Firmware Update V05.07 (.exe) This update applies to all Fluke 430-II models. The update is specifically to add new, important functionality to the Fluke 438-II. This new functionality enables user to perform motor analysis on inverter driven motors, please consult the the product page for the Fluke 438-II and the operator manual supplement. In this video, you'll learn how to transfer data from the Fluke 435 II Power Quality and Energy Analyzer to the compatible Power Log software. There a couple of ways to transfer the data from the. Fluke 435 Series II Power Quality and Energy Analyzer. Wrapped in a lightweight, rugged package, the Fluke 435 II Energy Analyzer is the ideal portable power quality instrument providing advanced power quality functionality and energy analysis capabilities. View and Download Fluke 435-II service manual online. Three Phase Energy and Power Quality Analyzer. 435-II Measuring Instruments pdf manual download. Also for: 434-ii, 437-ii.
- Fluke 435 Software Download For Pc
- Fluke 435 software download, free
- Fluke 435 Power Log software, free download
Wrapped in a lightweight, rugged package, the Fluke 435 II Energy Analyzer is the ideal portable power quality instrument providing advanced power quality functionality and energy analysis capabilities.
The Fluke 435-II is specifically designed with the needs maintenance engineers and technicians in mind; users who need to get to the solution of the power quality problem as quickly as possible so that they can minimize expensive downtime. The measurement process and display of data
- View and Download Fluke 435-II technical data manual online. Three-Phase Power Quality and Energy Analyzers. 435-II Measuring Instruments pdf manual download. Also for: 430 series ii.
- Download Version 2.10 firmware update for Fluke 435. When asked, select Save to save the software update on your hard disk. Open the file you just saved on your hard disk.
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Model: 435-II
Capture fast RMS data, show half-cycle and waveforms to characterize electrical system dynamics with this power quality and energy analyzer. Quickly understand the capacity of your existing electrical panels, troubleshoot circuit breaker trips and uncover and monetize energy costs.
Capture fast RMS data, show half-cycle and waveforms to characterize electrical system dynamics with this power quality and energy analyzer. Quickly understand the capacity of your existing electrical panels, troubleshoot circuit breaker trips and uncover and monetize energy costs.
Fluke 435-II Offers
Advanced power quality functions, unprecedented energy analysis capabilities
Power quality issues may affect the operation of critical loads and impact on your bottom line negatively. Think of this power quality and energy analyzer as an insurance policy. The user can calculate the cost of wasted energy due to poor power quality, and troubleshoot the source of power quality or motor performance issues. Additionally, it's designed to provide the user with the data needed to quickly get to the root of the problem.
- Quickly see how much money you’re losing due to energy waste in terms of real dollars
- Easily see how motor startups are affecting motor drive performance
- Get at-a-glance power quality health data in real-time so you can make better maintenance decisions
- Capture every measurement automatically without any set-up so you don’t have to worry about not having the right data
- Measure all three phases and neutral with the included flexible current probes
* View data locally on the instrument, via Fluke Connect mobile app and PowerLog 430-II desktop software
Features
- Energy loss calculator: Classic active and reactive power measurements, unbalance and harmonic power, are quantified to pinpoint true system energy losses in dollars (other local currencies available)
- Power inverter efficiency: Simultaneously measure AC output power and DC input power for power electronics systems using optional DC clamp
- PowerWave data capture: Captures fast RMS data, show half-cycle and waveforms to characterize electrical system dynamics (generator start-ups, UPS switching etc.)
- Waveform capture: Captures 50/60 cycles (50/60Hz) of each event that is detected in all modes, without set-up
- Automatic Transient Mode: Captures 200 kHz waveform data on all phases simultaneously up to 6 kV
- Fully Class-A compliant: Conducts tests according to the stringent international IEC 61000-4-30 Class-A standard
- Mains signaling: Measures interference from ripple control signals at specific frequencies
- Troubleshoot: Analyze the trends using the cursors and zoom tools
- Highest safety rating in the industry: 600 V CAT IV/1000 V CAT III rated for use at the service entrance
- Measure all three phases and neutral: With included four flexible current probes with enhanced thin flex designed to fit into the tightest places
- Automatic Trending: Every measurement is always automatically recorded, without any set-up
- System-Monitor: Ten power quality parameters on one screen according to EN50160 power quality standard
- Logger function: Configure for any test condition with memory for up to 600 parameters at user defined intervals
- View graphs and generate reports: With included analysis software
- Battery life: Up to 8 hours operating time per charge on Li-ion battery pack
- Wireless data download: Download data to PC wirelessly and capture screens using Fluke Connect App
- Measure multiple parameters simultaneously to quickly understand overall power quality health
- View data as simple digital values or more detailed trend graphs that give you fast insight into changes over time, waveforms, and phasor diagrams
- Organize data in tabular format so you can quickly correlate parameters like magnitude, duration, and time to the issues you are experiencing in your facility
Applications
- Frontline troubleshooting: Quickly diagnose problems on-screen to get your operation back online
- Long-term analysis: Uncover hard-to-find or intermittent issues
- Load studies: Verify the available electrical system capacity before adding loads
- PowerWave data capture: Capture every waveform for up to 5 minutes along with fast RMS values so you can determine how the voltage, current and frequency values are interacting
- Power inverter efficiency: Measure the input and output power simultaneously to discover whether the inverter is optimized for its application
- Energy monetization: Calculate the fiscal cost of energy waste due to poor power quality
- Energy assessment: Quantify the before and after installation improvements in energy consumption to justify energy saving devices
- Predictive maintenance: Periodic benchmarking of the power system can help detect and prevent power quality issues before they cause downtime
Energy savings
Traditionally energy savings are achieved by monitoring and targeting, or in other words, by finding the major loads in a facility and optimizing their operation. The cost of power quality could only be quantified in terms of downtime caused by lostproduction and damage to electrical equipment. The unified power measurement (UPM) method now goes beyond this to achieve energy savings by discovering the energy waste caused by power quality issues. Using the unified power measurement, the energy loss calculator will determine how much money a facility is losing due to waste energy.
Unbalance
UPM gives a more comprehensive breakdown of the energy consumed in the plant. In addition to measuring reactive power (caused by poor power factor), UPM also measures the energy waste caused by unbalance; the effect of unevenly loading each phase in three-phase systems. Unbalance can often be corrected by reconnecting loads on different phases to ensure the current drawn on each phase is as equal as possible. Unbalance can also be corrected by installing an unbalance reactance device (or filter), that will minimize the effects. Correcting unbalance should be basic good housekeeping in the facility as unbalance problems can cause motor failure or shorten equipment life expectancy. Unbalance also wastes energy. Using UPM can minimize or eliminate that energy waste.
Harmonics
UPM also provides details of the energy wasted in your facility due to the presence of harmonics. Harmonics may be present in your facility due to the loads you operate or may be caused by loads in adjacent facilities. The presence of harmonics inyour facility can lead to:
- Overheating transformers and conductors
- Nuisance tripping of circuit breakers
- Early failures of electrical equipment
Quantifying the cost of wasted energy due to the presence of harmonics simplifies the return-oninvestment calculation needed to justify purchasing harmonic filters. By installing a harmonic filter the ill effects of harmonics can be reduced and energy waste eliminated, resulting in lower operational costs and more reliable operation.
Energy loss calculator - calculate money lost to energy waste in terms of real dollars
It’s a simple fact, poor power quality can have a big impact on the bottom line. This power quality analyzer enables you to identify issues and measure energy loss giving you specific insight into the amount of loss in dollars associated with things like effective power and with poor power quality characteristics such as reactive power, unbalance, distortion, or neutral current. The power anlayzer even offers users the flexibility to input cable length and cable diameter so you can calculate loss due to conductor sizing (Or use AUTO mode if you don’t know your cable specification) and enter up to four unique time-dependent daily rates (kWh) for more accurate calculations. Armed with this critical data users can easily justify the investment necessary to take countermeasures.
Powerful troubleshooting capabilities
Specifically designed with the needs maintenance engineers and technicians in mind; users who need to get to the solution of the power quality problem as quickly as possible so that they can minimize expensive downtime. The measurement process and display of data is optimized to get to the most important information as quickly as possible. Multiple parameters are measured simultaneously and displayed in formats that quickly describe the state of the power quality of the system. Data can be quickly accessed as simple digital values, trend graphs, waveforms, phasor diagrams or analyzed and organized into tabular format such as the event data where the magnitude, duration and time stamping enable rapid correlation to problems experienced.
AutoTrend - Quickly see the trend
Unique autotrend gives you fast insight into changes over time. Every displayed reading is automatically and continuously recorded without having to set up threshold levels or having to manually start the process. You can quickly view trends in voltage, current, frequency, power, harmonics or flicker on all three phases plus neutral.
The system - monitor overview screen
Instant insight into whether the voltage, harmonics, flicker, frequency and the number of dips and swells fall outside the set limits. A detailed list is given of all events falling outside the set limits.
PowerWave data capture
For some users, load 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 a 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.
PowerWave data capture - quickly identify how motor and generator startups are impacting equipment performance
With PowerWave data capture you can capture three-phase high resolution voltage and current waveforms for up to five minutes along with detailed RMS voltage and current values. By analyzing the interaction of these values over time you can correlate the effects of voltage, current and frequency during the critical startup of motors and generators. PowerWave even goes beyond the standard power quality measurements allowing you to record half cycle rms values on 8 channels, frequency and instantaneous power (Vrms1/2, Arms1/2, W, Hz and scope waveforms for voltage, amps and watts).
Advanced power quality health
Advanced power quality health - at-a-glance power quality health data in real-time so you have the data you need, when you need it
This power analyzer utilize an integrated power quality health summary that gives you an at-a-glance view of a complete range of power quality issues in real time. With a simple graphical presentation, complete with tolerance limits, you can quickly discover which power quality problems may be present on your electrical system. If you don’t know where to start or what problems might exist the advanced power quality health summary will simplify the task.
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. This energy analyzer 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.
With a unique autotrend feature you can get fast insight into changes over time. Every displayed reading is automatically and continuously recorded without having to set up threshold levels or having to manually start the process So you can quickly view trends in voltage, current, frequency, power, harmonics or flicker on all three phases plus neutral.
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 this patented unified power function you can use one handheld tool to determine how much power is being wasted, and calculate exactly what the extra consumption costs.
The 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.
SystemMonitor - check performance against EN50160 with ease
The unique system-monitor gives you an overview of power system performance (there is no button or single function) and checks the compliance of incoming power to EN50160 limits or to your own custom specifications. The overview is shown on a single screen, with color-coded bars clearly indicating which parameters fall outside the limits.
Logging function allows you to customize measurement selections and provides instantaneous analysis of user-selectable parameters.
Measure and record power (W), VA and VARs, PF and energy consumption.
Track harmonics up to the 50th, and measure and record THD in accordance with IEC61000-4-7 requirements.
Fluke power quality and energy tools
Fluke offers an extensive range of power quality test tools for troubleshooting, preventive maintenance, and long-term recording and analysis in industrial, utilities and commercial building applications.
Power quality troubleshooters and analyzers:
Dedicated power and power quality meters for single-phase and three-phase frontline power quality troubleshooting with load studies, energy waste analysis and quality of service compliance testing. Along with models for advanced power quality and motor analyzers for predictive maintenance.
Power quality and energy loggers:
Power and Energy loggers for characterizing power quality, conducting energy and load studies and capturing hard-to-find voltage events over a user-defined period of time.
Power quality recorders:
Advanced power quality recorders for capturing comprehensive details of power disturbances including waveforms, trend analysis and Class-A ‘quality-of-service’ compliance testing over long period of time to capture the most difficult to trace problems.
Fluke 435-II Specifications
Volt | |
Vrms (AC + DC) | Measurement range: 1 to 1000 V phase to neutral Resolution: 0.01 V Accuracy: ±0.1% of nominal voltage1 |
Vpk | Measurement range: 1 to 1400 Vpk Resolution: 1 V Accuracy: 5% of nominal voltage |
Voltage Crest Factor (CF) | Measurement range: 1.0 > 2.8 Resolution 0.01 Accuracy: ±5% |
Vrms1/2 | Resolution: 0.1 V Accuracy: ±0.2% of nominal voltage |
Amps | |
i430-Flex 1x | Measurement range: 5 to 6000 A Resolution: 1 A Accuracy: ±0.5% ±5 counts |
i430-Flex 10x | Measurement range: 0.5 to 600 A Resolution: 0.1 A Accuracy: ±0.5% ±5 counts |
1mV/A 1x | Measurement range: 5 to 2000 A Resolution: 1 A Accuracy: ±0.5% ±5 counts |
1mV/A 10x | Measurement range: 0.5 to 200 A (AC only) Resolution: 0.1 A Accuracy: ±0.5% ±5 counts |
i430-Flex | Measurement range: 8400 Apk Resolution: 1 Arms Accuracy: ±5% |
1mV/A | Measurement range: 5500 Apk Resolution: 1 Arms Accuracy: ±5% |
What's included with the Fluke 435-II
- Power Quality and Energy Analyzer
- 4 x 24' (61 cm) Flexible Current Probes
- Test Lead & Alligator Clip Set
- Clips and Regional Decals
- 8 GB SD Card
- USB Cable
- Carrying Case
- Power Adapter
- International Plug Adapter Set
- Single Capacity 28 Wh Li-Ion Battery
- PowerLog on CD (Includes Operator Manuals in PDF Format)
Model | Fluke 434-II | Fluke 435-II | Fluke 437-II |
---|---|---|---|
Standard compliance | IEC 61000-4-30 Class S | IEC 61000-4-30 Class A | IEC 61000-4-30 Class A |
Volt Amp Hz | |||
Dips and swells | |||
Harmonics | |||
Power and energy | |||
Energy loss calculator | |||
Unbalance | |||
Monitor | |||
Inrush | |||
Event waveform capture | |||
Flicker | |||
Transients | |||
Mains signaling | |||
Power wave | |||
Power inverter efficiency | |||
400Hz | |||
C1740 Soft Case | |||
C437-II Hard Case with rollers | |||
SD card (Max 32 GB) | 8 GB | 8 GB | 8 GB |
All models include the following accessories TL430 test lead set, 4 x i430 thin flexi current probes, BP290 battery, BC430 power adapter with international power adapter set, USB cable A-B mini and PowerLog CD.
Fluke 430 Series II Models
434 Series II Energy Analyze
The Fluke 434 Series II Energy Analyzer is the ideal tool for energy logging. Utilizing the new Energy Loss Calculator function, the 434 II measures the fiscal cost of energy wasted due to poor power quality. This energy monetization capability identi-fies the most energy-wasteful areas of your facility, enabling you to identify energy saving solutions. Add basic power quality measurements to the pack-age and you’ve got yourself one powerful trouble-shooting tool.
435 Series II Power Quality and Energy Analyzer
Think of the Fluke 435 Series II Power Quality and Energy Analyzer as your insurance policy. No matter what goes wrong in your facility, with the 435 II you will always be prepared. Equipped with advanced power quality functions and energy monetization capabilities, there is no electrical issue this model can’t handle.
- PowerWave function captures fast RMS values and allows you to see every waveform to determine how the voltage, current and frequency values are interacting.
- Power Inverter Efficiency function measures both ac power and dc power, in and out, to monitor the efficiency of your inverters.
- And, as with the other 430 Series II models, the 435 II features an Energy Loss Calculator that will monetize energy waste due to poor power quality, helping you save on the energy bill.
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 trans-port applications.
Perform custom analysis and create reports with included software. Measurement data can also be exported to common spreadsheet programs.
Generate reports and view graphs with Fluke Power Log Software
Designed to quickly view recorded data, the included Power Log software displays all recorded parameters on interactive trends. Generate a professional report with the 'Report Writer' function, or copy and paste images into report document manually.
FlukeView Power Quality Analyzer Software (SW43W) offers you simple mouse-controlled tools to work with your Power Quality Analyzer.
The FlukeView software communicates with your Power Quality Analyzer via the optically isolated OC4USB adapter/cable connected to the USB of the PC. The OC4USB driver creates a virtual COM port. FlukeView will handle the USB port as a COM port.
- Capture measurement screens for professional-looking reports
- Log readings to your computer disk drive
- Works with Windows® word processing, spreadsheet and analysis software
- Windows® 3.1, Windows® 95 and Windows® NT compatible
Note:
The optional RS-232 adapter/cable PM9080 allows you to communicate via a COM port of your PC.
Fluke: Which Power Quality Tool do I need to do my job?
This video will teach the user how to select a power quality tool depending on their job. There are 3 kinds of power quality tools for 3 phases: loggers (Fluke 1736), trouble shooters (Fluke 435) or recorders (Fluke 1750).
How To Connect Using The Phasor Diagram On A Fluke 435 Series II Power Quality Analyzer
In this video, the user will learn how to turn on and configure their power quality and energy analyzer for the power network that they're working with. This instrument will also allow the user to Quickly understand the capacity of your existing electrical panels, troubleshoot circuit breaker trips and uncover and monetize energy costs.
Differences Between The Logging Capture Interval and Sample Rate on a Fluke 435 Series II
In this video, the viewer will learn the difference between a logging capture interval and a sample rate on this power quality and energy analyzer.
How To Perform A Logger Set-Up On The Fluke 435 Series II Power Quality Analyzer_
This video will serve as a tutorial on how to use the instruments logger function. The logger function allows the user to configure which measurements they would want to record and the document before beginning a power quality test.
How To Perform A Trend Configuration On The Fluke 435 Series II Power Quality Analyzer
In this video, the user will learn how to set up this three-phase power quality and energy analyzer for trending. Power quality issues may affect the operations of critical loads. Also, it may have a negative impact on the user's bottom line.
How To Check For Voltage Dips And Swells Using The Fluke 435
This video will teach the user how to set up their three-phase power quality and energy analyzer to measure dips and swells. Power quality issues may negatively impact the user's bottom line. Furthermore, these issues can as well affect the operations of critical loads.
How To Use A Harmonics Test In A Fluke 435 Power Quality Analyzer
This video will serve as a tutorial video that will teach the user how to use the harmonics test on this three-phase power quality and energy analyzer. One thing to keep in mind is that the event counter is always on. Therefore, even during a harmonics test, this instrument can still detect other voltage events.
How To Transfer Data From The Fluke 435 To The Power Log Software
There are a few ways to transfer the data to your computer. This video will show a step by step tutorial that will teach you how to transfer data from your 3-phase power quality and energy analyzer to the power log software using the SD card.
How To Perform A Transient Capture On The Fluke 435 II Power Analyzer
This video is a step by step tutorial on how to set this power quality and energy analyzer to capture transients. Additionally, this instrument helps locate, predict, prevent, and troubleshoot power quality problems in three-phase and single-phase power distribution systems.
Click on a category to view a selection of compatible accessories with the Fluke 435-II Power Quality and Energy Analyzer.
Fluke BC430 Line Voltage Adapter/Battery Charger BC430/830
Universal plug-in battery charger and line power wall transformer for Fluke 430X Series power quality analyzers.Fluke BP291 Double Capacity Li-Ion Battery Pack BP291
For Fluke 43X power quality analyzers and 190-series ScopeMeters.Fluke EBC290 External Battery Charger EBC290
External battery charger for BP290-Series Li-ion batteries for Fluke ScopeMeters and power quality analyzers. The BC190 is a mandatory accessory for this product.Fluke WC100 multi color wire clips WC100
For use with Fluke 430-Series power quality analyzers.Fluke AC285 SureGrip Large Jaw Alligator Clip Set AC285
Recommended for use with TL222 and TL224 Test Leads.Fluke i6000s Flex-24 AC Current Probe I6000S-FLEX-24
Flexible 24' 6000A AC current probe with BNC terminated lead.Fluke i310s Current Probe I310S
AC/DC Clamp. Features a range of 30A and 300A AC & 45A and 450A DC.Fluke i30s AC/DC Current Clamp I30S
30A AC/DC current clamp with BNC terminated lead.Fluke i5sPQ3, 5A AC Current Clamps, 3-pack I5SPQ3
A pack of 3 pieces of the i5s current clamps, specially configured to provide low current accuracy while taking measurements on secondary current transformers.Fluke i5S AC Current Clamp 5A I5S
5A Clamp-on CT for Fluke 434. Part # i5S.Fluke i400S AC Current Clamp I400S
400A AC current clamp with BNC terminated lead.Fluke TLS430 - Test Leads and Alligator Clips (4 black, 1 green) TLS430
Fluke HH290 Hanging Hook HH290
Hanging Hook for ScopeMeter 190-Series II.Customer Reviews for the Fluke 435-II
Ask a question about Fluke 435-II Power Quality and Energy Analyzer
Fluke 435-II Offers
Advanced power quality functions, unprecedented energy analysis capabilities
Power quality issues may affect the operation of critical loads and impact on your bottom line negatively. Think of this power quality and energy analyzer as an insurance policy. The user can calculate the cost of wasted energy due to poor power quality, and troubleshoot the source of power quality or motor performance issues. Additionally, it's designed to provide the user with the data needed to quickly get to the root of the problem.
- Quickly see how much money you’re losing due to energy waste in terms of real dollars
- Easily see how motor startups are affecting motor drive performance
- Get at-a-glance power quality health data in real-time so you can make better maintenance decisions
- Capture every measurement automatically without any set-up so you don’t have to worry about not having the right data
- Measure all three phases and neutral with the included flexible current probes
* View data locally on the instrument, via Fluke Connect mobile app and PowerLog 430-II desktop software
Features
- Energy loss calculator: Classic active and reactive power measurements, unbalance and harmonic power, are quantified to pinpoint true system energy losses in dollars (other local currencies available)
- Power inverter efficiency: Simultaneously measure AC output power and DC input power for power electronics systems using optional DC clamp
- PowerWave data capture: Captures fast RMS data, show half-cycle and waveforms to characterize electrical system dynamics (generator start-ups, UPS switching etc.)
- Waveform capture: Captures 50/60 cycles (50/60Hz) of each event that is detected in all modes, without set-up
- Automatic Transient Mode: Captures 200 kHz waveform data on all phases simultaneously up to 6 kV
- Fully Class-A compliant: Conducts tests according to the stringent international IEC 61000-4-30 Class-A standard
- Mains signaling: Measures interference from ripple control signals at specific frequencies
- Troubleshoot: Analyze the trends using the cursors and zoom tools
- Highest safety rating in the industry: 600 V CAT IV/1000 V CAT III rated for use at the service entrance
- Measure all three phases and neutral: With included four flexible current probes with enhanced thin flex designed to fit into the tightest places
- Automatic Trending: Every measurement is always automatically recorded, without any set-up
- System-Monitor: Ten power quality parameters on one screen according to EN50160 power quality standard
- Logger function: Configure for any test condition with memory for up to 600 parameters at user defined intervals
- View graphs and generate reports: With included analysis software
- Battery life: Up to 8 hours operating time per charge on Li-ion battery pack
- Wireless data download: Download data to PC wirelessly and capture screens using Fluke Connect App
- Measure multiple parameters simultaneously to quickly understand overall power quality health
- View data as simple digital values or more detailed trend graphs that give you fast insight into changes over time, waveforms, and phasor diagrams
- Organize data in tabular format so you can quickly correlate parameters like magnitude, duration, and time to the issues you are experiencing in your facility
Applications
- Frontline troubleshooting: Quickly diagnose problems on-screen to get your operation back online
- Long-term analysis: Uncover hard-to-find or intermittent issues
- Load studies: Verify the available electrical system capacity before adding loads
- PowerWave data capture: Capture every waveform for up to 5 minutes along with fast RMS values so you can determine how the voltage, current and frequency values are interacting
- Power inverter efficiency: Measure the input and output power simultaneously to discover whether the inverter is optimized for its application
- Energy monetization: Calculate the fiscal cost of energy waste due to poor power quality
- Energy assessment: Quantify the before and after installation improvements in energy consumption to justify energy saving devices
- Predictive maintenance: Periodic benchmarking of the power system can help detect and prevent power quality issues before they cause downtime
Energy savings
Traditionally energy savings are achieved by monitoring and targeting, or in other words, by finding the major loads in a facility and optimizing their operation. The cost of power quality could only be quantified in terms of downtime caused by lostproduction and damage to electrical equipment. The unified power measurement (UPM) method now goes beyond this to achieve energy savings by discovering the energy waste caused by power quality issues. Using the unified power measurement, the energy loss calculator will determine how much money a facility is losing due to waste energy.
Unbalance
UPM gives a more comprehensive breakdown of the energy consumed in the plant. In addition to measuring reactive power (caused by poor power factor), UPM also measures the energy waste caused by unbalance; the effect of unevenly loading each phase in three-phase systems. Unbalance can often be corrected by reconnecting loads on different phases to ensure the current drawn on each phase is as equal as possible. Unbalance can also be corrected by installing an unbalance reactance device (or filter), that will minimize the effects. Correcting unbalance should be basic good housekeeping in the facility as unbalance problems can cause motor failure or shorten equipment life expectancy. Unbalance also wastes energy. Using UPM can minimize or eliminate that energy waste.
Harmonics
UPM also provides details of the energy wasted in your facility due to the presence of harmonics. Harmonics may be present in your facility due to the loads you operate or may be caused by loads in adjacent facilities. The presence of harmonics inyour facility can lead to:
- Overheating transformers and conductors
- Nuisance tripping of circuit breakers
- Early failures of electrical equipment
Quantifying the cost of wasted energy due to the presence of harmonics simplifies the return-oninvestment calculation needed to justify purchasing harmonic filters. By installing a harmonic filter the ill effects of harmonics can be reduced and energy waste eliminated, resulting in lower operational costs and more reliable operation.
Energy loss calculator - calculate money lost to energy waste in terms of real dollars
It’s a simple fact, poor power quality can have a big impact on the bottom line. This power quality analyzer enables you to identify issues and measure energy loss giving you specific insight into the amount of loss in dollars associated with things like effective power and with poor power quality characteristics such as reactive power, unbalance, distortion, or neutral current. The power anlayzer even offers users the flexibility to input cable length and cable diameter so you can calculate loss due to conductor sizing (Or use AUTO mode if you don’t know your cable specification) and enter up to four unique time-dependent daily rates (kWh) for more accurate calculations. Armed with this critical data users can easily justify the investment necessary to take countermeasures.
Powerful troubleshooting capabilities
Specifically designed with the needs maintenance engineers and technicians in mind; users who need to get to the solution of the power quality problem as quickly as possible so that they can minimize expensive downtime. The measurement process and display of data is optimized to get to the most important information as quickly as possible. Multiple parameters are measured simultaneously and displayed in formats that quickly describe the state of the power quality of the system. Data can be quickly accessed as simple digital values, trend graphs, waveforms, phasor diagrams or analyzed and organized into tabular format such as the event data where the magnitude, duration and time stamping enable rapid correlation to problems experienced.
AutoTrend - Quickly see the trend
Unique autotrend gives you fast insight into changes over time. Every displayed reading is automatically and continuously recorded without having to set up threshold levels or having to manually start the process. You can quickly view trends in voltage, current, frequency, power, harmonics or flicker on all three phases plus neutral.
The system - monitor overview screen
Instant insight into whether the voltage, harmonics, flicker, frequency and the number of dips and swells fall outside the set limits. A detailed list is given of all events falling outside the set limits.
PowerWave data capture
For some users, load 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 a 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.
PowerWave data capture - quickly identify how motor and generator startups are impacting equipment performance
With PowerWave data capture you can capture three-phase high resolution voltage and current waveforms for up to five minutes along with detailed RMS voltage and current values. By analyzing the interaction of these values over time you can correlate the effects of voltage, current and frequency during the critical startup of motors and generators. PowerWave even goes beyond the standard power quality measurements allowing you to record half cycle rms values on 8 channels, frequency and instantaneous power (Vrms1/2, Arms1/2, W, Hz and scope waveforms for voltage, amps and watts).
Advanced power quality health
Advanced power quality health - at-a-glance power quality health data in real-time so you have the data you need, when you need it
This power analyzer utilize an integrated power quality health summary that gives you an at-a-glance view of a complete range of power quality issues in real time. With a simple graphical presentation, complete with tolerance limits, you can quickly discover which power quality problems may be present on your electrical system. If you don’t know where to start or what problems might exist the advanced power quality health summary will simplify the task.
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. This energy analyzer 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.
With a unique autotrend feature you can get fast insight into changes over time. Every displayed reading is automatically and continuously recorded without having to set up threshold levels or having to manually start the process So you can quickly view trends in voltage, current, frequency, power, harmonics or flicker on all three phases plus neutral.
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 this patented unified power function you can use one handheld tool to determine how much power is being wasted, and calculate exactly what the extra consumption costs.
The 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.
SystemMonitor - check performance against EN50160 with ease
The unique system-monitor gives you an overview of power system performance (there is no button or single function) and checks the compliance of incoming power to EN50160 limits or to your own custom specifications. The overview is shown on a single screen, with color-coded bars clearly indicating which parameters fall outside the limits.
Logging function allows you to customize measurement selections and provides instantaneous analysis of user-selectable parameters.
Measure and record power (W), VA and VARs, PF and energy consumption.
Track harmonics up to the 50th, and measure and record THD in accordance with IEC61000-4-7 requirements.
Fluke power quality and energy tools
Fluke offers an extensive range of power quality test tools for troubleshooting, preventive maintenance, and long-term recording and analysis in industrial, utilities and commercial building applications.
Power quality troubleshooters and analyzers:
Dedicated power and power quality meters for single-phase and three-phase frontline power quality troubleshooting with load studies, energy waste analysis and quality of service compliance testing. Along with models for advanced power quality and motor analyzers for predictive maintenance.
Power quality and energy loggers:
Power and Energy loggers for characterizing power quality, conducting energy and load studies and capturing hard-to-find voltage events over a user-defined period of time.
Power quality recorders:
Advanced power quality recorders for capturing comprehensive details of power disturbances including waveforms, trend analysis and Class-A ‘quality-of-service’ compliance testing over long period of time to capture the most difficult to trace problems.
Fluke 435-II Specifications
Volt | |
Vrms (AC + DC) | Measurement range: 1 to 1000 V phase to neutral Resolution: 0.01 V Accuracy: ±0.1% of nominal voltage1 |
Vpk | Measurement range: 1 to 1400 Vpk Resolution: 1 V Accuracy: 5% of nominal voltage |
Voltage Crest Factor (CF) | Measurement range: 1.0 > 2.8 Resolution 0.01 Accuracy: ±5% |
Vrms1/2 | Resolution: 0.1 V Accuracy: ±0.2% of nominal voltage |
Amps | |
i430-Flex 1x | Measurement range: 5 to 6000 A Resolution: 1 A Accuracy: ±0.5% ±5 counts |
i430-Flex 10x | Measurement range: 0.5 to 600 A Resolution: 0.1 A Accuracy: ±0.5% ±5 counts |
1mV/A 1x | Measurement range: 5 to 2000 A Resolution: 1 A Accuracy: ±0.5% ±5 counts |
1mV/A 10x | Measurement range: 0.5 to 200 A (AC only) Resolution: 0.1 A Accuracy: ±0.5% ±5 counts |
i430-Flex | Measurement range: 8400 Apk Resolution: 1 Arms Accuracy: ±5% |
1mV/A | Measurement range: 5500 Apk Resolution: 1 Arms Accuracy: ±5% |
What's included with the Fluke 435-II
- Power Quality and Energy Analyzer
- 4 x 24' (61 cm) Flexible Current Probes
- Test Lead & Alligator Clip Set
- Clips and Regional Decals
- 8 GB SD Card
- USB Cable
- Carrying Case
- Power Adapter
- International Plug Adapter Set
- Single Capacity 28 Wh Li-Ion Battery
- PowerLog on CD (Includes Operator Manuals in PDF Format)
Model | Fluke 434-II | Fluke 435-II | Fluke 437-II |
---|---|---|---|
Standard compliance | IEC 61000-4-30 Class S | IEC 61000-4-30 Class A | IEC 61000-4-30 Class A |
Volt Amp Hz | |||
Dips and swells | |||
Harmonics | |||
Power and energy | |||
Energy loss calculator | |||
Unbalance | |||
Monitor | |||
Inrush | |||
Event waveform capture | |||
Flicker | |||
Transients | |||
Mains signaling | |||
Power wave | |||
Power inverter efficiency | |||
400Hz | |||
C1740 Soft Case | |||
C437-II Hard Case with rollers | |||
SD card (Max 32 GB) | 8 GB | 8 GB | 8 GB |
All models include the following accessories TL430 test lead set, 4 x i430 thin flexi current probes, BP290 battery, BC430 power adapter with international power adapter set, USB cable A-B mini and PowerLog CD.
Fluke 430 Series II Models
434 Series II Energy Analyze
The Fluke 434 Series II Energy Analyzer is the ideal tool for energy logging. Utilizing the new Energy Loss Calculator function, the 434 II measures the fiscal cost of energy wasted due to poor power quality. This energy monetization capability identi-fies the most energy-wasteful areas of your facility, enabling you to identify energy saving solutions. Add basic power quality measurements to the pack-age and you’ve got yourself one powerful trouble-shooting tool.
435 Series II Power Quality and Energy Analyzer
Think of the Fluke 435 Series II Power Quality and Energy Analyzer as your insurance policy. No matter what goes wrong in your facility, with the 435 II you will always be prepared. Equipped with advanced power quality functions and energy monetization capabilities, there is no electrical issue this model can’t handle.
- PowerWave function captures fast RMS values and allows you to see every waveform to determine how the voltage, current and frequency values are interacting.
- Power Inverter Efficiency function measures both ac power and dc power, in and out, to monitor the efficiency of your inverters.
- And, as with the other 430 Series II models, the 435 II features an Energy Loss Calculator that will monetize energy waste due to poor power quality, helping you save on the energy bill.
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 trans-port applications.
Perform custom analysis and create reports with included software. Measurement data can also be exported to common spreadsheet programs.
Generate reports and view graphs with Fluke Power Log Software
Designed to quickly view recorded data, the included Power Log software displays all recorded parameters on interactive trends. Generate a professional report with the 'Report Writer' function, or copy and paste images into report document manually.
FlukeView Power Quality Analyzer Software (SW43W) offers you simple mouse-controlled tools to work with your Power Quality Analyzer.
The FlukeView software communicates with your Power Quality Analyzer via the optically isolated OC4USB adapter/cable connected to the USB of the PC. The OC4USB driver creates a virtual COM port. FlukeView will handle the USB port as a COM port.
- Capture measurement screens for professional-looking reports
- Log readings to your computer disk drive
- Works with Windows® word processing, spreadsheet and analysis software
- Windows® 3.1, Windows® 95 and Windows® NT compatible
Note:
The optional RS-232 adapter/cable PM9080 allows you to communicate via a COM port of your PC.
Fluke: Which Power Quality Tool do I need to do my job?
This video will teach the user how to select a power quality tool depending on their job. There are 3 kinds of power quality tools for 3 phases: loggers (Fluke 1736), trouble shooters (Fluke 435) or recorders (Fluke 1750).
How To Connect Using The Phasor Diagram On A Fluke 435 Series II Power Quality Analyzer
In this video, the user will learn how to turn on and configure their power quality and energy analyzer for the power network that they're working with. This instrument will also allow the user to Quickly understand the capacity of your existing electrical panels, troubleshoot circuit breaker trips and uncover and monetize energy costs.
Differences Between The Logging Capture Interval and Sample Rate on a Fluke 435 Series II
In this video, the viewer will learn the difference between a logging capture interval and a sample rate on this power quality and energy analyzer.
How To Perform A Logger Set-Up On The Fluke 435 Series II Power Quality Analyzer_
This video will serve as a tutorial on how to use the instruments logger function. The logger function allows the user to configure which measurements they would want to record and the document before beginning a power quality test.
How To Perform A Trend Configuration On The Fluke 435 Series II Power Quality Analyzer
In this video, the user will learn how to set up this three-phase power quality and energy analyzer for trending. Power quality issues may affect the operations of critical loads. Also, it may have a negative impact on the user's bottom line.
How To Check For Voltage Dips And Swells Using The Fluke 435
This video will teach the user how to set up their three-phase power quality and energy analyzer to measure dips and swells. Power quality issues may negatively impact the user's bottom line. Furthermore, these issues can as well affect the operations of critical loads.
How To Use A Harmonics Test In A Fluke 435 Power Quality Analyzer
This video will serve as a tutorial video that will teach the user how to use the harmonics test on this three-phase power quality and energy analyzer. One thing to keep in mind is that the event counter is always on. Therefore, even during a harmonics test, this instrument can still detect other voltage events.
How To Transfer Data From The Fluke 435 To The Power Log Software
There are a few ways to transfer the data to your computer. This video will show a step by step tutorial that will teach you how to transfer data from your 3-phase power quality and energy analyzer to the power log software using the SD card.
How To Perform A Transient Capture On The Fluke 435 II Power Analyzer
This video is a step by step tutorial on how to set this power quality and energy analyzer to capture transients. Additionally, this instrument helps locate, predict, prevent, and troubleshoot power quality problems in three-phase and single-phase power distribution systems.
Click on a category to view a selection of compatible accessories with the Fluke 435-II Power Quality and Energy Analyzer.
Fluke BC430 Line Voltage Adapter/Battery Charger BC430/830
Universal plug-in battery charger and line power wall transformer for Fluke 430X Series power quality analyzers.Fluke BP291 Double Capacity Li-Ion Battery Pack BP291
For Fluke 43X power quality analyzers and 190-series ScopeMeters.Fluke EBC290 External Battery Charger EBC290
External battery charger for BP290-Series Li-ion batteries for Fluke ScopeMeters and power quality analyzers. The BC190 is a mandatory accessory for this product.Fluke 435 Software Download For Pc
Fluke WC100 multi color wire clips WC100
For use with Fluke 430-Series power quality analyzers.Fluke AC285 SureGrip Large Jaw Alligator Clip Set AC285
Recommended for use with TL222 and TL224 Test Leads.Fluke i6000s Flex-24 AC Current Probe I6000S-FLEX-24
Flexible 24' 6000A AC current probe with BNC terminated lead.Fluke i310s Current Probe I310S
AC/DC Clamp. Features a range of 30A and 300A AC & 45A and 450A DC.Fluke i30s AC/DC Current Clamp I30S
30A AC/DC current clamp with BNC terminated lead.Fluke i5sPQ3, 5A AC Current Clamps, 3-pack I5SPQ3
A pack of 3 pieces of the i5s current clamps, specially configured to provide low current accuracy while taking measurements on secondary current transformers.Fluke i5S AC Current Clamp 5A I5S
5A Clamp-on CT for Fluke 434. Part # i5S.Fluke i400S AC Current Clamp I400S
400A AC current clamp with BNC terminated lead.Fluke TLS430 - Test Leads and Alligator Clips (4 black, 1 green) TLS430
Fluke HH290 Hanging Hook HH290
Hanging Hook for ScopeMeter 190-Series II.Ask a question about Fluke 435-II Power Quality and Energy Analyzer
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