DE4438836A1 - Circuit arrangement - Google Patents

Abstract

Circuit arrangement for transmitting binary signals (signal message) by means of a two-wire databus (2) to which a voltage supply device (1) and a number of peripheral subscribers (3, 4) are connected. To extend the possibilities of use and to improve the reliability of such a data exchange circuit, it is provided that the voltage supply device (1) has a voltage source (7) with the output voltage UO and a series resistor Rv which are dimensioned in such a manner that, on the one hand, the switching elements SE1, SE2 produce a sufficiently high internal impedance and, on the other hand, a sufficient number of subscribers (3, 4) can be connected, each subscriber (3, 4) being connected to the databus (2) via a bridge rectifier GL1, GL2. <IMAGE>

Description

The invention relates to a circuit arrangement according to the Preamble of claim 1.

Such a circuit arrangement is from DE-OS 39 07 652 known. It is intended that several participants obtain their operating energy via a two-wire bus, as well as exchange data with each other. Mains-supplied participants mer cannot be connected. Another disadvantage is indicates that an incorrectly polarized connection of a subscriber to the Bus lines at least if the power supply fails this participant leads. The known system works in Ba sisband, that is, for the transmission of a telegram the Voltage on the bus according to the bit pattern of the over carrying information short-circuited (modulated). This is it required the voltage source of the circuit arrangement to be interpreted accordingly as "soft", that is to say with high impedance. These Demand is for the transmission of very low data rates against the necessary interference immunity with considerable circuitry technical effort connected. Building the voltage supplier supply assembly according to the above-mentioned DE-OS is also with the  Disadvantageous that even without a participant on the bus Voltage source is constantly taking a high current.

Due to a fixed reference it can happen that the Send telegram no longer digital, at least in sections can be settled. That is the case when the inside resists the voltage source is too low or that of the switch element in the transmitter is too large, so that the voltage on the Bus no longer pulled down until the "LOW" level was recognized can be gen.

The object of the invention is to overcome these disadvantages eliminate and specify a circuit arrangement, the following Features include:

• 1. A data exchange is also between the participants reversed bus connection lines possible,
• 2. Both bus-supplied and network-supplied participants can be operated on the bus,
• 3. greatest possible immunity and
• 4. simple and therefore inexpensive construction and
• 5. Secure data reconstruction even with different Number of participants.

According to the invention the task is characterized by Features of claim 1 solved. In this way, the desired internal resistance of the voltage source by means of a Set inexpensive component Rv. The bridge level judge GL1, GL2, which is usually used to rectify AC voltage is used, enables a connection the two-wire data bus without considering one Polarity.

The features of claim 2 ensure that only if necessary, current is drawn from the voltage supply becomes.

According to Claim 3 also includes the degree of expansion of the overall system become. This ensures that as a result of closing a switching element SE1, SE2 of a first participant second participant regi a voltage different from zero strictly. This results from the forward voltage of the assigned bridge rectifiers GL1 and GL2 and the voltage drop a protective resistor connected upstream of the switching element SE1, SE2 stand R1.

To be clear, corresponding to the signal telegram sent To obtain levels, the features of claim 4 are provided hen. Even with different voltage levels on the bus, for example due to changing numbers of participants through the pulse shape level with the help of the sliding re a safe data reconstruction.  

The temporal formation of the moving reference value U- corresponds chend claim 5 causes the effects of the specimen Scattering of the components can be greatly reduced and he required dynamics of the transmitter, especially with regard to the Demands on the switching elements SE1, SE2, become smaller.

To briefly disturb the transmitted telegram on the bus to suppress, the features of claim 6 are provided.

A further improvement in immunity is with the help of Hysteresis assembly according to claim 7 achieved.

The voltage limiting assembly R7, D5 according to claim 8 ensures that the output voltage on for the nachge switched controller permissible values is limited.

The embodiment according to claim 9 provides that netzver catered and bus-supplied participants (type A and type B) mixed operated on the bus. The function of the above Components remain unchanged.

The bus-supplied participants can claim the features of the claim Have 10, which is a simple and therefore inexpensive permanent structure results.

The mixed assembly according to claim 11 has, in particular for a heating system, the advantage that both participants with low power consumption (type B) as well as network-connected part devices (type A) can be connected without any problems. By  the bus supply can be separate for Type B devices Saving energy supply, for example via batteries. At the same time, any necessary ones are unnecessary additional lines. With network-connected participants the expansion options of the overall system are not included limits, since these type A participants not worth mentioning the bus strain.

An exemplary embodiment of the invention is described below a drawing explained in more detail.

Show it:

Fig. 1 shows an embodiment of a circuit arrangement according to the invention and

Fig. 2 associated waveforms.

The circuit shown in FIG. 1 essentially links a voltage supply device 1 via a data bus 2 to a plurality of separate subscribers 3 , 4 , two of which are shown. The data exchange between the participants 3 and 4 takes place via two wires 5 and 6 of the data bus 2 , the two wires 5 and 6 being connected to a voltage source 7 with a series resistor Rv. The series resistor Rv and the output voltage U0 of the voltage source 7 are dimensioned in such a way that, on the one hand, there is a sufficiently high internal resistance for switching elements SE1, SE2 and, on the other hand, a sufficient number of subscribers 3 , 4 . . . can be connected. A downstream regulator Reg 1 limits the idle voltage on the bus to the defined value UBus. Fig. 1 shows the basic structure of a network-supplied subscriber 3 (type A) and a bus-supplied subscriber 4 (type B). Both participants 3 and 4 are each connected to data bus 2 via a bridge rectifier GL1 and GL2. It does not matter which wire 5 or 6 of the data bus 2 to which connection line 8 or 9 or 8 'or 9 ' of the subscriber 3 or 4 is connected. Wrong polarity is not possible. To generate a signal telegram with a corresponding bit pattern, each subscriber 3 and 4 contains an electronic switch SE1 or SE2, which is controlled by a controller 10 or 10 '. When the electronic switch SE1 of a participant 3 is closed , the other participant 4 does not register zero volts, but rather a voltage higher by the forward voltage of the two bridge rectifiers GL1 and GL2 and a voltage drop in a protective resistor R1 connected in series with the switch SE1. In order to nevertheless obtain clear levels corresponding to the transmitted telegram, a pulse form stage OP, R2, R3, R4, R5, R7, R8, D5, C1, C2 is provided. This forms the voltage curve U + by comparison with a sliding reference value U- into an output signal Ua and also effects its limitation.

Fig. 2 shows the binary character of the output voltage Ua in the lower curve and the formation of this signal curve from the larger-smaller comparison by means of the operational amplifier OP between the voltage curve U + of the received signal telegram and the sliding reference value U-. It is evident, that with a systematic reduction of the U + mean in the curve section 11 , the reference voltage U-is also reduced. This sliding reference value U- ensures that the telegram voltage U + received and the reference value U- is in an order of magnitude even in the event of a significant "dip" between the LOW level 12 or 12 'and the high level 13 or 13' lies.

A fixed reference value 14 is also shown in dashed lines. It can be clearly seen that from a point in time tx with a fixed reference value 14, data evaluation would no longer be possible, since the high level 13 'lies below the fixed reference value 14 .

The circuitry representation of the sliding reference value U- is shown in FIG. 1. For this purpose, a voltage divider low-pass module R2, R3, C1 with a relatively large time constant T1 is provided. This assembly R2, R3, C1 is part of the pulse shape stage OP, R2, R3, R4, R5, R7, R8, D5, C1, C2. The resulting reference value U- is proportional to the long-term mean value of the received telegram voltage U +.

The voltage curve U + is laid out to be less susceptible to interference by means of low-pass filtering with a relatively low time constant T2. Short-term disturbances are suppressed if:
T1 »T2.

By wiring the non-inverting input of the Operational amplifier OP with the resistors R4 and R5  a hysteresis curve of the output voltage Ua is reached, whereby there is an additional increase in immunity.

The output of the operational amplifier OP is connected downstream of a resistor R7 which, together with the diode D5, limits the output voltage Ua in such a way that an input RxD of the controller 10 is subjected to a permissible voltage.

Another improvement in immunity is by ge Appropriate software measures, for example by defining them a sampling rate that is significantly greater than the data rate, and by fuzzy limits for the assignment of the emp catch signal to the low or high states possible.

By using the pulse form stage OP, R2, R3, R4, R5, R7, R8, D5, C1, C2 it may even be possible to do without the voltage regulator Reg 1 of module 1 .

The mains-supplied type A subscriber 3 and the bus-supplied type B subscriber 4 have essentially the same structure and the same function. The bus-supplied subscriber 4 contains its own voltage regulator Reg 2 , while the mains-supplied subscriber 3 is supplied with a voltage 41 and has a regulator Reg 3 . For energy storage, a storage element in the form of a capacitor C3 is provided in the bus-supplied subscriber 4 , which can be connected to a series resistor for limiting the charging current. The capacitor C3 is decoupled from the data bus 2 in the usual way by a diode D6.

The invention is not limited to the above written embodiment. Rather is a number of Variants conceivable, even with fundamentally different types Execution make use of the features of the invention. The applies in particular to the use of integrated components, which are the discrete components of the illustrated circuit can replace.

Claims (11)

1. Circuit arrangement for transmitting binary signals (signal telegram) between a plurality of peripheral subscribers ( 3 , 4 ) connected to a two-wire data bus ( 2 ), which transmit switches (SE1, SE2) have a voltage on the data bus ( 2 ) Source ( 7 ) with a series resistor (Rv) is ruled out, characterized in that the output voltage (Uo) from the voltage source ( 7 ) and its series resistor (Rv) are dimensioned in such a way that, on the one hand, one for the transmitter switches (SE1, SE2 ) Sufficiently high internal resistance results and, on the other hand, via a bridge rectifier (GL1, GL2), a sufficient number of subscribers ( 3 , 4 ) can be connected to the power supply as a subscriber ( 3 ) (type A) and / or as a bus-supplied subscriber ( 4 ) (Type B) are formed, where in bus-supplied participants ( 4 ) a voltage regulator (Reg 2) energy storage module with a capacitor (C3) and possibly a series Resist to limit the La destrome. 2. Circuit arrangement according to claim 1, characterized in that the voltage supply device ( 1 ) further comprises a voltage regulator Reg 1, which limits the output voltage Uo to a defined voltage value UBus. 3. Circuit arrangement according to claim 2, characterized characterized in that the voltage value Uo un taking into account the maximum possible Number of participants is fixed. 4. Circuit arrangement according to one of the preceding claims, characterized in that each participant ( 3 , 4 ) has a pulse shape stage OP, R2, R3, R4, R5, R7, R8, D5, C1, C2, which has the voltage curve U + one received signal telegram is converted into a "high-low curve" by comparison with a "sliding" reference value U-, the reference value U- being proportional to a long-term mean value of the voltage U +. 5. Circuit arrangement according to claim 4, characterized characterized in that the pulse shape stage OP, R2, R3, R4, R5, R7, R8, D5, C1, C2 a chip voltage divider low-pass module R2, R3, C1 with of the time constant T1 has their dimensions the time course of the same tendency reference value U- determined. 6. Circuit arrangement according to claim 5, characterized characterized in that the pulse shape stage OP, R2, R3, R4, R5, R7, R8, D5, C1, C2 a low pass module with the time constant T2, which the voltage curve U + of the received Signal telegram determined, where T1 » T2. 7. Circuit arrangement according to one of the claims 4 to 6, characterized in that the Ope ration amplifier OP of the pulse shape stage OP, R2, R3, R4, R5, R7, R8, D5, C1, C2 with one Hysteresis module R5, R4 is connected. 8. Circuit arrangement according to one of claims 4 to 7, characterized in that the output from the operational amplifier OP is wired with a voltage limiting module R7, D5, the output of the operational amplifier OP via R7 having an RxD input of a controller ( 10 , 10 ') and via an R7-D5 chain to a Vdd input of the control ler ( 10 , 10 '). 9. Circuit arrangement according to one of the preceding claims, characterized in that the participants ( 3 , 4 ) with regard to the voltage supply as a network-supplied subscriber ( 3 ) (type A) and / or as a bus-supplied subscriber ( 4 ) (type B) are. 10. Circuit arrangement according to claim 9, characterized in that bus-supplied participants ( 4 ) have a voltage regulator Reg2-Energiespei cher module with a capacitor C3 and optionally a series resistor to limit the charging current. 11. Circuit arrangement according to one of the preceding claims, characterized by use in a modular temperature control system of a heating system, busver-provided subscribers ( 4 ), for example room temperature controllers, and mains-powered subscribers ( 3 ), for example boilers and pumps, are provided.