Contents • • • • • • • • • • • • • Overview [ ] EFM32 microcontrollers have a majority of their functionality available down to their deep sleep modes, at sub-microamp current consumption, enabling energy efficient, autonomous behavior while the CPU is sleeping. EFM32 combines this with quick wakeups and efficient processing to reduce the impact of the CPU when code needs to be executed. A good example of a deep sleep peripheral on EFM32 is Low Energy Sensor Interface (LESENSE), which is capable of duty-cycling inductive, capacitive, and resistive sensors while autonomously operating in Deep Sleep mode. Another important aspect of the Gecko MCUs is that the peripherals have a direct connection between each other, allowing them to communicate without CPU wake up and intervention. This interconnect is known as the Peripheral Reflex System (PRS).

IAR Systems has a global technical support organization, extensive development resources, and expertise for Renesas RX, V850, SH2A, R8C, M16C, M32C, R32C, H8, H8S, 78K, and RL78. More information is available at www.iar.com/renesas. IAR Embedded Workbench is a high-performance C/C++ compiler and. Iar Embedded Workbench For Arm 6. Wiso Mein Geld 2014 Keygen Idm. 30. Gta Vice City Audio Driver Free Download. 1 Crack >>Embedded Workbench For Arm 6.30.1 CrackThere are also new options to enable or disable the false-positives elimination phase of the analysis and to exclude files from the analysis. IAR Embedded workbench for Renesas RL78.

Significant functionality is available at the lower Stop and Shutoff energy modes. The Stop Mode includes analog comparators, watchdog timers, pulse counters, I2C links, and external interrupts. In Shutoff mode, with 20–100 nA current consumption, depending on product, applications have access to GPIO, Reset, a Real-Time Counter (RTC) and retention memory. The EFM32 family consists of a number of sub-families, ranging from the EFM32 Zero Gecko, based on an ARM Cortex-M0+, to the higher performing EFM32 Giant Gecko and Wonder Gecko, based on Cortex-M3 and Cortex-M4 respectively. EFM32 technology is also the foundation for EFR32 Wireless Geckos, a portfolio of Sub-GHz and 2.4 GHz wireless (SoC) devices. Silcion Labs' EFM32 Key properties [ ] The important advantage of the EFM32 MCU portfolio is energy efficiency. The energy efficiency stems from autonomous operations in deep sleep modes, low active and sleep currents, and fast wakeup times.

Together, these characteristics reduce the integrated energy (power over time) over the lifetime of an application. EFM32 devices are also constructed to reduce development cycles for a variety of products, from smart metering to industrial applications and more. They are pin/software compatible, scalable across wide application requirements, and are compatible with multiple development platforms. Additionally, because the MCU architecture is the common fundamental piece of the wireless Gecko portfolio (EFR32) with both software and hardware (pin/package) compatibility, the EFM32 products offer a simplified pathway to wireless applications. Bargrooves Ibiza 2013 RARE. Features [ ] The EFM32 MCU family has the critical features necessary for IoT applications. The major architectural features are the low-energy modes design and the Peripheral Reflex System (PRS), which gives developers a peripheral interconnect system with eight triggers to handle task execution without CPU intervention. At a low level, the MCU can be broken down into eight categories: the core and memory, clock management, energy management, serial interfaces, I/O ports, timers and triggers, analog interfaces, and security modules.

In terms of the core CPU, the EFM32 MCUs integrate the ARM® Cortex-M series technology, spanning from the Cortex-M0+ to the Cortex-M4. To enable the Gecko MCU operation and take advantage of the ultralow power architecture, applications can operate with a main input clock rate of 4 MHz to 48 MHz. To reduce the need for external electronic components, the EFM32 integrates low frequency and ultralow frequency clocks as well. The MCUs also integrate internal voltage regulators for simplified, more compact system designs. In addition to CPU and clock rate flexibility for specific applications, the EFM32 portfolio offers a broad range of memory resource options, for application storage (Flash), application execution (RAM), and other needs such as RTOS implementation. Devices include internal Flash memory as low as 4 kB and as high as 1024 kB, and RAM as low as 2 kB and as high as 128 kB. To enable applications to sense, control, and communicate with a single low-power microcontroller, the EFM32 MCUs contain complete analog and digital interfaces.

Serial digital interfaces include USART, low energy UART, I2C, and USB. The timer and triggers block of the MCU includes a cryotimer, low energy pulse counter (PCNT), and backup Real-Time-Counter (RTC). Analog modules include ADCs, DACs, Operational Amplifiers, and analog comparators. For applications that demand heightened security protections, the EFM32 MCUs offer various hardware crypto engines and cyclic redundancy check (CRC). For general I/O, the MCUs feature up to 93 GPIO pins, and several variants feature LCD controllers.