Promotional Code

Use promotional code RSUAE5 and get extra 5% off on the price of all products | Payment Options: Debit or Credit Card, Wire Transfer, Cash or Cheque

Chauvin Arnoux P01167501 Gauss Meter, 30 → 300Hz

RS Stock No.: 293-1669Brand: Chauvin ArnouxManufacturers Part No.: P01167501
brand-logo
View all in Gaussmeters

Technical Document

Specifications

Magnetic Range

20 → 2000 μT

Maximum Magnetic Measurement

2000µT

Minimum Magnetic Measurement

20µT

Best Accuracy

±4% + 3 Digits

Resolution

0.01 μT

Frequency Range

30 → 300Hz

Operating Units

Gauss, Tesla

Width

68mm

Length

163mm

Dimensions

163 x 68 x 24mm

Height

24mm

Model Number p

CA 40

Weight

285g

Country of Origin

France

Product details

Chauvin Arnoux CA40 Gauss Meter

Designed to measure the electromagnetic radiation levels the CA40 is designed for use on electrical current lines, home appliances and industrial equipment.
As a high-performance portable device, the design and calibration allow measurement of radiation on a base of 50//60 Hz. The probe is separated from the box for ease of use, making it user friendly and assisting with measurements in hard to reach areas.

Delivered in a hard case with 1 probe, a battery and user manual. (5 language user manual)
Dimensions: 163 X 68 X 24 mm

Features and Benefits:

• Battery operated
• 30 to 300 Hz
• Low-frequency magnetic fields measurement
• Easy to handle unidirectional probe
• 285g weight

How Does a Gauss Meter Work?

Gaussmeters are a Hall probe, a test current is sent by the meter through the probe. This Hall affect produces a voltage and the meter then records this. Often the highest voltage detected is used or frozen by the meter as voltage fluctuation is common given that magnetic fields are rarely static.

Did you know?

Carl Friederich Gauss born in 1777 developed one of the first devices that could measure direction and strength of a magnetic field. He was a pioneer in this type of study and a great mathematician. He created the system used to measure magnetism and is the reason the modern unit of flux density is named Gauss and why we call these units Gauss meters.

Standards

IEC 1010-2 and EN 50081-1

You may be interested in

Stock information temporarily unavailable.

Please check again later.

Stock information temporarily unavailable.

P.O.A.

Chauvin Arnoux P01167501 Gauss Meter, 30 → 300Hz

P.O.A.

Chauvin Arnoux P01167501 Gauss Meter, 30 → 300Hz
Stock information temporarily unavailable.
You may be interested in

Technical Document

Specifications

Magnetic Range

20 → 2000 μT

Maximum Magnetic Measurement

2000µT

Minimum Magnetic Measurement

20µT

Best Accuracy

±4% + 3 Digits

Resolution

0.01 μT

Frequency Range

30 → 300Hz

Operating Units

Gauss, Tesla

Width

68mm

Length

163mm

Dimensions

163 x 68 x 24mm

Height

24mm

Model Number p

CA 40

Weight

285g

Country of Origin

France

Product details

Chauvin Arnoux CA40 Gauss Meter

Designed to measure the electromagnetic radiation levels the CA40 is designed for use on electrical current lines, home appliances and industrial equipment.
As a high-performance portable device, the design and calibration allow measurement of radiation on a base of 50//60 Hz. The probe is separated from the box for ease of use, making it user friendly and assisting with measurements in hard to reach areas.

Delivered in a hard case with 1 probe, a battery and user manual. (5 language user manual)
Dimensions: 163 X 68 X 24 mm

Features and Benefits:

• Battery operated
• 30 to 300 Hz
• Low-frequency magnetic fields measurement
• Easy to handle unidirectional probe
• 285g weight

How Does a Gauss Meter Work?

Gaussmeters are a Hall probe, a test current is sent by the meter through the probe. This Hall affect produces a voltage and the meter then records this. Often the highest voltage detected is used or frozen by the meter as voltage fluctuation is common given that magnetic fields are rarely static.

Did you know?

Carl Friederich Gauss born in 1777 developed one of the first devices that could measure direction and strength of a magnetic field. He was a pioneer in this type of study and a great mathematician. He created the system used to measure magnetism and is the reason the modern unit of flux density is named Gauss and why we call these units Gauss meters.

Standards

IEC 1010-2 and EN 50081-1

You may be interested in