Product Details:
Conductor Type | Tri Metallic |
Material | LSZH |
Brand | Alankar |
Thermocouple Type | J-Type |
Power/Voltage | 20 V DC |
Length | 150 M |
Country of Origin | Made in India |
Alarm Temperature | 186 Degree C |
The heat from a fire causes the LHS cables special insulation to melt at a specific temperature, allowing the two conductors to short together, thus creating an alarm condition on the fire control panel. The LHS cable may also be used as a stand-alone contact device. The LHS normal operating state is an open circuit.
Applications:
Product Details:
Conductor Type | Tri Metallic |
Material | LSZH |
Brand | Alankar |
Thermocouple Type | K-Type |
Power/Voltage | 24 V DC |
Length | 300 m |
Country of Origin | Made in India |
Alarm Temperature | 68 Degree C |
Product Details:
Conductor Type | Tri Metallic |
Material | LSZH |
Brand | Alankar |
Thermocouple Type | J-Type |
Power/Voltage | 24 V DC |
Length | 500m |
Country of Origin | Made in India |
Alarm Temperature | 110 Degree C |
An Intelligent Linear Heat Detection System is recommended for applications where fire zone location requires zone output control for notification appliances, HVAC control, suppression control and annunciation. In this system, each discrete addressable LHS cable zone will report an individual alarm to the intelligent fire control panel. Addressable LHS cable zones are created by attaching each LHS cable zone to a Kidde Fire Systems SmartOne Addressable Input module. Each discrete LHS cable zone location can be displayed on the panel LCD display with programmable text zone description. Up to 255 devices (any mix of devices including smoke detectors, manual pull stations, waterflow switches, LHS zones, etc.) can be connected to a single Signaling Line Circuit (SLC) loop. Installing an Intelligent Linear Heat Detection System results in substantial installation cost savings over traditional hard-wired linear heat detection systems
Product Details:
Conductor Type | Tri Metallic |
Material | LSZH |
Color | Silver |
Brand | Alankar |
Thermocouple Type | J-Type |
Power/Voltage | 24 V DC |
Length | 200m |
Country of Origin | Made in India |
Alarm Temperature | 138 Degree C |
LHS is a small diameter cable capable of detecting heat from a fire over its entire length. The sensor cable consists of a twisted pair of copper coated steel conductors covered by a temperature sensitive insulation.
ALANKAR CABLE INDUSTRIES are Manufacturer, supplier, exporter and distributor of high quality Fire Survival & Linear Heat Sensing Cable. The offered range of products is manufactured using excellent quality thermoplastic material, which is sourced from authentic vendors of the market.
We Manufacture High Quality LHS CABLE, FIRE SURVIVAL CALBES ON DEMAND IN MULTIPLE TEMPERATURE. We Deal in Pan India Basis.
Product Details:
Material | RUBBER |
Color | BLUE |
Brand | Alankar |
Size | ON DEMAND |
Conductor Type | Copper |
Product Details:
Conductor Type | Copper |
Size | ANY |
Material | RUBBER |
Color | Red |
Brand | Alankar |
Product Details:
Conductor Type | Tri Metallic |
Material | LSZH |
Country of Origin | Made in India |
Alarm Temperature | 78 Degree C |
Length | 400 m |
Voltage | 24 V DC |
Brand | Alankar |
The LHS Linear Heat Sensor cable is Underwriters Laboratories Listed, Factory Mutual Approved and California State Fire Marshal Approved. The cable is designed for open area as well as proximity detection. A wide range of operating temperatures are available for proper system design, including confined areas or harsh environments which prohibit the use of other forms of detection. LHS is compatible with any fire control panel that is capable of accepting contact closure type initiating devices
Product Details:
Conductor Type | Tri Metallic |
Material | LSZH |
Brand | Alankar |
Thermocouple Type | J-Type |
Power/Voltage | 24 V Dc |
Length | 300 m |
Country of Origin | Made in India |
Alarm Temperature | 90 Degree C |
Alankar Cable Fixed Temperature Linear Heat Sensing (LHS)Cable range consists of a twisted pair of extremely low resistance (.05 Ohm/ft. of twisted pair) tri-metallic conductors, sheathed in new advanced thermal polymers. These polymers are chemically engineered to breakdown at specific fixed temperatures allowing the twisted conductors to make contact and initiate an alarm at the control panel without any calibration for changes in ambient temperatures.
The factor in determining which detection temperature wire to use is the maximum ambient temperature of the hazard area or equipment to be protected. The proper temperature model must be selected to provide the fastest alarm response to a potential fire condition without creating false alarm conditions. In the selection process its critical to consider the hazard areas highest potential ambient temperature.
It is a co-axial cable which exerts a defined change in electrical resistance of internal polymers when subjected to changes in surface temperatures. System monitoring through an associated electronic interface unit provides fault indication of open and short circuit conditions on the sensor cable.