drawing 11, where 0 and F are the neutral and phase lines of any alternating current network, in particular denote a 220 volt network of 50 Hertz. District 11 is available for delivery a control signal to a controlled rectifier 12, which is essentially under specified + waves the phase line interrupts, so that the output voltage of the control device 10 mainly has the value zero for these half-waves. With regard to the controls of the rectifier 12 can be in the Control device 10 is a resistor (not shown) with high resistance in parallel connection be provided to the output terminals of the control device 10.

The control device contains a flyback diode for the supply current.

The control device according to FIG. 3 can, as already mentioned, in a Mains supply line, for example a conventional 220 volt line with a AC voltage of 50 Hertz be arranged. By encoding control information this can be emitted into the circuit 11 via the output lines 13, 14, with those in parallel units of the type mentioned in connection with FIG. 1 can be connected. These units can, for example, lamps in a relatively be large lighting system, the lamps of the centrally located control device 10 from the pattern encoded in the associated circuit 6 (see FIG. 1) accordingly can be switched on or off. With such a lighting system can each unit 2, 3 (Fig. 1) for example in a lightbulb socket or in one Intermediate piece for screwing in between a lightbulb and a standard lightbulb socket be arranged with the help of the inventive system is therefore with very little Effort a central control of a lighting system, for example in one Department store feasible.

The information speed is of course dependent on the supply frequency addicted. There may be circumstances where the invention is of great advantage can be used if the information speed can be increased. this is useful, for example, in a data system that uses multiple effects has external units which, depending on control information, or need to be turned off. The usual 50 Hertz mains voltage can be used for this purpose be converted into a frequency of, for example, 15kHz, which is adapted to that of control device dependent on the information from the central unit of the data system is transmitted. In this case, only the relevant inverter the outer units are modified according to the mentioned 15 kHz, after which from the output of the control device at high speed both effect how information can be received.

It is obvious that, apart from the examples already mentioned, the invention can be used for many different purposes, where effect-consuming units have to be controlled, in that a control line can be saved for them. According to the invention, this advantage can be achieved without problems with regard to the length of the effect and information-transmitting lines and with regard to a loss of effect in the control device. The invention is for example in traffic control systems, intercom systems, numerical machine tools, systems for the transfer Warning of work processes can be used.

Even if the supply frequency is not converted into high frequency the device according to the invention is very good with separate data information lines can be combined, which can transmit information at high speed. These Lines can therefore be reserved for the transmission of information at high speeds remain expedient, while the information that does not need to be transmitted quickly can be transmitted through the device according to the invention.

5 shows an embodiment of the device according to the invention in which the information from a main control device 15 is fed back to this will. There are three units with the lines carrying the effects and information 16, 17, 18 of the type mentioned (for example corresponding to the unit 2 in Fig. 2) connected. Fig. 5 also shows two units 19, 20, which not only on Address information from one or more upstream units but even for the units connected downstream in the return direction of the information Generate information. This can be achieved, for example, in that the unit 19 from a parallel coupling of a control device 10 according to FIG. 3 and a Unit 2 according to FIG. 2, the unit 2 either with the terminals 14, 13 or with the terminals 14, F can be connected. There is also a control connection between the device part 7 of the unit 2 and the zero passage circuit 11 the control device 10 is present. It can thereby be achieved that the unit 19 to units 17, 20, 18 and 15 (Fig. 5) and unit 20 to the units 18 and 15 transmit information. The switching elements of the unit 15 can also be so be set up so that the information direction is reversed, so that for example the unit 20 transmits information to the units 17, 19, 16 and 15.

6 shows a general circuit which can be used for sending and receiving information and is designed so that an information-transmitting system can be set up exclusively with the aid of this circuit, which at the same time serves to distribute the effect supply to the system. The circuit includes a partial circuit 21 as a detector circuit. This partial circle can correspond, for example, to circle 6 in FIG. 1 for detecting a predetermined half-wave pattern on lines F1 and 0, which represent the effect and data input of the circle. Data can possibly be read into circle 21 as well as read out from it, as indicated at D. The circle 21 controls a partial circle 22, which can correspond to the circle 7 in FIG. 1. With the aid of the partial circles 21 and 22, the circle shown in FIG. 6 can receive information via the effect supply lines F1 and 0. As already mentioned, the circle according to FIG. 6 can also send information and effects. This is achieved by the partial circuit 23, which is set up like the controlled rectifier 12 in FIG. 3 or, for example, can be a double controlled rectifier (triac). This will be of the line F2 (in relation to the neutral line) signals as in Fig.

2 or 4, which can be transmitted to the input F1 of other circuits corresponding to the circle shown in FIG. 6. The supply current in the line F2 is supplied from the line F1 via a connection through the partial circuit 22. This connection can either be permanent or take place via an interrupter in the partial circle 22 controlled by the partial circle 21. The interrupter interrupts the supply of effects to the apparatus which is contained in the partial circle 22 or externally connected to it and consumes effects. A flexible system that transmits information and effects can be set up with a circle here, as shown in FIG FE circle type is required of Informati w e22çic Informatl \ can receive.

Claims (4)

Claims ================ 1. Method for transmitting information between electrical devices that have at least two effect supply lines are connected to each other, through which a supply current with alternating current direction flows, due to the fact that the passage of current in the effect supply lines is completely or partially blocked under half-wave intervals, each of the the information to be transmitted is determined in time. 2. Plant for performing the method according to claim 1, with about at least two effect supply lines with interconnected electrical Devices, characterized in that at least one control device is provided, which contains switching elements, which depends on the to be introduced Information alternating high impedance and low impedance in series with Insert at least one of the effect supply lines. 3. System according to claim 2, wherein the one effect supply line a reference voltage leads, as a result of the fact that the switching elements at least one in series with the other effect supply line, controlled rectifier included. 4. Plant according to claim 2, characterized in that g e k e n n z e i c h n e t the control device is set up so that it falls below the high impedance introduces a half-wave at a first polarity, then the low one Impedance less than a given number of consecutive half-waves introduces, and then the high impedance under a half-wave with the polarity of introduces the first-mentioned half-wave of opposite polarity, and that the over the effect supply lines connected to the control device have a counter which counts the aforementioned, predetermined number of half-waves.