연금보험, 연금저축보험 :
http://cidermics.com/contents/detail/1656
즉 내가하고잇는건 연금저축보험
신용카드, 체크카드 공제 :
연말정산, 소득공제, 세액공제 :
https://www.mk.co.kr/news/economy/view/2015/12/1186072/
https://www.lifeplus.co.kr/now/detail/?seq=132
https://post.naver.com/viewer/postView.nhn?volumeNo=12006975&memberNo=29281708
https://blog.toss.im/2018/04/22/money/life/year-end-tax-adjustment/
https://eknowhow.kr/archives/11123
https://m.post.naver.com/viewer/postView.nhn?volumeNo=17371129&memberNo=31236733
https://meaningone.tistory.com/643
https://1boon.kakao.com/nts/180119
body effect :
https://amanan1004.tistory.com/35
https://kkhipp.tistory.com/125
https://it-learning.tistory.com/26
vba sheet :
http://www.iexceller.com/MyXls/VBA_Beginner/VBA_Beginner4.asp
vba 반복문 :
https://mainia.tistory.com/1261
https://simon-k.tistory.com/8
http://www.officetutor.co.kr/board/faq_lib/frm_vba_content.asp?page=7&idx=650
https://m.blog.naver.com/PostView.nhn?blogId=todoskr&logNo=220537804632&proxyReferer=https%3A%2F%2Fwww.google.com%2F
vba if :
http://www.officetutor.co.kr/board/faq_lib/frm_vba_content.asp?page=9&idx=628
https://mainia.tistory.com/4688
vba range :
https://itlove.tistory.com/81?category=662117
vba 연산자 :
https://wikidocs.net/2064
vba 변수 접근 정도(지역, 전역, private public 이런거) :
https://guslabview.tistory.com/135
https://wikidocs.net/2041
https://mainia.tistory.com/4647
https://mapagilove.tistory.com/entry/%EC%97%91%EC%85%80VBA-%EB%B3%80%EC%88%98-%EC%84%A0%EC%96%B8%EC%9D%98-%EC%82%AC%EC%9A%A9-Public-Private-Dim
https://m.blog.naver.com/PostView.nhn?blogId=todoskr&logNo=220533839152&proxyReferer=https%3A%2F%2Fwww.google.com%2F
vba 변수 타입 :
https://guslabview.tistory.com/129
vba set let :
https://cafe.naver.com/ex4mo/562
https://code.i-harness.com/ko-kr/q/3b1653
vba procedure 종류 :
https://blog.naver.com/PostView.nhn?blogId=todoskr&logNo=220524259249&categoryNo=65&parentCategoryNo=&from=thumbnailList
http://mwultong.blogspot.com/2006/11/excel-vba-function.html
https://ttend.tistory.com/673
vba excel 강좌 :
https://krksap.tistory.com/31?category=486516
https://ttend.tistory.com/598
https://jaykim361.tistory.com/628
https://m.post.naver.com/viewer/postView.nhn?volumeNo=15965375&memberNo=25014136&vType=VERTICAL
verilog 반복문 :
https://rebas.kr/214
verilog 모듈 내외부 포트 규칙 :
http://hizino.tistory.com/entry/verilog-%EB%AA%A8%EB%93%88%EA%B0%80%EC%A0%B8%EC%98%A4%EA%B8%B0
https://m.blog.naver.com/PostView.nhn?blogId=rbfwmqwntm&logNo=30137430508&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://stackoverflow.com/questions/11836416/signal-is-not-a-constant-error-in-if-statement
https://forums.xilinx.com/t5/Spartan-Family-FPGAs/error/td-p/550582
TSV(through silicon via) :
http://www.samsungsemiconstory.com/817
http://blog.skhynix.com/1649
https://blog.naver.com/kore2758_/221031345529
parallel short circuit으로 전류 다흐르는 이유 :
http://pui.chorwong.com/devry/?p=108
KCL로하믄댐
msb, lsb :
http://www.hackerschool.org/Sub_Html/HS_University/HardwareHacking/24.html
verilog 배열, 벡터 차이 :
https://electronics.stackexchange.com/questions/354128/what-is-the-difference-between-scalar-array-and-vector-array
http://vlsibuzz.blogspot.com/2009/11/what-is-difference-between-vector-array.html
http://hizino.tistory.com/entry/Verilog%EC%9D%98-%EA%B8%B0%EB%B3%B8-%EC%88%AB%EC%9E%90%ED%91%9C%ED%98%84-%EC%9E%90%EB%A3%8C%ED%98%95-%EB%B2%A1%ED%84%B0-%EB%B0%B0%EC%97%B4-%EB%AC%B8%EC%9E%90%EC%97%B4
https://rebas.tistory.com/213
https://verificationacademy.com/forums/ovm/difference-between-packed-and-unpacked-arrays
결론적으로
reg [5:0] arr_test [0:9];// 10개의 arr_test 변수의 배열, 각 변수는 6비트 폭을 가짐
출처: https://rebas.tistory.com/213 [PROJECT REBAS]
이렇게 나타낼 수 있는데 앞쪽이 벡터(변수타입 뒤), 뒷쪽이 배열(이름뒤)임
즉 10개의 줄이 있고 그 한줄당 변수가 6개씩 들어있따는 뜻임
즉 c언어로 치면
벡터 : 배열
배열 : 2차원배열중 앞단
verilog always@ :
https://stackoverflow.com/questions/15450149/always-block-means
verilog wire reg :
http://blog.naver.com/PostView.nhn?blogId=jooh55&logNo=110031426601&widgetTypeCall=true
http://scieng.net/tech/16452
verilog time scale :
http://blog.naver.com/PostView.nhn?blogId=j0hnch01&logNo=70030000024&redirect=Dlog&widgetTypeCall=true&directAccess=false
bjt, mosfet :
http://kkhipp.tistory.com/12
http://electronicsdo.tistory.com/entry/%EC%A0%84%EC%9E%90%ED%9A%8C%EB%A1%9CPEARSON-Electronic-Devices-4%EB%B0%94%EC%9D%B4%ED%8F%B4%EB%9D%BC-%EC%A0%91%ED%95%A9-%ED%8A%B8%EB%9E%9C%EC%A7%80%EC%8A%A4%ED%84%B0
cascade :
http://blog.naver.com/PostView.nhn?blogId=dbrqudgh&logNo=220636858866
전류 미러 current mirror :
https://blog.naver.com/beahey/90163425302
허수 imaginary number :
https://wikidocs.net/4030
전압원, 전류원 voltage source current source :
https://tip.daum.net/question/89958421
https://www.google.co.kr/url?sa=t&source=web&rct=j&url=http://m.cafe.daum.net/firetechnicist/Ncz3/62%3Fq%3DD_zVRtx.iHXDw0%26&ved=2ahUKEwjilczl8ZHdAhXHMd4KHSllBTMQFjAAegQIAxAB&usg=AOvVaw2a7mQ0n43tb3ChxAlHLnxi
https://m.blog.naver.com/khc6619/220529135115
차동 증폭기 diffrential amplifier mos 차동쌍 :
https://www.allaboutcircuits.com/technical-articles/the-mosfet-differential-pair-with-active-load/
https://blog.naver.com/dbrqudgh/220638180339
bjt 동작 영역 :
http://electronicsdo.tistory.com/entry/%EC%A0%84%EC%9E%90%ED%9A%8C%EB%A1%9CPEARSON-Electronic-Devices-4%EB%B0%94%EC%9D%B4%ED%8F%B4%EB%9D%BC-%EC%A0%91%ED%95%A9-%ED%8A%B8%EB%9E%9C%EC%A7%80%EC%8A%A4%ED%84%B0
http://kkhipp.tistory.com/12
http://egloos.zum.com/slgi97/v/10831353
arduino 외부 전원 :
http://deneb21.tistory.com/545
https://m.blog.naver.com/PostView.nhn?blogId=roboholic84&logNo=220833291317&targetKeyword=&targetRecommendationCode=1
https://blog.naver.com/roboholic84/220939806195
응력, 변형력, stress :
https://m.blog.naver.com/PostView.nhn?blogId=junilov2&logNo=220272926492&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
zener , avalanche breakdown :
https://circuitglobe.com/difference-between-avalanche-and-zener-breakdown.html
https://m.blog.naver.com/PostView.nhn?blogId=rrt016&logNo=220653696280&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://www.youtube.com/results?search_query=avalanche+breakdown
https://www.youtube.com/watch?v=5iD4-nsp14Y
형광(fluorescence), 인광(phosphorescence) :
http://blog.naver.com/PostView.nhn?blogId=jgw1030&logNo=221172832375&redirect=Dlog&widgetTypeCall=true&directAccess=false
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=220903187398&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://blog.naver.com/PostView.nhn?blogId=ynnkee&logNo=20056279345&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
EIL, ETL, HIL, HTL :
https://m.blog.naver.com/PostView.nhn?blogId=ckbc6101&logNo=220460468110&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
diode :
https://m.blog.naver.com/PostView.nhn?blogId=tnalsdl326&logNo=220322844708&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
led (light emitting diode) :
http://www.samsungsemiconstory.com/248
결국 다이오드인데 캐리어가 흐르다가 중간에서 결합해서 빛이나와버린다
그 에너지갭(차이) 가 어떤 파장의 빛을 내보낼지 결정함
lcd 전압구동 oled 전류구동 :
oled 트랜지스터 전류 linear region 에 의해 계조 표현
https://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1114&docId=51945124&qb=b2xlZCDsoITrpZgg6rWs64+Z&enc=utf8§ion=kin&rank=1&search_sort=0&spq=0
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=60200929839&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1118&docId=61560207&qb=7KCE66WY6rWs64+ZIOyghOyVleq1rOuPmSDssKjsnbTsoJA=&enc=utf8§ion=kin&rank=5&search_sort=0&spq=0&sp=1&pid=RCBnF35Y7twssZI1LfCssssssu4-185490&sid=UkjPn3JvLBwAAE61Grw
oled 구동 drive :
https://blog.naver.com/youngdisplay/220595961156
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=220941829168&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://allled.tistory.com/29?category=773506
애노드, 캐소드 (anode, cathode) :
https://ko.wikipedia.org/wiki/%EC%95%A0%EB%85%B8%EB%93%9C
https://ko.wikipedia.org/wiki/%EC%BA%90%EC%86%8C%EB%93%9C
http://blog.daum.net/natures/15719362?tp_nil_a=1
애노드 - 산화전극 - 전류가 흘러 들어감
캐소드 - 환원전극 - 전류가 흘러 나옴
복굴절 (birefringent) :
https://ko.wikipedia.org/wiki/%EB%B3%B5%EA%B5%B4%EC%A0%88
http://m.blog.daum.net/byeoldl/7
http://physica.gsnu.ac.kr/phtml/optics/polarization/birefringence/birefringence.html
http://physica.gsnu.ac.kr/physedu/wavelight/Polari2/Polar2.html
푸엥카레 구 (Poincare sphere) :
http://physica.gsnu.ac.kr/phtml/optics/polarization/polrepresent/polrepresent4.html
glitch (글리치) :
매우짧게튀는신호.. (unwanted)
https://namu.wiki/w/%EA%B8%80%EB%A6%AC%EC%B9%98
http://blog.naver.com/PostView.nhn?blogId=elrlemrm&logNo=220039465381
setup time, hold time :
http://www.internex.co.kr/insiter.php?design_file=notice_v.php&article_num=13
http://www.ktword.co.kr/abbr_view.php?m_temp1=5542
finite state machine :
https://terms.naver.com/entry.nhn?docId=4396966&cid=60010&categoryId=60010
pipeline(파이프라인) :
http://kodb.or.kr/info/info_04_view.html?field=title&keyword=%BA%B4%B7%C4%BC%BA&type=techreport&page=1&dbnum=165254&mode=detail&type=techreport
https://kin.naver.com/qna/detail.nhn?d1id=1&dirId=10601&docId=67626676&qb=7YyM7J207ZSE65287J24&enc=utf8§ion=kin&rank=2&search_sort=0&spq=1
https://kin.naver.com/qna/detail.nhn?d1id=1&dirId=101&docId=66289266&qb=7YyM7J207ZSE65287J24&enc=utf8§ion=kin&rank=9&search_sort=0&spq=1
https://kin.naver.com/qna/detail.nhn?d1id=1&dirId=101&docId=278745248&qb=7YyM7J207ZSE65287J24&enc=utf8§ion=kin&rank=5&search_sort=0&spq=1
http://kodb.or.kr/info/info_04_view.html?field=title&keyword=%BA%B4%B7%C4%BC%BA&type=techreport&page=1&dbnum=165254&mode=detail&type=techreport
sram :
https://kldp.org/node/110670
텐서(tensor) :
https://ghebook.blogspot.com/2011/06/tensor.html
http://www.ktword.co.kr/abbr_view.php?m_temp1=4588&m_search=%ED%85%90%EC%84%9C
https://terms.naver.com/entry.nhn?docId=1152933&cid=40942&categoryId=32227
https://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1113&docId=60279576&qb=7YWQ7ISc&enc=utf8§ion=kin&rank=3&search_sort=0&spq=0
http://youngsubyoon.com/tensorKorean.pdf
gauss quadrature rule(가우스 구적법) :
https://blog.naver.com/PostView.nhn?blogId=mykepzzang&logNo=220598009564&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://blog.naver.com/PostView.nhn?blogId=mykepzzang&logNo=220598022457
https://helloworldpark.github.io/jekyll/update/2017/02/04/Gaussian-Quadrature.html
newton-rapson method :
http://darkpgmr.tistory.com/58
https://namu.wiki/w/%EB%89%B4%ED%84%B4-%EB%9E%A9%EC%8A%A8%20%EB%B0%A9%EB%B2%95
변분법(calculus of variations) :
https://ko.wikipedia.org/wiki/%EB%B3%80%EB%B6%84%EB%B2%95
범함수(functional) :
https://namu.wiki/w/%EB%B2%94%ED%95%A8%EC%88%98
mcu, dsp :
http://www.e4ds.com/sub_view.asp?best=1&ch=3178&t=1&idx=3178
matlab 매틀랩 행렬 matrix :
https://ko.wikiversity.org/wiki/Matlab_%ED%96%89%EB%A0%AC
원편광 :
http://ktword.co.kr/abbr_view.php?nav=&m_temp1=4516&id=40
https://m.blog.naver.com/PostView.nhn?blogId=panoptics&logNo=220931217141&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://m.blog.naver.com/PostView.nhn?blogId=ckbc6101&logNo=220475954380&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://blog.naver.com/PostView.nhn?blogId=panoptics&logNo=220931217141&parentCategoryNo=&categoryNo=1&viewDate=&isShowPopularPosts=true&from=search
http://physica.gsnu.ac.kr/phtml/optics/polarization/birefringence/birefringence5.html
http://blog.envision.co.kr/62
존스행렬, 존스벡터 :
http://physica.gsnu.ac.kr/phtml/optics/polarization/polrepresent/polrepresent2.html
https://ko.wikipedia.org/wiki/%EC%A1%B4%EC%8A%A4_%ED%96%89%EB%A0%AC
http://physica.gsnu.ac.kr/phtml/optics/polarization/polrepresent/polrepresent3.html
ltps, oxide tft(IGZO) :
http://news.samsungdisplay.com/6571
https://m.blog.naver.com/PostView.nhn?blogId=gowns721&logNo=221178061256&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://blog.naver.com/youngdisplay/60188122460
http://blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=220968319816
https://m.blog.naver.com/PostView.nhn?blogId=fellowkjh&logNo=40158986318&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
백플레인 = TFT + substrate
eidophor :
http://www.televisionexperimenters.com/eidophor.html
https://terms.naver.com/entry.nhn?docId=1121488&cid=40942&categoryId=31759
dlp projector :
http://www.mdpi.com/2072-666X/3/2/509/htm (fab)
http://www.mdpi.com/2072-666X/6/12/1460/htm
https://www.researchgate.net/figure/Fabrication-process-flow-of-the-MEMS-cascaded-chevron-beam-microactuator-a-80-m-m_fig2_221896188
https://www.osapublishing.org/oe/fulltext.cfm?uri=oe-18-12-12065&id=199707
https://m.blog.naver.com/PostView.nhn?blogId=jbw535&logNo=60155855724&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://ko.wikipedia.org/wiki/%EB%94%94%EC%A7%80%ED%84%B8_%EA%B4%91%EC%9B%90_%EC%B2%98%EB%A6%AC
https://m.blog.naver.com/PostView.nhn?blogId=rilia&logNo=10140828793&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
ohp(overhead projector) :
https://kaushalgrade10optics.wikispaces.com/Overhead+Projector?responseToken=1e8842abca93880b17e8fc48ce5b4ed2
프레넬 렌즈 Fresnel :
http://www.beam-matsumoto.co.jp/korea/product/fresnel-tokucho.html
hold time, setup time :
http://princess.kongju.ac.kr/digitalmain/dvlec/textbook/chap07/digital07_8.htm
에지 트리거 -> 아주짧은 CLK 상승, 하강 에지
레벨 트리거 -> CLK 1일때..
마스터 슬레이브 레벨 트리거 -> 인풋과 아웃풋의 시간적분리
래치 -> 클락없음 FF ->클락 있음 그런데 래치, FF 구분안하는 책도 많음.. 공학은 왜이렇게 단어가 표준화가 안되어있을까 ㅡㅡ;
선형 되먹임 시프트 레지스터(Linear feedback shift register, LFSR) :
https://ko.wikipedia.org/wiki/%EC%84%A0%ED%98%95_%EB%90%98%EB%A8%B9%EC%9E%84_%EC%8B%9C%ED%94%84%ED%8A%B8_%EB%A0%88%EC%A7%80%EC%8A%A4%ED%84%B0
rc delay :
http://kkhipp.tistory.com/62
slew rate(슬루율) :
https://www.rohm.co.kr/electronics-basics/opamps/op_what5
https://ko.wikipedia.org/wiki/%EC%8A%AC%EB%A3%A8%EC%9C%A8
https://blog.naver.com/jimin_p/220690020630
comparator(비교기) :
https://blog.naver.com/jhkim6363/220306180280
http://cherryopatra.tistory.com/139
OP-AMP :
https://m.blog.naver.com/PostView.nhn?blogId=heojeahyun&logNo=110026220416&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
전류 종류 :
http://www.ktword.co.kr/abbr_view.php?m_temp1=5521
http://appleii.tistory.com/121
pspice mosfet ad as pd ps :
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1118&docId=265436000&qb=cHNwaWNlIGFkIGFz&enc=utf8§ion=kin&rank=3&search_sort=0&spq=0&pid=Tq9B5lpVuEGssbKQnhdssssst5h-043781&sid=lS4T8N81Oo8jCLjqoH5cmw%3D%3D
cmos latch up :
IC칩이나 MCU에서 마니 발생할 수 있다고,,
https://m.blog.naver.com/PostView.nhn?blogId=10joanne23&logNo=220015903235&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://www.webcastlink.com/ms_pdf/667_20160106174436_201504_sr_st.pdf
cmos tap :
http://blog.daum.net/21th_vision/7083659
process corner :
http://blog.naver.com/PostView.nhn?blogId=narabaljeon&logNo=220951378006
화질보상 :
https://blog.naver.com/hominlim/221115955530
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=60200929839&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://kin.naver.com/qna/detail.nhn?d1id=5&dirId=50103&docId=248605303&qb=b2xlZCDsmbjrtoDrs7Tsg4E=&enc=utf8§ion=kin&rank=1&search_sort=0&spq=0
tft(thin film transistor) :
https://blog.naver.com/youngdisplay/220214508595
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1114&docId=51945124&qb=b2xlZCDsoITrpZgg6rWs64+ZIDPqsJw=&enc=utf8§ion=kin&rank=1&search_sort=0&spq=0
http://kin.naver.com/qna/detail.nhn?d1id=1&dirId=10301&docId=217040277&qb=65SU7Iqk7ZSM66CI7J20IOycoOumrCDsgqzsmqkg7J207Jyg&enc=utf8§ion=kin&rank=2&search_sort=0&spq=0
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1118&docId=62450374&qb=7IK87ISxIHRmdCDsoITrpZgg6rWs64+Z&enc=utf8§ion=kin&rank=1&search_sort=0&spq=0
유리 기판(glass substrate) :
http://www.sgh.kr/?module=file&act=procFileDownload&file_srl=1060&sid=1f80f632984c7c4b478034faca29252d
https://blog.naver.com/satinlak/220545904932
해시(hash) :
https://namu.wiki/w/%ED%95%B4%EC%8B%9C
SHA :
https://ko.wikipedia.org/wiki/SHA
암호화 해시 함수 :
https://ko.wikipedia.org/wiki/%EC%95%94%ED%98%B8%ED%99%94_%ED%95%B4%EC%8B%9C_%ED%95%A8%EC%88%98
공진(resonance) :
http://www.rfdh.com/bas_rf/begin/reso.htm
RLC circuit :
http://www.a24s.com/data/jeongbotongsinhakseub/jungi/jungi_3/jungi3-3.html
http://www.a24s.com/data/jeongbotongsinhakseub/jungi/jungi_3/jungi3-3.html
http://blog.naver.com/PostView.nhn?blogId=jsrhim516&logNo=221030654879&categoryNo=0&parentCategoryNo=0&viewDate=¤tPage=1&postListTopCurrentPage=1&from=postView
RC circuit :
https://blog.naver.com/PostView.nhn?blogId=lagrange0115&logNo=220659006305&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
수동소자, 능동소자 :
https://ko.wikipedia.org/wiki/%EC%88%98%EB%8F%99%EC%86%8C%EC%9E%90
http://www.ktword.co.kr/abbr_view.php?m_temp1=2588
https://ko.wikipedia.org/wiki/%EB%8A%A5%EB%8F%99%EC%86%8C%EC%9E%90
페트릭 메소드(petrick's method) :
http://blastic.tistory.com/m/204
주항(prime implicant) :
http://thrillfighter.tistory.com/246
https://m.blog.naver.com/PostView.nhn?blogId=sealclear&logNo=20189491889&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
필수주항(essential prime implicant) :
http://blog.naver.com/PostView.nhn?blogId=sealclear&logNo=20189494924&parentCategoryNo=&categoryNo=11&viewDate=&isShowPopularPosts=true&from=search
플립플롭(flip flop) :
https://namu.wiki/w/%ED%94%8C%EB%A6%BD%ED%94%8C%EB%A1%AD
http://air802.tistory.com/40
https://ko.wikipedia.org/wiki/%ED%94%8C%EB%A6%BD%ED%94%8C%EB%A1%AD
동차, 비동차 (homogenous, non homogenous) :
https://wikidocs.net/4062
퀸 맥클러스키 메소드 (Quine-McCluskey algorithm):
http://blastic.tistory.com/m/202
http://blog.naver.com/PostView.nhn?blogId=leeyunghuk1&logNo=220959424842
https://ko.wikipedia.org/wiki/%EC%BD%B0%EC%9D%B8-%EB%A7%A4%ED%81%B4%EB%9F%AC%EC%8A%A4%ED%82%A4_%EC%95%8C%EA%B3%A0%EB%A6%AC%EC%A6%98
hard mask :
https://blog.naver.com/jgw1030/221198879492
double patterning :
https://blog.naver.com/dreamnewfuture/220832800440
https://blog.naver.com/tjdowl123/221206290398
https://m.blog.naver.com/PostView.nhn?blogId=klp0712&logNo=221080490955&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
면저항(sheet resistence), 비저항(resistivity) :
http://www.ktword.co.kr/abbr_view.php?m_temp1=4416http://kin.naver.com/qna/detail.nhn?
https://en.wikipedia.org/wiki/Sheet_resistanced1id=11&dirId=1115&docId=55334741&qb=66m07KCA7ZWt&enc=utf8§ion=kin&rank=5&search_sort=0&spq=1
https://blog.naver.com/hjcfm/40163142217
https://blog.naver.com/PostView.nhn?blogId=clafte&logNo=120110720847&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1118&docId=55675340&qb=66m07KCA7ZWt&enc=utf8§ion=kin&rank=1&search_sort=0&spq=1
depostion (pvd, sputtering, evaporation) :
https://m.blog.naver.com/PostView.nhn?blogId=ckbc6101&logNo=220966477075&proxyReferer=https%3A%2F%2Fwww.google.gm%2F
https://m.blog.naver.com/PostView.nhn?blogId=kgp82&logNo=80047201193&proxyReferer=https%3A%2F%2Fwww.google.gm%2F
step coverage :
https://m.blog.naver.com/PostView.nhn?blogId=ckbc6101&logNo=220966477075&proxyReferer=https%3A%2F%2Fwww.google.gm%2F
파장과 분해능 (wavelength and resolution) :
분해능이 작을수록 분해능이 좋다.
노을을 생각하자.. 빨간빛의 파장이기니까 반사안되고 멀리까지오는것처럼..
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=11&docId=59983918&qb=7YyM7J6l7J20IOynp+ycvOuptCDrtoTtlbTriqU=&enc=utf8§ion=kin&rank=9&search_sort=0&spq=0
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1116&docId=263252518&qb=7YyM7J6l7J20IOynp+ycvOuptCDrtoTtlbTriqU=&enc=utf8§ion=kin&rank=4&search_sort=0&spq=0
https://m.blog.naver.com/PostView.nhn?blogId=klp0712&logNo=221080490955&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
라디칼과 이온(radical, ion) :
http://ywpop.tistory.com/m/3290
7-segment(ic 7447 74ls47) :
https://m.blog.naver.com/PostView.nhn?blogId=lagrange0115&logNo=220720164704&categoryNo=0&proxyReferer=&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
감광제(양성, 음성) :
http://blog.naver.com/PostView.nhn?blogId=soomin916&logNo=220366734740
https://www.yumpu.com/fr/document/view/37945438/611/37
(양성이 해상도 좋다)
https://m.blog.naver.com/PostView.nhn?blogId=gdpresent&logNo=220662464960&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://ocw.sogang.ac.kr/include/html/file_download.jsp?filepath=c%3A%2Fapp%2Focw%2Frfile%2F2011%2Fcourse10-spt&filename=TmJ2bndmaTl4TENpWHpJd01URXhNakk1TVRVeE56STNMbkJrWmc9PQ%3D%3D
카르노 맵 (Karnaugh's Map) :
https://www.slideserve.com/haley-dorsey/5895014
최소항의 합 (최소항식)(최소항은 ABC 이런거고 최대항은 A+B+C 이런거 단 존재하는 모든 입력이 다 나타나야 함) 로 나타낼 때는
예를들어 AB'C + A'B' + ABC'D 면 그 항에 없는 거는 (D+D') 이런식으로 곱해줌 그래야 D가 어떤 값이든 같은 결과값을 내줄테니까(언제나 1이 곱해지고 0이곱해져 결과가 바뀔 일 없음)
AB'C(D+D') + A'B'(C+C')(D+D') + ABC'D 이런식으로 (C나 D가 어떤 값이든 간에 결과는 바뀌지 않는다 왜냐하면 D+D' 는 언제나 1이니까)
그리고 전개해주면 된다.
최대항의 합(최대항식) 을 만들 때에는 예를 들어 (A+B'+C)(B'+C+D')(A+B'+C'+D) 가있고 입력이 A,B,C,D 가 있다 그러면
입력이 부족한 항에는 DD' 같이 곱을 만들어서 붙여준다. 이렇게하면 어떻게 하든 0이 되기 때문에 결과를 바꾸지 않는다. (언제나 0이 더해지기 때문에 값을 바꿀일 없음) 따라서 (A+B'+C+DD')(AA'+B'+C+D')(A+B'+C'+D) 가 된다. 그다음 A+BC=(A+B)(A+C) 를 적용하면 된다. AA+AC+AB+BC=A+AC+AB+BC=A(1+C+B)+BC=A+BC
A+A=A
최소항에서는 프라임이 0 그냥이 1 (ABC는 111 A'BC 는 011)
최대항에서는 그냥이 0 프라임이 1 (A+B+C 는 0 0 0 A+B'+C' 는 011)
novec(불소용제 브랜드) :
http://solutions.3m.com/wps/portal/3M/ko_KR/3MNovec_APAC/Home/ProductCatalog/?PC_Z7_RJH9U5230GEC40I9P3RBAI2AC1000000_nid=VJK791MG8Cbe28QWC1BS6Fgl
Does any solvent that can reslove TEFLON exist ?? :
https://www.quora.com/Are-there-any-solvents-to-dissolve-teflon-or-PTFE
sping coating(스핀 코팅) :
https://www.youtube.com/watch?v=uv1A7qAqgRk
PSM(phase shift mask) :
http://blog.naver.com/PostView.nhn?blogId=titler5&logNo=20106457144&parentCategoryNo=1&categoryNo=&viewDate=&isShowPopularPosts=true&from=search
산화물tft(oxide tft) :
goo.gl/zoH4T6
https://namu.wiki/w/Oxide%20TFT
http://fish123.tistory.com/15
file55587-AMOLED용 산화물 TFT 기술.pdf
http://ddaily.co.kr/news/article.html?no=124959
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=60188122460&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=220968319816&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
tft 구동 방식 oled :
http://magazine.hellot.net/magz/article/articleDetail.do?flag=all&showType=showType1&articleId=ARTI_000000000039721&articleAllListSortType=sort_1&page=1&selectYearMonth=200710&subCtgId=
아몰레드(amoled) :
https://namu.wiki/w/AMOLED
https://blog.naver.com/hominlim/221115955530
http://www.edaily.co.kr/news/news_detail.asp?newsId=01626886609597208&mediaCodeNo=257&OutLnkChk=Y
https://m.blog.naver.com/PostView.nhn?blogId=bkpark777&logNo=80198918095&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
부울대수 분배법칙(boolean algebra distributive law) :
http://greatjoy.tistory.com/entry/%EB%B6%80%EC%9A%B8-%EB%8C%80%EC%88%98Boolean-algebra-%EC%A0%9C2-%EB%B6%84%EB%B0%B0%EB%B2%95%EC%B9%99-%EC%A6%9D%EB%AA%85
sink current source current (싱크전류 소스전류) :
https://m.blog.naver.com/PostView.nhn?blogId=yousk16&logNo=40050812052&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
the reason why we have to heavily dope :
왜냐하면 R컨택 + R소스 + Rext 의 합이 R채널의 10퍼센트보다 작아야함
R= 비저항(L/A) 인데 비저항(레지스티비티) 는 컨덕터비티의 역수임 따라서 비저항이 작아지면 저항은 작아진다. 이는 컨덕터비티가 커지면 r이 작아진다. 컨덕터 비티는 q*도펀트농도*캐리어모빌리티 니까 도펀트농도가 커지면 컨덕터비티 상승 즉 헤빌리 도핑 이즈 니디드 포 숏채널모스펫!
shallow junction :
https://web.stanford.edu/class/ee311/NOTES/ShallowJunctions.pdf
숏채널 이펙트를 prevent 하기위해서는 쉘로우 정션 필요 왜? 수식 확인할것
영어 읽기 싫어도 읽어야함
dibl:
https://mac0519.wordpress.com/2016/09/11/drain-induced-barrier-lowering-dibl/
(이게 최고 나머지 다 븅신임)
https://blog.naver.com/jgw1030/221323198606
http://btechguides.blogspot.kr/2013/03/drain-induced-barrier-lowering-dibl.html
https://blog.naver.com/dia830/220236664351
https://blog.naver.com/pbimh/221123368225
short channel effect:
https://it-learning.tistory.com/99
https://m.blog.naver.com/PostView.nhn?blogId=dia830&logNo=220236664351&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
https://blog.naver.com/rjsdud13/220961223648
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1118&docId=114829987&qb=c2hvcnQgY2hhbm5lbCBlZmZlY3Q=&enc=utf8§ion=kin&rank=2&search_sort=0&spq=1&pid=TFx5OlpySpZssvSflrKssssstp4-115231&sid=zh9sxuuWCM3dR4HKNORJ8g%3D%3D
펀치 스루(punch through) :
https://www.youtube.com/watch?v=1rvqVnbmbHI
(유튜브 영어강의가 젤낫다)
https://blog.naver.com/10joanne23/207828834
http://terms.naver.com/entry.nhn?docId=757285&cid=50324&categoryId=50324
http://blog.naver.com/PostView.nhn?blogId=dookie09&logNo=50086589338
https://m.blog.naver.com/PostView.nhn?blogId=10joanne23&logNo=207828834&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
존 비트(zone bit) :
http://kin.naver.com/qna/detail.nhn?d1id=1&dirId=11002&docId=64118439&qb=em9uZSBiaXQ=&enc=utf8§ion=kin&rank=1&search_sort=0&spq=1
논리게이트(gate) :
한 개 이상의 입력 단자와 하나의 출력 단자로 구성되는 전자회로
logic gate is an electronic circuit that has more than one input node and only one output node
2's compliment(2의 보수) :
http://backgom.tistory.com/entry/2%EC%9D%98-%EB%B3%B4%EC%88%98%EB%A5%BC-%EC%93%B0%EB%8A%94%EC%9D%B4%EC%9C%A0-%EB%B3%B4%EC%88%98-%ED%91%9C%ED%98%84%EB%B2%95
http://sk3010.tistory.com/entry/%EB%94%94%EC%A7%80%ED%84%B8-%EC%97%B0%EC%82%B0
분해능(resolution) in digital circuit theory:
http://www.nctechnology.co.kr/product-sogae/analogio-basic.htm
nyquist 나이퀴스트 theorem 이론 :
http://www.alanjshan.com/sampling-01/
http://blog.naver.com/PostView.nhn?blogId=ojiyo&logNo=40102620361
http://www.ktword.co.kr/abbr_view.php?m_temp1=1312
https://merefox.synology.me/wordpress/2017/07/31/%EB%82%98%EC%9D%B4%ED%80%B4%EC%8A%A4%ED%8A%B8-%EC%9D%B4%EB%A1%A0%EC%9D%98-%ED%97%88%EC%83%81-192khz-%EB%A5%BC-%EC%8D%A8%EC%95%BC%EB%A7%8C-%ED%95%98%EB%8A%94%EC%9D%B4%EC%9C%A0-1/
http://linecard.tistory.com/20
http://csesoo.tistory.com/22
불소수지:
http://www.daikin-korea.co.kr/products/resin/neoflon-fep.asp
http://www.daikin-korea.co.kr/feature/nonadherent.asp
선폭 :
리소그라피로 구현할 수 있는 선 자체의 폭
혹은 게이트의 폭
혹은 소스 드레인 사이 거리의 폭
혹은 게이트와 게이트 사이의 폭
다양한 의미로 쓰이는듯 함.. 표준화되어있지 않아서 굉장히 혼란스러운 어휘임..
http://blog.skhynix.com/1198
http://www.ddaily.co.kr/news/article.html?no=127685
http://smsinfo.tistory.com/869
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1118&docId=61714407&qb=67CY64+E7LK0IOyEoO2PrQ==&enc=utf8§ion=kin&rank=1&search_sort=0&spq=0&pid=TE9qZlpySoGssc2OfJosssssszC-049948&sid=KXte1/cHoecbZm%2BwOvL0Kg%3D%3D
https://www.technonet.co.kr/skin_build61/bbs_list.php?boardT=v&board_data=aWR4PTIyNDgwJnN0YXJ0UGFnZT02MDAmbGlzdE5vPTQxNzYmdGFibGU9cmVkX2Jic19kYXRhJmNvZGU9ZXRjJnNlYXJjaF9pdGVtPSZzZWFyY2hfb3JkZXI9%7C%7C&search_items=Y29kZT1ldGMmc2VhcmNoX2l0ZW09JnNlYXJjaF9vcmRlcj0mdW5zaW5nY29kZTE9MTI1NTkyMjMzMSZ1bnNpbmdjb2RlMj0xMjU1OTIyNjE0JnVuc2luZ2NvZGUzPSZjYXRlPSZwd2Q9%7C%7C
http://www.ddaily.co.kr/news/article.html?no=77706
모바일OLED 해상도 :
https://m.blog.naver.com/PostView.nhn?blogId=alstjrgod&logNo=140189563007&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://3dfia.org/solar/?mode=read&cid=17&board=recent&cp=4&uid=224
http://www.ubiresearch.co.kr/%EA%B3%A0%ED%95%B4%EC%83%81%EB%8F%84%EC%9D%98-%EC%B5%9C%EC%A0%81-amoled%EB%8A%94-white-oled%EC%9D%B4%EB%8B%A4/
논리회로 관련:
https://m.blog.naver.com/PostView.nhn?blogId=interlaken89&logNo=20206659610&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
oled 화소(pixel) :
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=220151466452&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
euv lithography:
http://www.gigaphoton.com/kr/technology/euv-topics/what-is-euv-lithopgraphy
http://www.gigaphoton.com/kr/technology/euv-topics/what-is-euv-lithopgraphy
포토리소그래피 동향:
http://www.zdnet.co.kr/news/news_view.asp?artice_id=20140423153323
oled제작시 주의점 :
https://m.blog.naver.com/PostView.nhn?blogId=jkhan012&logNo=150087225483&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
블록체인(block chain) :
http://simsimjae.tistory.com/189
http://book.naver.com/bookdb/book_detail.nhn?bid=9685493
https://jeunkim.blog.me/221184324907
https://homoefficio.github.io/2017/11/19/%EB%B8%94%EB%A1%9D%EC%B2%B4%EC%9D%B8-%ED%95%9C-%EB%B2%88%EC%97%90-%EC%9D%B4%ED%95%B4%ED%95%98%EA%B8%B0/
http://homoefficio.github.io/2016/01/23/BlockChain-%EA%B8%B0%EC%B4%88-%EA%B0%9C%EB%85%90/
인터프리팅과 컴파일(interpreting, compile) :
http://hieroglyph.tistory.com/4
http://www.emh.co.kr/content.pl?compiled_interpreted
http://seodh007.tistory.com/entry/%EC%9D%B8%ED%84%B0%ED%94%84%EB%A6%AC%ED%84%B0%EC%96%B8%EC%96%B4-%EC%99%80-%EC%BB%B4%ED%8C%8C%EC%9D%BC%EC%96%B8%EC%96%B4%EC%9D%98-%EB%9C%BB
컴파일은 소스코드->(컴파일)오브젝트파일 ->링커가 라이브러리와 연결해서 실행파일 생성
인터프리팅언어는 그냥 소스코드(?) 만있고 따로 실행파일 생기는게아니라 실시간으로 번역 실행 번역 실행 (라인바이라인) 으로..
ltps:
http://blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=60184497348&parentCategoryNo=&categoryNo=11&viewDate=&isShowPopularPosts=true&from=search
http://blog.lgdisplay.com/2016/04/tft/
http://www.dt.co.kr/contents.htm?article_no=2007101902011832673002
http://www.dt.co.kr/contents.htm?article_no=2007101902011832673002
외부 화질 개선:
https://blog.naver.com/hominlim/221115955530
맥스웰방정식:
https://namu.wiki/w/%EB%A7%A5%EC%8A%A4%EC%9B%B0%20%EB%B0%A9%EC%A0%95%EC%8B%9D
사이니지:
http://blog.lgdisplay.com/2015/03/digital-signage/
마케팅 프로세스:
http://zekesnote.tistory.com/116
divergence, gradient, curl:
http://38402160.tistory.com/14
http://38402160.tistory.com/15?category=617404
https://www.youtube.com/watch?v=vvzTEbp9lrc
http://mathnmath.tistory.com/66
annealing :
http://www.sugawara-labs.co.jp/kr/application_xenonflash/semiconductor_annealing_heat_treatment
http://terms.naver.com/entry.nhn?docId=337771&cid=44616&categoryId=44616
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1115&docId=133574324&qb=YW5uZWFsaW5n&enc=utf8§ion=kin&rank=2&search_sort=0&spq=0
LCD structure :
https://pid.samsungdisplay.com/ko/learning-center/blog/lcd-structure
FMM, OpenMask :
https://m.blog.naver.com/PostView.nhn?blogId=ckbc6101&logNo=220925268341&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
Tandem:
http://blog.naver.com/youngdisplay/220839351887
마이크로LED:
http://blog.lgdisplay.com/2017/08/%EA%B8%B0%EA%B3%A0-%EB%A7%88%EC%9D%B4%ED%81%AC%EB%A1%9C-led-micro-led%EC%9D%98-%EB%AF%B8%EB%9E%98%EB%8A%94/
woled:
http://blog.naver.com/ehdrbs0102/221036748836
http://www.gasengi.com/main/board.php?bo_table=commu07&wr_id=489310
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=60161032358&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
LCD 패널 :
https://m.blog.naver.com/PostView.nhn?blogId=sct13a&logNo=10114840926&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
페르미에너지:
http://blog.naver.com/PostView.nhn?blogId=namgoocha&logNo=220542357591
옴닉컨택, 쇼트키컨택:
http://blog.naver.com/PostView.nhn?blogId=richard2828&logNo=220765259650&parentCategoryNo=&categoryNo=11&viewDate=&isShowPopularPosts=false&from=postList
http://blog.naver.com/PostView.nhn?blogId=74la0602t&logNo=66990153&redirect=Dlog&widgetTypeCall=true(그래프잘못됨)
http://blog.naver.com/PostView.nhn?blogId=richard2828&logNo=220776348036&parentCategoryNo=&categoryNo=11&viewDate=&isShowPopularPosts=false&from=postList
https://m.blog.naver.com/PostView.nhn?blogId=ang0095&logNo=220701220650&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
일함수 :
http://www.ktword.co.kr/abbr_view.php?m_temp1=4457
etching 관련 용어:
http://blog.naver.com/yc654/221016367601
VA:
https://pid.samsungdisplay.com/ko/learning-center/white-papers/va-vs-ips
http://egloos.zum.com/solette/v/5061147
포토리소그래피:
http://gijun.tistory.com/175
http://hjeon.namoweb.net/lecture/chapter-4
http://blog.naver.com/PostView.nhn?blogId=soomin916&logNo=220366734740
http://www.samsungsemiconstory.com/136
http://news.samsungdisplay.com/9566
http://kang.dk/156
http://blog.skhynix.com/1950
http://blog.naver.com/PostView.nhn?blogId=soomin916&logNo=220366734740
http://www.ktword.co.kr/abbr_view.php?m_temp1=5104
https://m.blog.naver.com/PostView.nhn?blogId=vkqkqkt&logNo=120142874468&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://hjeon.namoweb.net/lecture/chapter-4
킥백 볼티지:
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=221006151962&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
디스플레이 영상신호처리 :
http://blog.naver.com/youngdisplay/220879353162
cin,get,getline,개행,'\n':
http://rainflys.tistory.com/75
http://luyin.tistory.com/334
http://mantdu.tistory.com/688
인덕턴스, 커패시턴스, 임피던스 :
https://blog.naver.com/PostView.nhn?blogId=anniy7&logNo=220661104373&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://www.rfdh.com/bas_rf/begin/lc.htm
http://jayjaeun.tistory.com/10
http://microwave.tistory.com/entry/%EC%9D%B8%EB%8D%95%ED%84%B4%EC%8A%A4%EB%9E%80
https://ghebook.blogspot.kr/2011/06/definition-of-impedance-using-phasor.html
http://javalab.org/inductor_and_capacitor_3/
http://javalab.org/inductor_and_capacitor_2/
http://javalab.org/inductor_and_capacitor/
https://www.rohm.co.kr/electronics-basics/capacitors/tc_what2
https://blog.naver.com/dukuby/221331311095
TFT LCD :
http://smd2010.tistory.com/1201
http://ko.blazedisplay.com/info/tft-lcd-displays-tft-device-96975.html
조도, 휘도 :
http://lifeisforu.tistory.com/367
편광 :
http://blog.envision.co.kr/62
OLED와 LCD의 편광판 :
http://blog.lgdisplay.com/2015/03/lcd_oled5/
http://blog.lgdisplay.com/2015/03/lcd-oled-4/
PDLC:
http://terms.naver.com/entry.nhn?docId=845413&cid=42346&categoryId=42346
http://www.q-sys.co.kr/bbs/content.php?co_id=tech1
시리얼 통신 :
http://blog.naver.com/hansj290/221102946544
아트메가128(ATMEGA) :
http://www.icbank.com/icbank_data/community/funfun/%BB%B7%BB%B7%C7%D1_AVR_%BE%DF%B0%A3%B1%B3%C0%B0_%C1%A66%C0%CF%C2%F7_20080611.pdf
UART, USART 유아트 통신 :
http://radionalog.tistory.com/entry/ATmega128-USART-%EC%96%91%EB%B0%A9%ED%96%A5-%ED%86%B5%EC%8B%A0-%EC%8B%A4%EC%8A%B5-%EC%98%88%EC%A0%9C
http://gaiserne.tistory.com/195
디스플레이 공학 :
http://kin.naver.com/qna/detail.nhn?d1id=11&dirId=1114&docId=131736724&qb=ZGFuZ2xpbmcgYm9uZA==&enc=utf8§ion=kin&rank=3&search_sort=0&spq=1
Oxidation :
https://m.blog.naver.com/PostView.nhn?blogId=gusam2&logNo=220723114481&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
Dangling Bond 댕글링 본드 :
http://gskpjone.tistory.com/5
AVR 비트 bit operator 비트 연산자 :
http://blog.daum.net/openmind31/7958535
아트메가 포트 제어 port :
http://binworld.kr/6
LCD 공정:
http://blog.lgdisplay.com/2014/09/%EA%B7%B8%EB%A6%BC%EC%9C%BC%EB%A1%9C-%EC%95%8C%EC%95%84%EB%B3%B4%EB%8A%94-tft-lcd-%EA%B3%B5%EC%A0%95-cell-module-%EA%B3%B5%EC%A0%95/
http://blog.lgdisplay.com/2016/06/tftlcd_1/
http://blog.lgdisplay.com/2016/06/tftlcd_2/
http://blog.lgdisplay.com/2016/08/tftlcd_3/
http://blog.lgdisplay.com/2016/09/tftlcd_4/
http://blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=60164370326
PECVD:
https://www.google.co.kr/url?sa=t&rct=j&q=&esrc=s&source=web&cd=2&ved=0ahUKEwiMz8-QsIfXAhUBxrwKHW6RBQ0QFggxMAE&url=http%3A%2F%2Fwww.ceramicsbank.com%2FlectureFileDown.do%3Ffile_idx%3D797&usg=AOvVaw0yK-K4CrBf3wM_dPv9lX8m
http://blog.naver.com/PostView.nhn?blogId=dae106&logNo=80128940936
http://m.post.naver.com/viewer/postView.nhn?volumeNo=5583264&memberNo=10728965&vType=VERTICAL
스퍼터링(sputtering):
https://m.blog.naver.com/PostView.nhn?blogId=youngdisplay&logNo=220490827926&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
http://blog.naver.com/youngdisplay?Redirect=Log&logNo=60204629611
https://ko.wikipedia.org/wiki/%EC%8A%A4%ED%8D%BC%ED%84%B0%EB%A7%81
http://marriott.tistory.com/77
metal halide lamp:
http://terms.naver.com/entry.nhn?docId=1092807&cid=40942&categoryId=32374
dichroic mirror:
http://terms.naver.com/entry.nhn?docId=750591&cid=42341&categoryId=42341
기판용 유리 :
http://blog.naver.com/go9901273/150015211554
LUMO HOMO :
http://clafte.blog.me/120063619114
빛의 산란 :
http://www.cyberschool.co.kr/gh/gh14.htm
normally black, normally white NB NW :
http://www.dzsc.com/data/html/2009-6-16/76898.html
OLED 발광 일함수:
http://depts.washington.edu/cmditr/modules/oled/organicorganic_heterojunctions_in_oleds.html
인터럽트(interrupt):
http://rusy.tistory.com/entry/%EC%9D%B8%ED%84%B0%EB%9F%BD%ED%8A%B8interrupt
http://www.harucat.com/entry/%EC%9D%B8%ED%84%B0%EB%9F%BD%ED%8A%B8-%EC%82%AC%EC%9D%B4%ED%81%B4
http://raisonde.tistory.com/entry/%EC%9D%B8%ED%84%B0%EB%9F%BD%ED%8A%B8Interrupt%EC%9D%98-%EA%B0%9C%EB%85%90%EA%B3%BC-%EC%A2%85%EB%A5%98
https://ko.wikipedia.org/wiki/%EC%9D%B8%ED%84%B0%EB%9F%BD%ED%8A%B8
마찰력(속도에 비례할 때):
http://blog.naver.com/smboy86/70099829767
퀀텀닷 :
http://noisyit.tistory.com/334
http://iwritenews.tistory.com/499
http://blog.naver.com/PostView.nhn?blogId=starhope61&logNo=220291789655&parentCategoryNo=6&categoryNo=&viewDate=&isShowPopularPosts=true&from=search
https://www.inirnc.com:40126/prop/bbs/board.php?bo_table=new_report&wr_id=34
http://iwritenews.tistory.com/499
https://pid.samsungdisplay.com/ko/learning-center/white-papers/quantum-dot-technology
https://ko.wikipedia.org/wiki/%ED%80%80%ED%85%80%EB%8B%B7_%EB%94%94%EC%8A%A4%ED%94%8C%EB%A0%88%EC%9D%B4
damping ratio:
https://figshare.com/articles/_Step_response_of_a_second_order_system_with_respect_to_the_damping_ratio_950_the_poles_are_shown_as_X_/500243
인자로 배열 이름 :
http://code.i-harness.com/ko/q/2d04bc
http://grandpajo.tistory.com/20
레퍼런스(참조) 와 배열 :
http://itguru.tistory.com/141
상속시 디폴트 접근 지정자 :
https://stackoverflow.com/questions/4796789/default-inheritance-access-specifier?answertab=votes#tab-top
c++ virtual ;
http://blog.eairship.kr/175
http://itguru.tistory.com/210
bypass ,coupling capacitor :
http://blog.daum.net/trts1004/12109438
http://blog.daum.net/xisapang/5173324
푸리에, 라플라스 차이 :
http://snowall.tistory.com/182
https://www.hibrain.net/braincafe/cafes/40/posts/111/categories/AMJR/categories/E/categories/E09/articles/286363/replies/287889?pagekey=286363&listType=TOTAL&pagesize=10&sortType=RDT&cntType=AMJR&limit=25&displayType=QNA&siteid=1&page=1
http://electronicsdo.tistory.com/entry/%EC%8B%A0%ED%98%B8-%EB%B0%8F-%EC%8B%9C%EC%8A%A4%ED%85%9C-%EC%A0%84%EC%B2%B4%EC%A0%81%EC%9D%B8-%EA%B0%9C%EB%85%90%EC%A0%95%EB%A6%AC
http://blog.naver.com/PostView.nhn?blogId=you8420&logNo=220988397639&categoryNo=0&parentCategoryNo=0&viewDate=¤tPage=1&postListTopCurrentPage=1&from=postView
https://www.youtube.com/watch?v=6LKCyaPRTr8
http://blog.naver.com/sglee84/110046519870
FT 는 LT의 특별한 경우(시그마 0)
FT- > 인간이 만든 신호에 용이 LT-> 댐핑 존재 자연계 (시스템)
라플라스 s도메임 제로 폴 알수 있음 안정도.. ->시스템 분석에 용이
fourier coefficient :
https://m.blog.naver.com/PostView.nhn?blogId=sagala_soske&logNo=220983389992&proxyReferer=https%3A%2F%2Fwww.google.co.kr%2F
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