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MK20DX128VMC7 5V tolerant and more

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MK20DX128VMC7 5V tolerant and more

‎02-22-2018 07:17 AM
2,368 Views
phil74
NXP Employee
NXP Employee

Hello,

Do we have any data regarding MK20DX128VMC7 behavior when applying over voltage on 5V tolerant pins?

(I mean 5.5V or 6V for instance).

Shall we expect some latchup, MCU destroyed?

I also have the same question for overcurrent in same pins.

Thanks in advance for your help.

BR,

Philippe

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12 Replies

‎03-12-2018 01:48 AM
1,957 Views
phil74
NXP Employee
NXP Employee

Hi Jing,

Any update?

BR,

Philippe

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‎03-14-2018 08:25 AM
1,957 Views
phil74
NXP Employee
NXP Employee

Hello,

Any feedback?

BR,

Philippe

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‎03-15-2018 10:35 PM
1,957 Views
jingpan
NXP TechSupport
NXP TechSupport

Hi,

I'm sorry I made a mistake. MK20_75M is not same as MK20_100M. MK20_75M do not support 5V tolerant.

Regards,

Jing

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‎03-19-2018 09:53 AM
1,957 Views
phil74
NXP Employee
NXP Employee

Hi,

Sorry to insist by datasheet (K20P100M72SF1) mentions that this part support 5V tolerant GPIO :

image002.jpg

So can you review and answer the original question according to this ?

Thanks,

BR,

Philippe

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‎03-21-2018 07:39 PM
1,957 Views
jingpan
NXP TechSupport
NXP TechSupport

Hi,

Yes, it's a little embarrassing. There is only one '5 v' in datasheet. But it is obviously that K20P100M72SF1 is 5v tolerant. I must withdraw my last words. I asked for help, but I only get below words:

from the datasheet, it support the rating value of digital input voltage is  5.5V. we don't have other data for overvoltage test, generally, it must avoid the overvoltage happen.

Regards,

Jing

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‎03-14-2018 07:27 PM
1,957 Views
jingpan
NXP TechSupport
NXP TechSupport

Hi,

I'm checking with FAE group and I'll tell you as soon as I get feed back.

Regards,

Jing

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‎03-07-2018 02:19 AM
1,957 Views
phil74
NXP Employee
NXP Employee

Hi,

But this addendum only refers to MK20DX256VLK10 and MK20DN512VLK10, meaning100MHz part and not 72MHz as MK20DX128VMC7 .

Is it aslo applicable for MK20DX128VMC7 ? If yes, why we don't create same addendum for MK20DX128VMC7 ?

BR,

Philippe.

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‎02-28-2018 03:03 AM
1,957 Views
phil74
NXP Employee
NXP Employee

Hi Jing,

Which datasheet are you refering to ?

The MK20DX128VMC7 datasheet is referenced on our web site on :

Arm® Cortex®-M4|Kinetis K20 72 MHz 32-bit USB MCUs|NXP 

Capture00.JPG

And I don't see any reference to the 50µA you have mentioned above.

BR,

Philippe.

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‎03-01-2018 03:19 AM
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jingpan
NXP TechSupport
NXP TechSupport

Hi,

It's K20P81M100SF2V2.pdf, page 15.

Regards,

Jing

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‎02-27-2018 04:05 AM
1,957 Views
phil74
NXP Employee
NXP Employee

Hi Jing,

I can't find in MK20DX128VMC7 datasheet that " Input leakage current at 5.5V is 50uA max".

Can you tell where is it written, or is it internal data?

Capture0.JPG

BR,

Philippe

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‎02-27-2018 07:23 PM
1,956 Views
jingpan
NXP TechSupport
NXP TechSupport

Hi,

k20_input_leackage.png

Regards,

Jing

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‎02-22-2018 08:31 PM
1,957 Views
jingpan
NXP TechSupport
NXP TechSupport

Hi Philippe,

Only digital I/O pins have 5v tolerant inputs. The digital input voltage is from -0.3V to 5.5V. So 6V exceed the range. There is no special data for pins work at 5.5v. So I believe most of data are same as those at 3.3v. You don't have to worry about latchup at 5.5V.
5V tolerant pins can't output 5v. Because VDDIO can only connect to 3.3v. So the output current parameters are all same. Input leakage current at 5.5V is 50uA max. Please look at table4 in datasheet.

Regards,

Jing

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