MHR/1: HONEYWELL MORLEY Mini-horn/Red SpectrAlert Advance Series Mini-Horn
Honeywell’s MHR/1 min-horn features a red housing and universal fire symbol to meet virtually any application requirement. A mounting plate allows the device to be compatible with a wide range of backbox sizes. Its settings are done using easy-to-set rotary switches on the back of the device while synchronization is achieved without the use of additional modules.
FEATURES
12 and 24V operation
Mounts to single gang back box
Compatible with MDL sync module
Mechanically and electrically compatible with PA400 series Mini-Alert™ sounders
HONEYWELL SENTEK -2 Wire Photoelectric Smoke Alarm with Remote LED Output มีไฟ Led รีโมท ระบบไฟอลาม
CONVENTIONAL PHOTOELECTRIC SMOKE AND HEAT ALARM
All of the Sentek’s SD-119 series detectors meet the requirements of UL 268 and EN 54-7/5 for use in fire alarm signaling systems. They are intended for use in 2-wire/4-wire Class A or B supervised zone circuits. The SD-119 series detectors are subject to panel compatibility limits and compliance with corresponding NFPA 72E standards, local codes, and ordinances.
The SD-119 series include 2-wire and 4-wire detectors, which provide fast and reliable response for photoelectric smoke and heat (135o F) detection. While the smoke and heat detection circuits operate independently, their outputs being “OR’ connected, The SENTEK SD-119 series detectors provide the fire detection performance by acting as a smoke sensor and/or a 135o F heat detector at the same location.
PRODUCT FEATHERS
• 2 or 4 wire models
• Advanced detection and discrimination algorithms
• Easy installation and maintenance
• Sleek low-profile housing design
• Durable sensor head, no need for replacement
• SMD circuit board design-satisfactory quality and reliability guaranteed
• Integrated heat detector for SD-119-2H and SD-119-4H models
The HM-DMMI-UL Monitor Module is intended for use in intelligent, two-wire systems, where the individual address of each module is selected using the built-in rotary switches. It provides either a two-wire or four-wire fault-tolerant Initiating Device Circuit (IDC) for normally open, contact fire alarm and supervisory devices. The module has a panel-controlled LED indicator.
HM-DMMI-UL Applications: Monitor a zone of four-wire smoke detectors, manual fire alarm pull stations, waterflow devices, or other normally open, drycontact alarm activation devices. Use it to monitor normally-open supervisory devices with special supervisory indication at the control panel. The monitored circuit may be wired as an NFPA (Class B) Initiating Device Circuit. A 47K Ohm end of line resistor (provided) terminates the Class B circuit.
HM-DMMI-UL Operation: Each HM-DMMI-UL uses one of the available module addresses on an SLC loop. It responds to regular polls from the control panel and reports its type and the status (open/normal/short) of its Initiating Device Circuit (IDC). A flashing LED indicates that the module communicates with the control panel. The LED steadily illuminates when an alarm starts (subject to current loop limitations).
Built-in type identification automatically identifies this device as a monitor module to the control panel
Powered directly by two-wire SLC loop. No additional power required
High noise (EMF/RFI) immunity
SEMS screws with clamping plates for easy wiring
Direct-dial entry of address: 61-99 for models SMX and STX
LED flashes during normal operation and steadily illuminates to indicate alarm
HM-DMMI-UL TECHNICAL SPECIFICATIONS
Nominal Operating Voltage
15 to 32 VDC
Maximum SLC current draw
5.0 mA (LED on)
Maximum IDC wiring resistance
375 μA (LED flashing), 1 communication every 5 seconds, 47k EOL
Maximum IDC wiring resistance
1500 Ohms
Maximum IDC Voltage
11 V
EOL resistance
47K Ohms
Temperature range
32°F to 120°F (0°C to 49°C)
Humidity range
10% to 93% non-condensing
Dimensions
4.5″ (11.43 cm) high x 4″ (10.16 cm) wide x 1.25″ (3.175 cm) deep. Mounts to a 4″ (10.16 cm) square x 2.125″ (5.398 cm) deep boxS
The S300PTU Programming and Test Tool is a menu driven device, designed for communication with System Sensor Series 300 detectors, permitting access to various functions and logs within the detectors.
Communication is achieved via an LED and opto-diode built in to the S300PTU, for close range communication. This allows direct communication via the detector LED indicator.
Honeywell ไฟอลาม Morley Lite HML/PTSE : อุปกรณ์ตรวจจับควัน/ความร้อนแบบโฟโตอิเล็กทริก Morley Addressable Multi Criteria Photoelectric Smoke/Thermal Detector
The HML/PTSE photoelectric smoke/thermal detector forms part of the HML Series of Addressable detectors. This range of detectors has been produced using the latest in manufacturing and design techniques, pushing out the boundaries of existing detector technology.
The HML/PTSE photoelectric smoke/thermal detector incorporates an optical chamber and a thermal element, which in turn are continually monitored by an on board processor by using algorithms developed specifically for the unit. An alarm signal is only enabled in the detector once the processor is satisfied that an incipient fire has been detected. By using a combination of inputs, the incidence of nuisance alarms is reduced while at the same time, the response time to an actual fire is also improved.
The HML/PTSE and other detectors in the HML Series range are backward compatible with the Series 100 detector bases, thus providing the capability to upgrade, extend and maintain existing Series 100 installations. The HML/PTSE detector incorporates a bi-colour LED indicator. The integral LED changes colour according to the detector’s status – Green = Normal, Red = Alarm. This benefits the user by providing clear, instant visual indication of the detector’s condition. The Green LED can be programmed for blink/no blink operation.
Drift compensation’ algorithms are one of the key features of the HML/PTSE detector. These algorithms ensure a consistent alarm sensitivity threshold for periods between service intervals. This provides the user with both a reduction in the frequency of nuisance alarms and maintenance savings by extending the period before cleaning of the detector chamber is required.
The sensitivity of a smoke detector is critical to its overall performance, this is reflected in both its ability to detect real fire conditions and its resilience to non-fire stimuli. The HML/PTSE’s performance can be optimised for it’s application by selecting from one of three preset alarm thresholds – Low, Medium and High, offering greater stability and optimum performance within the environment in which it has been installed. The selection is easily achieved through the use of a remote hand-held tool.
The remote hand-held programming unit can also be used in conjunction with the HML Series range of detectors to gain access to other advanced features. The features available include: read/write last maintenance date, read chamber contamination level, read value of thermal element and perform an alarm test.
FEATURES
Low profile design
Low current draw
Backward compatible with Series 100 detector range of bases
Wide operating voltage 8 to 30VDC
Bi-colour LED detector status indicator
Automatic drift compensation
Programmable sensitivity
Addressable feature
Advanced maintenance features via remote hand-held test unit
Range of detector bases available
ENGINEER SPECIFICATIONS
ELECTRICAL SPECIFICATIONS
Operating Voltage Range
8 to 30VDC (Nominal 12/24VDC)
Typical Standby Current @ 25ÞC
65 µA @ 24VDC (LED no blink)
Maximum Alarm Current (LED On)
80mA @ 24VDC (Limited by panel)
ENVIRONMENTAL SPECIFICATIONS
Application Temperature Range
-30⁰C to +70⁰C
Humidity
5 to 95% Relative Humidity (non condensing)
MECHANICAL INFORMATION
Height
38mm (plus 9mm for B401 base)
Diameter
102mm
Weight
105g (plus 60g for B401 base)
Max Wire Gauge for Terminals
0.75mm2 to 2.5mm2
Colour
Pantone Warm Grey 1C
Material
Bayblend FR110
Notes: Bases with other resistor values are available to suit the requirements of most Honeywell Morley Lite Panels.
The HML/PSE photoelectric smoke detector forms part of the Honeywell Morley Lite range of addressable detectors. This range of detectors has been produced using the latest in manufacturing and design techniques, pushing out the boundaries of existing detector technology.
The HML/PSE photoelectric detector incorporates an Application Specific Integrated Circuit (ASIC). Combined with the latest state of the art optical chamber the detector provides efficient and accurate detection of fires with a high level of resilience to non-fire environmental influences.
The HML/PSE detector is backward compatible with the Series 100 detector bases, thus providing the capability to upgrade, extend and maintain existing Series 100 installations.
The HML/PSE detector incorporates a bi-colour LED indicator. The integral LED changes colour according to the detector’s status – Green = Normal, Red = Alarm. This benefits the user by providing clear, instant visual indication of the detector’s condition. The Green LED can be programmed for blink/no blink operation.
‘Drift compensation’ algorithms are one of the key features of the HML/PSE detector. These algorithms ensure a consistent alarm sensitivity threshold for periods between service intervals. This provides the user with both a reduction in the frequency of nuisance alarms and maintenance savings by extending the period before cleaning of the detector chamber is required.
The sensitivity of a smoke detector is critical to its overall performance, this is reflected in both its ability to detect real fire conditions and its resilience to non-fire stimuli. The HML/PSE’s performance can be optimised for it’s application by selecting from one of three preset alarm thresholds – Low, Medium and High, offering greater stability and optimum performance within the environment in which it has been installed. The selection is easily achieved through the use of a remote hand-held tool.
The remote hand-held programming unit can also be used to gain access to other advanced features. The features available include: read/write last maintenance date, read chamber contamination level, read value of thermal element and perform an alarm test.
FEATURES
Low profile design
Low current draw
Backward compatible with Series 100 detector range of bases
Wide operating voltage 8 to 30VDC
Bi-colour LED detector status indicator
Automatic drift compensation
Programmable sensitivity
Addressable feature
Advanced maintenance features via remote hand-held test unit
Range of detector bases available
ENGINEER SPECIFICATIONS
ELECTRICAL SPECIFICATIONS
Operating Voltage Range
8 to 30VDC (Nominal 12/24VDC)
Typical Standby Current @ 25ÞC
50µA @ 24VDC (LED no blink)
Maximum Alarm Current (LED On)
80mA @ 24VDC (Limited by panel)
ENVIRONMENTAL SPECIFICATIONS
Application Temperature Range
-30⁰C to +70⁰C
Humidity
5 to 95% Relative Humidity (non condensing)
MECHANICAL INFORMATION
Height
38mm (plus 9mm for B401 base)
Diameter
102mm
Weight
105g (plus 60g for B401 base)
Max Wire Gauge for Terminals
0.75mm2 to 2.5mm2
Colour
Pantone Warm Grey 1C
Material
Bayblend FR110
Notes: Bases with other resistor values are available to suit the requirements of most Fire Alarm Control Panels.
Honeywell’s SYS/ST/C strobe features a red housing and universal fire symbol to meet virtually any application requirement. A mounting plate allows the device to be compatible with a wide range of backbox sizes. Its settings are done using easy-to-set rotary switches on the back of the device while synchronisation is achieved without the use of additional modules. When powered with a filtered DC source, it is capable of self synchronization for 30 minutes per NFPA72.
Honeywell’s SYS/ST/C strobe features a red housing and universal fire symbol to meet virtually any application requirement. A mounting plate allows the device to be compatible with a wide range of backbox sizes. Its settings are done using easy-to-set rotary switches on the back of the device while synchronisation is achieved without the use of additional modules. When powered with a filtered DC source, it is capable of self synchronization for 30 minutes per NFPA72.
Honeywell’s SYS/ST strobe features a red housing and universal fire symbol to meet virtually any application requirement. A mounting plate allows the device to be compatible with a wide range of backbox sizes. Its settings are done using easy-to-set rotary switches on the back of the device while synchronization is achieved without the use of additional modules. When powered with a filtered DC source, it is capable of self synchronization for 30 minutes per NFPA72.
