Frigidaire CGES3065KF1 Service Data Sheet page 8

ESEC20 UIB
P_nI = LR HO_Surface
_ LF HO_ Surface
Pin3 = Not Used
Pin 4 = RR Hot Surface
P_n5 = RF HO_ Surface
P_n 6 = Not Used
Pin7 = Returnpathail H ot Surface
Pm 1 = PWM Relays
Pin 2 = Not used
Pin 3 = _gg[er Stimulus
P_n 4 = K1 "Re_ay" (LR)
P6 Pin 5 = K2 - "Relay" (RR2i
P_n 6 = K3 _ "Relay" (RF2)
Relay OontroJ Output
Pin 7 = K4 - "Relay" (not used)
P_n8 = K5 - "Relay" (LFf)
P_n9 = K6 - "Re)ay" (LF2)
P_n 10 = K7 - "Relay" (RR1)
P_n 11 = K8 - "Re)ay" (RF1)
re_ay control 5V = re_ay c_osed, 0V = re_ay open
Pin 1 = Ground
Pin 3 = V UR "16 V" DO
Pin 4 = Not Used
Pin 5 = Zeros Cross
!
Pin 1 = Communication I_
- Not used
Pin 3 = Ground
IDisp ...... 'ide, ........
Slide-in Frigidaire Pro Block Diagram and Interconnections
This can be used as a complement to the wiring diagram to trouble-shoot a range
i..................................................................... _'_'_'_eia;"_oar_" .......................................................................... i[ ................. _'_'_'_" ............... !L_
i !! i
•1 Pl = K1 'rRe_ay" LR element _ i
P_n 1 = LR Hot Surface P2 = K1 - "Relay"
Pin 2 = LF HO_ Sudace P0 = K2-"Relay"
Pin 3 = Not Used P4 = K2 'rRelay'r
Pin 4 = RR Hot Surface _ P5 = K3-"Relay"
Pin 5 = RF HOl Surface P6 = K3-"Relay"
Pm 6 = Not Used P7 = K4 - "Relay"
Pin 7 : Return path ai_ Hot Surface P8 : K4& K5 Relay
P9 = K5 'rRelay'r
Pin 1 = P_%_ Relays P10 = K6 - "Re_ay"
Pin 2 = Not used Pl I = K6& K7 Relay
Pin 3 = _rv_ggler S_mulus P12 = K7 'rRe_ay'r
Pin 4 = K1 'rRelay'r (LR) P13 = K8 _ "Relay"
Pin 5 = K2 "Re_ay" (RR2) _ P14 = K8 'rRelay'r
Pin 6 = K3 _ "Relay" (RF2) _
Pin 7 = K4 - "Re_a¥" (not used)
P_n 8 = K5 - "Relay" (LFf)
Pm 9 = K6 ="Relay" (LF2)
Pin 10 = K7 - "Re_a¥" (RRI)
Pm 11 = KS- "Relay" (RF1)
Pin 1 = Ground
_1'8 W' DC
Pin 4 = Not Used
Pin 5 = Zeros Cross
Pinl(TaH Sense)
Pin13(notused)
Pin14(Ta_lSense)
J4
Hot Surface Inputs
(from elements)
pin 1 = LR Hot Surface
p_n 2 = LF Hot Surface
pm 3 = Not used
pin 4 - RR Hot Surface
pm 5 = RF Hot Surface
p_n 6 = Not used
pin 7 - Return path ai_ Lim_tor
LINE IN
LINE IN
RR2 elel_nt
RF2 element
LINE IN
Not used
LINE IN
LF1 e_e_nt
LF2 elen_ent(br_dge}
LINE IN
RR1 e_e_nt
LINE IN
RF1 e_e_nt
, B { L2 h_
_.:'--L21o
L2 In
Neutra_
; • L21n
__: .L4_
k21n
i I, LR Lingtor
I LF Umi_or
i pm3 Not used
; _ RR Limr_or
• " RF Umffor
i pin 6 No_ _sed
_n path ai_ _im_tor
........... [ :2
pin 2 = Not used ]
L1
pin 3 = L2
ESEC20 Rotary HI board
P' I
Display Left Side (Right Rear)
THI => Safety Thermostat in front console
1 = Communication
pin 2 = Not Used
p_n 4 = Not Used
pm 5 = Not Used
= _1 =
[_[Oven Temperature Probe _ pin 1 = Temperature Probe
p_n 3 = Return Path Switch
Door Switch
Thermostat Warmer Drawer
Latch Motor Sw_tch
.=
.=
pin 2 = K16 - "Re_ay"
p_n 3 = K14 - "Relay"
pin4 = Kll "Re_ay"
pin 5 = K9 "Relay"
pin 6 = LldN
pin 7 = Not used
pm 8 = NEUTRAL IN
OVEN CONTROL ES5XX
TH2 => Safety Thermostat on Main Back
• OVEN
TH2
p_ = DL_ IrRe_ylr _ OUT _ _
P5 = LldN I_ LI IN ."
P15 = LI-IN L1 IN !
P7 = K3 -"Re_ay" i BROIL e_ement (240 V)
P9 = K5 -"Relay" . BAKE elemenl (240 V)
P11 = K7 'rRelay" ! CONVECTION e_e_nt (120V)
P13 = K21 'rRelay'r
P17 = DLB- "Re)ay" -- L2 IN ;
i
i, Cooling FAN HI (120 V)
pin 1 = K18 'rRelay'r 11 =1 Cooling FAN LOW (120 V)
i I_ 2 X OVEN LIGHT (120V)
_ LATCH MOTOR (120 V)
_20 V}
L1
• ................................................................................................ =,
INEUmAL
; .....................................................