Home
>
AEM
>
Infinity Plug & Play Engine Harnesses & Universal V8 Core Harnesses
>
AEM Universal V8 Core Harness 303809 User Manual
AEM Universal V8 Core Harness 303809 User Manual
Have a look at the manual AEM Universal V8 Core Harness 303809 User Manual online for free. It’s possible to download the document as PDF or print. UserManuals.tech offer 223 AEM manuals and user’s guides for free. Share the user manual or guide on Facebook, Twitter or Google+.
30-3 809
U niv e rs al V 8 H arn ess S yste m
U ser M an ual
AEM P erfo rm ance E le ctr o nic s
A EM P erfo rm ance E le ctr o nic s, 2 205 1 26th S tr e et U nit A , H aw th orn e, C A 9 0250
P hone: ( 3 10) 4 84-2 322 F a x: ( 3 10) 4 84-0 152
h ttp ://w ww.a em ele ctr o nic s.c om
I n str u ctio n P art N um ber: 1 0-3 809
D ocum ent B uild 8 /2 /2 016
I
n str u ctio n
M an ual
STO P!
T HIS P RO DUC T H AS L E G AL R ESTRIC TIO NS.
R EAD T HIS B EFO RE IN STALLIN G /U SIN G !
T H IS P R O DUCT M AY B E U SED S O LELY
O N V EH IC LES U SED IN S A NCTIO NED C O MPETIT IO N W HIC H M AY N EV ER B E U SED U PO N A
P U BLIC R O AD O R H IG HW AY, U NLES S P ER M IT TED B Y S PEC IF IC R EG ULA TO RY E X EM PTIO N. ( V IS IT T H E “ E M IS SIO NS” P A GE A T H TTP://
W WW.S EM ASA N.C O M/E M IS SIO NS
F O R S TA TE B Y S TA TE D ETA IL S .)
I T IS T H E R ES PO NSIB IL IT Y O F T H E IN STA LLER A ND/O R U SER O F T H IS P R O DUCT T O E N SURE T H A T IT IS U SED IN C O MPLIA NCE W IT H
A LL A PPLIC A BLE L A W S A ND R EG ULA TIO NS. IF T H IS P R O DUCT W AS P U RCHA SED IN E R RO R, D O N O T
IN STA LL A ND/O R U SE IT . T H E
P U RCHA SER M UST
A RRA NG E T O R ETU RN T H E P R O DUCT F O R A F U LL R EFU ND.
T H IS P O LIC Y O NLY A PPLIE S T O IN STA LLER S A ND/O R U SER S W HO A RE L O CA TED IN T H E U NIT ED S TA TES ; H O W EV ER C USTO MER S
W HO R ES ID E IN O TH ER C O UNTR IE S S HO ULD A CT IN A CCO RDA NCE W IT H T H EIR L O CA L L A W S A ND R EG ULA TIO NS.
W ARNIN G : T his in sta lla tio n is n ot fo r th e tu nin g n ovic e ! U se th is s y ste m w ith E X TR EM E c a utio n! T he A EM
I n fin ity P ro gra m mable E M S a llo w s fo r to ta l fle xib ility in e ngin e tu nin g. M is u se o r im pro per tu nin g o f th is
p ro duct c a n d estr o y y o ur e ngin e! If y o u a re n ot w ell v e rs e d in e ngin e d yn am ic s a nd th e tu nin g o f e ngin e
m anagem ent s y ste m s D O N O T a tte m pt th e in sta lla tio n. R efe r th e in sta lla tio n to a n A EM -tr a in ed tu nin g
s h op o r c a ll 8 00-4 23-0 046 fo r te ch nic a l a ssis ta nce .
N O TE: A ll s u pplie d A EM c a lib ra tio ns, W iz a rd s a nd o th er tu nin g in fo rm atio n a re o ffe re d a s p ote ntia l
s ta rtin g p oin ts o nly . IT IS T H E R ES PO NSIB IL IT Y O F T H E E N G IN E T U NER T O U LTIM ATELY C O NFIR M IF T H E
1 © 2 016 A EM P erfo rm ance E le ctr o nic s U niv e rs a l V 8 H arn ess S yste m U se r M anual In tr o ductio n S om e h arn ess u ser m anuals c onta in a ctiv e h yperlin ks th at p oin t to s pecific s ectio ns o r e ve n la unch a ddit io nal d ocum ents s uch a s w ir in g d ia gra m s. R ecom mend v ie w in g th is d ocum ent e le ctro nic ally to ta ke a dva nta ge o f a ll fe atu re s. S eve ra l u niv e rs al w ir in g h arn ess o ptio ns a re a va ila ble fo r In fin it y p ro ducts . T hey ra nge in c om ple xit y fr o m s im ple p lu g a nd p in k it s to c om ple te e ngin e h arn ess a ssem blie s th at in clu de p ow er d is trib utio n c ente rs . C usto m w ir in g h arn ess p ro je cts s hould o nly b e u nderta ken b y e xperie nced h arn ess b uild ers . If in d oubt, p le ase c onta ct A EM fo r re com mendatio ns. 3 0-3 805 U niv e rs a l V 8 h arn ess s y ste m fo r In fin ity S erie s 7 T he In fin it y U niv e rs al V 8 H arn ess s yste m c onsis ts o f a u niv e rs al c ore h arn ess a nd o ptio nal a pplic atio n s pecific e xte nsio ns. I t w as d esig ned w it h fle xib ilit y in m in d. T he h arn ess s yste m in clu des m any fe atu re s a nd it c an b e u sed in m any d iffe re nt a pplic atio ns. 3 0-3 809 U niv e rs a l V 8 h arn ess s y ste m fo r In fin ity S erie s 5 T he In fin it y U niv e rs al V 8 H arn ess s yste m c onsis ts o f a u niv e rs al c ore h arn ess a nd o ptio nal a pplic atio n s pecific e xte nsio ns. I t w as d esig ned w it h fle xib ilit y in m in d. It in clu des th ro ttle b ody a nd p edal in te rfa ces fo r D BW a pplic atio ns. T he h arn ess s yste m in clu des m any fe atu re s a nd it c an b e u sed in m any d iffe re nt a pplic atio ns. 3 0-3 705 U niv e rs a l M in i H arn ess fo r In fin ity S erie s 5 T his h arn ess is in te nded to b e u sed a s a s ta rtin g p oin t b y e xperie nced h arn ess b uild ers . It s ave s tim e b y in clu din g b asic p ow er d is trib utio n fe atu re s th at c an b e e xpanded to s uit m any a pplic atio n re quir e m ents . It a llo w s th e h arn ess b uild er to p opula te th e E CU c onnecto r w it h o nly th e fe atu re s n eeded b y th e a pplic atio n. 3 0-3 706 M in i F ly in g L ead H arn ess fo r In fin ity S erie s 5 T his h arn ess is in te nded to b e u sed a s a s ta rtin g p oin t b y e xperie nced h arn ess b uild ers . It s ave s tim e b y in clu din g fly in g l e ads th at c an b e te rm in ate d b y th e h arn ess b uild er a t th e s ensor a nd a ctu ato r c onnecto rs . 3 0-3 707 M in i F ly in g L ead H arn ess fo r In fin ity S erie s 3 T his h arn ess is in te nded to b e u sed a s a s ta rtin g p oin t b y e xperie nced h arn ess b uild ers . It s ave s tim e b y in clu din g fly in g l e ads th at c an b e te rm in ate d b y th e h arn ess b uild er a t th e s ensor a nd a ctu ato r c onnecto rs . 3 0-3 702 In fin ity S erie s 7 M in i-h arn ess T his h arn ess is in te nded to b e u sed a s a s ta rtin g p oin t b y e xperie nced h arn ess b uild ers . It s ave s tim e b y in clu din g b asic p ow er d is trib utio n fe atu re s th at c an b e e xpanded to s uit m any a pplic atio n re quir e m ents . It a llo w s th e h arn ess b uild er to p opula te th e E CU c onnecto r w it h o nly th e fe atu re s n eeded b y th e a pplic atio n. In clu des 1 00 9 6 p re -te rm in ate d le ads. 3 0-3 703 In fin ity S erie s 7 M in i-h arn ess T his h arn ess is in te nded to b e u sed a s a s ta rtin g p oin t b y e xperie nced h arn ess b uild ers . It s ave s tim e b y in clu din g b asic p ow er d is trib utio n fe atu re s th at c an b e e xpanded to s uit m any a pplic atio n re quir e m ents . It a llo w s th e h arn ess b uild er to p opula te th e E CU c onnecto r w it h o nly th e fe atu re s n eeded b y th e a pplic atio n. 3 0-3 701 In fin ity S erie s 7 P lu g & P in K it B are n ecessit ie s to b egin a c usto m w ir e h arn ess d esig n. In clu des 7 3 a nd 5 6 p in M ole x M X123 h arn ess c onnecto rs , t e rm in als a nd s ealin g p lu gs, m ain re la y a nd re la y s ocket. 3 0-3 704 In fin ity S erie s 5 P lu g & P in K it B are n ecessit ie s to b egin a c usto m w ir e h arn ess d esig n. In clu des 8 0 p in M ole x M X123 h arn ess c onnecto r, te rm in als a nd s ealin g p lu gs, m ain re la y a nd re la y s ocket. 3 0-3 708 In fin ity S erie s 3 P lu g & P in K it B are n ecessit ie s to b egin a c usto m w ir e h arn ess d esig n. In clu des 7 3 p in M ole x M X123 h arn ess c onnecto r, te rm in als a nd s ealin g p lu gs, m ain re la y a nd re la y s ocket. P le ase r e ad th e e n tir e U se r M an ual p rio r to b eg in nin g a n y in sta lla tio n.
In tr o ductio n 2 © 2 016 A EM P erfo rm ance E le ctr o nic s E xte nsio n h arn esses c om patib le w it h th e 3 805 a nd 3 809 V 8 h arn ess s yste m a re a va ila ble . 3 0-3 805-0 0 G M In je cto r A dapte r H arn ess A dapte r h arn ess th at m ate s E V1 s ty le in je cto rs in s ta ndard G M c ylin der o rd er (o dd c ylin ders o n o ne b ank, e ve n c ylin ders o n o th er) to C ore H arn esses. 3 0-3 805-0 1 F ord In je cto r A dapte r H arn ess A dapte r h arn ess th at m ate s E V1 s ty le in je cto rs in s ta ndard F ord c ylin der o rd er (c ylin ders 1 -4 o n o ne b ank, c ylin ders 5 -8 o n o th er) to C ore H arn esses. 3 0-3 805-0 2 S in gle C hannel Ig nitio n A dapte r H arn ess A dapte r h arn ess th at m ate s A EM S in gle C hannel C oil D riv e r (3 0-2 841) to 3 0-3 805 C ore H arn ess. C oil d riv e r ta kes 5 v fa llin g e dge ig nit io n trig ger s ig nal fr o m In fin it y a nd o utp uts a 1 2v ris in g e dge s ig nal. 1 2v ris in g e dge s ig nal c an e it h er b e u sed to t rig ger a n in ductiv e c oil d ir e ctly o r trig ger a s in gle c hannel C DI b ox (M SD 6 A , e tc ). 3 0-3 805-0 3 V R C ra nk & V R C am A dapte r H arn ess A dapte r h arn ess th at m ate s v a ria ble re lu cta nce (V R) c ra nk a nd c am s ensors to C ore H arn esses. L egs to e ach s ensor a re 4 8” lo ng. 3 0-3 805-0 4 V R C ra nk & H all C am A dapte r H arn ess A dapte r h arn ess th at m ate s v a ria ble re lu cta nce (V R) c ra nk s ensor a nd H all E ffe ct c am s ensor to C ore H arn esses. L egs to e ach s ensor a re 4 8” lo ng. 3 0-3 805-0 5 H all C ra nk & V R C am A dapte r H arn ess A dapte r h arn ess th at m ate s H all E ffe ct c ra nk s ensor a nd v a ria ble re lu cta nce (V R) c am s ensor to C ore H arn esses. L egs to e ach s ensor a re 4 8” lo ng. 3 0-3 805-0 6 H all C ra nk & H all C am A dapte r H arn ess A dapte r h arn ess th at m ate s H all E ffe ct c ra nk a nd c am s ensors to C ore H arn esses. L egs to e ach s ensor a re 4 8” lo ng. 3 0-3 805-0 7 G M S te pper Id le C ontr o l A dapte r H arn ess A dapte r h arn ess th at m ate s G M s te pper id le c ontro l v a lv e to C ore H arn esses. IA C c onnecto r is fla t a nd m eant fo r u se w it h l a te r m odel s ty le c ontro l v a lv e s. 3 0-3 805-0 8 U niv e rs a l P W M Id le C ontr o l A dapte r H arn ess (F or u se w ith 3 0-3 805 o nly . N ot c o m patib le w ith 3 0-3 809 C ore H arn ess) F ly in g le ad to m ate u niv e rs al P W M id le c ontro l v a lv e to 3 805 c ore h arn esses. C onnecto r to c onnect to c ontro l v a lv e m ust b e p ro vid ed b y e nd u ser. 3 0-3 805-0 9 G M C oil A dapte r H arn ess - A EM H ig h O utp ut IG BT S m art C oils A dapte r h arn ess th at m ate s A EM H ig h O utp ut IG BT S m art C oils (A EM p /n 3 0-2 853) in s ta ndard G M c ylin der o rd er (o dd c ylin ders o n o ne b ank, e ve n c ylin ders o n o th er) to C ore H arn esses. 3 0-3 805-1 0 G M In je cto r A dapte r - E V 6 A dapte r h arn ess th at m ate s E V6 s ty le in je cto rs in s ta ndard G M c ylin der o rd er (o dd c ylin ders o n o ne b ank, e ve n c ylin ders o n o th er) to C ore H arn esses. 3 0-3 805-1 1 F ord In je cto r A dapte r - E V 6 A dapte r h arn ess th at m ate s E V6 s ty le in je cto rs in s ta ndard F ord c ylin der o rd er (c ylin ders 1 -4 o n o ne b ank, c ylin ders 5 -8 o n o th er) to C ore H arn esses. 3 0-3 805-1 2 G M C oil A dapte r H arn ess - G M L S S ty le C oils A dapte r h arn ess th at m ate s G M L S S ty le C oils in s ta ndard G M c ylin der o rd er (o dd c ylin ders o n o ne b ank, e ve n c ylin ders o n o th er) to C ore H arn esses. 3 0-3 805-1 4 C ra nk/C am S ig nal A dapte r H arn ess - A EM E ngin e P ositio n M odule (E P M ), 1 5 A dapte r h arn ess th at m ate s A EM E PM to C ore H arn esses fo r c ra nk/c am tim in g s ensor in puts . 1 5 lo ng fo r re ar m ounte d
3 © 2 016 A EM P erfo rm ance E le ctr o nic s U niv e rs a l V 8 H arn ess S yste m U se r M anual d is trib uto r. 3 0-3 805-1 5 C ra nk/C am S ig nal A dapte r H arn ess - F A ST D ual S yn c D is tr ib uto r, 1 5 A dapte r h arn ess th at m ate s F A ST D ual S ync D is trib uto r to C ore H arn esses fo r c ra nk/c am tim in g s ensor in puts . 1 5 lo ng fo r r e ar m ounte d d is trib uto r. 3 0-3 805-1 6 C ra nk/C am S ig nal A dapte r H arn ess - M SD D ual S yn c D is tr ib uto r, 1 5 A dapte r h arn ess th at m ate s M SD D ual S ync D is trib uto r to C ore H arn esses fo r c ra nk/c am tim in g s ensor in puts . 1 5 lo ng fo r r e ar m ounte d d is trib uto r. 3 0-3 805-1 7 F ord C oil A dapte r H arn ess - A EM H ig h O utp ut IG BT S m art C oils A dapte r h arn ess th at m ate s A EM H ig h O utp ut IG BT S m art C oils (A EM p /n 3 0-2 853) in s ta ndard F ord c ylin der o rd er ( c ylin ders 1 -4 o n o ne b ank, c ylin ders 5 -8 o n o th er) to C ore H arn esses. 3 0-3 805-1 8 F ord C oil A dapte r H arn ess - G M L S S ty le C oils A dapte r h arn ess th at m ate s G M L S S ty le C oils in s ta ndard F ord c ylin der o rd er (c ylin ders 1 -4 o n o ne b ank, c ylin ders 5 -8 o n o th er) to C ore H arn esses. 3 0-3 805-1 9 C ra nk/C am S ig nal A dapte r H arn ess - A EM E ngin e P ositio n M odule (E P M ), 3 5 A dapte r h arn ess th at m ate s A EM E PM to C ore H arn esses fo r c ra nk/c am tim in g s ensor in puts . 3 5 lo ng fo r fr o nt m ounte d d is trib uto r. 3 0-3 805-2 0 C ra nk/C am S ig nal A dapte r H arn ess - F A ST D ual S yn c D is tr ib uto r, 3 5 A dapte r h arn ess th at m ate s F A ST D ual S ync D is trib uto r to C ore H arn esses fo r c ra nk/c am tim in g s ensor in puts . 3 5 lo ng fo r f r o nt m ounte d d is trib uto r. 3 0-3 805-2 1 C ra nk/C am S ig nal A dapte r H arn ess - M SD D ual S yn c D is tr ib uto r, 3 5 A dapte r h arn ess th at m ate s M SD D ual S ync D is trib uto r to C ore H arn esses fo r c ra nk/c am tim in g s ensor in puts . 3 5 lo ng fo r f r o nt m ounte d d is trib uto r. 3 0-3 809-0 1 G M T hro ttle B ody A dapte r (F or u se w ith 3 0-3 809 o nly . N ot c o m patib le w ith 3 0-3 805 C ore H arn ess) F or D BW u se o nly . A dapte r h arn ess th at m ate s G M D BW th ro ttle b ody P Ns 1 2570790, 1 2580760 (o r e quiv a le nt) to 3 809 c ore h arn ess. 3 0-3 809-0 0 G M P edal A dapte r (F or u se w ith 3 0-3 809 o nly . N ot c o m patib le w ith 3 0-3 805 C ore H arn ess) F or D BW u se o nly . A dapte r h arn ess th at m ate s G M D BW P edal P N 1 0379038 (o r e quiv a le nt) to 3 809 c ore h arn ess. 3 0-3 600 O 2 S enso r E xte nsio n H arn ess E xte nsio n h arn ess to c onnect A EM U EG O W id eband O 2 s ensor to 6 p in D euts ch D TM in In fin it y M in i H arn esses (3 0- 3 702/3 703) a nd V 8 c ore h arn esses 3 0-3 805 a nd 3 0-3 809. 3 0-3 601 IP 67 C om ms C able U SB M in i- B c om ms c able ; 3 9” lo ng w it h rig ht a ngle d c onnecto r a nd b ayonet s ty le lo ck. 3 0-3 602 IP 67 L oggin g C able U SB A -to -A e xte nsio n c able : 3 9” lo ng w it h rig ht a ngle d c onnecto r a nd b ayonet s ty le lo ck. Kit C onte n ts · Univ e rs al V 8 C ore H arn ess · User In stru ctio ns · DTM 8 W ay R ecepta cle A ssem bly w it h 8 c onta cts · 2x D TM 8 W ay P lu g A ssem blie s w it h 8 c onta cts e ach
Kit C onte nts 4 © 2 016 A EM P erfo rm ance E le ctr o nic s EC U C onnecto rs T he In fin it y E CUs u se th e M X123 S eale d C onnectio n S yste m fr o m M ole x. A EM s tro ngly re com mends th at u sers b ecom e f a m ilia r w it h th e p ro per to ols a nd p ro cedure s b efo re a tte m ptin g a ny m odific atio ns o r a ddit io ns to th ese c onnecto r h ousin gs. T he e ntir e M ole x u ser m anual c an b e d ow nlo aded d ir e ct fr o m M ole x a t h ttp ://w ww.m ole x.c om /m x_uplo ad/fa m ily // M X123U serM anual. p df Splic e S avers S om e h arn ess a ssem blie s in clu de c onnecto r h ousin gs c alle d s plic e s ave rs . T hese a re u sed to d is trib ute p ow er a nd g ro und c ir c uit s th ro ughout th e h arn ess w it h out re quir in g u nre lia ble c rim p s plic es w it h in th e h arn ess. T here a re n o e xte rn al in te rfa ces r e quir e d a t th ese c onnecto rs . E xam ple s how n b elo w .
5 © 2 016 A EM P erfo rm ance E le ctr o nic s U niv e rs a l V 8 H arn ess S yste m U se r M anual Pow er D is tr ib utio n C en te r I n clu ded in th e h arn ess is a P ow er D is trib utio n C ente r (P DC), p re -p opula te d w it h th e re quir e d re la ys a nd fu ses fo r c orre ct o pera tio n o f a ccessory lo ads. T he P DC c om es w it h a b undle o f fly in g le ads th at n eed to b e p ro perly w ir e d a s p art o f th e i n sta lla tio n. F ly in g le ads in clu de s w it c hed ig nit io n, a n o ptio nal fu sed + 12V re la y p ow er o utp ut fo r a uxilia ry lo ads, a nd o ptio nal f u sed + 12V re la y o utp uts fo r a F uel P um p a nd C oola nt F an.
Pow er D is tr ib utio n C ente r 6 © 2 016 A EM P erfo rm ance E le ctr o nic s Harn ess L ayo ut I f v ie w in g th is m anual e le ctro nic ally , a n e m bedded d ocum ent c onta in in g th e a bove la yout c an b e fo und H ERE
7 © 2 016 A EM P erfo rm ance E le ctr o nic s U niv e rs a l V 8 H arn ess S yste m U se r M anual Harn ess S ch em atic A s chem atic fo r th e u niv e rs al c ore h arn ess is in clu ded H ERE Harn ess P in out C1 In fin it y C onnecto r C 1 80 W ay F R ecepta cle 0 .6 4 2 .8 S erie s S eale d ( B L) P in Wir e C olo r Gau ge Destin atio n 1 2 3 C 1-0 1 C 1-0 2 GRN 20 C7-1 Low sid eS w it c h_5 C 1-0 3 RED /B LK 20 C5-1 1 In je cto r 7 /L ow sid eS w it c h_6 C 1-0 4 DK B LU /W HT 20 C5-1 2 In je cto r 8 /L ow sid eS w it c h_7 C 1-0 5 WHT 18 C11-4 UEG O1_H eat C 1-0 6 GRN 20 C11-2 UEG O1_IA C 1-0 7 RED 20 C11-6 UEG O1_IP C 1-0 8 BLK 20 C11-1 UEG O1_U N C 1-0 9 ORG 20 C11-5 UEG O1_V M C 1-1 0 RED 20 P1-8 +12V _R 8C _C PU
Harn ess P in out 8 © 2 016 A EM P erfo rm ance E le ctr o nic s C 1-1 1 DK G RN/W HT 20 C4-4 Coil4 C 1-1 2 LT B LU 20 C4-3 Coil3 C 1-1 3 RED /W HT 20 C4-2 Coil2 C 1-1 4 VIO 20 C4-1 Coil1 C 1-1 5 LT B LU /W HT 20 C4-1 0 Coil6 C 1-1 6 DK G RN 20 C4-9 Coil5 C 1-1 7 BLK 22 C9-7 Cra nk V R+ C 1-1 8 RED 22 C9-8 Cra nk V R- C 1-1 9 WHT 22 C9-9 Cam 1 V R- C 1-2 0 GRN 22 C9-1 0 Cam 1 V R+ C 1-2 1 VIO 20 P1-3 7 Low sid eS w it c h_2 C 1-2 2 VIO /B LK 20 C7-3 Low sid eS w it c h_3 C 1-2 3 BLK /W HT 20 C15-A AGND_1 C 1-2 4 BLK 20 C9-2 AGND_1 C 1-2 5 WHT 20 C9-1 Cra nk_ H all C 1-2 6 GRN 20 C9-3 Cam 1_H all C 1-2 7 C 1-2 8 C 1-2 9 DK B LU /R ED 20 C7-2 Dig it a l_ In _4 C 1-3 0 BLK /R ED 20 C7-8 Dig it a l_ In _5 C 1-3 1 TA N 20 C4-1 1 CO IL 7/D ig it a l_ In _6 C 1-3 2 VIO /W HT 20 C4-1 2 CO IL 8/D ig it a l_ In _7 C 1-3 3 BLK 20 C13-K PG ND C 1-3 4 GRN 20 C3-2 CanL_A out C 1-3 5 WHT 20 C3-1 CanH _A out C 1-3 6 C 1-3 7 C 1-3 8 YEL 20 F6 Analo g_In _Tem p_1 C 1-3 9 TA N 20 F5 Analo g_In _Tem p_2 C 1-4 0 C 1-4 1 VIO /W HT 20 P1-1 3 Low sid eS w it c h_0 C 1-4 2 WHT/R ED 20 C7-4 Low sid eS w it c h_1 C 1-4 3 BLK 20 C13-K PG ND C 1-4 4 C 1-4 5 C 1-4 6 BLK 20 C13-L PG ND C 1-4 7 YEL/W HT 20 P1-1 +12V _R ela y_C ntr l C 1-4 8 PN K/W HT 20 P1-2 7 +12V _S W C 1-4 9 ORG 20 C9-5 +5V _O ut_ 1
9 © 2 016 A EM P erfo rm ance E le ctr o nic s U niv e rs a l V 8 H arn ess S yste m U se r M anual C 1-5 0 GRY 20 C16-A +5V _O ut_ 1 C 1-5 1 DK B LU 20 C17-1 Analo g_In _7 C 1-5 2 LT G RN 20 F1 Analo g_In _8 C 1-5 3 GRN/B LU 20 F3 Analo g_In _9 C 1-5 4 BLK 22 C6-5 VR+_In _2 C 1-5 5 WHT 22 C6-4 VR-_ In _2 C 1-5 6 BLK 22 C6-2 VR-_ In _3 C 1-5 7 WHT 22 C6-1 VR+_In _3 C 1-5 8 C 1-5 9 LT B LU /B LK 20 C10-4 Ste pper_ 1B C 1-6 0 LT G RN/B LK 20 C10-3 Ste pper_ 2B C 1-6 1 BRN 20 C17-6 DBW 1 M oto r - ( + 12V to c lo se) C 1-6 2 YEL 20 C17-7 DBW 1 M oto r + ( + 12V to o pen) C 1-6 3 RED 20 C2-L +12V C 1-6 4 YEL/B LK 20 C5-1 0 In je cto r 6 C 1-6 5 BLU /R ED 20 C5-9 In je cto r 5 C 1-6 6 LT B LU /B LK 20 C5-4 In je cto r 4 C 1-6 7 BLK 20 C13-L PG ND C 1-6 8 RED 20 C2-G +12V C 1-6 9 RED /B LK 20 C8-5 Analo g_In _19 C 1-7 0 DK B LU /R ED 20 C8-3 Analo g_In _18 C 1-7 1 RED /G RN 20 C7-6 Analo g_In _16 C 1-7 2 RED 20 C12-2 Fla sh_Enable C 1-7 3 GRN 20 F4 Analo g_In _13 C 1-7 4 BRN/O RG 20 C7-5 Analo g_In _11 C 1-7 5 BLU /B RN 20 C7-7 Analo g_In _10 C 1-7 6 PN K/B LK 20 C5-3 In je cto r 3 C 1-7 7 LT G RN/B LK 20 C5-2 In je cto r 2 C 1-7 8 BLU 20 C5-1 In je cto r 1 C 1-7 9 LT G RN/W HT 20 C10-1 Ste pper_ 2A C 1-8 0 LT B LU /W HT 20 C10-2 Ste pper_ 1A C2 280 M ETR I- P A CK 1 2F P in Wir e C olo r Gau ge Destin atio n Splic e S aver - N o C onnectio n 1 2 3 A RED 12 P1-2 B RED 20 P1-2 2 C RED 20 P1-3 4 D RED 20 P1-4 6