Industrial & Consumer Electronics

Yokogawa has pioneered test and measurement instruments for the unique design and validation needs of the Industrial and Consumer Electronics Industries. Focused on saving our customers' precious time-to-market, research and production costs, and an effective solution for comprehensive testing, Yokogawa provides key design tools such as the powerful three-in-one DL9000 MSO series. This instrument can function as a serial bus analyzer, logic analyzer, and a traditional oscilloscope for maximum flexibility and performance.
Meanwhile, Yokogawa's power measurement technology delivers Best in Class precision and stability. The digital power analyzers are perfect for general purpose trouble shooting, validating designs, or manufacturing test. Yokogawa provides cutting-edge measurement solutions. The first to provide dedicated analysis and support for serial bus protocols, including FlexRay, CAN bus, I2C, SPI, and UART. Yokogawa's DL9000 series Digital Storage Oscilloscope is a Test & Measurements World Award Winner. Additionally, the SL1000 is a High-Speed Data Acquisition Unit that offers fast acquisition, transfer, and data storage - another powerful measurement tool. Yokogawa continues to innovate technologies designed to fit your electronic testing needs.

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Benefit of Assured Accuracy from 1% of Rng

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Simultaneous measurement of voltage, current, and THD (distortion factor

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Measurement of I/O Characteristics of Semiconductor Devices

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Timing Tests at Power-On of Multiple Power Supplies

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Voltage Probing Considerations for Electro-Mechanical Measurements

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The GS820 can measure drain current ID by applying gate-source voltage VGS from channel 1 and drain-source voltage VDS from channel 2.

Application Note
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Evaluating Active Filters

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Designing Energy-Saving Appliances

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Power Conversion Efficiency Measurement of Power Supply ICs 

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Motor Rotation Jitter Analysis with a Time Interval Analyzer

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Short-Term Integration of Load-Changeable Units

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Battery Voltage Fluctuation During ABS Action

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Accurate measurement of lower power factor devices

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Knock Sensor Development

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Measurement of Injection Timing

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Large Capacity/Motor Characterization for Hybrid Car Development

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Timing Test of Side-Impact Air Bag

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Evaluating Electrical Vehicle Non-Contract Charging Systems

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Testing Solenoids Used in Automatic Transmissions

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Simple Creation of Indicator Diagrams (P-V Diagram)

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Measuring efficiency with high precision: simultaneous measurement of input and output

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Observation of Inverter Switching Waveforms

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Misfire Analysis with Time Interval Analyzer

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Evaluating Electrical Vehicles Non-Contract Charging Systems

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Evaluating DC Power Supply for Office Automation Equipment

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Evaluating Inverter Output Filters

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Surge Waveform Recording & Power Monitoring

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Evaluating Inverter-Driven Microwaves

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Transient Power Measurement of a Facsimile Machine

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Power Distribution System Tests for Shorts and Switching

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Evaluating Inverters and Motors

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Evaluating Starting Characteristics for Flurescent Lamps

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Evaluating Starting Characteristics for Flurescent Lamps

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Area of Safe Operation Measurement for Switching Devices

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Measurement of Power Consumption in Mobile Phones 

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Measuring Conversion Efficiency of Power Conditioner

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Evaluating Magnetic Components

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Characteristics of Transient Response from Industrial Robots

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Harmonic measurements

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For maintain of power measurement instruments

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Reference equipment for power calibration

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High frequency fluorescent lamp/ballast and LED measurement

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The latest IEC harmonic/flicker standards testing

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

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Measuring efficiency with high precision

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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.

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In this application note you will learn when and how to use different methods to connect a current transformer to a power analyzer.

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One of the main responsibilities of engineers and technicians is data analysis, and this article will show how multi-touch technologies can be used to improve the performance of this and other related tasks.

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The DL850 can take engineers to a new level of efficiency in the development of everything from green devices to complex advanced systems.

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The request for lower uncertainties in power measurements are increasing,especially in the transformer industries. Their role is to ensure that the electricity is distributed in an efficient and reliable way. 

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This white paper describes the WT1800, a precision power analyzer that has been replaced by the WT1800E, a unit with numerous improvements including better accuracy. Please visit the WT1800E product page to learn more about the WT1800E.

To keep pace with the increasing speed of switching devices in inverters, Yokogawa has developed the WT1800 precision power analyzer with 10 times faster sampling speed and 5 times wider frequency bandwidth compared with previous models. Its basic accuracy is 0.15% and the frequency bandwidth of voltage and current is 0.1 Hz to 5 MHz (-3 dB, Typical) including the DC component. With up to six inputs, a single WT1800 unit can measure the efficiency of three-phase inverters. In addition, the high-speed data capturing mode allows the WT1800 to measure transient power. This paper describes the high-speed, real-time power measurement technologies underlying these functions.

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This white paper describes the WT1600 precision power analyzer, a model that has been discontinued and replaced with the WT1800E. Please visit the WT1800E product page for more information regarding the WT1800E.

We have developed the WT1600, a high-precision, wide-bandwidth power meter. The WT1600 can measure DC and AC signals from 0.5 Hz to 1 MHz with a basic power accuracy of 0.1%. With the maximum of six input elements installed, a single WT1600 can measure the efficiency of a three-phase inverter. In addition to the functions of conventional power meters, it has wider ranges and various functions including waveform display. This paper gives an outline of the WT1600. 

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Energy efficiency directives from bodies like International Electro technical Commission (IEC), European commission, California Energy Commission (CEC) and others govern standards across various classes of electrical, electronic and mechatronic equipment.

This infographic provides a snapshot guide for making reliable power measurements across your product development lifecycle with particular emphasis on the high accuracy needs of compliance testing. 

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Are you achieving the levels of accuracy you need? 

This article outlines the top reasons for inaccuracies in power measurements and how to tackle them.

Download the article to learn about:   

  • Validity of instrument specifications
  • External sensors and temperature effects
  • Calibrating a measurement set up

Download the article now

How-tos

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    In this video we review the major features of the DL350 showcasing its portability, functionality, and operability. This device features battery power, 18 signal conditioning input modules, and touchscreen access to enhanced triggers, math, and analysis.

Training Videos

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