Amprobe Clamp Meters

Amprobe Clamp Meters

• Choose a clamp meter that gives accurate and repeatable results.
  Make sure your clamp meter reports the true-rms reading. Otherwise noise from everything from a variable frequency drive to compact fluorescent bulbs can result in a less accurate reading. You should always make sure that the clamp meter meets the industry accuracy standard: 2% ± 5 counts. Beware of accuracies stated to ± 10 counts, as these meters can have twice the error when measuring low currents.
   
• Do not compromise on safety
  Make sure the clamp meter has the correct rating. Check that the design will allow you to use the meter easily while wearing Personal Protective Equipment (PPE). Exciting new designs are available with remote displays and wireless capabilities to consider.
   
• Make sure the clamp meter works where you do
  Check the specifications for the amperage and voltage range you will be working on. Also consider the ambient temperature range if you will be working in a hot environment. Is it rated only for indoor use only? Be sure the clamp meter display you select has large, easy to read characters. Some displays may seem adequate when viewed in a showroom but then fail to perform in the workplace. Real world conditions mean a wide viewing angle and backlight are a must.
   
• Consider special features
  • Inrush. If you are working around motors and drives, an accurate inrush measurement function is a must. The Inrush function allows you to accurately measure the high current surge that flows into motors during startup. This measurement can be critical when troubleshooting problems such as nuisance trips of over current protection devices. Because it looks at the entire motor inrush period, it is far more accurate than the "MAX" function which only looks at a single point in time.
  • Autoranging Display. A measurement that displays in the correct range can be a real timesaver when working in tight spaces. Choose a clamp that automatically sets the correct measurement range so that you are not having to a adjust switch positions while trying to position the clamp and take a measurement.
  • Datalogging and PC Connectivity
  • Power and Total Harmonics Distortion (THD) Measurements
  • Flame Rectification. Some Fieldpiece clamp meters measure DC microamps (uA) for Flame rectification application, which can help determine if a furnace temperature probe is going bad
  • Wireless Now you can save your measurements to the cloud, trend data over time and work outside the arc flash zone with Fluke Connect wireless enabled test tools. Increases safety by remote readings and reduces your time in the arc flash zone.
  • Flexible Current Probes The Fluke iFlex Flexible Current Probe expands the measurement range to 2500 A ac; provides access to large conductors in tight space. See the Fluke 376 FC for details. 

Fluke 376 FC

How does a clamp meter work?

Clamp meters and adaptors measure this field using one of two technologies. For DC currents, "Hall Effect" is used, while for AC currents "Inductive" technology is used. Hall effect and induction are noncontact technologies based on the principle that for a given current flow, a proportional magnetic field is produced around the current-carrying conductor. Both technologies measure this magnetic field, but with different sensing methods.