Notice: You are currently viewing the website. View the website instead »

WT3000E Precision Power Analyzer

Offering the world’s best power measurement accuracy, the WT3000E provides engineers with a solution for testing and verifying product efficiency. The WT3000E is ideal for the design and testing of Solar Inverters, Motor Drives, Lighting Systems, Uninterruptible Power Supplies, Transformer Testing, Aircraft Power Systems, and other power conversion devices.

With basic power accuracy of ±0.01% reading, DC and 0.1 Hz-1 MHz measurement bandwidths, and up to four input elements, the WT3000E provides high-accuracy measurement of I/O efficiency.

  • Basic power accuracy: 0.01% of reading
  • Both 2 A and 30 A input elements can be installed in a single unit
  • Good readability: 8.4-inch LCD and the range indicator LEDs
  • Simultaneous measurement with 2 units (Up to 8 power input elements)
  • Store function: 50 ms data storing interval
  • Multiple computer interface: GP-IB, Ethernet, RS-232 and USB
  • Advanced computation function: Waveform computation, FFT analysis, waveform sampling data saving.
  • The latest IEC61000-3-2 and IEC61000-3-12: Harmonic measurement 
  • The latest IEC61000-3-3 and IEC61000-3-11: Voltage fluctuation / flicker measurement

Yokogawa's highest-precision power analyzer

The WT3000E is a member of the WT series of power analyzers which are designed to meet a variety of user needs. The WT3000E has the highest precision of all the Yokogawa power analyzers in the WT series. The WT300E/WT500 series are high price-performance models popular for production line applications. The WT1800E allows measurement data to be viewed in a variety of ways, including numerical value display, waveform display, and trend display capabilities.

Power Analyzers

Reading error

Select the model most suited to your measurement needs

  • High accuracy and wide frequency range:
    Basic power accuracy:
        ±(0.01% of reading + 0.03% of range)
    Frequency range:
        DC, 0.1 Hz to 1 MHz

  • Low Power Factor Error:
    Power factor error when cos ø=0:
      0.03% of S where
        S is the reading value of apparent power
        ø is the phase angle between voltage and current

  • Current Range:
    Direct Input:
        0.5 / 1 /2 / 5 / 10 / 20 / 30 [A] or 5 / 10 / 20 / 50 / 100 / 200 / 500 [mA], 1 / 2 [A] *
             * 2A and 30A input elements can be installed together in one unit.

           External Input:
               50m / 100m / 200m / 500m / 1 / 2 / 5 / 10 [V]

  • Voltage Range and current range are for crest factor 3
    • 1000 [Vrms] Continuous maximum common mode voltage (50/60 Hz)
    • Data Update rate: 50 ms to 20 sec
    • Effective input range: 1% to 130%
    • Simultaneous measurement with 2 Units

Rear Panel

Wt30000E rear Panel

Standard Features Optional Features
  1. Voltage input terminals
  2. External current sensor input terminals
  3. Current input terminals
  4. GP-IB port
  5. BNC connector for two-system synchronized measurement
  1. Serial port (RS-232) (option/C2)
    or USB port (PC) (option/C12)
  2. Ethernet port (100BASE-TX/10BASE-T) (option/C7)
  3. VGA port (option/V1)
  4. D/A output (option/DA)
  5. Torque and speed input terminals (Motor Evaluation Option)

Characteristics

Example of basic characteristics showing the WT3000E’s high precision and excellent stability

Wt3graph5 

Delta Calculation Function

Checking phase voltage when you measure line to line voltage

Wt3deltaThis function allows you to calculate individual phase voltages from the line voltage measured in a threephase, three-wire (3V3A) system. R-S line voltage can be calculated in systems measured from a three-phase, three-wire method (using two elements). This is useful when you want to determine the phase voltage in motors and other items under test with no neutral lines. Line to line voltage and phase current (measurements equivalent to 3V3A) can be estimated in systems not measured from a three-phase, three-wire configuration (using two elements).

Cycle-by-cycle Measurement Function

Wt3cc
Example of calculation with
the cycle-by-cycle function

With fluctuating data occurring when connecting to interconnected systems, or with motor evaluation*, in certain circumstances you may need to capture rapidly changing phenomena (such as during load fluctuations in a motor). These tasks can be handled effectively with the cycle-by-cycle measurement function. The function takes measurements of parameters such as voltage, current, and active power for each cycle, then lists the data on screen in a time series. Up to 3000 data (measurements of signals from 0.1 Hz to 1000 Hz) can be saved in CSV format.
* Requires the motor evaluation option (/MTR)

 

Wt3motoreval

Range settings using direct key input

Simpler range settings

Wt3rangeThe range indicator on the WT3000E is a seven-segment green LED, so the set range can be monitored at all times. The range can easily be switched using the up and down arrows.

 Intuitive control using cursor keys  

Easier cursor navigation and numerical settings
Wt3cursorCursor keys can be used to move the screen cursor in four different directions, so it is easy and intuitive to set scaling factor and other settings.

Using item pages to set display preferences 

 Item pages make it easy to set the data you want to view for each experiment

Wt3itempg

The WT3000E has nine item pages for displaying measurement values. Once you set the measurement parameters you want displayed on a particular item page, you can easily switch between entire groups of displayed parameters. For example, the following settings make it easy to switch and compare data:

Page 1: Voltage, current, active power, and current frequency for input element 1
Page 2: Voltage, current, active power, and current frequency for input element 2
Page 3: Voltages for input elements 1, 2, 3, and 4
Page 4: Currents for input elements 1, 2, 3, and 4
Page 5: Power for input elements 1, 2, 3, and 4

A Variety of display formats 

 Formats for viewing waveforms as well as numerical values 

Wt3dispformThe WT3000E lets you display input signal waveforms in addition to numerical value data. This means you don't need to connect a special waveform analyzer just to check signal waveforms. 1
In addition, the optional advanced calculation function lets you display vectors and bar graphs for enhanced visual presentation. The information display shows voltage range, current range, filter, and scaling value all together, making it easy to check your settings. 2

1 Waveforms up to approximately 10 kHz can be displayed accurately.

2 More than 2 sets of same type input elements are required.

50ms data updating intervals 

High-speed measurement to capture rapid data fluctuations 

Fast updating allows you to precisely capture rapidly changing transient states in the measurement subject.

* The WT3000E switches between two different calculation systems depending on the data updating interval. See page other for details.

Compensation functions

For increased measurement precision 

The WT3000E has compensation functions for high-precision measurements. These functions can compensate for instrument-related losses resulting from the power meter’s internal impedance as well as losses related to wiring during measurement with two power meters. The following compensation functions are provided to compensate for instrument-related losses:

  • Efficiency compensation: This function compensates for instrument-related losses occurring during efficiency calculation.
  • Wiring compensation: This function compensates for instrument-related losses caused by wiring.

When measurements are performed using two power meters with three-phase three-wire wiring, errors may occur if current flows to the middle wire (or if there is a leakage current). The WT3000E has a function to compensate for such errors. Even when measurements are performed with two power meters (requires measurement with three-phase three-wire (3V3A) wiring), the current flowing to the middle wire is calculated, and a corresponding correction value can be added to the power measurement. This improves the accuracy of power measurements.

User-defined function 

A way to add user-defined measurement parameters 

 As many as twenty user-defined formulas can be set in the WT3000E. These equations can be used to calculate various parameters, such as mean active power (see "A variety of integration functions" below). 

Efficiency calculation function 

An easier way to input efficiency calculation formulas 

 This function can be used to set up to four efficiency calculation formulas.

A Variety of integration functions 

Apparent power integration and reactive power integration 

  • Active power, current, apparent power, reactive power
    In addition to the active power integration function (WP) and current integration function (q) included in earlier models, the WT3000E also has a new apparent power integration function (WS) and reactive power integration function (WQ).
  • A wide effective input range for high-precision integration
    The WT3000E has a wide effective input range, from 1% to 130% of the measurement range. This enables higher-precision integration measurements on measurement subjects with current values that fluctuate widely from large currents down to faint currents in the standby state.
  • Mean active power (using user-defined settings)
    Mean active power can be calculated over an integration interval. This feature is useful for evaluating the power consumed by intermittent-control instruments in which the power value fluctuates.

Wt3aap

Supports Crest Factor 6

The crest factor is the ratio of the waveform
peak value and the RMS value.
Wt3crestfactor
Wt3crest2

  When checking the measurable crest factor of our power measuring instruments, please refer to the following equation.

Wt3crest3

* However, the peak value of the measured signal must be less than or equal to the continuous maximum allowed input

* The crest factor on a power meter is specified by how many times peak input value is allowed relative to rated input value. Even if some measured signals exist whose crest factors are larger than the specifications of the instrument (the crest factor standard at the rated input), you can measure signals having crest factors larger than the specifications by setting a measurement range that is large relative to the measured signal. For example, even if you set CF = 3, CF5 or higher measurements are possible as long as the measured value (RMS) is 60% or less than the measuring range. Also, for a setting of CF = 3, measurements of CF = 300 are possible with the minimum effective input (1% of measuring range).

Store Function (Comes Standard with WT3000E)

Voltage, current, power, and other measured data can be stored to the unit's approximately thirty megabytes of internal memory. These data can be saved in binary or ASCII format on a PC card or USB memory*.

* The USB port (for peripherals) comes with the /C5 option.
Wt3store1 

Each measured item can be stored every data update interval. You can specify to store only the desired measured items, thus saving memory.

Wt3store2Files saved in ASCII format can be opened in general-purpose applications such as Excel allowing display of data in graphs.

* Please note that data saved in binary format can only be manipulated using dedicated software to be made available by Yokogawa.

 
Wt3store3
Excel Example
A wide variety of optional functions make it easy to perform sophisticated power evaluations.

When you purchase a WT3000E from Yokogawa, you get to select just the options you need. This approach lets you maximize performance at a lower cost.

Advanced Calculation Function (/G6 option)

The Advanced Calculation Function (/G6 option) provides for wide bandwidth harmonic measurement, IEC compliant harmonic measurement (requires harmonic measurement software), FFT calculation, waveform calculation functions, and saving of waveform sampling data.

Wide Bandwidth Harmonic Measurement Mode
Harmonic measurement for a frequency range of 0.1 Hz – 2.6 kHz

Enables harmonic measurement over wide bandwidths. Supports measure-ment of harmonic signals beyond those of the harmonic measurement func-tion in normal measurement mode. This option allows for harmonic analysis on waveforms with a fundamental frequency range of 0.1 Hz–2.6 kHz (*1). You can measure up to the 50th order harmonic at 1 kHz fundamental.(*2).

*1 0.1–10 Hz using an external sampling clock.
*2 Harmonic measurement of up to the 20th order possible in the 1 kHz to 2.6 kHz range.

Harmonic Measurement Function
Harmonic and normal power parameters measurement at same time

This function enables simultaneous measurement of normal and harmonic data, which was impossible with previous Yokogawa models. Since with the WT3000E you can simultaneously confirm total voltage and current as well as the distortion factor and fundamental wave without switching modes, this allows for more accurate and efficient measurement of the power supply quality, the fundamental wave of motor drive voltage, and other factors.

IEC Harmonic Measurement Mode
Can perform tests conforming to international standards.

The IEC harmonic measurement mode meets the window width requirement of the latest IEC harmonic standard (10 cycles of 50 Hz and 12 cycles of 60 Hz). Also, this mode allows users to use the 761922 harmonic measurement software to perform tests conforming to IEC 61000-3-2 and IEC61000-3-12.

* These modes cannot be used at the same time.

FFT Calculation Mode
More detailed frequency analysis than with the harmonic measurement mode.

Two FFT calculations can be performed simultaneously on waveform data of measured voltage and current. You can select a resolution for FFT of 1 Hz or 10 Hz. FFT analysis of up to 100 kHz can be performed.

Waveform Calculation Mode
Monitoring of instantaneous power waveforms.

Up to two waveform calculations and other Waveform Calculation functions can be used at once. If you create a formula that multiplies voltage and current waveforms, you can confirm an instantaneous power waveform on screen. Waveform Calculation data can be saved in CSV or WVF format.

Waveform Sampling Data Saving Function
Saving of detailed waveform data for confirmation.

All captured voltage and current waveform data (200 kS/s), calculated wave-forms, and FFT calculated waveforms can be saved. You can choose to save in CSV or WVF format, and to save to PC card or USB memory (/C5 option).

Motor Evaluation Option (/MTR)

  • Tm Wt3000 04Calculation of motor and total efficiency
    In addition to the functions of the standard version, the new models offer powerful motor/inverter evaluation functions
  • Voltage, current, and power measurement with torque and speed input
    Measures torque meter and speed sensor output (analog or pulse output), and allows calculation of torque, revolution speed, mechanical power, synchronous speed, slip, motor efficiency, and total efficiency in a single unit.

Added Frequency Measurement (/FQ) 

Checking the frequencies of all inputs 

In addition to the standard two channels of frequency measurement, a six-channel frequency measurement option is also available. This option provides frequency measurement of voltage and current on all eight channels (with input elements 1 through 4 installed). This is necessary when you want to measure voltage and current frequency from the instrument’s I/O as well as voltage and current frequencies of multiple items under test at the same time. 

D/A Output (/DA) 

Outputting measurement values as analog signals to other devices 

  • 20 channels
    Measured valuescan be output as ±5V 5V FS DC voltages from the D/A output connector on the rear panel. Measured parameters can be output on up to twenty channels simultaneously. Even with four input elements installed, you can send up to five types of data per element to D/A output.
  • D/A zoom
    Normally the D/A output function outputs DC voltage scaled to a range of -5V to 5V* with respect to the measurement range. For this reason, it may not be possible to observe fluctuations in a nearly constant signal if the D/A output is set to go to ±5V at the measurement range rated value. One case in which this could happen is when a 100V measurement voltage fluctuates in the range of ±3V.
    The WT3000E has a D/A zoom function to solve such problems. This function allows the any input signal range to be scaled to between -5V and 5V* in the D/A output as Upper and Lower ranges. This makes it possible to enlarge input signal fluctuations for observation using a recorder or logger.

* The range is 0V to 5V for some functions, such as frequency measurement

Built-in printer(/B5) 

Output graphics at the touch of a button 

Wt3printerThe optional built-in printer is installed on the front side of the WT3000E, so it is easy to use even if the WT3000E is mounted on a rack. The printer can be used to print data and waveform memos.

Auto Print Function

The Auto Print function allows you to set a time interval at which measured values are automatically printed on the built-in printer. You can also set a start and stop time in order to record data over a desired time period. You can also specify to print only the desired measured items. 

VGA output (/V1) 

Video output for viewing on a larger screen
The VGA port can be used to connect an external monitor in order to view numerical value data and waveforms on a larger screen. This capability is useful if you want to simultaneously check large amounts of data on a separate screen, or view data in a separate location.

Serial (RS-232) (/C2) 

USB Port for Peripherals (/C5 Option) 

Wt3usbA USB port for peripherals with type A connectors can be included with the WT. The various kinds of data stored in the main unit such as voltage, current, and power, can be saved in binary or ASCII format on a peripheral such as a USB memory. You can also connect a keyboard for easy input of user-defined math expressions.

USB Port for Connection to PC (/C12 Option) 

The USB port (type B connector) on the rear panel of the WT3000E allows data communications with a PC¹. Also, instruments with this option installed can be used in conjunction with the communication functions of PC application software for data acquisition via USB².

  1. USB driver required for USB communications. A USB driver is available for download from our Web site.
  2. USB cable for connection to PC not included.

* USB stands for universal serial bus. USB is a standard designed to provide connectivity across a wide range of PC peripherals and other devices through the use of a common communication mechanism. 

Ethernet Communication Function (/C7 Option) 

The option conforms to 100BASE-TX and 10BASE-T and provides for data exchange via communications. The option supports file transfers via FTP server, as well as FTP client (network drives), LPR client (network printers), and e-mail (SMTP client) functions.

* The WT3000E does not have a built-in hard disk. The FTP server function is available when a PC card or USB memory is inserted or connected to the PC.

Wt3enet 

Flicker measurement (/FL)

This function enables measurement of voltage fluctuations/flicker in compliance with EN61000-3-3 and IEC61000-3-11. It can measure relative working voltage change, maximum relative voltage change (dmax), relative voltage change time (dt), short-term flicker value (Pst), and long-term flicker value (Plt). The initial limit values for the individual parameters are set in accordance with the IEC standard.

IEC61000-3-2, IEC61000-3-12, JIS C 31000-3-2
(Advanced Calculation Function /G6 and software for testing standards compliance)
IEC61000-3-3, IEC61000-3-11
(Voltage fluctuation/flicker measurement, with the /FL option)

        Wt3flicker 

Support for IEC and JIS Standards Testing

 

Jun. 29, 2015

  • New Release
Model Description
WT3001E Precision Power Analyzer, one Input element model
WT3002E Precision Power Analyzer, two Input elements model
WT3003E Precision Power Analyzer, three Input elements model
WT3004E Precision Power Analyzer, four Input elements model

B9284LK External Sensor Cable

For connection the external input of the WT3000 to the current sensor.
Length: 50cm

366925 BNC to BNC 2m Cable

BNC-BNC 2m. For connection to simultaneously measurement with 2 units, or for input external trigger signal.

B9316FX Printer Paper Roll

Printer Paper Roll
Thermal paper (10m) for WT1600, WT 1800, WT3000, & WT3000E - 1 roll

366924 BNC to BNC 1m Cable

BNC-BNC 1m. For connection to simultaneously measurement with 2 units, or for input external trigger signal. 

758924 BNC to Banana Conversion Adapter

For conversion between BNC and female banana plug
Applicable for DL750/DL750P, SL1000 & SL1400.

758921 Fork terminal adapter

Adapters for fitting a 4mm banana plug to a fork terminal. Set contains one black and one red clip. 1000 Vrms-CAT II.

758929 Large Alligator Clip Adapter 1000V

Rated at 1000V. Attaches to the 758917 test leads. Sold in pairs.

758917 DMM Measurement Lead Set

A set of 0.8m long red and black test leads, used in combination with a pair of optional 758922 or 758929 alligator-clip adapters.

758923 Spring Hold Safety Terminal Adapter Set

Two adapters in a set (spring-hold type).

758922 Small Alligator-Clip Adapter 300V

Rated at 300 V. Attaches to the 758917 test leads. Sold in pairs.

All-Purpose Instrument Cart 701962

All-purpose rolling instrument cart.

Compact Instrument Cart 701960

Compact instrument cart
500 mm (W) x 560 mm (D) x 705 mm (H)
/A option: keyboard, mouse table
/B option: comes with a 3-prong power strip

Deluxe Instrument Cart 701961

Deluxe instrument cart with adjustable shelf positioning.

Overview:

Accurate measurement of lower power factor devices

Overview:

Measurement of Power Consumption in Mobile Phones 

Overview:

Measuring efficiency with high precision

Overview:

Want to know how green is your Software? Intel® Energy Checker and Yokogawa can help you! The Intel® Energy Checker SDK provides software developers a simple way to measure the energy efficiency (greenness) of their Software by exposing the necessary and basic measurements made by Yokogawa’s highly accurate and reliable Power Analyzers.

Overview:

The latest IEC harmonic/flicker standards testing

Overview:

High Accuracy Measurements of Transformers

Overview:

If a product uses power, then power consumption and power quality measurements must be made as part of product design and test. These measurements are essential to optimize product design, comply with standards and provide nameplate information to customers.
This article will discuss best practices for making these measurements, starting with power measurement basics and proceeding to the types of instruments and associated components typically used to make measurements. The article will conclude with real-world examples, which apply the information imparted earlier in the article to solve practical measurement problems. Although most of us have been exposed to basic power measurement equations, a primer is helpful to summarize this information and to show how it applies to product design and test.

Application Note
Overview:

High frequency fluorescent lamp/ballast and LED measurement

Application Note
Overview:

For maintain of power measurement instruments

Application Note
Overview:

Power and harmonic/flicker measurement of devices including the latest semiconductor

Looking for more information on our people, technology and solutions?


Contact Us
Top
live chat service provider