Pross instrument Calibration
LABORATORY ELECTRICAL CALIBRATIONS:
Keeping your electrical assets calibrated and
accurate on your schedule.
Calibrations
first-rate calibration services for your testing
equipment
Precision measurement results are only possible
with properly calibrated testing instruments. The accuracy of each individual
instrument, however, varies over the course of its product life. As a result,
it is critical to calibrate and, if necessary, adjust testing equipment on a
regular basis, depending on the area of application.
The demand for ISO 17025-compliant calibrations has
grown steadily over the years. In the meantime, calibrations to ISO 17025 are
required in some countries. On the other hand, traditional ISO 9000
manufacturer calibrations are losing favour. We can now cover this increasing
demand professionally.
With our Calibrations service, we have established
a globally recognised, state-accredited ISO/IEC 17025 calibration laboratory
that meets the most stringent international standards. Our ambition is. Our
goal is to provide our customers with the most accurate and complete
calibrations possible.
Calibration, verification, and
adjustment - what's the difference?
Calibration
Calibration consists solely of measuring physical
quantities and comparing the measurement results from the test object with a
suitable and traceable reference measuring instrument under defined,
reproducible conditions.
Verification
Verification is the comparison of a device's
measurement results with limit values, such as published tolerances, and the
interpretation of these results. This means that a determination is made as to
whether the device is still within the tolerance range.
Adjustment
The deviation between the measured values of the
test instrument and a reference instrument is reduced to a minimum or brought
back within a defined tolerance range during adjustment. This necessitates a
change in the test instrument.
How often to calibrate?
There is no general rule for when and how
frequently a test instrument should be calibrated. As a result, the user must
determine whether their test equipment is still suitable for the application,
with the manufacturer's recommendations serving as a useful guide in
determining calibration intervals. The field of application of the test device
is an important consideration: for example, when it comes to metre tests, the
test device must meet different requirements than those used in the field of
protection technology.
Calibrating testing equipment annually is quite
common and useful, even if neither ISO 9001 nor ISO 17025 make it mandatory. On
the other hand, the standards clearly require testing equipment to function
with sufficient accuracy for an intended purpose.
Fluke 87V Industrial Multimeter,
Fluke 179 True-RMS Digital Multimeter,
Fluke 117 Electrician's Multimeter with Non-Contact
Voltage,
Fluke 87V MAX True-rms Digital Multimeter,
Fluke 87V MAX True-rms Digital Multimeter,
Fluke 87V Industrial Multimeter,
Fluke 279 FC,
Fluke 279 FC True-rms Thermal Multimeter,
Fluke 179 True RMS Digital Multimeter,
Fluke 179 TRMS Digital Multimeter with temperature
readings,
Fluke 117 Electrician's Ideal Multimeter with
Non-Contact Voltage,
Fluke 115 Digital Multimeter for Technicians,
Fluke 177 True-RMS Digital Multimeter with display
backlight,
Fluke 28 II TRMS Rugged IP67 Digital Multimeter,
Fluke 116 HVAC Multimeter with Temperature and
Microamps,
Fluke 287 True-RMS Electronics Logging Multimeter,
Fluke 3000 FC Series Wireless Multimeter,
Fluke 114 Electrical Multimeter,
Fluke 113 Digital Multimeter,
Fluke 233 Remote Display Digital Multimeter,
Fluke 83V Average Responding Industrial Multimeter,
Fluke 28 II Ex Intrinsically Safe True RMS Digital
Multimeter,
Fluke 175 True-RMS Digital Multimeter,
Fluke 27 II Rugged Digital Multimeter,
Fluke 27 II rugged multimeters with IP 67 rating;
tested to withstand a 3 m drop to operate in...
Fluke 88V Deluxe Automotive Multimeter,
Fluke 77 IV Digital Multimeter,