MCF5282CVM66 Freescale, MCF5282CVM66 Datasheet - Page 636

MCF5282CVM66

Manufacturer Part Number

MCF5282CVM66

Description

Manufacturer

Freescale

Datasheet

1.MCF5282CVM66.pdf (766 pages)

Specifications of MCF5282CVM66

Cpu Family

MCF528x

Device Core

ColdFire

Device Core Size

32b

Frequency (max)

66MHz

Interface Type

CAN/I2C/QSPI/UART

Total Internal Ram Size

64KB

# I/os (max)

150

Number Of Timers - General Purpose

Operating Supply Voltage (typ)

3.3V

On-chip Adc

8-chx10-bit

Instruction Set Architecture

RISC

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

256

Package Type

MA-BGA

Program Memory Type

Flash

Program Memory Size

512KB

Lead Free Status / RoHS Status

Compliant

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Debug Support

30.5.2

When the CPU is halted and PST reflects the halt status, the development system can send unrestricted

commands to the debug module. The debug module implements a synchronous protocol using two inputs

(DSCLK and DSI) and one output (DSO), where DSO is specified as a delay relative to the rising edge of

the processor clock. See

master and must generate DSCLK.

The serial channel operates at a frequency from DC to 1/5 of the CLKOUT frequency. The channel uses

full-duplex mode, where data is sent and received simultaneously by both master and slave devices. The

transmission consists of 17-bit packets composed of a status/control bit and a 16-bit data word. As shown

is, DSI is sampled and DSO is driven.

DSCLK and DSI are synchronized inputs. DSCLK acts as a pseudo clock enable and is sampled on the

rising edge of the processor clock as well as the DSI. DSO is delayed from the DSCLK-enabled CLK rising

edge (registered after a BDM state machine state change). All events in the debug module’s serial state

machine are based on the processor clock rising edge. DSCLK must also be sampled low (on a positive

edge of CLK) between each bit exchange. The MSB is transferred first. Because DSO changes state based

on an internally-recognized rising edge of DSCLK, DSDO cannot be used to indicate the start of a serial

transfer. The development system must count clock cycles in a given transfer. C1–C4 are described as

follows:

30.5.2.1 Receive Packet Format

The basic receive packet,

30-18

Figure

•

C1—First synchronization cycle for DSI (DSCLK is high).

C2—Second synchronization cycle for DSI (DSCLK is high).

C3—BDM state machine changes state depending upon DSI and whether the entire input data

transfer has been transmitted.

C4—DSO changes to next value.

BDM State

30-12, all state transitions are enabled on a rising edge of CLKOUT when DSCLK is high; that

CLKOUT

BDM Serial Interface

Machine

DSCLK

DSO

A not-ready response can be ignored except during a memory-referencing

cycle. Otherwise, the debug module can accept a new serial transfer after 32

processor clock periods.

DSI

Table

Figure

30-1. The development system serves as the serial communication channel

Current State

Figure 30-12. BDM Serial Interface Timing

30-13, consists of 16 data bits and 1 status bit

Past

Current

NOTE

Next State

Current

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MCF5282CVM66 Freescale, MCF5282CVM66 Datasheet - Page 636

MCF5282CVM66

Specifications of MCF5282CVM66

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