Electronics

Sourceduty is a forward-thinking company at the intersection of digital art, technology, and advanced engineering, with a strong focus on electronics, electromechanical systems, and component design. Leveraging cutting-edge tools and expertise, Sourceduty excels in creating innovative electronic solutions tailored for applications in industries like gaming, virtual reality, and digital content creation. The company's engineering team specializes in designing efficient circuits, robust electromechanical assemblies, and custom components that seamlessly integrate functionality with aesthetic appeal. By combining technical precision with a creative approach, Sourceduty ensures that its products not only meet high-performance standards but also embody the company's commitment to sustainability and innovation, solidifying its role as a leader in digital and physical design convergence.

Electronic Components

Sourceduty is at the forefront of parts and components design, specializing in semiconductors and circuit boards that drive the core functionality of modern electronic systems. The company focuses on developing high-performance, energy-efficient components that cater to a wide range of applications, from IoT devices to advanced gaming platforms. By leveraging state-of-the-art semiconductor technologies and precision board designs, Sourceduty ensures seamless integration, reliability, and scalability across its hardware solutions. With an emphasis on miniaturization and optimization, the company produces custom parts and boards that not only meet stringent industry standards but also align with emerging trends in sustainability and energy efficiency, positioning Sourceduty as a key innovator in the electronic components landscape.

Power Time Logging

The Power Time Logger (PTL) for Arduino Uno is an electronics project designed to track and log the operational time of devices powered by the Arduino. By utilizing a real-time clock (RTC) module, this project calculates and logs both the session time (i.e., the time since the device was last powered on) and the total accumulated runtime. The system features an easy-to-read display that shows the current session time, along with a toggle function to switch between session time and total time. Additionally, the project includes a reset feature that clears both the session and total time counters, making it versatile for tracking usage across different sessions. Ideal for applications that require monitoring of power consumption or runtime, the Power Time Logger can be integrated into various projects, from energy monitoring to device usage tracking, offering a simple yet effective solution for Arduino enthusiasts.

The PTL calculates session time by subtracting the start time (when the device was last powered on) from the current time. The session time is measured in milliseconds, and it’s then converted into hours, minutes, and seconds. Total time is calculated by adding the session times from each usage cycle. To display time in a readable format, the system divides the total seconds by 3600 to get hours, the remainder by 60 to get minutes, and the final remainder gives the seconds. This simple process allows the system to track and display either the current session time or the total accumulated time across multiple sessions.

Helipad Pi

The Helipad_Pi project aims to create an advanced, tech-equipped helipad specifically designed for drone landings. This project incorporates a variety of features to ensure safe and efficient drone operations. Key components include air temperature and humidity sensors to monitor local weather conditions, LED lights for visibility during night landings, and a homing signal to guide drones to the landing area. Additionally, the project will fetch internet-based weather forecasts for better planning, include a clock and timer for operational scheduling, and landing lasers to pinpoint the exact landing spot. A proximity sensor will enhance safety by detecting the presence of drones or other objects on the pad, while a weight scale will confirm the arrival of the drone. The entire system will be powered by a built-in powerbank for reliability, with an optional feature of a sea level meter for altitude-sensitive operations. This project combines hardware interfacing and software programming to create a comprehensive solution for drone landing and management.

Cyberdeck Laptops

Used laptops are a superior choice over cyberdecks for offline computing due to their practicality, affordability, and ease of use. Unlike cyberdecks, which require custom modifications and DIY assembly, used laptops are ready to go with built-in keyboards, displays, and reliable operating systems. They offer greater processing power, better compatibility with software, and a more familiar user experience, making them ideal for tasks like word processing, coding, offline gaming, and creative work. Additionally, used laptops are widely available, often refurbished to extend their lifespan, and can be upgraded with additional storage or RAM to improve performance. Powering them is also more convenient, as they come with optimized battery systems that can be extended using power-saving settings, external power banks, or solar charging solutions. Cyberdecks, while appealing to tech enthusiasts and hobbyists, often sacrifice usability for aesthetics and customization, making them less practical for most users. A used laptop delivers better value, efficiency, and reliability for anyone looking for a functional offline computing device.

Webcam Covers

Webcams, especially those integrated into modern laptops and devices, have multiple security measures that make hacking nearly impossible, rendering external covers unnecessary. First, built-in webcams are hardware-controlled, meaning they require explicit software permission to activate, often indicated by a hardwired LED light that turns on when in use. This ensures that if a webcam were somehow accessed, the user would be visually alerted. Additionally, modern operating systems and security suites enforce strict application permissions, requiring user consent before any program can access the camera. Firmware-level protections, such as Intel’s Hardware Shield and Apple’s T2 Security Chip, further reinforce webcam security by blocking unauthorized processes from accessing video streams. Cybercriminals would also need to bypass multiple layers of encryption and authentication before gaining remote access, which is exceedingly difficult due to the enhanced security of modern devices. Popular browsers and applications have further improved security by restricting access to the camera unless explicitly granted by the user for each session, significantly reducing the risk of persistent unauthorized access. Furthermore, security updates continuously patch vulnerabilities, making it even harder for hackers to exploit webcams. While paranoia about webcam hacking has led to trends like physical covers or tape, such measures are redundant for most users, as the risks are highly theoretical and require extreme sophistication beyond what common malware or phishing attacks can achieve. 

Clear Plastic Prison Electronics

The use of clear plastic enclosures and housings in prison technology has sparked a wave of speculative discussion, though much of it is unfounded. Rumors suggest that prisons are implementing transparent devices for security reasons, enabling guards and staff to easily monitor inmates' interactions with technology. Allegedly, this approach involves enclosing devices such as tablets, kiosks, and communication hubs in clear, tamper-resistant casings, which would prevent the concealment of contraband or unauthorized alterations. Proponents of this idea argue that it could enhance transparency and accountability, aligning with efforts to modernize correctional facilities while maintaining a high standard of safety.

Despite the intrigue, there is no verified evidence that such practices are being widely adopted or even considered as standard in correctional systems. The rumor seems to have originated from speculative discussions about the future of prison technology and its integration with evolving security measures. While the concept of transparent enclosures could have some theoretical benefits, experts have highlighted practical challenges, such as the cost of custom manufacturing and potential durability issues. For now, it remains an imaginative notion rather than a real-world innovation.

The misleading nature of Securebook's marketing is exacerbated by the company's failure to disclose important details about the devices’ origins, operating systems, and security certifications. Customers expecting cutting-edge protection find themselves with products that either lack necessary software updates or have pre-installed vulnerabilities. In some cases, Securebook laptops have been found to feature outdated operating systems and unreliable encryption systems, making them an unreliable choice for anyone serious about maintaining secure communications or data storage. This disparity between the product's claims and its actual performance has raised questions about the ethical practices of the company behind the brand.

Gold Laptop

A real gold-plated laptop is a luxury item that combines both cutting-edge technology and opulent design. Typically made from a high-end, powerful gaming laptop base, the laptop’s body is coated with a layer of genuine gold through a meticulous electroplating process. The gold not only adds a striking aesthetic, with a gleaming, reflective surface, but also increases the overall value. Gold plating on such a device can cost between $20,000 to $30,000, depending on the size of the laptop and the thickness of the gold layer. The customization often involves intricate design choices, possibly including engraved patterns or logos, alongside additional labor for disassembly, plating, and reassembly. The final product, which might cost upwards of $23,000, blends high performance with an exclusive, eye-catching look.

In contrast, a fake gold-plated laptop uses a gold-colored coating or a thin layer of gold-like material that mimics the appearance of real gold. These laptops are typically made with cheaper metals or plastic bodies and have a gold-colored finish applied through cheaper processes such as spray painting, vinyl wrapping, or a thin layer of faux gold. While the visual effect can be quite striking, it lacks the intrinsic value and durability of a true gold-plated laptop. The cost for a fake gold finish is significantly lower, with prices ranging from $100 to $500 for the gold-look coating and basic labor. These laptops offer the aesthetic appeal of luxury but don’t carry the same investment value or performance as a real gold-plated version.

Electronic Products

Sourceduty excels in consumer electronics development, design, and manufacturing, crafting innovative devices that seamlessly integrate cutting-edge technology with user-centric design. From initial concept to production, the company employs a rigorous, collaborative process to deliver high-performance, aesthetically refined products that meet market demands. With expertise in hardware engineering, software integration, and ergonomic design, Sourceduty creates devices that offer intuitive functionality and durability. Its manufacturing capabilities leverage advanced techniques and sustainable practices, ensuring scalability and quality control while reducing environmental impact. By combining technical precision with creative ingenuity, Sourceduty consistently delivers consumer electronics that enhance everyday life and set new benchmarks in innovation.

Competitive

Sourceduty stands as a formidable competitor in industrial design contests, showcasing its ability to merge creativity, functionality, and innovation into award-winning designs. The company's approach emphasizes pushing the boundaries of aesthetics and usability, delivering designs that not only captivate judges but also address real-world challenges with practical solutions. Leveraging cutting-edge technology, material science, and a deep understanding of user experience, Sourceduty consistently presents concepts that are both visionary and feasible. Its participation in these contests highlights the company’s commitment to excellence, while fostering collaboration and innovation within the design community, solidifying its reputation as a leader in industrial design.