I know not all are really interested in some very fine details of failure, but seems that if you’re going to dissect a failed part after ordering a new one already I want to mention this.
Seeing the part of your post where you write: “(but I do take a look at the soldering to ensure it hasn't been compromised from vibrations.)”
I know that vibrations on a cold (bad) solder joint make possible intermittent failures or even sold failures that are easier to diagnose, but one type of cold solder is one I never thought could happen.
I learned a while ago a soldered terminal post, just like on the old through hole circuit board component were mounted, can be insulated to a point that there is no connection if the rosin flux from the work make a complete sleeve around the post and the wire attached to it.
The connection looks good without a magnifying glass and is rigid and so gets by. If a manufacturer tests the part and it actually does conduct for a while when maybe in like a test fixture it would conduct, later it may be an intermittent that eventually goes to an open when in the final product.
I know from some Honda products that I got they are sold after a put into service in front of the customer. These kits I might think possibly that the motor as a whole is not tested, but rather as separate parts. It is not really quite the same thing to knowing what you get runs.
The other case where a non-connection (insulation) is needed to be, is where inside the windings the magnet wire insulation coating does not rub off between two adjacent wires causing a short.
I have seen a similar kind of failure where a manufacturer had mounted the old style through metal film resistor next to an adjacent one of the same. The problem was that the wattage rating of the resistor was not available so the parts they use where of a higher wattage rating just to get by temporarily.
This would have been OK, except that the space on the board had the two adjacent resistors rub the thin outer coating off and they shorted. Maybe if a coil magnet wire is wrapped to tight the same situation essentially happens.
MT
Seeing the part of your post where you write: “(but I do take a look at the soldering to ensure it hasn't been compromised from vibrations.)”
I know that vibrations on a cold (bad) solder joint make possible intermittent failures or even sold failures that are easier to diagnose, but one type of cold solder is one I never thought could happen.
I learned a while ago a soldered terminal post, just like on the old through hole circuit board component were mounted, can be insulated to a point that there is no connection if the rosin flux from the work make a complete sleeve around the post and the wire attached to it.
The connection looks good without a magnifying glass and is rigid and so gets by. If a manufacturer tests the part and it actually does conduct for a while when maybe in like a test fixture it would conduct, later it may be an intermittent that eventually goes to an open when in the final product.
I know from some Honda products that I got they are sold after a put into service in front of the customer. These kits I might think possibly that the motor as a whole is not tested, but rather as separate parts. It is not really quite the same thing to knowing what you get runs.
The other case where a non-connection (insulation) is needed to be, is where inside the windings the magnet wire insulation coating does not rub off between two adjacent wires causing a short.
I have seen a similar kind of failure where a manufacturer had mounted the old style through metal film resistor next to an adjacent one of the same. The problem was that the wattage rating of the resistor was not available so the parts they use where of a higher wattage rating just to get by temporarily.
This would have been OK, except that the space on the board had the two adjacent resistors rub the thin outer coating off and they shorted. Maybe if a coil magnet wire is wrapped to tight the same situation essentially happens.
MT
