Now you can see the field your device actually makes, in 3D.
Sign in to the Gauss Labs customer portal and you can now see the magnetic field your device produces as a 3D shape you can spin around, then watch it pulse on your device's own measured waveform. It isn't a stock illustration. It's the actual field we measured in our lab, rebuilt into a shape you can look at. Animated 3D render of the Magnetic Pulser's magnetic field rising and falling on the Paddle accessory, driven by the device's measured waveform. The Magnetic Pulser with its Paddle accessory. The field rises and falls on the device's own measured pulse, time-scaled…
“Calibrated” should mean you can trace the measurement back to a standard.
You've seen the phrase on every lab's page and half the spec sheets in your category: calibrated equipment. It shows up so often that it has stopped meaning much. So what should it actually tell you? A four-link traceability chain read left to right. The first box, highlighted in amber, is the bench instrument, the gauss meter or oscilloscope that takes your measurement. An arrow labeled checked against points to a working reference of better, documented accuracy. Another checked-against arrow points to an accredited reference kept by a calibration lab. A final checked-against arrow points to a navy box, a…
Two reports just became one to make it even easier to see how your devices and accessories are performing.
To see how a device and its accessory perform together, you used to read two separate reports. Now you read one. The first examples are on our reports page this week. Two small report documents on the left merge into one larger report document on the right. The first small document is labeled Device analysis and lists the pulse: waveform, rise and fall, slew rate, frequency. The second is labeled Accessory analysis and lists the field: heatmap, coverage, symmetry, depth. An arrow points from both into a single larger document labeled Device and Accessory Analysis, one report per pairing. The…
Here’s exactly what a certification engagement looks like.
When you send equipment to a third-party lab, you should know what the process is before it starts. Ours is four steps over about three weeks, with regular updates throughout. Horizontal flow diagram of the four steps of a Gauss Labs certification engagement. Step 1, Schedule a Call: we review and discuss your device, accessories, and goals so we can write up a proposal. Step 2, Send Us Your Devices: we get your equipment queued up and ready for testing. Step 3, We'll Analyze Your Equipment: we'll test your equipment. Step 4, Review Your Results: we send your report, high-resolution…
Your PEMF device performs. Can you prove it?
If you design and build PEMF equipment, you already know your product works. Your buyers are starting to want more than your word for it. A third-party certification of measured performance gives them what they need. It also gives you an edge over manufacturers who can't produce one. Five years ago, a confident peak Gauss value on a glossy product page was enough to close most sales. Today, the buyers calling you are different. Some are clinicians burned on a previous purchase that didn't live up to its claims. Some are veterinary professionals comparing your machine against a competitor whose…