Hello friends, I hope you all are having fun. In today's tutorial, I am going to share a new Proteus library for Raspberry Pi 2. We have already shared the Proteus Libraries of other Raspberry Pi modules i.e. Raspberry Pi 4, 3, Pico etc. and we discussed that these Pi modules won't be able to read the Python code. We have just designed the external appearance of these modules and you can use these Pi modules for circuit designing and project presentations.
We have also added the Arduino firmware in these boards, which is just to provide a bit of interaction with these boards. We have given these boards an unofficial title "Arduino Pi".
So, let's have a look at How to simulate Raspberry Pi in Proteus:
| Where To Buy? | ||||
|---|---|---|---|---|
| No. | Components | Distributor | Link To Buy | |
| 1 | Battery 12V | Amazon | Buy Now | |
| 2 | LEDs | Amazon | Buy Now | |
| 3 | Resistor | Amazon | Buy Now | |
| 4 | LCD 16x2 | Amazon | Buy Now | |
| 5 | LCD 20x4 | Amazon | Buy Now | |
| 6 | PIR Sensor | Amazon | Buy Now | |
Raspberry Pi 2 Library for Proteus
Note: For a better understanding, you should read How to Add a New Library File in Proteus.
Note: Its design is quite similar to that of Raspberry Pi 3, although we added the name to differentiate between the two.
As mentioned above, this Pi board won't be able to read the Python code. So, we have added the Arduino firmware in it to make it a bit more interactive. So, let's blink an LED with this Raspberry Pi 2 module in Proteus:
So, that was all for today. I hope you have enjoyed these Raspberry Pi simulated modules. IF have any questions, please ask in the comments. Thanks for reading.
Starting an engineering business can be lucrative. In addition to the financial rewards that come through profits, you can enjoy unmatched flexibility and the satisfaction of helping others solve their problems.
However, establishing an engineering startup is no easy fit. You will likely experience challenges, including unrealistic expectations, fierce competition, financial management problems, and more. Fortunately, with adequate planning and smart decision-making, you can avoid these huddles and set up your new venture for success.
To help you get started, here are eight steps for setting up a business using your engineering skills and background.
A business plan is a roadmap for your investment, outlining your goals, strategies, and financial projections. This document is so important that investors and financiers ask for it before funding you.
When developing a business plan , define your business's mission, vision, and goals. It would also be vital to describe your products or services in detail, emphasizing how your engineering skills will drive innovation and quality. Additionally, outline your pricing strategy, sales and marketing approach, and distribution channels.
Financial projections are a critical component of your business plan. So, estimate your startup costs, operating expenses, and projected revenue for the first few years. Remember to be realistic in your projections, and consider seeking advice from financial experts to ensure accuracy.
Before diving headfirst into entrepreneurship, you must conduct comprehensive market research. This step will provide invaluable insights into the industry landscape, customer preferences, and potential competitors. It will also allow you to locate gaps you can address with your engineering skills, giving you a competitive edge.
To do market research, you can use various tools, including telephone interviews, social media campaigns, surveys, and questionnaires. The results you get will help you choose the final design of your products or services and how to position them.
In your research, it is also vital to consider up-to-date engineering trends and technological advancements. This will help you adapt your engineering skills to meet evolving customer needs.
Choosing the right legal structure for your business is a crucial step that impacts your liability, taxes, and operations. Common business models include sole proprietorship, partnership, corporation, and limited liability company (LLC). As an engineer, opting for an LLC is often advantageous as it protects personal liability while allowing flexibility in management and taxation.
After identifying an ideal legal structure, obtaining the necessary licenses and permits is essential to operate your business legally. Depending on your location and industry, requirements may vary, so research and comply with local regulations.
Insurance is another critical consideration. Engineering-related businesses may face unique risks, and having appropriate insurance coverage can protect you from unforeseen challenges. Professional liability insurance, better known as errors and omissions insurance, can safeguard you from potential claims arising from your engineering advice or services.
Creating an operating agreement is essential if you've chosen to establish an LLC. This document outlines the ownership structure and operating procedures of the company.
Your operating agreement should clearly define the roles and responsibilities of each member and how decisions will be made and conflicts resolved. Addressing these aspects upfront can prevent potential conflicts and help maintain a smooth operation.
Consider creating a free LLC operating agreement using verified online templates or resources to cut costs. These resources allow you to customize the agreement to reflect your business's specific details, such as ownership structure, management roles, and decision-making processes.
Securing adequate funding is pivotal in transforming your engineering dreams into reality. So, consider various funding options such as personal savings, loans, grants, venture capital, or angel investors.
If you plan to target investors or get financing from a lending institution, craft a compelling pitch highlighting how your engineering skills give your business a competitive edge. Investors will be keen to understand how your technical proficiency translates into a unique value proposition and a robust market presence.
It would help if you convinced financiers with your research-backed market potential, revenue streams, and expansion strategies, which instills confidence in your business's future.
Technology is pivotal in streamlining operations and enhancing efficiency in the digital age. Without the right tools, you will struggle to meet deadlines, satisfy clients, and achieve your productivity goals, affecting your profits and growth.
Therefore, leverage your engineering background to select the right tools and software that align with your business's objectives. Whether it's CAD software for product design, project management tools, or analytics platforms, ensure your choices optimize your workflow and productivity.
Additionally, explore emerging technologies that can give your business a competitive edge. For instance, harness the power of artificial intelligence or the Internet of Things to innovate and offer cutting-edge solutions to your customers.
The type of brand you choose could make or break your engineering startup. Ideally, you need a brand that embodies innovation, reliability, and excellence. It should be built on a compelling story about your engineering journey, the problems you aim to solve, and your intended impact.
An excellent brand should feature a visually appealing logo, a color palette that resonates with your values, and a consistent brand voice across all communication channels. You could also infuse your engineering expertise into your branding by showcasing technical prowess through engaging content and demonstrations.
The success of your engineering-driven business hinges on effective marketing. Therefore, develop a strategic marketing campaign to showcase the value of your products or services. This plan should consider both traditional and digital marketing channels.
Ideally, consider utilizing your technical expertise to create insightful content, such as blog posts, videos, or webinars, that educates and engages your target audience. In addition, collaborate with industry influencers or thought leaders to amplify your reach and credibility.
Social media has become a vital platform for meeting clients. So, harness its power to share your engineering insights, success stories, and behind-the-scenes glimpses of your business.
Starting a business rooted in your engineering skills is an exciting endeavor with immense potential. By meticulously following these eight steps, you'll be well-equipped to transform your technical understanding into a thriving and impactful venture.
Most importantly, remember that running a business requires working smart, commitment, and perseverance, so embrace the challenges, fuel your passion, and let your entrepreneurial journey begin.
Chemical engineering combines experimental and natural sciences like physics and chemistry and other sciences like microbiology, biochemistry, biology, together with mathematics economics all of these to develop, transform and manage the industrial processes that run raw materials into valuable products. Chemical engineers are in high demand increasingly daily as the world’s technology advances. In this post we are going to look at the basic requirements for a chemical engineering career.
The requirements for a chemical engineering degree in tertiary institutions like American International College is normally a very strong educational background in mathematics and chemistry whereas knowledge in the other sciences will be an added advantage. At the time of your undergraduate studies try to pay attention to getting fundamental knowledge in reaction engineering, thermodynamics, process control and fluid mechanics.
Besides this you might want to consider pursuing an in-depth degree which will highly improve your skills and even open more ways to a great chemical engineering career.
After having a strong educational background you then move into the real world and see things on site how they actually work. This is where internships come in for a chemical engineering student in chemical engineering companies and research institutions by providing valuable work experience to a student by working on real projects in these industries.
As a chemical engineering student , you should develop new skills for your career. If you take time and develop on your soft skills like teamwork, creativity, communication, problem solving, adaptability and work ethic then this will likely propel you to a better position on landing a job. Make sure that you keep yourself updated with chemical engineering tools and software.
Chemical engineering is a very diverse field of engineering. Sometimes back, people used to call chemical engineering a universal engineering career for the reason of its technical and scientific mastery being so broad and covering a wide range of science branches. As a chemical engineer it is absolutely necessary in the current times to be updated with new technology.
It pays as a chemical engineer to stay ahead of the job market and learn new skills that will be of great help in the future. Chemical engineering is in the middle of many different industry categories and since each of these categories keep on changing to keep up with the state of the art, regulatory policies and stakeholders, chemical engineers have to stay in the lead with the field.
Networking in any career department is vital for any individual. Landing a good paying job is not easy even sometimes with papers and knowledge and skills. When you get the chance, talk to different types of professionals and form meaningful relationships with them during your studies and even your internship. Building this professional network will guide you to finding a good job.
As a chemical engineering student you need patience, unending education and dedication for you to enjoy the road to your achievement. Take advantage of challenges and learn from them, don’t hurry processes and go with the flow.
Hello friends, I hope you all are doing great. As we are working on Raspberry Pi libraries for Proteus these days, so today, I am going to share another awesome library i.e. Raspberry Pi Zero W Libary for Proteus. We have already shared the Raspberry Pi Pico, Raspberry Pi 3 & Raspberry Pi 4 Libraries for Proteus, I hope you have already installed these libraries.
We have only designed the exterior look of this module, it won't be able to read the Python code. You can use this module to design circuit diagrams of your projects or to demonstrate your project in the presentation. Although, just for fun, we have added the Arduino UNO firmware to it. So, you can add the Arduino hex file in it. Something is better than nothing.
So, let's install the Proteus Library and simulate Raspberry Pi Zero:
| Where To Buy? | ||||
|---|---|---|---|---|
| No. | Components | Distributor | Link To Buy | |
| 1 | Battery 12V | Amazon | Buy Now | |
| 2 | LEDs | Amazon | Buy Now | |
| 3 | Resistor | Amazon | Buy Now | |
| 4 | Raspberry Pi Zero | Amazon | Buy Now | |
Raspberry Pi Zero W Library for Proteus
Note: For a better understanding, you should read How to Add a New Library File in Proteus.
As I mentioned earlier, this RPi Zero module in Proteus won't be able to read the Python code. So, just for fun, we have added the Arduino firmware inside. I know it's not that helpful but that's all we have right now. I hope we will design the real Raspberry Pi Zero simulator one day. So, let's add the Hex File in Raspberry Pi Zero W:
Let's clear this thing up one last time, we can't add Python code in this simulated Raspberry Pi Zero, so just to have some interaction, we have added the Arduino Hex file in it. So, we need to get the Arduino hex file.
So, that was all for today. I hope you will enjoy this Raspberry Pi Zero W Library for Proteus. If having any difficulty, ask in the comments. Thanks for reading. Have a good day.
Hello friends, I hope you all are doing great. Today, I am going to share the Raspberry Pi 4 Library for Proteus. In our previous tutorial, we shared the Raspberry Pi 3 Library for Proteus and as we mentioned in that tutorial, these Raspberry Pi libraries will have dummy modules i.e. We have just designed the exterior but these boards won't be able to read the Python code. Although just for fun, we have added the Arduino firmware in these boards, so we can upload the Arduino code in it. As the legends say, something is better than nothing. We have given these boards an unofficial name "Arduino Pi".
You can use these Pi boards to design your circuit diagram or can also use it in your presentation/demonstration of your projects. I hope you will enjoy these simulated Raspberry Pi boards. Before going forward, let's first have a brief overview of Raspberry Pi 4:
| Where To Buy? | ||||
|---|---|---|---|---|
| No. | Components | Distributor | Link To Buy | |
| 1 | Battery 12V | Amazon | Buy Now | |
| 2 | LEDs | Amazon | Buy Now | |
| 3 | Resistor | Amazon | Buy Now | |
| 4 | Raspberry Pi 4 | Amazon | Buy Now | |
So, now let's have a look at How to add this Proteus library and simulate Raspberry Pi 4 in Proteus.
Raspberry Pi 4 Library for Proteus
Now let's design the Simulation of Raspberry Pi 4 in Proteus. As I mentioned earlier, we can't feed Python code to this RPi4 board. So, we have added the Arduino firmware to it. Thus, we need to upload the Arduino hex file in it. Let's attach an LED with Raspberry Pi 4:
So, that was all for today. I hope you will enjoy this Raspberry Pi 4 Library for Proteus and will use it in your projects. Let me know your feedback. Have a good day. Take care!!!
Hello friends, I hope you all are doing great. In today's tutorial, I am going to share a new Proteus Library for Raspberry Pi 3 module. In my previous tutorial, I shared the Raspberry Pi Pico Library for Proteus. Similar to Pico Library, this RPi3 LIbrary won't operate on the Python code. We have just designed the front look to use in the circuit design. Although, we can upload Arduino code to these simulated Raspberry Pi boards.
This Raspberry Pi Proteus Library will have only the Raspberry Pi 3 board in it. We will design the other Pi boards soon. So, let's have a look at How to simulate Raspberry Pi in Proteus:
| Where To Buy? | ||||
|---|---|---|---|---|
| No. | Components | Distributor | Link To Buy | |
| 1 | Battery 12V | Amazon | Buy Now | |
| 2 | LEDs | Amazon | Buy Now | |
| 3 | Resistor | Amazon | Buy Now | |
| 4 | Raspberry Pi 3 | Amazon | Buy Now | |
First of all, we need to download the Raspberry Pi library files, by clicking the below button:
Raspberry Pi 3 Library for Proteus
Note: Look at How to add a new Library in Proteus 8, if you are having any issues.
Now we are going to simulate this Raspberry Pi 3 board in Proteus. We will attach a simple LED to one of its pins. As I told earlier, we have just designed the exterior of this board. It won't read the Python code. We can use it to design circuit diagrams for our project. But just for fun, we have added the Arduino firmware to it. So, we can upload the Arduino hex file in this Pi board.
Now, let's run our simulation to get the results:
So, that was all for today. I hope you will use this Raspberry Pi Library to design your projects. In the next tutorial, I will share the Raspberry Pi 4 Proteus Library. Till then, take care. Have fun!!!
An engineer's job description involves a great deal of creating things based on the knowledge learned in school and the course of their career. These creations qualify as creations of the mind which is the very definition of intellectual property and thus protectable under IP laws.
So, understanding your rights as an engineer is critical to your profitability. This guide highlights types of intellectual property that have a huge significance to an engineer, such as patent, industrial design, trademark, copyright, and trade secret protections.
If you are venturing into a career as an engineer or have been in it but never paid attention to your IP rights, this will be an excellent read for you.
IP laws are designed to protect creations of the mind, also called intellectual property. The reasoning behind creating IP laws is to grant innovators and creators exclusive rights to their work, allowing them to commercialize and profit from them.
Image source: https://pixabay.com/photos/engineer-engineering-teamwork-4941342/
Also, the law creates avenues for rights holders to hold violators of their rights accountable for their actions, for example, by seeking compensation for damages suffered from their violation. Below is a breakdown of the important IP you need to know as an engineer. If you have intellectual property law questions, an expert Canadian IP attorney from Heer Law will gladly answer your questions and help you navigate a problem if you have one.
Patents are arguably the most important type of IP protection for engineers. Patents cover new innovations in the engineering industry , including construction methods, materials, building processes, new fuel technologies, new engines, etc.
For an idea to qualify for patenting, it must meet the eligibility criteria. First, the idea must be novel, meaning it must be new in the world and never be revealed at any place before the date of filing for registration. The idea must also be practical for two other engineers in the same field.
Lastly, the patent applicant must provide the registering entity with detailed information about the idea so that another person skilled in the trade can replicate the idea following the information provided. The government holds this information in confidentiality until the expiry of the patent protection period, which is 20 years from the filing date for registration.
Industrial design protection, also known as design patterns in some countries, is a form of patent protection covering a product's nonfunctional aspect. In other words, it covers a product's ornamental or aesthetic aspects, such as shape, ornamentation, texture, feel, etc.
For a design to qualify for industrial design protection under Canadian intellectual property law, the design must be new and not closely resemble an existing one, must apply to a specific product, and has to be nonfunctional in the sense that it doesn't affect the performance and efficiency of a product in any way.
Industrial design protections can apply to creations like car design, building design, interior design, and décor and are enforceable for 15 years from the filing date for registration.
A trademark is a word, symbol, logo, slogan, hashtag, or combination of any distinguishing goods and services in the market. As an engineer, your work may not be so much about selling products but for other services, in which case trademarking your name and your business name and brand becomes critical for marketing purposes and building brand reputation.
Trademarks can apply on a first-to-use basis, meaning you can claim ownership of a trademark even if it's not registered; however, proving ownership can be challenging. The best practice is to register your trademarks with the relevant authority.
Upon successful registration, trademark protections run for ten years from the registration date. However, the term is renewable upon payment of a service fee, allowing businesses and individuals to claim ownership of a trademark indefinitely.
Copyright protections apply to creative work such as pictures, art, text, music, and video. Engineering involves creating some designs from scratch, so you need to make sketches called draw plans as the foundation of your creations. Those sketches and plans are protected under intellectual property law.
In most countries, including Canada , the author of creative work owns its copyright by default unless they expressly transfer them to their clients. Therefore it's important to ensure that the terms of your contract are clear to avoid IP rights conflict with clients.
Copyright protections last for the author's lifetime and 70 years after death. If more than one author was involved, the 70 years starts running after the death of the last surviving author. If a business owns the copyright, it lasts 95 years from publication or 120 years from the date of creation, whichever is shorter.
Trade secrets are, just as the name suggests, confidential information that gives a business a competitive edge in the market. A trade secret for engineers can include the formula for creating a specific building material, processes involved, or business plans.
An entity does not need to register trade secrets to make them enforceable. However, doing so makes proving that information is a protected trade secret easier. Under the law, a trade secret can only be recognized as enforceable if the right holder makes reasonable efforts at protecting it, for example, by limiting access to good information, having employees sign non-disclosure agreements, and using passwords in encryption to secure the information. Also, trade secret protections run indefinitely if the rights holder keeps it confidential.
IP laws guarantee a person or entity's right to profit from their creation through exclusivity. For example, patent rights give the rights holder the exclusive right to sell their innovation, allowing them to set the prices for their innovation without fearing being undercut. Where the demand exceeds demand, they can sell rights to other entities expanding their income streams. So if for no other reason, the money factor should motivate you to secure your rights.
The assurance of profit-making from inventions and creations has been critical in spurring innovation. Investors want to be sure they get value for money, and the only way of getting assurances is guaranteed exclusivity to profit from inventions and creations. Some experts feel that IP laws, in a way, hinder innovations because it prevents others from building upon what has been already created, but the gains achieved through the laws outway the drawbacks by far.
Hello friends, I hope you all are fine. In today's tutorial, I am going to share the Raspberry Pi Pico Library for Proteus. It's a dummy library, we have just designed the display. We can't add the Python Code to it, but we can make it work with Arduino code. A mixture of Arduino and Raspberry Pi, I have given it an unofficial name "Arduino Pi". It's better to have something than nothing. You can design circuit diagrams using this library and can also demonstrate your project in presentations by designing simulations.
So, let's have a look at How to simulate Raspberry Pi Pico by adding this Proteus Library:
| Where To Buy? | ||||
|---|---|---|---|---|
| No. | Components | Distributor | Link To Buy | |
| 1 | Battery 12V | Amazon | Buy Now | |
| 2 | LEDs | Amazon | Buy Now | |
| 3 | Resistor | Amazon | Buy Now | |
| 4 | Raspberry Pi Pico | Amazon | Buy Now | |
Raspberry Pi Pico Library for Proteus
Note: Look at How to add a new Library in Proteus 8, if you are having any issues.
We have tried to keep it small in size so that other components could get more space.
As I told earlier, we can't program this Pico board with Python, which is the actual programming language of this board. But just for fun, we have enabled it to read the Arduino code. Let's design a simple blink example to see how it works:
Now let's run our simulation to check the results:
So, that was all for today. I hope you will enjoy this Raspberry Pi Pico Library for Proteus and will use it in your simulations. If you have any suggestions, use the below comment form. Thanks for reading. Take care!!!
Hello friends, I hope you all are doing well. In today's tutorial, I am going to share a new Proteus Library of ESP32 embedded module. ESP32 is a microcontroller board used mostly in IoT projects. It's a successor of ESP8266 or NodeMCU. We have already shared the NodeMCU Library for Proteus and I hope you guys have enjoyed it.
Proteus software is not capable of handling WiFi or BLE technology, thus we can't implement these technologies in the ESP32 board. Though, you can use its input/output pins to interface embedded sensors and modules. You can also use it to design the Circuit Diagram of your Project.
So, let's have a look at How to simulate ESP32 board in Proteus:
| Where To Buy? | ||||
|---|---|---|---|---|
| No. | Components | Distributor | Link To Buy | |
| 1 | Battery 12V | Amazon | Buy Now | |
| 2 | LEDs | Amazon | Buy Now | |
| 3 | Resistor | Amazon | Buy Now | |
| 4 | ESP32 | Amazon | Buy Now | |
Note: Look at How to add new Library in Proteus 8, if you don't know already.
So, using this ESP32 Library, we have added the board in Proteus software. Now, let's simulate ESP32 in Proteus:
We are going to simulate the ESP32 board by running Blink LED Example. As I told earlier, we can't add WiFi and BLE capabilities in this simulated ESP32 board. So, we are going to select Arduino UNO in the board section of Arduino IDE to get the hex file.
So, that was all for today. I hope you have enjoyed simulating ESP32 board in Proteus software. If you have any questions, ask in the comments. Till the next tutorial, take care. Have fun !!!
Hello friends, I hope you all are doing great. In today's tutorial, I will share a Proteus Library of another embedded module i.e. NodeMCU. NodeMCU is a microcontroller board and if you are new to this board, you should read Introduction to NodeMCU to get your hands dirty. NodeMCU is not present in the components library of Proteus and using this library you can easily simulate NodeMCU in Proteus.
We can't add WiFi and BLE capabilities to our module in the Proteus software, that's why it will just perform the basic functions i.e. sensors interfacing, PWM, I/O control etc. So, you can use it for simple code testing and can also use it to design circuit diagrams of your projects.
So, let's have a look at How to download NodeMCU Proteus Library and simulate it:
| Where To Buy? | ||||
|---|---|---|---|---|
| No. | Components | Distributor | Link To Buy | |
| 1 | Battery 12V | Amazon | Buy Now | |
| 2 | LEDs | Amazon | Buy Now | |
| 3 | Resistor | Amazon | Buy Now | |
| 4 | ESP8266 | Amazon | Buy Now | |
Note: Look at How to add new Library in Proteus 8, if you don't know already.
So, we have successfully added the NodeMCU module to our Proteus software. Now let's simulate NodeMCU and for that, I am going to use the blink example:
Note: As you can see in the above code, we have selected Arduino UNO in the boards' section. As I have told earlier, this NodeMCU module is only going to use its pins, we can't add WiFi or BLE capabilities in the Proteus software. So, while compiling the code, select Arduino UNO board. Something is better than nothing.
So, that's how you can easily simulate NodeMCU in the Proteus software. If you have any questions, please ask in the comments. I will resolve them as soon as possible. In the next tutorial, we will share the ESP32 Library for Proteus. Till then take care and have fun!!!