Honeywell S8610U User Manual

68-0135-2

Universal Intermittent Pilot Module

APPLICATION

The S8610U Universal Replacement Ignition Module is
designed to provide easy field replacement of a wide range of
intermittent pilot ignition modules manufactured by
Honeywell, Robertshaw, Johnson and others. The S8610U
Module provides ignition sequence, flame monitoring, and
safety shutoff for intermittent pilot central furnaces, residential
boilers, and other heating appliances.

S8610U

PRODUCT DATA

FEATURES

•Provides up to 1.0A pilot and 2.0A main valve current
rating.

• System uses rectification principle for flame sensing.

• For use with separate igniter and sensor or
combination igniter-sensor. Q345, Q348, Q362, Q373
or Q381 Igniter-sensor recommended as combination
igniter-sensor; Q179C with igniter and sensor
mounted on one bracket, or Q354 Sensor with Q345,
Q348, Q362, Q373 or Q381 Igniter-sensor
recommended as separate igniter and sensor.

• Q3450/Q3480 Hot Surface Pilot hardware plugs
directly into system control.

• Can be used on natural or LP gas; provides 100
percent shutoff on ignition failure. Waits six minutes
nominal following shutoff, then reinitiates the pilot
ignition sequence. The ignition trial-shutoff-wait cycle
repeats until the pilot lights or the call for heat ends.

• Replaces numerous Honeywell and competitor
modules.

• Capacitive discharge spark output.

•Temperature rating is -40°F to 175°F (-40°C to 79°C)
when used with 1.0A or less main valve; -40°F to 165°F
(-40°C to 74°C) when used with 1.0 to 2.0A main valve.

Contents

Application........................................................................... 1

Features .............................................................................. 1

Specifications ...................................................................... 2

Ordering Information ........................................................... 2

Planning the Installation ...................................................... 4

Installation ........................................................................... 6

Startup and Checkout ......................................................... 15

Maintenance........................................................................ 15

Operation ............................................................................ 16

Troubleshooting .................................................................. 17

ANSI Standards .................................................................. 21

® U.S. Registered Trademark
Copyright © 1996 Honeywell Inc. • All Rights Reserved

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

SPECIFICATIONS

IMPORTANT

The specifications given in this publication do not
include normal manufacturing tolerances. Therefore,
units may not exactly match the listed specifications
Also, units are tested and calibrated under closely
controlled conditions, and some minor differences in
performance can be expected if those conditions are
changed.

SUPER TRADELINE® Models

SUPER TRADELINE® models are selected and packaged for
ease of handling, ease of stocking, and maximum replacement
value. SUPER TRADELINE® model specifications are the
same as those of standard models except as noted.

SUPER TRADELINE® Model Available:

S8610U Universal Intermittent Pilot Module.

Electrical Ratings:

Voltage: 24V, 60 Hz.
Current Draw: 1A pilot valve, 2A main valve.
Valve Contact Rating: 0.2A.

Trial for Ignition:

90 seconds maximum, then 100% shutoff (pilot and main
gas).

Continuous Retry:

Five-minute minimum (six-minute nominal) delay if pilot fails
to light during trial for ignition. After delay, trial for ignition is
repeated. This sequence (trial, delay, trial, delay) continues
until pilot lights or call for heat ends.

Spark Generator Output:

13 kV peak at 25 pF load.

Thermostat Anticipator Setting:

0.2A plus pilot valve rating plus main valve rating.

Relative Humidity Rating:

5 to 90% RH at 95°F.

Flame Failure Response Time:

0.8 sec at 1.0 mA flame current.

Terminals:

SENSE: 3/16 in. male quick connect.
All Other Terminals Including Ignition: 1/4 in. male quick

connects. Molex plug for connection to Honeywell
D80D or D892 Vent Damper.

Flame Current:

1 uA minimum.

Mounting:

Mounts in any position except with terminals up. However,
recommended mounting position is with terminals down to
provide maximum protection from dripping water or dust
accumulation. Fasten with no. 6-32 machine or no. 8
sheetmetal screws of appropriate length. See Fig. 1.

Underwriters Laboratories Inc. Component Recognized:

File no. MH15564, Guide no. MCCZ2.

IAS Design Certified: C2030011.

Other System Components

These modules provide operating control of an intermittent
pilot system. Additional components required to complete the
system must be ordered separately:

• Dual valve combination gas control designed for
intermittent pilot.

• Combination pilot burner/igniter-sensor or separate igniter
and sensor on pilot burner bracket.

• Ignition cable.

•Transformer.

• 24V thermostat.

• High limit and other auxiliary controls, as required.

Ambient Temperature Rating:

-40°F to +175°F (-40°C to +79°C) with main valve rated

1.0A or less.

-40°F to +165°F (-40°C to +74°C) with main valve rated

1.0A to 2.0A.

Dual Valve Combination Gas Control:

Any that meet current ratings listed below. VR8204,

VR8440 or VR8520 are recommended.

S8610U: 1.0A pilot, 2.0A main valve.

Pilot Burner/Igniter-Sensor:

See Table 1.

ORDERING INFORMATION

When purchasing replacement and modernization products from your TRADELINE® wholesaler or distributor, refer to the
TRADELINE® Catalog or price sheets for complete ordering number, or specify:

1. SUPER TRADELINE® order number.

If you have additional questions, need further information, or would like to comment on our products or services, please write or
phone:

1. Your local Home and Building Control Sales Office (check white pages of your phone directory).

2. Home and Building Control Customer Logistics
Honeywell Inc., 1885 Douglas Drive North
Minneapolis, Minnesota 55422-4386

In Canada—Honeywell Limited/Honeywell Limitée, 35 Dynamic Drive, Scarborough, Ontario M1V 4Z9.
International Sales and Service Offices in all principal cities of the world. Manufacturing in Australia, Canada, Finland, France,
Germany, Japan, Mexico, Netherlands, Spain, Taiwan, United Kingdom, U.S.A.

68-0135—2

2

3-3/16

(81)

3-15/16

(100)

3-3/8

(86)

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

3/16

(2)

(5)

2 (51)

2-5/8 (67)

1/4
(6)

Fig. 1. Approximate ignition module dimensions in in. (mm).

Table 1. Pilot Burner/Igniter-Sensors.

Pilot Burner/

Igniter-Sensor

Flow Rate*

cfh m

3

/hr

Combined Q345 0.8 0.02

Q348 1.5 0.04
Q362 0.5 0.014
Q373 0.8 0.02
Q381 0.5 0.014

Separate Q179C 1.8 0.05

Q354 with Q345, Q348, Q362 or Q381.

*With natural gas at 7.0 in. wc (1.7 kPa).

Ignition Cable:

Use Honeywell preassembled cable, see Table 2, or
assemble locally. Use the cable recommended in Table 3 (or
equivalent), insulated female 1/4 in. quick connect and
insulated Rajah connector receptacle. Maximum
recommended length is 36 in. (914 mm).

Table 2. Honeywell Preassembled Ignition Cables

(UL Style 3257).

Cable

Part Module

Number

Length

394800-30 30 in. 1/4 in. quick

End

connect,
insulated

Igniter End

Rajah connector
receptacle, 90
degree rubber
boot

394801-30 30 in. 1/4 in. quick

connect,
insulated

Rajah connector
receptacle, straight
rubber boot

1-1/32

(26)

3-3/8 (86) (2)

5-7/16 (138)

3/16

(5)

(2)

M1123A

Table 3. Recommended Ignition Cable for Field Assembly.

Temperature Rating

°C °F

Cable Type

Voltage

Rating (rms)

UL Style 3217 10,000 150 302
UL Style 3257 10,000 250 484

Transformer:

Add current ratings of module, pilot valve, main valve, vent
damper and any other components of the control system to
determine transformer-size requirement. Use a 30 VA or
larger transformer if a vent damper will be connected to the
S8610U Vent Damper Connector.

Thermostat:

Use open-close switch type, or independently-powered
electronic, 24V thermostat capable of switching rated control
system load. Before using electronic thermostat powered
through the heating/cooling controls, consult thermostat
manufacturer to assure proper control system operation.

High Limit and Other Auxiliary Controls:

As specified by the heating appliance manufacturer.

Ignition Modules Replaced

WARNING

Check Table 4 before replacing an existing intermittent
pilot module with the S8610U. If the existing module is
not listed, do not use the S8610U to replace it unless
you are certain the specifications of the S8610U
match those of the existing module.

3

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

The S8610U replaces existing flame rectification type
intermittent pilot ignition modules with the following
characteristics:

• Single rod (local sense) or two rod (remote sense) flame
sensing.

• Non-100 percent shutoff, 100 percent shutoff/lockout, or
100 percent shutoff/continuous retry.

• Natural or LP gas.

• Shutoff/lockout times of 30 seconds or longer.

• Prepurge times of four seconds or shorter.

• Pilot burners with flow rates of 1500 Btuh or less.

• With or without vent dampers.

A complete list of the specific Honeywell and other modules
that the SUPER TRADELINE® S8610U is designed to
replace is provided in Table 4.

The S8610U SUPER TRADELINE® package contains
complete, easy-to-use instructions, plus the accessories
required to adapt the existing spark cable (Rajah, stud, nail,
or other) to the spark terminal on the S8610U. It also provides
labels to help assure proper marking of the wires attached to
the existing module.

The S8610U SUPER TRADELINE® Universal Module is not
designed to replace controls with the following characteristics:

• Flame sensing other than by flame rectification (White
Rodgers Cycle-Pilot®, Robertshaw thermal sensing).

• Flame rectification modules with shutoff/lockout times of
less than 30 seconds, prepurge times of more than four
seconds, or pilot burners larger than 1500 Btuh.

• Standing pilot appliances.

Honeywell provides additional control packages to
accomplish these replacements. See the Honeywell
Electronic Ignition Service Manual, form 70-6604, or call your
Honeywell wholesaler.

Frequent Cycling

These controls are designed for use on appliances that
typically cycle three to four times an hour only during the
heating season only. In year-round applications with greater
cycling rates, the control can wear out more quickly. Perform
a monthly checkout.

Water Or Steam Cleaning

If a module or gas control gets wet, replace it. If the appliance
is likely to be cleaned with water or steam, protect (cover) the
controls and wiring from water or steam flow. Mount the
controls high enough above the bottom of the cabinet so they
do not get wet during normal cleaning procedures. Use a
NEMA 4 enclosure for the ignition module; see the Electronic
Ignition Service Manual, form 70-6604.

High Humidity or Dripping Water

Dripping water can cause the module to fail. Never install an
appliance where water can drip on the controls.
In addition, high ambient humidity can cause the gas control
to corrode and fail.

If the appliance is in a humid atmosphere, make sure air
circulation around the controls is adequate to prevent
condensation. Also, regularly check out the system. A NEMA
4 enclosure is recommended for the ignition module; see the
Electronic Ignition Service Manual, form 70-6604.

Corrosive Chemicals

Corrosive chemicals can attack the module and gas control,
eventually causing a failure. If chemicals are used for routine
cleaning, make sure they cannot reach the controls. Where
chemicals are suspended in air, as in some industrial or
agricultural applications, use a NEMA 4 enclosure for the
ignition module; see the Electronic Ignition Service Manual,
form 70-6604.

PLANNING THE INSTALLATION

WARNING

FIRE OR EXPLOSION HAZARD
CAN CAUSE PROPERTY DAMAGE, SEVERE
INJURY OR DEATH.
Follow these warnings exactly:

1. Plan the installation as outlined below.

2. Plan for frequent maintenance as described in
the Maintenance section.

When intermittent pilot systems are used on central heating
equipment in barns, greenhouses, and commercial properties
and on heating appliances such as commercial cookers,
agricultural equipment, industrial heating equipment and pool
heaters, heavy demands are made on the controls. Special
steps may be required to prevent nuisance shutdowns and
control failure due to frequent cycling, severe environmental
conditions related to moisture, corrosive chemicals, dust or
excessive heat. These applications require Honeywell Home
and Building Control Engineering review; contact your
Honeywell Sales Representative for assistance.

Review the following conditions that could apply to your
specific installation and take the precautionary steps
suggested.

Dust or Grease Accumulation

Heavy accumulations of dust or grease can cause controls to
malfunction. Where dust or grease can be a problem, provide
covers for the module and the gas control to limit
contamination. A NEMA 4 enclosure is recommended for the
ignition module; see the Electronic Ignition Service Manual,
form 70-6604.

Heat

Excessively high temperatures can damage controls. Make
sure the maximum ambient temperature at the control does
not exceed the rating of the control. If the appliance operates
at very high temperatures, use insulation, shielding, and air
circulation, as necessary, to protect the controls. Proper
insulation or shielding should be provided by the appliance
manufacturer; verify that proper air circulation is maintained
when the appliance is installed.

68-0135—2

4

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

Table 4. S8610U Replaces these Ignition Modules.

CAMSTAT

IPI-24-00

FENWAL

05-203025-005
05-203026-005

HONEYWELL

S86A1001
S86A1019
S86A1027
S86A1035
S86B1009
S86B1017
S86B1025
S86C1007
S86C1015
S86C1031
S86C1049
S86C1056
S86D1005
S86D1021
S86E1002
S86E1010
S86E1028
S86E1036
S86E1044
S86E1051
S86E1069
S86E1077
S86E1101
S86E1119
S86E1127
S86F1000
S86F1018
S86F1026
S86F1042
S86F1059
S86F1067
S86F1075
S86F1083
S86F1091
S86G1008
S86G1016
S86G1032
S86G1057
S86G1073
S86H1006
S86H1022
S86H1048

S86H1089
S86H1097
S86H1105
S86H1121
S86H1147
S90A100
S90B1003
S90B1011
S8600A1001
S8600B1009
S8600C1015
S8600F1000
S8600F1034
S8600F1042
S8600H1006
S8600H1022
S8600H1048
S8600H1055
S8600H1089
S8600H1105
S8600M1005
S8600M1013
S8610A1009
S8610B1007
S8610B1015
S8610C1005
S8610F1008
S8610F1016
S8610F1024
S8610F1032
S8610H1012
S8610H1038
S8610H1046
S8610H1053
S8610H1079
S8610M1003
S8610M1029
S8620H1028

HSC

1003-3
1003-300

PENN­JOHNSON

CSA35A-617R
CSA35A-618R
CSA42A-600R
CSA42A-601R
CSA42A-603R

CSA42A-604R
CSA43A-600R
CSA44A-600R
CSA45A-601R
CSA45A-602R
CSA46A-600R
CSA48A-600R
CSA49A-600R
CSA49A-605R
CSA51A-601R
CSA52A-600R
G60AAA-1
G60AAG-1
G60AAG-3
G60AAG-4
G60AAG-5
G60AAG-6
G60CAA-1
G60CAA-3
G60CAG-1
G60CAG-2
G60CAG-3
G60CAG-4
G60CAG-5
G60CAG-6
G60CAG-7
G60CAG-8
G60CAG-9
G60CBA-1
G60CBA-3
G60CBG-1
G60CBG-10
G60CBG-11
G60CBG-14
G60CBG-16
G60CBG-17
G60CBG-3
G60CBG-4
G60CBG-9
G60CCA-1
G60CCG-1
G60CPG-1
G60DBG-1
G60DCG-1
G60DCG-2
G60PAG-1
G60PAG-2
G60PAG-3
G60PAG-4
G60PAG-5

G60PAG-6
G60PAJ-1
G60PAK-1
G60PAK-2
G60PFH-1
G60PFH-2
G60PFL-1
G60PFQ-1
G60PVL-1
G60QAG-2
G60QAG-3
G60QAK-1
G60QBG-1
G60QBG-2
G60QBG-3
G60QBG-4
G60QBG-5
G60QBG-6
G60QBG-7
G60QBG-8
G60QBG-9
G60QBH-1
G60QBK-1
G60QBK-3
G60QBL-1
G60QBL-2
G60QCG-1
G60QCJ-1
G60QCL-1
G60QDG-1
G60QFL-1
G60QHL-1
G60QJL-1
G60QLG-1
G60QPL-1
G60QRH-1
G60QRL-1
G60QRL-2
G60QRL-3
G60QSL-1
G60QTH-1
G60QTL-1
G60RAG-1
G60RAK-1
G60RBG-1
G60RBG-2
G60RBG-3
G60RBK-1
G60RBK-2

G60RCG-2
G60RCJ-1
G60RDG-1
G60RDK-1
G60RGL-1
G60RHL-1
G60RHP-1
G60RPL-1
G60RSL-1
G60ZAG-1
G65BBG-1
G65BBG-2
G65BBG-3
G65BBG-4
G65BBG-5
G65BBG-6
G65BBG-7
G65BBG-8
G65BBM-1
G65BBM-2
G65BBM-3
G65BBM-4
G65BCG-1
G65BCM-1
G65BFG-1
G65BFM
G65BKG-1
G65BKG-2
G65BKG-3
G65BKM-1
G65BKM-2
G65BKM-3
G65DBG
G65DBM-1
G65DBM-3
G65DCM-1
G65DFG
G65DFM-1
G65DKG
G65DKM
G65FBG
G65FFG
G65FKG
G66AG-1
G66BG-1
G66MG-1
G66NG-1
G67AG-3
G67AG-4

G67AG-7
G67AG-8
G67BG-2
G67BG-3
G67BG-4
G67BG-5
G67MG-1
G67MG-4
G67NG-2
G600AX-1
G600AY-1
G600MX-1
G600NX-1
G600RX-1
G670AW-1
G770MGA-1
G770MGA-2
G770MGC-1
G770MGC-2
G770MGC-3
G770MHA-1
G770NGA-1
G770NGC-4
G770NGC-5
G770NGC-6
G770NGC-7
G770RGA-1
G770RHA-1
G770MHA-2
G770MHC-1
G770NHA-1
G770NHC-1
G770RHA-2

ROBERTSHAW

780-715
780-735
780-737
SP715
SP715A
SP735
SP735D
SP735L
USI 715U

5

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

INSTALLATION

1. Read these instructions carefully. Failure to follow them
could damage the components or cause a hazardous
condition.

2. Check the ratings given in the instructions and on the
components to make sure they are suitable for your
application.

3. Installer must be a trained, experienced service
technician.

4. After installation is complete, check out component
operation as provided in these instructions.

WARNING

FIRE OR EXPLOSION HAZARD CAN CAUSE
PROPERTY DAMAGE, SEVERE INJURY, OR
DEATH.

1. If it gets wet, the ignition module can malfunction,
leading to accumulation of explosive gas.

• Never install where water can flood, drip or

condense on the module.

• Never use a module that has been wet.

Replace it.

2. Liquefied petroleum (LP) gas is heavier than air
and will not vent upward naturally.

• Do not light the pilot or operate electric

switches, lights or appliances until you are
sure the appliance area is free of gas.

3. Do not attempt to disassemble or clean the
module. Improper reassembly and cleaning can
cause unreliable operation.

Mount New Ignition Module

We recommend mounting the S8610U Module in the same
location as the old module, if possible. Otherwise, select a
location close enough to the burner to allow a short (3 ft
(0.9m) maximum) direct cable route to the igniter. Ambient
temperature at the module must be within the range listed in
the Specifications section.

Mount the module with the terminals pointing down to protect
them from dripping water and dust. The module can also be
mounted with the terminals on either side. Do not mount with
terminals pointing up. Refer to Fig. 2 for mounting
recommendations. When it is necessary to drill new mounting
holes, use the S8610U as a template to mark the mounting
hole pattern. Drill new holes as required. Fasten securely with
four no. 6-32 machine or no. 8 sheetmetal screws.

Wire the Module

IMPORTANT

CAUTION

1. Disconnect the power supply before beginning
the wiring to prevent electrical shock or
equipment damage.

2. If a new gas control is to be installed, turn off the
gas supply before starting the installation.
Conduct a Gas Leak Test according to the gas
control manufacturer instructions after the gas
control is installed.

3. If the module must be mounted near moisture or
water, provide a suitable waterproof enclosure.

4. Using the wire labels provided, label all wires
before they are disconnected. Wiring errors can
cause improper appliance operation and
dangerous conditions such as bypassing safety
features.

Perform Preinstallation Safety Inspection

The preinstallation checks described in ANSI Standard
Z21.71 in Exhibit A must be done before the replacement
module is installed. If a condition is detected that could result
in unsafe operation, the appliance should be shut off and the
owner advised of the unsafe condition. Correct any potentially
unsafe condition before proceeding with the installation.

Remove Old Module

Disconnect power supply before doing any work on the unit.
Disconnect and tag the wires from the old module using the
wire labels provided. Remove the old module from its
mounting location.

CAUTION

1. Check the wiring diagram furnished by the
appliance manufacturer, if available, and
compare with Tables 5 through 8. Carefully follow
any special instructions affecting the general
procedures outlined below.

2. Disconnect the power supply before making
wiring connections to prevent electrical shock or
equipment damage.

1. A common ground is required on:
a. The pilot burner mounting bracket, and
b. The GND (BURNER) terminal on the ignition

module. Failure to use the GND (BURNER)
terminal can result in intermittent loss of spark
and/or loss of flame current sensitivity.

2. Make sure the transformer has adequate VA. The
ignition module requires at least 0.2A at 24 Vac. Add
the current draws of all other devices in the control
circuit, including the pilot and main valves in the gas
control, and multiply by 24 to determine the total VA
requirement of these components. Add this total to

4.8 VA (for the ignition module). The result is the
minimum transformer VA rating. Use a Class II
transformer when replacement is required.

3. When a vent damper is connected to the S8610U
vent damper connector, be sure the system
transformer delivers at least 30 VA. The S8610U has
an internal fuse that is intended to prevent appliance
lightoff if the vent damper is not in place or wired
properly. Using a small transformer can interfere with
the proper operation of the fuse and bypass the
intended safety feature.

쐃 Connect the wires to the S8610U Ignition Module as

shown in Tables 5 through 8. Make sure that adequate
system ground is provided as indicated in the wiring
tables.

쐇 Verify the thermostat anticipator setting as explained in

the IMPORTANT above.

68-0135—2

6

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

MOUNT IN ONE OF THESE POSITIONS

TERMINALS FACING DOWN

TERMINALS FACING LEFT TERMINALS FACING RIGHT

NOTE: The wiring diagrams in Fig. 5 through 8 show typical

hookups for the S8610U Ignition Module and should
be used for reference only.

Modify Ignition Cable, If Necessary

Use existing ignition cable if it is in good condition. If the
existing ignition cable does not have a 1/4 in. quick-connect
on the module end, either use the Rajah adapter or strip the
wire and replace with the 1/4 in. insulated quick-connect
supplied. If the cable must be replaced, order a Honeywell
ignition cable, see Table 2. It may be necessary to replace the
connector at the pilot burner end to match the pilot burner
spark termination.

NOTE: When using an S8610U to replace an S86, use the

enclosed adapter to convert the S86 Ignition Cable
to an S8610U Ignition Cable. Then, install the
adapter and cable to the S8610U Ignition Module.

NOTE: The cable must not run in continuous contact with a

metal surface or spark voltage is greatly reduced.
Use ceramic or plastic standoff insulators as
required.

DO NOT MOUNT

WITH TERMINALS FACING UP

M2647

Fig. 2. Module mounting recommendations.

7

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

Replacement

Control Old Control

Terminal Function S8610U1003 S86A,C S86B,D S86E,F,G,H

S8600A,B,C

S8610A,B,C

S90A,B

S8600F,H,M

S8610F,H,M Procedural Notes

Main valve operator MV MV MV MV MV MV

Main valve and pilot

common

MV/PV MV/PV MV/PV MV/PV MV/PV MV/PV

Pilot valve operator PV PV PV PV PV PV

Burner ground

connection

GND

(BURNER)

GND GND GND

(BURNER)

GND

(BURNER)

GND

(BURNER)

Transformer

secondary

(unswitched leg)

24V GND 25V (1) 25V (GND) 25V (1)e 24V GND 24V GND

Transformer

secondary

(switched leg)

24V* 25V (2) 25V 25V (2)

e*

24V* 24V* * Important: If the old module had a vent damper

plug but a vent damper was not installed, or if it

did not have a vent damper plug: leave the vent

damper plug in position on the S8610 and

connect the 25V (2) or 24V wire from the old

module to the TH-W terminal on the S8610U.

Do not use the 24V terminal on the S8610U.

25V (2) or 24V used only in systems where

plug-in cable connects damper to module.

If the old module

had

a vent damper with a plug

connection to a Molex connector, wire the

terminals as indicated in the table.

TH-W TH-R

a

TH-R

a

TH-R

a

TH-W

(This terminal

not included

on S90.)

TH-W

TH-Wb TH-W TH-Wb

Flame sensor SENSE

f

dd d

SENSE

fd

Igniter/sensor SPARK IGN COIL

c

IGN COIL

c

IGN COIL

c

SPARK SPARK

a

If 25V (2) and TH-R have wires connected, disconnect and splice together with solderless connector.

b

If TH-R and TH-W are jumpered together, connect 25V (2) lead from S86 to TH-W on S8610U1003.

c

Use Rajah to quick connector adapter (supplied) or cut Rajah connector off ignition cable at module end; attach insulated quick

connect for connection to S8610.

d

Leave black jumper connected.

e

Terminals may be marked 25V on some models and 24V on later models. These are functionally equivalent.

f

On dual igniter and sensor models, remove jumper quick connect from S8610U1003 Sense terminal, cut jumper wire at circuit board

, and discard.

Table 5. Conversion from Honeywell S86, S90, S8600 and S8610 to S8610U1003.

68-0135—2

8

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

Replacement

Control

Old Control SP715 and SP735 (includes 780-XXX and USI 715U)

c,d

Terminal Function

Honeywell

S8610U1003 7000D Valve 7100D Valve 7100K Valve Procedural Notes

Main valve operator MV MV (to: Valve TH) MV (to: Valve M) MV (to: Valve TR) —

Main valve and pilot common MV/PV MV/PV (to: Valve TR) MV/PV (to: Valve C) PV (to: Valve C and TH) —

Pilot valve operator PV PV (to: Valve PILOT)* PV (to: Valve P) PV (to: Valve PICK & HOLD) *This is the terminal not jumpered

to TR.

Burner ground connection GND (BURNER) GND GND GND —

Transformer secondary 24V GND TR TR TR —

(unswitched leg) 24V No connection No connection No connection —

E3

a

E3

a

E3

a

When supplied, E3 provides

connection to Lockout Timer.

Transfomer secondary

(switched leg)

TH-W TH TH TH If LO-15 is part of the installation,

use the wire disconnected from E1

tagged Thermostat.

Flame sensor

SENSE

b

SENSE

e

SENSE

e

SENSE

e

—

Pilot igniter SPARK IGN IGN IGN —

1. Use existing wiring harness to make connections to S8610 per table. IMPORTANT If installation includes LO-15 Lockout Timer, discard wires to E3 and TH.

Disconnect and retain wire to LO-15 terminal E1. Tag wire,Thermostat. Discard LO-15.

2. On 7000D series valve, retain (or install) white jumper between valve TR and pilot solenoid.

a

If LO-15 Lockout timer is not installed, E3 connector provided on SP715 is not used.

b

Important

If the USI 715U with combination igniter sensor is not used, remove black jumper quick connect from Sense terminal of S8610U100

3. Cut jumper wire at

circuit board and discard.

c

For replacement of Robertshaw Flame Switch systems (SP710, 720, 730, 750, 780-700, 780-701, 780-710, 780-711, 780-712 and 780-713), see Honeywell Ignition

Control Handbook.

d

780-715 and USI 715U are equivalent to SP715; 780-735 and 780-737 are equivalent to SP735. For other 780-XXX models, see note

c

.

e

OPT. SENSOR on USI 715U. No external connection if combination igniter sensor is used.

Table 6. Conversion from Robertshaw SP715 and SP735 to S8610U1003 (includes 780-XXX and US1715U).

9

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

Replacement

Control

Old Control

Honeywell

CSA45A-600R

d

, G60, G65, G66, G67, G600 or

G670 Installation with Lockout Modules as

follows:*

Terminal Function S861U1003 None (Y79) Y79A module

d

Y79B module

c

G770 Procedural Notes

Main valve operator MV 3 3 Y79B MV MV (3)

Main valve and pilot common MV/PV GR GR GR GROUND(5)

Pilot valve operator PV 1 1 Y79B PV PV (1)

Burner ground connection GND

(BURNER)

GR GR GR GROUND

Transformer secondary

(unswitched leg)

24V GND GR GR GR GROUND

Transformer secondary

(switched leg)

TH-W* 2a Y79 THSb 2 TH-S (2)

24V* No connection* No connection* No connection* No connection*

Flame sensor SENSE*

4

e

4

e

4

e

SENSE (4)

e

Pilot igniter SPARK IGN COIL IGN COIL IGN COIL IGN COIL It might be necessary to cut off Rajah

connector and/or attach insulated quick

connect.

a

Discard wire between transformer and terminal 5 (G60) or 6 (G600); otherwise, use existing harness for wiring.

b

Discard wires between Y79A and module as follows: Red to 3, Black to 2, White to GR. Discard wire between transformer and 6.

c

Discard wires between Y79B and module as follows: White to 3, Black to 1, Brown to GR. Discard wire between transformer and 6.

d

CSA code numbers (for example, CSA45A-600R) are equivalent to G600 and use the same wiring information tables.

e Important

Remove black jumper quick connect from Sense terminal of S8610U1003; cut jumper wire at circuit board and discard.

*IF INSTALLATION DOES NOT INCLUDE VENT DAMPER WITH PLUG CONNECTION TO MODULE:

1. Leave vent damper plug on S8610U Module in position.

2. Use TH-W terminal.

*IF INSTALLATION INCLUDES VENT DAMPER WITH PLUG CONNECTION TO MODULE:

1. Replace S8610U Module vent damper plug with damper Molex connector.

2. Wire thermostat W wire to TH-W.

3. Run wire from switched leg of transformer secondary to both thermostat R and S8610 Module 24V terminals.

Table 7. Conversion from Penn-Johnson CSA (All), G60, G66, G67, G600, G670 or G770 to S8610U1003.

68-0135—2

10

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

Replacement

Control Old Control

Terminal Function

Honeywell

S8610U1003

CAMSTAT

IPI-24-00

a

FENWAL

05-20X

b

HSC 1003-3 and

1003-300

a

Procedural Notes

Main valve operator MV MV MAIN VALVE MV —

Main valve and pilot common MV/PV GND GROUND GND/COM Fenwal only: run separate lead to S8610 valve

common terminal.

Pilot valve operator PV PV PILOT VALVE PV —

Burner ground connection GND (BURNER) GND — — To assure good ground, run separate wire from

pilot burner to S8610 GND (BURNER).

Transformer secondary

(unswitched leg)

24V GND T2 GROUND GND/COM —

24V No connection No connection No connection —

Transformer secondary

(switched leg)

TH-W T1 POWER 24 VAC —

Flame sensor SENSE S

c

— SENSOR

c

—

Pilot igniter SPARK IGN H.V. IGN COIL Strip module end of ignition cable as necessary

and attach insulated quick connect for connection

to S8610.

a

Use existing wiring harness to make connections to S8610.

b

Tag all wires at module connector with terminal designations. Cut wires at connector, attach quick connects and connect to S861

0; per table.

c

Important

Remove black jumper quick connect from Sense terminal of S8610U1003; cut jumper wire at circuit board and discard.

Table 8. Conversion from CAMSTAT, FENWAL or HSC to S8610U1003.

11

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

GND

MV

MV/PV

PV

(BURNER)

24V
GND

S8610U

24V

TH-W

5

VENT
DAMPER
PLUG

SENSE

SPARK

PILOT

1ST
OPERATOR

DUAL VALVE COMBINATION
GAS CONTROL

COM

2ND
OPERATOR

IGNITER

POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.

1

ALTERNATE LIMIT CONTROLLER LOCATION.

2

MAXIMUM CABLE LENGTH 3 ft (0.9m).

3

CONTROLS IN 24V CIRCUIT MUST NOT BE GROUND LEG TO TRANSFORMER.

4

REMOVE PLUG ONLY IF USING VENT DAMPER. FUSE BLOWS ON STARTUP WHEN PLUG IS

5

REMOVED AND VENT DAMPER WIRING HARNESS IS INSTALLED; THEN MODULE OPERATES
ONLY WHEN VENT DAMPER IS CONNECTED.

REMOVE JUMPER AND CONNECT SENSE TERMINAL ON TWO ROD APPLICATION ONLY.

6

IF THE VENT DAMPER IS CONNECTED, WIRE 24V TERMINAL, AS SHOWN. CONNECT VENT

7

DAMPER CABLE IN PLACE OF PLUG SHIPPED WITH THE S8610U. IF NO VENT DAMPER IS
CONNECTED, DO NOT WIRE 24V TERMINAL.

30 VA MINIMUM WHEN VENT DAMPER IS CONNECTED TO DAMPER PLUG.

8

MAIN
VALVE

SENSOR

PILOT GAS
SUPPLY

GROUND

7

THERMOSTAT

4

2

LIMIT
CONTROLLER

8

WIRING
HARNESS

D892 VENT
DAMPER

1

L1
(HOT)

L2

6

3

M2641D

Fig. 3. S8610U in heating system with atmospheric burner.

68-0135—2

12

MV

MV/PV

PV

GND
(BURNER)

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

S8610U

5

24V
GND

24V

TH-W

VENT
DAMPER
PLUG

SENSE

SPARK

PILOT

1ST
OPERATOR

DUAL VALVE COMBINATION
GAS CONTROL

1

2

3

4

5

6

COM

2ND
OPERATOR

IGNITER

POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.

ALTERNATE LIMIT CONTROLLER LOCATION.

MAXIMUM CABLE LENGTH 3 ft (0.9m).

CONTROLS IN 24V CIRCUIT MUST NOT BE GROUND LEG TO TRANSFORMER.

LEAVE VENT DAMPER PLUG CONNECTED.

REMOVE JUMPER AND CONNECT SENSE TERMINAL ON TWO ROD APPLICATION ONLY.

MAIN
VALVE

PILOT GAS
SUPPLY

SENSOR

PILOT
BURNER
GROUND

1

L1
(HOT)

AIR
PROVING
SWITCH

COMBUSTION
AIR BLOWER
RELAY

L2

COMBUSTION
AIR BLOWER
MOTOR

CONTROLLER

L1

L2

1

(HOT)

Fig. 4. S8610U in heating system with power-assisted combustion.

6

THERMOSTAT

2

4

LIMIT
CONTROLLER

3

M2642B

13

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

COMPRESSOR
AND OUTDOOR
FAN NETWORK

STARTING
CAP

CIRCULATING
FAN

LO

ML
MH
HI

UNUSED
MOTOR LEDS

M3

L2

L1

C

M1

M2

H

C

H

O

E

O

A

L

T

ST9120
ELECTRONIC
FAN TIMER

FUSE

12345

2

34

1

COMBUSTION
BLOWER

CR

L2 (N)

L1 (N)

TO 120 OR
240 VAC
POWER
SUPPLY

C

C

X

X

MV

120 OR
240 VAC

TRANSFORMER

24 VAC

Y

MV/PV

GND
(BURNER)

PV

PV

MV/PV

MVC

COMBINATION
GAS CONTROL

S8610U

24V
GND

24V

TH-W

VENT
DAMPER
PLUG

Q345, Q348,
Q362, Q381
PILOT BURNER/
IGNITER-SENSOR

PILOT GAS
SUPPLY

SENSE

1

PILOT
BURNER
GROUND

SPARK

THERMOSTAT

GW

Y

ROLLOUT
FUSE

5-WIRE
CABLE

COMPRESSOR
CONTACTOR

G

WC

R

Y

R

= STANDARD TERMINAL

1

REMOVE JUMPER AND CONNECT SENSE TERMINAL
ON TWO ROD APPLICATION ONLY.

LIMIT

COM.

PRESSURE
SWITCH

N.O.

= OPTIONAL TERMINAL

AUXILIARY
LIMIT

M2644B

Fig. 5. S8610U in a typical ST9120 application.

68-0135—2

14

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

STARTUP AND CHECKOUT

Check out the gas control system:

• At initial appliance installation.

• As part of regular maintenance procedures.

• At maintenance intervals determined by the application.

• As the first step in troubleshooting.

• Any time work is done on the system.

Maintenance frequency must be determined individually for
each application. See Maintenance section.

WARNING

FIRE OR EXPLOSION HAZARD
CAN CAUSE PROPERTY DAMAGE, SEVERE
INJURY, OR DEATH.

1. If you smell gas or suspect a gas leak, turn off the
gas at the manual service valve and evacuate the
building. Do not try to light any appliance; do not
touch any electrical switch or telephone in the
building until you are sure no spilled gas remains.

2. Gas leak test must be done as described in steps
1 and 6 below on initial installation and anytime
work is done involving the gas piping.

Step 1: Perform visual inspection.

a. With power off, make sure all wiring connections are

clean and tight.
b. Turn on the power to the appliance.
c. Open the manual shutoff valves in the gas line to the

appliance.
d. Test for gas leak before gas control if piping has been

disturbed.

Gas Leak Test:

Paint the gas control gasket edges and all pipe connections
downstream of the gas control, including pilot tubing
connections, with a rich soap and water solution. Bubbles
indicate gas leaks. Tighten the joints and screws or replace
the component to stop the gas leak. Recheck with soap and
water solution.

Step 2: Verify control system ground.

The igniter, flame sensor, and ignition module must share a
common ground with the main burner. Use thermoplastic
insulated wire with a minimum rating of 105°C (221°F) for the
ground wire; asbestos insulation is not acceptable. If the
temperature at the wire could exceed 105°C (221°F), use a
shield to protect the wire from radiant heat generated by the
burner. Connect the ground wire as follows:
a. Fit one end of the ground wire with a female 1/4 in.

quick-connect terminal and connect it to the male quick-

connect GND (BURNER) terminal on the ignition module.
b. Strip the other end of the wire and fasten it under the

igniter bracket mounting screw. If necessary, use a shield

to protect the ground wire from radiant heat.
c. The burner serves as the common grounding area. If

there is not good metal-to-metal contact between the

burner and ground, run a lead from the burner to ground.

NOTE: Earth ground is not required.

Step 3: Review normal operating sequence and module
specifications.

a. See Operation and Specifications sections.

Step 4: Reset the module.

a. Turn the thermostat to its lowest setting.
b. Wait one minute.

As you do Steps 5 and 6, watch for points where operation
deviates from normal. Refer to Troubleshooting Guide, Fig. 8,
to correct the problem.

Step 5: Check safety shutoff operation.

a. Turn off the gas supply.
b. Set thermostat or controller above the room temperature

to call for heat.
c. Watch for spark at pilot burner.
d. Time spark from start to shutoff. Spark should shut off

after 90 seconds maximum. Ignition sequence repeats

after five minutes minimum.
e. Open the manual gas control knob and make sure no

gas is flowing to the pilot or main burner.
f. Set the thermostat below the room temperature and wait

one minute before continuing.

Step 6: Check normal operation.

a. Set the thermostat or controller above the room

temperature to call for heat.
b. Make sure the pilot lights smoothly when the gas

reaches the pilot burner.
c. Make sure the main burner lights smoothly without

flashback.
d. Make sure the burner operates smoothly without floating,

lifting, or flame rollout to the furnace vestibule or heat

buildup in the vestibule.
e. If the gas line was disturbed, complete the gas leak test.

Gas Leak Test:

Paint the gas control gasket edges and all the pipe
connections downstream of the gas control, including pilot
tubing connections, with a rich soap and water solution.
Bubbles indicate gas leaks. Tighten the joints and screws or
replace the component to stop the gas leak. Recheck with
soap and water solution.

f. Turn the thermostat or controller below the room

temperature. Make sure the main burner and pilot flames

go out.

MAINTENANCE

WARNING

FIRE OR EXPLOSION HAZARD CAN CAUSE
PROPERTY DAMAGE, SEVERE INJURY, OR
DEATH.
Do not attempt to take the module apart or to clean it.
Improper assembly and cleaning can cause unreliable
operation.

15

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

Regular preventive maintenance is important in commercial
cooking, agricultural and industrial industries applications that
place a heavy load on system controls, because:

• In many such applications, particularly commercial
cooking, the equipment operates 100,000 to 200,000
cycles per year. Such heavy cycling can wear out the gas
control in one to two years.

• Exposure to water, dirt, chemicals and heat can damage
the gas control and shut down the control system. A
NEMA 4 enclosure can reduce exposure to environmental
contaminants. See Electronic Ignition Service Manual,
form 70-6604.

The maintenance program should include regular system
checkout as outlined in the Startup and Checkout section,
and control system checkout as described in appliance
manufacturer literature.

Maintenance frequency must be determined individually for
each application. Some considerations are:

• Cycling frequency. Appliances that can cycle 20,000 times
annually should be checked monthly.

• Intermittent use. Appliances that are used seasonally
should be checked before shutdown and again before the
next use.

쐃

START

THERMOSTAT (CONTROLLER)
CALL FOR HEAT

• Consequence of unexpected shutdown. Where the cost of
an unexpected shutdown would be high, the system
should be checked more often.

• Dusty, wet, or corrosive environment. Because these
environments can cause the gas control to deteriorate
more rapidly, the system should be checked more often.

Any control should be replaced if it does not perform properly
on checkout or troubleshooting. In addition, replace any
module if it is wet or looks like it has ever been wet.
Protective enclosures as described in the Planning the
Installation section are recommended, regardless of checkout
frequency.

OPERATION

Module operation can be conveniently divided into two
phases for the S8610:

•Trial for ignition.

• Main burner operation.

Fig. 6 summarizes the normal operating sequence of the
module.

STAGE 1

TRIAL FOR

IGNITION

STAGE 2

MAIN BURNER

OPERATION

END

쐇

SPARK GENERATOR POWERED
First valve (pilot) operator opens

쐋

Pilot burner lights.
Module senses
flame current.

쐏

FLAME CURRENT SENSED

• Spark generator off.

• Second valve operator
(main) opens.

쐄

MAIN BURNER OPERATION
Module monitors pilot
flame current.

쐂

THERMOSTAT (CONTROLLER)
SATISFIED

Valves close, pilot and main
burners are off.

PILOT BURNER OPERATION

After 90 seconds maximum, system shuts off; trial for

OR

ignition restarts after minimum of 5 minutes (6 minutes
nominal). Ignition, shutoff, wait sequence repeats until
pilot lights or call for heat ends.

POWER INTERRUPTION
System shuts off, restarts when power
is restored.

PILOT FLAME FAILURE
Main valve closes.

Module starts trial for ignition.

Fig. 6. S8610U normal operating sequence.

M2640A

68-0135—2

16

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

TROUBLESHOOTING

IMPORTANT

1. The following service procedures are provided as a
general guide. Follow appliance manufacturer
service instructions if available.

2. Meter readings between gas control and ignition
module must be taken within the trial for ignition
period. Once the ignition module shuts off, wait for
retry or reset at the thermostat.

3. If any component does not function properly, make
sure it is correctly installed and wired before
replacing it.

4. The ignition module cannot be repaired. If it
malfunctions, replace it.

5. Only trained, experienced service technicians should
service intermittent pilot systems.

6. After servicing, verify proper system operation.

Perform the checkout steps in the Startup and Checkout
section as the first step in troubleshooting. Then check the
appropriate troubleshooting guide (Fig. 8) and the schematic
diagram (Fig. 9) to determine the cause of the problem. If
troubleshooting indicates an ignition problem, see Ignition
System Checks section to isolate and correct the problem.

After troubleshooting, perform the checkout procedures again
to be sure the system is operating normally.

Ignition System Checks

Step 1: Check ignition cable.

Make sure:
a. Ignition cable does not run in contact with any metal

surfaces.
b. Ignition cable is no more than 36 in. (0.9m) long.
c. Connections to the ignition module and to the igniter or

igniter-sensor are clean and tight.
d. Ignition cable provides good electrical continuity.

Step 2: Check ignition system grounding. Nuisance shutdowns are
often caused by a poor or erratic ground.

a. A common ground, usually supplied by the pilot burner

bracket, is required for the module and the pilot burner/

igniter-sensor.

• Check for good metal-to-metal contact between the
pilot burner bracket and the main burner.

• Check the ground lead from the GND (BURNER)
terminal on the module to the pilot burner. Make sure
connections are clean and tight. If the wire is
damaged or deteriorated, replace it with No. 14
through 18 gauge, moisture-resistant, thermoplastic
insulated wire with 105°C (221°F) minimum rating.
— Check the ceramic flame rod insulator for cracks

or evidence of exposure to extreme heat, which
can permit leakage to ground. Replace pilot
burner/igniter-sensor and provide a shield, if
necessary.

— If flame rod or bracket are bent out of position,

restore to the correct position.

Step 3: Check spark ignition circuit. You will need a short jumper wire
made from ignition cable or other heavily insulated wire.

a. Close the manual gas valve.
b. Disconnect the ignition cable at the SPARK terminal on

c. Energize the module and immediately touch one end of

d. Pull the jumper slowly away from the terminal and note

No arc or arc less
than 1/8 in. (3 mm).

Arc 1/8 in. (3 mm) or
longer.

STEP 4: Check pilot and main burner lightoff.

a. Set the thermostat to call for heat.
b. Watch the pilot burner during the ignition sequence to be

c. If so, verify adequate flame current as follows:

the module.

WARNING

ELECTROCUTION HAZARD, CAN CAUSE
SERIOUS INJURY OR DEATH.
When performing the following steps, do not touch
stripped end of jumper or SPARK terminal. The
ignition circuit generates over 10,000 volts and
electrical shock can result.

the jumper firmly to the GND terminal on the module.
Move the free end of the jumper slowly toward the
SPARK terminal until a spark is established.

the length of the gap; when sparking stops, refer to the
table as follows:

Arc Length Action

Check external fuse, if provided.
Verify power at module input
terminal. Replace module if fuse
and power are okay.

Voltage output is okay.

sure:

• Ignition spark continues after the pilot is lit.

• The pilot lights and the spark stops, but the main
burner does not light.

• The pilot lights, the spark stops and the main burner
lights, but the system shuts down.

•Turn off the furnace at the circuit breaker or fuse box.

• Clean the flame rod with an emery cloth.

• Make sure the electrical connections are clean and
tight. Replace the damaged wire with moisture­resistant No. 18 wire rated for continuous duty up to
105°C (221° F).

• Check for a cracked ceramic insulator, which can
cause short to ground, and replace igniter-sensor or
sensor, if necessary.

• At the gas control, disconnect the main valve wire
from the TH or MV terminal.

•Turn on the power and set the thermostat to call for
heat. The pilot should light but the main burner
remains off because the main valve actuator is
disconnected.

• Check the pilot flame. Make sure it is blue, steady,
and envelops 3/8 to 1/2 in. (10 to 13 mm) of the flame
rod. See Fig. 7 for possible flame problems and the
causes.

17

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

• If necessary, adjust the pilot flame by turning the pilot
adjustment screw on the gas control clockwise to
decrease or counterclockwise to increase the pilot
flame. Following adjustment, always replace the pilot
adjustment cover screw and tighten firmly to assure
proper gas control operation.

• Set the thermostat below the room temperature to end
the call for heat.

d. Recheck ignition sequence as follows:

• Reconnect the main valve wire.

• Set the thermostat to call for heat.

•Watch the ignition sequence at the burner.

• If spark still does not stop after pilot lights, replace the
ignition module.

• If the main burner does not light or if the main burner
lights but system locks out, check module, ground
wire, and gas control, as described in the
Troubleshooting Guide, Fig. 8.

APPEARANCE

SMALL BLUE FLAME

LAZY YELLOW FLAME

WAVING BLUE FLAME

NOISY LIFTING BLOWING FLAME

CAUSE

CHECK FOR LACK OF GAS FROM:

• CLOGGED ORIFICE FILTER

• CLOGGED PILOT FILTER

• LOW GAS SUPPLY PRESSURE

• PILOT ADJUSTMENT AT MINIMUM

CHECK FOR LACK OF AIR FROM:

• DIRTY ORIFICE

• DIRTY LINT SCREEN, IF USED

• DIRTY PRIMARY AIR OPENING,
IF THERE IS ONE

• PILOT ADJUSTMENT AT MINIMUM

CHECK FOR:

• EXCESSIVE DRAFT AT PILOT
LOCATION

• RECIRCULATING PRODUCTS
OF COMBUSTION

CHECK FOR:

• HIGH GAS PRESSURE

HARD SHARP FLAME

THIS FLAME IS CHARACTERISTIC
OF MANUFACTURED GAS

CHECK FOR:

• HIGH GAS PRESSURE

• ORIFICE TOO SMALL

M2233A

Fig. 7. Examples of unsatisfactory pilot flames.

68-0135—2

18

START

TURN OFF GAS SUPPLY.
TURN THERMOSTAT
(CONTROLLER) TO CALL
FOR HEAT.

POWER TO MODULE.
(24V NOMINAL)

CHECK AT TH-W TERMINAL,
AND ALSO AT 24V TERMINAL
IF A VENT DAMPER IS
CONNECTED TO THE
DAMPER CONNECTOR.

YES

SPARK ACROSS
IGNITER/SENSOR GAP?

YES

NO

NO

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

NOTE: Before troubleshooting, familiarize yourself with the startup and checkout procedure.

Check line voltage power, low voltage transformer, limit controller, thermostat (controller) and wiring. Also,
check air proving switch on combustion air blower system (if used) and verify that vent damper (if used) is open
and end switch is made.

Pull ignition lead and
check spark at module.

Spark okay?

YES

•

Check ignition cable, ground wiring, ceramic insulator and gap, and correct.

•

Check boot of the ignition cable for signs of melting or buckling. Replace cable and take protective action
to shield cable and boot from excessive temperatures.

NO

•

On models with vent damper plug, make sure vent damper
was not installed, then removed. Replace vent damper,
if necessary.

•

On other models, replace module.

TURN ON GAS SUPPLY.

PILOT BURNER LIGHTS?

YES

SPARK STOPS WHEN
PILOT IS LIT?

YES

MAIN BURNER LIGHTS?

YES

SYSTEM RUNS UNTIL
CALL FOR HEAT ENDS?

YES

CALL FOR HEAT ENDS.

SYSTEM SHUTS OFF?

YES

NO

NO

NO

NO

NO

•

Check that all manual gas valves are open, supply tubing and pressures are good, and pilot burner orifice
is not blocked.

•

Check electrical connections between module and pilot operator on gas control.

•

Check for 24 Vac across PV-MV/PV terminals on module. If voltage is okay, replace gas control; if not,
replace module

•

Check continuity of ignition cable and ground wire.

•

Clean flame rod.

•

Check electrical connections between flame rod and module.

•

Check for cracked ceramic flame rod insulator.

•

Check that pilot flame covers flame rod and is steady and blue.

•

Adjust pilot flame.

•

If problem persists, replace module.

•

Check for 24 Vac across MV-MV/PV terminals. If no voltage, replace module.

•

Check electrical connections between module and gas control. If okay, replace gas control or gas
control operator.

•

Check continuity of ignition cable and ground wire.
NOTE: If ground is poor or erratic, shutdowns can occur occasionally even though operation is normal
at the time of checkout.

•

Check temperature at igniter-sensor insulator. High temperatures can cause a short.

•

Check that pilot flame covers flame rod and is steady and blue.

•

If checks are okay, replace module.

•

Check for proper thermostat (controller) operation.

•

Remove MV lead at module; if valve closes, recheck temperature controller and wiring; if not, replace
gas control.

TROUBLESHOOTING
ENDS.

Repeat procedure until troublefree operation is obtained.

Fig. 8. S8610U Troubleshooting Guide.

19

M2643B

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

L1
(HOT)

THERMOSTAT

TH-W

3

FUSE

1

1

VENT
DAMPER
PLUG

1

2

3

4

5

62

5

3

62

5

3

YELLOW

POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.

ALTERNATE LIMIT CONTROLLER LOCATION.

3 AMP NONREPLACEABLE FUSE. FUSE BLOWS WHEN VENT DAMPER IS PLUGGED IN AND POWER IS APPLIED.

SEPARATE SENSOR IS USED ON TWO-ROD SYSTEMS ONLY. DISCONNECT BLACK JUMPER WIRE FROM SENSE
TERMINAL, CUT AT CIRCUIT BOARD AND DISCARD.

SINGLE ROD SYSTEM HAS IGNITER–SENSOR.

2

4

4

24V

ON-OFF
SWITCH

LOW
VOLTAGE
POWER
SUPPLY

1K1

2K2 3K1

LIMIT
CONTROLLER

1K

2K

3K

1K2

2

FLAME
DETECTOR
CIRCUIT

RELAY
DRIVERS

3K2

24V
TRANSFORMER

2K1

SPARK
DRIVE
CIRCUIT

HYBRID CIRCUITS

TIMING
CIRCUITS

Fig. 9. Schematic for S8610U.

ARC
GAP

SENSE

SPARK

L2

1

SENSOR

4

IGNITER

5

MV

PV

INTERNAL WIRING
EXTERNAL WIRING

BURNER
GROUND

MAIN
VALVE

PILOT
VALVE

M2646B

GND

(BUR-

NER)

24V

(GND)

MV/
PV

68-0135—2

20

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

ANSI STANDARDS

Exhibit A

Recommended Procedure For Safety Inspection Of An Existing Appliance Installation As A

Preliminary Step To Applying An Automatic Intermittent Pilot System

The following procedure is intended as a guide to aid in
determining that an appliance is properly installed and is in a
safe condition for continuing use.

This procedure is predicated on central furnace and boiler
installations equipped with an atmospheric gas burner(s) and
not of the direct vent type. It should be recognized that
generalized test procedures cannot anticipate all situations.
Accordingly, in some cases, deviation from this procedure
may be necessary to determine safe operation of the
equipment.
a. This procedure should be performed prior to any attempt

at modification of the appliance or the installation.

b. If it is determined there is a condition which could result

in unsafe operation, the appliance should be shut off and
the owner advised of the unsafe condition.

The following steps should be followed in making the safety
inspection:

쐃 Conduct a Gas Leakage Test of the appliance piping

and control system downstream of the shutoff valve in
the supply line to the appliance.

쐇 Visually inspect the venting system for proper size and

horizontal pitch and determine there is no blockage or
restrictions, leakage or corrosion or other deficiencies
that could cause an unsafe condition.

쐋 Shut off all gas to the appliance and shut off any other

fuel-burning appliance within the same room. Use the
shutoff valve in the shutoff valve in the supply line to
each appliance.

쐏 Inspect burners and crossovers for blockage and

corrosion.

쐄 Applicable only to warm air heating appliances. Inspect

heat exchangers for cracks, openings or excessive
corrosion.

쐂 Applicable only to boilers. Inspect for evidence of water

or combustion product leaks.

쐆 Insofar as is practical, close all building doors and

windows and all doors between the space in which the
appliance is located and other spaces of the building.
Tu rn on clothes dryers. Turn on any exhaust fans, such
as range hoods and bathroom exhausts, so they will
operate at maximum speed. Do not operate a summer
exhaust fan. Close fireplace dampers. If, after
completing steps 7 through 12, it is believed sufficient
combustion air is not available, refer to 1.3.4 of the
National Fuel Gas Code (Z223.1) for guidance.

쐊 Place in operation the appliance being inspected.

Follow the lighting instructions. Adjust thermostat so
appliance will operate continuously.

쐎 a. Determine that the pilot is burning properly and

that main burner ignition is satisfactory by
interrupting and re-establishing the electrical
supply to the appliance in any convenient manner.

쐅 Determine manifold pressure in order to match input

after the new control is installed.

쐈 a. Visually determine that main burner gas is burning

properly; i.e., no floating, lifting or flashback. Adjust
the primary air shutter(s) as required.

b. If appliance is equipped with high and low flame

control or flame modulation, check for proper main
burner operation at low flame.

쐉 Test for spillage at the draft hood relief opening after

five minutes of main burner operation. Use a draft
gauge, the flame of a match or candle, or smoke from a
cigarette, cigar or pipe.

씈 Return doors, windows, exhaust fans, fireplace

dampers and all other fuel-burning appliances to their
previous conditions of use.

씉 Applicable only to warm air heating appliances. Check

both limit controller and fan controller for proper
operation. Limit controller operation can be checked by
temporarily disconnecting the electrical supply to the
blower motor and determining that the limit control acts
to shut off the main burner gas.

씊 Applicable only to boilers:

a. Determine that the circulating water pumps are in

operating condition.

b. Test low water cutoffs, automatic feed controls,

pressure and temperature limit controls and relief
valves in accordance with the manufacturer’s re­commendations and instructions to determine they
are in operating condition.

Exhibit A Of ANSI Standard Z21.71 for Automatic Intermittent Pilot Ignition Systems for Field Installation.

21

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

Exhibit B

Procedure for Installing Automatic Intermittent Pilot Systems

Prior to beginning this procedure, a preliminary examination
of the appliance and the automatic intermittent pilot system
should be made to determine that the automatic intermittent
pilot system can be properly applied to the appliance.

This procedure is intended as a guide to aid in safely
installing a listed automatic intermittent pilot system on an
existing listed appliance equipped with an atmospheric gas
burner(s) and not of the direct vent type.

This procedure is based on the assumption that the history of
the specific installation has been one of safe and satisfactory
operation.

This procedure is predicated on central furnace and boiler
installations, and it should be recognized that generalized
procedures cannot anticipate all situations. Accordingly, in
some cases, deviation from this procedure may be necessary
to determine safe operation of the equipment.

The following steps should be followed in making the
modifications:

쐃 Perform a safety inspection of the existing appliance

installation. See Exhibit A for a recommended
procedure for such a safety inspection.

쐇 Shut off all gas and electricity to the appliance. To shut

off gas, use the shutoff valve in the supply line to the
appliance. Do not use the shut-off valve which is
provided as part of a combination control.

쐋 Install the automatic intermittent pilot system in strict

accordance with the manufacturer’s installation
instructions.

쐏 Tu rn on all gas and electricity to the appliance.
쐄 Determine that the appliance transformer has adequate

capacity by following the steps outlined below:

a. Compute the approximate current draw by adding

the current draw of the automatic intermit-tent
pilot system to (1) the current draw of the
associated valving, and (2) the current draw of
any relays or other devices operated by the
transformer.

b. Multiply the total current draw as computed

above by 24V to determine the total volt-ampere
(VA) required.

c. The total VA required should be equal to or less

than the VA rating of the transformer.

d. If the total VA required is greater than the VA

rating of the transformer, the transformer must be
replaced with a Class 2 transformer of adequate
rating.

쐂 Check the heat anticipator in the comfort thermostat to

determine if it is properly adjusted to the current draw of
the control system. Follow the thermostat
manufacturer’s instructions.

쐆 Make certain wiring connections are tight and wires are

positioned and secured so they will not be able to
contact high temperature locations.

쐊 Conduct a Gas Leakage Test of the appliance piping

and control system downstream of the shutoff valve in
the supply line to the appliance.

쐎 a. Adjust the thermostat to its highest temperature

setting, and test manifold pressure and adjust the
pressure regulator to match original input as
required (refer to Exhibit A, step 9b).

b. Visually determine that main burner is burning

properly; i.e., no floating, lifting or flashback. Adjust
the primary air shutter(s) as required.

쐅 If the appliance is equipped with high and low flame

control or flame modulation, check for proper main
burner operation at both high and low flame.

쐈 Determine that the pilot is igniting and burning properly

and that main burner ignition is satisfactory by
interrupting and reestablishing the electrical supply to
the appliance in any convenient manner. Make this
determination with the appliance burner both cold and
hot. Perform this step as many times as is necessary to
satisfy yourself that the automatic intermittent pilot
system is operating properly.

쐉 Test the pilot safety device (1) to determine if it is

operating properly, and (2) for turndown characteristics
according to the manufacturer’s installation instructions.
No adjustments should be made other than those
recommended by the system manufacturer.

씈 Sequence the appliance through at least three

operating cycles.

씉 Applicable only to furnaces. Check both the limit

controller and the fan controller for proper operation.
Limit control operation can be checked by blocking the
circulating air inlet or temporarily disconnecting the
electrical supply to the blower motor and determining
that the limit controller acts to shut off the main burner
gas.

씊 Applicable only to boilers:

a. Determine that the circulating water pumps are in

operating condition.

b. Test low water cutoffs, automatic feed water

controls, pressure and temperature limit
controllers and relief valves in accordance with
the manufacturer’s recommendation to determine
they are in operating condition.

씋 Add the labels (see 1.6.1-n and -o) on the appliance.

EXHIBIT B OF ANSI STANDARD Z21.71 FOR AUTOMATIC INTERMITTENT PILOT IGNITION SYSTEMS FOR
FIELD INSTALLATION.

68-0135—2

22

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

23

68-0135—2

S8610U UNIVERSAL INTERMITTENT PILOT MODULE

Home and Building Control

Honeywell Inc.
Honeywell Plaza
P.O. Box 524
Minneapolis MN 55408-0524

Home and Building Control

Honeywell Limited-Honeywell Limitée
155 Gordon Baker Road
North York, Ontario
M2H 2C9

Honeywell Asia Pacific Inc.

Room 3213-3225
Sun Hung Kai Centre
No. 30 Harbour Road
Wanchai
Hong Kong

Honeywell Latin American Division

Miami Lakes Headquarters
14505 Commerce Way Suite 500

Honeywell Europe S.A.

3 Avenue du Bourget
B-1140 Brussels Belgium

Miami Lakes FL 33016

Helping You Control Your World

68-0135—2 J.S. Rev. 8-96 Printed in U.S.A. customer.honeywell.com

68-0135—2

Printed on recycled paper containing at
least 10% post-consumer paper fibers.

24