DE2353969A1 - PROTECTIVE CIRCUIT FOR DETECTING THE SIMULTANEOUS VOLTAGE SUPPLY TO TWO OPPOSITE ARRANGEMENTS - Google Patents

Description

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FPHN.6676 . . ".-.-..- ■ · DE / EVH.

10/11/73.

Protective clialtiing to detect the simultaneous supply of voltage on two opposing arrangements

The invention relates to a protection circuit to detect the simultaneous supply of voltage to two opposing arrangements, each with a static Switches are supplied with AC voltage, this circuit providing an authorization signal if the two Conversely working arrangements are not supplied with alternating voltage at the same time.

Arrangements that work in opposite directions mean arrangements that, for safety reasons, are never simultaneous have to work. There are e.g. the green traffic signals that regulate the plowing of vehicles at intersections, and whose simultaneous lighting means a 'great danger,

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Traffic signal control is becoming more and more static Circuit breakers of the triac type are used, which are operated by the signals supplied by an operating logic.

Despite all the precautions in choice and use the switch and the elements of the operating logic are internal faults in the operating logic or not in the switches completely excluded (by short circuit or interruption one or two transitions of a triac). These disturbances can cause the green signals to light up at the same time Result, whereby the illumination of a signal can be only partially or completely, depending on whether it is caused by a Half cycle or by both half cycles of the alternating voltage is effected.

The protective circuit has the task of detecting such dangerous situations and delivering an approval signal, if the voltage is not applied to these two traffic signals at the same time, and otherwise this approval signal to suppress. However, this circuit must be constructed in such a way that in the event of errors in the connections and / or in the Elements of this circuit secure the approval signal. is suppressed if the operating state of the switch conjures up a dangerous situation.

It is the object of the invention to provide a new structure. for such a protection circuit to provide when the traffic signals working in opposite directions (and more in general two oppositely working arrangements) can be fed with the help of static switches.

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According to the invention are in such a protective circuit two amplification paths are provided to which an authorization signal of a certain frequency is fed and the outputs of which are coupled to the protection circuit output, with two cascade-connected amplifiers in each amplification path are provided, and -the direct current supply of these two amplification paths for one of the amplification paths through a pair of supply voltage circuits, which two circuits with the terminals of one of the opposing arrangements actuating switch are connected, and "for the other amplification path by another pair of supply voltage circuits is supplied, which two circuits with the terminals of the switch actuating the other arrangement are connected, both supply voltage circuits of the respective pair having a rectifier in the input, for rectifying the positive half-cycles of the alternating voltage in a supply voltage circuit and for rectifying of the negative half-cycles in "of the other supply voltage circuit is connected, these two supply voltage circuits one or the other amplifier of the Feed the reinforcement path.

The invention is explained in more detail below with reference to the figures. It shows:

Fig. T, da3 circuit diagram of an inventive Protection circuit,

Fig. 2 is a table of the various states of the traffic signals and the switches.

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In FIG. 1, the protective circuit is used to detect the simultaneous lighting up of two green signals which work in opposite directions at intersections. These two green signals L ₁ and L ₂ are fed with the alternating voltage between the supply lines 1 and 2 via the switches S _{1 and S "(triacs).} Terminals 3 and k of switches S ₁ and S ₂ are connected to the line via the green signals L ₁ and L ». Terminals 5 and 6 are connected to line 2. In this example, the switches are triacs, ie a switch made of semiconductor material with PN junctions, which are effective for both positive and negative voltages and can be controlled on a control terminal. The switches S ₁ and Sp have the control terminals 7 and 8, which are connected to the logic unit 9 provided for controlling the traffic signals.

During normal operation, the logic unit 9 never delivers pulses which _{cause the two green signals L 1} and Lp to light up at the same time. But this situation can occur with certain errors in the logic unit. Errors can also occur in switches S ₁ and S ₂ . These errors (short circuit or interruption) can occur in one or the other PN junction or in both at the same time. If the logic unit or the switch malfunctions, both green signals L ₁ and L ₂ can light up at the same time, a green signal being fed by the positive half-cycles or the negative half-cycles of the AC voltage, or both. Anyway, it will light up at the same time

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because two basic signals L- and L _{2 are} viewed as a dangerous situation.

The protective circuit detects all combinations of states of the switches S ₁ and S ,, which conjure up a dangerous situation. The protective circuit generates between its two output terminals 10 and .11 an approval signal for the combinations of states that do not represent a hazardous situation, and suppresses this signal in a hazardous situation.

The table according to FIG. 2 shows all state combinations of switches S ₁ and Sp-.

The possible combinations of states are numbered from 1 to 16 in the first column. The second and third columns refer to the switch S -... The column a | relates to the PN transition, which can be used during the positive half-cycles of the alternating voltage, and column A _{1 to} the PN transition, which can conduct during the negative half-cycles. The symbols 1 and 0 in these columns indicate that the relevant PN junction is conducting or blocked. The fourth and fifth columns Al * and Ap indicate in the same way for the switch Sp the states of the PN transitions that can conduct during the positive and negative half-cycles. The columns L ₁ and L _? indicate the states of the green signals L 'and Lp. The symbol 0 indicates that no voltage is applied to a traffic signal (cancel); The symbol 1 indicates that a traffic signal is being supplied with voltage (it lights up). Here, no distinction is made between a voltage with positive and negative half-cycles and a voltage with exclusively positive or only negative half-cycles.

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In the last column S, the symbol 1 is a harmless one Combination of states for which the protective circuit sends an approval signal must deliver, and the symbol Ö indicates a hazardous situation for which the protective circuit provides the warning signal must suppress.

As shown in the table according to FIG. 2, the protective circuit must generate an authorization signal (S = 1) for the state scorabinat ions 1, 2, ..., - ■ 7, in which at least one of the two switches S ₁ and Sp is blocked for the positive and / or negative half-cycles of the AC voltage. The approval signal (S = θ) for the combinations of states 8, 9 »···» 16, in which the two switches are conducting, must be suppressed.

According to the invention, two amplification paths 12 and 13 are provided in the protective circuit according to FIG. 1, at the input of which an authorization signal of a certain frequency is applied, which signal is always present between the terminals 14 and 15. The exits of the two. Amplification paths 12 and 13 are coupled to the output terminals 10 and 11 of the protection circuit via a transformer 16 which has two primary windings 17 and 18 connected to the output of amplification paths 12 and 13, respectively, and a secondary winding 19 connected to terminals 10 and 11 is connected. Each amplification path 12 and 13 has two cascade-connected amplifiers 20 and 21, 22 and 23 which are coupled via a transformer 2k and 25, respectively. The direct current supply for the amplification path 12 takes place via the supply

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circuits 26 and 27 whose inputs are connected in parallel to terminals 3 txnd 5 of switch S ₁ (for terminal 3 directly and for terminal 5 via resistor 28 and 29, respectively). The direct current supply for the amplification path 13 takes place via the supply circuits 30 and 31 'whose inputs are connected in _{parallel to the terminals 4 and 6 of the switch S 2} (for terminal 4 directly and for terminal 6 via the resistor 28 and 29, respectively) . The supply circuits 26 and 27 each contain a rectifier 32 and 33. The rectifier of the circuit 26 serves to rectify the positive half-periods of the AC voltage, and the rectifier 33 of the circuit 27 is connected in such a way that it rectifies the negative half-periods Supply circuits 30 and 31, rectifiers 34 and 35, respectively, are provided. The rectifier 34 of the circuit 30 serves to rectify the positive half-cycles of the alternating voltage and the rectifier 35 of the circuit 31 serves to rectify the negative half-cycles. In the supply circuit 26, 27 »30 or 31, the rectifier 32, 33, 34 or 35 is connected to a smoothing circuit, which consists of the parallel connection of a Zener diode 36, 37» 38 or 39 and a capacitor 4o, 4i, 42 iizw. 43 exists. The DC voltages present at the outputs of the supply circuits 26 and 27 are fed to the supply terminals of the amplifier 20 and 21 of the amplification path 12, respectively. In the same way, the DC voltages at the outputs of the supply circuits 30 and 31 are fed to the supply circuits of the amplifier 22 and 32 of the amplification path 13, respectively. '

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In the protective circuit, the supply circuits 261 27f 30 and 31 perform the function of detectors of the state of the switches S ₁ and S ^. The two amplification paths 13 and 13 fulfill the task of a logic circuit which, according to the table in FIG. 2, allows the authorization signal to pass or not.

The supply circuit 26 supplies the amplifier with a supply voltage only when an alternating voltage with positive half-periods is present at the input, that is to say when the switch S ₁ is blocked during the positive half-periods. The supply circuit 27 supplies the amplifier with a supply voltage only when the switch S ₁ is blocked during the negative half-cycles. In the same way, the supply circuits 30 and 31 only supply a supply voltage to the amplifier 22 and 23, respectively, when the switch S 1 is blocked during the positive and negative half-cycles of the alternating voltage.

In the combinations of states _{1, 2} , ... 7 according to the table of FIG get tension. The approval signal applied to input terminals 14 and 15 of the protective circuit then reaches output terminals 10 and 11.

In the combinations of states 8, 91 · · · 16 according to the table according to FIG. 2, the two switches S _{1 and S 1 are} during at least one of the two half cycles of the alternating voltage

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conductive so that at least one of the amplifiers of the two Amplification paths 12 and 13 get no supply voltage. In this case the two amplification paths are 12 and 13 blocked and the approval signal is suppressed. .

The protective circuit according to Fig, t corresponds to optimal Otherwise the safety rule that errors in the connections or elements trigger the suppression of the approval signal can, but in any case it is prevented that in one of the dangerous combinations of states 8, 9 ».. # 16 the suppression is omitted. In general, it is believed that the malfunction of the elements that are under consideration must, for PN junctions and for the capacitors through a short circuit or through an interruption and for resistors and transformer winding through an interruption caused. The two amplification paths 12 and 13 between the input 14 and 15 and the output 10 and 11, respectively the protective circuit are designed in accordance with the aforementioned safety rule

Each of the amplifiers can be implemented in the manner indicated for amplifier 20 in FIG. He contains a transistor 44, whose base via the resistor 45 to the input terminal 15, whose emitter to the Input terminal 14 and with the supply terminal - and its Collector with the supply cycle time_ + via the resistor 46 and the primary winding of the transformer 24 is connected. The resistor 45 limits the current at the input of the amplifier 20 so that if this transistor malfunctions, the

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Approval signal to the amplifier 21 practically, not transmitted will. Resistor 46 limits the collector current in transistor 44. Between the terminals of the primary winding of the transformer 24, the diode 47 is connected to avoid overvoltages, which could potentially damage transistor 44. Malfunction in one of the elements of the Amplifier 20 leads to the suppression of the approval signal in the amplification path. The approval signal on the output terminals 10 and 11 are then immediately suppressed if the Green signal L ^ is switched on, or is interrupted as soon as the green signal L "is switched on.

The supply circuits 26, 27 and 30, 31 are also carried out in accordance with the safety measure mentioned. In the event of an interruption or short circuit in the rectifier 32 in the supply circuit 26 or in the event of a short circuit in the capacitor 40 or the Zener diode 36, the Amplifier 20 is no longer supplied and the approval signal in amplification path 12 suppressed. When the Zener diode 36 or the capacitor 4o is interrupted, the amplifier becomes fed differently and may possibly be in operation, but in this case the supply circuit fulfills 26 as before, the detector function for the state of switch S.

* The approval signal at the input of the protection circuit can be a sinusoidal alternating voltage, but also a pulse-shaped one Be signal.

In a street crossing point '"with several couples traffic signals working in opposite directions is the number of

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Protection circuits equal to the number of these pairs. It is then beneficial for safety, these- protective circuits in cascade to create a protection arrangement with just one Input and only one output for the approval signal to build. . '

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Claims (1)

- 12 - FPHN.6676. 10/11/73. PATENT CLAIMS: 1 »J Protection circuit to detect the simultaneous Voltage supply to two oppositely working arrangements, which are each supplied with AC voltage via a static switch, this circuit giving an authorization signal delivers when the two oppositely working arrangements AC voltage is not supplied at the same time, characterized in that two amplification paths are provided, which are supplied with an authorization signal of a certain frequency and their outputs with the protection circuit output are coupled, with two cascaded in each amplification path Amplifiers are provided, and the direct current supply of these two amplification paths for one of the strengthening paths through a pair of supply voltage switching devices, which both circuits are connected to the terminals of the switch actuating one of the opposing arrangements, and for the other amplification path by a different pair of supply voltage circuits is supplied, which two circuits with the terminals of the actuating the other arrangement Switch are connected, both supply voltage circuits of the respective pair in the input a rectifier have, for rectifying the positive half-cycles of the AC voltage in a supply voltage circuit and of the negative half-cycles is connected in the other supply voltage circuit, these two supply voltage circuits feed one or the other amplifier of the amplification path » 409821/0768 ~ i? - FPHN.6676. 10/11/73. 2, circuit according to claim. 1, characterized in that that every "amplifier contains a transistor whose base 3 to an input terminal of the amplifier, the emitter of which to the other input terminal of the amplifier as well as to a supply terminal and its collector via a primary winding of a Coupling transformer is connected to the other supply terminal. 409 821/076 8