By Thomas Reed – Lead Automation Integrator

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Firmware upgrades are supposed to be routine.

On paper, updating the Honeywell 10012/1/2 CPU module looked straightforward: same hardware, minor revision bump, no functional changes promised.

In reality, it became a lesson in patience — or the lack of it.

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Why the Upgrade Was Attempted

The system was stable, but:

• A newer firmware revision was recommended

• Minor communication optimizations were advertised

• Maintenance window was available

No alarms.
No failures.

Just the temptation to “improve things.”

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The Upgrade Environment

• Online system, partially loaded

• Shared power source with other cabinets

• No dedicated UPS on the controller rack

• Flash rewrite performed in-place

Everything worked — until it didn’t.

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The Moment Things Went Wrong

Halfway through the firmware write:

• Power flickered briefly

• CPU remained powered, but voltage dipped

• Upgrade tool lost connection

The process did not fail cleanly.

It stopped.

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What Was Left Behind in Flash

The 10012/1/2 flash memory ended up with:

• Old bootloader

• Partially written firmware image

• Inconsistent configuration pointers

From the outside, the CPU powered up normally.

Inside, there was nothing coherent to run.

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Why Recovery Was Not Possible On-Site

• Bootloader validation failed

• Firmware image checksum mismatched

• CPU never reached a state where re-download was accepted

In effect, the controller became unreachable.

No amount of retries helped.

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What Finally Restored the System

• CPU module replacement

• Firmware written under controlled lab conditions

• Application restored from offline archive

Only then did the system start again.

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What Should Have Been Done Differently

• Perform firmware upgrades only with protected power

• Avoid online upgrades on aging hardware

• Treat flash write operations as high-risk events

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Long-Term Changes After This Incident

• Firmware upgrades moved to scheduled outages

• Mandatory UPS required for CPU racks

• Flash lifecycle tracked alongside firmware revisions

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What This Failure Taught Us

1. Flash corruption doesn’t always announce itself

2. Firmware upgrades are write-intensive operations

3. Stable systems don’t need unnecessary changes

4. Recovery paths disappear once flash integrity is lost

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Final Reflection

The Honeywell 10012/1/2 CPU flash memory didn’t fail randomly.

It failed during a moment we chose convenience over caution.

In control systems, “almost finished” is often the most dangerous state.

— Thomas Reed