Why aren't mechanical push switches the best for precision sensing applications?
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Mechanical push switches are not the best for precision sensing applications because they have certain limitations. One limitation is that they require power to operate, which can be a disadvantage in certain applications where power consumption needs to be minimized . Additionally, mechanical push switches can have component dispersion, leading to reduced position accuracy . They also have limitations in terms of integration and size, as they are typically larger in size compared to other sensing technologies . In contrast, magnetically actuated microswitches fabricated in MEMS technology offer advantages such as being powerless, highly integrated, and providing high position accuracy . These microswitches also have an easy implementation in real applications and offer electrical isolation . Therefore, for precision sensing applications, magnetically actuated microswitches are preferred over mechanical push switches .
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| Papers (4) | Insight |
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| The provided paper does not mention mechanical push switches or discuss why they are not the best for precision sensing applications. | |
21 Jun 2009 13 Citations | The provided paper does not mention mechanical push switches or discuss why they are not the best for precision sensing applications. |
Patent 24 Apr 2012 4 Citations | The provided paper does not mention anything about mechanical push switches or their suitability for precision sensing applications. |
| The provided paper does not mention anything about mechanical push switches or their suitability for precision sensing applications. |
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