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AEM Universal V8 Core Harness 303809 User Manual
AEM Universal V8 Core Harness 303809 User Manual
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Harn ess In sta lla tio n T ip s 2 0 © 2 016 A EM P erfo rm ance E le ctr o nic s ·Ensure th at w hen in sta llin g a ny a ddit io nal + 12v c om ponents , a ll p ow er (+ 12v) le ads s hould b e fu sed w it h a n a ppro pria te ly s iz ed fu se. E nsure th at th e fu se s ele cte d d oes n ot e xceed th e c urre nt c arry in g c apacit y o f th e w ir e u sed to c ontro l th e c om ponent. · Rela ys s hould b e s ele cte d s o th at th ey a re c apable o f c arry in g th e lo ad o f th e c ontro lle d d evic e. E nsure th at th e r e la y h as e nough c urre nt c arry in g c apacit y a nd th at th e fu se in th e c ir c uit d oes n ot e xceed th e ra tin g o f re la y. F ailu re to a ddre ss th is w ill re sult in th e re la y b ecom in g th e fu se, ra th er th an th e fu se in th e c ir c uit . D ete rm in in g E C U L oca tio n · It is re com mended th at th e E CU b e p la ced in a n e nvir o nm ent th at d oes n ot e xpose it to te m pera tu re s a bove 8 5° C els iu s (1 60F ). · In c ases w here th e In fin it y is to b e u sed in p la ce o f th e s to ck E CU, th e lo catio n th at th e s to ck E CU o ccupie d is s uit a ble . · On a pplic atio ns w here th e E CU is to b e lo cate d in a d iffe re nt p osit io n th an s to ck, th e in te rio r o f th e v e hic le is b est. · The In fin it y s hould b e lo cate d in a p la ce th at re duces th e le ngth o f e xte nsio n w ir e s fr o m th e P DC w hile m ain ta in in g a n e nvir o nm enta lly s ound lo catio n. · The E CU lo catio n m ust p erm it th e P DC to b e m ounte d in a s erv ic eable lo catio n. P ow er D is tr ib utio n C ente r P DCs in clu ded in th e h arn ess a ssem blie s g enera lly in clu de a ll re la ys a nd fu ses n ecessary fo r p ro per fu nctio n a nd s hould b e m ounte d in a lo catio n w hic h p erm it s s erv ic eabilit y . Id eally th e P DC s hould b e lo cate d in th e p assenger c om partm ent, o r if n ecessary w it h in th e e ngin e c om partm ent a s fa r a w ay fr o m h eat s ourc es a s c an b e a chie ve d. S om e P DCs c onta in fly in g l e ad b undle s w hic h m ust b e w ir e d to th e b atte ry , fu el p um p a nd ra dia to r fa n(s ), s w it c hed ig nit io n a nd p ossib ly o th er i n te rfa ces. R outin g o f th is fly in g le ad b undle s hould a ls o b e ta ken in to a ccount w hen d ete rm in in g th e m ountin g lo catio n o f th e P DC. T he d ia gra m b elo w s how s d eta ils fo r c uttin g a h ole to a ccom modate th e fir e w all g ro m met.
21 © 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 B atte ry P ow er a nd G ro und T he m ain p ow er a nd g ro und fe eds (R 1-R 4) a re d esig ned w it h a lo ng b ra nch le ngth th at c an b e u sed to ro ute to a tru nk m ounte d b atte ry . T hey in clu de a h eavy d uty , s erra te d rin g te rm in al a nd s hould o nly b e m odifie d if a bsolu te ly n ecessary . P ow er F ly in g L eads A b undle o f fly in g le ad w ir e s is in clu ded fo r p ow er in put a nd o utp ut fu nctio ns. T hey a re d escrib ed b elo w . Wir e Desc rip tio n P NK/W HT Ig nit io n S wit c h - + 12V p ow er in c ra nk a nd ru n p osit io ns o nly . R ecom mend th at n o o th er lo ads o r d evic es b e c onnecte d to th is w ir e R ED/B LU Rela y c ontro lle d fu sed fa n p ow er. C onnect to fa n m oto r + R ED/G RN Rela y c ontro lle d fu sed fu el p um p p ow er. C onnect to fu el p um p m oto r + R ED Rela y c ontro lle d fu sed a uxilia ry p ow er. C onnect to o ptio nal re la y p rim ary c oil + A nalo g In put F ly in g L eads A b undle o f fly in g le ad w ir e s is in clu ded fo r c erta in re quir e d a nd o ptio nal a nalo g in puts . S ee th is s ectio n a nd c onnecto rs F 1- F 5 fo r p in out in fo rm atio n. C -1 7 T hro ttle B ody C onnecto r fo r N on D BW a pplic a tio ns T his in te rfa ce c onnecto r c an b e u sed fo r b oth D BW a nd N on-D BW th ro ttle b odie s. S ee th is s ectio n fo r m ore d eta il. If th is h arn ess is to b e u sed o n a N on-D BW a pplic atio n, u se th e fo llo w in g ta ble to b uild a n e xte nsio n to a ty pic al 3 -w ir e th ro ttle
Harn ess In sta lla tio n T ip s 2 2 © 2 016 A EM P erfo rm ance E le ctr o nic s p osit io n s ensor. A n 8 p osit io n D TM m atin g p lu g is in clu ded in th e k it . Pin Wir e Desc rip tio n 1 DK B LU Connect to T hro ttle P osit io n S ensor (T P S) s ig nal 2 GRY Connect to T hro ttle P osit io n S ensor (T P S) 5 V re fe re nce 3 BLK /W HT Connect to T hro ttle P osit io n S ensor (T P S) a nalo g g ro und 4 5 BRN DBW a pplic atio ns o nly 6 YEL DBW a pplic atio ns o nly 7 8 In fin it y S erie s 5 E C U P in out In fin ity P in Hard w are R ef. Hard w are S pecific a tio n Note s C1-1 Low sid e 4 Low sid e s w it c h, 1 .7 A m ax, N O i n te rn al fly back d io de. 1 2V p ullu p See S etu p W iz ard P age O utp ut F unctio n A ssig nm ent fo r s etu p o ptio ns. C1-2 Low sid e 5 Low sid e s w it c h, 6 A m ax w it h i n te rn al fly back d io de. In ductiv e l o ad s hould N O T h ave fu ll tim e p ow er. 1 2V p ullu p See S etu p W iz ard P age O utp ut F unctio n A ssig nm ent fo r s etu p o ptio ns. C1-3 * Low sid e 6 (* In fin it y - 5 06 O nly ) Low sid e s w it c h, 6 A m ax w it h i n te rn al fly back d io de. In ductiv e l o ad s hould N O T h ave fu ll tim e p ow er. N o p ullu p See S etu p W iz ard P age O utp ut F unctio n A ssig nm ent fo r s etu p o ptio ns. C1-3 ** In je cto r 7 ( * *In fin it y -5 08 O nly ) For u se w it h h ig h im pedance ( 1 0-1 5 o hm s) in je cto rs o nly , 1 .7 A m ax. Ava ila ble o n P /N 3 0-7 108 o nly C1-4 * Low sid e 7 ( * In fin it y -5 06 O nly ) Low sid e s w it c h, 6 A m ax, N O i n te rn al fly back d io de. N o p ullu p See S etu p W iz ard P age O utp ut F unctio n A ssig nm ent fo r s etu p o ptio ns. C1-4 ** In je cto r 8 ( * *In fin it y -5 08 O nly ) For u se w it h h ig h im pedance ( 1 0-1 5 o hm s) in je cto rs o nly , 1 .7 A m ax. Ava ila ble o n P /N 3 0-7 108 o nly C1-5 UEG O 1 H eat Bosch U EG O c ontro lle r Low sid e s w it c h fo r U EG O h eate r c ontro l. C onnect to p in 4 o f B osch U EG O s ensor. N O TE th at p in 3 o f th e S ensor is h eate r (+ ) a nd m ust b e p ow er b y a fu sed/s w it c hed 1 2V s upply . C1-6 UEG O 1 IA Trim C urre nt s ig nal. C onnect to p in 2
23 © 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 fin ity P in Hard w are R ef. Hard w are S pecific a tio n Note s of B osch U EG O s ensor C1-7 UEG O 1 IP Pum pin g C urre nt s ig nal. C onnect to p in 6 o f B osch U EG O s ensor C1-8 UEG O 1 U N Nern st V olt a ge s ig nal. C onnect to p in 1 o f B osch U EG O s ensor C1-9 UEG O 1 V M Vir tu al G ro und s ig nal. C onnect to p in 5 o f B osch U EG O s ensor. C1-1 0 Batte ry P erm P ow er Dedic ate d p ow er m anagem ent C PU Full tim e b atte ry p ow er. M UST b e p ow ere d b efo re th e ig nit io n s w it c h in put i s trig gere d (S ee C 1-4 8). C1-1 1 Coil 4 25 m A m ax s ourc e c urre nt 0-5 V F allin g e dge fir e . D O N O T c onnect d ir e ctly to c oil p rim ary . M ust u se a n ig nit o r O R C DI th at a ccepts a F A LLIN G e dge fir e s ig nal. C1-1 2 Coil 3 25 m A m ax s ourc e c urre nt 0-5 V F allin g e dge fir e . D O N O T c onnect d ir e ctly to c oil p rim ary . M ust u se a n ig nit o r O R C DI th at a ccepts a F A LLIN G e dge fir e s ig nal. C1-1 3 Coil 2 25 m A m ax s ourc e c urre nt 0-5 V F allin g e dge fir e . D O N O T c onnect d ir e ctly to c oil p rim ary . M ust u se a n ig nit o r O R C DI th at a ccepts a F A LLIN G e dge fir e s ig nal. C1-1 4 Coil 1 25 m A m ax s ourc e c urre nt 0-5 V F allin g e dge fir e . D O N O T c onnect d ir e ctly to c oil p rim ary . M ust u se a n ig nit o r O R C DI th at a ccepts a F A LLIN G e dge fir e s ig nal. C1-1 5 Coil 6 25 m A m ax s ourc e c urre nt 0-5 V F allin g e dge fir e . D O N O T c onnect d ir e ctly to c oil p rim ary . M ust u se a n ig nit o r O R C DI th at a ccepts a F A LLIN G e dge fir e s ig nal. C1-1 6 Coil 5 25 m A m ax s ourc e c urre nt 0-5 V F allin g e dge fir e . D O N O T c onnect d ir e ctly to c oil p rim ary . M ust u se a n ig nit o r O R C DI th at a ccepts a F A LLIN G e dge fir e s ig nal. C1-1 7 Cra nkshaft P osit io n S ensor V R+ Diffe re ntia l V aria ble R elu cta nce Z ero C ro ss D ete ctio n See S etu p W iz ard p age C am /C ra nk fo r o ptio ns. C1-1 8 Cra nkshaft P osit io n S ensor V R- See S etu p W iz ard p age C am /C ra nk fo r o ptio ns. C1-1 9 Cam shaft P osit io n S ensor 1 V R- Diffe re ntia l V aria ble R elu cta nce Z ero C ro ss D ete ctio n See S etu p W iz ard p age C am /C ra nk fo r o ptio ns. C1-2 0 Cam shaft P osit io n S ensor 1 V R+ See S etu p W iz ard p age C am /C ra nk fo r o ptio ns. C1-2 1 Low sid e 2 Low sid e s w it c h, 1 .7 A m ax, N O See S etu p W iz ard P age O utp ut
In fin ity S erie s 5 E C U P in out 2 4 © 2 016 A EM P erfo rm ance E le ctr o nic s In fin ity P in Hard w are R ef. Hard w are S pecific a tio n Note s in te rn al fly back d io de. N o p ullu p Functio n A ssig nm ent fo r s etu p o ptio ns. C1-2 2 Low sid e 3 Low sid e s w it c h, 6 A m ax w it h i n te rn al fly back d io de. In ductiv e l o ad s hould N O T h ave fu ll tim e p ow er. N o p ullu p See S etu p W iz ard P age O utp ut F unctio n A ssig nm ent fo r s etu p o ptio ns. C1-2 3 Analo g S ensor G ro und Dedic ate d a nalo g g ro und Analo g 0 -5 V s ensor g ro und C1-2 4 Analo g S ensor G ro und Dedic ate d a nalo g g ro und Analo g 0 -5 V s ensor g ro und C1-2 5 Cra nkshaft P osit io n S ensor H all 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r flo atin g s w it c hes. See S etu p W iz ard p age C am /C ra nk fo r o ptio ns. C1-2 6 Cam shaft P osit io n S ensor 1 H all 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r flo atin g s w it c hes. See S etu p W iz ard p age C am /C ra nk fo r o ptio ns. C1-2 7 Dig it a l 2 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r flo atin g s w it c hes. See S etu p W iz ard p age C am /C ra nk fo r o ptio ns. C1-2 8 Dig 3 [H z] / D ig 3 D uty 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r flo atin g s w it c hes. See S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-2 9 Dig 4 [H z] / D ig 4 D uty 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r flo atin g s w it c hes. See S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-2 9 RS232 R x RS232 L in e D riv e r/R eceiv e r Futu re e xpansio n C1-3 0 Dig it a l 5 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r flo atin g s w it c hes. See S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-3 0 RS232 T x RS232 L in e D riv e r/R eceiv e r Futu re e xpansio n C1-3 1* Dig 6 [H z] / D ig 6_D uty ( * In fin it y -5 06 O nly ) 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r flo atin g s w it c hes. See S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-3 1** Coil 7 ( * *In fin it y -5 08 O nly ) 25 m A m ax s ourc e c urre nt Ava ila ble o n P /N 3 0-7 108 o nly . 0 -5 V F allin g e dge fir e . D O N O T c onnect d ir e ctly to c oil p rim ary . M ust u se a n i g nit o r O R C DI th at a ccepts a F A LLIN G e dge fir e s ig nal. C1-3 2* Dig it a l 7 ( * In fin it y -5 06 O nly ) 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r flo atin g s w it c hes. See S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-3 2** Coil 8 ( * *In fin it y -5 08 O nly ) 25 m A m ax s ourc e c urre nt Ava ila ble o n P /N 3 0-7 108 o nly . 0 -5 V F allin g e dge fir e . D O N O T c onnect d ir e ctly to c oil p rim ary . M ust u se a n
25 © 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 fin ity P in Hard w are R ef. Hard w are S pecific a tio n Note s ig nit o r O R C DI th at a ccepts a F A LLIN G e dge fir e s ig nal. C1-3 3 Batte ry G ro und Batte ry G ro und Connect d ir e ctly to b atte ry g ro und C1-3 4 CANL A Dedic ate d H ig h S peed C AN T ra nsceiv e r Recom mend tw is te d p air (o ne tw is t p er 2 ) w it h te rm in atin g re sis to r. C onta ct A EM fo r a ddit io nal in fo rm atio n. C1-3 5 CANH A Dedic ate d H ig h S peed C AN T ra nsceiv e r Recom mend tw is te d p air (o ne tw is t p er 2 ) w it h te rm in atin g re sis to r. C onta ct A EM fo r a ddit io nal in fo rm atio n. C1-3 6 CanL B Dedic ate d H ig h S peed C AN T ra nsceiv e r Not u sed, re serv e d fo r fu tu re e xpansio n. C1-3 7 CanH B Dedic ate d H ig h S peed C AN T ra nsceiv e r Not u sed, re serv e d fo r fu tu re e xpansio n. C1-3 8 Analo g T em p 1 12 b it A /D , 2 .4 9K p ullu p to 5 V Defa ult C oola nt T em pera tu re In put C1-3 9 Analo g T em p 2 12 b it A /D , 2 .4 9K p ullu p to 5 V Defa ult A ir T em pera tu re In put C1-4 0 Analo g T em p 3 12 b it A /D , 2 .4 9K p ullu p to 5 V Defa ult O il T em pera tu re In put. S ee S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-4 1 Low sid e 0 Low sid e s w it c h, 1 .7 A m ax, N O i n te rn al fly back d io de. N o p ullu p See S etu p W iz ard P age O utp ut F unctio n A ssig nm ent fo r s etu p o ptio ns. C1-4 2 Low sid e 1 Low sid e s w it c h, 6 A m ax w it h i n te rn al fly back d io de. In ductiv e l o ad s hould N O T h ave fu ll tim e p ow er. N o p ullu p See S etu p W iz ard P age O utp ut F unctio n A ssig nm ent fo r s etu p o ptio ns. C1-4 3 Batte ry G ro und Batte ry G ro und Connect d ir e ctly to b atte ry g ro und C1-4 4 Knock S ensor 1 Dedic ate d k nock s ig nal p ro cessor See S etu p W iz ard p age K nock S etu p f o r o ptio ns. C1-4 5 Knock S ensor 2 Dedic ate d k nock s ig nal p ro cessor See S etu p W iz ard p age K nock S etu p f o r o ptio ns. C1-4 6 Batte ry G ro und Batte ry G ro und Connect d ir e ctly to b atte ry g ro und C1-4 7 EFI M ain R ela y S wit c hed G ro und O utp ut 0.7 A m ax g ro und s in k fo r e xte rn al re la y c ontro l Will a ctiv a te a t k ey o n a nd a t k ey o ff a ccord in g to th e c onfig ura tio n s ettin gs. C1-4 8 Ig nit io n S wit c h 10K p ulld ow n Full tim e b atte ry p ow er m ust b e a va ila ble a t C 1-1 0 b efo re th is in put is t rig gere d.
In fin ity S erie s 5 E C U P in out 2 6 © 2 016 A EM P erfo rm ance E le ctr o nic s In fin ity P in Hard w are R ef. Hard w are S pecific a tio n Note s C1-4 9 +5V S ensor P ow er Regula te d, fu sed + 5V s upply fo r s ensor p ow er Analo g s ensor p ow er C1-5 0 +5V S ensor P ow er Regula te d, fu sed + 5V s upply fo r s ensor p ow er Analo g s ensor p ow er C1-5 1 Analo g 7 12 b it A /D , 1 00K p ullu p to 5 V Defa ult p rim ary T hro ttle P osit io n s ensor in pur. 0 -5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und p in s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. S ee S etu p W iz ard S et T hro ttle R ange p age fo r a uto m atic m in /m ax c alib ra tio n. M onit o r th e T hro ttle [% ] c hannel. A ls o D B1_TP SA [% ] fo r D BW a pplic atio ns. C1-5 2 Analo g 8 12 b it A /D , 1 00K p ullu p to 5 V Defa ult M anifo ld P re ssure S ensor i n put. 0 -5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und p in s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. C1-5 3 Analo g 9 12 b it A /D , 1 00K p ullu p to 5 V Defa ult F uel P re ssure S ensor In put. 0 -5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und p in s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. C1-5 4 VR+ 2 Diffe re ntia l V aria ble R elu cta nce Z ero C ro ss D ete ctio n See S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-5 5 VR- 2 C1-5 6 VR- 3 Diffe re ntia l V aria ble R elu cta nce Z ero C ro ss D ete ctio n See S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-5 7 VR+ 3 C1-5 8 Hig hsid e 0 2.6 A m ax, H ig h S id e S olid S ta te R ela y See S etu p W iz ard P age O utp ut F unctio n A ssig nm ent fo r s etu p o ptio ns. C1-5 9 Ste pper 1 B Auto m otiv e , P ro gra m mable S te pper D riv e r, u p to 2 8V a nd ± 1.4 A Be s ure th at e ach in te rn al c oil o f th e s te pper m oto r a re p ro perly p air e d w it h t h e 1 A /1 B a nd 2 A /2 B E CU o utp uts .
27 © 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 fin ity P in Hard w are R ef. Hard w are S pecific a tio n Note s Supports B i- P ola r s te pper m oto rs o nly . C1-6 0 Ste pper 2 B Auto m otiv e , P ro gra m mable S te pper D riv e r, u p to 2 8V a nd ± 1.4 A Be s ure th at e ach in te rn al c oil o f th e s te pper m oto r a re p ro perly p air e d w it h t h e 1 A /1 B a nd 2 A /2 B E CU o utp uts . S upports B i- P ola r s te pper m oto rs o nly . C1-6 1 DBW 1 M oto r - 5.0 A m ax T hro ttle C ontro l H brid ge D riv e +12V to c lo se C1-6 2 DBW 1 M oto r + 5.0 A m ax T hro ttle C ontro l H brid ge D riv e +12V to o pen C1-6 3 Main R ela y P ow er I n put 12 v o lt p ow er fr o m re la y 12 v o lt p ow er fr o m re la y. R ela y m ust b e c ontro lle d b y + 12V R ela y C ontro l s ig nal, p in C 1-4 7 a bove . C1-6 4 In je cto r 6 Satu ra te d (P /N 3 0-7 108) o r p eak a nd h old , 3 A m ax c ontin uous (P /N 3 0-7 106) In je cto r 6 C1-6 5 In je cto r 5 Satu ra te d (P /N 3 0-7 108) o r p eak a nd h old , 3 A m ax c ontin uous (P /N 3 0-7 106) In je cto r 5 C1-6 6 In je cto r 4 Satu ra te d (P /N 3 0-7 108) o r p eak a nd h old , 3 A m ax c ontin uous (P /N 3 0-7 106) In je cto r 4 C1-6 7 Batte ry G ro und Batte ry G ro und Connect d ir e ctly to b atte ry g ro und C1-6 8 Main R ela y P ow er I n put 12 v o lt p ow er fr o m re la y 12 v o lt p ow er fr o m re la y. R ela y m ust b e c ontro lle d b y + 12V R ela y C ontro l s ig nal, p in C 1-4 7 a bove . C1-6 9 Analo g 1 9 12 b it A /D , 1 00K p ullu p to 5 V 0-5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und p in s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. S ee S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-7 0 Analo g 1 8 12 b it A /D , 1 00K p ullu p to 5 V 0-5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und p in s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. S ee S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-7 1 Analo g 1 6 12 b it A /D , 1 00K p ullu p to 5 V 0-5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und
In fin ity S erie s 5 E C U P in out 2 8 © 2 016 A EM P erfo rm ance E le ctr o nic s In fin ity P in Hard w are R ef. Hard w are S pecific a tio n Note s pin s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. S ee S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-7 2 Fla sh E nable 10K p ulld ow n Not u sually n eeded fo r a uto m atic f ir m ware u pdate s th ro ugh In fin it y T uner. If c onnectio n e rro rs o ccur d urin g u pdate , c onnect 1 2 v o lt s to th is p in b efo re p ro ceedin g w it h u pgra de. D is connect th e 1 2 v o lt s s ig nal a ft e r th e u pdate . C1-7 3 Analo g 1 3 12 b it A /D , 1 00K p ullu p to 5 V Defa ult O il P re ssure S ensor in put. 0 -5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und p in s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. C1-7 4 Analo g 1 1 12 b it A /D , 1 00K p ullu p to 5 V 0-5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und p in s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. S ee S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-7 5 Analo g 1 0 12 b it A /D , 1 00K p ullu p to 5 V 0-5 V a nalo g s ig nal. U se + 5V O ut p in s a s p ow er s upply a nd S ensor G ro und p in s a s th e lo w re fe re nce. D o n ot c onnect s ig nals re fe re nced to + 12V a s t h is c an p erm anently d am age th e E CU. S ee S etu p W iz ard p age In put F unctio n A ssig nm ents fo r s etu p o ptio ns. C1-7 6 In je cto r 3 Satu ra te d (P /N 3 0-7 108) o r p eak a nd h old , 3 A m ax c ontin uous (P /N 3 0-7 106) In je cto r 3 C1-7 7 In je cto r 2 Satu ra te d (P /N 3 0-7 108) o r p eak a nd h old , 3 A m ax c ontin uous (P /N 3 0-7 106) In je cto r 2 C1-7 8 In je cto r 1 Satu ra te d (P /N 3 0-7 108) o r p eak a nd h old , 3 A m ax c ontin uous (P /N 3 0-7 106) In je cto r 1 C1-7 9 Ste pper 2 A Auto m otiv e , P ro gra m mable S te pper D riv e r, u p to 2 8V a nd ± 1.4 A Be s ure th at e ach in te rn al c oil o f th e s te pper m oto r a re p ro perly p air e d w it h t h e 1 A /1 B a nd 2 A /2 B E CU o utp uts . S upports B i- P ola r s te pper m oto rs o nly .
29 © 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 fin ity P in Hard w are R ef. Hard w are S pecific a tio n Note s C1-8 0 Ste pper 1 A Auto m otiv e , P ro gra m mable S te pper D riv e r, u p to 2 8V a nd ± 1.4 A Be s ure th at e ach in te rn al c oil o f th e s te pper m oto r a re p ro perly p air e d w it h t h e 1 A /1 B a nd 2 A /2 B E CU o utp uts . S upports B i- P ola r s te pper m oto rs o nly . 12 M onth L im it e d W arra n ty A dvanced E ngin e M anagem ent In c. w arra nts to th e c onsum er th at a ll A EM H ig h P erfo rm ance p ro ducts w ill b e f re e f ro m d efe cts in m ate ria l a nd w ork m anship f o r a p erio d o f tw elv e ( 1 2) m onth s f ro m d ate o f th e o rig in al p urc hase. P ro ducts th at f a il w it h in th is 1 2-m onth w arra nty p erio d w ill b e r e pair e d o r r e pla ced a t A EM ’s o ptio n, w hen d ete rm in ed b y A EM th at th e p ro duct f a ile d d ue to d efe cts in m ate ria l o r w ork m anship . T his w arra nty is l im it e d to th e r e pair o r r e pla cem ent o f th e A EM p art. In n o e vent s hall th is w arra nty e xceed th e o rig in al p urc hase p ric e o f th e A EM p art n or s hall A EM b e r e sponsib le f o r s pecia l, in cid enta l o r c onsequentia l d am ages o r c ost in curre d d ue to th e f a ilu re o f th is p ro duct. W arra nty c la im s to A EM m ust b e t r a nsporta tio n p re paid a nd a ccom panie d w it h d ate d p ro of o f p urc hase. T his w arra nty a pplie s o nly to th e o rig in al p urc haser o f p ro duct a nd is n on- t r a nsfe ra ble . A ll im plie d w arra ntie s s hall b e lim it e d in d ura tio n to th e s aid 1 2-m onth w arra nty p erio d. Im pro per u se o r in sta lla tio n, a ccid ent, a buse, u nauth oriz ed r e pair s o r a lt e ra tio ns v oid s th is w arra nty . A EM d is cla im s a ny lia bilit y f o r c onsequentia l d am ages d ue to b re ach o f a ny w rit te n o r im plie d w arra nty o n a ll p ro ducts m anufa ctu re d b y A EM . W arra nty r e tu rn s w ill o nly b e a ccepte d b y A EM w hen a ccom panie d b y a v alid R etu rn M erc handis e A uth oriz atio n ( R M A) n um ber. P ro duct m ust b e r e ceiv ed b y A EM w it h in 3 0 d ays o f th e d ate th e R M A is is sued. U EG O o xygen s ensors a re c onsid ere d w ear it e m s a nd a re n ot c overe d u nder w arra nty . P le ase n ote th at b efo re A EM c an is sue a n R M A f o r a ny e le ctr o nic p ro duct, it is f ir s t n ecessary f o r th e in sta lle r o r e nd u ser to c onta ct th e E M S te ch l in e a t 1 -8 00-4 23-0 046 to d is cuss th e p ro ble m . M ost is sues c an b e r e solv ed o ver th e p hone. U nder n o c ir c um sta nces s hould a s yste m b e r e tu rn ed o r a R M A r e queste d b efo re th e a bove p ro cess tr a nspir e s. A EM w ill n ot b e r e sponsib le f o r e le ctr o nic p ro ducts th at a re in sta lle d in corre ctly , in sta lle d in a n on-a ppro ved a pplic atio n, m is used, o r ta m pere d w it h . A ny A EM e le ctr o nic s p ro duct c an b e r e tu rn ed f o r r e pair if it is o ut o f th e w arra nty p erio d. T here is a m in im um c harg e o f $ 50.0 0 f o r in spectio n a nd d ia gnosis o f A EM e le ctr o nic p arts . P arts u sed in th e r e pair o f A EM e le ctr o nic c om ponents w ill b e e xtr a . A EM w ill p ro vid e a n e stim ate o f r e pair s a nd r e ceiv e w rit te n o r e le ctr o nic a uth oriz atio n b efo re r e pair s a re m ade to th e p ro duct.