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AEM NissanInfiniti 20032006 350ZG35 303520 User Manual
AEM NissanInfiniti 20032006 350ZG35 303520 User Manual
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2003–2006 N is sa n 3 50Z/In fin iti G 35 21 © 2 015 A EM P erfo rm ance E le ctr o nic s PIN O UTS Nis san 3 50Z/In fin it i G 35 P in out 350Z / G 35 P IN 2003 3 50Z & G 35 C oupe ( M /T ) 2004 3 50Z & G 35 C oupe ( M /T ) 2004.5 3 50Z & G 35 C oupe M / T 2005 3 50Z M /T 2005 3 50Z T ra ck, 3 5th & G 35 M /T 2006 3 50Z & G 35 C oupe M / T Descrip tio n In fin ity P in N am e In fin ity 1 EC M G ro und EC M G ro und EC M G ro und EC M G ro und EC M G ro und EC M G ro und Main p ow er g ro und GND C2-3 9, 4 0 2 O2 S en so r 1 h eate r ( b an k2) O2 S en so r 1 h eate r ( b an k2) UEG O H - 1 UEG O H - 1 UEG O H - 1 UEG O H - 1 PW M L S h eate r s ig nal (1 2V i s s upplie d in dependently o f E C U.) UEG O1 H eat C1-4 3 DBW P ow er In ( f ro m r e la y p 104) DBW P ow er In ( f ro m r e la y p 104) DBW P ow er In ( f ro m r e la y p 104) DBW P ow er In ( f ro m r e la y p 104) DBW P ow er In ( f ro m r e la y p 104) DBW P ow er In ( f ro m r e la y p 104) Hig h c urre nt 1 2V in put, s w it c hed o n/o ff b y D BW r e la y (p 104) +12V C2-9 4 DBW ( c lo se) DBW ( c lo se) DBW ( c lo se) DBW ( c lo se) DBW ( c lo se) DBW ( c lo se) 12V P W M D BW C ontro l HBrid ge0_0 C1-5 3 5 DBW ( o pen) DBW ( o pen) DBW ( o pen) DBW ( o pen) DBW ( o pen) DBW ( o pen) 12V P W M D BW C ontro l HBrid ge0_1 C1-5 4 6 O2 S ensor 2 h eate r ( b ank2) O2 S ensor 2 h eate r ( b ank2) O2 S ensor 2 h eate r ( b ank2) O2 S ensor 2 h eate r ( b ank2) O2 S ensor 2 h eate r ( b ank2) O2 S ensor 2 h eate r ( b ank2) PW M L S h eate r s ig nal (1 2V i s s upplie d in dependently o f E C U.) --- --- 7 --- --- --- --- --- --- --- --- --- 8 --- --- --- --- eV TC E xh R et (b an k 2 ) eV TC E xh R et (b an k 2 ) ~10 o hm , 0 % = f u ll a dv ance, 1 00% = f u ll r e ta rd LS 9 C2-2 9 9 --- --- --- --- eV TC E xh R et (b an k 1 ) eV TC E xh R et (b an k 1 ) ~10 o hm , 0 % = f u ll a dv ance, 1 00% = f u ll r e ta rd LS 8 C2-4 3 10 iV TC in t s ol (b ank 2 ) iV TC in t s ol (b ank 2 ) iV TC in t s ol (b ank 2 ) iV TC in t s ol (b ank 2 ) iV TC in t s ol (b ank 2 ) iV TC in t s ol (b ank 2 ) ~7 o hm , 0 % = f u ll re ta rd , 1 00% = f u ll a dv ance, 5 0% = h old LS 5 C1-2 11 iV TC in t s ol (b ank 1 ) iV TC in t s ol (b ank 1 ) iV TC in t s ol (b ank 1 ) iV TC in t s ol (b ank 1 ) iV TC in t s ol (b ank 1 ) iV TC in t s ol (b ank 1 ) ~7 o hm , 0 % = f u ll re ta rd , 1 00% = f u ll a dv ance, 5 0% = h old LS 3 C1-1 8 12 Pwr s te erin g p re ssure Pwr s te erin g p re ssure Pwr s te erin g p re ssure Pwr s te erin g p re ssure Pwr s te erin g p re ssure Pwr s te erin g p re ssure 0–5V A nalo g In put Ana23 C2-3 6 13 Cra nk p osit io n s ensor Cra nk p osit io n s ensor Cra nk p osit io n s ensor Cra nk p osit io n s ensor Cra nk p osit io n s ensor Cra nk p osit io n s ensor 12V H all S ensor Dig it a l 0 - C ra nk C1-2 1 14 Cam s ensor ( b ank2) Cam s ensor ( b ank2) Cam s ensor ( b ank2) Cam s ensor ( b ank2) Cam s ensor ( b ank2) Cam s ensor ( b ank2) Hall S ensor Dig it a l 2 - C am 2 C1-2 3 15 Knock s ensor Knock s ensor Knock s ensor Knock s ensor Knock s ensor Knock s ensor Pie zo ele ctric s ensor, s in gle s ensor lo cate d in v alle y o f e ngin e. Knock 0 C1-2 7 16 Oxyg en s en so r 1 ( b an k2) Oxyg en s en so r 1 ( b an k2) UEG O U N-1 UEG O U N-1 UEG O U N-1 UEG O U N-1 UEG O UEG O1 U N C1-7
22 © 2 015 A EM P erfo rm ance E le ctr o nic s P /N 3 0-3 520 350Z / G 35 P IN 2003 3 50Z & G 35 C oupe ( M /T ) 2004 3 50Z & G 35 C oupe ( M /T ) 2004.5 3 50Z & G 35 C oupe M / T 2005 3 50Z M /T 2005 3 50Z T ra ck, 3 5th & G 35 M /T 2006 3 50Z & G 35 C oupe M / T Descrip tio n In fin ity P in N am e In fin ity 17 --- --- --- --- --- --- --- --- --- 18 --- --- --- --- --- --- --- --- --- 19 --- --- --- --- --- --- --- --- --- 20 --- --- --- --- --- --- --- --- --- 21 In je cto r 5 In je cto r 5 In je cto r 5 In je cto r 5 In je cto r 5 In je cto r 5 Hig h Im pedance in je cto rs , 2 90cc @ 4 3.5 psi In je cto r 5 C1-5 7 22 In je cto r 3 In je cto r 3 In je cto r 3 In je cto r 3 In je cto r 3 In je cto r 3 Hig h Im pedance in je cto rs , 2 90cc @ 4 3.5 psi In je cto r 3 C1-5 9 23 In je cto r 1 In je cto r 1 In je cto r 1 In je cto r 1 In je cto r 1 In je cto r 1 Hig h Im pedance in je cto rs , 2 90cc @ 4 3.5 psi In je cto r 1 C1-6 3 24 O2 S en so r 1 h eate r ( b an k1) O2 S en so r 1 h eate r ( b an k1) UEG O H - 2 UEG O H - 2 UEG O H - 2 UEG O H - 2 PW M L S h eate r s ig nal (1 2V i s s upplie d in dependently o f E C U.) UEG O2 H eat C2-4 9 25 O2 S ensor 2 h eate r ( b ank1) O2 S ensor 2 h eate r ( b ank1) O2 S ensor 2 h eate r ( b ank1) O2 S ensor 2 h eate r ( b ank1) O2 S ensor 2 h eate r ( b ank1) O2 S ensor 2 h eate r ( b ank1) PW M L S h eate r s ig nal (1 2V i s s upplie d in dependently o f E C U.) --- --- 26 --- --- --- --- --- --- --- --- --- 27 --- --- --- --- --- --- --- --- --- 28 --- --- --- --- --- --- --- --- --- 29 --- --- --- --- --- --- --- --- --- 30 --- --- --- --- --- --- --- --- --- 31 --- --- --- --- --- --- --- --- --- 32 EVAP p re ssure s ensor EVAP p re ssure s ensor EVAP p re ssure s ensor EVAP p re ssure s ensor EVAP p re ssure s ensor EVAP p re ssure s ensor 0–5V A nalo g In put Ana17 C2-1 2 33 Cam s ensor ( b ank1) Cam s ensor ( b ank1) Cam s ensor ( b ank1) Cam s ensor ( b ank1) Cam s ensor ( b ank1) Cam s ensor ( b ank1) Hall S ensor Dig it a l 1 - C am 1 C1-2 2 34 In ta ke A ir T em p In ta ke A ir T em p In ta ke A ir T em p In ta ke A ir T em p In ta ke A ir T em p In ta ke A ir T em p Therm is te r in put Tem p 2 - A ir T em p ( M anif o ld ) C1-6 7 35 Oxyg en S en so r 1 ( b an k1) Oxyg en S en so r 1 ( b an k1) UEG O V M -1 UEG O V M -1 UEG O V M -1 UEG O V M -1 UEG O UEG O1 V M C1-8 36 --- --- --- --- --- --- --- --- --- 37 --- --- --- --- --- --- --- --- --- 38 --- --- --- --- --- --- --- --- --- 39 --- --- --- --- --- --- --- --- ---
2003–2006 N is sa n 3 50Z/In fin iti G 35 23 © 2 015 A EM P erfo rm ance E le ctr o nic s 350Z / G 35 P IN 2003 3 50Z & G 35 C oupe ( M /T ) 2004 3 50Z & G 35 C oupe ( M /T ) 2004.5 3 50Z & G 35 C oupe M / T 2005 3 50Z M /T 2005 3 50Z T ra ck, 3 5th & G 35 M /T 2006 3 50Z & G 35 C oupe M / T Descrip tio n In fin ity P in N am e In fin ity 40 In je cto r 6 In je cto r 6 In je cto r 6 In je cto r 6 In je cto r 6 In je cto r 6 Hig h Im pedance in je cto rs , 2 90cc @ 4 3.5 psi In je cto r 6 C1-5 6 41 In je cto r 4 In je cto r 4 In je cto r 4 In je cto r 4 In je cto r 4 In je cto r 4 Hig h Im pedance in je cto rs , 2 90cc @ 4 3.5 psi In je cto r 4 C1-5 8 42 In je cto r 2 In je cto r 2 In je cto r 2 In je cto r 2 In je cto r 2 In je cto r 2 Hig h Im pedance in je cto rs , 2 90cc @ 4 3.5 psi In je cto r 2 C1-6 2 43 --- --- --- --- --- --- --- --- --- 44 --- --- --- --- --- --- --- --- --- 45 EVAP c anis te r p urg e s ole noid EVAP c anis te r p urg e s ole noid EVAP c anis te r p urg e s ole noid EVAP c anis te r p urg e s ole noid EVAP c anis te r p urg e s ole noid EVAP c anis te r p urg e s ole noid PW M L S s ig nal (1 2V is s upplie d in dependently o f E C U) Low sid eS wit c h9 C2-2 9 46 --- --- --- --- --- --- --- --- --- 47 Vcc (T P S) Vcc (T P S) Vcc (T P S) Vcc (T P S) Vcc (T P S) Vcc (T P S) 5V S ensor V cc +5V _O ut C1-4 1 48 Vcc ( E VAP p re ssure s ensor) Vcc ( E VAP p re ssure s ensor) Vcc ( E VAP p re ssure s ensor) Vcc ( E VAP p re ssure s ensor) Vcc ( E VAP p re ssure s ensor) Vcc ( E VAP p re ssure s ensor) 5V S ensor V cc +5V _O ut C1-4 2 49 Vcc ( re frig era n t p re ssure ) Vcc ( re frig era n t p re ssure ) Vcc ( re frig era n t p re ssure ) Vcc ( re frig era n t p re ssure ) Vcc ( re frig era n t p re ssure ) Vcc ( re frig era n t p re ssure ) 5V S ensor V cc +5V _O ut C2-2 2 50 TP S1 TP S1 TP S1 TP S1 TP S1 TP S1 0–5V A nalo g In put Ana7 - T hro ttle C1-3 5 51 MAF MAF MAF MAF MAF MAF 0–5V A nalo g In put Ana20 - M AF A nalo g C2-3 3 52 --- --- --- --- --- --- --- --- --- 53 --- --- --- --- eV TC E xh P os ( b an k 1 ) eV TC E xh P os ( b an k 1 ) 12V H all s ig nal. 3 e v en, s hort, p uls es p er c y cle Dig it a l 4 C1-2 5 54 --- --- --- --- --- --- --- --- --- 55 Oxy gen S ensor 2 ( b ank2) Oxy gen S ensor 2 ( b ank2) Oxy gen S ensor 2 ( b ank2) Oxy gen S ensor 2 ( b ank2) Oxy gen S ensor 2 ( b ank2) Oxy gen S ensor 2 ( b ank2) 0–5V A nalo g In put --- --- 56 --- --- UEG O IP - 1 UEG O IP - 1 UEG O IP - 1 UEG O IP - 1 UEG O UEG O1 IP C1-6 57 --- --- UEG O V M -2 UEG O V M -2 UEG O V M -2 UEG O V M -2 UEG O UEG O2 V M C2-4 5 58 --- --- UEG O IP - 2 UEG O IP - 2 UEG O IP - 2 UEG O IP - 2 UEG O UEG O2 IP C2-4 7 59 --- --- --- --- --- --- --- --- --- 60 ig nit io n 5 ig nit io n 5 ig nit io n 5 ig nit io n 5 ig nit io n 5 ig nit io n 5 TTL C oil s ig nal Coil 5 C1-1 6 61 ig nit io n 3 ig nit io n 3 ig nit io n 3 ig nit io n 3 ig nit io n 3 ig nit io n 3 TTL C oil s ig nal Coil 3 C1-1 2
24 © 2 015 A EM P erfo rm ance E le ctr o nic s P /N 3 0-3 520 350Z / G 35 P IN 2003 3 50Z & G 35 C oupe ( M /T ) 2004 3 50Z & G 35 C oupe ( M /T ) 2004.5 3 50Z & G 35 C oupe M / T 2005 3 50Z M /T 2005 3 50Z T ra ck, 3 5th & G 35 M /T 2006 3 50Z & G 35 C oupe M / T Descrip tio n In fin ity P in N am e In fin ity 62 ig nit io n 1 ig nit io n 1 ig nit io n 1 ig nit io n 1 ig nit io n 1 ig nit io n 1 TTL C oil s ig nal Coil 1 C1-1 4 63 --- --- --- --- --- --- --- --- --- 64 --- --- --- --- --- --- --- --- --- 65 --- --- --- --- --- --- --- --- --- 66 Sensor g ro und ( tp s) Sensor g ro und ( tp s) Sensor g ro und ( tp s) Sensor g ro und ( tp s) Sensor g ro und ( tp s) Sensor g ro und ( tp s) Sensor G ro und Sensor G ND C1-1 9 67 Sensor g ro und Sensor g ro und Sensor g ro und Sensor g ro und Sensor g ro und Sensor g ro und Sensor G ro und Sensor G ND C1-2 0 68 Vcc ( p ow er s te erin g p re ssure ) Vcc ( p ow er s te erin g p re ssure ) Vcc ( p ow er s te erin g p re ssure ) Vcc ( p ow er s te erin g p re ssure ) Vcc ( p ow er s te erin g p re ssure ) Vcc ( p ow er s te erin g p re ssure ) 5V S ensor V cc +5V _O ut C2-2 3 69 TP S 2 TP S 2 TP S 2 TP S 2 TP S 2 TP S 2 0–5V A nalo g In put Ana16 - T hro ttle 2 C2-2 1 70 Refrig era n t p re ssure s ensor Refrig era n t p re ssure s ensor Refrig era n t p re ssure s ensor Refrig era n t p re ssure s ensor Refrig era n t p re ssure s ensor Refrig era n t p re ssure s ensor 0–5V A nalo g In put Ana22 C2-3 5 71 --- --- --- --- --- --- --- --- --- 72 --- --- --- --- eV TC E xh P os ( b an k 2 ) eV TC E xh P os ( b an k 2 ) 12V H all s ig nal. 3 e v en, s hort, p uls es p er c y cle Dig it a l 3 C1-2 4 73 Coola nt t e m pera tu r e Coola nt t e m pera tu r e Coola nt t e m pera tu r e Coola nt t e m pera tu r e Coola nt t e m pera tu r e Coola nt t e m pera tu r e Therm is te r in put Tem p 1 - C oola nt T em p C1-6 6 74 Oxy gen S ensor 2 ( b ank1) Oxy gen S ensor 2 ( b ank1) Oxy gen S ensor 2 ( b ank1) Oxy gen S ensor 2 ( b ank1) Oxy gen S ensor 2 ( b ank1) Oxy gen S ensor 2 ( b ank1) 0–5V A nalo g In put --- --- 75 --- --- UEG O IA - 1 UEG O IA - 1 UEG O IA - 1 UEG O IA - 1 UEG O UEG O1 IA C1-5 76 --- --- UEG O U N-2 UEG O U N-2 UEG O U N-2 UEG O U N-2 UEG O UEG O2 U N C2-4 6 77 --- --- UEG O IA - 2 UEG O IA - 2 UEG O IA - 2 UEG O IA - 2 UEG O UEG O2 IA C2-4 8 78 Sensor g nd (O 2 S ensor) Sensor g nd (O 2 S ensor) Sensor g nd (O 2 S ensor) Sensor g nd (O 2 S ensor) Sensor g nd (O 2 S ensor) Sensor g nd (O 2 S ensor) Sensor G ro und Sensor G ND C2-3 0 79 ig nit io n 6 ig nit io n 6 ig nit io n 6 ig nit io n 6 ig nit io n 6 ig nit io n 6 TTL C oil s ig nal Coil 6 C1-1 5 80 ig nit io n 4 ig nit io n 4 ig nit io n 4 ig nit io n 4 ig nit io n 4 ig nit io n 4 TTL C oil s ig nal Coil 4 C1-1 1 81 ig nit io n 2 ig nit io n 2 ig nit io n 2 ig nit io n 2 ig nit io n 2 ig nit io n 2 TTL C oil s ig nal Coil 2 C1-1 3 82 Sensor g ro und ( A PP 1 ) Sensor g ro und ( A PP 1 ) Sensor g ro und ( A PP 1 ) Sensor g ro und ( A PP 1 ) Sensor g ro und ( A PP 1 ) Sensor g ro und ( A PP 1 ) Sensor G ro und Sensor G ND C2-3 1
2003–2006 N is sa n 3 50Z/In fin iti G 35 25 © 2 015 A EM P erfo rm ance E le ctr o nic s 350Z / G 35 P IN 2003 3 50Z & G 35 C oupe ( M /T ) 2004 3 50Z & G 35 C oupe ( M /T ) 2004.5 3 50Z & G 35 C oupe M / T 2005 3 50Z M /T 2005 3 50Z T ra ck, 3 5th & G 35 M /T 2006 3 50Z & G 35 C oupe M / T Descrip tio n In fin ity P in N am e In fin ity 83 Sensor g ro und ( A PP 2 ) Sensor g ro und ( A PP 2 ) Sensor g ro und ( A PP 2 ) Sensor g ro und ( A PP 2 ) Sensor g ro und ( A PP 2 ) Sensor g ro und ( A PP 2 ) Sensor G ro und Sensor G ND C2-3 2 84 --- --- --- --- --- --- --- --- --- 85 DATA L in k C onnecto r DATA L in k C onnecto r Data lin k C onnecto r Data lin k C onnecto r Data lin k C onnecto r Data lin k C onnecto r IS O /K W P (P in 7 o n O BD 2 C onnecto r) --- --- 86 CAN L ( w /1 20 o hm r e sis to r) CAN L ( w /1 20 o hm r e sis to r) CAN L ( w /1 20 o hm r e sis to r) CAN L ( w /1 20 o hm r e sis to r) CAN L ( w /1 20 o hm r e sis to r) CAN L ( w /1 20 o hm r e sis to r) Term in ate d C AN n ode CAN B - C2-4 2 87 --- --- --- --- --- --- --- --- --- 88 --- --- --- --- --- --- --- --- --- 89 --- --- --- --- --- --- --- --- --- 90 Vcc (A PP 1 ) Vcc (A PP 1 ) Vcc (A PP 1 ) Vcc (A PP 1 ) Vcc (A PP 1 ) Vcc (A PP 1 ) 5V S ensor V cc +5V _O ut C2-2 4 91 Vcc (A PP 2 ) Vcc (A PP 2 ) Vcc (A PP 2 ) Vcc (A PP 2 ) Vcc (A PP 2 ) Vcc (A PP 2 ) 5V S ensor V cc +5V _O ut C2-2 4 92 --- --- --- --- --- --- --- --- --- 93 --- --- --- --- --- --- --- --- --- 94 CAN H ( w /1 20 o hm r e sis to r) CAN H ( w /1 20 o hm r e sis to r) CAN H ( w /1 20 o hm r e sis to r) CAN H ( w /1 20 o hm r e sis to r) CAN H ( w /1 20 o hm r e sis to r) CAN H ( w /1 20 o hm r e sis to r) Term in ate d C AN n ode CAN B + C2-4 1 95 --- --- --- --- --- --- --- --- --- 96 --- --- --- --- --- --- --- --- --- 97 --- --- --- --- --- --- --- --- --- 98 APP 2 APP 2 APP 2 APP 2 APP 2 APP 2 0–5V A nalo g In put Ana19 - A PP 2 C2-1 4 99 ASC D s te erin g s w it c h ASC D s te erin g s w it c h ASC D s te erin g s w it c h ASC D s te erin g s w it c h ASC D s te erin g s w it c h ASC D s te erin g s w it c h Use 2 .4 9k T herm is te r i n put. ~ 0v =M ain , ~ 0.5 v =C ancel, ~ 1v =set/ c oast, ~ 1.9 v =R es/A cc, o th erw is e ~ 3.1 v Tem p 4 - C harg eO utT e m p C2-1 5 100 --- --- --- --- --- --- --- --- --- 101 sto p la m p s w it c h sto p la m p s w it c h sto p la m p s w it c h sto p la m p s w it c h sto p la m p s w it c h sto p la m p s w it c h 0V re le ased, 1 2V w hen p re ssed Dig it a l 6 - (n o P /U ) C2-3 7 102 PN P s w it c h PN P s w it c h PN P s w it c h PN P s w it c h PN P s w it c h Neutra l S afe ty S wit c h Gro unds w hen in N eutra l, o th erw is e O /C Dig it a l 5 - C1-2 6 103 --- --- --- --- --- --- --- --- ---
26 © 2 015 A EM P erfo rm ance E le ctr o nic s P /N 3 0-3 520 350Z / G 35 P IN 2003 3 50Z & G 35 C oupe ( M /T ) 2004 3 50Z & G 35 C oupe ( M /T ) 2004.5 3 50Z & G 35 C oupe M / T 2005 3 50Z M /T 2005 3 50Z T ra ck, 3 5th & G 35 M /T 2006 3 50Z & G 35 C oupe M / T Descrip tio n In fin ity P in N am e In fin ity 104 DBW m oto r r e la y (L S ) DBW m oto r r e la y (L S ) DBW m oto r r e la y (L S ) DBW m oto r r e la y (L S ) DBW m oto r r e la y (L S ) DBW m oto r r e la y (L S ) LS to a ctiv ate 12V _R ela y _C o n tro l C1-2 9 ( s plic e) 105 --- --- --- --- --- --- --- --- --- 106 APP 1 APP 1 APP 1 APP 1 APP 1 APP 1 0–5V A nalo g In put Ana18 - A PP 1 C2-1 3 107 Fuel ta nk t e m p Fuel ta nk t e m p Fuel ta nk t e m p Fuel ta nk t e m p Fuel ta nk t e m p Fuel ta nk t e m p Therm is te r, 2 0C = 2 .3 – 2 .7 K ohm , 5 0C = 7 90–900 o hm Tem p 6 - T ra ns/ F uelT em p C2-1 7 108 AC SD b ra ke s w it c h AC SD b ra ke s w it c h AC SD b ra ke s w it c h AC SD b ra ke s w it c h AC SD b ra ke s w it c h AC SD b ra ke s w it c h 12V w hen o n, O C w hen o ff Dig it a l 7 - C lu tc hS wit c h ( n o P /U ) C2-3 8 109 Ig nit io n s w it c h Ig nit io n s w it c h Ig nit io n s w it c h Ig nit io n s w it c h Ig nit io n s w it c h Ig nit io n s w it c h 12V w hen O N o r C ra nkin g +12V S W (Ig n S wit c h) C1-6 5 110 --- --- --- --- --- --- --- --- --- 111 Main R ela y C ontro l ( L S ) Main R ela y C ontro l ( L S ) Main R ela y C ontro l ( L S ) Main R ela y C ontro l ( L S ) Main R ela y C ontro l ( L S ) Main R ela y C ontro l ( L S ) LS to a ctiv ate 12V _R ela y _C o n tro l C1-2 9 ( s plic e) 112 --- --- --- --- --- --- --- --- --- 113 Fuel P um p R ela y ( L S ) Fuel P um p R ela y ( L S ) Fuel P um p R ela y ( L S ) Fuel P um p R ela y ( L S ) Fuel P um p R ela y ( L S ) Fuel P um p R ela y ( L S ) LS to a ctiv ate Low sid eS wit c h0 f u el p um p C1-3 4 114 --- --- --- --- --- --- --- --- --- 115 EC M g ro und EC M g ro und EC M g ro und EC M g ro und EC M g ro und EC M g ro und Main p ow er g ro und GND C1-5 5, 6 0, 7 3 116 EC M g ro und EC M g ro und EC M g ro und EC M g ro und EC M g ro und EC M g ro und Main p ow er g ro und GND C2-3 , 8 117 EVAP v ent c ontro l v alv e EVAP v ent c ontro l v alv e EVAP v ent c ontro l v alv e EVAP v ent c ontro l v alv e EVAP v ent c ontro l v alv e EVAP v ent c ontro l v alv e LS to a ctiv ate Low sid eS wit c h7 S pare G PO 1 C2-4 4 118 --- --- --- --- --- --- --- --- --- 119 Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) 12V in put, s w it c hed o n/o ff b y m ain re la y (p 111) +12V C1-6 1 120 Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) Pow er ( f ro m M ain R ela y ) 12V in put, s w it c hed o n/o ff b y m ain re la y (p 111) +12V C1-6 4 121 Perm P ow er Perm P ow er Perm P ow er Perm P ow er Perm P ow er Perm P ow er 12V p erm p ow er +12V P erm P ow er C1-1 0
2003–2006 N is sa n 3 50Z/In fin iti G 35 27 © 2 015 A EM P erfo rm ance E le ctr o nic s In fin it y P in outs Dedic ate d Dedic ate d a nd n ot r e config ura ble Assig ned Assig ned b ut r e config ura ble Ava ila ble Ava ila ble f o r u ser s etu p Not A pplic able Not u sed in t h is c onfig ura tio n Requir e d Requir e d f o r p ro per f u nctio n In fin ity P in Hard w are R efe re n ce 2003–2006 3 50Z / G 35 S pecific atio n Dest. P in 3 50Z / G 35 Hard w are S pecific atio n Note s C1-1 Harn ess_Low sid eS wit c h_4 A/C C om pre ssor C lu tc h R ela y Low sid e s w it c h, 1 .7 A m ax, N O in te rn al f ly back d io de. See S etu p W iz a rd P age L ow Sid e A ssig nm ent T able s f o r a ctiv atio n c rit e ria . C1-2 Harn ess_Low sid eS wit c h_6 VVC 2A S ole noid C ontro l 9 Low sid e s w it c h, 6 A m ax w it h in te rn al f ly back d io de. In ductiv e lo ad s hould N OT h av e f u ll t im e p ow er. See S etu p W iz a rd P age L ow Sid e A ssig nm ent T able s f o r a ctiv atio n c rit e ria . C1-3 Harn ess_Low sid eS wit c h_5 VVC 1B S ole noid C ontro l 10 Low sid e s w it c h, 6 A m ax w it h in te rn al f ly back d io de. In ductiv e lo ad s hould N OT h av e f u ll t im e p ow er. See S etu p W iz a rd P age L ow Sid e A ssig nm ent T able s f o r a ctiv atio n c rit e ria . C1-4 Harn ess_U EG O_H eat-_ 1 UEG O 1 H eat 2 Bosch U EG O c ontro lle r Low sid e s w it c h f o 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 OTE 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 f u sed/s w it c hed 1 2V s upply . C1-5 Harn ess_U EG O_IA _1 UEG O 1 IA 75 Trim C urre nt s ig nal. C onnect to p in 2 o f B osch U EG O s ensor. C1-6 Harn ess_U EG O_IP _1 UEG O 1 IP 56 Pum pin g C urre nt s ig nal. C onnect to p in 6 o f B osch U EG O s ensor. C1-7 Harn ess_U EG O_U N_1 UEG O 1 U N 16 Nern st V olt a ge s ig nal. C onnect to p in 1 o f B osch U EG O s ensor. C1-8 Harn ess_U EG O_V M _1 UEG O 1 V M 35 Vir tu al G ro und s ig nal. C onnect to p in 5 o f B osch U EG O s ensor. C1-9 Harn ess_F la sh_E nable Harn ess F la sh E nable 10K p ulld ow n Not u sually n eeded f o 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 olt 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 olt s s ig nal a fte r t h e u pdate . C1-1 0 +12V _R 8C _C PU Batte ry P erm P ow er 121 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 i n put is trig gere d (S ee C 1-6 5). C1-1 1 Harn ess_C oil_ 3 Coil 4 80 25 m A m ax s ourc e c urre nt 0–5V F allin g e dge f ir e . D O N OT 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 ALLIN G e dge f ir e s ig nal.
28 © 2 015 A EM P erfo rm ance E le ctr o nic s P /N 3 0-3 520 In fin ity P in Hard w are R efe re n ce 2003–2006 3 50Z / G 35 S pecific atio n Dest. P in 3 50Z / G 35 Hard w are S pecific atio n Note s C1-1 2 Harn ess_C oil_ 2 Coil 3 61 25 m A m ax s ourc e c urre nt 0–5V F allin g e dge f ir e . D O N OT 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 ALLIN G e dge f ir e s ig nal. C1-1 3 Harn ess_C oil_ 1 Coil 2 81 25 m A m ax s ourc e c urre nt 0–5V F allin g e dge f ir e . D O N OT 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 ALLIN G e dge f ir e s ig nal. C1-1 4 Harn ess_C oil_ 0 Coil 1 62 25 m A m ax s ourc e c urre nt 0–5V F allin g e dge f ir e . D O N OT 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 ALLIN G e dge f ir e s ig nal. C1-1 5 Harn ess_C oil_ 5 Coil 6 79 25 m A m ax s ourc e c urre nt 0–5V F allin g e dge f ir e . D O N OT 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 ALLIN G e dge f ir e s ig nal. C1-1 6 Harn ess_C oil_ 4 Coil 5 60 25 m A m ax s ourc e c urre nt 0–5V F allin g e dge f ir e . D O N OT 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 ALLIN G e dge f ir e s ig nal. C1-1 7 Harn ess_Low sid eS wit c h_2 Rad F an 1 NC Low sid e s w it c h, 1 .7 A m ax, N O in te rn al f ly back d io de. See S etu p W iz a rd P age L ow Sid e A ssig nm ent T able s f o r a ctiv atio n c rit e ria . C1-1 8 Harn ess_Low sid eS wit c h_3 VVC 1A 11 Low sid e s w it c h, 6 A m ax w it h in te rn al f ly back d io de. In ductiv e lo ad s hould N OT h av e f u ll t im e p ow er. See S etu p W iz a rd P age L ow Sid e A ssig nm ent T able s f o r a ctiv atio n c rit e ria . C1-1 9 AG ND_1 Sensor G ro und 66 Dedic ate d a nalo g g ro und Analo g 0 –5V s ensor g ro und C1-2 0 AG ND_1 Sensor G ro und 67 Dedic ate d a nalo g g ro und Analo g 0 –5V s ensor g ro und C1-2 1 Harn ess_D ig it a l_ In _0 Cra nkshaft P osit io n S ensor H all 13 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r f lo atin g s w it c hes. See S etu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 2 Harn ess_D ig it a l_ In _1 Cam shaft P osit io n S ensor 1 H all 33 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r f lo atin g s w it c hes. See S etu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 3 Harn ess_D ig it a l_ In _2 Cam shaft P osit io n S ensor 2 H all 14 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r f lo atin g s w it c hes. See S etu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 4 Harn ess_D ig it a l_ In _3 Cam shaft P osit io n S ensor 4 H all 72 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r f lo atin g s w it c hes. See S etu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 5 Harn ess_D ig it a l_ In _4 Cam shaft P osit io n S ensor 3 H all 53 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r f lo atin g s w it c hes. See S etu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-2 6 Harn ess_D ig it a l_ In _5 Fle x F uel 10K p ullu p to 1 2V . W ill w ork w it h g ro und o r f lo atin g s w it c hes. See c hannel F le xD ig it a lI n [H z] f o r ra w f re quency in put d ata . C1-2 7 Harn ess_K nock_In _0 Knock S ensor 1 15 Dedic ate d k nock s ig nal p ro cessor See S etu p W iz a rd p age K nock S etu p f o r o ptio ns. C1-2 8 Harn ess_K nock_In _1 Knock S ensor 2 NC Dedic ate d k nock s ig nal p ro cessor See S etu p W iz a rd p age K nock S etu p f o r o ptio ns.
2003–2006 N is sa n 3 50Z/In fin iti G 35 29 © 2 015 A EM P erfo rm ance E le ctr o nic s In fin ity P in Hard w are R efe re n ce 2003–2006 3 50Z / G 35 S pecific atio n Dest. P in 3 50Z / G 35 Hard w are S pecific atio n Note s C1-2 9 Harn ess_ + 12V _R ela y _C ontro l +12V R ela y C ontro l 104, 1 11 0.7 A m ax g ro und s in k f o r e xte rn al re la y c ontro l Will a ctiv ate 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. C1-3 0 Pow er G ro und Gro und Pow er G ro und Connect d ir e ctly to b atte ry g ro und. C1-3 1 Harn ess_C AN L_A out AEM Net C AN L Dedic ate d H ig h S peed C AN T ra nsceiv er 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 f o r a ddit io nal in fo rm atio n. C1-3 2 Harn ess_C AN H_A out AEM Net C AN H Dedic ate d H ig h S peed C AN T ra nsceiv er 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 f o r a ddit io nal in fo rm atio n. C1-3 3 Harn ess_Low sid eS wit c h_1 Boost C ontro l Low sid e s w it c h, 1 .7 A m ax w it h in te rn al f ly back d io de. In ductiv e lo ad s hould N OT h av e f u ll t im e p ow er. See S etu 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 hannel f o r o utp ut s ta te . C1-3 4 Harn ess_Low sid eS wit c h_0 Fuel P um p 2 113 Low sid e s w it c h, 1 .7 A m ax, N O in te rn al f ly back d io de. Swit c hed g ro und. W ill p rim e f o r 2 s econds a t k ey o n a nd a ctiv ate if R PM > 0 . C1-3 5 Harn ess_A nalo g_In _7 Thro ttle P osit io n S ensor 1 50 12 b it A /D , 1 00K p ullu p to 5 V 0–5V 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 C U. S ee th e D riv e b y W ir e W iz a rd f o r c alib ra tio n. C1-3 6 Harn ess_A nalo g_In _8 MAP S ensor 12 b it A /D , 1 00K p ullu p to 5 V 0–5V 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 C U. S ee th e S etu p W iz a rd S et M anif o ld P re ssure p age f o r s etu p a nd c alib ra tio n. M onit o r th e M AP [k P a] c hannel. C1-3 7 Harn ess_A nalo g_In _9 Fuel P re ssure 12 b it A /D , 1 00K p ullu p to 5 V 0–5V 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 C U. S ee th e S etu p W iz a rd F uel P re ssure p age f o r s etu p a nd c alib ra tio n. M onit o r th e F uelP re ssure [ p sig ] c hannel. C1-3 8 Harn ess_A nalo g_In _10 Baro S ensor 12 b it A /D , 1 00K p ullu p to 5 V 0–5V 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 C U. S ee th e S etu p W iz a rd B aro m etric P re ssure p age f o r s etu p a nd c alib ra tio n. M onit o r th e B aro P re ss [ k P a] c hannel.
30 © 2 015 A EM P erfo rm ance E le ctr o nic s P /N 3 0-3 520 In fin ity P in Hard w are R efe re n ce 2003–2006 3 50Z / G 35 S pecific atio n Dest. P in 3 50Z / G 35 Hard w are S pecific atio n Note s C1-3 9 Harn ess_A nalo g_In _11 Shif t S wit c h I n put 12 b it A /D , 1 00K p ullu p to 5 V 0–5V 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 C U. S ee th e 1 -a xis lo okup ta ble S hif tS wit c h f o r s etu p. C1-4 0 Harn ess_A nalo g_In _12 Boost M ode 12 b it A /D , 1 00K p ullu p to 5 V 0–5V 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 C U. S ee th e B oostM odeA nalo gIn c hannel f o r in put s ta te . A m ult i- p osit io n ro ta ry s w it c h s uch a s A EM P / N 3 0-2 056 is re com mended. C1-4 1 +5V _O ut_ 1 +5V O ut T P S 47 Regula te d, f u sed + 5V s upply f o r s ensor p ow er Analo g s ensor p ow er C1-4 2 +5V _O ut_ 1 +5V O ut E VAP P re ss 48 Regula te d, f u sed + 5V s upply f o r s ensor p ow er Analo g s ensor p ow er C1-4 3 Harn ess_H ig hsid eS wit c h_1 Spare H ig hsid e ( s w it c hed 1 2V ) 0.7 A m ax, H ig h S id e S olid S ta te R ela y See S etu p W iz a rd p age S pare H ig hsid e f o r c onfig ura tio n o ptio ns. S ee 2 a xis lo okup ta ble S pare _H S f o r a ctiv atio n s ettin gs. C1-4 4 Harn ess_H ig hsid eS wit c h_0 VTE C 0.7 A m ax, H ig h S id e S olid S ta te R ela y +12V H ig h S id e D riv e. S ee S etu p W iz a rd H onda V TE C p age f o r o ptio ns. C1-4 5 Harn ess_V R +_In _0 Cra nkshaft P osit io n S ensor V R + Dif fe 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 a rd p age C am /C ra nk f o r o ptio ns. C1-4 6 Harn ess_V R -_ In _0 Cra nkshaft P osit io n S ensor V R - See S etu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-4 7 Harn ess_V R -_ In _1 Cam shaft P osit io n S ensor 1 V R - Dif fe 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 a rd p age C am /C ra nk f o r o ptio ns. C1-4 8 Harn ess_V R +_In _1 Cam shaft P osit io n S ensor 1 V R + See S etu p W iz a rd p age C am /C ra nk f o r o ptio ns. C1-4 9 Harn ess_V R +_In _2 Non D riv en L eft W heel S peed S ensor + Dif fe re ntia l V aria ble R elu cta nce Z ero C ro ss D ete ctio n See N on D riv en W heel S peed C alib ra tio n in th e S etu p W iz a rd V ehic le S peed p age. C1-5 0 Harn ess_V R -_ In _2 Non D riv en L eft W heel S peed S ensor - C1-5 1 Harn ess_V R -_ In _3 Driv en L eft W heel S peed S ensor - Dif fe re ntia l V aria ble R elu cta nce Z ero C ro ss D ete ctio n See D riv en W heel S peed C alib ra tio n in t h e S etu p W iz a rd V ehic le S peed p age. C1-5 2 Harn ess_V R +_In _3 Driv en L eft W heel S peed S ensor + C1-5 3 Harn ess_H Brid ge0_0 HBrid ge0_0 4 5.0 A m ax T hro ttle C ontro l H brid ge +12V to C lo se