Based on the low-power Arm Cortex-M4, the MAX32660 and MAX32652 are ideal for wearable sensor and battery-powered applications. Maxim announces the ultra-low-power MAX32660 and MAX32652 microcontrollers to help extend battery life and enhance functionality for Internet of Things (IoT) sensors, environmental sensors, smart watches, medical/preventive health wearables, and other limited-size devices. Based on the Arm® Cortex®-M4 FPU processor core, these microcontrollers are designed for high-end applications where power consumption is critical. Maxim's Darwin Series MCUs combine wearable power management technology to deliver the largest storage capacity in the same product and the industry's most advanced embedded security technology. For engineers who need to design more complex algorithms for smart IoT applications, storage capacity, device size, power consumption, and processing power are critical. The current solution presents two extremes – with excellent power consumption metrics but limited processing and storage capabilities; or powerful processing and storage capabilities, but with significant power consumption. The MAX32660 provides the designer with the best balance of access to enough memory to support advanced algorithms while managing sensors (256KB Flash and 96KB SRAM). The device also has excellent power consumption specifications (down to 50uW/MHz) and an excellent small size (1.6mm x 1.6mm, WLP package), providing cost-effective. Engineers are now able to build smarter sensors and systems that are smaller, less expensive, and have longer battery life. As IoT devices become more intelligent, systems are beginning to require more memory and additional embedded processors that are expensive and power hungry. The MAX32652 gives designers an alternative to leveraging the low power of embedded microcontrollers and the processing power of application processors. The MAX32652 integrates 3MB of Flash and 1MB of SRAM on-chip and operates at up to 120 MHz, providing a highly integrated solution for IoT devices for higher processing power and intelligent management. Integrated high-speed peripherals such as Hi-Speed ​​USB 2.0, Secure Digital (SD) memory cards and controllers, Thin-film Transistor (TFT) displays, and a complete security engine make the MAX32652 an advanced brain for IoT devices with extremely low power consumption. In addition, the device can execute code from external memory via HyperBus or XcellaBus, enabling the MAX32652 to meet more design needs in the future, providing designers with an advanced scalable memory architecture that meets the growing expectations of smart devices. Ultra-low power: efficient mode with lowest power consumption, advanced power management; low power SRAM retention mode for extended battery life Highly integrated: Integrated high-speed peripherals including SD memory card and controller, Hi-Speed ​​USB 2.0, TFT display and external memory Security: Take advantage of the industry's best Maxim security toolbox to build a secure sensor solution for IoT devices "These microcontrollers offer advanced features that enable designers to get rid of the limitations of current development applications," said Kris Ardis, director of Maxim Integrated Microprocessor and Security Products. "In the past, designers had to prioritize the following three Two of the key features: lower power, higher performance or lower system cost. With Maxim's low-power microcontrollers, they can now take care of all three." Capillary Of Thermometer,Bourdon Gauge Thermometer,Capillary In Thermometer,Thermometer Pressure Gauge ZHOUSHAN JIAERLING METER CO.,LTD , https://www.zsjrlmeter.com
