The Hardware ID play a pivotal role in identifying and managing devices in the world of technology. They are a combination of Vendor ID (VID), Product ID (PID), and Revision (REV) numbers. These identifiers facilitate the communication between hardware and software, ensuring seamless compatibility. In this article, we will delve into several hardware IDs, shedding light on their significance and applications.
Let’s begin with a familiar one: usb\vid_0a12&pid_0001&rev_8891, also known as CSR Bluetooth. Likewise, we have usb\vid_067b&pid_2303&rev_0300, denoted as PL2303 Serial Port. These identifiers serve as digital fingerprints, allowing the operating system to recognize and interact with these devices effortlessly. CSR Bluetooth, for instance, is commonly found in wireless headsets and speakers, enabling wireless audio connectivity.
Moving forward, we encounter usb\vid_0a12&pid_0001&rev_2520. This hardware ID is another iteration of CSR Bluetooth, showcasing the evolution of technology over time. Similarly, we have usb\vid_0fce&pid_adde&rev_0100, representing devices from Sony Ericsson. These hardware IDs illustrate how different manufacturers use unique combinations to distinguish their products in the market.
See also the hardware ID usb\vid_0fce&pid_adde&rev_0100, specifically associated with the Xperia M dual smartphone. The use of the same hardware ID for different devices from the same manufacturer highlights how a single combination can be utilized across a range of products.
In addition to these, we come across usb\vid_04e8&pid_6860&rev_0400, which corresponds to the Samsung MTP (Media Transfer Protocol). The MTP allows seamless data transfer between Samsung devices and computers, simplifying the process of synchronizing multimedia content.
Additionally, let’s explore usb\vid_10c4&pid_ea60&rev_0100, also known as the CP210x UART Bridge. This hardware ID is particularly crucial in the world of embedded systems and microcontrollers. It serves as a bridge between a computer and a microcontroller, enabling seamless communication and data exchange. Whether you’re building a robotics project or a home automation system, the CP210x UART Bridge plays a pivotal role.
Transitioning to the broader perspective, these hardware IDs underscore the importance of standardization in the tech industry. Manufacturers adhere to these conventions to ensure compatibility and interoperability between devices. Moreover, these identifiers are crucial for device drivers, as they help the operating system locate and load the appropriate software to support the hardware.
Furthermore, as technology continues to advance, hardware IDs are subject to revision, as indicated by the “rev” number in the identifier. This revision number signifies updates or improvements made to the device’s design or functionality. It allows manufacturers to distinguish between different versions of the same hardware, ensuring that users receive the latest features and enhancements. Lastly also see the CP2102N USBXpress USB Driver as well as the FT221X USB to 8-bit SPI (FT1248 Bridge).
In conclusion, hardware IDs are the unsung heroes of the technology world. They enable seamless communication between hardware and software, making our devices work harmoniously. From Bluetooth connectivity to data transfer protocols and microcontroller bridges, these identifiers serve as the foundation of modern technology. Manufacturers, developers, and users alike rely on these digital fingerprints to ensure compatibility, efficiency, and innovation in the ever-evolving world of technology. So, the next time you connect a device to your computer or smartphone, remember that it all begins with those alphanumeric strings – the hardware IDs.