你好!我使用仿真器连接TMS320C6678和TMS320C6672的trace,都出现同样的问题
[Start]
Execute the command:
%ccs_base%/common/uscif/dbgjtag.exe -f %boarddatafile% -rv -o -F inform,logfile=yes -S pathlength -S integrity
[Result]
-----[Print the reset-command software log-file]-----------------------------
This utility has selected a 560-class product.
This utility will load the program 'sd560v2u.out'.
The library build date was 'Dec 19 2011'.
The library build time was '21:41:44'.
The library package version is '5.0.569.0'.
The library component version is '35.34.39.0'.
The controller does not use a programmable FPGA.
The controller has a version number of '5' (0x00000005).
The controller has an insertion length of '0' (0x00000000).
The cable+pod has a version number of '8' (0x00000008).
The cable+pod has a capability number of '7423' (0x00001cff).
This utility will now attempt to reset the controller.
This utility has successfully reset the controller.
-----[Print the reset-command hardware log-file]-----------------------------
The scan-path will be reset by toggling the JTAG TRST signal.
The controller is the Nano-TBC VHDL.
The link is a 560-class second-generation-560 cable.
The software is configured for Nano-TBC VHDL features.
The controller will be software reset via its registers.
The controller has a logic ONE on its EMU[0] input pin.
The controller has a logic ONE on its EMU[1] input pin.
The controller will use falling-edge timing on output pins.
The controller cannot control the timing on input pins.
The scan-path link-delay has been set to exactly '2' (0x0002).
The utility logic has not previously detected a power-loss.
The utility logic is not currently detecting a power-loss.
An error occurred while hard opening the controller.
-----[An error has occurred and this utility has aborted]--------------------
This error is generated by TI's USCIF driver or utilities.
The value is '-233' (0xffffff17).
The title is 'SC_ERR_PATH_BROKEN'.
The explanation is:
The JTAG IR and DR scan-paths cannot circulate bits, they may be broken.
An attempt to scan the JTAG scan-path has failed.
The target's JTAG scan-path appears to be broken
with a stuck-at-ones or stuck-at-zero fault.
[End]
但是,我用这个仿真器的14针JTAG单独连接DSP的JTAG的时候,扫描信息如下:
[Start]
Execute the command:
%ccs_base%/common/uscif/dbgjtag.exe -f %boarddatafile% -rv -o -F inform,logfile=yes -S pathlength -S integrity
[Result]
-----[Print the reset-command software log-file]-----------------------------
This utility has selected a 560-class product.
This utility will load the program 'sd560v2u.out'.
The library build date was 'Dec 19 2011'.
The library build time was '21:41:44'.
The library package version is '5.0.569.0'.
The library component version is '35.34.39.0'.
The controller does not use a programmable FPGA.
The controller has a version number of '5' (0x00000005).
The controller has an insertion length of '0' (0x00000000).
The cable+pod has a version number of '8' (0x00000008).
The cable+pod has a capability number of '7423' (0x00001cff).
This utility will now attempt to reset the controller.
This utility has successfully reset the controller.
-----[Print the reset-command hardware log-file]-----------------------------
The scan-path will be reset by toggling the JTAG TRST signal.
The controller is the Nano-TBC VHDL.
The link is a 560-class second-generation-560 cable.
The software is configured for Nano-TBC VHDL features.
The controller will be software reset via its registers.
The controller has a logic ONE on its EMU[0] input pin.
The controller has a logic ONE on its EMU[1] input pin.
The controller will use falling-edge timing on output pins.
The controller cannot control the timing on input pins.
The scan-path link-delay has been set to exactly '2' (0x0002).
The utility logic has not previously detected a power-loss.
The utility logic is not currently detecting a power-loss.
-----[The log-file for the JTAG TCLK output generated from the PLL]----------
Test Size Coord MHz Flag Result Description
~~~~ ~~~~ ~~~~~~~ ~~~~~~~~ ~~~~ ~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~
1 none - 01 00 500.0kHz - similar isit internal clock
2 none - 01 09 570.3kHz - similar isit internal clock
3 512 - 01 00 500.0kHz O good value measure path length
4 128 - 01 00 500.0kHz O good value auto step initial
5 128 - 01 0D 601.6kHz O good value auto step delta
6 128 - 01 1C 718.8kHz O good value auto step delta
7 128 - 01 2E 859.4kHz O good value auto step delta
8 128 + 00 02 1.031MHz O good value auto step delta
9 128 + 00 0F 1.234MHz O good value auto step delta
10 128 + 00 1F 1.484MHz O good value auto step delta
11 128 + 00 32 1.781MHz O good value auto step delta
12 128 + 01 04 2.125MHz O good value auto step delta
13 128 + 01 11 2.531MHz O good value auto step delta
14 128 + 01 21 3.031MHz O good value auto step delta
15 128 + 01 34 3.625MHz O good value auto step delta
16 128 + 02 05 4.313MHz O good value auto step delta
17 128 + 02 13 5.188MHz O good value auto step delta
18 128 + 02 23 6.188MHz O good value auto step delta
19 128 + 02 37 7.438MHz O good value auto step delta
20 128 + 03 07 8.875MHz O good value auto step delta
21 128 + 03 15 10.63MHz O good value auto step delta
22 128 + 03 1E 11.75MHz {O} good value auto step delta
23 512 + 02 3E 7.875MHz O good value auto power initial
24 512 + 03 0E 9.750MHz O good value auto power delta
25 512 + 03 16 10.75MHz O good value auto power delta
26 512 + 03 1A 11.25MHz O good value auto power delta
27 512 + 03 1C 11.50MHz O good value auto power delta
28 512 + 03 1D 11.63MHz O good value auto power delta
29 512 + 03 1D 11.63MHz O good value auto power delta
30 512 + 03 13 10.38MHz {O} good value auto margin initial
The first internal/external clock test resuts are:
The expect frequency was 500000Hz.
The actual frequency was 499110Hz.
The delta frequency was 890Hz.
The second internal/external clock test resuts are:
The expect frequency was 570312Hz.
The actual frequency was 569214Hz.
The delta frequency was 1098Hz.
In the scan-path tests:
The test length was 16384 bits.
The JTAG IR length was 6 bits.
The JTAG DR length was 1 bits.
The IR/DR scan-path tests used 30 frequencies.
The IR/DR scan-path tests used 500.0kHz as the initial frequency.
The IR/DR scan-path tests used 11.75MHz as the highest frequency.
The IR/DR scan-path tests used 10.38MHz as the final frequency.
-----[Measure the source and frequency of the final JTAG TCLKR input]--------
The frequency of the JTAG TCLKR input is measured as 10.37MHz.
The frequency of the JTAG TCLKR input and TCLKO output signals are similar.
The target system likely uses the TCLKO output from the emulator PLL.
-----[Perform the standard path-length test on the JTAG IR and DR]-----------
This path-length test uses blocks of 512 32-bit words.
The test for the JTAG IR instruction path-length succeeded.
The JTAG IR instruction path-length is 6 bits.
The test for the JTAG DR bypass path-length succeeded.
The JTAG DR bypass path-length is 1 bits.
-----[Perform the Integrity scan-test on the JTAG IR]------------------------
This test will use blocks of 512 32-bit words.
This test will be applied just once.
Do a test using 0xFFFFFFFF.
Scan tests: 1, skipped: 0, failed: 0
Do a test using 0x00000000.
Scan tests: 2, skipped: 0, failed: 0
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 0
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 0
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 0
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 0
All of the values were scanned correctly.
The JTAG IR Integrity scan-test has succeeded.
-----[Perform the Integrity scan-test on the JTAG DR]------------------------
This test will use blocks of 512 32-bit words.
This test will be applied just once.
Do a test using 0xFFFFFFFF.
Scan tests: 1, skipped: 0, failed: 0
Do a test using 0x00000000.
Scan tests: 2, skipped: 0, failed: 0
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 0
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 0
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 0
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 0
All of the values were scanned correctly.
The JTAG DR Integrity scan-test has succeeded.
[End]
即便如此,我用仿真器的14针JTAG连接DSP调试程序,仍然不能正常进行,请问是什么原因引起的呢,我的电路如附件所示
