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📹 Your house guests will definitely love this 💀 #electronics #arduino #engineering ➥
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JSrobotics
https://youtu.be/1LVTs1CeHe0?si=wsTYZaWp80AhUhw8
Long time no see, subscribers! Here are the top 10 Arduino projects you can build yourself.
🚨 Elon Musk Sues OpenAI Again
Elon Musk has filed a new lawsuit against OpenAI and its co-founders, accusing them of abandoning their humanitarian mission for commercial gains. Musk claims that after achieving significant success in AI, the company began to focus on profits, creating a network of commercial branches and taking over the board of directors.
Musk is demanding that the licensing agreement between OpenAI and Microsoft be invalidated if the startup reaches the AGI level. This conflict is not new - Musk previously left the OpenAI board of directors due to disagreements on research directions.
OpenAI declined to comment on the new lawsuit and published letters from Musk confirming his awareness of the need for major investments in AI.
Follow the developments!
#WorldRobotics #ElonMusk #OpenAI #AI
Elon Musk has filed a new lawsuit against OpenAI and its co-founders, accusing them of abandoning their humanitarian mission for commercial gains. Musk claims that after achieving significant success in AI, the company began to focus on profits, creating a network of commercial branches and taking over the board of directors.
Musk is demanding that the licensing agreement between OpenAI and Microsoft be invalidated if the startup reaches the AGI level. This conflict is not new - Musk previously left the OpenAI board of directors due to disagreements on research directions.
OpenAI declined to comment on the new lawsuit and published letters from Musk confirming his awareness of the need for major investments in AI.
Follow the developments!
#WorldRobotics #ElonMusk #OpenAI #AI
#article #transisitors #semiconductor
What is a transistor?
A transistor is a miniature semiconductor that regulates or controls current or voltage flow in addition to amplifying and generating these electrical signals and acting as a switch or gate for them. Typically, transistors consist of three layers, or terminals, of a semiconductor material, each of which can carry a current.
Transistors are crucial components of modern electronics. When working as an amplifier, a transistor transforms a small input current into a bigger output current. As a switch, it can be in one of two distinct states -- on or off -- to control the flow of electronic signals through an electrical circuit or electronic device.
Why transistors are important?
A transistor has only one circuit element. In small quantities, transistors are used to create simple electronic switches. They're the basic elements in integrated circuits (ICs), which consist of a large number of transistors interconnected with circuitry and baked into a single silicon microchip.
In large numbers, transistors are used to create microprocessors where millions of transistors are embedded into a single IC. They also drive computer memory chips and memory storage devices for MP3 players, smartphones, cameras and electronic games. Transistors are embedded in nearly all ICs, which are part of every electronic device.
Transistors are also used for low-frequency, high-power applications, such as power-supply inverters that convert alternating current into direct current. Additionally, high-frequency applications use transistors, such as the oscillator circuits that generate radio signals.
List of some of the benefits of transistors.
Transistors have many benefits, from amplifying signals to requiring low-voltage supplies to being highly suitable for low-power applications.
How transistors revolutionized the tech world
Transistors were invented at Bell Laboratories in 1947. These solid-state devices rapidly replaced the bulky vacuum tube as an electronic signal regulator. The invention of the transistor fueled the trend to miniaturize electronics. They're now considered one of the most significant developments in the history of the PC.
Transistors are smaller, lighter and consume less power than vacuum tubes. As a result, electronic systems made with them are also smaller, lighter, faster and more efficient than ones made with vacuum tubes. Transistors are also stronger, require less power and, unlike vacuum tubes, don't require external heaters.
As the size of transistors decreased, their costs fell, creating more opportunities to use them. Integrating transistors with resistors and other diodes and electronics components makes ICs smaller. This miniaturization relates to Moore's Law, which states that the number of transistors in a small IC would double every two years.
Graphic listing number of transistors on different sizes of integrated circuits.
Blending transistors and diodes with resistors, capacitators and other components produces integrated circuits.
Transistors explained
A semiconductor device, which conducts electricity in a semi-enthusiastic way, falls somewhere between a real conductor like copper and an insulator such as the plastic wrapped around wires. Although most transistors are made from silicon, they also use other materials such as germanium and gallium arsenide.
Silicon, a chemical element often found in sand, isn't normally a conductor of electricity. A chemical process called doping introduces impurities into a semiconductor to modulate electrical, optical and structural properties. This enables silicon to gain free electrons that carry electric current. The silicon becomes either an n-type semiconductor where electrons flow out of it or a p-type semiconductor where electrons flow into it. Either way, the semiconductor enables the transistor to function as a switch or amplifier.
A transistor's three-layer structure contains one of the following layers:
What is a transistor?
A transistor is a miniature semiconductor that regulates or controls current or voltage flow in addition to amplifying and generating these electrical signals and acting as a switch or gate for them. Typically, transistors consist of three layers, or terminals, of a semiconductor material, each of which can carry a current.
Transistors are crucial components of modern electronics. When working as an amplifier, a transistor transforms a small input current into a bigger output current. As a switch, it can be in one of two distinct states -- on or off -- to control the flow of electronic signals through an electrical circuit or electronic device.
Why transistors are important?
A transistor has only one circuit element. In small quantities, transistors are used to create simple electronic switches. They're the basic elements in integrated circuits (ICs), which consist of a large number of transistors interconnected with circuitry and baked into a single silicon microchip.
In large numbers, transistors are used to create microprocessors where millions of transistors are embedded into a single IC. They also drive computer memory chips and memory storage devices for MP3 players, smartphones, cameras and electronic games. Transistors are embedded in nearly all ICs, which are part of every electronic device.
Transistors are also used for low-frequency, high-power applications, such as power-supply inverters that convert alternating current into direct current. Additionally, high-frequency applications use transistors, such as the oscillator circuits that generate radio signals.
List of some of the benefits of transistors.
Transistors have many benefits, from amplifying signals to requiring low-voltage supplies to being highly suitable for low-power applications.
How transistors revolutionized the tech world
Transistors were invented at Bell Laboratories in 1947. These solid-state devices rapidly replaced the bulky vacuum tube as an electronic signal regulator. The invention of the transistor fueled the trend to miniaturize electronics. They're now considered one of the most significant developments in the history of the PC.
Transistors are smaller, lighter and consume less power than vacuum tubes. As a result, electronic systems made with them are also smaller, lighter, faster and more efficient than ones made with vacuum tubes. Transistors are also stronger, require less power and, unlike vacuum tubes, don't require external heaters.
As the size of transistors decreased, their costs fell, creating more opportunities to use them. Integrating transistors with resistors and other diodes and electronics components makes ICs smaller. This miniaturization relates to Moore's Law, which states that the number of transistors in a small IC would double every two years.
Graphic listing number of transistors on different sizes of integrated circuits.
Blending transistors and diodes with resistors, capacitators and other components produces integrated circuits.
Transistors explained
A semiconductor device, which conducts electricity in a semi-enthusiastic way, falls somewhere between a real conductor like copper and an insulator such as the plastic wrapped around wires. Although most transistors are made from silicon, they also use other materials such as germanium and gallium arsenide.
Silicon, a chemical element often found in sand, isn't normally a conductor of electricity. A chemical process called doping introduces impurities into a semiconductor to modulate electrical, optical and structural properties. This enables silicon to gain free electrons that carry electric current. The silicon becomes either an n-type semiconductor where electrons flow out of it or a p-type semiconductor where electrons flow into it. Either way, the semiconductor enables the transistor to function as a switch or amplifier.
A transistor's three-layer structure contains one of the following layers:
An n-type semiconductor layer between two p-type layers in a positive-negative-positive (PNP) configuration.
A p-type layer between two n-type layers in a negative-positive-negative (NPN) configuration.
Regardless of its configuration, the inner semiconductor layer acts as the control electrode, or conductor, letting electricity enter or leave. A small change in the current or voltage at this layer produces a large, rapid change in the current passing through the entire component, enabling the transistor to function. This change occurs at the junction of both the n-type and p-type layers, also called the depletion region, which acts as an insulator.
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A p-type layer between two n-type layers in a negative-positive-negative (NPN) configuration.
Regardless of its configuration, the inner semiconductor layer acts as the control electrode, or conductor, letting electricity enter or leave. A small change in the current or voltage at this layer produces a large, rapid change in the current passing through the entire component, enabling the transistor to function. This change occurs at the junction of both the n-type and p-type layers, also called the depletion region, which acts as an insulator.
Don't forget to share with your friends💬
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Hello everyone!
I hope you’re all doing well, building amazing projects, and expanding your robotics knowledge every day.
I’m thrilled to announce that we’ve made tons of updates to our website to serve you better.
Check it out—I hope you find it useful!
https://jsrobotics.uz/index.html
I hope you’re all doing well, building amazing projects, and expanding your robotics knowledge every day.
I’m thrilled to announce that we’ve made tons of updates to our website to serve you better.
Check it out—I hope you find it useful!
https://jsrobotics.uz/index.html
www.jsrobotics.uz
JS Robotics - Innovating the Future
Explore cutting-edge robotics solutions and educational resources from JS Robotics. Join us in shaping the future of technology!
#news #latest
🤖 Butter Bot from "Rick and Morty" is now in real life
A prototype of Butter Bot from the animated series has been created in Croatia. The robot:
✔️ Can naturally transfer butter.
✔️ Recognizes faces and continues the conversation.
✔️ Moves around the table and even makes unique jokes.
The most interesting thing is that if the robot "does not behave well", you can take full control of it using a remote control.
Don't forget to share with your friends💬
🖥Visit our website for more!
Follow for more updates:
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🤖 Butter Bot from "Rick and Morty" is now in real life
A prototype of Butter Bot from the animated series has been created in Croatia. The robot:
✔️ Can naturally transfer butter.
✔️ Recognizes faces and continues the conversation.
✔️ Moves around the table and even makes unique jokes.
The most interesting thing is that if the robot "does not behave well", you can take full control of it using a remote control.
Don't forget to share with your friends💬
🖥Visit our website for more!
Follow for more updates:
📱 Telegram
JSrobotics
https://youtu.be/5vRAACeebjI?si=uJfHPjcSs1rACFwG
- Watch this video also to better understand the Transistors- the backbone of modern electronics
Forwarded from Automatics & Robotics & Arduino
Perpetual Calendar With Google Calendar Connection
This project is an improved version of the calendar that author made more than a year ago, it still works very well and has become a common object in living room. If you’re a little more conservative, don't always have the phone in your hand and like that, you can see a monthly calendar in front of you and notice at a glance what date is today or next week on what date the weekend starts and very important, when the payday will be :)
Do it yourself ➡️ https://www.instructables.com/Perpetual-Calendar-With-Google-Calendar-Connection/
This project is an improved version of the calendar that author made more than a year ago, it still works very well and has become a common object in living room. If you’re a little more conservative, don't always have the phone in your hand and like that, you can see a monthly calendar in front of you and notice at a glance what date is today or next week on what date the weekend starts and very important, when the payday will be :)
Do it yourself ➡️ https://www.instructables.com/Perpetual-Calendar-With-Google-Calendar-Connection/