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仿真器无法连接,怎么办

助工
2013-10-26 00:38:49     打赏

 仿真器无法连接,出现错误如贴中3楼所示,猛击:http://forum.eepw.com.cn/thread/240803/1 

仿真器是直接买的焊接好的并测试好的,怎么会无法连接呢?是不是要调启动模式才行?


高工
2013-10-26 00:56:16     打赏
2楼
把设备管理器打开,找到A和B通道


打开STM320F28335.ccxml文件,选择好对应的芯片,多次点击Test Connection试一下能不能通过测试。


还是一进debug,仿真器就掉线。


我现在碰到的就是这个问题,不过已经找到问题的根源了,U口有问题......

高工
2013-10-26 11:24:16     打赏
3楼
先确定仿真器连接是不是正常,仿真器接口定义跟开发板jtag口定义相同,连接的时候一脚对一脚,14脚对14脚,仿真器一脚的焊盘是方形的

高工
2013-10-26 11:37:48     打赏
4楼

看到另一贴子里面的连接应该是没问题的~

再确定28335的焊接,供电,晶振有没有问题


焊接好的发货前都是经过测试的~

一般应该不会出现问题


院士
2013-10-26 13:55:14     打赏
5楼
也许他中奖了

高工
2013-10-26 18:14:44     打赏
6楼
xds100的没用过,所以不好说,我一直用的Spectrum的xds510,贵是贵但是确实稳定,从来没有仿真器崩溃之类的错误

菜鸟
2013-10-26 19:29:14     打赏
7楼
大哥,XDS100质量确实不敢恭维啊,另外网上搜一下,很多反映XDS100 V1本身链接F28335就有很多问题,我用的XDS100 V2, TDS510,板子一下就链接上了

高工
2013-10-26 20:05:01     打赏
8楼

很多吗?没看到多少呀

网上反应xds100 连接 28335有问题的,绝大部分是因为电路直接抄TI PICCOLO系列板载仿真器原理图,而未做处理的


助工
2013-10-26 23:38:36     打赏
9楼

下面是我的test connection测试文件,开发板上电,显示的是成功,然后尝试仿真,可是仿真的时候连接不了目标

[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:\Users\ADMINI~1\AppData\Local\.TI\1293449947\
    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 'May 30 2012'.
The library build time was '22:52:27'.
The library package version is '5.0.747.0'.
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 succeeded.
The JTAG IR instruction path-length is 3 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]

-----------------------------------------我是分隔符-----------------------------------------

下面是开发板断电时的test connection测试结果,很显然失败了

[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:\Users\ADMINI~1\AppData\Local\.TI\1293449947\
    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 'May 30 2012'.
The library build time was '22:52:27'.
The library package version is '5.0.747.0'.
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-zero.
The test for the JTAG DR bypass path-length failed.
The JTAG DR bypass scan-path is stuck-at-zero.
-----[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.
Test 1 Word 0: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 1: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 2: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 3: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 4: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 5: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 6: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 7: scanned out 0xFFFFFFFF and scanned in 0x00000000.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 1, skipped: 0, failed: 1
Do a test using 0x00000000.
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.
Test 1 Word 0: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 1: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 2: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 3: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 4: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 5: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 6: scanned out 0xFFFFFFFF and scanned in 0x00000000.
Test 1 Word 7: scanned out 0xFFFFFFFF and scanned in 0x00000000.
The details of the first 8 errors have been provided.
The utility will now report only the count of failed tests.
Scan tests: 1, skipped: 0, failed: 1
Do a test using 0x00000000.
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]


助工
2013-10-26 23:49:37     打赏
10楼

嗯嗯,我检查了板子,只发现晶振出焊接有点小问题,可是焊好以后还是不能连接dsp,并且我点击了test connection,出现楼上所示的输出,我将传输速率减小到100kHz和增大到2MHz仿真都不能连接,test connection的结果和楼上的一样,现在苦于找不到测试dsp好坏的方法,那个板子上的流水灯是cpld的,dsp不好测。

另外我测量了电源的电压,P1是3.3V,P2设计电压为1.9V,实测为1.919V,可能是由于电阻的误差引起的,这电源有问题吗?


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