70291E Datasheet, PDF(327/436 Page) Microchip Technology – High-Performance, 16-bit Digital Signal Controllers

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70291E Datasheet, PDF (327/436 Pages) Microchip Technology – High-Performance, 16-bit Digital Signal Controllers

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dsPIC33FJ32MC302/304, dsPIC33FJ64MCX02/X04 AND dsPIC33FJ128MCX02/X04

28.5 JTAG Interface

dsPIC33FJ32MC302/304, dsPIC33FJ64MCX02/X04

and dsPIC33FJ128MCX02/X04 devices implement a

JTAG interface, which supports boundary scan device

testing, as well as in-circuit programming. Detailed

information on this interface is provided in future

revisions of the document.

Note:

Refer to Section 24. âProgramming and

Diagnosticsâ (DS70207) of the

dsPIC33F/PIC24H Family Reference

Manual for further information on usage,

configuration and operation of the JTAG

interface.

28.6 In-Circuit Serial Programming

The dsPIC33FJ32MC302/304, dsPIC33FJ64MCX02/

X04 and dsPIC33FJ128MCX02/X04 devices can be

serially programmed while in the end application circuit.

This is done with two lines for clock and data and three

other lines for power, ground and the programming

sequence. Serial programming allows customers to

manufacture boards with unprogrammed devices and

then program the digital signal controller just before

shipping the product. Serial programming also allows

the most recent firmware or a custom firmware to be

programmed. Refer to the âdsPIC33F/PIC24H Flash

Programming Specificationâ (DS70152) for details

about In-Circuit Serial Programming (ICSP).

Any of the three pairs of programming clock/data pins

can be used:

â¢ PGEC1 and PGED1

â¢ PGEC2 and PGED2

â¢ PGEC3 and PGED3

28.7 In-Circuit Debugger

When MPLABÂ® ICD 2 is selected as a debugger, the in-

circuit debugging functionality is enabled. This function

allows simple debugging functions when used with

MPLAB IDE. Debugging functionality is controlled

through the PGECx (Emulation/Debug Clock) and

PGEDx (Emulation/Debug Data) pin functions.

Any of the three pairs of debugging clock/data pins can

be used:

â¢ PGEC1 and PGED1

â¢ PGEC2 and PGED2

â¢ PGEC3 and PGED3

To use the in-circuit debugger function of the device,

the design must implement ICSP connections to

MCLR, VDD, VSS, PGC, PGD and the PGECx/PGEDx

pin pair. In addition, when the feature is enabled, some

of the resources are not available for general use.

These resources include the first 80 bytes of data RAM

and two I/O pins.

28.8 Code Protection and CodeGuard

Security

The

dsPIC33FJ64MCX02/X04

and

dsPIC33FJ128MCX02/X04 devices offer advanced

implementation of CodeGuard Security that supports

BS, SS and GS while, the dsPIC33FJ32MC302/304

devices offer the intermediate level of CodeGuard

Security that supports only BS and GS. CodeGuard

Security enables multiple parties to securely share

resources (memory, interrupts and peripherals) on a

single chip. This feature helps protect individual

Intellectual Property in collaborative system designs.

When coupled with software encryption libraries,

CodeGuard Security can be used to securely update

Flash even when multiple IPs reside on the single chip.

The code protection features vary depending on the

actual dsPIC33F implemented. The following sections

provide an overview of these features.

Secure segment and RAM protection is implemented

on

the

dsPIC33FJ64MCX02/X04

and

dsPIC33FJ128MCX02/X04

devices.

The

dsPIC33FJ32MC302/304 devices do not support

secure segment and RAM protection.

Note:

Refer to Section 23. âCodeGuardâ¢

Securityâ (DS70199) of the dsPIC33F/

PIC24H Family Reference Manual for

further information on usage,

configuration and operation of

CodeGuard Security.

Â© 2011 Microchip Technology Inc.

DS70291E-page 327

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