Why Does the NO Switch Not Maintain Closure in a Seal Circuit Simulation?

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In summary, Fernando Azevedo from Brazil is seeking help with simulating a seal's circuit consisting of a contactor, one normally open switch, and one normally closed switch. The circuit is meant to start a motor, but when the normally open switch is pushed, it does not stay closed. Fernando is wondering if anyone can add him on MSN to exchange information about EWB. He also asks if the circuit resembles the one shown on a Siemens website.
  • #1
muganga
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hello everybody...i need help about how simulate a seal's circuit (contactor + 1 switch NO + 1 switch NC). My circuit is to start a motor...i traied simulate but when i push NO..it didnt keep close.

thanks so much...if you can add at MSN to exchange information about EWB i'll thanks a lot.

Fernando Azevedo
mugangalinux@hotmail.com
Brazil
 
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  • #2
"i traied simulate but when i push NO..it didnt keep close."

What are you simulating this with?
 
  • #3
muganga said:
hello everybody...i need help about how simulate a seal's circuit (contactor + 1 switch NO + 1 switch NC). My circuit is to start a motor...i traied simulate but when i push NO..it didnt keep close.

thanks so much...if you can add at MSN to exchange information about EWB i'll thanks a lot.

Fernando Azevedo
mugangalinux@hotmail.com
Brazil
Does your circuit look something like http://www.sea.siemens.com/step/templates/lesson.mason?components:3:2:8" ?
 
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1. How can you simulate a seal's circuit?

To simulate a seal's circuit, you will need to use specialized software and equipment. First, you will need to gather data on the seal's behavior and electrical signals. Then, using the software, you can create a virtual circuit model based on this data. This model can then be tested and adjusted to accurately simulate the seal's circuit.

2. What is the purpose of simulating a seal's circuit?

The purpose of simulating a seal's circuit is to better understand how their body and brain processes electrical signals and controls their movements. This can help in the development of technologies and devices that mimic the seal's natural movements and behaviors.

3. What are some challenges in simulating a seal's circuit?

One of the main challenges in simulating a seal's circuit is obtaining accurate and comprehensive data on their behavior and electrical signals. Additionally, it can be difficult to accurately recreate the complex interactions between different components of the circuit. Technical challenges such as equipment limitations and software compatibility may also arise.

4. Are there any ethical considerations when simulating a seal's circuit?

Ethical considerations should always be taken into account when conducting any scientific research, including simulating a seal's circuit. This includes obtaining proper consent and ensuring the well-being of the animals involved. It is important to work with a qualified team and follow ethical guidelines to ensure the safety and welfare of the seals.

5. What are the potential applications of simulating a seal's circuit?

The potential applications of simulating a seal's circuit are wide-ranging. This research can contribute to the development of advanced prosthetics, robotics, and other technologies that can mimic the seal's efficient movements and behaviors. It can also provide insights into the evolution of neural circuits and the development of artificial intelligence.

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