https://e2echina.ti.com/support/logic/f/logic-forumzh-CNTelligent Community 13Thu, 04 Jun 2026 03:16:28 GMThttps://e2echina.ti.com/thread/1076815?ContentTypeID=0Thu, 04 Jun 2026 03:16:28 GMT91561404-af28-475a-b96b-cb6cbaadd097:2b22da3e-af42-4de0-a91b-d88d421ade3fGuangfeng Wei1https://e2echina.ti.com/thread/1076815?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1076815/txb0104-txb0104/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/TXB0104" class="internal-link folder product" title="Link to Product Folder" target="_blank">TXB0104</a><br /></p><p>TXB0104在a1a2a3a4b1b2b3b4 转换口串的电阻误贴成2k阻值调试测试过，经发现后改成47欧姆电阻，后来a1-a4没有输出了, 再换回2k电阻也没有输出，可能是什么原因？谢谢。</p> <p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/TXB0104.jpg" alt="TXB0104.jpg" width="663" height="373" data-temp-id="TXB0104.jpg-598675"></p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1076408?ContentTypeID=0Sat, 30 May 2026 04:27:37 GMT91561404-af28-475a-b96b-cb6cbaadd097:f956432f-2316-4166-bd20-8d1b6dcaacf4?? ?3https://e2echina.ti.com/thread/1076408?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1076408/sn74cb3q3257-sn74cb3q3257/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74CB3Q3257" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74CB3Q3257</a><br /></p><p>请问下SN74CB3Q3257的最大结温是多少？我看有的地方写85℃，有的地方写105℃。</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1076373?ContentTypeID=0Fri, 29 May 2026 06:01:12 GMT91561404-af28-475a-b96b-cb6cbaadd097:e610fa0a-5b74-4fbf-9fae-1327a6aeb441zhou wenqiang1https://e2echina.ti.com/thread/1076373?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1076373/sn74lvc1g08-tj/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74LVC1G08" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74LVC1G08</a><br /></p><p>HI,</p> <p>请帮忙给一下SN74LVC1G08DCKR 这个器件的Tj温度，以便我屏蔽热风险，谢谢。</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1075602?ContentTypeID=0Tue, 26 May 2026 09:52:31 GMT91561404-af28-475a-b96b-cb6cbaadd097:0f7f05c1-853b-4feb-805e-ee711ac4a021Andy Cai1https://e2echina.ti.com/thread/1075602?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1075602/sn74lv595a-x-ray/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74LV595A" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74LV595A</a><br /></p><p>TI的料号会因为年份产地这些导致X-RAY不一样吗？有PCN吗？具体料号SN74LV595APWR</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1075599?ContentTypeID=0Tue, 26 May 2026 08:58:37 GMT91561404-af28-475a-b96b-cb6cbaadd097:658f4aba-ca41-43d1-b223-48e4c729d521zhang xinyu3https://e2echina.ti.com/thread/1075599?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1075599/sn74hc14-sn74hc14-input-vcc/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74HC14" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74HC14</a><br /></p><p>你好：我们是SN74HC14, INPUT信号的高电平是5V，VCC供电电压是3.3V，请问是否可以？HC14的的输入INPUT到VCC的二极管作用是什么？为什么要这个二极管？</p> <p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/8422.image.png" alt="image.png" data-temp-id="image.png-34387"></p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1075006?ContentTypeID=0Fri, 22 May 2026 07:32:20 GMT91561404-af28-475a-b96b-cb6cbaadd097:ceec98c7-e954-4fc1-86eb-74c30e1a348dhaiyou xie1https://e2echina.ti.com/thread/1075006?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1075006/sn74hcs573-q1/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74HCS573-Q1" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74HCS573-Q1</a><br /></p><p>官网上只找到这器件的3D模型，找不到书面上的规格信息。</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1074478?ContentTypeID=0Thu, 21 May 2026 02:56:26 GMT91561404-af28-475a-b96b-cb6cbaadd097:cfa4d4c5-c4c4-4e18-bf8a-9862a2520412zhang xinyu3https://e2echina.ti.com/thread/1074478?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1074478/sn74hc14-sn74hc14-vcc/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74HC14" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74HC14</a><br /></p><p>你好：我们是SN74HC14, INPUT信号的高电平是5V，VCC供电电压是3.3V，请问是否可以？如果不可以直接这样用，那么在输入信号串联一个电阻，是否可以? 如果串联电阻，串联的电阻要多大？</p> <p>&nbsp;</p> <p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/a113cefe_2D00_4810_2D00_43b7_2D00_a381_2D00_9ef1119a57e6.png" alt="a113cefe-4810-43b7-a381-9ef1119a57e6.png" width="510" height="247" data-temp-id="a113cefe-4810-43b7-a381-9ef1119a57e6.png-49892"></p> <p>&nbsp;</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1074466?ContentTypeID=0Wed, 20 May 2026 12:42:46 GMT91561404-af28-475a-b96b-cb6cbaadd097:27a00d32-8088-444b-8a22-c23c266b94a7switch2https://e2echina.ti.com/thread/1074466?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1074466/sn74avc4t774-sn74axc4t774-sn74avc4t774/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74AVC4T774" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AVC4T774</a><br /><b>Other Parts Discussed in Thread:</b> <a href="https://www.ti.com.cn/product/cn/SN74AXC4T774" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AXC4T774</a></p><p>Hi ti team，</p> <p>新项目调试时遇到SN74AXC4T774 和SN74AVC4T774软件兼容问题，你能帮忙看下原因吗？附件是SN74AXC4T774 和SN74AVC4T774使用过程问题汇总，Thanks！</p> <p><a href="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/_73518E4E_SN74AXC4T774-_8C54_SN74AVC4T774_AF8247727F4F28757C51B95B2760EE959898476C3B60_.docx" target="_blank" rel="noopener">关于SN74AXC4T774 和SN74AVC4T774芯片使用兼容性问题汇总.docx</a>&nbsp;</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1073565?ContentTypeID=0Wed, 13 May 2026 09:21:20 GMT91561404-af28-475a-b96b-cb6cbaadd097:fc3638d7-a9ea-4ec4-bd55-8b9dd5188f20jia ri1https://e2echina.ti.com/thread/1073565?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1073565/sn74lvth2245-hip-output-malfuntion/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74LVTH2245" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74LVTH2245</a><br /></p><p>SN74LVTH2245PWR The 7th pin of the chip has normal high/lowlevel input fluctuation，while the 13th pin output is stuck at high level。The function returns to normal after power reset。Please analyze the possible root causes of this failure and the types of interference that may lead to this issue</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1070271?ContentTypeID=0Fri, 24 Apr 2026 07:14:37 GMT91561404-af28-475a-b96b-cb6cbaadd097:ea19c7e7-555b-4d36-bef5-650e3611e35f?? ?3https://e2echina.ti.com/thread/1070271?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1070271/sn74axc4t774-sn74axc4t774/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74AXC4T774" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AXC4T774</a><br /></p><p>SN74AXC4T774在1.2V跟1.8V之间互相转换支持的频率是多少？在1.2V跟3.3V之间互相转换支持的频率是多少？规格书并没有看到</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1069682?ContentTypeID=0Wed, 22 Apr 2026 08:51:32 GMT91561404-af28-475a-b96b-cb6cbaadd097:f353954a-f812-4d9b-8959-8ef58cafa926Yan Yan2https://e2echina.ti.com/thread/1069682?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1069682/sn74ahc1g04-sn74ahc1g04dbvr/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74AHC1G04" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AHC1G04</a><br /></p><p>Dears，<br>我司收到3000pcs&nbsp;SN74AHC1G04DBVR，来料有披锋，具体如下图，请给解决方案。</p> <p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/3618.image.png" alt="image.png" data-temp-id="image.png-532468"></p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1069680?ContentTypeID=0Wed, 22 Apr 2026 08:23:19 GMT91561404-af28-475a-b96b-cb6cbaadd097:d6323ac8-b74b-4cf8-80bb-1a8a74dba803chunyi liu3https://e2echina.ti.com/thread/1069680?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1069680/txs0108e/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/TXS0108E" class="internal-link folder product" title="Link to Product Folder" target="_blank">TXS0108E</a><br /></p><p>在TXS0108ENMER规格书中</p> <p>在第三部分中提到OE引脚需要连接3.3V，才能三态输出，</p> <p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/Snipaste_5F00_2026_2D00_04_2D00_22_5F00_16_2D00_19_2D00_24.png" alt="Snipaste_2026-04-22_16-19-24.png" width="396" height="312" data-temp-id="Snipaste_2026-04-22_16-19-24.png-165101"></p> <p>而在引脚功能表里，却相反</p> <p>&nbsp;</p> <p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/Snipaste_5F00_2026_2D00_04_2D00_22_5F00_16_2D00_19_2D00_50.png" alt="Snipaste_2026-04-22_16-19-50.png" width="430" height="354" data-temp-id="Snipaste_2026-04-22_16-19-50.png-116145"></p> <p>请double check,然后更新datasheet</p> <p>&nbsp;</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1069679?ContentTypeID=0Wed, 22 Apr 2026 08:04:23 GMT91561404-af28-475a-b96b-cb6cbaadd097:fa8cfc15-5281-40cd-8834-eaf2ec4d8264?? ?7https://e2echina.ti.com/thread/1069679?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1069679/sn74avc4t774-q1-spi/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74AVC4T774-Q1" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AVC4T774-Q1</a><br /><b>Other Parts Discussed in Thread:</b> <a href="https://www.ti.com.cn/product/cn/TXS0104W-Q1" class="internal-link folder product" title="Link to Product Folder" target="_blank">TXS0104W-Q1</a>, <a href="https://www.ti.com.cn/product/cn/SN74AXC4T774" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AXC4T774</a></p><p>你好，请帮忙推荐个常用的SPI电平转换芯片，1.2V/1.5V 转1.8V的。速率25MHz。</p> <p>谢谢，我目前看到SN74AVC4T774-Q1好像比较适用，请问有没有其他更常用合适的推荐？</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1069672?ContentTypeID=0Wed, 22 Apr 2026 06:52:27 GMT91561404-af28-475a-b96b-cb6cbaadd097:9a14e5e8-7985-4a0d-80c6-df6e1728cc8eYan Yan2https://e2echina.ti.com/thread/1069672?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1069672/sn74ahc1g04-sn74ahc1g04dbvr/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74AHC1G04" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AHC1G04</a><br /></p><p>Dears，</p> <p>我司收到3000pcs SN74AHC1G04DBVR，来料有披锋，具体如下图，请给解决方案。</p> <p>&nbsp;</p> <p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/5811.image.png" alt="image.png" data-temp-id="image.png-295861"></p> <p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/7077.image.png" alt="image.png" data-temp-id="image.png-209451"></p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1069311?ContentTypeID=0Mon, 20 Apr 2026 03:55:39 GMT91561404-af28-475a-b96b-cb6cbaadd097:9f264bc4-13fb-418d-ba88-2c52ebbe93bajiyansong jiyansong8https://e2echina.ti.com/thread/1069311?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1069311/sn54ls138-sn54ls138j-iil/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN54LS138" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN54LS138</a><br /></p><p>您好，</p> <p>我在对 SN54LS138J 器件进行直流参数测试时，遇到了关于输入低电平电流（IIL）规格的疑问，希望得到TI官方的确认。</p> <p>一、测试条件</p> <ul style="list-style-type:disc;"> <li>器件型号：SN54LS138J（TI，陶瓷封装）</li> <li>电源电压：VCC = 5.5 V（最大推荐值）</li> <li>被测输入电压：VI = 0.4 V</li> <li>其他输入端：固定在有效逻辑电平（无悬空）</li> <li>输出端：正常状态（未强制负载）</li> <li>测试方式：ATE PMU 强制电压，测量电流</li> </ul> <p>二、测试结果</p> <p>对多颗器件（10颗）测试，结果一致性较好：</p> <ul style="list-style-type:disc;"> <li>选择输入端（A、B、C）：约 -245 &micro;A ~ -250 &micro;A</li> <li>使能输入端（G1、G2A、G2B）：约 -240 &micro;A ~ -250 &micro;A</li> </ul> <p>测试结果具有以下特点：</p> <ul style="list-style-type:disc;"> <li>多颗器件一致</li> <li>更换测试板一致</li> <li>更换测试机台一致</li> </ul> <p>三、问题描述</p> <p>根据数据手册，IIL规格如下：</p> <ul style="list-style-type:disc;"> <li>选择输入端：&plusmn;200 &micro;A</li> <li>使能输入端：&plusmn;400 &micro;A</li> </ul> <p>但当前测试结果表明：</p> <ul style="list-style-type:disc;"> <li>选择输入端的IIL超过了&plusmn;200 &micro;A限值</li> <li>所有输入端（包括使能端）电流数值基本一致</li> </ul> <p>四、疑问</p> <p>想请教以下问题：</p> <ol style="list-style-type:decimal;"> <li>当前器件（SN54LS138J）是否适用于&ldquo;选择输入&plusmn;200 &micro;A&rdquo;的IIL规格？</li> <li>该器件内部是否对选择输入和使能输入采用不同结构，还是实际上相同？</li> <li>是否存在以下可能性：<br> <ul style="list-style-type:circle;"> <li>不同版本数据手册之间存在差异？</li> <li>LS系列老器件的工艺分布导致IIL偏大？</li> </ul> </li> <li>在工程应用中，是否可以认为所有输入端更接近&plusmn;400 &micro;A等级？</li> </ol> <p>五、补充观察</p> <ul style="list-style-type:disc;"> <li>当VCC降低时，IIL明显减小，在4.5V时达到180uA。</li> <li>输入电流随VI变化趋势符合TTL典型特性（低电平电流较大，接近高电平时迅速减小）</li> </ul> <p>希望能得到TI官方对该器件IIL规格适用性的说明，非常感谢！</p> <p>&nbsp;</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1068485?ContentTypeID=0Wed, 15 Apr 2026 07:28:26 GMT91561404-af28-475a-b96b-cb6cbaadd097:273ebd1e-3546-4b45-aaee-cefc212cf734?? ?5https://e2echina.ti.com/thread/1068485?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1068485/lsf0204-mdio/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/LSF0204" class="internal-link folder product" title="Link to Product Folder" target="_blank">LSF0204</a><br /></p><p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/ScreenShot_5F00_2026_2D00_04_2D00_15_5F00_152558_5F00_697.png" alt="ScreenShot_2026-04-15_152558_697.png" data-temp-id="ScreenShot_2026-04-15_152558_697.png-102873"></p> <p>请问有没有mdio电平转换芯片推荐，支持1.2V转1.8v的，速率至少是25MHz。</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1067976?ContentTypeID=0Mon, 13 Apr 2026 02:34:17 GMT91561404-af28-475a-b96b-cb6cbaadd097:526a5520-45ea-48a2-8891-24e2404afbc5jiangtao zhou5https://e2echina.ti.com/thread/1067976?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1067976/tms320f280025c-280025-clb/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/TMS320F280025C" class="internal-link folder product" title="Link to Product Folder" target="_blank">TMS320F280025C</a><br /><b>Other Parts Discussed in Thread:</b> <a href="https://www.ti.com.cn/tool/cn/SYSCONFIG" class="internal-link folder tool" title="Link to Tool Folder" target="_blank">SYSCONFIG</a>, <a href="https://www.ti.com.cn/tool/cn/C2000WARE" class="internal-link folder tool" title="Link to Tool Folder" target="_blank">C2000WARE</a></p><p>下面我自己总结了一个真值表，不知道要如何填充到FSM的S0,S1，以及如何填写LUT表(最终控制PWM1A高或低),由于无例子可参考，希望SUPPORT指点一下：</p> <p>NO &nbsp; &nbsp; &nbsp;S1 S0 INPUT &nbsp;H L NOTE &nbsp; &nbsp; &nbsp; &nbsp; &nbsp;S1 S0<br>当前状态 0 0 外部输入0 0 &nbsp;后面是填跳转 0 0&nbsp;<br>当前状态 0 0 外部输入0 1 &nbsp;后面是填跳转 0 0&nbsp;<br>当前状态 0 0 外部输入1 0 &nbsp;后面是填跳转 0 1 (H=1触发）<br>当前状态 0 0 外部输入1 1 &nbsp;后面是填跳转 0 1 (H=1触发）</p> <p>当前状态 0 1 外部输入0 0 &nbsp;后面是填跳转 0 1 (状态2只由超时跳转，否则保持）&nbsp;&nbsp;<br>当前状态 0 1 外部输入0 1 &nbsp;后面是填跳转 0 1&nbsp;<br>当前状态 0 1 外部输入1 0 &nbsp;后面是填跳转 0 1&nbsp;<br>当前状态 0 1 外部输入1 1 &nbsp;后面是填跳转 0 1</p> <p>当前状态 1 0 外部输入0 0 &nbsp;后面是填跳转 1 0&nbsp;<br>当前状态 1 0 外部输入0 1 &nbsp;后面是填跳转 1 1 （L=1触发或超时触发）<br>当前状态 1 0 外部输入1 0 &nbsp;后面是填跳转 1 1&nbsp;<br>当前状态 1 0 外部输入1 1 &nbsp;后面是填跳转 1 1 （L=1触发或超时触发）</p> <p>当前状态 1 1 外部输入0 0 &nbsp;后面是填跳转 1 1 （状态4只由超时跳转，否则保持）<br>当前状态 1 1 外部输入0 1 &nbsp;后面是填跳转 1 1&nbsp;<br>当前状态 1 1 外部输入1 0 &nbsp;后面是填跳转 1 1&nbsp;<br>当前状态 1 1 外部输入1 1 &nbsp;后面是填跳转 1 1&nbsp;</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1066888?ContentTypeID=0Wed, 08 Apr 2026 12:25:22 GMT91561404-af28-475a-b96b-cb6cbaadd097:4a263b6f-4028-4fda-8db3-18da0fccc2c5user40831772https://e2echina.ti.com/thread/1066888?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1066888/sn74lvc4245a/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74LVC4245A" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74LVC4245A</a><br /></p><p>我有一款电路板使用了贵司的SN74LVC4245APWR芯片，已经正常使用了三年以上。但最近批次发现芯片在上电后温度异常偏高，经排查后发现芯片引脚9，10在输入悬空的情况下输出为高电平，且与GND直连，导致温度异常；当将对应输入引脚连接GND后，芯片表现正常。未将未使用的输入引脚连接至GND或者VCC，这个设计缺陷我是承认的。发此帖子的目的只是想知道新旧批次芯片表现为什么不一致。附上对应原理图和不同批次丝印照片。<img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/_E765_.jpg" alt=" "><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/_B065_.jpg" alt=" "><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/8461._9F530674FE56_.png" alt=" "></p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1066854?ContentTypeID=0Wed, 08 Apr 2026 04:10:02 GMT91561404-af28-475a-b96b-cb6cbaadd097:cb2b49f7-f350-4d3d-821d-b736aa5395aeyang zhao2https://e2echina.ti.com/thread/1066854?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1066854/sn74ahc08-sn74ahc08pwr/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74AHC08" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AHC08</a><br /></p><p><img src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/e28cc66c01d71c87b4ed6f29dbf793f4_5F00_compress.jpg" alt="e28cc66c01d71c87b4ed6f29dbf793f4_compress.jpg" data-temp-id="e28cc66c01d71c87b4ed6f29dbf793f4_compress.jpg-147781"></p> <p>此物料最后一行3个数字分别代表什么</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1066019?ContentTypeID=0Mon, 30 Mar 2026 09:11:13 GMT91561404-af28-475a-b96b-cb6cbaadd097:cb1d6d1e-7078-426c-b80f-45e34db60296Diana Huang2https://e2echina.ti.com/thread/1066019?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1066019/sn74ahc1g32/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74AHC1G32" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AHC1G32</a><br /></p><p>SN74AHC1G32DRLRG4 来料检验发现物料Pin脚100%氧化，数量180PCS，DC：2231<a href="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/_69729965155F1A81276C1653FE564772_.pdf" target="_blank" rel="noopener">物料引脚氧化图片.pdf</a>&nbsp;</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1064865?ContentTypeID=0Tue, 24 Mar 2026 09:43:35 GMT91561404-af28-475a-b96b-cb6cbaadd097:b72a935f-5db7-4161-9c48-eceb03d398aaZia Liu2https://e2echina.ti.com/thread/1064865?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1064865/sn74lv244a-sn74lv244adwr/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74LV244A" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74LV244A</a><br /></p><p>买了一批马来西亚生产的24年的SN74LV244ADWR，X-Ray发现跟23年购买的晶圆和引线都不一样。</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1064722?ContentTypeID=0Tue, 24 Mar 2026 05:15:58 GMT91561404-af28-475a-b96b-cb6cbaadd097:289b9e4e-bf53-4ce9-8358-a5cde9be7e29Enzo Yin2https://e2echina.ti.com/thread/1064722?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1064722/cd4013b-cd4013b-issues-regarding-the-clock-of-cd4013b/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/CD4013B" class="internal-link folder product" title="Link to Product Folder" target="_blank">CD4013B</a><br /></p> <p>My circuit connection is as shown in the diagram below.</p> <p><img alt="image.png" height="354" src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/5635.image.png" width="700" data-temp-id="image.png-70383"></p> <p>I noticed that when I use only the first channel, a special phenomenon occurs: the output of Q1 follows the level of the CLK1 signal, rather than toggling on the rising edge of CLK1. After checking the datasheet, I suspect this may be caused by an excessively long rise time of the CLK signal.</p> <p><img alt="image.png" src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/8358.image.png" data-temp-id="image.png-3993"></p> <p>Therefore, I used the circuit connection shown in the figure, where the extremely short rise time of Q1 is used as the input for CLK2. In this case, I found that Q2 toggles normally on the rising edge of CLK1.</p> <p>However, I am still concerned about whether the Q1 following behavior in the first channel is reliable. I would like to ask: what does the datasheet specify regarding the state of the CD4013 when the rise time exceeds the maximum limit? Also, if I do not use an additional Schmitt trigger, is it possible to achieve both switch debouncing and Q output toggling using only one CD4013?</p> <p>Thank you for your help.</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1064333?ContentTypeID=0Sat, 21 Mar 2026 05:33:18 GMT91561404-af28-475a-b96b-cb6cbaadd097:67abb3a2-6618-4be5-953d-fd3f295ba955Chenchen Tao1https://e2echina.ti.com/thread/1064333?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1064333/cd4013b-cd4013bm96/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/CD4013B" class="internal-link folder product" title="Link to Product Folder" target="_blank">CD4013B</a><br /></p> <p>在该电路中出现CD4013的9、13输出PWM波形失效，保持高电平，导致输出电压无法调节，TI反馈说<br>电路设计不符合要求，麻烦看看何处不符合T使用要求。<img alt="image.png" src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/6746.image.png" data-temp-id="image.png-60236">&nbsp;</p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1064323?ContentTypeID=0Sat, 21 Mar 2026 02:47:37 GMT91561404-af28-475a-b96b-cb6cbaadd097:55fb15d5-43b1-4aed-943b-13f20096babfkongde chen14https://e2echina.ti.com/thread/1064323?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1064323/cd4013b-cd4013-pwm/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/CD4013B" class="internal-link folder product" title="Link to Product Folder" target="_blank">CD4013B</a><br /></p> <p>在该电路中出现CD4013的9、13输出PWM波形失效，保持高电平，导致输出电压无法调节，TI反馈说电路设计不符合要求，麻烦看看何处不符合TI使用要求。后续发现编带来料通过搭建简易电路测试，在未进行SMT的时候，来料已经出现了失效情况，概率6%以上</p> <p><img alt="image.png" src="https://e2echina.ti.com/cfs-file/__key/communityserver-discussions-components-files/122/7752.image.png" data-temp-id="image.png-60236"></p><div style="clear:both;"></div>https://e2echina.ti.com/thread/1063037?ContentTypeID=0Fri, 13 Mar 2026 09:23:29 GMT91561404-af28-475a-b96b-cb6cbaadd097:9b97af13-4d2a-4091-9e39-17139f2e7089SHISHUI ZHENG2https://e2echina.ti.com/thread/1063037?ContentTypeID=0https://e2echina.ti.com/support/logic/f/logic-forum/1063037/sn74ahc14-input/rss?ContentTypeId=0<p><b>Part Number:</b> <a href="https://www.ti.com.cn/product/cn/SN74AHC14" class="internal-link folder product" title="Link to Product Folder" target="_blank">SN74AHC14</a><br /></p><p>我们只产品应用中遇到这样一个问题 ，由于某种原因，现场设备SN74AHC14的输入引脚在3.67V左右，供电电源在3.3V的条件下长期运行，请问这种情况下，器件损坏的风险存在吗？</p><div style="clear:both;"></div>