Condensing High Efficiency Gas-Solar Water Heater

SGS
Condensing High Efficiency
Gas-Solar Water Heater
0311183
3015 - Changes Reserved.
SGS - 28/30/50/60/80/100/120
Installation, User and Service
Manual
Innovation has a name.
your installer
A.O. Smith UK, Unit B8 Amstrong Mall,
Southwood Business Park, Farnborough, Hampshire GU14 0NR
www.aosmith.co.uk
“A.O. Smith Water Heaters” is a trading name of Advance Services (Sales) Ltd. Reg.
Errata
The amendments below apply to:
 the preparation of the electrical connection of the solar heating control (3.12.1 "Preparation");
 finishing maintenance (15.6 "Finalizing maintenance");
 the electrical diagram of the solar heating control (17.4 "Electrical diagram solar heating system").
These instructions supersede the previous instructions of the solar heating control.
3.12.1
Preparation
Remove the cover (snap-on type) from the terminal block of the solar heating control.
This has the following terminals:
0311615 R0.0
15.6 Finalizing
maintenance
To finalize the maintenance, carry out the following steps:
1. Fill the water heater (5 "Filling").
2. Start the water heater (9 "Starting the water heater").
3. Check the CO2 value (3.12.3 "CO2 adjustment").
4. Check the switching pressure of the pressure switch. (3.12.4 "Switching pressure
measurement")
5. Erase the message SERVICE REQUIRED. The displayed message can be reset in
either of two ways:
 Temporary reset: To postpone the message, press RESET once. The message
will reappear on the display 7 days later.
 2.Full reset: To fully reset the message, press and hold both RESET and ENTER
at the same time for 5 sec.
On completion of the full reset of the message, the message below will appear on the
display. This message will NOT be shown after a temporary rest of the message.
E1
17.3 Electrical diagram
solar heating
system
Electrical diagram
0309687b R2.0
1 = brown, 2 = blue, 3 = yellow / green, 4 = black, 5 = white, 6 = grey / beige, 7 = green, 8 = yellow
E2
TERMINAL BLOCK CONNECTIONS
N
L
L3
PWM+
PWM-
Earth
Neutral
Live input of the controller
Live input for the solar heating system modulating pump
PWM+ stuursignaal t.b.v. aansturing pomp zonnesysteem
PWM- stuursignaal t.b.v. aansturing pomp zonnesysteem
COMPONENTS
AA
BB [VAC]
BB [PWM]
CC
DD
EE
GG
Controller
Solar heating system pump (modulating) (230 VAC)
Solar heating system pump (modulating) (PWM-signal)
Temperature sensor (S1 - solar collector)
Temperature sensor (S2 - tank)
Combined Q/T sensor
(incl. temperature sensor S4 - solar collector return)
Communication between the water heater controller and the solar
Heating system controller (BUS-link)
Temperature sensor (S3 - top of storage tank)
K
Double-pole isolator
FF
CONTROLLER CONNECTIONS
J12
J13
J14
J16
J18
Connection of combined Q/T sensor (1-2-3-4)
Connection of temperature sensor S1 (2-4)
Connection of temperature sensor S2 (2-4) and temperature sensor S3
(1-3)
Connection of BUS-link communication
Connection of PWM-signal solar heating system pump
F2
Fuse (T 3.15A - 250 V)
E3
gis
Read this manual carefully
Warning
Read this manual carefully before starting the water heater. Failure to read
the manual and to follow the printed instructions may lead to personal injury and
damage to the water heater.
Copyright © 2013 A.O.Smith Water Products Company
All rights reserved.
Nothing from this publication may be copied, reproduced and/or published by
means of printing, photocopying or by whatsoever means, without the prior
written approval of A.O.Smith Water Products Company.
A.O.Smith Water Products Company reserves the right to modify specifications
stated in this manual.
Trademarks
Any brand names mentioned in this manual are registered trademarks of their
respective owners.
Liability
A.O.Smith Water Products Company accepts no liability for claims from third
parties arising from unauthorised use, use other than that stated in this manual,
and use other than in accordance with the General Conditions registered at the
Chamber of Commerce.
Refer further to the General Conditions. These are available on request, free of
charge.
Although considerable care has been taken to ensure a correct and suitably
comprehensive description of all relevant components, the manual may
nonetheless contain errors and inaccuracies.
Should you detect any errors or inaccuracies in the manual, we would be
grateful if you would inform us. This helps us to further improve our
documentation.
More information
If you have any comments or queries concerning specific aspects related to the
water heater, then please do not hesitate to contact:
A.O.Smith Water Products Company
PO Box 70
5500 AB Veldhoven
The Netherlands
Telephone:
(free) 0870-AOSMITH
0870-2676484
General:
+31 40 294 25 00
Fax:
+31 40 294 25 39
E-mail:
info@aosmith.nl
Website:
www.aosmith.co.uk
In the event of problems with your gas, electricity or water supply connections,
please contact the supplier/installation engineer of your installation.
Instruction manual SGS
3
gis
4
Instruction manual SGS
gis
Contents
1
Introduction - - - - - - - - - - - - - - - - - - - - - - - - - - - 9
1.1
1.2
1.3
1.4
1.5
1.6
1.7
2
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-9
-9
-9
10
11
11
12
Working principle of the water heater - - - - - - - - - - - - - 13
2.1
2.2
2.3
2.4
2.5
2.6
2.7
3
Introduction - - - - - - - - - - - - - - - - General working principle of the water heater Water heater operating cycle - - - - - - - - Protection for the water heater - - - - - - - Safety of the installation - - - - - - - - - - Protection for the solar heating system - - - Safety of the solar heating system - - - - - -
-
-
-
-
-
-
-
-
-
-
-
-
-
-
13
13
15
16
17
18
19
Installation - - - - - - - - - - - - - - - - - - - - - - - - - - - 21
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
3.10
3.11
3.12
3.13
4
Introduction - - - - - - - - - - - - - - - - - - - - - - - - - - - - Packaging - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Ambient conditions- - - - - - - - - - - - - - - - - - - - - - - - - Technical specifications - - - - - - - - - - - - - - - - - - - - - - Installation diagram - - - - - - - - - - - - - - - - - - - - - - - - Unvented water connections - - - - - - - - - - - - - - - - - - - - Vented water connections - - - - - - - - - - - - - - - - - - - - - Gas connection - - - - - - - - - - - - - - - - - - - - - - - - - - Solar heating system- - - - - - - - - - - - - - - - - - - - - - - - Air supply and chimney flue discharge - - - - - - - - - - - - - - - Electrically connecting the water heater- - - - - - - - - - - - - - - Electrical connection of the solar heating system - - - - - - - - - - Check the supply pressure, gas control valve pressure, CO2 value and
switching pressure - - - - - - - - - - - - - - - - - - - - - - - - - -
-
-
21
21
21
23
29
30
30
31
32
32
38
42
- - 45
Conversion to a different gas category - - - - - - - - - - - - 53
4.1
Introduction - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 53
5.1
5.2
5.3
Filling unvented installations - - - - - - - - - - - - - - - - - - - - - - - 55
Filling vented installations - - - - - - - - - - - - - - - - - - - - - - - - 56
Filling solar heating system- - - - - - - - - - - - - - - - - - - - - - - - 56
6.1
6.2
6.3
Draining unvented installations - - - - - - - - - - - - - - - - - - - - - - 59
Draining vented installations - - - - - - - - - - - - - - - - - - - - - - - 60
Draining solar heating system - - - - - - - - - - - - - - - - - - - - - - 60
5
Filling - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 55
6
Instruction manual SGS
About the water heater - - What to do if you smell gasRegulations - - - - - - - Target groups - - - - - - Maintenance - - - - - - - Notation conventions- - - Overview of this document -
Draining - - - - - - - - - - - - - - - - - - - - - - - - - - - - 59
5
Contents
7
The control panel - - - - - - - - - - - - - - - - - - - - - - - - 63
7.1
7.2
7.3
7.4
7.5
7.6
8
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
- 63
- 63
- 63
- 63
- 63
- 64
Status of the water heater - - - - - - - - - - - - - - - - - - - 65
8.1
8.2
8.3
8.4
8.5
8.6
8.7
9
Introduction - - - - - - - - - Operating modes - - - - - - Error conditions - - - - - - - Service condition - - - - - - Anode warning - - - - - - - Q/T Sensor warning - - - - - Collector temperature warning-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
- 65
- 65
- 66
- 67
- 67
- 67
- 67
Starting the water heater - - - - - - - - - - - - - - - - - - - - 69
9.1
9.2
9.3
10
Introduction - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 69
Starting the appliance - - - - - - - - - - - - - - - - - - - - - - - - - - - 69
The appliance's heating cycle - - - - - - - - - - - - - - - - - - - - - - - 69
Shutting down - - - - - - - - - - - - - - - - - - - - - - - - - 71
10.1
10.2
10.3
10.4
11
Introduction - - - - - - - - - - - - - - - - - - - - Decommissioning the water heater for a short periodIsolating the water heater from the mains - - - - - Decommissioning the water heater for a long period -
-
-
-
-
-
-
-
-
-
-
- 71
- 71
- 71
- 71
Main menu - - - - - - - - - - - - - - - - - - - - - - - - - - - 73
11.1
11.2
11.3
11.4
11.5
11.6
11.7
11.8
11.9
11.10
11.11
12
Introduction - - - - - - - - - - - - - - - - - - Notation convention for menu-related instructions
Switching to "ON mode" - - - - - - - - - - - - Setting the water temperature - - - - - - - - - Week program - - - - - - - - - - - - - - - - Starting and stopping the week program - - - - Changing the appliance's standard week program
Adding times to a week program- - - - - - - - Deleting times from a week program- - - - - - Extra period- - - - - - - - - - - - - - - - - - Settings- - - - - - - - - - - - - - - - - - - - -
-
-
-
-
-
-
-
-
-
-
-
-
- 73
- 73
- 73
- 73
- 74
- 74
- 74
- 76
- 77
- 78
- 79
Service program - - - - - - - - - - - - - - - - - - - - - - - - 81
12.1
12.2
12.3
12.4
12.5
12.6
12.7
12.8
12.9
12.10
6
Introduction - - - - - - - - Control - - - - - - - - - - Explanation of icons- - - - ON/OFF switch on controller
Navigation buttons - - - - PC connection - - - - - - -
Introduction - - - - - - - - - - - - - - Setting the hysteresis - - - - - - - - - Displaying the error history - - - - - - Displaying the water heater history - - Display the selected water heater - - - Setting the service interval - - - - - - Service mode - - - - - - - - - - - - - Setting legionella prevention- - - - - - Solar heating system configuration - - Setting the central heating configuration -
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
- 81
- 81
- 81
- 81
- 82
- 82
- 82
- 83
- 83
- 84
Instruction manual SGS
13
Errors- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 85
13.1
13.2
13.3
13.4
14
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
85
86
89
98
Service interval - - - - - - - - - - - - - - - - - - - - - - - - - 99
14.1
14.2
15
Introduction - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 99
Determining service interval - - - - - - - - - - - - - - - - - - - - - - - 99
Performing maintenance - - - - - - - - - - - - - - - - - - - - 101
15.1
15.2
15.3
15.4
15.5
15.6
16
Introduction - - - - - - - Preparation for maintenance
Water-side maintenance - Gas-side maintenance - - Solar collector maintenance
Finalizing maintenance- - -
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
- 101
- 101
- 102
- 103
- 104
- 104
Warranty (certificate) - - - - - - - - - - - - - - - - - - - - - - 105
16.1
16.2
16.3
16.4
16.5
16.6
16.7
17
General warranty - - - - - - - Tank warranty - - - - - - - - - Conditions for Installation and use
Exclusions - - - - - - - - - - - Scope of the warranty - - - - - Claims - - - - - - - - - - - - - Obligations of A.O.Smith - - - - -
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
- 105
- 105
- 105
- 106
- 106
- 106
- 106
Appendices- - - - - - - - - - - - - - - - - - - - - - - - - - - 107
17.1
17.2
17.3
17.4
17.5
17.6
Instruction manual SGS
Introduction - - - - - - - - - - - - - - Troubleshooting table for general errors Troubleshooting table for displayed errors
Warnings on the display - - - - - - - - -
Introduction - - - - - - - - - - - - - Menu structure- - - - - - - - - - - - Electrical diagram for the appliance- - Electrical diagram, solar heating system
Declaration of conformity - - - - - - - Week program card - - - - - - - - - -
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
- 107
- 108
- 110
- 112
- 114
- 115
7
Contents
8
Instruction manual SGS
gis
1
1.1
About the water
heater
Introduction
This manual describes how to install, service and use the SGS water heater.
The SGS water heater is a condensing boiler with a fan in the air intake. The
water heater is typically supplied with a storage tank fitted with a heat
exchanger connected to a solar energy source, but can also operate standalone.
The SGS can be installed as either an open or room-sealed water heater. A
concentric chimney connector is fitted standard to the water heater, but a
parallel system can also be connected.
The possible installation types are B23, C13, C33, C43, C53 and C63.
The information in this manual applies to types: SGS 28, SGS 30, SGS 50,
SGS 60, SGS 80, SGS 100 and SGS 120.
0063
1.2
What to do if you
smell gas
The water heater has been manufactured and equipped in accordance with the
European standard for gas-fired storage water heaters for the production of
domestic hot water (EN 89). The water heaters are therefore compliant with the
European Directive for Gas water heaters, and and are entitled to bear the CE
mark.
Warning
Read this manual carefully before starting the water heater for the first time.
Failure to read the manual and to follow the printed instructions may lead to
personal injury and damage to the water heater.
Warning
If you smell gas:
No naked flames! No smoking!
Avoid causing sparks! Do not use any electrical equipment or switch, i.e. no
telephones, plugs or bells!
Open windows and doors!
Shut off the mains gas supply valve!
Warn occupants and leave the building!
After leaving the building, alert the gas distribution company or your installation
engineer.
1.3
Regulations
Gas Safety (installations and Use) Regulations 1998 (as amended). It is law
that all gas appliances are installed by competent persons, in accordance with
the above regulations. Failure to install appliances correctly could lead to
prosecution. It is in your own interest and that of safety, to ensure that this law
is complied with.
The installation of the water heater MUST be in accordance with the relevant
requirements of the Gas Safety Regulations, Building Regulations, IEE
Regulations and the Water Supply (water fittings) Regulations.
Instruction manual SGS
9
1
Introduction
gis
The installation should also be in accordance with any relevant requirements of
the HSE, local gas region and local authority and the relevant recommendations
of the following documents:
British and European Standards
•
BS 6891:
Installation of low pressure gas pipework of up to 35 mm (R1¼) in domestic
premises (2nd family gas) - Specification. Note: for lager installations see
IGE/UP/2 below.
•
BS 6798:
Specification for installation and maintenance of gas-fired boilers of rated
input not exceeding 70 kW net.
•
BS 6644:
Specification for installation of gas-fired hot water boilers of rated inputs
between 70 kW (net) and 1.8 MW (net) (2nd and 3rd family gases).
•
BS 6700:
Design, installation, testing and maintenance of services supplying water for
domestic use within buildings and their cartilages - Specifications
•
BS EN 806-2:
Specification for installations inside buildings conveying water for human
consumption. Part 2: Design.
•
BS 5546:
Specification for installation of hot water supplies for domestic purposes,
using gas-fired appliances of rated input not exceeding 70 kW.
•
BS 5440:
Flueing and ventilation for gas appliances of rated input not exceeding 70
kW net (1st, 2nd and 3rd family gases).
Part 1: Specification for installation of gas appliances to chimneys and for
maintenance of chimneys.
Part 2: Specification for installation and maintenance of ventilation for gas
appliances.
Institute of Gas Engineers and Managers (IGEM) Publications
•
IGE/UP/1:
Soundness testing and purging of industrial and commercial gas
installations.
•
IGE/UP/1A:
Soundness testing and direct purging of small low pressure industrial and
commercial natural gas installations.
•
IGE/UP/2:
Gas installation pipework, boosters and compressors on industrial and
commercial premises.
•
IGE/UP/10:
Installation of flued gas appliances in industrial and commercial premises.
CIBSE Publications
•
1.4
10
Target groups
Guide G: Public Health Engineering.
The three target groups for this manual are:
•
(end) users;
•
installation engineers;
•
service and maintenance engineers.
Instruction manual SGS
gis
Symbols on each page indicate the target groups for whom the information is
intended. See the table.
Target group symbols
Symbol
Target Group
(End) user
Installation engineer
Service and maintenance engineer
Caution
This water heater is not intended for use by persons with reduced physical,
sensory or mental capacities, or who lack the necessary experience or
knowledge, unless the person responsible for their safety is supervising them or
has explained to them how the water heater should be used.
Caution
This water heater is not intended to be used by children. Always supervise
children, and ensure that they do not play with the water heater.
1.5
Maintenance
A service should be carried out at least once a year, both on the water side and
on the gas side. Among other things, the service interval depends on the water
quality, the average burning time per day and the set water temperature.
Note
To determine the correct service interval, it is recommended to arrange for
the service and maintenance engineer to check the water heater on both the
water and gas side within three months following installation. Based on this
check, the best service interval can be determined.
Note
Regular maintenance extends the service life of the water heater.
Both the end user and the service and maintenance engineer are responsible
for regular maintenance. They will need to establish clear agreements on this.
Note
If the water heater is not regularly serviced, the warranty will become void.
1.6
Notation
conventions
The following notation is used in this manual:
Note
Important information.
Caution
Ignoring this information can lead to the water heater being damaged.
Warning
Failure to carefully read this information may lead to danger of personal
injury, and serious damage to the water heater.
Instruction manual SGS
11
1
1.7
gis
Introduction
Overview of this
document
Chapter
Target groups
Description
Working principle of the water
heater
This chapter describes the working principle of the water
heater.
Installation
This chapter describes the installation activities to be
carried out before final commissioning.
Conversion to a different gas
category
This chapter describes the activities required to convert
the water heater to a different gas category.
Filling
This chapter describes how to fill the water heater.
Draining
This chapter describes how to drain the water heater.
The control panel
This chapter describes the general control of the water
heater using the display.
Status of the water heater
This chapter describes the status (mode or condition) that
the water heater may have, and possible actions to take.
Starting the water heater
This chapter describes how to start the water heater. The
general operating cycle of the water heater is also
described.
Shutting down
This chapter describes how to decommission the water
heater for a brief or long period of time.
Main menu
This chapter describes the main menu of the display. This
is the actual menu for the user. However, the installation
engineer and service and maintenance engineers will also
need to use this menu.
Service program
This chapter describes the service menu. It is mainly
intended for the installation engineer and service and
maintenance engineers. End users may also refer to this
chapter for additional information about the water heater.
Errors
This chapter is mainly intended for the installation
engineer and the service and maintenance engineer. It
describes water heater errors. These errors are reported
on the display. A troubleshooting table of possible causes
and solutions is provided. End users may also refer to this
chapter for additional information about the water heater.
Service interval
This chapter describes how to determine the optimum
service interval (frequency of regular maintenance). Both
the end user and the service and maintenance engineer
are responsible for regular maintenance. They need to
reach clear agreement on this.
Note
If the water heater is not regularly serviced, the
warranty will become void.
Performing maintenance
This chapter sets out the maintenance tasks to be carried
out.
Warranty (certificate)
This chapter states the warranty terms and conditions.
12
Instruction manual SGS
gis
2
2.1
2.2
Introduction
General working
principle of the water
heater
Working principle of
the water heater
This chapter covers the following topics:
•
General working principle of the water heater;
•
Water heater operating cycle;
•
Protection for the water heater;
•
Safety of the installation;
•
Protection for the solar heating system;
•
Safety of the solar heating system.
In this water heater, the cold water enters the bottom of the tank through the cold
water inlet (14).
Once the water heater and the storage reservoir are completely filled with water,
they are both constantly under mains water pressure. When hot water is drawn
from the water heater, it is immediately replenished with hot water from the
storage tank, which in turn is replenished with cold water. The water in the
storage tank is heated by a heat exchanger which is connected to the solar
heating system.
The water heater is fitted with a modulating premix burner system with 1:1 gasto-air ratio regulation. The air required for combustion is delivered by the fan
(18). The gas is supplied via the gas control valve (16) and the venturi (30) on
the intake side of the fan. The 1:1 gas-to-air ratio always guarantees the most
efficient gas/air mixture.
The heated tap water leaves the tank through the hot water outlet (2).
The special design of the heat exchanger (11) ensures that the flue gases are
first led downwards via the combustion chamber, then upwards via the heat
exchanger, and downwards again alongside the water in the tank. The flue
gases gradually become cooler in the process. Because the cooled flue gases
flow alongside the cold water lower down in the tank, they start to condense.
This condensation causes latent heat energy to be transferred to the cooler
water, thereby increasing the performance of the unit. The condensate yielded
by this process is discharged via the condens trap (23).
Heat losses are prevented by the insulating layer (24) in both the storage tank
and the water heater itself. Both are enamel-coated on the inside to protect
against corrosion. The anodes (9) provide extra protection against corrosion.
Both are fitted with an inspection and cleaning opening (12) for maintenance
purposes.
Instruction manual SGS
13
14
Cut-away view of the water heater
Instruction manual SGS
Legend
Unused numbers are not applicable
1.
cover
2.
hot water outlet
3.
electrical connector block
4.
controller
5.
pressure switch
6.
control panel
7.
temperature sensor T1
8.
combustion chamber
9.
anode
10. tank
11.
heat exchanger
12. inspection and cleaning
opening
13. temperature sensor T2
14. cold water inlet
15. drain valve
16. gas control valve
17. burner
18. fan
19. air supply hose
20. hot surface igniter
21. flame probe
22. chimney pipe
23. condens trap
24. insulation layer
28. potentiostat
29. base
30. venturi
58. flue gas test point
59. pressure-reducing valve
SGS 28, 30, 50, 60
SGS 80, 100, 120
gis
2.3
Water heater
operating cycle
The water temperature (T 1) at the top of the water heater is used to control
when the gas burner is started and stopped. The temperature changes in the
water heater are used for switching the solar heating system on and off (using
T1 and S2). T1 is the curve shown in the figure. The controller uses two
measured values to calculate this temperature: T1 (7) and T2 (13). In addition,
temperatures S1, S2 and S2 are used by the solar heating system controller. S1
is measured in the solar collector. S2 is located between the inlet and outlet of
the heat exchanger of the storage tank. S3 is measured at the top of the storage
tank.
Depending on whether or not hot water is being drawn off, hot water can be
pumped from the storage tank to the water heater. This happens if S3 is 5oC
higher than Ttop (T1). Water is then pumped from the water heater to the storage
tank, causing hot water to flow from the storage tank into the water heater. The
pump switches off as soon as S3 is equal to T1.
The other settings that govern the control behaviour are:
Instruction manual SGS
•
Tset
Tset is the the required water temperature that has been set on the
appliance (11.4.1 "Setting the water temperature via the SET POINT
MENU"). As soon as T1 falls below Tset, the solar heating system starts
heating the water, but only if the temperature of the heating fluid (S1) is
greater than the temperature measured at the appliance (sensor S2) by a
given (adjustable) amount. When T1 = Tset = Tsolar limit, heating by the solar
heating system stops. There is one exception to this rule, which is when
Tsolar limit is set to a higher value than Tset.
•
Hysteresis
The moment that T1 falls below (Tset - Tsolar diff - hysteresis), the controller
registers such a heat demand that the gas burner and the solar heating
system jointly heat the water. The solar heating system is only employed
when the temperature measured by S1 is a certain (adjustable) value grater
than that of S2.
•
Tsolar diff
When Tnet exceeds (Tset - Tsolar diff), the gas burner is shut off and the water
is heated by the solar heating system alone. When T1 rises above Tset
(provided that Tset = Tsolar limit), the solar heating system is switched off. The
value of Tsolar diff is adjustable (12.9.4 "Setting the solar difference").
•
Tsolar limit
Preset (12.9.3 "Setting the solar limit") water temperature at which heating
via the solar heating system is stopped.
15
2
Working principle of the water heater
gis
Graphical representation of operating cycle
Legend
A = Gas burner on
B = Gas burner off
T1:
•
= No heat demand, so water
is not heated
•
= Water heated via solar
heating system
•
= Water heated via solar
heating system and gas burner
t = time
T = Temperature
45 o C = Minimum tap water
temperature
Tsolar limit
Tset
Solar diff.
Hys.
Tmin = 45
C
Note
T1can rise above Tset. However, this is only possible if Tsolar limit is increased
via the service menu.
2.4
Protection for the
water heater
2.4.1
Introduction
The controller monitors the water temperature, helps ensure the safe use of the
solar heating system, and ensures safe combustion. This takes place using:
2.4.2
•
the Appliance water temperature protection
•
the Storage tank water temperature protection
•
the Gas control valve
•
the Fan
•
the Pressure switch
•
the Flame probe
Appliance water temperature protection
The controller uses temperature sensors T1 and T2 to monitor several
temperatures that are important for safety.
The table explains the functioning of these temperature sensors.
Temperature protection
Safety
Description
Anti-frost:
- T1 < 5°C
- T2 < 5°C
The frost protection cuts in. The water is heated to 20°C.
At the maximum water
temperature:
- T1 > 88°C
- T2 > 88°C
The high-limit safeguard serves to prevent overheating and/or excessive
formation of scale in the appliance. If the high-limit safeguard is activated,
heating is stopped. This causes the water in the tank to cool down. Once the
water has cooled sufficiently (T1 < 81°C), the controller resets the appliance.
For extra safety:
- T1 > 93°C
- T2 > 93°C
A lockout error of the water heater controller takes place. The controller must
be manually reset before the appliance can resume operation (8.3 "Error
conditions"). The reset may only be performed if T1 < 81°C.
16
Instruction manual SGS
gis
2.4.3
Storage tank water temperature protection
Using temperature sensors S2 and S3, the solar heating system controller
monitors several temperatures in the storage tank that are related to safety.
Temperature protection
Protection
Description
Against frost:
- S2, S3 < 5°C
The frost protection cuts in. The water is heated to 20°C.
Against overheating of water:
- S2, S3 > 85°C
The high-limit safeguard serves to prevent overheating and/or excessive
formation of scale in the storage tank. If the high-limit safeguard is activated,
the heating is stopped. This causes the water in the storage tank to cool down.
Once the water has cooled sufficiently (S3 < 78°C), the controller resets the
water heater.
2.4.4
Gas control valve
The controller opens the gas control valve so that gas can be supplied to the
burner. As a safety measure, the gas control valve has two valves. Both valves
shut off the gas supply.
2.4.5
Fan
The fan (18) provides an optimum air supply when there is a heat demand. As
a safety feature, the fan ensures that any gases present in the combustion
chamber are removed, both before and after combustion. We refer to this as
pre- and post-purge.
The fan speed is continuously monitored by the controller (4). The controller
takes control if the fan rpm varies too much from the value set.
2.4.6
Pressure switch
The pressure switch only guarantees the supply of air during pre-purging of the
water heater. If the pressure difference during pre-purging is sufficient, the
pressure switch closes. The table (3.4.2 "General and electrical specifications")
shows the trip point for each water heater.
Note
The trip point of the pressure switch is not adjustable.
2.4.7
Flame probe
To ensure that no gas can flow when there is no combustion, the water heater
is fitted with a flame probe (21). The controller uses this probe to detect the
presence of a flame, by means of ionisation detection. The controller closes the
gas control valve the instant it detects that there is a gas flow but no flame.
2.5
Safety of the
installation
Excessive pressure in the tank can damage the enamelled layer (in the water
heater) or the tank itself. An inlet combination and pressure-reducing valve
prevents this. The inlet combination acts as a stop valve, non-return valve and
overflow valve. If the water mains pressure is too high (3.4.2 "General and
electrical specifications"), a pressure-reducing valve must be used. Both
components must be fitted in the cold water inlet (3.7 "Vented water
connections").
The use of an expansion vessel, expansion valve and/or pressure reducing
valve depends on the type of installation: unvented or vented.
Instruction manual SGS
17
2
Working principle of the water heater
2.5.1
gis
Unvented installation
With an unvented installation, an expansion valve and expansion vessel prevent
the buildup of excessive pressure in the tank. This prevents damage being
caused to the enamel coating (in the water heater) or to the tank. A non-return
valve prevents excessive pressure build-up in the water supply system. This
valve also prevents water from flowing backwards from the tank into the cold
water supply system. The pressure-reducing valve protects the water heater
against excess mains water pressure (3.4.2 "General and electrical
specifications"). These components are installed in the cold water
inlet (3.7 "Vented water connections").
2.5.2
Vented installation
With a vented installation, excess pressure is taken up by the open cold water
head tank. The level of the cold water head tank determines the maximum
working pressure (3.4.2 "General and electrical specifications") in the tank. The
water heater must also be fitted with a vent pipe from the hot water pipe, which
opens into the cold water head tank.
Ideally, the vent pipe should discharge into a separate discharge channel/drain
or otherwise to the open cold water head tank. The water heater should also be
fitted with a stop valve (3.6.2 "Hot water side") on the hot water side.
2.5.3
T&P valve
A T&P (Temperature and Pressure Relief) valve monitors the pressure in the
tank and the water temperature at the top of the tank. If the pressure in the tank
becomes too high or the water temperature becomes too hot, the valve will
open. The hot water can now flow out of the tank. Because the water heater and
storage tank are under water supply pressure, cold water will automatically flow
into the tank. The valve remains open until the unsafe situation has been
rectified. The water heater and storage tank are fitted standard with a
connection for a T&P valve (3.6.2 "Hot water side").
2.6
Protection for the
solar heating system
2.6.1
Drain-back tank
The solar heating system may optionally be equipped with a drain-back tank.
The tank fills itself with the heating fluid when there is no heat demand. This
avoids overheating of the solar heating system. The high insulation factor of the
tank also protects the system against freezing of the fluid. The use of the drainback tank also serves to extend the useful life of the fluid.
The existence of a drain-back tank is set (12.9.1 "Setting the drain-back tank")
during the installation. Refer to the solar heating system manual for more
details.
2.6.2
Fluid temperature
The heat exchanger of the solar heating system is filled with glycol. If the
temperature of the heating fluid is too high, a signal is sent to the controller of
the solar collector and the pump of the solar collector is switched off. This signal
is passed to the controller by temperature sensor S1.
Temperature protection for solar heating system
Protection
Description
Maximum temperature: The pump of the solar heating system switches off
- S1 > 130°C
when the temperature of the heating fluid at S1
exceeds the maximum value. The solar heating
system enters error mode. The error is also visible
on the display of the SGS water heater
18
Instruction manual SGS
gis
2.7
Safety of the solar
heating system
2.7.1
Expansion vessel
The solar heating system must be equipped with an expansion vessel. An
expansion vessel serves to limit pressure variations in the system. The
expansion vessel in the solar heating system can withstand a maximum
pressure of 600 kPa (6 bar). The supply pressure to the expansion vessel
depends on the static head of the system.
The system is protected from overpressure by an expansion
valve (2.7.1 "Expansion vessel") as well as the expansion vessel.
2.7.2
Expansion valve
The solar heating system is equipped with an expansion valve. The expansion
valve monitors the pressure in the solar heating system. Should the pressure
become higher than 600 kPa (6 bar), the valve will open. The hot water can now
flow out of the installation. The valve remains open until the unsafe situation has
passed, i.e. until the pressure has fallen back to below 600 kPa (6 bar).
Note
Because a closed system is pressurized and is not filled automatically, the
system will have to be filled (5 "Filling") again when the expansion valve has
been activated. A system with a drain-back tank is not pressurized and does not
have an expansion valve.
Instruction manual SGS
19
2
20
Working principle of the water heater
gis
Instruction manual SGS
is
3
Installation
Warning
The installation must be carried out by an approved installation engineer in
compliance with the general and local regulations imposed by the gas, water
and power supply companies and the fire brigade.
The appliance may only be installed in a room that complies with the
requirements stated in national and local ventilation
regulations (1.3 "Regulations").
3.1
Introduction
This chapter describes the installation activities to be carried out before final
commissioning (9 "Starting the water heater"), namely:
•
Packaging;
•
Ambient conditions;
•
Technical specifications;
•
Installation diagram;
•
Unvented water connections;
•
Vented water connections;
•
Gas connection;
•
Air supply and chimney flue discharge;
•
Solar heating system;
•
Electrically connecting the water heater;
•
Electrical connection of the solar heating system;
•
Check the supply pressure, gas control valve pressure, CO2 value and
switching pressure.
For possible conversion to a different gas category, see
conversion (4 "Conversion to a different gas category").
3.2
Packaging
To avoid damaging the water heater, remove the packaging carefully.
We recommend unpacking the water heater at or near its intended location.
Caution
The water heater may only be manoeuvred in an upright position. Take care
that the water heater is not damaged after unpacking.
3.3
Ambient conditions
The water heater is suitable for either open or room-sealed combustion. If
installed as a room-sealed water heater, it is independent of the installation
site for the necessary external air supply. In this event, there are no additional
ventilation requirements.
If the water heater is to be installed as an open system, it must meet the
locally-applicable directives and ventilation regulations for open water
heaters.
The possible installation types are B23, C13, C33, C43, C53 and C63.
Caution
The water heater may not be used in rooms where chemical substances are
stored or used due to the risk of explosion, and corrosion of the water heater.
Some propellants, bleaching agents and degreasing agents etc. disperse
vapours that are explosive and/or cause accelerated corrosion. If the water
heater is used in a room in which such substances are present, the warranty will
be void.
Instruction manual SGS
21
3
is
Installation
3.3.1
Air humidity and ambient temperature
The boiler room must be frost-free, or be protected against frost. The table
shows the ambient conditions that must be adhered to for correct functioning of
the electronics present in the appliance to be guaranteed.
Air humidity and ambient temperature specifications
Air humidity and ambient temperature
3.3.2
Air humidity
max. 93% RH at +25°C
Ambient temperature
functionality: 0 < T < 60°C
Maximum floor load
Bear in mind that the total weight of the installation always comprises a water
heater complete with storage tank.
Water heater maximum floor load
Allow for the water heater's weight and the maximum floor load; refer to the
table (3.4.2 "General and electrical specifications").
Maximum floor load of storage tank
Bear in mind the weight of the storage tank (completely filled with water) when
considering the maximum floor load. This maximum floor load may be between
400 and 4500kg. This depends on the type of storage tank .
3.3.3
Water composition
The appliance is intended for heating drinking water. The drinking water must
comply with the regulations governing drinking water for human consumption.
The table gives an overview of the specifications.
Water specifications
Water composition
Hardness
(alkaline earth ions)
> 1.00 mmol/l:
• German hardness> 5.6° dH
• French hardness > 10.0° fH
• English hardness > 7.0° eH
• CaCO3 > 100 mg/l
Conductivity
> 125 µS/cm
Acidity (pH value)
7.0 < pH value < 9.5
Note
If the water specifications deviate from those stated in the table, then the
storage tank protection cannot be guaranteed (16 "Warranty (certificate)").
Als de waterhardheid groter is dan 14° dH, Please contact A.O.Smith.
3.3.4
Working clearances
For access to the water heater, it is recommended that the following
clearances are observed (see figure):
22
•
AA: around the water heater's control column and cleaning openings:
100 cm.
•
BB: all sides of the water heater: 50 cm.
•
Top of the water heater: 100 cm
Instruction manual SGS
is
Working clearances
BB
BB
AA
AA
AA
AA
SGS 28 thru 60
SGS 80 thru 120
IMD-0766 R0
Note
When installing the water heater, be aware that any leakage from the tank
and/or connections can cause damage to the immediate environment or floors
below the level of the boiler room. If this is the case, the water heater should be
installed above a waste water drain or in a suitable metal leak tray.
The leak tray must have an appropriate waste water drain and must be at least
5 cm deep with a length and width at least 5 cm greater than the diameter of the
water heater.
3.3.5
Storage tank working clearances
For access to the storage tank, it is recommended that the following
clearances are observed:
•
All sides of the storage tank: 50 cm.
•
Above the storage tank (space for anode replacement): 100 cm.
Note
When installing the storage tank, be aware that any leakage can cause
damage to the immediate environment or floors below the level of the boiler
room. If this is the case, the water heater should be installed above a waste
water drain or in a suitable metal leak tray.
3.4
Technical
specifications
Instruction manual SGS
The water heater is supplied without accessories. Check the
dimensions (3.4 "Technical specifications"), gas data (3.4.3 "Gas data") and
other specifications (3.4.2 "General and electrical specifications") of any
accessories you plan to use.
23
24
3.4.1
Dimensions of the water heater
Top and front view of the appliance
Legend
See the table.
SGS 28, 30, 50, 60
SGS 80, 100, 120
Instruction manual SGS
Instruction manual SGS
Dimensions (all dimensions in mm, unless otherwise stated)
Size
Description
Unit
SGS 28
SGS 30
SGS 50
SGS 60
SGS 80
SGS 100
SGS 120
A
Overall height
mm
1485
2015
2015
2015
2060
2060
2060
C
Position on pallet
mm
490
490
490
490
530
530
530
D
Appliance diameter
mm
705
705
705
705
850
850
850
E
Depth
mm
925
925
925
925
1000
1000
1000
F
Width
mm
850
850
850
850
900
900
900
G
Diameter of flue gas discharge
mm
100/150
100/150
100/150
100/150
130/200
130/200
130/200
H
Height of flue gas outlet/air supply
mm
1460
1980
1980
1980
1995
1995
1995
Hx
x position flue gas outlet
mm
265
265
265
265
310
310
310
Hy
x position flue gas outlet
mm
375
375
375
375
440
440
440
K
Height of gas connection
mm
1380
1910
1910
1910
1855
1855
1855
M
Height of cold water supply
mm
265
255
255
255
225
225
225
N
Height of hot water outlet
mm
1485
2015
2015
2015
2060
2060
2060
Ny
y position of hot water outlet
mm
205
205
205
205
205
205
205
P
Height of cleaning opening
mm
265
270
270
270
290
290
290
R
Height of drain valve connection
mm
180
170
170
170
225
225
225
S
Height of T&P valve connection
mm
995
1505
1505
1505
1425
1425
1425
W
Height of condensation drain
mm
245
245
245
245
240
240
240
1
Cold water supply connection (external)
-
R
2
Hot water outlet (male)
-
R
3
Gas control valve connection (external)
-
R
4
Drain valve connection (internal)
-
1"
5
T&P valve connection (female)
-
6
Cleaning/inspection opening
7
Condensation drainage connection (female)
11/2
11/2
3/ "
4
R
1 1/
2
R 1 1/2
R
3/ "
4
R
11/
2
R
R 11/2
R
3/
R
11/2
11/2
3/ "
4
R
11/
2
R
R 11/2
R
R
3/
R
4"
4"
11/2
11/2
3/ "
4
R 1 1/2
R 1 1/2
R 3/4"
1"
R 4"
1"
1"
3/
1" - 11.5 NPT
1" - 11.5 NPT
1" - 11.5 NPT
1" - 11.5 NPT
1" - 11.5 NPT
1" - 11.5 NPT
1" - 11.5 NPT
mm
95 x 70
95 x 70
95 x 70
95 x 70
95 x 70
95 x 70
95 x 70
-
Ø 40
Ø 40
Ø 40
Ø 40
Ø 40
Ø 40
Ø 40
3/
4"
3/ "
4
25
26
3.4.2
General and electrical specifications
DESCRIPTION
Unit
SGS 28
SGS 30
SGS 50
SGS 60
SGS 80
SGS 100
SGS 120
Contents
litres
217
368
368
368
480
480
480
Empty weight
kg
202
239
239
239
480
480
480
Maximum floor load
kg
419
607
607
607
960
960
960
Maximum operating pressure (vented)
kPa (bar)
800 (8)
800 (8)
800 (8)
800 (8)
800 (8)
800 (8)
800 (8)
Maximum operating pressure (unvented)
kPa (bar)
550 (5,5)
550 (5,5)
550 (5,5)
550 (5,5)
550 (5,5)
550 (5,5)
550 (5,5)
Control thermostat adjustment range
o
C
40...80
40...80
40...80
40...80
40...80
40...80
40...80
Control thermostat and default value
o
C
65
65
65
65
65
65
65
Adjustment range for hysteresis downwards
o
C
2...12
2...12
2...12
2...12
2...12
2...12
2...12
C
Instruction manual SGS
Default value for hysteresis downwards
o
5
4
4
4
5
5
5
Adjustment range for solar differential
oC
0...8
0...8
0...8
0...8
0...8
0...8
0...8
Solar differential default value
oC
7
2
2
2
5
5
5
Adjustment range for solar limit
oC
65…80
65…80
65…80
65…80
65…80
65…80
65…80
Solar limit default value
oC
65
65
65
65
65
65
65
Number of (electrical) anodes
-
1
2
2
2
2
2
2
Observed pressure differential across the pressure
switch
Pa
> 165
> 165
> 165
> 165
> 260
> 260
> 260
Pressure differential to open the pressure switch
Pa
< 115
< 115
< 115
< 115
< 210
< 210
< 210
Heating-up time ΔT = 45°C
at least
22
35
23
19
18
15
12
DESCRIPTION
Unit
SGS 28
SGS 30
SGS 50
SGS 60
SGS 80
SGS 100
SGS 120
Electrical power consumption of the appliance
W
45
45
75
115
95
145
240
Electrical power consumption of the solar controller
W
max. 700
max. 700
max. 700
max. 700
max. 700
max. 700
max. 700
Supply voltage (-15% +10% VAC)
volts
230
230
230
230
230
230
230
Mains frequency (± 1Hz)
Hz
50
50
50
50
50
50
50
IP class
-
IP 20
IP 20
IP 20
IP 20
IP 20
IP 20
IP 20
Instruction manual SGS
DESCRIPTION
Unit
Value
Maximum mains pressure of cold water supply (vented) kPa (bar)
800 (8)
Maximum mains pressure of cold water supply
(unvented)
kPa (bar)
550 (5.5)
Maximum mains pressure of the protected cold supply
setup
kPa (bar)
500 (5)
T&P overflow pressure
kPa (bar)
700 (7)
T&P overflow temperature
o
- C
97
27
28
3.4.3
Gas data
II2H3P description
Unit
SGS 28
SGS 30
SGS 50
SGS 60
SGS 80
SGS 100
SGS 120
Diameter of the venturi restrictor
mm
-
-
-
-
8,60
8,60
8,60
Nominal load (gross)
kW
32,2
33,3
52,2
63,3
86,6
105,5
128,8
Nominal output
kW
31,0
32,7
50,3
60,4
84,2
100,7
121,8
Supply pressure
mbar
20
20
20
20
20
20
20
CO2 (full load)
Vol%
9,0 + 1,0
9,0 + 1,0
9,0 + 1,0
9,0 + 1,0
8,9 + 1,0
8,9 + 1,0
8,9 + 1,0
3,1
3,2
5,0
6,0
8,3
10,1
12,3
Gas category 2H: G20 - 20 mbar
Gas consumption*
3
m /h
Gas category 3P: G31 - 37 / 50 mbar
Diameter of the venturi restrictor
mm
6,00
6,00
6,00
6,00
6,60
6,60
6,60
Nominal load (gross)
kW
31,5
32,6
51,1
62,0
84,8
103,3
126,1
Nominal output
kW
31,0
32,7
50,3
60,4
84,2
100,7
121,8
Supply pressure
mbar
37 / 50
37 / 50
37 / 50
37 / 50
37 / 50
37 / 50
37 / 50
Gas control valve pressure
mbar
12,0 + 2,0
12,0 + 2,0
12,0 + 2,0
12,0 + 2,0
-
-
-
CO2 (full load)
Vol%
10,0 + 1,0
10,0 + 1,0
10,0 + 1,0
10,0 + 1,0
9,6 + 1,0
9,6 + 1,0
9,6 + 1,0
Gas consumption*
kh/h
2,3
2,3
3,7
4,4
6,1
7,4
9,0
(*) Based on 1013.25 mbar and 15°C.
Instruction manual SGS
is
3.5
Installation diagram
The figure shows the Installation diagram. This diagram is referred to in the
sections describing the actual connection procedure.
Installation diagram
Legend
UNVENTED
Unused numbers are not applicable
1.
pressure reducing valve
(mandatory)
2.
inlet combination (mandatory)
3.
T&P valve
38
4.
stop valve (recommended)
5.
non-return valve (mandatory)
16
6
circulation pump (optional),
pump flow 1500 litres/hour,
e.g. Grundfos ST 15/11-2
8.
program-controlled pump
(mandatory)
9.
drain valve
10. manual gas valve (mandatory)
11.
service stop valve
VENTED
17
(recommended)
H
12. temperature gauge
(recommended)
19
E
13. condensation drain
4
(mandatory)
18
14. draw-off points
16. expansion vessel (mandatory)
38
17. 3-way aeration valve
(recommended)
16
18. cold water head tank
19. float switch
23. pressure valve (mandatory)
26. air bleed (mandatory)
37. combined Q/T sensor
(optional)
IMD-0787 R0
38. solar heating system pump
station (modulating mandatory)
42. Solar heating system
controller
A.
cold water supply
Caution
B.
hot water supply
The installation diagram shows a pump station with an integrated nonC.
circulation pipe
return valve. This type of pump unit may only be used with closed systems. In
D.
gas supply
systems with drain-back, installation of a pump unit with non-return valve is
prohibited. There are special pump units for these systems. Please contact the
E.
overflow pipe
pump unit supplier for this.
F.
supply heat exchanger
26
12 T
12 T
42
S1
11
11
4
14
8
B
5
D
14
10
4
14
S3
3
3
4
6
5
F
4
S2
37
G
Q
S4
16
T
2
9
5
13
1
4
A
15
9
C
26
12 T
12 T
S1
11
42
A
4
B
14
8
14
B
5
D
4
10
14
3
S3
3
4
6
5
F
4
S2
37
G
Q
9
13
9
S4
T
4
C
H.
G.
S1.
S2.
S3.
S4.
overflow protection
heat exchanger return
collector sensor (mandatory)
tank sensor (mandatory)
top of tank sensor (mandatory)
solar heating system return
sensor (optional)
Instruction manual SGS
29
3
3.6
is
Installation
Unvented water
connections
Warning
The installation should be carried out by a competent person, in compliance
with general and locally applicable regulations (1.3 "Regulations").
3.6.1
Cold water side
See (A) in the installation diagram (3.5 "Installation diagram").
1. Fit an approved stop valve (4) on the cold water side as required by the
applicable regulations (1.3 "Regulations").
2. The maximum working pressure of the water heater is 8 bar. Because the
pressure in the water pipe at times can exceed 8 bar, you must fit an
approved pressure-reducing valve (1).
3. Fit a non-return valve (5) and an expansion vessel (16).
4. Fit an expansion valve (15) and connect the overflow side to an open waste
water pipe.
3.6.2
Hot water side
See (B) in the installation diagram (3.5 "Installation diagram").
Note
Insulating long hot water pipes prevents unnecessary energy loss.
1. Optional: fit a temperature gauge (12) so you can check the temperature of
the tap water.
2. Fit the T&P valve (3).
3. Fit a stop valve (11) in the hot water outlet pipe for servicing.
3.6.3
Circulation pipe
See (C) in the installation diagram (3.5 "Installation diagram").
If an immediate flow of hot water is required at draw-off points, a circulation
pump can be installed. This improves comfort, and reduces water wastage.
1. Fit a circulation pump (6) of the correct capacity for the length and resistance
of the circulation system.
2. Fit a non-return valve (5) after the circulation pump to guarantee the
direction of circulation.
3. Fit two stop valves for servicing (4).
4. Connect the circulation pipe according to the installation
diagram (3.5 "Installation diagram").
3.6.4
Condensation drain
1. Fit a sloping waste water pipe to the condens trap (13) for condensation
drainage and connect this via an open connection to the waste water
discharge.
Caution
If the condensation drain is not fitted to the waste water discharge using an
open connection, this can cause faults.
3.7
30
Vented water
connections
Warning
The installation should be carried out by a competent person, in compliance
with general and locally applicable regulations (1.3 "Regulations").
Instruction manual SGS
is
3.7.1
Cold water side
See (A) in the installation diagram (3.5 "Installation diagram").
1. Fit an approved stop valve (4) on the cold water side between the cold water
head tank (18) and the water heater, as required by applicable regulations.
3.7.2
Hot water side
See (B) in the installation diagram (3.5 "Installation diagram").
Note
Insulating long hot water pipes prevents unnecessary energy loss.
1. Fit the T&P valve (3).
2. Optional: fit a temperature gauge (12) so you can check the temperature of
the tap water.
3. Fit a stop valve (4) in the hot water outlet pipe for servicing.
4. If a circulation pipe is required, continue by installing the circulation
pipe (3.6.3 "Circulation pipe").
3.7.3
Circulation pipe
See (C) in the installation diagram (3.5 "Installation diagram").
If an immediate flow of hot water is required at draw-off points, a circulation
pump can be installed. This improves comfort, and reduces water wastage.
1. Fit a circulation pump (6) of the correct capacity for the length and resistance
of the circulation system.
2. Fit a non-return valve (5) after the circulation pump to guarantee the
direction of circulation.
3. Fit two stop valves for servicing (4).
4. Connect the circulation pipe according to the installation
diagram (3.5 "Installation diagram").
3.7.4
Condensation drain
1. Fit a sloping waste water pipe to the condens trap (13) for condensation
drainage and connect this via an open connection to the waste water
discharge.
Caution
If the condensation drain is not fitted to the waste water discharge using an
open connection, this can cause faults.
3.8
Gas connection
Warning
The installation should be carried out by a competent person, in compliance
with general and locally applicable regulations (1.3 "Regulations").
Caution
Make sure that the diameter and length of the gas supply pipe are large
enough to supply sufficient capacity to the water heater.
Instruction manual SGS
31
3
is
Installation
See (D) in the installation diagram (3.5 "Installation diagram").
1. Fit a manual gas valve (10) in the gas supply pipe.
2. Blow the gas pipe clean before use.
3. Close the manual gas valve.
4. Fit the gas supply pipe to the gas control valve.
Warning
After fitting, check for leaks.
3.9
Solar heating system
Note
Please refer to the installation diagram (3.5 "Installation diagram"), electrical
diagram (17.4 "Electrical diagram, solar heating system") and terminal
block (3.12.1 "Preparation") for details of how to connect the solar heating
system.
1. Connect the supply from the solar collector to the inlet (F) of the heat
exchanger.
2. Connect the return pipe to the solar collector to the outlet (G) of the heat
exchanger.
3. Connect the lead to the solar heating system controller and sensor S2, see:
-
electrical diagram (17.4 "Electrical diagram, solar heating system")
and
-
connections table (3.11.2 "Preparation").
4. Connect the communication cable between the solar heating system
controller and the water heater, see:
-
electrical diagram (17.4 "Electrical diagram, solar heating system")
and
-
connections table (3.11.2 "Preparation").
Warning
The installation diagram shows a pump station with an integrated non-return
valve. This type of pump unit may only be used with closed systems. In systems
with drain-back, installation of a pump unit with non-return valve is prohibited.
There are special pump units for these systems. Please contact the pump unit
supplier for this.
3.10 Air supply and
chimney flue
discharge
3.10.1
Introduction
This section covers the following topics:
3.10.2
•
Requirements for flue gas discharge materials
•
Concentric connections
•
Parallel connections
Requirements for flue gas discharge materials
Warning
The installation should be carried out by a competent person, in compliance
with general and locally applicable regulations (1.3 "Regulations").
Depending on the approved installation types, there are several alternatives for
connecting the air supply and chimney flue.
32
Instruction manual SGS
is
The water heaters are approved for installations of type B23, C13, C33, C43,
C53 and C63.
This manual discusses installation types C13 and C33 in detail. If the water
heater has to function in accordance with B23, C43, C53 or C63, you can obtain
more information by contacting A.O. Smith.
The figure and table give information about these types of installation. For an
explanation of the possibilities, please contact the manufacturer.
Instruction manual SGS
33
3
Installation
Installation types
34
Instruction manual SGS
is
Explanation of types of installation
Installation type
Description
B23
Air for combustion is drawn from the boiler room.
C13
Concentric and/or parallel wall flue terminal.
C33
Concentric and / or parallel roof flue terminal
C43
Water heaters on common air supply and flue gas discharge (concentric
and/or parallel) in multi-storey building.
C53
Air supply and flue gas discharge terminal types mixed.
C63
Water heaters supplied without flue gas discharge materials and/or terminal.
These water heaters must be installed in compliance with local regulations.
Note
Make sure that the chimney flue discharges into an area approved for this
type of installation.
3.10.3
Concentric connections
The table shows the requirements for concentric systems.
Warning
Install flue gas discharge pipe runs with a run-off of 5 mm per metre towards
the water heater.
Flue gas discharge requirements for concentric systems (C13, C33)
Appliance
Diameter
Maximum
length
Maximum
number of
90o bends
SGS 28, 30, 50, 60
100/150 mm
40 m
7
SGS 80, 100, 120
130/200 mm
15 m
4
Caution
Both conditions stated in the table must be fulfilled.
Even if you use less than the stated maximum number of bends, the maximum
pipe length still may not be exceeded.
Even if you use less than the stated maximum pipe length, the maximum
number of bends still may not be exceeded.
The following example illustrates how to use the table.
Instruction manual SGS
35
3
is
Installation
Practical example of concentric flue gas discharge
Example
The figure shows a SGS 30 installation. The water heater must be fitted with 25
m of concentric pipe (C13/C33) and four 90 degree bends. The configuration
must be checked for compliance with the requirements stated in the table.
Water heater with concentric flue gas discharge material
IMD-0791 R0
According to the table, the maximum length allowed is 40 metres, and there may
be up to seven 90 degree bends. Both requirements are fulfilled.
Specifications
Caution
For type C13 and C33 installations,A.O.Smith prescribes the use of a roof
or wall flue terminal, exclusively of a type approved for the water heater. Use of
an incorrect roof or wall-mounted flue terminal can cause the installation to
malfunction.
Concentric wall flue terminal specifications C13
Subject
Description
Art. No.
Wall flue terminal set:
• 1x Wall flue terminal (incl. wall
flange & clamping ring)
Manufacturer
• 1x Pipe 500 mm
Type
• 1x 90o bend
SGS 28, 30, 50, 60
0302 504 1
SGS 80, 100, 120
0302 326 1
Pipe material
Construction
Concentric
Flue gas discharge
Thick-walled aluminium with lipped sealing ring.
Air supply
Thin-walled galvanised sheet steel.
Flue gas discharge
SGS 28, 30, 50, 60
Pipe diameters
Air supply
Muelink & Grol
M2000 MDV SEC
Ø 100 mm
SGS 80, 100, 120
Ø 130mm
SGS 28, 30, 50, 60
Ø 150 mm
SGS 80, 100, 120
Ø 200 mm
(1) No other wall flue terminal is permitted. Use this item number to order the wall conduit set from supplier,
manufacturer or wholesaler.
36
Instruction manual SGS
is
Concentric roof flue terminal specifications C33
Subject
Description
Roof conduit set:
Art. No.
• 1x roof conduit (incl. clamping
ring)
Manufacturer
• 1x Pipe 1000 mm
Type
• 1x adhesive sheet
SGS 28, 30, 50, 60
0311 460 1
SGS 80, 100, 120
0311 461 1
Pipe material
Pipe diameters
Muelink & Grol
Skyline 3000 (28-60) and Mugro 2000 (80-120)
Construction
Concentric
Flue gas discharge
Thick-walled aluminium with lipped sealing ring.
Air supply
Thin-walled galvanised sheet steel.
Flue gas discharge
SGS 28, 30, 50, 60
Ø 100 mm
SGS 80, 100, 120
Ø 130mm
SGS 28, 30, 50, 60
Ø 150 mm
SGS 80, 100, 120
Ø 200 mm
Air supply
(1) No other roof flue terminal may be used. Use this item number to order the roof flue terminal set from the
supplier, manufacturer or wholesalor.
3.10.4
Parallel connections
The table states the maximum pipe lengths for parallel systems. The maximum
pipe length depends on the chosen diameter.
Warning
Install flue gas discharge pipe runs with a run-off of 5 mm per metre towards
the water heater.
Chimney flue requirements for parallel systems
Appliance
Diameter1
Maximum
total
length
Lequivalent
90º bend
Lequivalent
45º bend
SGS 28, 30, 50, 60
100 mm
55 m
4.6 m
1.2 m
SGS 80, 100, 120
130 mm
65 m
2.4 m
1.4 m
SGS 28, 30, 50, 60
130 mm
100 m
2.4 m
1.4 m
SGS 80, 100, 120
150 mm
100 m
2.6 m
1.6 m
1) Parallel systems with diameter of 100 mm or 130 mm. If the maximum total
length when using a diameter of 130 mm is insufficient, a diameter of 150 mm
must be used. If the maximum total length when using a diameter of 130 mm
is insufficient, a diameter of 150 mm must be used. Any diameter enlargement
must be carried out on both air supply and flue gas outlet.
You must use the longest pipe when calculating the pipe length. For example, if
the chimney pipe is 10 metres and the air supply pipe is 8 metres, use 10 metres
as the length for the calculation. Next, add the Lequivalent for every 90° and 45°
bend to this 10 metres, in both the air supply and flue gas outlet. The following
practical example illustrates how to use the table.
Instruction manual SGS
37
3
is
Installation
Practical example of parallel flue gas discharge
Example
The figure shows a SGS 30 installation. This has to be fitted with a 10 m parallel
pipe of 100 mm diameter, and eight 90 degree bends. The configuration must
be checked for compliance with the requirements stated in the table.
Appliance with parallel flue gas discharge material
The longest pipe must be used to check the maximum length. In this case, the
chimney pipe is the longest. This is 10 metres. This 10 metres is the sum of pipe
sections 1, 2, 3, 4 and 5. The length of the transition piece can be ignored. The
total number of bends used in the flue gas discharge and air supply is 8. The
bend in the transition piece can be ignored. According to the table, 4.6 metres
must be added for each bend. This brings the total pipe length to:
(4.6 x 8) + 10 = 36.8 + 10 = 46.8 m.
This is less than the maximum length of 55 metres stated in the table. The
installation therefore fulfils the requirements.
3.11 Electrically
connecting the water
heater
3.11.1
Warning
The installation should be carried out by a competent person, in compliance
with general and locally applicable regulations (1.3 "Regulations").
Introduction
This section covers the following topics:
•
Preparation
•
Connecting the mains power
Optionally, it is possible to connect an isolating transformer, a programcontrolled pump (a pump between the storage tank and the water heater) and
an extra alarm signal to the water heater. For these options, see:
38
•
Isolating transformer
•
Connecting a program-controlled pump
•
Connecting an extra ON mode switch
•
Connect additional error signal
Instruction manual SGS
is
Connecting the solar heating system is also described:
•
Connecting communication cable to solar heating system
Note
The optional components are not included in the electrical power
consumption rating stated in the table (3.4.2 "General and electrical
specifications").
3.11.2
Preparation
Caution
The water heater is phase-sensitive. It is absolutely essential to connect
the mains live (L) to the live of the water heater, and the mains neutral (N) to the
neutral of the water heater.
Caution
There must be no potential difference between neutral (N) and earth ( ).
If this is the case, then an isolating transformer (3.11.4 "Isolating transformer")
must be used in the supply circuit.
For more information or to order this isolating transformer, please contact
A.O.Smith Water Products Company.
The figure shows a view of the terminal block, and the table explains the
relevant connections.
Connector block
Legend
A.
screws
B.
cover
C.
terminal block
Instruction manual SGS
39
3
is
Installation
In preparation, you must first remove the two covers, and the cover of the
electrical section.
1. Undo the screws of the covers.
2. Carefully remove the covers from the water heater.
The electrical section is now visible.
3. Loosen the 2 screws (A) and remove the cover (B) from the electrical
section.
The connector block (C) is now visible.
Note
Consult the table for the connections and consult the electrical diagram for
the electrical component connections.
Terminal block
Isolating transformer
Mains
voltage
N
L
1
2
primary
3
N
L1
4
5
secondary
6
3.11.3
N
L2
7
8
9
Alarm Out
X1
X2
10
11
12
Programcontrolled
pump
N
L3
13
14
15
External
ON/OFF
16 to 20
BUS
link
X3
X4
X5
X6
21
22
23
24
Connecting the mains power
The water heater is supplied without a power cable and isolator.
Note
In order to receive electrical power, the water heater has to be connected to
the mains power by means of a permanent electrical connection. A double-pole
isolator with a contact gap of at least 3 mm must be fitted between this
permanent connection and the water heater. The power cable must have cores
of at least 3 x 1.0 mm 2 .
Warning
Leave the water heater electrically isolated until you are ready to
commission it.
1. Connect neutral (N), live (L) and earth ( ) of the power cable to
terminals 1 thru 3 of the terminal block as shown in the
table (3.11.2 "Preparation").
2. Fit the power cable in the strain relief.
3. Connect the power cable to the isolator.
4. If you have no more connections to make:
40
-
Fit the cover on the terminal block.
-
Fit the covers onto the water heater.
Instruction manual SGS
is
3.11.4
Isolating transformer
An isolating transformer should be used if there is a case of 'floating neutral'.
Note
The total power consumed by the appliance goes via the isolating
transformer.
1. Refer to the fitting instructions provided with the isolating transformer.
(Contact the supplier for details of the correct isolating transformer.)
2. Connect the neutral (N), live (L) and earth ( ) of the power cables to
terminals 4 through 9 of the connection block according to the
table (3.11.2 "Preparation").
3. Fit the cables in the strain relief.
4. If you have no more connections to make:
-
Fit the cover on the terminal block.
-
Fit the covers onto the water heater.
5. Connect the power cable to the isolator.
3.11.5
Connecting a program-controlled pump
Note
The maximum power capacity for a pump regulated by the controller
is 100W.
1. Connect neutral (N), live (L) and earth ( ) to terminals 13, 14 and 15 as
indicated in the table (3.11.2 "Preparation").
2. Fit the cable in the strain relief.
3. If you have no more connections to make:
3.11.6
-
Fit the cover on the terminal block.
-
Fit the covers onto the water heater.
Connecting an extra ON mode switch
External ON/OFF is an option for connecting an external ON/OFF switch. In
the OFF position, the programmed operating mode is active. In the ON
position, the programmed operating mode is overruled, and "ON mode" is
active.
1. Connect leads (X3 and X4) to terminals 21 and 22 according to the
table (3.11.2 "Preparation").
2. Fit the cable in the strain relief.
3. If you have no more connections to make:
3.11.7
-
Fit the cover on the terminal block.
-
Fit the covers onto the water heater.
Connect additional error signal
The appliance has a relay terminal that is switched when an error is detected.
This can be used to signal errors, for example with a bulb. A 230V circuit can
be powered directly. Other voltages require a relay prescribed by the
manufacturer.
1. Connect the phase cables (X1 and X2) to points 10 and 11 according to the
table (3.11.2 "Preparation"). If required, connect earth ( ) to terminal 12.
2. Fit the cable in the strain relief.
Instruction manual SGS
41
3
is
Installation
3. If you have no more connections to make:
3.11.8
-
Fit the cover on the terminal block.
-
Fit the covers onto the water heater.
Connecting communication cable to solar heating system
You must connect a communication cable between the controllers of the
water heater and the solar heating system.
1. Connect the cables (X5 and X6) to terminals 23 and 24 as shown in the
table (3.11.2 "Preparation").
2. Fit the cable in the strain relief.
3. If you have no more connections to make:
3.12 Electrical
connection of the
solar heating system
-
Fit the cover on the terminal block.
-
Fit the covers onto the water heater.
This section covers the following topics:
•
Preparation
•
Connecting the mains power
•
Connecting pump station - modulating pump
•
Connecting solar collector
•
Connecting tank sensor
•
Connecting top tank sensor
•
Connecting communication cable
Optionally you can connect an extra head pump and Q/T sensor:
3.12.1
•
Connecting extra head pump
•
Connecting Q/T sensor
Preparation
See Eratta.
has the following terminals:
2
3
4
1
2
J3
42
9
3
J12
10
-
-
-
-
-
-
11
12
13
14
15
16
17
18
19
20
Sensor S2
1
8
-
Sensor S3
7
M3
Sensor S2
6
M2
Sensor S3
5
M1
Semsor S1
4
N
n.a.
3
L1
n.a.
Sensor S1
2
Sensor S4
-
Power 5 V
-
n.a.
-
n.a.
N
n.a.
L
Modulating pump
n.a.
Pump ON/OFF
n.a.
1
n.a.
Flow signal
Power
4
1
2
3
4
1
2
3
4
J13
J14
Instruction manual SGS
is
3.12.2
Connecting the mains power
Note
Just as with the water heater controller, the solar heating system controller
must have a permanent electrical connection to the mains power supply. There
must be a double-pole isolator installed in the permanent connection. This is the
same double-pole isolator as installed between the mains power supply and the
water heater itself. Whenever this isolator is operated, both controllers can be
switched on or off.
1. Connect earth, live and neutral to terminals 1 through 3
2. Fit the cables in the strain relief.
3. Connect the power cable to the isolator.
4. Continue (3.12.3 "Connecting pump station - modulating pump").
3.12.3
Connecting pump station - modulating pump
The pump station contains a modulating pump (3:0FRQWUROOHG). You must
connect this pump to the controller of the solar heating system.
1. Connect earth, live and neutral to terminals 10 through 12.
2. Connect PWM- and PWM+ to terminals 1 and 2 of J18.
3. Fit the cables in the strain relief.
4. Continue (3.12.4 "Connecting solar collector").
3.12.4
Connecting solar collector
Note
This sensor must be mounted in the solar collector;refer to the solar collector
installation manual.
Connect the sensor (S1) to the water heater as follows:
1. Connect the sensor to terminal 2 and 4 of J13.
2. Fit the cables in the strain relief.
3. Continue (3.12.5 "Connecting tank sensor").
3.12.5
Connecting tank sensor
Note
This sensor is not already mounted in the storage tank prior to delivery. The
sensor must be fitted between the inlet and outlet of the heat exchanger of the
storage tank. The sensor lead must also be connected to the solar heating
system controller.
1. Connect the lead for sensor S2 with the blade connectors to the sensor.
2. Connect the other end to terminals 2 and 4 of J14.
3. Fit the cables in the strain relief.
4. Continue (3.12.7 "Connecting communication cable").
3.12.6
Connecting top tank sensor
1. Using the blade connectors, connect the sensor S3 lead to the sensor.
2. Connect the other end to terminals 1 and 3 of J14.
3. Fit the cables in the strain relief.
4. Continue (3.12.7 "Connecting communication cable").
Instruction manual SGS
43
3
is
Installation
3.12.7
Connecting communication cable
Note
>The communication cable must always be connected, otherwise neither
the appliance nor the solar heating system controller will run.
1. Connect the double connector to J16.
2. Fit the cable in the strain relief.
3. Connect the other end of the communication cable to the terminal block of
the appliance. See
-
connecting communication cable to the appliance (3.12.7 "Connecting
communication cable").
-
electrical diagram for the appliance (17.3 "Electrical diagram for the
appliance")
-
electrical diagram for the solar heating system (17.4 "Electrical
diagram, solar heating system")
4. Connect the optional head pump (3.12.8 "Connecting extra head pump") or
Q/T sensor (3.12.9 "Connecting Q/T sensor").
5. If you do not need to make any more connections:
-
3.12.8
Fit the cover over the controller.
Connecting extra head pump
Note
This pump is essential if a greater head is required. When the system has
such a high resistance (>66 kPa) that the pump in the pump station is
insufficient, you can connect a second (ON/OFF) pump to the solar heating
system controller.
1. Connect earth ( ), live and neutral to terminals 7 through 9.
2. Fit the cable in the strain relief.
3. If you need to connect an extra head pump, continue (3.12.9 "Connecting
Q/T sensor"); otherwise:
-
3.12.9
Fit the covers over the controller.
Connecting Q/T sensor
Note
You can optionally add a Q/T sensor to the installation. This enables you to
calculate the energy contribution of the system. For more information or to order
the Q/T sensor, please contact your supplier.
1. Connect the 5V to J12-1.
2. Connect sensor S4 to J12-2.
3. Connect earth to J12-3.
4. Connect the "flow signal" to J12-4.
5. Fit the cable in the strain relief.
6. If you have no more connections to make:
-
44
Fit the covers over the controller.
Instruction manual SGS
is
3.13 Check the supply
pressure, gas
control valve
pressure, CO2 value
and switching
pressure
Note
Before starting to use the appliance and/or checking the supply pressure
and/or the CO2 value and/or the switching pressure, you should first
fill (5 "Filling") the appliance.
Caution
When starting up for the first time or after conversion, you must always
check the supply pressure, the gas control valve pressure, the CO2 value and
the switching pressure.
Note
A CO2 meter and a pressure gauge must be available for checking the
supply pressure, gas control valve pressure, CO2 value and switching pressure.
3.13.1
Procedure for checking the supply pressure
To check the supply pressure, proceed as follows:
1. Isolate (10.3 "Isolating the water heater from the mains") the appliance from
the power supply.
2. Carefully remove the covers from the appliance.
3. The electrical section is now visible.
SGS 28 to 60
4. There is a test nipple before the gas control valve (for natural gas
appliances) or before the pressure-reducing valve (for LPG appliances) so
that the supply pressure can be measured.
This test nipple has a sealing screw. Loosen the sealing screw by a few
turns. Do not completely loosen it as it can be difficult to retighten.
IMD-1095a R0
Instruction manual SGS
IMD-1096a R0
45
3
is
Installation
SGS 80 to 120
5. The gas control valve has a test nipple that can be used for measuring the
supply pressure.
This test nipple has a sealing screw. Loosen the sealing screw by a few
turns. Do not completely loosen it as it can be difficult to retighten.
IMD-1097a R0
6. Open the gas supply and vent the gas supply line via the test nipple.
7. Connect a pressure gauge to the test nipple as soon as gas starts to flow
from it.
8. Switch on the power to the appliance using the isolator on the appliance.
9. Switch the controller ON by setting the 0/I switch to position I.
The display will now show INTERNAL CHECK for about 10 seconds, and
will then go to the main menu.
INTERNAL CHECK
SERVICE MENU
SERVICE INTERVAL
»SERVICE OPERATION
È ANTI LEGIONELLA
10. Select SERVICE OPERATION, FULL LOAD from the service menu.
11. Confirm with
.
The display shown here will appear.
SERVICE OPERATION
»FULL LOAD
PARTIAL LOAD
The appliance is now in "Full load mode" and will ignite.
12. You must wait about 1 minute after the display shows the text RUNNING
before reading the dynamic pressures (the fan needs this time to get up to
full speed, so that you can get a reliable reading).
46
Instruction manual SGS
is
13. Use the pressure gauge to read the supply pressure and compare it against
the value from the gas table (3.4.3 "Gas data").
Note
Consult the mains gas supply company if the supply pressure is not correct.
You cannot yet start using the appliance. You must now take the appliance out
of service (10.3 "Isolating the water heater from the mains").
Note
After conversion, you must check that the gas control valve is gastight.
14. Shut off the gas supply.
15. Disconnect the pressure gauge and retighten the sealing screw in the test
nipple.
16. If there is nothing else you need to check or adjust, you can put the covers
back on the appliance.
3.13.2
Procedure for checking the gas control valve pressure
The procedure for checking the gas control valve pressure is only applicable to
appliances that have a pressure-reducing valve. If the appliance does not have
a reducing valve, continue from adjusting the CO2 value (3.13.3 "CO2
adjustment").
To check the gas control valve pressure, proceed as follows:
1. Isolate (10.3 "Isolating the water heater from the mains") the appliance from
the power supply.
2. Carefully remove the covers from the appliance.
3. The electrical section is now visible.
4. The gas control valve has a test nipple that can be used for measuring the
gas control valve pressure. This test nipple has a sealing screw. Loosen the
sealing screw by a few turns. Do not completely loosen it as it can be difficult
to retighten.
5. Open the gas supply.
6. Connect a pressure gauge to the test nipple.
7. Switch on the power to the appliance using the isolator on the appliance.
8. Switch the controller ON by setting the 0/I switch to position I .
The display will now show INTERNAL CHECK for about 10 seconds, and
will then go to the main menu.
INTERNAL CHECK
SERVICE MENU
SERVICE INTERVAL
»SERVICE OPERATION
È ANTI LEGIONELLA
9. Select SERVICE OPERATION, FULL LOAD from the service menu.
Instruction manual SGS
47
3
is
Installation
10. Confirm with
.
The display shown here will appear.
SERVICE OPERATION
FULL LOAD
»PARTIAL LOAD
The appliance is now in "PARTIAL LOAD" mode and will ignite.
11. You must wait about 1 minute after the display shows the text RUNNING
before reading the dynamic pressures (the fan needs this time to get up to
full speed, so that a reliable reading can be obtained).
12. Use the pressure gauge to read the pressure and compare it against the
value from the gas table (3.4.3 "Gas data").
13. If necessary, adjust the gas control valve pressure using the reducing
valve's adjuster screw (2) until the value is within the range listed in the table
Gas control valve pressure adjustment
IMD-1096b R0
3.13.3
CO2 adjustment
To check the CO2 value under full load and partial load and to adjust it if
necessary, proceed as follows:
1. Isolate (10.3 "Isolating the water heater from the mains") the appliance from
the power supply.
2. Carefully remove the covers from the appliance.
3. The electrical section is now visible.
4. Place the CO2 meter's measurement probe in the test nipple (58) of the flue
gas outlet pipe (the number is a reference on the General working principle
of the water heater).
5. Open the gas supply and vent the gas supply line.
6. Use the main switch to apply mains voltage to the appliance.
7. Start (9 "Starting the water heater") the appliance.
8. Go to the
:SERVICE OPERATION menu.
9. Generate a heat demand by draining the appliance until it is cold or by
raising the value for Tset in the SERVICE menu. Use for this.
48
Instruction manual SGS
is
Full-load measurement
10. From the service menu, select:
-
SERVICE OPERATION | FULL LOAD
-
Confirm with
.
The appliance is now in "FULL LOAD mode" and will ignite.
SERVICE
Ê
FULL LOAD
Ê
65ÉC
Tset 70ÉC
RUNNING
11. The appliance is now running at FULL LOAD. Read the value from the CO2
meter and wait until this measured value has remained stable for some time.
This may take several minutes.
12. Then compare the measured CO2 value against the value from the
table (3.4.3 "Gas data").
Caution
The CO2 value at full load must be within ±1.0 vol% of the CO2 value stated
in the table (3.4.3 "Gas data").
SGS 28 to 60
13. If necessary, adjust the CO2 value using the adjuster screw until the value is
within the range listed in the table of CO2 values.
Use the Allen key supplied for this. The key can be found in the plastic bag
that is attached to the appliance.
CO2 adjustment (full load)
IMD-1095b R0
Note
Turning to the left (anticlockwise) means more gas (higher CO2 level) and
turning to the right (clockwise) means less gas (lower CO2 level).
Note
After conversion, you must check that the gas control valve is gastight.
14. If you have increased Tset, set it back to the original value using
.
15. Continue with the CO2 measurement under partial load.
Instruction manual SGS
49
3
is
Installation
SGS 80 to 120
16. If the measure value is within the range given in the table of CO2 values:
-
If you have increased Tset, set it back to the original value using
-
Continue with the CO2 measurement under partial load.
.
17. If the measured value is not within the range of CO2 values from the table,
then you may not start the appliance up:
-
Switch off the appliance.
-
Turn off the gas supply to the appliance.
-
Put the covers back on the appliance.
18. Contact the appliance's supplier.
Partial load measurement
19. From the service menu, select:
-
SERVICE OPERATION | PARTIAL LOAD
-
Confirm with
.
The appliance is now in "PARTIAL LOAD" mode and will ignite.
SERVICE
Ê
Ê
PARTIAL LOAD
65ÉC
Tset 70ÉC
RUNNING
20. The appliance is now running at PARTIAL LOAD. Read the value from the
CO2 meter and wait until this measured value has remained stable for some
time. This may take several minutes.
21. Compare the CO2 value measured against the value measured under full
load.
Caution
The CO2 value at partial load must be within ±0.3 vol% of the CO2 value
measured or adjusted under full load.
22. If necessary, adjust the CO2 value using the adjuster screw until the value is
within 0.3 vol% of the CO2 value under full load.
SGS 28 t/m 60 - CO2 adjustment (partial load)
IMD-1095c R0
50
Instruction manual SGS
is
SGS 80 t/m 120 - CO2 adjustment (partial load)
IMD-1097b R0
Note
Turning to the left (anticlockwise) means more less (lower CO2 level) and
turning to the right (clockwise) means more gas (higher CO2 level).
Note
After conversion, you must check that the gas control valve is gastight.
23. Remove the CO2 measurement probe from the measurement nipple of the
flue gas outlet pipe.
24. Put the cap back on the measurement nipple of the flue gas outlet pipe.
25. Shut off the gas supply.
26. Replace the covers.
3.13.4
Switching pressure measurement
To measure the switching pressure, proceed as follows:
1. Isolate (10.3 "Isolating the water heater from the mains") the appliance from
the power supply.
2. Carefully remove the covers from the appliance.
3. The electrical section is now visible.
4. Remove the black caps from the measurement point of the pressure switch.
5. Connect the + of the pressure gauge to the H of the measurement point of
the pressure switch.
6. Connect the - of the pressure gauge to the L of the measurement point of
the pressure switch.
7. Zero the pressure gauge.
8. Start (9 "Starting the water heater") the appliance.
9. The appliance will now run the heating cycle (9.3 "The appliance's heating
cycle").
Instruction manual SGS
51
3
is
Installation
10. Read the pressure from the meter at the moment when the appliance
switches from PRE PURGE to PRESSURE SWITCH. At this point, the
appliance's display will show:
a
ON
Ê Ê Ê
13:45 Thursday 63ÉC
Tset 65ÉC
PRESSURE SWITCH
11. Check whether the measured value matches the value from the
table (3.4.3 "Gas data").
Note
If the message PRESSURE SWITCH does not appear, there is a fault. This
must be resolved first by a qualified service engineer.
12. Shut off the gas supply.
13. Disconnect the pressure gauge.
14. Put the two black caps back on the pressure switch.
15. Replace the covers.
52
Instruction manual SGS
is
4
4.1
Introduction
Conversion to a
different gas category
Caution
The conversion may only by carried out by a competent person.
If the appliance has to operate on a different family of gases (liquid petroleum
gas or natural gas) or gas category other than that for which the appliance has
been configured at the factory, then the appliance will have be adapted using
a special conversion kit. You can order the conversion kit you need from the
supplier of your appliance. The conversion kit contains all the parts needed to
do the conversion. A description of how to do the conversion is also delivered
with the kit.
The following conversions are possible:
1. Conversion from natural gas to LPG.
2. Conversion from LPG to natural gas.
3. Conversion from natural gas to natural gas or LPG to LPG, if applicable.
Caution
After the conversion, you must check that the appliance is gastight and
check the supply pressure, gas control valve pressure, the CO2 value and the
switching pressure.
Instruction manual SGS
53
4
54
Conversion to a different gas category
is
Instruction manual SGS
gis
5
Filling
Installation diagram
Legend Vented and unvented
UNVENTED
Unused numbers are not applicable
1.
26
12 T
pressure relief valve
(mandatory if the mains water
pressure is too high)
T&P valve
stop valve (recommended)
non-return valve (mandatory)
circulation pump (optional)
drain valve
manual gas valve
(mandatory)
service stop valve
temperature gauge (optional)
condensation drain
draw-off points
VENTED
expansion valve (mandatory)
expansion vessel
(mandatory)
3-way aeration valve
(recommended)
cold water head tank
float switch
cold water supply
hot water supply
circulation pipe
gas supply
overflow pipe
overflow protection
12 T
11.
12.
13.
14.
15.
16.
11
4
8
B
5
D
14
10
4
14
S3
3
4
16
6
5
F
4
S2
37
G
Q
9
16
5
13
1
4
A
15
9
C
17
12 T
12 T
S1
42
A
4
B
8
19
E
4
18
B
5
D
14
H
26
4
10
14
3
S3
38
3
4
6
16
5
F
4
S2
37
G
Q
9
13
9
C
5.1
S4
T
2
14
18.
19.
A.
B.
C.
D.
E.
H.
38
3
11
17.
S1
11
14
3.
4.
5.
6.
9.
10.
42
Filling unvented
installations
S4
T
4
IMD-0787 R0
To fill the water heater, proceed as follows:
1. Open the stop valve (11) in the hot water pipe and, if present, the stop valves
(4) for the circulation pump (6).
2. Close the drain valve (9).
3. Open the nearest hot water draw-off point (14).
4. Open the stop valve (4) on the cold water side (A) so that cold water flows
into the water heater.
5. Completely fill the water heater. When a full water jet flows from the nearest
draw-off point, the water heater is full.
6. Bleed the entire installation of air, for example by opening all draw-off points.
Instruction manual SGS
55
5
Filling
gis
7. The water heater is now under water supply pressure. There should now be
no water coming out of the inlet combination expansion valve or (if used) out
of the T&P valve (3). If there is, the cause might be:
5.2
Filling vented
installations
-
The water supply pressure is greater than the specified
value (3.4.2 "General and electrical specifications").
Rectify this by fitting a pressure reducing valve (1).
-
The expansion valve in the protected cold supply set-up is defective or
incorrectly fitted.
To fill the water heater, proceed as follows:
1. Open the stop valve (11) in the hot water pipe and, if present, the stop valves
(4) for the circulation pump (6).
2. Close the drain valve (9).
3. Open the nearest hot water draw-off point (14).
4. Open the stop valve (4) on the cold water side (A) so that cold water flows
into the water heater.
5. Completely fill the water heater. When a full water jet flows from the nearest
draw-off point, the water heater is full.
6. Bleed the entire installation of air, for example by opening all draw-off points.
7. The water heater is now under water supply pressure. There should now be
no water coming out of the inlet combination expansion valve or (if used) out
of the T&P valve (3). If there is, the cause might be:
5.3
Filling solar heating
system
-
The water supply pressure is greater than the specified
value (3.4.2 "General and electrical specifications").
Rectify this by fitting a pressure reducing valve (1).
-
The expansion valve in the protected cold supply set-up is defective or
incorrectly fitted.
Note
No special safety measures are required when working with the diluted
glycol solution specified by the manufacturer. For more information about the
fluid, please contact the manufacturer.
Warning
Before filling the solar heating system to replenish the heating fluid, make
certain that:
•
The appliance is switched off (10.2 "Decommissioning the water heater for
a short period").
•
The solar heating system is switched off. Refer to the documentation of the
solar heating system.
•
The appliance has cooled down sufficiently to prevent personal injury
(burns).
Note
The filling procedure described in this manual is intended for the pump
system supplied by the supplier of the appliance. For any other system, you
should follow the procedure for that system.
56
Instruction manual SGS
gis
Warning
To avoid contaminating the glycol, you should flush the solar heating system
through with water before filling.
5.3.1
Flushing with water
1. Connect a water supply to the filling point of the pump station.
2. Connect a drain hose to the drain point.
3. Open the taps of both supply and drain point.
4. Open the water supply tap.
5. Allow the system to spool through until no further contamination comes out
of the drain hose.
6. Then shut off the water supply.
7. Drain all remaining water from the system.
8. Now you can fill the system with glycol.
5.3.2
Filling met glycol
1. Insert the hose of the glycol pump into the jerry can containing the glycol.
2. Connect the pump to the jerry can.
3. Connect the hose of the glycol pump to the inlet combination of the pump
station.
4. Open the valve of the inlet combination.
5. Plug the glycol pump into a mains socket.
6. Start the glycol pump using the ON/OFF switch on the glycol pump.
7. Stop the glycol pump as soon as the pressure gauge on the pump station
begins to rise.
8. Completely bleed the system of air at the air bleed point (26, see installation
diagram).
9. Close the air bleed when no further air comes out.
10. User the service menu (12.9.2 "Switching on the solar pump") to switch the
pump on.
Note
To ensure that the solar heating system is properly filled, the pump in the
solar heating system can be switched on for 2 minutes using the service menu.
11. Repeat steps 6 through 9 until glycol runs out of the air bleed (26).
Note
If an installation does not have a drain-back system, then it should be filled
up to pressure (1.5 bar).
If an installation does have a drain-back system, then it should not be
pressurised. For the installation, filling and drainage of a drain-back system,
please refer to the installation manual and users manual of the solar collectors.
12. Switch off the glycol pump.
Instruction manual SGS
57
5
Filling
gis
13. Close the valve of the inlet combination and disconnect the glycol pump
(including the hoses).
Note
Dispose of the residual glycol in the filler hose in an environment-friendly
manner, and according to local regulations.
58
Instruction manual SGS
gis
6
Draining
Installation diagram
Legend Vented and unvented
UNVENTED
Unused numbers are not applicable
1.
26
12 T
pressure relief valve
(mandatory if the mains water
pressure is too high)
T&P valve
stop valve (recommended)
non-return valve (mandatory)
circulation pump (optional)
drain valve
manual gas valve
(mandatory)
service stop valve
temperature gauge (optional)
condensation drain
draw-off points
VENTED
expansion valve (mandatory)
expansion vessel
(mandatory)
3-way aeration valve
(recommended)
cold water head tank
float switch
cold water supply
hot water supply
circulation pipe
gas supply
overflow pipe
overflow protection
12 T
11.
12.
13.
14.
15.
16.
11
4
8
B
5
D
14
10
4
14
S3
3
4
16
6
5
F
4
S2
37
G
Q
S4
9
5
13
1
4
A
15
9
C
17
12 T
12 T
S1
42
A
4
B
8
19
E
4
18
B
5
D
14
H
26
4
10
14
3
S3
38
3
4
6
16
5
F
4
S2
37
G
Q
S4
T
9
13
9
C
6.1
16
T
2
14
18.
19.
A.
B.
C.
D.
E.
H.
38
3
11
17.
S1
11
14
3.
4.
5.
6.
9.
10.
42
Draining unvented
installations
4
IMD-0787 R0
Some service activities require the water heater to be drained. The procedure
is as follows:
1. Activate the MENU with
.
MENU
»OFF
^ ON
È WEEK PROGRAM
2. Position the cursor in front of OFF.
3. Confirm OFF with
.
4. Wait until the fan has stopped. The
icon is then dimmed.
Caution
Failure to wait until the fan stops can cause damage to the water heater.
Instruction manual SGS
59
6
gis
Draining
5. Switch the water heater OFF (position 0) using the ON/OFF switch on the
control panel.
6. Isolate the water heater from the power supply by setting the isolator
between the water heater and the mains power supply to position 0.
7. Shut off the gas supply (10).
8. Close the stop valve (11) in the hot water pipe.
9. Close the supply valve (4) in the cold water inlet (A).
10. Open the drain valve (9).
6.2
Draining vented
installations
Some service activities require the water heater to be drained. The procedure
is as follows:
1. Activate the MENU with
.
2. Position the cursor in front of OFF.
3. Confirm OFF with
.
4. Wait until the fan has stopped. The
icon is then dimmed.
Caution
Failure to wait until the fan stops can cause damage to the water
heater.
5. Switch the water heater OFF (position 0) using the ON/OFF switch on the
control panel.
6. Isolate the water heater from the power supply by setting the isolator
between the water heater and the mains power supply to position 0.
7. Shut off the gas supply (10).
8. Close the stop valve (11) in the hot water pipe.
9. Close the stop valve (4) between the cold water head tank and the cold
water inlet (A).
10. Open the drain valve (9).
11. Bleed the water heater (or installation) so that it drains completely.
6.3
Draining solar
heating system
Note
No special safety measures are required when working with the diluted
glycol solution specified by the manufacturer. For more information about the
fluid, please contact the manufacturer.
1. Activate the MENU with
.
MENU
»OFF
^ ON
È WEEK PROGRAM
2. Position the cursor in front of OFF.
3. Confirm OFF with
.
4. Wait until the fan has stopped. The
icon is then dimmed.
Caution
Failure to wait until the fan stops can cause damage to the water
heater.
Warning
The fluid in the pipes and the pipes themselves can be extremely hot! You
should therefore wait until the water heater has cooled down sufficiently.
60
Instruction manual SGS
gis
5. Switch off the solar heating system.
6. Connect a hose to the lowest drain point in the solar heating system.
7. Insert the hose into the glycol jerry can.
8. Open the valve of the lowest drain point.
9. Open the air bleed point (26) of the solar heating system.
10. Close the drain point when the jerry can is full.
11. Insert the hose in a new jerry can.
12. Repeat steps 6 and 7 until no further glycol comes out of the system.
13. Close the air bleed point and the valve of the drain point.
14. Remove the hose.
Note
Dispose of the drained glycol in an environment-friendly manner, and
according to local regulations.
Instruction manual SGS
61
6
62
Draining
gis
Instruction manual SGS
gis
7
7.1
The control panel
Introduction
7.3
This chapter covers the following topics:
Explanation of icons
The table explains the meanings of the icons.
•
Control;
•
Explanation of icons;
•
ON/OFF switch on controller;
Name
Explanation
•
Navigation buttons;
Heat demand
•
PC connection.
Heat demand
detected
Purge
Pre- and post-purge
using fan
The control panel is completely menu-driven, and
comprises:
Pressure switch
Pressure switch is
closed
•
a 4-line display with 20 characters per line;
Glow
(Pre)glow
•
6 buttons for controlling the water heater (below
the display);
Gas control valve Gas control valve
open/ignition
•
6 graphical symbols (above the display);
Flame detection
•
a connector for a service PC;
Water heater
operational
•
an ON/OFF switch.
Solar heating
system
Solar energy is
heating the water
7.2
Icons and their meaning
Control
The buttons are divided into three groups:
•
Navigation buttons:
-
Buttons for UP
-
Enter:
-
Reset button:
7.4
, and DOWN
;
;
•
The main menu (11 "Main menu"):
•
the service program (12 "Service program"):
.
This chapter is specifically intended for the service
and maintenance engineer and installation
engineer.
;
In this manual, the display of the controller is shown as
in the figure, both with and without icons.
a
»START OPERATION
^ CHANGE SETPOINT
È
Tset=70ÉC
ON/OFF switch on controller
The ON/OFF switch of the controller turns the water
heater ON and OFF. Note that in the OFF position the
water heater remains electrically live, in order for the
continuous pump to stay running.
INTERNAL CHECK
After switching on, the text INTERNAL CHECK
appears on the display for about 10 seconds. The
main menu (11 "Main menu") then appears. If no
selection is made in the main menu, the water heater
automatically switches to the OFF
mode (8.2 "Operating modes").
Note
To electrically isolate the water heater, you must
use the isolator between the water heater and the
mains power supply.
7.5
Navigation buttons
The use of these buttons is explained with the help of
the figure showing the main menu (11 "Main menu").
The navigation buttons are:
Instruction manual SGS
•
Buttons for UP
•
Enter:
•
Reset button:
, and DOWN
;
;
.
63
7
The control panel
gis
The arrows ^ and È indicate that you can scroll up
and/or down. Use the buttons and to scroll.
MENU
OFF
^»ON
È WEEK PROGRAM
EXTRA PERIOD
SETTINGS
The cursor » points to the option to be activated. In the
display as shown in the figure, you can scroll through
the main menu.
The main menu comprises: OFF, ON,
WEEK PROGRAM, EXTRA PERIOD and
SETTINGS. You have to scroll down further to see the
options EXTRA PERIOD and SETTINGS.
The selected option is confirmed using
.
Pressing the
button takes you back one page
in a menu and discards all options selected in the
current menu.
Note
The
button is also used to reset the water
heater following an error.
7.6
PC connection
The PC connection is exclusively intended to enable
technicians from A.O.Smith to read the status and
history of the water heater. These details can be
important for troubleshooting and/or resolving
complaints.
64
Instruction manual SGS
gis
8
8.1
Status of the water
heater
Introduction
This chapter covers the following topics:
•
Operating modes;
•
Error conditions;
•
Service condition;
•
Anode warning;
•
Q/T Sensor warning;
•
Collector temperature warning
8.2
Operating modes
8.2.2
In this mode, the water heater continually responds to
the hot water demand. The figure shows the display
with the following information:
•
line one: the text ON;
•
line two: the time, the day and T1. (9.3 "The
appliance's heating cycle")
•
line three: the programmed water temperature
Tset;
•
line four: is empty when the water heater is idle, or
depending on the operating cycle (9.3 "The
appliance's heating cycle"), displays a text such as
HEAT DEMAND.
When running, the water heater has four basic
operating modes, namely:
•
OFF
•
ON
•
EXTRA
•
PROG
8.2.1
OFF
In this mode, the frost protection is activated. The
figure shows the display with the following information:
•
line one: the text OFF;
•
line two: the time, the day and T1. (9.3 "The
appliance's heating cycle")
•
lines three and four: the text
FROST PROTECTION ACTIVATED.
OFF
13:45 Thursday 6ÉC
FROST PROTECTION
ACTIVATED
ON
ON
13:45 Thursday 67ÉC
Tset 75ÉC
8.2.3
EXTRA
In this mode, one extra period is programmed and
activated. In this mode, the OFF orPROG mode is
temporarily overruled to fulfil a single period of
demand. When the period has passed, the water
heater automatically returns to the previous operating
mode. The figure shows the display with the following
information:
•
line one: the text EXTRA;
•
line two: the time, the day and T1; (9.3 "The
appliance's heating cycle")
•
line three: the switch-on time and the related water
temperature setting;
•
line four: the text PERIOD ACTIVATED.
EXTRA
12:30 Thursday 76ÉC
TH 12:45
Tset 75ÉC
PERIOD ACTIVATED
Instruction manual SGS
65
8
8.2.4
gis
Status of the water heater
PROG
In this mode a preset week program is active, and the
water heater responds continually to demand within
the time periods set in the week program. There are
two distinct situations possible in this mode:
PROG
10:00 Monday
76ÉC
MO 11:15
Tset 75ÉC
8.3
Error conditions
The figure shows an example of an error condition.
If the water heater enters this condition, the display
will show the following information:
•
line one: error code comprising a letter and two
digits, followed by the error description;
•
lines two to four: alternately, a brief explanation of
the error, and a brief action to resolve the error.
S04: SENSOR ERROR
1. The current time falls within a set time period
of the week program.
CHECK
SENSOR OR DUMMY
The figure shows the display with the following
information:
-
line one: the text PROG;
-
line two: the time, the day and T1; (9.3 "The
appliance's heating cycle")
-
line three: the next scheduled switch-off time
and the water temperature Tset of the active
period
-
line four: is empty, or depending on the
operating cycle (9.3 "The appliance's
heating cycle") , displays a text such as
HEAT DEMAND.
PROG
12:00 Monday
76ÉC
MO 11:15
PERIOD ACTIVATED
2. The current time falls outside a set time period
of the week program.
The figure shows the display with the following
information:
-
line one: the text PROG;
-
line two: the time, the day and T1; (9.3 "The
appliance's heating cycle")
-
line three: the next scheduled switch-on
time;
-
line four: displays the text
PERIOD ACTIVATED.
Caution
The displayed action to resolve the error may only
be performed by a service and maintenance engineer.
There are various types of errors:
•
LOCK OUT ERRORS
When the cause has been removed, these errors
require a reset with the
button before the
water heater can resume operation.
•
BLOCKING ERRORS
These errors disappear automatically once the
cause of the error has been removed, after which
the water heater resumes operation by itself.
The display does not show what type of error has been
detected. A comprehensive overview of the errors is
provided elsewhere in the manual (13 "Errors").
If, as end-user, you find the water heater in an error
condition, you may attempt to re-start the water heater
by pressing the
button once.
However, if the error returns or occurs several times in
a short time, you must contact your service and
maintenance engineer.
In all modes, the temperature may at any moment
drop below the desired temperature. The water heater
then enters an operating cycle. This operating cycle is
identical (9.3 "The appliance's heating cycle") for all
basic operating modes.
Note
Setting and if necessary programming of the basic
operating modes are described in the main
menu (11 "Main menu") chapter.
66
Instruction manual SGS
gis
8.4
Service condition
The figure shows the message
!!!
WARNING
!!!
MAX. BURNING HOURS:
SERVICE REQUIRED
SERVICE REQUIRED. If this message appears, the
water heater needs a service and maintenance
inspection. In this case, contact your service and
maintenance engineer.
8.7
Collector temperature warning
This message appears whenever the collector
temperature is too high. This message disappears
automatically. If the message does not disappear, you
must contact your service and maintenance engineer.
!!!
WARNING
!!!
TEMPERATURE
COLLECTOR
TOO HIGH
Note
The message SERVICE REQUIRED is based on
the number of expired burning hours and the preset
service interval. If the service interval has been
incorrectly selected, contact the service and
maintenance engineer for instructions on how to
rectify this. Information on the frequency of
maintenance is provided elsewhere in the
manual (14 "Service interval").
8.5
Anode warning
This message appears when the anode protection is
no longer active. If the message appears, you must
contact your service and maintenance engineer.
!!!
WARNING
!!!
POWER ANODE
MALFUNCTION
Note
The water heater continues to function when this
message appears.
8.6
Q/T Sensor warning
This message appears if the Q/T sensor has not been
connected (properly) but has been selected in the
service programme (12.9.5 "Setting the Q/T sensor").
If the message appears, you must contact your
service and maintenance engineer.
!!!
WARNING
!!!
Q/T SENSOR NOT
CORRECTLY CONNECTED
Instruction manual SGS
67
8
68
Status of the water heater
gis
Instruction manual SGS
gis
9
9.1
Starting the water
heater
Introduction
This chapter covers the following topics:
•
Starting the appliance.
•
The appliance's heating cycle.
Note
The first time the water heater is started, you must
enter (12.9 "Solar heating system configuration") the
settings of the solar heating system.
9.2
Starting the appliance
Start the water heater as follows:
5. Press once on the blue arrow ( ) to position the
. The
cursor beside ON, then press
display shown in the figure will appear.
a
»START OPERATION
^CHANGE SETPOINT
È
Tset=65ÉC
6. Confirm the selection START OPERATION with
.
2. Open (3.5 "Installation diagram") the manual gas
valve.
The appliance is now in "ON mode". If there is a
heat demand, the appliance will run through the
heating cycle (9.3 "The appliance's heating
cycle").
3. Switch on the power to the water heater using the
isolator between the water heater and the power
supply.
If the heating cycle is not run, there is no heat
demand; if this is the case, Tset will probably need
to be set (11.4 "Setting the water temperature").
1. Fill the water heater (5 "Filling").
4. Switch the controller ON by setting the ON/OFF
switch to positionI.
The display will now show INTERNAL CHECK for
about 10 seconds and will then go to the main
menu.
a
INTERNAL CHECK
9.3
The appliance's heating cycle
The appliance's heating cycle is activated when the
measured water temperature (T1) falls below the
threshold value (Tset). This threshold value depends
on the currently selected appliance operating mode.
For example, if the appliance is in "OFF" mode (frost
protection), then this value is 5°C. If the appliance is in
"ON" mode, this threshold value is adjustable, for
example to 65°C.
The heating cycle runs successively through the
following states:
1. HEAT DEMAND;
2. PRE-PURGE;
a
3. PRESSURE SWITCH;
MENU
»OFF
^ ON
È WEEK PROGRAM
4. PRE-GLOW;
5. IGNITION;
6. RUNNING;
7. POST-PURGE.
The entire cycle is explained in the following example,
which assumes the water heater is in operating mode
ON.
Note
The same operating cycle applies to the other
operating modes.
Instruction manual SGS
69
9
When the water heater starts, it will run through the
following steps:
1. The water temperature drops below the set
temperature of (for example) 65°C. The controller
detects a heat demand and starts the operating
cycle.
-
The icon
-
The message HEAT DEMAND appears.
is activated.
a
ON
Ê
13:45 Thursday 63ÉC
Tset 65ÉC
HEAT DEMAND
2. Once demand is registered, the fan is started to
vent any gases that may be present. This phase is
called pre-purge and lasts about 15 seconds.
-
The icon
-
The message PRE PURGE appears.
is activated.
a
ON
Ê Ê
13:45 Thursday 63ÉC
Tset 65ÉC
PRE PURGE
3. During the pre-purge, the pressure switch closes.
-
The icon
is activated.
-
The message PRESSURE SWITCH
appears.
a
ON
Ê Ê Ê
13:45 Thursday 63ÉC
Tset 65ÉC
PRESSURE SWITCH
4. This is then followed by the (pre-)glow of the hot
surface igniter.
-
The icons
-
The icon
gis
Starting the water heater
and
are dimmed
is activated.
5. After a number of seconds pre-glow, the gas
control valve is opened and ignition takes place.
-
The icon
is activated.
-
The message IGNITION appears.
a
ON
Ê
Ê Ê
13:45 Thursday 63ÉC
Tset 65ÉC
IGNITION
6. After ignition, the flame is detected and the
appliance will be running. This means that actual
heating has started:
-
The icon
is dimmed.
-
The icon
is activated.
-
The message RUNNING appears.
a
ON
Ê
Ê Ê
13:45 Thursday 63ÉC
Tset 65ÉC
RUNNING
7. When the water is up to temperature, the heat
demand ceases and the post-purge starts. This
takes about 25 seconds.
-
The icons
,
and
are dimmed.
-
The icon
is activated.
-
The message POST PURGE appears.
a
ON
13:45:00
Thursday
Ê Ê
65ÉC
Tset 65ÉC
POST PURGE
8. Following the post-purge, the fan stops and the
pressure switch opens:
-
The icons
and
-
The message POST PURGE vanishes.
a
a
ON
Ê
Ê
13:45 Thursday 63ÉC
Tset 65ÉC
GLOW PLUG
ON
14:05 Thursday
are dimmed.
65ÉC
With any subsequent heat demand, the heating cycle
will resume from step 1.
70
Instruction manual SGS
gis
10
Shutting down
10.1 Introduction
10.3 Isolating the water heater from the
mains
This chapter describes:
•
Decommissioning the water heater for a short
period.
•
Isolating the water heater from the mains;
•
Decommissioning the water heater for a long
period.
10.2 Decommissioning the water heater for
a short period
To decommission the water heater for a short period,
you must activate the frost protection.
The frost protection will prevent water from freezing in
the water heater.
Activate the frost protection as follows:
1. Press button
2. Using
and
Confirm with
to select the main menu.
, place the cursor beside OFF.
.
OFF
13:45 Thursday 6ÉC
FROST PROTECTION
ACTIVATED
The frost protection cuts in when the water
temperature drops below 5°C. The text FROST will
then appear on line one of the display. The water
heater will heat the water to 20°C (Tset) before
dropping back to mode OFF.
Note
These values of 5°C and 20°C cannot be adjusted.
Caution
The anode protection remains active when the
OFF mode is selected.
Note
If the water heater is not used for longer than two
months and the water is not drained, air bubbles may
form in the water heater. This can lead to air in the
water pipes.
The water heater may only be isolated from mains
power in the correct way. The correct procedure is as
follows:
1. Activate the MENU with
.
2. Position the cursor in front of OFF.
3. Confirm OFF with
.
MENU
»OFF
^ ON
È WEEK PROGRAM
Caution
Failure to wait until the fan stops can cause
damage to the water heater.
4. Wait until the fan has stopped. The
dimmed.
icon is then
5. Switch the water heater OFF (position 0) using
the ON/OFF switch on the control panel.
6. Isolate the water heater from the power supply by
setting the isolator between the water heater and
the mains power supply to position 0.
Note
Setting the main switch between the water heater
and the electricity mains to 0 will switch off the power
supply to the potentiostat; there is then no longer any
anode protection.
10.4 Decommissioning the water heater for
a long period
Drain the water heater if you are decommissioning it
for a long period. Proceed as follows:
1. Isolate the water heater from the power
supply (10.3 "Isolating the water heater from the
mains").
2. Shut off the gas supply.
3. Close the stop valve in the hot water pipe.
4. Close the supply valve of the protected cold supply
set-up.
5. Open the drain valve
6. Bleed the water heater (or installation) so that it
drains completely.
Instruction manual SGS
71
10
72
Shutting down
gis
Instruction manual SGS
gis
11
Main menu
11.1 Introduction
The MENU is reached by pressing the
controller.
button on the
MENU
»OFF
^ ON
È WEEK PROGRAM
EXTRA PERIOD
SETTINGS
11.2 Notation convention for menu-related
instructions
The MENU ( ) of the controller is divided into submenus. For example, SETTINGS is one of the
functions reached from the main menu. The menu
SETTINGS is itself divided into sub-menus. For
example, LANGUAGE is a sub-menu of SETTINGS.
So, for example, to select menu LANGUAGE, this
manual employs the following convention:
Confirm with
The main menu comprises:
•
•
•
•
•
OFF
Select this option if you wish to shut the water
heater down (10 "Shutting down") for a brief
period, but do not wish to drain it. In this mode, the
frost protection is active. This prevents water from
freezing in the water heater.
ON
In this mode, the water heater continually
responds to the hot water
demand (11.3 "Switching to "ON mode"").
WEEK PROGRAM
Select this option to allow the water heater to
respond to demand only during pre-programmed
periods (11.5 "Week program"). Outside those
periods, only frost protection is active.
EXTRA PERIOD
Select this option to overrule OFF mode or PROG
mode (i.e. Week program) so that a single
temporary period (11.10 "Extra period") of heat
demand will be fulfilled.
SETTINGS
Select this option to set (11.11 "Settings") the
language and the time. You can also use this
option to display the regulation interval
(temperature), and the ignition and working
speeds of the fan.
Instruction manual SGS
.
This means:
1.
: Activate the main menu with
.
2. SETTINGS: Using button and/or
SETTINGS and confirm with
go to
.
3. LANGUAGE: Using button
LANGUAGE
go to
and/or
4. Confirm with
. After pressing
,
you will have activated sub-menu LANGUAGE.
11.3 Switching to "ON mode"
You can switch the water heater to ON mode from any
operational mode, as follows:
1.
: ON | START OPERATION
Confirm with
.
Note
Also refer to the chapter on starting the water
heater (9 "Starting the water heater").
11.4 Setting the water temperature
11.4.1
Setting the water temperature via
the SET POINT MENU
Set the water temperature via:
1.
Note
If you fail to make any selection with the main
menu open, then after 30 seconds, the water heater
will automatically return to the mode it was previously
in.
: SETTINGS | LANGUAGE
•
: ON | CHANGE SETPOINT
Confirm with
.
START OPERATION
^»CHANGE SETPOINT
È
Tset=65ÉC
73
11
2. Use:
•
to increase the value;
•
to decrease the value.
•
Confirm with
.After confirming, the water
heater enters "ONmode".
SETPOINT
Setting water temperature during
ON mode
The water temperature can also be directly adjusted
when the water heater is in "ONmode". Simply use:
•
to increase the value;
•
to decrease the value.
•
Confirm with
11.6 Starting and stopping the week
program
The week program can be started up from any other
operating mode, as follows:
1.
: WEEK PROGRAM | START OPERATION
Confirm with
.
A week program can be shut down simply by
activating a different operating mode, for example the
"ON mode".
» 65ÉC
11.4.2
gis
Main menu
.
ON
13:45 Thursday 65ÉC
Tset»65ÉC
11.5 Week program
Using the week program, you can set the water
temperature for the days and times you want.
If the appliance is running under a week program, then
this is indicated on the display by the text PROG on the
first line (see the figure). The second line shows the
time of day, the day of the week and the temperature.
The third line shows the next switching time of the
week program and the programmed temperature. The
fourth line shows the text PROGRAM ACTIVATED.
PROG
07:55 Monday
64?C
MO 08:00
Tset 75?C
PROGRAM ACTIVATED
The appliance's default week program switches the
appliance on every day at 00:00 and off at 23:59. The
default water temperature setting is 65oC.
11.7 Changing the appliance's standard
week program
Note
First fill-in the desired week program on the
supplied week program card.
A week program is made up of a number of
programmable periods in which you can have the
appliance switch on and off. A period consists of:
•
switch-on time: day of the week, hours and
minutes:
•
switch-off time: hours and minutes;
•
the water temperature setting;
•
on/off setting for a program-controlled pump.
Note
The switch-off time must always be followed by a
switch-off time on the same day of the week. A
maximum of three periods may be programmed per
day. You can program a maximum of 21 periods.
Call up the menu for the week program as follows:
•
: WEEK PROGRAM | PROGRAM OVERVIEW.
Confirm with
.
WEEK PROGRAM
START OPERATION
^»PROGRAM OVERVIEW
È
If you want, you can change every setting in the
appliance's standard week program.
If the water temperature becomes too low while the
week program is running, the appliance will run
through the heating cycle (9.3 "The appliance's
heating cycle") and return to the week program.
The following topics are covered here:
•
Starting and stopping the week program
•
Changing the appliance's standard week program
•
Adding times to a week program
•
Deleting times from a week program
74
Instruction manual SGS
gis
The display shows the menu for the week program,
see the figure below. With the default setting, the
program switches on and off every day at 00:00 and
23:59 respectively, the water temperature is 65ºC and
the pump is switched on (P).
DAY
ON »SU
OFF SU
ON MO
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
TIME Tset
00:00 65?C P
23:59:00
00:00 65?C P
MO 23:59
TU 00:00 65?C P
TU 23:59
WE 00:00 65?C P
WE 23:59
TH 00:00 65?C P
TH 23:59
FR 00:00 65?C P
FR 23:59
SA 00:00 65?C P
SA 23:59
INSERT
DELETE
START OPERATION
Example
As an example, we will set the switch-on time for
Sunday to 08:15 hours, and the matching switch-off
time to 12:45 hours. The water temperature will be set
to 75ºC and the pump will run continuously.
The following settings are entered one by one using
the menus: the switch-on time, the switch-off time, the
desired water temperature, and the mode of the
program-controlled pump.
11.7.1
Week program: setting the switchon time
1. Bring the cursor to SU
Confirm with
.
ON »SU 00:00
OFF SU 23:59
Tset 65ÉC
PUMP ON
SAVE
The day indicated by » blinks.
2. Use and to set the desired day. In the example
this is SU (Sunday).
Confirm with
ON
OFF
Tset
PUMP
.
SU»00:00
SU 00:59
65ÉC
ON
SAVE
3. Use and
is 08.
Confirm with
to set the hours. In the example, this
.
The cursor moves to the minute digits, which will
blink.
ON
OFF
Tset
PUMP
SU 08»00
SU 08:00
65ÉC
ON
SAVE
Note
Because the switch-off time can never be earlier
than the switch-on time, the switch-off time setting is
automatically adjusted with the switch-on time.
4. Use and
this is 15.
Confirm with
to set the minutes. In the example,
.
The cursor moves to the switch-off hour digits,
which will blink.
ON
OFF
Tset
PUMP
11.7.2
SU 08:15
SU»08:15
65ÉC
ON
SAVE
Week program: setting the switchoff time
1. Use and
is 12.
Confirm with
to set the hours. In the example, this
.
The cursor moves to the minute digits, which will
blink.
ON
OFF
Tset
PUMP
SU 08:15
SU 12»15
65ÉC
ON
SAVE
2. Use and
this is 45.
Confirm with
to set the minutes. In the example,
.
The cursor moves to the desired water
temperature.
ON
SU 08:15
OFF SU 12:45
Tset»65ÉC
PUMP ON
SAVE
The cursor moves to the hour digits, which will
blink.
Instruction manual SGS
75
11
11.7.3
Week program: setting the water
temperature
1. Use and to set the water temperature. In the
example this is 75°C.
Confirm with
.
The cursor moves to PUMP ON
ON
SU 08:15
OFF SU 12:45
Tset 75ÉC
PUMP»ON SAVE
11.7.4
Week program: setting the programcontrolled pump
1. If required, a pump can be controlled during the
period. Use and to set PUMP ON . The pump
ensures a regular circulation of hot water in the hot
water pipes. You can skip this step if you there is
no pump in your hot water circuit.
Confirm with
.
The cursor moves to SAVE.
ON
OFF
Tset
PUMP
SU 08:15
SU 12:45
75ÉC
ON »SAVE
2. Confirm with
11.8 Adding times to a week program
Call up the menu to INSERT switch-on and switch-off
times into a week program as follows:
1.
: WEEK PROGRAM | PROGRAM OVERVIEW.
Confirm with
.
DAY
ON »SU
OFF SU
ON MO
TIME Tset
08:15 75ÉC P
12:45
00:00 65ÉC P
OFF MO
ON TU
OFF TU
23:59
00:00 65ÉC P
23:59
3. If you wish, you can use to scroll to another day,
and change more switch-on (11.7.1 "Week
program: setting the switch-on time") and switchoff (11.7.2 "Week program: setting the switch-off
time") times .
4. After changing all desired switch-on and switch off
times, you can start running the week program:
Scroll with to START OPERATION.
Confirm with
.
.
WEEK PROGRAM
START OPERATION
^»PROGRAM OVERVIEW
È
The display shows the menu for the week
program. The cursor points to the active period.
DAY
ON »SU
P
OFF SU
ON MO
TIME Tset
08:15:00 75?C
12:45:00
00:00 65?C P
....................
....................
OFF SA 23:59
INSERT
DELETE
START OPERATION
2. Scroll
The display shown in the figure will appear.
76
gis
Main menu
to INSERT.
Confirm with
.
The submenu for adding a period will appear.
ON »SU 08:15
OFF SU 12:45
Tset 75ÉC
PUMP ON
SAVE
Example
As an example, we will program an extra period in
which the switch-on time is set to 18:00 and the
corresponding switch-off time to 22:00. The water
temperature will be set to 75oC and the pump will run
continuously.
DAY
ON »SU
OFF SU
ON MO
TIME Tset
18:00 75?C P
22:00
00:00 65?C P
OFF MO 23:59
....................
....................
OFF SA 23:59
INSERT
DELETE
START OPERATION
Instruction manual SGS
gis
3. Proceed as follows:
a. Set the switch-on time (11.7.1 "Week program:
setting the switch-on time").
b. Set the switch-off time (11.7.2 "Week program:
setting the switch-off time").
c. Set the water temperature (11.7.3 "Week
program: setting the water temperature").
d. Set the program-controlled
pump (11.7.4 "Week program: setting the
program-controlled pump").
5. To activate the week program with the new period
added, scroll down with to
START OPERATION and confirm with
.
11.9 Deleting times from a week program
All switch-on/off times are shown sequentially in the
display. Assume that the switch-on/off times for the
water heater are programmed as in the figure.
DAY
ON »SU
OFF SU
ON SU
TIME Tset
08:15 75ÉC P
12:45
18:00 75ÉC P
OFF SU 22:00
....................
....................
OFF SA 23:59
INSERT
DELETE
START OPERATION
To delete a period, proceed as follows:
1.
: WEEK PROGRAM | PROGRAM OVERVIEW.
Confirm with
.
MENU
OFF
^»ON
È WEEK PROGRAM
2. Scroll with
Confirm with
to PROGRAM OVERVIEW.
.
WEEK PROGRAM
START OPERATION
^»PROGRAM OVERVIEW
È
The display shows the menu for the week
program.
3. Scroll with
Confirm with
to DELETE.
.
Instruction manual SGS
To warn you that you are now working in the delete
sub-menu, the cursor is replaced with an
exclamation mark (!) and the period settings will
blink.
DAY
ON !SU
OFF SU
ON SU
TIME Tset
08:15 75ÉC P
12:45
18:00 75ÉC P
OFF SU 22:00
....................
....................
OFF SA 23:59
INSERT
DELETE
START OPERATION
4. Scroll with to the day to be deleted. For
example, SU (Sunday) in the second period. See
the figure.
Confirm with
DAY
ON !SU
OFF SU
ON MO
.
TIME Tset
18:00 75ÉC P
22:00
00:00 65ÉC P
OFF MO 23:59
....................
....................
OFF SA 23:59
INSERT
DELETE
START OPERATION
5. The lines showing switch-on/off times are replaced
by the text DELETE BLOCK?. See the figure.
Confirm with
(or use
DAY
ON !
OFF
ON MO
.
to cancel)
TIME Tset
DELETE
BLOCK?
00:00 65ÉC P
The switching period has been deleted. You will return
now to the week program menu. The cursor points to
the first programmed period.
DAY
ON »SU
OFF SU
ON MO
TIME Tset
08:15 75ÉC P
12:45
00:00 65ÉC P
OFF MO 23:59
....................
....................
OFF SA 23:59
INSERT
DELETE
START OPERATION
77
11
6. Scroll with
to START OPERATION.
Confirm with
.
The week program is active.
Use an extra period when you either want to have the
water heater switch on and off for a certain period,
either without modifying the active week program, or
without taking the water heater out of OFF mode (frost
protection active).
If the water heater is running under an "extra period",
then this is indicated in the display with the text
EXTRA.
EXTRA
10:00 Monday
76ÉC
MO 11:15
Tset 75ÉC
PERIOD ACTIVATED
During the extra period (11.10.1 "Programming an
extra period"), if the water temperature becomes too
low, the water heater will run through the operating
cycle (9.3 "The appliance's heating cycle"), then
return to the extra period.
The same settings can be made for an extra period as
for a week program (11.7 "Changing the appliance's
standard week program").
11.10.1 Programming an extra period
1. Call up the menu for entering an extra period via:
: EXTRA PERIOD
Confirm with
.
MENU
ON
^ WEEK PROGRAM
ȻEXTRA PERIOD
The display show the settings for the extra period.
Setting the switch-on time
1. Use
SU.
and
Confirm with
to set the day. In the example this is
.
The cursor moves to the hour digits, which will
blink.
ON
OFF
Tset
PUMP
78
2. Use and to set the switch-on hour to the
desired value. In the example, this is 08.
Confirm with
.
The cursor moves to the minute digits, which will
blink.
11.10 Extra period
2.
gis
Main menu
SU»00:00
SU 00:59
65ÉC
ON
START
ON
OFF
Tset
PUMP
SU 08»00
SU 08:00
65ÉC
ON
START
Note
Because the switch-off time can never be earlier
than the switch-on time, the switch-off time setting is
automatically adjusted with the switch-on time.
3. Use and
this is 15.
Confirm with
to set the minutes. In the example,
.
The cursor moves to the hour digits of the switchoff period.
ON
OFF
Tset
PUMP
SU 08:15
SU»08:15
65ÉC
ON
START
Setting the switch-off time
1. Use and
is 012.
Confirm with
to set the hours. In the example, this
.
The cursor moves to the minute digits, which will
blink.
ON
OFF
Tset
PUMP
SU 08:15
SU 12»15
65ÉC
ON
START
2. Use and
this is 45.
Confirm with
to set the minutes. In the example,
.
The cursor moves to the water temperature. See
the figure
ON
SU 08:15
OFF SU 12:45
Tset»65ÉC
PUMP ON
START
Instruction manual SGS
gis
Setting the water temperature
11.11.1
1. Use and to set the water temperature. In the
example this is 75°C.
To set menu language:
Confirm with
.
The cursor moves to PUMP ON
ON
SU 08:15
OFF SU 12:45
Tset 75ÉC
PUMP»ON START
Setting menu language
MENU
WEEK PROGRAM
^ EXTRA PERIOD
ȻSETTINGS
1. Call up the menu for selecting the language as
follows:
2.
: SETTINGS.
Setting the program-controlled pump
Confirm with
1. If required, a pump can be controlled during the
period. Use and to set PUMP ON. The pump
ensures a regular circulation of hot water in the hot
water pipes. You can skip this step if you there is
no pump in your hot water circuit.
The display shows the menu for settings.
Confirm with
.
The cursor moves to START.
ON
OFF
Tset
PUMP
SETTINGS
»LANGUAGE
^ DAY/TIME
È SPECIFICATIONS
3. The cursor is positioned beside LANGUAGE
Confirm with
SU 08:15
SU 12:45
75ÉC
ON »START
2. Confirm with
.
.
The display shows the language selection menu.
.
The extra period has been programmed.
Note
Once the extra period has completed running, the
controller returns to the mode ON, OFF or
WEEK PROGRAM. The following week, the extra
period will NOT be automatically switched back on.
LANGUAGE
ENGLISH
^ NEDERLANDS
ȻDEUTSCH
FRANCAIS
ITALIANO
CZECH
ESPANOL
4. Scroll with
to the desired language.
Confirm with
11.11 Settings
The language is set.
Using the option SETTINGS you can adjust certain
settings, and display certain water heater
specifications:
11.11.2
•
•
Adjustable settings
-
Menu language.
-
Current day of week and time.
Displayable water heater specifications, this
category is only relevant to the installation
engineer and/or service and maintenance
engineer
-
Regulation interval (water temperature).
-
Ignition speed of fan.
-
Working speed of fan.
Instruction manual SGS
.
Setting day and time
To enter the time and day:
MENU
WEEK PROGRAM
^ EXTRA PERIOD
ȻSETTINGS
1. Call up the menu for entering the day and time as
follows:
2.
: SETTINGS.
Confirm with
.
The display shows the menu for settings.
79
11
3. Scroll with
gis
Main menu
and
to DAY/TIME
Confirm with
11.11.3
.
SETTINGS
LANGUAGE
^»DAY/TIME
È SPECIFICATIONS
Displaying water heater
specifications
Note
This category is solely intended for the installation
engineer and/or service and maintenance engineer.
The display shows the sub-menu for adjusting the
day.
DAY
»Sunday
^ Monday
È Tuesday
Call up the menu to display the water heater
specifications as follows:
1.
: SETTINGS.
Confirm with
.
MENU
WEEK PROGRAM
^ EXTRA PERIOD
ȻSETTINGS
Wednesday
Thursday
Friday
Saturday
2. Scroll with
to SPECIFICATIONS
Confirm with
4. The cursor is positioned beside Sunday.
Scroll with
and
to the desired day.
Confirm with
.
The day has been set. The display shows the submenu for adjusting the time.
TIME
»00:00
5. The cursor moves to the hour digits, which will
blink.
Scroll with and
example 15.
to the current hour, for
Confirm with
.
.
SETTINGS
LANGUAGE
^ DAY/TIME
ȻSPECIFICATIONS
The display shows the sub-menu for displaying
water heater specifications.
SPECIFICATIONS
»REGULATION INTERVAL
^ IGNITION SPEED
È WORKING SPEED
3. Scroll with to the section to be displayed, for
example REGULATION INTERVAL.
The corresponding display appears.
REGULATION INTERVAL
TIME
15»00
40_80ÉC
6. The cursor moves to the minute digits, which will
blink.
Scroll with
45.
and
to the next minute, for example
Confirm the minute setting with
TIME
15»45
The time has been set.
Note
The water heater takes no account of daylight
saving.
80
Instruction manual SGS
is
12
Service program
12.1 Introduction
The service program is used by the installation
engineer or service and maintenance engineer for:
Please refer to the table (3.4.2 "General and electrical
specifications") for the regulation interval and settings
for each water heater.
Displaying the water heater history
12.3 Displaying the error history
•
Displaying the error history
Display the error history as follows:
•
Displaying the water heater history
•
•
Display the selected water heater
•
Switching on the solar pump
•
Setting the service interval
•
Service mode
•
Setting legionella prevention
•
Solar heating system configuration
The controller will display an overview of "Blocking
errors" and "Lock out errors". In both cases, note that
the controller reserves 15 lines for the last 15 error
messages. If there are fewer than 15 error messages,
an ellipsis (...) is displayed. The display first shows the
"Blocking errors". When
is pressed, the
"Lock out errors" are then displayed.
•
Setting the central heating configuration
•
SERVICE MENU
»HYSTERESIS
^ ERROR HISTORY
È APPLIANCE HISTORY
SELECT APPLIANCE
PUMP RELAY
SERVICE INTERVAL
SERVICE OPERATION
ANTI LEGIONELLA
SETTINGS SOLAR
SETTINGS HEATING
These sub-menus are briefly described in the
following paragraphs. If you are not generally familiar
with the use of the displays and menus, first read the
relevant chapter (7 "The control panel").
Note
The notation convention for the service menu is
identical to that of the main menu (11.2 "Notation
convention for menu-related instructions"). The
difference is, you use
to bring up the service
program, instead of
which brings up the main
menu.
: ERROR HISTORY
The figure shows an example of "Blocking errors". In
this case, the text ERROR HISTORY is followed by
(B).
ERROR
S04
F06
È CO2
HISTORY(B)
SENSOR ERROR
IONIZATION
50 HZ ERROR
The figure shows an example of "Lock out errors". In
this case, the text ERROR HISTORY is followed by
(L).
ERROR HISTORY(L)
F02 FAN
F07 FLAME ERROR
È ...
Note
For an overview of all errors and the possible
causes, please refer to the relevant
chapter (13 "Errors").
12.4 Displaying the water heater history
The water heater history sub-menu is used to display
the burning hours, the number of ignitions, the number
of flame errors and the number of ignition errors.
12.2 Setting the hysteresis
Call up the menu to set the hysteresis as follows:
: HYSTERESIS DOWN
HYSTERESIS DOWN
»3ÉC
Instruction manual SGS
81
12
Call up the menu for displaying the water heater
history as follows:
•
is
Service program
Use
:SERVICE OPERATION to display the
SERVICE OPERATION menu.
: APPLIANCE HISTORY
The figure shows an example.
APPLIANCE HISTORY
BURNINGHOURS 000410
^IGNITIONS
001000
ÈFLAME ERRORS 000021
IGNIT ERROR
000013
12.5 Display the selected water heater
Call up the menu for displaying the water heater
selection as follows:
•
: SELECT APPLIANCE
The water heater number can be found on the
rating plate.
The water heater selection has been correctly
preset in the factory.
SELECT APPLIANCE
»5934
^ 8576
È 3379
6527
....
12.6 Setting the service interval
The service interval is a feature of the controller to help
the service and maintenance engineer set the
frequency of maintenance (14.2 "Determining service
interval").
The service interval is determined by the number of
months that the appliance has been running. This can
be set to 6, 9 and 12 months. The default service
interval is 12 months . When the preset number of
hours has been reached, an appropriate
message (8.4 "Service condition") will appear. Set the
service interval as follows:
•
: SERVICE INTERVAL
SERVICE INTERVAL
6
9 Months
»12
12.7 Service mode
The Installation engineer uses the SERVICE
OPERATION menu to adjust the water heater CO2
setting duringFULL LOAD and PARTIAL LOAD
operation.
82
SERVICE OPERATION
»FULL LOAD
PARTIAL LOAD
and can be used to switch between PARTIAL
LOAD and FULL LOAD.
If there is a heat demand, the water heater will first run
through a startup cycle, then continue to operate in
FULL LOAD or PARTIAL LOAD mode.
If there is no heat demand, the installation engineer
must create one. This can be done by draining the
water heater until it is cold or by temporarily raising the
set point using . After adjustment, the set point must
be set back to the original value using .
if you exit the SERVICE OPERATION menu or if no
buttons are pressed for a period of 15 minutes, the
water heater will revert to the original operating mode.
Temporarily raising the setpoint during FULL
LOAD or PARTIAL LOAD
1.
:>:SERVICE OPERATION.
SERVICE OPERATION
»FULL LOAD
PARTIAL LOAD
2. Select FULL LOAD or PARTIAL LOAD.
The example below describes the situation for
FULL LOAD, which is identical to that for
PARTIAL LOAD.
3. Confirm with
.
a
SERVICE Ê
FULL LOAD
Ê Ê
47ÉC
Tset 65ÉC
RUNNING
4. To create a heat demand, you can temporarily
raise the set point using to e.g. 70oC.
a
SERVICE Ê
FULL LOAD
Ê Ê
47ÉC
Tset 70ÉC
RUNNING
5. Confirm with
.
6. After adjusting for the CO2 value (3.13.3 "CO2
adjustment"), you must use to restore the set
point to its original value.
Instruction manual SGS
is
7. Press
twice to return to the MENU menu via the
SERVICE OPERATION menu.
MENU
»OFF
^ ON
È
WEEK PROGRAM
EXTRA PERIOD
SETTINGS
12.8 Setting legionella prevention
To prevent infection with legionella bacteria, the water
heater heats the water to 65 °C once per week, for 1
hour. This period is adjustable. By default, this period
is set to Monday from 02:00 to 03:00 hours.
12.8.1
Now set the day and time the same way as
described for setting an extra period in the week
menu (11.10.1 "Programming an extra period"). In
this case however, the pump will be automatically
started.
•
Select START to start.
12.9 Solar heating system configuration
Use the solar heating system settings menu to reach
the menus shown here:
SETTINGS SOLAR
»DRAIN BACK
^ TEST SOLAR PUMP
È SOLAR DIFFERENCE
Q/T SENSOR
SOLAR LIMIT
CONTRIBUTION
TEMPERATURES
Switching legionella prevention on
and off
To switch legionella prevention on or off, select:
•
•
: ANTI LEGIONELLA
ANTI LEGIONELLA
»YES
NO
12.9.1
Setting the drain-back tank
Use this menu to specify whether the solar heating
system is equipped with a drain-back tank for the
heating fluid. Call up the menu as follows:
•
:SETTINGS SOLAR | DRAIN BACK
The default is NO.
•
Select NO to switch legionella prevention off.
•
Select YES to switch legionella prevention on. The
following screen appears:
ON MO 02:00 LEG
OFF MO 03:00
Tset 65ÉC
»START Change
•
Select START to activate the period currently
displayed.
The following display appears. This display
indicates that legionella prevention is switched on.
Note
During commissioning, it is important to check
whether this setting corresponds with the
configuration of the solar heating system.
12.9.2
Switching on the solar pump
This menu lets you switch on the pump in the solar
heating system manually. Call up this menu as follows:
a
LEG
Ê
Ê Ê
02:45 Monday 60ÉC
MO 03:00 Tset 65ÉC
RUNNING
12.8.2
DRAIN BACK
YES
»NO
Changing legionella prevention
start time
If you wish to change the start time, select:
: ANTI LEGIONELLA | YES | Change
The following display appears.
•
: SETTINGS SOLAR | TEST SOLAR PUMP
The following display appears.
TEST SOLAR PUMP
»START
When START is selected, the pump will start to run for
two minutes. Once the 2 minutes have elapsed, the
pump stops running again.
ON ÈMO 02:00 LEG
OFF MO 03:00
Tset 65ÉC
START
Instruction manual SGS
83
12
12.9.3
Setting the solar limit
The solar limit temperature is the maximum water
temperature obtained in the appliance via the solar
heating system (measured by sensor T1).
This value can be set between 65 and 80°C. The
default value is 65°C.
If you set the solar limit higher than the set
point (11.4 "Setting the water temperature"), then the
solar pump will be started in order to heat the water
further once the set point has been reached. However,
this only makes sense if the solar heating system is
actually generating heat. This makes use of the
difference between the temperature at the top of the
solar collector (S1) and that in the appliance
(measured by S2).
Call up the menu for the solar limit as follows:
•
: SETTINGS SOLAR | SOLAR LIMIT
SOLAR LIMIT
65ÉC
Please refer to the table (3.4.2 "General and electrical
specifications") for the adjustment range and default
value for each appliance.
12.9.4
Setting the solar difference
The solar difference is a value that influences how the
operating cycle of the water heater proceeds. Call up
the menu as follows:
•
is
Service program
: SETTINGS SOLAR |
SOLAR DIFFERENCE
12.9.6
Displaying contribution
This option enables you to read out how much energy
the solar heating system supplies. For this data to be
displayed, the installation must be equipped with a
Q/T sensor (12.9.5 "Setting the Q/T sensor").
Three values are reported on the display:
•
ACTUAL, actual energy: the amount of energy
currently being supplied.
•
LAST 24hr, energy supplied over last 24 hours.
•
TOTAL, total energy supplied since day 1.
Call up this menu as follows:
•
: SETTINGS SOLAR | CONTRIBUTION
CONTRIBUTION
ACTUAL
00000 kW
LAST 24hr
00000 kJ
TOTAL
00000 MJ
12.9.7
Displaying temperatures
This option lets you read what the solar heating
system's sensors are recording. Three values are
reported on the display:
•
S1, temperature in the collector.
•
S2, temperature between the inlet and outlet of the
heat exchanger in the tank.
•
S3, temperature at top of the storage tank.
Call up this menu as follows:
•
: SETTINGS SOLAR | TEMPERATURES
TEMPERATURES
S1 84ÉC
S2 45ÉC
S3 62ÉC
SOLAR DIFFERENCE
5ÉC
Please refer to the table (3.4.2 "General and electrical
specifications") for the regulation interval and default
value for each water heater.
12.9.5
Setting the Q/T sensor
The energy contribution of the solar heating system
can be calculated (12.9.6 "Displaying contribution")
using the Q/T sensor. This calculation is only possible
if your installation is equipped with such a Q/T sensor.
If this is the case, then you must set this value to YES,
otherwise NO. Call up the corresponding menu as
follows:
•
12.10 Setting the central heating
configuration
Use this menu to specify whether a central heating
system is connected to the installation.
Note
This function is not yet available.
•
: SETTINGS HEATING
SETTINGS HEATING
: SETTINGS SOLAR | Q/T SENSOR
Q/T SENSOR
YES
»NO
84
Instruction manual SGS
gis
13
Errors
13.1 Introduction
A distinction is made between:
•
General errors
General errors are not reported on the display. General errors are:
-
Gas smell
-
Display does not light up
-
Insufficient or no hot water.
-
Water leakage
-
Explosive ignition.
The manual includes (13.2 "Troubleshooting table for general errors") a
table with general errors.
•
Displayed errors
Errors are reported on the display as follows:
-
Line one: an error code and a brief description. The code consists of a
letter and two digits.
-
Lines two, three and four: a long description, alternating with a
recommended action. See the figures. The first shows a possible
error, the second shows the appropriate checking action.
S02: SENSOR ERROR
TOP TANK
SENSOR 1
NOT CONNECTED
S02: SENSOR ERROR
CHECK TOP TANK
SENSOR
There are various types of errors, all falling into one of two groups:
-
LOCK OUT ERRORS
When the cause has been removed, these errors require a reset with
the
button, before the water heater can resume operation.
-
BLOCKING ERRORS
These errors disappear automatically once the cause of the error has
been removed, after which the water heater resumes operation by
itself.
The manual includes (13.3 "Troubleshooting table for displayed errors") a
table of error messages that can appear on the display.
•
Warnings on the display
The warnings (13.4 "Warnings on the display") can also apply to the solar
heating system.
Instruction manual SGS
85
is
13.2 Troubleshooting table for general errors
Warning
Maintenance may only be performed by a qualified service and maintenance engineer.
General errors
Indication
Cause
Gas smell
Gas leak
Measure
Warning
Close the main gas valve at once.
Warning
Do not operate any switches.
Remark
Warning
Immediately contact your installation engineer or local gas
company.
Warning
No naked flames.
Warning
Ventilate the boiler room.
The display is off
The water heater is off
Start the water heater (9 "Starting the water heater")
No supply voltage
present
1. Check whether the isolator is ON.
2. Check that there is power to the isolator.
See the electrical diagram (17 "Appendices").
If the error persists, consult your installation engineer.
3. Check whether the ON/OFF switch of the controller is ON
(position I).
4. Check whether there is power to the electrical connector block.
5. The measured voltage must be 230 VAC (-15%, +10%)
Defective fuse(s)
Instruction manual SGS
Replace fuse(s)
To replace the fuses, you must contact your installation engineer.
86
is
Indication
Cause
Measure
Remark
Water leakage
Leakage from a water
connection (threaded)
Tighten the threaded connection
If the leak persists, consult your installation engineer
Condensate leakage
Check that the condensation water discharge is working properly.
Rectify if necessary
Leakage from another Trace the leak
nearby water water
heater or pipe segment
Leakage from the water Consult the supplier and/or manufacturer
heater tank
Explosive ignition
Insufficient or no hot
water
Incorrect supply
pressure and/or CO2
Set (3.13 "Check the supply pressure, gas control valve pressure, If ignition is not improved, consult your installation engineer.
CO2 value and switching pressure") the correct supply pressure
and/or CO2.
Contaminated burner
Clean the burner (15.4.2 "Cleaning the burner")
The water heater is off
Start the water heater (9 "Starting the water heater")
No supply voltage
present
1. Check whether the isolator is ON.
2. Check that there is power to the isolator.
See the electrical diagram (17 "Appendices").
If the error persists, consult your installation engineer.
3. Check whether the ON/OFF switch of the controller is ON
(position I).
4. Check whether there is power to the electrical connector block.
5. The measured voltage must be 230 VAC (-15%, +10%)
Hot water supply is
used up
Reduce hot water consumption and give the water heater time to
heat up.
The controller is in the
OFF position.
Switch the controller to the ON position (11.3 "Switching to "ON
mode"").
Temperature (Tset) is
set too low.
Set temperature (Tset) to a higher setting (11.4 "Setting the water
temperature").
Instruction manual SGS
If there continues to be insufficient or no hot water, consult your
installation engineer.
87
is
Indication
Cause
Measure
Remark
Glycol leakage
Leakage from a fluid
connection (threaded)
Tighten the threaded connection.
If the leak persists or a component needs replacement, consult
your installation engineer
Leakage from a
component
1. Tighten component joints
Leakage from solar
heating system
Consult the supplier and/or manufacturer
Instruction manual SGS
2. Any defective components must be replaced
88
is
13.3 Troubleshooting table for displayed errors
Displayed errors
Code + description
Cause
Measure
S01 (blocking error)
Sensor is not (correctly) Connect the sensor lead to JP3
connected
See the electrical diagram (17 "Appendices").
Open circuit from
temperature sensor T2
at the bottom of the
tank.
Damaged cable and/or Replace the cable and/or sensor.
defective sensor
To replace the necessary parts, you must contact your installation
engineer
S02 (blocking error)
Sensor is not (correctly) Connect the sensor lead to JP5
connected
See the electrical diagram (17 "Appendices").
Open circuit from
sensor 1 of
temperature sensor T1
at the top of tank(1).
Damaged cable and/or Damaged cable and/or defective sensor
defective sensor
To replace the necessary parts, you must contact your installation
engineer
S03 (blocking error)
Sensor is not (correctly) Connect the sensor lead to JP5
connected
See the electrical diagram (17 "Appendices").
Open circuit in sensor 2 Damaged cable and/or Replace the cable and/or sensor.
of temperature sensor defective sensor
T1 at the top of the tank
(1).
Remark
To replace the necessary parts, you must contact your installation
engineer
S04 (blocking error)
Dummy is not
(correctly) connected
Connect the dummy sensor (dummy sensor 1 and 2) leads to JP4. See the electrical diagram (17 "Appendices").
Open circuit from
dummy 1
Defective dummy
Replace the dummy sensor
S05 (blocking error)
Dummy is not
(correctly) connected
Connect the dummy sensor (dummy sensor 1 and 2) leads to JP4. See the electrical diagram (17 "Appendices").
Open circuit from
dummy 2
Defective dummy
Replace the dummy sensor
S06 (blocking error)
Open circuit from
temperature sensor S3
at the top of the storage
tank
Sensor is not (correctly) Connect the sensor lead to J14 (port 1 and 3) of the solar controller See the electrical diagram (17 "Appendices").
connected
Damaged cable and/or Replace the cable and/or sensor.
defective sensor
Instruction manual SGS
To replace the necessary parts, you must contact your installation
engineer
To replace the necessary parts, you must contact your installation
engineer
To replace the necessary parts, you must contact your installation
engineer
89
is
Code + description
Cause
S07 (blocking error)
Sensor is not (correctly) Connect the sensor lead to J14 (ports 2 and 4) of the solar
connected
controller
Measure
Open circuit from
Damaged cable and/or Replace the cable and/or sensor.
temperature sensor S2 defective sensor
at the bottom of the
tank.
S08 (blocking error)
Sensor is not (correctly) Connect the sensor lead to J13 (ports 2 and 4) of the solar
connected
controller
Open circuit from
Damaged cable and/or Replace the cable and/or sensor.
temperature sensor S1 defective sensor
in the collector.
S11 (blocking error)
Remark
See the electrical diagram (17 "Appendices").
To replace the necessary parts, you must contact your installation
engineer
See the electrical diagram (17 "Appendices").
To replace the necessary parts, you must contact your installation
engineer
Short circuit in sensor
circuit
Replace the cable and/or sensor.
To replace the necessary parts, you must contact your installation
engineer
Short circuit in sensor
circuit
Replace the cable and/or sensor.
To replace the necessary parts, you must contact your installation
engineer
Short circuit in sensor
circuit
Replace the cable and/or sensor.
To replace the necessary parts, you must contact your installation
engineer
Short circuit in sensor
circuit
Replace the dummy sensor(2)
To replace the necessary parts, you must contact your installation
engineer
Short circuit in
temperature sensor T2
at the bottom of the
tank.
S12 (blocking error)
Short circuit in sensor 1
of temperature sensor
T1 at top of tank(1)
S13 (blocking error)
Short circuit in sensor 2
of temperature sensor
T1 at the top of the tank
(1).
S14 (blocking error)
Short circuit from
dummy 1
Instruction manual SGS
90
is
Code + description
S15 (blocking error)
Cause
Short circuit in sensor
circuit
Measure
Replace the dummy
Remark
sensor(2)
To replace the necessary parts, you must contact your installation
engineer
Short circuit from
dummy 2
Short circuit in sensor
S17 (blocking error)
circuit
Short circuit from
temperature sensor S2
at the bottom of the
tank.
Replace the cable and/or sensor.
To replace the necessary parts, you must contact your installation
engineer
S18 (blocking error)
Short circuit in sensor
circuit
Short circuit from
temperature sensor S1
in the collector.
Replace the cable and/or sensor.
To replace the necessary parts, you must contact your installation
engineer
Live and neutral
connected wrong way
Defect in power supply around.
circuit
Condensation on the
Be sure to connect the live and neutral correctly (3.11 "Electrically See the electrical diagram (17 "Appendices").
connecting the water heater"); the water heater is phase-sensitive
F01 (blocking error)
flame probe
1. Disconnect the lead at the flame probe
If errors persist, contact your installation engineer
2. Ignite the water heater three times, with an interrupted
ionisation circuit
3. Reconnect the ionisation lead to the flame probe
4. Ignite the water heater again
5. The repeated ignition attempts will have caused the
condensation to evaporate
Floating neutral
F02 (lock out error)
Fan fails to run at
correct speed.
Install an isolating transformer (3.11.4 "Isolating transformer")
Defective motor and/or 1. Check the motor and rotor
rotor.
2. Replace the fan if the motor or rotor is defective.
Instruction manual SGS
3. Reset controller
Contact your installation engineer to have an isolating transformer
installed
See the electrical diagram (17 "Appendices").
To have the wiring replaced and a new fan fitted, you must contact
your installation engineer
91
is
Code + description
Cause
Measure
Damaged wiring
1. Check the wiring between the fan and the controller.
Remark
2. If any wires are damaged, the wiring harness must be replaced.
3. Reset controller
Contaminated or
blocked fan
1. Check if the fan is dirty and repair it if necessary.
2. Check that the rotor can rotate freely
If the error cannot be resolved or is persistent, contact your
installation engineer
3. Reset controller
Because of a drop in
the supply voltage, the
fan will not run at the
correct speed.
Instruction manual SGS
1. Check the supply voltage, this must be 230 VAC(-15%, +10%)
2. Reset controller
92
is
Code + description
Cause
Measure
Remark
F03 (lock out error)
Damaged wiring/Open
circuit
1. Check the wiring between the pressure switch and the
controller
If the error cannot be resolved or is persistent, contact your
installation engineer
To replace the necessary parts, you must contact your installation
engineer
The pressure switch
fails to work correctly
2. If necessary, replace the wiring
Pressure switch not
closing
1. Check the speed of the fan (3.4.2 "General and electrical
specifications").
2. Check that the hoses on the pressure switch and the air supply
hose between fan and burner are correctly fitted. Refit them if
necessary
3. Check for cracks in the hoses on the pressure switch and in the
air supply hose between fan and burner. If necessary, replace
the hoses.
4. Check whether the chimney flue is compliant (3.10 "Air supply
and chimney flue discharge").
5. Check for blockage in the chimney flue. Remove any blockage
that may be present
6. Check for blockage in the condensation water discharge.
Remove any blockage that may be present.
7. Measure the pressure differential across the pressure switch.
See the table (3.4.2 "General and electrical specifications"). If
there is insufficient pressure differential, clean the heat
exchanger. If the pressure differential is acceptable, check that
the pressure switch is closing, using a multimeter.
Instruction manual SGS
93
is
Code + description
Cause
Measure
F04 (lock out error)
No gas
1. Open the main gas supply valve and/or the manual gas supply To restore the gas supply, contact your installation engineer
valve before the gas control valve
Three unsuccessful
ignition attempts.
Remark
2. Check supply pressure to the gas control valve
3. If necessary, restore the gas supply
Air in the gas pipes
Bleed the air out of the gas pipe (3.13 "Check the supply pressure, See Checking the supply pressure and burner
gas control valve pressure, CO2 value and switching pressure")
pressure (3.13 "Check the supply pressure, gas control valve
pressure, CO2 value and switching pressure") for how to bleed air
from the gas line and how to measure the supply pressure and
burner pressure.
To replace the necessary parts, you must contact your installation
engineer
Defect in the hot
surface igniter circuit
1. Check that the hot surface igniter is correctly connected (JP2). If the error persists, contact your installation engineer.
To replace the necessary parts, you must contact your installation
2. Check the wiring of the hot surface igniter.
engineer
3. Measure the resistance across the hot surface igniter. This must
lie between 2 and 10 Ohm (at room temperature).
4. Check that the hot surface igniter lights up during ignition.
5. If necessary, replace the hot surface igniter.
Defect in the ionisation 1. Check that the flame probe is correctly connected (JP2)
circuit
2. Check the wiring of the flame probe
3. Measure the ionisation current. This must be a minimum of
1.5 microA.
4. If necessary, replace the wiring.
F05 (lock out error)
Too many flame errors
have been signalled.
Supply voltage too low
Check the supply voltage, this must be 230 VAC(-15%, +10%)
Incorrect roof or wall
flue terminal.
Recirculating flue
gases.
1. Check that the correct roof or wall flue terminal has been
installed (3.10 "Air supply and chimney flue discharge").
Instruction manual SGS
If the error cannot be resolved or is persistent, contact your
installation engineer
2. If necessary, install the correct roof or wall flue terminal.
3. Check that the roof or wall flue terminal discharges into a
permitted area.
94
is
Code + description
Cause
Measure
Remark
F06 (blocking error)
Damaged cable in
contact with metal
surface or bent flame
probe.
Check the wiring and the flame probe. Replace the wiring and/or
flame probe if necessary.
If the error persists, contact your installation engineer.
To replace the necessary parts, you must contact your installation
engineer
Ceramic part of the
flame probe is
broken/cracked.
1. Check whether the ceramic part of the flame probe is still intact,
in the vicinity of the air distribution plate of the burner.
Defective gas control
valves
1. Check whether there is still burner pressure present, after the
gas control valves have closed.
Short circuit between
flame probe and earth
F07 (lock out error)
A flame has been
detected after the gas
control valve was
closed.
F08 (lock out error)
Error message from
safety relay
F09 (lock out error)
Water temperature
protection.
F11 (blocking error)
2. If not the flame probe must be replaced.
2. Check whether a flame is still present, after the gas control
valves have closed.
If the error cannot be resolved or is persistent, contact your
installation engineer
To replace the necessary parts, you must contact your installation
engineer
3. If this is the case, the gas control valve must be replaced.
Flame detection before 1. Reset controller.
the gas control valve
2. If the error appears again, replace the controller.
opened.
If the error cannot be resolved or is persistent, contact your
installation engineer
To replace the necessary parts, you must contact your installation
engineer
Temperature at the top 1. Check that the circulation pump (if present) is working
of the tank exceeds
2. Check the position of temperature sensor T1
93 oC.
3. Reset controller
If the error cannot be resolved or is persistent, contact your
installation engineer
Defective gas control
valves
See F07.
No power supply at
solar controller
1. Check that there is power to the solar heating system controller See the electrical diagram (17 "Appendices").
If the error persists, consult your installation engineer
2. The measured voltage must be 230 VAC (-15%, +10%)
No cable or damaged
cable
1. Check the wiring (communication cable) between the main
controller and the solar heating system controller
Flame detection with
closed gas control
valve.
F18 (blocking error)
Communication error
See the electrical diagram (17 "Appendices").
For replacement of the cable, contact your installation engineer
2. If cable missing, connect the cable
3. If cable damaged, replace the cable
Instruction manual SGS
95
is
Code + description
Cause
Measure
Remark
F19 (blocking error)
There is not enough
supply voltage.
1. Check that there is power to the controller
See the electrical diagram (17 "Appendices").
If the error persists, consult your installation engineer
Incorrect reference
voltage from the AD
converter.
1. Reset controller.
Power supply voltage is
too low.
C02 (lock out error)
Error message from the
controller.
Internal error message •
from the controller.
EEPROM read
error
•
50 Hz error
•
Internal
communication
error
Internal error message •
from the controller.
Gas valve relay
error
C03 (blocking error)
•
Safety relay error
•
Ignition relay error
•
RAM error
•
EEPROM error
•
EEPROM contents
do not match the
software version
•
Processor software
error
2. The measured voltage must be 230 VAC (-15%, +10%)
2. Check that the frequency of the power supply is
compliant (3.4.2 "General and electrical specifications"). If not,
contact your installation engineer
To replace the necessary parts, you must contact your installation
engineer
3. If the frequency is correct but the error persists, replace the
controller.
Too many resets in too Wait for the error to disappear (maximum 1 hour). If the error does To replace the necessary parts, you must contact your installation
short a period
not disappear, replace the water heater controller.
engineer
Reset error
Instruction manual SGS
96
is
Code + description
Cause
Measure
Remark
C04 (blocking error)
Incorrect water heater
selection/Incorrect
selection resistor
1. Check whether the correct water heater is
selected (3.4.2 "General and electrical specifications").
If the error cannot be resolved or is persistent, contact your
installation engineer
To replace the necessary parts, you must contact your installation
engineer
Appliance selection
error
2. If the correct water heater is selected, fit the correct selection
resistor.
3. If incorrect water heater selected, select the correct one.
C05 (blocking error)
•
Error message from the
solar controller.
•
Incorrect reference 1. Reset controller.
voltage from the AD 2. Check that the frequency of the power supply is
converter.
compliant (3.4.2 "General and electrical specifications"). If this
EEPROM error
is not the case, contact your installation engineer.
If the error cannot be resolved or is persistent, contact your
installation engineer
To replace the necessary parts, you must contact your installation
engineer
3. If the frequency is correct but the error persists, replace the
solar controller.
E01 (blocking error)
The temperature
protection at the top of
the tank has been
activated.
E03 (lock-out error)
Error in temperature
sensor T1 at the top of
the tank.
E04 (lock-out error)
Defect in the dummy
sensor(2).
The temperature of the None. This is a temporary message that may appear from time to
water at the top of the time, but will disappear automatically.
tank is >88oC.
1. Check sensor position and wiring.
The two temperature
To replace the necessary parts, you must contact your installation
sensors in the tank
engineer
2. Reset the controller if necessary. Replace the sensor if the error
detect a difference of
persists.
> 10°C over a period of
at least 60 seconds.
1. Check the wiring of the dummy 1 and dummy 2.
To replace the necessary parts, you must contact your installation
The two temperature
sensors detect a
engineer
2. Reset the controller if necessary. Replace the dummy sensor if
difference of >10oC
the error persists.
over a period of at least
60 seconds.
(1) Temperature sensor T1 is a 2-in-1 sensor; T1 contains 2 NTCs for maximum thermostat and safety thermostat protection.
(2) The dummy flue gas sensor consists of dummy flue gas sensor 1 and dummy flue gas sensor 2.
Instruction manual SGS
97
is
13.4 Warnings on the display
Warnings on the display
Situation
Cause
Measure
Note
Q/T sensor not
correctly connected
Lead(s) loosened or
incorrectly connected
Appliance runs, but displays a warning.
1. Properly connect Q/T sensor and the warning will disappear
2. If correctly wired but the warning remains, replace sensor
Caution: To have the sensor connected or replaced, contact your
installation engineer
Collector temperature
excessive
Temperature S1 is
greater than Tcollector
max
The anode protection is •
not working.
•
•
The cables
1. Connect the wiring up properly and the warning will disappear.
Appliance runs, but displays a warning.
between the
2. If the wiring is correct but the warning remains, check that the
potentiostat and
earth connection is good and whether the tank is filled with
Note
anodes are loose or
water.
The appliance is functioning, but there is no anode protection for
have been
the tank.
connected
incorrectly.
The earth
connection of the
anodes is loose.
The appliance is not
filled with water.
Maximum burning
The actual burning
hours: Service required hours have exceeded
the preset burning
hours
Instruction manual SGS
1. You can let the message disappear automatically by allowing
Non-drainback systems:
the heating fluid to cool down
The solar system's pump runs at full power for 10 minutes, pumping
the fluid in the solar system round. If Tcol > Tcollector max after this
2. You can also manually eliminate the message by pressing the
has elapsed, the pump will stop running for 30 minutes. After 30
RESET and ENTER button simultaneously
minutes, the pump will start running again and the solar heating
system's controller checks whether Tcol is less than Tcollector max.
Drain-back systems:
The solar system's pump stops running immediately (for 30
minutes). After 30 minutes, the pump will start running again and
the solar heating system's controller checks whether Tcol is less
than Tcollector max.
Appliance runs, but displays a warning.
For maintenance to your appliance, contact your installation
engineer
98
is
14
14.1 Introduction
Service interval
A service should be carried out at least once a year, both on the water side and
on the gas side. Among other things, the service interval depends on the water
quality, the average burning time per day and the set water temperature.
Note
Regular maintenance extends the service life of the water heater.
To determine the correct service interval, it is recommended to arrange for the
service and maintenance engineer to check the water heater on both the water
and gas side three months after installation. Based on this check, the best
service interval can be determined.
14.2 Determining service
interval
The service interval is a feature of the controller to help the service and
maintenance engineer set the maintenance frequency, based on the number of
months that the appliance has been running.
The service interval can be set to: 6, 9 or 12 months. The default setting is 12
months.
Once the set number of months has elapsed, the message
SERVICE REQUIRED will appear on the display. When this message
appears, the service and maintenance engineer must be contacted.
Instruction manual SGS
99
14
100
Service interval
is
Instruction manual SGS
s
15
15.1 Introduction
Performing
maintenance
Caution
Maintenance may only by carried out by an approved service and
maintenance engineer.
At each service, the water heater undergoes maintenance on both the water
side and the gas side. The maintenance must be carried out in the following
order.
1. Preparation for maintenance
2. Water-side maintenance
3. Gas-side maintenance
4. Solar collector maintenance
5. Finalizing maintenance
Note
Before ordering spare parts, it is important to write down the installation type,
water heater model, and the full serial number of the water heater. These details
can be found on the rating plate. Only by ordering with this information can you
be sure to receive the correct spare parts.
15.2 Preparation for
maintenance
To test whether all components are still working properly, complete the following
steps:
1. Activate the MENU with
2. Use:
and
.
to place the cursor beside OFF.
3. Confirm OFF with
.
MENU
»OFF
^ ON
È WEEK PROGRAM
4. Wait until the fan has stopped. The
icon is then dimmed.
Caution
Failure to wait until the fan stops can cause damage to the water
heater.
5. Switch the appliance OFF (position 0) using the ON/OFF switch on the
control panel.
6. Switch the controller ON by setting the ON/OFF switch to position I.
INTERNAL CHECK
Instruction manual SGS
101
15
s
Performing maintenance
The display will now show INTERNAL CHECK for about 10 seconds, and
will then go to the main menu.
MENU
»OFF
^ ON
È WEEK PROGRAM
7. Activate "ON mode" by going through the following steps:
-
Press once on the blue arrow ( ) to position the cursor beside ON,
then press
.
-
Confirm the selection START OPERATION with
.
8. If there is no heat demand, then raise (11.4 "Setting the water temperature")
Tset. Note the original setting. Draw some hot water off to create heat
demand.
9. Check whether the heating cycle runs correctly (9.3 "The appliance's
heating cycle").
10. If you have adjusted Tset , return it to the original value (11.4 "Setting the
water temperature").
11. Remove the plastic cover on the top of the appliance.
12. Check the supply and burner pressures (3.13 "Check the supply pressure,
gas control valve pressure, CO2 value and switching pressure") and adjust
them where necessary.
13. Check that all components of the chimney flue system are properly attached.
14. Check the pressure differential across the pressure
switch (3.13.4 "Switching pressure measurement") and, if this is too low, the
heat exchanger should be cleaned (15.4.3 "Clean heat exchanger").
15. Test the operation of the overflow valve of the protected cold supply setup.
The water should spurt out.
16. Check the drainage pipes from the discharge points of all valves and remove
any scale deposits that may be present.
17. Drain the water heater (see draining (6 "Draining")).
15.3 Water-side
maintenance
15.3.1
Introduction
The following steps must be carried out on the water side:
1. Descaling and cleaning the tank.
2. Clean condensation water discharge.
15.3.2
Descaling and cleaning the tank
Scale and lime build-up prevent effective conduction of the heat to the water.
Periodic cleaning and descaling prevents build-up of these deposits. This
increases the service life of the water heater, and also improves the heating
process.
Take the rate of scale formation into account when deciding on the service
interval. Scale formation depends on the local water composition, the water
consumption and the water temperature setting. A water temperature setting of
maximum 60°C is recommended for the prevention of excessive scale build-up.
To guarantee a good, watertight seal around the cleaning opening, replace the
gasket, washers, bolts and, if necessary, the lid with new parts before
reassembly (see the figure). A special set is obtainable from the
supplier/manufacturer.
102
Instruction manual SGS
s
To simplify descaling and cleaning of the tank, the water heater is equipped with
two cleaning openings.
1
IMD-0080 R1
1. Remove the cover plate (1) on the outer jacket (see the figure).
2. Undo the bolts.
3. Remove the cover and the gasket.
4. Inspect the tank and remove the loose scale deposits and contamination.
5. If the scale cannot be removed by hand, descale the water heater with a
descaling agent. Contact the supplier/manufacturer for advice on what
descaling agent to use.
6. Close the cleaning opening. To avoid damage to the tank, tighten the bolts
that fasten the lid with a torque no greater than 50 Nm. Use suitable tools for
this.
15.3.3
Clean condensation water discharge
To prevent blockages, it is essential to clean the condensation water discharge
and condensation trap regularly.
15.4 Gas-side
maintenance
15.4.1
Introduction
The following steps must be carried out on the gas side:
1. Cleaning the burner.
2. Clean heat exchanger.
3. Finalizing maintenance.
15.4.2
Cleaning the burner
1. Detach the burner.
2. Remove all contamination present on the burner.
3. Fit the burner.
15.4.3
Clean heat exchanger
1. Detach the burner.
2. Clean the combustion chamber of the heat exchanger using a vacuum
cleaner and a soft brush.
3. Detach the chimney flue.
4. Clean the end of the heat exchanger using tap water.
5. Fit the burner.
Instruction manual SGS
103
15
s
Performing maintenance
6. Fit the chimney flue.
Note
Check the pressure differential again after cleaning. If the pressure
differential is too low following cleaning, please contact the supplier of the water
heater.
15.5 Solar collector
maintenance
See installation or users' manual for the solar collector. If this topic is not
covered in the manual, then contact the supplier of the collectors.
15.6 Finalizing
maintenance
See Eratta.
1. Fill the water heater (5 "Filling").
2. Start the water heater (9 "Starting the water heater")
3. Check the CO2 value (3.13.3 "CO2 adjustment").
4. Check the switching pressure of the pressure switch. (3.13.4 "Switching
pressure measurement")
5. Erase the message SERVICE REQUIRED. Do this by pressing once on
then once on
.
104
Instruction manual SGS
gis
16
Warranty (certificate)
To register your warranty, you should complete and return the enclosed
warranty card, after which a warranty certificate will be sent to you. This
certificate gives the owner of an appliance supplied by A.O.Smith Water
Products Company B.V. of Veldhoven, Netherlands (hereinafter "A.O.Smith")
the right to the warranty set out below, defining the commitments of A.O.Smith
to the owner.
16.1 General warranty
If, after verification and at the sole discretion of A.O.Smith,
a component or part (with exclusion of the tank) of a water heater supplied by
A.O.Smith
proves within one year of the original installation date to be defective or fails to
function correctly due to manufacturing and/or material defects, then A.O.Smith
shall repair or replace this component or part.
16.2 Tank warranty
If, after inspection and at the sole discretion of A.O.Smith,
the glass-lined steel tank of a water heater supplied by A.O.Smith
proves within 3 years of the original installation date to be leaking due to rust or
corrosion occurring on the water side, then A.O.Smith shall offer to replace the
defective water heater with an entirely new water heater of equivalent size and
quality. The warranty period given on the replacement water heater shall be
equal to the remaining warranty period of the original water heater that was
supplied. Notwithstanding that stated earlier in this article, in the event that
unfiltered or softened water is used, or allowed to stand in the water heater, the
warranty shall be reduced to one year from the original installation date.
16.3 Conditions for
Installation and use
The warranty set out in articles 1 and 2 will apply solely under the following
conditions:
a. The water heater is installed under strict adherence to A.O.Smith
installation instructions for the specific model, and the relevant
government and local authority installation and building codes, rules and
regulations in force at the time of installation.
b. The water heater remains installed at the original site of installation.
c. The water heater is used exclusively with drinking water, which at all
times can freely circulate (a separately installed heat exchanger is
mandatory for heating saline water or corrosive water).
d. The tank is safeguarded against harmful scaling and lime build-up by
means of periodic maintenance.
e. The water temperatures in the heater do not exceed the maximum
setting of the thermostats, which form a part of the water heater.
f.
The water pressure and/or heat load do not exceed the maximum values
stated on the water heater rating plate.
g. The water heater is installed in a non-corrosive atmosphere or
environment.
h. The water heater is connected to a protected cold supply arrangement,
which is: approved by the relevant authority; with sufficient capacity for
this purpose; supplying a pressure no greater than the working pressure
stated on the water heater; and where applicable by a likewise approved
temperature and pressure relief valve, fitted in accordance with
installation instructions of A.O.Smith applying to the specific model of
water heater, and further in compliance with the government and local
authority installation and building codes, rules and regulations.
Instruction manual SGS
105
16
Warranty (certificate)
i.
16.4 Exclusions
gis
The water heater is at all times fitted with cathodic protection. If sacrificial
anodes are used for this, these must be replaced and renewed when,
and as soon as, they are 60% or more consumed. When power anodes
are used, it is important to ensure that they continue to work properly.
The warranty set out in articles 1 and 2 will not apply in the event of:
a. damage to the water heater caused by an external factor;
b. misuse, neglect (including frost damage), modification, incorrect and/or
unauthorised use of the water heater and any attempt to repair leaks;
c. contaminants or other substances having been allowed to enter the tank;
d. the conductivity of the water being less than 125 µS/cm and/or the
hardness (alkaline earth ions) of the water being less than
1.00 mmol/litre (3.3.3 "Water composition");
e. unfiltered, recirculated water flowing through or being stored in the water
heater;
f.
any attempts at repair to a defective water heater other than by an
approved service engineer.
16.5 Scope of the
warranty
The obligations of A.O.Smith by virtue of the warranty provided do not extend
beyond delivery free of charge from the warehouse of the parts or components
or water heater to be replaced; transport, labour, installation and other costs
associated with the replacement shall not be borne by
A.O.Smith.
16.6 Claims
A claim on grounds of the specified warranty must be submitted to the dealer
from whom the water heater was purchased, or to another authorised dealer for
A.O.Smith Water Products Company products. Inspection of the water heater as
referred to in articles 1 and 2 shall take place in one of the laboratories of
A.O.Smith Water Products Company.
16.7 Obligations of
A.O.Smith
A.O.Smith grants no other warranty or guarantee over its water heaters nor the
(assemblies or parts of) water heaters supplied for replacement, other than the
warranty expressly set out in this Certificate.
Under the terms of the supplied warranty, A.O.Smith is not liable for damage to
persons or property caused by (assemblies or parts, or the glass-lined steel tank
of) a (replacement) water heater that it has supplied.
106
Instruction manual SGS
is
17
17.1 Introduction
Instruction manual SGS
Appendices
This appendix contains:
•
Menu structure of the main menu (17.2 "Menu structure")
•
Appliance electrical diagram (17.3 "Electrical diagram for the appliance")
•
Electrical diagram, solar heating system (17.4 "Electrical diagram, solar
heating system")
•
Declaration of conformity (17.5 "Declaration of conformity")
•
Week program card (17.6 "Week program card")
107
17
is
Appendices
17.2 Menu structure
CONTROL
SERVICE
PROGRAM
HYSTERESE
MAIN MENU
OFF
HYSTERESE DOWN
ON
HISTORY
OF ERRORS
START OPERATION
CHANGE SETPOINT
APPLIANCE
HISTORY
SELECT
APPLIANCE
WEEKPROGRAM
START OPERATION
SERVICE INTERVAL
SERVICE
OPERATION
PROGRAM
OVERVIEW
EXTRA PERIOD
FULL LOAD
SETTINGS
PARTIAL LOAD
LANGUAGE
ANTI LEGIONELLA
DAY/TIME
SOLAR
CONFIGURATION
SPECIFICATIONS
DRAIN BACK
REGULATION INTERVAL
TEST SOLAR PUMP
IGNITION SPEED
SOLAR LIMIT
TEMEPRATURE
WORKING SPEED
SOLAR DIFFERENCE
Q/T-SENSOR
CONTRIBUTION
TEMPERATURES
HEATING
CONFIGURATIONS
HEATING CONNECTED
HEATING SETPOINT
108
Instruction manual SGS
is
Instruction manual SGS
109
17
is
Appendices
17.3 Electrical diagram
for the appliance
Electrical diagram
A
1
1
X
5
X
3
X J2
2
1
J33
3
J40
F3
F1
7
B
C
4
X
4
X
3
X
4
4
4
X
X
3
1
2
3
5
JP11
1
X
2
JP3
7
X
X
2
7
1
X
5
J35
2
JP6
J29
3
X
2
7
5
2
4
X
X
4
J36 X
1
2
3
J39
4
1
X
4
6
X
3
6
3
X
2
4
L
X
6
6
J37
O
P
1
Q
5
X
4
4
X
8
X
7
X
X
5
4
X
3
JP12
1
3
X
X
1
1
1
6
X
N
JP8
2
6
6
5
6
X
X
2
X
1
4
J34
1
3
1
6
6
X
4
4
2
6
JP5
X
1
2
1
3
I
9
8
1
6
J19
2
11
10
X
X
X
13
12
6
JP4
X
3
E
15
14
6
J21
1
X
1
D
X
16
6
3
X
N
2
6
J20
X
X
1
J38
4
1
2
1
2
JP2
5
X
2
1
X
X
6
4
5
6
2
4
3
X
S
6
1
1
R
6
2
5
T
M
0
2
1
U
4 7
2
1
3
1
2
N
L
3
1
2
4
3
5
2
6
8
4
4
3
2
L1
N
1
3
2
1
4
4
5
5
9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
N
N
L2
H
L3
G
F
Secundair
Primair
AA
3
1
7
4
J
230VAC 50Hz
K
N
L
230VAC 50Hz
0309 687a R0
1 = brown, 2 = blue, 3 = green, 4 = black, 5 = white, 6 = grey / beige, 7 = green, 8 = yellow
110
Instruction manual SGS
is
TERMINAL STRIP CONNECTIONS
CONTROLLER CONNECTIONS
Earth
J2
Power connection for controller
N
Neutral
J19
Extra error signal connection
L
Live input of controller
J20
Gas control valve connection
Live input of isolating transformer (primary
side)
J21
Program-controlled pump connection
J29
Power connection for the fan
J36
Controller display connection
J40
Regulator connection for the fan
JP2
Flame probe and hot surface igniter
connection
JP3
Temperature sensor T2 connection
1
L
L2
Live output of isolating transformer
(secondary side)
L3
Live input of program-controlled pump
COMPONENTS
A
Control
JP4
Dummy connection
B
Flame probe
JP5
Temperature sensor T1 connection
C
Hot surface igniter
JP6
D
Gas control valve
Selection resistor and pressure switch
connection
E
Burner earth connection
JP8
Extra ON mode switch connection
F
Extra ON mode switch
G
Program-controlled pump (max. 100W)
F1
Fuse (T 3.15A - 250 V)
H
Extra error signal connection
F3
Fuse (T 3.15A - 250 V)
J
Isolating transformer
K
Double-pole isolator
L
Controller 0/I switch
M
Display
N
Fan
O
Temperature sensor (T2 - bottom of tank)
P
Dummy
Q
Temperature sensor (T1 - top of tank)
R
Selection resistor
S
Push button
T
Electrical anodes
U
Signalling for electrical anodes
V
Potentiostat
W
Communication between the appliance
controller and the solar system (BUS
connection)
AA
Solar system controller
Instruction manual SGS
111
17
is
Appendices
Electrical diagram, see Eratta.
17.4 Electrical diagram,
solar heating system
GG
AA
5
5
J16 X
2
X
1
X
2
1
X
J15
J17 X
J14
F2
J13
X
3
2
3
L
N
1
2
4
5
6
7
9 10 11 12 13
8
L1 N
SWL
1
3
3
1
2
M1 M 2 M3
3
1
7
14 15 16 17 18 19 20
L3 N
M4 M 5 M6
1
X
6
6
X
2
3
X
6
4
1
X
6
X
2
3
X
X
4
1
X
1
X
2
3
BB
CC
X
1
X
7
X
4
1
X
6
X
2
3
X
4
5
8
5
T
K
2
J12
J3
6
X
X
DD
EE HH
Q
F
FF
230VAC 50Hz
0309 687b R0
1 = brown, 2 = blue, 3 = green, 4 = black, 5 = white, 6 = grey / beige, 7 = green, 8 = yellow
112
Instruction manual SGS
is
TERMINAL STRIP CONNECTIONS
Earth
N
Neutral
L
Live input of controller
1
L
Live input for the solar heating system
pump ON/OFF.
M1
Live input for the solar heating system
modulating pump.
M2
Neutral input for the solar heating system
modulating pump.
M3
Modulation output of the solar heating
system modulating pump
COMPONENTS
AA
Control
PS
Extra head pump for solar heating system
(ON/OFF)
CC
Solar heating system pump (modulating)
DD
Temperature sensor (S1 - solar collector)
EE
Temperature sensor (S2 - tank)
FF
Combined Q/T sensor (incl. temperature
sensor S4 - solar collector return)
GG
Communication between the appliance
controller and the solar system (BUS
connection)
HH
Temperature sensor (S3 - top of storage
tank)
K
Double-pole isolator
CONTROLLER CONNECTIONS
J12
Connection of combined Q/T sensor (1-23-4)
J13
Connection of temperature sensor S1 (2-4)
J14
Connection of temperature sensor S2 (2-4)
and temperature sensor S4 (1-3)
J16
Connection of BUS-link communication
F2
Fuse (T 3.15A - 250 V)
Instruction manual SGS
113
17
17.5 Declaration of
conformity
114
Appendices
is
Declaration of conformity
Instruction manual SGS
17.6 Week program card
You can cut the week program card out and keep it near the water heater.
Period
DAY
TIME
ON
1.
OFF
ON
2.
OFF
ON
3.
OFF
ON
4.
OFF
ON
5.
OFF
ON
6.
OFF
ON
7.
OFF
ON
8.
OFF
ON
9.
OFF
ON
10.
OFF
ON
11.
OFF
Period
Tset
Pump
....°C
ON / OFF
12.
....°C
ON / OFF
13.
....°C
ON / OFF
14.
....°C
ON / OFF
15.
....°C
ON / OFF
16.
....°C
ON / OFF
17.
....°C
ON / OFF
18.
....°C
ON / OFF
19.
....°C
ON / OFF
20.
....°C
ON / OFF
21.
....°C
ON / OFF
Tset
Pump
70 °C
ON / OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
DAY
TIME
Tset
Pump
....°C
ON / OFF
....°C
ON / OFF
....°C
ON / OFF
....°C
ON / OFF
....°C
ON / OFF
....°C
ON / OFF
....°C
ON / OFF
....°C
ON / OFF
....°C
ON / OFF
....°C
ON / OFF
Example
Period
1.
DAY
TIME
ON
MO
14:30
OFF
MO
16:15
Instruction manual SGS
115
Instruction manual SGS
116
gis
Index
A
M
actuation 73
ambient conditions 21
ambient temperature 22
maintenance
condensation water discharge 103
descaling 102
gas-side 103
heat exchanger 103
preparation 101
scale 102
mode
ERROR 66
SERVICE REQUIRED 67
C
claims 106
connecting the air supply 32
connecting the chimney flue 32
connecting the circulation pipe 30, 31
connecting the cold water side 30, 31
connecting the hot water side 30
conversion to a different gas category 53
N
navigation buttons 63
notation conventions 11
D
descaling 102
displaying error history 81
draining 59
draining the solar heating system 60
E
O
ON mode 73
ON/OFF switch 63
operating cycle 15
electrical connection 38
error 66
extra period
setting 78
P
fan 17
filling 55
filling the solar heating system 56
flame probe 17
S
F
G
gas category, conversion to different 53
gas connection 31
general specifications 3
H
humidity 22
I
installation diagram 29
installation engineer 10
J
join
air supply 32
circulation pipe 30, 31
cold water side 30, 31
flue gas discharge 32
gas 31
hot water side 30
L
language setting 79
liability 3
Instruction manual SGS
packaging 21
PC connection 64
protection 16
protection for the solar heating system 18
safety
collector temperature warning 67
Q/T Sensor warning 67
solar heating system 19
scale 102
scrolling 63
service 11, 99
service engineer 10
service required 67
setting date 79
setting the service interval 82
shutting down
electrically isolating 71
long period 71
short period 71
solar heating system
collector temperature 67
collector temperature warning 67
draining 60
filling 56
fluid temperature safety device 18
join
communication cable 44
connecting the solar collector 43
Extra head pump 44
pump station 43
Q/T sensor 44
tank sensor 43
Q/T Sensor warning 67
solar heating system 18
specifications 23, 24
117
Index
symbol
installation engineer 10
service engineer 10
user 10
T
target groups 10
terminal block 39
ThermoControl
ON/OFF switch 63
trademarks 3
0311 183
1.3 UK
U
user 10
W
warranty 105
exclusions 106
General information 105
installation and conditions of use 105
scope 106
water heater
displaying history 81
displaying the selection 82
types 9, 21
Instruction manual SGS
Download PDF