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AEM Infinity Series 5 MiniHarness 303705 User Manual
AEM Infinity Series 5 MiniHarness 303705 User Manual
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11 © 2 015 A EM P erfo rm ance E le ctr o nic s f u 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 l o 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 le 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 in te rfa ces. R outin g o f th is f ly 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.
AEM In fin ity H arn ess M anuals 1 2 © 2 015 A EM P erfo rm ance E le ctr o nic s 73705 M in i- H arn ess P in outs 3 6-3 705 C1 In fin it y C o nnecto r C 1 80 W ay F R ece pta cle 0 .6 4 2 .8 S e rie s S e ale d ( G Y) Pin Wir e C o lo r Gau ge Destin atio n 1 2 3 C1-1 C1-2 C1-3 C1-4 C1-5 WHT 20 C5-4 UEG O1 H EA T C1-6 GRN 20 C5-2 UEG O1 I A C1-7 PN K 20 C5-6 UEG O 1 I P C1-8 BLK 20 C5-1 UEG O 1 U N C1-9 ORG 20 C5-5 UEG O1 V M C1-1 0 RED /B LK 20 F1 -1 PER M B ATTER Y P W R C1-1 1 C1-1 2 C1-1 3 C1-1 4 C1-1 5 C1-1 6 C1-1 7 C1-1 8 C1-1 9 C1-2 0 C1-2 1 C1-2 2 C1-2 3 BLK /W HT 20 C6, F LYIN G L EA D AN ALO G S EN SO R G RO UND C1-2 4 BLK /W HT 20 C6, F LYIN G L EA D AN ALO G S EN SO R G RO UND C1-2 5 C1-2 6 C1-2 7 C1-2 8 C1-2 9
13 © 2 015 A EM P erfo rm ance E le ctr o nic s C1-3 0 C1-3 1 C1-3 2 C1-3 3 BLK 20 S1 BATTER Y G RO UND C1-3 4 GRN 20 C4-2 CAN L O W ( A EM NET) C1-3 5 WHT 20 C4-1 CAN H IG H ( A EM NET) C1-3 6 C1-3 7 C1-3 8 C1-3 9 C1-4 0 C1-4 1 C1-4 2 C1-4 3 BLK Sh ie ld g ro und BATTER Y G RO UND C1-4 4 C1-4 5 C1-4 6 BLK 20 S1 BATTER Y G RO UND C1-4 7 WHT 20 R1-1 RELA Y C O NTR O L O UT C1-4 8 PN K 20 F1 -3 IG N S W IT C H I N C1-4 9 GRY 20 C6, F LYIN G L EA D AN ALO G S EN SO R P O W ER 5 V C1-5 0 GRY 20 C6, F LYIN G L EA D AN ALO G S EN SO R P O W ER 5 V C1-5 1 C1-5 2 C1-5 3 C1-5 4 C1-5 5 C1-5 6 C1-5 7 C1-5 8 C1-5 9 C1-6 0 C1-6 1 C1-6 2 C1-6 3 ORG 20 C3-E RELA Y P O W ER I N 1 2V C1-6 4 C1-6 5
AEM In fin ity H arn ess M anuals 1 4 © 2 015 A EM P erfo rm ance E le ctr o nic s C1-6 6 C1-6 7 BLK 20 S1 BATTER Y G RO UND C1-6 8 ORG 20 C3-D RELA Y P O W ER I N 1 2V C1-6 9 C1-7 0 C1-7 1 C1-7 2 RED 20 C2-A FLA SH E N ABLE, 1 2V T O A CTIV ATE C1-7 3 C1-7 4 C1-7 5 C1-7 6 C1-7 7 C1-7 8 C1-7 9 C1-8 0 C2 Pin Wir e C o lo r Gau ge Destin atio n FLA SH E N ABLE 1 2 3 C2-A RED 20 C1-7 2 FLA SH E N ABLE, 1 2V T O A CTIV ATE C2-B RED /B LK 20 F1 -1 FU SED B ATTER Y P O W ER C3 Pin Wir e C o lo r Gau ge Destin atio n 1 2 3 C3-A ORG 14 R1-3 FU SED R ELA Y P O W ER C3-B RED 20 C4-3 FU SED R ELA Y P O W ER T O A EM NET C O NNEC TO R C3-C BRN 20 C5-3 FU SED R ELA Y P O W ER T O U EG O C O NNEC TO R C3-D ORG 20 C1-6 8 FU SED R ELA Y P O W ER T O E C U C 1 C3-E ORG 20 C1-6 3 FU SED R ELA Y P O W ER T O E C U C 1 C3-F ORG 14 F2 -6 FU SED R ELA Y P O W ER T O A U XIL IA RY F U SE B LO CK C3-G ORG 14 F2 -4 FU SED R ELA Y P O W ER T O A U XIL IA RY F U SE B LO CK C3-H ORG 14 F2 -2 FU SED R ELA Y P O W ER T O A U XIL IA RY F U SE B LO CK C3-J C3-K C3-L
15 © 2 015 A EM P erfo rm ance E le ctr o nic s C3-M C4 Pin Wir e C o lo r Gau ge Destin atio n AEM NET 1 2 3 C4-1 WHT 20 C1-3 5 CAN H IG H ( A EM NET) C4-2 GRN 20 C1-3 4 CAN L O W ( A EM NET) C4-3 RED 20 C3-B FU SED R ELA Y P O W ER C4-4 BLK 20 S1 BATTER Y G RO UND C5 Pin Wir e C o lo r Gau ge Destin atio n UEG O 1 1 2 3 C5-1 BLK 20 C1-8 UEG O1 U N C5-2 GRN 20 C1-6 UEG O1 I A C5-3 BRN 20 C3-C FU SED R ELA Y P O W ER C5-4 WHT 20 C1-5 UEG O1 H EA T C5-5 ORG 20 C1-9 UEG O1 V M C5-6 PN K 20 C1-7 UEG O1 I P C6 Pin Wir e C o lo r Gau ge Destin atio n 1 2 3 BLK 14 S1 BATTER Y G RO UND BLK /W HT 20 C1-2 4 AN ALO G S EN SO R G RO UND BLK /W HT 20 C1-2 3 AN ALO G S EN SO R G RO UND GRY 20 C1-5 0 AN ALO G S EN SO R P O W ER 5 V GRY 20 C1-4 9 AN ALO G S EN SO R P O W ER 5 V RED 20 F1 -2 BATTER Y P O W ER PN K/B LK 20 F1 -4 IG N S W IT C H RED 14 F1 -6 BATTER Y P O W ER ORG 14 F2 -1 FU SED C O IL P O W ER ORG 14 F2 -3 FU SED I N JE C TO R P O W ER ORG 14 F2 -5 FU SED A CCESSO RY P O W ER
AEM In fin ity H arn ess M anuals 1 6 © 2 015 A EM P erfo rm ance E le ctr o nic s R1 Pin Wir e C o lo r Gau ge Destin atio n 1 2 3 R1-1 WHT 20 C1-4 7 RELA Y C O NTR O L O UT R1-2 RED /B LK 20 F1 -1 FU SED B ATTER Y P O W ER R1-3 ORG 14 C3-A FU SED R ELA Y P O W ER R1-4 R1-5 ORG 14 F1 -5 FU SED B ATTER Y P O W ER F1 Pin Wir e C o lo r Gau ge Destin atio n 1 2 3 F1 -1 RED /B LK 20 R1-2 C2-B C1- 1 0 FU SED B ATTER Y P O W ER F1 -2 RED 20 C6 BATTER Y P O W ER F1 -3 PN K 20 C1-4 8 FU SED I G N S W IT C H F1 -4 PN K/B LK 20 C6 IG N S W IT C H F1 -5 ORG 14 R1-5 FU SED B ATTER Y P O W ER F1 -6 RED 14 C6 BATTER Y P O W ER F1 -7 F1 -8 F2 Pin Wir e C o lo r Gau ge Destin atio n 1 2 3 F2 -1 ORG 14 C6 FU SED C O IL P O W ER F2 -2 ORG 14 C3-H FU SED R ELA Y P O W ER F2 -3 ORG 14 C6 FU SED I N JE C TO R P O W ER F2 -4 ORG 14 C3-G FU SED R ELA Y P O W ER F2 -5 ORG 14 C6 FU SED A CCESSO RY P O W ER F2 -6 ORG 14 C3-F FU SED R ELA Y P O W ER F2 -7 F2 -8 S1 Pin Wir e Gau ge Destin atio n
17 © 2 015 A EM P erfo rm ance E le ctr o nic s Co lo r 1 2 3 BLK 14 C6 BATTER Y G RO UND BLK 20 C1-3 3 BATTER Y G RO UND BLK 20 C1-4 6 BATTER Y G RO UND BLK 20 C1-6 7 BATTER Y G RO UND BLK 20 C4-4 BATTER Y G RO UND
AEM In fin ity H arn ess M anuals 1 8 © 2 015 A EM P erfo rm ance E le ctr o nic s 83705 M in i- H arn ess S ch em atic a n d L ayo ut A s chem atic fo r th e 3 705 m in i h arn ess is in clu ded H ERE. A d im ensio nal la yout d ra w in g fo r th e 3 705 m in i h arn ess is in clu ded H ERE. 9In fin it y -6 /8 h E C U P in out In fin it y P in Hard w are R ef. Hard w are S p ecific atio n Note s C1-1 Lo w sid eSw it c h _4 _O ut Lo w sid e s w it c h , 1 .7 A m ax, N O i n te rn al f ly b ack d io de. 1 2V p ullu p Se e S e tu p W iz a rd P age s U se r G PO s f o r a ctiv a tio n c rit e ria a nd L o w Sid e A ssig n m ent T a ble s f o r o utp ut a ssig n m ent C1-2 Lo w sid eSw it c h _5 _O ut Lo w sid e s w it c h , 6 A m ax w it h i n te rn al f ly b ack d io de. I n ductiv e l o ad s h ould N OT h ave f u ll t im e p ow er. 1 2V p ullu p Se e S e tu p W iz a rd P age L o w Sid e A ssig n m ent T a ble s f o r o utp ut a ssig n m ent a nd 2 D t a ble L S5 _D uty [ % ] f o r a ctiv a tio n. C1-3 * Lo w sid eSw it c h _6 _O ut ( * In fin it y -6 O nly ) Lo w sid e s w it c h , 6 A m ax w it h i n te rn al f ly b ack d io de. I n ductiv e l o ad s h ould N OT h ave f u ll t im e p ow er. N o p ullu p Ava ila ble o n P /N 3 0-7 106 o nly . S e e S e tu p W iz a rd P age L o w Sid e A ssig n m ent T a ble s f o r o utp ut a ssig n m ent a nd 2 D t a ble L S6 _D uty [ % ] f o r a ctiv a tio n. C1-3 ** In je cto r 7 _O ut ( * *In fin it y -8 H O nly ) Fo r u se w it h h ig h i m pedance ( 1 0-1 5 o hm s) i n 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 * Lo w sid eSw it c h _7 _O ut ( * In fin it y -6 O nly ) Lo w sid e s w it c h , 6 A m ax, N O i n te rn al f ly b ack d io de. N o p ullu p Ava ila ble o n P /N 3 0-7 106 o nly . S e e S e tu p W iz a rd P age L o w Sid e A ssig n m ent T a ble s f o r o utp ut a ssig n m ent a nd 2 D t a ble L S7 _D uty [ % ] f o r a ctiv a tio n. C1-4 ** In je cto r 8 _O ut ( * *In fin it y -8 H O nly ) Fo r u se w it h h ig h i m pedance ( 1 0-1 5 o hm s) i n 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_ O ut Bosch U EG O c o ntro lle r Lo w sid e s w it c h f o r U EG O h eate r c o ntro l. C onnect t o p in 4 o f B osch U EG O s e nso r. N OTE t h at p in 3 o f t h e S e nso r i s h eate r ( + ) a nd m ust b e p ow er b y a f u se d/s w it c h ed 1 2V s u pply . C1-6 UEG O 1 I A _In Trim C urre nt s ig n al. C onnect t o p in 2 o f B osch U EG O s e nso r C1-7 UEG O 1 I P _In Pum pin g C urre nt s ig n al. C onnect t o p in 6 o f B osch U EG O s e nso r C1-8 UEG O 1 U N_In Nern st V olt a ge s ig n al. C onnect t o p in 1 o f B osch U EG O s e nso r C1-9 UEG O 1 V M _In Vir tu al G ro und s ig n al. C onnect t o p in 5 o f B osch U EG O s e nso r. C1-1 0 +1 2V_R 8C_C PU _In Dedic a te d p ow er m anage m ent C PU Fu ll t im e b atte ry p ow er. M UST b e p ow ere d b efo re t h e i g n it io n s w it c h i n put i s t rig ge re d ( S e e C 1-4 8). C1-1 1 Coil 4 _O ut 25 m A m ax s o urc e c u rre nt 0-5 V F a llin g e dge f ir e . D O N OT c o nnect d ir e ctly t o c o il p rim ary . M ust u se a n i g n it o r O R C D I t h at a cce pts a F A LLIN G e dge f ir e s ig n al. C1-1 2 Coil 3 _O ut 25 m A m ax s o urc e c u rre nt 0-5 V F a llin g e dge f ir e . D O N OT c o nnect d ir e ctly t o c o il p rim ary . M ust u se a n i g n it o r O R C D I t h at a cce pts a F A LLIN G e dge f ir e s ig n al. C1-1 3 Coil 2 _O ut 25 m A m ax s o urc e c u rre nt 0-5 V F a llin g e dge f ir e . D O N OT c o nnect
19 © 2 015 A EM P erfo rm ance E le ctr o nic s In fin it y P in Hard w are R ef. Hard w are S p ecific atio n Note s dir e ctly t o c o il p rim ary . M ust u se a n i g n it o r O R C D I t h at a cce pts a F A LLIN G e dge f ir e s ig n al. C1-1 4 Coil 1 _O ut 25 m A m ax s o urc e c u rre nt 0-5 V F a llin g e dge f ir e . D O N OT c o nnect d ir e ctly t o c o il p rim ary . M ust u se a n i g n it o r O R C D I t h at a cce pts a F A LLIN G e dge f ir e s ig n al. C1-1 5 Coil 6 _O ut 25 m A m ax s o urc e c u rre nt 0-5 V F a llin g e dge f ir e . D O N OT c o nnect d ir e ctly t o c o il p rim ary . M ust u se a n i g n it o r O R C D I t h at a cce pts a F A LLIN G e dge f ir e s ig n al. C1-1 6 Coil 5 _O ut 25 m A m ax s o urc e c u rre nt 0-5 V F a llin g e dge f ir e . D O N OT c o nnect d ir e ctly t o c o il p rim ary . M ust u se a n i g n it o r O R C D I t h at a cce pts a F A LLIN G e dge f ir e s ig n al. C1-1 7 Cra nksh aft P osit io n S e nso r V R+_In Diffe re ntia l V aria ble R elu cta nce Z e ro C ro ss D ete ctio n Se e S e tu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-1 8 Cra nksh aft P osit io n S e nso r V R-_ In Se e S e tu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-1 9 Cam sh aft P osit io n S e nso r 1 V R-_ In Diffe re ntia l V aria ble R elu cta nce Z e ro C ro ss D ete ctio n Se e S e tu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 0 Cam sh aft P osit io n S e nso r 1 V R+_In Se e S e tu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 1 Lo w sid eSw it c h _2 _O ut Lo w sid e s w it c h , 1 .7 A m ax, N O i n te rn al f ly b ack d io de. N o p ullu p Se e S e tu p W iz a rd P age s U se r G PO s f o r a ctiv a tio n c rit e ria a nd L o w Sid e A ssig n m ent T a ble s f o r o utp ut a ssig n m ent C1-2 2 Lo w sid eSw it c h _3 _O ut Lo w sid e s w it c h , 6 A m ax w it h i n te rn al f ly b ack d io de. I n ductiv e l o ad s h ould N OT h ave f u ll t im e p ow er. N o p ullu p Se e W iz a rd p age L o w Sid e A ssig n m ent T a ble s f o r o utp ut a ssig n m ent. M IL A ctiv a te s w hen a ny o f t h e f o llo w in g f la gs a re t ru e: E rro rA ir T e m p, E rro rB aro , E rro rC oola ntT e m p, E rro rE B P, E rro rF u elP re ssu re , U EG O_0 _D ia g_e rro r, U EG O_1 _D ia g_e rro r, E rro rM AFA nalo g, E rro rM AFD ig it a l, E rro rM AP, E rro rO ilP re ssu re , E rro rT h ro ttle . C1-2 3 AG ND_1 _O ut Dedic a te d a nalo g g ro und Analo g 0 -5 V s e nso r g ro und C1-2 4 AG ND_1 _O ut Dedic a te d a nalo g g ro und Analo g 0 -5 V s e nso r g ro und C1-2 5 Cra nksh aft P osit io n S e nso r H all_ In 10K p ullu p t o 1 2V. W ill w ork w it h g ro und o r f lo atin g s w it c h es. Se e S e tu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 6 Cam sh aft P osit io n S e nso r 1 H all_ In 10K p ullu p t o 1 2V. W ill w ork w it h g ro und o r f lo atin g s w it c h es. Se e S e tu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 7 Dig it a l_ In _2 10K p ullu p t o 1 2V. W ill w ork w it h g ro und o r f lo atin g s w it c h es. Se e S e tu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 8 Dig 3 [ H z] / D ig 3 _D uty _In 10K p ullu p t o 1 2V. W ill w ork w it h g ro und o r f lo atin g s w it c h es. Fre quency i n put c a n b e a ssig n ed t o W heel S p eed, T u rb oSp eed, F le x F u el o r o th er f u nctio ns. S e e S e tu p W iz a rd p age I n put F u nctio n A ssig n m ents f o r m appin g o ptio ns. C1-2 9 Dig 4 [ H z] / D ig 4 _D uty _In 10K p ullu p t o 1 2V. W ill w ork w it h g ro und o r f lo atin g s w it c h es. Se e S e tu p W iz a rd p age V ehic le S p eed f o r c a lib ra tio n c o nsta nt. C1-2 9 RS2 32 R x_In RS2 32 L in e D riv e r/R ece iv e r Fu tu re e xp ansio n C1-3 0 Dig it a l_ In _5 10K p ullu p t o 1 2V. W ill w ork w it h Se e C lu tc h Sw it c h 1 -a xis t a ble f o r s e tu p
AEM In fin ity H arn ess M anuals 2 0 © 2 015 A EM P erfo rm ance E le ctr o nic s In fin it y P in Hard w are R ef. Hard w are S p ecific atio n Note s gro und o r f lo atin g s w it c h es. optio ns. I n put c a n b e a ssig n ed t o d iffe re nt p in s. S e e S e tu p W iz a rd p age I n put F u nctio n A ssig n m ents f o r i n put m appin g o ptio ns. C1-3 0 RS2 32 T x_O ut RS2 32 L in e D riv e r/R ece iv e r Fu tu re e xp ansio n C1-3 1* Dig 6 [ H z] / D ig 6 _D uty _In ( * In fin it y -6 O nly ) 10K p ullu p t o 1 2V. W ill w ork w it h g ro und o r f lo atin g s w it c h es. Ava ila ble o n P /N 3 0-7 106 o nly . F re quency i n put c a n b e a ssig n ed t o W heel S p eed, T u rb oSp eed, F le x F u el o r o th er f u nctio ns. S e e S e tu p W iz a rd p age I n put F u nctio n A ssig n m ents f o r m appin g o ptio ns. C1-3 1** Coil 7 _O ut ( * *In fin it y -8 H O nly ) 25 m A m ax s o urc e c u rre nt Ava ila ble o n P /N 3 0-7 108 o nly . 0 -5 V F a llin g e dge f ir e . D O N OT c o nnect d ir e ctly t o c o il p rim ary . M ust u se a n i g n it o r O R C D I t h at a cce pts a F A LLIN G e dge f ir e s ig n al. C1-3 2* Dig it a l_ In _7 ( * In fin it y -6 O nly ) 10K p ullu p t o 1 2V. W ill w ork w it h g ro und o r f lo atin g s w it c h es. Ava ila ble o n P /N 3 0-7 106 o nly . I n put c a n b e a ssig n ed t o d iffe re nt p in s. S e e S e tu p W iz a rd p age I n put F u nctio n A ssig n m ents f o r i n put m appin g o ptio ns. C1-3 2** Coil 8 _O ut ( * *In fin it y -8 H O nly ) 25 m A m ax s o urc e c u rre nt Ava ila ble o n P /N 3 0-7 108 o nly . 0 -5 V F a llin g e dge f ir e . D O N OT c o nnect d ir e ctly t o c o il p rim ary . M ust u se a n i g n it o r O R C D I t h at a cce pts a F A LLIN G e dge f ir e s ig n al. C1-3 3 Pow er G ro und_In Pow er G ro und Connect d ir e ctly t o b atte ry g ro und C1-3 4 CAN L_A _O ut Dedic a te d H ig h S p eed C AN T ra nsce iv e r Reco m mend t w is te d p air ( o ne t w is t p er 2 ) w it h t e rm in atin g r e sis to r. C onta ct A EM f o r a ddit io nal i n fo rm atio n. C1-3 5 CAN H_A _O ut Dedic a te d H ig h S p eed C AN T ra nsce iv e r Reco m mend t w is te d p air ( o ne t w is t p er 2 ) w it h t e rm in atin g r e sis to r. C onta ct A EM f o r a ddit io nal i n fo rm atio n. C1-3 6 CanL_B _O ut Dedic a te d H ig h S p eed C AN T ra nsce iv e r Not u se d, r e se rv e d f o r f u tu re e xp ansio n. C1-3 7 CanH _B _O ut Dedic a te d H ig h S p eed C AN T ra nsce iv e r Not u se d, r e se rv e d f o r f u tu re e xp ansio n. C1-3 8 Analo g_In _Te m p_1 12 b it A /D , 2 .4 9K p ullu p t o 5 V Se e C oola nt T e m pera tu re S e tu p W iz a rd f o r s e le ctio n. C1-3 9 Analo g_In _Te m p_2 12 b it A /D , 2 .4 9K p ullu p t o 5 V Se e A ir T e m pera tu re S e tu p W iz a rd f o r s e le ctio n. C1-4 0 Analo g_In _Te m p_3 12 b it A /D , 2 .4 9K p ullu p t o 5 V Se e 1 D t a ble O ilT e m pCal t a ble f o r c a lib ra tio n d ata a nd O ilT e m p [ C ] f o r c h annel d ata . C1-4 1 Lo w sid e F u el P um p d riv e _O ut Lo w sid e s w it c h , 1 .7 A m ax, N O i n te rn al f ly b ack d io de. N o p ullu p Sw it c h ed g ro und. W ill p rim e f o r 2 s e co nds a t k e y o n a nd a ctiv a te i f R PM > 0 . C1-4 2 Lo w sid eSw it c h _1 _In Lo w sid e s w it c h , 6 A m ax w it h i n te rn al f ly b ack d io de. I n ductiv e l o ad s h ould N OT h ave f u ll t im e p ow er. N o p ullu p Se e S e tu p W iz a rd p age B oost C ontro l f o r o ptio ns. M onit o r B oostC ontro l [ % ] c h annel f o r o utp ut s ta te .