DE2613112B2 - Electronic maximum counter - Google Patents

Description

The use of maximum counters through small consumption τ of electrical energy stands in the way of the relatively high P ₁ cis of the common mechanical devices, which is due to the large ma

manual production and adjustment effort. Electronic components are used to reduce this effort is known to be particularly suitable, with a required long-term reliability at the same time economical production of an electronic maxi

r> mumzahlers can only be reached if the number the components can be kept small.

The invention is based on the object of creating an electronic maximum counter that this Requirements met. This task is solved with

vi the means listed in claim 1.

In the case of electronic maximum counters, there is a requirement that the numerical value of the up to then accumulated highest monthly maximum must be stored. In addition, there are certain

i- to save states of the control logic to after return the mains voltage to ensure that the maximum work runs from the point of interruption. This is particularly important if the maximum work during the monthly transmission

Mi was disrupted gene of the month maximum in the mechanical Kumulativzählwerk due to power failure, to prevent the transmission of incorrect values. For the transmission of a 4-digit number, e.g. B. the number 9999, from the electronic monthly memory into the

_M cumulative counter are at walking speeds of z. B. 10 ... 20 Hz to set times of several minutes, so that the probability of a power failure falling in this time period was relatively eross

is. In principle, there are also electronic memories and display devices for the usual cumulative counter can be used, but currently have neither electronic memory nor display elements have a reliability comparable to that of a mechanical counter.

Electronic non-volatile memories are known. Such storage tanks have achieved practical importance those in a special programming device, d. H. cannot be set in the actual circuit. Non-volatile memories that are operated like freely addressable memories in the circuit itself can, are z. Currently still relatively unreliable. Known memories of this type have the property that the number of write cycles is limited. It is not possible to have such a circuit as a normal one To operate memory because the number of usable write cycles would be reached quickly. It may only then a write command can be given if the property of storage in the event of a power failure actually occurs is needed. For this there must be a power failure! be recognized so in time that to collapse of the supply voltages of the electronics all values to be saved in the non-volatile memory are transferred. With current technology, it is possible to make such a non-volatile Integrate memory together with other metal oxide transistors on the same chip.

Two basic versions of an electronic maximum counter are possible:

1. A customized large-scale circuit with a maximum of conventional digital technology and

2. the use of a microcomputer.

In both cases, the entire circuit can be integrated on one chip, but it is also a multi-chip system usable.

The following are inexpensive solutions: a single-chip microcomputer with non-volatile memory integrated on the chip, which can be changed electrically, or a non-volatile integrated memory that is set in a special programming device or a One-chip microcomputer with external non-volatile memory for those to be saved during a power failure Values.

The following description relates to the version with a microcomputer, the opposite the customer-specific large circuit is more economical, since a customer-specific adaptation of the Microcomputer only requires a mask change in its program memory.

The electronic maximum work is supplied from outside with information about the energy consumption, z. B. in the form of carrier disc pulses from the associated electricity meter, a pulse constant as an adjustment factor of the recorded impulses to characterize the energy consumption, a Measurement period specification and the mains frequency to control the measurement period. For specifying the measuring period a time base device is provided in the maximum counter, for example the mains frequency pulses counts, which then form a measure for the duration of the measuring period and a target counter for comparative purposes Evaluation are supplied. The electronic maximum work Tariff switching commands, switch-on and switch-off commands, monthly reset commands and power failure signals fed.

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The tariff switching commands and the switch-on and switch-off commands can be combined, creating one input of the maximum work is omitted or becomes free. The monthly reset command is z. B, through a ripple control receiver given or programmed within the device for a predetermined fixed time. A manual reset can also be provided.

With a maximum counter, the value of the monthly maximum and certain status signals the logic or the program sequence can be saved in the event of a power failure.

To trigger the storage in the non-volatile memory, the maximum work must be a pending Mains voltage failure. When the power is restored, the same signal causes the computer to to resume his program at a predetermined point, with those in the non-volatile Reads out the values contained in the memory, transfers them to its main memory and processes them further.

The programming mentioned above must be changeable according to customer requirements. There are several Ways to do this:

a) In the case of a computer, the instruction memory of which is preferably also a non-volatile memory is carried out is carried out from a suitable data carrier for each device in the test field (e.g. punched tape) the entire command memory is set, with all customer requests being programmed will.

b) In the case of a computer with a mask-programmable instruction memory, the program is as follows executed that the computer at its inputs external codings in the form of diode or queries wire jumper read-only memories, which are then changed customer-specifically.

c) In the case of a computer with a separate instruction memory, d. H. in which the command memory is not integrated is, the entire command memory can be exchanged customer-oriented.

From the maximum work, depending on the number of maximum tariffs, the instantaneous and monthly maxima in the form of digital or analog numerical values for display and / or submitted for data output.

Furthermore, control signals for reset counters and cumulative counters as well as for display elements are included issued several maximum tariffs.

When using a single-chip microcomputer, due to the small number of inputs preferably operated by upstream multiplex devices. The external command input is thus controlled via one or more multiplexers. Fixed programs such as B. the measuring period length, Pulse constant, monthly reset command with automatic reset after one pre-selected time, etc. communicated to the microcomputer via coding plug.

The number of available outputs, however, is almost always sufficient, so that the cumulative counter the reset counter, the display elements for the instantaneous and monthly maximum, etc. separate outputs can be assigned.

Another advantage of using microcomputers of the type mentioned is the simple programming several maximum tariffs, as the freely programmable one integrated in the microcomputer Data storage always has a much larger storage capacity than required for a tariff

is; so for each additional monthly maximum there are only 16 bits required in main memory and in non-volatile memory.

Instead of an integrated, complete program memory (ROM) of the single-chip microcomputer external memory can also be used to save the program without replacing the single-chip microcomputer is changeable. Thereby certain parts of the program are in an additional outer Circuit, e.g. B. non-changeable read-only memory (ROM). Thus, for example In the case of a wire-jumper read-only memory, the mask of the program memory is not changed Single chip microcomputer required.

Furthermore, the continuation of external memory is recommended for very economical maximum counters: after a power failure, when the power returns, the microcomputer runs from a predetermined one Program item on and all memories are set to zero.

Since the maximum counter usually has another

Ripple control receiver required, it makes sense to take advantage of the computer that is already available, which according to takes over the calculation of the ripple control commands from the customer-oriented program. All that is necessary is to filter out the ripple control pulses from the network and transfer them to the computer In the form of flawless digital signals, thereby eliminating all of the decoding that would normally be required the commands are omitted.

Digital displays are used to display the instantaneous and monthly maxima, with a single Display with switching can be used, or there are quasi-analog displays in the form of Bars made of light-emitting diodes, liquid crystal segments, etc. are used, since these displays have a low Resolution and accuracy are sufficient. Conventional pointer instruments can also be used; here it is economical to get the power for these instruments directly from the computer without a digital-to-analog converter in the form of a pulse sequence modulated by any number of freaks.

Claims (13)

Patent claims: 1. Electronic maximum counter, consisting of a kilowatt-hour counter and a maximum unit, characterized in that the maximum work has an integrated microcomputer, preferably a single-chip micro-coinputer or external non-mandatory memories for evaluating the information provided in pulses on the energy consumption, which shows the instantaneous and monthly maxima in the form of digital and / or outputs analog numerical values for a display and data storage device. 2. Electronic maximum counter according to Anspmch 1, characterized in that the fixed programs are stored in external coding plugs for controlling the microcomputer. 3. Electronic maximum counter according to claim 1 and 2, characterized in that instead a microcomputer integrated with a program and data memory, an arithmetic unit from known computer chips is used. 4. Electronic maximum counter according to claim 1 and 2, characterized in that instead of a fully integrated program in the microcomputer an additional external memory to change parts of the program that allows a program change without replacing the Microcomputers allowed. 5. Electronic maximum counter according to claim 1, characterized in that the microcomputer in the event of a power failure, receives a signal that enables it to prevent it from collapsing the supply voltage, the numerical and logic state values in the non-volatile memory to transmit and that the microcomputer after the return of the network always at a predetermined Program item starts up again and calls up the values from the non-volatile memory and continues to work. 6. Electronic maximum counter according to claim 1, characterized in that the customer-oriented Programming of the microcomputer written in the non-volatile program memory is. 7. Electronic maximum counter according to claim 1 and 6, characterized in that the customer-oriented programming with a fixed program memory (mask-programmed) by the program on the computer from an external read-only memory (e.g. wire bridges, Diode matrix etc.) is queried. 8. Electronic maximum counter according to claim 1, characterized in that the computer dais the length of the measuring period from an externally supplied reference frequency and at automatic reset calculates the length of a reset period. 9. Electronic maximum counter according to claim 1, characterized in that the computer from him supplied and processed ripple control pulses based on the input Program itself the switching commands, z. B. Monthly reset command, tariff changes, etc., calculated. 10. Electronic maximum counter according to An claim 1, characterized in that the microcomputer also process several maximum tariffs and, in addition to the monthly maximums and the logic states, also the cumulative numerical values can lead in its memory and that in this case instead of the mechanical counters one or several electronic display devices are provided. 11. Electronic maximum counter according to claim 1 and 10, characterized in that the Instantaneous and / or monthly maxima visible on digital or analog display devices are, the latter being fed directly from the computer with duty cycle modulated pulses are. 12. Electronic maximum counter according to claim 1, 10 and 11, characterized in that quasi-analog instead of analog display in the form of bar displays made of light emitting diodes, liquid crystals, etc. can be used. 13. Electronic maximum counter according to claim 1 to 12, characterized in that the Maximumwerk consists of any deceitful circuit, in which the principle of the non-volatile memory, in the before collapse the supply voltage, the numerical and logic state values are transmitted and from which these after Network recovery is retained.