Gauss meter kit

Build your own Gaussmeter. Have you ever wanted to find out how strong a magnet really was, or how the strength of the magnetic field varied as you changed the distance from the magnet or the temperature of the magnet, or how well a shield placed in front of the magnet worked?

Voltmeters are fairly inexpensive and easy to find, but where do you purchase a Gaussmeter also known as a magnetometer. I built a hand-held Gaussmeter for measuring the polarity and strength of a magnetic field. It uses a linear Hall effect device and some op-amps and resistors and things from Radio Shack.

Then I will describe a Gaussmeter with a few more bells and whistles. An inexpensive Hall effect Gaussmeter. You can get them most anywhere.

Gauss Meter Kit

Next is a battery clip to connect to the top of the battery. To purchase the uncalibrated Hall device, go to Hall Effect Devices. You will need something to mount these parts onto - there are two possibilities. Use an inexpensive perf board and solder the parts to it, or use the breadboard and just plug the parts in - no soldering! Unless you've built electronic things before, I would recommend the breadboard since it is easy to use, easy to change, and can be used for other projects in the future.

You need a voltmeter for all the projects you're going to work on anyway, so I won't add that in for this project. There are different types available, and their cost goes up with features and functions. A basic one that will work well is noted in the table above. Battery and voltmeter not included. Now, how do you make it? Connect the - black of the battery clip to the common of the pin 2.

Connect the common of the Hall device pin 2 to the common of the pin 2. Set the voltmeter to read 20Vdc max. Attach the - of the voltmeter to the common of the pin 2 or the common of the Hall device pin 2. You are now ready to snap a battery onto the battery clip. Here's a schematic of the circuit using the or A Hall-Effect Device :. With no magnet near the Hall device, measure and note the output voltage reading. Call this V0. It should be about 2.

Now, with a magnet near the Hall device, you will see the output voltage change. If it is a South pole, the voltage will increase. If it is a North pole, the voltage will decrease. Call this voltage reading V1. We will say that the sensitivity of the Hall device is 2. Call this k.With that understanding, the absolute best tool you can arm yourself with is a quality EMF meter, that is accurate, simple to use, and measures all types of EMF radiation.

Each of the following EMF meters was chosen based off of a variety of factors, including but not limited to:. For example, the Trifield TF2 is my number one recommendation but is much more affordable than, for example, the Acoustimeter AM Although the Acoustimeter is a fantastic device, I believe the Trifield delivers a fantastic product at less than half the price.

These rankings are therefore a cumulation of all of the factors bulleted above. With that in mind, this list, although thoroughly researched and designed, is open to interpretation. I was not gifted any of the devices I review in this article, nor have I communicated with any of the companies. My rankings and reviews are based entirely on my own use of the products, experience, research, and opinion.

See the Amazon listing here. The best place to get the Trifield TF2 is on Amazon. Feel free to take a minute and read through some of the 5 star reviews. The price is extremely reasonable, and you honestly will love how accurate and simple to operate this device is. Check out the Amazon listing here. It is extremely accurate, simple to use, and preferred by professionals. However it does have its downsides, for example, it only reads RF radiation, and is not designed to read electric field or magnetic field radiation.

There is a reason that you will see the Acoustimeter AM in the hands of so many professionals, it is extremely accurate and simple to use. Sensitivity â€” To start with, the Acoustimeter is one of the most sensitive RF meters on the market, capable of reading even the smallest amounts, of the lowest radio frequencies and displaying them.

Not only that, but it also has fantastic directional sensitivity. This will allow you to easily locate the direction that the largest RF radiation sources are coming from by simply moving your Acoustimeter in a circle and watching the display to see peak readings. I have a great guide on how to see a map of every cell tower near your home. Frequency Range â€” The next thing I really like about the Acoustimeter is its enormous frequency range that it is able to measure.

For example, the Trifield TF2 is capable of reading up to 6Ghz which for now is probably plenty whereas the Acoustimeter can read all the way up to 8Ghz, giving you a wider range that you are able to measure.

Ease Of Use â€” Next, the Acoustimeter is really simple to use. There is a simple display at the top, as well as two rows of LED lights below.

DIY Gauss Meter with Dual Sensors for Measuring the Strength of Magnets

When using the meter, I personally like to plug in a pair of headphones into the audio jack with or without the headphones and use the audio to help me locate sources of RF radiation. If you take a look at the small screen to the right, you can see what will typically be displayed.

Here is how you would read this screen:. Cost â€” First of all, it is a fairly expensive device relative to its features. At more than double the price of the TF2 at the time of this writingyou certainly want to make sure this is the device for you before purchasing. Just understand that you are paying for the accuracy and quality of the machine, not for bloated features.It is fast and intuitive to use, with an extremely high dynamic range, measuring from 0.

Above Gauss the range automatically changes, reading Therefore a change as small as 0. This Gauss meter also measures AC field up to 10, Gauss. A fast peak hold function 2-millisecond window captures and displays any transients, whether positive or negative.

In addition, either of two fast 2 milliseconds alarm functions can be selected when required. The alarm can sound either when the field exceeds a value that you set, or if the field is ever between two values you set. Immediately displays the DC or AC magnetic field.

Can be rapidly scanned across a part to check magnetization. An alarm sounds only where the field magnitude exceeds the level that you set or where the field is between two levels you set. The alarm response time is 2 milliseconds, so it can be scanned quickly. The alarm can be used either to check for any residual magnetism or to sound if a magnet is out-of-spec by setting the upper level just below the minimum acceptable field.

The peak displayed includes the polarity sign, and the value will be held in memory until you reset it or turn off the meter. Offset, if required, is manually adjustable. Several interchangeable probe types are available, and the meter automatically detects the probe type. With the HS-Probe, parts can be rapidly scanned for residual magnetism. An alarm can be set to sound is any region exceeds a set threshold.

Using the AC adapter, the meter can be left on permanently to capture the peak field value if at least 0. Above 20kG, it is 0. There are two series of probes: ST standard; 0. Each series is available in three shapes: universal, axial, and transverse.

The universal can be bent thousands of times if needed between an axial shape which measures the field component parallel to the cable direction and a transverse shape which measures the component parallel to the thin dimension of the probe. Each probe is at the end of a cm flexible cable. How can we help? Call Now: 1. MPI is designated as a Critical Infrastructure Supplier and will remain operational during our current health care situation.

We value our employees and are taking the necessary precautions to ensure a healthy work environment.In stock. Not all combinations are valid. Options compatible with previous selections will be in bold. The HHG Gauss Meter represents the latest design in magnetic measuring equipment, allowing measurements up to mG to micro-tesla with a basic accuracy of 2. This user-friendly EMF meter is ideal for measuring electromagnetic fields of extremely low frequency ELF of 30 to Hz The HHG meter is a great value instrument for measuring electromagnetic fields in a frequency range of 30 to Hz.

Asked by: mattr Its is best to call our Tech Support at to review and discus your application needs. If not, how far away do you need to have the gauss meter from the magnetic field? Thank you for your time! Asked by: Clay Thank you for your inquiry.

This unit is 'complete' with no lead wire accessories. The meter is held in the vicinity of the gauss field. For the best readings, you should get as close as you possible can to the field and record the highest value that the digital display is showing. We have no 'minimum distance' or 'maximum distance' spec for this product; if using in the manner described you will have good results in gauss measurement.

Answered by: dennis Date published: Could this be set up with a computer to record readings continuously over a period of time? Asked by: Ed98 Hi, thanks for your question. The HHG Handheld Gauss meter does not have an output, so unfortunately it cannot be used to stream data to a computer.

It is only a read and view result measurement device. Please contact us with any further questions. Answered by: Jane Date published: Can this measure the residual magnetism of a tape head? Can it be fitted with a probe? Thank you. Asked by: Artie The HHG is used for measurement of electromagnetic fields only not static or residual field strength. These would have the integrated sensor, and a remote probe is unfortunately not an option.

Please contact our Tech Support if you need any further assistance. This item is available for quick shipping. Volume discounts available Volume Discount Schedule. Added to Your Shopping Cart.The Model A and Model A Gaussmeters have been designed and manufactured with more than 30 years experience in magnetic measurement. This experience, along with our extensive knowledge of the magnetics market, has enabled us to offer an instrument incorporating all of the measurement functions a user is ever likely to need.

7 Best EMF Meters and Detectors of 2020

The Model A and Model A microprocessor controlled Gaussmeters offer sophisticated measuring functions with selectable units in a simple-to-use, menu-driven, hand-held package.

The polarity, measurement value, measurement units, and measurement functions are displayed on a two-line, sixteen-character, dot matrix, liquid crystal display. The A is ideal for inspection and measurement of magnetic flux density of magnets and magnet assemblies in both incoming inspection and Quality Assurance environments.

Where individual measurements need to be recorded the Model A will store and upload the measured values, polarity, measurement units and measurement function, in addition to the time at which the measurement was taken. In addition to possessing all of the functions of the Model A, the Model A also possesses additional features:.

The design of the Hall probe is critical to the satisfactory operation of any Gaussmeter. For the Model A and Model A we have used our extensive industrial experience to produce a transverse Hall probe, which is semi-flexible and only 1 mm thick by 4 mm wide. This enables operators to take measurements in tight spaces and narrow air gaps. In addition, the sensitive Hall element is clearly visible so that the user knows exactly where the measurement is being made.

All transverse and axial probes are fully interchangeable on both the Model A and Model A without the need for re-calibration. Range 2: 0 â€” 3, Gauss â€” Resolution 1 Gauss 0 â€” Range 3: 0 â€” Gauss â€” Resolution.

Range 4 : 0 â€” 30 Gauss â€” Resolution. Battery Life Approximately 15 Hours continuous operation. Auto Power-down after 1, 4 or 10 minutes or can be disabled, all under menu control.

Hold facility. Analog Peak with digital storage. Auto and manual ranges. Automatic reading conversion between different units. Operating set up at time of power-down is stored and recalled automatically at power-on. Utilities etc.

Reference Magnets Axial and Transverse â€” contact factory for details. Applications The A is ideal for inspection and measurement of magnetic flux density of magnets and magnet assemblies in both incoming inspection and Quality Assurance environments. This enables you to choose between storing, recalling and holding readings in memory.

Features Exclusive to the Model A In addition to possessing all of the functions of the Model A, the Model A also possesses additional features: Possesses an RS interface including an adapter to provide RS communication for uploading measurement data to a host computer Remotely controllable through the RS link. The software supplied to enable this feature is for an IBM PC Incorporates a non-volatile memory to enable the retention of stored values even when switched off Incorporates a time keeping device so that the time when data has been stored can also be recorded Possesses an eternal PSU for bench-top applications The Hall Probe Both the Model K Kit and the Model K Kit are supplied with a transverse Hall Probe as standard.

Operating Temp. BAUD rate to 4, Software Handshaking.The effect of North and South magnetic fields in the sensor are observed in the Serial Monitor. Can you please explain why you used the map function twice in your code and how you determined what parameters to use within map function?? Is that the actual gauss or just an indication.

I want to know my 0 point so I can bring to the middle point of bit. Here you need the last two letters of the DR code. The SS49E has a different gain and range.

The sensor range output voltage is 0. For better results check the VCC voltage of the Arduino and adjust. I was wondering why you said that the gss should be changed to map aValue, Of course, if I misunderstood you, could you please tell me where? Thanks a lot! How can I use Allegro A hall sensor to measure Gauss value? I see that you formulated the correct parameters above for a DR I would like try this with the sensor I have â€¦ but would like to know how the values get calculated.

Sensitivity: 1. With no magnet near sensor it outputs gauss all the time. Good luckâ€¦. Hey can u please explain me how i can use a to get the output and i want to how u got these values for other sensors.

I hav an another sensor also 72x 0h10 Can u pls let me know how to calculate the value for this. You are commenting using your WordPress. You are commenting using your Google account. You are commenting using your Twitter account. You are commenting using your Facebook account.

Notify me of new comments via email. Notify me of new posts via email. Home Diagrams Search. Search for: Search. Date: July 17, Author: ardunaut 28 Comments. Share this: Twitter Facebook. Like this: Like Loading Worked first time for me. Is this from the sensitivity of the sensor?

Check the comments, there are other devices you can use. SS39E from Honeywell is one of them. Hi, would this code work with an arduino uno? Hi, i need to display the Gauss value on an LCD display, the code please!Fulfillment by Amazon FBA is a service we offer sellers that lets them store their products in Amazon's fulfillment centers, and we directly pack, ship, and provide customer service for these products.