Error Codes (Electrical Power Toolkit)

LabVIEW 2017 Electrical Power Toolkit Help


Edition Date: March 2017
Part Number: 373375G-01
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LabVIEW 2017 Electrical Power Toolkit Help
LabVIEW 2019 Electrical Power Toolkit Help

The Electrical Power VIs can return the following error codes. Refer to the KnowledgeBase for more information about correcting errors in LabVIEW.

Code Description
−363499 time multiplier setting must be greater than or equal to 0.025 and less than or equal to 20.
−363498 GD must be greater than or equal to 2 and less than or equal to 64.
−363497 reset time parameters must be greater than zero.
−363496 curve data must be greater than or equal to zero.
−363495 The input energizing quantity G exceeds or falls below the pick-up setting value Gs whereas pick-up signal? is still FALSE.
−363494 reset level must be less than or equal to Gs in the FPGA Threshold (Over) VI and must be greater than or equal to Gs in the FPGA Threshold (Under) VI.
−363469 The data file type in the .cfg file is invalid.
−363450 The input frame type must be the same as that specified in the respective frame parsing VIs.
−363449 latitude must be greater than or equal to -90.0 and less than or equal to +90.0.
−363448 longitude must be greater than or equal to -179.99999999 and less than or equal ton +180.
−363447 phasor name in the phasor channels array in the configuration frames contains repeated values. phasor name must be unique.
−363446 The size of a frame must be less than or equal to 65,535 bytes.
−363420 The total input voltage channel number must be less than four.
−363399 nominal voltage must be greater than zero.
−363398 The three-phase system ID in one bus must be unique.
−363397 channel phase in one voltage or current system must be unique.
−363396 physical channel index must be in the range [0, total channel number of the bus).
−363395 physical channel index of each channel must be unique for one bus.
−363369 The array elements in the input spectra must have the same delta order.
−363368 The number of cycles per block must be greater than zero.
−363359 The sample rate of the input signal (1/dt) must be greater than zero.
−363358 The input signals in the data in array must have the same sample rate.
−363357 The sample rate of the input signal changed. You must use a constant sample rate.
−363356 The number of samples must be greater than zero.
−363355 The input signals in the data in array must have the same number of samples.
−363344 maximum must be greater than minimum in the frequency range cluster.
−363343 minimum in the frequency range cluster must be greater than or equal to 0.1 Hz. maximum in the frequency range cluster must be less than the Nyquist frequency.
−363342 passband ripple and stopband attenuation must be greater than zero.
−363341 passband edge frequency must be less than stopband edge frequency.
−363340 passband edge frequency and stopband edge frequency must be greater than zero and less than the Nyquist frequency.
−363339 trigger times must be greater than zero and in ascending order.
−363338 triggers per cycle must be greater than zero.
−363337 samples per cycle must be greater than zero.
−363336 times and resampled signal must have the same array size.
−363335 times in the resampled data array must be the same.
−363334 times in the resampled data array must be greater than zero and in ascending order.
−363314 The input voltage data array size must be equal to the input current data array size.
−363313 window length must be greater than zero.
−363312 The sampling frequency must be greater than 500 Hz for speed estimation.
−363311 synchronous speed must be greater than or equal to full load speed.
−363310 synchronous speed and full load speed must be in the range (0,3000] for 50 Hz systems or in the range (0, 3600] for 60 Hz systems.
−363309 The array size of nameplate data must be equal to the array size of waveforms for the one-phase signal algorithm. The array size of nameplate data must be three times the array size of waveforms for the three-phase signals algorithm.
−363308 df must be greater than zero
−363307 f0 must be equal to or greater than zero.
−363306 slip and speed must be equal to or greater than zero.
−363305 fundamental frequency must be greater than zero.
−363304 The array size of spectra must be equal to the array size of speed.
−363303 The array size of input data must be a multiple of three.
−363302 maximum frequency must be greater than zero and less than the Nyquist frequency.
−363301 % overlap must be in the range [0, 100).
−363300 number of lines must be greater than zero.
−361782 max sideband order must be greater than zero.
−361781 The array size of input data must be one for the one-phase signal and must be three for the three-phase signals.
−361780 The array size of additional efficiency information must be equal to or less than the array size of nameplate information.
−361779 Before you specify 1/2 load efficiency, you must specify 3/4 load efficiency. Before you specify 1/4 load efficiency, you must specify 3/4 load efficiency and 1/2 load efficiency.
−361778 The array sizes of speed, nameplate information, and total input active power must be the same.
−361777 The signals must be continuous.
−361776 The array size of input waveforms must be three times the array size of stator resistance.
−361775 The array sizes of speed, motor information, total input active power, and stator resistance must be the same.
−361773 stator resistance must be greater than zero.
−361772 efficiency must be in the range [0, 100].
−361771 full load must be greater than zero.
−361770 speed must be equal to or greater than zero.
−361760 physical channels of voltage channels or current channels must have at least one value in bus configuration.
−354699 You must set open mode to Create or Create or replace when you run this VI on real-time targets.
−354698 The numbers of analog channel info and status channel info must not be empty or exceed 999,999.
−354697 timestamp multiplier must be greater than or equal to zero.
−354696 The data channel number is not consistent with the actual configuration.
−354695 The required file is not open.
−354694 Manufacturer names must begin with a letter.
−354693 The ASCII code of characters of entry names must be between 33 and 127, in decimal.
−354692 An entry name must start with one word with 3-32 characters long.
−354691 You must set open mode to Create or Create or replace.
−354690 You must set open mode to Open (read only).
−354689 physical channels contains the same channel for multiple times.
−354688 physical channels does not contain the specified phasor channels in the configuration frames.
−354687 reporting rate is invalid. Valid reporting rates for a 50 Hz system are 10 fps, 25 fps, and 50 fps. Valid reporting rates for a 60 Hz system are 10 fps, 12 fps, 15 fps, 20 fps, 30 fps, and 60 fps.
−354686 time base must be within 1 and 2^24-1.
−354685 There must be 16 channels at most in each digital word.
−354684 phasors and magnitudes and phases must have the same array size.
−354683 frequency high limit, frequency low limit, and df/dt limit must all be greater than zero.
−354682 frequency high limit must be greater than frequency low limit.
−354681 magnitude low limit and magnitude high limit must be greater than zero.
−354680 magnitude high limit must be greater than magnitude low limit.
−354679 phase-angle diff limit must be greater than zero and less than or equal to pi.
−354678 The size of magnitudes in and timestamps must be equal to the number of physical channels.
−354677 The channel numbers of magnitudes, phases, and timestamps must be the same.
−354676 The number of samples in data in must be equal to the value of samples to read from the previous iteration.
−354675 The number of samples in GPS information must be equal to the value of samples to read from the previous iteration.
−354674 max time error must be greater than or equal to 0.
−354673 channel index must be less than the number of channels.
−354672 nominal Fs/actual Fs must be greater than zero.
−354671 In one three-phase power system, physical channels cannot have Phase-to-Neutral and Phase-to-Phase voltages simultaneously.
−354669 The aggregation interval you specify must be divisible by the next higher time unit of aggregation interval. For example, if you specify seconds as the time unit, then the next higher time unit is minutes. Thus the aggregation interval can be any number that is the divisor of 60, such as 10, 12, 15, and 20.
−354668 The aggregation interval must be greater than the time difference between two subsequent runs.
−354664 The length of channel units is out of range. The length of channel units must be in the range [1,32].
−354659 min rate of change is out of range.
−354658 max voltage change is out of range.
−354657 min steady state difference is out of range.
−354656 steadiness of steady state is out of range.
−354655 min steady state duration is out of range.
−354654 swell threshold is out of range.
−354653 dip threshold is out of range.
−354652 interruption threshold is out of range.
−354651 hysteresis is out of range.
−354649 The size of actual ranges must be the same as the size of spectra in.
−354648 The size of the first dimension of gains and phase delays must be equal to or greater than the size of spectra in.
−354647 The size of the second dimension of gains and phase delays must be the same as the size of frequencies to calibrate.
−354646 The size of the third dimension of gains and phase delays must be the same as the size of ranges to calibrate.
−354645 The configuration of physical channels does not match the wiring information in data in.
−354644 The values of frequencies to calibrate must be in ascending order.
−354643 The number of rows in phase delays must be equal to or greater than the size of one-cycle fundamental vectors in.
−354642 The number of columns in phase delays must be the same as the size of ranges to calibrate.
−354641 The size of actual ranges must be the same as the size of one-cycle fundamental vectors in.
−354640 The values of ranges to calibrate must be in ascending order.
−354639 The size of full-range RMS values must be equal to or greater than the size of waveforms in.
−354638 The size of offsets must be equal to or greater than the size of waveforms in.
−354637 The number of rows in gains must be equal to or greater than the size of waveforms in.
−354636 The number of columns in gains must be the same as the number of columns in ranges to calibrate.
−354635 The size of actual ranges must be the same as the size of waveforms in.
−354634 detection threshold is out of range.
−354633 start logical 1 length is out of range.
−354632 start logical 0 length is out of range.
−354631 maximum event length is out of range.
−354630 signaling frequency is out of range.
−354629 The value of data index does not correspond to the value of data in.
−354628 The value of spectra index or vector index does not correspond to complex spectra.
−354627 The number of columns in data in does not match the number of physical channels.
−354626 The value of channel index does not correspond to waveforms.
−354625 high limit must be greater than low limit.
−354624 hysteresis must be equal to or greater than zero.
−354623 Not a valid digital formula function.
−354622 The number of rows in data in does not match the number of samples per 10 or 12 cycles.
−354619 The size of sensitivity must be equal to or greater than the size of waveforms in.
−354618 The size of CT/VT ratio must be equal to or greater than the size of waveforms in.
−354617 The number of samples per cycle must be within the range of 128 to 512.
−354616 The number of samples per cycle must be even.
−354615 rate in the DAQmx Timing (Sample Clock) VI must be greater than samples per cycle in the Initialize System VI times 57.5 for a 50 Hz electrical power system and times 69 for a 60 Hz electrical power system.
−354614 number of channels must be within 1 to 16.
−354613 reference channel index must be less than number of channels.
−354612 The number of samples per cycle must be 192.
−354611 number of channels must be in the range [1, 32].
−354609 interval length is out of range. interval length must not be less than zero.
−354608 The input voltage and current signals in the same phase of the electrical power system must have the same sample rate.
−354607 The input voltage and current signals in the same phase of the electrical power system must have the same number of samples.
−354606 maximum harmonic order must be less than or equal to (samples per cycle-1)/2.
−354605 delta order in the input spectra must be greater than zero, and the reciprocal of delta order must be an integer.
−354604 The size of the input array must be equal to three.
354608 3-phase power values is valid only when the number of input voltage channels and input current channels is a multiple of three.
354609 The channel numbers of voltage and current data are not equal.
354615 The input voltage channels of each system should be A (L1), B (L2), and C (L3).
354618 In an unbalanced system, the re-calculated phase voltage values are approximate values.
354630 This VI does not calculate Phase N.
354671 The format of analogs is 16-bit integer and analogs is out of range. Change the format of analogs to 32-bit floating point when you initialize the system.
354672 df/dt is a 16-bit integer and is out of range. Change the format of df/dt to 32-bit floating point when you initialize the system.
354673 The frequency deviation from the nominal frequency is a 16-bit integer and is out of range. Change the format of frequency to 32-bit floating point when you initialize the system.
354674 The format of phasors is 16-bit integer and phasors is out of range. Change the format of phasors to 32-bit floating point when you initialize the system.
354675 ID is out of range. ID must be between 1 and 65,534, inclusive.
354676 When you scale the phasor values and transmit the values in floating point, ensure that the scale factor value is 1 and that the angle offset value is 0 in CFG-3.
354677 When you scale the analog values and transmit the values in floating point, ensure that the scale factor value is 1 and that the magnitude offset value is 0 in CFG-3.
354689 station name, phasor name, analog name, and digital names in CFG-1 or CFG-2 must be less than or equal to 16 bytes in ASCII format. This VI automatically coerces long names to 16 bytes in ASCII format.
354693 The total numbers of max sample text and min sample text per each public event information must not exceed 99.
354694 The length of channel phase identification must not exceed 2.
354695 The lengths of channel identifier, channel name, and monitored circuit component must not exceed 64.
354696 The number of sample rates in the data file must not exceed 999.
354697 The number of entry names must be equal to the number of entry values.
354698 station name and recording device name must contain no more than 64 characters.
354699 The filename must be less than or equal to eight characters.
363300 At least one first order sideband harmonics to measure does not exist in the frequency range. Extend the frequency range of the spectra to include more harmonics.
363301 synchronous speed must be the ratio of 3,000 to the pole pair number for 50 Hz systems or the ratio of 3,600 to the pole pair number for 60 Hz systems.
363302 window length is not long enough to ensure the accuracy of calculating the speed.
363303 The unbalance is more than 5% and may damage the motors.
363343 If passband edge frequency is less than maximum, the input reference signal within frequency range might be attenuated.
363344 If stopband edge frequency is greater than or equal to 2 * minimum, the second harmonic component of minimum might not be attenuated. Zero crossings might be inaccurate without attenuating the second harmonic component of minimum.
363448 extended frame data must be less than or equal to 65,518 bytes.
363449 station name, phasor name, analog name, and digital names in CFG-3 must be less than or equal to 255 bytes in ASCII format. This VI automatically coerces long names to 255 bytes in ASCII format.
363450 The command code is reserved as specified in IEEE Std C37.118.2-2011.
363451 You cannot parse the data frame before receiving the configuration frame.
363498 Coercion occurs when this VI quantizes the curve in a discrete representation. The coercion may cause a slight operate timing inaccuracy or reset timing inaccuracy.
363499 Some values of operate or reset time are smaller than what the internal fixed-point data type can represent. This VI coerces these values to 0.002048.

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