AEM Ford Coyote to Ford Racing Controls Pack 303812 User Manual

							Ford  C oyo te  5 .0 L  V 8
21
© 2 015 A EM  P erfo rm ance E le ctr o nic s
28
Analo g_In _1 8
C2-1 3
DBW _A PP1 [ % ]
12 b it  A /D , 1 00K p ullu p
t o  5 V
0-5 V a nalo g s ig n al.  U se  + 5 V O ut p in s
a s p ow er s u pply  a nd S e nso r G ro und
p in s a s t h e l o w  r e fe re nce .  D o n ot
c o nnect s ig n als  r e fe re nce d t o  + 1 2V
a s t h is  c a n p erm anently  d am age
t h e E C U .  
29
Analo g_In _1 9
C2-1 4
DBW _A PP2 [ % ]
12 b it  A /D , 1 00K p ullu p
t o  5 V
0-5 V a nalo g s ig n al.  U se  + 5 V O ut p in s
a s p ow er s u pply  a nd S e nso r G ro und
p in s a s t h e l o w  r e fe re nce .  D o n ot
c o nnect s ig n als  r e fe re nce d t o  + 1 2V
a s t h is  c a n p erm anently  d am age
t h e E C U .  
30
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C1-2 9
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+1 2V_R ela y_C ontro
l
C1-6 5
PCM  R ela y c o ntro l
0.7 A m ax g ro und s in k
f o r e xte rn al r e la y
c o ntro l
Will a ctiv a te  a t k e y o n a nd a t k e y o ff
a cco rd in g t o  t h e c o nfig u ra tio n
s e ttin gs.
43
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AG ND_2
C2-3 2 a nd
F o rd  R acin g
P CM 70-6 0
APP S e nso r 1
G ro und A PPRTN (1 )
Dedic a te d a nalo g
g ro und
Analo g 0 -5 V s e nso r g ro und
45
+5 V_O ut_ 2
C2-2 2
APPVREF ( 1 )
Regu la te d, f u se d + 5 V
s u pply  f o r s e nso r p ow er
Analo g s e nso r p ow er
46
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47
Analo g_In _Te m p_2
C1-6 7 a nd
A U X-2
In ta ke  A ir
T e m pera tu re
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.
C autio n: O nly  o ne I n ta ke  A ir  T e m p
S e nso r c a n b e c o nnecte d a t a  t im e.
48
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Pow er G ro und
C2-8
Case  G ro und
Pow er G ro und
Connect d ir e ctly  t o  b atte ry  g ro und
51
Lo w sid eSw it c h _4
C1-1  
In te rc o ole r P um p
R ela y C ontro l
( S C IC P P CM  s ig n al)
Lo w sid e s w it c h , 4 A
m ax, N O i n te rn al
f ly b ack d io de.
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
c o nfig u ra tio n o ptio ns. S e e 2 D  t a ble
 L S4 _D uty  [ % ]  f o r a ctiv a tio n
s e ttin gs.
52
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Lo w sid eSw it c h _0
C1-3 4
GEN RC
Lo w sid e s w it c h , 4 A
m ax, N O i n te rn al
f ly b ack d io de.
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 S0 _D uty
[ % ]  f o r a ctiv a tio n. 
						

							22
© 2 015 A EM  P erfo rm ance E le ctr o nic s
P
/N  3 0-3 812
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CAN L_A out
C1-3 1
AEM Net C AN L
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.
59
CAN H_A out
C1-3 2
AEM Net C AN H
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.
60
AG ND_2
C2-3 2 a nd
F o rd  R acin g
P CM 70-4 4
APP S e nso r 2
G ro und
A PPRTN (2 )
Dedic a te d a nalo g
g ro und
Analo g 0 -5 V s e nso r g ro und
61
+5 V_O ut_ 2
C2-2 3
APPVREF ( 2 )
Regu la te d, f u se d + 5 V
s u pply  f o r s e nso r p ow er
Analo g s e nso r p ow er
62
+1 2V_R 8C_C PU
C1-1 0 a nd 2 P
 F la sh  E n able 
-  1
KAPW R /  1 2VH AAT
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 1-6 5).
63
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+1 2V
C1-6 4 a nd
A U X-8
+1 2V I n
12 v o lt  p ow er f r o m
r e la y
12 v o lt  p ow er f r o m  r e la y.  R ela y
m ust b e c o ntro lle d b y + 1 2V R ela y
C ontro l s ig n al p in  C 1-2 9 a bove .
68
+1 2V
C2-9
VPW R
12 v o lt  p ow er f r o m
r e la y
12 v o lt  p ow er f r o m  r e la y.  R ela y
m ust b e c o ntro lle d b y + 1 2V R ela y
C ontro l s ig n al, p in  C 1-2 9 a bove .
69
Pow er G ro und
C1-6 0
PW R G ro und
Pow er G ro und
Connect d ir e ctly  t o  b atte ry  g ro und
70
Pow er G ro und
C1-7 3
PW R G ro und
Pow er G ro und
Connect d ir e ctly  t o  b atte ry  g ro und
Fo rd  E n gin e
E
In fin it y  A ssig n m ent
Pin
D estin atio n
Fo rd  C oyo te  w it h  F R
C ontro l P ack
D esc rip tio n
In fin it y  H ard w are
S p ecific atio n
Note s
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2 Lo w sid eSw it c h _3
C1-1 8
Varia ble  C am sh aft
T im in g 1 1 S o le noid
( P asse nge rs id e
I n ta ke )
Lo w sid e s w it c h , 4 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. 
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
c o nfig u ra tio n o ptio ns. S e e 2 D  t a ble
 L S3 _D uty  [ % ]  f o r a ctiv a tio n
s e ttin gs. S e e S e tu p W iz a rd  p age
 V VC f o r o ptio ns.
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							Ford  C oyo te  5 .0 L  V 8
23
© 2 015 A EM  P erfo rm ance E le ctr o nic s
6 AG ND_2
C2-3 1 a nd
E n gin e E -4 4
Knock S e nso r 1
G ro und [ K S1  - ]
Dedic a te d a nalo g
g ro und
Analo g 0 -5 V s e nso r g ro und
7 Knock S e nso r 1
C1-2 7
Knock S e nso r+  [ K S1
+ ]
Dedic a te d k n ock s ig n al
p ro ce sso r 
Se e S e tu p W iz a rd  p age  K nock S e tu p
f o r o ptio ns. 
8 AG ND_2
C2-3 0
DBW  G ro und
( E TC RTN )
Dedic a te d a nalo g
g ro und
Analo g 0 -5 V s e nso r g ro und
9 +5 V_O ut_ 1
C1-4 1
E le ctro nic  T h ro ttle
C ontro l ( E TC REF)
Regu la te d, f u se d + 5 V
s u pply  f o r s e nso r p ow er
Analo g s e nso r p ow er
10
Analo g_In _1 6
C2-2 1
Th ro ttle  P osit io n #
P osit iv e  S lo pe ( T P 2)
12 b it  A /D , 1 00K p ullu p
t o  5 V
0-5 V a nalo g s ig n al.  U se  + 5 V O ut p in s
a s p ow er s u pply  a nd S e nso r G ro und
p in s a s t h e l o w  r e fe re nce .  D o n ot
c o nnect s ig n als  r e fe re nce d t o  + 1 2V
a s t h is  c a n p erm anently  d am age
t h e E C U .
11
Pow er G ro und
C1-5 5
Cra nksh aft  P osit io n
S e nso r S h ie ld
( S H DRTN )
Pow er G ro und
Connect d ir e ctly  t o  b atte ry  g ro und
12
Cra nksh aft  P osit io n
S e nso r V R-
C1-4 6
Cra nksh aft  P osit io n
S e nso r ( C KP-)
Diffe re ntia l V aria ble
R elu cta nce  Z e ro  C ro ss
D ete ctio n
S e e S e tu p W iz a rd  p age  C am /C ra nk
f o r o ptio ns. 
13
Cra nksh aft  P osit io n
S e nso r V R+
C1-4 5
Cra nksh aft  P osit io n
( C KP+)
Diffe re ntia l V aria ble
R elu cta nce  Z e ro  C ro ss
D ete ctio n
S e e S e tu p W iz a rd  p age  C am /C ra nk
f o r o ptio ns. 
14
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Lo w sid eSw it c h _5
C1-2
Varia ble  C am sh aft
T im in g 2 1 S o le noid
( D riv e rs id e I n ta ke )
Lo w sid e s w it c h , 4 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. 
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
c o nfig u ra tio n o ptio ns. S e e 2 D  t a ble
 L S5 _D uty  [ % ]  f o r a ctiv a tio n
s e ttin gs. S e e S e tu p W iz a rd  p age
 V VC f o r o ptio ns.
17
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Coil 2
4P  C oil D riv e r
1  -  2
Coil o n P lu g
A sse m bly   2
( C O P2H )
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.
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Cam sh aft  P osit io n
S e nso r 1  V R-
C1-4 7
VR R elu cta nce
S e nso r ( V RSR TN )
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. 
30
Analo g_In _Te m p_1
C1-6 6
Cylin der H ead
T e m pera tu re  ( C H T)
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. 
						

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© 2 015 A EM  P erfo rm ance E le ctr o nic s
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/N  3 0-3 812
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AG ND_1
C1-2 0
Dig it a l C am s
G ro und ( E -S IG RTN )
Dedic a te d a nalo g
g ro und
Analo g 0 -5 V s e nso r g ro und
33
34
Coil 5
4P  C oil D riv e r
2  -  4
Ig n it io n C oil o n P lu g
A sse m bly  5  ( C O P5B)
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.
35
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+1 2V
C1-6 1 a nd
F o rd  R acin g
P CM 70-2 1
Dig it a l C am  S e nso r
+ 1 2V P ow er
12 v o lt  p ow er f r o m
r e la y
12 v o lt  p ow er f r o m  r e la y.  R ela y
m ust b e c o ntro lle d b y + 1 2V R ela y
C ontro l s ig n al, p in  C 1-2 9 a bove .
37
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Analo g_In _7
C1-3 5
DBW  N ega tiv e
S lo pe ( T P 1)
12 b it  A /D , 1 00K p ullu p
t o  5 V
0-5 V a nalo g s ig n al.  U se  + 5 V O ut p in s
a s p ow er s u pply  a nd S e nso r G ro und
p in s a s t h e l o w  r e fe re nce .  D o n ot
c o nnect s ig n als  r e fe re nce d t o  + 1 2V
a s t h is  c a n p erm anently  d am age
t h e E C U .  S e e t h e S e tu p W iz a rd  S e t
T h ro ttle  R ange  p age  f o r a uto m atic
m in /m ax c a lib ra tio n.  M onit o r t h e
T h ro ttle  [ % ] c h annel.  A ls o  D B1_TP SA
[ % ] f o r D BW  a pplic a tio ns.
40
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Cam sh aft  P osit io n
S e nso r 1  H all
C1-2 2
Cam sh aft  P osit io n
B ank 1  ( P asse nge r
I n ta ke ) ( C M P11) 
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. 
42
Dig it a l_ In _2
C1-2 3
Cam sh aft  P osit io n
B ank 2  ( D riv e rs id e
I n ta ke ) ( C M P21)
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. 
43
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AG ND_2
C2-3 1 a nd
E n gin e E -6
Knock S e nso r 2
G ro und [ K S2  - ]
Dedic a te d a nalo g
g ro und
Analo g 0 -5 V s e nso r g ro und
45
Knock S e nso r 2
C1-2 8
Knock S e nso r+  [ K S2
+ ]
Dedic a te d k n ock s ig n al
p ro ce sso r 
Se e S e tu p W iz a rd  p age  K nock S e tu p
f o r o ptio ns. 
46
Cam sh aft  P osit io n
S e nso r 1  V R+
C1-4 8
Cam sh aft  P osit io n
B ank 1  I n
( P asse nge r s id e
E xh aust) ( C M P12)
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.
47
VR+_In _2
C1-4 9
Cam sh aft  P osit io n
B ank 2  I n  ( D riv e r
s id e E xh aust)
( C M P22)
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.
48
VR-_ In _2
C1-5 0
Varia ble
R elu cta nce  S e nso r
( V RSR TN 2)
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.
49
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Coil 4
4P  C oil D riv e r
1  -  1
Ig n it io n C oil O n P lu g
A sse m bly  4  ( C O P-D )
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. 
						

							Ford  C oyo te  5 .0 L  V 8
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© 2 015 A EM  P erfo rm ance E le ctr o nic s
51
Coil 7
4P  C oil D riv e r
2  -  1
 I g n it io n C oil o n
P lu g A sse m bly  7
( C O P7G )
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.
52
Coil 2
4P  C oil D riv e r
1  -  3
Ig n it io n C oil O n P lu g
A sse m bly  2  ( C O P2H )
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.
53
In je cto r 1
C1-6 3
Fu el I n je cto r D riv e r
1  ( IN J1 )
Sa tu ra te d o r p eak a nd
h old , 3 A m ax
c o ntin uous
In je cto r 1
54
In je cto r 2
C1-6 2
Fu el I n je cto r D riv e r
2  ( IN J2 )
Sa tu ra te d o r p eak a nd
h old , 3 A m ax
c o ntin uous
In je cto r 2
55
In je cto r 3
C1-5 9
Fu el I n je cto r D riv e r
3  ( IN J3 )
Sa tu ra te d o r p eak a nd
h old , 3 A m ax
c o ntin uous
In je cto r 3
56
Lo w sid eSw it c h _6
C1-3
Varia ble  C am sh aft
T im in g 1 2 S o le noid
( P asse nge rs id e
E xh aust)
Lo w sid e s w it c h , 4 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. 
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
c o nfig u ra tio n o ptio ns. S e e 2 D  t a ble
 L S6 _D uty  [ % ]  f o r a ctiv a tio n
s e ttin gs. S e e S e tu p W iz a rd  p age
 V VC f o r o ptio ns.
57
Lo w sid eSw it c h _7
C2-4 4
Varia ble  C am sh aft
T im in g 2 2 S o le noid
( D riv e rs id e
E xh aust)
Lo w sid e s w it c h , 4 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. 
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
c o nfig u ra tio n o ptio ns. S e e 2 D  t a ble
 L S7 _D uty  [ % ]  f o r a ctiv a tio n
s e ttin gs. S e e S e tu p W iz a rd  p age
 V VC f o r o ptio ns.
58
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In je cto r 4
C1-5 8
Fu el I n je cto r D riv e r
4  ( IN J4 )
Sa tu ra te d o r p eak a nd
h old , 3 A m ax
c o ntin uous
In je cto r 4
63
In je cto r 5
C1-5 7
Fu el I n je cto r D riv e r
5  ( IN J5 )
Sa tu ra te d o r p eak a nd
h old , 3 A m ax
c o ntin uous
In je cto r 5
64
In je cto r 6
C1-5 6
Fu el I n je cto r D riv e r
6  ( IN J6 )
Sa tu ra te d o r p eak a nd
h old , 3 A m ax
c o ntin uous
In je cto r 6
65
In je cto r 7
C2-4
Fu el I n je cto r D riv e r
7  ( IN J7 )
Sa tu ra te d o r p eak a nd
h old , 3 A m ax
c o ntin uous
In je cto r 7
66
In je cto r 8
C2-5
Fu el I n je cto r D riv e r
8  ( IN J8 )
Sa tu ra te d o r p eak a nd
h old , 3 A m ax
c o ntin uous
In je cto r 8
67
DBW 1 M oto r -
C1-5 3
Th ro ttle  A ctu ato r
C ontro l M oto r
( T A CM -)
5.0 A m ax T h ro ttle
C ontro l H brid ge  D riv e
+1 2V t o  c lo se
68
DBW 1 M oto r +
C1-5 4
Th ro ttle  A ctu ato r
C ontro l M oto r
( T A CM +)
5.0 A m ax T h ro ttle
C ontro l H brid ge  D riv e
+1 2V t o  o pen
69
Coil 6
4P  C oil D riv e r
2  -  3
Ig n it io n C oil o n P lu g
A sse m bly  6  ( C O P6E)
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.
70
Coil 1
4P  C oil D riv e r
1  -  4
Ig n it io n C oil o n P lu g
A sse m bly  1  ( C O P1A)
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. 
						

							26
© 2 015 A EM  P erfo rm ance E le ctr o nic s
P
/N  3 0-3 812
Fo rd  R acin g
P CM 50
In fin it y  A ssig n m ent
Pin
D estin atio n
Fo rd  C oyo te  w it h  F R
C ontro l P ack
In fin it y  H ard w are
S p ecific atio n
Note s
Desc rip tio n
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4 UEG O 1  U N
C1-7
UEG O 1  U N
Bosch  U EG O c o ntro lle r
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
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15
UEG O 1  V M
C1-8
UEG O 1  V M
Bosch  U EG O c o ntro lle r
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.
16
UEG O 2  I P
C2-4 7
UEG O 2  I P
Bosch  U EG O c o ntro lle r
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
17
UEG O 1  I P
C1-6
UEG O 1  I P
Bosch  U EG O c o ntro lle r
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
18
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19
Analo g_In _2 0
C2-3 3
Clu tc h  P osit io n
( N eutra l S w it c h )
B lu nt L e ad
12 b it  A /D , 1 00K p ullu p
t o  5 V
0-5 V a nalo g s ig n al.  U se  + 5 V O ut p in s
a s p ow er s u pply  a nd S e nso r G ro und
p in s a s t h e l o w  r e fe re nce .  D o n ot
c o nnect s ig n als  r e fe re nce d t o  + 1 2V
a s t h is  c a n p erm anently  d am age
t h e E C U . S e e C lu tc h Sw it c h  1 -a xis
t a ble  f o r s e tu p o ptio 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.
20
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UEG O 1  H eat 
C1-4
UEG O 1  H eat
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 .
25
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UEG O 2  I A
C2-4 8
UEG O 2  I A
Bosch  U EG O c o ntro lle r
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 
						

							Ford  C oyo te  5 .0 L  V 8
27
© 2 015 A EM  P erfo rm ance E le ctr o nic s
29
UEG O 1  I A
C1-5
UEG O 1  I A
Bosch  U EG O c o ntro lle r
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
30
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UEG O 2  H EA T
C2-4 9
UEG O 2  H EA T
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 .
36
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UEG O 2  U N
C2-4 6
UEG O 2  U N
Bosch  U EG O c o ntro lle r
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
40
UEG O 2  V M
C2-4 5
UEG O 2  V M
Bosch  U EG O c o ntro lle r
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.
41
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Ford  P in  N um berin g 
						

							28
© 2 015 A EM  P erfo rm ance E le ctr o nic s
P
/N  3 0-3 812
In fin it y  P in  N um berin g
     
AUX C onnecto r P in out
Deuts ch  P in
In fin it y  P in
Pin  N am e
Defa u lt  P in  F u nctio n
1 C1-3 7
Analo g_In _9
Fuel  P re ssure
2 C1-6 7
Analo g_In _Tem p_2
In ta ke  A ir  T em pera tu re
* M AF s ensor c onnecto r m ust
be d is connecte d if  u sin g th is
i n put.
3 C1-1 9
AGND
Sensor G ro und
4 C1-4 2
+5V _O UT
Sensor + 5V
5 C1-3 6
Analo g_In _8
MAP S ensor
6 C1-2 6
Dig it a l_ In _5
Fle x F uel
7 C1-3 3
Lo w sid eSw it c h _1
Boost C ontr o l
8 C1-6 4
+12V
+12V
9 C1-4 3
Hig hsid eS w it c h_1
Availa ble  1 2V  S w it c hed
O utp ut
10
C2-1 2
Analo g_In _17
Mode S w it c h
11
C2-1 8
Analo g_In _13
Oil  P re ssure
12
C2-1 9
Analo g_In _14
TC  S lip  T arg et T rim 
						

							Ford  C oyo te  5 .0 L  V 8
29
© 2 015 A EM  P erfo rm ance E le ctr o nic s
Mis c P in outs
5P   C oil D riv e r 1 
5P   C oil D riv e r 2 
Pin
Dest. P in
Defa ult P in  F unctio n
Pin
Dest. P in
Defa ult P in  F unctio n
1 C1-1 4
Coil 1
1 C1-1 6
Coil 5
2 C1-1 3
Coil 2
2 C1-1 5
Coil 6
3 Rin g T erm .
Gro und
3 Rin g T erm .
Gro und
4 C1-1 2
Coil 3
4 C1-5 1
Coil 7
5 C1-1 1
Coil 4
5 C1-5 2
Coil 8
4P   C oil D riv e r 1 
4P   C oil D riv e r 2 
Pin
Dest. P in
Defa ult P in  F unctio n
Pin
Dest. P in
Defa ult P in  F unctio n
1 E-5 0
Coil 4
1 E-5 1
Coil 8
2 E-1 8
Coil 3
2 E-3 3
Coil 7
3 E-5 2
Coil 2
3 E-6 9
Coil 6
4 E-7 0
Coil 1
4 E-3 4
Coil 5
2P   F la sh 
2P   F uel P um p
Pin
Dest. P in
Defa ult P in  F unctio n
Pin
Dest. P in
Defa ult P in  F unctio n
1 C1-1 0
+12V P erm  P ow er
1 C2-5 5
Hig hsid eS w itc h _2
* O ptio nal F uel P um p
C ontr o l
2 C1-9
Fla sh E nable
2 ---
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							30
© 2 015 A EM  P erfo rm ance E le ctr o nic s
P
/N  3 0-3 812
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 fr 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  th 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,
i n cid enta l  o r c onsequentia l  d am ages o r c ost in curre d d ue to  th e fa ilu re  o f  th is  p ro duct. W arra nty  c la im s
t o  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  im plie d w arra ntie s s hall  b e
l im 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
i s sued.
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
i n 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
i s 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
r e 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.