Datasheet

Table Of Contents

Overview

1-8 Freescale Semiconductor

The SRAM module is also accessible by non-core bus masters, for example the DMA and/or the FEC. The

dual-ported nature of the SRAM makes it ideal for implementing applications with double-buffer schemes,

where the processor and a DMA device operate in alternate regions of the SRAM to maximize system

performance. As an example, system performance can be increased significantly if Ethernet packets are

moved from the FEC into the SRAM (rather than external memory) prior to any processing.

1.1.1.3 Flash

This product incorporates SuperFlash® technology licensed from SST. The ColdFire Flash Module (CFM)

is a non-volatile memory (NVM) module for integration with the processor core. The CFM is constructed

with eight banks of 32K x 16-bit Flash arrays to generate 512 Kbytes of 32-bit Flash memory

NOTE

The CFM on the MCF5281 and MCF5214 is constructed with four banks of

32K x 16-bit Flash arrays to generate 256 Kbytes of 32-bit Flash memory.

The MCF5280 does not contain a CFM.

These arrays serve as electrically erasable and programmable, non-volatile program and data memory. The

Flash memory is ideal for program and data storage for single-chip applications allowing for field

reprogramming without requiring an external programming voltage source. The CFM interfaces to the

V2 ColdFire core through an optimized read-only memory controller which supports interleaved accesses

from the 2-cycle Flash arrays. A “backdoor” mapping of the Flash memory is used for all program, erase,

and verify operations. It also provides a read datapath for non-core masters (for example, DMA).

1.1.1.4 Debug Module

The ColdFire processor core debug interface is provided to support system debugging in conjunction with

low-cost debug and emulator development tools. Through a standard debug interface, users can access

real-time trace and debug information. This allows the processor and system to be debugged at full speed

without the need for costly in-circuit emulators. The debug interface is a superset of the BDM interface

provided on Freescale’s 683xx family of parts.

The on-chip breakpoint resources include a total of 6 programmable registers—a set of address registers

(with two 32-bit registers), a set of data registers (with a 32-bit data register plus a 32-bit data mask

the dedicated debug serial communication channel or from the processor’s supervisor mode programming

model. The breakpoint registers can be configured to generate triggers by combining the address, data, and

PC conditions in a variety of single or dual-level definitions. The trigger event can be programmed to

generate a processor halt or initiate a debug interrupt exception.

To support program trace, the Version 2 debug module provides processor status (PST[3:0]) and debug

data (DDATA[3:0]) ports. These buses and the CLKOUT output provide execution status, captured

operand data, and branch target addresses defining the dynamic execution path of the processor at the

CPU’s clock rate.

1.1.2 System Control Module

This section details the functionality of the System Control Module (SCM) which provides the

programming model for the System Access Control Unit (SACU), the system bus arbiter, a 32-bit Core

Watchdog Timer (CWT), and the system control registers and logic. Specifically, the system control

includes the internal peripheral system base address register (IPSBAR), the processor’s dual-port RAM

MCF5282 and MCF5216 ColdFire Microcontroller User’s Manual, Rev. 3