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Fluke 437 Series II Three Phase Power Quality Analyzer Energy Meter 437-II 2

$ 4485.35

Availability: 100 in stock
  • Condition: Seller refurbished
  • Return shipping will be paid by: Buyer
  • Item must be returned within: 30 Days
  • All returns accepted: Returns Accepted
  • Refund will be given as: Money back or replacement (buyer's choice)
  • Brand: Fluke
  • Restocking Fee: No
  • MPN: Does not apply

    Description

    ebay template
    The Following Items Are Included:
    Fluke 437 Series II Three Phase Power Quality Analyzer (BC# -L/T*)
    Fluke i430 Flex Cables
    Test Leads
    Fluke Alligator Clips
    AC Adapter/Charger
    USB PC Interface Cable
    User Manual On Cd-ROM
    Carrying Case (G)
    BE SURE TO CHECK OUR EBAY STORE FOR OTHER ITEMS!
    This Item Has A Current Calibration!
    Fluke 437 Series II HandHeld Three Phase Power Quality Analyzer Energy Meter
    Helps locate, predict, prevent, and troubleshoot power quality problems in three-phase and single-phase power distribution systems
    Includes i430 Flex Cables, Carrying Case & Accessories As Listed Above!
    Working Condition: Excellent
    Condition: Refurbished
    Calibrated: Yes
    Warranty: 1 YEAR WARRANTY
    Fluke 437-II 3 Phase Power Quality & Energy Analyzer
    437 Series II Power Quality and Energy Analyzer
    The Fluke 437 Series II Power Quality and Energy Analyzer is designed specifically for the defense and avionics industries. Equipped with all the functionalities of the 435 II including PowerWave, Power Inverter Efficiency and an Energy Loss Calculator, the 437 II goes one step further by measuring up to 400 Hz. The ability to measure at a higher frequency is necessary for those working in submarines, aircrafts, and other transport applications.
    The new 430 Series II Three-Phase Power Quality and Energy Analyzers offer the best in power quality analysis and introduce, for the first time ever, the ability to monetarily quantify energy losses.
    The new Fluke 434, 435 and 437 Series II models help locate, predict, prevent, and troubleshoot power quality problems in three-phase and single-phase power distribution systems. Additionally, these models feature revolutionary power quality and energy measurement functions that help facilities reduce electrical power consumption, and improve the performance and lifespan of electro-mechanical equipment. Below you will find brief descriptions of these new features.
    Unified power measurement
    Previously, only experts could calculate how much energy was wasted due to power quality issues; utilities could calculate the cost, but the required measurement process was beyond the reach of average electricians. With the new, patented Unified Power function of the 430 Series II, you can use one handheld tool to determine how much power is being wasted, and calculate exactly what the extra consumption costs.
    Fluke’s patented Unified Power Measurement System provides the most comprehensive view of power available, measuring:
    Parameters of Classical Power (Steinmetz 1897) and IEEE 1459-2000
    Detailed Loss Analysis
    Unbalance Analysis
    These UPM calculations are used to quantify the fiscal cost of energy loss caused by power quality issues. The calculations are computed, along with other facility-specific information by an Energy Loss Calculator that ultimately determines how much money a facility loses due to wasted energy.
    PowerWave data capture
    For some users, loads switching is a cause of power quality problems. When loads switch on, the current draw sometimes causes the voltage to drop to a level that causes other equipment to malfunction. The PowerWave function available in the 435 and 437 Series II models enables users to capture voltage, current and frequency signals simultaneously at a high speed to see which interaction is potentially causing problems.
    PowerWave goes beyond standard power quality measurements; PowerWave’s fast data capture mode enables system dynamics to be characterized. Waveforms for voltage and current are continuously captured for the specified time, and are displayed on screen in high detail; the power waveform is derived from the data. In addition, half-cycle RMS values for voltage, current, power and frequency can be stored and retrieved for analysis. This feature is particularly useful for testing of standby generation systems and UPS systems where reliable switch-on can be vital.
    Power inverter efficiency
    Power inverters take dc current and transform it into ac current, or vice versa. Solar generation systems usually include an inverter that takes the dc energy from the solar cells and converts it to useful ac power. Inverters can lose performance over time and need to be checked. By comparing the input power with the output power you can determine the system efficiency. All 430 Series II models can measure the efficiency of such inverters by simultaneously measuring the dc and ac power of a system to determine how much power is lost in the conversion process.
    400 Hz
    By increasing the power frequency to 400 Hz, transformers and motors can be much smaller and lighter than at 50 Hz or 60 Hz, which is an advantage in aircrafts, submarines, space crafts, and other military equipment and hand-held tools. The 437 II model captures power quality measurements for these types of avionic and military systems.
    Extensive data analysis possibilities
    The Fluke 430 Series II analyzers provide two ways to analyze measurements. Cursors and zoom tools can be used for on-screen analysis of measurement data. Additionally, the stored measurements can be transferred to a PC with the included software to perform custom analysis and create reports. Measurement data can also be exported to common spreadsheet programs. Store hundreds of measurement datasets and screen captures for use in reports (depending on memory capacity).
    Easy to use
    Pre-programmed setups and user-friendly screens make power quality testing as simple as you would expect from Fluke. The high-resolution color screen updates every 200 ms and displays waveforms and wiring diagrams color coded to industry standards. Handy on-screen wiring diagrams for all commonly used three-phase and single-phase configurations guide you through connections.
    Measures everything
    Measure true-rms, peak voltage and current, frequency, dips and swells, transients, interruptions, power and power consumption, peak demand, harmonics up to the 50th, inter-harmonics, flicker, mains signaling, inrush and unbalance.
    CAT IV 600 V and CAT III 1000 V safety rating
    Designed to help protect you and your equipment, the Fluke 430 Series II analyzers and accessories are all certified to meet the stringent standards for use in CAT IV 600 V and CAT III 1000 V environments such as power connections and outlets throughout a low-voltage power distribution system.
    Logger: record the detail you need
    User-configurable, long-term recording of MIN, MAX and AVG readings for up to 150 parameters on all three phases and nuetral. Enough memory is available to record 600 parameters for over a year with 10 second resolution, or capture smaller variations with resolution down to 0.25 seconds. The logger function is quickly accessed by the LOGGER button, the simple step-by-step setup makes capturing your important measurements as easy as can be.
    Automatic transient display
    When using the 435 and 437 II models, every time an event or voltage distortion is detected, the instrument triggers and automatically stores voltage and current waveforms on all three phases and neutral. The analyzer will also trigger when a certain current level is exceeded. Hundreds of dips, swells, interruptions and transients can be captured this way. You can see voltage transients as high as 6 kV and as fast as 5 microseconds.
    System-monitor: summary screen of overall power quality health
    The MONITOR mode delivers a dashboard display of rms voltage, harmonics, flicker, interruptions, rapid voltage changes, swells, unbalance, frequency and mains signaling.
    The dashboard is updated live, showing compliance of each parameter to EN50160 limits or your own limits. Color-coded bars clearly show which parameters are inside (pass) or outside (fail) limits. During a monitor session, you can easily drill down to more detail of any parameter to view and capture its trend for a report.
    Fully Class-A compliant
    The Fluke 435-II and 437-II are fully compliant with the new IEC 61000-4-30 Edition 2 Class-A standard. With this powerful capability, all measurements will be consistent and reliable in accordance with the latest international standard. Fluke’s Class A compliance, including time synchronization compliance has been independently verified, certification is available on request.
    What is Class-A conformity?
    Power quality measurement is a relatively new, and quickly evolving field. There are hundreds of manufacturers around the world with unique measurement methodologies. Whereas basic singleand three-phase electrical measurements like rms voltage and current were defined long ago, many power quality parameters were not previously defined, forcing manufacturers to develop their own algorithms. With so much variation between instruments, electricians tend to waste too much time trying to understand an instrument’s capabilities and measurement algorithms instead of understanding the quality of the power itself!
    The new IEC 61000-4-30 Edition 2 Class-A standard takes the guesswork out of selecting a power quality instrument. The standard IEC 61000-4-30 Edition 2 defines the measurement methods for each parameter to obtain reliable, repeatable and comparable results. In addition, the accuracy, bandwidth and minimum set of parameters are all clearly defined. The 435 and 437 Series II models include flagging and available internal clock time-synching to fully comply with the rigorous requirements of Class A compliance. The Edition 2 standard includes a new class of instrument, Class S. While not as accurate as Class A instruments, Class S instruments such as the 434 Series II Energy Analyzer produce results that are consistent with Class A instruments.
    Specifications:
    Voltage inputs
    Number of inputs
    4 (3 phase + neutral) dc-coupled
    Maximum input voltage
    1000 Vrms
    Nominal voltage range
    Selectable 1 V to 1000 V
    Max. peak measurement voltage
    6 kV (transient mode only)
    Input impedance
    4 MΩ//5 pF
    Bandwidth
    > 10 kHz, up to 100 kHz for transient mode
    Scaling
    1:1, 10:1, 100:1, 1,000:1 10,000:1 and variable
    Current inputs
    Number of inputs
    4 (3 phase + neutral) dc- or ac-coupled
    Type
    Clamp or current transformer with mV output or i430flex-TF
    Range
    0.5 Arms to 600 Arms with included i430flex-TF (with sensitivity 10x)
    5 Arms to 6000 Arms with included i430flex-TF (with sensitivity 1x)
    0.1 mV/A to 1 V/A and custom for use with optional ac or dc clamps
    Input impedance
    1 MΩ
    Bandwidth
    > 10 kHz
    Scaling
    1:1, 10:1, 100:1, 1,000:1 10,000:1 and variable
    Sampling system
    Resolution
    16 bit analog to digital converter on 8 channels
    Maximum sampling speed
    200 kS/s on each channel simultaneously
    RMS sampling
    5000 samples on 10/12 cycles according to IEC61000-4-30
    PLL synchronization
    4096 samples on 10/12 cycles according to IEC61000-4-7
    Nominal frequency
    50 Hz, 60 Hz and 400 Hz
    Display modes
    Waveform display
    Default display mode for Transients function Update rate 5x per second Displays 4 cycles of waveform data on screen, up to 4 waveforms simultaneously
    Phasor diagram
    Available in all modes via Scope waveform display
    Default view for Unbalance mode
    Meter readings
    Available in all modes except Monitor and Transients, provides tabulated view of all available readings Fully customizable up to 150 readings for Logger mode
    Trend graph
    Available in all modes except Transients
    Single vertical cursor with min max and avg reading at cursor position
    Bar graph
    Available in Monitor and Harmonics mode
    Event list
    Available in all modes
    Measurement modes
    Scope
    4 voltage waveforms, 4 current waveforms, Vrms, Vfund. Arms, A fund, V @ cursor, A @ cursor, phase angles
    Volts/amps/hertz
    Vrms phase to phase, Vrms phase to neutral, Vpeak, V Crest Factor, Arms Apeak, A Crest Factor, Hz
    Dips and swells
    Vrms½, Arms½, Pinst with programmable threshold levels for event detection
    Harmonics dc, 1 to 50, up to 9th harmonic for 400 Hz
    Harmonics Volts, THD, Harmonic Amps, K factor Amps, Harmonic Watts, THd Watts, K factor Watts, Interharmonic Volts, Interharmonic Amps, Vrms, Arms (relative to fundamental or to total rms)
    Power and energy
    Vrms, Arms, Wfull, Wfund., VAfull, VAfund., VAharmonics, VAunbalance, var, PF, DPF, CosQ, Efficiency factor, Wforward, Wreverse
    Energy loss calculator
    Wfund, VAharmonics, VAunbalance, var, A, Loss Active, Loss Reactive, Loss Harmonics, Loss Unbalance, Loss Neutral, Loss Cost (based upon user defined cost / kWh)
    Inverter efficiency (requires optional dc current clamp)
    Wfull, Wfund, Wdc, Efficiency, Vdc, Adc, Vrms, Arms, Hz
    Unbalance
    Vneg%, Vzero%, Aneg%, Azero%, Vfund, Afund, V phase angles, A phase angles
    Inrush
    Inrush current, Inrush duration, Arms½, Vrms½
    Monitor
    Vrms, Arms, harmonic Volts, THD Volts, PLT, Vrms½, Arms½, Hz, dips, swells, interruptions, rapid voltage changes, unbalance and mains signalling.
    All parameters are measured simultaneously in accordance with EN50160
    Flagging is applied according to IEC61000-4-30 to indicate unreliable readings due to dips or swells
    Flicker
    Pst(1min), Pst, Plt, Pinst, Vrms ½, Arms ½, Hz
    Transients
    Transient waveforms 4x Voltage 4x Amps, triggers: Vrms ½, Arms ½, Pinst
    Mains Signaling
    Relative signaling voltage and absolute signaling voltage averaged over three seconds for up to two selectable signaling frequencies
    Power Wave
    Vrms½, Arms½ W, Hz and scope waveforms for voltage amps and watts
    Logger
    Custom selection of up to 150 PQ parameters measured simultaneously on 4 phases
    Trend recording
    Method
    Automatically records min, max and average values over time for all readings being displayed for the three phases and neutral simultaneously
    Sampling
    5 readings/s continuous sampling per channel, 100/120** reading/s for 1/2 cycle values and Pinst
    Recording time
    1 hr up to 1 year, user selectable (default setting 7 days)
    Averaging time
    Minimum of 1 second
    Memory
    Data is stored on SDcard (8GB included 32GB max)
    Events
    Tabulated in event list, including 50/60** waveform cycles and 7.5s 1/2 cycle rms Voltage and Amps trend
    Measurement method
    Vrms, Arms
    10/12 cycle contiguous non-overlapping intervals using 500/4162 samples per cycle in accordance with IEC 61000-4-30
    Vpeak, Apeak
    Absolute highest sample value within 10/12 cycle interval with 40 μs sample resolution
    V Crest Factor
    Measures ratio between the Vpeak and Vrms
    A Crest Factor
    Measures ratio between the Apeak and Arms
    Hz
    Measured every 10 sec in accordance with IEC61000-4-30. Vrms½, Arms½ Value is measured over 1 cycle, commencing at a fundamental zero crossing, and refreshed each half-cycle.
    This technique is independent for each channel in accordance with IEC 61000-4-30
    Harmonics
    Calculated from 10/12-cycle gapless harmonic group measurements on Voltage and Amps according to IEC 61000-4-7
    Watt
    Full and fundamental real power display. Calculates average value of instantaneous power over 10/12 cycle period for each phase. Total Active Power PT = P1 + P2 + P3.
    VA
    Full and fundamental apparent power display. Calculates apparent power using Vrms x Arms value over 10/12 cycle period.
    var
    Fundamental reactive power display. Calculates reactive power on fundamental positive sequence components. Capacitive and inductive load is indicated with capacitor and inductor icons.
    VA Harmonics
    Total disturbance power due to harmonics. Calculated for each phase and for total system based upon total apparent power and fundamental real power
    VA Unbalance
    Unbalance power for total sytem. Calculated using symmetrical components method for fundamental apparent power and total apparent power.
    Power factor
    Calculated total watt/VA
    Cos
    Cosine of angle between fundamental voltage and current
    DPF
    Calculated fundamental Watt/VA
    Energy/energy cost
    Power values are accumulated over time for kWh values. Energy cost is calculated from user defined /kWh cost variable
    Unbalance
    The supply voltage unbalance is evaluated using the method of symmetrical components according to IEC61000-4-30
    Flicker
    According to IEC 61000-4-15 flickermeter—functional and design specification. Includes 230 V 50 Hz lamp and 120 V 60 Hz lamp models
    Transient capture
    Captures waveform triggered on signal envelope. Additionally triggers on dips, swells, interruptions and Amps level
    Inrush current
    The inrush current begins when the Arms half cycle rises above the inrush threshold, and ends when the Arms half cycle rms is equal to or below the inrush threshold minus a user-selected hysteresis value. The measurement is the square root of the mean of the squared Arms half cycle values measured during the inrush duration. Each half-cycle interval is contiguous and non-overlapping as recommended by IEC 61000-4-30. Markers indicate inrush duration. Cursors allow measurement of peak Arms half cycle.
    Mains signaling
    Measurements are based on: either the corresponding 10/12-cycle rms value interharmonic bin or the rms of the four nearest 10/12-cycle rms value interharmonic bins per IEC 61000-4-30. Limit setup for Monitor mode follows EN50160 standard limits.
    Time synchronization
    Optional GPS430-II timesync module provides time uncertainty ≤ 20 ms or ≤ 16.7 ms for time tagging of events and time aggregated measurements. When synchronization is not available, time tolerance is ≤ 1-s/24h
    General specifications
    Case
    Design Rugged, shock proof with integrated protective holster
    Drip and dust proof IP51 according to IEC60529 when used in tilt stand position Shock and vibration Shock 30 g, vibration: 3 g sinusoid, random 0.03 g2 /Hz according to MIL-PRF-28800F Class 2
    Display
    Brightness: 200 cd/m2 typ. using power adapter, 90 cd/m2 typical using battery power
    Size: 127 mm x 88 mm (153 mm/6.0 in diagonal) LCD
    Resolution: 320 x 240 pixels
    Contrast and brightness: user-adjustable, temperature compensated
    Memory
    8GB SD card (SDHC compliant, FAT32 formatted) standard, upto 32GB optionally Screen save and multiple data memories for storing data including recordings (dependent on memory size)
    Real-time clock
    Time and date stamp for Trend mode, Transient display, System Monitor and event capture
    Environmental
    Operating temperature
    0 °C ~ +40 °C; +40 °C ~ +50 °C excl. battery
    Storage temperature
    -20 °C ~ +60 °C
    Humidity
    +10 °C ~ +30 °C: 95% RH non-condensing
    +30 °C ~ +40 °C: 75% RH non-condensing
    +40 °C ~ +50 °C: 45% RH non-condensing
    Maximum operating altitude
    Up to 2,000 m (6666 ft) for CAT IV 600 V, CAT III 1000 V
    Up to 3,000 m (10,000 ft) for CAT III 600 V, CAT II 1000 V
    Maximum storage altitude 12 km (40,000 ft)
    Electro-Magnetic-Compatibility (EMC)
    EN 61326 (2005-12) for emission and immunity
    Interfaces
    mini-USB-B, Isolated USB port for PC connectivity SD card slot accessible behind instrument battery
    For full Fluke 437-II Power Quality Logger product specifications, please click here:
    Fluke 437-II
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