MC56F8323EVME Freescale Semiconductor, MC56F8323EVME Datasheet - Page 101

MC56F8323EVME

Manufacturer Part Number

MC56F8323EVME

Description

BOARD EVALUATION MC56F8323

Manufacturer

Freescale Semiconductor

Type

DSPr

Datasheets

1.CWH-UTP-ONCE-HE.pdf (2 pages)

2.MC56F8323EVME.pdf (140 pages)

Specifications of MC56F8323EVME

Contents

Module and Misc Hardware

Processor To Be Evaluated

MC56F8322 and MC56F8323

Data Bus Width

16 bit

Interface Type

RS-232

Silicon Manufacturer

Freescale

Core Architecture

56800/E

Core Sub-architecture

56800/E

Silicon Core Number

MC56F

Silicon Family Name

MC56F83xx

Rohs Compliant

Yes

For Use With/related Products

MC56F8322, MC56F8323

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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EXAMPLE 1: If the system clock is the 8MHz crystal frequency because the PLL has not been set up,

the input clock will be below 12.8MHz, so PRDIV8=FM_CLKDIV[6]=0. Using the following equation

yields a DIV value of 19 for a clock of 200kHz, and a DIV value of 20 for a clock of 190kHz. This

translates into an FM_CLKDIV[6:0] value of $13 or $14, respectively.

EXAMPLE 2: In this example, the system clock has been set up with a value of 32MHz, making the FM

input clock 16MHz. Because that is greater than 12.8MHz, PRDIV8=FM_CLKDIV[6]=1. Using the

following equation yields a DIV value of 9 for a clock of 200kHz, and a DIV value of 10 for a clock of

181kHz. This translates to an FM_CLKDIV[6:0] value of $49 or $4A, respectively.

Once the LOCKOUT_RECOVERY instruction has been shifted into the instruction register, the clock

divider value must be shifted into the corresponding 7-bit data register. After the data register has been

updated, the user must transition the TAP controller into the RUN-TEST/IDLE state for the lockout

sequence to commence. The controller must remain in this state until the erase sequence has completed.

For details, see the JTAG Section in the 56F8300 Peripheral User Manual.

Note:

7.2.4

The recommended method of unsecuring a programmed device for product analysis of field failures is via

the backdoor key access. The customer would need to supply Technical Support with the backdoor key

and the protocol to access the backdoor routine in the Flash. Additionally, the KEYEN bit that allows

backdoor key access must be set.

An alternative method for performing analysis on a secured microcontroller would be to mass-erase and

reprogram the Flash with the original code, but to modify the security bytes.

To insure that a customer does not inadvertently lock himself out of the device during programming, it is

recommended that he program the backdoor access key first, his application code second and the security

bytes within the FM configuration field last.

Freescale Semiconductor

Preliminary

Once the lockout recovery sequence has completed, the user must reset both the JTAG TAP controller

(by asserting TRST) and the device (by asserting external chip reset) to return to normal unsecured

operation.

Product Analysis

150[kHz]

56F8323 Technical Data, Rev. 17

(

SYS_CLK

(DIV + 1)

(2)(8)

(2)

)

200[kHz]

Flash Access Blocking Mechanisms

101

MC56F8323EVME Freescale Semiconductor, MC56F8323EVME Datasheet - Page 101

MC56F8323EVME

Specifications of MC56F8323EVME

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