Gas Alarm; Environmental Compatibility And Disposal; Troubleshooting - Watts CIVIC4 Installation And Operation Manual

Watts Water Technologies, Inc.
Once the failure is fixed, the control unit needs to be reset to its
normal operating status. Press the "Reset/Test button on the
front of the control unit to reset it.
Caution. It is advisable to repeat the operating test at least
once a year, or after a prolonged period of stoppage and in any
case, every time the detector is replaced.
Caution. The average lifetime of the UR13 and UR20S detec-
tors is 5 years from installation date. They must be replaced
before the end of the 5th year of use. The average lifetime of
detectors is calculated for use in a typical environment, nor-
mally free from polluting agents (gases, solvents etc.).
More frequent and higher concentrations of these substances
can accelerate the normal oxidisation process of the sensing
element, subsequently shotening its lifetime.

Gas Alarm

If an alarm signals a gas leak or the presence of carbon
monoxide, proceed as follows:
- put out flames and switch off all gas equipment;
- do not for any reason switch on or off lights or any electrical
equipment;
- open doors and windows to air the environment;
- look for and eliminate the cause of the alarm. If this is not
possible, leave the building and contact emergency services
from outside.
Environmental compatibility and
disposal
This product has been designed and constructed using
materials and processes that take into account the
environmental issue. Refer to the following notes for
disposal of the product at the end of its working life,
or when it is replaced:
- for disposal purposes, this product is classified
as an
electric and electronic device: do not dispose of it with
normal household waste, in particular as regards the
printed
circuit;
- comply with all local laws in force;
- as far as possible reuse basic materials to keep
environmental impact to a minimum;
- use local depots and waste recycling companies, or contact
the supplier or manufacturer to return used products or to
ask for information on environmental compatibility and waste
disposal;
- the product packaging can be reused. Keep it for future use
or to return the product to the supplier.

Troubleshooting

Problem
NC valve does not open
NO valve does not close
"Reset/Test" button
does not reset to initial
conditions
6
Possible cause
- Valve not connected
- Alarm in progress
- Detector warm-up phase in
progress
- All detector defective
- General failure event occurring
- Valve not connected
- Connection cables cut
- No alarm active
- Alarm in progress
- Failure occurring in control unit
Terminal board
+ Power supply 12 Vac/dc (positive)
+ OC output 12 Vac/dc (positive)
C Alarm Alarm relay output (common)
NC Alarm
Alarm relay output (Normally Closed contact)
NO Alarm Alarm relay output (Normally Open contact)
C Abnormality Alarm relay output (common)
NC Abnormality Alarm relay output (Normally Closed contact)
NO Abnormality Alarm relay output (Normally Open contact)
UR13 detector connections
C1,C2,C3,C4 Detector input (C, common)
S1,S2,S3,S4 Detector input (S, signal)
A1,A2,A3,A4 Detector input (A, power supply 6.5V)
UR20S detector connections
C1,C2,C3,C4 Detector input (-12...24V, negative power supply/signal)
S1,S2,S3,S4 Detector input (+4...20mA, positive signal)
A1,A2,A3,A4 Detector input (+12...24V, positive power supply/signal)
1. TB1 - Power supply terminals 12 Vac/dc
2. Protection fuse 1A
3. TB2 - "Alarm" relay terminals
4. TB3 - "Abnormlity" relay terminals
5. CN1 connector and service Jumper J1
6. Set up jumper:
E1 – operating mode
E2 – Alarm relay operating mode
E3 – omitted=UR13 on input 1 and 2, A=UR20S on inputs 1
B=UR20S on inputs and 2
E4 – omitted=UR13 on input 1 and 2, A=UR20S on inputs 1
B=UR20S on inputs and 2
7. Connector P1 (communication – not used)
8. LED signalling presence of voltage
9. LED signalling general failure
10. Reset/Test button
11. TB7 - B4 gas detector connection terminals
12. Jumper E11÷E12 for configuration of inputs B4 detector:
E11 - Sel. power supply: A=6.5V (UR13), B=12V (UR20S)
E12 - Sel. input A=threshold (UR13), B=4...20mA (UR20S)
Jumper E9÷E10 for configuration of inputs B3 detector:
E9 - Sel. power supply: A=6.5V (UR13), B=12V (UR20S)
E10 - Sel. input A=threshold (UR13), B=4...20mA (UR20S)
13 TB6 - B3 gas detector connection terminals
14 TB5 - B2 gas detector connection terminals
15 Jumper E7÷E8 for configuration of inputs B2 detector:
E7 - Sel. power supply: A=6.5V (UR13), B=12V (UR20S)
E8 - Sel. input A=threshold (UR13), B=4...20mA (UR20S)
Jumper E5÷E6 for configuration of inputs B1 detector:
E5 - Sel. power supply: A=6.5V (UR13), B=12V (UR20S)
E6 - Sel. input A=threshold (UR13), B=4...20mA (UR20S)
16 TB4 - B1 gas detector connection terminals
17 Gas alarm LED
18 Detector failure LED
CIVIC1-MOI-IT-W-ML-09-18-Rev.1
EN