Hamamatsu Photonics Datasheets for Lamps
Lamps are light sources that emit incoherent light for illumination. There are many different types of products. Examples include fluorescent lamps, halogen lamps, heat lamps, incandescent lamps, LED lamps, projection lamps, spectral lamps, and stage lamps. Specialized and proprietary lamps are also available.
Lamps: Learn more
| Product Name | Notes |
|---|---|
| 100 W, Spectral distribution : 185 nm to 2000 nm, 248 nm enhanced type, Long life | |
| 100 W, Spectral distribution : 185 nm to 2000 nm, 248 nm enhanced type | |
| 100 W, Spectral distribution : 185 nm to 2000 nm | |
| 150 W Spectral distribution : 185 nm to 2000 nm | |
| 150 W, Spectral distribution : 185 nm to 2000 nm | |
| 200 W, Spectral distribution : 185 nm to 2000 nm | |
| 250 W, Spectral distribution : 185 nm to 2000 nm | |
| 300 W, Spectral distribution : 185 nm to 2000 nm | |
| 35 W, Spectral distribution : 185 nm to 2000 nm, Short gap | |
| 350 W, Spectral distribution : 185 nm to 2000 nm | |
| 50 W, Spectral distribution : 185 nm to 2000 nm | |
| 500 W, Spectral distribution : 185 nm to 2000 nm | |
| 75 W, Spectral distribution : 185 nm to 2000 nm | |
| Compact body easily installs into narrow confined spaces. We came up with a unit that drives 4 heads but is small enough to fit in the palm of your hand. | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Aluminum Calcium Magnesium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Aluminum | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Antimony | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Arsenic | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Barium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Beryllium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Bismuth | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Boron | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Cadmium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Calcium Magnesium Zinc | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Calcium Magnesium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Calcium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Cesium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Chromium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Cobalt | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Copper | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Deuterium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Dysprosium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Erbium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Europium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Gadolinium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Gallium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Germanium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Gold | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Hafnium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Holmium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Indium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Iridium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Iron Nickel | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Iron | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Lanthanum | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Lead | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Lithium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Magnesium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Manganese | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Mercury | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Molybdenum | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Nickel | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Niobium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Osmium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Palladium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Platinum | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Potassium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Praseodymium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Rhenium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Rhodium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Rubidium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Ruthenium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Samarium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Scandium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Selenium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Silicon Aluminum | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Silicon | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Silver | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Sodium Potassium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Sodium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Strontium Barium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Strontium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : tantalum | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Tellurium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Terbium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Thallium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Thulium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Tin | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Titanium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Tungsten | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Vanadium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Ytterbium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Yttrium | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Zinc | |
| For atomic absorption analysis, Metal-vapor discharge lamp, Element : Zirconium | |
| For optical switches The L9338 is an infrared LED developed for optical switches and is available at a low cost. Features -High reliability -Low price | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Aluminum | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Antimony | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Arsenic | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Barium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Beryllium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Bismuth | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Boron | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Cadmium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Calcium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Chromium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Cobalt | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Copper | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Dysprosium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Erbium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Europium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Gallium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Germanium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Gold | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Hafnium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Holmium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Iron | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Lanthanum | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Lead | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Lithium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Magnesium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Manganese | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Molybdenum | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Nickel | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Palladium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Platinum | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Potassium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Ruthenium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Samarium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Selenium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Silicon | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Silver | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Sodium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Strontium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Tellurium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Tin | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Titanium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Vanadium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Ytterbium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Yttrium | |
| For S-H background correction atomic absorption analysis, Metal-vapor discharge lamp, Element : Zinc | |
| For UV to Near-infrared, Peak wavelength : 420 nm, Photocathode area : 8 mm dia., Tube diameter : 16 mm | |
| For UV to visible, Peak wavelength : 340 nm, Photocathode area : 10 mm dia., Tube diameter : 30 mm | |
| For UV to visible, Peak wavelength : 340 nm, Photocathode area : 20 mm dia., Tube diameter : 63 mm | |
| For UV to Visible, Peak wavelength : 400 nm, Photocathode area : 8 mm dia., Tube diameter : 16 mm | |
| For UV, Peak wavelength : 165 nm, Photocathode area : 8 mm dia., Tube diameter : 16 mm | |
| For UV, Peak wavelength : 220 nm, Photocathode area : 20 mm dia., Tube diameter : 63 mm | |
| For UV, Peak wavelength : 240 nm, Photocathode area : 8 mm dia., Tube diameter : 16 mm | |
| For Vacuum UV, Peak wavelength : 130 nm, Photocathode area : 8 mm dia., Tube diameter : 16 mm | |
| For Vacuum UV, Peak wavelength : 135 nm, Photocathode area : 6 mm dia., Tube diameter : 16 mm | |
| For Vacuum UV, Peak wavelength : 165 nm, Photocathode area : 6 mm dia., Tube diameter : 16 mm | |
| For Vacuum UV, Peak wavelength : 165 nm, Photocathode area : 8 mm dia., Tube diameter : 16 mm | |
| For visible to NIR, Peak wavelength : 750 nm, Photocathode area : 10 mm dia., Tube diameter : 30 mm | |
| For visible to NIR, Peak wavelength : 750 nm, Photocathode area : 20 mm dia., Tube diameter : 63 mm | |
| For visible, Peak wavelength : 400 nm, Photocathode area : 10 mm dia., Tube diameter : 30 mm | |
| For visible, Peak wavelength : 400 nm, Photocathode area : 20 mm dia., Tube diameter : 63 mm | |
| For VUV to UV, Peak wavelength : 200 nm, Photocathode area : 10 mm dia., Tube diameter : 30 mm | |
| For VUV to UV, Peak wavelength : 220 nm, Photocathode area : 20 mm dia., Tube diameter : 63 mm | |
| Hamamatsu provides a DUV-LED light source that emits deep UV light at a wavelength of 280 nm. This DUV-LED light source is capable of driving 4 heads independently, yet compactly... | |
| Hamamatsu spot light sources employ long life, high intensity mercury-xenon lamps and optical systems specifically designed to minimize light loss. Our UV spot light sources have gained a solid reputation... | |
| High output power LED with mini-lens The L11368 is a high-power LED with a microball lens bonded to the surface of the LED chip having an internal confined structure. | |
| High output power LED with mini-lens The L11368-01 is a high-power LED with a microball lens bonded to the surface of the LED chip having an internal confined structure. | |
| High output power red emitting diode The L11767 is a high output red LED that delivers light output more than twice that of our previous products. Electric power required to... | |
| High output power red emitting diode The L11767-0066L is a high output red LED that delivers light output more than twice that of our previous products. Electric power required to... | |
| High output red LED Features -High reliability -High radiant output power | |
| High power LED in a bullet-shaped package, peak emission wavelength: 1.45 μm The L13895-0145P is an infrared LED encapsulated in a bullet-shaped package. It offers low-cost, high output power, and... | |
| High power LED in a surface mount type package, peak emission wavelength: 1.45 μm The L13895-0145G is a high-power LED (surface mount type) that emits infrared light at a peak... | |
| High reliability LED The L13141-0085K is current confinement type, high reliability infrared LED. Features - Reliability improved from the previous product - Small emission spot: φ110 μm - Light output... | |
| High reliability LED The L13142-0085K is current confinement type, high reliability infrared LED. Features - Reliability improved from the previous product - Small emission spot: φ400 μm - Light output... | |
| High reliability LED The L13142-0085L is current confinement type, high reliability infrared LED. Features - Reliability improved from the previous product - Light output power: 3.0 mW (IF=50 mA typ.)... | |
| High-power LED with miniature package L6895-10 is a high-power LED molded into a miniature, clear plastic package that emits infrared light at a peak emission wavelength of 940 nm. An... | |
| High-power red light emission diode The L10363 is a red LED with a peak emission wavelength of 700 nm. The hermetic seal package provides high reliability, and the lens cap... | |
| In spite of using low-cost electrodes, these 10 W xenon flash lamps feature high stability and long life, making them versatile and easy to use in a wide range of... | |
| Its amazing lightness makes it easy to conduct high-precision experiments and evaluations anywhere. It has the same lamp performance as the EX-86U. | |
| LED emitting collimated light for optical encoder The L11913 is an infrared LED developed for optical encoders. Its irradiance is three times that of the previous product L9437. Features -Collimated... | |
| Miniature LED L5276 is an infrared LED molded into a subminiature, clear plastic package. | |
| Miniature LED L5586 is an infrared LED molded into a subminiature, clear plastic package. | |
| Miniature LED L6286 is a high output power infrared LED molded into a subminiature, clear plastic package. | |
| Miniature LED L6287 is a high-power infrared LED having the same type of package that emits light at a peak wavelength of 940 nm. | |
| Miniature LED The L5766 is a red LED molded into a clear plastic package that emits light at a peak wavelength of 660 nm. | |
| Peak emission wavelength: 1.2 μm, bullet type The L13072 series is a high-power LED that emits infrared light at a peak wavelength of 1.2 μm. The LED is suitable for... | |
| Peak emission wavelength: 1.2 μm, surface mount type The L13072 series is a high-power LED that emits infrared light at a peak wavelength of 1.2 μm. The LED is suitable... | |
| Peak emission wavelength: 1.2 μm, with lens The L13072 series is a high-power LED that emits infrared light at a peak wavelength of 1.2 μm. The LED is suitable for... | |
| Peak emission wavelength: 1.2 μm The L13072 series is a high-power LED that emits infrared light at a peak wavelength of 1.2 μm. The LED is suitable for applications requiring... | |
| Peak emission wavelength: 1.3 μm, surface mount type The L12771 is a infrared LED using InGaAs material. Peak emission wavelength is 1.3 μm, making the L12771 suitable as a reference... | |
| Peak emission wavelength: 1.3 μm The L12771 is a infrared LED using InGaAs material. Peak emission wavelength is 1.3 μm, making the L12771 suitable as a reference light source for... | |
| Peak emission wavelength: 1.3 μm The L12771-01 is a infrared LED using InGaAs material. Peak emission wavelength is 1.3 μm, making the L12771-01 suitable as a reference light source for... | |
| Peak emission wavelength: 1.45 μm The L10660 is a high-power LED that emits infrared light at a peak wavelength of 1.45 μm. The LED is suitable for applications requiring use... | |
| Peak emission wavelength: 1.45 μm The L10660-01 is a high-power LED that emits infrared light at a peak wavelength of 1.45 μm. The LED is suitable for applications requiring use... | |
| Peak emission wavelength: 1.55 μm, bullet type The L12509 series is a high-power LED that emits infrared light at a peak wavelength of 1.55 μm. The LED is suitable for... | |
| Peak emission wavelength: 1.55 μm, surface mount type The L12509 series is a high-power LED that emits infrared light at a peak wavelength of 1.55 μm. The LED is suitable... | |
| Peak emission wavelength: 1.55 μm, with lens The L12509 series is a high-power LED that emits infrared light at a peak wavelength of 1.55 μm. The LED is suitable for... | |
| Peak emission wavelength: 1.55 μm The L12509 series is a high-power LED that emits infrared light at a peak wavelength of 1.55 μm. The LED is suitable for applications requiring... | |
| Peak emission wavelength: 3.3 μm The L15893-0330CA is a mid-infrared LED with a 3.3 μm peak emission wavelength. It is a product that has been achieved using Hamamatsu unique crystal... | |
| Peak emission wavelength: 3.3 μm The L15893-0330CN is a mid-infrared LED with a 3.3 μm peak emission wavelength. It is a product that has been achieved using Hamamatsu unique crystal... | |
| Peak emission wavelength: 3.3 μm The L15893-0330MA is a high output mid-infrared LED with the peak emission wavelength 3.3 μm. This product has been created using Hamamatsu unique crystal growth... | |
| Peak emission wavelength: 3.3 μm The L15893-0330ML is a mid-infrared LED with the peak emission wavelength 3.3 μm respectively. This product has been created using Hamamatsu unique crystal growth technology... | |
| Peak emission wavelength: 3.9 μm The L15894-0390CA is a mid-infrared LED with a 3.9 μm peak emission wavelength. It is a product that has been achieved using Hamamatsu unique crystal... | |
| Peak emission wavelength: 3.9 μm The L15894-0390CN is a mid-infrared LED with a 3.9 μm peak emission wavelength. It is a product that has been achieved using Hamamatsu unique crystal... | |
| Peak emission wavelength: 3.9 μm The L15894-0390MA is a high output mid-infrared LED with the peak emission wavelength 3.9 μm. This product has been created using Hamamatsu unique crystal growth... | |
| Peak emission wavelength: 3.9 μm The L15894-0390ML is a mid-infrared LED with the peak emission wavelength 3.9 μm respectively. This product has been created using Hamamatsu unique crystal growth technology... | |
| Peak emission wavelength: 4.3 μm The L15895-0430CA is a mid-infrared LED with a 4.3 μm peak emission wavelength. It is a product that has been achieved using Hamamatsu unique crystal... | |
| Peak emission wavelength: 4.3 μm The L15895-0430CN is a mid-infrared LED with a 4.3 μm peak emission wavelength. It is a product that has been achieved using Hamamatsu unique crystal... | |
| Peak emission wavelength: 4.3 μm The L15895-0430MA is a high output mid-infrared LED with the peak emission wavelength 4.3 μm. This product has been created using Hamamatsu unique crystal growth... | |
| Peak emission wavelength: 4.3 μm The L15895-0430ML is a mid-infrared LED with the peak emission wavelength 4.3 μm respectively. This product has been created using Hamamatsu unique crystal growth technology... | |
| RC-LED for 156 Mbps POF communications The L10881 is designed for high-speed POF (plastic optical fi ber) communications. The device is molded into miniature plastic package with lens, allowing easy... | |
| Resonant cavity LED for POF data communication The L10762 is a red LED designed for POF data communications. A microball lens is bonded to the LED chip to enhance fibrecoupling... | |
| Small emission spot LED using current confined chip The L10596 is infrared LED with a microball lens cemented to the current confinement chip surface. This combination ensures narrow directivity and... | |
| Spectral distribution : 115 nm to 400 nm, Aperture diameter : 0.5 mm, Guaranteed life : 2000 h | |
| Spectral distribution : 115 nm to 400 nm, Aperture diameter : 1.0 mm, Guaranteed life : 2000 h | |
| Spectral distribution : 160 nm to 400 nm, Aperture diameter : 0.5 mm, Guaranteed life : 2000 h | |
| Spectral distribution : 160 to 400 nm, Aperture diameter : 0.5 mm, Guaranteed life : 2000 h | |
| Spectral distribution : 185 nm to 400 nm, Aperture diameter : 0.5 mm, Guaranteed life : 2000 h | |
| Surface mount type infrared LED with lens The L14096-0085GL is an LED available in a surface mount type COB package with lens. Narrow directivity was achieved by adopting a lens. | |
| Surface mount type infrared LED with lens The L14097-0094GL is an LED available in a surface mount type COB package with lens. High output was realized by using a large... | |
| The all-in-one design with a compact, lightweight, and built-in power supply enables easy introduction into the manufacturing process, regardless of the installation location. | |
| The GA-107 is capable of irradiating to large samples in one batch. It contributes reduction of running cost, as an alternative to UV ovens. | |
| The GC-113A is compact, lightweight, and air-cooled, and achieves the high output that has been a challenge for UV-LED light sources. | |
| The GH-103A achieves the highest level of peak intensity for air-cooled method by adopting proprietary air cooling method. It is capable for high speed printing, which has been difficult with... | |
| The GJ-12 achieves palm size and light weight. It can be installed in minimum space, and contributes size and weight reduction of whole instrument. | |
| The L10706 is a proximity irradiation model equipped with a stainless steel flexible tube and unique cooling mechanism specifically designed for installation into vacuum chambers. Its compact design and easy... | |
| The L12542 is a large-area irradiation model that boasts a wide directivity (light distribution) as well as high stability and a long life. Among our VUV Ionizer product line-up, the... | |
| The L13301 and L7293 are photoionization light sources that emit light with energy up to 10.78 eV. Photoionization is so-called “soft ionization” that offers advantages over other ionization methods. However,... | |
| The L15094 is a high output model using a high power deuterium lamp we manufacture in-house. In addition to high stability and a long life, the L15094 delivers performance maximized... | |
| The L7810-03 is a calibrated lamp light source that delivers extremely high levels of stability and reproducibility. It is available in a convenient set including a xenon lamp, lamp housing... | |
| The S2D2 compact deuterium lamp is a UV point light source with a drastically reduced size compared to ordinary deuterium lamps. Despite a compact body, the S2D2 lamp has the... | |
| These 15 W xenon flash lamps integrate a reflector to deliver higher output, yet these lamps are also compact and generate less heat. | |
| These 20 W xenon flash lamps employ a metal can package to achieve high output. | |
| These are 60 W xenon flash lamps that deliver the highest output among our xenon flash lamps. Despite their high output, these lamps are highly stable. | |
| This is the world's smallest class excimer lamp designed for easy assembly into equipment. Its compact size and light weight allow a free and flexible design to achieve equipment downsizing... | |
| TO-46 style GaAs infrared LED Features - High radiant output power - High reliability | |
| Transmitter photo IC for DC to 10 Mbps optical link The L12422-01SR transmitter photo IC combines a 650 nm red LED, which is suitable for plastic optical fiber (POF) communication,... | |
| Transmitter Photo IC for DC to 10 Mbps optical link The L12557-01SR transmitter photo IC combines a 650 nm red LED, which is suitable for plastic optical fiber (POF) communication,... |