モーター、駆動装置、ポンプ、コンプレッサー

モーター・ドライブの効率と性能を理解するための 5 つの重要テスト・ポイント

モーター・ドライブは AC 主電源の固定電圧を、モーター・トルクを制御する可変電圧に変換し、機械装置の負荷を駆動するモーターの最適な速度を調整するための普遍的な技術です。

Fluke 1587 Insulation Multimeter helps keep 1950s motors and generators running into the 21st century

MetalTech produces steel sheets. Maintenance technicians use the Fluke 1587 Insulation Multimeter to troubleshoot and maintain the equipment.

A motor braking manufacturing plant steps up to proactive maintenance

Bob Despres of Jacobs Vehicle Systems® in Bloomfield, CT shares how he stepped up the motor maintenance program to be more proactive.

See how the 438-II Motor Analyzer is building an underwater fan club

Watch the video to see how the Point Defiance Zoo and Aquarium uses the Fluke 438-ii power quality analyzer and motor analyzer to reduce water and energy use.

Four must-have measurement practices for the mechanical maintenance team

Four must-have measurement practices for the mechanical maintenance team: thermal, vibration, insulation, electrical

How to measure output voltage from a VFD to a motor

How to measure output voltage from a VFD to a motor

Motor analysis should be a part of your maintenance routine

Discover how the Fluke 438-II Power Quality and Motor Analyzer can play a key role in maintenance programs.

How to inspect a motor with a thermal imager

Seeing a motor’s heat signature under normal operating conditions—with at least 40 % of design load—can tell you a lot about its condition.

Transients and voltage unbalance

The electrical power issues that most frequently affect industrial plants include voltage sags and swells, harmonics, transients, and voltage and current unbalance.

モーター・シャフトの電圧放電を測定する Fluke MDA-550 モーター・ドライブ・アナライザー

この用例では、MDA-550 モーター・ドライブ・アナライザーとシャフト電圧プローブを使用してモーター・シャフト電圧の放電を測定する方法を説明しています。

Fluke MDA-550 モーター・ドライブ・アナライザーでモーター・ドライブの複雑なトラブルシューティングが簡単に

Fluke electrical analysis tool verified to measure torque without halting motor operation

Keep those motors running: electric motor maintenance preventing downtime

13 common causes of motor failure

This article demonstrates how to detect the 13 most common causes of winding insulation and bearing failure in advance.

多忙なエレベーター電子技術者の時間を節約する新型 Fluke モーター・ドライブ・アナライザー

Fluke MDA-550 モーター・ドライブ・アナライザーでは、分かりやすい図による適切なセットアップ、定義済みのテスト手順とステップごとの指示により、エレベーターのモーター・ドライブのトラブルシューティングが短時間で効率よく行えます。

Troubleshooting Premature Motor Failures

Troubleshooting premature motor failures

Managing VFD Voltage with a Shaft Grounding Kit

Managing VFD voltage with a shaft grounding kit to detect shaft currents and eliminate downtime for customers, with a Fluke ScopeMeter™ oscilloscope

Maximizing VFD and UPS performance

Monitoring power quality parameters in a variable frequency drive or uninterruptible power supply, can help to maximize performance. Find out how to determine what power quality parameters to measure and when as well as other associated issues such as harmonic currents.

Multimeter measurements on adjustable speed drives utilizing the new Fluke 87V DMM

In the past, motor repair meant dealing with traditional three-phase motor failures that were largely the result of water, dust, grease, failed bearings, misaligned motor shafts, or just plain old age. But motor repair has changed in a big way with the introduction of electronically controlled motors, more commonly referred to as adjustable speed drives (ASDs).

Preventing machine failure by detecting the first signs of trouble

Preventing machine failure by detecting the first signs of trouble

Don't run it backwards

There's an old saying that the first time you hook up a three-phase motor it will run backwards. If you're lucky, it will only make you look foolish. If you're not, it could severely damage expensive equipment and cost you or your employer substantial money.

Using thermal imaging to monitor motors and gearboxes

Predictive maintenance (PdM) programs monitor equipment condition, with the goal of identifying problems in advance and avoiding equipment failure. One powerful tool for monitoring rotating equipment is thermal imaging.

How to troubleshoot motors and drives, starting at the inputs

Here we look closely at the first segment in a typical three-phase motor and drive system: from the mains supply at the drive input to the drive itself, concentrating on input measurements. This application note maps common problems to the measurements used to diagnose them . We show you what tools to use for a given situation and how to apply them to a problem, to enable you to troubleshoot more quickly and accurately.

Identifying and solving common motor and drive problems

Troubleshooting motor and drive problems such as single-phasing (losing one of the phase voltages) and flashover currents to outer bearings.

Top causes of single-phase motor malfunctions

Most problems with single-phase motors involve the centrifugal switch, thermal switch, or capacitor(s). If the problem is in the centrifugal switch, thermal switch, or capacitor, the motor is usually serviced and repaired. However, if the motor is more than 10 years old and less than 1 HP, the motor is usually replaced. If the motor is less than 1/8 HP, it is almost always replaced.