The MC56F82748VLH is a Digital Signal Controller offers outstanding power consumption at runtime with exceptional performance, precision and control. The digital signal controller (DSC) is based on the 32-bit 56800EX core. Each device combines, on a single chip, the processing power of a DSP and the functionality of an MCU with a flexible set of peripherals to support many target application such as circuit breaker and home appliances. Increases system safety by restricting user code from accessing key memory locations and peripherals reserved for supervisor access. It enables compact PCB design for space-constrained applications while still providing the precision and control needed. 32-bit core provides math capabilities needed for advanced power efficiency and motor control applications. Single-cycle math computations, fractional arithmetic support and parallel moves improve performance, driving tighter and faster control loops.
● Low-power operation enables higher system efficiency due to lower power losses
● DSP and MCU functionality in unified, C-efficient architecture
● High-resolution PWM with 312ps resolution enables higher switching frequencies
● Up to 8kB data/program RAM
● On-chip flash memory and RAM can be mapped into both program and data memory spaces
● Two high-speed, 8-channel, 12-bit ADCs with dynamic x1, x2 and x4 programmable amplifier
● Four analogue comparators with integrated 6-bit DAC references
● Up to two 12-bit digital-to-analogue converters (DAC)
● One 16-bit quad timer (1 x 4 16-bit timer)
● Two periodic interval timers (PITs)
● Cyclic redundancy check (CRC) generator
● Windowed computer operating properly (COP) watchdog
● External watchdog monitor (EWM)
● DMA controller
● Integrated power-ON reset (POR) and low-voltage interrupt (LVI) and brown-out reset module
● Inter-module crossbar connection
● JTAG/enhanced on-chip emulation (EOnCE) for unobtrusive, real-time debugging
● Direct memory access (DMA) controller reduces core interruption, increasing performance
● 5V Tolerant I/O provides design flexibility
