Upgrading R/R on 99 CBR F4
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Upgrading R/R on 99 CBR F4
Well guys, I toasted my last regulator and have been wanting to upgrade my regulator/rectifier for a while once I learned about the new style with the MOSFET chipset. I got mine in today and will be installing it tomorrow on the following day. I'll let you guys know the results. I got the FH012AA one.
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I added a 14gauge wire to ground, ie just crimped and soldered it on with the current ground wire, since the stock was kind of small.
My F2 also had a connector between the stator and rectifier, that had burned out. The stock wiring from the connector to the rectifier was smaller and had cheaper insulation than everything else so I also replace that wire.
fyi The best method of splicing wires is to solder and heat shrink them....
My F2 also had a connector between the stator and rectifier, that had burned out. The stock wiring from the connector to the rectifier was smaller and had cheaper insulation than everything else so I also replace that wire.
fyi The best method of splicing wires is to solder and heat shrink them....
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Join Date: Nov 2009
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Is the FH012AA supposed to be better than the revised Honda 31600-MV4-010 one?
I still have the original "SH633-12" one on mine.. and although it doesnt stall it does stumble at times under load at idle...
I am planning on buyin the revised Honda one in the next few weeks.. but what is the story with the FH012AA?
More info, please!
I still have the original "SH633-12" one on mine.. and although it doesnt stall it does stumble at times under load at idle...
I am planning on buyin the revised Honda one in the next few weeks.. but what is the story with the FH012AA?
More info, please!
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The FH012AA uses a MOSFET chipset which is WAY more efficient at converting power from A/C to DC than the stock honda ones back in the day. The old honda ones lose some of the power off in heat which in turn means they don't put out as good of voltage.
"Pasted from another forum - better description"
The SCR shunt type consumes more energy in the Regulator itself than the bike is using and dumps a ton of current into the heatsink (feel yours & just see how hot those things run!!!! - don't touch it - you'll burn yourself - seriously!) The problem is exacerbated because their efficiency goes even lower when they get HOT so it's a vicious circle. Heat is the number 1 killer of these devices.
Incidentally its a misconception that shunt type work harder with increased load i.e. higher-wattage lights, heated vests etc - actually, the higher the load on the output, the less work the shunt regulator does in dumping that excess energy and will actually run cooler!!
The FET has extremely low resistance in conducting state and this results in a lower dissipated power from the device while conducting load current, as opposed to the SCR which shunts the maximum current across a significant volt drop, resulting in a higher dissipated power - and resulting temperature, much more so than the FET device.
Noticed a BIG difference just by switching mine.
Link to other forum:
Charging System Diagnostics - Rectifier/Regulator Upgrade - Triumph Forum: Triumph Rat Motorcycle Forums
"Pasted from another forum - better description"
The SCR shunt type consumes more energy in the Regulator itself than the bike is using and dumps a ton of current into the heatsink (feel yours & just see how hot those things run!!!! - don't touch it - you'll burn yourself - seriously!) The problem is exacerbated because their efficiency goes even lower when they get HOT so it's a vicious circle. Heat is the number 1 killer of these devices.
Incidentally its a misconception that shunt type work harder with increased load i.e. higher-wattage lights, heated vests etc - actually, the higher the load on the output, the less work the shunt regulator does in dumping that excess energy and will actually run cooler!!
The FET has extremely low resistance in conducting state and this results in a lower dissipated power from the device while conducting load current, as opposed to the SCR which shunts the maximum current across a significant volt drop, resulting in a higher dissipated power - and resulting temperature, much more so than the FET device.
Noticed a BIG difference just by switching mine.
Link to other forum:
Charging System Diagnostics - Rectifier/Regulator Upgrade - Triumph Forum: Triumph Rat Motorcycle Forums