- Thin, multiple circuits & even temperatures
Flexible foil heaters provide precise, dependable and immediate heat transfer for many applications.
Our innovation center is employed with highly qualified engineers continuously working with new applications and materials. This allows us to find the optimal heating solution to meet your needs and produce it quickly.
Our flexible heaters consist of an etched-foil laminated between one of our flexible insulations. Our flexible foil heaters also offer many more benefits including custom watt densities, various dielectric strengths, thin or thick profiles, added pressure sensitive adhesives (PSA) or bond directly to heat sinks.
As the demand for smart simple solutions increases, Backer HTI is continually evolving to meet the needs of the applications. Our designs with integrated thermal controllers and sensors offer solutions that communicate through RS232, WiFi, or Zigbee.
Backer HTI can design and produce intelligent heaters for nearly any size heater and temperature gradient. Contact us and our experienced engineers will guide you through finding the best possible solution to fit your application.
Elements may have differentiated heating density to ensure even temperatures despite edge losses
Easy sensor location
Sensor connections are arranged in the same plane as the heating circuit
A 12 V connection - to drive a fan, for example -may be arranged in a 220/240 V element
Heating foil elements are manufactured to customer specifications
An element may comprise both a heating-up and a temperature holding circuit
Heating Foil elements are flexible: they can, for example, be mounted around a container
Backer HTI uses a wide selection of circuit and insulation materials and work together with our customers to find a solution that best fits their needs.
Foil heating is an excellent solution when good thermal transfer is needed in a specific area, and are used in thermal control design to protect components under cold-case environments, or to make up for heat that is not dissipated.
At Backer's innovation center, highly qualified and experienced engineers continuously experiment with new materials to continue improving our processes.
Heater for snowmobile handlebars
Heater for keyboards
Heater for shoes/feet
Self-regulating, robust and corrosion resistant with PTC characteristics.
Max. power density: 0,3W/cm²
Max. temperature: +70°C
Rear view mirrors · Lens heaters · Waterbed heaters · Low temperature applications · De-icing
Heater for headlights
Heater for rear view mirrors
Heater for coffee makers
Thin and semi-transparent with excellent dielectric strength. Resistant to chemicals.
Max. power density: 1,3W/cm²
Max. temperature: +200°C
Military and aerospace · Medical diagnostic instrument · LCD displays · Lens heaters · Laboratory research
Heaters for alco locks
Heater for camera/lens
Heater for anesthesia
Excellent temperature properties. Can be vulcanized to metal parts.
Max. power density: 1,3W/cm²
Max. temperature: +230°C
Food service equipment · Medical respirators · Ultrasonic cleaners · Freeze protection and condensation prevention
Heater for railway couplers
Heater for industrial application
Heater for ultrasonic wash
High power density. Fast warm up and high working temperatures.
Max. power density: 5W/cm²
Max. temperature: +600°C
Food service appliances · Semiconductor industry · DNA analyse · Radiators/heating panels · Packing/strapping/sealing equipment
Heater for packaging machine
Heater for medical application
PEN is similar to PET but has higher chemical, thermal, mechanical and electrical properties.More cost effective compared to polyimide.
Max. power density: 1W/cm²
Max. temperature: +160°C
Electronic devices · Radiators · DNA Analysis · High power standard elements
Heater for DNA analysis
Heater for radiators
(Fibre Reinforced Thermo plastic) Stiff, extremely durable, water resistant.
Max. power density: 0,1W/cm²
Max. temperature: +100°C
Radiator panels · Heaters for rough conditions
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