Home » SUM PK313 Power Quality Analyzer Bundle w/ 3x HA1000 Clamp-On CTs
SUM PK313 Power Quality Analyzer Bundle w/ 3x HA1000 Clamp-On CTs
Part Number:
SUM PK313
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please call (877)766-5412 to confirm
Quantity
Price:
$3575.00 
USD (change)
USD (change) 
The PowerSight 3000 Three Phase Power Quality Analyzer is a workhorse.
It performs all measurements required for demand analysis on all types
of systems in the world. It has been used under all conditions (one is
in even in use at The South Pole). It has great harmonic analysis
abilities, good swell and sag abilities, and some transient
capabilities. Its small size and ease of use have made it a winner for
years!
The PowerSight 3000 Energy Analyzer provides simplicity and reliability in the analysis of electric power. The PowerSight 3000 is oriented toward complete power analysis with very helpful power quality capabilities. It is a price vs performance leader.
What makes it the choice of professionals all over the world?
One instrument for all your measurement needs. PowerSight 3000 is the smallest, most cost effective instrument for the measurement and analysis of electric power.
This complete package has all you need for complete source and load analysis of 3-phase (and single phase) circuits in any configuration with currents up to 1000 amps and voltage up to 600 volts.
Measure voltage, current, power, energy, cost, power factor, THD (total harmonic distortion), transients, frequency, duty cycle, and power cycles on three phase and single phase circuits. Compute present, minimum, maximum and average value each second for seven inputs (three voltages and four currents). Capture two complete sets of seven waveforms. Package includes internal rechargeable batteries (8 to 10 hours of operation).
Logging intervals are operator selectable from 1 second to 99 minutes, with default storage of 1044 records of 53 parameters each. If recording at 15-minute intervals, a summary of the measurements taken each second for the last 10.9 days (or better) are retained.
What's Included:
The PowerSight 3000 Energy Analyzer provides simplicity and reliability in the analysis of electric power. The PowerSight 3000 is oriented toward complete power analysis with very helpful power quality capabilities. It is a price vs performance leader.
What makes it the choice of professionals all over the world?
- Complete power/energy/cost analysis. - Measures voltage, current, KW, KVA, KVAR, true power factor, displacement power factor, KWH, elapsed and estimated cost, and duty cycle. Complete logging and manual waveform capture ability.
- Compatibility with any power system. - Single phase, two phase, three phase (wye, delta, 4 wire delta, open delta, grounded delta), 3PT/2PT, and 3PT/3CT. DC, 50Hz, 60Hz, 400Hz, 45-66Hz, and 360-440Hz. Phase-phase, phase-neutral, and regenerative systems. All systems up to 600Vphase-neutral (800V phase-phase) and with our medium voltage probes, direct connection to 4,160V and 12,500V.
- Harmonic Analysis. - Performs spot checks and logging of THD and analysis out to the 50th harmonic on all inputs.
- Unmatched portability and ease of use. - Weighs less than 2 pounds (<1 kg), 4"x8"x1.5", rechargeable batteries operate for 8-10 hours. Keypad and display for simple, quick, portable readings. User interface comes in seven languages.
- Clear display to allow reading voltage, current, power, etc without the use of a laptop.
- Reliability second to none. - Ten years of steady improvement, proven in industrial use, used in every continent (including Antarctica).
- Technical support that is responsive and knowledgeable.
One instrument for all your measurement needs. PowerSight 3000 is the smallest, most cost effective instrument for the measurement and analysis of electric power.
- Analyze how energy is used and what it costs
- Evaluate the quality of your power
- Troubleshoot wiring and equipment
- PC Control/Analysis software available
This complete package has all you need for complete source and load analysis of 3-phase (and single phase) circuits in any configuration with currents up to 1000 amps and voltage up to 600 volts.
Measure voltage, current, power, energy, cost, power factor, THD (total harmonic distortion), transients, frequency, duty cycle, and power cycles on three phase and single phase circuits. Compute present, minimum, maximum and average value each second for seven inputs (three voltages and four currents). Capture two complete sets of seven waveforms. Package includes internal rechargeable batteries (8 to 10 hours of operation).
Logging intervals are operator selectable from 1 second to 99 minutes, with default storage of 1044 records of 53 parameters each. If recording at 15-minute intervals, a summary of the measurements taken each second for the last 10.9 days (or better) are retained.
What's Included:
- PowerSight Energy Analyzer [PS3000]
- Harmonics [HAO]
- Data Logging [LOG]
- PC Control/Analysis [PCCA]
- Three - 1 to 1000 Amp Current Probes [HA1000]
- Deluxe Voltage Leads [DXV]
- Soft Operating Case [SCAS2]
- Hard-Shell Carrying Case [CAS3]
- PowerSight Manager Software [PCCA]
- DC wall charger [CHG2]
The Good:
The Bad:
The Bottom Line:
The Bad:
The Bottom Line:
Full Review
- 12 Voltage Measurements
- 16 Current Measurements
- True Power Factor
- Displacement Power Factor
- Phase lag angles
- KW, KVA, KVAR (phase & total)
- Delta & Wye configurations
- DC volt, amps, power
- Frequency
- Harmonics (to 50th)
- THD voltages & amp; K-Factor
- Crest Factor
- KWH (Elapsed & Estimated)
- Cost (Elapsed & Estimated)
- Adjustable Utility Rates
- Peak Demand Period
- Basic Disturbance analysis
- Logging intervals from 1 sec to 99 min.
- Waveform Capture
- Input Ratios
- Duty and Power Cycles
- RS-232
- Real Time Clock
Size: 4" Wide x 8" Long x 1.75" Deep
Weight: Less than 2 pounds
Operating Range: 0 - 50 degrees C (32 - 122 degrees F); Relative humidity to 70% (non-condensing)
Power Requirement: 12 VDC @ 50 ma, wall mount power supply included; Internal Ni-Cad operates up to 10 hours after overnight charge
Voltage
Input Range: 1 - 600 Vrms steady-state (direct input), or 600 – 5,000 Vrms with 5KVP probes, or 600 – 15,000 Vrms with 15KVP probes.
Display Range: 1 - 6 megavolts (using input ratios)
Accuracy: 0.5%
Frequency Response: No derating of accuracy for harmonics through 25th harmonic (1500 Hz for 60 Hz fundamental)
Current
Input Range: 0.01 - 5000 Amps, AC or DC with the proper current probe attached
With HA10: .01 - 10 Amps
With HA100: 0.1 - 100 Amps
With HA1000: 1 - 1000 Amps
With FX3000: 10 – 3000 Amps
With FX5000: 100 - 5000 Amps
With DC600: 5 - 600 Amps DC 6 autoranges
Display Range: 1ma - 6 megamps (using input ratios)
Accuracy: 0.5% plus accuracy of current probe
Frequency Response: dependent on current probe attached With HA1000: no derating of accuracy for harmonics through the 25th harmonic (1500 Hz for 60 Hz fundamental) 85
Frequency
Range: DC, 45 - 66 Hz, 360 – 440 Hz fundamental frequency DC and 45 - 1650 Hz included in RMS 45 - 3000 Hz for harmonic measurements
Accuracy: 0.5%
Power, Energy, Cost, Power Factor
Display Range: 1 watt - 60 megawatts (using input ratios)
Accuracy: 1% plus accuracy of current probe
Harmonic Distortion
Range: Basic unit has THD only With Harmonic Analysis Option, individual harmonics through 15th (900 Hz) With Harmonic Analysis and PowerSight
Manager software, harmonics through 50th (3000 Hz)
Accuracy: To within 1% of fundamental
Transient Detection
Minimum duration to guarantee capture: 32 msec
Measurable Range of Magnitude: ±2500 Vpk
Captured Waveforms
Quantity: 14 waveforms organized into 2 time-coincident sets of 7 each (3 voltages and 4 currents)
* these specifications are subject to change without notice.
Weight: Less than 2 pounds
Operating Range: 0 - 50 degrees C (32 - 122 degrees F); Relative humidity to 70% (non-condensing)
Power Requirement: 12 VDC @ 50 ma, wall mount power supply included; Internal Ni-Cad operates up to 10 hours after overnight charge
Voltage
Input Range: 1 - 600 Vrms steady-state (direct input), or 600 – 5,000 Vrms with 5KVP probes, or 600 – 15,000 Vrms with 15KVP probes.
Display Range: 1 - 6 megavolts (using input ratios)
Accuracy: 0.5%
Frequency Response: No derating of accuracy for harmonics through 25th harmonic (1500 Hz for 60 Hz fundamental)
Current
Input Range: 0.01 - 5000 Amps, AC or DC with the proper current probe attached
With HA10: .01 - 10 Amps
With HA100: 0.1 - 100 Amps
With HA1000: 1 - 1000 Amps
With FX3000: 10 – 3000 Amps
With FX5000: 100 - 5000 Amps
With DC600: 5 - 600 Amps DC 6 autoranges
Display Range: 1ma - 6 megamps (using input ratios)
Accuracy: 0.5% plus accuracy of current probe
Frequency Response: dependent on current probe attached With HA1000: no derating of accuracy for harmonics through the 25th harmonic (1500 Hz for 60 Hz fundamental) 85
Frequency
Range: DC, 45 - 66 Hz, 360 – 440 Hz fundamental frequency DC and 45 - 1650 Hz included in RMS 45 - 3000 Hz for harmonic measurements
Accuracy: 0.5%
Power, Energy, Cost, Power Factor
Display Range: 1 watt - 60 megawatts (using input ratios)
Accuracy: 1% plus accuracy of current probe
Harmonic Distortion
Range: Basic unit has THD only With Harmonic Analysis Option, individual harmonics through 15th (900 Hz) With Harmonic Analysis and PowerSight
Manager software, harmonics through 50th (3000 Hz)
Accuracy: To within 1% of fundamental
Transient Detection
Minimum duration to guarantee capture: 32 msec
Measurable Range of Magnitude: ±2500 Vpk
Captured Waveforms
Quantity: 14 waveforms organized into 2 time-coincident sets of 7 each (3 voltages and 4 currents)
* these specifications are subject to change without notice.
PowerSight can provide you with a complete range of reports to serve
your needs. Our Report Generator and PowerSight Manager (PSM) software
provide you with the graphical reports, tabular reports, and raw data
that you need.
Comparison Reports
(Before/After, On/Off, Good/Bad, etc.) The Report Generator has a 4 step process for preparing reports to compare data from data logs. The process is quite easy and fast to perform. It results in a concise tabular report comparing the “before” results with the “after” results (including estimated KWH and cost) with optional appended graphs. The before and after columns are followed by a column showing the actual change between them and the percent change between them.
Sections of different logs can be compared or even sections of the same log can be compared. The report is previewed as a document that you can edit on-screen. Once previewed, it is quick and easy to modify any of the settings and run the report again. The ease and power of this reporting mechanism makes it a favorite for presenting results to decision-makers.
Summary Reports (Overall Results)
The Report Generator has a 3 step process for preparing reports summarizing data from data logs. The process is quite easy and fast to perform. It results in a concise tabular report presenting the variables of interest, including estimated KWH and cost, with optional appended graphs.
The report is previewed as a document that you can edit on-screen. Once previewed, it is quick and easy to modify any of the settings and run the report again. The ease and power of this reporting mechanism makes it a favorite for presenting baseline data.
Trending Graphs (Data Log Graphs)
Our PSM software makes viewing data logs easy. In a 2 step process, any variable of the log can be presented graphically. Dozens of pre-arranged combinations of variables guide you to an uncluttered and relevant presentation comparing variables of interest. Labelswith arrows can be added to highlight areas of interest.
gain control over the timeframe presented and the relative size of the data presentation.By using the zoom and scalingfeatures, you At the top of each graph, each variable is summarized with a single numberfor simplicity. A graph of averages is summarized to the average of the averages. A graph of maximums is summarized to the maximum of the maximums and a graph of minimums is summarized to the minimum of the minimums.
While viewing the data within PSM, moving your cursor over a data point reveals the actual values and time/datestamp at that point.
Custom Graphs (And Raw Data)
The data logs from PowerSight can be easilyimported into Microsoft Excel and otherspreadsheet programs in order to make customgraphs or to view raw data. It is a tab delimited text file with column headings, so the data is easily understood.
Harmonics Analysis Reports
PSM offers three types of harmonics analysis reports.When THD is recorded in a data log, the THD of up to seven signals can be presented on the same graph over time and printed out. The averages of each are presented at the top.
When wave sets are received by PSM, they canhave a detailed harmonic analysis done afterone click of a mouse. The resulting harmonic bar chart compares magnitudes of each harmonic to the 50th. You can control the range of harmonics and their scale in order to print out graphical comparisons of before and afterresults of your harmonic abatement activities. At the click of a mouse, the graphical data canbe presented as a table for a concise presentation of magnitude and phase of each harmonic, plus THD and K factor.
Streaming Data (Recording Core Variables Each Second)
PSM has a provision for putting an attached PowerSight unit into “summary measurement” mode. In this mode, PowerSight transmits the voltages, currents, watts,and VA of each phase once a second. This data is displayed on the computer screen,scrolling up one line each second. If the data is directed to a file, it is also recorded as a tab delimited text file, suitable for import into another program for extensive dataanalysis of core measurements recorded each second for as long as the PC has room tostore the data.
Automated Process Control Output
PowerSight can be used in process control or alarm applications. When it is first turnedon, if a certain data sequence is sent to it, PowerSight will then send out the streaming data discussed above in a binary representation of floating point numbers. The control or alarm system can interpret the data as it arrives each second.
Comparison Reports (Before/After, On/Off, Good/Bad, etc.) The Report Generator has a 4 step process for preparing reports to compare data from data logs. The process is quite easy and fast to perform. It results in a concise tabular report comparing the “before” results with the “after” results (including estimated KWH and cost) with optional appended graphs. The before and after columns are followed by a column showing the actual change between them and the percent change between them.
Sections of different logs can be compared or even sections of the same log can be compared. The report is previewed as a document that you can edit on-screen. Once previewed, it is quick and easy to modify any of the settings and run the report again. The ease and power of this reporting mechanism makes it a favorite for presenting results to decision-makers.
Summary Reports (Overall Results) The Report Generator has a 3 step process for preparing reports summarizing data from data logs. The process is quite easy and fast to perform. It results in a concise tabular report presenting the variables of interest, including estimated KWH and cost, with optional appended graphs.
The report is previewed as a document that you can edit on-screen. Once previewed, it is quick and easy to modify any of the settings and run the report again. The ease and power of this reporting mechanism makes it a favorite for presenting baseline data.
Trending Graphs (Data Log Graphs) Our PSM software makes viewing data logs easy. In a 2 step process, any variable of the log can be presented graphically. Dozens of pre-arranged combinations of variables guide you to an uncluttered and relevant presentation comparing variables of interest. Labelswith arrows can be added to highlight areas of interest.
gain control over the timeframe presented and the relative size of the data presentation.By using the zoom and scalingfeatures, you At the top of each graph, each variable is summarized with a single numberfor simplicity. A graph of averages is summarized to the average of the averages. A graph of maximums is summarized to the maximum of the maximums and a graph of minimums is summarized to the minimum of the minimums.
While viewing the data within PSM, moving your cursor over a data point reveals the actual values and time/datestamp at that point.
Custom Graphs (And Raw Data)The data logs from PowerSight can be easilyimported into Microsoft Excel and otherspreadsheet programs in order to make customgraphs or to view raw data. It is a tab delimited text file with column headings, so the data is easily understood.
Harmonics Analysis ReportsPSM offers three types of harmonics analysis reports.When THD is recorded in a data log, the THD of up to seven signals can be presented on the same graph over time and printed out. The averages of each are presented at the top.
When wave sets are received by PSM, they canhave a detailed harmonic analysis done afterone click of a mouse. The resulting harmonic bar chart compares magnitudes of each harmonic to the 50th. You can control the range of harmonics and their scale in order to print out graphical comparisons of before and afterresults of your harmonic abatement activities. At the click of a mouse, the graphical data canbe presented as a table for a concise presentation of magnitude and phase of each harmonic, plus THD and K factor.
Streaming Data (Recording Core Variables Each Second)PSM has a provision for putting an attached PowerSight unit into “summary measurement” mode. In this mode, PowerSight transmits the voltages, currents, watts,and VA of each phase once a second. This data is displayed on the computer screen,scrolling up one line each second. If the data is directed to a file, it is also recorded as a tab delimited text file, suitable for import into another program for extensive dataanalysis of core measurements recorded each second for as long as the PC has room tostore the data.
Automated Process Control Output
PowerSight can be used in process control or alarm applications. When it is first turnedon, if a certain data sequence is sent to it, PowerSight will then send out the streaming data discussed above in a binary representation of floating point numbers. The control or alarm system can interpret the data as it arrives each second.
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