Data Acquisition | Data Logger

Maintaining a flow of liquid, gas or other material is essential for any business. A flow sensor can help you do just that by monitoring and regulating the flow rate of whatever you need to keep moving. Here we'll take a look at some common applications for flow sensor , and why your business might need one. What is a flow sensor? A flow sensor, sometimes called a flow metre, is a device used to measure and monitor the flow rate of a liquid or gas. Flow sensors can be used in a variety of industries, such as water and wastewater treatment, HVAC, oil and gas, and manufacturing. They are also commonly used in home improvement projects, such as installing a sprinkler system or measuring the flow rate of a garden hose. The most common type of flow sensor is an ultrasonic sensor. This type of sensor uses sound waves to measure the flow rate of a liquid or gas. Other types of flow sensor include vortex shedding sensors, thermal mass sensors, and Coriolis mass metres.  How does a flow

Do you come home from work and say to yourself, “I need to learn how to use a strain gauge ”? I get it; we all want to spend more time with our loved ones and less time exploring the art of straining. You should, in theory, be able to strain less at home and know how much liquid is in your cup. But the reality is until you get the hang of it, you’ll constantly be running back to the kitchen, forcing yourself to strain even when there’s little to no liquid in your glass. So here’s my guide to learning how to use a strain gauge. What is a strain gauge? A strain gauge is a tool used to measure the amount of liquid in a cup or bottle. It can also be used to determine how much sugar is in a recipe. Why would I want to use one? There are many reasons why you might want to use a strain gauge. For one, strain gauges can help you determine the strength of a liquid. When you know how much liquid is in a cup and how thick the liquid is, you can then brew a stronger drink or make a more accura

NATA Accredited calibration is a process that test facilities follow to ensure that equipment they use to test devices adhere to standards set by the network equipment industry. An independent third party verifies that the test equipment and test process adhere to industry standards and is used to make sure that test results are reproducible and valid.   A NATA Accredited calibration process follows set steps to ensure the calibration of test equipment and test procedures adhere to established industry standards. It’s essential that test facilities understand the NATA Accreditation process and its importance in device testing. This article will give you a brief overview of the NATA Accredited calibration process, as well as some of the common benefits of having your calibration process verified by NATA. What is NATA Accredited Calibration? NATA Accredited calibration is a process that test facilities use to ensure the equipment they use for device testing meets industry standards.

Do you ever wonder how people know how much pressure is being exerted on them in different settings? Or maybe you've been asked to build a scenario where someone would know how much pressure is being exerted on them? If so, you're not alone! As the saying goes, no good without 'pressure.' Pressure is an essential part of any scenario where you have to know how much force is being exerted on you. Pressure is a dynamic variable that is measured by pressure transducers. In this article, we will be going over some of the common types of pressure transducers , their benefits, and applications where they make the most sense. What is Pressure? Pressure is a force exerted on an object that can be measured. There are two types of pressure: Static and Dynamic. Static pressure is the amount of force required to move an object up or down in a fluid, while dynamic pressure is the amount of force required to move the object either left or right in a fluid. Types of Pressure Transd