32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. The XMC1400 series devices are optimized for motor control, power conversion and LED Lighting applications and Human-Machine Interface (HMI). Increasing complexity and demand for computing power of embedded control applications requires microcontrollers to have a significant CPU performance, integrated peripheral functionality and rapid development environment enabling short time-to market, without compromising cost efficiency. The performance of XMC1400 will be increased with 70% over existing XMC1000 due to the 48 [MHz] of the core frequency and the 2 Can nodes interfaces.

32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. The XMC1400 series devices are optimized for motor control, power conversion and LED Lighting applications and Human-Machine Interface (HMI). Increasing complexity and demand for computing power of embedded control applications requires microcontrollers to have a significant CPU performance, integrated peripheral functionality and rapid development environment enabling short time-to market, without compromising cost efficiency. The performance of XMC1400 will be increased with 70% over existing XMC1000 due to the 48 [MHz] of the core frequency and the 2 Can nodes interfaces.

32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. The XMC1400 series devices are optimized for motor control, power conversion and LED Lighting applications and Human-Machine Interface (HMI). Increasing complexity and demand for computing power of embedded control applications requires microcontrollers to have a significant CPU performance, integrated peripheral functionality and rapid development environment enabling short time-to market, without compromising cost efficiency. The performance of XMC1400 will be increased with 70% over existing XMC1000 due to the 48 [MHz] of the core frequency and the 2 Can nodes interfaces.

32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. The XMC1400 series devices are optimized for motor control, power conversion and LED Lighting applications and Human-Machine Interface (HMI). Increasing complexity and demand for computing power of embedded control applications requires microcontrollers to have a significant CPU performance, integrated peripheral functionality and rapid development environment enabling short time-to market, without compromising cost efficiency. The performance of XMC1400 will be increased with 70% over existing XMC1000 due to the 48 [MHz] of the core frequency and the 2 Can nodes interfaces.

32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. The XMC1400 series devices are optimized for motor control, power conversion and LED Lighting applications and Human-Machine Interface (HMI). Increasing complexity and demand for computing power of embedded control applications requires microcontrollers to have a significant CPU performance, integrated peripheral functionality and rapid development environment enabling short time-to market, without compromising cost efficiency. The performance of XMC1400 will be increased with 70% over existing XMC1000 due to the 48 [MHz] of the core frequency and the 2 Can nodes interfaces.

32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. XMC1000 is the number one choice for bringing traditional 32-bit designs to the next level, addressing a broad application spectrum from typical 32-bit applications up to digital power conversion and even field-oriented motor control. XMC1300 family can integrate all the control and analog interface functions required for sensor less Field Oriented Control (FOC), brushless (BLDC), brushed DC and PMSM motors.

32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. XMC1000 is the number one choice for bringing traditional 32-bit designs to the next level, addressing a broad application spectrum from typical 32-bit applications up to digital power conversion and even field-oriented motor control. XMC1300 family can integrate all the control and analog interface functions required for sensor less Field Oriented Control (FOC), brushless (BLDC), brushed DC and PMSM motors.

32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. XMC1000 is the number one choice for bringing traditional 32-bit designs to the next level, addressing a broad application spectrum from typical 32-bit applications up to digital power conversion and even field-oriented motor control. XMC1300 family can integrate all the control and analog interface functions required for sensor less Field Oriented Control (FOC), brushless (BLDC), brushed DC and PMSM motors.

32-bit Microcontrollers with ARM® Cortex®-M0 for a broad range of price sensitive applications however demanding state of the art functionality. The XMC1100 series belongs to the XMC1000 Family of industrial microcontrollers based on the ARM Cortex-M0 processor core. The XMC1100 series devices are designed for general purpose applications. Increasing complexity and demand for computing power of embedded control applications requires microcontrollers to have a significant CPU performance, integrated peripheral functionality and rapid development environment enabling short time-to market, without compromising cost efficiency.

32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. The XMC1400 series devices are optimized for motor control, power conversion and LED Lighting applications and Human-Machine Interface (HMI). Increasing complexity and demand for computing power of embedded control applications requires microcontrollers to have a significant CPU performance, integrated peripheral functionality and rapid development environment enabling short time-to market, without compromising cost efficiency. The performance of XMC1400 will be increased with 70% over existing XMC1000 due to the 48 [MHz] of the core frequency and the 2 Can nodes interfaces.