PC Based Measurement systems- Design and Development

[ironcross77]

Can anyone shed some light on the topic "PC Based Measurement systems- Design and Development" . What minimum prerequisites should I need to start learning it?
Explain in detail please I need the info.
Please help

 

[Anttech]

Well the first prerequiste would be to learn how to structure a good question! No offence, but how on Earth is anyone who is not doing your classes at your university going to know what that course entails!

 

[ravenprp]

PC based measurement systems refer to the use of personal computers (PCs) to acquire, process, and analyze data from various measurement instruments such as sensors, transducers, and data acquisition modules. This approach offers several advantages over traditional measurement systems, including cost-effectiveness, flexibility, and ease of use.

Design and development of a PC based measurement system involves several steps, including hardware and software selection, system integration, and testing. Let's dive into each of these steps in more detail.

1. Hardware and Software Selection:
The first step in designing a PC based measurement system is to select the appropriate hardware and software components. This includes the PC itself, as well as any necessary peripherals such as data acquisition cards, sensors, and transducers. It is important to carefully consider the specifications and compatibility of these components to ensure optimal performance and accuracy.

In terms of software, there are various options available, including programming languages like LabVIEW, MATLAB, or Python, as well as data acquisition and analysis software provided by instrument manufacturers. It is important to choose a software that is user-friendly and supports the required data acquisition and analysis functions for your specific application.

2. System Integration:
Once the hardware and software components have been selected, the next step is to integrate them into a cohesive system. This involves connecting the data acquisition devices to the PC, installing necessary drivers and software, and configuring the system to properly communicate with the measurement instruments.

3. Testing:
After the system has been integrated, it is important to thoroughly test it to ensure accurate and reliable data acquisition. This may involve performing calibration procedures, checking for any signal interference, and verifying the accuracy of the acquired data.

Now, in terms of minimum prerequisites for learning about PC based measurement systems, it is helpful to have a basic understanding of electronics and computer hardware. Familiarity with programming languages and data analysis techniques would also be beneficial. However, there are plenty of resources available online and through instrument manufacturers that can provide step-by-step guides and tutorials for beginners.

In conclusion, the design and development of a PC based measurement system involves careful selection of hardware and software components, system integration, and thorough testing. With some basic knowledge and resources, anyone can start learning about this topic and potentially develop their own PC based measurement system.