in addition, consult your parts vendor recommended stencil pattern/
pad layout and reflow profile will do you good (part of your new
product implementation - if it is 1st time you use such a part...
treat as all key components, such as processor, before you finalize
the reflow profile). IMHO.
On Mar 5, 2018, at 10:31 AM, Yuan-chia Joyce Koo wrote:
> agree. BTC usually is body heavy, it is prefer to have little less
> solder (although you need heat sink) than normally calculated for
> the pad to prevent the floating of the part - the large pot of
> solder in the ground pad will prevent the lead contact if soaking/
> peak temperature zone is kept minimum... (which all the MFG
> engineer try to do to improve throughput). If the part is
> floating, you may potentially have parts tilt... BTC, by design is
> used for high heat, high speed package (shortest interconnect)...
> you need good solder joints... high % voids is trouble some... IMHO.
> On Mar 5, 2018, at 9:04 AM, Stadem, Richard D wrote:
>
>> I am not prepared to provide input on what is an acceptable void
>> size limit as a percentage of the overall solder connection
>> between part and pad. Perhaps this should be with respect to the
>> total overall wetted area in any given X-ray (perhaps a lesser
>> maximum diameter as a percentage of the total pad area if the
>> wetted area cannot be distinguished from the pad area). If a
>> "better" X-ray is used that CAN distinguish the wetted area from
>> the pad area, then perhaps a slightly larger maximum diameter as a
>> percentage of the visible wetted area could be used.
>>
>> As Dave noted, there can be very specific requirements between
>> different parts as to the amount of voiding that is acceptable for
>> both electrical and heatsinking requirements for some components
>> as opposed to others, and trying to come up with criteria that
>> will work for at least 90% of the parts out there without adding a
>> huge cost may not be possible. I am guessing that we can come up
>> with some guidelines, but would also have to provide a caveat;
>> "except as required by the component manufacturer or AABUS".
>>
>> But I would like to have the words "Note! A complete lack of voids
>> as seen in an X-ray of a BTC does not necessarily mean perfect
>> wetting between the bottom of the component and the pad(s) on the
>> board. Insufficient solder paste height can leave a well-wetted
>> board termination pad, with no connection whatsoever to the bottom
>> of the part. This will show up in the X-ray as a "void-free"
>> solder connection."
>>
>> I have seen this too many times (even from experienced engineers)
>> who are attempting to optimize the amount of solder paste
>> deposited to reduce voiding. The peripheral solder connections
>> hold the part up, the solder paste wets out on the belly pad on
>> the board, but no connection is made between the belly pad on the
>> bottom of the part and the belly pad on the PWB, only the
>> peripheral connections have a finished solder joint. The X-ray is
>> opaque and void free and the part works perfectly during short-
>> term electrical test, but then fails prematurely because no
>> required heatsinking is taking place.
>>
>> -----Original Message-----
>> From: TechNet [mailto:[log in to unmask]] On Behalf Of David Hillman
>> Sent: Saturday, March 03, 2018 6:54 PM
>> To: [log in to unmask]
>> Subject: Re: [TN] Bottom Termination Components (BTC) Voiding Limits
>>
>> Hi Wayne - you have good timing with your question as I can give
>> you the latest info from the IPC committee meeting last week. The
>> JSTD-001 committee had a comment submitted asking for void
>> criteria for BTCs. A small task group with global representation
>> from several industry product segments was formed to review the
>> issue. We reviewed the issue with data resources from consortia,
>> IPC and SMTA resources. We had one very specific
>> conclusion: Any void criteria that would be put into the JSTD-001
>> specification would be addressing solder joint integrity only.
>> Many BTCs have either thermal or electrical functional needs which
>> is a design issue that should be addressed during the product
>> design phase. Here is what the task team responded back to the
>> JSTD-001 committee with:
>>
>> "The JSTD-001 QFN Void Criteria task group recommends that a
>> "request for data" be issued as a review of the current available
>> industry data was found to not be sufficient to establish a data
>> based maximum void criteria for solder joint integrity. The
>> voiding criteria requirements pertaining to the functionality of a
>> QFN or other Bottom Terminated Components (i.e.
>> thermal or electrical performance) are a design function and not
>> part of the IPC-JSTD-001 specification scope. The "request for
>> data" responses should be sent to the QFN Void Criteria task group
>> by October 31st, 2018 so that they can be reviewed prior to the
>> 2019 IPC JSTD 001 APEX committee meeting. The JSTD-001 QFN Void
>> Criteria task group will provide a void criteria recommendation to
>> the IPC JSTD 001 committee based on the data submissions at the
>> 2019 IPC JSTD 001 committee meeting."
>>
>> The void number you listed - especially the 25% - have little to
>> no technical data justification in terms of solder joint
>> integrity.The
>> JSTD-001 BTC Void task group is looking for DOE/test/investigation
>> data and there will be a recommendation to the JSTD-001 committee
>> for review at the
>> 2019 committee APEX meeting. I understand that seems like a long
>> time but any criterial that is put into the JSTD-001 specification
>> must be done based on data as those requirements results in costs
>> to the industry.
>>
>> A number of OEMs verbally committed to providing BTC void data to the
>> JSTD-001 BTC Void task group so I am confident the issue will be
>> resolved within the year. If anyone has data they would like to
>> submit to the task group, please send it to me and I'll make sure
>> it is included in the data review.
>>
>> Let me know if you have any additional questions.
>>
>>
>> Dave Hillman
>> IPC JSTD-001 BTC task group lead
>> Rockwell Collins
>> [log in to unmask]
>>
>>
>> On Sat, Mar 3, 2018 at 6:18 PM, Wayne Showers
>> <[log in to unmask]>
>> wrote:
>>
>>> I do not know of an IPC criteria on this. I have seen 25% (The BGA
>>> criteria) cited, but this is not, to my knowledge accurate.
>>> The limits I have used in the past are 50% Coverage with no void
>>> exceeding 15% in the center and no more than 10% anywhere else.
>>> I also used a 70% Coverage and 10% Void criteria for a very heat
>>> sensitive application.
>>>
>>> Question 1: Is there now a citable IPC criteria? and if NO, Question
>>> 2: What are some of this groups recommended criteria?
>>>
>>> Thanks and Regards, Wayne Showers, NPI/Technical Manager, 4Front
>>> Solutions
>>>
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