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                        Low-Power Microcontrollers and Microprocessors

                        The Right Combination of Battery-Friendly Features for Your Low-Power Applications

                        Minimizing power consumption in battery-powered  wearables, wireless sensor networks, and other Internet of Things (IoT)-enabled smart devices is essential. If you need to reduce the operating power in your project, discover how our 8-, 16- and 32-bit eXtreme Low Power (XLP) PIC® microcontrollers (MCUs), 8-bit AVR® and 32-bit SAM MCUs with picoPower® technology, and 32-bit low-power SAM microprocessors (MPUs) offer the right combination of features to meet your design’s specific requirements.

                        Microchip’s low-power technology enables MCU sleep currents down to 9 nA and run currents down to 25 μA/MHz.

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                        Microchip’s low-power technology enables MCU sleep currents down to 9 nA and run currents down to 25 μA/MHz

                        Industry-leading integrated analog, USB, LCD, and embedded security sensing peripherals with very low operating power

                        Consistent low-power features, peripherals and tools for ease of migration

                        8-bit Low Power MCUs

                        • 8-bit PIC and AVR MCUs – industry’s lowest-power microcontrollers
                        • eXtreme Low Power (XLP) and picoPower technologies
                        • Sleep currents as low as 9 nA with power-efficient wake-up sources and run currents down to 30 μA/MHz
                        • Integration of Core Independent Peripherals (CIPs) enables application functions while minimizing CPU overhead, system latency and power consumption
                        • Low-power features include Peripheral Module Disable, Idle Mode and Doze Mode
                        • Widest operating range: 1.6V to 5.5V

                        16-bit Low-Power MCUs

                        • Large portfolio of devices with Flash options ranging from 4 KB to 1 MB and pin counts of 8 to 121 pins
                        • Sleep currents as low as 30 nA with flexible wake-up sources and run currents down to 150 μA/MHz to enable power-efficient applications
                        • Flexible, integrated Core Independent Peripherals (CIPs) such as Crypto Engine, Configurable Logic Cells (CLC), Real-Time Clock/Calendar (RTCC), Pulse-Width Modulators (PWMs) and Peripheral Trigger Generator (PTG) designed to take the load off the CPU and reduce the overall energy requirements
                        • More space and BOM cost savings with our small-footprint packaging options

                        32-bit Low-Power MCUs

                        • Ultra-low picoPower SAM 32-bit Arm® Cortex®-based and PIC32 eXtreme Low Power (XLP) MCU portfolio extends battery life
                        • Combines ultra-low power with Flash and SRAM that are large enough to run both the application and wireless stacks
                        • Chip-level tamper resistance and Arm TrustZone® to protect low-power applications from security vulnerabilities
                        • Integrate peripherals and design techniques used to minimize power consumption in real-world battery-powered applications
                        • Under 25 μA/MHz active and 100 nA sleep current, 1.2 μS wakeup time
                        • Highest certified ULPMark™ score for any Arm Cortex-M23 or Arm Cortex- M0+ class device; ULPMark score of 410 on SAM L11
                        • Innovative SleepWalking peripherals and Event System

                        32-bit Low Power MPUs

                        • The SAMA5D2 series delivers the lowest power consumption of any MPU in its class and the SAMA5D3 series is ideal for battery-operated applications
                        • Typical sleep current is 250 μA in retention mode with an ultra-fast 15 μs wake-up in ULP1 mode
                        • Typical run current is 233 μA/MHz
                        • Unique SleepWalking feature enables peripherals to asynchronously wake up from sleep in ULP1 mode, for example by activity on a communication line
                        • Back-Up Mode with battery supply pin maintains the RTC and preserves a 5 KB SRAM data and 256-bit register file
                        • Typical back-up current is 4.5 μA; optional DDR Self-Refresh Mode maintains external SDRAM contents (40 μA)

                         

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