2016 PHOTONIC DEVICES Electron Tube Devices and Applied Products Visit our website to find out all about us The latest catalog and detailed product information are available from our website. Our website contains a wealth of information including our corporate profile, history and news, as well as product introductions, new technology briefs, exhibition / workshop / seminar introductions, and general information about light itself. The product introduction contains the latest catalog, in PDF data format, for each product listed. Please visit our website for the latest information on products found in this catalog. ▲Top page Product information, product support, research & development, stockholder/investor information, corporate profile, business philosophy, etc. ▲Product information The navigation tool is updated to make it easier to find the products you are interested in. (Catalogs can be downloaded from each product introduction page.) For detailed information about individual products, please access our website: www.hamamatsu.com CONTENTS PHOTODETECTORS .......................................................................................................................... 1 MICRO PMT ASSEMBLY AND MICRO PMT MODULE / NEW MICRO PMT PHOTON COUNTING HEAD ....................... 1 ION SOURCE ..................................................................................................................................... 3 NEW Deuterium lamp for photoionization L13301 ION / ELECTRON DETECTORS ..................................................................................................... 3 NEW Devlp. Fast decay time phosphor J13550-09D Electron multipliers Compact MCP assembly series F13446-11 TECHNICAL INFORMATION ........................................................................................................... 5 HIGH IRRADIANCE LINEAR IRRADIATION TYPE UV-LED UNIT LC-L5G ........................................ 5 Funnel-MCP™ (MCP with high open area ratio) ........................................................................................... 6 Devlp. CAPILLARY LENS (Optical lens for X-ray) ...................................................................................................... 6 PHOTODETECTORS .......................................................................................................................... 7 PHOTOMULTIPLIER TUBE MODULES ................................................................................................................. 7 Devlp. NEW Photosensor module H13320, Photon counting head H13467 FLUORESCENCE DETECTOR SERIES .................................................................................................................. 9 Devlp. NEW Devlp. Linear array multianode PMT module with filters H13457 Linear array multianode PMT module with GaAsP photocathode H13197, H13198 series High sensitivity compact spectrometer A13658 MATRIX MULTIANODE PMT ASSEMBLIES ....................................................................................................... 11 Multianode PMT assembly H13226A-100/-200, H12445-100/-200, H12428-100/-200 Multianode PMT assembly H12700/H13700 series NEW Devlp. NEW COMPACT METAL PACKAGE PHOTOMULTIPLIER TUBE SERIES ............................................................................. 12 UV REGION .............................................................................................................................................. 13 Fire sensor UVTRON® R13192 13 mm (1/2") side-on PMT R13194 UV to NEAR INFRARED (NIR) REGION ............................................................................................................. 14 NEW Near infrared (NIR) detector unit series H10330B-25/-45/-75, H12694-25/-45/-75, H12397-75, R5509-43/-73 28 mm (1-1/8") side-on PMT R13456 28 mm (1-1/8") side-on PMT R12829 28 mm (1-1/8") side-on PMT R13096 Cooled side-on PMT R9182-01, R11715-01 13 mm (1/2") side-on PMT R12857 FAST TIME RESPONSE SERIES ..................................................................................................................... 17 Devlp. Devlp. NEW NEW NEW High speed PMT R13478, R13449, R13408, R13089 High speed photosensor module H13661 High speed HPD (hybrid photodetector) assembly H13223-40 UBA (Ultra Bialkali), SBA (Super Bialkali) AND EGBA (Extended Green Bialkali) PHOTOMULTIPLIER TUBE SERIES ...... 19 RUGGEDIZED, HIGH-TEMPERATURE PMT SERIES ............................................................................................... 20 PHOTOMULTIPLIER TUBE MODULE ................................................................................................................ 20 Wide dynamic range PMT unit H13126, C12918 PMT PERIPHERAL PRODUCTS ...................................................................................................................... 21 NEW Accessories High linearity active D-type socket assembly E12788 High voltage power supply modules High voltage power supply module C12766-12, C12766-52 BIOMEDICAL PRODUCT................................................................................................................. 23 NEW Flow cell assembly J12800 series Flow cell J11020 series POINT-OF-CARE TEST .................................................................................................................... 24 Devlp. Immunochromato-reader C11666, C10066, C11787, C13538 IMAGING DEVICE ............................................................................................................................ 25 NEW Devlp. High speed gated image intensifier unit C10880-13 CCD camera with fiber optic window C12550 Proximity focused image intensifiers High quantum efficiency Cs-Te photocathode image intensifier LAMPS ................................................................................................................................................. 27 Devlp. Devlp. NEW NEW NEW 75 W / 150 W high brightness xenon lamp 10 W xenon flash lamp module L13046 series / NEW 20 W xenon flash lamp module L12745 series Compact 2 W xenon flash lamp modules L12336 series / Compact 5 W xenon flash lamp modules Ultraviolet cathode emitting light source L12848-265 Compact UV-VIS S2D2 fiber light source (UV enhanced type) L12515 UV-LED spot light source LC-L1V3 Opto-spectrum generator (OSG) L12194-00-34054/-39070/-43079/-70130 Excimer lamp light source FLAT EXCIMER EX-400 L11751-01 Mini excimer lamp EX-86U L13129 Mini excimer lamp EX-mini L12530-01 X-RAY RELATED PRODUCTS ....................................................................................................... 35 Microfocus X-ray Source X-ray image intensifier digital camera unit C7336-05/-52 Compact X-ray CCD camera X-CUBE H8480/H8481/H8953 series X-ray scintillator FOS™ / ACS™ / GPXS™ / ALS™ ELECTROSTATIC REMOVER ........................................................................................................ 37 Electrostatic remover PhotoIonizer series L12536, L12645, L11754 VUV Ionizer series L7293, L10706, L12542, L11798 LASER APPLICATION ..................................................................................................................... 39 STEALTH DICING™ technology FAC lens (fast-axis collimating lens) J10919 TECHNICAL INFORMATION ......................................................................................................... 40 Low energy electron beam irradiation source EB-ENGINE™ Specifications shown in this brochure are typical values unless otherwise specified. Specifications are subject to change without notice. PHOTODETECTORS MICRO PMT ASSEMBLY AND MICRO PMT MODULE • Small and thin size with conventional PMT's high sensitivity • Product lineup includes a new photosensor module made up of a µPMT, a voltage divider circuit, and a high-voltage power supply, as well as a photosensor assembly with a built-in µPMT and voltage divider circuit •Photon • Photon counting head also available •Helps • Helps downsize measurement devices and boost their performance MICRO PMT MODULE H12402 SERIES MICRO PMT ASSEMBLY H12400 SERIES MICRO PMT MODULE H12403 SERIES MICRO PMT PHOTON COUNTING HEAD H12406 SERIES Making on-site measurements easy and more effective Environment µPMT is effective for developing high-performance handheld measurement devices that feature: • Smaller size • Less sample • Less expensive • Ease of use Pollution measurement on individual or area basis Medical care Health checkup at bedside in the hospital or at home 1 PHOTODETECTORS ■Spectral response ■Gain TPMHB0884EB 107 H12400-01-01, H12402-01, H12403-01 ■Count sensitivity TPMHB0885EA 106 TPMOB0270EA H12400-00-01, H12402/H12403 106 COUNT SENSITIVITY (s-1/pW-1) H12406-01 10 105 1 GAIN CATHODE RADIANT SENSITIVITY (mA/W) QUANTUM EFFICIENCY (%) 100 H12400-00-01, H12402/H12403 H12400-01-01, H12402-01, H12403-01 104 0.1 105 H12406 104 103 CATHODE RADIANT SENSITIVITY QUANTUM EFFICIENCY 0 200 300 400 500 600 700 800 900 1000 WAVELENGTH (nm) 102 0.5 -500 0.6 -600 0.7 -700 0.8 -800 103 200 0.9 1.0 1.1 -900 -1000 -1100 300 400 500 600 700 800 900 1000 WAVELENGTH (nm) CONTROL VOLTAGE (V)* SUPPLY VOLTAGE (V) * Control voltage of a Micro PMT module MICRO PMT SERIES ■SPECIFICATIONS PRODUCT VARIATIONS Type No. H12400-00-01 / H12402 / H12403 / H12406 H12400-01-01 / H12402-01 / H12403-01 / H12406-01 Spectral response 300 nm to 650 nm 300 nm to 850 nm Photocathode material Bialkali Multialkali Effective area 3 (X) × 1 (Y) CHARACTERISTICS (Supply voltage: 900 V, at 25 °C) Parameter Min. Typ. Cathode Blue sensitivity index Typ. Typ. Red / White ratio Radiant sensitivity (Wavelength of maximum response) Typ. Min. Luminous sensitivity Typ. Radiant sensitivity (Wavelength of maximum response) Typ. Typ. Anode Dark current Max. Rise time Typ. Time response Transit time Typ. Transit time spead (FWHM) Typ. Gain Typ. H12400 series (Assembly type) Supply voltage Between anode and cathode Maximum Divider current ratings Average output signal current H12402 / H12403 series (Module type) Input voltage Recommended control voltage adjustment range Gain (control voltage +0.9 V) Maximum average output signal current Dark current Typ. Settling time 1 Luminous sensitivity H12400-01-01 / H12402-01 / H12403-01 100 200 — 0.2 62 15 70 2.1 × 104 H12400-00-01 / H12402 / H12403 50 80 8.0 — 80 30 160 1.6 × 105 0.3 3 1.2 8.0 1.3 2 × 106 Unit µA/lm — — mA/W A/lm A/W nA ns 3.5 × 105 1150 126 5 H12402 / H12403 H12402-01 / H12403-01 +4.5 to +5.5 +0.5 to +1.0 (Max. +1.15) +0.5 to +1.1 (Max. +1.15) 2 × 106 3.5 × 105 5 0.3 10 — V dc µA µA V V — µA nA s 1The time required for the output to reach a stable level following a change in the control voltage from +1.0 V to +0.5 V. NEW H12406 series (Photon counting type) Input voltage Count linearity Dark count Pulse-pair resolution Output pulse width Output pulse height H12406 H12406-01 +4.75 to +5.25 5.0 × 106 Typ. Min. 10 100 20 10 +2.0 (50 Ω load) V s-1 s-1 ns ns V 2 ION SOURCE NEW DEUTERIUM LAMP FOR PHOTOIONIZATION L13301 Photoionization light source ideal for mass spectrometry ■FEATURES ■Spectral distribution VUV region: for reference only TLSOB0079EB ● Capable of soft ionization ● Long life ● High stability ● Compact RELATIVE IRRADIANCE (%) 100 ■APPLICATIONS High energy 10.78 eV 80 60 40 20 ● Mass spectrometry ● Environmental analysis 0 100 120 140 160 180 200 220 240 400 WAVELENGTH (nm) ■ADVANTAGES OF PHOTOIONIZATION BY DEUTERIUM LAMP ● Single photon ionization (fragment-free soft ionization) ● Easy installation ● Lower cost than other ● Identify the object molecule easily Ionization ■PHOTOIONIZATION LIGHT SOURCE LINEUP Parameter Feature Irradiance Lamp NEW Sample (Gas) Lamp unit L13301 L7293 L10706 Enable proximity irradiation 1 Compact Long life 1 10 times (Compared to L13301) 1 ▼ Hamamatsu high-performance devices that play an essential role in mass spectroscopy L11798 High output power 20 times (Compared to L13301) Deuterium lamp (Ion source) Ion Housing 2 Vacuum flange 2 Power supply 2 Prepared by the user Supplied Supplied Prepared by the user ICF-70 (Supplied) JIS VF50/ICF114 (Sold separately) Sold separately Supplied Supplied 1SUS flexible tube with a vacuum flange 2Please consult with us when designing the equipment. ION / ELECTRON DETECTORS NEW FAST DECAY TIME PHOSPHOR J13550-09D For electron beam detection ● Decay time: 3 ns ● Longer life than plastic scintillator ● High brightness efficiency ■APPLICATIONS ● Semiconductor inspection instrument ● SEM (Scanning Electron Microscope) ● Mass spectrometry ● General electron detection 3 ■PHOSPHOR SPECTRAL EMISSION 120 TPMZB0004EB 100 RELATIVE OUTPUT (%) ■FEATURES 80 60 40 20 0 200 300 400 500 600 WAVELENGTH (nm) 700 800 Separation ION / ELECTRON DETECTORS ELECTRON MULTIPLIERS Electron multipliers are widely used as detectors for MS (mass spectrometer), and are capable of detecting weak positive and negative ion signals with high sensitivity. ■FEATURES Left: R4146-10, Center: R8811, Right: R6985-80 ● Very compact (R8811) ● Thin thickness (R4146-10) ● Measures both positive ions and negative ions (R6985-80) ● High gain ● Easy to use ● Can be customized ■APPLICATIONS ● GC / QMS ● LC / QMS ● Multi-collector MS ● ICP-MS ■Gain curve 108 TPMHB0929EA 107 106 GAIN Detection 105 104 R4146-10 R6985-80 R8811 R2362 R5150-10 R474, R515, R596 R595 Electron multiplier 103 Ion 102 Ion 101 1000 2000 3000 4000 SUPPLY VOLTAGE (V) MCP assembly or Fast decay time phosphor Devlp. COMPACT MCP ASSEMBLY HIGH VOLTAGE FLOATING OPERATION F13446-11 ■FEATURES ● High voltage floating operation: HV ±5 kV ● Effective area: 27 mm ● Time response: FWHM 1.3 ns ● Robust MCP ● Compact and thin ■APPLICATIONS ● TOF-MS ● SIMS ● Electron detection ● Pulse counting ■Output waveform (Typ.) 20 TMCPB0114EA This assembly has enough time response characteristic for TOF (time of flight) measurement. In addition, the HV electrode is able to set the potential from -5 kV to +5 kV. It is useful for optimizing for positive / negative ion or electron detection. The robust MCP in this assembly brings good reliability and low time jitter. For high-sensitivity measurements, we offer funnel-MCPs with a large OAR (open area ratio). OUTPUT VOLTAGE (mV) 0 -20 -40 -60 FWHM 1.3 ns -80 -100 -120 -2 0 2 4 RESPONSE TIME (ns) 6 4 TECHNICAL INFORMATION Devlp. HIGH IRRADIANCE LINEAR IRRADIATION TYPE UV-LED UNIT LC-L5G Hamamatsu now offers UV-LED light sources that are compact, lightweight and air-cooled, yet deliver the high power output that has been a challenge for UV-LED light sources. These UV-LED light sources, called the LIGHTNINGCURE LC-L5G Series, are available for various printers including inkjet printers. series ■Inkjet printers GJ-75 75 × 15 Parameter Irradiation area 1 UV irradiance 2 6 10 385 365 (already released) 48 600 110 × 200 × 72 — Wavelength Input voltage (DC) Power consumption (Max.) Dimensions (W × H × D) Connection Unit mm W/cm2 nm V W mm — 1Area subject to at least 80 % irradiance at distance of 2 mm. 2Maximum UV irradiation intensity within irradiation area, at 2 mm of irradiation distance. series ■Screen printers, flexographic printers, gravure printers, offset printers and intermittent printing machines ▲GL-430 GL-430 GL-300 GL-250 GL-150C GL-120 Parameter Unit Irradiation area 1 mm 430 × 15 300 × 15 250 × 15 150 × 50 120 × 15 UV irradiance 2 W/cm2 6 10 6 10 6 10 4 4 6 10 Wavelength nm 365 385 365 385 365 385 385 395 365 385 Input voltage (DC) V 48 48 48 48 48 Power consumption (Max.) W 2900 2250 1750 900 900 Dimensions (W × H × D) 153 × 200 × 100 152 × 200 × 100 320 × 210 × 100 380 × 210 × 100 520 × 210 × 100 mm Connection — — — — yes — 1Area subject to at least 80 % irradiance at distance of 2 mm. 2Maximum UV irradiation intensity within irradiation area, at 2 mm of irradiation distance. series series ■Pinning (temporary drying) Temporary drying or curing by UV light is effective in preventing ink from spreading and so improves the printing quality. ●Without pinning (temporary drying) ●With pinning (temporary drying) Pinning (temporary drying) Drying Drying Example: Barcode printing Example: Barcode printing Printing process Printing process Pinning (temporary drying) ensures clear printing. ▲GP-75 5 Parameter Irradiation area 1 UV irradiance 2 Wavelength Input voltage (DC) Power consumption (Max.) Dimensions (W × H × D) Connection GP-75 75 × 5 1.5 2 365 395 48 45 40 77 × 123.5 × 24 — GC-77 77 × 5 1.5 365 2 385 2 395 48 40 77 × 123.5 × 24 yes 2 405 Unit mm W/cm2 nm V W mm — 1Area subject to at least 80 % irradiance at distance of 5 mm. 2Maximum UV irradiation intensity within irradiation area, at 5 mm of irradiation distance. TECHNICAL INFORMATION Funnel-MCP™ (MCP with high open area ratio) ■Example of ion detection New technology for enhancing ion detection. Sensitivity for detecting incident ions was enhanced by improving the channel open area ratio (OAR). Cross-sectional view Fluorescence output distribution A Funnel-MCP OAR 90 % Ion A' nel Chan Funnel-MCP Standard ■Fluorescence output intensity profile (A-A') 12 µm 1000 nel Chan Standard OAR 60 % 12 µm ▲Shape of channel entrance (SEM image) Funnel-MCP STANDARD 900 OUTPUT INTENSITY (a.u.) Ion TMCPB0115EA 882 800 700 UP 600 567 500 400 300 -600 -400 -200 0 200 400 600 POSITION (pixel) CAPILLARY LENS (Optical lens for X-ray) Devlp. NEW A capillary lens is a focusing optics for X-rays, consisting of a bundle of numerous hollow glass capillaries formed into a gentle tapered shape. It can collect divergent X-rays to collimate or focus them. ■ SCHEMATIC DIAGRAM ●X-ray collimating ●X-ray focusing X-RAY SOURCE X-RAY SOURCE Collimating type ■FEATURES ■APPLICATIONS ■X-ray output image and luminance distribution 5 4 3 2 1 0 -1 -2 -3 -4 -5 X-RAY SOURCE 10000 1000 100 10 1 ● X-ray diffraction (XRD) X-RAY SOURCE DETECTOR X (mm) ●Without capillary lens DIVERGENT X-RAYS IMAGE Focusing type COLLIMATING CAPILLARY LENS 0 BRIGHTNESS X-RAY SOURCE ×10 CAPILLARY LENS COLLIMATED X-RAY IMAGE 10000 1000 100 10 1 0 5 4 3 2 1 0 -1 -2 -3 -4 -5 SOLAR SLIT X (mm) ●Using collimating capillary lens ● X-ray fluorescence (XRF) BRIGHTNESS 5 4 3 2 1 0 -1 -2 -3 -4 -5 More than X-RAY SOURCE ×1000 CAPILLARY LENS FOCUSED X-RAY IMAGE 10000 1000 100 10 BRIGHTNESS 1 0 X-RAY SOURCE FOCUSING CAPILLARY LENS SAMPLE X (mm) ●Using focusing capillary lens SAMPLE ENERGY DISPERSIVE DETECTOR 6 PHOTODETECTORS PHOTOMULTIPLIER TUBE MODULES A single compact package that is easy to use ■SELECTION GUIDE Current output type With gate function Type Voltage output type With cooler Micro PMT H12402/H12403 3 × 1 mm Metal package PMT Side-on PMT H10720/H10721 H11900/H11901 8 mm H7422 5 mm H10722/H10723 H11902/H11903 H9305 3.7 × 13 mm H7844 10 × 14 mm H9306/H9307 3.7 × 13 mm H11461 4 × 20 mm H11462 4 × 20 mm H7826 15 mm H7827 15 mm H10425 H10426 22 mm 25 mm H10492 H10493 22 mm 25 mm H11411 H11432 46 mm 34 mm NEW H13320 H11526/H12056 H11706 8 mm 8 mm Head-on PMT NEW PHOTOSENSOR MODULE H13320 Lower power consumption than currently available H9305 series Operates from +3 V supply ■FEATURES ■SPECIFICATIONS Parameter Input voltage Max. input current 1 Max. output current Effective area (W × H) Ripple / Noise (peak to peak) Settling time Value +3 to +5 2.7 10 3.7 × 10 0.5 14 Unit V mA µA mm mV s 1At +5 V input voltage, +1.0 V control voltage, operated in darkness 7 ● Contains a 1/2 inch side-on PMT ● Low power consumption ● Battery operation available ■APPLICATIONS ● Portable photometric devices ● Compact medical diagnostic devices PHOTODETECTORS ■FUNCTIONS Photomultiplier tube (PMT) module functions are shown in the chart below. PMT modules are comprised of a photomultiplier tube to convert light into electrical signals, a high voltage power supply circuit, and a voltage divider circuit to distribute the optimum voltage to each dynode, all assembled into a single compact case. In addition to these basic PMT modules, Hamamatsu also provides modules with various additional functions such as signal processing, cooling and interface to PC. Photon counting heads With gate function CPU + IF With cooler Type Micro PMT H12406 3 × 1 mm H10682 8 mm H12386 8 mm H11890 8 mm H7421 5 mm Metal package PMT Side-on PMT H12525 3.7 × 13 mm H7828 15 mm H8259 4 × 20 mm H9319 22 mm Head-on PMT H11870 H11123 22 mm 25 mm NEW H13467 22 mm Devlp. H12775 10 mm NEW PHOTON COUNTING HEAD H13467 Square-shaped photon counting head containing a 1-inch diameter PMT Easier to install in equipment than currently available roundshaped type ■FEATURES ■SPECIFICATIONS Parameter Input voltage Effective area Count linearity Pulse-pair resolution Output pulse width Output pulse height Value +5 22 6.0 × 106 18 9 +2.2 Unit V mm s-1 ns ns V ● Low power consumption ● Excessive light detection output ■APPLICATIONS ● Low-level emission measurement (photon counting region) 8 PHOTODETECTORS FLUORESCENCE DETECTOR SERIES ■LINEAR ARRAY MULTIANODE PMT MODULE SELECTION GUIDE 8 ch — — — ● ● — Parameter SBA Visible UBA PhotoGaAsP cathode Multialkali Visible to NIR Extended red multialkali Extended red GaAsP ( Parameter Divider + Configu- Preamplifier + ration High voltage power supply — Gain control Cooler Photon counting Gain control + Cooler Photon counting + Cooler 16 ch ● ● ● ● ● ● 8 ch Bialkali, Multialkali 32 ch ● ● — ● ● — ) ( 16 ch Bialkali, Multialkali ) ( 32 ch Bialkali, Multialkali H11451 H11452 — — H11459 — H11836 H11658 H11460 — H12176 H11659 — — — — H12210 H12211 ) Devlp. ( 16 ch GaAsP, Extended red GaAsP — H12310 — NEW H13197 H12311 NEW H13198 LINEAR ARRAY MULTIANODE PMT MODULE WITH FILTERS H13457 Multicolor fluorescence detection All-in-one package for spectrum analysis ■Spectral efficiency TPMOB0283EA 100 90 90 80 80 70 70 TRANSMITTANCE (%) EFFICIENCY (%) 100 ■Characteristics of bandpass filter and dichroic mirror 60 50 40 30 50 40 30 20 10 10 1 ch 2 ch 3 ch 4 ch 5 ch 6 ch DM5 DM4 DM3 DM2 DM1 BPF488/10 BPF529/28 BPF575/25 BPF615/24 BPF692/40 BPF785/62 60 20 0 TPMOB0284EA 0 400 450 500 550 600 650 700 750 800 850 900 WAVELENGTH (nm) ■FEATURES ● 6-colors measurement with one PMT module ● High efficiency filter optics ● Palm size and lightweight 9 ■APPLICATIONS ● Biomedical fluorescence detection ● Flow cytometer Bandpass filter Center wavelength (nm) FWHM (nm) 785 CH1 62 692 CH2 40 615 CH3 24 575 CH4 25 529 CH5 28 488 CH6 10 ) PHOTODETECTORS LINEAR ARRAY MULTIANODE PMT MODULE WITH GaAsP PHOTOCATHODE High sensitivity 16-channel linear array multianode PMT modules ■FEATURES ■Spectral response ■APPLICATIONS ● Biomedical fluorescence detection ● Laser scanning microscope TPMHB0864EB 10 Left: H13197, Right: H13198 1 0.1 GaAsP EXTENDED RED GaAsP EXTENDED RED MULTIALKALI 0.01 200 ■SPECIFICATIONS 300 400 500 600 700 800 900 1000 WAVELENGTH (nm) NEW H13197-40 Parameter Photocathode material Photon counting circuit Gain control function Cooling function at 540 nm Quantum at 800 nm efficiency 25°C Dark count / ch When cooled 100 QUANTUM EFFICIENCY (%) ● Built-in photon counting circuit ● Reduced dark count by cooling effect ● Extended red GaAsP photocathode (H13197-42 / H13198-42) Typ. Typ. Typ. Typ. H12310-40 GaAsP GaAsP ● — — 45 — 400 — — ● — 45 — — — NEW H13197-42 NEW H13198-40 Extended red GaAsP ● — — 25 18 1000 — H12311-40 GaAsP GaAsP ● — ● 45 — 400 40 — ● ● 45 — — — NEW H13198-42 Extended red GaAsP ● — ● 25 18 1000 100 Unit — — — — % % s-1 s-1 Devlp. HIGH SENSITIVITY COMPACT SPECTROMETER A13658 Compact spectrometer with high diffraction efficiency optimized for 16-channel linear multianode PMT ■FEATURES ● Compact: 40% cubic volume of the current product (A10766) ● High diffraction efficiency ■SPECIFICATIONS Parameter Spectral range F value Dispersion Input slit Dimensions (W × H × D) Height of optical axis from the bottom ■APPLICATION ■Block diagram Value 420 to 820 2.5 (0.2) 26 0.8 × 7 150 × 125 × 60 30.5 Unit nm — mm mm mm mm LENS H12310 / H12311 H13197 / H13198 GRATING LENS SLIT ● Flow cytometer TPMOC0263EA 10 PHOTODETECTORS MATRIX MULTIANODE PMT ASSEMBLIES MULTIANODE PMT ASSEMBLY H13226A-100/-200, H12445-100/-200, H12428-100/-200 ■FEATURES ■APPLICATIONS ● High resolution PET ● Compact gamma camera ● Scintimammography ● 2-D radiation monitor ● Low profile ● High speed response ● Multianode H13226A-100/H12445-100/H12428-100 Parameter Spectral response Transit time spread (FWHM) Anode type Pixel size Effective area Dimensions (W × H × D) H13226A-100 H13226A-200 0.39 2×2 10.66 × 11.15 23 × 23 30 × 32.5 × 30 H12445-100 H12428-100 H12445-200 1 H12428-200 1 300 to 650 0.34 0.35 Matrix 4×4 8×8 5.75 × 5.75 2.88 × 2.88 23 × 23 30 × 39 × 30 Unit nm ns — — mm mm mm UV glass type is also available, Suffix 1: -103/-203, 185 nm to 650 nm MULTIANODE PMT ASSEMBLY H12700/H13700 SERIES Flat panel type 8 × 8 (64 ch) and 16 × 16 (256 ch) multianode PMT with collection efficiency high enough to detect even single photons Compared to our current product (H8500 and H9500), the H12700 and H13700 offer higher collection efficiency capable of producing a single photoelectron peak on each channel. The H12700 and H13700 also offer higher quantum efficiency and better time response. ■FEATURES ● Enhanced collection efficiency capable of detecting single photons on all channels ● Wide effective area : 48.5 mm × 48.5 mm ● 8 × 8 (64 ch), 16 × 16 (256 ch) multianodes ■APPLICATIONS ● Academic research (RICH, calorimeter, gamma telescope, etc.) ● Medical diagnosis equipment (PET, gamma camera) ● Radiation measurement Left: H12700A, Right: H13700 ■Single photon counting ch1 ch16 Single photoelectron peak can be observed on all channels ■SPECIFICATIONS H12700 H13700 300 to 650 380 Bialkali Matrix 16 × 16 (256 ch) 8 × 8 (64 ch) 3.0 × 3.0 6.0 × 6.0 48.5 × 48.5 51 × 33.8 × 51 52 × 27.4 × 52 Cable A: Cable, B: Pin 1UV glass type is also available, Suffix = -03, 185 nm to 650 nm Unit nm nm — — — mm mm mm — ch241 ch256 3000 H9500 H13700 2500 2000 COUNT Parameter Spectral response range 1 Peak wavelength Photocathode material Type Number of pixels Anode Pixel size Effective area Dimensions (W × H × D) Supply voltage input 1500 1000 500 0 0 200 400 600 PULSE HEIGHT 11 800 1000 TPMHB0915EA PHOTODETECTORS COMPACT METAL PACKAGE PHOTOMULTIPLIER TUBE SERIES NEW PMT ASSEMBLY H13175U SERIES Photomultiplier tube assembly integrating a R9880U series photomultiplier tube and a voltage divider circuit. Compared to the combination of the currently available R9880U series and E10679-51 (D-type socket assembly), the overall length of the H13175U is shorter by approximately 8 mm. This helps downsize the equipment and also improves the degree of design freedom. 17.5 mm 19.5 mm ■Spectral response TPMHB0814EC 1000 -110 100 -210 10 -113 1 CATHODE RADIANT SENSITIVITY (mA/W) QUANTUM EFFICIENCY (%) CATHODE RADIANT SENSITIVITY (mA/W) QUANTUM EFFICIENCY (%) 1000 TPMHB0815EB H13175U -01 -20 100 -04 16 mm 10 12 mm 1 R9880U ■FEATURES 0.1 100 200 300 400 500 600 700 800 900 1000 0.1 100 200 300 400 500 600 700 800 900 1000 ● High gain ● Compact and lightweight WAVELENGTH (nm) WAVELENGTH (nm) H13175U-01 H13175U-20 H13175U-110 R9880U-113 R9880U-210 R9880U-04 R9880U-01 R9880U-20 R9880U-110 SBA UBA Multialkali Photocathode SBA 230 to 700 185 to 700 230 to 700 Spectral response 230 to 870 185 to 870 230 to 920 105 200 135 Cathode luminous sensitivity 200 500 105 13.5 15.5 — Cathode blue sensitivity index (CS 5-58) 13.5 — 0.2 — Red / White ratio (R-68) 0.2 0.45 — 1 1 1 Dark current at 1000 V (after 30 min) 1 10 1 210 400 270 Anode luminous sensitivity at 1000 V 400 1000 210 Gain 2.0 × 106 0.57 Rise time Parameter Unit — nm µA/lm — — nA A/lm — ns Devlp. HIGH LINEARITY ACTIVE D TYPE SOCKET ASSEMBLY E13643 D-type socket assembly for R9880U photomultiplier tube ● Lower power consumption and low heat generation ● Excellent output linearity ● High output current even at low supply voltage ■APPLICATIONS ■DC linearity 10 TACCB0139EA PMT: R9880U-01 SUPPLY VOLTAGE -1000 V, -800 V -500 V 5 DEVIATION (%) ■FEATURES 0 -5 ● Semiconductor inspection * Not exceed the maximum current 100 µA in DC operation. -10 10-6 10-5 10-4 10-3 OUTPUT CURRENT (A) 12 PHOTODETECTORS UV REGION Devlp. FIRE SENSOR UVTRON ® R13192 The R13192 delivers enhanced sensitivity through a new design of the photosensitive area 20.2 mm Max. ■FEATURES ● Detects fire from long distances (high sensitivity) ● Detects only UV light without using any optical filters ■APPLICATIONS ● Fire detection in a building with large space ● Arson surveillance ● Discharge detection TPT B0049EA 5000 Fire size: 500 mm × 500 mm Fuel: Ethanol R2868 SENSITIVITY (counts/min) 4000 R13192 R1753-01 R2868 R1753-01 3000 R13192 2000 1000 100 count/min 0 25 50 100 75 125 ■Fire detection in a building with large space ■Spectral response RELATIVE SENSITIVITY, RELATIVE INTENSITY (ARBITRARY UNIT) ■Sensitivity and distance from fire 10 mm TPT B0009EB 100 UVTRON UVTRON SUNLIGHT 50 GAS FLAME 0 100 200 300 400 TUNGSTEN LIGHT 500 600 700 800 900 WAVELENGTH (nm) DISTANCE (m) ULTRAVIOLET VISIBLE INFRARED NEW UVTRON ® CHECKER LAMP L9657-03 ■FEATURES ● Operates at same voltage as used for UVTRON ● Emits a spectrum suitable for checking UVTRON operation ● Helps enhance reliability of products using UVTRON RELATIVE SENSITIVITY, RELATIVE INTENSITY (ARBITRARY UNIT) Small lamp designed for checking operation of UVTRON flame sensors widely used in fire alarms, arson sensors, combustion monitors, etc. ■Spectral distribution 100 L9657-03 UVTRON (R2868) 90 80 70 60 10 mm 50 40 30 20 10 0 200 220 240 260 280 300 320 WAVELENGTH (nm) NEW 13 mm (1/2") SIDE-ON PMT R13194 ■FEATURES ■Spectral response CATHODE RADIANT SENSITIVITY (mA/W) 100 TPMSB0257EA ● Excellent solar blind characteristic ● High sensitivity in VUV region ● Low dark current Ratio 121nm/300nm About 10 5 Times better than R10825 1 CONVENTIONAL TYPE (R10825) 0.1 ● AES (atomic emission spectrophotometry) ● Observation of UV plasma in vacuum 0.01 R13194 0.001 100 13 150 200 250 WAVELENGTH (nm) ■APPLICATIONS 300 340 PHOTODETECTORS UV to NEAR INFRARED (NIR) REGION NEAR INFRARED (NIR) DETECTOR UNIT SERIES The near infrared (NIR) detector unit series has a full line of products to support diverse measurements of weak or fast phenomena in the NIR region. The R5509 series provides wide spectral range. NIR PMT Unit Product type NIR PMT input, Easy handling, Gate function (H12694) Fiber Low noise Low noise (H10330B-25, H12694-25) at 1.7 µm Features Wide spectral response 51 mm 88 mm 100 mm H10330B / H12694 H12397-75 (fiber input type) H10330B / H12694 Type No. Suffix No. Spectral response -25 -45 -75 950 to 1200 950 to 1400 950 to 1700 2.5 × 2.5 × 3000 2.5 × 5× 1.6 × ps 1.6 × s-1 Thermoelectrically cooled (No liquid nitrogen, no cooling water) Liquid nitrogen cooled — Cooler Included C9940-01/-02 (Sold separately) — High voltage power supply Included C9525 (Sold separately) — Cooling method Mode Gate Gate width (FWHM) mode Repetition rate — — — 1 µs to 10 ms (H12694) — — — 10 Max. (H12694) — — kHz TPMHB0426EE 102 102 CATHODE RADIANT SENSITIVITY QUANTUM EFFICIENCY R5509-73 R5509-43 10-1 10000 TPMHB0947EA SAMPLE: CIGS -75 TYPE EMISSION EXCITATION FITTING 1000 101 COUNTS 100 CATHODE RADIANT SENSITIVITY (mA/W) QUANTUM EFFICIENCY (%) CATHODE RADIANT SENSITIVITY (mA/W) QUANTUM EFFICIENCY (%) ■Fluorescence lifetime measurement example (H12397-75) TPMOB0201EA 101 104 Normally OFF (H12694) ■Spectral response CATHODE RADIANT SENSITIVITY QUANTUM EFFICIENCY 103 nm ps 1500 400 105 300 to 1700 300 to 1400 900 104 Unit -73 105 Dark count 103 -43 950 to 1700 400 T.T.S. (FWHM) R5509 H12397-75 900 Rise time Cooler is not shown. 100 High S/N ratio 100 10 -25 TYPE 10-1 -45 TYPE 1 0 10 20 30 40 50 TIME (ns) 10-2 200 400 600 800 1000 1200 1400 1600 1800 10-2 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 WAVELENGTH (nm) ■APPLICATIONS ● Photoluminescence ● Singlet oxygen measurement ● Raman spectroscopy ● Cathodoluminescence WAVELENGTH (nm) ● Fluorescence / Fluorescence lifetime ● LIDAR (light detection and ranging) ● Quantum cryptography 14 PHOTODETECTORS UV to NEAR INFRARED (NIR) REGION NEW 28 mm (1-1/8") SIDE-ON PMT R13456 Extends the near infrared sensitivity to even longer wavelengths (cutoff wavelength extended from 900 nm to 980 nm) while maintaining the sensitivity of the R928 ■Spectral response TPMSB0259EA 100 20 R13456 R13456 CATHODE RADIANT SENSITIVITY (mA/W) CATHODE RADIANT SENSITIVITY (mA/W) 10 10 R928 1 0.1 0.01 100 200 300 400 500 600 R928 Left: R13456, Right: R928 100 1 ● Fluorescence spectrophotometer ● Microscope ● UV-VIS-NIR spectrophotometer ● NOx monitor ● Intrabrain oxygen monitor 0.1 Extended to 700 800 900 1000 WAVELENGTH (nm) ■APPLICATIONS Times 0.01 700 980 nm 800 900 1000 WAVELENGTH (nm) ■FEATURES Parameter ● Wide spectral response ● QE at 900 nm: 1% Typ. (100 times higher than R928) ● Directly replaces other 1-1/8” side-on PMTs such as R928 Cathode luminous sensitivity Anode luminous sensitivity at 1000 V Dark current after 30 minutes storage in darkness at 1000 V Cathode radiant sensitivity at 900 nm Quantum efficiency at 900 nm R13456 280 2800 R928 250 2500 Unit µA/lm A/lm 5 3 nA 7.3 1 0.07 0.01 mA/W % R12829 650 R928 250 Unit µA/lm 8500 2500 A/lm 21 32 65 10.1 17 2.4 nA mA/W % 28 mm (1-1/8") SIDE-ON PMT R12829 High sensitivity at 800 nm ■Spectral response R12829 CATHODE RADIANT SENSITIVITY (mA/W) QUANTUM EFFICIENCY (%) 10 R928 1 0.1 CATHODE RADIANT SENSITIVITY (mA/W) TPMSB0260EA 100 80 70 R12829 60 50 About 3 Times 40 About 4 Times 30 20 R928 10 0 700 Parameter 750 800 850 WAVELENGTH (nm) CATHODE RADIANT SENSITIVITY QUANTUM EFFICIENCY 0.01 100 200 300 400 500 600 700 WAVELENGTH (nm) 800 900 ■APPLICATIONS ● Biological analysis ● Spectroscopy, etc. 15 900 Cathode luminous sensitivity Anode luminous sensitivity at 1000 V Dark current Cathode radiant sensitivity at 800 nm Quantum efficiency at 800 nm 1After 30 minutes storage in darkness at 1 × 106 gain 2After 30 minutes storage in darkness at 1000 V PHOTODETECTORS 28 mm (1-1/8") SIDE-ON PMT R13096 Wide effective area ■FEATURES ■APPLICATIONS ● Sensitivity and stability equal to conventional products ● Spectroscopy ● Environmental monitoring ● Chemiluminescence ● Biomedical analysis R3896 8 × 24 525 0.4 5000 10 R13096 10 × 24 525 0.4 5000 20 Parameter Effective area Cathode Luminous sensitivity Red / White ratio Anode sensitivity Luminous Anode dark current (After 30 min storage in darkness) Unit mm µA/lm — A/lm nA Left: R13096, Right: R3896 COOLED SIDE-ON PMT R9182-01, R11715-01 Combination with thermoelectric cooling element reduces effects of ambient temperature. ■FEATURES ■APPLICATIONS ■Spectral response R9182-01 ● Low level fluorescence measurement ● NOx measurement R11715-01 ● MTP reader ● Fluorescence spectrophotometer ● Chemiluminescence detection ● Improved detection limit by cooling ● High sensitivity ● Pin compatible with 1-1/8 inch side-on PMT Signal Signal Signal TPMSB0245EA Before Cooling OUTPUT (10 mV/div.) After Cooling TIME (1 ms/div.) Signal Signal OUTPUT (10 mV/div.) Signal Left: R9182-01, Right: R11715-01 Parameter Spectral response Peak wavelength MateriaI Photocathode Minimum effective area R9182-01 185 to 900 450 Multialkali 10 × 14 (at 25 °C) R11715-01 Unit 185 to 710 nm 410 nm Low noise bialkali — 8 × 24 mm TIME (1 ms/div.) 13 mm (1/2") SIDE-ON PMT R12857 High sensitivity from VISIBLE to NIR region ■Spectral response R12857 CATHODE RADIANT SENSITIVITY (mA/W) QUANTUM EFFICIENCY (%) 10 R6357 1 0.1 CATHODE RADIANT SENSITIVITY (mA/W) TPMHB0888EB 100 80 70 R12857 60 50 About 2 Times 40 30 20 R6357 10 0 700 750 800 850 WAVELENGTH (nm) CATHODE RADIANT SENSITIVITY QUANTUM EFFICIENCY 0.01 100 200 300 400 500 600 700 800 900 1000 WAVELENGTH (nm) ■APPLICATIONS ● Biological analysis ● Spectroscopy, etc. 900 Parameter Cathode luminous sensitivity Anode luminous sensitivity at 1000 V Dark current 1 R12857 R6357 Unit 650 500 µA/lm 2600 2000 A/lm 3 2 nA 1After 30 minutes storage in darkness at 1000 V 16 PHOTODETECTORS FAST TIME RESPONSE SERIES Devlp. HIGH SPEED PMT R13478, R13449, R13408, R13089 A new series of high speed photomultiplier tubes (PMT) from Hamamatsu has now appeared on the market. These offer a very narrow transit time spread that is uniform across the entire effective area. This excellent time resolution has been achieved with a simple PMT design that is suitable for mass production. The new high speed PMT series can be used as a powerful tool for precision timing measurement in many application fields. ■APPLICATIONS ● TOF-PET in nuclear medicine ● TOF counter in HEP experiments ● Radiation monitor in security instruments R13478, R13449, R13408, R13089 ■T.T.S. (R13478) 10000 Diameter Spectral response Photocathode Gain Supply voltage Rise time T.T.S. (Transit Time Spread) (FWHM) R13478 25 mm (1 inch) 5.3 × 105 0.9 130 R13449 R13408 28 mm 38 mm (1-1/8 inch) (1.5 inch) 300 to 650 Bialkali 5.3 × 105 5.3 × 105 1500 0.9 1.2 170 190 R13089 51 mm (2 inch) SUPPLY VOLTAGE: 1500 V — 2.0 nm — — V ns 230 ps 3.2 × 105 TPMHB0946EB Unit 1000 COUNTS Parameter FWHM 130 ps 100 10 1 0.5 1 1.5 2 2.5 TIME (ns) Devlp. HIGH SPEED PHOTOSENSOR MODULE H13661 PMT module containing a high-speed response 1-1/8 inch head-on PMT ■FEATURES ● High speed response: Up to 1.16 GHz ● Large effective area: 25 mm ● Low power consumption ■APPLICATION ■Output waveform ● Optical communication Description / Value +5 6 100 300 to 650 25 230 Unit V mA µA nm mm ps SIGNAL (20 mV/div.) Parameter Input voltage Max. input current 1 Max. output current Spectral response Effective area Rise time TPMOB0282EA Rise Time 230 ps RISE: 230 ps FWHM: 430 ps FALL: 300 ps 1 At +5 V input voltage, +2.2 V control voltage, operated in darkness TIME (500 ps/div.) 17 3 3.5 PHOTODETECTORS NEW HIGH SPEED HPD (HYBRID PHOTODETECTOR) ASSEMBLY H13223-40 High sensitivity, high-speed HPD assembly Has connectors that directly connects to the C12929 ■FEATURES ● High-speed response ● High time resolution ● High sensitivity ● Directly connects to HPD power supply ● Selectable cable length ■T.T.S. (R10467U-06) 10000 ■APPLICATIONS Full Illumination HV: -8 kV AD Bias: 405 V ● Laser scanning microscope (confocal / two-photon) ● FCS (fluorescence correlation spectroscopy) ● LIDAR (light detection and ranging) ● TCSPC (time-correlated single photon counting) Parameter R11322U-40 R10467U-06 300 to 720 Spectral response Material GaAsP Photocathode 5 Effective area 45 1 Quantum efficiency Gain 4 Rise time T.T.S. (Transit Time Spread) 5 170 (FWHM) R10467U-40 NEW H13223-40 1000 90 COUNTS FWHM 50 ps 100 R10467U-50 Unit 220 to 650 300 to 720 380 to 890 Bialkali GaAsP GaAs 3 6 28 2 45 1 14 3 1.2 × 105 400 50 TPMHB0767ED 130 nm — mm % — ps 10 0.5 1 1.5 2 2.5 3 3.5 TIME (ns) ps 1 At 500 nm 2 At 350 nm 3 At 800 nm 4 At the photocathode voltage of -8 kV and the AD bias voltage of Vb (breakdown voltage) -10 V 5 At the single photon state and full illumination on the photocathode, specified as FWHM (Full Width at Half Maximum). These values include the jitter of the electronics of about 30 ps. NEW HIGH VOLTAGE POWER SUPPLY FOR HPD ASSEMBLIES C12929 The C12929 provides both photocathode high voltage and target avalanche diode reverse bias voltage which are required to operate HPDs. Parameter Voltage Frequency Input Power consumption Output voltage Max. Diode bias Output current Max. voltage Connector Output Output voltage Max. High voltage Output current Max. Connector Value AC100 to AC240 50 / 60 25 ±500 500 LEMO (ERN.00.250.CTL) -8.5 16 AMP 5-830395-1 Unit V Hz VA V dc µA — kV µA — 18 PHOTODETECTORS HIGH SENSITIVITY PHOTOMULTIPLIER TUBE SERIES ■Spectral response (R7600U-100/-200/-300, R9880U-113) TPMHB0836EB 50 ULTRA BIALKALI: -200 45 SUPER BIALKALI: -100 QUANTUM EFFICIENCY (%) 40 EXTENDED GREEN BIALKALI: -300 35 30 25 20 CURRENT BIALKALI 15 10 SUPER BIALKALI: -113 5 0 150 200 250 300 350 400 450 500 550 600 650 700 WAVELENGTH (nm) Photocathode type Quantum efficiency at Peak at 400 nm wavelength Typ. Typ. (%) (%) 35 34 Peak wavelength (nm) SBA 350 UBA 380 EGBA Cathode blue sensitivity index (CS 5-58) Typ. 13.5 43 40 — 15.5 39 38 14 14 Photocathode type Effective area (mm) R1924A-100 SBA 22 R9800-100 SBA 22 18 × 18 R3998-100-02 SBA 25 SBA / UBA / EGBA 18 × 18 R11920-100 SBA 30 R7600U-100-M16/-200-M16 SBA / UBA 18.1 × 18.1 R9420-100 SBA 34 R7600U-100-M64/-200-M64 SBA / UBA 18.1 × 18.1 R6231-100 SBA 46 SBA 23.5 × 23.5 R7724-100 SBA 46 SBA / UBA / EGBA 23 × 23 R6233-100 SBA 70 SBA / UBA 23 × 23 R877-100 SBA 111 Photocathode type Effective area (mm) R9880U-110/-113/-210 SBA / UBA 8 R5900U-100-L16/-200-L16 SBA / UBA 16 × 15.8 R7600U-100/-200/-300 SBA / UBA / EGBA R7600U-100-M4/-200-M4/-300-M4 Type No. R8900U-100-C12 R11265U-100/-200/-300 NEW R11265U-100-M4/-200-M4 NEW Type No. H8711-100/-200/-300 SBA / UBA / EGBA 18.1 × 18.1 R5912-100 SBA 190 H7546A-100/-200/-300 H7546B-100/-200/-300 SBA / UBA / EGBA 18.1 × 18.1 R7081-100 SBA 220 H11934-100/-200/-300 NEW SBA / UBA / EGBA 23 × 23 H12428-100/-200 SBA / UBA 23 × 23 H12445-100/-200 SBA / UBA 23 × 23 SBA / UBA 23 × 23 SBA / UBA 7 × 31.8 H13226A-100/-200 H7260-100/-200 19 at 550 nm Typ. (%) — NEW PHOTODETECTORS RUGGEDIZED, HIGH-TEMPERATURE PMT SERIES The R1288AH series is a ruggedized, high-temperature-resistant, head-on PMTs for geological surveys deep underground. It has a long life of 3000 hours even at a high temperature of 175 °C, lasting nearly 8 times longer than our conventional PMTs. Even at 200 °C, this PMT still achieves an actual service life of 1000 hours, which is 6 times longer than conventional types. The R8874-01, which can be used under 50 G level vibration, is now available. ■FEATURES ● Longer life at high temperature ● High reliability ● High sensitivity ● Shock and vibration resistance Left: R8874-01, Right: R1288AH ■RELATED PRODUCT HIGH VOLTAGE POWER SUPPLY MODULE C12733-01 (-1800 V), C12733-02 (+1800 V) ■ Output changes at 200 °C 150 TPMHB0837EA Light Source: Blue LED (Simulated NaI(Tl) + 137Cs) Light was led to temperature oven with optical fiber. Count rate: 1000 s-1 High voltage power supply module with high environment resistance RELATIVE VALUE (%) R1288AH SERIES ■FEATURES 100 ● Wide operating temperature Operating ambient temperature: -40 °C to +175 °C ● High reliability for shock / vibration Vibration: 300 m/s2 Shock : 10000 m/s2 ● Best match with most Hamamatsu ruggedized high-temperature PMT assemblies CONVENTIONAL TYPE 50 Long life ×6 0 1 10 100 1000 Size: 22.2 mm × 85.4 mm (Excluding projecting parts) OPERATION TIME (h) PHOTOMULTIPLIER TUBE MODULE NEW WIDE DYNAMIC RANGE PMT UNIT H13126, C12918 This unit consists of a wide dynamic range PMT module and a data acquisition unit. It delivers a wide dynamic range (up to 8 orders of magnitude) in just one measurement by simultaneously extracting a digital output (photon counting) for detecting very-low-level light and an analog output for detecting low light levels. ■FEATURES ● Continuous measurement and observation under the same conditions with no time lag over a dynamic range up to 8 orders of magnitude ● Data collection unit combines photon counting and analog outputs and sends the data to a PC via USB interface ■APPLICATIONS ● Laboratory testing ● Semiconductor wafer inspections ● Chemiluminescence measurements Left: H13126, Right: C12918 ■Block diagram ANALOG OUTPUT PHOTON PMT AMP. USB ADC RAM AMP. POWER SUPPLY PULSE COMP SHAPER LLD WIDE DYNAMIC RANGE PMT MODULE H13126 USB COUNTER DIGITAL OUTPUT PC DATA ACQUISITION UNIT C12918 SERIES TPMOB0257EA 20 PHOTODETECTORS PMT PERIPHERAL PRODUCTS ACCESSORIES We provide a wide variety of quality socket assemblies, which enable easy yet reliable operation of photomultiplier tubes. They can also be combined with other peripheral products such as high voltage (HV) power supplies, preamplifiers, etc. D...Voltage Divider DP...Voltage Divider and HV Power Supply DAP...Voltage Divider, Amplifier and HV Power Supply 28 mm Dia. Side-On PMT 28 mm Dia. Head-On PMT D TYPE DP TYPE DAP TYPE D TYPE E717-63, E717-74 C12597-01, C8991 C6271, C7950 E990-07 DP TYPE DAP TYPE C10344-03, C13004-01 NEW C7950-01 Socket assembly E717-63 High voltage power supply C12597-01 C11152, C9619 C9525, C9727 C4900, C10940 C11152, C9525 C12419, C11184, C9999 C9663, C7319, C6438, C5594 Parameter Parameter M7279, M8879 Module Unit Amplifier C10344-03 C7950 C7319 C12419 M7279 M8879 Frequency bandwidth DC to DC to (-3 dB) 10 MHz 150 MHz Current-to-voltage +10 mV/µA +4 mV/µA conversion factor (Load resistance: 50 Ω) C9999 C9999-01 DC to 20 kHz or DC to 200 kHz DC to 1 MHz DC to 10 MHz (switchable) -0.1 V/µA, Current-to-voltage +50 mV/µA (C9999) -1 V/µA, -10 V/µA -1 V/µA** conversion factor ±10 mV/µA (C9999-01) (Load resistance: 50 Ω) (switchable)* * Load resistance: 10 kΩ ** Load resistance: 1 kΩ Frequency bandwidth (-3 dB) C6438 C6438-01 C6438-02 C11184 C9663 C5594 DC to 50 MHz DC to 150 MHz DC to 300 MHz 50 kHz to 1.5GHz +0.5 mV/µA (C6438) +25 mV/µA (C6438-01) ±5 mV/µA (C6438-02) +4 mV/µA +1.25 mV/µA +3.15 mV/µA HIGH LINEARITY ACTIVE D-TYPE SOCKET ASSEMBLY E12788 D-type socket assembly designed for 28 mm diameter side-on photomultiplier tubes ■FEATURES ● Low power consumption, low heat generation Without incident light, power consumption is 1/15 of that of resistive divider type. ● Excellent output linearity ● High output current even at low supply voltage ■DC linearity ■SPECIFICATIONS 25 Max. Typ. Max. Typ. Min. Description / Value 1500 -200 to -1500 130 30 195 45 100 DC / Pulse Unit V V µA µA mW mW µA — NOTE: AThe current at which output of photomultiplier tube deviates by ±2 % from the linear. BThis divider circuit supports a higher current than previous models, but does not exceed the maximum 21 current specified for an individual PMT. TACCB0131EA E717-63 RESISTIVE CHAIN TYPE (SUPPLY VOLTAGE: -1000 V) 20 15 DEVIATION (%) Parameter Max. supply voltage between case and terminals Supply voltage between GND and HV cable at output signal current of 100 µA Voltage divider current (at max. supply voltage) when no incident light at output signal current of 100 µA Power consumption (at max. supply voltage) when no incident light Linear output in DC mode (at -1000 V) A Signal output B 10 E5815-01 (SUPPLY VOLTAGE: -1000 V) 5 0 -5 -10 10-7 E12788 (SUPPLY VOLTAGE: -1000 V) 10-6 10-5 10-4 OUTPUT CURRENT (A) 10-3 PHOTODETECTORS HIGH VOLTAGE POWER SUPPLY MODULES Stability Ripple Output Output Input / Noise 12 voltage current 12 Load 1 Line voltage (Typ.) (Max.) (Max.) (%) (%) (mV p-p) (V) (V) (mA) Type No. -03 -03-R2 C10940 -53 -53-R2 — -01 C4900 -50 -51 -1200 -1250 +1250 +5 50 ±0.02 ±0.01 15 × 18 × 15 0.6 0.5 0.6 0.5 +15 +12 +15 +12 38 ±0.01 ±0.01 46 × 24 × 12 0.6 +15 125 ±0.01 ±0.01 46 × 24 × 12 125 ±0.01 ±0.01 46 × 24 × 12 8 ±0.01 ±0.01 41 × 10 × 41 60 ±0.01 ±0.01 62 × 15 × 45 -1250 -01 — -1250 -50 +1250 C10764 — -01 -50 -51 — -01 -50 -51 C11152 C9619 +12 1 +15 +15 +12 +15 +12 +15 +12 +15 +12 1 +1500 -2000 2 +2000 -12 -2000 -52 +2000 -12 -1000 -52 +1000 -12 -1500 C12446 C12766 -52 0.5 -1500 C11784 1At maximum output voltage 0.6 +1200 — C10673 Size 3 W×H×D (mm) 5 +24 50 ±0.01 ±0.01 62 × 15 × 45 10 +24 50 ±0.01 ±0.01 62 × 15 × 45 30 +24 75 ±0.01 ±0.01 +1500 2At maximum output current Note Digital control RS-485, Daisy-chain (-R2 type only) UL recognized (UL 60950-1) Low ripple / noise High output current 107 × 25.5 × 72 -12 type: UL recognized (UL 60601-1) 3Excluding projecting parts HIGH VOLTAGE POWER SUPPLY MODULE C12766-12, C12766-52 Approved to UL60601-1 (C12766-12 only) Output of 1500V / 30 mA ■SPECIFICATIONS Parameter Input voltage Output voltage Output current Ripple / Noise (p-p) C12766-12 -1500 Max. Typ. Output voltage control Weight ■FEATURES C12766-52 +24 Typ. +1500 30 75 By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) 290 ● Approved to UL 60601-1 safety standards for medical electronic equipment (C12766-12 only) ● Highly efficient operation with low heat generation ● High stability Unit V V mA mV — g ■APPLICATIONS ● Operating photomultiplier tubes for PET scanners ● Operating photomultiplier tubes for high energy physics experiments 22 BIOMEDICAL PRODUCT FLOW CELL ASSEMBLY J12800 SERIES ■APPLICATIONS ● Flow cytometer ● Blood analysis ● Imaging flow cytometry ● Particle counter ■INDUSTRIAL TECHNOLOGIES ● Proposed assembly structure design based on laminar flow model ● Flow simulation technology ● High pressure toughness ■USAGE EXAMPLE (FLOW CYTOMETER) ■FEATURES ● Alignment free ● Can use commercial tube fitting ● Easy to install ● Repetation stability ● Stable laminar flow *SSC: Side scatter SFL: Side fluorescence FSC: Forward scatter J12800-000-101 Upper: 1st time Lower: 10 times later Operating flow volume: 20 mL/min (Max.) J12800-000-103 Parameter Flow channel Flow cell Dimensional outline (H × W × D) Material Dimensional outline (H × W × D) Accuracy of position 1 Assembly Fitting of sheath port Fitting of the other ports Control pressure 2 J12800-000-101 NEW J12800-000-103 250 × 250 55.0 × 26.0 × 2.2 20.0 × 5.0 × 4.0 Synthetic fused silica 65.0 × 46.0 × 28.7 137 × 59 × 19 — ±100 for 1/16 ID tubing for 1/8 ID tubing for 1/16 ID tubing -50 to +200 +10 to +70 1From reference plane to flow channel 2Control pressure from pump Custom design assembly* available for OEM *Minimum quantity for custom assembly is 50 pcs (mass production quantity) FLOW CELL J11020 SERIES ■FEATURES ● No fluorescence, no scatter ● No degradation, high chemical resistance Glass bonding method is optical contact without glue ● Highly accurate of dimensions ● High pressure toughness ■APPLICATIONS ● Flow cytometry ● Blood analysis ● Imaging flow cytometry ● HPLC ● Particle counter 23 ■INDUSTRIAL TECHNOLOGIES ● Customization options: Size, shape, etc. ● AR coating, mirror coating ● Flame burner processing ● Laser marking ■FLOW CELL VARIATION Unit µm mm — mm µm inch inch kPa POINT-OF-CARE TEST IMMUNOCHROMATO READER SERIES Hamamatsu provides various models of immunochromato readers to meet a wide range of demands including tools ideal for development & management of reagents and OEM supply products. We have now developed an immunochromato reader for OEM that is even more compact than ever before. This compact immunochromato reader makes it even easier to perform high-precision inspection and so will prove ideal for development of POCT (point-of-care testing). ■LINEUP Developing and managing reagents C11666 C10066 OEM products available Devlp. C13538 Compact type immunochromato reader C11787 Contributes to medical diagnosis Qualitative diagnosis by visual inspection ■FEATURES ■Accurate control of reaction times of large sample quantities ■High-sensitivity quantitative measurements (semi-auto type) ■Batch measurement of up to 30 samples significantly eases the burden on the operator ■Color is faint at initial stage of disease and is difficult to identify ■Identification errors are likely to occur in visual inspections Qualitative diagnosis with immunochromato reader ■Detects even faint color at initial stage of disease to allow early diagnosis ■Allows accurate identification not affected by differences in the reagent production lot or operators 30 Samples ■FEATURES ● Quantitative and qualitative measurements ● High sensitivity and high reproducibility ■APPLICATIONS ● Development and management of reagents ● Diagnosis at medical care providers and hospitals (OEM supply) ■SPECIFICATIONS Parameter Dimensions (W × H × D) C11666 470 × 155 × 475 C10066 215 × 90 × 235 Devlp. C13538 C11787 220 × 100 × 280 120 × 136 × 210 Unit mm 24 IMAGING DEVICE ■SELECTION GUIDE Wide variety Standard type Image intensifier I.I. UNITS High speed gate High voltage power supply Gate / high speed gate C9016 C9016-2x, C9546, C9547 High speed gate & High repetition High speed gate Pulse generator High voltage power supply C9548 ICCD CAMERA High speed shutter C10880 High speed shutter CCD camera High voltage power supply C10054 HIGH SPEED GATED IMAGE INTENSIFIER UNIT C10880-13 Compensates for lack of light when capturing images with a high-speed camera at high frame rates Allows capturing high-speed images with no illumination This unit also offers a low image distortion of 2.4 % significantly improved from the 4.4 % distortion in the previous model C10880-03. ■FEATURES ● High-speed gate operation: 10 ns (Min.) ● Maximum repetition rate: 200 kHz ● Pulse generator included ● Multiple exposures ■IMAGE DISTORTION (overall distortion at a position 80% away from the center of the image) ●C10880-13 (2.4 %) ■APPLICATIONS ● Analysis of engine combustion state ● Analysis of plasma emission discharge ● Observation of flow of small particles, gases, and fluids NEW CCD CAMERA WITH FIBER OPTIC WINDOW C12550 Digital CCD camera with fiber optic window The C12550 is a digital CCD camera with a fiber optic window designed to read out images from image intensifier units. Fiber coupling allows highly efficient image transfer compared to lens coupling. Image data is output to a PC via the USB 2.0 interface. ■FEATURES ● Highly efficient image readout ● Digital output ● Exposure time: 30 µs to 10 s 25 ■APPLICATIONS ● Image readout from image intensifiers and image intensifier units ●C10880-03 (4.4 %) (conventional model) IMAGING DEVICE PROXIMITY FOCUSED IMAGE INTENSIFIERS The newly developed V12841D is light, compact, and features a 16 mm diameter. The GaAs photocathode type is available, and other photocathodes will follow. The crystalline photocathode (GaAs, GaAsP, extended red GaAsP and InGaAs) are available for 18 mm and 25 mm dia. types. Standard input window is borosilicate glass, and FOP input window is also available. These Gen3 tubes can be used in various applications. ■APPLICATIONS ● Bio-imaging ● High speed shutter camera ● Time-resolved low light level imaging V9569U V7090U GaAs 18 13.5 × 10 25 16 × 16 V12841D * -71 — -72 16 12.8 × 9.6 — — Unit — mm mm — — * Borosilicate input window Parameter Photocathode material Photocathode size Effective area Borosilicate input Suffix FOP input V9501U V8070U GaAsP Extended red GaAsP 18 25 13.5 × 10 16 × 16 -74 -73 -75 — — V8071U InGaAs -76 — Unit — mm mm — — ■Spectral response 100 TII B0120EB V8070U-74 V12841 QUANTUM EFFICIENCY (%) Parameter Photocathode material Photocathode size Effective area Borosilicate input Suffix FOP input V12841 10 V9569U-71 1 V8071U-76 0.1 V9501U-74 0.01 200 600 400 800 1000 1200 WAVELENGTH (nm) Devlp. HIGH QUANTUM EFFICIENCY Cs-Te PHOTOCATHODE IMAGE INTENSIFIER High quantum efficiency in the UV region Offers 3 times higher quantum efficiency, improved from 13 % to 37 % at the wavelength of maximum sensitivity, while maintaining solar-blind characteristics ● High quantum efficiency ● Solar-blind photocathode ● High luminance efficiency ● Low noise ● No distortion ■APPLICATIONS ● Semiconductor inspection ● Corona discharge observation ● UV Raman spectroscopy ● Low-light-level detection in UV region Parameter Spectral response Wavelength of maximum response MateriaI Photocathode Minimum effective diameter Input window material Stage of MCP Phosphor screen material Output window material Description / Value 160 to 320 230 to 250 Cs-Te 18 / 25 Synthetic silica 1/2 P43 / P46 Fiber optic plate Unit nm nm — mm — — — — ■Spectral response 40 QUANTUM EFFICIENCY (%) ■FEATURES TII B0125EA 30 DEVELOPMENT 20 10 CONVENTIONAL 0 200 250 300 350 400 WAVELENGTH (nm) 26 LAMPS ■SELECTION GUIDE Lamp type Lamp Spectral distribution rating (nm) (W) Output stability fluctuation p-p (%) Life (h) Calibrated light source Related products Xenon lamp 185 to 2000 35 to 300 0.2 Typ. 1000 to 3000 185 to 2000 50 to 500 0.5 Typ. 500 to 2000 3 Max. 2700 1 (100 Hz) to 27000 1 (10 Hz) Lamp Opto-Spectrum housing Power supply Generator (OSG) Spot light source Xenon short arc reflection lamp Calibrated xenon lamp light source Mercury xenon lamp Xenon flash lamp 160 to 2000 2 to 60 172 X2D2 lamp (High brightness) L2D2 lamp (Long life) Trigger socket Shield box Power supply Xenon flash lamp Flash light source module (See pages 29, 30) Mini excimer lamp Mini excimer lamp for R&D for production line Excimer lamp H2D2 lamp (High brightness high end deuterium lamp) (See page 31) 115 to 400 115 to 400 180 110 30 — 0.05 Typ. 0.005 Typ. 2000 H2D2 lamp (Synthetic silica window type) 1000 Lamp housing Power supply UV-VIS fiber light source VUV light source unit S2D2 module S2D2 photoionization light source S2D2 UV-VIS fiber light source (UV enhanced type) S2D2 VUV light source unit (See page 31) (See page 38) 2000, 4000 (See page 38) S2D2 lamp (Stable and small deuterium lamp) S2D2 115 to 400 5 to 8 0.005 Typ. 1000, 1500 L2D2 LED 365±5, 385±5 NEW UVCL (Ultraviolet cathode emitting light source) 265, 2 305 (See page 31) 1 Depends on the repetition rate 2 Peak wavelength 27 — 6 — 0.3 Max. UV-LED unit LC-L5G UV-LED spot light source LC-L1V3 (See page 5) (See page 32) 20000 5000 UV-LED module LC-L2 Calibrated deuterium lamp light source LAMPS ■Spectral distribution UV: Ultraviolet 100 nm Visible 200 nm 400 nm Deuterium lamps 115 2000 nm Xenon flash lamps 2000 185 Xenon lamps 2000 185 Mercury xenon lamps 2000 220 Line spectrum 1000 nm 400 160 Broad spectrum IR: Infrared 600 nm UVCL 450 Hollow cathode lamps 193 852 ■ Fluctuation (Short-term stability) 0.01 % 1% 0.1 % UVCL 10 % Xenon flash lamps 0.3 % 3% Mercury xenon lamps Deuterium lamps 2% 0.005 % Vacuum Ultraviolet Deuterium Lamps 0.05 % Xenon lamps 1% Lamp light output stability is an important factor that affects measurement accuracy and reliability of equipment. To supply lamps with high output stability, Hamamatsu has made consistent efforts to achieve ideal electrode construction and positioning accuracy and also to develop optimum power supplies. Devlp. 75 W / 150 W HIGH BRIGHTNESS XENON LAMP High brightness about 1.5 times greater than our conventional lamps. BI (Barium-Impregnated) cathode ensures long service life and high stability. ■Arc distribution Conventional type High brightness type High brightness x 1.5 ■Spectral distribution Cathode ■FEATURES Cathode ● High brightness ● High stability Fluctuation: 0.2 % p-p (Typ.) Drift: ±0.5 %/h (Typ.) ● Long service life Lamp rating (W) 150 75 ■APPLICATIONS ● Spectrophotometry ● Liquid chromatograph ● Fluorophotometry ● Microscope light source ● Semiconductor inspection ● Color measuring device, color scanner Window material Transmission wavelength (nm) Fused silica 185 to 2000 Guaranteed operating life (h) 3000 2000 Average life (h) 4000 3000 RELATIVE RADIANCE 10 TLS B0020EA 1 150 W HIGH BRIGHTNESS TYPE 150 W CONVENTIONAL TYPE 75 W HIGH BRIGHTNESS TYPE 75 W CONVENTIONAL TYPE 0.1 0.01 0.001 200 300 400 500 600 700 800 900 WAVELENGTH (nm) Metal base Anode Cathode (mm) (mm) 12 12 9 9 28 LAMPS Devlp. 10 W XENON FLASH LAMP MODULE L13046 SERIES Compact module containing a newly designed 10 W xenon flash lamp along with a socket and power supply The newly designed 10 W xenon flash lamp offers high stability, long service life, and high emission efficiency per flash. It operates at a high repetition rate (up to 1250 Hz) not possible with conventional 10 W xenon flash lamps. The optical axis of the lamp in the module is preadjusted with high accuracy, making it easy to install into equipment. ■FEATURES ● Compact (W × H × D): 97.8 mm × 38.9 mm × 97.2 mm ● High stability: 0.4 %CV (Typ.) ● High output (twice as high as competitive products) ● Replaceable lamp ■Emission pulse waveform ■APPLICATIONS 120 ■Light output stability (Typ.) TLSZB0158EA 110 Operating conditions Main discharge voltage: 1000 V 100 105 RELATIVE LIGHT OUTPUT (%) RELATIVE LIGHT OUTPUT (%) ● Spectrophotometry ● Blood analysis ● Environmental measurement ● Laboratory testing ● Light source for imaging ● Excitation light source TLSZB0159EA L13046-01 (0.32 µF) Compatible product (0.33 µF) 80 60 40 20 0.4 %CV 100 95 90 85 80 Operating condition Main discharge voltage: 1000 V Main discharge capacitor: 0.32 µF Repetition rate: 63 Hz Average lamp input: 10 W L13046-01 75 70 65 0 0 1 2 3 4 60 5 0 50 TIME (µs) 100 150 200 250 300 NUMBER OF FLASHES NEW 20 W XENON FLASH LAMP MODULE L12745 SERIES Compact module containing a 20 W xenon flash lamp along with a socket and power supply The L12745 series is a compact lamp module containing a 20 W xenon flash lamp with high stability, high output and long service life, together with a socket and power supply. This 20 W lamp module operates at a high repetition rate (up to 1000 Hz). ■FEATURES ■APPLICATIONS ● Compact (W × H × D): 148 mm × 52 mm × 97 mm ● High stability: 0.5 %CV (Typ.) ● High output: 500 mJ input (Max.) ● Replaceable lamp: 1000 Hz (Max.) ■Emission pulse waveform ■Life TLSZB0160EA 120 [20 W] L12745-01 (320 mJ) [10 W] L13046-01 (160 mJ) [5 W] L9455-01 (40 mJ) [2 W] L12336-01 (25 mJ) 60 40 20 1 2 3 TIME (µs) 29 4 5 6 90 80 70 GUARANTEED LIFE RANGE 60 50 40 Operating condition Main discharge voltage: 791 V Main discharge capacitor: 0.64 µF Repetition rate: 100 Hz Average lamp input: 20 W 30 20 0 TLSZB0162EA 105 100 10 0 110 110 80 0 ■Light output stability (Typ.) TLSZB0161EA RELATIVE LIGHT OUTPUT (%) 100 RELATIVE LIGHT OUTPUT (%) RELATIVE LIGHT OUTPUT (%) 120 ● Spectrophotometry ● Blood analysis ● Environmental measurement ● Laboratory testing ● Light source for imaging ● Excitation light source 0 1000 0.5 %CV 100 95 90 85 80 Operating condition Main discharge voltage: 1000 V Main discharge capacitor: 0.64 µF Repetition rate: 63 Hz Average lamp input: 20 W L12745-01 75 70 65 2000 3000 1.0 × 109 FLASHES 4000 5000 OPERATION TIME (h) 1.0 × 109 FLASHES = 2777 h 60 0 50 100 150 200 NUMBER OF FLASHES 250 300 LAMPS COMPACT 2 W XENON FLASH LAMP MODULES L12336 SERIES The L12336 series is a family of xenon flash lamp modules that integrate a 2 W xenon flash lamp, power supply, and trigger socket all into a single unit. A further plus is that these modules do not require a 12 V power supply, so they can be used as a light source for portable analyzers. ■FEATURES ● Small size (world’s smallest in its class) ● High stability: 0.5 % CV Typ. ■APPLICATIONS ● Long life: 1 × 109 flashes ● Spectrophotometry ● Broad radiant spectrum: ● Fluorescence spectrophotometry Ultraviolet to near infrared range ● Blood analysis (MTP reader, etc.) ● High precision electrode positioning: ● Water quality and pollution analysis Accuracy to ±0.05 mm ● Laboratory testing ● Low electromagnetic noise: ● Air pollution analysis CISPR11 Class B ● Semiconductor inspection ● Compatible with SMA fibers (no lens design required) 0.10 Operating conditions Main discharge voltage: 600 V Measurement distance: 20 cm 100 Main discharge capacitance 0.141 µF (L12336-01) 0.094 µF (L12336-02) 0.047 µF (L12336-03) 0.02 µF (L12336-04) 80 60 40 20 ■Life TLSZB0131EA 110 Operating conditions Main discharge voltage: 600 V Main discharge capacitance: 0.141 µF Repetition rate: 79 Hz Measurement distance: 50 cm 0.09 IRRADIANCE (µW·cm-2 ·nm-1) RELATIVE LIGHT OUTPUT (%) ■Emission spectrum TLSZB0103EA 120 0.08 0.07 L12336-01 (Normal type) L12336-11 (SMA fiber adapter type*) * Measured using an optical fiber with a core diameter of 800 µm (A7969-08AS) 0.06 0.05 0.04 0.03 0.02 0.01 0 0 0.2 0.4 0.6 0.8 1 1.2 90 L12336-01 L12336-02 L12336-03 L12336-04 80 70 60 50 40 30 20 GUARANTEED LIFE RANGE 10 0 200 1.4 TLSZB0128EA 100 RELATIVE LIGHT OUTPUT (%) ■Emission pulse waveform 300 400 TIME (µs) 500 600 700 800 900 1000 0 1100 0 2 × 108 4 × 108 6 × 108 8 × 108 1 × 109 1.2 × 109 NUMBER OF FLASHES WAVELENGTH (nm) COMPACT 5 W XENON FLASH LAMP MODULES Hamamatsu offers compact xenon flash lamp modules containing a 5 W xenon flash lamp along with its power supply and trigger socket. Up to 5 W of energy can be input, which is the maximum among lamp modules of this size. These xenon flash lamp modules also deliver high stability and long service life, making them ideal as a light source for water quality and atmosphere analyzers. ● Blood analysis (MTP reader, etc.) ● Air pollution analysis ● Semiconductor inspection ● Laboratory testing ● Water quality and pollution analysis ■Emission pulse waveform ■Emission spectrum (L9455-01 series) TLSZB0038EA 0.5 Operating conditions L9455-01 Main discharge voltage: 600 V Main discharge capacitance: 0.22 µF L11316-01 Main discharge voltage: 1000 V Main discharge capacitance: 0.2 µF 200 150 100 L11316-01 50 0 110 Operating conditions Main discharge voltage: 600 V Main discharge capacitance: 0.22 µF Flash frequency: 126 Hz Measurement distance: 50 cm 0.4 0.35 UV glass Borosilicate glass Synthetic silica 0.3 0.25 0.2 0.15 0.1 TLSZB0032EA L9456-01, L11036-01 0.5 1 TIME (µs) 1.5 0 200 300 400 500 600 700 800 WAVELENGTH (nm) 900 1000 1100 0.34 % CV 100 90 L9455-01, L11035-01 0.41 % CV 80 Operating conditions Main discharge voltage: 600 V Main discharge capacitance: 0.22 µF Emission repetition frequency: 126 Hz Average lamp input: 5 W 70 0.05 L9455-01 0 ■Light output stability* (typical initial value) TLSZB0034EA 0.45 IRRADIANCE (mW·cm-2 ·nm-1) RELATIVE LIGHT OUTPUT (%) 250 RELATIVE LIGHT OUTPUT ** (%) ■APPLICATIONS 60 0 50 100 150 200 250 300 350 NUMBER OF FLASHES * Light output stability (% CV) = light output standard deviation / average light output × 100 ** Output value with average light output of L9456-01 set to 100 %. 30 LAMPS NEW ULTRAVIOLET CATHODE EMITTING LIGHT SOURCE L12848-265 Higher output than UV LED! This UVCL (UV Cathode emitting Light source) generates UV intensity higher than an LED used in the same wavelength range, and also delivers a long service life of 5000 hours. ■FEATURES ● High power : Higher output than UV LED ● Long life : 5000 h guaranteed life ● All in one : Includes a small built-in power supply and housing ● Eco-friendly : Mercury free ● Compact ■APPLICATIONS ● Fluorescence analysis ● Environmental analysis ● UV curing ● Material analysis ● Resistance test to UV AC ADAPTER ● Sterilization (L12848-265) AC100 V to 240 V 265 nm L12848-265 ■SPECIFICATIONS Unit nm nm % %/h h mm ■Spectral distribution 300 RELATIVE IRRADIANCE (%) L12848-265 L12848-305 Parameter 220 to 400 290 to 450 Spectral distribution 265 305 Peak wavelength Light output Fluctuation (p-p) Max. 0.3 stability Drift Max. ±3 Guaranteed life 1 5000 Light-emitting point size Approx. 5 100 V to 240 V Input voltage (AC) 23 (50 Hz / 60 Hz) Power consumption 6 V W 1End of service life is defined as the time when light intensity falls below 50 % of the initial value or light output stability exceeds the guaranteed value (at peak wavelength) 2When used with the supplied AC adapter 3Input voltage to the light source power connector is 12 V DC (10.8 V DC to 13.2 V DC) * This irradiance graph is compared with UV-LED operated in 30 mA dc. TLSZB0163EA UVCL 265 nm Type NEW UVCL 305 nm Type UV-LED 310 nm Type * UV-LED 255 nm Type * 250 200 UV-C UV-B UV-A (220 nm to 280 nm) (280 nm to 315 nm) (315 nm to 380 nm) 150 100 50 0 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 WAVELENGTH (nm) COMPACT UV-VIS S2D2 FIBER LIGHT SOURCE (UV ENHANCED TYPE) L12515 The L12515 is a UV-visible fiber light source containing the world’s smallest* compact deuterium lamp (S2D2 lamp). * As of September 2015 by our research ■FEATURES ● Spectrophotometry ● Environmental measurement ● Absorption spectrum measurement ● Pharmaceutical testing 31 1.4 L12515 L10671 (conventional type) 1.2 ●200 nm to 1100 nm TLSZB0125EA 1 10 L12515 L10671 (conventional type) 0.8 3 0.6 0.4 Times LIGHT GUIDE A7969-08AS CORE DIAMETER= 0.8 mm 0.2 0 200 202 204 206 208 210 212 214 216 218 220 RELATIVE IRRADIANCE ■APPLICATIONS ■Spectral distribution ●200 nm to 220 nm (enlarged view of enhanced output region) RELATIVE IRRADIANCE ● High stability : Fluctuation 0.004 %p-p (Typ.) (equivalent to 2 × 10-5 A.U.) ● Long service life : 1500 hours guaranteed (compact deuterium lamp) ● Improved S/N ratio due to enhanced output in the UV region 1 0.1 LIGHT GUIDE A7969-08AS CORE DIAMETER= 0.8 mm WAVELENGTH (nm) 0.01 200 300 400 500 600 700 800 WAVELENGTH (nm) 900 1000 1100 LAMPS UV-LED SPOT LIGHT SOURCE LC-L1V3 Space-saving design reduces the cubic volume by up to 90 % compared with our prior model ■SPECIFICATIONS Parameter Max. UV irradiance Peak wavelength LED service life Input voltage (DC) Power consumption (Max.) Cooling method 365 nm 14000 365 ± 5 385 nm 15000 385 ± 5 Unit mW/cm2 nm h V W — 20000 9 ± 0.5 25 Natural air cooling ■FEATURES ● Compact ● Low power consumption ● Includes optical feedback function ● Programmable irradiance and time ● PC communication control improves work efficiency ■Irradiance distribution (Standard type) 10 mm 15 mm 20 mm 25 mm 30 mm ■Irradiance distribution (Right-angle type) 365 nm Type TLSZB0082EB 16000 15000 14000 13000 12000 11000 10000 9000 8000 7000 6000 5000 4000 3000 2000 1000 0 -10 4000 365 nm Type TLSZB0087EA 3500 IRRADIANCE (mW/cm2) IRRADIANCE (mW/cm2) Illuminated area 3 mm USB CABLE 10 mm 15 mm 20 mm 25 mm 30 mm -8 -6 -4 -2 0 2 4 6 8 3000 2500 2000 1500 1000 500 0 -10 10 DISTANCE FROM IRRADIATED CENTER (mm) Z: Distance from output end of lens Z=10 mm Z=15 mm Z=20 mm Z=25 mm -8 -6 -4 -2 0 2 4 6 8 10 DISTANCE FROM IRRADIATED CENTER (mm) Z: Distance from output end of lens Z=10 mm Z=15 mm Z=20 mm Z=30 mm Z=25 mm Z=30 mm OPTO-SPECTRUM GENERATOR (OSG) L12194-00-34054/-39070/-43079/-70130 A UV-visible type has been added to the lineup to cover a wide spectral range from UV to near infrared ■LINEUP & APPLICATIONS ● UV to visible range (340 nm to 540 nm): ● Visible range (430 nm to 790 nm): L12194-00-34054 L12194-00-43079 (for evaluating materials' optical properties) (for bio-photostimulation) ● Visible range (390 nm to 700 nm): L12194-00-39070 ● Near IR range (700 nm to 1300 nm): L12194-00-70130 (for solar simulator: solar cell) (spectral sensitivity inspection for cameras) ■Spectral distribution example ●For UV to visible range ●For visible range ●L12194-00-34054 (340 nm to 540 nm) ●L12194-00-39070 (390 nm to 700 nm) TLSZB0150EA ●L12194-00-43079 (430 nm to 790 nm) ●L12194-00-70130 (700 nm to 1300 nm) TLSZB0104EB TLSZB0042EB TLSZB0130EA 100 100 90 90 90 90 80 70 60 50 40 30 20 10 0 300 80 70 60 50 40 30 20 400 450 500 550 600 650 700 750 800 0 350 WAVELENGTH (nm) * Each graph shows emission spectra at a wavelength interval of 40 nm. 80 70 60 50 40 30 20 10 10 350 RELATIVE LIGHT OUTPUT (%) 100 RELATIVE LIGHT OUTPUT (%) 100 RELATIVE LIGHT OUTPUT (%) RELATIVE LIGHT OUTPUT (%) ●For near IR range 400 450 500 550 600 650 700 WAVELENGTH (nm) 750 800 850 0 350 80 70 60 50 40 30 20 10 400 450 500 550 600 650 700 WAVELENGTH (nm) 750 800 850 0 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 WAVELENGTH (nm) 32 LAMPS EXCIMER LAMP LIGHT SOURCE FLAT EXCIMER EX-400 L11751-01 The possiblities of light for "modification" and "cleaning" These excimer light sources offer an extended lifetime that is twice as long as conventional excimer lamps, which helps to reduce maintenance costs. (Guaranteed lifetime is extended from 500 hours to 1000 hours, and lamp replacement period from 1000 hours to 2000 hours.) ■SPECIFICATIONS Power supply for excimer lamp C11997 Excimer lamp L11751-01 Parameter Irradiation area (W × H) Emission wavelength Irradiance Lamp service life Description / Value 400 × 38 172 50 or more 2000 Unit mm nm mW/cm2 h Parameter Input voltage Power consumption Oscillation frequency RF output power Description / Value Single phase AC200 to AC240 500 (Typ.), 750 (Max.) Approx. 2 0 to 180 Unit V VA MHz W NEW MINI EXCIMER LAMP EX-86U L13129 The compact excimer lamp light source designed for use in production lines This compact and low cost excimer lamp is designed for use in production lines and is easier to install and use compared to conventional excimer lamps. ■SPECIFICATIONS Parameter Irradiation area (W × H) Emission wavelength Irradiance Lamp service life Input voltage Power consumption Cooling method Description / Value 86 × 40 172 50 or more 2000 AC100 to AC240 150 or less Forced air cooling using duct or fan Unit mm nm mW/cm2 h V VA — Lamp Bottom view NEW MINI EXCIMER LAMP EX-mini L12530-01 Amazingly handy and easy to use Ozone decomposition unit (option) The EX-mini is a space-saving compact excimer lamp light source ideal for R&D work. Hamamatsu shrunk its popular RF discharge excimer lamp into a compact shape that still has the same great performance. The EX-mini delivers simple yet highly accurate testing and evaluations using vacuum UV light whenever and wherever needed. ■SPECIFICATIONS Parameter Irradiation area (W × H) Emission wavelength Irradiance Lamp service life Input voltage Power consumption Cooling method 33 Description / Value 86 × 40 172 50 or more 2000 AC100 to AC240 150 or less Forced air cooling using duct or fan Unit mm nm mW/cm2 h V VA — LAMPS ■COMMON FEATURES AND APPLICATIONS OF EXCIMER LAMP SERIES ■FEATURES Comparison with other manufacturers' excimer lamps ● Uniformly irradiates a large area by using a long flat lamp ■Uniformity characteristics (along short axis): Long flat lamp vs. cylindrical lamp TLS B0011EA 100 Hamamatsu long flat lamp 90 Cylindrical lamp from other companies RELATIVE OUTPUT (%) 80 70 60 50 40 30 20 10 0 -20 Good uniformity since entire target surface is in close proximity UV power meter: Hamamatsu H9535-172 Lamp to UV power meter distance: 5 mm Measurement atmosphere: Air -15 -10 -5 0 5 10 15 Poor uniformity since only portions of target directly below lamp are in close proximity 20 DISTANCE FROM IRRADIATED CENTER (mm) ● Gives stable output with minimal flicker by using RF* discharge ● Power supply auto-tuning function for efficient light emission ● Single wavelength at 172 nm allows highly efficient processing ● Instantaneous lamp ON / OFF operation * RF indicates "radio frequency" Comparison with other methods ● No damage to object / No dust particle generation ● No processing irregularities Excimer lamp method Excimer lamp method Corona discharge method / plasma method Excimer lamp Electrode Corona discharge method / plasma method Vacuum UV light Discharge Dust particle Damage Processing irregularity *Processing effects shown in violet ■APPLICATION EXAMPLE 100 20 * Data verified by in-house testing TAC PVA Polycarbonate 10 PPS After Excimer lamp processing TLS B0013EA ●Bonding of microfluidic devices Bonding Cleaning 30 Acrylic Before Excimer lamp processing Before excimer light irradiation 40 0 0 ●Optical cleaning of evaporated gold coatings on laser mirrors 50 Polyimide 1 60 PET After irradiation Improved about 3 times Before processing After processing 70 COP Before irradiation 2 Irradiation time: 10 s Irradiation processing: 2 mm Irradiation atmosphere: air 80 Glass epoxy 3 15° TLS B0019EA 90 Polyethylene Example: PPS (polyphenylene sulfide) + PO (polyolefin) CONTACT ANGLE TO PURE WATER (°) 80° ●Surface modification of various materials Polypropylene ●Bonding pre-processing (improve adhesiveness) Bonding strength Modification ●Surface modification of plastic SAMPLE IRRADIATED SURFACE JOINED AREA REAGENT After excimer light irradiation 34 X-RAY RELATED PRODUCTS ■SELECTION GUIDE MICROFOCUS X-RAY SOURCE L9631 X-ray source MAX. TUBE CURRENT (µA) 800 (50 W Max.) L12161-07 500 (75 W Max.) L9181-02 300 L10101, L10321 200 (20 W Max.) L9421-02 200 Sealed type (39 W Max.) (8 W Max.) L10801 1000 Open type L10711-03 L11091 200 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 230 TUBE VOLTAGE OPERATING RANGE (kV) Specifications High spatial resolution makes X-ray inspection with resolution of 1/1000 mm possible CAMERA X-RAY I.I. DIGITAL CAMERA UNIT C7336-05/-52 DEVICE SCINTILLATOR COMPACT X-RAY CCD CAMERA ENERGY DIFFERENTIATION TYPE 64 CH X-CUBE™ CdTe RADIATION H8480 / H8481 / H8953 SERIES LINE SENSOR C10413 FOS™/ ACS™ / GPXS™ / ALS™ X-ray detector Specifications Left: H8480, Center: H8953, Right: H8481 FOS (See page 36) (See page 36) (See page 36) Digital output: high resolution, high contrast X-ray imaging as easy as handling ordinary CCD cameras X-ray and gamma-ray imaging with featured energy differentiation (multicolor) Next generation of large format X-ray imaging device series MICROFOCUS X-RAY SOURCE Tube voltage operational range Focal spot size1 Beam angle Min. FOD2 (kV) (µm) Approx. (degree) Approx. (mm) 9.5 20 to 90 39 L9421-02 6.8 42 L10101 5 40 to 100 7.3 118 L10321 16.8 62 L9631 15 40 to 110 13 45 L9181-02 40 to 130 5 17 43 L12161-07 40 to 150 120 L11091 13 0.5 20 to 160 140 L10711-03 0.25 3 3 40 L10801 5 4 20 to 230 Type No. 1Nominal value 2FOD is Focus to Object Distance L10711-03 3Minimum resolution ■APPLICATIONS ● Nondestructive inspection ● X-ray CT ● In-line X-ray inspection In-line X-ray inspection system DETECTOR [Applicable objects] • Electronic component • Counterfeit parts • Plastic component • Food • Medicine & drugs 35 • Printed circuit board • Metal component • Beverage can • Bioproduct • Small animal, insect BELT CONVEYOR MICROFOCUS X-RAY SOURCE TLSOC0049EA X-RAY RELATED PRODUCTS X-RAY IMAGE INTENSIFIER DIGITAL CAMERA UNIT C7336-05/-52 2.8-megapixel digital cameras ■IMAGING EXAMPLES (Sample: BGA) Analog type Digital type C7336-05 Clear and Sharp ■FEATURES X-ray tube voltage: 80 kV Parameter Field of view Effective number of pixels (H × V) Frame rate (Signal output) Interface ● Digital output ● High resolution, high contrast ● High-speed readout ● Low noise ● Low distortion X-ray tube voltage: 80 kV C7336-05 C7336-52 Unit 4 2 or 4 (Selectable) inch 1920 × 1440 — 30(12), 45(8) frames/s(bit) IEEE 1394b × 2 bus — COMPACT X-RAY CCD CAMERA X-CUBE H8480/H8481/H8953 SERIES X-CUBE is a compact X-ray CCD camera designed for nondestructive inspection. Using a general-purpose CCD chip mounted in a rugged but lightweight camera head, X-CUBE makes X-ray imaging as easy as handling ordinary CCD cameras. ■IMAGING EXAMPLES (Sample: cellular phone substrate) X-ray tube voltage: 90 kV, Geometrical magnification rate: ×1.15 ●H8480 ●H8953 ●H8481 Effective view: 25 mm Min. Resolution : 10 Lp/mm Typ. Effective view: 16.7 mm × 12.5 mm Resolution : 16 Lp/mm Typ. Effective view: 8.4 mm × 6.3 mm Resolution : 20 Lp/mm Typ. Left: H8480, Center: H8953, Right: H8481 ■FEATURES ● High sensitivity : Csl scintillator ● Compact ● Low power consumption X-RAY SCINTILLATOR FOS™ / ACS™ / GPXS™ / ALS™ ■FEATURES ● Large format Maximum size: 468 mm (17") × 468 mm (17") for ACS, GPXS and ALS ■STRUCTURE (ACS / GPXS / ALS) Scintillator : CsI(Tl) ● High light output Amorphous-Carbon: ACS Aluminum Plate: GPXS / ALS 3.2 times higher with GPXS-HB type (CsI 400 µm) than Lanex-R (powdery scintillator) [Typ.] ● High resolution CTF 13 % at 20 Lp/mm FOS-HR type (CsI 150 µm) [Typ.] Protection Film Product Name FOS ACS GPXS ALS Structure Fiber Optic Plate with Csl Scintillator Amorphous-Carbon Plate with Csl Scintillator High Reflectivity Aluminum Plate with Csl Scintillator Aluminum Plate with Csl Scintillator Dimensions Scintillator effective Substrate area (mm) thickness (mm) Min. Max. 150 × 150* 10 × 10 1 to 3 440 × 440 14 × 14 0.5 to 2 440 × 440 14 × 14 0.3 or 0.5 440 × 440 14 × 14 0.5 or 1 * CsI coating available on supplied FOP up to 440 mm × 440 mm. Scintillator thickness (µm) 2D Image-Device Features X-ray shield, Low energy X-ray detection High resolution, Large format 1000 Max. High light output, Large format High light output, Large format Applications Dental intraoral, Dental-panoramic, Mammography Dental intraoral, Mammography, Chest examination Chest examination, Dental CT Dental-panoramic, Chest examination 36 ELECTROSTATIC REMOVER TM ELECTROSTATIC REMOVER Removal of static electricity in air The PhotoIonizer is an electrostatic remover utilizing the photoionization effect. ■Principle of photoionization ■Photoionization Stable atom or molecule ■FEATURES SERIES Soft X-ray ● No air flow ● No overshooting ● High ion density ● Ozone free ● Particle free ● Compact size for flexible installation layout (L12536) ● Wide-ranging removal of electrostatic charges in a short time (L11754) Ejected electron e– Atom or molecule of positive polarity Ion as one electron is ejected. e– Stable atom or molecule Ion OV Soft X-rays Positive ions Both positive and negative ions are generated. Negative ions Charges Ion Ion TAPPC0170EA ■SELECTION GUIDE Type No. Distance from the head to the charged object L12536 Bar type L12645 Basic type L11754 High performance type 10 cm to 30 cm 1m 2m Compact / simple shield Basic type For high speed / wide area Features No air flow / No overshooting / High ion density / Ozone free / Particle free Conveyance transfer LCD Large objects AFM Film Materials development Semiconductor Semiconductor LCD / OLED Applications ■Example installation of the PhotoIonBar (L12536) PhotoIonBar works effectively within 300 mm working distance. ●Distance to charged object: 100 mm ●Interval between head units: 100 mm HEAD UNIT L12536 100 DAISY-CHAIN CABLE A12538-001 CABLE LENGTH: 100 mm DIN RAIL X-RAYS 100 CHARGED OBJECT 4-PIN I/O CABLE A12538-050/-100 CABLE LENGTH: 5 m/10 m Neutralization area: 760 mm × 350 mm PhotoIonBar POWER ON OFF ALERT I - PRO ION POWER (AC) CONTROLLER C12537 37 TAPPC0180EA ELECTROSTATIC REMOVER VUV IONIZER SERIES Removal of static electricity under depressurized conditions This unique system eliminates static charges by using vacuum ultraviolet light (VUV). Conventional ionizers cannot neutralize static electricity in a depressurized (vacuum) state because of their mechanism. However, our VUV ionizer works by directly ionizing residual molecules with vacuum ultraviolet light and so can eliminate static charges even in a depressurized environment. Moreover, this VUV ionizer is also effective in removing electrostatic charges from inert gas environments. ■FEATURES ● No air flow ● No overshooting ● Particle free ● Wide-angle irradiation (L12542) ■APPLICATIONS ● Electrostatic remover L12542 (Wide-angle irradiation type) • Dechucking of electrostatic chucks • Devices utilizing electron beams (SEM, etc.) • LCD manufacturing equipment • Organic EL manufacturing equipment • Semiconductor inspection L7293 L10706 (Low cost type) (Proximity irradiation type) (High power type) ■Effect of VUV light L11798 ■Directivity (Light distribution) RELATIVE RADIANT INTENSITY (%) SEM image (Sample: Polyvinylidene-fluoride) 100 80 With VUV light radiation Without VUV light radiation 60 30° 40 20° 20 L12542 10° 0 ANGLE (deg.) 0° -10° -20 -20° -40 -30° -60 -80 VUV IONIZER (L12542) CONVENTIONAL TYPE -100 TLSZB0105EA ■Electrostatic charge removal effect TLSZB0043EA 7 NEUTRALIZATION TIME (s) 0.7 MEASUREMENT CONDITIONS CHARGED PLATE: 25 mm CHARGED VOLTAGE: 1 kV / 100 V VACUUM LEVEL: 1 × 10-2 Pa LIGHT SOURCE: L10706 6 5 PLUS CHARGED MINUS CHARGED 4 3 2 0 200 400 600 800 1000 1200 1400 DISTANCE BETWEEN LIGHT SOURCE OUTPUT WINDOW AND CHARGED PLATE (mm) Parameter Lamp rating Light intensity Guaranteed life 1 Installation environment TLSOB0079EB 100 PLUS CHARGED MINUS CHARGED 0.5 0.4 0.3 0.2 0.1 1 0 TLSZB0096EA 0.6 NEUTRALIZATION TIME (s) 8 ■Spectral distribution Neutralization time vs. vacuum level RELATIVE IRRADIANCE (%) Neutralization time vs. distance MEASUREMENT CONDITIONS CHARGED PLATE: 25 mm CHARGED VOLTAGE: 1 kV / 100 V DISTANCE BETWEEN LIGHT SOURCE OUTPUT WINDOW AND CHARGED PLATE: 300 mm LIGHT SOURCE: L10706 0 0.0001 0.001 0.01 0.1 1 80 60 40 20 10 0 100 120 140 VACUUM LEVEL (Pa) L10706 L12542 L7293 2 Approx. 35 W Approx. 30 W Approx. 6 W 10 times 10 times 1 (compared to L10706) (compared to L10706) 2000 hours 2000 hours 1000 hours Standard room pressure In vacuum (Standard room pressure) Standard room pressure 160 180 200 220 240 400 WAVELENGTH (nm) L11798 Approx. 110 W 20 times (compared to L10706) 1000 hours Standard room pressure 1End of service life is defined as the time when light intensity at 230 nm falls below 50 % of its initial value. 2The L7293 does not include a vacuum flange, lamp house, and power supply to allow flexible designs. 38 LASER APPLICATION STEALTH DICING ™ TECHNOLOGY Laser dicing technology with a completely dry process Stealth Dicing (SD) is capable of dividing the wafer from the inside of the wafer. The laser is irradiated at any desired depth to create the modified layer (SD layer). With an external force such as tape expansion, the cracks inside the wafer extend to the surface level and divide the wafer without any cutting loss. ■FEATURES ■Principle of SD processing (Example: silicon wafer) ● Completely dry process ● Particle free ● No chipping ● Zero cutting loss Laser beam ■Cutting surface comparison (Before tape expansion) Stealth dicing No damage! dama SD layer TEG Si wafer BG tape Cutting loss less than 1 µm Device Device area Si wafer thickness: 50 µm Dicing speed: 300 mm/s 10 µm Blade dicing ■DICING MATERIALS ● Sapphire ● LiTaO3 ● LiNbO3 ● Quartz crystal ● SiC ● GaAs ● Si ● Glass Cutting loss 40 µm • Chemically tempered glass • Alkali-free glass • Alkali glass • Quartz glass etc. Si wafer thickness: 50 µm Dicing speed: 50 mm/s 10 µm Allows glass-silicon wafers to be easily separated into chips by tape expansion only Glass-Si [Resin bonding] Sample components Glass : 400 µm Resin layer : 50 µm Si : 100 µm LiTaO3 Sample components Cutting results LiTaO3: 250 µm Intersection point Process flow Process flow 1Laser process (Si) 1Laser process SD layer SD laser beam Si wafer Glass Frame DC tape 2Tape remount 100 µm SD layer No chipping LiTaO3 3Laser process (Glass) 4Separation into chips by tape expansion Intersection point SD laser beam Frame DC tape 50 µm No chipping 2Breaking DC tape DC tape Cutting results DC tape Diced cross-section Diced cross-section Direction of incident laser for glass processing 3Separation into chips by tape expansion Direction of incident laser for LiTaO3 processing Glass t: 400 µm 250 µm Resin layer t: 50 µm Si t: 100 µm Good process quality because no mechanical break process is required. 39 Direction of incident laser for silicon processing Higher production throughput since only stealth dicing is needed to cut and split the target LASER APPLICATION FAC LENS (Fast-Axis Collimating Lens) J10919 FAC lens is an optical lens that collimates light spreading from a semiconductor laser in the fast-axis direction Semiconductor lasers have a large divergence angle in the fast-axis direction, so the output light cannot be efficiently used unless collimated. The FAC lens collimates light spreading from a semiconductor laser into a narrow beam with a radiation angle of several milliradians (mrad) or less so that the diverging light can be efficiently utilized. ■FEATURES ● Aspheric micro-cylindrical lens ● Highly efficient utilization of light from LD bar ● Small variations in characteristics allow mass production ● Well-aligned and sharp output distribution (minimized smile and side lobes) due to high-precision fabrication technology ■Collimating image ■APPLICATIONS ● Highly efficient utilization of light from LD ■Output distribution image when installed to LD bar Radiation angle spreading in elliptical cone shape A–A' PROFILE A Fast axis LD (laser diode) bar Radiation angle axis A' RELATIVE INTENSITY (%) 100 Laser emitting point 90 80 70 60 50 40 30 20 10 FAC lens 0 -5 LD (laser diode) bar -4 -3 -2 -1 0 1 2 3 4 5 RADIATION ANGLE (mrad) Laser emitting point TECHNICAL INFORMATION LOW ENERGY ELECTRON BEAM IRRADIATION SOURCE EB-ENGINE ™ Low energy EB paves the way for new applications This low energy electron beam irradiation source called the EB-ENGINE is the ideal tool for thin-film surface modification with greater efficiency and better results than conventional electron beam irradiation sources using high accelerating voltages. The low accelerating voltage offers many advantages including simple equipment shielding, energy-saving, light weight and compact size. Irradiation area Approx. 300 mm ■FEATURES ● Suitable acceleration voltage for thin-film modification: 50 kV to 70 kV ● Modular parts allow easy maintenance ● Electron beam irradiation in the air ● Compact and lightweight ● Simple X-ray shield (A shield chamber is not included. However, HAMAMATSU can be consulted about its design.) ● Includes PC control unit and vacuum pump ■APPLICATIONS OF LOW ENERGY ELECTRON BEAM IRRADIATION ● Cross-linkage, curing · Improvement in physical properties by cross-linkage · Coating and adhesive curing · Printing ink drying ● Sterilization · Surface sterilization / sterilization processing of medical supplies and food packages ● Surface modification · Function assignment to outermost surface by graft polymerization · Improvement in adhesion and wettability 40 HAMAMATSU PHOTONICS K.K., Electron Tube Division 314-5, Shimokanzo, Iwata City, Shizuoka Pref., 438-0193, Japan Telephone: (81)539/62-5248, Fax: (81)539/62-2205 www.hamamatsu.com Main Products Sales Offices Electron Tubes Photomultiplier Tubes Photomultiplier Tube Modules Microchannel Plates Image Intensifiers Xenon Lamps / Mercury Xenon Lamps Deuterium Lamps Light Source Applied Products Laser Applied Products Microfocus X-ray Sources X-ray Imaging Devices Japan: HAMAMATSU PHOTONICS K.K. 325-6, Sunayama-cho, Naka-ku, Hamamatsu City, Shizuoka Pref. 430-8587, Japan Telephone: (81)53-452-2141, Fax: (81)53-456-7889 E-mail: [email protected] Belgian Office Axisparc Technology, rue Andre Dumont 7 1435 Mont-Saint-Guibert, Belgium Telephone: (32)10 45 63 34 Fax: (32)10 45 63 67 E-mail: [email protected] China: HAMAMATSU PHOTONICS (CHINA) Co., Ltd. Main Office 1201 Tower B, Jiaming Center, 27 Dongsanhuan Beilu, Chaoyang District, 100020 Beijing, China Telephone: (86)10-6586-6006, Fax: (86)10-6586-2866 E-mail: [email protected] Spanish Office C. Argenters, 4 edif 2 Parque Tecnológico del Vallés 08290 Cerdanyola (Barcelona), Spain Telephone: (34)93 582 44 30 Fax: (34)93 582 44 31 E-mail: [email protected] Opto-semiconductors Si photodiodes APD Photo IC Image sensors PSD Infrared detectors LED Optical communication devices Automotive devices X-ray flat panel sensors Mini-spectrometers Opto-semiconductor modules Imaging and Processing Systems Cameras / Image Processing Measuring Systems X-ray Products Life Science Systems Medical Systems Semiconductor Failure Analysis Systems FPD / LED Characteristic Evaluation Systems Spectroscopic and Optical Measurement Systems Laser Products Semiconductor lasers Applied products of semiconductor lasers Solid state lasers Shanghai Branch 4905 Wheelock Square, 1717 Nanjing Road West, Jingan District, 200040 Shanghai, China Telephone: (86)21-6089-7018, Fax: (86)21-6089-7017 U.S.A.: HAMAMATSU CORPORATION Main Office 360 Foothill Road, Bridgewater, NJ 08807, U.S.A. Telephone: (1)908-231-0960, Fax: (1)908-231-1218 E-mail: [email protected] Information in this catalog is believed to be reliable. However, no responsibility is assumed for possible inaccuracies or omission. Specifications are subject to change without notice. No patent rights are granted to any of the circuits described herein. © 2016 Hamamatsu Photonics K.K. Danish Office Lautruphøj 1-3, DK-2750 Ballerup, Denmark Telephone: (45)70-20-93-69, Fax: (45)44-20-99-10 Email: [email protected] California Office 2875 Moorpark Ave. San Jose, CA 95128, U.S.A. Telephone: (1)408-261-2022, Fax: (1)408-261-2522 E-mail: [email protected] Netherlands Office Televisieweg 2, NL-1322 AC Almere, The Netherlands Telephone: (31)36-5405384, Fax: (31)36-5244948 E-mail: [email protected] Chicago Office 4711 Golf Road, Suite 805, Skokie, IL 60076, U.S.A. Telephone: (1)847-725-6046, Fax: (1)847-825-2189 E-mail: [email protected] Poland Office 02-525 Warsaw, 8 St. A. Boboli Str., Poland Telephone: (48)22-646-0016, Fax: (48)22-646-0018 E-mail: [email protected] Boston Office 20 Park Plaza, Suite 312, Boston, MA 02116, U.S.A. Telephone: (1)617-536-9900, Fax: (1)408-261-2522 E-mail: [email protected] North Europe and CIS: HAMAMATSU PHOTONICS NORDEN AB Main Office Torshamnsgatan 35 16440 Kista, Sweden Telephone: (46)8-509 031 00, Fax: (46)8-509 031 01 E-mail: [email protected] United Kingdom: HAMAMATSU PHOTONICS UK Limited Main Office 2 Howard Court, 10 Tewin Road, Welwyn Garden City, Hertfordshire AL7 1BW, UK Telephone: (44)1707-294888, Fax: (44)1707-325777 E-mail: [email protected] South Africa Office: PO Box 1112, Buccleuch 2066, Johannesburg, South Africa Telephone/Fax: (27)11-802-5505 REVISED JAN. 2016 Germany, Denmark, The Netherlands, Poland: HAMAMATSU PHOTONICS DEUTSCHLAND GmbH Main Office Arzbergerstr. 10, D-82211 Herrsching am Ammersee, Germany Telephone: (49)8152-375-0, Fax: (49)8152-265-8 E-mail: [email protected] France, Portugal, Belgium, Switzerland, Spain: HAMAMATSU PHOTONICS FRANCE S.A.R.L. Main Office 19, Rue du Saule Trapu Parc du Moulin de Massy, 91882 Massy Cedex, France Telephone: (33)1 69 53 71 00 Fax: (33)1 69 53 71 10 E-mail: [email protected] Russian Office 11, Christoprudny Boulevard, Building 1, Office 114, 101000, Moscow, Russia Telephone: (7)495 258 85 18, Fax: (7)495 258 85 19 E-mail: [email protected] Italy: HAMAMATSU PHOTONICS ITALIA S.r.l. Main Office Strada della Moia, 1 int. 6, 20020 Arese (Milano), Italy Telephone: (39)02-935-81-733, Fax: (39)02-935-81-741 E-mail: [email protected] Rome Office Viale Cesare Pavese, 435, 00144 Roma, Italy Telephone: (39)06-50513454, Fax: (39)06-50513460 E-mail: [email protected] Swiss Office Dornacherplatz 7 4500 Solothurn, Switzerland Telephone: (41)32-625-60-60, Fax: (41)32-625-60-61 E-mail: [email protected] Quality, technology and service are part of every product. TOTH0024E01 JAN. 2016 IP (4000)