Service Manual For MCO GS/GD
Full Size "Gas" Convection Ovens
With 200, 410, 450, 455, 470, 475 Series
Controllers
GARLAND COMMERCIAL INDUSTRIES
185 East South Street
Freeland, Pennsylvania 18224
Phone: (570) 636-1000
GARLAND COMMERCIAL RANGES, LTD.
1177 Kamato Road, Mississauga, Ontario L4W 1X4
CANADA
Enodis UK LTD.
Swallowfield Way, Hayes, Middlesex UB3 1DQ ENGLAND
Telephone: 081-561-0433
Phone: 905-624-0260
Fax: 081-848-0041
Fax: (570) 636-3903
Fax: 905-624-5669
Part # MCOSM06 Rev 1(11/03/08)
© 2006 Garland Commercial Industries, Inc.
TABLE OF CONTENTS
Section One Operation Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Contents. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Dimensions & Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Installation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Performance Recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Cooking Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Cook And Hold. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Problems / Solutions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Cleaning & Maintenance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Motor Care. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Section Two Electronic Pilot & Main Burner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Ignition Sequence. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Trouble Shooting Table. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
G77x Intermittent Pilot Controls. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
G76x Direct Spark Ignition Controls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
Section Three Temperature Calibration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
General Calibration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
200 & 300 Series Controllers Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
Section Four Convection Oven Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
Doors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
Door Latch Mechanism . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
Motor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
Door Microswitch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
Probes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
Key Pad Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
Mco Convection Oven Gas Valve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53
Relay Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
Controls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
Section Five Trouble Shooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
Controller Operational Tests . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60
Controller Fault Finding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
Additional Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63
General Trouble Shooting Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
Section Six Service Bulletins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
Section Seven Wiring Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
Part # MCOSM06 Rev 1 (11/03/08)
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Part # MCOSM06 Rev 1 (11/03/08)
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Section One
Operation
Manual
Part # MCOSM06 Rev 1 (11/03/08)
Page 5
CONGRATULATIONS! You have just purchased the finest commercial cooking equipment available anywhere.
Like any other fine, precision built appliance, it should be given regular care and maintenance. Periodic inspections by your
dealer or a qualified service agency is recommended. When corresponding with the factory or your local authorized factory
service center regarding service problems or replacement parts, be sure to refer to the particular unit by the correct model
number (including the prefix and suffix letters and numbers) and the warranty serial number. The rating plate affixed to the
unit contains this information.
CONTENTS
MASTER 470/475 CONTROLS. . . . . . . . . . . . . . . . . . . . . . . . . . 17
DIMENSIONS & SPECIFICATIONS . . . . . . . . . . . . . . .7
Manual cooking: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
Manual cooking using Cook-N-Hold: . . . . . . . . . . . . . 17
Installation Notes:. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Programming Product Keys (Master 475): . . . . . . . . . 17
Installation Of Ovens Equipped With Casters. . . . . . . . . . . 8
Programming Product Keys (Master 470): . . . . . . . . . 19
Installation Of Double Deck Models . . . . . . . . . . . . . . . . . . . 8
Cooking Using The Product Keys(475 and r 470): . . 19
Gas Connection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Verifying hold time (475 and 470): . . . . . . . . . . . . . . . . 19
Electrical Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Cooking with the Shelf Timer (475 and 470): . . . . . . 20
Ventilation & Air Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
PERFORMANCE RECOMMENDATIONS . . . . . . . . .21
COOKING GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
COOK AND HOLD . . . . . . . . . . . . . . . . . . . . . . . . . . . .23
PROBLEMS / SOLUTIONS . . . . . . . . . . . . . . . . . . . . .24
Testing & Lighting Instructions . . . . . . . . . . . . . . . . . . . . . . . 11
OPERATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
Master 200 Mechanical Control with Timer. . . . . . . . . . . . 12
In Off Mode: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Start Up:. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Fan Speed:. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Lights: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Cool Down: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Temperature: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Timer: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
MASTER 300 Solid State Control. . . . . . . . . . . . . . . . . . . . . . 13
In Off Mode: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
On Start Up: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Controller Keys . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
MASTER 410,450, 455 CONTROLS . . . . . . . . . . . . . . . . . . . . . 14
In Off Mode: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
On Start Up: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Operating the Controls. . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Cook-N-Hold Operation. . . . . . . . . . . . . . . . . . . . . . . . . . 15
Core Probe Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
CHANGING FACTORY SETBACK PROGRAM . . . . . . . . 16
CLEANING & MAINTENANCE . . . . . . . . . . . . . . . . . .25
Break-In Period . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25
Exterior Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25
Interior Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25
Fan Area Maintenance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25
MOTOR CARE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
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DIMENSIONS & SPECIFICATIONS
Int. Dimensions :In (mm)
Ext. Dimensions: In (mm)
H *
Ship Wt Ship Dim.
Single-Deck
Models
W
H
D
W
D
Lbs/kg
600/273
600/273
Cubic Ft.
Standard Depth 29 (736) 24 (610) 24 (610) 38 (965) 57-1/2 (1461) 41-1/4(1048)
64
64
Deep Depth
29 (736) 24 (610) 28 (711) 38 (965) 57-1/2 (1461) 44-1/2(1130)
Int. Dimensions: In (mm)
Ext. Dimensions: In (mm)
H *
Ship Wt. Ship Dim.
2@Lbs/kg Cubic Ft.
Double-Deck
Models
W
H
D
W
D
Standard Depth 29 (736) 24 (610) 24 (610) 38 (965) 70-1/2 (1791) 41-1/4(1048) 1150/523
Deep Depth 29 (736) 24 (610) 28 (711) 38 (965) 70-1/2 (1791) 44-1/2(1130) 1150/523
128
128
*Height with or without standard casters. Height with low profile casters (double deck) is 68-1/2" (1740mm).
Input Ratings, Nat & Pro
Electrical Specifications
Models
BTU/hr
60,000
kW Equiv.
17. 6
Gas Inlet
120V/1Ph.
(1)@9.4A
(2)@9.4A
240V/1Ph.
(1)@ 5.2A
(2)@ 5.2A
Single Deck
(1 )@ 3/4" NPT
(1 )@1" NPT
Double Deck
120,000
35.2
1" REAR
GAS INLET
3/4" N.PT.
GAS INLET
1-1/4"
[32mm]
2"
[51mm]
7-3/4"
[197mm]
32-1/8"
[816mm]
32-1/8"
[816mm]
3/4"
[19mm]
FLUE: 2-3/8"x5"
[60mmx127mm]
D
38-1/4"
[972mm]
H
(Includes
32-1/8"
[816mm]
fan motor)
32-1/8"
[816mm]
35-7/16”
[900mm]
11-1/2"
[292mm]
17-3/4"
[451mm]
14-3/4"
[375mm]
6-1/4"
[159mm]
DOUBLE DECK
FR ONTVIEW
TOPVIEW
38"
[965mm]
3/4" REAR
GAS INLET
Operating Pressure:
Installation Notes:
Combustible Wall Clearances:
Sides: 1" (25mm)
1-1/4"
[32mm]
Natural: 4.5" WC (11 mbar)
Propane: 10" WC (25 mbar)
Max 13.8" WC @ 70°F (21°C)
Back: 3" (76mm)
NOTE: Data applies only to
North America
Entry Clearance:
Crated: 47" (1194mm)
Uncrated: 32-1/2" (826mm)
32-1/8"
[816mm]
H
54-9/16"
[1386mm]
Notes:
1. Standard electrical specifications include motor requirements.
2. (120V units) 115V 3/4 HP, 2-speed motor; 1140 and 1725 rpm 60Hz
3. (240V units) 200-240V, 3/4 HP, 2-speed motor; 1140 and 1725 rpm, 60Hz
4. A 6 ft. line cord is provided for each 120V deck with a (NEMA #5-15P) plug.
5. Garland recommends a separate 15 AMP circuit for each 120V unit.
34"
[864mm]
25-3/8"
[645mm]
SINGLE DECK
FR ONTVIEW
Gas Input ratings shown here are for installations up to 2,000-ft. (610m) above sea level. Specify altitudes over 2,000 ft.
Commercial cooking equipment requires an adequate ventilation system. For additional information, refer to the National Fire
Protection Association’s standard NFPA96, "Vapor Removal from Cooking Equipment." (NOTE: For North America only)
Please specify gas type when ordering.
Part # MCOSM06 Rev 1 (11/03/08)
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INSTALLATION
Installation Of Ovens Equipped With Casters
Installation Notes:
A. For an appliance equipped with casters, the installation
shall be made with a connector that complies with the
Standard for Connectors for Movable Appliances, ANSI
Z21.69 or Connectors for Moveable Gas Appliances,
CAN/CGA-6.16, and a quick-disconnect device that
complies with the Standard for Quick-Disconnect Devices
for Use With Gas Fuel, ANSI Z21.41, or Quick-Disconnect
Devices for Use with Gas Fuel, CAN1-6.9, and adequate
means must be provided to limit the movement of the
appliance without depending on the connector and the
quick-disconnect device or its associated piping to limit
the appliance movement and the location(s) where the
restraining means may be attached to the appliance shall
be specified.
Combustible and Non-Combustible Wall Clearance: Side:
1.0" (25 mm) Rear: 3.0" (76 mm)
NOTE: Adequate clearance must be provided for servicing
and proper operation.
The importance of the proper installation of Commercial
Gas Cooking Equipment cannot be over stressed. Proper
performance of the equipment is dependent, in great part,
on the compliance of the installation with the manufacturer's
specifications. Installation must conform to local codes or,
in the absence of local codes, with the National Fuel Code,
ANSI Z223.1, Natural Gas Installation Code, CAN/CGA-B149.1,
or the Propane Installation Code, CAN/CGA-B149.2, as
applicable.
B. The front casters of the unit are equipped with brakes
to limit the movement of the oven without depending
on the connector and any quick-disconnect device or its
associated piping to limit the appliance movement.
Before assembly and connection, check gas supply.
A. The type of gas for which the unit is equipped is stamped
on the data plate located behind lower front panel.
Connect a unit stamped "NAT" only to natural gas;
connect a unit stamped "PRO" only to propane.
C. The restraint can be attached to the unit near the gas inlet.
If the restraint is disconnected, be sure to reconnect the
restraint after the oven has been returned to its originally
installed position.
B. If it is a new installation, have gas authorities check meter
size and piping to assure that the unit is supplied with
sufficient amount of gas pressure required to operate the
unit.
Installation Of Double Deck Models
A. Position insert in bottom leg opening and tap insert up
into leg till it seats at collar. Attach six inch (6") legs to
lower oven section. Raise unit or lay on its left side. Place
the front legs on the oven so as to line up with four (4)
attaching bolt holes. Secure leg to oven frame using (4)
3/8-16 x 3/4 bolts and washers provided. Repeat at rear of
unit.
C. If it is additional or replacement equipment, have gas
authorities check pressure to make certain that existing
meter and piping will supply fuel at the unit with not
more that 1/2" water column pressure drop.
NOTE: When checking pressure be sure that all other
equipment on the same gas line is on. A pressure regulator
is supplied with GARLAND Convection Ovens. Regulator is
preset to deliver gas at pressure shown on the rating plate.
B. Remove lower front cover of top deck (located under oven
doors). Raise top deck into place and line up body sides
and back of the unit. Fasten the rear of the units together,
with the stacking bracket, as shown, using (6) 1/4-20
machine screws, lock washers and nuts, (provided).
The appliance and its individual shut-off valve must be
disconnected from the gas supply piping system during
any pressure testing of that system at test pressures in
excess of 1/2 PSI (3.45 kPa).
C. Install the interconnecting flue parts, carefully following
the instructions contained in the stacking kit. Pay
The appliance must be isolated from the gas supply
piping system by closing its individual manual shut-off
valve during any pressure testing of the gas supply piping
system at test pressures equal to or less than 1/2 PSI
(3.45 kPa).
particular attention to the type of ovens you are stacking
and be sure to follow the corresponding instructions.
Part # MCOSM06 Rev 1 (11/03/08)
Page 8
D. Assemble the stacking pipes provided in the stacking
kit as shown in the diagram at the top of this page. This
allows both ovens to be supplied by a single gas line. The
minimum recommended size of a single supply line for
two stacked ovens is 1 inch. Use a pipe thread compound
that is intended for use on propane gas piping and be sure
to check for leaks before finalizing the installation.
IMPORTANT
All gas burners and pilots need sufficient
air to operate and large objects should not
be placed in front of this oven, which would
obstruct the airflow through the front.
Objects should not be placed on main top rear
of oven while in use. This could obstruct the
venting system of the unit's flue products.
E. Check leveling of unit four (4) ways (using a common
carpenter's level on the rack inside the oven).
F. Plug the cord set of each unit into a 115-Volt power supply
outlet.
Gas Connection
The 1" NPT inlet at the rear must be considered in piping the
gas supply for double stack units or 3/4" NPT for individual (or
single deck) connections. Undersized gas supply line(s) may
restrict the gas supply and affect performance. If other gas
appliances are supplied by the same supply line, the supply
line must be sized to carry the combined volume without
causing more than 1/2" pressure drop at the manifold of each
appliance on the line at full rate.
G. Maintain clearance from combustibles.
Each gas appliance shall be located with respect to building
construction and other equipment so as to permit access to
the appliance. Such access and clearance may be necessary
for servicing and cleaning.
90 Degree Street Elbow
Recommended supply pressures are 7" WC, (NAT), and
11" WC, (PRO); 5%. (Must not exceed 13.8" WC [NAT], and
15" WC [PRO]).
20-1/2" Nipple
Electrical Connection
A 15 AMP service must be provided for each oven. For 115
VAC usage, a cord and plug (NEMA #5-15P) is provided but
connection to the electrical service must be electrically
grounded in accordance with local codes, or in the absence of
local codes, with the National Electrical Code, ANSI/NFPA 70,
or the Canadian Electrical Code, CSA C22.2, as applicable.
3/4" to 1" Bell Reducer
3" Nipple
3/4" Union
This appliance is equipped with a three-prong (grounding)
plug for your protection against shock hazard and should
be plugged directly into a properly grounded three-prong
receptacle.
3" Nipple
90 Degree Street Elbow
DO NOT CUT OR REMOVE THE
GROUNDING PRONG FROM THIS PLUG.
CAUTION:
A wire diagram is affixed to the rear of the unit.
DISCONNECT BOTH UNITS FROM
ELECTRICAL SUPPLY BEFORE SERVICING.
Ventilation & Air Supply
Proper ventilation is highly important for good operation.
There are only two choices for properly venting an oven: 1)
canopy hood style or 2) direct venting. The ideal method
of venting a GAS Convection Oven is through the use of a
properly designed canopy, which should extend 6" (150 mm),
beyond all sides of the appliance and 6'6" (1950 mm) from the
floor.
POWER FAILURE
In the event of a power failure, no attempt
should be made to operate this oven.
Part # MCOSM06 Rev 1 (11/03/08)
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A strong exhaust fan will create a vacuum in the room. For an
exhaust system vent to work properly, exhaust and make-up
air must be balanced properly. For proper air balance contact
your local H.V.A.C. contractor.
Direct venting as described above, should be positioned
on the main top and fastened with sheet metal screws
provided. All parts described above are available from the
manufacturer.
All gas burners and pilots need sufficient air to operate and
large objects should not be placed in rear and bottom of this
oven, which would obstruct the airflow through the front.
INSTALLATION OF A DIRECT FLUE.
NOTE: Each oven has been factory tested and adjusted prior
to shipment. It may be necessary to further adjust the oven
as part of a proper installation. Such adjustments are the
responsibility of the installer. Adjustments are not considered
defects in material and workmanship, and they are not
covered under the original equipment warranty.
When the installation of a canopy type exhaust hood is
impossible the oven may be direct vented. Before direct
venting check your local codes on ventilation, in the absence
of local codes, refer to the National Fuel Code NFPA 54, ANSI
Z223.1 (latest revision).
DO NOT UNDERSIZE VENT PIPE!
This can cause resistance to flow and impede good venting.
We suggest that if a horizontal run must be used it should
rise no less than 1/4" (6.25mm) for each linear foot of run, and
after a total of 180° of bends you should increase the size of
stove pipe by two (2") inches. The flue should rise 2' (60cm) to
3' (90cm) above the roof line or 2' (60cm) to 3' (90cm) above
any portion of a building within a horizontal distance of 10 (3
meters) feet.
If the unit is to be connected directly to a direct flue, it is
necessary that draft diverter be installed to insure proper
ventilation.
The following diagram is only one example from the National
Fuel Gas Code Book NFPA 54, ANSI Z223.1, 7.5.3:
DRAFT DIVERTER
Part # MCOSM06 Rev 1 (11/03/08)
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Less than 10 feet (3 meters)
More than 10' (3 meters)
2' (60cm)
Min.
3' (90cm) Min.
3' (90cm) Min.
Termination Less than 10 feet (3 meters) from ridge
Termination More than 10 feet (3 meters) from ridge
NOTE: During installation there will be air in the gas line, this
air will have to bleed off before ignition can be established.
The electronic ignition system has a ninety second lock-out
as a safety device on all units. Therefore, several attempts
may be required before pilot ignition is established, wait five
minutes after each attempt.
Testing & Lighting Instructions
1. Turn on main gas valve. Remove the lower front cover
and the service panel above the control panel. Drop the
control panel and leak test all fittings and connections
upstream from the service valve located on the redundant
combination gas valve. Should any gas leaks be detected,
turn OFF main gas valve, correct the problem and retest.
FOR YOUR SAFETY: KEEP YOUR APPLIANCE AREA FREE FROM
COMBUSTIBLES.
2. Open shutoff valve located on the redundant combination
gas valve. Activate control panel and set to desired
temperature. The pilot and burner is now ignited by direct
spark. Check all fittings again and correct any leaks and
recheck.
TO CONSERVE ENERGY:
Do not waste energy by leaving controls at high temperature
settings during idle periods. Lower settings will keep
oven warm and ready for next use period. Master 400
Series controls have an auto setback feature that is user
programmable to help with these applications.
Replace all service panels and covers before operation.
NOTE: All electronic ignition systems are supplied with a
redundant gas valve. Therefore, the unit is not supplied with
an external pressure regulator.
Part # MCOSM06 Rev 1 (11/03/08)
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OPERATION
Master 200 Mechanical Control with Timer
In Off Mode:
When the oven is off, there are no lights or indicators.
Start Up:
Press the Cook/Off/Cool Down rocker switch to the "Cook"
position. The green lamp will light indicating the oven is
powered in cook mode.
The oven will begin to heat to the temperature set on the
thermostat dial. The amber lamp will light indicating the heat
is active. As the heat cycles on and off to maintain the set
temperature this light will go on and off accordingly.
The door must be closed for the oven to operate in cook
mode. Opening the door will cause the heat to stop. The
motor and fan will shut off. This is a safety feature.
Fan Speed:
The fan speed can be either high (1725 RPM) or (1150 RPM).
The fan speed is controlled by the left rocker switch marked
high and low.
Lights:
The oven lights are activated by pressing the light switch on
the control panel. This is a momentary switch and the lights
will stay lit as long as this button is held in the on position.
Lights will work whenever there is electrical power connected
to the oven.
Cool Down:
Pressing the Cook/Off/Cool Down rocker switch to the Cool
Down position activates the fan and motor to cool the oven
cavity. The door must be open slightly for the fan and motor
to start. The heat is not active in this mode.
Optimal cool down will be achieved with the door open
slightly. Opening the door too far will shut the fan and motor
off. This is a patented safety feature.
Pressing the button to the OFF position cancels the cool
down and turns the oven off.
Temperature:
The temperature range is from 150°F to 500°F (66°C to 250°C)
is controlled by rotating the temperature dial and aligning the
indicator to the desired temperature.
Timer:
The timer is set by rotating the dial clockwise aligning the
indicator to the desired time cycle. The timer will count down
from 2 minutes to 60 minutes. At the end of the timing cycle
the buzzer will sound. The buzzer is turned off by rotating the
dial counter-clockwise to the off position as shown on the
control panel.
Part # MCOSM06 Rev 1 (11/03/08)
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MASTER 300 Solid State Control
with Mechanical Timer
In Off Mode:
When the controller is off, the unit will have no active
prompts. Pressing the ON/OFF key will activate the controller
into Start Up mode.
On Start Up:
In Start Up mode, the controller will heat to the temperature
indicated on the temperature control. The fan speed will
be that which was most recently set. When the oven cavity
reaches the set temperature and is ready for operation the
"LOAD" LED will light.
Controller Keys
Pressing the ON/OFF key will activate the oven.
Pressing the LIGHT key will turn the lights on for 30 seconds.
The lights will work if the controller is in the Off mode. When
the door is opened, the light will come on and stay on for 30
seconds.
Pressing the FAN HIGH key will activate the higher speed fan
and light its LED.
Pressing the FAN LOW key will activate the lower speed fan
and light its LED.
Pressing the COOL DOWN key will deactivate the heat, turn
the fan on high and light its LED. The Cool Down will operate
when the door is closed or opened slightly. When the door
opens wider, the Cool Down mode will deactivate and the
LED will flash. This is a patented safety feature. Optimal cool-
down will be achieved with the door open slightly. If the
doors are closed, the LED will flash. Pressing the COOL DOWN
key again will turn the LED off and stop this mode. Pressing
the ON/OFF key will also cancel Cool Down.
When the door is opened the fan and heat will stop until the
door is closed. This is a patented safety feature.
When the ON/OFF key is pressed to turn the oven off and the
oven is above 200°F (93°C), the oven will go into an Auto Cool
Down mode. In Auto Cool Down, the oven will run the fan on
high until the oven cavity drops below 150°F (66°C). During
this time the "AUTO COOL DOWN" LED will light. When the
oven temperature drops below 150°F (66°C) the oven turns
off. This feature protects the oven motor from pre-mature
failure. Optimal cool-down will be achieved with the door
open slightly. Controller Dials.
Cooking TEMPERATURE is set by rotating the TEMPERATURE
dial to the desired temperature, 150°F (66°C) to 550°F (288°C).
Cooking TIME is set by rotating the TIMER dial to the desired
cooking time, up to 60 minutes.
Part # MCOSM06 Rev 1 (11/03/08)
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NOTE: The "PROBE ERROR" LED will light if the oven
temperature probe is malfunctioning or has become
damaged or disconnected. Call for service if this occurs.
MASTER 410 ELECTRONIC CONTROL
MASTER 450 ELECTRONIC CONTROL
WITH COOK-N-HOLD
MASTER 455 ELECTRONIC CONTROL WITH
COOK-N-HOLD & CORE PROBE
In Off Mode:
When the controller is off, the display will show "OFF".
Pressing the ON/OFF key will activate the controller into Start
Up mode.
On Start Up:
In Start Up mode, the controller will heat to the last set
temperature, time and fan speed. The factory defaults are
350°F (177°C), 30 minutes and low fan speed. The display will
indicate "LO" when the oven is below the set temperature.
When the oven cavity reaches the set temperature and is
ready for operation the display will indicate "LOAD".
NOTE: If the oven temperature goes above the requested
temperature the display will indicate "HI". If the oven
temperature goes above 575°F (302°C) the display will
indicate "HELP" and an audible signal will sound. This is a
safety feature.
If the door is opened during a Cooking mode, the fan and
heat will stop, and the display will indicate "DOOR" until the
door is closed. This is a patented safety feature.
Pressing the ACTUAL TEMP key will display the actual oven
temperature in 5° increments. Controller Keys.
Pressing the ON/OFF key will activate the oven.
Pressing the LIGHT key will turn the lights on for 30 seconds.
The lights will work if the controller is in the Off mode. When
the door is opened, the light will come on and stay on for 30
seconds.
Pressing the FAN HIGH key will activate the higher fan speed
and light its LED.
Pressing the FAN LOW key will activate the lower fan speed
and light its LED.
Pressing the FAN PULSE key will activate the lower fan speed
and light its LED. The fan will be active for 30 seconds then off
for 30 seconds, and continues this cycle.
Part # MCOSM06 Rev 1 (11/03/08)
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Pressing the SETBACK key will cool the oven cavity to a
preprogrammed temperature (factory set at 250°F [121°C]).
The oven will automatically go into Setback mode after the
pre-programmed non-usage time, (see 'Changing Factory
Setback Program'). The display will indicate "SETB". This is an
energy-saving feature.
Pressing the COOL DOWN key will deactivate the heat, turn
the fan on high and light its LED. The display will indicate
"OPEN DOOR" if the door is closed, prompting the user to
open the door slightly. With the door open slightly the display
will indicate "COOL". The Cool Down will operate when the
door is closed or opened slightly. Optimal cool-down will be
achieved with the door open slightly. When the door opens
wider, the Cool Down mode will deactivate and the display
will indicate "DOOR". This is a patented safety feature. Pressing
the COOL DOWN key again will turn the LED off and stop this
mode. Pressing the ON/OFF key will also cancel Cool Down.
Cool Down is not active during a cook.
When the ON/OFF switch is pressed to turn the oven off and
the oven was above 200°F (93°C), the oven will go into an
Auto Cool Down mode. In Auto Cool Down, the oven will
run the fan on high until the oven cavity drops below 150°F
(66°C). During this time the display will indicate "AUTO".
When the oven temperature drops below 150°F (66°C) the
oven turns off. This feature protects the oven motor from pre-
mature failure. Optimal cool-down will be achieved with the
door open slightly.
Operating the Controls
Setting the cook temperature and time are done in the same
manner. Pressing the SET key will light the TEMP LED. The
operator then sets the temperature by rotating the dial on
the controller until the desired temperature is shown on the
display. Pressing the SET key a second time lights the TIME
LED and allows the operator to select the desired cook time as
shown on the display. Pressing the SET key a third time ends
the programming.
Pressing the START/CANCEL key will start the timing cycle.
The display will count down from the Set time in minutes and
seconds (solid colon) or hours and minutes (blinking colon)
the minutes and seconds. When the cycle is completed,
processing this key will also cancel the "DONE" prompt. To
cancel a timing cycle in progress, press and hold the START/
CANCEL key for 3 seconds.
Cook-N-Hold Operation
Pressing the COOK/HOLD (450 and 455 Controllers Only) key
activates the Cook-N-Hold mode and lights its LED. To verify
the proper hold temperature has been selected, press the SET
key twice. The display will show the hold temperature. At the
end of the cook cycle, an audible alarm will sound, the display
will flash "DONE" and change to count "UP" the hold time.
The oven will switch to the programmed hold temperature.
Part # MCOSM06 Rev 1 (11/03/08)
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Setting the cook temperature, hold temperature and time
are done in the same manner. Pressing the SET key will
light the TEMP LED. The operator then sets the temperature
by rotating the dial on the controller until the desired
temperature is shown on the display. Pressing the SET key a
second time will light the HOLD LED and allows the operator
to select the desired hold temperature as shown on the
display. Pressing the SET key a third time lights the TIME LED
and allows the operator to select the desired cook time as
shown on the display. Pressing the SET key a fourth time ends
the programming.
Pressing the START/CANCEL key will start the timing cycle.
When the cycle is completed, pressing this key will also cancel
the "DONE" prompt. To cancel a timing cycle in progress press
and hold the START/CANCEL key for 3 seconds.
Core Probe Operation
The Core Probe option (455 Controller Only) is only active
when the core probe is plugged into its connector. To set the
core temperature, first plug the core probe into its connector.
The display will indicate "100" and the CORE TEMP LED will
be on. The operator then sets the temperature by rotating
the dial on the controller until the desired temperature is
shown on the display. Pressing the SET key stores the core
temperature and starts the cooking process.
To set the oven temperature, press the SET key again. The
TEMP LED will light and the oven temperature can be
set by rotating the dial on the controller until the desired
temperature is displayed. Pressing the SET key again will
light the HOLD LED allowing the operator to set the hold
temperature in the same manner.
NOTE: If the hold temperature is not set, the default hold
temperature is 150°F (66°C) or the last programmed
temperature. (Hold temperature range is 140°F (60°C) to
210°F (99°C).
When the core temperature is reached, the display will sound
and flash "DONE" for 3 seconds. Automatically, the display
will switch to count "UP" the time the oven is on hold.
CHANGING FACTORY SETBACK PROGRAM
To change the factory setback settings, press and hold the
SETBACK key for two seconds. The TEMP LED will light and
a temperature will be displayed (factory preset at 250°F
[121°C]). Set the temperature using the dial, then press the
SET key. The TEMP LED will go out and the TIME LED will light.
Set the time using the dial, then press the SET key. Press the
SET key one more time to exit programming.
Note: To disable the setback function, set the temperature to
250º F (121ºC) and the time to zero..
Part # MCOSM06 Rev 1 (11/03/08)
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MASTER 470/475 ELECTRONIC
PROGRAMMABLE CONTROL
Manual cooking:
1. Press SET key - TEMP LED will light.
2. Set temperature using the dial (factory preset at 350°F).
3. Press SET key - FAN LED will light.
4. Select fan mode using one of the three (3) fan keys
(HIGH, LOW, PULSE) - the selected fan LED will light.
5. Press SET key - TIME LED will light.
6. Set cook time using the dial (factory preset at 30:00).
7. Press SET key - ready to cook.
8. Press START/CANCEL to begin manual cooking.
Manual cooking using Cook-N-Hold:
1. Press the COOK/HOLD key, that key's LED will light.
2. Press SET key - TEMP LED will light.
3. Set cook temperature using the dial (factory preset at
350°F).
4. Press SET key - HOLD LED will light.
5. Set hold temperature using the dial (factory preset at
200°F).
6. Press SET key - FAN LED will light.
7. Select fan mode using one of the three (3) fan keys
( HIGH, LOW, PULSE ) - the selected fan LED will light.
8. Press SET key - TIME LED will light.
9. Set cook time using the dial (factory preset at 30:00).
10. Press SET key - ready to cook.
11. Press START/CANCEL to begin manual cooking.
Programming Product Keys (Master 475):
NOTE: Cooking time(s) is the element of the program that tells
the controller that other information (temperature, fan
speed, etc.) will be inputted into the controller. The first
step is to enter all the time periods required, followed by
the addition of the other cooking elements.
Part # MCOSM06 Rev 1 (11/03/08)
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1. Press and hold PROG key for three (3) seconds - all the
product key LEDs light.
2. CODE will be displayed. The controller is asking for the
access code. Press 4-2-7-5 and the START/CANCEL key.
PROD will be displayed indicating you have gained access
to Product Programming.
3. Press the product key (1 - 9) into which you want to store
a cooking program. SHLF will be displayed. The control is
asking if you want to program the key as a shelf timer or
with a cooking profile. Select your answer by pressing the
START/CANCEL key. When the correct answer is displayed,
press the SET key. The TIME LED will light. 30:00 will be
displayed.
4. Set first cook time using dial. If more than one cooking
profile is desired:
• press the product key where the program is to be stored
(1 - 9) - PR-2 will be displayed.
• set the second cook time using the dial (factory presets
for PR-2 through PR-5 are :00).
• press the same product key (1 - 9) again - PR-3 will be
displayed.
• Repeat this process for all profiles. When the last profile
time has been entered, press the SET key, OR
If less than five (5) profiles are desired press the SET key
after the last required profile - PRE will be displayed,
followed by :00. The controller is asking if you would like a
reminder alarm (pre-alarm) to sound during the cooking
process. (factory preset is :00).
5. If a pre-alarm signal is desired - dial in the time that the
alarm is to sound. (Ex. If the product is to be turned
halfway through the 60 minute cooking cycle, set the
pre-alarm to 30 minutes). If pre-alarm is not desired verify
that ":00" is displayed. Press the SET key - TEMP Led will
light, and the display will show the first profile cooking
temperature. (factory preset at 350°F).
6. Set the first cooking temperature using the dial.
Press the product key - PR-2 will be displayed followed by
the second temperature.
Set the second cooking time using the dial.
Repeat as you did for cooking time, for all the profiles
desired.
NOTE: The controller will only accept cooking temperatures
for the number of profiles for which a cooking time
has been set. If the product key is pressed after the
last programmed profile, the first temperature will be
displayed.
Part # MCOSM06 Rev 1 (11/03/08)
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Press SET after the last cooking temperatures has been
entered, HOLD will be displayed.
4. If a pre-alarm signal is desired - dial in the time that
the alarm is to sound. (Ex. If the product is to be turned
halfway through the 60 minute cooking cycle, set the pre-
alarm to 30 minutes). If pre-alarm is not desired verify that
":00" is displayed.
7. Use the START/CANCEL key to select yes or no. Press the
SET key.
8. If yes was selected, the HOLD LED will light. Enter the hold
temperature using the dial. (factory preset at 200°F) Press
the SET key. FAN will be displayed and the FAN LED will
light.
• Press the SET key - TEMP Led will light, and the display
will show the cooking temperature. (factory preset at
350°F).
5. Set the cooking temperature using the dial.
Set the fan speed desired for the first cooking profile using
the individual fan keys (HIGH, LOW or PULSE), press the
product key and set the fan speed for the second cooking
profile. Continue until all the profiles have been assigned
a fan speed. Press the SET key when complete. As with the
temperature, if the product key is pressed after the last
programmed profile, the first fan speed will be displayed.
Press the SET key. - FAN will be displayed and the FAN LED
will light.
6. Set the fan speed desired using the individual fan keys
(HIGH, LOW or PULSE).
Press the SET key. - FL or St will be displayed (for flex time
or straight time) (factory preset for flex time).
9. FL or St will be displayed (for flex time or straight time)
(factory preset for flex time). Select flex or straight time
using the START/CANCEL key for the first profile. Press
the product key and select straight time or flex time for
the second profile. Continue until all the profiles have
been assigned straight or flex time. Press the SET key
when complete. If the product key is pressed after the last
programmed profile, the first profile will be displayed.
7. Select flex or straight time using the START/CANCEL key.
Press the SET key when complete.
8. Programming for that product key is complete.
Cooking Using The Product Keys
(Master 475 and Master 470):
10. Programming for that product key is complete.
1. On initial start-up, press the product key for the menu
item to be cooked. Wait until LOAD is displayed.
Programming Product Keys (Master 470):
NOTE: The Master 470 controller will only accept a single
cooking profile per product key (one cooking time, one
cook temperature, one fan speed, and one choice for
straight or flex time).
2. Load the oven.
3. Press the product key for the loaded menu item.
4. Press the START/CANCEL key.
Press and hold PROG key for three (3) seconds - all the
product key LEDs light.
5. To cancel the alarm or the hold, press the START/CANCEL
key followed by the product key.
1. CODE will be displayed. The controller is asking for the
access code. Press 4-2-7-5 and the START/CANCEL key.
PROD will be displayed indicating you have gained access
to Product Programming.
Verifying hold time (Master 475 and Master 470):
While a product is being held, press and hold the product
key. The actual hold time will be displayed.
2. Press the product key (1 - 9) into which you want to store
a cooking program. SHLF will be displayed. The control
is asking if you want to program the key as a shelf timer
or a cooking profile. Select your answer by pressing the
START/CANCEL key. When the correct answer is displayed,
press the SET key. The TIME LED will light. 30:00 will be
displayed.
Selecting Fahrenheit or Celsius (Master 475 and Master
470):
Press PROG and ACTUAL TEMP keys at the same time, F or
C will be displayed. (factory preset for F)
Press the START/CANCEL key to switch between F and C,
3. Set the cook time using dial.
When the desired setting is displayed press the PROG and
ACTUAL TEMP keys at the same time.
Press the SET key - PRE will be displayed, followed by :00.
The controller is asking if you would like a reminder alarm
(pre-alarm) to sound during the cooking process. (factory
preset is :00).
Part # MCOSM06 Rev 1 (11/03/08)
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Example: Two product profiles contain the same cooking
temperature, fan speed and are both programmed for flex
time - keys 1 and 6.
Cooking with the Shelf Timer
(Master 475 and Master 470):
The shelf timer option is used to independently time each of
the up to six different shelves or racks within the oven.
Two trays of product are going to be cooked in the oven at
the same time. The first tray will use product key 1 and will be
placed in rack position 2. The second tray will use product key
6 and will be placed in rack position 4. Once the oven display
indicates LOAD:
NOTE: To use the shelf timer option, at least one product
key must be programmed with a cooking profile
(temperature, time, fan speed, flex or straight time). The
program key must be limited to a single cooking profile
to be used with the shelf timing option. If more than one
product key is to be used, all product keys to be used must
feature the same cooking temperature and fan speed. Flex
or straight time and cooking time can de different. The
Cook-N-Hold option can not be used with the shelf timer
operation.
1. Load food product into oven on shelf 2.
2. Press product key 1, then shelf key 2.
3. Press the START/CANCEL key to start cooking on shelf 2.
4. Load food product into oven on shelf 4.
5. Press product key 6, then shelf key 4.
Pressing the desired product key will bring the oven to the
desired cooking temperature, once the oven has reached
the proper cooking temperature as indicated by LOAD in the
display.
6. Press the START/CANCEL key to start cooking on shelf 4.
7. When product on shelf 2 is finished cooking, an audible
alarm will sound and the display will flash DONE, then
SH-2, and the product key 1 LED will be flashing.
1. Press the product key containing the desired cooking
profile (1 - 9).
8. To turn off the alarm, press product key 1.
2. Press the shelf key for the shelf location to be timed (1 - 6).
NOTE: product keys and shelf keys are the same keys.
9. When product on shelf 4 is finished cooking, an audible
alarm will sound and the display will flash DONE, then
SH-4, and the product key 6 LED will be flashing.
3. Press the START/CANCEL key to begin the cooking/timing
process.
10. To turn off the alarm, press product key 6.
4. When the cooking/timing process is complete for each
shelf, an audible "done" signal will sound and the display
will indicate which shelf is finished. Example: SH-1
5. To turn off the alarm press the product key with the
flashing LED.
Part # MCOSM06 Rev 1 (11/03/08)
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PERFORMANCE RECOMMENDATIONS
1. Preheat oven thoroughly (approximately. 20 minutes)
before use.
10. When baking, weigh or measure the product in each pan
to assure even cooking.
2. As a general rule, temperature should be reduced 25°
to 50° from that used in a standard/conventional oven.
Cooking time may also be shorter, so we suggest closely
checking the first batch of each product prepared.
11. When cooking six pans, use rack positions 2, 4, 6, 8, 10 and
12, starting from the top.
12. Do not overload the oven. Six pans are suggested for most
items, i.e., cakes, cookies, rolls, etc. However, the maximum
(13 pans) may be used for fish sticks, chicken nuggets and
hamburgers. Cooking times will have to be adjusted.
3. Use the chart of suggested times and temperatures as a
guide. These will vary depending upon such factors as size
of load, temperature and mixture of product (particularly
moisture) and density of product.
13. Muffin pans should be placed in the oven back to front or
with the short side of the pans facing the front. This results
in the most evenly baked product.
4. Keep a record of the times, temperature and load sizes you
establish for various products. Once you have determined
these, they will be similar for succeeding loads.
14. When re-thermalizing frozen casseroles, preheat the oven
100° over the suggested temperature. Return to cooking
temperature when the oven is loaded. This will help
compensate for the introduction of a large frozen mass
into the cavity.
5. When practical, start cooking the lowest temperature
product first and gradually work up to higher
temperatures.
6. If you find that your previous temperature setting is more
that 10° higher than needed for succeeding loads, press
the COOL DOWN key to reach the desired temperature
before setting a new cooking temperature.
15. Use pan extenders or two inch deep 18"x26" pans for
batter type products which weigh more than eight
pounds, i.e., Pineapple Upside Down Cake.
16. Never place anything directly on the bottom of the oven
cavity. This obstructs the airflow and will cause uneven
results.
7. When loading oven, work as quickly as possible to prevent
loss of heat.
8. Oven will continue to heat even though the timer goes
off. Product should be removed from the oven as soon as
possible to avoid over cooking.
NOTE: Moisture will escape around the doors when baking
products with heavy moisture content, such as: chicken,
potatoes, etc.
9. Center pans on racks and load each shelf evenly to allow
for proper air circulation within the cavity.
Part # MCOSM06 Rev 1 (11/03/08)
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COOKING GUIDE
The following suggested times and temperatures are provided as a starting guide. Elevation, atmospheric conditions, gas
supply, recipe, cooking pans and oven loading may affect your actual results.
Product
White Sheet Cakes – 5 lb
White Sheet Cakes – 6 lb
Yellow Layer Cake – 21 oz
Yellow Sheet Cake – 5 lb
Chocolate Layer Cake – 21 oz
Angel Food Cake
°F
Time
Product
Soda Biscuits
°F
Time
300°
300°
325°
300°
300°
375°
350°
20 min
400°
325°
325°
350°
300°
350°
300°
325°
375°
375°
350°
300°
300°
300°
350°
350°
350°
350°
6 min
Yeast Rolls
24 min
24 min
22 min
24 min
25 min
25 min
12 min
8 min
15 min
22 min
22 min
22 min
15 min
Sweet Bread
Corn Bread
Gingerbread
Apple Turnovers
Cream Puffs
Brownies
Sugar Cookies
Chocolate Chip Cookies
Apple Pie (Fresh)
Blueberry Pie (Fresh)
Blueberry Pie (Frozen)
Pumpkin Pie (Frozen)
Frozen Pizza
Product
Chicken Parts
°F
Time
45 min
8 min
25 min
30 min
56 min
50 min
6 min
350°
350°
350°
350°
350°
325°
350°
Hamburger Patties, 10/lb fzn
Hamburger Patties, 10/lb fresh
Hamburger Patties, 4/lb fzn
Hamburger Patties, 4/lb fresh
Meatloaf – 4#
5 min
12 min
8 min
Macaroni & Cheese
Fish Sticks
15 min
16 min
45 min
60 min
45 min
10 min
Bacon
Stuffed Peppers
Baked Potatoes
Roast Beef - 20#
325° 3 hr 15 min
300° 1 hr 45 min
Prime Rib - 10#
Stuffed Pork Chops
Lamb Chops
350°
375°
300°
45 min
40 min
3 Hr
Boneless Veal Roast
Product
°F
Time
Product
°F
Time
Part # MCOSM06 Rev 1 (11/03/08)
Page 22
COOK AND HOLD
Please refer to the operating instructions to program the 450 and 455 control units for cook and hold feature. The times and
temperatures listed below are to be used as a starting guide. Your actual results may vary greatly depending on your elevation,
gas supply, atmospheric conditions and other items being cooked at the same time.
Time in Hours
Temperature: 200°F
Temperature: 250°F
Temperature: 300°F
Weight in
lbs
Rare
2.5
2.75
3
Medium
3.5
Rare
1.5
Medium
2
Rare
1.25
1.25
1.5
Medium
1.5
8
9
3.75
4.25
4.5
1.75
2
2.25
2.5
1.75
1.75
1.75
2
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
3.25
3.5
3.75
4
2
2.75
3
1.5
5
2.25
2.5
1.5
5
3.25
3.5
1.5
2.25
2.5
5.75
6
2.5
1.75
2
4.25
4.5
4.75
4.75
5
2.75
2.75
3
3.5
2.5
6.25
6.5
3.75
4
2
2.75
2.75
3
2.25
2.25
2.25
2.5
6.75
7.25
7.5
3.25
3.25
3.5
4.25
4.25
4.5
3
5.25
5.5
5.75
6
3.25
3.5
7.75
7.75
8.25
8.75
9
3.5
4.75
4.75
5
2.75
2.75
2.75
2.75
3
3.5
3.5
3.75
3.75
4.25
4.25
4.25
4.5
3.75
3.75
4
6
5
6.25
6.5
6.75
7
5.5
9.25
9.5
5.5
3.25
3.25
3.25
3.5
4.25
4.25
4.25
4.5
5.75
6
9.75
10
7.25
7.25
4.75
4.75
6.25
6.25
10.25
3.5
4.5
Part # MCOSM06 Rev 1 (11/03/08)
Page 23
PROBLEMS / SOLUTIONS
Problem
Solution
If cakes are dark on the sides and not done in the center
If cakes edges are too brown
If cakes have light outer color
Lower oven temperature.
Reduce number of pans or lower oven temperature.
Raise temperature.
Bake longer or raise oven temperature slightly.
Do not open doors too often or for long periods.
If cake settles slightly in the center
If cake ripples
Overloading pans or batter is too thin.
Lower oven temperature.
If cakes are too coarse
If pies have uneven color
If cupcakes crack on top
Reduce number of pies per rack or eliminate use of bake pans.
Lower oven temperature.
If meats are browned and not done in center
If meats are well done and browned
If meats develop hard crust
If rolls have uneven color
Lower temperature and roast longer.
Reduce time. Limit amount of moisture.
Reduce temperature or place pan of water in oven.
Reduce number or size of pans.
Part # MCOSM06 Rev 1 (11/03/08)
Page 24
CLEANING & MAINTENANCE
NOTE: Disconnect line cord from power supply before
cleaning or servicing.
Interior Cleaning
Establish a regular cleaning schedule or wipe off on the same
day when spillovers occur.
Break-In Period
1. Cool down oven.
When oven is new, operate it for one hour at 450°F before you
begin your normal cooking operation. After cooling, wipe the
interior, including the racks, with a clean damp cloth.
2. Remove oven racks.
3. Lift rack guides on either side of oven off of holders. Racks
and guides may be run through dishwasher while oven
cavity is being cleaned.
Exterior Cleaning
Establish a regular schedule. Any spills should be wiped off
immediately.
4. Clean with soap and water using a non-metallic scouring
pad, if necessary. If dirt and grease have accumulated, a
mild ammonia solution or commercial oven cleaner such
as Easy-Off or Dow may be used.
1. The oven should always be allowed to cool sufficiently
before any cleaning is attempted.
2. Wipe exposed, cleanable surface when cool with a mild
detergent and hot water. Stubborn residue spots may be
removed with a lightweight non-metallic scouring pad.
Dry thoroughly with a clean cloth.
5. To reinstall, reverse procedure. Place the bottom of the
rack guide against the cavity wall. Keeping the top pulled
away from the wall lift up. Push the top of the rack guide
against the wall and push down locking it into place.
3. Painted surfaces should be cleaned using a mild soap
and warm water solution on a sponge or soft Cloth. Dry
thoroughly.
Fan Area Maintenance
If aluminum foil is routinely used to wrap food or cooking
vessels during oven operation, the following preventive
maintenance must be performed:
4. Stainless Steel surfaces can often be cleaned adequately
with the same method. Stubborn stains may be removed
by using a non-metallic abrasive pad, rubbing in the
direction of the metal's grain. If necessary, for particularly
heavy deposits, you may mix a thin paste of water and
scouring powder, and apply it with a sponge. Be careful
to apply light pressure and remember to rub only in the
direction of the grain in the metal.
1. Turn power switch to "OFF" position.
2. Remove oven racks and rack guides.
3. Remove air baffle and clean any stains or deposits.
4. Check blower wheel and air baffle for particles of
aluminum foil or food deposits. Clean fins of blower
wheel. (Caution: edges of blower wheel fins may be
sharp).
5. The control panel surface is easily cleaned with hot water,
soap and a soft cloth. Do not use hard abrasives, solvent
type materials or metallic scouring pads since these will
scratch or cloud the surface.
5. Reinstall the air baffle, rack guides and oven racks.
6. Never spray the perforated areas or control panel with
steam or water, as this will allow moisture into the control
cavity, which could damage electrical components.
This simple practice, if performed on a regular basis will
keep your Garland oven operating at peak performance.
Part # MCOSM06 Rev 1 (11/03/08)
Page 25
MOTOR CARE
The motor on your convection oven is maintenance free since We recommend, at the end of the bake or roasting period,
it is constructed with self-lubricating sealed ball bearings.
It is designed to provide durable service when treated with
ordinary care. We have a few suggestions to follow on the
care of your motor. When the motor is operating, it cools
itself internally by air entering at the rear of the motor case,
provided proper clearance has been allowed.
when the oven will be idle for any period of time, or before
shutting down completely, that the doors be left open
slightly, and press the COOL DOWN key on the control panel.
The fan will continue to run until the oven cools down to
150°F (66°C). At the end of the day, press the ON/OFF key to
activate the Auto Cool Down feature. The fan will run on high
until the oven cavity drops below 150°F (66°C). During this
time the "AUTO COOL DOWN" LED will light. When the oven
temperature drops below 150°F (66°C) the oven turns off.
This feature protects the oven motor from pre-mature failure.
Optimal cool-down will be achieved with the door open
slightly.
Since the blower wheel is in the oven cavity it is at the same
temperature as the oven. If the motor is stopped while the
oven is hot, the heat from the blower wheel is conducted
down the shaft and into the armature of the motor. This
action could shorten the life of the motor.
Part # MCOSM06 Rev 1 (11/03/08)
Page 26
Section Two
Electronic Pilot
& Main Burner
Part # MCOSM06 Rev 1 (11/03/08)
Page 27
IGNITION SEQUENCE
First Stage – Trial For Pilot Ignition
Second Stage – Main Burner Operation
On every call for heat (system start), the S86 performs an
internal safe-start check and shows that a flame-simulating
When the Pilot flame is established, a flame rectification
circuit is complete to the burner ground. The S86 flame
condition is present. During a normal start, the S86 opens the sensing circuit detects the flame circuit and shuts the spark
pilot valve in the gas control. This allows gas to flow to the
pilot burner. Simultaneously the electronic spark generator
in the S86 produces a 30,000 volt pulse output. This voltage
produces a spark at the pilot burner igniter/sensor rod,
igniting the gas flow around the electrode. If the pilot flame
is not detected during the trial for pilot ignition, the S86H
contains a safety lockout timer (90 Seconds) to limit the
ignition period.
generator off. At the same time the second operator (main
gas valve) is opened in the gas control, allowing gas flow
to the burners. This pilot flame ignites the main burner
conventionally.
Safety Lock Out Time.
The safety lockout timer circuit starts timing the moment the
trail for the pilot ignition starts. When the timing periods runs
out, the trial for ignition ends, and the control module goes
into lockout. Before another attempt to start can be made,
the S86 must be reset. Reset by adjusting the thermostat or
controller below room temperature, or to its "OFF" position.
An alternate method is to shut the system power "OFF". If
normal ignition does not occur, use the trouble shooting
table to determine the problem.
START
1. CONTROLLER CALLS FOR HEAT
STAGE 1
TRIAL FOR
IGNITION
2. SPARK GENERATOR POWERED
First valve (Pilot) operator opens
3. PILOT BURNER OPERATION
Pilot burner lights.
Module senses
flame current.
OR
Pilot burner does not light.
After 90 seconds system
locks out: must be
manually reset.
STAGE 2
MAIN BURNER
OPERATION
4. FLAME CURRENT SENSED
POWER INTERRUPTION
System shuts off, restarts
when power is restored
•
Spark generator off.
Second valve operation (main) opens
•
PILOT FLAME FAILURE
Main valve closed.
5. MAIN BURNER OPERATION
Module monitors pilot flame current
Module start trail for ignition.
6. CONTROLLER SATISFIED
END
Valves close, pilot and main burners are off
Part # MCOSM06 Rev 1 (11/03/08)
Page 28
TROUBLE SHOOTING TABLE
Note: Before trouble shooting familiarize yourself with
the startup procedure.
START
TURN GAS SUPPLY OFF.
TURN CONTROLLER TO
CALL FOR HEAT POWER
TO MODULE
NO
Check line voltage power, low voltage transformer, limit controlled and wiring.
(24V NOMINAL)
Pull ignition lead
and check spark and
module.
• On models with vent damper plug, make sure vent damper
had not be installed, the remove. Replace vent damper if
necessary.
YES
NO
NO
SPARK ACROSS IGNITER/
SENSOR GAP
• On other models, replace module
Spark okay?
YES
• Check ignition cable, ground wire, ceramic insulator and gap and correct.
• Check boot of the ignition cable for signs of melting or buckling. Take protective action to shield
cable and boot from excess temperature.
YES
• Check that all manual gas valves are open, supply tubing and pressure are good, and pilot burner
orifice is not blocked.
TURN GAS SUPPLY ON
PILOT BURNER LIGHTS?
• Check electric connections between module and pilot operator on gas control.
NO
NO
• Check for 24 VAC across PV-MV/PV terminals on module. If voltage is okay, replace gas control; if
not, replace module.
Note: If S5800B, H; S6810B, H goes into lockout, reset system. For S6800M, wait 6 minutes nominal
for retry or reset system
YES
• Check continuity of ignition cable to ground wire.
• Clean flame rod.
SPARK STOPS WHEN
PILOT IS LIT?
• Check electrical connection between flame rod and module.
• Check for cracked ceramic flame rod insulator.
• Check that the pilot flame covers the road and is steady and blue.
• Adjust pilot flame.
YES
• If problem persists, replace module.
• Check for 24 VAC across MV-MV\PV terminals. If no voltage, replace module.
NO • Check electrical connections between module and gas control. If okay, replace gas control or gas
MAIN BURNER LIGHTS?
control operator.
YES
Note: If S8600B, H; S6810B, H goes into lockout, reset system. For S6800M, wait 6 minutes, nominally
for retry or reset system.
SYSTEM RUNS UNTIL
CALL FOR HEAT LOSS?
• Check continuity of ignition cable and ground wire.
NO
Note. If ground is poor or erratic, shutdowns may occur occasionally even though operation is
normal at the time of checkout.
YES
• Check that the pilot flame covers flame rod and is steady and blue.
• If checks are okay, replace the module.
CALL FOR HEAT ENDS
SYSTEM SHUTS OFF?
YES
NO
• Check for proper controller operation
• Remove MV lead at module; if valve closes, recheck the temperature controller and wiring; if not,
replace gas control.
TROUBLE SHOOTING
ENDS
Repeat procedure until trouble free operation is obtained.
Part # MCOSM06 Rev 1 (11/03/08)
Page 29
SERVICE
Electric grounding connections at the pilot burner,
igniter/sensor and S86 must be clean and tight. If a lead
wire is damaged or deteriorated, use only No. 14 or 18
gauge moisture resistant thermoplastic insulated wire
with 105°C (221°F) minimum ratings as replacement.
Excessive temperature at the ceramic flame rod can also
permit electrical leak to ground. Examine the flame rod and
mounting bracket, and correct if bent out of position. Replace
igniter/sensor if insulator is cracked.
Preliminary Check
The following visual checks should be made before trouble
shooting and after installation or maintenance.
1. Check power to the appliance and S86.
2. Manual shutoff cocks in the gas line must be open.
3. Make certain all wiring connections are clean and tight.
4. First de-energize the system and wait at least one (1)
minute. This resets the module allowing a return to the
start condition.
Check Spark Ignition Circuit
The electronic module and step-up transformer in the S86
provides a spark ignition at 30,000 volts (open circuit). This
circuit can be checked at the S86 module as follows:
5. Review the S86 system normal sequence of operation.
1. Turn off the manual gas cock to prevent the flow of gas.
System Trouble Shooting
2. Disconnect the ignition cable at the S86 stud terminal to
isolate the circuit from the pilot burner/igniter/sensor, and
prepare a shot jumper lead using heavily insulated wire,
such as ignition cable.
Start the system by setting the controller above the required
temperature. Observe the system response. Establish the type
of malfunction or deviation from the normal operation. Use
the S286 Intermittent Pilot system trouble shooting table to
check for normal system operation.
3. Energize the S86 touch one of the jumper firmly to the S86
ground terminal (GND). Do not disconnect the existing
ground lead. Move the free end slowly toward the stud
terminal to establish a spark and then pull the lead wire
slowly away from the stud. Not the length of the gap at
which the arching stops.
Use the table by following the instruction questions in the
box. If the conditions is true or okay (answers yes), go down
to the next box underneath. If the condition is not true of
not okay (answer no), go right to the next box alongside.
Continue checking and answering conditions in each box
encountered, until a problem and/or the repair is explained.
After any maintenance or repair, the trouble shooting
sequence should be repeated until the trouble shooting
procedure ends with a normal system operation.
CAUTION: Do not touch either the stripped end of the jumper
or stud terminal. This is a very high voltage circuit and
electrical shock can result. Perform the test immediately upon
energizing the system – before the S86H goes into safety lock
out and interrupts the spark circuit.
Check Grounding
4. An arch length of 1/8" (3.2mm) or more indicates a
satisfactory voltage output. Replace the S86 if not arc
can be established or the maximum gap is less then 1/8"
(3.2mm), and the fuse and power to the S86 input terminal
was okay.
A common ground is required for the pilot burner, the
igniter-sensor, the GND terminal of the S86, and the main
burner. The main burner generally serves as the common
ground. If the ground it poor or erratic, safety shutdowns may
occur occasionally even though operation is normal at time
of check out. Therefore, if nuisance shutdowns have been
reported, be sure to check the grounding.
Note: If the ground circuit path is incomplete, the S86H
system control will allow one trial for ignition before going
into safety lock out.
Part # MCOSM06 Rev 1 (11/03/08)
Page 30
Examples Of Unsatisfactory Pilot Flames.
APPEARANCE
CAUSE
SMALL BLUE FLAME
Check for lack of gas from:
• Clogged orifice filter
• Clogged pilot filter
• Low gas supply pressure
• Pilot adjusted at the minimum
LAZY YELLOW FLAME
WAVING BLUE FLAME
Check for lack of air from:
• Large orifice
• Dirty lint screen, if used
• Dirty primary air opening, if there is one
• Pilot adjusted at minimum
Check for:
• Excessive draft at pilot locations
• Recirculating products of combustion
NOISY LIFTING BLOWING FLAME
Check for:
• High gas pressure
HARD SHARP FLAME
This flame is characteristic of manufactured gas
Check for:
• High gas pressure
• Orifice too small
1. Connect a meter (DC micrometer scale) in a series with
the flame signal ground wire (Burner Ground Terminal).
Disconnect the ground wire at the control module. Connect
the red (positive) lead of the meter to the free end of the
ground wire. Connect the black (negative) meter lead to the
quick-connect ground terminal on the control module.
Control Module Flame Sensor Circuit.
The control module provides AC power to theigniter/sensor
that the pilot burner flame rectifies to a direct current. If the
flame signal back the control module is not at least 1.0 μA
DC, the system will lockout. The output of the flame sensing
circuit cannot be checked directly, so check the flame sensing
circuit indirectly by checking the flame sensing current from
the igniter/sensor to the control module as follows:
2. Restart the system and read the meter. The flame sensor
currant must be at least 1.0 μA, and the reading must be
steady. If the reading is below the value designated or the
reading is unsteady, check the pilot flame and electrical
connection. Also, replace the igniter/sensor if the ceramic
insulator is cracked.
Part # MCOSM06 Rev 1 (11/03/08)
Page 31
G77x INTERMITTENT PILOT CONTROLS
•
Ignition Lockout: Pilot gas did not ignite within the final
trial-for-ignition time. Open thermostat contacts for 30
seconds, then close to restart the sequence of operation.
(Models with an optional LED will flash the LED to indicate
ignition lockout.)
•
•
Flameout: Loss of proven flame.
Hard Lockout: The control detected a fault. Open
thermostat contacts for 30 seconds, then close to restart
the sequence of operation. (Models with an optional LED
will turn off the LED to indicate a hard lockout.)
Sequence of Operation
Application Requirements
Figure 2 illustrates the sequence of operation of the G77x
control.
The following are the application requirements of the G77x
control.
The control is energized on a call for heat from the system
thermostat. (Models with an optional LED will turn on the
LED [steady on] until the call for heat is satisfied.) The vent
damper, if used, is energized and when fully opened, also
energizes the ignition control. If the control is equipped with
the optional prepurge, the appliance prepurge fan or relay
is also energized through the thermostat contacts. In the
prepurge mode, the control will delay for the time selected
(e.g., 15 seconds) before simultaneously opening the pilot
valve and supplying a continual spark at the pilot burner. If
prepurge is not selected, the pilot valve is opened and spark
initiated within one second after the call for heat.
•
The G77x can be used on gas-fired equipment with a
maximum firing rate of 117kW (400,000 BTU/Hr). Any
application over 117kW (40,000 BTU/Hr) must have written
approval in advance from the Johnson Controls Heating
Products Engineering Department.
•
All G77x applications must use a redundant gas valve
system where the pilot and main valve seats are in series
and opened in sequence for intermittent pilot ignition.
Operating Mode Definitions
Under normal conditions, the pilot burner gas ignites within
the trial-for-ignition time (e.g., 8 seconds), the pilot flame
sensor detects pilot flame and signals the control to energize
the main valve. The main gas valve will not be energized until
the flame sensor detects the presence of pilot flame. The
spark will continue until flame is sensed at the pilot burner or
the trial-for-ignition time has elapsed, whichever occurs first.
If the pilot flame is not sensed before the end of the trial-for-
ignition time, the control may:
The following definitions describe operating conditions.
•
Prepurge: Initial time delay between thermostat contact
closure and trial for ignition.
•
Trial for Ignition: Period during which the pilot valve and
spark are activated, attempting to ignite gas at the pilot
burner. The control attempts to prove flame at the pilot
burner within the trial-for-ignition time.
•
•
Run: Pilot and main gas valves remain energized and spark
is turned off after successful ignition.
•
•
•
proceed to interpurge, followed by another trial (three
trial models whose first two trials produced no flame).
100% Shutoff: For controls with automatic recycle, pilot
gas did not ignite within the trial-for-ignition time. The
control de-energizes the spark circuit and pilot valve.
proceed to a lockout (no automatic recycle models whose
final trial produced no flame).
proceed to a recycle delay period followed by another trial
(automatic recycle models whose final trial produced no
flame).
•
•
Automatic Recycle: If shutoff occurs, the control delays for
a specific recycle delay period before beginning another
trial for ignition (models with recycle only).
Interpurge: Period between trials for ignition when both
the gas valve and spark are deactivated to allow unburned
gas to escape before the next trial. Interpurge occurs
between unsuccessful trials on a multi-trial control or after
a flameout (if the control has an interpurge).
Part # MCOSM06 Rev 1 (11/03/08)
Page 32
Figure 2
Start
Flame present when
not expected
Detected fault
Thermostat
call forheat
Flame
present for
30 seconds?
Hard Lockout
(optional LED
turns oꢁ)
No
Yes
Prepurge
Trial for
ignition
Pilot
ꢀame
sensed?
Yes
Energize
main valve
Run
No
Yes
Maximum
number of trials
attempted?
No
No
Yes
Thermostat
Interpurge
Flameout?
Yes
calling for heat?
No
Ignition lockout
(optional LED
ꢀashes)
Control with
ignition
recycle?
Yes
Sixteenth
ꢀameout?
De-energize
control and valves
No
No
Yes
End
Recycle delay
period
Shutoꢁ
Part # MCOSM06 Rev 1 (11/03/08)
Page 33
If the pilot burner flame extinguishes during the run state
(flameout), the control de-energizes the pilot and main gas
valve for the interpurge period. After this period, another
trial for ignition is initiated. If the flameout cycle repeats for a
total of 16 times (pilot burner flame established then lost), the
control will:
•
•
Enter the lockout mode if the control is a G770/G777. The
thermostat contacts must be opened for 30 seconds and
then closed to escape the lockout condition.
Enter the shutoff mode and recycle period (5 minute
recycle delay for the G775/G779 and 60 minute recycle
for the G776/G778) before beginning another trial for
ignition, starting with prepurge.
Wiring Diagram For Integral Spark/Sense Without Vent Damper
Pilot Burner
Assembly
Integral
Igniter/Sensor
Main Burner
Ground
Pilot
Gas Supply
GROUND
5
24 V
LED
THS 2
PV 1
Main
Valve
Pilot
Valve
MV 3
Transformer
Limits in Thermostat
Line Only
Ignition Control
Part # MCOSM06 Rev 1 (11/03/08)
Page 34
G76X DIRECT SPARK IGNITION CONTROLS
•
Interpurge: Period between trials for ignition when both
the gas valve and spark are deactivated to allow unburned
gas to escape before the next trial. Interpurge occurs
between unsuccessful trials on a multi-trial control or after
a loss of proven flame (flameout).
•
Ignition Lockout: Main gas did not ignite within the final
trial-for-ignition time. Open the thermostat contacts for 30
seconds, then close to restart the sequence of operation.
(Models with an optional LED will flash the LED to indicate
ignition lockout.)
•
•
Flameout: Loss of proven flame.
Hard Lockout: The control detected a fault. Open the
thermostat contacts for 30 seconds, then close to restart
the sequence of operation. (Models with an optional LED
will turn off the LED to indicate a hard lockout.)
Application Requirements
Sequence Of Operation
Following are the application requirements of the
G76xcontrol.
Figure 3 illustrates the sequence of operation of the G76x
control.
•
The G76x can be used on gas-fired equipment with a
maximum firing rate of 117 kW (400,000 Btu/hr). Any
application greater than117 kW (400,000 Btu/hr) must
have written approval in advance from the Johnson
Controls Heating Products Engineering Department.
The control is energized on a call for heat from the system
thermostat. (Models with an optional LED will turn on the LED
[steady on] until the call for heat is satisfied.) If the control is
equipped with the optional prepurge, the control will delay
for the time selected before initiating a trial for ignition.
During the trial for ignition, the control attempts to light the
main burner by simultaneously energizing the main gas valve
and supplying a continuous spark at the igniter electrode.
If the optional prepurge is not selected, then the trial for
ignition begins within one second after the call for heat.
The spark is deactivated immediately following the trial for
ignition.
•
All G76x applications must use a redundant gas valve
system where the main valve seats are in series and open
simultaneous for direct spark burner ignition.
Operating Mode Definitions
The following definitions describe operating conditions:
•
Prepurge: Initial time delay between thermostat contact
Under normal conditions, the main burner gas ignites within
the trial-for-ignition time. If the control senses main burner
flame by the end of the trial, the control proceeds to a run
condition. During the run state, the control energizes the
main valve until the call for heat ends, or until a flameout
occurs. If main burner flame is not sensed by the end of the
trial-for-ignition time, the control may:
closure and trial for ignition.
•
Trial for Ignition: Period during which the main valve and
spark are energized in an attempt to ignite gas at the main
burner. The control attempts to prove flame at the main
burner within the trial-for-ignition time.
•
•
Run: Main gas valve remains energized and the spark is
turned off after successful ignition.
•
Proceed to a 30-second interpurge followed by another
trial (three trial models whose first two trials produced no
flame)
100% Shutoff: For controls with automatic recycle, main
gas did not ignite within the trial-for-ignition time. The
control de-energizes the spark circuit and main valve.
•
•
Proceed to a lockout (no automatic recycle models whose
final trial produced no flame)
•
Automatic Recycle: If 100% shutoff occurs, the control
delays for a specific recycle delay period before beginning
another trial for ignition. (Modelswith recycle only.)
Proceed to a recycle delay period followed by another trial
(automatic recycle models whose final trial produced no
flame)
Part # MCOSM06 Rev 1 (11/03/08)
Page 35
Fig 3 Sequence of Operation
Start
Flame present when
not expected
Detected fault
Thermostat
call for heat
Flame
present for
30 seconds?
Hard Lockout
(optional LED
turns oꢁ)
No
Yes
Prepurge
Trial for
ignition
Main valve Yes
ꢀame sensed?
Run
No
Yes
Thermostat
callin for heat?
No
Flameout?
Yes
Maximum
number of trials
attempted?
No
Yes
Interpurge
No
Control
with ignition
recycle?
Ignition lookout
(optinal LED
ꢀashes)
Yes
De-energize
control and valves
No
Sixteenth
ꢀameout?
No
Yes
End
Recycle delay
period
Part # MCOSM06 Rev 1 (11/03/08)
Page 36
If the main burner flame extinguishes during the run state,
the control de-energizes the main gas valve for an interpurge
of 30 seconds. After this period, another trial for ignition is
initiated. If this flameout cycle repeats for a total of 16 times
(main burner flame established, then lost), the control will:
•
•
Enter the lockout mode if the control is a G760. The
thermostat contacts must be opened for 30 seconds and
then closed to escape the lockout condition.
Enter the 100% shutoff mode and recycle period (5
minute recycle delay for the G765 and 60 minute recycle
delay for the G766) before beginning another trial for
ignition, starting with prepurge.
Wiring Diagram for G76x Ignniton Control
Spark Electrode/
Sensor Assembly
Main Burner
Ground
GROUND
5
LED
THS 2
MAIN
VALVE
MAIN
VALVE
M.V. 3
SENSE 4
Power
Supply
Limits In
Thermostat
Line Only
Transformer
Thermostat
G76x Ignition Control
Part # MCOSM06 Rev 1 (11/03/08)
Page 37
Part # MCOSM06 Rev 1 (11/03/08)
Page 38
Section Three
Temperature
Calibration
Part # MCOSM06 Rev 1 (11/03/08)
Page 39
GENERAL CALIBRATION
Instrumentation
Chart No.1
A thermocouple type test instrument is preferred for
measuring oven temperatures accurately. Mercury
thermometers are acceptable providing they can be proven
accurate.
260
240
220
200
180
160
140
120
100
Regardless of the type instrument used, it is most desirable
to double-check it just before making an oven temperature
check. This can be done simply and quickly by placing
the thermocouple tip (or immersing the entire mercury
thermometer) in boiling water. Note: Mercury oven
thermometers should be the "Total immersion type." The
resulting reading should be within several degrees of 212°F,
depending on the altitude.
Unweighted Thermocouple dial setting 170 F
Generally, a mercury thermometer can drop and excess of
25° F when the doors are opened to check oven temperature.
This condition makes it extremely difficult to get a true
temperature reading.
Chart No.2
Almost all convection ovens today have oven burners which
cycle "on and off" The high and low points of the resulting
temperature "swing" (differential) in the oven must be
measured- and averaged-to determine the true operating
temperature. A thermocouple type test instrument is best
suited to measure these temperature changes quickly and
accurately, and without opening the oven door.
260
240
220
200
180
160
140
120
100
With an accurate, thermocouple test instrument or mercury
thermometer, it is still difficult to measure these changing
oven temperatures and then, average correctly. This is why
we recommend that the thermocouple tip or the bulb of the
thermometer be "weighed" Weighing (adding mass) to the
test instrument compensates for oven temperature changes
making the test instrument less sensitive to these constant
changes in temperature. Note: How this weighting can be
done is discussed later.
Weighted Thermocouple Dial Setting 170F
From the above, it can be seen that an error of 15°F is
possible. Chart #1, unweighted thermocouple indicates
an erroneous average oven temperature of 185°F, Chart
#2 weighted thermocouple indicates the "average" or true
temperature to be 170°F.
Measuring these changing high and low temperature points
in an oven is possible with either type of test device with out
weighing, but is subject to possible inaccuracies. This is most
true at a low temperature setting because, in this area, the
function of "time" becomes a factor. The simple averaging
of temperatures then may not produce the true operating
temperature. "Weighing" provides the compensation for both
time and temperature that is necessary. We produced test
curved showing actual results in the low temperature area
showing the difference in results when using an unweighted
and weighted thermocouple or thermometer. Tests were
made with the same control, same oven and dial set at 170°
mark (not moved).
Weighing of Thermocouple
A thermocouple can be weighted by clamping the tip
between two one inch square 1/16" inch thick aluminum. The
thermocouple can also be weighted (just as successfully) by
using a letter sized sheet of aluminum foil. Fold the foil five
times doubling the thickness each fold. After the fifth fold,
place the thermocouple tip in the center of the aluminum
piece and fold once more. Finally fold in the sides so that the
foil clings to the thermocouple tip. A mercury thermometer
can be weighted in much the same way by wrapping several
layers of aluminum foil around the bulb end thus creating the
necessary mass. This procedure is a must if you open the door
to check the temperature.
Part # MCOSM06 Rev 1 (11/03/08)
Page 40
Resistance Vs. Temperature Chart
For Internal Oven Temperature Sensor
The Chart below will provide the Ohms at various
temperatures. This will enable you to determine if the
temperature probe is operable.
The chart is in degrees Fahrenheit.
TEMP
0°
0°
10°
20°
30°
40°
50°
60°
70°
80°
90°
932
953
974
995
1016
1226
1432
1634
1832
2027
1038
1247
1452
1654
1852
2046
1059
1267
1472
1674
1871
2065
1080
1288
1493
1694
1891
2085
1101
1309
1513
1714
1911
2104
1122
1329
1533
1733
1930
2123
100°
200°
300°
400°
500°
1143
1350
1553
1753
1949
1163
1370
1574
1773
1969
1184
1391
1594
1793
1988
1205
1411
1614
1813
2008
200 & 300 SERIES CONTROLLERS CALIBRATION
Both the 200 & 300 series controllers use a 0 to 10.25k OHM
potentiometer. First check the sweep on the potentiometer
between the middle wire and one of the outside wires
for a gradual increase or decrease in the resistance as the
potentiometer stem is turned.
7. If an adjustment is required, loosen the set screw
and position the mark on the temperature dial to the
temperature shown on your meter.
8. Tighten set screw down.
9. Repeat as required (once is usually enough).
10. Fully tighten both set screws.
Gas Units – Calibration 300 Series
1. Remove the temperature dial from the potentiometer.
Gas Units – Calibration 200 Series
2. Turn the potentiometer to its lowest setting (fully counter
clock-wise).
1. Remove the temperature dial from the potentiometer.
3. Place the temperature dial back on the potentiometer.
2. Turn the potentiometer to its highest setting (fully clock-
wise).
4. Align the mark on the temperature dial to the top left
edge of the 'F': on the left of the temperature dial and
sung down one of the set screws. DO NOT fully tighten
yet.
3. Place the temperature dial back onto the potentiometer.
4. Align the mark on the temperature dial 1/4" PAST the
500°F marking on the overlay and snug down one of the
set screws. Do NOT fully tighten yet.
5. Set the temperature dial to 150°F and allow the oven
cavity for reach set temperature.
5. Set the temperature dial to 159°F and allow the oven
cavity to reach set temperature.
6. Confirm the temperature inside the oven cavity with you
meter and that shown on the temperature dial.
Part # MCOSM06 Rev 1 (11/03/08)
Page 41
6. Confirm the temperature inside the oven cavity with your
meter and that shown on the temperature dial.
Electric Units – 200 series
1. Remove the temperature dial from the potentiometer.
7. If an adjustment is required, loosen the set screw
and position the mark on the temperature dial to the
temperature shown on your meter.
2. Turn the potentiometer to its highest setting (fully clock
wise).
3. Place the temperature dial back on the potentiometer.
8. Tighten set screw down.
4. Align the mark on the temperature dial 1/4" PAST the
500°F marking on the overlay and snug down one of the
set screws. Do NOT fully tighten yet.
9. Repeat as required (once is usually enough).
10. Fully tighten both set screws.
5. Set the temperature to 300°F and allow to cycle 3-times.
Electric Units – Calibration 300 Series
6. Confirm the temperature inside the oven cavity with your
meter and that on the temperature dial.
1. Remove the temperature dial from the potentiometer.
2. Turn the potentiometer to its lowest setting (fully counter
clock-wise).
7. If adjustment is required, loosen the set screw and
position the mark on the temperature dial to the
temperature shown on your meter.
3. Place the temperature dial back on the potentiometer.
4. Align the mark on the temperature dial to the top left
edge of the "F": on the left of the temperature dial and
sung down one of the set screws. Do Not fully tighten yet.
8. Tighten set screw down.
9. Repeat as required (once is usually enough).
10. Fully tighten both set screws.
5. Set the temperature to 300°F and allow the unit to cycle 3
times.
6
Confirm the temperature inside the oven cavity with your
meter and that on the temperature dial.
7. If adjustment is required, loosen the set screw and
position the mark on the temperature dial to the
temperature shown on your meter.
8. Tighten set screw down.
9. Repeat as required (once is usually enough).
10. Fully tighten both set screws.
Part # MCOSM06 Rev 1 (11/03/08)
Page 42
Section Four
Convection Oven
Components
Part # MCOSM06 Rev 1 (11/03/08)
Page 43
DOORS
1. Remove top front cap veneer.
To Remove Doors From Oven
2
Remove door change assembly (Note: The "A" model does
not come equipped with door chain).
1
3. Remove flat head metal screw 1/4"-2-x1/2" from bearing
retainer.
4. Push the door toward the hinge and lift up. NOTE: The
bottom bearing retainer will stay in place.
5. Remove the right door in the same manner.
To Reinstall Doors onto Convection Oven
1. Reverse procedure above.
2. Close doors.
3. Reinstall the door chain.
2
Installing and Adjusting Door Chain
3
1. Make sure two links are between sprocket and door rod,
and there should be 8 regular links plus one master link on
the forward side of each chain.
4
2. Tighten up the buckles, the right door should close
approximately 1/2" before the left door.
3. Secure the turnbuckles by tightening the lock nuts.
2 Links
8 Links
Turnbuckles
Locking Nuts
Door Stop Bolt
Part # MCOSM06 Rev 1 (11/03/08)
Page 44
6. Carefully pry off the door window for the door liner.
Disassembly Of The Left Door
7. To remove the door catch remove 2 pan head Phillips
screws.
1. Once the door has been removed from the oven (refer to
previous instructions), remove the 12 truss head 10 x 1/2
Phillips screws.
8. To reassemble – reverse the above procedure.
2. Remove 2 allen head cop screws from the door handle.
NOTE: There is a seam on one side of the bezel that is part of
the door window, reinstall working from the opposite side
of that the seam is on and work around the window towards
that seam.
3. Carefully pry off the door panel from the door window
bezel.
4. Remove 2 hex head m.s. 1/4-20x1/2 from the door liner
that attach hold down straps to the door liner.
5. Lift out the door frame.
Disassembly of the Left Door
6
3
7
4
5
8
2
NOTICE: DEPENDENT DOOR SHOWN
7
1
7
Part # MCOSM06 Rev 1 (11/03/08)
Page 45
2. Pry the door liner apart from the door panel. This will
expose the door frame.
Disassembly of the Right Door (w/o window)
1. Once the door has been removed from the oven (See
previous section), remove 9 truss head s.m.s. 10 x 1/2 from
the top, bottom and left side (as shown) from the door
panel.
3. To reassemble, reverse the above procedure.
Disassembly of the Right Door (w/o window)
NOTICE; DEPENDENT RIGHT HAND DOOR SHOWN.
5
1
2
3
4
Part # MCOSM06 Rev 1 (11/03/08)
Page 46
DOOR LATCH MECHANISM
3. Lift door latch mechanism up and out of the door
assembly.
To Replace Or Adjust
The Door Latch Mechanism
4. To adjust the latch mechanism, loosen lock nut & adjust by
tightening or loosening the adjustment nut.
1. Open the oven doors.
2. Remove 2 pan head Phillips screws.
1
3
6
2
4
5
Part # MCOSM06 Rev 1 (11/03/08)
Page 47
MOTOR
4. Place a piece of cardboard on the oven floor to protect
from scratching or chipping.
To Replace Convection Oven
Motor Assembly
5. Pull the entire motor assembly (1A) away from the rear
oven wall into the oven cavity and place on cardboard.
1. Open doors and remove all oven racks.
2. Remove 4 #10 sheet metal screws (that secure the air
baffle) and remove air baffle.
6. Disconnect wiring, be sure to note wire locations.
7. To reinstall reverse the above procedure.
3. Remove six hex nut 1/4-20x7/16" (2A) and lock washers
(4A) from the motor mounting studs.
1A
4A
2A
Part # MCOSM06 Rev 1 (11/03/08)
Page 48
3. Attach the motor mounting plate to the motor. Insert the
four flat head m.s. 1/4-20x21/2" though the mounting tabs
on the motor as shown. Secure with two hex nuts 1/4-20.
Convection Oven Motor Assembly
1. Assemble the motor mount plate, insulation, and motor
mount plate inner together by fastening four flat head
m.s. 1/4-20x21/2" into the four holes noted on the above
drawing.
4. Insert the shaft of the motor though the hub of the blower
wheel. Space the wheel 1/4" away from the inner motor
mounting plate.
2. Secure each flat head m/s/ 1/4-20x21/2" with a flat washer
and three hex nuts 1/4-20.
5. Secure the blower wheel to the shaft of the motor by
tightening the two set screws on the blower wheel hub.
Use a torque wrench and tighten to 180 inch pounds for
proper securing.
6
2
1
3
7
5
5
4
9
8
Part # MCOSM06 Rev 1 (11/03/08)
Page 49
DOOR MICROSWITCH
Upper micro switch "Heat"
• BROWN wire goes from normally open door switch
to terminal T3 on the relay board.
• BLUE wire goes from the common on the door switch
to terminal T4 on the relay board.
Lower micro switch "Cool"
• BLACK wire goes from normally open door switch to
terminal T6 on the relay board.
• WHITE wire goes from common on the door switch
to terminal T5 on the relay board.
Part # MCOSM06 Rev 1 (11/03/08)
Page 50
PROBES
The chart below will provide the Ohms at various
temperatures. This will enable you to determine if the
temperature probe is operable.
Oven Cavity Probe
Resistance vs. Temperature Chart For Internal Oven Cavity
Temperature Sensor.
The chart is degrees Fahrenheit.
TEMP
0°
0°
10°
20°
30°
40°
50°
60°
70°
80°
90°
932
953
974
995
1016
1226
1432
1634
1832
2027
1038
1247
1452
1654
1852
2046
1059
1267
1472
1674
1871
2065
1080
1288
1493
1694
1891
2085
1101
1309
1513
1714
1911
2104
1122
1329
1533
1733
1930
2123
100°
200°
300°
400°
500°
1143
1350
1553
1753
1949
1163
1370
1574
1773
1969
1184
1391
1594
1793
1988
1205
1411
1614
1813
2008
Cavity Core Probe (455 Only)
Resistance Readings
NOTE: If the cavity core probe is used, the core probe Led will
be lit on the control panel, the temperature of the product
will be displayed if the product is about 32°F.
77°F
=
=
=
=
=
=
1000 ohms
100°F
200°F
300°F
350°F
400°F
1103 ohms
1350 ohms
1554 ohms
1654 ohms
1753 ohms
The programmed range for the core probe is 100°F to 200°F.
Part # MCOSM06 Rev 1 (11/03/08)
Page 51
KEY PAD TEST
Ribbon
Connector
PIN DETAIL
VIEWED FRON FRONT
PIN NUMBERS
On Ribbon
Connector
Key
#9
Key
#5
Key
#1
7
6 5 4 3 2
1
Key
#10
Key
#6
Key
#2
KEYPAD & TEST
POINTS VIEWED
FRON FRONT
PIN- OUT TEST POINTS
Key
#11
Key
#7
Key
#3
OVERLAY
MARKINGS
Key #
PIN-OUTS
1
2
1 & 4
1 & 5
1 & 6
1 & 7
2 & 4
2 & 5
2 & 6
2 & 7
3 & 4
3 & 5
3 & 6
3 & 7
SET BACK
COOL DOWN
PROGRAM
ACTUAL TEMP
CAVITY LIGHT
FAN LOW
3
4
5
DISPLAY
6
7
COOK / HOLD
SET
8
9
ON / OFF
10
11
12
FAN HIGH
PULSE
START/CANCEL
Key
#12
Key
#8
Key
#4
Between the above pin test points on the ribbon connector,
there should be continunty when the corresponding key is
pressed.
EXAMPLE: When Key # 1 is pressed and held, there should be
continunity between pins 1 & 4 at the ribbon cable.
NOTE: The keypad must be attached to the control panel
bezel when tested. The keypad is grounded to the panel to
complete the circuit. Disconnec the ribbon connector from
the SMART BOARD / CONTROLLER to gain better access to
teest points.
Not all overlays will have the above-indicated markings.
Part # MCOSM06 Rev 1 (11/03/08)
Page 52
MCO CONVECTION OVEN GAS VALVE
SIDE VIEW
TOP VIEW
PILOT
VALVE
MAIN
VALVE
Intermittent Pilot
Ignition Control
Manual
'A' Valve
Pilot Valve Main Valve Common
Connection Connection Connection
Inlet
Outlet
Pilot
Outlet
Inlet
Pressure
Tap
Outlet
Pressure
Tap
Regulator
Specifications
3 to 6" WC natural gas
5 to 12" WC propane gas
Regulator Adjustment Range
Maximum Operating Pressure
Minimum Incoming Pressure
14" WC both natural & propane gas
7" WC natural gas
14" WC propane gas
Part # MCOSM06 Rev 1 (11/03/08)
Page 53
RELAY BOARDS
Part # MCOSM06 Rev 1 (11/03/08)
Page 54
Testing
Test Points at 15 Pin Molex Connection
Through the back side of the Molex Connection with both the controller and the Relay
board connected:
Power to Controller
Pin 1 (white) & Pin 3 (white)
24 v.a.c. 10%
5 v. a..c. 10%
Door Switch
Pin 9 (black) & Pin 10 (white/gray)
SW1 for HEAT
(Upper Switch)
Door Switch SW2
for COOL
Pin 9 (black) & Pin 12 (grey)
5 v. a..c. 10%
(Lower Switch)
The Next Pin Tests are Key Function Specific
(Criteria: You must activate the switch you are testing)
Fan High
Pin 5 (red) & Pin 7 (orange/white)
Pin 5 (red) & Pin 8 (orange)
Pin 5 (red) & Pen 4 (white/violet)
Pin 5 (red) & Pin 6 (violet)
24 v.a.c. 10%
Fan Low
24 v.a.c. 10%
24 v.a.c. 10%
24 v.a.c. 10%
Heat Demand
Oven Light
The Next tests are Ohm Readings
Criteria: You must disconnect the probes and test probes only.
Cavity probe open (oven)
Core Probe (meat)
See RTD chart under Probes this section
See chart under Probes, this section
Part # MCOSM06 Rev 1 (11/03/08)
Page 55
Motor Relay Board
12
9
6
15
3
2
11
10
8
7
14
13
5
4
1
Part # MCOSM06 Rev 1 (11/03/08)
Page 56
CONTROLS
Display Codes – Prompts
Oven is in the OFF mode.
OFF
Lo
Oven cavity temperature is below set point.
Oven cavity temperature is above set point.
Hi
Oven cavity has reached set temperature - prompt for operator to load oven.
Oven has defaulted to factory set back temperature.
LOAd
SETb
Auto
Oven is in 'auto cool down' mode and will remain in auto until cavity temp is below 150°F.
OPEn
Door
Display will toggle from 'OPEN' to 'DOOR' to prompt for operator to open door when unit is in cool down.
In auto cool down mode, door is open past 30° or in cooking mode, door is opened.
Open or shorted cavity sensing probe.
Door
Prob
Oven cavity has exceeded 560°F.
HELP
CodE
SHLF
PR-2
PRE
475 controllers, prompt for operator to enter access code from programming 4-2-7-5.
475 controllers, prompt for operator to select shelf to be programmed.
475 controllers, prompt for operator to program the profile for the second cook time if required.
475 controllers, prompt for operator to set pre-alarm if required.
475 controllers, prompt for operator set the hold temperature the oven is in programmed HOLD
temperature.
HoLd
FAn
475 controller, prompt for operator to se fan speed.
Oven has completed its cooking cycle.
DonE
CooL
Door is open less then 30° in cool down mode.
Part # MCOSM06 Rev 1 (11/03/08)
Page 57
Part # MCOSM06 Rev 1 (11/03/08)
Page 58
Section Five
Trouble Shooting
Part # MCOSM06 Rev 1 (11/03/08)
Page 59
CONTROLLER OPERATIONAL TESTS
For the Garland (US Range) 200(20) – 300(30) – 410(41)
– 450(45) – 455(45+) – 470 – 4712 – 475 FAST convection oven
controls.
410 Series Controller
(Thermostat, display and relay board)
Turn the oven on, the oven should heat to set temperature
within 30 minutes. Press the temperature icon and the
temperature can be viewed above 100 degrees F. If the oven
does not heat, ohm out the probe, at room temperature the
probe should read about 1,000 ohms. Ohm the probe at the
faston connection. See chart under Probes in section four for
other resistance readings. If the probe reads an open or short
replace the defective probe.
200 Series Controller (Thermostat only)
Turn the oven on, the oven should heat to set temperature
within 30 minutes. If the oven does not heat, ohm out the
probe, at room temperature the probe should read about
1,000 ohms. Ohm the probe at the faston connection. See
the chart for other resistance readings. If the probe reads
an open or short, replace the defective probe. Check the
probe interconnect harness to make sure the circuit is good,
connections etc.
The heat demand relay K1F should be energized when
heating the oven and opened if it is not calling for heat.
Look at the heat LED CR1 on the relay board, the LED will be
lit when the controller calls for heat. Check the upper door
switch if the heat does not activate.
The heat relay K1 should be energized when heating the oven
and opened if it is not calling for heat.
The fan is not controlled by the controller.
The fan can switch from low to high speed. Look at the fan
LED on the relay board (CR3 LED for high and CR4 for low
speed), the LED will be lit when the controller calls for either
fan. If the operator cannot switch from one fan speed to
another, check the keypad. If the light switched on the display
from one fan speed to another but the fan did not change
speeds check the relay board. If the display switched and the
fan went off, check the fan itself.
300 Series Controller
(Thermostat and relay board)
Turn the oven on, the oven should heat to set temperature
within 30 minutes. If the oven does not heat, ohm out the
probe, at room temperature the probe should read about
1,000 ohms. Ohm the probe at the faston connection. See
chart for other resistance readings. If the probe reads an
open or short replace the defective probe. Check the probe
interconnect harness to make sure the circuit is good,
connections, etc.
If the keypad does not respond, check the keypad as outlined
in bulletin B-107-2001 If the encoder does not adjust the
temperature, check from idle; press the set function key and
adjust the encoder; the display should change accordingly. If
it does not, change the encoder.
The heat demand rely K1B should be energized then heating
the oven and opened if it is not calling for heat. Look at the
heat LED CR1 on the relay board, the LED will be lit when the
controller calls for heat. Check the door switch if the heat
does not activate. Upper door switch is for HEAT.
450 Series Controller
(Thermostat, display and relay board)
Follow the steps for the 410 controller.
The fan can switch from low to high speed. Look at the fan
LED on the relay board (there is a low CR4 and a high fan
CR30, the LED will be lit when the controller calls for either
fan. If the operator cannot switch from one fan speed to
another check the keypad. If the light switched on the display
from one fan speed to another but the fan did not change
speeds check the relay board. If the display switched and the
fan went off, check the fan itself.
If the display shows a temperature only and the function keys
do not operate, check to see if the hold LED is active. Press
cancel to deactivate the hold feature and return to the idle
mode.
455 Series Controller
(Thermostat, display and relay board)
Follow the steps for the 410 controller.
If the keypad does not respond, check the keypad as outlined
in bulletin B-107-2001.
If the display shows a temperature only and the function keys
do not operate, check to see if the hold or core temp LED is
active. Press cancel to deactivate the hold feature and return
to the idle mode or remove the core probe to return to idle
mode.
If the potentiometer does not adjust the temperature, check
the potentiometer. Pot is a 0 to 10.25K Ohm pot.
Part # MCOSM06 Rev 1 (11/03/08)
Page 60
If the keypad does not respond, check the keypad. As
outlined in bulletin B-107-2201
470 Series Controller
(Thermostat, display and relay board)
If the encoder does not adjust the temperature check, from
idle press the set function key and adjust the encoder,
the display should change accordingly. If not, change the
encoder.
Turn the oven on, oven should heat to set temperature within
30 minutes. Press the temperature icon and the temperature
can be viewed above 100 degrees F. If the oven does not
heat, ohm out the probe, at room temperature the probe
should read about 1,000 ohms. Ohm the probe at the faston
connection. See chart under Probes in section four for other
resistance readings. If the probe reads an open or short,
replace the defective probe.
471 Series Controller
(Custom configuration of the 470 series)
Follow the steps for the 470 controller.
The heat demand relay K1B should be energized when
heating the oven and opened if it is not calling for heat. Look
at the heat LED CR1 on the relay board, the LED will be lit
when the controller calls for heat. Check the door switch if the
heat does not activate. Upper door switch is for heat.
475 Series Controller
(470 version controller with profiles)
Follow the steps for the 470 controller.
The fan can switch from low to high speed. Look at the fan
LED on the relay board (CR3 LED for high and CR4 for low
speed), the LED will be lit when the controller calls for either
fan. If the operator cannot switch from one fan speed to
another, check the keypad. If the light switched on the display
from one fan speed to another but the fan did not change
speeds, check the relay board. If the display switched and the
fan went off, check the fan itself.
CONTROLLER FAULT FINDING
Display does not change.
Unless otherwise stated the faults and trouble shooting are
the same for all controllers.
Is the colon flashing? If yes, the controller is in hours and
minutes not minutes and seconds. Enter programming to
change the time. If no, disconnect the power for 2 minutes
and reapply power and try to change the time.
DISPLAY FAULT
Does not apply to 200 and 300 series.
Display does not light up
Check the incoming voltage to the oven
If the display still does not change the control board is
defective.
Display reads….
Check for 24 volts AC voltage on pins 1 and 3 of the 15-pin
connector
"Auto" The controller is in auto cool. The fan will continue to
operate until the cavity temperature cools to below 150°F.
Then the control will turn off.
If both check out fine the control board is defective
"Cool" The controller is in cool. This will happen if the cool
down key is depressed and the door is opened to the first
door switch only.
Part # MCOSM06 Rev 1 (11/03/08)
Page 61
"HELP" cavity in excess of 560Deg. F
No Heat
"Door" 1 of 2 door switches has opened -which one?
"oPEn" prompt for operator to open door during cool down.
Does not apply to 200 series.
If the oven does not heat check the door switches, the set
temperature and the LED on the relay board. On the relay
board next to the heat relay is an LED that is lit when the relay
is engaged. If the controller is calling for heat and the, heat
LED is not lit, check the harness and the pins in the harness
to ensure that neither has been pushed out of it's connector.
Check the contactor or gas valve if the rest of the system
seems operating satisfactory.
"Prob" The controller cannot read the probe. Check to verify
the probe is connected, if connected ohm the probe out
- see temperature readings.
"Setb" The controller is in setback. This will happen if the
setback key is pressed or if setback is active and there as
been a non-usage time key. Setback is not active in a cook.
Press setback to cancel setbacks.
Potentiometer Or Encoder Fault
Keypad Fault
Potentiometer- 200 and 300 series. The potentiometer can
turn 3/4 of a complete rotation. If the temperature does
not change when the potentiometer is turned, (this will
take 5 minutes or more) check to see if the potentiometer is
connected to the control board. Pot is a 0 to 10.25K ohm.
Does not apply to 200 series.
If the oven will not turn on when the On/Off button is pressed
check to verify that the connection to the keypad connector is
properly attached to the control board.
If the oven only maintains one temperature and the
potentiometer is connected the potentiometer is defective.
If the connector is attached the keypad is defective.
Encoder series 410,450,455,470,471 and 475 series. The
encoder can turn indefinitely. If the temperature display
does not change when the encoder is turned, check to see if
the encoder is connected to the control board. If the display
does not change when a manual temperature is entered the
encoder is defective.
No Sound Fault
Does not apply to 200 and 300 series
If the oven operates normally but the sound is different,
adjust the piezo so that it is not touching any other
component. If the oven operates properly but there is no
sound, the piezo is defective and replace the control board.
Core Probe Failures
Applies to 455 only.
Door Switch Fault
If the core probe is used, the core probe LED will be lit and the
temperature of the product will be displayed if the product is
above 32°F. The programmed range for the core probe is 100
to 200 °F.
Does not apply to 200 series.
If Cool down, the fans continuing to work when the door is
opened, or the oven does not heat check the door switches.
Upper door switch for HEAT, Lower door switch for COOL.
Temperature Readings
Fan Fault
Room Temperature: 77 °F
=
1000 ohms
Does not apply to 200 series.
100°F
200°F
300°F
350°F
400°F
=
=
=
=
=
1103 ohms
1350 ohms
1554 ohms
1654 ohms
1753 ohms
If the fan does not operate check the door switches, and the
LEDs on the relay board. On the relay board next to the low
and high fan relay is an LED that is lit when the fan is engaged
(CR3 LED for high and CR4 for low speed). The controller will
call for either low or high fan at all times. The pulse fan is the
low fan speed that will pulse on for 30 seconds, off for 30
seconds. The heat will always be off when the fan is in the
off cycle. If the control is calling for a fan speed and neither
fan LED is lit, check the harness and the pins in the harness
to verify that neither has been pushed out of it's connector.
Check the motor or the fan if the rest of the system seems
operating satisfactory.
Part # MCOSM06 Rev 1 (11/03/08)
Page 62
ADDITIONAL NOTES
•
Note the pins and voltages for the 15 pin connector from control to relay board
Pins 1 & 3 is the power (24 volts-AC 10%)
Pins 4 & 5 is the heat demand (24 volt DC coil)
Pins 6 & 5 is the oven light (24 volt DC coil)
Pins 8 & 5 is the low fan (24 volt DC coil)
Pins 7 & 5 is the high fan (24 volt DC coil)
Pins 9 & 10 are Door Switch 1 (dry contact)
Pins 9 & 12 are Door Switch 2 (dry contact)
Pins 13 & 14 are cavity probe (1654 ohms at 350 F)
Pins 14 & 15 are Core probe (1000 ohms at room temperature)
Note: pin 11 is tied to pin 14
Part # MCOSM06 Rev 1 (11/03/08)
Page 63
GENERAL TROUBLE SHOOTING GUIDE
Problem
Possible Cause
Corrective Action
Fan will not run
A. No Power to Unit
A. Turn Power on
B. No power to motor from relay board
C. Micro Switch Not closing
B. Check for voltage from relay board to motor
C. Check micro switches
Button on key pad not A. Loose ribbon connection between
A. Check that ribbon connection from key pad is
attached to smart board
responding
key pad and smart board
B. Faulty key pad
B. Refer to key pad testing procedure on bulletin
#B-107-2001
'Prob' in display
A. Probe disconnected
B. Probe has failed
A. Reattach probe
B. Confirm ohm resistance of probe. Refer to cavity
probe chart for readings.
C. Check for continuity between probe connection
at relay board, probe harness & probe
Unit will not shut off
A. Cavity temperature above 150°F
A. Bad relay board
A. Normal operation. Unit will not go to Off until
cavity temperature is below 150°F
No HIGH speed but
HIGH speed LED is
illuminated on key pad
A. CR3 on relay board should be on, if not check
for 24VDC 10% at pins 5 & 7 at relay board. If
voltage present replace relay board
B. Bad smart board
B. Check for 24VDC 10% at pins 5 & 7 at relay
board. If voltage is not present replace smart
board
No LOW speed but
LOW speed LED is
illuminated on key pad
A. Bad relay board
A. CR4 on relay board should be on, if not check
for 24VDC 10% at pins 5 & 8 at relay board. If
voltage present replace relay board
B. Bad smart board
B. Check for 24VDC 10% at pins 5 & 8 at relay
board. If voltage is not present replace smart
board
Unit will not heat.
DOOR shown in
display
A. Open circuit on upper door switch
A. Unplug unit from supply. With door closed
between NO and COM switch should be open.
B. With door open to 30° angle switch should be
closed
C. With door open all the way switch should be
closed.
Ignition - Lighting
problems
A. Incorrect gas pressure or gas turned
off
A. Check incoming gas pressure
B. Various faults possible
B. Refer to trial and ignition flow chart in Section
Two of this manual
Unit will not turn
ON when button is
pushed, display reads
OFF
A. Loose ribbon connection between
key pad and smart board
A. Check connection
B. Faulty key pad
B. Refer to key pad testing procedure on bulletin
#B-107-2001
No Display
A. No power to smart board
A. Check for 24 VAC between pins 1 and 3 on smart
board. If voltage present check for 24 VAC at pins
1 and 3 at relay board.
B. No power to relay board
B. Check for 24 VAC into relay board and 24 VAC
out of relay board between pins 1 and 3 on relay
board
Part # MCOSM06 Rev 1 (11/03/08)
Page 64
Problem
Possible Cause
Corrective Action
Burners and fan stay
on when door is open
past 30° opening
A. Loose wire from upper door switch
A. Check connections at door switch and relay
board
B. Shorted upper door switch
B. Replace upper door switch
Fan runs for a period of A. Motor has tripped on internal
A. Check for a minimum 6" clearance at rear of the
unit to a wall or heat source
time, shuts down then
comes back on after
several minutes
overload
B. Check air intake vents on back of motor for
obstructions
C. If problem persists and above have been
corrected replace motor assy
Timer slow counting
down
A. Timer is in hours/min
A. Refer to operations manual or bulletin
#B-19-2001 on how to change from hour/min to
min/sec
Temperature out of
calibration
A. 400 series controllers
A. Confirm oven cavity temp with resistance
change. If out more than 20 OHMs replace probe
B. 200 & 300 series controllers
B. Calibration can be performed by repositioning
temperature dial. See Temperature calibration in
manual
C. Potentiometer defective
C. Check for proper 'sweep' on potentiometer 0.0 to
10.25 KOHMS
Part # MCOSM06 Rev 1 (11/03/08)
Page 65
Part # MCOSM06 Rev 1 (11/03/08)
Page 66
Section Six
Service Bulletins
Part # MCOSM06 Rev 1 (11/03/08)
Page 67
Convection Oven Bulletins
Bulletin #
Bulletin Subject
Procedure to Return Parts
Date Issued
Jan 11/2001
Feb 15/2001
May 08/2001
May 28/2001
May 28/2001
May 28/2001
Sep 25/2001
Sep 28/2001
Nov 22/2001
Feb 14/2002
Mar 11/2004
Apr 05/2004
Aug 21/2007
B-02-2001
B-19-2001
B-50-2001
B-59-2001
B-60-2001
B-61-2001
B-107-2001
B-110-2001
B-148-2001
B-18-2002
B-20-2004
B-26-2004
B-73-2007-S
"A" = American
"C" = Canadian
"B" = Both
410, 450, 455 Controllers
Full Size Convection Oven Door Bushings
US Range Control Panel Service Kits
Garland 1/2 Size Control Panel Service Kits
Garland Control Panel Service Kits
Convection Oven Keypad Test Points
Full Size Convection Oven Motor Assy Kits
Convection Oven Keypads
Convection Oven Controller Troulbeshooting
Minual Control Panel Conversion Kits
Convection Oven Thermostats
Rating Plate Motor Return
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Page 1 of 9
BULLETIN # B-18-2002
From: Parts and Service Division
To: All Authorized Service Agencies
Date: February 14, 2002
SUBJECT: Convection Oven Controller Troubleshooting
MODELS AFFECTED: All Garland & US Range convection ovens
Garland / US Range has been receiving a high level of warranty claims for failed controllers,
Part Numbers 1905701 1905702 1905703 1905704 1905705,
&
that are used on our convection ovens. Analysis of the returned controllers proved that greater
than 70% were without any defects.
In order to reduce the percentage of faulty diagnosis, we have formatted the attached
troubleshooting guide that must be used during future service calls where a controller is suspected
of being faulty.
Be sure to follow the key pad testing procedures as outline in Bulletin # B-107-2001 prior to
performing any testing on the rest of the controller circuit so as to eliminate a potential key pad
problem.
If you do not use this guide and your returned controller is found to be functional, then your claim
will be rejected.
Please contact the Garland / US Range Technical Service Department at (800) 427-6668 with any
questions
1-800-427-6668 www.garland-group.com Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
Page 87
Page 2 of 9
Trouble Shooting Guide
PROBLEM
POSSIBLE CAUSE
CORRECTIVE ACTION
Fan will not run
A. No power to unit
A. Turn power on
B. No power to motor from B. Check for voltage from relay board
relay board
to motor
C. Micro switch no closing
A. Loose ribbon
connection between key
pad and smart board
B. Faulty key pad
C. Check micro switches
A. Check that ribbon connection from
key pad is attached to smart board
Button on key pad
not responding
B. Refer to key pad testing procedure
on bulletin # B-107-2001
‘Prob’ in display
A. Probe disconnected
B. Probe has failed
A. Re attach probe
B. Confirm ohm resistance of probe.
Refer to cavity probe chart for
readings
C. Check for continuity between probe
connection at relay board, probe
harness & probe
Unit will not shut off
A. Cavity temperature
A. Normal operation. Unit will not go
to OFF until cavity temperature is
below 150°F
above 150°F
No HIGH speed
BUT HIGH speed
LED is illuminated
on key pad
A. Bad relay board
B. Bad smart board
A. CR3 on relay board should be on, if
not check for 24VDC +/- 10% at
pins 5 & 7 at relay board. If voltage
present replace relay board
B. Check for 24VDC +/- 10%between
pins 5 & 7 at relay board. If voltage
is not present replace smart board
A. CR4 on relay board should be on, if
not check for 24VDC +/- 10% at
pins 5 & 8 at relay board. If voltage
is present replace relay board
B. Check for 24VDC +/- 10% at pins 5
& 8 at relay board. If voltage is not
present replace smart board.
No LOW speed BUT A. Bad relay board
LOW speed LED is
illuminated on key
pad
B. Bad smart board
Unit will not heat.
DOOR shown in
display
A. Open circuit on upper
door switch
A. Unplug unit from supply. With door
closed between NO and COM
switch should be open.
B. With door open to 30° angle switch
should be closed
C. With door open all the way switch
should be closed
Unit will not turn ON A. Loose ribbon
A. Check connection
when button pushed,
display reads OFF
connection between key
pad and smart board
B. Refer to key pad testing procedure
on bulletin # B-107-2001
B. Faulty key pad
Part # MCOSM06 Rev 1 (11/03/08)
Page 88
Page 3 of 9
Corrective Action
Problem
No display
Possible Cause
A. No power to smart
board
A. Check for 24VAC between pins 1
and 3 on smart board. If voltage
present check for 24VAC at pins 1
and 3 at relay board
B. No power to relay board B. Check for 24VAC into relay board
and 24VAC out of relay board
between pins 1 and 3 on relay
board
Fan runs for a period A. motor has tripped on
A. check for a minimum 6” clearance
at rear of unit to a wall or heat
source
B. Check air intake vents on back of
motor for obstructions
of time, shuts down
then comes back on
after several minutes
internal thermal
overload
C. If problem persists and above have
been corrected replace motor assy
A. Refer to operations manual or
bulletin # B-19-2001 on how to
change from hour / min to min /
seconds
Timer slow counting A. Timer is in hours / min
down
Temperature out of
calibration
A. 400 series controllers
A. Confirm oven cavity temp with
resistance chart. If out by more
than 20 Ohms replace probe
B. Calibration can be performed by
repositioning temperature dial.
B. 200 & 300 series
controllers
C. Potentiometer defective C. Check for proper ‘sweep’ on
potentiometer. 0 to 10.25KOHMS
RESISTANCE vs. TEMPERATURE CHART FOR INTERNAL OVEN
TEMPERATURE SENSOR
The chart below will provide the Ohms at various temperatures. This will enable
you to determine if the temperature probe is operable.
The chart is degrees Fahrenheit.
TEMP
0°
0°
932
10°
953
20°
974
30°
995
40°
50°
60°
70°
80°
90°
1016
1226
1432
1634
1832
2027
1038
1247
1452
1654
1852
2046
1059
1267
1472
1674
1871
2065
1080
1288
1493
1694
1981
2085
1101
1309
1513
1714
1911
2104
1122
1329
1533
1733
1930
2123
100°
200°
300°
400°
500°
1143
1350
1553
1753
1949
1163
1370
1574
1773
1969
1184
1391
1594
1793
1988
1205
1411
1614
1813
2008
1-800-427-6668
www.garland-group.com Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
Page 89
Page 4 of 9
Temperature Calibration
200 & 300 Series Controllers ONLY
Both the 200 & 300 series controllers use a 0 to 10.25K OHM potentiometer.
First check the sweep on the potentiometer between the middle wire and one of
the outside wires for a gradual increase or decrease in the resistance as the
potentiometer stem is turned.
GAS Units – Calibration 300 Series
1. Remove the temperature dial from the potentiometer
2. Turn potentiometer to its lowest setting ( fully counter clock-wise )
3. Place the temperature dial back onto the potentiometer
4. Align the mark on the temperature dial to the top left edge of the ‘F’ on the left
of the temperature dial and snug down one of the set screws. Do NOT fully
tighten yet.
5. Set temperature dial to 150°F and allow oven cavity to reach set temperature
6. Confirm temperature inside the oven cavity with your meter and that shown
on the temperature dial
7. If adjustment is required, loosen set screw and position mark on temperature
dial to temperature shown on your meter.
8. Tighten set screw down
9. Repeat as required (once is usually enough)
10.Fully tighten both set screws
GAS Units – Calibration 200 Series
1. Remove the temperature dial from the potentiometer
2. Turn potentiometer to its highest setting ( fully clock-wise )
3. Place the temperature dial back onto the potentiometer
4. Align the mark on the temperature dial ¼” PAST the 500°F marking on the
overlay and snug down one of the set screws. Do NOT fully tighten yet.
5. Set temperature dial to 150°F and allow oven cavity to reach set temperature
6. Confirm temperature inside the oven cavity with your meter and that shown
on the temperature dial
7. If adjustment is required, loosen set screw and position mark on temperature
dial to temperature shown on your meter
8. Tighten set screw down
9. Repeat as required ( once is usually enough )
10.Fully tighten both set screws
1-800-427-6668 www.garland-group.com Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
Page 90
Page 5 of 9
ELECTRIC Units – Calibration 300 Series
1. Remove the temperature dial from the potentiometer
2. Turn potentiometer to its lowest setting ( fully counter clock-wise
3. Place the temperature dial back onto the potentiometer
4. Align the mark on the temperature dial to the top left edge of the “F” on the
left of the temperature dial and snug down one of the set screw s. Do NOT
fully tighten yet.
5. Set temperature to 300°F and allow unit to cycle 3-times
6. Confirm temperature inside the oven cavity with your meter and that on the
temperature dial
7. If adjustment is required, loosen the set -screw and position the mark on the
temperature dial to temperature shown on your meter.
8. Tighten set screw down
9. Repeat as required (once is usually enough)
10.Fully tighten both set screws
ELECTRIC Units – 200 Series
1. Remove the temperature dial from the potentiometer
2. Turn potentiometer to its highest setting ( fully clock wise )
3. Place the temperature dial back onto the potentiometer
4. Align the mark on the temperature dial ¼” PAST the 500°F marking on the
overlay and snug down one of the set screws. Do NOT fully tighten yet.
5. Set temperature to 300°F and allow to cycle 3-times
6. Confirm temperature inside the oven cavity with your meter and that on the
temperature dial
7. If adjustment is required, loosen the set-screw and position the mark on the
temperature dial to temperature shown on your meter
8. Tighten set screw down
9. Repeat as required ( once is usually enough )
10.Fully tighten both set screws
1-800-427-6668
www.garland-group.com Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
Page 91
Page 6 of 9
BULLETIN # B-19-2001
From: Parts and Service Division
Date: February 15, 2001
To: All Authorized Service Agencies
SUBJECT: 410, 450, 455 CONTROLLERS
(USED ON GARLAND AND U.S. RANGE CONVECTION OVENS)
CUSTOMER COMPLAINT: Timer will not count down.
We have had a number of calls on this and a lot of controllers have been replaced thinking that there is
a problem with the controller. In most cases, there is nothing wrong with the controller.
They are programmable with a cooking time of up to 99 hours and 59 minutes which means the timer
will count down by minutes when programmed for more than 1 hour.
The timer will count down by seconds if a cooking time of less than 1 hour has been programmed.
A common operator error is to set a time of 5 hours and 30 minutes (for example) when what they
intended to program was a time of 5 minutes and 30 seconds. In this example, the timer will then count
down in minutes instead of seconds and the complaint will be that the timer will not count down or it
counts down too slowly.
If the operator has programmed a time of more than 1 hour, the colon between the numbers will flash
constantly until it drops below 1 hour, after that the colon will remain solid.
COLON FLASHING – Hours/Minutes
COLON SOLID – Minutes/Seconds
To switch from Hours/Minutes to Minutes/Seconds the encoder knob is turned counter-clockwise until
passing the 1 hour mark.
To switch from Minutes/Seconds to Hours/Minutes, the encoder is turned clockwise until passing the 1
hour mark.
Contact a Technical Service Representative for additional information or instructions.
1-800-427-6668
www.garland-group.com Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
Page 92
Page 7 of 9
BULLETIN B-107-2001
From: Parts and Service Division
To: All Authorized Service Agencies
Date: September 25, 2001
SUBJECT: Convection Oven Keypad Test Points
Models Affected: Garland convection ovens with 300, 410, 450, 455, 470,
475 Controls.
US Range convection ovens with 30, 41, 45, 45+ controls.
There have been a large number of keypads returned as failed to Garland under warranty. A large
number of those returned and tested showed no faults.
The attached test points are a useful service tool to better determine if the problem is with the keypad,
controller, relay board assembly or other.
The attached pages shows the PIN-OUT test points for the keypad used on the above Garland & US
Range convection ovens.
When servicing a unit with reported erratic or non-responsive controls, test the keypad first.
NOTE: Consult operations manual to confirm unit is in normal operations
mode.
I.e. “unit will not turn off”. Unit will not go to OFF mode until oven cavity temperature
drops below 150°F. This is a normal operation of the controller in the auto cool down
mode.
1-800-427-6668
www.garland-group.com
Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
Page 93
Page 8 of 9
Ribbon
Connector
PIN DETAIL
VIEWED FROM FRONT PIN NUMBERS
On Ribbon
Connector
Key
#99
Key
#5
Key
#1
7 6 5 4 3 2 1
Key
#10
Key
#6
Key
#2
KEYPAD & TEST
POINTS VIEWED
FROM FRONT
Key
#11
Key
#7
Key
#3
DISPLAY
Key
#12
Key
#8
Key
#4
Part # MCOSM06 Rev 1 (11/03/08)
Page 94
Page 9 of 9
Pin-Out Test Points
OVERLAY
KEY #
PIN-OUTS
MARKINGS
SET BACK
COOL DOWN
PROGRAM
ACTUAL TEMP
CAVITY LIGHT
FAN LOW
1
2
3
4
5
6
7
8
9
1 & 4
1 & 5
1 & 6
1 & 7
2 & 4
2 & 5
2 & 6
2 & 7
3 & 4
3 & 5
3 & 6
3 & 7
COOK / HOLD
SET
ON / OFF
FAN HIGH
10
11
12
PULSE
START / CANCEL
Between above pin test points on ribbon connector, there should be continuity
when the corresponding key is pressed
EXAMPLE : When KEY # 1 is pressed and held, there should be continuity
between pins 1 & 4 at the ribbon cable.
NOTE: Keypad must be attached to control pannel bezel when tested.
The keypad is grounded to panel to complete circuit. Disconnect the
ribbon connector from the SMART BOARD / CONTROLLER to gain better
access to test points.
Not all overlays will have the above-indicated markings.
1-800-427-6668
www.garland-group.com
Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
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BULLETIN # B-20-2004
From: Parts and Service Division
To: All Authorized Service Agencies
Date: March 11, 2004
PRODUCT: Half-Size Garland Gas Convection Ovens
SUBJECT: Manual Control Panel Conversion Kits
Model Affected: Half-Size Garland Gas convection oven models, MCO-G-5LE and MCO-G-
5RE with 300/400 series electronic control panels.
There are now new field service manual control panel kits available for the Garland gas half-size
convection ovens. These two kits include the complete control panel assembly and will convert an
existing 300/400 series electronic control panel to the 200 series manual control panel.
Please make note of the following part numbers for these two kits.
1. Part number 4512251 designed to convert Garland gas models MCO-G-5LE from 300/400
electronic to 200 series manual controls.
2. Part number 4512253 designed to convert Garland gas models MCO-G-5RE from 300/400
electronic to 200 series manual controls.
If you have any questions, please contact the Garland/ US Range Service Department at 1-800-
427-6668.
1-800-427-6668 www.garland-group.com Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
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Page 1 of 1
BULLETIN # B-26-2004
From: Parts and Service Division
To: All Authorized Service Agencies
Date: April 5, 2004
SUBJECT: Convection Oven Thermostats
Models Affected: Garland ICO & US Range SDG series ovens
We have noticed that the incorrect thermostats are being installed as replacement parts in the
Garland ICO ELECTRIC convection ovens.
Reference Garland bulletin B-66-2002.
The Garland ICO ELECTRIC convection oven requires the use of pn 1032400 thermostat. This
thermostat is rated for 30 AMPS.
The GAS thermostat, pn G02902-01 is rated at 1 AMP. If it is installed in an ELECTRIC
convection oven it will not operate accurately / fail prematurely.
Ensure that the correct thermostat is being installed as a replacement part.
PART NUMBER
USED ON MODELS
GAS MCO,ICO, ECO & SDG series convection ovens
with mechanical thermostats
G02902-01
ELECTRIC MCO, ICO, ECO series convection ovens
with mechanical thermostats
1032400
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BULLETIN # B-73-2007-S
From: Parts and Service Division
To: All Authorized Service Agencies
Date: August 21, 2007
Subject: Rating Plate Motor Return
Model Affected: Garland Convection or Moisture Plus Oven
Effective immediately, when replacing a failed motor for a convection oven or
Moisture Plus oven, it will be necessary for you to return the rating plate label from
the motor along with your warranty claim report and packing slip. If the rating plate
label is not received, credit will not be issued.
Though ServiceBench will treat these parts as mandatory returns, it is no longer
necessary to return the entire motor to the factory; you need only return the rating
plate label from the motor along with the ServiceBench pack list. You can remove
the rating plate label by peeling off the label as shown below. The rating plate label
can be found on the body of the motor. Returns are to be packed and returned
separately from any other component returns.
A:US C:Canada B:Canada/US I:International S: Service P: Parts W: Warranty G: General
1-800-427-6668 www.garland-group.com Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
Page 98
Page 2 of 2
The following part numbers are affected by this bulletin on Garland convection and
Moisture Plus ovens:
Part #
1686711
1686712
1686703
1773802
Description
Motor 3/4 HP, 115V, 2 Speed
Motor 3/4 HP, 208/240V, 2 Speed
Motor 1/2 HP, 115/230V, 1 Speed
Motor 208/240V 2 Speed
1951501
1951502
Motor 110V 1/3HP 2SP 5/8 SHAFT
Motor 208/240 1/3HP 2SP
CK1003090
CK1003091
Ck1003094
CK1003095
CK1003099
CK00-011
4518320
Motor Ass'y - 2 Speed - 115V
Motor Ass'y - 2 Speed - 208/240V
Motor Assembly 2 Speed 208/240
Motor Assembly 2 Speed 115V
Motor Assembly 1 Speed
Motor Kit Tim Hortons
Kit, Motor Assembly - 240V M+
Kit, Motor Assembly - 120V
4518319
1615001
Motor - 3/4 Hp 115/240V 1725rpm CW/CCW
Please contact The Garland/US Range Technical Service Department with any
question.
A:US C:Canada B:Canada/US I:International S: Service P: Parts W: Warranty G: General
1-800-427-6668 www.garland-group.com Fax: 1-800-361-7745
Part # MCOSM06 Rev 1 (11/03/08)
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Section Seven
Wiring Diagrams
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Master Convection Ovens Wiring Diagrams
GAS MODELS HoneyWell Ignition Modules
300 & 400
Controller
(Johnson ignition
Module)
200 Controller
(Honeywell
Ignition Module) Ignition Module) Ignition Module)
300 Controller
(Honeywell
400 Controller
(Honeywell
200 Controller
(Johnson Ignition
Module)
Voltage
120V
1949511-R02 1807833 1807824
1949511-R03
1949501
GAS MODELS Johnson Ignition Modules
200 Controller
300 & 400
Controller
200 Controller
400 Controller
(Johnson Direct
Spark Ignition
Module)
(Johnson Direct
Spark ignition
Module)
Voltage
(Johnson Ignition
Module)
(Johnson ignition
Module)
120V
1949511-R03
1949501
1949511-R07
1949501-R04
ELECTRIC MODELS
Mechanical Mechanical
Robershaw
Robershaw
Electronic
Controller
1 Speed
Electronic
Controller
2 speed
200
Controller
300
Controller
400
Controller
Voltage
208V/240V
460V
Control
1 speed
Control
2 speed
1807804
1807812
1807803
1807811
1807802
1807810
1807801
1807809
1949514
1949515
1807829
1807820
1807830
1807830
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