value. The drop-power value of stage1 can be calculated with the Power1(2),Hysteresis1(2): drop-power1(2) = Power1(2) – Hysteresis1(2)For small power1 values the hysteresis1 may not be too big, because the drop-power1(2) would be too small. In such cases, the hysteresis1 greater than (0.5 ·Power1(2)) is corrected to the minimal value.If the measured power drops under the drop-power1(2) value the function will resetafter a set time DropDelay1(2). The reset means that the start signal will drop out antthat the timer of the stage will reset.8.11.7.1 Low pass filteringIn order to minimize the influence of the noise signal on the measurement it is possibleto introduce the recursive, low pass filtering of the measured values for S (P, Q). Thiswill make slower measurement response to the step changes in the measured quantity.Filtering is performed in accordance with the following recursive formula:( )Old CalculatedS k S 1 k S= × + - ×EQUATION1959 V1 EN (Equation 97)WhereS is a new measured value to be used for the protection functionSold is the measured value given from the function in previous execution cycleSCalculated is the new calculated value in the present execution cyclek is settable parameter by the end user which influence the filter propertiesDefault value for parameter k is 0.00. With this value the new calculated value isimmediately given out without any filtering (that is, without any additional delay).When k is set to value bigger than 0, the filtering is enabled. A typical value for k =0.92 in case of slow operating functions.8.11.7.2 Calibration of analog inputsMeasured currents and voltages used in the Power function can be calibrated to getclass 0.5 measuring accuracy. This is achieved by amplitude and angle compensationat 5, 30 and 100% of rated current and voltage. The compensation below 5% andabove 100% is constant and linear in between, see example in figure 200.1MRK502052-UEN B Section 8Current protection433Technical manual