LM3S5G31 Datasheet, PDF(182/1223 Page) Texas Instruments – Stellaris LM3S5G31 Microcontroller

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LM3S5G31 Datasheet, PDF (182/1223 Pages) Texas Instruments – Stellaris LM3S5G31 Microcontroller

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JTAG Interface

4.5.1.7

4.5.1.8

4.5.2

4.5.2.1

IDCODE Instruction

The IDCODE instruction connects the associated IDCODE Data Register chain between TDI and

TDO. This instruction provides information on the manufacturer, part number, and version of the

ARM core. This information can be used by testing equipment and debuggers to automatically

configure input and output data streams. IDCODE is the default instruction loaded into the JTAG

Instruction Register when a Power-On-Reset (POR) is asserted, or the Test-Logic-Reset state is

entered. See âIDCODE Data Registerâ on page 182 for more information.

BYPASS Instruction

The BYPASS instruction connects the associated BYPASS Data Register chain between TDI and

TDO. This instruction is used to create a minimum length serial path between the TDI and TDO ports.

The BYPASS Data Register is a single-bit shift register. This instruction improves test efficiency by

allowing components that are not needed for a specific test to be bypassed in the JTAG scan chain

by loading them with the BYPASS instruction. See âBYPASS Data Registerâ on page 182 for more

information.

Data Registers

The JTAG module contains six Data Registers. These serial Data Register chains include: IDCODE,

BYPASS, Boundary Scan, APACC, DPACC, and ABORT and are discussed in the following sections.

IDCODE Data Register

The format for the 32-bit IDCODE Data Register defined by the IEEE Standard 1149.1 is shown in

Figure 4-3. The standard requires that every JTAG-compliant microcontroller implement either the

IDCODE instruction or the BYPASS instruction as the default instruction. The LSB of the IDCODE

Data Register is defined to be a 1 to distinguish it from the BYPASS instruction, which has an LSB

of 0. This definition allows auto-configuration test tools to determine which instruction is the default

instruction.

The major uses of the JTAG port are for manufacturer testing of component assembly and program

development and debug. To facilitate the use of auto-configuration debug tools, the IDCODE

instruction outputs a value of 0x4BA0.0477. This value allows the debuggers to automatically

configure themselves to work correctly with the Cortex-M3 during debug.

Figure 4-3. IDCODE Register Format

31

28 27

TDI

Version

Part Number

12 11

Manufacturer ID

10

1 TDO

4.5.2.2

BYPASS Data Register

The format for the 1-bit BYPASS Data Register defined by the IEEE Standard 1149.1 is shown in

Figure 4-4. The standard requires that every JTAG-compliant microcontroller implement either the

BYPASS instruction or the IDCODE instruction as the default instruction. The LSB of the BYPASS

Data Register is defined to be a 0 to distinguish it from the IDCODE instruction, which has an LSB

of 1. This definition allows auto-configuration test tools to determine which instruction is the default

instruction.

182

July 03, 2014

Texas Instruments-Production Data

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