https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1703694#M18896 <P>Hello <A id="link_6" class="lia-link-navigation lia-page-link lia-user-name-link" href="https://community.nxp.com/t5/user/viewprofilepage/user-id/199957" target="_self" aria-label="View Profile of Danz1"><SPAN class="">Danz1</SPAN></A>,</P> <P>I hope all is great with you. Thank you for using the NXP communities.</P> <P>Could you please share the timing parameters of your device?</P> <P>Usually, the 30% and 70% of VDD refers to logic levels, not timing.</P> <P><span class="lia-inline-image-display-wrapper lia-image-align-inline" image-alt="diazmarin09_0-1691776203459.png" style="width: 400px;"><img src="https://community.nxp.com/t5/image/serverpage/image-id/236126i9F43445367852F14/image-size/medium?v=v2&amp;px=400" role="button" title="diazmarin09_0-1691776203459.png" alt="diazmarin09_0-1691776203459.png" /></span></P> <P>&nbsp;</P> <P>Regards,</P> <P>David</P> Fri, 11 Aug 2023 17:50:16 GMT diazmarin09 2023-08-11T17:50:16Z https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1703548#M18894 <P>Hi,&nbsp;</P><P>CH1 in the waveform below shows the rising edge of the I2C Clock signal.&nbsp;</P><P>The I2C rise time of the IC is specified as 30%-70% of VCC.</P><P>In the waveform captured, is the rise time measured from 0.99V (=30% of Vcc) to 2.31V (=70% of Vcc)?</P><P>Since Vmin is at 0.517V. Should the rise time be measured from 1.352V (=0.517V+0.3[3.3V-0.517V]) to 2.465V (=0.517V+0.7[3.3V-0.517V])?&nbsp;&nbsp;</P><P>Thanks.</P><P><span class="lia-inline-image-display-wrapper lia-image-align-inline" image-alt="bot-rack_tca9544a_scl-rise.jpg" style="width: 999px;"><img src="https://community.nxp.com/t5/image/serverpage/image-id/236098iD9534A5ACF3E5C19/image-size/large?v=v2&amp;px=999" role="button" title="bot-rack_tca9544a_scl-rise.jpg" alt="bot-rack_tca9544a_scl-rise.jpg" /></span></P><P>Rgds</P><P>Danz</P> Fri, 11 Aug 2023 11:45:51 GMT https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1703548#M18894 Danz1 2023-08-11T11:45:51Z https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1703694#M18896 <P>Hello <A id="link_6" class="lia-link-navigation lia-page-link lia-user-name-link" href="https://community.nxp.com/t5/user/viewprofilepage/user-id/199957" target="_self" aria-label="View Profile of Danz1"><SPAN class="">Danz1</SPAN></A>,</P> <P>I hope all is great with you. Thank you for using the NXP communities.</P> <P>Could you please share the timing parameters of your device?</P> <P>Usually, the 30% and 70% of VDD refers to logic levels, not timing.</P> <P><span class="lia-inline-image-display-wrapper lia-image-align-inline" image-alt="diazmarin09_0-1691776203459.png" style="width: 400px;"><img src="https://community.nxp.com/t5/image/serverpage/image-id/236126i9F43445367852F14/image-size/medium?v=v2&amp;px=400" role="button" title="diazmarin09_0-1691776203459.png" alt="diazmarin09_0-1691776203459.png" /></span></P> <P>&nbsp;</P> <P>Regards,</P> <P>David</P> Fri, 11 Aug 2023 17:50:16 GMT https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1703694#M18896 diazmarin09 2023-08-11T17:50:16Z https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1703855#M18904 <P>Hi David,</P><P>I use the I2C specification as an example. The rise time and fall time is defined from 03Vdd to 0.7Vdd as indicated in the waveform. VIL and VIH are also defined as 0.3Vdd and 0.7Vdd respectively.</P><P><span class="lia-inline-image-display-wrapper lia-image-align-inline" image-alt="Danz1_0-1691906224603.png" style="width: 400px;"><img src="https://community.nxp.com/t5/image/serverpage/image-id/236165iFA9766196FE1D2B7/image-size/medium?v=v2&amp;px=400" role="button" title="Danz1_0-1691906224603.png" alt="Danz1_0-1691906224603.png" /></span></P><P>With reference to the captured waveform I posted earlier, should the rise/fall time measure between 1.352V to 2.465V or measure between 0.99V to 2.31V?</P><P>Rgds</P><P>Danz&nbsp; &nbsp;&nbsp;</P><P>&nbsp;</P><P>&nbsp;</P> Sun, 13 Aug 2023 06:06:53 GMT https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1703855#M18904 Danz1 2023-08-13T06:06:53Z https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1705872#M18959 <P>Hello <SPAN>Danz1</SPAN>,</P> <P>Once again, thank you for using the NXP communities.</P> <P>Please accept my apologies for the delayed response.</P> <P>Correct, the rise and fall time should be based on a valid logic level. I mean, I do recommend to measure such timing from 30% and 70% of the VDD.</P> <P>I hope this information helps.</P> <P>Regards,</P> <P>David</P> Wed, 16 Aug 2023 15:02:49 GMT https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1705872#M18959 diazmarin09 2023-08-16T15:02:49Z https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1706105#M18963 <P>Hi David,</P><P>&nbsp;</P><P>Noted. Thank you for your reply.</P><P>Rgds</P><P>Danz</P> Thu, 17 Aug 2023 00:45:07 GMT https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/1706105#M18963 Danz1 2023-08-17T00:45:07Z https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/2040696#M27417 <P>Hi,</P><P>&nbsp;</P><P>I am a newbie. when using oscilloscope to measure I2C signal ( fast mode plus)&nbsp;</P><P>what sample rate I need use?&nbsp;20 MS/s or higher like 500MS/s&nbsp;</P><P>because i met one case that&nbsp;</P><P>1. Using Scale 10us/div + sample rate lower than 200 MS/s then sometimes rise time fail ( &gt; 120ns) both SDA/SCL</P><P>2. Using 10us/Div + 500MS/s -&gt; get PASS result&nbsp;</P><P>So what is correct ? how I can calculate sample rate</P><P>Thanks a lot !</P> Mon, 10 Feb 2025 08:06:09 GMT https://community.nxp.com/t5/Other-NXP-Products/I2C-Rise-Fall-time-measurement-points/m-p/2040696#M27417 AnNguyen952842 2025-02-10T08:06:09Z