Mircom MIX-2351TIRAPA Advanced Protocol Multi-Criteria Photoelectric Instruction Manual
- June 9, 2024
- Mircom
Table of Contents
Mircom MIX-2351TIRAPA Advanced Protocol Multi-Criteria Photoelectric
SPECIFICATIONS
- Operating Voltage Range: 15 to 32 VDC
- Operating Current @ 24 VDC: 200 uA (one communication every 5 seconds with green LED blink on communication)
- Maximum Alarm Current: 2 mA @ 24 VDC (one communication every 5 seconds with red LED solid on)
- Maximum Current: 4.5 mA @ 24 VDC (one communication every 5 seconds with amber LED solid on)
- Operating Humidity Range: 15% to 93% Relative Humidity, Non-condensing
- Operating Temperature Range: 32°F to 115°F (0°C to 47°C)
- Air Velocity: 0 to 4000 ft./min. (0 to 1219.2 m/min.)
- Height: 2.0˝ (51 mm) installed in B300-6 Base
- Diameter: 6.2˝ (156 mm) installed in B300-6 Base; 4.1˝ (104 mm) installed in B501 Base
- Weight: 3.4 oz. (95 g)
- Isolator Load Rating: 0.0063
Please refer to your isolator base/module manual for isolator calculation instructions.
CAN/ULC S529 listed for Open Air Protection
CAN/ULC S530 listed for Heat Detectors
This sensor must be installed in compliance with the control panel sys-tem
installation manual. The installation must meet the requirements of the
Authority Having Jurisdiction (AHJ). Sensors offer maximum perfor-mance when
installed in compliance with CAN/ULC S524. For a complete list of compatible
bases, refer to the Base/Sensor Cross Reference Chart at systemsensor.com.
GENERAL DESCRIPTION
Model MIX-2351TIRAPA is a plug-in type multi-criteria smoke sensor that of-
fers a photoelectric sensing chamber combined with a 135°F (57.2°C) fixed
temperature heat detector and infrared (IR) sensors. The MIX-2351TIRAPA also
transmit an alarm signal due to heat (135°F/57.2°C) per CAN/ULC S530.
All sensors transmit an analog representation of smoke density over a commu-
nication line to a control panel. Rotary dial switches are provided for
setting the sensor’s address. (See Figure 2.)
Two LEDs on the sensor are controlled by the panel to indicate sensor status.
An output is provided for connection to an optional remote LED annunciator
(P/N RA100ZA).
Mircom panels offer different features sets across different models. As a
result, certain features of the photoelectric sensors may be available on some
control panels, but not on others.
MIX-2351TIRAPA supports Advanced Protocol and CLIP (Classic Loop In-terface
Protocol) mode. The possible features available in the multi-criteria smoke
sensors, if supported by the control unit are:
- The sensor’s LEDs can operate in three ways—on, off, and blinking–and they can be set to red, green, or amber. This is controlled by the panel.
- The remote output may be synchronized to the LED operation or con-trolled independent of the LEDs.
- Devices are point addressable up to 159 addresses.
Please refer to the operation manual for the UL listed control panel for spe- cific operation. The photoelectric and temperature sensors require compatible addressable communications to function properly. Connect these sensors to listed-compatible control panels only.
SPACING
Mircom recommends spacing sensors in compliance with NFPA 72. In low air flow applications with smooth ceilings, space sensors 30 feet apart (9.1 m). When using the photoelectric and temperature sensors as a heat detector in FM3210 compliant applications, space sensors 20 feet apart (6 m). For specific information regarding sensor spacing, placement, and special applications, refer to NFPA 72 or the System Smoke Detector Application Guide, available from Mircom.
WIRING GUIDE
All wiring must be installed in compliance with the National Electrical Code, applicable local codes, and any special requirements of the Authority Having Jurisdiction. Proper wire gauges should be used. The installation wires should be color-coded to limit wiring mistakes and ease system troubleshooting. Im- proper connections will prevent a system from responding properly in the event of a fire.
Remove power from the communication line before installing sensors
- Wire the sensor base (supplied separately) per the wiring diagram, Figure 2.
- Set the desired address on the sensor address switches, see Figure 1.
- Install the sensor into the sensor base. Push the sensor into the base while turning it clockwise to secure it in place.
- After all sensors have been installed, apply power to the control panel and activate the communication line.
- Test the sensor(s) as described in the TESTING section of this manual.
FIGURE 1. WIRING DIAGRAM
CAUTION
Do not loop wire under terminal 1 or 2. Break wire run to provide supervision
of connections.
FIGURE 2. ROTARY ADDRESS SWITCHES
FIGURE 3. FEATURES OF THE PTIR DETECTOR
FIGURE 4. CLEANING THE PTIR DETECTOR
CAUTION
Dust covers provide limited protection against airborne dust particles during
shipping. Dust covers must be removed before the sensors can sense smoke.
Remove sensors prior to heavy remodeling or construction.
TAMPER-RESISTANCE
Photoelectric and temperature sensors include a tamper-resistant capability that prevents removal from the base without the use of a tool. Refer to the base manual for details on making use of this capability.
TESTING
Before testing, notify the proper authorities that the system is undergoing
maintenance, and will temporarily be out of service. Disable the system to
prevent unwanted alarms.
All sensors must be tested after installation and periodically thereafter.
Test-ing methods must satisfy the Authority Having Jurisdiction (AHJ). Sensors
offer maximum performance when tested and maintained in compliance with NFPA
72.
The sensor can be tested in the following ways:
-
A. Functional: Magnet Test (P/N M02-04-01 or M02-09-00)
This sensor can be functionally tested with a test magnet. The test magnet electronically simulates smoke in the sensing chamber, testing the sensor electronics and connections to the control panel.
1. Hold the test magnet in the magnet test area as shown in Figure 3.
2. The sensor should alarm the panel.
Two LEDs on the sensor are controlled by the panel to indicate sensor status. Coded signals, transmitted from the panel, can cause the LEDs to blink, latch on, or latch off. Refer to the control panel technical documen-tation for sensor LED status operation and expected delay to alarm. -
B. Smoke Entry
Canned aerosol simulated smoke (canned smoke agent) may be used for smoke entry testing of the smoke detector.
The multi-criteria smoke sensor uses algorithms to process signals re-ceived from multiple sensors to determine alarm conditions and reduce false alarms. Therefore, a single burst of canned smoke will not immedi-ately place the detector into an alarm condition because the detector al-gorithms correctly determine a burst of canned smoke is not fire. In order to perform functional testing of the photoelectric sensor, the device must be placed into test mode. Test mode allows the detector to isolate the indi-vidual sensors for testing. The device can be placed into test mode through either of the following methods.-
a. Put the device into test mode by holding a test magnet in the magnet test area as shown in Figure 3 for 6-12 seconds.
NOTE: If the magnet is held in place for too long the fire alarm test func- tion will be triggered. (See Magnet Test, above.) Reset the panel and pro-ceed with testing the smoke entry portion of the device. -
b. Perform smoke entry testing immediately following the magnet test. The magnet test initiates an approximately 10 minute period when the detec-tor’s signal processing software routines are not active.
Once in test mode, test the smoke detector using one of the tested and ap- proved aerosol smoke products. Refer to the manufacturer’s published instruc- tions for proper use of the canned smoke agent. When used properly, the canned smoke agent will cause the smoke detector to go into alarm.
Tested and approved aerosol smoke products include: Manufacturer| Model
---|---
HSI Fire & Safety| 25S, 30S (PURCHECK)
SDi| SMOKE CENTURIAN, SOLOA4, SMOKESABRE, TRUTEST
No Climb| TESTIFIRE 2000
-
CAUTION
Canned aerosol simulated smoke (canned smoke agent) formulas will vary by
manufacturer. Misuse or overuse of these products may have long term ad-verse
effects on the smoke detector. Consult the canned smoke agent manufac-turer’s
published instructions for any further warnings or caution statements.
-
C. Direct Heat Method (Hair dryer of 1000-1500 watts).
A hair dryer of 1000-1500 watts should be used to test the thermistors. Di- rect the heat toward either of the two thermistors, holding the heat source approximately 12 inches (30 cm) from the detector in order to avoid dam-aging the plastic housing. The detector will reset only after it has had suf-ficient time to cool. Make sure both thermistors are tested individually. -
D. Multi-Criteria Method.
A Testifire® by SDi provides testing of the smoke and heat sensors. Consult the manufacturer’s published instructions for complete instructions.
A sensor that fails any of these tests may need to be cleaned as described under CLEANING, and retested.
When testing is complete, restore the system to normal operation and notify the proper authorities that the system is back in operation.
CLEANING
Before removing the detector, notify the proper authorities that the smoke detector system is undergoing maintenance and will be temporarily out of service. Disable the zone or system undergoing maintenance to prevent un- wanted alarms.
- Remove the sensor to be cleaned from the system.
- Remove the sensor cover by pressing firmly on each of the four removal tabs that hold the cover in place.
- Vacuum the screen carefully without removing it. If further cleaning is required continue with Step 4, otherwise skip to Step 7.
- Remove the chamber cover/screen assembly by pulling it straight out.
- Use a vacuum cleaner or compressed air to remove dust and debris from the sensing chamber.
- Reinstall the chamber cover/screen assembly by sliding the edge over the sensing chamber. Turn until it is firmly in place.
- Replace the cover using the LEDs to align the cover and then gently pushing it until it locks into place. Make sure that the thermistors do not be-come bent under the cover.
- Reinstall the detector.
- Test the detector as described in TESTING.
- Reconnect disabled circuits.
- Notify the proper authorities that the system is back on line.
SPECIAL NOTE REGARDING SMOKE DETECTOR GUARDS
Smoke detectors are not to be used with detector guards unless the combination
has been evaluated and found suitable for that purpose.
SPECIAL APPLICATION
When configured at the fire alarm control panel, this detector is capable of
operating in a special application mode such that it has a higher sensitivity
than is normally allowed by UL 268 for areas where early warning is important.
In this mode, the detector does not comply with the Cooking Nuisance Smoke
Test. Detectors (Sampling ports) set to the special application mode are not
suitable for use in areas where cooking appliances may be used. If cooking
appliances are used within the protected space, a normal application detector
or normal application mode must be used for that area.
Special application mode is not for general use and the detector may be more
prone to false alarms if used in unsuitable environments. While no list is
all-inclusive, some examples of unsuitable environments for special applica-
tion mode are areas with airborne particulate or aerosols including sawing,
drilling, and grinding operations, textile or agricultural processing, or
areas with engines that are not vented to the outside. A complete list of
aerosol and particulate sources is available in the Annex of NFPA 72.
Suitable environments for special application mode could include early warn-
ing for hospitals, museums, assisted living and other areas that do not have
airborne particulate or aerosols.
Refer to the fire alarm control panel documentation for information on how to
configure the detector for special application mode.
FCC STATEMENT
This device complies with part 15 of the FCC Rules. Operation is subject to
the following two conditions: (1) This device may not cause harmful
interference, and (2) this device must accept any interference received,
including interference that may cause undesired operation.
NOTE: This equipment has been tested and found to comply with the limits for a
Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference in a
residential installation. This equipment generates, uses and can radiate radio
frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications. However,
there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or
television recep-tion, which can be determined by turning the equipment off
and on, the user is encouraged to try to correct the interference by one or
more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is con-nected.
- Consult the dealer or an experienced radio/TV technician for help.
DEVICE AND SYSTEM SECURITY
Before installing this product ensure that the tamper seal on the packaging is
present and unbroken and the product has not been tampered with since leaving
the factory. Do not install this product if there are any indications of
tampering. If there are any signs of tampering the product should be returned
to the point of purchase.
It is the responsibility of the system owner to ensure that all system
components, i.e. devices, panels, wiring etc., are adequately protected to
avoid tampering of the system that could result in information disclosure,
spoofing, and integrity violation.
SUPPLEMENTAL INFORMATION
For Limitations of Fire Alarm Systems, please go to:
http://www.systemsensor.com/en-us/Documents/I56-1558.pdf
Limitations of Fire Alarm Systems
References
- Fire Alarm Resources | Download fire alarm documents
- System Sensor | Honeywell Building Technologies
- System Sensor | Honeywell Building Technologies
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