Parallax, Inc. is a leading company known for its expertise in microcontroller and microcontroller development tools, as well as the manufacture of educational robots. Based in Rocklin, California, the company has been a key player in the electronics industry for over 25 years. Parallax offers a wide range of products including the BASIC Stamp microcontroller, Propeller microcontroller, sensors, and robotics kits, catering to hobbyists, educators, and professionals alike. Their educational robots, such as the Boe-Bot and Scribbler, have gained popularity for their effectiveness in teaching programming and robotics concepts. Committed to innovation, Parallax consistently introduces new products and resources to support the learning and development needs of its diverse customer base. With a focus on quality and user-friendly design, Parallax continues to be a trusted source for electronic components and educational tools, making significant contributions to the field of embedded systems and robotics.
RF Transceiver Modules are essential components used for transmitting and receiving radio frequency signals across a wide range of applications. These modules are designed to operate within various RF families or standards, including Bluetooth, Cellular, General ISM, GPS, Navigation, SiBeam, WiFi, and 802.15.4. They support a broad frequency range spanning from 70MHz to 65GHz, allowing for flexibility in communication across different RF bands. In addition to their frequency range, RF Transceiver Modules also offer diverse data rate capabilities, covering a range from 600 bps (bits per second) to 12.3Gbps (gigabits per second). This wide data rate spectrum enables these modules to accommodate varying communication requirements, from low-speed applications to high-speed data transmission. Furthermore, RF Transceiver Modules provide a configurable power output, ranging from -10dBm to 54dBm. This adjustable power output capability allows for optimized signal transmission based on specific application needs, ensuring efficient and reliable communication over both short and long distances. These modules are widely utilized in a multitude of wireless communication systems, including but not limited to IoT devices, wireless sensor networks, mobile communication, satellite communication, and wireless local area networks (WLANs). Their versatility and adaptability make them indispensable for enabling seamless RF signal transmission and reception in diverse real-world scenarios. In summary, RF Transceiver Modules serve as critical components for transmitting and receiving radio frequency signals across a broad spectrum of applications. With support for various RF families, a wide frequency range, adaptable data rates, and configurable power output, these modules play a pivotal role in facilitating efficient and reliable wireless communication in modern technological landscapes.