CMW-FCC-CO1A

CMW-FCC-CO1A UV Module Solution Pre-specification CMW-FCC-CO1A RoHS Product Brief Description Features and Benefits CMW-FCC-CO1A is a waterproof module with peak emission wavelengths from 270 to 280nm. The LED is sealed behind a UV-transparent window to protect it from liquid and dust. The module also features a threaded body and mounting nut for hassle-free attachment into a 36mm diameter hole. CMW-FCC-CO1A is suitably designed for water and surface sterilization. • • • • Waterproof Deep ultraviolet LED Compact footprint RoHS compliant Key Applications • • • Disinfection Fluorescent spectroscopy Chemical and biological analysis Table 1. Product Wp [nm] Model CMW-FCC-CO1A Rev 1.0, March 28, 2019 Color Black IP Grade IF [mA] IPX8 100 1 Remark Min Max 270 280 Constant Current Drive www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Table of Contents Index • Product Brief • Table of Contents • Performance Characteristics • Characteristic Diagrams • Mechanical Dimension • Precaution for Use Rev 0.0, March 28, 2019 2 www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Performance Characteristics Table 2. Electro - Optical characteristic at 100mA (Ta=25℃, RH=30%) Parameter Symbol Value Unit Peak Wavelength [1] λp 275 nm Forward Voltage VF 6.5 V Radiant Flux[2] Φe[3] 7 mW Power Consumption P 0.65 W Spectrum Half Width Δλ 10 nm View Angle 2Θ1/2 125 deg. Weight m 16 g Table 3. Absolute Maximum Rating Value Parameter Symbol Unit Min. Input Current Operating Temperature Typ. IF [7] Storage Temperature [7] Max. 100 mA Topr - 20 60 ºC Tstg - 40 85 ºC Notes : 1. Peak wavelength measurement tolerance: ± 3 nm 2. Radiant Flux measurement tolerance: ± 10% 3. Φe is the Optical Output Power as measured with an integrated sphere 4. Forward voltage measurement tolerance: ± 3% Rev 0.0, March 28, 2019 3 www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Characteristics Graph Fig 1. Spectrum, Ta=25℃ 110 100 Relative Spectral Power (%) 90 80 70 60 50 40 30 20 10 0 230 240 250 260 270 280 290 300 310 320 Wavelength (nm) Fig 2. Forward Current vs. Forward Voltage, Ta=25℃ 100 Current (mA) 75 50 25 0 5.0 5.5 6.0 6.5 7.0 Voltage (V) Rev 0.0, March 28, 2019 4 www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Characteristics Graph Relative Optical Output Power (%) Fig 3. Relative Optical Output Power vs. Forward Current, Ta=25℃ 100 75 50 25 0 0 25 50 75 100 75 100 Current (mA) Fig 4. Peak Wavelength vs. Forward Current, Ta=25℃ 290 289 288 Wavelength (nm) 287 286 285 284 283 282 281 280 0 25 50 Current (mA) Rev 0.0, March 28, 2019 5 www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Characteristics Graph Fig 5. Relative Radiant Flux vs. Ambient Temperature, IF=100mA 110 100 Relative Radiant Flux (%) 90 80 70 60 50 40 30 20 10 0 20 30 40 50 60 Ambient Temperature (C) Fig 6. Peak Wavelength vs. Solder Point Temperature, IF=100mA 290 289 288 Wavelength(nm) 287 286 285 284 283 282 281 280 20 30 40 50 60 Tsp(C) Rev 0.0, March 28, 2019 6 www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Characteristics Graph Fig 7. Forward Voltage vs Solder Point Temperature, IF=100mA 7.5 Forward Voltage 7.0 6.5 6.0 5.5 5.0 30 40 50 60 Tsp(C) Fig 8. Typical Spatial Distribution, IF=100mA 1.2 Normalized Intensity 1.0 0.8 0.6 0.4 0.2 0.0 -90 Rev 0.0, March 28, 2019 -60 -30 0 30 Viewing Angle [˚] 7 60 90 www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Mechanical Dimensions Unit : mm “UV Module” Assembly Guide Water Tank Outer Guard Notes : - During assembly, the optimal torque on the “Outer Holder” component varies depending on the material properties and wall thickness of the system utilizing the module. Test and optimize it to suit your system. SVC does not warranty assembly failure for the “Outer Holder” component. - Dimensions indicate a nominal value with a tolerance of ±0.5 mm. Rev 0.0, March 28, 2019 8 www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Precaution for Use A. UV Light • These devices are ultraviolet LEDs. During operation, the LED emits high intensity ultraviolet (UV) light, which is harmful to skin and eyes. Do not look directly into the UV light and wear protective equipment during operation. • UV light is hazardous to skin and may cause cancer. Avoid exposure to UV light when LED is operational. • Precautions must be taken to avoid looking directly at the UV light without the use of UV light protective glasses. Do not look directly at the front of the LED or at the LED’s lens when LED is operational. • Attach the following warning labels on products/systems that use UV LEDs. B. Static Electricity • Electrostatic discharge (ESD) is the defined as the release of static electricity when two objects come into contact. While most ESD events are considered harmless, it can be an expensive problem in many industrial environments during production and storage. The damage from ESD to an LEDs may cause the product to demonstrate unusual characteristics such as: - Increase in reverse leakage current lowered turn-on voltage - Abnormal emissions from the LED at low current • The following recommendations are suggested to help minimize the potential for an ESD event. • One or more recommended work area suggestions: - Ionizing fan setup - ESD table/shelf mat made of conductive materials - ESD safe storage containers • One or more personnel suggestion options: - Antistatic wrist-strap - Antistatic material shoes - Antistatic clothes • Environmental controls: - Humidity control (ESD gets worse in a dry environment) Rev 0.0, March 28, 2019 9 www.seoulviosys.com & www.s-et.com CMW-FCC-CO1A Precaution for Use C. Handling Precautions • Do not use flammable material near the modules. • Do not touch the modules with wet hands • Do not attempt to repair or disassemble the module. • Do not drop or subject the module to strong impacts. • Avoid touching quartz glass parts especially with sharp tools such as Tweezers • Avoid leaving fingerprints on the quartz lens. • Use covered containers for storage to prevent dust buildup. D) Other • Do not connect the module to a powered-on system/circuit. - When connecting the module to an already powered circuit, the LED can be damaged by the inrush voltage / current. • Epoxy Molding - Bubbles may form during curing after epoxy molding. - Bubbles are not problematic in function of product and may burst during handling. - SVC manages bubbles to within 2mm. Rev 0.0, March 28, 2019 10 www.seoulviosys.com & www.s-et.com