Differences
This shows you the differences between two versions of the page.
Both sides previous revision Previous revision Next revision | Previous revision Last revision Both sides next revision | ||
techtalk:evo:elec02 [2023/04/28 05:14] ixl2relax [OVERVIEW: Charging System and Power Distribution] |
techtalk:evo:elec02 [2023/11/26 01:54] ixl2relax [Circuit Breakers & Fuses] |
||
---|---|---|---|
Line 206: | Line 206: | ||
* 10A - Battery Fuse - ATO-type (72340-94) - See Footnote for document conflicts ((Conflicting Battery Fuse Info - 2014-2017 Schematics show as 15A fuse, but Operation Manuals & Parts Manuals specify 10A - All documents for 2018-2022 show the Battery Fuse as 10A)) | * 10A - Battery Fuse - ATO-type (72340-94) - See Footnote for document conflicts ((Conflicting Battery Fuse Info - 2014-2017 Schematics show as 15A fuse, but Operation Manuals & Parts Manuals specify 10A - All documents for 2018-2022 show the Battery Fuse as 10A)) | ||
* 15A - P&A Fuse - ATO-type (72347-94) | * 15A - P&A Fuse - ATO-type (72347-94) | ||
+ | |||
+ | \\ | ||
+ | |||
+ | | \\ \\ \\ **CLICK ON ANY OF THESE IMAGES**\\ **TO VIEW A LARGER VERSION.** | {{:techtalk:evo:elec:fuses-1994-97-charging.jpg?400|}} | | ||
+ | | {{:techtalk:evo:elec:fuses-1998-2003-charging.jpg?400|}} | {{:techtalk:evo:elec:fuses-2004-06-charging.jpg?400|}} | | ||
+ | | {{:techtalk:evo:elec:fuses-2007-09.jpg?400|}} | {{:techtalk:evo:elec:fuses-2010-13.jpg?400|}} | | ||
\\ | \\ | ||
Line 280: | Line 286: | ||
*If replacing a non-diode relay (original design) with a diode-version, it would be worthwhile double-checking the polarity of the connection to the relay coil to be sure it is compatible with the diode orientation. Where a diode is used, the positive power should reverse bias the diode when normally activated - this allows the bleed off of EMF energy in the reverse direction when the power is removed. | *If replacing a non-diode relay (original design) with a diode-version, it would be worthwhile double-checking the polarity of the connection to the relay coil to be sure it is compatible with the diode orientation. Where a diode is used, the positive power should reverse bias the diode when normally activated - this allows the bleed off of EMF energy in the reverse direction when the power is removed. | ||
- | *In the diagrams above I have included the standard HD connections polarity, as identified in the HD manuals & wiring diagrams, to allow comparison of that wiring to any proposed alternative relay. It appears to me, that many of the relays that include a diode provide positive power on the (86) contact while HD has wired (1991-1993 & 2010-2013) some of their relays with positive power on the (85) contact. Beware: I have not checked every alternative relay listed in the Sportsterpedia for this issue. | + | *In the diagrams above I have included the standard HD connections polarity, as identified in the HD manuals & wiring diagrams, to allow comparison of that wiring to any proposed alternative relay. It appears to me, that many of the relays that include a diode provide positive power on the (86) contact while HD has wired some of their relays (1991-1993 & 2010-2013) with positive power on the (85) contact. Beware: I have not checked every alternative relay listed in the Sportsterpedia for this issue. |
</blockquote> | </blockquote> | ||
Line 296: | Line 302: | ||
A home remedy is to use vinegar, which is a mild acid. It can be diluted in equal parts vinegar & water. You can use a toothbrush to apply on fuse/relay sockets, contacts, etc. Once clean, wash with water & dry (compressed air for crevices). Stubborn corrosion may require applying a paste of baking soda (and water). Let it soak into the corrosion and dry. Then brush & flush with water & dry with compressed air. | A home remedy is to use vinegar, which is a mild acid. It can be diluted in equal parts vinegar & water. You can use a toothbrush to apply on fuse/relay sockets, contacts, etc. Once clean, wash with water & dry (compressed air for crevices). Stubborn corrosion may require applying a paste of baking soda (and water). Let it soak into the corrosion and dry. Then brush & flush with water & dry with compressed air. | ||
- | When the sockets or contacts are thoroughly clean & dry, apply a thin coating of dielectric grease ([[techtalk:ref:genmsr10#dielectric_grease|see here]]) to the contact surfaces, both the socket & the fuse/relay. The coating should be sufficient to protect the sufaces from air & moisture, but not oozing off onto other components. | + | When the sockets or contacts are thoroughly clean & dry, apply a thin coating of dielectric grease ([[techtalk:ref:genmsr17#dielectric_grease|see here]]) to the contact surfaces, both the socket & the fuse/relay. The coating should be sufficient to protect the sufaces from air & moisture, but not oozing off onto other components. |