AirSense Stratos-HSSD 2 User manual
Installer’s Handbook • LM80004 • Issue 7
High Sensitivity Smoke Detector
©AirSense Technology Ltd. 2005
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Stratos HSSD-2 • INSTALLER’S HANDBOOK • Iss. 7
Reproduction of this document is strictly prohibited unless express
written permission is obtained from AirSense Technology Ltd.
In line with continuous product improvement AirSense Technology Ltd
reserves the right to modify or update specifications without notice.
Stratos-HSSD, Stratos-Quadra, SenseNET, Stratos-Micra, FastLearn
and ClassiFire are trademarks of AirSense Technology Ltd.
Copyright © 1999-2002 AirSense Technology Ltd.
Design & Artwork - ElmTree Design
www.elmtree.design.btinternet.com
Contents
page
Introduction 3
1. Types of detector 4
2. Controls and indicators 8
3. Programming the unit 10
4. Sampling pipe design 25
5. Installation 26
6. External communications 36
7. Event log 38
8. Interfacing 39
9. Commissioning 44
10. Maintenance 45
11. Troubleshooting 47
12. Error messages 49
13. Do‘s and Don‘ts 50
14. Stratos-HSSD-2 specification 51
©AirSense Technology Ltd. 2005
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Stratos HSSD-2 • INSTALLER’S HANDBOOK • Iss. 7
Stratos-HSSD-2®is a highly sophisticated ‘next generation‘ of High Sensitivity
Aspirating Smoke Detection product that has been designed to ensure that installation
and commissioning is as simple as possible, while optimising performance.
Stratos incorporates a patented ‘artificial intelligence‘ known as ClassiFire®, which
allows the detector to configure itself to optimum sensitivity, alarm thresholds and
minimum nuisance alarms for any environment.
ClassiFire intelligence also monitors the detector chamber and dust separator for
contamination, continually adjusting the appropriate operating parameters to
counteract the negative effects of such contamination.
Stratos is unique in being able to provide a consistent level of protection in a very wide
range of environments by continuously making minor adjustments to sensitivity.
Stratos has proven its worth many times by detecting ‘difficult-to-detect‘ slow growth
electrical overload incipient fires in ‘difficult‘ environments.
This handbook gives information likely to be needed for most installations, but for more
detailed information on subjects such as Fresh Air Referencing, please refer to the
complete Technical Manual or System Design Guide.
This equipment is Class 111 as defined in EN60950 (i.e., this equipment is designed to
operate from Safety Extra Low Voltages and does not generate any hazardous
voltages).
This label is located on the laser chamber at the bottom right of the open detector and
signifies that the unit is a Class 1 Laser product as specified in IEC 60825-1. The unit
incorporates a Class 3B embedded laser which must not be removed from the detector
as retinal damage may result if the laser beam enters the eye.
As this equipment is part of a fire detection system, it should be supplied from an
approved power supply conforming to EN54-4.
This symbol appears on the main board of the unit and indicates that the board
contains static sensitive components. Suitable anti-static precautions must be taken
when handling the board, eg. for fuse replacement.
This symbol indicates the Safety Earth studs (see sections 1.3 and 1.4). These are for
grounding cable screens etc. and should not be connected to 0V or signal earth.
AirSense Technology has taken every care to ensure that Stratos is as simple to install as
possible but in case of difficulty, please contact our Help Line to ensure trouble free
installation and operation.
AirSense Technology takes no responsibility for damage or injury occasioned as a result of
failing to install or operate the equipment in accordance with these instructions.
Throughout this manual, where an entry is shown as Example , this is intended as
a representation of the text appearing on the LCD screen on the detector (if fitted)
when the option is selected, eg Setup menu .
Entries shown as <EXAMPLE> represent function buttons on the front of the
detector, eg. <TEST>.
Introduction
HELP LINE
(+44) (0) 1462 440666
LASER CLASS 1
PRODUCT
©AirSense Technology Ltd. 2005
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The Standard Detector may be operated as a stand-alone unit, or may be part of a net-
work of detectors centrally monitored by a Command Module (see section 1.2).
It may be programmed via the front panel as in the version shown above. Alternatively,
and for detectors ordered without front panel display, the detector may be pro-
grammed remotely via the detector’s RS485 terminals using a Command Module, or
via the detector’s RS232 port using a PC running AirSense Technology’s remote control
software. A copy of this software is packed with each detector supplied.
1.1 Standard Detector
1.2 Stand alone
Command Module/
Command Module
detector
1. Types of
Detector
When multiple detectors are networked together, a Command Module may be used to
tie all the detectors together and to provide a central point for programming, running
diagnostics and PC and fire panel connection.
The Command Module can be mounted either inside a detector as shown or as a
stand-alone unit in its own housing without an aspirator or smoke detection circuitry.
If detectors attached to the Command Module are mounted in different fire zones then
the Command Module must be mounted in its own housing with separate power
supply to comply with BS5839 and EN54.
When a Command Module is mounted inside a detector, the Standard Detector display
is replaced with a dedicated Command Module display. The programming buttons and
display on the front of the detector belong to the Command Module.
Programming from the Command Module is very similar to programming a detector,
the main difference being that the Command Module has extra functions to control all
the Stratos detectors connected to the detector loop.
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4
2
1
3
89
5
1.3 Standard
Detector
interior view
1. Terminal block connections (see section 5.3.1)
2. RS485 terminal connections (see section 5.3.1)
3. 24VDC power supply connections (see section 5.4.1)
4. 1A 5 x 20mm T-type protection fuse
5. Detector address DIP switch (see section 8.1)
6. Front panel display connector
7. Filter removal tab (see section 10)
8. RS232 serial port (see section 8.5)
9. Safety earth studs (see section 5.4)
10. Display fixing screws (see section 5.2.1)
7
6
10
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1.4 Stand-alone
command module
interior view 42 3
67
1
8
1. Terminal block connections (see section 5.3.2)
2. 24VDC power supply connections (see section 5.4.2)
3. 500mA 5 x 20mm T-type protection fuse
4. Internal power supply (see section 5.4.3)
5. Stand-by batteries (see section 5.4.4)
6. RS232 serial port
7. Safety earth studs (see section 5.4)
8. Front panel display connectors
9. Display fixing screws (see section 5.2.1)
5
9
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1.5 Command module
detector interior view
1. Detector CPU board (see section 1.3)
2. Command Module CPU board (see section 1.4)
3. Command Module display connection
4. Detector display connection
5. Display fixing screws (see section 5.2.1)
1
2
3
4
5
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2. Controls and
Indicators
Command Module
detector
Standard Detector
2 1 3
4
5 86
7 9 10
2 1 3
4
5 86
7 9 10
Aux, Pre-Alarm, Fire 1 and Fire 2 indicators illuminate when the
appropriate alarm level has been reached and the appropriate time delays
have expired. On a stand-alone Command Module, the indicators signify
an alarm condition from any detector on the communications loop.
Smoke density indicators. This display is in two sections. The first part,
labelled 1 to 10, is the relatively scaled ClassiFire®bargraph and changes in
steps of half a segment. The second part displays absolutely scaled smoke
levels above 1% obscuration per metre (% obs/m) to a maximum of 25%
obs/m. The Fire 2 activation level is programmed normally somewhere in
this range. The bargraph display will show a continually cycling pattern
when the unit is in FastLearn mode. On the Command Module display, this
will occur when any unit on the RS485 communications loop is in
FastLearn. Otherwise, the bargaph display on the Command Module will
mimic the bargraph display on the highest-reading detector on the loop.
Status display (if fitted). This display shows all events as they happen in real
time and is also used to configure the unit. See Section 3, ‘Programming the
unit‘ for more information.
RESET. When enabled, pressing <RESET> will clear any latched alarms or
faults and set the status display back to its normal operation display. To
comply with national standards, detectors are supplied with the RESET function
disabled as default.
1
2
4
5
3
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10
6
7
8
9
NB +
2.1, Types of display The Standard Detector display is a two-line LCD which allows basic programming of
the detector.
The Command Module display contains more information than that for the Standard
Detector and prompts the user with the action expected by the use of graphic symbols.
Latching faults
Enter Yes/No:Yes
Latching faults
Enter Yes/No:Yes
Press
to change
TEST. When enabled, pressing <TEST> will start a lamp test and then the
detector will show its nominal operating sensitivity as calculated by the
ClassiFire Artificial Intelligence System.
ISOL. Pressing <ISOL> will toggle the unit‘s isolation state. When isolated,
the unit cannot generate any alarms and will signal a fault condition and
the text display will show Panel Isolate . To comply with national
standards, detectors are supplied with the ISOL button disabled as default.
Note: these three buttons can be individually enabled or disabled. The factory
default state of the detector is for only the <TEST> button to be enabled and
for <RESET> and <ISOL> to be disabled.
,,. These buttons, also referred to in the text as menu
buttons or by name, e.g. <ENTER>, are used when programming the
unit, which is pass code protected. See section 3, ‘Programming the unit‘ for
more information.; Pressing or when not in programming mode
(the access code has NOT been entered) will scroll through the detector’s
event log. See section 7 ‘Event log’ for more information.
Fault. Illuminates when the unit has a fault and a fault signal is being sent
to the fire alarm panel. On the Command Module, this also indicates a fault
in a detector on the communications loop, or in the loop itself.
OK. Illuminates to show normal operation when there are no faults. On the
Command Module this means that the Command Module and all detectors
on the loop are operating normally.
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3. Programming
the unit
3.1 Engineering
Access code
The Stratos-HSSD-2 programmer means that programming and configuration of the
unit can be performed without opening the detector case.
To enter programming mode, press any of the program menu keys ,or .
This correctly sets the access code. If an incorrect access code is entered or <RESET>
is pressed, the display will show Bad access code . Pressing a menu key will
prompt the user again for the correct access code.
Access code:0000
The Engineering Access code is required to allow the detector parameters to be
programmed. The access code is only valid whilst the user is in programming mode. It
will need to be entered again if programming mode is exited, if the detector is powered
down or if <RESET> is pressed.
To enter programming mode, press a menu key , , . The unit responds by
displaying the prompt Access code:0000 asking for the engineering access code.
The factory default access code is 0102. To enter the default access code, follow the
sequence shown.
Note: Pressing has no effect until is pressed to place the cursor under the first
digit.
Access code:0000 Access code:0000
Access code:0100
Access code:0102
Access code:0100Access code:0100
Access code:0100
Access code:0101
All of the programmable functions work in a similar manner. The keys move the
cursor position through the user-settable digits and the keys step through the
available values for the currently selected digit (e.g. 1 - 99, Yes / No etc) pressing
enters the displayed figure. Note that it is not possible to save an illegal value, e.g.
for the Fire 1 level the maximum valid input is 10 and it would be possible to enter 99,
but the programmer will display Bad value to inform you that the entry is invalid and
prompt for the value to be re-entered. All programmable parameters have the valid
input values range in brackets below the parameter legend on the display.
Having edited the value as required, press, to select the amended setting.
Pressing when the cursor is on the right most digit has the same effect. If no
programming activity is detected for 5 minutes, the detector will display the legend
Access timeout and exit programming mode.
NB +
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When the correct access code is entered, the display will show the main menu. The
current selection is always shown with an arrow after it. Press or to activate the
selection.
The choices available in the main menu are, in order:
Setup menu : contains all the user-programmable functions
Log menu : Allows the user to view historical information such as the event log
(time and date of various events such as alarm or fault conditions)
Diagnostic menu : Contains a number of detector self-tests
Reset : Clears any latched fault readings or exits from a menu item to its parent
menu. This has the same effect as pressing the <RESET> button.
Isolate : Isolates the detector. This has the same effect as isolating with the
<ISOL> button,
Exit : Exits programming mode
The main menu ‘wraps around‘ so that pressing when in Setup menu brings up
Exit etc.
3.2 Main menu
NB +
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3.3 Navigating
through the menus To navigate through the main menu options, press to navigate through the
available choices. The display shows two adjacent items, e.g.
i.e., selects items lower in the list by effectively scrolling the screen UP, and vice
versa for .
The currently selected item is the upper item of the two and is identified by a trailing
arrow as shown (for a menu) or a trailing dot (for a menu item or single choice such
as Exit ). When you have the menu you require, press . This then gives you a
choice of the items within the selected menu, e.g. as follows to set the main fire alarm
level.
or pressing would show:
Pressing
would then show:
Setup menu Þ
Log menu
Setup menu
Log menu
Exit
Setup menu
Log menu
Diagnostic menu
Time and date •
Alarm levels Alarm levels •
Alarm actions
Fire 2 level
(1-25) : 20
Fire 1 level
(8-10) : 08
Fire 1 level
(8-10) : 08
Fire 1 level
(8-10) : 18
Fire 1 level
(8-10) : 18
Fire 1 level
(8-10) : 19
Fire 1 level
(8-10) : 10
Pre Alarm level
(3-8) : 04
Having entered the Fire 1 level , the selected item indicator steps along to the
item below it in the Alarm levels submenu. Either this can be edited as above, or
can be used to move to the next choice. Once the last entry in the sub-menu
is reached pressing will move you back up to the Setup menu . Pressing
<RESET> at any time exits programming mode, assuming the <RESET> button is
enabled.
Section 3.5 shows the full menu map for the Stratos-HSSD-2®, showing the choices
available within each menu and submenu. Move the menu pointer progressive-
ly towards the left or right of the map as appropriate, and step up/down the
choices in the currently selected menu or submenu. Items within sub-menus are
sequentially accessed with the button followed by the button. Values are edit-
ed with followed by .
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A list of all programmable functions follows with an explanation of their usage and the
menu and submenu in which they can be found. The location of each sub-menu and
function within the main menu is shown in the menu map (section 3.5). The menu
map also shows the valid input range for programming parameters.
Each function listed below gives the following information:
nFunction name and description
nType of function. There are five types of function: Yes/No, Numeric, Alpha,
(alphanumeric), Display and Test. In the case of Display and Test functions the user
cannot amend the parameters shown.
nThe menu and submenu within which the function can be found.
nApplicability. The legend "CM only" means that the function applies only to the
Command Module and is not present in the Standard Detector’s list.
The legend "Address 000-127" means that the function may apply to the Command
Module and the Standard Detector (allowable addresses from 000 to 127).
Time and date and Relay test are examples of these.
All other functions are present in both the Standard Detector and Command
Module function lists and are used to program the detectors. They can either be
remotely set on the Command Module, or locally on the detector front panel. These
are annotated "Address 001-127" since they do not apply to the Command Module
itself.
Where a programmable function on the Command Module applies to a Standard
Detector, the Command module will scan the loop and, if more than one detector is
present, will prompt the user for the address of the detector to be programmed. If the
function applies to the Command Module, the address "000" should be entered. For
other detectors on the loop (including the detector element of a Command Module
detector), the value is the same as the address set on the detector’s internal DIP switch.
If a user enters an address which does not appear on the loop, the error message
Bad detector will appear.
This message will also appear if the Command Module address "000" is entered into a
function which only applies to detectors, i.e. anything except "CM only" and "Address
000-127" functions.
3.4.1. Time and date (Numeric - Address 000-127)
- Setup menu > Time and Date
It is important that the time and date be set up correctly on the controller’s internal
calendar/clock because it uses this information to store events in the event log. See
section 3.7, "Event log" for more details. Unless specially ordered, units are supplied
with the correct setting for UK time. This is backed up with a rechargeable battery.
Later adjustments to the clock setting should not exceed ± 70 minutes unless a
FastLearn is initiated
3.4 Stratos-HSSD-2
functions
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The following table gives suggested settings of ClassiFire alarm setting for different locations
0 Extremely High Once per year Semiconductor manufacturing clean room
1Once per 5 years Computer room
2Once per 10 years Non-smoking office
3 Once per 50 years Clean factory
4Medium Once per 1000 years Warehouse
5 Medium Once per 5,000 years Warehouse with diesel trucks operating
6 Medium Once per 10,000 years Warehouse with diesel trucks operating
7Low Once per 20,000 years Warehouse with diesel trucks operating
8 Low Once per 100,000 years Warehouse with diesel trucks operating
Alarm
Factor Sensitivity Probability of
Nuisance Alarm Suggested Protected Area
3.4.3 Alarm delays (Numeric - Address 001-127)
Setup menu > Alarm levels
The alarm delay is the number of seconds that an alarm level has to be continuously
sensed before the alarm is initiated. Each alarm level has a programmable delay of
between 0 and 90 seconds.
3.4.4. ClassiFire®override (Numeric - Address 001-127)
Setup menu > Alarm levels
When this function is set to a value other than zero, the shorting together of the "Input
3" contacts on the detector main circuit board by means of volt free contacts will
desensitise the detector by moving the alarm levels out by the specified percentage.
3.4.5. ClassiFire®alarm factor (Numeric - Address 001-127)
Setup menu > Alarm levels
The detector sensitivity is set with this entry, which will also affect the probability of
nuisance alarms. 0 = high sensitivity, higher probability, 8 = low sensitivity, lower
probability.
Note: The highest sensitivity setting is suitable for clean, environmentally controlled envi-
ronments, e.g. semiconductor manufacturing clean rooms where airborne pollutants are
kept to an absolute minimum and the least contamination is cause for alarm.
Use of this setting in a busy machine shop would lead to relatively frequent nuisance alarms
due to the normal variation of atmospheric contamination and a lower sensitivity setting is
recommended. It is therefore important that the alarm factor chosen is suitable for the
area to be protected. When the appropriate alarm factor for the protected area has been
set, nuisance alarms will be reduced to an absolute minimum.
NB +
NB +
3.4.2 Alarm levels (Numeric - Address 001-127)
Setup menu > Alarm levels
The value set in the Pre Alarm level , Fire 1 level and Aux level functions
in the Alarm levels submenu is the relatively scaled bargraph level at which the
appropriate alarm is initiated on the detector. The Fire 2 level function assigns an
absolutely scaled alarm level in % obs/m to the Fire 2 alarm.
The Aux level is set by factory default at level 10 which means that this alarm will
occur after the Fire 1 alarm.
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3.4.6 Hour start of day and night operation (Numeric - Address
001-127) Setup menu > Alarm levels
These values are the times to the nearest hour at which the day/night switching is
desired to take place on the detector. Entries are made in 24-hour format, e.g. 19:00
for 7pm. If no day/night switching is required, then both entries should be set to
00:00. Day and night switching is intended so that the detector may automatically
select a different sensitivity when the protected area is unoccupied and fewer
contaminants are being produced. ClassiFire automatically detects the change in smoke
level after the protected area is left, and if the time at which this happens is within +/–
70 minutes of the programmed switchover time it selects the night-time histogram.
Note that if the environment actually becomes more contaminated during the night period
for any reason then ClassiFire will adapt to that too, reducing the night-time sensitivity. The
system will automatically compensate for 1 hour seasonal time-changes.
3.4.7 LDD™ Enable (Yes/No - Address 001-127)
Setup menu > Alarm levels
When this function is set to Yes , Laser Dust Discrimination (LDD) increases the
response time of the detector slightly, whilst greatly reducing the likelihood of nuisance
alarms due to dust ingress. LDD may be disabled in very clean rooms for a slightly
faster response to smoke by setting this function to No. Disabling LDD is not
recommended for areas other than manufacturing clean rooms, due to the increased
probability of nuisance alarms in most other operating environments.
3.4.8 Start / Stop FastLearn (Yes/No - Address 001-127)
Setup menu > Alarm levels
If the detector is in FastLearn mode, setting this function to No will stop the FastLearn
process. Using the function in this way is neither recommended nor supported by
AirSense Technology Ltd.
Setting this function to Yes will start a FastLearn at any time. The bargraph display on
the front of the detector will show a rolling segment display on the front panel for the
fifteen minutes that it takes to complete.
The text display will initially display the legend FastLearn 15 and will then count
down each minute until the FastLearn is complete.
It will take a further 24 hours after the FastLearn for full sensitivity to be reached, unless
Demonstration Mode has been initiated. It is essential for proper functioning that the
detector not be left in Demonstration mode, and that it be allowed to complete the 24-
hour learning period. To cancel demo mode, set this function to Yes or power down
and restart the detector to initiate FastLearn mode.
NB +
IMPORTANT NOTE
!
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3.4.9 Auto FastLearn enable / disable (Yes/No - Address 001-127)
Setup menu > Alarm levels
As default, this function is set to Yes. This ensures that if the detector is powered down
for any reason (e.g. for maintenance or to be moved to a new area), a FastLearn is
commenced automatically on power-up. There may be occasions when it is desirable
to power down the detector for short periods of time, and it is highly likely that
ambient contaminant levels will be the same on power-up. Under these circumstances
it may not be desirable that the detector should to go through the whole learning
process again. To this end, this function can be set to No before power-down,
whereupon it will return to the original settings on power-up.
3.4.10 Time Delay Override (Yes/No - Address 001-127)
Setup menu > Alarm actions
If this function is set to Yes , then the detector will ignore any pre-set time delays in
the event of an unacceptably rapid increase in smoke density, thereby minimising
response time to 'rapid growth' fires. This function would normally only be used where
there were long time delays programmed on the alarm levels.
3.4.11 Cascading alarms (Yes/No - Address 001-127)
Setup menu > Alarm actions
Setting this function to Yes means that only when the detector’s controller has gone
into Pre-Alarm does the controller start counting down the main Fire delay i.e. the time
delays on Pre-Alarm and Fire 1 are cumulative. The Aux alarm is not included in the
cumulative delay since it may be set to a higher level than either the Pre-Alarm or Fire
1 levels.
3.4.12 Latching alarms (Yes/No - Address 000-127)
Setup menu > Alarm actions
When this function is set to Yes it requires a reset on the front panel or a remote reset
to clear an alarm condition. It may be applied to the Command Module or a Standard
Detector.
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3.4.13 Latching faults (Yes/No - Address 000-127)
Setup menu > Alarm actions
When this function is set to Yes it requires a reset from the front panel or a remote
reset to clear fault indications. This is the factory default setting. It may be applied to
the Command Module or a Standard Detector.
3.4.14 Remote day/night (Yes/No - Address 001-127)
Setup menu > Alarm actions
Setting this function to Yes allows the detector to be manually switched between day
and night mode using a remote input.
3.4.15 Remote reset enable (Yes/No - Address 000-127)
Setup menu > Alarm actions
If remote resetting of the detector or Command Module is required from the host Fire
Alarm controller or other external source, this option must be set to Yes .
3.4.16 Remote Isolate Enable (Yes/No - Address 000-127)
Setup menu > Alarm actions
When this function is set to Yes a remote switch may be used to isolate the detector
or Command Module.
3.4.17 Programmed Isolate (Yes/No - Address 000-127)
Setup menu > Alarm actions
When set to Yes the controller will not generate alarms and will not indicate a fault
condition on any fire panel which is connected, e.g. for use during detector
maintenance. The ‘Fault’ light will be illuminated on the detector or Command
Module front panel. The isolated condition will be disabled automatically after 7 days
if not manually disabled.
3.4.18 Detector address / Number of detectors
(Display - Address 000-127)
Setup menu > Detector
In the case of the Standard Detector, this function displays the current address of the
detector as set by the internal DIP switch. On the Command Module, it shows the
number of detectors found on the communications loop. This function appears
immediately on entering the Detector submenu. The Command Module is always at
address ‘000’. When the Command Module unit is fitted in a detector, the detector
must have a separate address.
©AirSense Technology Ltd. 2005
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3.4.19 Device Text (Alpha - Address 000-127)
Setup menu > Detector
This is the default text string displayed on the Standard Detector or Command Module
LCD display. If desired, this can be altered to any 16 character alphanumeric
identification. Thus, for example, the name of the area being protected, or the name
of the person responsible for fire safety could be entered. The default device text is
Stratos-HSSD 2 and the firmware revision level for the Standard Detector, and
Command Module and the firmware revision level for the Command Module.
3.4.20 Reference device (Numeric - Address 001-127)
Setup menu > Reference
Any detector on the loop may use another detector as a fresh air reference. When
entering the Reference submenu the user is prompted to first select the address of
the detector which will be using the reference, and is then forwarded to this option.
To set a detector as a reference detector, enter its address as set by its internal DIP
switch into this function.
3.4.21 Reference enable (Yes/No - Address 001-127)
Setup menu > Reference
Setting this function to Yes enables the reference for the detector, if one has
previously been allocated in Reference device (1-127) (see section 3.4.20,
‘Reference device’).
3.4.22 Reference level (Numeric - Address 001-127)
Setup menu > Reference
The value set with this function is the percentage reference signal subtracted from the
detector’s signal, if a reference device has been allocated.
3.4.23 Back-off (Numeric - Address 001-127)
Setup menu > Reference
This value is the delay time (in seconds) between a build up of pollution being seen by
the reference (if used) and the pollution being seen by the detector.
3.4.24 Reset, Test & Isolate button enable/disable
(Yes/No - Detectors 000-127)
Setup menu > Front panel
The front panel buttons may be enabled or disabled individually for the Command
Module or Standard Detectors by setting these functions to Yes or No.
3.4.25 Power save enable (Yes/No - Addresses 001-127)
Setup menu > Power checks
This function allows the detector to minimise electrical power consumption when
operating from stand-by batteries. If enabled, upon mains supply failure the aspirator
will reduce speed to minimum, regardless of the user-defined value. This function may
be disabled if the minimum aspirator speed increases transport time unacceptably.
(See Section 3.4.28, "Aspirator speed").
When in this condition, any smoke reading above 3 bar graph segments on the detector
will automatically remove this condition.
This function has no effect on the Command Module.
NB +
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Stratos HSSD-2 • INSTALLER’S HANDBOOK • Iss. 7
3.4.26 Battery check enable (Yes/No - Address 000-127)
Setup menu > Power checks
If no battery back-up is required, this function should be set to No to avoid
Battery fault being displayed on the front panel. If a back-up battery is used, it is
recommended that the battery check be enabled. When this is done the user will be
prompted for an input terminal to use. The battery fault will be displayed when this
contact is open. The default setting is battery fault enabled on "I/P 1". Section 5.3.1
"Detector terminal block connections" and Section 5.3.2 "Command Module
terminal block connections" show the input terminal connections for the
Standard Detector and Command Module respectively.
3.4.27 Mains check enable (Yes/No - Address 000-127)
Setup menu > Power checks
The Stratos-HSSD 2 detector and Command Module are capable of signalling power
supply faults from the power supply where this is equipped with a fault relay (the
power supply fitted by default has this feature). The mains check is disabled by default.
If the user sets this function to Yes , the user will be prompted with an unassigned input
terminal to use (this will normally be "I/P 2" if battery check is already enabled on "I/P
1" - see section 3.4.26, ‘Battery check enable’).
The mains fault will be displayed when this contact is open.
3.4.28 Aspirator speed (Numeric - Address 001-127)
Setup menu > Air flow
The value entered sets the aspirator in the detector to one of a range of predetermined
speeds. The lower the number entered the lower the airflow rate and the lower the
power consumption.
3.4.29 Flow setup (Yes/No - Address 001-127)
Setup menu > Air flow
Setting this function to Yes puts the detector into automatic flow limit setup mode.
This takes a few minutes to set the flow fault thresholds based on the current flow
rates.
3.4.30 Airflow monitoring (Display / Numeric - Address 001-127)
Setup menu > Air flow
There are separate Sensor pipe ,Flow low , Flow high and Flow pipe
parameters for each pipe 1 to 4 on the detector. For example, Flow pipe 1 indicates
the current airflow rate for pipe 1.
Sensor pipe 1 to Sensor pipe 4 are used to enable or disable flow sensing on
the specified pipe inlet of the detector. If any pipe inlets are unused, set the relevant
flow sensor function for the pipe inlet to No to avoid unwanted flow faults.
Flow low is the level below which airflow needs to be reduced to trigger a fault
reading (which may indicate a blocked pipe) and Flow high is the level above which
airflow needs to increase to trigger a fault indication (which may indicate a loose or
damaged inlet pipe).
Flow low and Flow high parameters are automatically set up on initial power-up
or when Flow setup is selected (see section 3.4.29).
The airflow rates Flow pipe 1 to Flow pipe 4 are for display purposes only and
cannot be changed.
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Stratos HSSD-2 • INSTALLER’S HANDBOOK • Iss. 7
3.4.31 Chart log recording rate (Numeric - Address 000-127)
Setup menu > Miscellaneous
This function controls how frequently the detector and alarm level or flow rates are
stored in the Standard Detector or Command Module internal chart recorder log.
In the above table the greyed section indicates flow rate recording while the white
section indicates detector and alarm level recording.
The factory default setting is 8. At the slowest recording rate, one month of data can
be recorded. A PC must be connected via the RS232 port with appropriate software to
view the chart recorder log. See section 8.5, "Connecting to a PC"
3.4.32 User defined access code (Numeric - Address 000-127)
Setup menu > Miscellaneous
This function sets the access code that the user has to input in order to modify any of
the function values. The default setting is "0102" but for added security it can be
changed to any four-digit number desired by the user.
3.4.33 BMS protocol (Numeric - CM only)
Setup menu > Miscellaneous
This function sets the communications protocol for connection to a Building
Management System (BMS). Refer to Section 6, "External Communications" for
details of these protocols.
setting type storage interval time per division
on chart log
0 Detector output 1 second 10 seconds
1 Detector output 5 seconds 50 seconds
2 Detector output 12 seconds 2 minutes
3 Detector output 30 seconds 5 minutes
4 Detector output 1 minute 10 minutes
5 Detector output 2 minutes 20 minutes
6 Detector output 5 minutes 50 minutes
7 Detector output 10 minutes 100 minutes
8 Detector output 20 minutes 200 minutes
9 Detector output 50 minutes 500 minutes
10 flow recording 1 second 10 seconds
11 flow recording 5 seconds 50 seconds
12 flow recording 12 seconds 2 minutes
13 flow recording 30 seconds 5 minutes
14 flow recording 1 minute 10 minutes
15 flow recording 2 minutes 20 minutes
16 flow recording 5 minutes 50 minutes
17 flow recording 10 minutes 100 minutes
18 flow recording 20 minutes 200 minutes
19 flow recording 50 minutes 500 minutes
The chart log recording rates are as follows.
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