DK152458B - STATIC ELECTRIC ELECTRIC MEASUREMENT FOR POWER AND ENERGY MEASURED FROM A POWER SUPPLY NETWORK - Google Patents

Description

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DK 152458 B

The invention relates to an apparatus of the kind specified in the preamble of the claim.

GB patent application 2 061 641 discloses such an apparatus which aims to determine the peak power of each of the phases in a three-phase network and to enable and disable consumers on each of the phases so that a predetermined maximum load per phase is not exceeded.

GB Patent Application No. 2,046,925 discloses a measuring system which acts as an additive to a conventional Ferrari meter, which unit can record consumption according to three or more different tariffs, so that consumption can be differentiated according to price, when it takes place.

The invention has for its object to provide an apparatus of the kind in question which ensures a correct measurement of the actual consumption, although periodic loads are switched on at each stage and which is audit-free in the sense that it does not contradict it. conventional Ferrari gauges require regular, thorough 20 servicing and refurbishment of worn components as well as adjustment.

This object is achieved as stated in the characterizing part of the claim in that the sensing order of the phases is randomized, since this measure prevents the synchronization of a load, e.g. a heater, with the meter, thereby avoiding real consumption being recorded.

An embodiment of the apparatus according to the invention is shown diagrammatically in the drawing and will be described in more detail below with reference thereto. 1 In the drawing, a power supply network is represented by

DK 152458 B

2 have three phase conductors R, S and T and a zero conductor N. In each phase conductor is inserted a signal conditioning circuit 10, 11 and 12 respectively, each of which is additionally connected to the conductor, which senses the phase voltages over 5 ohmic voltage dividers and the phase currents through the measuring transducer. amplify and convert these magnitudes to voltage signals with a level acceptable for subsequent circuits. The signals thus conditioned are supplied in pairs to a multiplexer 13 which transmits the signals per second. phase time-10 offset relative to a multiplier 14.

In it, the product is generated by current and voltage for each phase. These products are supplied with a RMS converter contained in the multiplier 14, which emits a voltage whose magnitude reflects the instantaneous power of the relevant phase. This voltage is applied to a voltage / frequency converter 15, hereinafter referred to as a V / F converter, whose output signal is an impulse train with a frequency proportional to the voltage signal applied to the input. This pulse train is fed as an input signal to a microprocessor 16, in which a count of pulses per count is made. second from the V / F converter. This number is an expression of the immediate effect. Microprocessor 16 multiplies the power expression by a time factor, and the result of this multiplication is an expression of the amount of energy used. This expression of the amount of energy consumed is stored in the storage 18 and is added here to previously calculated amounts of energy. Storage 18 thus contains the total recorded consumption.

The microprocessor 16 also controls over a address bus 17 the signal transmission from the signal conditioning circuits 10, 11 and 12 to the multiplexer 13. This transmission is carried out sequentially in random order and at a frequency independent of the grid frequency. This makes it impossible for a consumer to avoid recording the consumption by synchronizing the connection of the load to the grid with the measuring system.

3

DK 152458B

The sequential signal transmission causes the consumption of power to be recorded at all three stages.

The total energy consumption is calculated as the sum of the consumption at each stage.

5 To ensure that a power consumption record already made, even if the power supply is interrupted, this data is transmitted to a random access storage 18, which storage is arranged so that the stored data is maintained even though it is maintained. 10 supply voltage, it gets supplied, fails. The stored energy consumption can be read by activating a contact 19, whereby the microprocessor 16 is supplied with a pulse and caused to transmit the accumulated energy consumption in the storage to a readout unit 20 which corresponds to the counter 15 in a conventional electricity consumption meter.

The analog components included in the measuring loop, ie. the multiplexer 13, the multiplier 14 with its RMS converter, and the V / F converter 15 are subject to aging and temperature operation, since electricity meters are often placed in environments where temperature and humidity vary greatly. It is therefore important to take measures to prevent these phenomena from affecting measurement accuracy. For this purpose, there is a reference voltage source 21 which is built around a semiconductor reference diode with very low temperature operation and high long term stability. This voltage reference is made by starting the device and then at intervals, e.g. in half an hour, a self-calibration of the device. This is done by the microprocessor of the multiplexer 13 emitting a control signal 30 which causes all inputs to the multiplexer to be interrupted and the signal from the V / F converter 15 is measured. This signal then reflects the system's zero point error. The microprocessor now outputs to the multiplexer a new control signal which causes the reference voltage source to be connected to the multi-

Claims (1)

DK 152458 B plexer and a new measurement of the signal from the V / F converter is made. Based on these measurements and one when producing the meter in the storage 18 in the programmed reference power corresponding to the reference voltage, it is now possible to calculate the number of pulses from the V / F converter corresponding to e.g. 0.1 kWt, and this value is stored in the storage 18. Patent claim: Static electrical apparatus for measuring and recording 10 power and energy acquired by a consumer from a power supply network and containing means (10, 11, 12, 13) for periodically relieving the current and voltage of each phase with an independent frequency sampling frequency and means (14) for translating the thus-established 15 expressions of power into voltage pulses supplied to a voltage / frequency converter (15) whose output frequency represents it at all times decreased effect, characterized in that the scanning order of the phases is randomized.