1. Power supply constraints: The electronic system may have specific power requirements, such as a specific voltage range or maximum power consumption.
2. Size and weight constraints: The electronic system may need to be compact and lightweight to fit in a specific space or be portable.
3. Temperature constraints: The electronic system may need to operate within a specific temperature range to ensure proper functioning and prevent damage.
4. Environmental constraints: The electronic system may need to be resistant to moisture, dust, vibrations, or other environmental factors based on its intended use.
5. Component availability constraints: The electronic system may have constraints on the availability of certain components, either due to limited stock, end-of-life status, or other reasons.
6. Cost constraints: The electronic system may need to be designed within a certain budget, limiting the availability of expensive components or complex circuitry.
7. Processing power and speed constraints: The electronic system may require a specific level of processing power or speed to perform its intended tasks effectively.
8. Compatibility constraints: The electronic system may need to be compatible with existing systems, interfaces, or protocols, requiring specific design considerations.
9. Safety constraints: The electronic system may need to meet certain safety standards and regulations to ensure user and environmental safety.
10. Reliability and durability constraints: The electronic system may need to be reliable and durable, able to operate for a given period without failures or requiring frequent maintenance.
11. Time constraints: The electronic system may have a specific deadline for completion, requiring efficient design and development processes to meet the timeline.
12. Security constraints: The electronic system may need to have built-in security features to protect against unauthorized access, data breaches, or other security risks.
Identify and list the constraints for the electronic system
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