DE19856952A1 - Coding device - Google Patents

Abstract

The invention relates to a coding insert for automatically adjusting a control device (2) to the respective functional requirements of different devices that can be connected to it, in which when the control device (2) and device are connected by means of at least one pair of resistors (R1, R3; R2, R4) from one the coding resistor (R1, R2) assigned to the device, which has a different resistance value depending on the device, and from a series resistor (R3, R4) assigned to the control device (2), which has a fixed resistance value independent of the device, a device designating the respective device Voltage value of a predetermined number of voltage values is set, which is converted into a corresponding digital voltage value by means of an analog / digital converter. A simple structure and simple handling with diverse control options are achieved in that the control device has at least two processors, in that the respective voltage value is assigned to a voltage range of a correspondingly large predetermined number of voltage ranges, and that each voltage range is assigned a dual code number, the number of digits of which the predetermined number of voltage ranges is determined, and that the bit numbers of the code number are assigned individually or in groups to the individual processors (P1, P2, P3).

Description

State of the art

The invention relates to a coding device for automatic on position of a control device on the respective functional requirements connectable different devices, when connecting control device and device by means of at least one pair of resistors from one the coding resistor assigned to the device, which, depending on the device, has a value below has different resistance, and from one of the control device assigned series resistor, which has a fixed Wi has a voltage value that designates the respective device a predetermined number of voltage values is set by means of an analog / digital converter into a corresponding digital voltage value is implemented.

Such a coding device is in connection with a control unit direction of a motor vehicle specified in US 4,623,976. With this be known coding device, a coding resistor is attached to the vehicle, which has one of several predefined values, which for each under different vehicle equipment are characteristic. On the part of the tax  device is a fixed series resistor arranged via a plug Direction with the coding resistor can be connected to each current voltage divider to form, the voltage value of the corresponding driving called equipment and provided in the control device Microprocessor causes parameters corresponding to the vehicle equipment read out from a table to the different vehicle equipment to meet adjusted tax requirements. To provide the respective Voltage value is a regulated voltage supply to the resistor pair of coding resistor and series resistor. The tension value is converted into a digital voltage value by means of an analog / digital converter implemented. When the control circuit board is replaced, the control device is thus always ensures that the new control device that of the respective Vehicle equipment corresponding functional requirements after connecting the connector arrangement is fulfilled without further measures for adaptation required are.

The invention has for its object a coding device of the beginning Provide specified type, which is simple in construction and simple Handling even more diverse control functions.

This object is achieved with the features of claim 1. After that is provided that the control device has at least two processors, that the respective voltage value corresponds to a voltage range large predetermined number of voltage ranges is assigned that a dual code number is assigned to each voltage range, its digits number is determined by the predetermined number of voltage ranges, and that the bit numbers of the code number individually or in groups each Processors are assigned.  

With the at least two processors, the control functions can be under divide differently and in particular also increased functional reliability achieve by assigning important functions to both processors, while less important functions are split between the two processors can be. It would be conceivable for the coding of such a control device device with several processors, the different processors Assign plug / coupling arrangements for coding. The measures of claim 1 for providing a code number and bit allocation Numbers for the individual processors, however, result in a simplified order construction and easy handling, the same bit numbers also from multiple processors can be used.

With the measures that m pairs of resistors are provided, with each of which n voltage values that are equally spaced apart can be determined by appropriate selection of the respective coding resistor, a number of n ^m voltage ranges or digital voltage values can be generated, the number of digits being the code number results from this number.

It is envisaged that each pair of resistors will have an input to each processor is connected and that the selection is assigned to the respective processor Bit numbers and their control and function assignment in the Pro cessors, there is a simple way to change the bit numbers Assign processors, with each processor assigning all bit numbers are available and therefore require different bit numbers if necessary can be used by several processors for the control nen.  

With the measures that two pairs of resistors are provided, with sixteen different resistance values being provided for coding for each of the two coding resistors, the result is a number of 16 ² = 256 voltage values, ie the corresponding code number has a digit number of 8 bits, which depends on Functional requirements to be fulfilled by the individual processors can be divided among these. The entire available voltage range is divided by the two pairs of resistors each into sixteen individual voltage ranges, so that relatively large individual voltage ranges and thus a relatively large interference safety result.

To increase the immunity to interference, for example, three pairs of resistors with eight individual voltage ranges each could be provided (resulting in 8 ³ voltage values), the mechanical structure being somewhat increased. Conversely, if a lower level of interference immunity was accepted, only one pair of resistors could be provided, with a coding corresponding to a number of resistance values corresponding to the required number of digital voltage values.

A favorable structure of the coding device is that the resistor Pairs of a connector coupling arrangement are assigned.

An advantageous possible use of the coding device described arises in connection with an automatic burner control, since z. B. on due to different standards in different countries Different types of devices are available and always high security there are requirements for certain functions.

The invention is described below using an exemplary embodiment Reference to the drawings explained in more detail. Show it:

Fig. 1 is a schematic representation of the connection of a Kodierein direction with multiple processors and

Fig. 2 shows an example of a distribution of bit numbers of a code number among the different processors.

Fig. 1 shows a schematic diagram of an encoder in which a coding unit 1 is connected to a control circuit board of a control device 2, which in the present case three processors P1, P2, P3 has. The coding device has two pairs of resistors, each consisting of a coding resistor R1, R2 arranged in the coding unit 1 and a series resistor R3, R4 arranged on the control circuit board.

The coding unit preferably consists of a coding plug which is connected to a Device, e.g. B. a burner control is firmly connected via a cable, while the series resistors R3, R4 a coupling for the connector on the Control circuit board are assigned. The coding resistors R1, R2 each have because characteristic devices resistance values from a number of z. B. sixteen predetermined resistance values each. The resistor pairs R1, R3 or R2, R4 from the coding resistors R1, R2 and the series resistors R3, R4 form respective voltage dividers, so that at the tapping points characteristic between the resistances of the pairs of resistors Set voltage values, each of which is connected to an input of processors P1, P2, P3 created and by means of an analog / digital wall provided in these be converted into corresponding digital voltage values.  

The digital voltage values are converted into a code number, as can be seen in FIG. 2. The number of digits of the dual code number results from the number of digital voltage values that can be generated with the resistor pairs. Is z. B. the number of resistance values of the two coding resistors R1, R2 each sixteen, there are 16 ² = 256 digital voltage values and a dual code number with eight digits. The resistance values of the coding resistors R1, R2 are preferably selected so that voltage ranges of the same size result and the greatest possible interference immunity is achieved with the simplest, inexpensive design of the coding device.

The processors are programmed to evaluate certain bit numbers to perform control functions required by the device. If, for example, at least five and at most eight different control requests can be fulfilled by the first processor P1, three bit numbers are provided for the processor P1. Two bit numbers are reserved for the second processor P2 and three bit numbers for the third processor P3. As an alternative to the example shown in FIG. 2, the bit numbers occupied by the different processors P1, P2, P3 can also overlap if e.g. B. the same functions of different processors are to be executed in the same way, or the bit numbers are to be linked internally in the processors for setting a corresponding control function.

An advantageous application of the structure described arises with gas burner controls, whereby safety-relevant functions, eg. B. the safe ignition time, must be executable by two processors. Are only few different device types and control requirements exist, so  the evaluation by means of the processors can be greatly simplified. The knockout diereinrichtung can then z. B. be designed so that only certain Bitnum be influenced by one of the two coding resistors, while the Voltage signal from the other coding resistor to the processors is eliminated can. Several voltage ranges can be combined be, so that the evaluation of the voltages on z. B. four areas right induced.

Thanks to the common coding in a plug / coupling arrangement for everyone Processors of a control device in the manner described above the structure and mechanical handling become very simple. It will relatively few components needed, and the information can anyone Processor can be made accessible. In individual cases, the execution can be on each system can be optimally tailored.

Claims (6)

1. Coding device for the automatic setting of a control device ( 2 ) to the respective functional requirements of different devices that can be connected to it, in the connection of control device ( 2 ) and device by means of at least one pair of resistors (R1, R3; R2, R4) from an assigned to the device Coding resistor (R1, R2), which has a different resistance value depending on the device, and from a series resistor (R3, R4) assigned to the control device ( 2 ), which has a fixed resistance value independent of the device, a voltage value of a given device that designates the respective device Number of voltage values is set, which is converted into a corresponding digital voltage value by means of an analog / digital converter, characterized in that
that the control device ( 2 ) has at least two processors (P1, P2, P3),
that the respective voltage value is assigned to a voltage range of a correspondingly large predetermined number of voltage ranges,
that a dual code number is assigned to each voltage range, the number of digits of which is determined by the predetermined number of voltage ranges, and
that the bit numbers of the code number are assigned individually or in groups to the individual processors (P1, P2, P3). 2. Coding device according to claim 1, characterized, that m pairs of resistors (R1, R3; R2, R4) are provided with which each by n equally spaced voltage values appropriate choice of the respective coding resistor (R1, R2) can be laid. 3. Coding device according to claim 1 or 2, characterized, that each pair of resistors (R1, R3; R2, R4) has one input each Processor (P1. P2, P3) is connected and that the selection of the bit number assigned to the respective processor mers and their control and function assignment in the process ren (P1, P2, P3). 4. Coding device according to one of the preceding claims, characterized, that two pairs of resistors (R1, R3; R2, R4) are provided, whereby for each of the two coding resistors (R1, R2) sixteen different Wi values for coding are provided.   5. Coding device according to one of the preceding claims, characterized, that the resistor pairs (R1, R3; R2, R4) of a connector coupling arrangement are assigned. 6. Use of a coding device according to one of the preceding Claims for a burner control.