Snapdragon is the name given to an ARM-based SoC (System on a Chip) product family from the world's leading technology group Qualcomm, which is marketed under the name Snapdragon Mobile Platform. The mini processors are mostly manufactured for smartphones, but also for tablets, and have other system components, such as a GPU, WLAN or Bluetooth adapter, etc., in addition to a powerful CPU. Snapdragon processors (SoC's) are installed in many TOP models and are widely used. We are happy to advise you on the selection of the perfect Snapdragon processor for your application - whether from our standard range, modified or custom-developed.
A system-on-a-chip (also system-on-chip) combines the essential system components on a single chip, so it integrates different circuit parts. Although the designs are slightly different for each developer, the most important components of single-chip systems are always the main processor, graphics processor, memory and modem. An SoC thus represents the basis of the device hardware. The reason for the development of such chipsets is that in wearables, for example, there is naturally much less space available for the system components. The main advantage of Snapdragon chips is their versatility. The higher the chipset number, the more power it has. The Snapdragon models are considered very energy-efficient compared with other SoCs, so devices equipped with a Snapdragon chipset have a very long battery life. Snapdragon processors are predominantly installed in Android devices. These chipsets are also found in consumer electronics and embedded systems for the automotive industry: for processing data and signals or for control, monitoring and regulation tasks.
The Qualcomm® QCS610 SoC is a high-performance IoT system-on-chip (SoC) with best-in-class capabilities for building advanced smart camera and IoT use cases that cost-effectively include machine learning, edge computing, sensor processing, voice control and integrated wireless connectivity.
The application processor that offers flexible connectivity, enhanced GPS and advanced camera features. - Qualcomm Snapdragon - QCS2290 is a robust entry-level processor that delivers reliable performance and power savings with advanced features and memory support for low power consumption in its class. Equipped with Cortex-A53 CPU architecture, the entry-level application processor is a cost-effective solution that offers more performance, higher graphics capabilities, better image quality, and improved power efficiency.* This application processor is ideal for point-of-sale (POS), industrial handheld, tracking, and camera applications.
The Qualcomm Snapdragon - QCS4290 offers maximum mid-range benefits and delivers more power. With Qualcomm® Kryo™ 260 CPU architecture for faster speeds and robust on-device performance, and 3rd generation Qualcomm AI Engine, this platform delivers strong performance, dynamic camera capabilities and Wi-Fi 6-ready connectivity, ideal for industrial and commercial IoT applications such as industrial handhelds in logistics and warehousing, security panels and cameras. Devices based on this new solution enable productive and efficient work environments by enhancing intuitive device intelligence.
System-on-Module (SOMs) for networked IoT applications represent the heart of your respective application. By using a standard SOM and integration and design services from Atlantik Elektronik, you eliminate 6-12 months from your development schedule. With a team of experienced engineers and technicians, Atlantik Elektronik has the expertise to develop and implement demanding projects quickly, reliably and cost-effectively. Depending on the target market and project goal, development processes are efficiently scaled.
Thundercomm's cost-effective System on Module TurboX CM2290 LTE provides broad access to networks in all regions of the world. Built on the Qualcomm QCM2290 mobile platform, the Thundercomm CM2290 LTE SOM (System On Module) brings high-value features to mid-range devices supporting all-day battery life, fast LTE connectivity, enhanced camera, advanced graphics and more. The ultra-compact form factor of the CM2290 LTE module can be built into any mobile device such as translator, handheld pos and tablet. It is the ideal platform for OEMs to quickly bring low-cost mobile devices to market.
The TurboX C4290 System on Module is designed based on the Qualcomm® QCM4290/QCS4290 platform. It provides high-end features for mid-tier devices and supports advanced graphics, high-speed LTE connectivity, triple ISPs for advanced dual-camera experience, dedicated DSP computers for computer vision and video post-processing, etc. The form factor of TurboX C4290 System on Module is 35mm*35mm (C4290) and 51mm*35mm (CM4290) LGA package, which can be installed in devices such as handy terminals, POS, retail devices, robotics, dash cameras, PDAs, tablets, etc.
The TurboX C6490 System on Module is integrated with the Qualcomm® Snapdragon™ 5G SoC QCM6490/QCS6490, a 6nm processor with superior performance, power efficiency and high computing power (14 TOPS). It supports 4K@60FPS video decoding and 4K@30FPS video encoding, Wi-Fi 6E with DBS, Long Range Bluetooth, and five MIPI CSIs, as well as a variety of peripheral interfaces including GPIO, UART, I2C, I3C, SPI, USB 3.1, and PCIe. The TurboX C6490 System on Module is a high-performance AIoT SOM for building handheld devices, industrial robots, service robots, drones and digital signage. It provides customers with hardware interfaces and software SDK to validate functions and build the prototype quickly.
The Open-Q™ 865XR SOM is an ultra-compact (50mm x 29mm) production-ready SOM based on the high-performance Qualcomm® SXR2130P SoC. The 865XR leverages Qualcomm® Technologies' heterogeneous computing expertise to offer a system-on-chip with multiple specialized compute cores including the 5th generation AI engine, Qualcomm Spectra™ ISP, Qualcomm® Adreno™ GPU and Qualcomm® Hexagon™ DSP.
The production-ready Open-Q™ 8250CS SOM Computing with Android™ 10 provides a powerful platform for edge computing.
The development software package supports multiple simultaneous decode and encode sessions, 2A synchronization for 2 cameras, UVC/UAC source mode for video collaboration bars that function as USB-class devices, low-latency MS codecs, MS Teams video extensions, and other interesting camera and video features.
With the Snapdragon Software Development Kit (or SDK), developers and designers can differentiate their applications and take advantage of the additional capabilities offered by devices with Snapdragon processors, but without compromising compatibility between the diverse collection of Android devices. The Snapdragon SDK for Android provides access to the heart of the system through application programming interfaces (the popular APIs). Among the capabilities offered by the Snapdragon SDK are features such as facial processing, with recognition of gestures such as smiles or blinks, surround sound recording for optimal audio capture, touch sensors to create personalized user interfaces, or indoor location to keep geo-referenced apps working. These are just some of the capabilities available to developers to create smarter and better apps.
The Open-Q™ 865XR SOM Development Kit is a versatile, easy-to-use exposed board platform powered by our ultra-compact, production-ready Open-Q™ 865XR SOM. The SOM leverages Qualcomm® Technologies' heterogeneous computing expertise to provide a system-on-chip with multiple specialized compute cores for high-performance AI processing, image and graphics processing, and audio processing. The development kit provides the ideal starting point for evaluating the Open-Q™ 865XR SOM or developing next-generation embedded and IoT devices. The platform consists of Lantronix's Open-Q™ 865XR SOM, an open-frame carrier board that exposes all available I/O, and a range of accessories to accelerate your product development.
The Qualcomm® Robotics RB5 Platform is the most innovative platform that combines Qualcomm Technologies' broad expertise in 5G and AI to enable developers and manufacturers to create the next generation of robots and drones with high computing power and low energy consumption for the consumer, enterprise, defense, industrial and professional services sectors. The comprehensive Qualcomm Robotics RB5 Development Kit ensures developers have the customization and flexibility they need to turn their visions into commercial reality. With 4G and 5G connectivity speeds via a companion module, the Qualcomm Robotics RB5 platform helps pave the way for 5G adoption in robotics and intelligent systems.
The Turbox™ CT6490 development kit for the Thundercomm TurboX CT6490 SOM supports multiple 5G sub-6GHz bands and is backward compatible with 4G/LTE networks. It supports Android 11 and Android 12. The TurboX CT6490 SOM is based on the Qualcomm Snapdragon 5G SoC QCM6490 and supports video 4K60 fps decoding/4K30 fps encoding, five 4-lane MIPI DSI and a variety of peripheral interfaces GPIO/UART/I2C/I3C/SPI/USB 3.1.
The CT6490 SOM has a very long life cycle as a 5G smart module and targets various markets, such as handy terminals, dash cameras, smart POS, drones, etc. Its extensive hardware interfaces and software SDK can help customers validate functions and prototype quickly.
The TurboX™ CM2290 development kit is designed based on the pin2pin compatible SOMs: C2290/CM2290. It features rich interfaces such as: HDMi In/Out, Ethernet , USB Type-C and expansion ports, which can help customers validate the function and build the prototype quickly.
The CM2290 single board computer is designed based on the Qualcomm QCM2290/QCS2290 platform. It offers high-end features for entry-level devices and delivers more performance, higher graphics capabilities, better image quality and improved power balance.
It is the ideal platform for industrial and consumer applications that require high-speed multimedia capabilities. Our QCM2290 development kit helps customers quickly bring cost-effective mobile devices to market. The CM2290 single board computer also features a range of standard displays for development and rapid prototyping, and can be quickly and cost-effectively customized to meet specific requirements.