IR Short-wave + NIR Lamps (2200-3200K)
Products - Light Sources
Short-wave + NIR (Near InfraRed) Lamps
Short-wave infrared (SWIR) and near-infrared (NIR) heating elements from DR. FISCHER deliver powerful thermal radiation with extremely fast response times. Thanks to their ability to transfer energy directly into the product without significantly heating the surrounding air, they ensure high energy efficiency and excellent process control.
Their compact construction and flexible installation options make them ideal for modernization of existing machines as well as new industrial systems.
Whether in drying, curing, forming, or heating processes our SWIR/NIR emitters enable higher throughput, better temperature uniformity, and improved product quality.
Key Advantages of IR Shortwave + NIR Lamps (2200-3200K)
Fast heating & cooling cycles
Immediate response for maximum process control and reduced cycle times.High energy efficiency
Direct heat transfer to the target material lowers energy consumption.Compact design
Space-saving integration into new and existing manufacturing lines.High controllability
Precise temperature regulation for sensitive and high-quality production.Versatile industrial applications
Suitable for plastics, printing, coating, packaging, and many more sectors.
IR Short-wave + NIR Lamps (2200-3200K) from DR. FISCHER Europe
Key Facts of IR Short-wave + NIR Lamps (2200-3200K):
Our short-wave and near-infrared emitters are engineered for high-performance industrial heating. With extremely fast response times and precise temperature control, they help reduce processing time and energy consumption. Their compact tube designs make them easy to integrate into new and existing systems, while various power and geometry configurations ensure optimal performance for each application. Heating lengths up to 5 meters (twin) and coil temperatures up to 3200 K (on request) provide maximum flexibility for demanding processes.
Specifications of IR Short-wave + NIR Lamps (2200-3200K)
DR. FISCHER short-wave infrared emitters are available as single or TWIN tube versions and cover a coil color temperature range from 2100 K to 2900 K, with up to 3200 K available on request. Single tubes can be manufactured up to 1600 mm in length, while TWIN tubes reach up to 5000 mm and can exceed 20 kW of power depending on length and voltage. Typical tube cross sections for TWIN designs are 33 × 15 mm and 23 × 11 mm, with single tubes available from 10 mm to 16 mm diameter. Heating lengths of up to 4700 mm (twin) and 1400 mm (single) are possible, at power densities below 200 W/cm. With a maximum current of 20 A, these emitters offer a robust and efficient solution for a wide range of industrial heating applications.
Specifications
| Feature | Specificetion |
|---|---|
| Color temperature of the coil (K) | 2100 K – 2900 K (up to 3200 K on request) |
| Tubes (section in mm) |
1) 33 × 15 (twin) 2) 23 × 11 (twin) Single tubes from 10 mm to 16 mm diameter |
| Heating length (mm) |
Up to 4700 mm (twin) Up to 1400 mm (single) |
| Power density (W/cm) | < 200 |
| Max length single tube (mm) | 1600 |
| Max length twin tube (mm) | 5000 |
| Max current (A) | 20 |
| Max power | Above 20 kW depending on length and voltage |
| IR reflectors | ||||||
|---|---|---|---|---|---|---|
| Reflectivity | Durability | Cost | Radiation orientation | Main advantages | Main drawbacks | |
| Gold | ☆☆☆☆☆ | Bad | €€€€ | Specular | - High reflectivity - No thermal inertia |
- Low temperature resistance (<600°C) - High cost |
| White ceramic | ☆☆☆ | Very good | €€ | Diffuse | - Good price-performance ratio | - Reflectivity 10 to 15% lower than gold |
| MLRI | ☆☆☆☆ | Very good | €€€ | Diffuse | - Reflectivity between the white ceramic and gold | - Slightly more expensive and slightly less stable than white ceramic |
| LRP | ☆☆☆☆☆☆ | Excellent | €€€€ | Specular | - Best Reflectivity - Auto-cleaning - Longer lifespan than all other reflectors |
- Expensive to start with (but no need to replace it with the lamp) - Thermal inertia |
| Highly reflective aluminum | ☆☆☆ | Good | €€€ | Specular or diffuse (depends of the finish) | - Can be combined with other reflectors | - Added piece → takes more space |
Typical Applications of IR Short-wave + NIR Lamps (2200-3200K):
Drying and Curing
Fast and efficient curing of coatings, adhesives, inks, and varnishes in industrial processes.Plastic Forming and Shaping
Precise and uniform heating of thermoplastic materials for forming, bending, and welding applications.Food Industry Processes
Controlled infrared heating for baking, browning, drying, and sterilization in food production.Textile and Paper Industry
Rapid drying of inks, coatings, and finishes on textiles and paper surfaces.Electronics and Semiconductor Manufacturing
Targeted heating for bonding, soldering, and component processing with high accuracy.Surface Treatment and Coating
Enhanced curing and drying of paints, lacquers, and industrial coatings with minimized heat loss.
By leveraging the efficiency and flexibility of IR Short-wave + NIR Lamps (2200K-3200K) technology, you can achieve faster process times, reduced energy costs, and reliable results across a wide range of industrial heating applications.
Selected Examples from Our IR Shortwave + NIR Lamps (2200-3200K)
IR Short-wave + NIR Lamps (2200-3200K) 30013V 3500W 400V
IR Short-wave + NIR Lamps (2200-3200K) PAR38 IR E27 C 75W 230V
Contact us
Located in Pont-à-Mousson in Eastern France, it is the largest factory of the group. This entity is also the largest European center of expertise that develops, manufactures, and markets infrared heating lamps and modules, UV lamps and modules, halogen lamps, as well as LED solutions.