로그인 과정 소개
건축전기설비기술사 온라인 정규과정입니다.
실전에서 바로 답안으로 작성할 수 있도록 구성되어 있어 매우 효율적으로 학습할 수 있습니다.
수강생의 궁금한점, 학습진도 등을 수시로 피드백하여 드리며 단기간에 높은 점수를 획득할 수 있는 최적의 과정입니다.
샘플강의는 아래의 유튜브채널을 방문하시면 됩니다.
커리큘럼
- 01 11_조명_교재
- 01 11_01_01_조명용어설명 11:13
- 02 11_01_02_입사각여현의법칙 01:28
- 03 11_02,3,4_순응,시감도,퍼킨제 05:25
- 04 11_05_연색성 04:03
- 05 11_06_특수연색평가수 01:25
- 06 11_07_색온도 04:49
- 07 11_08_조도 03:29
- 08 11_09_균제도 08:15
- 09 11_10_눈부심 07:10
- 10 11_11,12,13_광속발산도,광속발산도와휘도,광도와휘도 09:21
- 11 11_14_온도방사이론 04:32
- 12 11_15_루미네센스종류 03:34
- 13 11_16,17_페닝효과,파센의법칙 06:10
- 14 11_18_방전등의점등원리 08:30
- 15 11_19_방전등의종류및특징 04:14
- 16 11_20_자속방전 08:40
- 17 11_21_발광원리에따른광원의분류 09:39
- 18 11_22_할로겐램프 05:21
- 19 11_23_형광등 06:54
- 20 11_28_무전극램프 03:42
- 21 11_29,30,31,32_고압수은등,나트륨,MH,CDM 08:11
- 22 11_33_LED 07:59
- 23 11_34_OLED 03:16
- 24 11_35_조명설계절차 05:35
- 25 11_36_조도계산법 08:00
- 26 11_37,38_조명율,실지수 05:47
- 27 11_39,40_유지율,LLF 07:44
- 28 11_41_조명기구의분류 04:31
- 29 11_42_건축화조명 05:37
- 30 11_43_조명제어 09:23
- 31 11_44_DALI조명제어 08:01
- 32 11_44_02_IOT조명제어 05:01
- 33 11_45_조광제어 07:23
- 34 11_46_조명에너지절약 04:03
- 35 11_47_LCC 03:32
- 36 61_137_01_08_조도측정방법과측정시주의사항
- 37 11_52_0_설계문제풀이요령 09:39
- 38 11_52_1_조명설계_미술관조명_ 06:05
- 39 11_53_조명설계_오피스빌딩 06:10
- 40 11_54_조명설계_학교조명 02:47
- 41 11_55_조명설계_주택아파트 04:00
- 42 11_56_조명설계_초고층 01:13
- 43 11_57_조명설계_백화점 02:37
- 44 11_61_옥외경기장조명설계 08:41
- 45 11_62_옥내경기장(체육관)조명설계 03:29
- 46 11_64_도로조명설계기준 14:15
- 47 11_65_터널조명설계 10:47
- 48 11_68_도로,터널설계고려사항, 최신동향 02:01
- 49 11_69_경관조명절차,고려사항 03:55
- 50 11_70_가로조명 02:48
- 51 11_71_빛공해종류및빛공해방지법 04:01
- 52 11_72_플리커평가 03:30
- 53 11_73_플리커원인및대책 06:51
- 54 11_74_광방사파장별작용효과 10:43
- 55 11_75_식물생장용LED 13:50
- 56 61_132_1_11_수중조명등 05:15
- 01 12_동력
- 01 12_01_01_전동기분류 07:55
- 02 12_01_02_직류전동기구조종류및특징 18:15
- 03 12_02_01_직류전동기유기기전력 07:44
- 04 12_02_02_직류전동기토크식유도 03:38
- 05 12_03_01_직류전동기속도제어식유도/속도토크특성곡선 06:20
- 06 12_03_02_직류전동기속도제어방식설명 05:23
- 07 12_04_BLDC 09:44
- 08 12_04_01_직류전동기기동전류원인및대책 04:15
- 09 12_05_회전자계발생원리 08:34
- 10 12_06_유도전동기회전원리 06:16
- 11 12_07_01_유도전동기등가회로백터도유기기전력토크곡선 17:55
- 12 12_07_02_유도전동기출력식유도 06:47
- 13 12_08_유도전동기토크관계식 08:40
- 14 12_09_유도전동기비례추이 09:20
- 15 12_09_01_특수농형유도전동기 07:30
- 16 12_10_유도전동기기동 12:17
- 17 12_11_유도전동기기동방식선정시고려사항 06:29
- 18 12_12_Closed transition 03:16
- 19 12_13_01_유도전동기속도제어 08:17
- 20 12_13_02_유도전동기극수제어 06:27
- 21 12_14_VVVF제어 09:27
- 22 12_15_전압형인버터vs전류형인버터 11:22
- 23 12_17_인버터적용시고려사항 19:38
- 24 12_18_LHD_저고조파형드라이브 02:49
- 25 12_19_인버터적용시역률개선 07:19
- 26 12_20_인버터보호 07:28
- 27 12_21_유도전동기보호 16:34
- 28 12_22_VVVF,VVCF비교설명 02:18
- 29 12_23_유도전동기성능평가지표 03:27
- 30 12_24_유도전동기주파수변화에따른성능변화 05:28
- 31 12_25_유도전동기전압변동에따른성능변화 08:36
- 32 12_26,27_비례추이(계산),유도전동기특징 06:26
- 33 62_132_1_09_극수에따른속도,토크,철손,효율 02:07
- 34 12_28_단상유도전동기기동특성 06:56
- 35 12_29_단상유도전동기기동법 09:54
- 36 12_31_유도전동기손실및고효율화방안 09:50
- 37 12_32_프리미엄전동기 03:27
- 38 12_33_유도전동기기동시간내량 04:15
- 39 12_34_출력및손실계산 03:19
- 40 12_35_01_동기발전기구조등가회로출력토크손실 21:18
- 41 12_35_02_동기전동기구조등가회로출력토크손실 12:55
- 42 12_36_동기발전기용량한계곡선 23:51
- 43 12_37_동기전동기기동법 04:45
- 44 12_38_동기전동기V곡선 05:37
- 45 12_39_동기전동기난조 05:01
- 46 12_40_동기전동기특징 02:15
- 47 12_41_전압불평형이유도전동기에미치는영향 08:02
- 48 12_42_HVF 02:35
- 49 12_43_고조파가전동기에미치는영향 04:00
- 50 12_44_전동기제동법 15:38
- 51 12_45_회생제동 10:31
- 52 12_46_전기자반작용 08:25
- 53 12_47_무부하전류 05:30
- 54 12_48_펌프,팬용량계산 04:22
- 55 12_49_유도전동기서비스팩터 02:07
- 56 12_50_절연등급및온도상승 01:48
- 57 12_51_전동기각종정격사항(명판기재사항) 03:40
- 58 12_52_터보냉동기흡수식냉동기 13:11
- 59 12_53_동력설비설계순서,고려사항 06:17
- 60 12_54_동력설비에너지절약 06:13
- 61 62_132_2_04_펌프엘리베이터등에너지절감 10:04
- 62 12_55,56_기동계급,부하종류 04:34
- 63 12_57_전력용스위칭소자 10:53
- 64 12_57_02_IGCT 03:29
- 65 12_58_유도전동기안정운전조건 05:46
- 66 12_59_히트펌프원리와특징 11:06
- 67 12_60_동기발전기과도안정도 18:26
- 68 12_61_동기발전기상차각,주파수,전압안정도 17:20
- 69 12_62_동기발전기안정도향상대책 15:49
- 70 12_63_유도전동기허용구속시간 03:56
- 71 12_64_결상시역상전류가흐르는이유 08:56
- 72 62_135_01_12_전기철도용주전동기구비조건 06:33
- 73 12_65_과열원인과대책 06:11
- 74 12_68_리플전압 14:01
- 75 12_69_전력변환 13:47
- 01 13_간선및케이블
- 01 13_01_00_전압강하계산방법종류 16:11
- 02 13_01_전압강하 09:28
- 03 61_136_01_01_직류선로전압강하률변동률전력손실률계산 03:29
- 04 13_03_허용전류산정 08:11
- 05 13_05_단락시기계적강도 08:47
- 06 13_06_간선용량결정요소및고려사항 03:53
- 07 13_09_간선설계순서 09:48
- 08 13_10_콘센트시설기준 03:52
- 09 13_11_분전반시설기준 08:33
- 10 13_13_분기회로설계순서,고려사항 05:24
- 11 13_14_간선의수결정 04:18
- 12 13_15_설비불평형 07:11
- 13 13_16_고조파저감계수의적용 05:19
- 14 13_17_중성선선정시고려사항 07:18
- 15 13_18_02_동상다수조포설불평형원인영향대책 06:55
- 16 61_136_03_02_KEC기준병렬접속고려사항 05:11
- 17 13_19_배전전압결정요소 06:36
- 18 13_21_전기방식(배전방식)의비교 09:07
- 19 13_21_02_배전전압 03:53
- 20 13_22_간선부설방식_Part01 08:17
- 21 13_22_간선부설방식_Part02 07:50
- 22 61_133_01_10_버스덕트특징공사시유의사항 04:58
- 23 13_22_03_트랜치배선시공시고려사항 17:21
- 24 61_135_01_07_케이블트렌치공사 11:01
- 25 61_136_01_04_트렁킹시스템덕팅시스템비교 06:21
- 26 13_23_초고층빌딩간선설계고려사항 08:15
- 27 13_24_01_초고압XLPE케이블 07:43
- 28 13_24_02_특고압지중배전케이블 11:12
- 29 13_25_전력케이블반도전층 03:43
- 30 13_26_난연,내화,내열전선 05:48
- 31 13_28_차폐계수유도 03:58
- 32 13_29_표피효과,근접효과 11:34
- 33 13_30_표피효과_주파수와재질특성 06:43
- 34 13_32_전력케이블손실 12:02
- 35 61_132_1_08_전력손실률및승압시송전거리 01:48
- 36 61_132_2_05_전력케이블차폐층역할 05:35
- 37 13_33_시즈유기전압 09:49
- 38 13_33_02_SVL(시즈전압제한기) 15:36
- 39 13_34_전력케이블트리 03:57
- 40 61_133_03_02_지중전력케이블의열화대책 09:22
- 41 13_36_VLF_P1 09:53
- 42 13_36_VLF_P2 09:36
- 43 13_36_VLF_P3 08:42
- 44 13_37_사선진단_P1 10:29
- 45 13_37_사선진단_P2 09:19
- 46 13_37_사선진단_P3 04:20
- 47 62_134_0406_유전완화측정법 03:36
- 48 13_38_활선진단 02:26
- 49 13_39_충전전류원인영향대책 15:19
- 50 13_40_케이블고장점탐색 07:35
- 51 62_137_04_01_고장점탐색(아크반사법,디케이법)
- 52 13_43_초전도체케이블구조및특징 05:39
- 53 62_137_04_06_초전도전력분야활용(초전도변압기,한류기)
- 01 14_전력품질
- 01 14_01_01_고조파발생메커니즘과고조파발생원 10:07
- 02 14_01_02_고조파가전력기기에미치는영향 11:08
- 03 14_01_03_고조파대책 15:39
- 04 14_02_수동필터능동필터비교설명 06:49
- 05 14_03_고조파제한규정 05:45
- 06 14_04_영상고조파원리영향대책 07:48
- 07 14_05_비선형부하역률계산 03:33
- 08 14_06_순시전압강하원인,영향,대책 12:53
- 09 14_07_EMC,EMI,EMS 06:20
- 10 14_08_노이즈전달경로및대책 16:39
- 11 61_133_01_08_노이즈방지용변압기종류구조특징 03:39
- 12 62_135_01_06_PLC노이즈대책 05:00
- 13 14_10_인버터적용시노이즈대책 05:11
- 14 14_11_고조파와노이즈비교설명 02:31
- 01 15_KSCIEC60364
- 01 15_03_용어설명 05:58
- 02 15_04_IEC접지형식의표기 03:14
- 03 15_05_TT,TN,IT계통설명 13:48
- 04 62_137_02_02_직류배전계통접지방식
- 05 15_06_60364감전보호_Part1 22:47
- 06 15_06_60364감전보호_Part2 06:19
- 07 15_07_기본보호요건(부속서A) 02:55
- 08 15_08_장애물및촉수가능밖배치(부속서B) 02:14
- 09 15_09_숙련자통제하의보호대책(부속서C) 06:33
- 10 15_10_감전보호를위한절연종류및등급 02:58
- 11 15_11_과전류보호_Part1 11:07
- 12 15_11_과전류보호_Part2 03:51
- 13 15_12_병렬도체의 과부하및단락보호 05:45
- 14 61_134_0402_KEC과전류보호 06:56
- 15 15_13_스트레스전압및고장전압 13:17
- 16 15_14_접지설비 07:31
- 17 15_15_욕조또는샤워베이슨 02:47
- 18 15_16_병원설비 08:18
- 19 15_17_의료장소환자감전방지고려사항 08:39
- 01 16_01_저압계통감전보호(KECG1702)
- 02 16_02_SPD(KECG9102,KSCIEC61643)
- 03 16_03_등전위본딩(KECG9103)
- 01 16_01_01_인체통과전류에 따른 감전한계 04:19
- 02 16_01_02_TN,TT,IT계통접촉전압유도 07:38
- 03 16_01_03_TN,TT,IT계통특징 08:23
- 04 16_01_04_SELV,PELV설명 03:48
- 05 16_01_05_비도전성장소에의한감전보호 03:09
- 06 16_01_06_저압계통감전보호 05:03
- 07 16_02_01_SPD기능,요건,종류 07:07
- 08 16_02_02_임펄스내전압및보호레벨과의협조 07:08
- 09 16_02_03_SPD설치여부결정메커니즘 04:36
- 10 16_02_04_피뢰구역에따른SPD적용 03:09
- 11 16_02_05_SPD접속형식설명 05:58
- 12 16_02_06_SPD선정절차 09:55
- 13 16_02_07_SPD보호모드 02:46
- 14 16_02_08_SPD접속도체시설기준 03:00
- 15 16_02_09_SPD설치절차 03:43
- 16 16_02_10_직격뢰와유도뢰비교설명 04:01
- 17 16_02_11_SPD에너지협조 05:59
- 18 16_02_12_SPD소자의종류 05:19
- 19 62_137_01_06_MOV특성및동작원리
- 01 17_KSCIEC62305
- 01 17_01_LPL LPZ 09:52
- 02 17_02_PART3(구조물의물리적손상및인명보호)_Part01 14:54
- 03 17_02_PART3(구조물의물리적손상및인명보호)_Part02 06:02
- 04 17_03_PART4(내부전기전자시스템보호)_Part01 08:35
- 05 17_03_PART4(내부전기전자시스템보호)_Part02 11:25
- 06 17_04_뇌격전류분류율산정 04:58
- 07 17_05_전기전자시스템의뇌임펄스보호대책 17:07
- 08 17_06_폭발성위험구조물피뢰대책 06:01
- 09 17_07_수뢰부시스템배치방법 06:07
- 10 17_08_피뢰시스템에있어서의접지극설계 04:32
- 11 17_09_인하도선설계 05:22
- 12 17_10_대형굴뚝피뢰설계 11:12
- 13 17_11_초고층빌딩피뢰설계 09:09
- 14 17_13_자연적구성부재요건 08:33
- 01 21_수변전설비
- 01 21_01_수변전설비설계순서 11:12
- 02 21_02_수전방식의종류 04:00
- 03 21_03_수용률부등률부하률 06:15
- 04 21_04_수용률부등률부하률적용기준 04:48
- 05 21_05_부하평준화 07:59
- 06 21_06_변압기용량산정고려사항 06:14
- 07 21_07_합리적뱅킹 08:49
- 08 21_08_GIS 10:36
- 09 21_09_GIS와AIS비교설명 02:17
- 10 21_10_SF6가스특성 03:23
- 11 21_11_SF6가스대체기술 10:26
- 12 21_13_GIS진단 08:14
- 13 62_137_03_01_GIS적용시유의사항 10:44
- 14 21_14_모선종류별특징 06:41
- 15 21_15_SCADA시스템설명 10:00
- 16 21_15_02_SCADA시스템주요기능설명 14:26
- 17 21_16_전자화배전반 04:47
- 18 21_17_ATS&CTTS 04:06
- 19 61_132_2_01_간이수전설비및정식수전설비 03:24
- 20 21_19_01_스포트네트워크구성및특징 08:14
- 21 21_19_02_프로텍터동작특성 07:03
- 22 21_19_03_스포트네트워크시스템에서의오동작 04:12
- 23 21_20_스포트네트워크보호협조_20220503 05:52
- 24 21_21_수변전문제풀이공통및아파트설계_P1 06:05
- 25 21_21_수변전문제풀이공통및아파트설계_P2 11:24
- 26 21_22_초고층빌딩수변전설계 09:19
- 27 21_23_전산센터수변전설비설계 14:11
- 28 21_24_대형경기장 01:44
- 29 21_25_공연장수변전설비 01:35
- 30 21_26_종합병원수변전 05:19
- 31 21_27_대단위면적수변전시스템 05:16
- 32 21_28_터널전력설비 02:07
- 33 21_29_수변전설비에너지절감 04:56
- 34 21_30_00실 설계시고려사항 11:33
- 35 61_133_04_05_배전반이격거리 02:01
- 36 21_37_절연유구외유출방지시설 07:29
- 37 21_40_수변전설비최신기술동향 04:42
- 38 21_41_MTBF,MTTR 04:29
- 39 21_42_직병렬시스템에서의신뢰성계산 02:56
- 40 21_43_수변전설비기획시신뢰성등확보방안 07:09
- 41 21_44_리던던시 디레이팅 고장수명 페일세이프 쉘프라이프 21:08
- 42 21_45_TBM,CBM 07:26
- 43 21_45_02_욕조곡선 05:36
- 44 21_46_PLC 16:10
- 01 22_변압기
- 01 22_01_변압기등가회로및벡터도설명 08:20
- 02 22_02_유도기전력설명 02:35
- 03 22_03_이상변압기와실제변압기 02:38
- 04 22_04_여자전류 10:53
- 05 22_05_여자돌입전류 08:04
- 06 22_06_비율차동계전기오동작대책 07:08
- 07 22_07_01_변압기손실 08:55
- 08 22_07_02_변압기최대효율조건 04:52
- 09 22_07_03_변압기부하율에따른효율 01:52
- 10 22_08_결선방식에따른각변위및특징 11:08
- 11 22_09_02_몰드변압기유입변압기특성비교 07:51
- 12 22_10_아몰포스변압기 04:14
- 13 22_11_자구미세화변압기 02:51
- 14 22_12_k-factor변압기 06:36
- 15 22_13_지그재그변압기 06:42
- 16 22_14_하이브리드변압기 08:18
- 17 22_15_스코트변압기 12:20
- 18 22_16_단권변압기 14:01
- 19 22_17_V결선변압기전압변동률 09:30
- 20 22_18_V결선변압기출력및이용률 04:16
- 21 22_19_변압기ANSI포인트 03:02
- 22 22_20_변압기보호 09:08
- 23 22_21_비율차동계전기원리,정정,고려사항 10:56
- 24 22_22_비율차동계전기정정_Part1 06:03
- 25 22_23_비율차동계전기정정_Part2 02:50
- 26 22_24_01_비율차동계전기변류기결선도 05:48
- 27 22_25_변압기병렬운전조건 11:58
- 28 22_27_변압기부하분담1 04:34
- 29 22_30_변압기부하분담4 03:28
- 30 22_31_변압기열화메커니즘 03:15
- 31 22_32_유입변압기절연유상태진단 04:39
- 32 22_33_변압기열화진단 06:37
- 33 22_33_01_SFRA(기계적변형진단) 06:00
- 34 22_36_변압기공장검수항목 20:56
- 35 62_137_03_04_극성시험방법
- 36 22_37_변압기단락용량시험 04:57
- 37 22_38_변압기이행전압 09:25
- 38 22_42_알루미늄변압기 04:09
- 39 22_43_60Hz변압기를50Hz에서사용시
- 40 22_44_3권선변압기 06:00
- 41 22_45_와이와이델타결선사용이유 06:33
- 42 22_46_변압기소음원인및대책 06:53
- 43 22_47_변압기OLTC 05:04
- 44 22_48_한류리액터설치목적및위치 05:41
- 45 22_49_한류리액터종류 05:28
- 46 22_50_한류리액터적용시고려사항 06:33
- 01 23_차단기
- 01 23_01_차단기각종정격사항 10:16
- 02 23_02_차단기분류및차단원리 08:38
- 03 23_03_차단기차단메커니즘 04:22
- 04 23_04_특고압차단기구조소호원리특징 15:23
- 05 23_05_차단기차단시이상현상 14:43
- 06 23_05_02_영점추이현상 01:39
- 07 23_05_03_차단기가혹차단조건 03:45
- 08 23_07_저압차단기의종류및특징 07:25
- 09 23_08_선택차단및캐스캐이드차단 04:21
- 10 61_133_01_02_저압용과전류보호장치종류와특성 04:06
- 11 23_10_MCCB특징및단락보호협조방식 03:22
- 12 23_11_누전차단기원리및적용장소 06:50
- 13 23_12_누전차단기종류(분류) 03:27
- 14 23_13_누전차단기감도전류선정방법 04:09
- 15 23_16_고조파가누전차단기에미치는영향 04:44
- 16 23_17_전동기부하에서MCCB선정 06:14
- 17 62_135_02_01_아크차단기 07:35
- 18 23_18_직류고속도차단기 08:49
- 19 23_22_차단기투입방식과트립방식 05:28
- 20 23_23_트립프리,안티펌핑 02:40
- 21 23_24_전력퓨즈구조,특징,용도 08:00
- 22 23_25_전력퓨즈차단원리,종류,차단특성 07:31
- 23 23_26_전력퓨즈동작특성 09:20
- 24 23_28_퓨즈정격산정방법 04:00
- 25 23_29_보호대상기기에따른퓨즈선정 03:19
- 26 23_31_고압부하개폐기종류및특징 11:59
- 27 23_32_02_단락용량증가원인및문제점 05:32
- 28 23_33_단락전류억제대책 05:57
- 29 23_34_DC송전특징 05:16
- 30 62_134_0107_HVDC전류형전압형 08:57
- 31 23_35_VCB일상점검과정밀점검 05:31
- 01 24_캐패시터(콘덴서)
- 01 24_01_역률개선원리 06:10
- 02 24_02_역률개선용캐패시터구성품 07:15
- 03 24_03_역률개선용캐패시터설치효과 12:48
- 04 24_04_개폐시특이현상및대책 10:15
- 05 24_05_캐패시터뱅크에의한고조파확대(공진)현상 22:18
- 06 24_05_01_고조파가캐패시터에미치는영향 09:39
- 07 24_06_발전기자기여자현상 07:59
- 08 24_07_발전기단락비 06:07
- 09 24_08_역률과보상시문제점 07:46
- 10 61_132_1_05_무효전력의과부족시문제점및대책 05:37
- 11 24_09_캐패시터개폐장치요구성능 02:23
- 12 24_10_역률제어방법의종류 05:35
- 13 24_11_역률제어기종류_P1 10:22
- 14 24_11_역률제어기종류_P2 05:13
- 15 24_12_FACTS 08:15
- 16 24_13_캐패시터보호방식 13:07
- 17 24_14_캐패시터용량계산1 05:57
- 18 24_15_캐패시터용량계산2 06:15
- 19 24_16_캐패시터용량계산3 02:54
- 20 24_17_캐패시터용량계산4 03:22
- 21 24_18_캐패시터결선비교 04:44
- 22 24_19_캐패시터설치위치에따른장단점 04:36
- 23 24_20_전동기기동회로에서의결선 02:59
- 24 24_21_캐패시터주요고장요인 04:45
- 01 25_보호계전
- 01 25_01_CT등가회로및벡터도 04:24
- 02 25_02_변류기포화 03:19
- 03 25_03_CT정격_Part1 13:36
- 04 25_03_CT정격_Part2 06:45
- 05 61_134_0401_변류기정격표시형식 08:40
- 06 25_05_계측기용CT계전기용CT 04:18
- 07 25_07_MOF과전류강도 08:05
- 08 25_10_영상전류검출방법 06:33
- 09 61_133_02_01_계기용변성기 종류및특성 09:04
- 10 25_11_디지털보호계전기,아날로그계전기비교설명 07:25
- 11 25_12_노이즈대책 05:21
- 12 25_13_보호계전기간시한협조기준 02:09
- 13 25_14_한시및순시동작특성 05:17
- 14 25_15_보호계전기정정기준 15:39
- 15 25_16_보호계전기정정시고려사항 03:57
- 16 25_16_01_보호계전기목적과기능 07:12
- 17 25_16_02_맹점보호 03:57
- 18 25_17_비접지계통지락전류검출방법 18:08
- 19 25_18_CLR역할 05:31
- 20 25_19_CLR에따른지락전류크기 06:30
- 21 25_20_GPT적용시고려사항 07:07
- 22 25_21_비접지계통지락전류흐름외 03:53
- 23 25_22_저항접지계통과비접지계통지락전류산출유도 06:36
- 24 25_23_직접접지와비접지식지락보호비교설명 05:53
- 25 25_25_유도전동기보호 03:10
- 26 25_26_거리계전기 25:29
- 27 25_27_송전선로보호 12:19
- 28 25_28_발전기보호 25:01
- 29 25_29_비상발전기보호 02:37
- 01 26_접지
- 01 26_01_접지도체굵기산정방법 07:43
- 02 26_02_변압기중성점접지저항및굵기산정 03:32
- 03 26_03_IEEE80설계절차 18:01
- 04 26_04_KSCIEC61936설계절차 20:42
- 05 26_04_01_글로벌접지시스템(GES) 16:26
- 06 26_05_접지저항크기에따른접지방식의종류 06:49
- 07 26_06_전위강하법 03:51
- 08 26_07_오차를최소화하기위한P극위치유도 09:37
- 09 61_136_04_03_반구상접지저항유도 08:32
- 10 26_09_대지저항률유도 04:52
- 11 26_09_01_다층구조대지파라미터해석 08:29
- 12 26_10_접지봉형상에따른접지저항의계산 09:15
- 13 26_11_접지저항저감방법의분류 05:30
- 14 26_11_01_접지극설계순서 13:57
- 15 26_11_02_접지공법의종류 06:52
- 16 26_12_건축구조체접지저항계산 06:12
- 17 26_13_인체허용전류한계 06:44
- 18 26_14_단독,공통,통합접지 08:48
- 19 62_134_0108_접지목적,기기접지,계통접지 07:10
- 20 26_18_전해질접지봉 06:50
- 21 26_19_심매설접지봉시공시고려사항 04:27
- 22 26_20_접지전극의과도현상 09:39
- 23 26_21_3종접지에의한인체통과전류 03:14
- 24 26_22_GIS접지(탱크,주회로,접속기기) 20:57
- 25 61_137_01_06_접지도면작성시포함내용
- 01 27_피뢰기
- 01 27_01_규약표준파형 03:45
- 02 27_02_갭형,갭리스피뢰기 06:10
- 03 27_03_피뢰기의정격전압 02:07
- 04 27_04_피뢰기공칭방전전류 01:57
- 05 27_05_피뢰기제한전압 03:30
- 06 27_06_계통의절연협조 03:03
- 07 27_07_계통의접지방식에따른변압기절연방식 03:24
- 08 27_08_피뢰기제한전압유도 04:41
- 09 27_14_피뢰기충격비 02:14
- 10 27_15_피뢰기열폭주현상 06:00
- 01 28_예비전원
- 01 28_01_UPS입출력용량산정 09:21
- 02 28_02_UPS병렬운전의종류 03:37
- 03 28_03_UPS용량산정시고려사항 03:38
- 04 28_04_UPS적용시고려사항 06:14
- 05 28_05_UPS에공급되는자가발전설비용량 07:06
- 06 28_06_UPS동작방식설명 04:11
- 07 28_07_다이나믹UPS 05:40
- 08 28_08_UPS2차회로보호방식의종류 05:55
- 09 62_135_03_01_UPS2차회로지락보호 10:33
- 10 28_08_01_ALL IGBT type UPS 08:58
- 11 28_11_축전지용량산출방법(고려사항) 09:20
- 12 28_12_축전기용량계산 02:07
- 13 61_132_3_02_축전지의 설치목적 02:38
- 14 28_13_비상발전기용량계산방법_00 12:19
- 15 28_14_비상발전기용량계산시고려사항 05:20
- 16 62_137_03_02_비상발전기설치시주의사항
- 17 28_16_고조파가발전기에미치는영향 04:59
- 18 61_134_0108_비상용디젤발전기출력 05:18
- 19 61_136_02_06_발전기병렬운전 26:59
- 01 31_신재생
- 01 31_02_풍력발전기의분류 20:23
- 02 31_03_풍력발전기TSR 03:50
- 03 61_132_1_12_주속비계산 01:47
- 04 31_05_풍력발전기낙뢰대책 10:19
- 05 31_09_해상풍력발전시스템 13:02
- 06 31_10_해상풍력발전전력망구성 08:55
- 07 31_11_해상풍력내부,변전소,외부전력망구분설명 07:52
- 08 31_13_풍력발전설계순서,고려사항 05:44
- 09 62_134_0306_풍력발전회전속도토크 05:57
- 10 31_14_태양전지구조발전원리특징 10:48
- 11 31_15_태양전지등가회로및설명 14:19
- 12 31_16_태양전지I-V커브 04:37
- 13 31_17_태양전지효율 07:02
- 14 31_20_태양전지분류및주요성능비교 04:36
- 15 31_21_결정질실리콘태양전지 02:09
- 16 31_23_염료감응형태양전지 03:49
- 17 31_26_PCS시스템구성및주요기능 19:00
- 18 61_132_4_04_태양광발전DC측지락차단장치시설방법 11:19
- 19 31_27_PCS의분류 06:56
- 20 31_28_어레이설치각도 08:30
- 21 61_134_0205_공간제약을고려한어레이설치기준 04:21
- 22 31_29_어레이재질및구조계산시적용하중 04:22
- 23 31_30_추적식태양광어레이 02:35
- 24 31_31_음영이발전효율에미치는영향과대책 04:32
- 25 31_32_바이패스 및 블로킹다이오드 04:31
- 26 61_135_03_05_태양전지PowerTolerance 05:21
- 27 31_34_태양광발전시스템설계순서 08:38
- 28 31_37_독립형태양광축전지설계순서및용량계산 04:05
- 29 31_38_태양광발전에적용되는축전지설명 04:11
- 30 31_39_태양광발전피뢰대책설명 06:45
- 31 31_40_태양열발전 03:21
- 32 31_41_연료전지 04:14
- 33 31_42_지열발전 13:06
- 34 31_46_파력발전 02:59
- 35 31_47_바이오에너지 05:06
- 36 31_48_석탄가스화복합발전 03:14
- 37 31_49_열병합발전 08:20
- 38 31_50_구역형집단열병합발전 03:22
- 39 31_52_ESS역할 07:35
- 40 31_53_BESS 09:20
- 41 61_134_0107_UPS및BESS비교설명 09:02
- 42 31_53_02_ESS용량산정 11:36
- 43 31_54_ESS분류 04:49
- 44 31_56_연축전지 06:47
- 45 31_57_니켈카드뮴전지 03:39
- 46 31_58_니켈수소전지 01:18
- 47 31_59_리튬이온전지 02:47
- 48 31_59_02_리튬이온화재원인및대책 07:02
- 49 31_59_03_전기저장장치화재안전기준 03:34
- 50 61_133_01_06_ESS시설기준 10:54
- 51 31_60_레독스플로우전지 01:51
- 52 31_61_02_축전지유지관리 06:07
- 53 31_62_스마트그리드개념과필요성 04:23
- 54 31_63_스마트그리드핵심기술 05:55
- 55 61_134_0106_AMI 03:13
- 56 31_67_전기자동차시설기준 13:18
- 57 31_68_V2G 09:52
- 58 62_134_0105_BMS 08:42
- 59 61_136_04_06_전기자동차충전기플러그형식 07:59
- 01 32_계통연계
- 01 32_01_용어설명단독운전외 01:49
- 02 32_02_연계변압기결선방식별특징 10:40
- 03 32_05_분산형전원품질기준 06:36
- 04 32_05_01_송전계통연계기준 17:15
- 05 32_07_분산형전원연계시고려사항 08:38
- 06 62_137_03_05_발전기의운전방식 07:24
- 01 33_에너지세이빙
- 01 33_01_대기전력 04:36
- 02 33_03_수요관리 04:46
- 03 33_04_BEMS 05:52
- 04 33_05_최대수요전력제어 03:26
- 05 33_06_제로에너지빌딩 08:39
- 06 33_08_에너지절약설계기준 09:19
- 07 33_09_에너지인증 06:34
- 08 61_135_04_06_제로에너지건축인증 09:52
- 01 41_감리방재반송소방정보통신기타
- 01 41_01_01_설계,공사감리대상및주요업무 08:40
- 02 61_134_0103_상주비상주감리업무및권한 05:49
- 03 41_01_02_감리원배치기준 09:12
- 04 41_01_03_감리원기술자격구분, 공사비에따른기준둥 03:43
- 05 41_01_04_설계,설계감리,공사감리대가산정기준 05:17
- 06 41_01_05_통합감리 02:25
- 07 41_01_06_설계변경 06:42
- 08 41_01_07_물가변동으로인한계약금액조정 06:47
- 09 41_01_07_02_감리분리발주 03:15
- 10 61_132_1_13_감리배치신고서류 04:56
- 11 61_132_1_13_01_감리배치신고절차 02:03
- 12 61_135_04_04_감리기성시운전예비준공검사 13:33
- 13 61_137_01_11_공사중지명령의종류
- 14 41_01_08_건설사업관리 13:15
- 15 41_02_07_각기기에대한내진대책설명 23:37
- 16 41_02_08_배관배선내진대책 02:43
- 17 61_134_0112_내진면진제진 01:46
- 18 41_02_10_전기부식 07:26
- 19 61_134_0404_부식의종류 06:36
- 20 62_134_0203_정전기점화원의조건,방전종류,점화메커니즘 02:21
- 21 61_132_1_03_정전 순서 및 작업 시 안전수칙 05:26
- 22 61_136_03_04_케이블화재원인및대책 17:12
- 23 61_136_02_02_전기설비재해원과대책 12:23
- 24 41_03_01_엘리베이터교통량산정 04:58
- 25 41_03_03_엘리베이터안전장치 08:35
- 26 62_134_0305_엘리베이터안전성 03:23
- 27 41_03_05_엘리베이터전동기용량산정 02:53
- 28 61_132_2_03_엘리베이터전원용량제어방식 09:47
- 29 41_03_08_에스컬레이터전기적기계적건축적안전장치 10:10
- 30 61_133_01_11_1_승객용소방구조용(비상용)피난용승강기비교설명 04:20
- 31 61_133_01_11_2_비상용승강기의시설기준 03:27
- 32 61_133_01_11_3_비상용승강기의안전기준 09:24
- 33 61_133_01_11_4_피난용승강기의시설기준 04:34
- 34 61_133_01_11_5_피난용승강기의안전기준 02:33
- 35 41_04_03_자동화재탐지설비 08:12
- 36 41_04_04_비상방송설비시설기준 10:44
- 37 61_134_0203_소방시설용비상전원시설기준 05:21
- 38 61_136_03_01_주차관제유도루프및배선설계 09:52
- 39 61_133_01_01_LAN구성요소및설계시고려사항 09:08
- 40 61_137_02_06_LAN채널액세스방식 08:07
- 41 61_137_01_10_발전설비울타리시설기준
- 01 01_기본이론및계산
- 01 01_01_대칭좌표법 21:24
- 02 01_02_발전기기본식유도 12:01
- 03 01_03_3상단락전류유도 05:40
- 04 01_04_선간단락전류유도 06:49
- 05 01_05_1선지락전류유도 06:24
- 06 01_06_저항R로지락시지락전류유도 02:07
- 07 01_07_1선지락시건전상전위상승유도 03:39
- 08 01_08_유효접지계통조건유도 05:45
- 09 01_09_퍼센트임피던스설명 05:45
- 10 01_10_퍼센트임피던스가계통에미치는영향 08:57
- 11 01_11_퍼센트임피던스1,2차가동일함을증명 04:19
- 12 01_12_단락전류계산방법의분류 07:26
- 13 01_13_단락전류계산방법 15:45
- 14 01_14_01_과도상태단락전류 22:33
- 15 01_14_02_비대칭계수 22:02
- 16 01_15_기여전류 12:33
- 17 01_16_단락전류계산목적 05:37
- 18 01_17_임피던스맵,발전기출력,역률계산 07:39
- 19 01_18_PU리액턴스,단락전류 07:32
- 20 01_21_단락전류계산 02:07
- 21 01_22_PU임피던스도 02:00
- 22 01_23_단락전류계산,차단기선정 08:02
- 23 01_24_기여전류를고려한단락전류계산 04:45
- 24 61_135_02_06_단락전류계산 10:25
- 25 01_26_지락전류계산 03:59
- 26 01_27_2회선T분기단락전류계산 02:35
- 27 01_28_지락시전위상승및피뢰기정격전압 07:52
- 28 01_29_직류전원RL직렬과도현상 11:23
- 29 61_134_0104_RL과도현상미분방정식 03:35
- 30 01_30_직류전원RC직렬과도현상 04:25
- 31 01_31_직류전원RLC직렬과도현상 04:15
- 32 01_32_교류전원RL직렬과도현상 07:07
- 33 01_33_교류전원RC직렬과도현상 10:16
- 34 01_35_테브난등가회로 05:56
- 35 01_36_노튼의등가회로 02:35
- 36 61_135_03_03_전기회로자기회로 14:02
- 37 62_135_01_13_영구자석자석밀도와보자력 03:58
- 38 01_40_전류역류유효무효전력계산 04:28
- 39 01_41_회로전류산출 02:20
- 40 01_42_테브난등가회로와부하전류산출 02:33
- 41 01_43_단상반파및전파정류 04:35
- 42 01_44_3상전파정류회로 07:08
- 43 01_45_중성점전압및전류산출 03:01
- 44 01_47_교류전압의순시평균실효치 06:46
- 45 01_48_피상,유효,무효전력개념 04:19
- 46 01_49_종합역률,피상전력계산 03:19
- 47 01_50_송수전단전력식유도 08:22
- 48 01_51_송수전단전류,전력,손실계산 03:34
- 49 61_132_3_04_01_암페어의주회법칙 03:44
- 50 61_132_3_04_02_무한직선전류에의한자계의세기 02:39
- 51 61_132_3_04_03_동축케이블에서의자계의세기 02:59
- 52 61_132_3_04_04_솔레노이드에의한자계의세기 01:58
- 53 61_137_04_02_비오사바르의법칙
- 54 01_51_01_맥스웰방정식 08:17
- 55 01_52_배전선로말단전압강하계산 04:23
- 56 01_53_전기적특성도전율,유전율,투자율설명 07:08
- 57 01_54_01_직렬공진과병렬공진 14:42
- 58 01_54_02_공진시확대비및첨예도 08:34
- 59 61_137_01_01_직렬공진소자축적에너지 04:25
- 60 01_55_변위전류 02:16
- 61 01_56_전압왜형률산출 02:18
- 62 01_57_유전체손실설명, tan델타사용이유 08:33
- 63 01_58_절연저항시험과내전압시험 07:17
- 64 01_61_절연내력확인및온오프라인진단법 03:37
- 65 01_62_고전압측정방법 05:56
- 66 62_132_3_06_애자연면거리 02:08
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