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Training Manual
SelfCookingCenter® whitefficiency® (SCC_WE)
V04 en, SCC_WE
�General hints:
Isolate the appliance from mains supply before opening the appliance
When working with chemicals, i.e. agressive cleaning materials
always wear protective clothing, goggles and gloves!
Please observe the information of the material safety data sheets!
After maintenance / repair the appliance must be checked for electrical
safety in accordance with your national, state and local requirements!
Whenever working on any gas component like:
Gas valve, gas blower and / or changing connected type of gas a detailed
flue gas analysis MUST be done using adequate CO and CO2
measuring equipment! This shall ONLY be done by trained technicians!
Always check appliance for possible gas leakages!
© 2013 Rational Technical Services. All rights reserved.
Please note that any technical information concerning Rational products
must NOT be forwarded to any third party.
List of content
Introduction
Basic principle SCC_WE
Changes of the unit
Operator panel SCC_WE
Operator panel SCC_WE: Manual Modes
Survey Pictogram
SCC_WE Electric (Index H): Basic principle
Water level control steam generator SCC_WE
SC (Self Clean) Automatic
4
5
8
9
10
13
14
15
Control (1)
Selftest 16
Steam Control
18
Manual modes SCC_WE
19
SCC_WE CPU
22
SCC_WE CPU - Terminal connection - LED Code
23
SD card - Changing PCB, new SD card
24
Fan motor SCC_WE Line
27
Bus connection
28
V04 en, SCC_WE
- 2 -
�List of content
Control (2)
SolidStateRelay (SSR) internal design / Test
29
SSR 100% - 50% power at 3NAC/400V
30
SSR 100% - 50% power at 3AC 200-240V
31
Control of cooling fan
32
Control of drain valve
33
CDS 34
CareControl 35
Function during CleanJet+Care
36
CleanJet: Error messages - Abort program
37
Service Package
Diagnose - Real Time Data - Start
Diagnose - Real Time Data - Content
Diagnose - Running times - Start
Diagnose - Running times - Content
Diagnose - Service error history - Start
Diagnose - Service error history - Content
Basic settings - Start
Basic settings - Content
Function test - Start
Function test - Content
Calibration - Start
Calibration - Sequence
Setting Show mode - error analysis
Error message Service 1 - 25
Error message Service 26 - 37
Error message Service 40 - 120, blink code motor
Diagnostic - Gas Error History
SCC Software update
Download of service data
Download of HACCP Data
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
56
58
60
Circuit diagram
Circuit diagram 101 Power 3NAC 400-415V
Circuit diagram 101 Heating 3NAC 400-415V
Circuit diagram 101 Sensor
Circuit diagram Bill of material
Circuit diagram 202 Power 3NAC 400-415V
Circuit diagram 202 Heating 3NAC 400-415V
Circuit diagram 202 Sensor
Circuit diagram Bill of material
62
63
64
65
67
68
69
70
- 3 -
V04 en, SCC_WE
�Basic principle SCC_WE
Venting pipe
ThermocouSafety thermostat cabinet
ple cabinet
B1
F4
B3.1 - 3.6
Core probe
Check valve
Differential pressure
sensor
S2
Level
electrode
Thermocouple
steam generator
Y5
Clima valve
B5
Fan motor
Safety
thermostat
steam generator
F3
M1
Steam element
Steam generator
Cabinet
P1
Thermocouple humidity
Air baffle
B4
M4
Self Clean (SC) pump
Hot air
element
Solenoid
moistening
Care
S3
Door contact switch
Solenoid filling
Y3
Y1
Y4
M12
Solenoid
Care
Care pump
B2
S11
Solenoid
quenching
Thermocouple
quenching
Emergency drain
Quenching box
Y2
Drain valve
Drain
Water supply
M7
M6
S12
Hand shower roll guide
V04 en, SCC_WE
- 4 -
�Changes of the unit
Differences from SCC_WE (Index H) compared with SCC Index G
1. Unit self test after installation; all components are tested for correct function and determination of
boiling point;
2. Steam mode preset to boiling point (no hot air supply), 30-130°C possible (86 - 266°F)
3. New humidity control (Clima valve) for advanced dehumidification
4. New fan motor rotates left - right
5. New PCB and TFT touch display with Ethernet connection
6. Moistening nozzle integrated into hot air heating element flange of electric units
7. Cooling fan is temperature controlled
8. Cleaning program „Light“ is split into „Light Quick“ duration approximately 1h 05min and
„Light standard“, duration approximately 1h 46min.
9. Operator and Application manuals are available on display;
- 5 -
V04 en, SCC_WE
�Parts location
Drain valve
(M7 and S12)
CleanJet Pump (M6)
Solenoid Y2
quenching
Loud speaker T2
Triple Solenoid valve
Y1 Green Filing SG
Y3 Brown Moistning
Y4 Orange Care
V04 en, SCC_WE
- 6 -
�Parts location
CPU (A2)
Interface PCB (A1)
TFT Display
Puls generator
(S6)
Care Pump
(M12)
- 7 -
V04 en, SCC_WE
�Operator panel SCC_WE
ON/OFF switch
Manual Modes
SCC-Processes
ELC-Key: Activation Efficient Level Control
Program Key: Activation Programming mode
Function Key: Activation personal settings & Service
Help Key
Care Key
Central Dial
V04 en, SCC_WE
- 8 -
�Operator panel SCC_WE: Manual Modes
Home - back to general display
Efficient Level Control
Humidity setting
Temperature setting
Time setting
Core probe setting
Pre heating
Time: continuous
Moistening
Fan wheel speed setting
Cool Down
Steaming at boiling point (no hot air)
Unit without power for less than 15 minutes
Energie optimising activ, link open
- 9 -
V04 en, SCC_WE
�Survey Pictogram
Poultry
Function key
Large roast
Settings
Fish
HACCP download
Egg dishes / Desserts
Communication (pictures, USB, IP, Sound)
Side dishes
Service
Bakery products
Display configurator
Finishing
Record Modus (calibrated products)
Home - back to general display
Back to previous level
Efficient Level Control
Store
V04 en, SCC_WE
- 10 -
�Survey Pictogram
Start Service Level
Confirm
Date and time
Operator and Application Manual
Start time
Safety advice
Time format 24h
CleanJet +Care
Time format am / pm
Care Control
Temperature setting °C - °F
Half energy
Setting ring tones
Show Mode (when in red)
Display brightness
Sequence of levels
Number of levels
Delta T
Continued operation for Ultravent
Prozess abort key
- 11 -
V04 en, SCC_WE
�Function Key - Settings - Service - Communication
Function Key
Settings
Time, Language, °C/°F, Acoustics, Plate weight etc.
HACCP
Download HACCP Data
Communication
Pictures, Ring tones, USB Stick, IP Address
Service
Unit Data, Service package, Hotline numbers, Descaling,
Show Mode
Display Configurator
Record modus
Communication
Settings
Date, Time
h:m m:s
Start time
24h am:pm
Language
USB Stick
Delta T
°C - °F
Brightness
Number of levels
Plate weight
Bankett
Network
E/2
Ringing tones
Service
Sequence
of levels
Unit Data
Plate weight
à la carte
Diagnostic
Hotline
V04 en, SCC_WE
- 12 -
Empty Steam
generator
Descaling
( & gt; 16%)
Show Mode
�SCC_WE Electric (Index H): Basic principle
B1
F4
B3.1 - 3.6
S2
P1
Y5
B5
F3
M1
B4
M4
Care
S3
M12
Y3
Y1
Y4
B2
S11
Y2
M6
M7
B1
B2
B3.1-B3.6
B4
B5
F3
F4
M1
M4
M6
M7
M12
S2
S3
S11
S12
P1
Y1
Y2
Y3
Y4
Y5
S12
Thermocouple interior cabinet
Thermocouple quenching
Thermocouples core temperature
Thermocouple humidity
Thermocouple steam generator (preheat, 180°C (356°F) max)
Safety thermostat steam generator 160°C (320°F)
Safety thermostat interior cabinet 360°C (680°F)
Fan motor (Floor unit: top)
SC-pump
CleanJet pump
Motor drain valve / ball valve
Care pump
Level electrode
Door reed switch
CDS sensor
Micro switch drain valve
Differential Pressure sensor humidity
Solenoid valve filling
Solenoid valve quenching
Solenoid valve moistening
Solenoid valve Care
Solenoid valve Clima
SCC 201/202 only:
M2
Fan motor bottom with jumper ( Floor units only)
- 13 -
V04 en, SCC_WE
�Water level control steam generator SCC_WE
Center level electrode S2 = & gt; Ground: 1,5 - 3V AC:
S2
water level too low
steam heating must switch OFF
solenoid valve filling Y1 ON
B5
F3
M4
Center level electrode S2 = & gt; Ground: 0V AC:
Y1
PCB
S2
water level reached
steam heating can switch ON
solenoid valve filling Y1 switched OFF
Level electrode can be measured at X12: 1-4
V AC
The level electrode is equipped with two side electrodes to ensure safe water level recognition even
when the center level electrode is scaled. These
side electrodes compensate for the build up of scale.
Permanent water level control;
Maximum continuous steam time: 2 Minutes,
Property of connected water:
Conductivity must be above 50µS/cm;
St.Gen. empty: ca. 1,5 - 3V AC
St.Gen. full: 0V
SV Filling on 230V
SV Filling off 0V
Heating on 230V
Heating off 0V
Filling SG
V04 en, SCC_WE
Max. heating 2 Min. Control
- 14 -
Steam heating
�SC (Self Clean) Automatic
During the production of steam, the concentration of minerals inside the steam generator will
increase over time. These minerals settle on the heating elements and heat exchanger as
well as the interior steam generator walls.
In order to reduce this effect the steam generator will be pumped off and flushed regularly depending
on the duration of steam production. This process needs approximately 45 seconds.
After emptying the steam generator it will be filled automatically with fresh water.
There are 4 conditions to start this SC Automatic:
1. Heating time of the steam generator must exceed 60 min.*
2. the temperature of the thermocouple steam generator must be below 65°C (149°F)
3. the temperature of the thermocouple interior cabinet must be below 70°C (158°F)
4. the unit is switched ON.
and
and
and
In case the unit is used permanently the above mentioned temperature conditions
can not be met.
In this case the „forced SC Automatic“ applies as follows:
1. The heating time of the steam generator reaches twice the set duration*, e.g. 120 min. and
2. the unit door is open for longer than 120 seconds
* The marked values can be changed in unit specific ranges using the diagnostic program.
After completion of the SC-Automatic the accumulated steam heating time is re-set to zero.
SC-Automatic does not replace the need for descaling and/or installing water treatment filter
- 15 -
V04 en, SCC_WE
�Selftest
Selfttest
Selfttest
Your SCC will carry out an automatic
self test and adjust itself perfectly to
the set-up conditions and the altitude.
Your SCC will carry out an automatic
self test and adjust itself perfectly to
the set-up conditions and the altitude.
Selfttest
Your SCC will carry out an automatic
self test and adjust itself perfectly to
the set-up conditions and the altitude.
To determine the optimum number of
cleaner and rinse aid tablets, please specify
whether the unit is connected to normal
water or soft water. Please press the appropriate button
Unit is connected to soft water
(up to 8,75° e)
Unit is connected to normal water
(over 8,75° e)
Next
Softwater:
7°dH, 12,5°F, 8,7°E, 125ppm, 1,25 mmol/l
Self test
Note: Gas units: In case the unit was NOT delivered with the correct gas type configuration, it must be converted prior of starting the self test. Please refer to gas manual!
SCC_WE and CM_P units will run a automatic Self Test routine after installation.
This Self test will start under the condition, that the tempearture of B1,
B2 and B4 are below 40°C (104°F).
Additionally 1 flat and closed GN container (max 20mm) shall be inserted into the cabinet with the opening facing down at a height center to
the fan wheel. (201 - 202: 2 fan wheels = 2x GN containers)
Selftest
Component test
The self test comprises a component test, calibration and determination of the boiling point
Boiling point
calculation
After the component test (S2, M4, Y1-Y4, CDS) the calibration will start
with the offset setting on P1 before the unit will determine the pressure
values for all fan speeds and directions in cold and dry condiition.
During step 200 the boiling point will be determined and stored.
step 200
This is followed by P1 calculating the pressure values for all fan speeds and
directions in steam and later combination mode 170°C (338°F).
Calibration
Should at a later point in time the unit be reinstalled at a altitude more than 300m different to the original installation height, a new self test should be initialized in order to determine the new boiling point.
Such re-initialization can be be done in Basic settings, self test.
Calibration:
During a manual calibration only the P1 pressure values for cold ( & lt; 40°C), steam (at boiling point) and combination (170°C) are calculated.
There will be NO determination of a new boiling point.
Manual calibration has to be done after: Disassembly of motor or fan wheel, P1, B4, changing air bafffle or later
installation of an Ultravent or unit exhaust hood as well as subsequent installaltion as the lower unit of a Combi
Duo.
Note: In this case do NOT run a new selftest, as otherwise the boiling point and the gas blower
speed and the reference volume of the steam generator will be overwritten!
V04 en, SCC_WE
- 16 -
�Selftest
During the self test the individual component groups are indicated ticked off one by one.
IIn case an error number is displayed switch the unit OFF and ON again to access Service level.
If the door contact, thermocouple interior cabinet, bus cable to motor or ignition box is defective, the selftest will
be interupted
Note: During Self Test it is always possible to access the Service diagnostic mode!
Pre condition before Self test and Calibration
temperature of cooking cabinet sensor B1 is below 40°C (102°F)
temperature of quenching sensor B2 is below 40°C (102°F)
temperature of humidity sensor B4 is below 40°C (102°F)
door contact closed
heating: OFF
fan motor: OFF
left side panel closed, interior cabinet clean, if possible dry;
to achieve best calibration values insert a closed 20mm GN container
with opening facing down onto the rail closest to the center of the fan wheel
(201-202: 2 motors - 2x GN container)
Step
Function
0
ready fo calibration
10
checking calibration
conditions
20
Measuring Offset P1 with
fan motor not turning
100 - 115
pressure measurement cold
table unit 61 - 102
100 - 131
pressure measurement cold
floor unit 201 - 202
200
steam heating up to boiling
point without fan motor
202
steam heating with fan
motor
210 - 225
pressure measurement
steam table unit 61 - 102
210 - 241
pressure measurement
steamfloor unit 201 - 202
300
heating of cabinet to
193°C (380°F)
followed by 60 sec. to 170°C
(338°F) steady condition
301 - 316
pressure measurement
combi table unit 61 - 102
301 - 332
pressure measurement
combi floor unit 201 - 202
999
possible error
message
reason for error - remedy
calibration sucessfull
Any indicated error relates to the corresponding malibration
step.
10
e.g. error 10 will be indicated, when the condition for calibrations is not given.
Reason: B1, B2 or B4 is above 40°C (104°F)
16 steps for each fan motor, (32 steps with floor models), e.g.
100: running fan motor at constant speed „1“
101: store P1 value at this given speed
200
e.g. 302
e.g. error 200 is indicated, when the temperature at B2 will
not reach the necessary 70°C (158°F) to determine the boiling
point in the allocated time.
Reason: e.g. SSR (energy optimising) or gas burner is not
activated etc.
e.g. error 302 is indicated, if sensor P1 does not give any or
any valid value at this time.
Reason: P1 defective or hoses to P1 blocked by water.
These errors are indicated during the respective calibration
step is running.
After solving the problem the Selftest must be started again.
- 17 -
V04 en, SCC_WE
�Steam Control
Steam is controlled in two different ways.
1.
2.
At temperatures up to boiling point it is controlled by the thermocouple B1 in the cabinet
At temperatures above boiling point we measure the differential pressure applied to P1.
30°C(87°F) – Boiling Point Thermocouple B1 in the cabinet
Above Boiling Point
Differential pressure applied to P1:
Pressure sensor P1 –Thermocouple B4 – rpm of fan motor
Humidity control above boiling point:
The pressure sensor P1 is supplied with 12V DC. When the fan wheel is at a stand still, the offset voltage is between 0,45 - 0,55V DC.
When the fan wheel is turning, the rear fins create a differential pressure
on pressure sensor p1 via the connecting hoses (inner and outer connection).
This differential pressure will be higher when:
1. The temperature in the cabinet gets colder
2. The amount of humidity in the cabinet gets lower
3. The speed of the fan wheel increases
B1
F4
B3
S2
P1
Y5
B5
F3
This differential pressure is converted into a dc voltage for processing
by the pcb and is a measure for the amount of humidity in the cabinet
M4
M1
B4
S3
B2
Sample: 101E
NOTE: The given values are only average values and shall only demonstrate the relationship of pressure values P1 to change in speed, temperature and humidity.
Y1
Cold and dry
Warm and humid - Steam 100°C (212°F)
Hot and humid - Combination 180°C
V04 en, SCC_WE
Y2
500 rpm
1,1V
1000 rpm
2,2V
1450 rpm
2,9V
1550 rpm
3,1V
0,7V
0,6V
1,7V
1,5V
2,0V
1,7V
2,2V
1,9V
- 18 -
�Manual modes SCC_WE
Steam mode in relation to boiling point recognition
During self test (after initial installation) the unit will determine the installation altitude by water boiling
point recognition.
As the boiling temperature declines with increasing altitude above sea level, the water boiling point
determines the installation altitude.
During self test the steam production will be active until the quenching sensor B2 reaches 70°C
(158°F). At this time the pcb will memorise the temperature measured by the interior cabinet sensor B1
as the boiling point temperature at the actual point of installation.
To run a manual cooking mode the following steps must be taken:
1. Cooking mode is selected.
2. Time or core temperature is selected.
3. Cabinet door is closed (door contact).
4. Fan motor is running (speed signal via bus).
5. In wet modes (Steam, Combination) the steam generator must be filled with water (level electrode)
6. In wet modes (Steam, Combination) the steam generator will be preheated
(thermocouple steam generator)
Quenching controlled by B2 at 80°C (176°F) Wet, 90°C (194°F) in Hot Air
Cooking modes
Steam supply
by
Hot Air
supply by
boiling point and below
B1
---
no humidity control
above boiling point
boiling point and below
P1, B4, RPM
B1
B1
B1
humidity control, default 60%
above boiling point
B1
---
P1, B4, RPM
B1
- 19 -
Humidity control
alternate operation of steam and hot
air depending on the set humidity
and temperature target.
humidity control, default 100%
product humidity
V04 en, SCC_WE
�Humidity control SCC_WE
If the measured humidity value is too high, the clima valve Y5 will be activated and the closing disk will
be lifted. The negative pressure behind the fan wheel will cause dry air from the kitchen be sucked into
the cabinet. The humid air will be displaced and pushed through the cabinet drain into the quenching
chamber.
This Clima valve also functions as the safety relief valve.
Cross section of the clima valve:
Y5
In case the differential pressure sensor P1 is defective (no signal), the steam generator will be activated by time control automatically to a humidity level of 60%.
At the same time error „Service 36“ will be shown.
Should the signal of P1 be out of the standard range (invalid signal), humidity will be controlled by the
quenching sensor.
At the same time error „Service 37“ will be shown.
In case the differential pressure sensor P1 does not supply valid data for longer than 15 minutes,
Service 30 will be indicated.
V04 en, SCC_WE
- 20 -
�
- 21 -
V04 en, SCC_WE
�SCC_WE CPU
X152
A1
X150
X155
X151
X153
X158
X10
X7
X8
X102
X154
X3
X107
X106
X4
X2
X5
A2
X6
X16
X51
LED3
D15
X24
X1
X11
X12
LED V10
X25
X30
X29
X60
F1
2AT
F2
5AT
?
X26
X15
+
X13
X27
?
X21
F1
- 22 -
K2
K1
K5
F1
2AT
X20
pin counting 1
V04 en, SCC_WE
K10
K8
K4
K6
F2
F2
2AT
X23
K3
K9
K7
N
K11
200
0
208
230
220
240
250
K12
?
LED V68
G3
T1
X14
+
*
18V
11,5V
X75
X19
X18
1
�SCC_WE CPU - Terminal connection - LED Code
Interface PCB A1
X7
Power input to ON/OFF switch
X10
Central dial
X102 Touch
X150
X151
X152
X153
Data cable CPU (X107)
X154
Data cable TFT
X155
X158
Main PCB A2
X1
X2
X3
X4
X5
X6
X8
X11
X12
X13
X14
X15
X16
X18
X19
X20
X21
X23
X24
X25
X26
X27
X29
X30
X51
X54
X60
X75
X106
X107
F1
F2
Pressure sensor P1
Thermocouple B3.1 - 3.6 core probe
Thermocouple B1 cabinet
Thermocouple B2 quenching
Thermocouple B4 humidity
Thermocouple B5 steam generator
Loud speaker T2
Solenoid Y5 Clima
Level electrode S2
Cabinet light
Power supply from transformer T1:
CDS Sensor
SC Pump M4, Cleanjet Pump M6
Solenoid Y1, Y2, Y3
Energy optimising (Sicotronic)
230V Power input
UltraVent without Bus (USA only)
SSR
Drain valve M7, Micro switch S12
Door contact S3
- 12V AC
- 12V DC
- 12V AC 600Hz
- 11.5V AC
- 11.5V AC, 18V AC
- 12V DC
- link on 2-4
- 12V DC
- 12V DC
- 12V DC
Bus cable
USB connection
SD card slot
cooling fan M5, Care Pump M12, Solenoid valve Y4
Ethernet connection
Data cable Interface PCB (X153)
2A slow 230V power input X21
2A slow 230V power input X21
LED Code CPU:
LED V10 (above the CD card):
LED V68 (below the CD card):
- 12V DC
Internal power supply 3,3V processor ok
if V10 off and V68 ok - change PCB
18V power supply from T1 ok
if V68 off - check connection, change transformer T1
- 23 -
V04 en, SCC_WE
�SD card - Changing PCB, new SD card
ONLY remove the SD card from the pcb, when the pcb must be replaced!
The SD card shall NOT be connected to any windows based reader or Computer! Doing so
will damage the data structure on the SD card and your unit will no longer function!
The SD card on port X60 contains all unit specific information like energy type, unit size etc.
The SD card is unit specific and shall NOT be transferred from one unit to another!
Service part pcb’s are sent without SD card. Should you need to replace an original pcb by
a service part pcb, remove the SD card from the old pcb and insert it into the new pcb. The
unit will not function if the SD card is not inserted.
This SD card is specially formatted and configured for use in the SCC_WE unit.
You can not replace it by a locally purchased SD card.
V04 en, SCC_WE
- 24 -
�1
Software update
Only possible when SD card is properly
inserted
2
PCB New - No SD card inserted
Unit will not function
3
PCB new - Old SD card
(standard service call)
4
PCB old - New SD card
(Service 19.1)
Upload icon key is shown, When pressing the
icon for 10 seconds, data are copied from SD
card to pcb
Data are copied automatically from pcb to SD
card.
5
PCB new - SD card from
other unit
(only in case of emergency,
e.g from unit from shown
room, when no SD card is
available as a service part)
a) SD card old - PCB from
other unit
(only in case of emergency,
e.g from unit from shown
room, when no PCB is
available as a service part)
Upload icon key is shown, When pressing
respective key for 10 seconds, data are copied
from SD card to pcb
b) PCB old - SD card from
other unit
(only in case of emergency,
e.g from unit from shown
room, when no SD card is
available as a service part)
SD card was replaced (b)
When pressing respective key for 10 seconds,
data are copied from pcb to SD card or vice
versa.
6
Upload icon and download icon keys are
shown,
Display: Please select for recovery:
PCB was replaced (a)
NOTE: Emergency only!
A SD card from another unit can ONLY be used, when this unit is of the same size and
energy (electric or gas)!
After using a new SD card (Case 5 and 6 (SD - card to unit) the Selftest must be re-activated in Basic Setting & gt; Selftest.
- 25 -
V04 en, SCC_WE
�Fault tree Changing PCB SCC_WE
Changing pcb
(pcb defective)
Isolate unit from power supply
(Disconnect control fuses F1, F2)
Removed SD card for usage in
new PCB.
Remove faulty PCB
Replace pcb
Insert SD card from old PCB into new PCB;
In order to avoid Service 16 or 17 connect white USB
stick with latest software to USB interface before
re-inserting the control fuses.
(Software update is only possible when SD card is
properly inserted into PCB.)
Reconnect unit to power supply
(reconnect control fuses) and
switch unit ON
Software update to latest version
Only disconnect Software update
stick when basic SCC display is
shown.
V04 en, SCC_WE
- 26 -
�Fan motor SCC_WE Line
Bus
LED 100 - 240V
On floor units with 2 motors the bottom
motor carries a jumper for bus recognition. This jumper is part of the wiring
harness.
Only when the motor
is connected to mains
supply the green LED will
show and the bus signal
can be processed.
Unit size
61 - 101 - 201
Electric and Gas
62 - 102 - 202
Electric and Gas
x
---
---
x
x
x
Motor 40.03.378, Rotor black, 550W
1NAC 100 - 250V
Motor 40.03.513, Rotor brown, 700W
1NAC200 - 250V, 2AC 200-240V
Motor 40.03.514, Rotor brown, 700W
3AC 400-480V
NOTE: Gas units 62, 102 and 202 for countries with voltage 3AC200-240V, USA / Japan etc:
Gas units 62, 102 and 202 must be connected to L1 - L2, because the fan motor 40.03.513 is
running on 200 - 250V only.
When changing the fan motor, a new motor shaft gasket must always be used!
There are 4 different fan speeds. It is possible that the motor will reduce speed independently to avoid
energy transfer by the rotating fan wheel.
120 sec
120 sec
The fan motor rotates clockwise - anticlockwise with a
120 second interval.
On floor units the bottom motor (with jumper) has a
60 second time lead in changing direction to the upper motor.
Blink code LED: Please refer to error messages!
- 27 -
120 sec
60 sec
120 sec
120 sec
120 sec
V04 en, SCC_WE
�Bus connection
Electric units:
61-102 E
201-202 E
X51
1
2
D15
LED3
1 2 3 4
LED2
K2
K4
K10
K8
F1
F2
K1
K5
K3
K6
K11
K7
K9
K12
G3
+
+
ON
LED1
1
2
Bottom motor
Gas units
:
61-102 G
201-202 G
X51
D15
LED3
1 2 3 4
LED2
F2
K2
K1
K10
4
1
2 8
F1
K8
K6
K11
K4
K5
K3
K7
K9
K12
G3
+
+
ON
LED1
Bottom motor and bottom ignition box
The bus system is equipped with a 6-pol Mini-Fit plug system.
In the bus system the individual components have individual addresses. Each address only exists once
in a unit.
The duplicated components in a floor unit, Fan motor bottom and Ignition box bottom are
identified with a jumper on the component. This jumper is part of the control harnes.
X8
X3
X107
X106
X4
X2
X5
X6
X16
X51
The main pcb sends the action command via the bus cable.
LED3
D15
X24
Additionally the pcb receives information from the individual components via the same bus ( e.g. rpm).
X1
X11
X12
LED1
X30
1 2 3 4
X25
ON
The connecting sequence for the components on the bus is not important and can be chosen freely.
X29
LED2
X26
X15
G3
+
+
X60
X14
X13
- 28 -
F2
2AT
X23
X21
F1
V04 en, SCC_WE
F2
K2
K1
K5
K3
K10
K8
K4
K6
K11
K7
K9
K12
X27
F1
2AT
X20
X75
X19
X18
�SolidStateRelay (SSR) internal design / Test
Contactor with 12V DC coil
A1/B1
SSR with 12V DC control
A1/B1 - A2
A1/B1 - B2
A2
12V DC
0V DC
A1/B1
0V DC
12V DC
Steam / Dampf
Hot Air / Heißluft
+
+
-
A
A2
B
B2
SSR Test: Unit is switched ON and cabinet door is open
L1 - L2 = 400V
+
+
A1/B1
A
B
B2
Volt
400V = ok
+
+
-
A2
Volt
A1/B1
A
A2
B
0 Amp = ok
B2
400V = ok
- 29 -
V04 en, SCC_WE
�SSR 100% - 50% power at 3NAC/400V
Control of SSR steam element at 100% energy demand
Star connection 3(N)AC 400-480V
Violet
L3
A1/B1 - A2
A1/B1 - B2
12V DC
0V DC
P
C
B
A1/B1
L2
+
+
-
Steam / Dampf
Hot Air / Heißluft
A
A2
B
B2
Orange
Black
12V DC
0V DC
+
+
-
A
B
A1/B1
L1
Steam generator
safety thermostat 160°C
A2
B5
Thermocouple B5
B2
Control of SSR steam element at 50% energy demand
Star connection 3(N)AC 400-480V
Violet
L3
A1/B1 - A2
A1/B1 - B2
0V DC
0V DC
P
C
B
A1/B1
L2
+
+
-
Steam / Dampf
Hot Air / Heißluft
A
A2
B
B2
Orange
Black
12V DC
0V DC
L1
V04 en, SCC_WE
+
+
A1/B1
A
Steam generator
safety thermostat 160°C
A2
B
B5
Thermocouple B5
B2
- 30 -
�SSR 100% - 50% power at 3AC 200-240V
Control of SSR steam element at 100% energy demand
Delta connection 3AC 200-240V
Violet
L3
A1/B1 - A2
A1/B1 - B2
12V DC
0V DC
P
C
B
A1/B1
L2
+
+
-
Steam / Dampf
Hot Air / Heißluft
A2
A
B
B2
Orange
Black
12V DC
+
+
-
0V DC
L1
A
A2
Steam generator
safety thermostat 160°C
B
B5
A1/B1
Thermocouple B5
B2
Control of SSR steam element at 50% energy demand
Delta connection 3AC 200-240V
Violet
L3
A1/B1 - A2
A1/B1 - B2
0V DC
0V DC
P
C
B
A1/B1
L2
A
A2
B
B2
Orange
Black
12V DC
0V DC
L1
+
+
-
Steam / Dampf
Hot Air / Heißluft
A1/B1
+
+
-
A
A2
B
B5
Steam generator
safety thermostat 160°C
Thermocouple B5
B2
- 31 -
V04 en, SCC_WE
�Control of cooling fan
The supply air cooling fan for units 61 - 102 behind the control panel is
controlled by a converter 230V AC - 24V DC.
The air filter under the control panel can be replaced by simply unlocking
it from the base frame.
The cooling air is discharged through the bottom of the unit.
The supply air cooling fan 201-202 on the rear left back panel is controlled
by a transformer pri. 230V AC, sek. 12V DC.
The air filter can only be changed after dislodging the protection cover
and sliding it to the right side.
The cooling air is discharged through the top left side of the rear panel.
Both supply air cooling fans are equipped with a temperature sensor
(NTC). This sensor measures the temperature at the position of the clima
valve Y5. The speed of the cooling fan increases with increasing temperature.
This sensor can not be changed separately.
The DC (supply air) cooling fan always runs when either of the following conditions are given:
B4 Temperature is above 130°C (266°F) or the CPU temperature is above 60°C (140°F) or any cooking
process is selected.
Additional 230V cooling fans distribute the cooling air in the electrical cabinet and cool the SSRs.
If the pcb reaches a temperature of 65°C (149°F) - depending on unit type- , “Change air filter” will be
displayed. If a temperature of 80°C (176°F) is reached, any running cooking mode or program will be
terminated and error “Service 29” is displayed.
V04 en, SCC_WE
- 32 -
�Control of drain valve
When switching on the SCC unit the drain valve automatically starts to initialise, this means it
tries to find the correct end position. This end position is the open position of the ball valve (position for cooking).
If this doesn‘t work, „Service 26“ will be indicated
(see also Basic Setting, t0 and t1, 1/4 and 3/4 turn)
A: Position for cooking
1.
2.
3.
4.
5.
6.
Drain valve with motor and limit switch
CleanJet Pump
Waste water from quenching box
CleanJet solution from quenching box
Drain of the unit
CleanJet solution to cooking cabinet
3
A
2
1
5
B: Only during CleanJet and Care in certain process steps the drain valve will be closed
(position CleanJet and Care)
6
B
4
2
1
In function test it is possible to rotate the drain valve manually clockwise or anti clockwise. This
can be necessary if the drain valve is jammed.
The drain valve is in open position, when the micro
switch S12 changes from 0 to 1 when opening in
function mode.
1
The drain valve is in closed position, when the micro switch S12 changes from 0 to 1 when closing in
function mode.
0
- 33 -
V04 en, SCC_WE
�CDS
1.Basics
During steam production the concentration of minerals in water of the steam generator increases.
These minerals deposit in the steam generator and build up scale.
The build up of scale is influenced by the local water hardness and the individual usage of the
unit. The SCC unit continuously calculates the scale amount inside the steam generator.
This value is also used for calculating the number of indicated rinse tabs in CareControl.
2. Function description
A
� t the end of the SC-automatic the steam generator will be filled. Solenoid valve Y1 opens and
water flows into the steam generator via the CDS sensor. During this filling phase S11 (CDS Sensor) creates pulses (1000 Pulses = 1l). When the water reaches the level electrode S2, the filling
will be stopped and the measured number of pulses are stored. The unit specific nominal filling
volume is stored in the CPU and will be compared with the actual filling volume (calculated from
the pulses).
The higher the difference between nominal- and actual filling volume, the more scale has built
up in the steam generator and therefore also the number of indicated bars in the Care display
increases.
When cleaning the unit regularly as requested, using the „CARE“ tabs the built up of scale in
the steam generator will be avoided and the CDS pulses remain constant.
CPU
S2
B5
F3
M4
Y1
S11
V04 en, SCC_WE
- 34 -
�CareControl
The condition of the indication depends on:
a: the use of the unit
b: the cleaning behaviour of the customer
c: the degree of scale in the steam generator (see information
CDS).
Display Care - long term status display
1: very good care - only one green bar visible.
2: medium care - yellow bars are visible
3: neglected care - red bars are visible
The request for Clean+Care has been neglected several times.
Only regular cleaning will reduce the display to one green bar again.
Display Clean - short term / daily status display
Actual dirt status
1: Only green bars visible - no cleaning necessary
2: Yellow bars visible - CleanJet request will show soon
3: red bars visible - Cleaning urgently required
CleanJet request is dependent on the usage pattern of the unit:
- SCC processes
- manual modes
- cooking programs
- duration
- temperatures
Using any of the Cleanjet programs: Quick, Save, Medium or Strong will reset the bars of the Display
Clean to 1 green bar (starting with software version 05-00-09).
CleanJet +Care can only be started when the cabinet temperature is below 50°C (122°F).
- 35 -
V04 en, SCC_WE
�Function during CleanJet+Care
Sequence of Cleanjet Program Light, Medium, Strong
Component test
1. SC pump is activated until level electrode senses low water.
2. Y1 filling solenoid is activated (control by CDS)
3. Y3 moistening solenoid is activated (control by CDS)
4. Y4 Care solenoid is activated (control by CDS)
5. Y1-Y3-Y4: all solenoid valves are switched off, CDS shall not send any pulses.
CleanJet Phase
6. M7 drain valve closes
7. Y3 moistening solenoid brings water into the quenching box (CDS controlled)
(In case the moistening nozzle is blocked water is brought either by quenching solenoid Y2
(time based) or pumped from the steam generator into the quenching box (time based)
- depending on CJ step)
8. M6 Cleanjet pump pumps water through the cabinet (water flow is detected by amp draw of
motor)
9. M7 drain valve opens and dirty water is released.
(steps 6 - 9 are repeated dependent on cleanjet program light, medium or strong)
Care Phase
10. Y4 Care solenoid fills care container twice with water. The water with the dissolved care
chemical is pumped each time into the steam generator with the care pump M12.
11. M7 drain valve closes.
12. Y1 filling solenoid fills the steam generator with water up to the level electrode.
13. M4 SC pump is activated for a few seconds to pump some of the content of the steam
generator into the quenching box.
14. Y1 filling solenoid refills the steam generator higher than the level electrode.
15. Y3 moistening solenoid tops up the quenching box.
16. SSR - water in the steam generator is preheated up to 80°C (176°F)
17. M6 Cleanjet pump pumps water (rinse) through the cabinet.
18. M7 drain valve opens and water is released.
19. M4 SC pump empties steam generator.
20. Steam generator is flushed several times, cabinet will be steamed for a few minutes.
V04 en, SCC_WE
- 36 -
�CleanJet: Error messages - Abort program
Depending on real steam production time or when the scale deposit inside the steam generator is
below 4%, only a small number of Care Tabs is indicated and steps 12, 14, 16 and 19 are skipped (no
descaling of steam generator, shorter CleanJet+Care process). ������������������������������������
The entire content of the steam generator is pumped into the quenching box.
If the scale deposit is above 4%, more Care tabs are requested (depending on unit size), all steps are
activ and the steam generator will be descaled.
Above 16% scale the Descaling tab (starting of descaling program)
will be shown under Service.
Service
Descaling
Reaching 20% the customer will be informed that descaling
is urgently needed. This information will be active for 2 minutes
Possible error messages during CleanJet +Care
Problem
Cancel error indication by:
Step 1:
Service 10
SC pump
Step 2:
Low water
Y1, water tap
Step 3:
Service 41
Y3, moistening blocked (CDS)
Step 4:
Service 42
Y4, care valve blocked (CDS)
Step 5:
Service 43
Y1, Y3, Y4 valve leaking (CDS)
Step 9:
Service 44
Steam heating (B1)
Follow fault tree
Solve reason for low water
indication (water tap etc)
Rinse without tabs
Rinse program
Rinse program
Rinse program
Step 12:
Step 13:
Step 14:
Rinse program
Abort program
Abort program
Service 40
Service 110
Service 120
Care pump, Care hose
SC pump, level electrode
Care pump, level electrode
CleanJet interrupt program
Should a running CleanJet program be interrupted by power failure or the unit has intentionally been
switched off, an ABORT program of approx. 27min must be started to bring the unit back into safe
operation mode.
This ABORT program can not be shortened or aborted again but must be completed successfully.
The cabinet will be flushed with CleanJet pump M6. The steam generator will be filled with the Care
valve Y4, emptied with SC Pump M4 and then overfilled with the solenoid valve filling Y1. Now the
steam generator will be emptied once again and then refilled.
Finally there is a short steam phase (neutralisation of the steam generator).
- 37 -
V04 en, SCC_WE
�Diagnose - Real Time Data - Start
Function key
Settings
enter password
HACCP
Communication
Q W E R T Z U I O P
Service
A S D F G H J K L
Y X C V B N M
UK _+123
Display Configurator
Sensors
Service Mode
Real Time Data:
In Real Time Data all sensors
and actuators are checked for
their actual values.
Clima
Diagnostic
Basic Settings
Äöüß
Diagnostic
Water, Cleanjet,
Motor, Switch
Real Time Data
Function Test
Components
Running Times
Calibration
Modes
Service History
Running times
In Running Times all times of
actuators, cooking modes and
switches are recorded.
Heating
Service error history
Gas error history
Top ign. box
Gas error history
Bottom ign. box
V04 en, SCC_WE
- 38 -
Service Error History
In Service Error History the
error codes are listed with their
time of first, last and quantity
of occurance.
�Diagnose - Real Time Data - Content
Real time data - Sensors
Act. Temperature
Max Temperature
Acvcepted Tolerance
Time max temperature reached
Status
Dry
Wet
combi
Clima Status RPM 1L
500 rpm
Dry X Pa
Wet X Pa
Combi X Pa
Clima Status RPM 1R
500 rpm
Dry X Pa
Wet X Pa
Combi X Pa
Clima Status RPM 2L
1000 rpm
Dry X Pa
Wet X Pa
Combi X Pa
Clima Status RPM 2R
1000 rpm
Dry X Pa
Wet X Pa
Combi X Pa
Clima Status RPM 3L
1450 rpm
Dry X Pa
Wet X Pa
Combi X Pa
Clima Status RPM 3R
1450 rpm
Dry X Pa
Wet X Pa
Combi X Pa
Clima Status RPM 4L
1550 rpm
Dry X Pa
Wet X Pa
Combi X Pa
Clima Status RPM 4R
1550 rpm
Dry X Pa
Wet X Pa
Combi X Pa
Clima valve Y5
" open " or " closed "
Clima Out P1
x.x Volt
Clima Humidity
x%
Status
Status
Status
Cabinet B1
Quenching B2
Humidity B4
Steam Generator B5
Core Temp B3-1 (tip)
Core Temp B3-2
Core Temp B3-3
Core Temp B3-4
Core Temp B3-5
Core Temp B3-6 (shaft)
Temperature PCB
Real time data - Clima
Real time data - Water, CleanJet / Care, Motor / Switch
Status
Filling solenoid Y1
" on " or " off "
Moistening solenoid Y3
" on " or " off "
CDS Sensor S11
1000
Level Electrode S2
" water " or " no water "
SC-Automatic
Actual X min
Run time X sec.
Set time X min
Volume Steam generator
Norm X l
Fill X l
Calccheck X l
SC-pump
„puls“ or „continuous“
CleanJet Pump M6
" on " or " off "
Drain valve motor M7
" on " or " off "
Micro switch drain valve
S12
0 or 1
Care pump M12
" on " or " off "
Solenoid valve care Y4
" on " or " off "
Door Contact S3
" open " or " closed "
Motor Table/Floor M1
L/R
X 1/Min
Motor Floor M2
L/R
X 1/Min
Hot air
0% or 50% or 100%
GAS: X uA
Steam
" on " or " off "
Quenching solenoid Y2
0% or 50% or 100%
GAS: X uA
- 39 -
V04 en, SCC_WE
�Diagnose - Running times - Start
Function key
Settings
enter password
HACCP
Communication
Q W E R T Z U I O P
Service
A S D F G H J K L
Y X C V B N M
UK _+123
Display Configurator
Service Mode
Diagnostic
Diagnostic
Real Time Data
Basic Settings
Running Times
Components
Function Test
Service History
Modes
Äöüß
Heating
Calibration
V04 en, SCC_WE
- 40 -
Running times
In Running Times all times
of actuators, cooking modes
and switches are recorded.
�Diagnose - Running times - Content
Running times
Components
Running times
Door openings S3
Reset
XXXX
Ball valve openings S12
Reset
XXXX
Solenoid valve filling Y1
Reset
XXXX min
Solenoid valve quenching
Y2
Reset
XXXX min
Solenoid valve moistening
Y3
Reset
XXXX min
Solenoid valve care Y4
Reset
XXXX min
Clima valve Y5
Reset
XXXX
SC pump M4
Reset
XXXX min
CleanJet Pump M6
Reset
XXXX min
Ball valve motor M7
Reset
XXXX min
Care Pump M12
Reset
XXXX min
Emergency controler
Reset
XXXX
Modes
Running times
Steam mode
XXXX hrs
Hot air mode
XXXX hrs
Combi steam mode
XXXX hrs
Vario steam mode
XXXX hrs
Finishing mode
XXXX hrs
Cleanjet " rinse without
tabs "
XXXX hrs
CleanJet " rinse "
XXXX hrs
CleanJet " Interim
cleaning "
XXXX hrs
CleanJet „Quick“
CleanJet " Save "
XXXX hrs
CleanJet " Medium "
XXXX hrs
CleanJet " Strong "
XXXX hrs
Cool down
XXXX hrs
Total running time unit
XXXX hrs
Heating
Running times
Steam heating time
XXXX hrs
Hot air heating time
Reset
Reset
XXXX hrs
- 41 -
V04 en, SCC_WE
�Diagnose - Service error history - Start
Function key
Settings
enter password
HACCP
Communication
Q W E R T Z U I O P
Service
A S D F G H J K L
Y X C V B N M
UK _+123
Display Configurator
Service Mode
Diagnostic
Diagnostic
Real Time Data
Basic Settings
Running Times
Function Test
Service History
Äöüß
Service error history
Calibration
Gas error history
Top ign. box
Gas error history
Bottom ign. box
V04 en, SCC_WE
- 42 -
Service Error History
In Service Error History the
error codes are listed with
their time of first, last and
quantity of occurance.
�Diagnose - Service error history - Content
Error messages can be reset after repair by pressing the RESET key for 2 seconds.
SCC Service Error History
counter
last appearance
SC pump
hr:min:sec dd:mm:yyyy
X times
time and date
Service 11
CDS sensor
hr:min:sec dd:mm:yyyy
X times
time and date
Service 12
CDS sensor without
signal
hr:min:sec dd:mm:yyyy
X times
time and date
Service 13
Steam generator is not
refilled during steam
mode
hr:min:sec dd:mm:yyyy
X times
time and date
Service 14
Level electrode doesn`t
recognise water;
hr:min:sec dd:mm:yyyy
X times
time and date
Service 16
Software structure
hr:min:sec dd:mm:yyyy
X times
time and date
Service 17
SD card
hr:min:sec dd:mm:yyyy
X times
time and date
Service 18
SD card
hr:min:sec dd:mm:yyyy
X times
time and date
Service 19.1
SD card.
hr:min:sec dd:mm:yyyy
X times
time and date
Service 20
Thermocouple
defective
hr:min:sec dd:mm:yyyy
X times
time and date
Service 23
SSR Steam
hr:min:sec dd:mm:yyyy
X times
time and date
Service 24
SSR Hot air
hr:min:sec dd:mm:yyyy
X times
time and date
Service 25
No water flow detected
during CleanJet
hr:min:sec dd:mm:yyyy
X times
time and date
Service 26
Drain valve
permanently closed
hr:min:sec dd:mm:yyyy
X times
time and date
Service 27
Drain valve doesn‘t close
hr:min:sec dd:mm:yyyy
X times
time and date
Service 28
Thermocouple B5 a
hr:min:sec dd:mm:yyyy
X times
time and date
Service 29
PCB temperature above
85°C (185°F)
hr:min:sec dd:mm:yyyy
X times
time and date
Service 30
Emergancy humidity
control
hr:min:sec dd:mm:yyyy
X times
time and date
Service 31
Core probe faulty
hr:min:sec dd:mm:yyyy
X times
time and date
Service 32
Ignition box faulty
hr:min:sec dd:mm:yyyy
X times
time and date
Service 33
Ignition box faulty
hr:min:sec dd:mm:yyyy
X times
time and date
Service 34
Bus signal
hr:min:sec dd:mm:yyyy
X times
time and date
Service 35
Ultravent
hr:min:sec dd:mm:yyyy
X times
time and date
Service 36
P1 defective
hr:min:sec dd:mm:yyyy
X times
time and date
Service 37
P1 out of range
hr:min:sec dd:mm:yyyy
X times
time and date
Service 40
Care pump
hr:min:sec dd:mm:yyyy
X times
time and date
Service 41
Moistening valve
hr:min:sec dd:mm:yyyy
X times
time and date
Service 42
Care valve
hr:min:sec dd:mm:yyyy
X times
time and date
Service 43
Y1, Y3 or Y4 dleaking
hr:min:sec dd:mm:yyyy
X times
time and date
Service 44
steam heating
hr:min:sec dd:mm:yyyy
X times
time and date
Service 55
Blink code motor top
hr:min:sec dd:mm:yyyy
X times
time and date
Service 56
Blink code motor bottom
hr:min:sec dd:mm:yyyy
X times
time and date
Service 60
ignition box
hr:min:sec dd:mm:yyyy
X times
time and date
Service 63
selftest without water;
hr:min:sec dd:mm:yyyy
X times
time and date
Service 110
SC Pumpe
first appearence
counter
last appearance
Service 120
first appearence
Service 10
Level electrode
hr:min:sec dd:mm:yyyy
X times
time and date
- 43 -
V04 en, SCC_WE
�Basic settings - Start
Function key
Settings
enter password
HACCP
Communication
Q W E R T Z U I O P
Service
A S D F G H J K L
Y X C V B N M
UK _+123
Display Configurator
Äöüß
Service Mode
Diagnostic
Basic Settings
Basic Settings
Training manual Gas
Water
General settings
Gas: G20
RPM Correction
600m(ST) 500m(P1)
Ultravent:
Function Test
Ultravent
Self test
Telefon
Yes / no
Gas blower settings:
Steam: Start
Min Max
rpm 2500
Calibration
5800
default 2500
Gassystem
1800
1800
5800
C02 screw: 4,8mm
Hot Air top:
CO2 min: 8.7%
V04 en, SCC_WE
- 44 -
Max
1900
6100
default 4000
In order to store any changes made
the unit must be switched off and on
again.
Min
rpm 4000
Basic Settings:
In Basic Settings all unit specific data
according to unit size, energy and
connections are set.
Start
CO2 max: 9.4%
1900
6100
C02 screw: 5,5mm
Hot Air bottom: Start
rpm
default
C02 screw:
CO2 min: 8.6%
Min
CO2 max: 9.4%
Max
�Basic settings - Content
Water
Status
Factory Setting, Detected values
CDS sensor
1000
1000
Volume steam generator new after
manual descaling
XX l
Volume steam generator new after
steam generator replacement
XX l
SC pump: set pump duration
X sec
SC pump: mode
Continuous oder Puls
SC pump: set interval time
X min
Quenching temperature hot air
XX°C
Quenching temperature steam
XX°C
Cleanjet / Care
Drain valve
Start
Steam corrosion control
" on " oder " off "
Softwater
„on“ oder „off“
Care Control
t1 XX s, t2 xx s
Reset
Phone numbers, UltraVent, Selftest
Service Phone Setting
edit
Chef line phone setting
edit
Deactivate UltraVent
deact
Selftest
off
Deactivate interior light
on - off
Gassystem
Data
Gas type
Nat. H
RPM Correction
Selftest - P1 cold - Factory value
Ultravent
Start rpm XXXX (factory XXXX)
Gasblower speed steam
Min rpm XXXX (factory XXXX)
Gasblower speed steam
Max rpm XXXX (factory XXXX)
Gasblower speed hot air top
Start rpm XXXX (factory XXXX)
Gasblower speed hot air top
Min rpm XXXX (factory XXXX)
Gasblower speed hot air top
Max rpm XXXX (factory XXXX)
Gasblower speed hot air bottom
Start rpm XXXX (factory XXXX)
Gasblower speed hot air bottom
Min rpm XXXX (factory XXXX)
Gasblower speed hot air bottom
on / off
Gasblower speed steam
Max rpm XXXX (factory XXXX)
- 45 -
V04 en, SCC_WE
�Function test - Start
Function key
Settings
HACCP
enter password
Communication
Q W E R T Z U I O P
Service
A S D F G H J K L
Y X C V B N M
UK _+123
Display Configurator
Service Mode
Diagnostic
Basic Settings
Function Test
Calibration
Function Test
Heating / Motor
Äöüß
In function test all components can be operated individually
to test function and electrical connections.
Heating / Motor
All heating elements, fan motor
Water
Water / CleanJet
Solenoid valves, pumps
Motor
Components
Clima valve, Display, loudspeaker
Cleanjet
Gas Burner
Ignition box, Gas valve, Gas blower, Burner
Flue Gas Analysis
Control of gas burner at specified load setting for 4 minutes
max.
Please relate to Training Manual Gas.
Components
Flue Gas Analysis
V04 en, SCC_WE
- 46 -
�Function test - Content
Heating/Motor
Status
Values
Steam 50%
0 or 1
B5 = X°C
Start
Steam 100%
0 or 1
B5 = X°C
Start
Hot air 50%
0 or 1
B1 = X°C
Start
Hot air 100%
0 or 1
B1 = X°C
Start
Fan Motor top
Speed 1R
Actual Speed X rpm
Start
Fan Motor top
Speed 1L
Actual Speed X rpm
Start
Fan Motor top
Speed 3R
Actual Speed X rpm
Start
Fan Motor top
Speed 3L
Actual Speed X rpm
Start
Fan Motor bottom
Speed 1R
Actual Speed X rpm
Start
Fan Motor bottom
Speed 1L
Actual Speed X rpm
Start
Fan Motor bottom
Speed 3R
Actual Speed X rpm
Start
Fan Motor bottom
Speed 3L
Actual Speed X rpm
Start
Water/CleanJet
Status
Values
Solenoid valve filling Y1
0 or 1
Level electrode S2: water or low water
Start
SC Pump M4
0 or 1
Level electrode S2: water or low water
Start
Solenoid valve quenching Y2
0 or 1
B2 = X°C
Start
Solenoid valve moistening Y3
0 or 1
Care valve Y4 + Pump M12
0 or 1
Cleanjet Pump M6
0 or 1
Drain valve motor M7 direction1
0 or 1
End switch S12: 0 or 1
Start
Drain valve motor M7 direction2
0 or 1
End switch S12: 0 or 2
Start
Components
Status
Loudspeaker T2
0 or 1
Start
Interior light
0 or 1
Start
Start
Level electrode S2: water or low water
Start
Start
Display test
Start
Ultravent
Gas Burner
Status
Values
Gas steam blower Max
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
Gas steam blower Start
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
Gas steam blower Min
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
Gas hot air blower top Max
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
Gas hot air blower top Start
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
Gas hot air blower top Min
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
Gas hot air blower bottom Max
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
Gas hot air blower bottom Start
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
Gas hot air blower bottom Min
0 or 1
Start
0 or 1
CO2: XX% Flame current: XX uA RPM:XXXX
Start
- 47 -
V04 en, SCC_WE
�Calibration - Start
Function key
Settings
enter password
HACCP
Communication
Q W E R T Z U I O P
Service
A S D F G H J K L
Y X C V B N M
UK _+123
Display Configurator
Äöüß
Service Modus
Diagnostic
Basic Settings
Function Test
Calibration
Calibration:
Different food items cook best at their specific humidity level and
specific temperature.
Vegetables are steamed, but roast is cooked at a specific humidity and mostly above 100°C (212°F)
To be able to achieve this task the unit must have stored specific
pressure values for cold and dry (40°C / 104°F), 100% steam
and combination e.g. 170°C / 338°F.
This basic information is evaluated during „selftest“ after installation or during manual calibration and stored on the PCB and
SD Card.
Manual calibration has to be done when any of the below listed service work has been carried out:
1. removing of fan wheel / motor
2. changing thermocouple B4
3. changing differential pressure sensor P1
4. installation of a Ultravent or extraction hood on top of the unit
5. installation as the lower unit of a Combi Duo after selftest as a single unit
Note: In this case do NOT run a new selftest, as otherwise the boiling point and the gas
blower speed and the reference volume of the steam generator will be overwritten!
V04 en, SCC_WE
- 48 -
�Calibration - Sequence
Pre condition before calibration
temperature of cooking cabinet sensor B1 is below 40°C (102°F)
temperature of quenching sensor B2 is below 40°C (102°F)
temperature of humidity sensor B4 is below 40°C (102°F)
door contact closed
heating: OFF
fan motor: OFF
left side panel closed, interior cabinet clean, if possible dry;
to achieve best calibration values insert a closed 20mm GN container
with opening facing down onto the rail closest to the center of the fan wheel
(201-202: 2 motors - 2x GN container)
Step
Function
0
ready fo calibration
10
checking calibration
conditions
20
Measuring Offset P1 with
fan motor not turning
100 - 115
pressure measurement cold
table unit 61 - 102
100 - 131
pressure measurement cold
floor unit 201 - 202
200
steam heating up to boiling
point without fan motor
202
steam heating with fan
motor
210 - 225
pressure measurement
steam table unit 61 - 102
210 - 241
pressure measurement
steamfloor unit 201 - 202
300
heating of cabinet to
193°C (380°F)
followed by 60 sec. to 170°C
(338°F) steady condition
301 - 316
pressure measurement
combi table unit 61 - 102
301 - 332
pressure measurement
combi floor unit 201 - 202
999
possible
error
message
reason for error - remedy
calibration sucessfull
Any indicated error relates to the corresponding malibration
step.
10
e.g. error 10 will be indicated, when the condition for calibrations is not given.
Reason: B1, B2 or B4 is above 40°C (104°F)
16 steps for each fan motor, (32 steps with floor models), e.g.
100: running fan motor at constant speed „1“
101: store P1 value at this given speed
200
e.g. 302
e.g. error 200 is indicated, when the steam heating will not
reach the necessary 70°C (158°F) to detremine the boiling
point in the allocated time.
Reason: e.g. SSR (energy optimising) or gas burner is not
activated etc.
e.g. error 302 is indicated, if sensor P1 does not give any or
any valid value at this time.
Reason: P1 defective or hoses to P1 blocked by water.
These errors are indicated during the respective calibration
step is running.
After solving the problem the Selftest must be started again.
- 49 -
V04 en, SCC_WE
�Setting Show mode - error analysis
Software version from 05-00-07:
Selfttest
In case the unit shall be connected as a show room unit
(exhibition), it must be converted prior of starting the self
test.
Your SCC will carry out an automatic
self test and adjust itself perfectly to
the set-up conditions and the altitude.
In the first Selft test display press Service
Start key
Enter password TECLEVEL
Diagnostic
Basic Settings
Function Test
Calibration
1. Press „ Process abort“ key
(all service keys will show again)
Show mode
2. Press show mode 10 seconds
3. Switch unit off and on again
In case only diagnostic mode is shown after entering the password the unit was in a running process
prior entering into service level.
Only at this same time the process abort key is shown.
Press process abort key. Now all components of Service Level are shown.
NOTE: Any running process will be terminated automatically!
In case a service error is indicated, e.g. Service 34, the service start key is indicated
at the same time.
The technician can always enter Diagnostic level via the service start key and
password.
V04 en, SCC_WE
- 50 -
�Error message Service 1 - 25
Display
Definition
Reason and remedy
Service 10
SC pump
Display 30 sec. after switch on
Display can be cancelled
SC-Automatic without function, water level always high
check SC pump and drain hose SC pump.
Service 11
CDS sensor
Display 30 sec. after switch on
Display can be cancelled
Water level o.k.
CDS sensor sends too many pulses
Check level electrode and water path to steam generator for leakage
Service 12
CDS sensor
without signal
Display 30 sec. after switch on
Display can be cancelled
Level electrode o.k.
no signal from CDS Sensor (blocked?), low water pressure
Service 13
Steam generator
is not refilled during steam mode
Steam generator is not refilled during steam mode = & gt; foced filling
check 0-1 signal of level electrode to PCB
Service 14
Level electrode
Appears for 30 sec. after switch ON
doesn`t recognise Display can be cancelled by touch
water;
Level electrode no water sensing
CDS sensor measured enough pulses;
Possible reasons: water conductivity too low, osmosis water treatment
Service 16
Software structure Software data structure of spare part PCB is older than existing data
structure on SD card. Connect new software stick before switching unit on.
Service 17
SD card
not initialised
Service 18
SD card
SD card defective
Service 19.1
SD card.
SD card not inserted
Service 20 -x- Thermocouple
defective
Unit in emergancy mode, call
service;
Service 23
SSR Steam
short circuit
- Display at once when: Temp. B5 rises above 100°C (212°F) for 60sec.
without energy demand
- Intermittent buzzer 30 sec
- Unit without function
Service 24
SSR Hot air
short circuit
- Display at once when: Temp. B1 rises by 100°C (appox. 210°F) without
energy demand
- Intermittent buzzer 30 sec
- Unit without function
Service 25
No function when thermocoule B1 defective.
1=cabinet B1
2=quenching B2
4= humidity B4
8= steam generator B5
(e.g. 20.12 = B4 + B5)
No water flow
detected during
CleanJet
- Display can be cancelled
- Remove container from cabinet
- during CleanJet+Care the fan motor does not an increase in power demand when water hits the fan wheel. - check water pressure, water supply,
moisteneing valve and nozzle and CDS sensor.
- 51 -
V04 en, SCC_WE
�Error message Service 26 - 37
Display
Definition
Reason and remedy
Service 26
Drain valve
permanently
closed
- Appears on time when CleanJet is selected
- Cooking not possible - drain closed
- Micro switch drain valve in permanent closed position
- Replace drain valve assembly
Service 27
Drain valve
doesn‘t close
- Appears for 30 sec. after switch ON
- Display can be cancelled switch
- drain valve in permanent open position, CleanJet not possible
- Check micro switch drain valve
- Start rinse (abort) program
Service 28
Thermocouple B5 above
180°C (356°F)
- Appears if temperature at thermocouple steam generator B5 is
above 180°C (356°F)
- Indication goes off when temperature below 110°C (230°F)
Service 29
PCB temperature above
85°C (185°F)
- Appears on time after switch ON until temperature is low again
- Temperature PCB above 85°C
- Check air filter, cooling fan and control panel gasket
- Check for external heat sources
- check air escape openings
Service 30
Unit running in
emergancy
humidity control
- Appears for 30 sec. after switch ON
- Display can be cancelled
- Humidity control out of function
- Humidity emergency control active since more than 1 hour
Service 31.xx Core probe
faulty
- Display 30 sec. after switch on
Display can be cancelled
- Combination of faults possible i.e.: 10 -- & gt; 2+8)
- 1: shaft probe
2- 5th probe (close to shaft)
- 4: 4th probe
8: 3rd probe
- 16: 2nd probe
32: 1st probe in tip
Service
32.0-1-2
Ignition box
faulty
- reference following list
0 - top, 1 - bottom, 2 - both
- Only change ignition box when gas error 33, 36, 39 or 42 happened more
often than 5x
Service
33.0-1-2
Ignition box
faulty
- Appears after 3x Reset command without positive result
- 0 - top, 1 - bottom, 2 - both
- Check ignition wire, ignition box, gas valve and gas supply.
Service 34.xx Bus signal
- Indication in case of bus signal problems
- Main pcb can not communicate with the following parts
- Combination of faults possible i.e.: 10 -- & gt; 2+8
- 1: Motor top
- 2: Motor bottom
- 4: Ignition module top
- 8: Ignition module bottom
- Check bus cable plug and cable for connection and damage
- when installed as a gas unit B13 (with exhaust through chimney)
check safety thermostat in draft diverter (Service 34.4, 34.8 or 34.12)
Service 35
Connect
Ultravent
Bus signal can not be processed; Connect UV to mains power,
Service 36
Differential
pressure sensor P1 defective
no signal output
Service 37
Differential
Differential pressure sensor P1 no in expected range, check connection of
pressure senhoses.
sor P1 no in
expected range
V04 en, SCC_WE
- 52 -
�Error message Service 40 - 120, blink code motor
Display
Definition
Reason and remedy
Service 40
Care pump doesn`t
fill enough into
steam
generator
Care pump faulty or does not fill enough care solution into steam generator;
- � fter filling of the care solution into the steam generator the CDS senA
sor sends too many pulses until the level electrode recognises water.
Check if the hose from the care pump outlet is not kinked;
- Cleanjet finishes without care phase;
- Reset error by successful completing rinse program;
Service 41
Moistening without
function
- � olenoid valve Y3 defective or moistening valve blocked; CDS does not
S
send any pulses;
- � eset error by successful completing rinse program;
R
Service 42
Care function not
possible, solenoid
Y4 defective
- � olenoid Y4 Care defective or hose to care container blocked or
S
kinked; CDS does not send any pulses;
- Reset error by successful completing rinse program;
Service 43
Y1, Y3 or Y4 do not
close
- � DS sensor sends always pulses; Solenoid Y1, Y3 or Y4 is passing
C
water
- � eset error by successful completing ABORT program;
R
Service 44
No steam heating during
Cleanjet+Care
- � o temperature raise above 60°C recognised by B1 during steaming
N
time while being in Cleanjet phase
- � eset error by successful completing Rinse program;
R
Service 55
Blink code motor top see below
Service 56
Blink code motor
bottom
Service 60
Initialisation of ignition box incorrect
Wrong rpm information for gas blower
Service 63
Cool down uinit, make sure B1, B2 and B4 is below 40°C,
Unit had done a selfIn basi settings - Selftest set Selftest to ON and switch unit off and on
test without water;
again. Run Selftest
Service 110
SC Pumpe not
working while care
solution is inside
steam generator.
- � alfunction of SC pump during the time when Care solution was inside
M
the steam generator,
- Reset error by successful completing ABORT program;
Service 120
Level electrode
without signal while
care solution is
inside steam generator.
- � fter operating care pump M12 (filling care solution into steam geneA
rator) and topping up with water the level electrode does not recognise
water;
- Care Pump M12 or level electrode defective;
- Reset error by successful completing ABORT program;
see below
Switch unit off and on again,
run SD Repair program
The error messages can be seen under Diagnostic, Service history.
Blink code Motor
Remedy
1x
Starting error
contact Rational, change motor
2x, 4x, 5x, 7x, 9x, 11x,
12x
Motor defective
change motor
3x, 6x,
volatge error
check voltage supply, change motor
8x
possible starting error
check fan wheel for distortion, change motor
10x
Reason
only with 3AC motor
40.03.514
phase is missing
- 53 -
V04 en, SCC_WE
�Diagnostic - Gas Error History
Normally the ignition box must not be changed when an error message is found in the gas error
history.
•
The general error „Service 32“ (E32 CM_P) can be caused by the gas errors 33,36,
37, 39 and 42 or 35.
•
The general error „Service 33“ (E33 CM_P) can be caused by the gas errors 22 and 32.
With this information we want to show you how to proceed when errors are found in the gas error
history.
A:
The error messages 1-14, 21, 23, 31 show internal ignition box errors which will result in a RESET
signal. Should any of the above errors show more often than 5x please change the ignition box.
The error messages 33, 36 und 37 shall only be observed, when at the same time a
SERVICE 32 was recorded. (refer to service data)
Only in this case the ignition box should be changed.
Please always fill the ignition box check list and send it back together with the defective part.
B:
When you find the following errors the ignition box is mostly not the problem.
Error 17 and 18 (hot air), 27 and 28 (steam). These errors cause a RESET signal. Please check
the burner electrode distances, the ignition wire and possible soiling of the burner head.
Should the the individual error still show more than 5x after checking the above, change the ignition
box.
Error 19 (hot air) and 29 (steam). No flame recognition.
Check the dynamic gas pressure in hot air mode, burner electrode distances, the ignition wire and
possible soiling of the burner head. Perform a flue gas analysis.
Should the the individual error still show more than 5x after after checking the above, change the
ignition box.
Error 20 (hot air) and 30 (steam). The rpm signal of the gas blower is faulty.
Check the supply voltage (230V) at the blower. Check the cable from the ignition box to the blower
for continuity. If the blower does not turn, change the ignition box. Should the blower still not work,
change the ignition box back and exchange the gas blower.
Error 22 (hot air) and 32 (steam). No flame sensing after 5x ignition.
RESET will show. If RESET is pressed 4 times SERVICE 33 will show.
Check the static and dynamic gas pressure (in hot air mode). If there is not pressure drop, the gas
valve is not opening. For checking the function of the gas valve change the ignition box. Should the
gas valve still not operate, change the ignition box back and change the gas valve.
Please check the burner electrode distances, the ignition wire and possible soiling of the burner
head.
In case of error 22 (hot air) check the cable from the ignition box to the hot air gas valve for continuity.
Perform flue gas analysis.
Error 22 or 32 will show frequently when the kitchen exhaust hood is not switched on which is necessary to open the gas supply.
V04 en, SCC_WE
- 54 -
�Diagnostic - Gas Error History
Error 39 (hot air) and 42 (steam). These error messages shall only be observed, when at the same
time a SERVICE 32 was recorded. (refer to service data)
Please check the burner electrode distances, the ignition wire and possible soiling of the burner head.
Should the the individual error still show more than 5x after after checking the above, change the ignition box.
Error 34: The unit was switched on with wrong polarity L1 - N
Error 35: Check voltage and frequency of the power supply.
These error messages shall only be observed, when at the same time a SERVICE 32 was recorded.
(refer to service data)
Error 38: These error messages shall only be observed, when at the same time a
SERVICE 60 was recorded. (refer to service data)
Switch unit off and on again.
Should the error remain, contact Rational for software repair.
When you have changed the ignition box, please always reset the Gas Error History!
The gas error history can be reseted starting with software version:
CM_P:
C2-00.05
SCC_WE: 05-00-11
- 55 -
V04 en, SCC_WE
�SCC Software update
Only use the Original Rational USB Stick for Software update of SCC_WE units.
(Note: Most of the standard USB sticks can not be used for software update.)
The Rational USB Stick can be ordered with service part number: 87.01.084.
Software can only be updated to a higher version.
NOTE: The duration of a complete software update can last up to 10 miunutes!!
Please follow below instructions!
Software update can be done by the customer as follows::
Connect the USB stick with the USB interface at the bottom left hand corner of the control panel.
Funktionstaste
Settings
HACCP
Press the key Communication, USB and update.
Service
Display configuration
For standard update proceed as follows:
1.
Switch unit on
2.
Wait unitl the user interface is shown on the display.
3.
Connect the USB stick with the latest software version with the USB interface at the bottom
left hand corner of the control panel.
4.
Switch unit off and on again.
The unit will display „Update“
Only remove the USB stick after the display has changed again to the standard SCC display.
Please always make sure your customer has the latest software version on his appliance.
V04 en, SCC_WE
- 56 -
�SCC Software update
with Login
Service Web Site: https://portal.rational-online.com
Internet connection
Download Software.zip file
Download SCC Webupdate .exe
Unzip downloaded Software to whiteRATIONAL-USB stick.
Stick format: FAT32
The stick shall not contain any other
data!
Whe new software becomes available
software can be updated on
RATIONAL USB by using
UPDATE SCC_WE.exe file without
login to service web site.
Update unit with RATIONAL USB stick.
- 57 -
V04 en, SCC_WE
�Download of service data
With this function all actual valid service data of the diagnose program can be downloaded onto a
stick. This can be done during an active process or also if the unit is in standby (unit must be switched
on). To get all data the download should be done during an active process.
The maximum number of download‘s on one SCC is 4 times within one our.
Connect USB Stick to unit interface. If the stick is recognised it will be
shown as a blue stick symbol right of the download key.
Funktionstaste
Einstellungen
Touch key. During the Download-process the colour of the stick changes from blue to red and on the key in the symbol running lines are
visible.
HACCP
Kommunikation
Service
Display Konfigurator
The following data can be found on the stick after connecting it to a PC:
On the stick the folder „log“ can be found.
RAG_xx_yy_SERVICE.txt.
xx:
Serial number
yy:
Date of Download
The file contains the service datas which are appropriate at the moment
of the download.
The file RAG_xx_yy_SERVICE.txt is partitioned into the following block‘s:
- Common Information
- Basic settings
- Diagnostic Real time data
- Diagnostic-Service History-SCC
- Diagnostic-Service History-Gas
- Diagnostic-Running times
In case your service call is subject to an unknown error and / or the error is sub-
ject to application problems please always download also the HACCP data!
With the INFO download key complex unit data can be downloaded. These data can only be
evaluated by Rational. The data time range for the download can be selected.
V04 en, SCC_WE
- 58 -
�Download of unit service data
RAG_E62SH12022208034_20120515092833_service
Common Information
-----------------Date and Time.................: 20120515092835
Startup Date and Time.........: undef
Unit type.....................: SCC_62
Energy type...................: E
Unit Serial number............: E62SH12022208034
Software version..............: SCC-05-00-10
Script version................:
SW-update Date and Time.......: undef
CPU-Board Revision............: 0506
CPU-Board Serial number.......: 25233859
CPU-Board Manufacturing date..: 2011-05-19 17:57:58
Burner Control 0 SW-version...:
Burner Control 1 SW-version...:
Language......................: german
Basic Settings
-------------Drain Valve time0......................................:
Drain Valve time1......................................:
Gas type...............................................:
.......................................................:
8.7 s
26.1 s
0
Diagnostic-Real Time Data-Sensors
act
max
lim
Time Stamp dim
------------------------------------------------------------------------------Cabinet B1.............................:
26.46 307.85
350
C
Quenching B2...........................:
21.40 95.18
300
C
.......................................:
Temperature PCB........................:
35.34 81.11
80 20120514130736 C
Diagnostic-Real Time Data-Clima
Status
Dry
Wet
Combi dim__
------------------------------------------------------------------------------Clima Status 1-L.......................:
50066444.6882813.0194368.20 Pa
Clima Status 1-R.......................:
50063631.5785711.5992154.87 Pa
.......................................:
Clima Flap Y5..........................:
CLOSE
Clima Output P1........................:
0.00 V
Clima Humidity.........................:
4.00 %
Diagnostic-Water, CJ/Care Motor/Switch
Status Status Status dim__
----------------------------------------------------------------------Filling solenoid Y1....................:
OFF
Volume Steam Generator (Norm Fill Calc):
5.48
5.57
4.38 l
CleanJet Pump M6........................:
OFF
Door Contact S3........................:
OFF
.......................................:
Diagnostic-Service History-SCC
First time Quantity
Last time
------------------------------------------------------------------------------Service 10.............................: 20111210215318
5 20120418135651
Service 34.2...........................: 20111213084631
5 20120423131943
.......................................:
Diagnostic-Service History-Gas Top-Box
First time Quantity
Last time
------------------------------------------------------------------------------14.....................................: 20120210145254
3 20120516135457
Diagnostic-Running Times-Components
Value dim__
--------------------------------------------------------Door Opening S3........................:
585
Ball Valve Openings S12................:
1381
.......................................:
Diagnostic-Running Times-Modes
Value dim__
--------------------------------------------------------Hot Air Mode...........................:
192 h
- 59 -
V04 en, SCC_WE
�Download of HACCP Data
Function key
Basic Settings
HACCP Data will be available for approximately 10 days when the
unit is used for 16 hours daily.
Should the daily usage be less than that the storage time will be
extended accordingly.
Normally HACCP data can be downloaded onto any commercial
USB memory stick.
Comunication
Service
Display configurator
- connect USB stick to unit interface
- select desired download period
- press download button
When the green tick mark shows on the writing symbol the download is finished.
V04 en, SCC_WE
- 60 -
�Format of HACCP Data
HACCP-Data are shown in the following format:
*** H A C C P ***
;
; Ch-nr. & gt; & gt; 210 & lt; & lt;
; Type
& gt; & gt; SCC_61 & lt; & lt;
; Serial nr. & gt; & gt; E61SH11092534567 & lt; & lt;
; Version & gt; & gt; SCC
- (s/o/C) & lt; & lt;
= batch number
(number of stored cooking processes)
= unit type
= Serial number of the unit
= � oftware version of the unit
S
(„C“ indicates, delay of CleanJet request is activated
Only chain units:
„s“ or „o“ shows unit ran on
(s) Supervisor- or (o) Operator mode.)
= Starting date and time of the cooking process
= Program name
(manual mode was used, if „ & gt; & gt; & lt; & lt; “ appears )
; Time
& gt; & gt; 2011.09.20 12:27:26 & lt; & lt;
; Progr. & gt; & gt; Roast & lt; & lt;
; #1 : Gartemp.
/ cabinet temp.
; #2 : Kerntemp. Soll / core temp. target
; #3 : Kerntemp
/ core temp.
; #4 : Zeit (Std:Min:Sek) / time (h:min:sec)
; #5 : Temp. Einheit
/ temp. unit
; #6 : Energie Opt.
/ energy opt.
; #7 : Energie 1/2
/ energy 1/2
; #1 #2 #3 #4 #5 #6 #7
; Mode HOT AIR
000:00:00
= used cooking mode
29
-
32
000:00:00
C
-
-
; Mode COMBI
000:00:04
29
-
32
000:00:04
C
-
; Mode HOT AIR
000:00:07
29
-
32
000:00:07
C
-
29
-
32
000:00:11
C
-
; end = End of cooking process
B) Additional indications:
Progr. & gt; & gt; SCC - Universal Roast & lt; & lt;
Progr. & gt; & gt; SCC - ~ pork & lt; & lt;
Door opened or Door closed
Start (power failed)
end (HOME)
end (RETURN)
end (ERROR)
start ELC
restart (POWER)
end
= Indication of selected SCC process
= Copied SCC process with new name
= during cooking process
= Power failure longer than 15 minutes
= Process terminated with Home key
= Process terminated with arrow back key
= Process terminated because of error
= ELC Process started
= restart after switching off or power fail
= Process finished
- 61 -
V04 en, SCC_WE
�BK
1
3
5
YE/GN
YE/GN
Version
W0
BU
BN
PE
3
F3
W31
F4
W17
2
1
2
1
5
3
1
13
K1
4
W17
14
.00
4 .00
6 .00
14.03
.03
X.0
N/O
K1
N/O
13
K1
.
PE
Option Pot.-freier Kontakt
2
A2
A1
2
2
A2-F1
2AT
MODUL 1
Leistung/Power
1
3
X7.2
XS1
1
S1
A2
BU
A1
1
4
X21
A2-F2
2AT
BN
N
Z1
3
2
A2
A1
1
4
X19
M1-F2
Y1
6,3A
BUS
M1-F1
XY1
Y2
2
1
M
~
1
2
3
XM1
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6,3A
A2
A1
1
5
XY2
WH
Y3
2
2
A2
BU
2
3
BU
1
+
2
N
3
XG1
M
2
4
X75
w/o option
Link 2-4
ohne Option
Brücke 2-4
-
2
L1
2
XM12
2
2
1
M
~
M12
1
W30
3
X20
c
N 1
d
SCC WE 101E
M5
XM5
G1
N
W32
PE
X20:1 Nullleiter
X20:2 Freigabe Sicotronic
X20:3 Gerät EIN
X20:4 Heizungsanforderung
.
X.0
X0:PE
X0:N (d)
X0:1 Freigabe Sicotronic (c)
X0:2 Gerät EIN (a)
X0:3 Heizungsanforderung (b)
2
a
4
1
OG
Y4
W17
5
3
3
b
Option
Sicotronic system
A2
A1
1
XY4
1
8
2
6
1
Blatt
Datum
Erstellt von
M
~
M4
BU
XM4
1
X18
2
2
1
9
M6
M
~
C1
XM6
4
K1:1 / 2.00
K1:3 / 2.00
K1:5 / 2.00
WH
BU
7
3NAC400 V 50/60 Hz
K1:A2 / 3.00
K1:13 / 3.00
XY3
A1
1
6
6
1
5
3
M1
WH
L3
2
GY
L2
1
BU
BU
BN
2
BU
L1
76-00441
F2 6,3A
F1 6,3A
X0 L1 L2 L3 N PE
BK
W17
N/O 2 4 6
K1
W17
OG
OG
0
VT
VT
BK
RD
BU
BU
BN
GY
RD
- 62 -
BN
WH
V04 en, SCC_WE
2
3
5
BU
1
31.05.2013
SCHD
PE
YE/GN
0
Circuit diagram 101 Power 3NAC 400-415V
BU
�0
- 63 -
3
76-00441
VT
OG
BK
1
X00
W17
L3
VT
1
2
BK
3
4
A2
5
6
B2
4
X24
R2
3
4
B+
3
5
6
(D1)
A-
2
9kW(3x3kW)
D1/D2
1
2
B-
XV1
4
A2
A+
1
1
2
3
4
(HL2)
A1/B1
V1
9kW(3x3kW)
D1/D2
R1
3
OG
MODUL 2
Heizung/Heating
Thermoelement Dampfgenerator
2
BK
BK
HL2BN
BN
VT
B2
6
R4
B-
2
1
XV2
4
3
B+
2
6
5
A2
A+
10
9
4
3
BK
8
7
OG
12
11
7
3NAC400 V 50/60 Hz
SCC WE 101E
18kW(6x3kW)
HL1/HL2
(D2)
A-
1
5
6
7
8
(HL1)
A1/B1
V2
5
BN
BN
HL2+
RD
RD
BK
HL1RD
RD
D1OG
OG
OG
HL1+
OG
OG
D1+
WH
WH
BK
D2GY
GY
OG
OG
OG
D2+
VT
Version
1.08 / K1:1
1.08 / K1:3
1.08 / K1:5
0
8
Blatt
Datum
Erstellt von
9
2
31.05.2013
SCHD
Circuit diagram 101 Heating 3NAC 400-415V
V04 en, SCC_WE
�0
BU
1.06 / K1:A2
Version
BN
W17
2
18V
3
5
4
1
T1-F2
5AT
4
W17
3
2
1
3
76-00441
6
7
4
11,5V
GY
T1-F1
2AT
1.06 / K1:13
T1
230V
W17
3
2
1
GY
220V
X14
WH
250V
SXT1
WH
240V
A2
208V
- 64 -
PXT1
200V
GY
GY
X1
N
1
1
2
2
3
3
XS2
YE/GN
YE/GN
X12
4
4
3
3
2
2
1
1
X3
1
2
WH
WH
WH
GY
GY
WH
WH
GY
GY
GY
GY
X4
3
3
WH
B2
2
4
1
XM7
S12
BK
1
1
X5
5
X25
BK
4
MODUL 3
Sensoren/Sensors
B1
2
1
X11
GN
XP1
WH
Y5
WH
WH
WH
GND
GN
3
2
2
4
B4
2
3
1
5
BU
6
BU
IN Signal
GN
X6
7
3
+
4
3
M
M7
BN
-
8
4
B5
2
BN
S2
1
XS11
YE/GN
P
GN
GY
1
1
X2
X15
GY
5
7
6
2
2
GND
Signal
HALL
S11
IN
5
3
3
6
H1
2
2
2
X8
1
1
2
X2
X2.1
X2.0
2
2
8
X107
1-30
7
7
7
6
6
6
B7
5
5
5
4
4
4
3
3
3
1
1
1
W36
Blatt
Datum
Erstellt von
2
2
2
Option Thermoelement Sousvide
X27
1
1
W23
XS3
S3
SCC WE 101E
B3
3
X13
1
1
T2
7
BK
3NAC400 V 50/60 Hz
4
XH1
W11
BU
P1
WH
4
WH
3
WH
GY
GY
BK
GY
GY
BN
BN
BN
GN
BU
BU
2
OG
BN
YE
WH
WH
1
YE/GN
BN
BN
V04 en, SCC_WE
0
0
1
X10
A1
2
S6
3
SCHD
6
3
31.05.2013
4
5
1-30
X153
9
Circuit diagram 101 Sensor
�
Name
Spannung
42.00.160
3019.0120
40.04.096
54.01.148
40.01.604
40.00.290
40.04.106
4001.0224
40.01.329
40.01.482
40.03.257
3024.0201
40.03.696
40.03.378
56.00.451
44.00.207
40.03.428
56.00.153
56.00.618
3017.1011
44.01.332
44.01.337
40.03.294
TEXT
50.01.640
44.01.417
40.04.342
40.00.404
40.03.348
3019.0120
22.11.2012
SCHD
-A2
-A2-F1/F2
-B1
-B2
-B3
-B4
-B5
-F1/F2
-F3
-F4
-G1
-H1
-K1
-M1
-M12
-M4
-M5
-M6
-M7
-P1
-R1
-R2
-R4
-S1
-S11
-S2
-S3
-S6
-T1
-T1-F1
Änderungsdatum
Erzeuger
1
von 2
- 65 -
3NAC400 V 50/60 Hz
SCC WE 101E
Sicherung Steuertrafo T1 2AT
Steuertrafo
Zentrales Einstellrad
Türkontaktschalter
Niveauelektrode
CDS-Sensor
Ein/Aus Schalter
Heißluftheizkörper
Dampfheizkörper
Dampfheizkörper
Differenzdrucksensor
Kugelhahn Ablauf
CleanJet Pumpe SCC WE
Kühllüfter
SC-Pumpe
Pumpe Pflegemittel
Lüftermotor
Hauptschütz
Garraumbeleuchtung
Gleichrichter Kühllüfter
Sicherheitstemperaturbegrenzer 360°C/680°F
Sicherheitstemperaturbegrenzer DG
Steuersicherung
Thermoelement Dampfgenerator
Thermoelement Feuchte
Thermoelement Kerntemperatur
Thermoelement Ablöschung
Thermoelement Garraum
Sicherung A2 - 2AT
CPU SCC WE
Interface Platine
42.00.081
-A1
Seite
Artikelbezeichnung
Artikelnr.
Item number
Name
Name
Positionsliste
Bill of material
Item description
Version
5
Dokument-Nr. 78-00722
Fuse control transformer T1 2AT
Control transformer
Central dial
Door contact switch
Water level electrode
CDS-sensor
ON/OFF switch
Heating element hot air
Heating element steam
Heating element steam
Differential pressure sensor
Drain valve
CleanJet pump SCC WE
Cooling fan
SC-pump
Care pump
Fan motor
Main contactor
Interior cabinet light
DC converter cooling fan
Safety thermostat interior cabinet 360°C/680°F
Safety thermostat steam generator SG
Control fuse
Thermocouple steam generator
Thermocouple humidity
Thermocouple core sensor
Thermocouple quenching
Thermocouple interior cabinet
Fuse A2 - 2AT
CPU SCC WE
Interface PCB
Circuit diagram Bill of material
V04 en, SCC_WE
�Artikelnr.
Item number
V04 en, SCC_WE
8801.0136
40.04.362
40.03.446
40.02.965
40.03.467
40.03.516
50.01.050
50.01.146
22.00.725
40.02.424
-V1-V12
-W0
-W11
-W17
-W30
-W31
-W36
-Y1/Y3/Y4
-Y2
-Y5
-Z1
von 2
- 66 -
Spannung
SCHD
Erzeuger
3NAC400 V 50/60 Hz
SCC WE 101E
Entstörfilter/Varistor
Klimaventil
Magnetventil Ablöschung
Y1: Magnetventil Füllen / SCC WE Y3: Beschwadung / Y4:
Pflegemittel
Kabel: Interface Platine - CPU SCC WE
Kabel: Ein/Aus Schalter
Kabel: Adapterkabel Pumpe Pflegemittel 61-102
Kabel: Steuerstamm
Kabel: Garraumbeleuchtung
Anschlusskabel
Leistungshalbleiter
SCC WE: Lautsprecher / CMP: Alarmsummer
Name
40.01.589
-T2
2
Sicherung Steuertrafo T1 5AT
22.11.2012
40.03.928
-T1-F2
Seite
Artikelbezeichnung
Änderungsdatum
3019.0126
Name
Name
Positionsliste
Bill of material
Item description
Version
5
Dokument-Nr. 78-00722
Electronic noise filter
Clima valve
Solenoid valve quenching
Y1: Solenoid valve filling / SCC WE Y3: moistening / Y4:
care
Cable: Interface PCB - CPU SCC WE
Cable: ON/OFF switch
Cable: adapter care pump 61-102
Cable: control harness
Cable: interior cabinet light
Cable: power supply
Solid state relais
SCC WE: Speaker / CMP: Buzzer
Fuse control transformer T1 5AT
Circuit diagram Bill of material
�0
1
OG
W17
3
5
Version
BU
BN
PE
3
F3
W31
F4
W17
2
1
2
1
5
3
1
13
K1
4
W17
14
.00
4 .00
6 .00
14.03
.03
X.0
N/O
K1
N/O
13
K1
.
PE
Option Pot.-freier Kontakt
2
A2
A1
2
2
A2-F1
2AT
MODUL 1
Leistung/Power
1
3
X7.2
XS1
1
S1
A2
BU
A1
1
4
X21
A2-F2
2AT
2
A2
1~
XY1
A2
BU
1~
A2
A1
1
5
XY2
A2
BU
6,3A
6,3A
M2
1~
M2-F1
A2
BU
2
3
M
~
1
2
XM2
3
N
W32
PE
PXT4
N
1
2
3
4
5
6
7
2
2
a
1
5
3
250V
240V
230V
220V
208V
200V
0V
XM12
2
2
1
M
~
M12
3
X20
c
N 1
d
SCC WE 202E
4
X75
w/o option
Link 2-4
ohne Option
Brücke 2-4
X20:1 Nullleiter
X20:2 Freigabe Sicotronic
X20:3 Gerät EIN
X20:4 Heizungsanforderung
.
X.0
X0:PE
X0:N (d)
X0:1 Freigabe Sicotronic (c)
X0:2 Gerät EIN (a)
X0:3 Heizungsanforderung (b)
3NAC400 V 50/60 Hz
K1:A2 / 3.00
K1:13 / 3.00
XY3
A1
1
6
M2-F2
A1
Y3
2
2
M14 M
A1
Y2
2
1
M
~
1
M13 M
A1
A2
A1
1
4
X19
M1-F2
Y1
6,3A
2
3
XM1
WH
M1-F1
BUS
3
b
OG
A2
A1
1
XY4
1
T4
Y4
4
Option
Sicotronic system
GY
6,3A
WH
7
1
6
8
1
Blatt
Datum
Erstellt von
2
0V
SXT4
M
~
M4
1
XM4
1
X18
12V
2
6
M5
2
2
1
9
M
M
~
M6
C1
XM6
4
K1:1 / 2.00
K1:3 / 2.00
K1:5 / 2.00
BU
5
3
M1
BUS
M11 M
BN
N
Z1
3
WH
L3
2
BU
BU
BN
2
BU
L2
1
WH
L1
76-00446
F2 6,3A
F1 6,3A
X0 L1 L2 L3 N PE
OG
N/O 2 4 6
K1
YE/GN
YE/GN
BK
W17
VT
VT
BN
GY
RD
BN
BK
RD
BU
BU
BU
~
- 67 -
BK
WH
2
3
5
BU
1
31.05.2013
SCHD
PE
YE/GN
0
Circuit diagram 202 Power 3NAC 400-415V
V04 en, SCC_WE
�0
B2
(HL2)
A1/B1
V1
L3
- 68 -
Version
3
R1
B+
RD
XV1
4
2
3
10
A2
A+
1
9
2
(D1)
A-
OG
76-00446
B-
BN
Thermoelement Dampfgenerator
X00
W16
VT
BK
BK
WH
1
BK
B2
D1
oben
top
3
4
B-
3
A-
OG
2
8
(D1)
7
12
B+
XV2
4
18kW(6x3kW)
5
6
(HL2)
A1/B1
V2
OG
OG
11
1
2
9
10
5
6
XV3
4
B+
3
D2
mitte
mid
3
4
(D1)
A-
2
18kW(6x3kW)
(HL2)
B-
BN
11
12
A2
A+
1
B2
7
8
4
R3
1
2
B-
3
9
10
B+
XV4
4
2
D2
B2
3
4
11
12
7
8
B-
XV5
4
3
2
B+
(D2)
A-
B2
oben
top
4
3
(D2)
A-
2
33kW(6x5,5kW)
10
9
B+
3
OG
8
7
A2
A+
B2
12
11
R5
(HL1)
A1/B1
V7
HL2
1
SCC WE 202E
6
5
B-
RD
XV6
4
7
XV7
4
HL1
2
1
B-
BN
3NAC400 V 50/60 Hz
HL1
2
1
(HL1)
A1/B1
V6
6
R4
A2
A+
1
5
6
7
8
(HL1)
A1/B1
V5
18kW(6x3kW)
5
6
A2
A+
unten
down
(D1)
A-
1
1
2
3
HL2BN
(HL2)
A1/B1
V4
MODUL 2
Heizung/Heating
B2
A1/B1
V3
R2
A2
A+
1
W17
X24
HL2+
RD
BN
A2
D1OG
RD
HL1BN
BN
D1+
WH
OG
HL1+
RD
RD
OG
VT
RD
BK
BN
OG
WH
OG
BK
BK
RD
VT
WH
BK
OG
OG
OG
OG
5
BK
WH
VT
BK
BN
D2OG
OG
1.08 / K1:1
1.08 / K1:3
1.08 / K1:5
OG
D2+
GY
4
BN
GY
BK
OG
GY
BN
GY
3
VT
GY
OG
BK
BK
BN
2
OG
3
6
5
B+
RD
BN
8
A2
A+
1
unten
down
B2
4
3
Blatt
Datum
Erstellt von
8
7
(HL1)
A1/B1
V8
33kW(6x5,5kW)
10
9
(D2)
A-
2
GY
BK
OG
GY
1
BK
BK
VT
OG
GY
12
HL2
RD
3
9
B+
XV8
4
11
B-
BN
OG
V04 en, SCC_WE
OG
2
A2
1
A+
SCHD
2
31.05.2013
(D2)
A-
GY
OG
0
Circuit diagram 202 Heating 3NAC 400-415V
�0
BU
1.06 / K1:A2
Version
BN
W17
2
18V
3
5
4
1
T1-F2
5AT
4
W17
3
2
1
3
76-00446
6
7
4
11,5V
GY
T1-F1
2AT
1.06 / K1:13
T1
230V
W17
3
2
1
GY
220V
X14
WH
250V
SXT1
WH
240V
A2
208V
- 69 -
PXT1
200V
GY
GY
X1
N
1
1
2
2
3
3
XS2
YE/GN
YE/GN
X12
4
4
3
3
2
2
1
1
X3
1
2
WH
WH
WH
GY
GY
WH
WH
GY
GY
GY
GY
X4
3
3
WH
B2
2
4
1
XM7
S12
BK
1
1
X5
5
X25
BK
4
MODUL 3
Sensoren/Sensors
B1
2
1
Y5
X11
GN
XP1
WH
WH
WH
GND
WH
3
2
2
4
B4
2
3
1
5
BU
6
BU
IN Signal
GN
X6
7
3
+
4
3
M
BN
-
8
4
B5
2
BN
M7
1
XS11
YE/GN
S2
WH
GY
1
1
X2
X15
GY
5
7
6
2
2
GND
Signal
HALL
S11
IN
5
3
3
H2
6
H1
2
2
2
X8
1
1
2
X2
X2.1
X2.0
2
2
8
X107
1-30
7
7
7
6
6
6
B7
5
5
5
4
4
4
3
3
3
1
1
1
W36
Blatt
Datum
Erstellt von
2
2
2
Option Thermoelement Sousvide
X27
1
1
W23
XS3
S3
SCC WE 202E
B3
3
X13
1
1
T2
7
BK
3NAC400 V 50/60 Hz
4
XH1
W11
BU
P
GN
BU
BU
P1
WH
4
GN
GY
GY
BK
3
WH
GY
GY
BN
BN
BN
GN
2
OG
BN
YE
BN
BN
1
YE/GN
WH
WH
0
0
1
X10
A1
2
S6
3
SCHD
6
3
31.05.2013
4
5
1-30
X153
9
Circuit diagram 202 Sensor
V04 en, SCC_WE
�Ein/Aus Schalter
Name
Spannung
42.00.160
3019.0120
40.03.528
54.01.254
40.02.101
40.00.399
40.04.107
4001.0224
40.01.329
40.01.482
3024.0201
3024.0201
40.03.666
40.03.513
40.03.425
56.00.460
40.03.425
40.03.425
40.03.513
44.00.207
40.03.948
56.00.153
56.00.618
3017.1011
44.01.336
44.01.340
44.01.340
40.03.300
40.03.300
TEXT
22.11.2012
SCHD
-A2
-A2-F1/F2
V04 en, SCC_WE
-B1
-B2
-B3
-B4
-B5
-F1/F2
-F3
-F4
-H1
-H2
-K1
-M1
-M11
-M12
-M13
-M14
-M2
-M4
-M5
-M6
-M7
-P1
-R1
-R2
-R3
-R4
-R5
-S1
Änderungsdatum
Erzeuger
1
von 2
- 70 -
3NAC400 V 50/60 Hz
SCC WE 202E
Heißluftheizkörper
Heißluftheizkörper
Dampfheizkörper
Dampfheizkörper
Dampfheizkörper
Differenzdrucksensor
Kugelhahn Ablauf
CleanJet Pumpe SCC WE
Kühllüfter
SC-Pumpe
Lüftermotor 201/202 (unten)
Kühllüfter
Kühllüfter
Pumpe Pflegemittel
Kühllüfter
Lüftermotor
Hauptschütz
Garraumbeleuchtung
Garraumbeleuchtung
Sicherheitstemperaturbegrenzer 360°C/680°F
Sicherheitstemperaturbegrenzer DG
Steuersicherung
Thermoelement Dampfgenerator
Thermoelement Feuchte
Thermoelement Kerntemperatur
Thermoelement Ablöschung
Thermoelement Garraum
Sicherung A2 - 2AT
CPU SCC WE
Interface Platine
42.00.081
-A1
Artikelbezeichnung
Artikelnr.
Item number
Seite
Name
Name
Positionsliste
Bill of material
Item description
Version
4
Dokument-Nr. 78-00725
ON/OFF switch
Heating element hot air
Heating element hot air
Heating element steam
Heating element steam
Heating element steam
Differential pressure sensor
Drain valve
CleanJet pump SCC WE
Cooling fan
SC-pump
Fan motor 201/202 (bottom)
Cooling fan
Cooling fan
Care pump
Cooling fan
Fan motor
Main contactor
Interior cabinet light
Interior cabinet light
Safety thermostat interior cabinet 360°C/680°F
Safety thermostat steam generator SG
Control fuse
Thermocouple steam generator
Thermocouple humidity
Thermocouple core sensor
Thermocouple quenching
Thermocouple interior cabinet
Fuse A2 - 2AT
CPU SCC WE
Interface PCB
Circuit diagram Bill of material
�
Artikelnr.
Item number
- 71 -
40.00.404
40.03.348
3019.0120
3019.0126
40.03.928
40.03.772
40.01.589
40.04.363
40.03.978
40.03.450
40.03.467
40.03.516
50.01.050
50.01.146
22.00.725
40.02.424
-S3
-S6
-T1
-T1-F1
-T1-F2
-T2
-T4
-V1-V12
-W11
-W16
-W17
-W31
-W36
-Y1/Y3/Y4
-Y2
-Y5
-Z1
2
von 2
Spannung
SCHD
Erzeuger
3NAC400 V 50/60 Hz
SCC WE 202E
Entstörfilter/Varistor
Klimaventil
Magnetventil Ablöschung
Y1: Magnetventil Füllen / SCC WE Y3: Beschwadung / Y4:
Pflegemittel
Kabel: Interface Platine - CPU SCC WE
Kabel: Ein/Aus Schalter
Kabel: Steuerstamm
Kabel: Klemmen/Hauptschütz/SSR
Kabel: Garraumbeleuchtung
Leistungshalbleiter
Trafo Kühllüfter 201/202
SCC WE: Lautsprecher / CMP: Alarmsummer
Sicherung Steuertrafo T1 5AT
Sicherung Steuertrafo T1 2AT
Steuertrafo
Zentrales Einstellrad
Türkontaktschalter
Niveauelektrode
Name
40.00.454
-S2
CDS-Sensor
22.11.2012
44.01.417
-S11
Seite
Artikelbezeichnung
Änderungsdatum
50.01.640
Name
Name
Positionsliste
Bill of material
Item description
Version
4
Dokument-Nr. 78-00725
Electronic noise filter
Clima valve
Solenoid valve quenching
Y1: Solenoid valve filling / SCC WE Y3: moistening / Y4:
care
Cable: Interface PCB - CPU SCC WE
Cable: ON/OFF switch
Cable: control harness
Cable: terminal/main contactor/SSR
Cable: interior cabinet light
Solid state relais
Transformer cooling fan 201/202
SCC WE: Speaker / CMP: Buzzer
Fuse control transformer T1 5AT
Fuse control transformer T1 2AT
Control transformer
Central dial
Door contact switch
Water level electrode
CDS-sensor
Circuit diagram Bill of material
V04 en, SCC_WE
�RTS Contact Germany
Fax: +49 (0)8191-327397
e-mail: service@rational-online.com
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Service Parts:
Fax: +49 (0)8191-327408
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Chef Line:
Phone: +49 (0)8191-327300
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Please note that any technical information concerning Rational products
must NOT be forwarded to any third party.
80.51.113 - V04 en -SCC - RTS/Sc 07/2013
�
