TMS320F28069_17 Datasheet, PDF(42/177 Page) Texas Instruments

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TMS320F28069_17 Datasheet, PDF (42/177 Pages) Texas Instruments – Piccolo Microcontrollers

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TMS320F28069, TMS320F28068, TMS320F28067, TMS320F28066

TMS320F28065, TMS320F28064, TMS320F28063, TMS320F28062

SPRS698F â NOVEMBER 2010 â REVISED MARCH 2016

www.ti.com

The solution is to use the Wait boot option. This will sit in a loop around a software breakpoint to allow an

emulator to be connected without tripping security. Piccolo devices do not support a hardware wait-in-

reset mode.

NOTE

â¢ When the code-security passwords are programmed, all addresses between 0x3F 7F80

and 0x3F 7FF5 cannot be used as program code or data. These locations must be

programmed to 0x0000.

â¢ If the code security feature is not used, addresses 0x3F 7F80 through 0x3F 7FEF may

be used for code or data. Addresses 0x3F 7FF0 â 0x3F 7FF5 are reserved for data and

should not contain program code.

â¢ The 128-bit password (at 0x3F 7FF8 â 0x3F 7FFF) must not be programmed to zeros.

Doing so would permanently lock the device.

Code Security Module Disclaimer

Disclaimer

THE CODE SECURITY MODULE (CSM) INCLUDED ON THIS DEVICE WAS DESIGNED

TO PASSWORD PROTECT THE DATA STORED IN THE ASSOCIATED MEMORY

(EITHER ROM OR FLASH) AND IS WARRANTED BY TEXAS INSTRUMENTS (TI), IN

ACCORDANCE WITH ITS STANDARD TERMS AND CONDITIONS, TO CONFORM TO

TI'S PUBLISHED SPECIFICATIONS FOR THE WARRANTY PERIOD APPLICABLE FOR

THIS DEVICE.

TI DOES NOT, HOWEVER, WARRANT OR REPRESENT THAT THE CSM CANNOT BE

COMPROMISED OR BREACHED OR THAT THE DATA STORED IN THE ASSOCIATED

MEMORY CANNOT BE ACCESSED THROUGH OTHER MEANS. MOREOVER, EXCEPT

AS SET FORTH ABOVE, TI MAKES NO WARRANTIES OR REPRESENTATIONS

CONCERNING THE CSM OR OPERATION OF THIS DEVICE, INCLUDING ANY IMPLIED

WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

IN NO EVENT SHALL TI BE LIABLE FOR ANY CONSEQUENTIAL, SPECIAL, INDIRECT,

INCIDENTAL, OR PUNITIVE DAMAGES, HOWEVER CAUSED, ARISING IN ANY WAY

OUT OF YOUR USE OF THE CSM OR THIS DEVICE, WHETHER OR NOT TI HAS BEEN

ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. EXCLUDED DAMAGES INCLUDE,

BUT ARE NOT LIMITED TO LOSS OF DATA, LOSS OF GOODWILL, LOSS OF USE OR

INTERRUPTION OF BUSINESS OR OTHER ECONOMIC LOSS.

6.1.12 Peripheral Interrupt Expansion (PIE) Block

The PIE block serves to multiplex numerous interrupt sources into a smaller set of interrupt inputs. The

PIE block can support up to 96 peripheral interrupts. On the F2806x, 72 of the possible 96 interrupts are

used by peripherals. The 96 interrupts are grouped into blocks of 8 and each group is fed into 1 of

12 CPU interrupt lines (INT1 to INT12). Each of the 96 interrupts is supported by its own vector stored in a

dedicated RAM block that can be overwritten by the user. The vector is automatically fetched by the CPU

on servicing the interrupt. Eight CPU clock cycles are needed to fetch the vector and save critical CPU

registers. Hence the CPU can quickly respond to interrupt events. Prioritization of interrupts is controlled in

hardware and software. Each individual interrupt can be enabled or disabled within the PIE block.

Detailed Description

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Product Folder Links: TMS320F28069 TMS320F28068 TMS320F28067 TMS320F28066 TMS320F28065

TMS320F28064 TMS320F28063 TMS320F28062

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