TI中文支持网我使用CCS5.4 5.3在编译程序,debug的时候,报错:
Error connecting to the target: (Error -2131 @ 0x0) Unable to access device register. Reset the device, and retry the operation. If error persists, confirm configuration, power-cycle the board, and/or try more reliable JTAG settings (e.g. lower TCLK). (Emulation package 5.1.73.0)
当我在*.ccxml中,target configuration中test connnection的时候,报错:
[Start]
Execute the command:
%ccs_base%/common/uscif/dbgjtag -f %boarddatafile% -rv -o -F inform,logfile=yes -S pathlength -S integrity
[Result]
—–[Print the board config pathname(s)]————————————
C:\DOCUME~1\ADMINI~1\LOCALS~1\APPLIC~1\.TI\
693494126\0\0\BrdDat\testBoard.dat
—–[Print the reset-command software log-file]—————————–
This utility has selected a 100- or 510-class product.
This utility will load the adapter 'jioserdesusb.dll'.
The library build date was 'Apr 1 2013'.
The library build time was '23:55:08'.
The library package version is '5.1.73.0'.
The library component version is '35.34.40.0'.
The controller does not use a programmable FPGA.
The controller has a version number of '4' (0x00000004).
The controller has an insertion length of '0' (0x00000000).
This utility will 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 FTDI FT2232 with USB interface.
The link from controller to target is direct (without cable).
The software is configured for FTDI FT2232 features.
The controller cannot monitor the value on the EMU[0] pin.
The controller cannot monitor the value on the EMU[1] pin.
The controller cannot control the timing on output pins.
The controller cannot control the timing on input pins.
The scan-path link-delay has been set to exactly '0' (0x0000).
—–[The log-file for the JTAG TCLK output generated from the PLL]———-
There is no hardware for programming the JTAG TCLK frequency.
—–[Measure the source and frequency of the final JTAG TCLKR input]——–
There is no hardware for measuring the JTAG TCLK frequency.
—–[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 failed.
The JTAG IR instruction scan-path is stuck-at-ones.
The test for the JTAG DR bypass path-length failed.
The JTAG DR bypass scan-path is stuck-at-ones.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG IR Integrity scan-test has failed.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG DR Integrity scan-test has failed.
[End]
是什么原因?这个仿真器应该选xds100v2,在设备管理器那也看到了:
TI XDS100 Channel A
TI XDS100 Channel B
CCS我重装了几次,5.3 5.4也都试过,结果都是一样。
请帮忙看看是什么原因。
谢谢。
demo xie:
我看到论坛上有人出现和我一样的问题,但是没有说是否解决,以及解决的方法。
主题是:《求助:XDS100V2在CCS5.2下不能连接》
而且有很多人出现了这样的问题。
请帮忙指导。谢谢。
我使用CCS5.4 5.3在编译程序,debug的时候,报错:
Error connecting to the target: (Error -2131 @ 0x0) Unable to access device register. Reset the device, and retry the operation. If error persists, confirm configuration, power-cycle the board, and/or try more reliable JTAG settings (e.g. lower TCLK). (Emulation package 5.1.73.0)
当我在*.ccxml中,target configuration中test connnection的时候,报错:
[Start]
Execute the command:
%ccs_base%/common/uscif/dbgjtag -f %boarddatafile% -rv -o -F inform,logfile=yes -S pathlength -S integrity
[Result]
—–[Print the board config pathname(s)]————————————
C:\DOCUME~1\ADMINI~1\LOCALS~1\APPLIC~1\.TI\
693494126\0\0\BrdDat\testBoard.dat
—–[Print the reset-command software log-file]—————————–
This utility has selected a 100- or 510-class product.
This utility will load the adapter 'jioserdesusb.dll'.
The library build date was 'Apr 1 2013'.
The library build time was '23:55:08'.
The library package version is '5.1.73.0'.
The library component version is '35.34.40.0'.
The controller does not use a programmable FPGA.
The controller has a version number of '4' (0x00000004).
The controller has an insertion length of '0' (0x00000000).
This utility will 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 FTDI FT2232 with USB interface.
The link from controller to target is direct (without cable).
The software is configured for FTDI FT2232 features.
The controller cannot monitor the value on the EMU[0] pin.
The controller cannot monitor the value on the EMU[1] pin.
The controller cannot control the timing on output pins.
The controller cannot control the timing on input pins.
The scan-path link-delay has been set to exactly '0' (0x0000).
—–[The log-file for the JTAG TCLK output generated from the PLL]———-
There is no hardware for programming the JTAG TCLK frequency.
—–[Measure the source and frequency of the final JTAG TCLKR input]——–
There is no hardware for measuring the JTAG TCLK frequency.
—–[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 failed.
The JTAG IR instruction scan-path is stuck-at-ones.
The test for the JTAG DR bypass path-length failed.
The JTAG DR bypass scan-path is stuck-at-ones.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG IR Integrity scan-test has failed.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG DR Integrity scan-test has failed.
[End]
是什么原因?这个仿真器应该选xds100v2,在设备管理器那也看到了:
TI XDS100 Channel A
TI XDS100 Channel B
CCS我重装了几次,5.3 5.4也都试过,结果都是一样。
请帮忙看看是什么原因。
谢谢。
Young Hu:
回复 demo xie:
仿真器的问题一般可以从下面几个方向入手:
1. JTAG连接线;
2. 电源以及电源的外围电路设计;
3. 晶振是否正常。
如果是CCard的话,需要检查跳线之类的。也有可能是电脑安装驱动的问题,可以换一台电脑试试
我使用CCS5.4 5.3在编译程序,debug的时候,报错:
Error connecting to the target: (Error -2131 @ 0x0) Unable to access device register. Reset the device, and retry the operation. If error persists, confirm configuration, power-cycle the board, and/or try more reliable JTAG settings (e.g. lower TCLK). (Emulation package 5.1.73.0)
当我在*.ccxml中,target configuration中test connnection的时候,报错:
[Start]
Execute the command:
%ccs_base%/common/uscif/dbgjtag -f %boarddatafile% -rv -o -F inform,logfile=yes -S pathlength -S integrity
[Result]
—–[Print the board config pathname(s)]————————————
C:\DOCUME~1\ADMINI~1\LOCALS~1\APPLIC~1\.TI\
693494126\0\0\BrdDat\testBoard.dat
—–[Print the reset-command software log-file]—————————–
This utility has selected a 100- or 510-class product.
This utility will load the adapter 'jioserdesusb.dll'.
The library build date was 'Apr 1 2013'.
The library build time was '23:55:08'.
The library package version is '5.1.73.0'.
The library component version is '35.34.40.0'.
The controller does not use a programmable FPGA.
The controller has a version number of '4' (0x00000004).
The controller has an insertion length of '0' (0x00000000).
This utility will 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 FTDI FT2232 with USB interface.
The link from controller to target is direct (without cable).
The software is configured for FTDI FT2232 features.
The controller cannot monitor the value on the EMU[0] pin.
The controller cannot monitor the value on the EMU[1] pin.
The controller cannot control the timing on output pins.
The controller cannot control the timing on input pins.
The scan-path link-delay has been set to exactly '0' (0x0000).
—–[The log-file for the JTAG TCLK output generated from the PLL]———-
There is no hardware for programming the JTAG TCLK frequency.
—–[Measure the source and frequency of the final JTAG TCLKR input]——–
There is no hardware for measuring the JTAG TCLK frequency.
—–[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 failed.
The JTAG IR instruction scan-path is stuck-at-ones.
The test for the JTAG DR bypass path-length failed.
The JTAG DR bypass scan-path is stuck-at-ones.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG IR Integrity scan-test has failed.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG DR Integrity scan-test has failed.
[End]
是什么原因?这个仿真器应该选xds100v2,在设备管理器那也看到了:
TI XDS100 Channel A
TI XDS100 Channel B
CCS我重装了几次,5.3 5.4也都试过,结果都是一样。
请帮忙看看是什么原因。
谢谢。
demo xie:
回复 Young Hu:
因为Concerto F28M35xx controlCARD的JTAG和DSP是集成在一起的,只有一根USB线连到电脑上。
所有不存在JTAG线的问题
因为这是你们官方的板子,所以应该也不存在硬件的问题。
所有我也觉得要么是驱动的问题,要么是设置的问题。
CCS我已经装了3个版本,5.3,5.4,5.5,结果都是一样,相同的错误。
我手上只有一份F28M35xx_InfoSheet_06_13_12.pdf文件,没有其他的更详细的编程使用资料了。
我家里只有一台电脑。所以没法试,明天到公司试试看。
奇怪的是,竟然一份像样的介绍它如何使用的资料都没有。
我使用CCS5.4 5.3在编译程序,debug的时候,报错:
Error connecting to the target: (Error -2131 @ 0x0) Unable to access device register. Reset the device, and retry the operation. If error persists, confirm configuration, power-cycle the board, and/or try more reliable JTAG settings (e.g. lower TCLK). (Emulation package 5.1.73.0)
当我在*.ccxml中,target configuration中test connnection的时候,报错:
[Start]
Execute the command:
%ccs_base%/common/uscif/dbgjtag -f %boarddatafile% -rv -o -F inform,logfile=yes -S pathlength -S integrity
[Result]
—–[Print the board config pathname(s)]————————————
C:\DOCUME~1\ADMINI~1\LOCALS~1\APPLIC~1\.TI\
693494126\0\0\BrdDat\testBoard.dat
—–[Print the reset-command software log-file]—————————–
This utility has selected a 100- or 510-class product.
This utility will load the adapter 'jioserdesusb.dll'.
The library build date was 'Apr 1 2013'.
The library build time was '23:55:08'.
The library package version is '5.1.73.0'.
The library component version is '35.34.40.0'.
The controller does not use a programmable FPGA.
The controller has a version number of '4' (0x00000004).
The controller has an insertion length of '0' (0x00000000).
This utility will 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 FTDI FT2232 with USB interface.
The link from controller to target is direct (without cable).
The software is configured for FTDI FT2232 features.
The controller cannot monitor the value on the EMU[0] pin.
The controller cannot monitor the value on the EMU[1] pin.
The controller cannot control the timing on output pins.
The controller cannot control the timing on input pins.
The scan-path link-delay has been set to exactly '0' (0x0000).
—–[The log-file for the JTAG TCLK output generated from the PLL]———-
There is no hardware for programming the JTAG TCLK frequency.
—–[Measure the source and frequency of the final JTAG TCLKR input]——–
There is no hardware for measuring the JTAG TCLK frequency.
—–[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 failed.
The JTAG IR instruction scan-path is stuck-at-ones.
The test for the JTAG DR bypass path-length failed.
The JTAG DR bypass scan-path is stuck-at-ones.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG IR Integrity scan-test has failed.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG DR Integrity scan-test has failed.
[End]
是什么原因?这个仿真器应该选xds100v2,在设备管理器那也看到了:
TI XDS100 Channel A
TI XDS100 Channel B
CCS我重装了几次,5.3 5.4也都试过,结果都是一样。
请帮忙看看是什么原因。
谢谢。
Aiyao Wang:
回复 demo xie:
我也出了类似的问题,不知道楼主解决了吗?
我使用CCS5.4 5.3在编译程序,debug的时候,报错:
Error connecting to the target: (Error -2131 @ 0x0) Unable to access device register. Reset the device, and retry the operation. If error persists, confirm configuration, power-cycle the board, and/or try more reliable JTAG settings (e.g. lower TCLK). (Emulation package 5.1.73.0)
当我在*.ccxml中,target configuration中test connnection的时候,报错:
[Start]
Execute the command:
%ccs_base%/common/uscif/dbgjtag -f %boarddatafile% -rv -o -F inform,logfile=yes -S pathlength -S integrity
[Result]
—–[Print the board config pathname(s)]————————————
C:\DOCUME~1\ADMINI~1\LOCALS~1\APPLIC~1\.TI\
693494126\0\0\BrdDat\testBoard.dat
—–[Print the reset-command software log-file]—————————–
This utility has selected a 100- or 510-class product.
This utility will load the adapter 'jioserdesusb.dll'.
The library build date was 'Apr 1 2013'.
The library build time was '23:55:08'.
The library package version is '5.1.73.0'.
The library component version is '35.34.40.0'.
The controller does not use a programmable FPGA.
The controller has a version number of '4' (0x00000004).
The controller has an insertion length of '0' (0x00000000).
This utility will 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 FTDI FT2232 with USB interface.
The link from controller to target is direct (without cable).
The software is configured for FTDI FT2232 features.
The controller cannot monitor the value on the EMU[0] pin.
The controller cannot monitor the value on the EMU[1] pin.
The controller cannot control the timing on output pins.
The controller cannot control the timing on input pins.
The scan-path link-delay has been set to exactly '0' (0x0000).
—–[The log-file for the JTAG TCLK output generated from the PLL]———-
There is no hardware for programming the JTAG TCLK frequency.
—–[Measure the source and frequency of the final JTAG TCLKR input]——–
There is no hardware for measuring the JTAG TCLK frequency.
—–[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 failed.
The JTAG IR instruction scan-path is stuck-at-ones.
The test for the JTAG DR bypass path-length failed.
The JTAG DR bypass scan-path is stuck-at-ones.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG IR Integrity scan-test has failed.
—–[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.
Test 2 Word 0: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 1: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 2: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 3: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 4: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 5: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 6: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
Test 2 Word 7: scanned out 0x00000000 and scanned in 0xFFFFFFFF.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 2, skipped: 0, failed: 1
Do a test using 0xFE03E0E2.
Scan tests: 3, skipped: 0, failed: 2
Do a test using 0x01FC1F1D.
Scan tests: 4, skipped: 0, failed: 3
Do a test using 0x5533CCAA.
Scan tests: 5, skipped: 0, failed: 4
Do a test using 0xAACC3355.
Scan tests: 6, skipped: 0, failed: 5
Some of the values were corrupted – 83.3 percent.
The JTAG DR Integrity scan-test has failed.
[End]
是什么原因?这个仿真器应该选xds100v2,在设备管理器那也看到了:
TI XDS100 Channel A
TI XDS100 Channel B
CCS我重装了几次,5.3 5.4也都试过,结果都是一样。
请帮忙看看是什么原因。
谢谢。
Kalent Shaw:
回复 demo xie:
楼主,我出现了跟你一模一样的错误。不知道你解决了吗?求指导啊。
