Explanation
This course is about cooling, thermal management and PCB design elimination. After presenting the basic specifications, it provides a clear and logical path for a complete design of thermal aspects. At the end of this group of lessons, you will be able to understand the need for heat management and give your design a complete strategy to guide all related aspects and influencing variables (such as presence, diffusion resistance, etc.) After the course dedicates an entire part related to very important: derating. It explains the concept of re-rating and de-rating, its effect on the reliability of electronic devices and the expected life (MTBF, Mean Time to Failure, nowadays more often used instead of MTTF, Mean Time- (Failure time), and shows how it is used the most. Electronic components are reduced and dimensions are reduced.
The course is enriched with exercises and real-life examples, using data sheets of real devices to show where the parameters are assembled and how to use them. By the end of the course you’ll have a broad understanding of thermal/cooling management and its drawbacks, and you’ll be able to design a PCB that can handle the power loss (and associated temperature rise), and select it accordingly. border sections. Therefore, you will be able to design a PCB that is resistant to heat and electrical stress and that actually works and lasts in a real world environment.
What will you learn?
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PCB/electronic sound design using a complete approach to heat management, cooling and anti-reliability component.
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Find out what heatsinks are, their main features and how to choose them for proper heat management and cooling.
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Understand and select thermal container and thermal equipment installation techniques.
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Understand the use of fans in heat management and cooling, their effect on heat sink thermal resistance and parameters.
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Thermal aspects of the Master in terms of PCB routing and design (copper plane, vias and so on) and the dimensions that affect it.
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Understand the evaluation and classification of electronic components (power, voltage, current, voltage, etc.).
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Improve the reliability aspects of heat management, cooling and deflection, especially with respect to electrical and thermal stress issues.
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Analyze, calculate, and design PCB hardware thermal control.
Who is this course for?
- Students interested in electronics, embedded systems and PCB design.
- Students who want to understand conditioning techniques and the most important basics.
- Students interested in electronic reliability against heat and electrical stress.
- Individuals interested in damage and its effect on improving device life expectancy.
PCB/Electronics Specifications: Thermal Management, Cooling and Derating
- Publisher: Udemy
- Teacher: Marco Catanossi
- Language : English
- Level: All levels
- Number of courses: 31
- Duration: 1 hour and 30 minutes
PCB/Electronics Content: Thermal Management, Cooling and Derating
Requirements
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Knowledge of basic electrical concepts, such as current, voltage, power and Ohm’s law.
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Knowledge of common electronic components (transistors, capacitors, and other widely used devices) and basic PCB concepts.
Pictures
Sample Clip
Installation Guide
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file size
381 MB