SBOA344A July   2019  – September 2022 LMX2694-SEP , SN55HVD233-SEP , SN65C1168E-SEP , TL7700-SEP , TLV1704-SEP , TPS73801-SEP , TPS7H1111-SEP , TPS7H1210-SEP , TPS7H2140-SEP , TPS7H2201-SEP , TPS7H2211-SEP , TPS7H2221-SEP , TPS7H3302-SEP , TPS7H4003-SEP , TPS7H4010-SEP , TPS7H5005-SEP , TPS7H5006-SEP , TPS7H5007-SEP , TPS7H5008-SEP

 

  1.   Abstract
  2.   Trademarks
  3. Radiation Challenges
  4. Temperature Range
  5. Tin Whiskers
  6. Cu Wire Risks
  7. Plastic Outgassing and Moisture Absorption
  8. Harsh Environment Qualification
  9. Multiple Manufacturing Sites
  10. Long Life Cycles
  11. VID - Vendor Item Drawing
  12. 10Conclusions
  13. 11Revision History

Multiple Manufacturing Sites

To allow for manufacturing flexibility, a COTS product might be produced in several different wafer fabs. Each wafer fab can have slightly different equipment and processes. The difference in the wafer fabs would not impact a product’s performance as long as the product is used within the parameters of the data sheet. These differences could impact how the part performs when operated outside rated parameters and could significantly impact the product’s radiation performance.

Likewise, a COTS or automotive product could be assembled at multiple assembly sites, which could use different mold compounds and bond wires. As described earlier, these differences could have significant impact in product reliability when using the part in a harsh environment beyond the rated performance. Normally, a customer is not able to choose which manufacturing sites are used.

For the TI Space EP products, there is only one production flow, one wafer fab and one assembly site used for each product. This greatly reduces lot-to-lot variations.