사업장 광주광역시북구첨단벤처로 번길 월출동 03 전기시험 03.009 조명기기 ANSI/UL 1598:2012 ANSI C 78.21:2011 ANSI C 78.377:2015 ANSI C 78.379:2006 ANSI C 78.5:2003 ANSI C 82.77:2002 CIE 121:1996 CIE 127:2007 Standard for Safety of Luminaires 19.1 Installation and Support 19.2 Temperature Test Stabilization 19.3 Voltage 19.4 Frequency 19.5 Ambient Temperature 19.21 Polymeric Impact Incandescent Lamps - PAR and R Shapes Electric lamps - Specifications for the Chromaticity of Solid- State Lighting Products Electric Lamps - Classification of the Beam Patterns of Reflector Lamps 5. Procedure for the Center Beam Intensity and Beam Angle Electric Lamps - Specifications for Performance of Self-Ballasted Compact Fluorescent Lamps Harmonic Emission Limits - Related Power Quality Requirements for Lighting Equipment The Photometry and Goniophotometry of Luminaires Measurement of LEDs 전압 : max. 300 V 전류 : max 18 A E17, E26, E26/50 39, G12.7, E39, GX16d/12, GX16d/31 bases CCT: (2 580 ~ 4 260) K Duv : -0.006 ~ 0.007 Wavelength: (350 ~ 830) nm Duration time: max. 9 999 hour PF : 0 ~ 1 CRI: 0 ~ 100 CCT: Wavelength: (350 ~ 830) nm CRI: 0 ~ 100 CCT: Wavelength: (350 ~ 830) nm 2/26
03.009 조명기기 CIE 13.3:1995 Method of Measuring and Specifying Colour Rendering Properties of Light Sources CRI : 0 ~ 100 R9 : 0 ~ 100 CIE 15:2004 CIE 177:2007 IEC 60598-1:2014 IES LM-58-94 IES LM-79-08 Colorimetry Colour Rendering of White Led Light Sources Luminaires Part 1: General requirements and tests Guide to Spectroradiometric Measurements Electrical and Photometric Measurement of Solid State Lighting Products 9.0 Test Methods for Total Luminous Flux Measurement 10.0 Luminous Intensity Distribution 12.0 Test Methods for Color Characteristics of SSL Products Wavelength: (350 ~ 830) nm CRI: 0 ~ 100 CCT: Wavelength: (350 ~ 830) nm IP68 누설전류 : 3.5 ma Color spatial uniformity: 0.006 분광측정범위 : (380 ~ 780) nm 전력 : 1 kw 색좌표오차 : ±0.3 % 색온도오차 : ±0.3 % KS A 3701:2014 KS C 7104:2015 도로조명기준 발광다이오드 (LED) 의성능평가방법 각도 ( ) : (0 ~ 360) 각도 (θ) : (0 ~ 180) 연색지수 : 0 ~ 100 파장 : (350 ~ 830) nm KS C 7612:2012 조도측정방법 (0.1 ~ 99 990) lx KS C 7613:2014 휘도측정방법 (350 ~ 830) nm (0.01 ~ 80 000) cd/m² 3/26
03.009 조명기기 IDMS : Version1.03 Information Display Measurements Standard(2012) 5. Fundamental Measurements 5.3 Full Screen White 5.6 Full Screen Black 5.9 Signal Contrast 9. Viewing-Angle Measurements 9.1 Four-Point Viewing Angles 9.2 Threshold-Based Viewing Angles 9.3 Generalized Threshold Based Viewing Angles. 9.4 Viewing-Angle Luminance Change Ratio. 9.6 Viewing-Angle Color Variation 9.7 Gray-Scale Inversion 9.8 Viewing-Angle Relative Color Gamut Area 9.10 Viewing-Angle CCT 9.11 Luminous Flux 17. 3D & Stereoscopic Displays. 17.1 3D Luminances, Contrasts, & System Metrics 17.2 Stereoscopic Displays Using Eye Glasses 17.2.1 Eye-Glasses Testing. 17.2.2 Stereoscopic Extinction Ratio & Crosstalk 17.2.3 Stereoscopic Contrast Ratio 17.2.4 Stereoscopic Luminance & Luminance Difference 17.2.5 Stereoscopic Luminance Sampled Uniformity 17.2.6 Stereoscopic Color Uniformity 17.2.7 Stereoscopic Gray To Gray Average Crosstalk. 17.2.8 Stereoscopic Gamma Deviation 17.2.9 Stereoscopic Angular Behavior 17.2.10 Head Tilt 17.3 Autostereoscopic Displays With Two Views 17.3.1 Two-View Autostereoscopic System Crosstalk 17.3.2 Two-View Autostereoscopic Contrast Ratio 17.3.3 Two-View Autostereoscopic Luminance 17.3.4 Two-View Autostereoscopic Sampled Luminance Uniformity. 17.3.5 Two-View Autostereoscopic Viewing Angle 17.3.6 Two-View Autostereoscopic Optimum Viewing Distance 17.3.7 Two-View Autostereoscopic Viewing Range 17.4 Autostereoscopic Displays With Multiple Views 17.4.1 Multiview Autostereoscopic Crosstalk 17.4.2 Multiview Autostereoscopic Luminance 17.4.3 Multiview Autostereoscopic Luminance Uniformity 17.4.4 Multiview Autostereoscopic Contrast Ratio 17.4.5 Multiview Autostereoscopic Optimum Viewing Distance 각도 ( ) : (0 ~ 360) 각도 (θ) : (0 ~ 180) 연색지수 : 0 ~ 100 파장 : (350 ~ 830) nm 4/26
03.009 조명기기 KS C 7651:2016 컨버터내장형 LED 램프 무게 : 1 kg 구부림 : 2 Nm 캡온도상승 : 120 비틀림모멘트 : 3 Nm KS C 7652:2014 컨버터외장형 LED 램프 캡온도상승 : 120 KS C 7653:2016 매입형및고정형 LED 등기구 충격에너지 : 0.20 Nm, 0.35 Nm 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 누설전류 : 3.5 ma KS C 7655:2016 LED 모듈전원공급용컨버터의안전및 성능요구사항 출력전압 : 12 V, 24 V, 48 V, 60 V, 120 V, 250 V 전력 : max. 300 W 5/26
03.009 조명기기 KS C 7656:2016 이동형 LED 등기구의안전및성능요구사항 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 누설전류 : 3.5 ma KS C 7657:2014 LED 센서등기구 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 누설전류 : 3.5 ma 개폐시험 : 50 000 회 KS C 7658:2017 LED 가로등및보안등기구 6.2.1 구조 ( 유리파손 ) 접지 : 0.5Ω 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 절연저항 : 2 MΩ 이상 조도균제도 : 0 ~ 1 무게 : (0 ~ 150) kg 진동 : (10 ~ 5 000) Hz KS C 7659:2013 문자간판용 LED 모듈의안전및 성능요구사항 IP68 내한성 : (-30 ± 2) 내열성 : (70 ± 2) 6/26
03.009 조명기기 KS C 7711:2016 LED 지중매입등기구 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 누설전류 : 3.5 ma 저온시험 : (-30 ± 2) 고온시험 : (70 ± 2) KS C 7712:2016 LED 투광등기구 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 누설전류 : 3.5 ma KS C 7713:2016 LED 경관등 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 누설전류 : 3.5 ma 저온 : (-30 ± 2) 고온 : (70 ± 2) KS C 7716:2016 LED 터널등기구 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 누설전류 : 3.5 ma 저온 : (-30 ± 2) 고온 : (70 ± 2) 7/26
03.009 조명기기 KS C 8000:2012 KS C 8016:2011 조명기구통칙 8.2 열변형 8.3 내열성 9.1 점등 9.3 절연저항 9.4 내전압 9.5 누설전류 9.6 입력부속서 1. 조명기구의측광방법일반조명용 OLED 패널 안전요구사항 누설전류 : 3.5 ma 열저항 : (0 80) KS C 8017:2016 KS C IEC 60529:2017 KS C IEC 60598-1:2011 일반조명용 OLED 패널 성능요구사항외곽의밀폐보호등급구분 (IP코드) IP X9 고압및고온물분사에대한보호등기구 - 제1부 : 일반요구사항및시험 9.3 습도시험 10.2 절연저항 12.3 내구성시험 연색지수 : 0 ~ 100 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 분진침투 : (0 ~ 6) level 물침투 : (0 ~ 8) level 누설전류 : 3.5 ma KS C IEC 61347-1:2013 램프구동장치 - 제1부 : 일반및안전요구사항 11. 내습성및절연 12. 내전압실험 20. 무부하출력전압 출력전압 : 12 V, 24 V, 48 V, 60 V, 120 V, 250 V 전력 : (0 ~ 300) W 8/26
03.013 에너지효율 고효율에너지기자재보급촉진에관한규정 산업통상자원부고시 제 2017-168 호 36. 등기구 37. LED 램프 효율관리기자재운용규정 산업통상자원부고시 제 2017-206 호 38. 컨버터내장형 LED 램프 39. 컨버터외장형 LED 램프 9/26
07 광학및광도시험 07.007 광통신기기및관련제품 GR-326-Core:2010 Generic Requirements for Single mode Optical Connectors and Jumper Assemblies 4.2 Criteria : Optical Loss, Reflectance 4.4.2.1 Thermal age test 4.4.2.2 Thermal cycle test 4.4.2.3 Humidity aging test 4.4.2.4 Humidity/condensation cycling test 4.4.2.5 Dry-out step 4.4.2.6 Post-condensation thermal cycle test 4.4.3.1 Vibration test 4.4.3.2 Flex test 4.4.3.3 Twist test 4.4.3.4 Proof test 4.4.3.5 Transmission with appled tensile load 4.4.3.7 Impact test 4.2: 1 310 nm, 1 490 nm, 1 550 nm, 1 625 nm 4.4.2.1: 85 4.4.2.2: (-40 ~ 75) 4.4.2.3: 75, 95 %R.H. 4.4.2.4: (-10 ~ 65), (90 ~ 100) %R.H. 4.4.2.5: 75 4.4.2.6: (-40 ~ 75) 4.4.3.1: 1.5 mm, (10 ~ 55) Hz 4.4.3.2: ±90, 0.9 kg 4.4.3.3: (0.5 ~ 1.35) kg 4.4.3.4: (2.3 ~ 6.8) kg 4.4.3.5: (0.25, 2.0) kg, 90, 135 4.4.3.7: 1.5 m 10/26
07.007 광통신기기및관련제품 GR-910-Core:1998 Generic Requirements for Fiber Optic Attenuators 4.1.1 Controlled operating environment 4.1.2 Uncontrolled operating environment 4.1.3 Non-operating environment 4.1.6 Vibration 4.1.7 Flex test 4.1.8 Twist test 4.1.9 Side pull load 4.1.10 Cable retention 4.1.12 Impact test 5.2 Optical Testing 4.1.1: (-5 ~ 50), (5 ~ 90) %R.H. 4.1.2: 75, (90 ± 5) %R.H. 4.1.3: (-40 ~ 70) 4.1.6: (10 ~ 55) Hz 4.1.7: (0.23 ~ 0.9) kg 4.1.8: (0.5 ~ 1.35) kg 4.1.9: (0.25 ~ 1.25) kg 4.1.12: 1.8 m 5.2: 23, 70 %R.H. GR-1073-Core:2011 Generic Requirements for Singlemode Fiber Optic Switches 4.1.4 Optical Passband 4.1.4: 1 310 nm, 1 550 nm 4.2.1 Insertion Loss 4.2.1: 1 310 nm, 1 550 nm 4.2.2 Uniformity 4.2.2: 1 310 nm, 1 550 nm 4.2.3 Wavelength Flatness 4.2.3: 1 310 nm, 1 550 nm 4.2.4: 1 310 nm, 1 550 nm 4.2.4 Cross talk 4.2.5: 1 310 nm, 1 550 nm 4.2.5 Directivity 4.2.6: 1 310 nm, 1 550 nm 4.2.6 Return Loss 4.2.8: 1 310 nm, 1 550 nm 4.2.8 Polarization dependent loss 4.2.9: 1 310 nm, 1 550 nm 5.5.1.1: 60, 75, 4.2.9 Differential group delay 90 %R.H. 4.2.11 Repeatability 5.5.1.2: (-40 ~ 70) 5.5.1.1 Damp Heat 5.5.1.3: 1.52 mm, 5.5.1.2 Temperature cycling test 10 Hz to 55 Hz 5.5.1.4: 1 ms, 4 900 m/s² 5.5.1.3 Vibration test 1.33 ms, 1 960 m/s² 5.5.1.4 Mechanical shock (Impact) test 5.5.2.1: 0.45 kg 5.5.2.1 Flex test 5.5.2.2: 0.45 kg 5.5.2.2 Twist test 5.5.2.3: 0.23 kg, 0.45 kg 5.5.2.4: 0.45 kg, 1.0 kg 5.5.2.3 Side pull 5.5.3.1: (-10 ~ 60) 5.5.2.4 Cable retention 5.5.3 Operational Performance test 11/26
07.007 광통신기기및관련제품 GR-1209-Core:2010 Generic Requirements for Passive Optical Components 4.1 Optical Band pass 4.2 Insertion Loss 4.3 Uniformity 4.4 Isolation 4.5 Directivity 4.6 Return Loss 4.7 Polarization-Dependent Loss(PDL) 4.8 Polarization-Dependent Wavelength(PDW) 4.10 Temperature effects on DWDM components 4.11.2 Polarization sensitivity 5.3 Operating environments 5.4.1.1 Temperature-humidity aging 5.4.1.2 Vibration 5.4.1.3 Component impact 5.4.1.4 Module impact 5.4.1.5 Temperature cycling 5.4.2.1 & 5.4.2.2 Temperature/humidity cycle 5.4.2.4 & 5.4.2.5 DWDM temperature effect 5.4.3 Fiber Integrity Criteria 4.1: 1 310 nm, 1 550 nm 4.2: 1 310 nm, 1 550 nm 4.3: 1 310 nm, 1 550 nm 4.4: 1 310 nm, 1 550 nm 4.5: 1 310 nm, 1 550 nm 4.6: 1 310 nm, 1 550 nm 4.7: 1 310 nm, 1 550 nm 4.8: 1 310 nm, 1 550 nm 4.10: 1 310 nm, 1 550 nm 4.11.2: 1 310 nm, 1 550 nm 5.3: 23 5.4.1.1: 75, 85, 50 %R.H, 90 %R.H. 5.4.1.2: (10 ~ 2 000) Hz, 196 m/s² 5.4.1.3: 500 g 5.4.1.4: 50 g, 200 g 5.4.1.5: (-40 ~ 70) 5.4.2.1, 5.4.2.2: -10, 60, 20 %R.H., 90 %R.H. 5.4.2.4, 5.4.2.5: -40, 85 5.4.3: 0.45 kg, 0.9 kg 12/26
07.007 광통신기기및관련제품 GR-2882-Core:1995 GR-2883-Core:1995 Generic Requirements for Optical Isolators and Circulators 4.1.1 Optical Band pass 4.1.2 Insertion Loss 4.1.3 Isolation 4.1.4 Circulator Directivity 4.1.5 Reflectance 4.1.5 Polarization dependent loss 4.1.6 Polarization-Dependent Loss(PDL) 4.2.1 Operating environment 4.2.2 Non-operating environment 4.2.3 Shock criteria 4.2.4 Vibration test 4.2.6 Flex test 4.2.7 Twist test 4.2.8 Side pull 4.2.9 Cable retention Generic Requirements for Fiber Optic Filters 4.1.1 Optical Bandwidth/Passband and Center Wavelength 4.1.2 Insertion Loss 4.1.3 Flatness 4.1.4 Wavelength Isolation or Optical Cross talk 4.1.5 Reflectance 4.1.6 Polarization-Dependent Loss(PDL) 4.1.7.2 Polarization sensitivity of center wavelength and optical bandwidth 4.1.7.3 Temperature sensitivity 4.2.1 Operating environment 4.2.2 Non-operating environment 4.2.3 Shock criteria 4.2.4 Vibration test 4.2.6 Flex test 4.2.7 Twist test 4.2.8 Side pull 4.2.9 Cable retention 4.1.1: 1 310 nm, 1 550 nm 4.1.2: 1 310 nm, 1 550 nm 4.1.3: 1 310 nm, 1 550 nm 4.1.4: 1 310 nm, 1 550 nm 4.1.5: 1 310 nm, 1 550 nm 4.1.6: 1 310 nm, 1 550 nm 4.2.1: (-40 ~ 75) 4.2.3: 10 cm, 76 cm 4.2.4: (1 ~ 500) Hz, 14.7 m/s² 4.2.6: 0.45 kg 4.2.7: 0.45 kg 4.2.8: 0.23 kg, 0.45 kg 4.2.9: 0.45 kg, 1.0 kg 4.1.1: 1 310 nm, 1 550 nm 4.1.2: 1 310 nm, 1 550 nm 4.1.3: 1 310 nm, 1 550 nm 4.1.4: 1 310 nm, 1 550 nm 4.1.5: 1 310 nm, 1 550 nm 4.1.6: 1 310 nm, 1 550 nm 4.2.1: (-40 ~ 75) 4.2.3: 10 cm, 76 cm 4.2.4: (1 ~ 500) Hz, 14.7 m/s² 4.2.6: 0.45 kg 4.2.7: 0.45 kg 4.2.8: 0.23 kg, 0.45 kg 4.2.9: 0.45 kg, 1.0 kg 13/26
07.007 광통신기기및관련제품 IEC 60793-1-22:2001 IEC 60793-1-46:2001 IEC 60793-1-50:2014 IEC 60793-1-51:2014 IEC 61753-2-1:2000 Optical fibers - Part 1-22: Measurement methods and test procedures - Length measurement Optical Fibers - Part 1-46: Measurement Methods and Test Procedures - Monitoring of Change in Optical Transmittance Optical fibers - Part 1-50: Measurement methods and test procedures - Damp heat (steady state) Optical fibers - Part 1-51: Measurement methods and test procedures - Dry heat Fiber optic interconnecting devices and passive components performance standard Part 2-1: Fiber optic connectors terminated on single-mode fiber for category U-Uncontrolled environment 7.3.1 Attenuation 7.3.2 Return loss 7.3.3 (Random mate) Attenuation 7.3.4 Vibration 7.3.6 Fiber/Cable retention 7.3.9 Impact 7.3.10 Static side load 7.3.11 Mating durability 7.3.12 Cold 7.3.13 High temperature endurance 7.3.14 Damp heat (steady state) 7.3.15 Change of temperature 7.3.17 Damp heat cycle 1310 nm, 1550 nm (1 260 ~ 1 600) nm 85, 85 %R.H. 85 7.3.1: 1 310 nm, 1 550 nm 7.3.2: 2 m, 6 m 7.3.3: 1 550 nm 7.3.4: (10 ~ 55) Hz 7.3.6: 0.51 kg m/s² 7.3.9: 1.5 m 7.3.10: 0.102 kg m/s² 7.3.11: 500 Cycles 7.3.12: -25 7.3.13: 70 7.3.14: 40, 93 %R.H. 7.3.15: (-25 ~ 70) 7.3.17: 55, 95 %R.H. 14/26
07.007 광통신기기및관련제품 KS C 6906:2001 광전송용레이저다이오드시험방법 6.1 순전류 6.2 순전압 6.3 역전압 6.4 광출력 6.5 임계값전류 6.6 임계값광출력 6.7 슬로프효율 6.8 세로모드간격및세로모드수 6.9 피크발진파장 6.10 중심파장, 스펙트럼폭, 스펙트럼반값폭 6.12 사이드모드억압 (SMSR) 6.13 스펙트럼선폭 6.18 차단주파수 -5 V 1 310 nm, 1 550 nm (600 1 750) nm KS C 6943:2014 광전송용반도체레이저모듈측정방법 6.1 순전류 6.2 순전압 6.4 섬유끝광출력 6.5 초기값전류 6.6 초기값광출력 6.7 슬로프효율 6.8 세로모드간격및세로모드수 6.9 피크발진파장 6.10 중심파장, 스펙트럼나비, 스펙트럼반값나비 6.12 사이드모드억압비 (SMSR) 6.13 스펙트럼선나비 6.15 차단주파수 -5 V 1 310 nm, 1 550 nm (600 1 750) nm 15/26
07.007 광통신기기및관련제품 광섬유제1-22부 : 광섬유길이측정방법및 KS C IEC 60793-1-22:2003 시험절차 1310 nm, 1550 nm 광섬유제1-50부 : 광섬유정상상태습열특성 KS C IEC 60793-1-50:2003 측정방법및시험절차 ~ 95 %R.H. 광섬유제1-51부 : 광섬유건열특성측정방법 KS C IEC 60793-1-51:2003 및시험절차 85 광섬유제1-52부 : 광섬유온도변화특성 KS C IEC 60793-1-52:2003 측정방법및시험절차 (-40 ~ 85) KS C IEC 61753-2-1:2002 광통신연결소자및수동부품의성능기준 - 제2-1부 : 비제어환경용단일모드광섬유커넥터 7.3.1 감쇠 7.3.2 반사손실 7.3.3 무작위연결감쇠 7.3.4 진동 7.3.6 광섬유 / 케이블인장 7.3.9 임팩트 ( 충돌 ) 7.3.10 측방향정적부하 7.3.11 반복결합 7.3.12 저온 7.3.13 고온내구성 7.3.14 ( 정상상태 ) 습열 7.3.15 온도변화 7.3.17 습열순환 7.3.1: 1 310 nm, 1 550 nm 7.3.2: 2 m, 6 m 7.3.3: 1 550 nm 7.3.4: (10 ~ 55) Hz 7.3.6: 0.51 kg m/s² 7.3.9: 1.5 m 7.3.10: 0.102 kg m/s² 7.3.11: 500 Cycles 7.3.12: -25 7.3.13: 70 7.3.14: 40, 93 %R.H. 7.3.15: (-25 ~ 70) 7.3.17: 55, 95 %R.H. 16/26
07.007 광통신기기및관련제품 Telcordia GR-468:2004 Telcordia GR-1221:2010 Generic reliability assurance requirements for optoelectronic devices used in telecommunications equipments 3.2.1 Spectral characteristics 3.2.2 Output power/drive current characteristics 3.2.3 Laser voltage-current curve 3.2.4 Modulated output characteristics 3.2.5 Turnable laser characteristics 3.2.7.2 External modulator characterization 3.2.8.1 Efficiency 3.2.8.3 Linearity 3.2.8.4 Monitor photodetector photocurrent 3.2.8.5 Dark current 3.2.8.7 Cutoff frequency 3.2.8.8 Breakdown voltage 3.2.9.1 Received optical power levels 3.3.1.1 Mechanical shock, Vibration 3.3.1.2 Thermal shock 3.3.1.3 Fiber integrity 3.3.2.1 Storage tests 3.3.2.2 Temperature cycling 3.3.2.3 Damp heat tests 3.3.3 Powered environmental stress tests 3.4 Accelerated aging Generic reliability assurance requirements for passive optical components 6.2.1 Mechanical shock (Impact test) 6.2.2 Vibration test 6.2.3 Thermal shock test 6.2.4 High temperature storage test (Dry heat) 6.2.5 High temperature storage test (Damp heat) 6.2.6 Low temperature storage test 6.2.7 Temperature cycling test 6.2.8 Cyclic moisture resistance test 3.2.1: (600 ~ 1 750) nm 3.2.8: 25, 100 μw, -5 V 3.2.9.1: BER10-10 3.3.1.1: shock: 4 900 m/s², 1 ms Vibration: (20 ~ 2 000) Hz, 196 m/s² 3.3.1.2: (0 ~ 100) 3.3.1.3: (0.25 ~ 1.0) kg 3.3.2.1: 85, -40 3.3.2.2: -40, 85 3.3.2.3: 85, 85 %R.H. 3.3.3: (70 ~ 85) 3.4: (-40 ~ 85) 6.2.1: 1 ms, 4 900m/s² 6.2.2: (10 ~ 2 000) Hz, 196 m/s² 6.2.3: (0 ~ 100) 6.2.4: 85, 40 %R.H. 6.2.5: 75, 85, 85 %R.H., 90 %R.H. 6.2.6: -40 6.2.7: (-40 ~ 85) 6.2.8: (25 ~ 65), (90 ~ 95) %R.H. 17/26
사업장 광주광역시서구경열로 번길 농성동 03 전기시험 03.011 전자기적합성 EN 61000-3-2:2006 +A2:2009 EN 61000-3-3:2008 EN 61000-4-2:2009 EN 61000-4-3:2006 +A2:2010 Electromagnetic compatibility (EMC) - Part 3-2: Limits - Limits for harmonic current emissions (equipment input current 16 A per phase) Annex C의 C.2, C.3, C.4, C.7, C.8, C.9, C.10, C.11, C.12, C.13, C.14 Electromagnetic compatibility (EMC) - Part 3-3: Limits - Limitation of voltage changes, voltage fluctuations and flicker in public low-voltage supply systems, for equipment with rated current 16 A per phase and not subject to conditional connection Annex A의 A.1, A.3, A.4, A.5, A.6, A.7, A.8, A.9, A.10, A.11, A.12, A.13, A.14, A.15 Electromagnetic compatibility (EMC) - Part 4-2: Testing and measurement techniques - Electrostatic discharge immunity test Electromagnetic compatibility (EMC) - Part 4-3: Testing and measurement techniques Radiated, radio-frequency, electromagnetic field immunity test Equipment input current 16 A per phase Annex C 의 C.2, C.3, C.4, C.7, C.8, C.9, C.10, C.11, C.12, C.13, C.14 Equipment input current 16 A per phase Annex A 의 A.1, A.3, A.4, A.5, A.6, A.7, A.8, A.9, A.10, A.11, A.12, A.13, A.14, A.15 Electrostatic discharge immunity : Contact discharge ±2 kv, ±4 kv, ±8 kv, ±10 kv, Air discharge ±2 kv, ±4 kv, ±8 kv, ±15 kv Radiated, radio-frequency, electromagnetic field immunity : Frequency range 80 MHz ~ 1 000 MHz, Test level 3 V/m, 10 V/m 18/26
03.011 전자기적합성 EN 61000-4-4:2012 Electromagnetic compatibility (EMC) - Part 4-4: Testing and measurement techniques Electrical fast transient/burst immunity test Electrical fast transient/burst immunity : Test levels ±0.5 kv, ±1 kv, ±2 kv, ±4 kv, Repetition frequency : 5 khz EN 61000-4-5:2006 Electromagnetic compatibility (EMC) - Part 4-5: Testing and measurement techniques Surge immunity test Surge immunity : Wave-shape data 1.2/50 μs, Test levels ±0.5 kv, ±1 kv, ±2 kv, ±4 kv EN 61000-4-6:2009 Electromagnetic compatibility (EMC) - Part 4-6: Testing and measurement techniques Immunity to conducted disturbances, induced by radio-frequency fields Immunity to conducted disturbances, induced by radio-frequency fields : Frequency range 0.15 MHz ~ 80 MHz, Test levels 3 V, 10 V EN 61000-4-8:2010 Electromagnetic compatibility (EMC) - Part 4-8: Testing and measurement techniques Power frequency magnetic field immunity test Power frequency magnetic field immunity : frequency 50/60 Hz, Test levels 1 A/m, 3 A/m, 10 A/m, 30 A/m EN 61000-4-11:2004 Electromagnetic compatibility (EMC) Part 4-11: Testing and measurement techniques Voltage dips, short interruptions and voltage variations immunity tests Voltage dips : Test level 0 %, 40 %, 70 %, 80 % short interruptions : Test level 0 % 19/26
03.011 전자기적합성 EN 61547:2009 Equipment for general lighting purposes EMC immunity requirements Electrostatic discharges : Contact discharge ±4 kv, Air discharge ±8 kv Radio-frequency electromagnetic fields : Frequency range 80 MHz ~ 1 000 MHz, Test level 3 V/m (unmodulated) Fast transients : Test level ±0.5 kv, ±1 kv, Repetition frequency 5 khz Surges : Wave-shape data 1.2/50 μs, Test levels ±0.5 kv, ±1 kv, ±2 kv Injected currents : Frequency range : 0.15 MHz ~ 80 MHz, Test level : 3 V r.m.s (unmodulated) Power frequency magnetic fields : Field frequency 50/60 Hz, Test level 3 A/m Voltage dips : Test voltage level 70 %, Number of periods 10 Voltage short interruptions : Test voltage level 0 %, Number of periods 0.5 Limits and methods of measurement of radio EN 55015:2006 +A2:2009 disturbance characteristics of electrical lighting and similar equipment 4.2 Insertion loss 4.4.2 method specified of CISPR 22 Disturbance voltages : 9 khz ~ 30 MHz Radiated electromagnetic disturbances : 9 khz ~ 300 MHz 20/26
03.011 전자기적합성 KS C 9547:2017 일반조명기기 전자파적합성 (EMC) 내성 요구사항 정전기방전 : 접촉방전 ±4 kv, 기중방전 ±8 kv 전자파방사내성 : 주파수범위 80 MHz ~ 1 000 MHz, 시험레벨 3 V/m 전기적빠른과도현상 : 시험레벨 ±0.5 kv, ±1 kv, 반복주파수 5 khz 서지 : 파형데이터 1.2/50 μs, 시험레벨 ±0.5 kv, ±1 kv, ±2 kv 전자파전도내성 : 주파수범위 0.15 MHz ~ 80 MHz, 시험레벨 3 V r.m.s( 무변조 ) 전원주파수자기장 : 자기장주파수 50/60 Hz, 시험레벨 3 A/m 전압강하 : 전압레벨 70 %, 주기 10 전압순시정전 : 전압레벨 0 %, 주기 0.5 KS C 9815:2017 조명기기및유사기기의무선방해특성의측정허용기준과측정방법 4.2절삽입손실 4.4.2절 30 MHz ~ 300 MHz(CISPR 32의표 A.1의방법 ) 방해전압 : 9 khz ~ 30 MHz 복사성전기자기방해 : 9 khz ~ 300 MHz 21/26
03.011 전자기적합성 KS C 9610-3-2:2017 전자파적합성 (EMC) - 제3-2부 : 허용기준 - 고조파전류의허용기준 ( 상당입력전류 16 A 이하기기 ) 부속서 C의 C.2, C.3, C.4, C.7, C.8, C.9, C.10, C.11, C.12, C.13, C.14 상당입력전류 16 A 이하 KS C 9610-3-3:2017 전자파적합성 (EMC) 제3-3부 : 허용기준 공공저압배전망에사용하는기기의플리커와전압변동에대한허용기준 ( 상당 16 A 이하기기 ) 부속서 A의 A.1, A.3, A.4, A.5, A.6, A.7, A.8, A.9, A.10, A.11, A.12, A.13, A.14, A.15 상당 16 A 이하 KS C 9610-4-2:2017 KS C 9610-4-3:2017 KS C 9610-4-4:2017 전자파적합성 (EMC) 제4-2부 : 시험및측정기술 정전기방전내성시험전자파적합성 (EMC) 제4-3부 : 시험및측정기술 방사성 RF 전자기장내성시험전자파적합성 (EMC) 제4-4부 : 시험및측정기술 전기적빠른과도현상, 버스트내성 시험 정전기방전내성 : 접촉방전 ±2 kv, ±4 kv, ±8 kv, ±10 kv, 기중방전 ±2 kv, ±4 kv, ±8 kv, ±15 kv 방사무선주파수 전기자기장내성 : 주파수범위 80 MHz ~ 1 000 MHz, 시험레벨 3 V/m, 10 V/m 전기적빠른 과도현상 / 버스트내성 : 시험레벨 ±0.5 kv, ±1 kv, ±2 kv, ±4 kv, 반복주파수 5 khz 22/26
03.011 전자기적합성 KS C 9610-4-5:2017 전자파적합성 (EMC) 제4-5부 : 시험및측정기술 서지내성시험 서지내성 : 파형데이터 1.2/50 μs, 시험레벨 ±0.5 kv, ±1 kv, ±2 kv, ±4 kv KS C 9610-4-6:2017 전자파적합성 (EMC) 제4-6부 : 시험및측정기술 전도성 RF 전자기장내성시험 전기자기장전도내성 : 주파수범위 0.15 MHz ~ 80 MHz, 시험레벨 3 V, 10 V KS C 9610-4-8:2017 전자파적합성 (EMC) 제4-8부 : 시험및측정기술 전원주파수자기장내성시험 전원주파수자계내성 : 주파수 50/60 Hz, 시험레벨 1 A/m, 3 A/m, 10 A/m, 30 A/m KS C 9610-4-11:2017 전자파적합성 (EMC) 제4-11부 : 시험및측정기술 전압강하, 순간정전, 전압변동 내성시험 전압강하 : 전압레벨 0 %, 40 %, 70 %, 80 % 순시정전 : 전압레벨 0 % 23/26
사업장 경기도시흥시산기대학로 정왕동 시흥비즈니스센터 층 03 전기시험 03.009 조명기기 KS C 7651:2016 KS C 7652:2014 KS C 7653:2016 KS C 7657:2014 KS C 7658:2017 컨버터내장형 LED 램프 6. 안전요구사항컨버터외장형 LED 램프 6. 안전요구사항매입형및고정형 LED 등기구 6.10 내분진및내습성 6.14 전기자기적합성 LED 센서등기구 6.7 외부및내부배선 6.10 내분진및내습성 6.14 전기자기적합성 7.6.3 개폐시험 LED 가로등및보안등기구 6.2.1 구조 6.6 외부및내부배선 6.12 전기자기적합성 6.13 진동시험 충격에너지 : 0.20 Nm, 0.35 Nm 누설전류 : 3.5 ma 절연저항 : 2 MΩ 이상누설전류 : 3.5 ma 절연저항 : 2 MΩ 이상 조도균제도 : 0 ~ 1 24/26
03.009 조명기기 KS C 7712:2016 LED 투광등기구 6.2.1 구조 6.6 외부및내부배선 6.13 전기자기적합성 절연저항 : 2 MΩ 이상누설전류 : 3.5 ma KS C 7713:2016 LED 경관등 6.2.1 구조 (IP 시험 ) 6.7 외부및내부배선 6.14 전기자기적합성 절연저항 : 2 MΩ 이상누설전류 : 3.5 ma 저온시험 : (-30 ± 2) 고온시험 : (70 ± 2) KS C 7716:2016 LED 터널등기구 6.2.1 구조 6.6 외부및내부배선 6.13 전기자기적합성 절연저항 : 2 MΩ 이상누설전류 : 3.5 ma 25/26
03.013 에너지효율 산업통상자원부고시 제 2017-168 호 고효율에너지기자재보급촉진에관한규정 36. 등기구 효율관리기자재운용규정 산업통상자원부고시 제 2017-206 호 38. 컨버터내장형 LED 램프 39. 컨버터외장형 LED 램프 끝. 26/26