AEM Nissan 19941996 Silvia SR20DET 303517 User Manual
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PIN O UTS 11 © 2 015 A EM P erfo rm ance E le ctr o nic s Gro und C 1-2 4 AG ND Sensor G ro und C3-3 Dedic ate d a nalo g g ro und Sensor g ro und f o r 0 -5 v a nalo g in puts . C 1-2 5 Cra nk P osit io n S ensor 1 H all Cra nk S ig nal C2-4 2, C 2-5 2 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. F re quency in put o nly . See S etu p W iz a rd C am /C ra nk p age f o r o ptio ns. C 1-2 6 Cam P osit io n S ensor 1 H all Cam S ig nal C2-4 1, C 2-5 1 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. F re quency in put o nly . See S etu p W iz a rd C am /C ra nk p age f o r o ptio ns. C 1-2 7 Dig it a l_ In _2 --- --- 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. F re quency in put o nly . Not u sed. C 1-2 8 Dig it a l_ In _3 --- C3-9 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. F re quency in put o nly . Availa ble f re quency in put. M ay b e u sed f o r F le x F uel, T urb o S peed, o r o th er. S ee S etu p W iz a rd to c onfig ure i n put. C 1-2 9 Dig it a l_ In _4 Vehic le S peed I n put C2-5 3 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. F re quency in put o nly . Config ure d in B ase S essio n f o r v ehic le s peed. M ay b e a dju ste d u nder V ehic le S peed In put o ptio ns in S etu p W iz a rd . C 1-3 0 Dig it a l_ In _5 A/C S wit c h C2-4 3 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. S wit c h i n put o nly . Config ure d in B ase S essio n f o r A /C S wit c h. M ay b e r e assig ned in S etu p W iz a rd In put F unctio n A ssig nm ents . C 1-3 1 Dig it a l_ In _6 ( In fin it y -6 O NLY ) --- --- 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. F re quency in put o nly . Availa ble f re quency in put. M ay b e u sed f o r F le x F uel, T urb o S peed, o r o th er. S ee S etu p W iz a rd to c onfig ure i n put. C 1-3 1* Coil 7 ( In fin it y -8 h O NLY ) --- --- 25 m A m ax s ourc e c urre nt Not u sed. C 1-3 2 Dig it a l_ In _7 ( In fin it y -6 O NLY ) --- C3-1 0 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. S wit c h i n put o nly . Availa ble s w it c h in put. M ay b e u sed f o r C lu tc h, B ra ke, N it ro us, o r o th er. S ee S etu p W iz a rd to c onfig ure in put. C 1-3 2* Coil 8 ( In fin it y -8 h O NLY ) --- --- 25 m A m ax s ourc e c urre nt Not u sed. C 1-3 3 Pow er G ro und Gro und C2-1 0 Pow er g ro und Pow er g ro und. C 1-3 4 CAN A - --- C5-2 Dedic ate d h ig h s peed C AN t ra nsceiv er Four p in A EM net c onnecto r in P nP h arn ess. T ra nsm it a nd re ceiv e to /f ro m A EM A Q -1 lo gger, 4 -c hannel U EG O c ontro lle r, a nd th ir d p arty d ash d is pla y s. C 1-3 5 CAN A + --- C5-1 Dedic ate d h ig h s peed C AN t ra nsceiv er Four p in A EM net c onnecto r in P nP h arn ess. T ra nsm it a nd re ceiv e to /f ro m A EM A Q -1 lo gger, 4 -c hannel U EG O c ontro lle r, a nd th ir d p arty d ash d is pla y s. C 1-3 6 CAN B - --- --- Dedic ate d h ig h s peed C AN t ra nsceiv er Not u sed. C 1-3 7 CAN B + --- --- Dedic ate d h ig h s peed C AN t ra nsceiv er Not u sed. C 1-3 8 Tem p 1 Coola nt T em p S ensor C2-2 8 2.4 9k p ullu p to 5 v See S etu p W iz a rd C oola nt T em pera tu re p age f o r o ptio ns. C 1-3 9 Tem p 2 Air T em p S ensor C3-2 2.4 9k p ullu p to 5 v Must w ir e IA T s ensor to A U X p lu g in P nP h arn ess. S ee S etu p W iz a rd B asic S ensors p age f o r o ptio ns. C 1-4 0 Tem p 3 --- C3-7 2.4 9k p ullu p to 5 v Availa ble te m pera tu re in put. M ay b e u sed f o r O il T em pera tu re in put o r o th er. S ee S etu p W iz a rd In put F unctio n A ssig nm ents . C 1-4 1 Low sid eS wit c h_0 Fuel P um p C2-1 8 Low sid e s w it c h, 4 A m ax, N O in te rn al f ly back d io de. N o p ullu p. 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 . C 1-4 2 Low sid eS wit c h_1 Boost C ontro l C2-2 5 Low sid e s w it c h, 4 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 tim e p ow er. N o p ullu p. Base s essio n c onfig ure d to d riv e b oost c ontro l s ole noid . M ay b e re assig ned in S etu p W iz a rd O utp ut F unctio n A ssig nm ents . C 1-4 3 Pow er G ro und Gro und C2-2 0 Pow er g ro und Pow er g ro und. C 1-4 4 Knock S ensor 1 Knock1 C2-2 3 Dedic ate d k nock s ig nal p ro cessor See S etu p W iz a rd K nock S etu p p age f o r o ptio ns. C 1-4 5 Knock S ensor 2 --- --- Dedic ate d k nock s ig nal p ro cessor Not u sed. C 1-4 6 Pow er G ro und Gro und C2-5 0 Pow er g ro und Pow er g ro und. C 1-4 7 Main R ela y C ontro l Gro und o ut to m ain re la y C2-1 6 0.7 A m ax g ro und s in k f o r e xte rn al r e 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.
P/N 3 0-3 517 1 2 © 2 015 A EM P erfo rm ance E le ctr o nic s C 1-4 8 Ig n S wit c h Ig nit io n S wit c h C2-4 5 10k p ulld ow n Full tim e b atte ry p ow er m ust b e a v aila ble a t C 1-1 0 b efo re th is in put is trig gere d. C 1-4 9 +5V _O ut +5V S ensor P ow er C2-4 8 Regula te d, f u sed + 5V s upply f o r s ensor p ow er Analo g s ensor p ow er. C 1-5 0 +5V _O ut +5V S ensor P ow er C3-4 Regula te d, f u sed + 5V s upply f o r s ensor p ow er Analo g s ensor p ow er. C 1-5 1 Analo g_In _7 Thro ttle P osit io n C2-3 8 12 b it A /D , 1 00K p ullu p to 5 V Config ure d f o r T P S in put f ro m O EM th ro ttle b ody . C 1-5 2 Analo g_In _8 MAP S ensor C3-5 12 b it A /D , 1 00K p ullu p to 5 V Must w ir e M AP s ensor to A U X p lu g in P nP h arn ess. S ee S etu p W iz a rd B asic S ensors p age f o r o ptio ns. C 1-5 3 Analo g_In _9 Fuel P re ssure C3-9 12 b it A /D , 1 00K p ullu p to 5 V Wir e o ptio nal F uel P re ssure s ensor to A U X p lu g in P nP h arn ess. S ee S etu p W iz a rd B asic S ensors p age f o r o ptio ns. C 1-5 4 VR +_In _2 --- --- Dif fe re ntia l V aria ble R elu cta nce Z ero C ro ss D ete ctio n Availa ble f o r u se a s N on-d riv en w heel s peed in put. S ee S etu p W iz a rd In put F unctio n A ssig nm ents . C 1-5 5 VR -_ In _2 --- --- C 1-5 6 VR -_ In _3 --- --- Dif fe re ntia l V aria ble R elu cta nce Z ero C ro ss D ete ctio n Availa ble f o r u se a s D riv en w heel s peed in put. S ee S etu p W iz a rd In put F unctio n A ssig nm ents . C 1-5 7 VR +_In _3 --- --- C 1-5 8 Hig hsid eS wit c h_0 --- --- 2.6 A m ax, H ig h S id e S olid S ta te R ela y Availa ble + 12V s w it c hed o utp ut. S ee S etu p W iz a rd O utp ut F unctio n A ssig nm ents to c onfig ure . C 1-5 9 Ste pper_ 1B --- --- Auto m otiv e, P ro gra m mable S te pper D riv er, u p to 2 8V a nd ± 1.4 A Not u sed. C 1-6 0 Ste pper_ 2B --- --- Auto m otiv e, P ro gra m mable S te pper D riv er, u p to 2 8V a nd ± 1.4 A Not u sed. C 1-6 1 DBW 1 M oto r- --- --- 5.0 A m ax T hro ttle C ontro l H brid ge D riv e Not u sed. C 1-6 2 DBW 1 M oto r+ --- --- 5.0 A m ax T hro ttle C ontro l H brid ge D riv e Not u sed. C 1-6 3 +12v +12v C2-4 9, C 4-3 12v p ow er f ro m m ain re la y 12v p ow er f ro m m ain re la y . C 1-6 4 In je cto r 6 In je cto r 6 Satu ra te d o r p eak a nd h old , 3 A m ax c ontin uous. In je cto r 6 . C 1-6 4* In je cto r 6 ( In fin it y -8 h O NLY ) In je cto r 6 For u se w it h h ig h im pedance (1 0- 1 5ohm s) in je cto rs o nly , 1 .7 A m ax. In je cto r 6 . C 1-6 5 In je cto r 5 In je cto r 5 Satu ra te d o r p eak a nd h old , 3 A m ax c ontin uous. In je cto r 5 . C 1-6 5* In je cto r 5 ( In fin it y -8 h O NLY ) In je cto r 5 For u se w it h h ig h im pedance (1 0- 1 5ohm s) in je cto rs o nly , 1 .7 A m ax. In je cto r 5 . C 1-6 6 In je cto r 4 In je cto r 4 C2-1 12 Satu ra te d o r p eak a nd h old , 3 A m ax c ontin uous. In je cto r 4 . C 1-6 6* In je cto r 4 ( In fin it y -8 h O NLY ) In je cto r 4 C2-1 12 For u se w it h h ig h im pedance (1 0- 1 5ohm s) in je cto rs o nly , 1 .7 A m ax. In je cto r 4 . C 1-6 7 Pow er G ro und Gro und C2-6 0, C 5-4 Pow er g ro und Pow er g ro und. C 1-6 8 +12v +12v C2-5 9, C 3-8 , C 5-3 12v p ow er f ro m m ain re la y 12v p ow er f ro m m ain re la y . C 1-6 9 Analo g_In _19 --- --- 12 b it A /D , 1 00K p ullu p to 5 V Availa ble a nalo g in put. M ay b e u sed f o r E xte rn al U EG O L am bda in put o r o th er. S ee S etu p W iz a rd In put F unctio n A ssig nm ents . C 1-7 0 Analo g_In _18 --- --- 12 b it A /D , 1 00K p ullu p to 5 V Availa ble a nalo g in put. M ay b e u sed f o r M ode S wit c h i n put o r o th er. S ee S etu p W iz a rd In put F unctio n A ssig nm ents . C 1-7 1 Analo g_In _16 --- --- 12 b it A /D , 1 00K p ullu p to 5 V Availa ble a nalo g in put. M ay b e u sed f o r C harg e O ut P re ssure in put o r o th er. S ee S etu p W iz a rd In put F unctio n A ssig nm ents C 1-7 2 Fla sh E nable Fla sh E nable Fla sh E nable C onnecto r 10k p ulld ow n Tw o p in c onnecto r in A EM a dapte r h arn ess. U se o nly to f o rc e E M S in to f la sh m ode if n orm al f ir m ware u pdate p ro cedure d oes n ot w ork . C 1-7 3 Analo g_In _13 --- C3-6 12 b it A /D , 1 00K p ullu p to 5 V Availa ble a nalo g in put. S ee S etu p W iz a rd In put F unctio n A ssig nm ents .
PIN O UTS
13
© 2 015 A EM P erfo rm ance E le ctr o nic s
C 1-7 4
Analo g_In _11
---
C3-1 2
12 b it A /D , 1 00K p ullu p to 5 V
Availa ble a nalo g in put. M ay b e u sed f o r O il P re ssure
i n put o r o th er. S ee S etu p W iz a rd In put F unctio n
A ssig nm ents .
C 1-7 5
Analo g_In _10
---
C3-1 1
12 b it A /D , 1 00K p ullu p to 5 V
Availa ble a nalo g in put. M ay b e u sed f o r B aro P re ssure
i n put o r o th er. S ee S etu p W iz a rd In put F unctio n
A ssig nm ents .
C 1-7 6
In je cto r 3
( In fin it y -6 O NLY )
In je cto r 3
C2-1 03
Satu ra te d o r p eak a nd h old , 3 A m ax
c ontin uous.
In je cto r 3 .
C 1-7 6*
In je cto r 3
( In fin it y -8 h O NLY )
In je cto r 3
C2-1 03
For u se w it h h ig h im pedance (1 0-
1 5ohm s) in je cto rs o nly , 1 .7 A m ax.
In je cto r 3 .
C 1-7 7
In je cto r 2
( In fin it y -6 O NLY )
In je cto r 2
C2-1 10
Satu ra te d o r p eak a nd h old , 3 A m ax
c ontin uous.
In je cto r 2 .
C 1-7 7*
In je cto r 2
( In fin it y -8 h O NLY )
In je cto r 2
C2-1 05
For u se w it h h ig h im pedance (1 0-
1 5ohm s) in je cto rs o nly , 1 .7 A m ax.
In je cto r 2 .
C 1-7 8
In je cto r 1
( In fin it y -6 O NLY )
In je cto r 1
C2-1 01
Satu ra te d o r p eak a nd h old , 3 A m ax
c ontin uous.
In je cto r 1 .
C 1-7 8*
In je cto r 1
( In fin it y -8 h O NLY )
In je cto r 1
C2-1 01
For u se w it h h ig h im pedance (1 0-
1 5ohm s) in je cto rs o nly , 1 .7 A m ax.
In je cto r 1 .
C 1-7 9
Ste pper_ 2A
---
---
Auto m otiv e, P ro gra m mable S te pper
D riv er, u p to 2 8V a nd ± 1.4 A
Not u sed.
C 1-8 0
Ste pper_ 1A
---
---
Auto m otiv e, P ro gra m mable S te pper
D riv er, u p to 2 8V a nd ± 1.4 A
Not u sed.
Nis san P in N um berin g
P/N 3 0-3 517 1 4 © 2 015 A EM P erfo rm ance E le ctr o nic s C3 AUX C4 L A M BDA Pin Dest. P in Defa ult P in F unctio n Pin Dest. P in Defa ult P in F unctio n 1 C1-5 3 Analo g9 (F uel P re ss) 1 C1-8 UEG O C ontr o l 2 C1-3 9 Analo gTem pera tu re 2 ( A ir T em p) 2 C1-6 3 C1-2 4 Sensor G ro und 3 C1-6 3, C 2- 4 9 +12V 4 C1-5 0 +5V R ef 4 C1-5 UEG O C ontr o l 5 C1-5 2 Analo g8 (M AP) 5 C1-9 6 C1-7 3 Analo g13 (O il P re ss) 6 C1-7 7 C1-4 0 Analo gTem pera tu re 3 ( O il T em p) 8 C1-6 8, C 2- 5 9 +12V 9 C1-2 8 Dig it a l3 (F le x F uel) 10 C1-3 2 Dig it a l7 (A va ila ble ) 11 C1-7 5 Analo g10 (B aro ) 12 C1-7 4 Analo g11 (A va ila ble ) C5 AEM net C6 F LA SH Pin Dest. P in Defa ult P in F unctio n Pin Dest. P in Defa ult P in F unctio n 1 C1-3 2 CAN A H i (+ ) A C1-1 0, C 2- 5 8 +12V P erm P ow er 2 C1-3 1 CAN A L o (-) B C1-7 2 Fla sh E nable 3 C1-6 8, C 2- 5 9 +12V 4 C1-6 7, C 2- 5 0 Gro und
PIN O UTS 15 © 2 015 A EM P erfo rm ance E le ctr o nic s
P/N 3 0-3 517 1 6 © 2 015 A EM P erfo rm ance E le ctr o nic s 12 M ONTH L IM IT E D W ARRANTY A dva nced 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 fr e e f r o m d efe cts in m ate ria l a nd w ork m anship fo r a p erio d o f tw elv e (1 2) m onth s fr o m d ate o f th e o rig in al p urc hase. P ro ducts th at fa il w it h in th is 1 2-m onth w arra nty p erio d w ill b e re pair e d o r re 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 fa 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 lim it e d to t h e re pair o r re pla cem ent o f th e A EM p art. In n o e ve nt 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 re sponsib le fo 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 t h e fa ilu re o f th is p ro duct. W arra nty c la im s to A EM m ust b e tra 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-tra nsfe ra ble . A ll i m 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 re pair s o r a lt e ra tio ns v o id s th is w arra nty . A EM d is cla im s a ny lia bilit y fo 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 re 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 a lid 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 re ceiv e d 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 ove re 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 fo r a ny e le ctro nic p ro duct, it is fir s t n ecessary fo r th e in sta lle r o r e nd u ser to c onta ct th e E M S te ch lin 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 re solv e d o ve r th e p hone. U nder n o c ir c um sta nces s hould a s yste m b e re tu rn ed o r a R M A re queste d b efo re th e a bove p ro cess tra nspir e s. A EM w ill n ot b e re sponsib le fo r e le ctro 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 ve d a pplic atio n, m is used, o r ta m pere d w it h . A ny A EM e le ctro nic s p ro duct c an b e re tu rn ed fo r re 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 fo r in spectio n a nd d ia gnosis o f A EM e le ctro nic p arts . P arts u sed in th e re pair o f A EM e le ctro nic c om ponents w ill b e e xtra . A EM w ill p ro vid e a n e stim ate o f re pair s a nd re ceiv e w rit te n o r e le ctro nic a uth oriz atio n b efo re re pair s a re m ade to th e p ro duct.