Power_Analyzer_Product_Selector
1~6 Phase - PPA3500 |
High Performance - PPA4500 |
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| Basic Accuracy | |||||
| V, A rdg Error | 0.05% | 0.05% | 0.04% | 0.03% | 0.01% |
| Power rdg Error | 0.1% | 0.1% | 0.06% | 0.04% | 0.02% |
A Power Analyzer is a precision test instrument that measures the power consumption or generation (in Watts) of a device, circuit or subsystem. Modern Power Analyzers are also able to determine the power factor, harmonic distortion, peak, mean and many more parameters of a signal.
A Power Analyzer samples the voltage and current waveforms entering or exiting a device under test(DUT), this sampling process typically occurs every 0.5us to 1us depending upon the analyzer model being used, some lower specification models from other manufacturers may sample as low as 100ks/s. Once sampled, the data is processed by a dedicated high-speed digital signal processor (which can also be implemented on modern FPGAs) and the various derived parameters are calculated.
One important difference between oscilloscopes/data acquisition cards and true power analyzers is that a high-end power analyzer (such as an N4L PPA) can record, store, process and delete samples "on the fly”. This means there is never a gap in the sampling process as the memory buffer is continually emptied after the samples are processed. This is uncommon and yet absolutely necessary for accurate power measurements.
N4L’s High Precision Power Measurement Signal Chain
N4L Power Analyzers can transfer raw sample points at full resolution across the isolation barrier. Traditional power analyzers do not transfer this "high speed” data as the isolation stage represents a bottleneck, other analyzers, therefore, perform computations prior to data transfer to the main CPU card.
The benefit of transferring raw data samples across the isolation barrier means that the FPGA and DSP can perform inter-phase parallel signal processing across phases. The result is exceptional phase accuracy through the implementation of a real-time DFT performed upon the raw data samples. The nominal phase accuracy of the PPA5500-TE is 0.003º. A dedicated frequency detection DSP continuously tracks the input frequency and is capable of parallel filtering the input signal. This is beneficial if PWM type waveforms are to be analyzed, in all cases, the parallel filtering process does not affect the raw data used to calculate the measured parameters, it only applies filters to the data used for frequency detection.
There are many power analyzer options on the market offering varying degrees of accuracy, yet at the top end of metrology you can narrow down your options to only a handful of manufacturers. Each manufacturer will profess that their solution is the best for one reason or another, at N4L we refer to hard facts and traceable data giving our customers clear, concise and useful metrics to make a decision. We have also developed various application modes and sophisticated power measurement algorithms that are key to achieving accurate measurements within dynamically changing environments. It is worth noting that it is a lot easier to achieve accurate measurements within a calibration environment using sinusoidal reference waveforms than it is within a distorted, dynamically changing motor drive or LED power measurement application for example. With this in mind N4L, alongside Oxford University (UK) have developed a 2MHz ISO17025 accredited watts calibrator based upon calorimetric principles utilizing a unique liquid heat transfer medium to enable rapid calibration of a test device. This research has given us world-leading watts reference up to 2MHz in frequency and highlights our philosophy of designing products that perform as well in real applications as they do on a calibration rig. The industry obsession with headline specifications often results in instrument designers neglecting what really matters – accurate measurements within real-world environments in the presence of distorted waveforms and wideband power.
Key reasons to choose N4L:
Variable speed motor drives have become the go-to technology for motor control in many industries. From industrial automation, utility waste movement, large scale traction drives and now the electrical vehicle market. In particular, variable speed inverter drives pose great challenges to a power analyzer with regards to accurate power measurements and the PPA3500, PPA4500, and PPA5500 have been designed with this in mind.
Key measurements available with N4A PPA’s:
All N4L PPA series power analyzers are capable of measuring the efficiency and power quality of LED drivers, the PPA range enables the analysis of the following parameters;
Why choose N4L Power Analyzers for LED driver analysis?
N4L PPA series power analyzers offer a highly accurate solution to standby power analysis, with custom-designed software providing the user with the ability to make quick, simple, compliant measurements with ease. Each N4L Power Analyzer is supplied with UKAS ISO17025 accreditation, providing the user with ultimate confidence that the measurement made is correct and traceable.
Standby Power Measurement Overview;
The PPA55x1(fully compliant) and PPA5530(pre-compliant) offer IEC61000-3-3, IEC61000-3-2, IEC61000-3-11 and IEC61000-3-12 compliance testing against the latest standards. N4L has developed a comprehensive ISO17025 calibration protocol that is available upon request to cover all aspects of IEC61000 harmonics and flicker. In particular, the d(t) tests performed as part of N4L’s IEC61000 ISO17025(UKAS) calibration protocol are unique to the industry as it is extremely uncommon to find coverage of d(t) tests within an accredited calibration procedure.
Why select N4L PPA55x1 power analyzers for your IEC61000 compliance tests?
The N4L PPA5500-TE has been developed specifically for the transformer test and development industry, featuring 0.02% reading + 0.02% range error the PPA5500-TE is a market leader and reference for the transformer test sector. One of the key design features that give the PPA5500-TE’s such a performance advantage is its current shunt design, this proprietary design enables the PPA5500-TE to achieve 0.003deg phase accuracy. No other power analyzer on the market performs as well in this area, which is a key performance parameter for measurement at low power factors – for example during off-load core loss analysis.
PPA5500-TE overview;
The PPA4500 and PPA5500 feature market-leading phase accuracy, as such they are well suited to inductor(choke) loss analysis at both low and high frequencies. Typical power factors during inductor loss analysis are very low, as such great demand is placed upon the accurate measurement of the phase shift between voltage and current to calculate the correct watts dissipation of the inductor or choke.
Evaluation of solar inverter systems requires an instrument to synchronize to both DC waveforms (output of the solar cell) as well as AC waveforms (output of the inverter). This means the analyzer needs at least two independent frequency measurement channels, all PPA’s are capable of such measurements. In addition to this, it is vitally important for the power analyzer to acquire data from each channel synchronously. This ensures that power measurements and subsequent efficiency measurements are made using data that occurs during the same window in time, it is very common for power analyzers to not acquire data synchronously from each channel which leads to incorrect efficiency measurements. All N4L power analyzers can also be used for harmonic analysis of the inverter output waveform to verify compliance with relevant standards.
Why choose an N4L analyzer for Solar Inverter Analysis?
Standard 
Option 
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| 1~6 Phase - PPA3500 |
High Performance - PPA4500 |
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| Basic Accuracy | |||||
| V, A rdg Error | 0.05% | 0.05% | 0.04% | 0.03% | 0.01% |
| Power rdg Error | 0.1% | 0.1% | 0.06% | 0.04% | 0.02% |
| Phase Options | |||||
| Internal Shunts | 1~3 | 1~3 | 1~6 | 1~3 | 1~3 |
| Master/Slave | - | - | - | 4~6 | 4~6 |
| Bandwidth | |||||
| 20A & 30A Shunt | DC ~ 500kHz | DC ~ 1MHz | DC~1MHz | - | - |
| 10A & 30A Shunt | - | - | - | DC ~ 2MHz | DC ~ 2MHz |
| 50A Shunt | - | - | - | DC ~ 1MHz | DC ~ 1MHz |
| Voltage Input | |||||
| Max Input Voltage | 2500Vpk(1000Vrms) | 2500Vpk(1000Vrms) | 2500Vpk(1000Vrms) | 3000Vpk(1000Vrms) | 3000Vpk(1000Vrms) |
| Direct Current Input | |||||
| 10Arms Model | - | - | - |  |
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| 20Arms Model | |
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| 50Arms Model | - | - | - | |
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| No. of Ranges | 8 | 8 | 10 | 8 | 9 |
| Features | |||||
| Scope and Graph Modes | - | |
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| USB Memory Port | |
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| LAN Port |  |
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| GPIB Port | - | - | |
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| RS232 Port | |
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| Real-Time Clock | |
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| 19in Rack Mount Option | |
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| Torque and Speed | - | - | |
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| IEC61000 Mode (Harmonics and Flicker) | - | - | - | - | Pre Compliance PPA55x1 Full Compliance |
| Delta -Star & Star-Delta Conversion | - | - | |
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| PWM Motor Drive Mode | - | (Limited Functionality) |
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| Oscilloscope | - | |
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| Transformer Mode | - | - | - | |
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| PWM Filter Options | - | 2 | 7 | 7 | 7 |
| Speed/Harmonics/Sec Computation | 300/sec | 300/sec | 600/sec | 600/sec | 1800/sec |
| Internal Datalogging | 4 Parameters | 4 Parameters | 32 Parameters | 16 Parameters | 16 Parameters |
| Datalog Records | 16000 | 16000 | 5M | 5M | 10M |
| ADB0100.1.8 Interharmonic Mode | - | - | - | - | |
| Internal Memory | 192kB | 192kB | 500MB | 500MB | 1GB |
| Harmonics | 50 | 50 | 100 | 100 | 417 |
| Minimum Window Size | 10ms | 2ms | 5ms | 10ms | 2ms |
| Dimensions Excl. Feet (HxWxD mm) | 92 x 215 x 312 | 92 x 215 x 312 | 92 x 404 x 346 | 130 x 400 x 315 | 130 x 400 x 315 |
| Weight | 3.3 - 4k g | 3.3 - 4 kg | 5 - 7kg | 5.4 - 6kg | 5.4 - 6kg |
N4L has developed unique power analyzer calibration rigs to provide calibration throughout the entire frequency range of the instruments we supply. This has resulted in calibration procedures which would not be possible when utilizing off the shelf commercially available calibrators. Using traceable calibration equipment combined with N4L proprietary signal generation equipment, every power analyzer is supplied with a comprehensive calibration certificate. Our UKAS 17025 laboratory scope accompanies our high-frequency calibration test rigs (utilizing traceable calibration instrumentation) providing total coverage of our power analyzer bandwidth. During 2016, N4L became the first power calibration laboratory to be ISO17025 accredited for calorimetric power calibration up to 2MHz with an uncertainty of <0.3%. This technology has been utilized to validate the design of all N4L Power Analyzers across their entire frequency range with exceptional accuracy.
All N4L power analyzers are supplied with a 3-year warranty, the software is free to download from our website and firmware upgrades are also free of charge. Please see our tutorial series which covers an array of applications, including PWM motor drive analysis, AC/DC converters, and standby power. To obtain more information on any of our power analyzers, please do not hesitate to contact us
Why not check out our AC Power Sources, these are available from 3kVA up to 67kVA in both single and three-phase configuration. Our Programmable AC Power Sources are capable of arbitrary waveform generation and half-cycle sequencing events, harmonic and inter-harmonic generation as well as a full signal bandwidth of 1kHz (Small signal 15kHz).
PPA500 Power Analyzer: Affordable compact precision power analyzer range
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The PPA5500-TE is a specialized Transformer Power Analyzer, compliant to IEC60076-8 and featuring 0.003deg phase accuracy – certified to ISO17025.
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The PPA3500 is a 2U form factor 1~6 phase precision power analyzer designed specifically for inverter drive applications.
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PPA1500 Power Analyzer: High-performance compact power analysis
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The PPA4500 Power analyzer features an excellent phase accuracy of 0.005 deg, an absolute necessity for low power factor transformer loss analysis.
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PPA5500 Power Analyzer: Class-leading accuracy, speed, and flexibility
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PPA55x1: IEC61000-3-2, IEC61000-3-3, IEC61000-3-11 and IEC61000-3-12 Compliant Harmonics and Flicker Analyzer.
View Product DetailsPPA2600 Power Analyzer: Rack-mounted Power Analyzer offering up to 50Arms
View Product DetailsPPA2500 Power Analyzer: a versatile and cost-effective solution to many power measurement applications
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