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Si la modification est marquée comme mineure ou non (minor_edit)
Nom du compte d’utilisateur (user_name)
DamionMattison
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* user autoconfirmed
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Titre de la page (sans l'espace de noms) (article_text)
Minty Pi Without Custom PCB
Titre complet de la page (article_prefixedtext)
Minty Pi Without Custom PCB
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edit
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Nouveau texte de la page, après la modification (new_wikitext)
<br>A lot of students ask us "what is the meaning of Minty Pi? Is it a marketing strategy or an embedded software program?" It is actually neither. We call it a new type of student electronics tool that was developed to make programming for and debugging electronics easier for college students. Invented by a student at Delft University in the Netherlands, it is nothing more than a stripped down, student-friendly version of a standard, commercial printed circuit board (PCB). But this board doesn't have to be customized to suit the specific needs of every student dorm; in fact, this invention can be used to create boards that work with any size or type of electronic system.<br><br><br>If you are a student that has recently purchased a computer or other electronic device, there is a good chance that you will need to use some sort of programmable logic controller (PLC) at some point. Most students use these programs for interactive learning and do not want one that is overly complex for their purposes. So, what is the big deal about Minty Pi? Why are some students requesting a PIC-like board for their electronics tools? In the next section we will answer these questions and more to give you the insight you need to determine if a custom printed circuit board manufactured by Illinois based electronics supplier, Mircotools, is right for your student electronics project.<br><br><br>The idea behind having a PIC-like board for electronics is to eliminate the need for costly and complicated programmer interfaces that usually come with customized systems. Instead, students can use standard hardware interfaces that are already designed to make the programming process as easy and basic as possible. By eliminating the need for costly interfaces, some students can also save money that can be used elsewhere in their education. And, of course, by using standard PIC hardware, the cost of designing and printing the custom PIC is eliminated, as well. So, while there are some electronics school students who may prefer to use a PIC instead of a printed circuit board, most schools will find that using standard interfaces will reduce the overall cost of the project and increase student productivity.<br><br><br>So, how does a student get started when thinking about a custom printed circuit board? Most electronics students start out with an idea... perhaps creating a new software interface for electronics projects, or designing and building their first hardware device. Then, they decide what type of electronics design program will suit their needs best and begin to look for a supplier that can help them create their dream device. A great place to start for new students is the Mircotools website where they have plenty of information about their wide range of PICs, along with a comprehensive list of parts suppliers and equipment available.<br><br><br>The site also has a detailed tutorial process for selecting the right PIC parts for each design. Here, students can find out which parts are available and how much they will cost before they begin the design process. For those who have almost any concerns with regards to wherever and also how to utilize [https://www.fastturnpcbs.com/project/high-tg-pcb/ https://www.fastturnpcbs.com/], you can e-mail us in our site. Once the parts are purchased, the design process begins by uploading the schematics for the PIC to be used. At this point, a student can choose whether to use a manual wiring process or a user-friendly program for programming the PIC. After this is complete, the design phase begins with wiring the PIC to be used in the various parts of the design.<br><br><br>This entire process takes just a few hours, but it goes through many important steps. Students will need to select a good supplier for their parts, wire the PIC correctly, and decide on a design process before they begin their project. With great online resources such as Mircotools and the website, it makes it easier than ever before to complete a custom project. Before starting a project, though, it is always good to read up on all the important considerations. This will ensure that the project is a success and that the student has a good experience doing it.<br>
Diff unifié des changements faits lors de la modification (edit_diff)
@@ -1,1 +1,1 @@ - +<br>A lot of students ask us "what is the meaning of Minty Pi? Is it a marketing strategy or an embedded software program?" It is actually neither. We call it a new type of student electronics tool that was developed to make programming for and debugging electronics easier for college students. Invented by a student at Delft University in the Netherlands, it is nothing more than a stripped down, student-friendly version of a standard, commercial printed circuit board (PCB). But this board doesn't have to be customized to suit the specific needs of every student dorm; in fact, this invention can be used to create boards that work with any size or type of electronic system.<br><br><br>If you are a student that has recently purchased a computer or other electronic device, there is a good chance that you will need to use some sort of programmable logic controller (PLC) at some point. Most students use these programs for interactive learning and do not want one that is overly complex for their purposes. So, what is the big deal about Minty Pi? Why are some students requesting a PIC-like board for their electronics tools? In the next section we will answer these questions and more to give you the insight you need to determine if a custom printed circuit board manufactured by Illinois based electronics supplier, Mircotools, is right for your student electronics project.<br><br><br>The idea behind having a PIC-like board for electronics is to eliminate the need for costly and complicated programmer interfaces that usually come with customized systems. Instead, students can use standard hardware interfaces that are already designed to make the programming process as easy and basic as possible. By eliminating the need for costly interfaces, some students can also save money that can be used elsewhere in their education. And, of course, by using standard PIC hardware, the cost of designing and printing the custom PIC is eliminated, as well. So, while there are some electronics school students who may prefer to use a PIC instead of a printed circuit board, most schools will find that using standard interfaces will reduce the overall cost of the project and increase student productivity.<br><br><br>So, how does a student get started when thinking about a custom printed circuit board? Most electronics students start out with an idea... perhaps creating a new software interface for electronics projects, or designing and building their first hardware device. Then, they decide what type of electronics design program will suit their needs best and begin to look for a supplier that can help them create their dream device. A great place to start for new students is the Mircotools website where they have plenty of information about their wide range of PICs, along with a comprehensive list of parts suppliers and equipment available.<br><br><br>The site also has a detailed tutorial process for selecting the right PIC parts for each design. Here, students can find out which parts are available and how much they will cost before they begin the design process. For those who have almost any concerns with regards to wherever and also how to utilize [https://www.fastturnpcbs.com/project/high-tg-pcb/ https://www.fastturnpcbs.com/], you can e-mail us in our site. Once the parts are purchased, the design process begins by uploading the schematics for the PIC to be used. At this point, a student can choose whether to use a manual wiring process or a user-friendly program for programming the PIC. After this is complete, the design phase begins with wiring the PIC to be used in the various parts of the design.<br><br><br>This entire process takes just a few hours, but it goes through many important steps. Students will need to select a good supplier for their parts, wire the PIC correctly, and decide on a design process before they begin their project. With great online resources such as Mircotools and the website, it makes it easier than ever before to complete a custom project. Before starting a project, though, it is always good to read up on all the important considerations. This will ensure that the project is a success and that the student has a good experience doing it.<br>
Lignes ajoutées lors de la modification (added_lines)
<br>A lot of students ask us "what is the meaning of Minty Pi? Is it a marketing strategy or an embedded software program?" It is actually neither. We call it a new type of student electronics tool that was developed to make programming for and debugging electronics easier for college students. Invented by a student at Delft University in the Netherlands, it is nothing more than a stripped down, student-friendly version of a standard, commercial printed circuit board (PCB). But this board doesn't have to be customized to suit the specific needs of every student dorm; in fact, this invention can be used to create boards that work with any size or type of electronic system.<br><br><br>If you are a student that has recently purchased a computer or other electronic device, there is a good chance that you will need to use some sort of programmable logic controller (PLC) at some point. Most students use these programs for interactive learning and do not want one that is overly complex for their purposes. So, what is the big deal about Minty Pi? Why are some students requesting a PIC-like board for their electronics tools? In the next section we will answer these questions and more to give you the insight you need to determine if a custom printed circuit board manufactured by Illinois based electronics supplier, Mircotools, is right for your student electronics project.<br><br><br>The idea behind having a PIC-like board for electronics is to eliminate the need for costly and complicated programmer interfaces that usually come with customized systems. Instead, students can use standard hardware interfaces that are already designed to make the programming process as easy and basic as possible. By eliminating the need for costly interfaces, some students can also save money that can be used elsewhere in their education. And, of course, by using standard PIC hardware, the cost of designing and printing the custom PIC is eliminated, as well. So, while there are some electronics school students who may prefer to use a PIC instead of a printed circuit board, most schools will find that using standard interfaces will reduce the overall cost of the project and increase student productivity.<br><br><br>So, how does a student get started when thinking about a custom printed circuit board? Most electronics students start out with an idea... perhaps creating a new software interface for electronics projects, or designing and building their first hardware device. Then, they decide what type of electronics design program will suit their needs best and begin to look for a supplier that can help them create their dream device. A great place to start for new students is the Mircotools website where they have plenty of information about their wide range of PICs, along with a comprehensive list of parts suppliers and equipment available.<br><br><br>The site also has a detailed tutorial process for selecting the right PIC parts for each design. Here, students can find out which parts are available and how much they will cost before they begin the design process. For those who have almost any concerns with regards to wherever and also how to utilize [https://www.fastturnpcbs.com/project/high-tg-pcb/ https://www.fastturnpcbs.com/], you can e-mail us in our site. Once the parts are purchased, the design process begins by uploading the schematics for the PIC to be used. At this point, a student can choose whether to use a manual wiring process or a user-friendly program for programming the PIC. After this is complete, the design phase begins with wiring the PIC to be used in the various parts of the design.<br><br><br>This entire process takes just a few hours, but it goes through many important steps. Students will need to select a good supplier for their parts, wire the PIC correctly, and decide on a design process before they begin their project. With great online resources such as Mircotools and the website, it makes it easier than ever before to complete a custom project. Before starting a project, though, it is always good to read up on all the important considerations. This will ensure that the project is a success and that the student has a good experience doing it.<br>
Horodatage Unix de la modification (timestamp)
1660275541
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