Embedded - System On Chip (SoC)
Embedded - System On Chip (SoC) - Category Overview
Definition of Embedded - System On Chip (SoC)
Embedded System on Chip (SoC) refers to a highly integrated semiconductor device that combines multiple core computing components onto a single chip. These components typically include a processor (CPU), memory, input/output (I/O) interfaces, and specialized accelerators (e.g., GPU, DSP, or AI cores). SoCs are designed for embedded systems, where compact size, power efficiency, and high performance are critical. They serve as the brain of smart devices, enabling advanced functionality in applications such as IoT, automotive systems, industrial automation, and consumer electronics.
Types of Embedded SoC Products
This category encompasses a diverse range of SoC solutions tailored for different industries and performance requirements:
- Application-Specific SoCs: Optimized for tasks like AI inference (e.g., NVIDIA Jetson, Qualcomm AI Engine) or real-time control (e.g., industrial PLCs).
- General-Purpose SoCs: Flexible designs for broad use cases (e.g., ARM-based SoCs like Raspberry Pi Compute Modules).
- Wireless SoCs: Integrate connectivity (Wi-Fi, Bluetooth, 5G) for IoT devices (e.g., ESP32, Nordic Semiconductor SoCs).
- Automotive SoCs: Compliant with safety standards (ISO 26262), used in infotainment and ADAS (e.g., NXP i.MX, Renesas R-Car).
- FPGA-SoC Hybrids: Combine programmable logic with processors (e.g., Xilinx Zynq, Intel Cyclone V).
Purchasing Recommendations for SoCs
When selecting an SoC, consider:
1. Performance Needs: Match CPU/GPU cores, clock speeds, and memory bandwidth to your workload (e.g., edge AI vs. low-power sensors).
2. Power Efficiency: Critical for battery-operated devices; check TDP (thermal design power) ratings.
3. Connectivity & Peripherals: Ensure built-in interfaces (USB, PCIe, MIPI) align with your system design.
4. Software Support: Verify OS compatibility (Linux, RTOS, Android) and vendor-provided SDKs/drivers.
5. Longevity & Supply: Industrial/automotive projects may require extended lifecycle availability.
Why Choose This Category? SoCs reduce development complexity, accelerate time-to-market, and enable cutting-edge functionality in space-constrained designs. Browse our curated selection to find the ideal balance of integration, performance, and cost for your embedded application.
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M2S150-FCG1152
IC SOC CORTEX-M3 166MHZ 1152BGA
M2S010-VFG256I
IC SOC CORTEX-M3 166MHZ 256FBGA
M2S060TS-1VF400I
IC SOC CORTEX-M3 166MHZ 400VFBGA
M2S005-1VF256
IC SOC CORTEX-M3 166MHZ 256FBGA
XC7Z035-2FBG676E
IC SOC CORTEX-A9 800MHZ 676FCBGA
XC7Z014S-1CLG400I
IC SOC CORTEX-A9 667MHZ 400BGA
XCZU5EV-2FBVB900E
IC SOC CORTEX-A53 900FCBGA
M2S150-1FCG1152
IC SOC CORTEX-M3 166MHZ 1152BGA
XCZU43DR-2FFVG1517I
IC ZUP RFSOC A53 FPGA 1517BGA
XC7Z045-1FFG676C
IC SOC CORTEX-A9 667MHZ 676FCBGA
XCZU4CG-L2SFVC784E
IC SOC CORTEX-A53 784FCBGA
M2S150-FCSG536
IC SOC CORTEX-M3 166MHZ 536BGA
XCZU7EG-L2FFVF1517E
IC SOC CORTEX-A53 1517FCBGA
XCZU7EV-L1FFVC1156I
IC SOC CORTEX-A53 1156FCBGA
M2S050T-1FGG484I
IC SOC CORTEX-M3 166MHZ 484FBGA
M2S025TS-VF400
IC SOC CORTEX-M3 166MHZ 400VFBGA
XCZU5EG-1FBVB900I
IC SOC CORTEX-A53 900FCBGA
M2S050TS-FG484I
IC SOC CORTEX-M3 166MHZ 484FBGA
XCZU49DR-2FSVF1760I
IC ZUP RFSOC A53 FPGA 1760BGA
XCZU2EG-1SFVC784I
IC SOC CORTEX-A53 784FCBGA