European Safety Systems Ltd.
Impress House, Mansell Road, Acton, London W3 7QH
www.e2s.com
Tel: +44 (0)208 743 8880
Document No. D156-00-621-IS
Issue 1
27-10-22
Sheet 9 of 15
Power relay RLY1-1 will be open whilst SIL 2 relay RLY1-2
will be closed contact between terminals 1 & 2.
The SIL 2 unit will also check for signal polarity.
If a fault is found the SIL 2 unit will go into
Fault mode
.
If power is disrupted the SIL 2 unit will go into
Fault mode
, in
fault mode the Power relay RLY1-1 will close whilst SIL 2
relay RLY1-2 will become an open circuit between terminals
1 & 2.
Fault modes
- The fault modes listed in sections 13-1 & 13-2
will result in a change of state for relays RLY1-1 and RLY1-2.
In fault mode the Power relay RLY1-1 will close whilst SIL 2
relay RLY1-2 will become open be circuit between terminals
1 & 2.
13-1 Beacon Failure
•
Flash Failure
–
No flash detected.
•
Beacon Controller Failure
–
No flash trigger pulse
detected.
•
Flash Rate Failure
–
Regular 1 Hz flash cycle
erratic.
13-2 Power Failure / SIL 2 Failure
•
SIL 2 Controller Failure
–
Internal function and
system checking flags fault.
•
Rapid Power Cycling
–
System indicates power
instability.
•
Total Power Failure.
It is possible to reset these faults if they were transitory.
Resetting Failure (by power cycling) - It is possible that the
SIL 2 unit can be reset by powering the unit off for a period
greater than 20 seconds. On restarting the unit and running
through the commissioning cycle the fault may clear.
Resetting Failure (by Hard Reset) - It is possible that the SIL
2 unit can be reset by hard resetting the unit using the reset
jumper within the unit (see section 15-4) on hard resetting.
On restarting the unit and running through the commissioning
cycle, the fault may clear. It is necessary to run the test
function cycle again to see if the fault is still evident.
If the hard reset process does not correct the latched fault the
alarm horn sounder may require further investigation, please
contact your local E2S representative.
Commissioning System - Functional start-up of System
(Normally in reverse polarity mode)
When Commissioning system the power must not be
disrupted to the SIL 2 Unit within the
unit’s
initialization cycle
which is
5 seconds
.
Once past this period the SIL 2 system is fully operational
and will be in monitoring the beacon and power in Standby
mode.
The relay RLY1-2 on the SIL 2 unit will only remain open for a
maximum of 1 second on commissioning start-up. RLY1-2
will subsequently close contacts 1 & 2 indicating healthy
operation. Contact 1 & 2 will only remain open in the event of
a fault or a loss of power.
System Testing (Active Mode normal polarity)
The SIL 2 system will remain monitoring the power in standby
mode until the polarity is changed to normal mode to enable
an active system for beacon functional testing.
Important
: - The polarity must be held in active mode for a
period in excess of
15 seconds
to ensure a full system check
is performed.
Once the test period has been completed the unit can be
switched back to standby mode by reversing the polarity.
If no faults have been found during the test the relays will
remain in steady state.
The SIL 2 unit will continue to monitor the power and module
function.
Important
: - The automated test cycle
must
be undertaken
on at least a weekly basis to maintain the SIL 2 units
reliability.
System Activation (Active Mode normal polarity)
The SIL 2 system will remain monitoring the power in standby
mode until the polarity is changed to Active mode to enable
an active system for beacon to function as a warning
signaling device.
Important
:- The polarity must be held in active mode for a
period in excess of 15 seconds to ensure a full system check
is performed whilst in alarm mode, although it is expected
that during a system activation this period will be significantly
greater.
Note
:- The fault indication signal on TB1 can take up to 1.5
seconds to indicate system fault.
