SLAA392A March   2008  – August 2018 MSP430BT5190 , MSP430F1101 , MSP430F1101A , MSP430F1111A , MSP430F112 , MSP430F1121 , MSP430F1121A , MSP430F1122 , MSP430F1132 , MSP430F122 , MSP430F1222 , MSP430F123 , MSP430F1232 , MSP430F133 , MSP430F135 , MSP430F147 , MSP430F1471 , MSP430F148 , MSP430F1481 , MSP430F149 , MSP430F1491 , MSP430F155 , MSP430F156 , MSP430F157 , MSP430F1610 , MSP430F1611 , MSP430F1612 , MSP430F167 , MSP430F168 , MSP430F169 , MSP430F2001 , MSP430F2002 , MSP430F2003 , MSP430F2011 , MSP430F2012 , MSP430F2013 , MSP430F2013-EP , MSP430F2101 , MSP430F2111 , MSP430F2112 , MSP430F2121 , MSP430F2122 , MSP430F2131 , MSP430F2132 , MSP430F2232 , MSP430F2234 , MSP430F2252 , MSP430F2252-Q1 , MSP430F2254 , MSP430F2272 , MSP430F2272-Q1 , MSP430F2274 , MSP430F233 , MSP430F2330 , MSP430F235 , MSP430F2350 , MSP430F2370 , MSP430F2410 , MSP430F2416 , MSP430F2417 , MSP430F2418 , MSP430F2419 , MSP430F247 , MSP430F2471 , MSP430F248 , MSP430F2481 , MSP430F249 , MSP430F2491 , MSP430F2616 , MSP430F2617 , MSP430F2618 , MSP430F2619 , MSP430F412 , MSP430F413 , MSP430F4132 , MSP430F415 , MSP430F4152 , MSP430F417 , MSP430F423 , MSP430F423A , MSP430F425 , MSP430F4250 , MSP430F425A , MSP430F4260 , MSP430F427 , MSP430F4270 , MSP430F427A , MSP430F435 , MSP430F4351 , MSP430F436 , MSP430F4361 , MSP430F437 , MSP430F4371 , MSP430F438 , MSP430F439 , MSP430F447 , MSP430F448 , MSP430F4481 , MSP430F449 , MSP430F4491 , MSP430F4616 , MSP430F46161 , MSP430F4617 , MSP430F46171 , MSP430F4618 , MSP430F46181 , MSP430F4619 , MSP430F46191 , MSP430F47126 , MSP430F47127 , MSP430F47163 , MSP430F47166 , MSP430F47167 , MSP430F47173 , MSP430F47176 , MSP430F47177 , MSP430F47183 , MSP430F47186 , MSP430F47187 , MSP430F47193 , MSP430F47196 , MSP430F47197 , MSP430F477 , MSP430F478 , MSP430F4783 , MSP430F4784 , MSP430F479 , MSP430F4793 , MSP430F4794 , MSP430F5131 , MSP430F5132 , MSP430F5151 , MSP430F5152 , MSP430F5171 , MSP430F5172 , MSP430F5304 , MSP430F5308 , MSP430F5309 , MSP430F5310 , MSP430F5324 , MSP430F5325 , MSP430F5326 , MSP430F5327 , MSP430F5328 , MSP430F5329 , MSP430F5333 , MSP430F5336 , MSP430F5338 , MSP430F5340 , MSP430F5341 , MSP430F5342 , MSP430F5418 , MSP430F5418A , MSP430F5419 , MSP430F5419A , MSP430F5435 , MSP430F5435A , MSP430F5436 , MSP430F5436A , MSP430F5437 , MSP430F5437A , MSP430F5438 , MSP430F5438A , MSP430F5500 , MSP430F5501 , MSP430F5502 , MSP430F5503 , MSP430F5504 , MSP430F5505 , MSP430F5506 , MSP430F5507 , MSP430F5508 , MSP430F5509 , MSP430F5510 , MSP430F5513 , MSP430F5514 , MSP430F5515 , MSP430F5517 , MSP430F5519 , MSP430F5521 , MSP430F5522 , MSP430F5524 , MSP430F5525 , MSP430F5526 , MSP430F5527 , MSP430F5528 , MSP430F5529 , MSP430F5630 , MSP430F5631 , MSP430F5632 , MSP430F5633 , MSP430F5634 , MSP430F5635 , MSP430F5636 , MSP430F5637 , MSP430F5638 , MSP430F6433 , MSP430F6435 , MSP430F6436 , MSP430F6438 , MSP430F6630 , MSP430F6631 , MSP430F6632 , MSP430F6633 , MSP430F6634 , MSP430F6635 , MSP430F6636 , MSP430F6637 , MSP430F6638 , MSP430FE423 , MSP430FE4232 , MSP430FE423A , MSP430FE4242 , MSP430FE425 , MSP430FE4252 , MSP430FE425A , MSP430FE427 , MSP430FE4272 , MSP430FE427A , MSP430FG4250 , MSP430FG4260 , MSP430FG4270 , MSP430FG437 , MSP430FG438 , MSP430FG439 , MSP430FG4616 , MSP430FG4617 , MSP430FG4618 , MSP430FG4619 , MSP430FG477 , MSP430FG478 , MSP430FG479 , MSP430FW423 , MSP430FW425 , MSP430FW427 , MSP430G2001 , MSP430G2101 , MSP430G2102 , MSP430G2111 , MSP430G2112 , MSP430G2121 , MSP430G2131 , MSP430G2132 , MSP430G2152 , MSP430G2201 , MSP430G2201-Q1 , MSP430G2211 , MSP430G2212 , MSP430G2221 , MSP430G2231 , MSP430G2231-Q1 , MSP430G2232 , MSP430G2252 , MSP430G2302 , MSP430G2312 , MSP430G2332 , MSP430G2352 , MSP430G2402 , MSP430G2432 , MSP430G2452 , MSP430L092

 

  1.   Understanding MSP430 Flash Data Retention
    1.     Trademarks
    2. 1 Introduction
    3. 2 MSP430 Flash Characteristics
      1. 2.1 Flash Programming
        1. 2.1.1 Programming Tips
      2. 2.2 Flash Failure Mechanism
      3. 2.3 Flash Data Retention
        1. 2.3.1 Accelerated Tests
          1. 2.3.1.1 Infant Mortality Test During Production
          2. 2.3.1.2 Flash Data Retention Tests During Qualification
          3. 2.3.1.3 Case 1: 420-Hour Baking Time at 170°C
          4. 2.3.1.4 Case 2: 500-Hours Baking Time at 250°C
        2. 2.3.2 Reliability Tests
          1. 2.3.2.1 Example 1
          2. 2.3.2.2 Example 2
    4. 3 Conclusion
  2.   Revision History

2.1.1 Programming Tips

This section gives a few external and internal tips that should be followed to minimize adverse effects during system design. Failure to adhere to any of these tips can result in unreliable flash write or erase and lead to unpredictable flash behavior.

Internal Considerations

Efficient programming of the MSP430 flash is governed by two major requirements: supply voltage (DVCC) and the flash timing generator clock (fFTG). For the MSP430F1xx and most of the MSP430F4xx family of devices, the supply voltage must be a minimum of 2.7 V. The minimum supply voltage is reduced to 2.2 V and 1.8 V for the MSP430F2xx family and MSP430F5xx families, respectively. Particularly in battery-powered applications, battery capacity must be sufficient to meet the minimum operating voltage and currents necessary for in-application program and erase. The fFTG for MSP430F1xx, MSP430F2xx, and MSP430F4xx devices must be in the range of 257 kHz ≤ fFTG ≤ 476 kHz, while it is generated internally on the MSP430F5xx devices. There is a practical limit on the number of flash erase and write cycles for every MSP430 MCU, which is in the range of 100000 cycles.

External Considerations

Use of a programming adapter that has been certified to meet the MSP430 flash programming specifications greatly reduces the risk of a flash failure. Regular inspection for wear out of the programming socket also ensures better performance over time. If in-circuit programming is done via JTAG or boot loader, the programming operation should be performed at the end of the manufacturing cycle. Mechanical and thermal process steps, such as encapsulation mold cure, should be completed before programming.

Verification is an important step if flash integrity must be checked. A checksum routine can be called on a regular basis for critical applications. In some of the MSP430F2xx, MSP430F4xx, and MSP430F5xx devices, the marginal read mode is implemented to facilitate a checksum routine. Checksum routine values with and without this feature are compared to find weak programming flash locations on the MCU. Different values can indicate a violation of one or more of the above mentioned programming considerations.