4.5 Outputs
4.5.2 Output Command Description
4.5.2.1 CU z.x LED y
The CU z.x LED y command is used to set LEDs on the panels.
Syntax:
[SET/RESET] CU z.x LED y [COLOR] [FLASH]
Parameters:
Table 32.
z Central address
x Panel address
y LED number (1-4).
(LED no. 4 only available on industrial panel).
COLOUR
(only on industrial panel) LED number 1-3. RED (blank=red), YELLOW LED number 4. RED (blank=red)
FLASH FLASH
Examples:
FIRE IN SYSTEM => CU 2 LED 1;
LED 1 at panel 2 is set as long as there is a fire in the system.
FIRE IN SYSTEM => CU 2 LED 3 YELLOW FLASH;
LED 3 at panel 2 is flashing with a yellow light (green & red parts of the LED are lit at the same time) as long as there is a fire in the system.
LED locations:
The LEDs are located on the control panels. See illustrations below.
LED 1 = LED in the top custom shortcut LED 2 = LED in the middle custom shortcut LED 3 = LED in the lower custom shortcut
LED 4 = LED for Alarm transmitter activated “Larmsändare aktiverad” (industrial panel only)
Figure 85. LED 1-3 on a control panel for marine applications
Figure 86. LED 1-4 on a control panel for industrial applications
4.5.2.2 FLAG x
The FLAG command can be used both as input and output command. For description and examples, seeFLAG x / SYSTEM VIO x, page 84.
4.5.2.3 LARMORG MUTE
The command is only available in industrial applications and will mute all connected Repeater modules running in LARMORG mode.
Example:
IN 1.1.2 => LARMORG MUTE;
All LARMORG Repeater modules will be muted as soon as input 1.1.2 is activated.
4.5.2.4 MESSAGE ALARM DELAY [x] {ON, OFF, ON/OFF}
The message alarm delay ON/OFF is used to activate or deactivate the alarm delay function.
Syntax:
MESSAGE ALARM DELAY [x] {ON, OFF, ON/OFF}
Parameters:
x x has to be a central number. If none is supplied the function will be disabled in the entire system.
Comments:
The commands that include ON/OFF function as follows:
• If the input condition is true, the first argument is valid (ON).
• If the input condition is false, the second argument is valid (OFF).
Example 1:
IN 1.1.3 => MESSAGE ALARM DELAY 9 ON;
When input 3 on module 1 is active the alarm delay function is activated in central 9.
Example 2:
NOT IN 1.1.3 => MESSAGE ALARM DELAY 9 OFF;
When input 3 on module 1 is turned off the alarm delay function is deactivated in central 9.
4.5.2.5 MESSAGE ALARM TRANS [x] {ON, OFF, ON/OFF}
The message alarm trans ON/OFF is used to disable or enable outputs of category alarm transfer.
Syntax:
MESSAGE ALARM TRANS [x] {ON, OFF, ON/OFF}
Parameters:
x x has to be a central number. If none is supplied the function will be disabled in the entire system.
Comments:
The commands that include ON/OFF function as follows:
• If the input condition is true, the first argument is valid (ON).
• If the input condition is false, the second argument is valid (OFF).
Example:
IN 1.1.3 => MESSAGE ALARM TRANS 7 ON;
When input 3 on module 1 is active the outputs of category alarm transfer are enabled in central 7.
4.5.2.6 MESSAGE ZONE x TYPE y[-z] ON/OFF
The command is used to reconnect or disconnect an interval of detectors in a zone.
Syntax:
MESSAGE ZONE x TYPE y-z ON/OFF
Parameters:
Table 33.
x Specifies a zone between 1 and 65534.
y Specifies a detector between 1 and 65534.
z Specifies a detector between 1 and 65534.
Type Specifies the detector type. One of the following types can be used:
All fire detectors, including manual call points.
All fire detectors, including manual call points.
All automatic fire detectors, excluding manual call points.
Flame detectors.
Heat detectors, both maximal and rate-of-rise.
Manual call points.
Smoke detectors.
Smoke/heat detectors.
Sprinklers.
y, z Specifies a single detector address or a detector address interval. y and z can be set to any number between 1-65534.
Comments:
The ON/OFF command functions as follows:
• If the input condition is true, the first argument is valid (ON).
• - If the input condition is false, the second argument is valid (OFF).
NOTE!
Items enclosed in square brackets are optional. Do not type the brackets when including an optional item.
Example:
IN 1.4.2 => MESSAGE ZONE 1 DET 1-5 ON/OFF;
Detectors 1-5 in zone 1 are switched off as long as input 2 on system module 4 is activated.
4.5.2.7 MESSAGE ZONE x SD y-z [ORDER]
The command is used to set smoke detector sensitivity in an interval of a zone.
Syntax:
MESSAGE ZONE x SD [y[-z]] NORMAL SENSE MESSAGE ZONE x SD [y[-z]] HIGH SENSE
MESSAGE ZONE x SD [y[-z]] NORMAL/HIGH SENSE
Parameters:
Table 34.
x Specifies a zone between 1 and 65534.
y Specifies a detector between 1 and 65534.
z Specifies a detector between 1 and 65534.
Comments:
The NORMAL/HIGH command functions as follows:
• If the input condition is true, then the first argument is valid (NORMAL).
• If the input condition is false, then the second argument is valid (HIGH).
NOTE!
Items enclosed in square brackets are optional. Do not type the brackets when including an optional item.
Examples:
IN 1.4.1 => MESSAGE ZONE 1 SD 5-10 NORMAL SENSE;
NOT IN 1.4.1 => MESSAGE ZONE 1 SD 5-10 HIGH SENSE;
Smoke detectors 5-10 will have normal sensitivity as long as input 1 on system module 4 is active.
IN 1.4.2 => MESSAGE ZONE 5 SD NORMAL/HIGH SENSE;
All smoke detectors in zone 5 will have normal sensitivity as long as input 2 on system module 4 is active.
4.5.2.8 MESSAGE BOARD z.x.y TEMP UPDATE
The command activates transmission of temperature for all heat detectors on the selected loop.
Example:
FLAG 1 | NOT FLAG 1 => MESSAGE BOARD 1.11.1 TEMP UPDATE;
Activates the temperature update from all heat detectors on loop 1 on module 11 in central 1.
4.5.2.9 MINI RESET alt MINIREPEATER RESET
The command removes control privileges from minirepeater.Example:
FIRE IN SYSTEM & NOT CU 1.7 DOOR => MINIREPEATER RESET;
4.5.2.10 MUTE_ALL [FIRE/FAULT]
Based on input expression the system performs a mute operation on all items in the specified list, FIRE or FAULT list. Mute is always performed on a root user level, all fault or fires are affected, no show/control rights are checked.
Syntax:
MUTE_ALL [FIRE/FAULT]
Examples:
IN 1.20.1 => MUTE_ALL FIRE
IN 1.20.2 => MUTE_ALL FAULT
4.5.2.11 NEWCMPROFILE [CENTRAL].[CARD] [SHOW MASK]
[CONTROL MASK]
CAUTION!
It is only allowed to use this command for system changes on the same central, and should never be used to change rights for other centrals.
Based on input expression the system changes the show and control masks of the CM with address [CENTRAL].[CARD]. The address [CENTRAL].[CARD] must be the address of a configured CM may not be a broadcast/group address. The [SHOW MASK] and [CONTROL MASK] are numbers in either decimal or hexadecimal. For hexadecimal numbering use the prefix '0x'(ex. 0xABCDEF). The [SHOW MASK] and [CONTROL MASK] numbers are used as bitmasks, where bit identifies a group specified in the CCP Conf program. A set bit indicates that the mask includes the group.
There are a maximum of 32 groups in the system. The group number from CCP Conf identifies the bit position representing the group.
To create a mask including groups 1,7,8,20 and 27 use the approach below:
Group number Corresponding 32 bit binary value
Group 1: 0000 0000 0000 0000 0000 0000 0000 0001
Group 7: 0000 0000 0000 0000 0000 0000 0100 0000
Group 8: 0000 0000 0000 0000 0000 0000 1000 0000
Group 20: 0000 0000 0000 1000 0000 0000 0000 0000
Group 27: 0000 0100 0000 0000 0000 0000 0000 0000
Sum of all: 0000 0100 0000 1000 0000 0000 1101 0001
Corresponding
Hexadecimal: 0 4 0 8 0 0 D 1
Mask value to use in C/E rule: 0x040800D1 Syntax:
NEWCMPROFILE [CENTRAL].[CARD] [SHOW MASK] [CONTROL MASK];
Examples:
IN 1.20.5 => NEWCMPROFILE 1.1 0x040800D1 0x040800D1;
IN 1.20.6 => NEWCMPROFILE 1.2 67633361 67633361;
4.5.2.12 OUT z.x.y [PATTERN]
Specifies the outputs on the system modules. The specified outputs are controlled by the active inputs.
Syntax:
[SET/RESET] OUT z.x.y [PATTERN]
Parameters:
Table 35.
z, x, y z = central address, x = system module address, y = output number
PATTERN
GA71 seven short, 1 long
FLASH 1s on, 1s off
PATTERN 1 HZ 0.5s on 0.5s off
PATTERN 1 THIRD 1.5s on 1.5s off
PATTERN FINLAND 2s on, 1s off
PATTERN GAS 0.5s on, 0.5s off, 0.5s on, 1.5s off
PATTERN POLAND 1.5s on, 1.5s off, 1.5s on, 1.5s off, 3.5s on, 1.5s off
PATTERN PRE-ALARM 0.5s on, 1.5s off
PATTERN 10 1.5s on, 1,5s off, 6s on, 1.5s off
PATTERN 11 6s on, 3s off
PATTERN 12 1s on, 1s off 4s on, 1s off PATTERN 13 1s on, 1s off, 2s on, 1s off
PATTERN CANADA 5s on, 30s off
PATTERN PULSE 5s on, 1s off
All patterns repeat forever with the exception:
PATTERN PULSE only one time
Comments:
NOTE!
Items enclosed in square brackets are optional. Do not type the brackets when including an optional item.
Examples:
FIRE IN SYSTEM & NOT OPEN DOOR => OUT 1.4.11;
If there is a fire in the system and there are no open doors then output 11 on system module 4 in central 1 is activated.
UNMUTED FAULT & NOT OPEN DOOR => OUT 1.4.12;
If there is an unmuted fault in the system and there are no open doors then output 12 on system module 4 in central 1 is activated.
UNMUTED FAULT => OUT 1.4.12;
If there is an unmuted fault in the system then output 12 on system module 4 in central 1 is activated.
IN 1.1.3 => SET OUT 1.2.3;
NOT IN 1.1.3 & IN 1.1.4 => SET OUT 1.2.3 FLASH;
NOT (IN 1.1.3 | IN 1.1.4) => RESET OUT 1.2.3;
If input 3 on system module 1 in central 1 is activated then output 3 on system module 2 in central 1 remains on. However, if input 4 on system module 1 in central 1 is activated and input 3 on system module 1 in central 1 is inactive then output 3 on system module 2 in central 1 is activated with an intermittent signal (1 sec. on, 1 sec. off).
If neither input is activated the output is reset.
FIRE IN SYSTEM => OUT 1.3.8 GA71;
If there is a fire in the system, output 8 on system module 3 in central 1 will be set with the pattern 7 short (1.5 sec. on, 1.5 sec. off) and 1 long (7 sec.)
ZONE 1 ADR 8 => OUT 1.3.147;
If address 8 in zone 1 is activated, output 147 (= LED 147) on system module 3 in central 1 (in this case a ZB with MUX software). The LED number can be in the interval of 1-254.
Related Commands:
Table 36.
ZONE x OUT y.z [MSK n] Sets an output on a control module.
4.5.2.13 Rate of Rise C/E rules
Rate of Rise functionality allows for setting of a different alarm threshold and temperature rise threshold for heat detectors. By using C/E commands it is possible to vary the temperature threshold between 30 - 84 deg Celcius and set the alarm to trigger when the temperature rise is between 3 to 7 deg Celcius per minute.
CAUTION!
Maximum limit to be set for heat rise is 7 degree Celsius per minute.
Detector Support
The following detectors are supported by this function:
• CN/EV-H
• CN/EV-PH
• NS-AH
• NS-AOHS
C/E Rules
The Rate of Rise rule is defined as follows:
Syntax:
[EXPRESSION] => [/SET/RESET] PARAMETER ZONE [#Z] [TYPE] [#ADR-#ADR]
ALIMIT [#ALIMIT] ROR [#ROR_LIMIT];
CAUTION!
Take care not to define overlapping rules!!
If this is done, the system may become choked by setting and clearing Rate of Rise rules each C/E run. This will result in caotic/unpredictable system behaviour.
Parameters:
[EXPRESSION] Your regular C/E expression to control the Rate of Rise expression.
[/SET/RESET]
This argument is optional and can be left out. If the argument is left out the Rate of Rise settings will follow the [EXPRESSION].
If [EXPRESSION] evaluates to true then the Rate of Rise rule will be set.
If [EXPRESSION] evaluates to false the Rate of Rise rule will be cleared.
If the argument is "SET" then the Rate of Rise rule will be explicitly set when the [EXPRESSION] argument evaluates to true.
If the argument is "RESET" then the Rate of Rise rule will be explicitly cleared when the [EXPRESSION] argument evaluates to true.
[#Z] Zone number
[TYPE] Detector type "HEAT", "SMOKE" etc.
[#ADR-#ADR] Address range, detector address #from - #to.
[#ALIMIT] Heat alarm threshold in tenths of degrees Celcius.
[#ROR_LIMIT] Heat rise alarm threshold in tenths of degrees Celcius.
For more examples, please see[SET/RESET] PARAMETER ZONE x [TYPE]
[y-z] ALIMIT a ROR r, page 109.
4.5.2.14 RESET_ALL [FIRE/FAULT]
Based on input expression the system performs a reset operation on all items in the specified list, FIRE or FAULT list. Reset is always performed on a root user level, all fault or fires are affected, no show/control rights are checked.
Syntax:
RESET_ALL [FIRE/FAULT]
Examples:
IN 1.20.3 => RESET_ALL FIRE IN 1.20.4 => RESET_ALL FAULT
4.5.2.15 RESOUND_ALL [FIRE/FAULT]
Broadcasts a resound all fire alarms or fault messages in the system.
Syntax:
RESOUND_ALL [FIRE/FAULT]
Examples:
VIO 1 => RESOUND_ALL FIRE;
VIO 2 => RESOUND_ALL FAULT;
4.5.2.16 SET PARAMETER ZONE x SD y-z AAA SENSE
Sets the sensitivity value for smoke devices in specified zone and address range.
Note that SET must be specified and that no reset of the sensitivity value will be made unless adding another sensitivity expression.
Syntax:
SET PARAMETER ZONE x SD y-z AAA SENSE
Parameters:
x Zone number
y-z Address range, to-from
AAA Sensitivity level; LOW, NORMAL or HIGH
4.5.2.17 PARAMETER ZONE x SD y-z NORMAL/AAA SENSE
Switches the sensitivity value between NORMAL and AAA for smoke devices in specified zone and address range. Note that specifying SET or RESET is not possible since it is a two-state rule following the result of the evaluated input.Syntax:
PARAMETER ZONE x SD y-z NORMAL/AAA SENSE
Parameters:
x Zone number
y-z Address range, to-from
AAA Inactive sensitivity level; LOW or HIGH
4.5.2.18 [SET/RESET] PARAMETER ZONE x [TYPE] [y-z] ALIMIT a ROR r
SET PARAMETER ZONE x [TYPE] [y-z] ALIMIT a ROR r
Set parameter rule will set the Rate of Rise and Heat alarm thresholds when the input expression is true. The setting will not be cleared at any time by this rule.
RESET PARAMETER ZONE x [TYPE] [y-z] ALIMIT a ROR r
Reset parameter rule will clear the Rate of Rise and Heat alarm thresholds when the input expression is true. The setting will not be set at any time by this rule.
Parameters:
x Zone number
TYPE Detector type, ”HEAT”, ”SMOKE” etc.
y-z Address range, to-from
a Alarm level for heat alarm (1/10 deg Celcius)
r Alarm level for rate of rise alarm (1/10 deg
Celcius per minute)
For more explanation, seeRate of Rise C/E rules, page 107
4.5.2.19 PARAMETER ZONE x [TYPE] [y-z] ALIMIT a ROR r
Rule will clear the Rate of Rise and Heat alarm thresholds when the input expression is true. The setting will not be set at any time by this rule.Syntax:
PARAMETER ZONE x [TYPE] [y-z] ALIMIT a ROR r
Parameters:
x Zone number
TYPE Detector type, ”HEAT”, ”SMOKE” etc.
y-z Address range, to-from
a Alarm level for heat alarm (1/10 deg
Celcius)
r Alarm level for rate of rise alarm (1/10 deg
Celcius per minute)
For more explanation, seeRate of Rise C/E rules, page 107
4.5.2.20 SET/RESET FLAG x / SYSTEM VIO x
It is possible to add functionality to the macro command FLAG or SYSTEM VIO with the SET and RESET FLAG/VIO commands. If you want FLAG to change status on different events, use the SET FLAG/VIO and RESET FLAG/VIO commands (the commands run parallel to each other).
The command SET will lock the FLAG/VIO in a true condition. It will stay true until a RESET command has been performed.
Syntax:
SET FLAG x RESET FLAG x SET [SYSTEM] VIO x RESET [SYSTEM] VIO x
Parameters:
Table 37.
x Select a number between 1 and 255.
Examples:
ZONE 1 | ZONE 2 | ZONE 9 | ZONE 14 => SET FLAG 1, FLAG 2;
NOT FLAG 2 & IN 1.3.1 => RESET FLAG 1;
FLAG 1 => OUT 1.3.1;
FLAG 1 will be set to true if there are one or more fire alarms in the zones 1, 2, 9 or 14. FLAG 1 will remain true even if the fire alarms in the zone are reset.
FLAG 1 will change status to false when input 1 on system module 3 is activated.
FLAG 2 will ensure that it is not possible to RESET the FLAG as long as there are one or more fire alarms in the zones. Output 1 on system module 3 will be
activated as long as FLAG 1 is true and it will be deactivated when it is false.
Related Commands:
Table 38.
FLAG x You can use the FLAG command to replace long expressions of input commands.
4.5.2.21 SYSTEM VIO x
The SYSTEM VIO command can be used both as an input and an output command. For description and examples, seeFLAG x / SYSTEM VIO x, page 84.
4.5.2.22 ZONE x OUT y.z [MSK n]
The command sets an output on a control module.
Syntax:
ZONE x OUT y.z [MSK n]
Parameters:
Table 39.
x Specifies the zone number. The zone number is a number between 1-65534 depending on the configuration of the central unit.
y, z Specifies a single output address, y can be 1-65534 and z 1-8.
MSK
MSK can only be used for the following loop units:
EV-ABS Sounder mask = 0x18
Beacon mask = 0x20
EV-SB Sounder mask = 0x8F
Beacon mask = 0x20
EV-SB-DSCI Sounder mask = 0x8F
Beacon mask = 0x20
n n can be 0x1-0xFF.
Example:
FIRE IN SYSTEM => ZONE 7 OUT 8.2 MSK 254;
If there is a fire in the system then output 2 on address 8 on zone 7 is activated.
Table 40.
OUT x.y x = system module address, y = output number
ZONE x IN y.z Reads the input status of one or more control modules.