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      <title>직류전원공급기(DC Power Supply)란 무엇인가?</title>
      <link>https://eztmi-review.tistory.com/3</link>
      <description>&lt;h1 data-end=&quot;35&quot; data-start=&quot;0&quot; data-section-id=&quot;vl75g9&quot;&gt;직류전원공급기(DC Power Supply)란 무엇인가?&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;66&quot; data-start=&quot;36&quot; data-ke-size=&quot;size16&quot;&gt;안정적인 전압과 전류를 공급하는 전자 계측의 핵심 장비&lt;/p&gt;
&lt;p data-end=&quot;190&quot; data-start=&quot;68&quot; data-ke-size=&quot;size16&quot;&gt;전자회로는 안정적인 전원이 공급되어야 정상적으로 동작합니다.&lt;br /&gt;하지만 실제 전원 환경에서는 전압 변동, 노이즈, 과전류 등의 문제가 발생할 수 있으며, 이러한 문제는 회로 오동작이나 부품 손상으로 이어질 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;268&quot; data-start=&quot;192&quot; data-ke-size=&quot;size16&quot;&gt;따라서 전자회로 개발 및 테스트 환경에서는 단순한 어댑터가 아니라, 전압과 전류를 정밀하게 제어할 수 있는 전문 전원 장비가 필요합니다.&lt;/p&gt;
&lt;p data-end=&quot;318&quot; data-start=&quot;270&quot; data-ke-size=&quot;size16&quot;&gt;이때 사용하는 장비가 바로 &lt;b&gt;직류전원공급기(DC Power Supply)&lt;/b&gt; 입니다.&lt;/p&gt;
&lt;p data-end=&quot;417&quot; data-start=&quot;320&quot; data-ke-size=&quot;size16&quot;&gt;직류전원공급기는 안정적인 직류(DC) 전압과 전류를 공급하는 전자 계측 장비로, 전자회로 개발&amp;middot;테스트&amp;middot;연구&amp;middot;생산라인&amp;middot;유지보수 환경에서 가장 기본적이면서도 필수적인 장비입니다.&lt;/p&gt;
&lt;p data-end=&quot;426&quot; data-start=&quot;419&quot; data-ke-size=&quot;size16&quot;&gt;쉽게 말하면:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;516&quot; data-start=&quot;428&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;454&quot; data-start=&quot;428&quot; data-section-id=&quot;w3ayiv&quot;&gt;함수발생기 &amp;rarr; 테스트용 신호를 생성하는 장비&lt;/li&gt;
&lt;li data-end=&quot;477&quot; data-start=&quot;455&quot; data-section-id=&quot;1e7at4y&quot;&gt;오실로스코프 &amp;rarr; 신호를 분석하는 장비&lt;/li&gt;
&lt;li data-end=&quot;516&quot; data-start=&quot;478&quot; data-section-id=&quot;ytsyba&quot;&gt;직류전원공급기 &amp;rarr; 회로를 동작시키는 안정적인 전원을 공급하는 장비&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;532&quot; data-start=&quot;518&quot; data-ke-size=&quot;size16&quot;&gt;라고 이해할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;578&quot; data-start=&quot;534&quot; data-ke-size=&quot;size16&quot;&gt;전자 계측 환경에서 직류전원공급기는 모든 테스트의 시작점이라고 할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;578&quot; data-start=&quot;534&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;603&quot; data-start=&quot;585&quot; data-section-id=&quot;13tydzx&quot;&gt;왜 직류전원공급기가 중요한가?&lt;/h1&gt;
&lt;p data-end=&quot;649&quot; data-start=&quot;605&quot; data-ke-size=&quot;size16&quot;&gt;초보자들은 흔히:&lt;br /&gt;&amp;ldquo;전원만 들어오면 되는 거 아닌가?&amp;rdquo;&lt;br /&gt;라고 생각하기 쉽습니다.&lt;/p&gt;
&lt;p data-end=&quot;696&quot; data-start=&quot;651&quot; data-ke-size=&quot;size16&quot;&gt;하지만 실제 전자회로에서는 전원의 품질이 시스템 안정성에 직접적인 영향을 줍니다.&lt;/p&gt;
&lt;p data-end=&quot;704&quot; data-start=&quot;698&quot; data-ke-size=&quot;size16&quot;&gt;예를 들어:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;775&quot; data-start=&quot;706&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;725&quot; data-start=&quot;706&quot; data-section-id=&quot;v8arrl&quot;&gt;전압이 순간적으로 떨어지는 경우&lt;/li&gt;
&lt;li data-end=&quot;740&quot; data-start=&quot;726&quot; data-section-id=&quot;1t37m0&quot;&gt;과전류가 발생하는 경우&lt;/li&gt;
&lt;li data-end=&quot;756&quot; data-start=&quot;741&quot; data-section-id=&quot;6vq94m&quot;&gt;출력 노이즈가 많은 경우&lt;/li&gt;
&lt;li data-end=&quot;775&quot; data-start=&quot;757&quot; data-section-id=&quot;1bmaor6&quot;&gt;리플(Ripple)이 큰 경우&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;802&quot; data-start=&quot;777&quot; data-ke-size=&quot;size16&quot;&gt;회로는 정상적으로 동작하지 않을 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;807&quot; data-start=&quot;804&quot; data-ke-size=&quot;size16&quot;&gt;특히:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;846&quot; data-start=&quot;808&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;813&quot; data-start=&quot;808&quot; data-section-id=&quot;1o4c0j&quot;&gt;MCU&lt;/li&gt;
&lt;li data-end=&quot;820&quot; data-start=&quot;814&quot; data-section-id=&quot;1j46a8o&quot;&gt;FPGA&lt;/li&gt;
&lt;li data-end=&quot;825&quot; data-start=&quot;821&quot; data-section-id=&quot;yilp1k&quot;&gt;센서&lt;/li&gt;
&lt;li data-end=&quot;833&quot; data-start=&quot;826&quot; data-section-id=&quot;179syh8&quot;&gt;RF 회로&lt;/li&gt;
&lt;li data-end=&quot;846&quot; data-start=&quot;834&quot; data-section-id=&quot;1aj8sr1&quot;&gt;정밀 아날로그 회로&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;867&quot; data-start=&quot;848&quot; data-ke-size=&quot;size16&quot;&gt;등은 전원 품질에 매우 민감합니다.&lt;/p&gt;
&lt;p data-end=&quot;935&quot; data-start=&quot;869&quot; data-ke-size=&quot;size16&quot;&gt;따라서 직류전원공급기는 단순 &amp;ldquo;전기 공급 장치&amp;rdquo;가 아니라 회로 안정성과 테스트 정확도를 보장하는 핵심 계측 장비입니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;961&quot; data-start=&quot;942&quot; data-section-id=&quot;12h4pwj&quot;&gt;직류전원공급기의 기본 동작 원리&lt;/h1&gt;
&lt;p data-end=&quot;1003&quot; data-start=&quot;963&quot; data-ke-size=&quot;size16&quot;&gt;직류전원공급기는 AC 전원을 안정적인 DC 전원으로 변환하여 출력합니다.&lt;/p&gt;
&lt;p data-end=&quot;1021&quot; data-start=&quot;1005&quot; data-ke-size=&quot;size16&quot;&gt;기본 구조는 다음과 같습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1048&quot; data-start=&quot;1028&quot; data-section-id=&quot;1fijd6g&quot; data-ke-size=&quot;size26&quot;&gt;1. 입력 전원(Input AC)&lt;/h2&gt;
&lt;p data-end=&quot;1075&quot; data-start=&quot;1050&quot; data-ke-size=&quot;size16&quot;&gt;일반적으로 AC 220V 전원을 입력받습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1109&quot; data-start=&quot;1082&quot; data-section-id=&quot;ulruno&quot; data-ke-size=&quot;size26&quot;&gt;2. 변압 및 정류(Rectification)&lt;/h2&gt;
&lt;p data-end=&quot;1145&quot; data-start=&quot;1111&quot; data-ke-size=&quot;size16&quot;&gt;AC 전압을 원하는 전압 수준으로 변환하고 DC로 정류합니다.&lt;/p&gt;
&lt;p data-end=&quot;1178&quot; data-start=&quot;1147&quot; data-ke-size=&quot;size16&quot;&gt;이 과정에서 다이오드 브리지 및 정류 회로가 사용됩니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1200&quot; data-start=&quot;1185&quot; data-section-id=&quot;aqc1yn&quot; data-ke-size=&quot;size26&quot;&gt;3. 평활(Filter)&lt;/h2&gt;
&lt;p data-end=&quot;1230&quot; data-start=&quot;1202&quot; data-ke-size=&quot;size16&quot;&gt;정류 후 발생하는 맥동(Ripple)을 제거합니다.&lt;/p&gt;
&lt;p data-end=&quot;1238&quot; data-start=&quot;1232&quot; data-ke-size=&quot;size16&quot;&gt;대표적으로:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1251&quot; data-start=&quot;1239&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1245&quot; data-start=&quot;1239&quot; data-section-id=&quot;by38n0&quot;&gt;캐패시터&lt;/li&gt;
&lt;li data-end=&quot;1251&quot; data-start=&quot;1246&quot; data-section-id=&quot;2jjdp1&quot;&gt;인덕터&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1262&quot; data-start=&quot;1253&quot; data-ke-size=&quot;size16&quot;&gt;등이 사용됩니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1291&quot; data-start=&quot;1269&quot; data-section-id=&quot;1e3slsg&quot; data-ke-size=&quot;size26&quot;&gt;4. 전압 제어(Regulation)&lt;/h2&gt;
&lt;p data-end=&quot;1311&quot; data-start=&quot;1293&quot; data-ke-size=&quot;size16&quot;&gt;출력 전압을 일정하게 유지합니다.&lt;/p&gt;
&lt;p data-end=&quot;1334&quot; data-start=&quot;1313&quot; data-ke-size=&quot;size16&quot;&gt;이 과정이 직류전원공급기의 핵심입니다.&lt;/p&gt;
&lt;p data-end=&quot;1366&quot; data-start=&quot;1336&quot; data-ke-size=&quot;size16&quot;&gt;전압 변동이 적을수록 고성능 장비라고 볼 수 있습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1402&quot; data-start=&quot;1373&quot; data-section-id=&quot;14oa3zp&quot; data-ke-size=&quot;size26&quot;&gt;5. 출력 보호(Output Protection)&lt;/h2&gt;
&lt;p data-end=&quot;1454&quot; data-start=&quot;1404&quot; data-ke-size=&quot;size16&quot;&gt;과전압(OVP), 과전류(OCP), 단락 보호(SCP) 기능 등을 통해 회로를 보호합니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;1484&quot; data-start=&quot;1461&quot; data-section-id=&quot;qulqtr&quot;&gt;직류전원공급기의 가장 중요한 성능 요소&lt;/h1&gt;
&lt;p data-end=&quot;1526&quot; data-start=&quot;1486&quot; data-ke-size=&quot;size16&quot;&gt;전문 엔지니어들은 단순 출력 전압보다 다음 요소들을 더 중요하게 봅니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1568&quot; data-start=&quot;1533&quot; data-section-id=&quot;avgjij&quot; data-ke-size=&quot;size26&quot;&gt;1. 출력 안정도(Line / Load Regulation)&lt;/h2&gt;
&lt;p data-end=&quot;1614&quot; data-start=&quot;1570&quot; data-ke-size=&quot;size16&quot;&gt;입력 전압 또는 부하 변화에도 출력이 얼마나 안정적으로 유지되는지를 의미합니다.&lt;/p&gt;
&lt;p data-end=&quot;1622&quot; data-start=&quot;1616&quot; data-ke-size=&quot;size16&quot;&gt;예를 들어:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1652&quot; data-start=&quot;1623&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1635&quot; data-start=&quot;1623&quot; data-section-id=&quot;1wqjunr&quot;&gt;MCU 전원 테스트&lt;/li&gt;
&lt;li data-end=&quot;1644&quot; data-start=&quot;1636&quot; data-section-id=&quot;9zudq0&quot;&gt;센서 테스트&lt;/li&gt;
&lt;li data-end=&quot;1652&quot; data-start=&quot;1645&quot; data-section-id=&quot;179syh8&quot;&gt;RF 회로&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1671&quot; data-start=&quot;1654&quot; data-ke-size=&quot;size16&quot;&gt;에서는 매우 중요한 요소입니다.&lt;/p&gt;
&lt;p data-end=&quot;1708&quot; data-start=&quot;1673&quot; data-ke-size=&quot;size16&quot;&gt;출력 안정도가 낮으면 회로 동작 자체가 불안정해질 수 있습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1734&quot; data-start=&quot;1715&quot; data-section-id=&quot;151yh00&quot; data-ke-size=&quot;size26&quot;&gt;2. Ripple &amp;amp; Noise&lt;/h2&gt;
&lt;p data-end=&quot;1762&quot; data-start=&quot;1736&quot; data-ke-size=&quot;size16&quot;&gt;직류전원공급기에서 매우 중요한 성능 지표입니다.&lt;/p&gt;
&lt;p data-end=&quot;1812&quot; data-start=&quot;1764&quot; data-ke-size=&quot;size16&quot;&gt;이상적인 DC 전원은 완전히 평탄해야 하지만, 실제로는 미세한 교류 성분이 포함됩니다.&lt;/p&gt;
&lt;p data-end=&quot;1817&quot; data-start=&quot;1814&quot; data-ke-size=&quot;size16&quot;&gt;이를:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1834&quot; data-start=&quot;1818&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1826&quot; data-start=&quot;1818&quot; data-section-id=&quot;6trniy&quot;&gt;Ripple&lt;/li&gt;
&lt;li data-end=&quot;1834&quot; data-start=&quot;1827&quot; data-section-id=&quot;16v87qu&quot;&gt;Noise&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1843&quot; data-start=&quot;1836&quot; data-ke-size=&quot;size16&quot;&gt;라고 합니다.&lt;/p&gt;
&lt;p data-end=&quot;1856&quot; data-start=&quot;1845&quot; data-ke-size=&quot;size16&quot;&gt;Ripple이 크면:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1895&quot; data-start=&quot;1857&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1866&quot; data-start=&quot;1857&quot; data-section-id=&quot;utfzia&quot;&gt;ADC 오동작&lt;/li&gt;
&lt;li data-end=&quot;1874&quot; data-start=&quot;1867&quot; data-section-id=&quot;fdenxg&quot;&gt;센서 오차&lt;/li&gt;
&lt;li data-end=&quot;1885&quot; data-start=&quot;1875&quot; data-section-id=&quot;jaqxu8&quot;&gt;RF 성능 저하&lt;/li&gt;
&lt;li data-end=&quot;1895&quot; data-start=&quot;1886&quot; data-section-id=&quot;vcl3x4&quot;&gt;오디오 노이즈&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1912&quot; data-start=&quot;1897&quot; data-ke-size=&quot;size16&quot;&gt;문제가 발생할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;1947&quot; data-start=&quot;1914&quot; data-ke-size=&quot;size16&quot;&gt;고급 전원공급기일수록 Low Ripple 설계를 적용합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1982&quot; data-start=&quot;1954&quot; data-section-id=&quot;rsetr7&quot; data-ke-size=&quot;size26&quot;&gt;3. 전압 및 전류 분해능(Resolution)&lt;/h2&gt;
&lt;p data-end=&quot;2014&quot; data-start=&quot;1984&quot; data-ke-size=&quot;size16&quot;&gt;출력을 얼마나 세밀하게 조정할 수 있는지를 의미합니다.&lt;/p&gt;
&lt;p data-end=&quot;2018&quot; data-start=&quot;2016&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2037&quot; data-start=&quot;2019&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2025&quot; data-start=&quot;2019&quot; data-section-id=&quot;1j29ssy&quot;&gt;10mV&lt;/li&gt;
&lt;li data-end=&quot;2031&quot; data-start=&quot;2026&quot; data-section-id=&quot;1o2j2a&quot;&gt;1mV&lt;/li&gt;
&lt;li data-end=&quot;2037&quot; data-start=&quot;2032&quot; data-section-id=&quot;1o2j2t&quot;&gt;1mA&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2050&quot; data-start=&quot;2039&quot; data-ke-size=&quot;size16&quot;&gt;단위 조정 가능 여부&lt;/p&gt;
&lt;p data-end=&quot;2074&quot; data-start=&quot;2052&quot; data-ke-size=&quot;size16&quot;&gt;정밀 테스트 환경에서는 매우 중요합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2111&quot; data-start=&quot;2081&quot; data-section-id=&quot;1b7qlkv&quot; data-ke-size=&quot;size26&quot;&gt;4. 응답 속도(Transient Response)&lt;/h2&gt;
&lt;p data-end=&quot;2152&quot; data-start=&quot;2113&quot; data-ke-size=&quot;size16&quot;&gt;부하가 급격히 변할 때 출력이 얼마나 빠르게 안정화되는지를 의미합니다.&lt;/p&gt;
&lt;p data-end=&quot;2160&quot; data-start=&quot;2154&quot; data-ke-size=&quot;size16&quot;&gt;예를 들어:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2184&quot; data-start=&quot;2161&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2166&quot; data-start=&quot;2161&quot; data-section-id=&quot;1o4e26&quot;&gt;CPU&lt;/li&gt;
&lt;li data-end=&quot;2173&quot; data-start=&quot;2167&quot; data-section-id=&quot;1j46a8o&quot;&gt;FPGA&lt;/li&gt;
&lt;li data-end=&quot;2184&quot; data-start=&quot;2174&quot; data-section-id=&quot;84hwlk&quot;&gt;모터 제어 회로&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2210&quot; data-start=&quot;2186&quot; data-ke-size=&quot;size16&quot;&gt;등은 순간적으로 큰 전류 변동이 발생합니다.&lt;/p&gt;
&lt;p data-end=&quot;2223&quot; data-start=&quot;2212&quot; data-ke-size=&quot;size16&quot;&gt;응답 속도가 느리면:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2246&quot; data-start=&quot;2224&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2231&quot; data-start=&quot;2224&quot; data-section-id=&quot;1gdkmqc&quot;&gt;전압 강하&lt;/li&gt;
&lt;li data-end=&quot;2240&quot; data-start=&quot;2232&quot; data-section-id=&quot;ozdhor&quot;&gt;시스템 리셋&lt;/li&gt;
&lt;li data-end=&quot;2246&quot; data-start=&quot;2241&quot; data-section-id=&quot;2jik10&quot;&gt;오동작&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2263&quot; data-start=&quot;2248&quot; data-ke-size=&quot;size16&quot;&gt;문제가 발생할 수 있습니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;2314&quot; data-start=&quot;2270&quot; data-section-id=&quot;3lw47s&quot;&gt;CV(Constant Voltage)와 CC(Constant Current)&lt;/h1&gt;
&lt;p data-end=&quot;2344&quot; data-start=&quot;2316&quot; data-ke-size=&quot;size16&quot;&gt;직류전원공급기를 이해할 때 가장 중요한 개념입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2367&quot; data-start=&quot;2351&quot; data-section-id=&quot;10vpbjq&quot; data-ke-size=&quot;size26&quot;&gt;CV 모드 (정전압 모드)&lt;/h2&gt;
&lt;p data-end=&quot;2393&quot; data-start=&quot;2369&quot; data-ke-size=&quot;size16&quot;&gt;설정한 전압을 일정하게 유지하는 모드입니다.&lt;/p&gt;
&lt;p data-end=&quot;2419&quot; data-start=&quot;2395&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;br /&gt;5V 설정 &amp;rarr; 부하가 변해도 5V 유지&lt;/p&gt;
&lt;p data-end=&quot;2443&quot; data-start=&quot;2421&quot; data-ke-size=&quot;size16&quot;&gt;대부분 일반 회로 테스트에서 사용됩니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2466&quot; data-start=&quot;2450&quot; data-section-id=&quot;1vph06m&quot; data-ke-size=&quot;size26&quot;&gt;CC 모드 (정전류 모드)&lt;/h2&gt;
&lt;p data-end=&quot;2498&quot; data-start=&quot;2468&quot; data-ke-size=&quot;size16&quot;&gt;설정한 전류 이상이 흐르지 않도록 제한하는 모드입니다.&lt;/p&gt;
&lt;p data-end=&quot;2529&quot; data-start=&quot;2500&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;br /&gt;1A 제한 설정 &amp;rarr; 1A 이상 흐르면 자동 제한&lt;/p&gt;
&lt;p data-end=&quot;2547&quot; data-start=&quot;2531&quot; data-ke-size=&quot;size16&quot;&gt;부품 보호에 매우 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;2552&quot; data-start=&quot;2549&quot; data-ke-size=&quot;size16&quot;&gt;특히:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2583&quot; data-start=&quot;2553&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2562&quot; data-start=&quot;2553&quot; data-section-id=&quot;1cn9jlh&quot;&gt;LED 테스트&lt;/li&gt;
&lt;li data-end=&quot;2571&quot; data-start=&quot;2563&quot; data-section-id=&quot;ef8dgp&quot;&gt;배터리 충전&lt;/li&gt;
&lt;li data-end=&quot;2583&quot; data-start=&quot;2572&quot; data-section-id=&quot;1psluol&quot;&gt;회로 초기 디버깅&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2597&quot; data-start=&quot;2585&quot; data-ke-size=&quot;size16&quot;&gt;에서 필수 기능입니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;2623&quot; data-start=&quot;2604&quot; data-section-id=&quot;1iwwr3u&quot;&gt;직류전원공급기의 주요 활용 분야&lt;/h1&gt;
&lt;h2 data-end=&quot;2637&quot; data-start=&quot;2625&quot; data-section-id=&quot;ld984d&quot; data-ke-size=&quot;size26&quot;&gt;1. 전자회로 개발&lt;/h2&gt;
&lt;p data-end=&quot;2670&quot; data-start=&quot;2639&quot; data-ke-size=&quot;size16&quot;&gt;회로에 안정적인 전원을 공급하며 동작 상태를 검증합니다.&lt;/p&gt;
&lt;p data-end=&quot;2674&quot; data-start=&quot;2672&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2702&quot; data-start=&quot;2675&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2683&quot; data-start=&quot;2675&quot; data-section-id=&quot;1t2jivn&quot;&gt;MCU 개발&lt;/li&gt;
&lt;li data-end=&quot;2692&quot; data-start=&quot;2684&quot; data-section-id=&quot;9zudq0&quot;&gt;센서 테스트&lt;/li&gt;
&lt;li data-end=&quot;2702&quot; data-start=&quot;2693&quot; data-section-id=&quot;1eqy0ag&quot;&gt;증폭기 테스트&lt;/li&gt;
&lt;/ul&gt;
&lt;h2 data-end=&quot;2725&quot; data-start=&quot;2709&quot; data-section-id=&quot;9o1uqa&quot; data-ke-size=&quot;size26&quot;&gt;2. 임베디드 시스템 개발&lt;/h2&gt;
&lt;p data-end=&quot;2752&quot; data-start=&quot;2727&quot; data-ke-size=&quot;size16&quot;&gt;다양한 전압 환경을 시뮬레이션할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;2756&quot; data-start=&quot;2754&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2774&quot; data-start=&quot;2757&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2763&quot; data-start=&quot;2757&quot; data-section-id=&quot;1j2bivk&quot;&gt;3.3V&lt;/li&gt;
&lt;li data-end=&quot;2768&quot; data-start=&quot;2764&quot; data-section-id=&quot;yhmru3&quot;&gt;5V&lt;/li&gt;
&lt;li data-end=&quot;2774&quot; data-start=&quot;2769&quot; data-section-id=&quot;1o2h8d&quot;&gt;12V&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2779&quot; data-start=&quot;2776&quot; data-ke-size=&quot;size16&quot;&gt;테스트&lt;/p&gt;
&lt;h2 data-end=&quot;2801&quot; data-start=&quot;2786&quot; data-section-id=&quot;1v7g13f&quot; data-ke-size=&quot;size26&quot;&gt;3. 자동차 전장 테스트&lt;/h2&gt;
&lt;p data-end=&quot;2821&quot; data-start=&quot;2803&quot; data-ke-size=&quot;size16&quot;&gt;자동차 배터리 환경을 재현합니다.&lt;/p&gt;
&lt;p data-end=&quot;2825&quot; data-start=&quot;2823&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2850&quot; data-start=&quot;2826&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2838&quot; data-start=&quot;2826&quot; data-section-id=&quot;mcft5l&quot;&gt;Cold Crank&lt;/li&gt;
&lt;li data-end=&quot;2850&quot; data-start=&quot;2839&quot; data-section-id=&quot;r8sis0&quot;&gt;전압 변동 테스트&lt;/li&gt;
&lt;/ul&gt;
&lt;h2 data-end=&quot;2869&quot; data-start=&quot;2857&quot; data-section-id=&quot;1emaohl&quot; data-ke-size=&quot;size26&quot;&gt;4. 생산라인 검사&lt;/h2&gt;
&lt;p data-end=&quot;2894&quot; data-start=&quot;2871&quot; data-ke-size=&quot;size16&quot;&gt;제품 출하 전 안정성 테스트에 사용됩니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2913&quot; data-start=&quot;2901&quot; data-section-id=&quot;1rb84fz&quot; data-ke-size=&quot;size26&quot;&gt;5. 연구 및 교육&lt;/h2&gt;
&lt;p data-end=&quot;2938&quot; data-start=&quot;2915&quot; data-ke-size=&quot;size16&quot;&gt;대학교 및 연구소 실험 장비로 활용됩니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;2969&quot; data-start=&quot;2945&quot; data-section-id=&quot;1e9ndsy&quot;&gt;선형 전원공급기와 스위칭 전원공급기 차이&lt;/h1&gt;
&lt;h2 data-end=&quot;2988&quot; data-start=&quot;2971&quot; data-section-id=&quot;7s54bf&quot; data-ke-size=&quot;size26&quot;&gt;선형(Linear) 방식&lt;/h2&gt;
&lt;p data-end=&quot;2993&quot; data-start=&quot;2990&quot; data-ke-size=&quot;size16&quot;&gt;장점:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3017&quot; data-start=&quot;2994&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3005&quot; data-start=&quot;2994&quot; data-section-id=&quot;pnjrq&quot;&gt;매우 낮은 노이즈&lt;/li&gt;
&lt;li data-end=&quot;3017&quot; data-start=&quot;3006&quot; data-section-id=&quot;1b0rged&quot;&gt;우수한 출력 품질&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3022&quot; data-start=&quot;3019&quot; data-ke-size=&quot;size16&quot;&gt;단점:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3033&quot; data-start=&quot;3023&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3033&quot; data-start=&quot;3023&quot; data-section-id=&quot;pcd9ux&quot;&gt;무겁고 발열 큼&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3038&quot; data-start=&quot;3035&quot; data-ke-size=&quot;size16&quot;&gt;주로:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3062&quot; data-start=&quot;3039&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3048&quot; data-start=&quot;3039&quot; data-section-id=&quot;1jzy8m5&quot;&gt;정밀 아날로그&lt;/li&gt;
&lt;li data-end=&quot;3054&quot; data-start=&quot;3049&quot; data-section-id=&quot;2jise4&quot;&gt;오디오&lt;/li&gt;
&lt;li data-end=&quot;3062&quot; data-start=&quot;3055&quot; data-section-id=&quot;179p2lc&quot;&gt;RF 실험&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3072&quot; data-start=&quot;3064&quot; data-ke-size=&quot;size16&quot;&gt;에 사용됩니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3093&quot; data-start=&quot;3079&quot; data-section-id=&quot;5bjxer&quot; data-ke-size=&quot;size26&quot;&gt;스위칭(SMPS) 방식&lt;/h2&gt;
&lt;p data-end=&quot;3098&quot; data-start=&quot;3095&quot; data-ke-size=&quot;size16&quot;&gt;장점:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3124&quot; data-start=&quot;3099&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3106&quot; data-start=&quot;3099&quot; data-section-id=&quot;1gh6uze&quot;&gt;높은 효율&lt;/li&gt;
&lt;li data-end=&quot;3115&quot; data-start=&quot;3107&quot; data-section-id=&quot;gu46ow&quot;&gt;소형화 가능&lt;/li&gt;
&lt;li data-end=&quot;3124&quot; data-start=&quot;3116&quot; data-section-id=&quot;1pez3v8&quot;&gt;고출력 가능&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3129&quot; data-start=&quot;3126&quot; data-ke-size=&quot;size16&quot;&gt;단점:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3144&quot; data-start=&quot;3130&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3144&quot; data-start=&quot;3130&quot; data-section-id=&quot;yowlpa&quot;&gt;상대적으로 높은 노이즈&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3176&quot; data-start=&quot;3146&quot; data-ke-size=&quot;size16&quot;&gt;최근 산업용 장비 대부분은 고효율 SMPS 기반입니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;3206&quot; data-start=&quot;3183&quot; data-section-id=&quot;ecwqd1&quot;&gt;EZTMI 직류전원공급기의 특징과 장점&lt;/h1&gt;
&lt;div&gt;
&lt;div&gt;
&lt;div&gt;
&lt;div&gt;&lt;figure class=&quot;imageblock alignCenter&quot; data-ke-mobileStyle=&quot;widthOrigin&quot; data-origin-width=&quot;640&quot; data-origin-height=&quot;411&quot;&gt;&lt;span data-url=&quot;https://blog.kakaocdn.net/dn/cgqbry/dJMcadWhzEy/Md89IGREz03wbsGTBn2OzK/img.jpg&quot; data-phocus=&quot;https://blog.kakaocdn.net/dn/cgqbry/dJMcadWhzEy/Md89IGREz03wbsGTBn2OzK/img.jpg&quot;&gt;&lt;img src=&quot;https://blog.kakaocdn.net/dn/cgqbry/dJMcadWhzEy/Md89IGREz03wbsGTBn2OzK/img.jpg&quot; srcset=&quot;https://img1.daumcdn.net/thumb/R1280x0/?scode=mtistory2&amp;fname=https%3A%2F%2Fblog.kakaocdn.net%2Fdn%2Fcgqbry%2FdJMcadWhzEy%2FMd89IGREz03wbsGTBn2OzK%2Fimg.jpg&quot; onerror=&quot;this.onerror=null; this.src='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png'; this.srcset='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png';&quot; loading=&quot;lazy&quot; width=&quot;640&quot; height=&quot;411&quot; data-origin-width=&quot;640&quot; data-origin-height=&quot;411&quot;/&gt;&lt;/span&gt;&lt;/figure&gt;
&lt;/div&gt;
&lt;/div&gt;
&lt;/div&gt;
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&lt;div&gt;&amp;nbsp;&lt;/div&gt;
&lt;/div&gt;
&lt;/div&gt;
&lt;div&gt;
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&lt;div&gt;&amp;nbsp;&lt;/div&gt;
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&lt;div&gt;&amp;nbsp;&lt;/div&gt;
&lt;/div&gt;
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&lt;/div&gt;
&lt;/div&gt;
&lt;/div&gt;
&lt;p data-end=&quot;3284&quot; data-start=&quot;3250&quot; data-ke-size=&quot;size16&quot;&gt;&lt;a href=&quot;https://eztmi.com&quot; data-end=&quot;3284&quot; data-start=&quot;3250&quot;&gt;EZTMI 공식 홈페이지&lt;span aria-hidden=&quot;true&quot;&gt;&lt;/span&gt;&lt;/a&gt;&lt;/p&gt;
&lt;p data-end=&quot;3339&quot; data-start=&quot;3286&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI는 산업용 전자 계측기 전문 기업으로 다양한 직류전원공급기 제품군을 공급하고 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;3384&quot; data-start=&quot;3341&quot; data-ke-size=&quot;size16&quot;&gt;특히 실제 산업 현장과 연구개발 환경 중심의 실용적인 제품 구성이 강점입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3405&quot; data-start=&quot;3391&quot; data-section-id=&quot;10uauzi&quot; data-ke-size=&quot;size26&quot;&gt;1. 높은 출력 안정성&lt;/h2&gt;
&lt;p data-end=&quot;3461&quot; data-start=&quot;3407&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 직류전원공급기는 안정적인 출력 제어를 기반으로 정밀 전자회로 테스트 환경에 적합합니다.&lt;/p&gt;
&lt;p data-end=&quot;3466&quot; data-start=&quot;3463&quot; data-ke-size=&quot;size16&quot;&gt;특히:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3488&quot; data-start=&quot;3467&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3472&quot; data-start=&quot;3467&quot; data-section-id=&quot;1o4c0j&quot;&gt;MCU&lt;/li&gt;
&lt;li data-end=&quot;3477&quot; data-start=&quot;3473&quot; data-section-id=&quot;yilp1k&quot;&gt;센서&lt;/li&gt;
&lt;li data-end=&quot;3488&quot; data-start=&quot;3478&quot; data-section-id=&quot;1rlevvp&quot;&gt;산업 제어 회로&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3523&quot; data-start=&quot;3490&quot; data-ke-size=&quot;size16&quot;&gt;등 전원 안정성이 중요한 환경에서 높은 활용도를 제공합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3548&quot; data-start=&quot;3530&quot; data-section-id=&quot;1b78sl8&quot; data-ke-size=&quot;size26&quot;&gt;2. Low Ripple 설계&lt;/h2&gt;
&lt;p data-end=&quot;3579&quot; data-start=&quot;3550&quot; data-ke-size=&quot;size16&quot;&gt;전자회로 테스트에서는 출력 노이즈가 매우 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;3608&quot; data-start=&quot;3581&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 제품군은 안정적인 출력 품질 기반으로:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3636&quot; data-start=&quot;3609&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3618&quot; data-start=&quot;3609&quot; data-section-id=&quot;1isvcm0&quot;&gt;아날로그 회로&lt;/li&gt;
&lt;li data-end=&quot;3625&quot; data-start=&quot;3619&quot; data-section-id=&quot;chr61p&quot;&gt;전력전자&lt;/li&gt;
&lt;li data-end=&quot;3636&quot; data-start=&quot;3626&quot; data-section-id=&quot;14ifb9c&quot;&gt;임베디드 시스템&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3649&quot; data-start=&quot;3638&quot; data-ke-size=&quot;size16&quot;&gt;테스트에 적합합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3677&quot; data-start=&quot;3656&quot; data-section-id=&quot;1pu2t70&quot; data-ke-size=&quot;size26&quot;&gt;3. CV / CC 정밀 제어 지원&lt;/h2&gt;
&lt;p data-end=&quot;3694&quot; data-start=&quot;3679&quot; data-ke-size=&quot;size16&quot;&gt;정전압&amp;middot;정전류 모드를 통해:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3720&quot; data-start=&quot;3695&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3702&quot; data-start=&quot;3695&quot; data-section-id=&quot;1sm2ys4&quot;&gt;회로 보호&lt;/li&gt;
&lt;li data-end=&quot;3711&quot; data-start=&quot;3703&quot; data-section-id=&quot;7q36fk&quot;&gt;부품 테스트&lt;/li&gt;
&lt;li data-end=&quot;3720&quot; data-start=&quot;3712&quot; data-section-id=&quot;ef9d08&quot;&gt;배터리 실험&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3742&quot; data-start=&quot;3722&quot; data-ke-size=&quot;size16&quot;&gt;등 다양한 환경에서 활용 가능합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3765&quot; data-start=&quot;3749&quot; data-section-id=&quot;j0j5p1&quot; data-ke-size=&quot;size26&quot;&gt;4. 산업 현장 중심 설계&lt;/h2&gt;
&lt;p data-end=&quot;3779&quot; data-start=&quot;3767&quot; data-ke-size=&quot;size16&quot;&gt;실제 산업 환경에서는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3803&quot; data-start=&quot;3780&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3789&quot; data-start=&quot;3780&quot; data-section-id=&quot;14ybttl&quot;&gt;장시간 안정성&lt;/li&gt;
&lt;li data-end=&quot;3795&quot; data-start=&quot;3790&quot; data-section-id=&quot;20dnlt&quot;&gt;내구성&lt;/li&gt;
&lt;li data-end=&quot;3803&quot; data-start=&quot;3796&quot; data-section-id=&quot;365a6p&quot;&gt;보호 기능&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3813&quot; data-start=&quot;3805&quot; data-ke-size=&quot;size16&quot;&gt;이 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;3826&quot; data-start=&quot;3815&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 제품군은:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3858&quot; data-start=&quot;3827&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3832&quot; data-start=&quot;3827&quot; data-section-id=&quot;2jutdk&quot;&gt;연구소&lt;/li&gt;
&lt;li data-end=&quot;3839&quot; data-start=&quot;3833&quot; data-section-id=&quot;dhvme9&quot;&gt;생산라인&lt;/li&gt;
&lt;li data-end=&quot;3849&quot; data-start=&quot;3840&quot; data-section-id=&quot;1nz0d5x&quot;&gt;유지보수 현장&lt;/li&gt;
&lt;li data-end=&quot;3858&quot; data-start=&quot;3850&quot; data-section-id=&quot;1pt0dh1&quot;&gt;자동화 설비&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3900&quot; data-start=&quot;3860&quot; data-ke-size=&quot;size16&quot;&gt;등 다양한 산업 환경에서 안정적으로 사용할 수 있도록 설계되어 있습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3924&quot; data-start=&quot;3907&quot; data-section-id=&quot;1hppyyk&quot; data-ke-size=&quot;size26&quot;&gt;5. 뛰어난 가격 대비 성능&lt;/h2&gt;
&lt;p data-end=&quot;3971&quot; data-start=&quot;3926&quot; data-ke-size=&quot;size16&quot;&gt;고가 해외 브랜드 대비 합리적인 가격으로 효율적인 테스트 환경 구축이 가능합니다.&lt;/p&gt;
&lt;p data-end=&quot;3976&quot; data-start=&quot;3973&quot; data-ke-size=&quot;size16&quot;&gt;특히:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4005&quot; data-start=&quot;3977&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3987&quot; data-start=&quot;3977&quot; data-section-id=&quot;1ygt7o0&quot;&gt;중소기업 연구소&lt;/li&gt;
&lt;li data-end=&quot;3992&quot; data-start=&quot;3988&quot; data-section-id=&quot;yiin9d&quot;&gt;학교&lt;/li&gt;
&lt;li data-end=&quot;4005&quot; data-start=&quot;3993&quot; data-section-id=&quot;6ggms4&quot;&gt;스타트업 개발 환경&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4023&quot; data-start=&quot;4007&quot; data-ke-size=&quot;size16&quot;&gt;에서 높은 활용도를 보입니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;4047&quot; data-start=&quot;4030&quot; data-section-id=&quot;c66cyy&quot;&gt;직류전원공급기가 중요한 이유&lt;/h1&gt;
&lt;p data-end=&quot;4060&quot; data-start=&quot;4049&quot; data-ke-size=&quot;size16&quot;&gt;현대 전자 시스템은:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4080&quot; data-start=&quot;4061&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4066&quot; data-start=&quot;4061&quot; data-section-id=&quot;22zay9&quot;&gt;고속화&lt;/li&gt;
&lt;li data-end=&quot;4073&quot; data-start=&quot;4067&quot; data-section-id=&quot;caa5l9&quot;&gt;저전압화&lt;/li&gt;
&lt;li data-end=&quot;4080&quot; data-start=&quot;4074&quot; data-section-id=&quot;1wrpdyk&quot;&gt;고집적화&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4114&quot; data-start=&quot;4082&quot; data-ke-size=&quot;size16&quot;&gt;가 진행되면서 전원 품질의 중요성이 더욱 커지고 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;4119&quot; data-start=&quot;4116&quot; data-ke-size=&quot;size16&quot;&gt;특히:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4160&quot; data-start=&quot;4120&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4125&quot; data-start=&quot;4120&quot; data-section-id=&quot;213dj4&quot;&gt;반도체&lt;/li&gt;
&lt;li data-end=&quot;4136&quot; data-start=&quot;4126&quot; data-section-id=&quot;14ifb9c&quot;&gt;임베디드 시스템&lt;/li&gt;
&lt;li data-end=&quot;4145&quot; data-start=&quot;4137&quot; data-section-id=&quot;1lv19qg&quot;&gt;자동차 전장&lt;/li&gt;
&lt;li data-end=&quot;4152&quot; data-start=&quot;4146&quot; data-section-id=&quot;chr61p&quot;&gt;전력전자&lt;/li&gt;
&lt;li data-end=&quot;4160&quot; data-start=&quot;4153&quot; data-section-id=&quot;nnfz4s&quot;&gt;통신 장비&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4194&quot; data-start=&quot;4162&quot; data-ke-size=&quot;size16&quot;&gt;등에서는 안정적인 전원 공급이 시스템 신뢰성과 직결됩니다.&lt;/p&gt;
&lt;p data-end=&quot;4261&quot; data-start=&quot;4196&quot; data-ke-size=&quot;size16&quot;&gt;직류전원공급기는 단순 전원 장치가 아니라 전자 시스템의 안정성과 성능을 검증하는 핵심 계측 장비라고 할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;4261&quot; data-start=&quot;4196&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style1&quot; /&gt;
&lt;h1 data-end=&quot;4272&quot; data-start=&quot;4268&quot; data-section-id=&quot;yi4awm&quot;&gt;결론&lt;/h1&gt;
&lt;p data-end=&quot;4347&quot; data-start=&quot;4274&quot; data-ke-size=&quot;size16&quot;&gt;직류전원공급기는 안정적인 DC 전원을 공급하여 전자회로와 시스템이 정상적으로 동작할 수 있도록 지원하는 핵심 전자 계측 장비입니다.&lt;/p&gt;
&lt;p data-end=&quot;4364&quot; data-start=&quot;4349&quot; data-ke-size=&quot;size16&quot;&gt;특히 최근 산업 환경에서는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4404&quot; data-start=&quot;4365&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4375&quot; data-start=&quot;4365&quot; data-section-id=&quot;a91078&quot;&gt;정밀 전압 제어&lt;/li&gt;
&lt;li data-end=&quot;4385&quot; data-start=&quot;4376&quot; data-section-id=&quot;1nxhv05&quot;&gt;저노이즈 출력&lt;/li&gt;
&lt;li data-end=&quot;4396&quot; data-start=&quot;4386&quot; data-section-id=&quot;doq719&quot;&gt;빠른 응답 속도&lt;/li&gt;
&lt;li data-end=&quot;4404&quot; data-start=&quot;4397&quot; data-section-id=&quot;365a6p&quot;&gt;보호 기능&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4460&quot; data-start=&quot;4406&quot; data-ke-size=&quot;size16&quot;&gt;등의 중요성이 더욱 커지고 있으며, 고성능 직류전원공급기의 필요성도 지속적으로 증가하고 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;4552&quot; data-start=&quot;4462&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 직류전원공급기는 산업 현장 중심 설계와 안정적인 출력 성능, 뛰어난 가성비를 기반으로 다양한 테스트 환경에서 효율적인 전원 솔루션을 제공하고 있습니다.&lt;/p&gt;
&lt;p data-is-only-node=&quot;&quot; data-is-last-node=&quot;&quot; data-end=&quot;4622&quot; data-start=&quot;4554&quot; data-ke-size=&quot;size16&quot;&gt;정확한 계측은 안정적인 전원에서 시작되며, 직류전원공급기는 전자 계측 환경의 가장 기본이자 핵심 장비라고 할 수 있습니다.&lt;/p&gt;</description>
      <author>eztmi-review</author>
      <guid isPermaLink="true">https://eztmi-review.tistory.com/3</guid>
      <comments>https://eztmi-review.tistory.com/3#entry3comment</comments>
      <pubDate>Thu, 14 May 2026 12:13:05 +0900</pubDate>
    </item>
    <item>
      <title>함수발생기(Function Generator)란 무엇인가?</title>
      <link>https://eztmi-review.tistory.com/2</link>
      <description>&lt;h1 data-end=&quot;36&quot; data-start=&quot;0&quot; data-section-id=&quot;68jhoj&quot;&gt;함수발생기(Function Generator)란 무엇인가?&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;69&quot; data-start=&quot;37&quot; data-ke-size=&quot;size16&quot;&gt;전자회로 테스트를 위한 핵심 신호 발생 장비의 원리와 활용&lt;/p&gt;
&lt;p data-end=&quot;154&quot; data-start=&quot;71&quot; data-ke-size=&quot;size16&quot;&gt;전자회로는 입력(Input)과 출력(Output)의 관계로 동작합니다.&lt;br /&gt;즉, 특정 신호를 입력하면 회로는 그에 따른 동작 결과를 출력하게 됩니다.&lt;/p&gt;
&lt;p data-end=&quot;248&quot; data-start=&quot;156&quot; data-ke-size=&quot;size16&quot;&gt;따라서 전자회로나 시스템의 성능을 정확하게 검증하려면 단순 측정만으로는 부족하며, 실제 환경과 동일한 전기 신호를 만들어 회로에 입력해주는 과정이 반드시 필요합니다.&lt;/p&gt;
&lt;p data-end=&quot;310&quot; data-start=&quot;250&quot; data-ke-size=&quot;size16&quot;&gt;이때 사용하는 대표적인 전자 계측 장비가 바로 &lt;b&gt;함수발생기(Function Generator)&lt;/b&gt; 입니다.&lt;/p&gt;
&lt;p data-end=&quot;384&quot; data-start=&quot;312&quot; data-ke-size=&quot;size16&quot;&gt;함수발생기는 다양한 형태의 전기적 파형(Waveform)을 정밀하게 생성하여 전자 회로 및 장비에 입력하는 신호 발생 장비입니다.&lt;/p&gt;
&lt;p data-end=&quot;393&quot; data-start=&quot;386&quot; data-ke-size=&quot;size16&quot;&gt;쉽게 말하면:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;451&quot; data-start=&quot;395&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;423&quot; data-start=&quot;395&quot; data-section-id=&quot;1od4e97&quot;&gt;오실로스코프 &amp;rarr; 회로의 신호를 &amp;ldquo;분석&amp;rdquo;하는 장비&lt;/li&gt;
&lt;li data-end=&quot;451&quot; data-start=&quot;424&quot; data-section-id=&quot;2g03pn&quot;&gt;함수발생기 &amp;rarr; 회로에 신호를 &amp;ldquo;인가&amp;rdquo;하는 장비&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;465&quot; data-start=&quot;453&quot; data-ke-size=&quot;size16&quot;&gt;라고 이해하면 됩니다.&lt;/p&gt;
&lt;p data-end=&quot;553&quot; data-start=&quot;467&quot; data-ke-size=&quot;size16&quot;&gt;실제 전자 개발 환경에서는 함수발생기와 오실로스코프가 함께 사용되는 경우가 매우 많으며, 두 장비는 전자 계측의 가장 기본적인 조합이라고 할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;553&quot; data-start=&quot;467&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;576&quot; data-start=&quot;560&quot; data-section-id=&quot;14tp9el&quot;&gt;왜 함수발생기가 중요한가?&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;615&quot; data-start=&quot;578&quot; data-ke-size=&quot;size16&quot;&gt;전자회로는 단순히 전원이 들어온다고 동작이 검증되는 것이 아닙니다.&lt;/p&gt;
&lt;p data-end=&quot;623&quot; data-start=&quot;617&quot; data-ke-size=&quot;size16&quot;&gt;예를 들어:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;742&quot; data-start=&quot;625&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;646&quot; data-start=&quot;625&quot; data-section-id=&quot;14tclyu&quot;&gt;센서 입력이 정상적으로 들어오는가?&lt;/li&gt;
&lt;li data-end=&quot;671&quot; data-start=&quot;647&quot; data-section-id=&quot;8s3khk&quot;&gt;MCU가 클럭 신호를 제대로 인식하는가?&lt;/li&gt;
&lt;li data-end=&quot;699&quot; data-start=&quot;672&quot; data-section-id=&quot;6txdpn&quot;&gt;필터 회로가 특정 주파수를 제대로 제거하는가?&lt;/li&gt;
&lt;li data-end=&quot;719&quot; data-start=&quot;700&quot; data-section-id=&quot;tfduyk&quot;&gt;증폭기가 왜곡 없이 동작하는가?&lt;/li&gt;
&lt;li data-end=&quot;742&quot; data-start=&quot;720&quot; data-section-id=&quot;ccpq45&quot;&gt;PWM 제어가 정상적으로 출력되는가?&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;782&quot; data-start=&quot;744&quot; data-ke-size=&quot;size16&quot;&gt;이러한 테스트를 위해서는 실제 입력 신호를 정확하게 만들어야 합니다.&lt;/p&gt;
&lt;p data-end=&quot;824&quot; data-start=&quot;784&quot; data-ke-size=&quot;size16&quot;&gt;함수발생기는 이러한 테스트 환경을 인위적으로 재현하는 역할을 수행합니다.&lt;/p&gt;
&lt;p data-end=&quot;891&quot; data-start=&quot;826&quot; data-ke-size=&quot;size16&quot;&gt;즉, 함수발생기는 단순 &amp;ldquo;신호 출력기&amp;rdquo;가 아니라 전자 시스템의 성능과 안정성을 검증하기 위한 핵심 테스트 장비입니다.&lt;/p&gt;
&lt;p data-end=&quot;891&quot; data-start=&quot;826&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;912&quot; data-start=&quot;898&quot; data-section-id=&quot;53jdjf&quot;&gt;함수발생기의 기본 원리&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;970&quot; data-start=&quot;914&quot; data-ke-size=&quot;size16&quot;&gt;현대 함수발생기의 대부분은 DDS(Direct Digital Synthesis) 방식으로 동작합니다.&lt;/p&gt;
&lt;p data-end=&quot;1014&quot; data-start=&quot;972&quot; data-ke-size=&quot;size16&quot;&gt;DDS는 디지털 기반으로 매우 정밀하고 안정적인 파형을 생성하는 기술입니다.&lt;/p&gt;
&lt;p data-end=&quot;1030&quot; data-start=&quot;1016&quot; data-ke-size=&quot;size16&quot;&gt;과거 아날로그 방식 대비:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1067&quot; data-start=&quot;1031&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1040&quot; data-start=&quot;1031&quot; data-section-id=&quot;1pzpe6c&quot;&gt;주파수 정확도&lt;/li&gt;
&lt;li data-end=&quot;1049&quot; data-start=&quot;1041&quot; data-section-id=&quot;my34t&quot;&gt;파형 안정성&lt;/li&gt;
&lt;li data-end=&quot;1058&quot; data-start=&quot;1050&quot; data-section-id=&quot;kenbl8&quot;&gt;저왜곡 출력&lt;/li&gt;
&lt;li data-end=&quot;1067&quot; data-start=&quot;1059&quot; data-section-id=&quot;ths0bp&quot;&gt;빠른 응답성&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1091&quot; data-start=&quot;1069&quot; data-ke-size=&quot;size16&quot;&gt;측면에서 훨씬 뛰어난 성능을 제공합니다.&lt;/p&gt;
&lt;p data-end=&quot;1091&quot; data-start=&quot;1069&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;1135&quot; data-start=&quot;1098&quot; data-section-id=&quot;p7zij&quot;&gt;DDS(Direct Digital Synthesis) 구조 이해&lt;/h1&gt;
&lt;p data-end=&quot;1167&quot; data-start=&quot;1137&quot; data-ke-size=&quot;size16&quot;&gt;DDS 기반 함수발생기의 내부 구조는 다음과 같습니다.&lt;/p&gt;
&lt;p data-end=&quot;1167&quot; data-start=&quot;1137&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;h2 data-end=&quot;1203&quot; data-start=&quot;1174&quot; data-section-id=&quot;1ao0jxt&quot; data-ke-size=&quot;size26&quot;&gt;1. Reference Clock (기준 클럭)&lt;/h2&gt;
&lt;p data-end=&quot;1232&quot; data-start=&quot;1205&quot; data-ke-size=&quot;size16&quot;&gt;모든 출력 신호의 기준이 되는 고정밀 클럭입니다.&lt;/p&gt;
&lt;p data-end=&quot;1304&quot; data-start=&quot;1234&quot; data-ke-size=&quot;size16&quot;&gt;클럭 정확도가 낮으면 출력 주파수 자체가 흔들리기 때문에, 함수발생기의 신호 품질은 결국 기준 클럭 안정성에 의해 결정됩니다.&lt;/p&gt;
&lt;p data-end=&quot;1315&quot; data-start=&quot;1306&quot; data-ke-size=&quot;size16&quot;&gt;고급 장비일수록:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1352&quot; data-start=&quot;1316&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1327&quot; data-start=&quot;1316&quot; data-section-id=&quot;12j9twy&quot;&gt;낮은 Jitter&lt;/li&gt;
&lt;li data-end=&quot;1352&quot; data-start=&quot;1328&quot; data-section-id=&quot;1p0x8wr&quot;&gt;높은 Frequency Stability&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1362&quot; data-start=&quot;1354&quot; data-ke-size=&quot;size16&quot;&gt;를 제공합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1401&quot; data-start=&quot;1369&quot; data-section-id=&quot;155sbry&quot; data-ke-size=&quot;size26&quot;&gt;2. Phase Accumulator (위상 누산기)&lt;/h2&gt;
&lt;p data-end=&quot;1430&quot; data-start=&quot;1403&quot; data-ke-size=&quot;size16&quot;&gt;출력할 주파수를 계산하는 DDS 핵심 블록입니다.&lt;/p&gt;
&lt;p data-end=&quot;1466&quot; data-start=&quot;1432&quot; data-ke-size=&quot;size16&quot;&gt;디지털 방식으로 위상을 누적하면서 원하는 주파수를 생성합니다.&lt;/p&gt;
&lt;p data-end=&quot;1513&quot; data-start=&quot;1468&quot; data-ke-size=&quot;size16&quot;&gt;쉽게 말하면:&lt;br /&gt;&amp;ldquo;얼마나 빠르게 파형을 진행시킬 것인가?&amp;rdquo;&lt;br /&gt;를 계산하는 부분입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1547&quot; data-start=&quot;1520&quot; data-section-id=&quot;vxnyfr&quot; data-ke-size=&quot;size26&quot;&gt;3. Waveform Lookup Table&lt;/h2&gt;
&lt;p data-end=&quot;1590&quot; data-start=&quot;1549&quot; data-ke-size=&quot;size16&quot;&gt;사인파(Sine Wave)와 같은 기본 파형 데이터를 저장하는 영역입니다.&lt;/p&gt;
&lt;p data-end=&quot;1631&quot; data-start=&quot;1592&quot; data-ke-size=&quot;size16&quot;&gt;DDS는 저장된 데이터를 매우 빠르게 읽어 연속적인 파형을 생성합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1677&quot; data-start=&quot;1638&quot; data-section-id=&quot;lzg6tv&quot; data-ke-size=&quot;size26&quot;&gt;4. DAC (Digital to Analog Converter)&lt;/h2&gt;
&lt;p data-end=&quot;1707&quot; data-start=&quot;1679&quot; data-ke-size=&quot;size16&quot;&gt;디지털 데이터를 실제 아날로그 전압으로 변환합니다.&lt;/p&gt;
&lt;p data-end=&quot;1741&quot; data-start=&quot;1709&quot; data-ke-size=&quot;size16&quot;&gt;DAC 성능은 함수발생기의 핵심 품질 요소 중 하나입니다.&lt;/p&gt;
&lt;p data-end=&quot;1755&quot; data-start=&quot;1743&quot; data-ke-size=&quot;size16&quot;&gt;DAC 성능이 낮으면:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1784&quot; data-start=&quot;1756&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1767&quot; data-start=&quot;1756&quot; data-section-id=&quot;1y330o9&quot;&gt;계단형 파형 발생&lt;/li&gt;
&lt;li data-end=&quot;1775&quot; data-start=&quot;1768&quot; data-section-id=&quot;1vmc9ig&quot;&gt;왜곡 증가&lt;/li&gt;
&lt;li data-end=&quot;1784&quot; data-start=&quot;1776&quot; data-section-id=&quot;jep5ex&quot;&gt;고조파 증가&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1796&quot; data-start=&quot;1786&quot; data-ke-size=&quot;size16&quot;&gt;문제가 발생합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1825&quot; data-start=&quot;1803&quot; data-section-id=&quot;1g39zc0&quot; data-ke-size=&quot;size26&quot;&gt;5. Output Amplifier&lt;/h2&gt;
&lt;p data-end=&quot;1865&quot; data-start=&quot;1827&quot; data-ke-size=&quot;size16&quot;&gt;최종 출력 전압을 조절하고 외부 장비에 안정적으로 신호를 전달합니다.&lt;/p&gt;
&lt;p data-end=&quot;1865&quot; data-start=&quot;1827&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr data-end=&quot;1870&quot; data-start=&quot;1867&quot; data-ke-style=&quot;style1&quot; /&gt;
&lt;h1 data-end=&quot;1894&quot; data-start=&quot;1872&quot; data-section-id=&quot;g5ka7v&quot;&gt;함수발생기에서 가장 중요한 성능 요소&lt;/h1&gt;
&lt;p data-end=&quot;1953&quot; data-start=&quot;1896&quot; data-ke-size=&quot;size16&quot;&gt;초보자들은 흔히 &amp;ldquo;몇 MHz 제품인가?&amp;rdquo;만 보지만, 실제 엔지니어는 다음 요소들을 더 중요하게 봅니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1991&quot; data-start=&quot;1960&quot; data-section-id=&quot;1rag4pu&quot; data-ke-size=&quot;size26&quot;&gt;1. 출력 주파수 범위(Frequency Range)&lt;/h2&gt;
&lt;p data-end=&quot;2020&quot; data-start=&quot;1993&quot; data-ke-size=&quot;size16&quot;&gt;함수발생기가 생성 가능한 최대 주파수 범위입니다.&lt;/p&gt;
&lt;p data-end=&quot;2024&quot; data-start=&quot;2022&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2058&quot; data-start=&quot;2025&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2032&quot; data-start=&quot;2025&quot; data-section-id=&quot;15da5yo&quot;&gt;25MHz&lt;/li&gt;
&lt;li data-end=&quot;2040&quot; data-start=&quot;2033&quot; data-section-id=&quot;15g30r5&quot;&gt;60MHz&lt;/li&gt;
&lt;li data-end=&quot;2049&quot; data-start=&quot;2041&quot; data-section-id=&quot;dmje86&quot;&gt;100MHz&lt;/li&gt;
&lt;li data-end=&quot;2058&quot; data-start=&quot;2050&quot; data-section-id=&quot;dq0w77&quot;&gt;150MHz&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2076&quot; data-start=&quot;2060&quot; data-ke-size=&quot;size16&quot;&gt;고주파 대역이 필요한 이유는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2113&quot; data-start=&quot;2077&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2088&quot; data-start=&quot;2077&quot; data-section-id=&quot;6la4bd&quot;&gt;고속 디지털 회로&lt;/li&gt;
&lt;li data-end=&quot;2096&quot; data-start=&quot;2089&quot; data-section-id=&quot;179syh8&quot;&gt;RF 회로&lt;/li&gt;
&lt;li data-end=&quot;2104&quot; data-start=&quot;2097&quot; data-section-id=&quot;ixlt7t&quot;&gt;클럭 신호&lt;/li&gt;
&lt;li data-end=&quot;2113&quot; data-start=&quot;2105&quot; data-section-id=&quot;1y3bf3h&quot;&gt;통신 테스트&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2140&quot; data-start=&quot;2115&quot; data-ke-size=&quot;size16&quot;&gt;등에서 빠른 신호를 생성해야 하기 때문입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2173&quot; data-start=&quot;2147&quot; data-section-id=&quot;vobx52&quot; data-ke-size=&quot;size26&quot;&gt;2. 샘플링 속도(Sampling Rate)&lt;/h2&gt;
&lt;p data-end=&quot;2195&quot; data-start=&quot;2175&quot; data-ke-size=&quot;size16&quot;&gt;DDS 장비의 핵심 성능 요소입니다.&lt;/p&gt;
&lt;p data-end=&quot;2236&quot; data-start=&quot;2197&quot; data-ke-size=&quot;size16&quot;&gt;샘플링 속도가 높을수록 더 부드럽고 정확한 파형을 생성할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;2250&quot; data-start=&quot;2238&quot; data-ke-size=&quot;size16&quot;&gt;샘플링 속도가 낮으면:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2276&quot; data-start=&quot;2251&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2259&quot; data-start=&quot;2251&quot; data-section-id=&quot;1fo9w19&quot;&gt;사인파 왜곡&lt;/li&gt;
&lt;li data-end=&quot;2267&quot; data-start=&quot;2260&quot; data-section-id=&quot;1s5xiox&quot;&gt;계단 현상&lt;/li&gt;
&lt;li data-end=&quot;2276&quot; data-start=&quot;2268&quot; data-section-id=&quot;jep5ex&quot;&gt;고조파 증가&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2288&quot; data-start=&quot;2278&quot; data-ke-size=&quot;size16&quot;&gt;문제가 발생합니다.&lt;/p&gt;
&lt;p data-end=&quot;2328&quot; data-start=&quot;2290&quot; data-ke-size=&quot;size16&quot;&gt;즉:&lt;br /&gt;&amp;ldquo;파형이 얼마나 깨끗하게 생성되는가?&amp;rdquo;&lt;br /&gt;를 결정하는 요소입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2369&quot; data-start=&quot;2335&quot; data-section-id=&quot;1yog34l&quot; data-ke-size=&quot;size26&quot;&gt;3. Vertical Resolution (DAC 분해능)&lt;/h2&gt;
&lt;p data-end=&quot;2404&quot; data-start=&quot;2371&quot; data-ke-size=&quot;size16&quot;&gt;출력 전압을 얼마나 세밀하게 표현할 수 있는지를 의미합니다.&lt;/p&gt;
&lt;p data-end=&quot;2408&quot; data-start=&quot;2406&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2432&quot; data-start=&quot;2409&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2416&quot; data-start=&quot;2409&quot; data-section-id=&quot;15b4pf8&quot;&gt;12bit&lt;/li&gt;
&lt;li data-end=&quot;2424&quot; data-start=&quot;2417&quot; data-section-id=&quot;15b9bw2&quot;&gt;14bit&lt;/li&gt;
&lt;li data-end=&quot;2432&quot; data-start=&quot;2425&quot; data-section-id=&quot;15b7sc0&quot;&gt;16bit&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2444&quot; data-start=&quot;2434&quot; data-ke-size=&quot;size16&quot;&gt;분해능이 높을수록:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2490&quot; data-start=&quot;2445&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2461&quot; data-start=&quot;2445&quot; data-section-id=&quot;mw7dbk&quot;&gt;미세 전압 변화 표현 가능&lt;/li&gt;
&lt;li data-end=&quot;2473&quot; data-start=&quot;2462&quot; data-section-id=&quot;133cwh5&quot;&gt;저왜곡 출력 가능&lt;/li&gt;
&lt;li data-end=&quot;2490&quot; data-start=&quot;2474&quot; data-section-id=&quot;1gewpkc&quot;&gt;정밀 센서 시뮬레이션 가능&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2496&quot; data-start=&quot;2492&quot; data-ke-size=&quot;size16&quot;&gt;합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2538&quot; data-start=&quot;2503&quot; data-section-id=&quot;1w1yqtt&quot; data-ke-size=&quot;size26&quot;&gt;4. THD(Total Harmonic Distortion)&lt;/h2&gt;
&lt;p data-end=&quot;2564&quot; data-start=&quot;2540&quot; data-ke-size=&quot;size16&quot;&gt;고급 함수발생기에서 매우 중요한 요소입니다.&lt;/p&gt;
&lt;p data-end=&quot;2595&quot; data-start=&quot;2566&quot; data-ke-size=&quot;size16&quot;&gt;THD는 출력 신호에 포함된 왜곡 성분을 의미합니다.&lt;/p&gt;
&lt;p data-end=&quot;2630&quot; data-start=&quot;2597&quot; data-ke-size=&quot;size16&quot;&gt;즉:&lt;br /&gt;&amp;ldquo;얼마나 순수한 사인파인가?&amp;rdquo;&lt;br /&gt;를 나타내는 지표입니다.&lt;/p&gt;
&lt;p data-end=&quot;2670&quot; data-start=&quot;2632&quot; data-ke-size=&quot;size16&quot;&gt;오디오, RF, 정밀 계측 환경에서는 THD 성능이 매우 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;2670&quot; data-start=&quot;2632&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr data-end=&quot;2675&quot; data-start=&quot;2672&quot; data-ke-style=&quot;style1&quot; /&gt;
&lt;h1 data-end=&quot;2694&quot; data-start=&quot;2677&quot; data-section-id=&quot;4hpbmf&quot;&gt;함수발생기의 주요 출력 파형&lt;/h1&gt;
&lt;h2 data-end=&quot;2712&quot; data-start=&quot;2696&quot; data-section-id=&quot;11vjwy6&quot; data-ke-size=&quot;size26&quot;&gt;정현파(Sine Wave)&lt;/h2&gt;
&lt;p data-end=&quot;2751&quot; data-start=&quot;2714&quot; data-ke-size=&quot;size16&quot;&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;v(t)=Asin⁡(2&amp;pi;ft+ϕ)v(t)=A\sin(2\pi ft+\phi)&lt;/span&gt;&lt;span aria-hidden=&quot;true&quot;&gt;&lt;span&gt;&lt;span&gt;v&lt;/span&gt;&lt;span&gt;(&lt;/span&gt;&lt;span&gt;t&lt;/span&gt;&lt;span&gt;)&lt;/span&gt;&lt;span&gt;=&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;A&lt;/span&gt;&lt;span&gt;sin&lt;/span&gt;&lt;span&gt;(&lt;/span&gt;&lt;span&gt;2&lt;/span&gt;&lt;span&gt;&amp;pi;&lt;/span&gt;&lt;span&gt;f&lt;/span&gt;&lt;span&gt;t&lt;/span&gt;&lt;span&gt;+&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;ϕ&lt;/span&gt;&lt;span&gt;)&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/p&gt;
&lt;p data-end=&quot;2772&quot; data-start=&quot;2753&quot; data-ke-size=&quot;size16&quot;&gt;가장 기본적인 아날로그 신호입니다.&lt;/p&gt;
&lt;p data-end=&quot;2779&quot; data-start=&quot;2774&quot; data-ke-size=&quot;size16&quot;&gt;사용 예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2820&quot; data-start=&quot;2780&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2789&quot; data-start=&quot;2780&quot; data-section-id=&quot;uxyzf0&quot;&gt;오디오 테스트&lt;/li&gt;
&lt;li data-end=&quot;2797&quot; data-start=&quot;2790&quot; data-section-id=&quot;1qonwth&quot;&gt;필터 분석&lt;/li&gt;
&lt;li data-end=&quot;2809&quot; data-start=&quot;2798&quot; data-section-id=&quot;8gl96c&quot;&gt;증폭기 특성 측정&lt;/li&gt;
&lt;li data-end=&quot;2820&quot; data-start=&quot;2810&quot; data-section-id=&quot;15gmgbb&quot;&gt;AC 응답 분석&lt;/li&gt;
&lt;/ul&gt;
&lt;h2 data-end=&quot;2845&quot; data-start=&quot;2827&quot; data-section-id=&quot;1r7ruaq&quot; data-ke-size=&quot;size26&quot;&gt;사각파(Square Wave)&lt;/h2&gt;
&lt;p data-end=&quot;2864&quot; data-start=&quot;2847&quot; data-ke-size=&quot;size16&quot;&gt;디지털 회로의 핵심 신호입니다.&lt;/p&gt;
&lt;p data-end=&quot;2869&quot; data-start=&quot;2866&quot; data-ke-size=&quot;size16&quot;&gt;특히:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2901&quot; data-start=&quot;2870&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2881&quot; data-start=&quot;2870&quot; data-section-id=&quot;1s95laz&quot;&gt;MCU Clock&lt;/li&gt;
&lt;li data-end=&quot;2892&quot; data-start=&quot;2882&quot; data-section-id=&quot;10bwofc&quot;&gt;FPGA 테스트&lt;/li&gt;
&lt;li data-end=&quot;2901&quot; data-start=&quot;2893&quot; data-section-id=&quot;3n0ryi&quot;&gt;PWM 제어&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2919&quot; data-start=&quot;2903&quot; data-ke-size=&quot;size16&quot;&gt;등에서 필수적으로 사용됩니다.&lt;/p&gt;
&lt;p data-end=&quot;2946&quot; data-start=&quot;2921&quot; data-ke-size=&quot;size16&quot;&gt;Rise/Fall Time 성능이 중요합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2965&quot; data-start=&quot;2953&quot; data-section-id=&quot;6rw24c&quot; data-ke-size=&quot;size26&quot;&gt;Pulse Wave&lt;/h2&gt;
&lt;p data-end=&quot;2988&quot; data-start=&quot;2967&quot; data-ke-size=&quot;size16&quot;&gt;고속 디지털 회로 분석에서 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;3002&quot; data-start=&quot;2990&quot; data-ke-size=&quot;size16&quot;&gt;짧은 펄스를 생성하여:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3038&quot; data-start=&quot;3003&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3010&quot; data-start=&quot;3003&quot; data-section-id=&quot;17d6zp&quot;&gt;응답 속도&lt;/li&gt;
&lt;li data-end=&quot;3025&quot; data-start=&quot;3011&quot; data-section-id=&quot;1jl1qoi&quot;&gt;Switching 특성&lt;/li&gt;
&lt;li data-end=&quot;3038&quot; data-start=&quot;3026&quot; data-section-id=&quot;hbwp1v&quot;&gt;Gate Drive&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3049&quot; data-start=&quot;3040&quot; data-ke-size=&quot;size16&quot;&gt;등을 분석합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3066&quot; data-start=&quot;3056&quot; data-section-id=&quot;1ct64jr&quot; data-ke-size=&quot;size26&quot;&gt;Sweep 기능&lt;/h2&gt;
&lt;p data-end=&quot;3095&quot; data-start=&quot;3068&quot; data-ke-size=&quot;size16&quot;&gt;주파수를 자동 변화시키며 회로 특성을 분석합니다.&lt;/p&gt;
&lt;p data-end=&quot;3103&quot; data-start=&quot;3097&quot; data-ke-size=&quot;size16&quot;&gt;대표 활용:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3129&quot; data-start=&quot;3104&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3118&quot; data-start=&quot;3104&quot; data-section-id=&quot;q68av8&quot;&gt;필터 주파수 응답 측정&lt;/li&gt;
&lt;li data-end=&quot;3129&quot; data-start=&quot;3119&quot; data-section-id=&quot;14cid6w&quot;&gt;공진 특성 분석&lt;/li&gt;
&lt;/ul&gt;
&lt;hr data-end=&quot;3134&quot; data-start=&quot;3131&quot; data-ke-style=&quot;style1&quot; /&gt;
&lt;h1 data-end=&quot;3155&quot; data-start=&quot;3136&quot; data-section-id=&quot;1ypp243&quot;&gt;함수발생기와 오실로스코프의 관계&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;3187&quot; data-start=&quot;3157&quot; data-ke-size=&quot;size16&quot;&gt;전자회로 테스트 환경에서는 거의 항상 함께 사용됩니다.&lt;/p&gt;
&lt;p data-end=&quot;3194&quot; data-start=&quot;3189&quot; data-ke-size=&quot;size16&quot;&gt;구성 예:&lt;/p&gt;
&lt;p data-end=&quot;3232&quot; data-start=&quot;3196&quot; data-ke-size=&quot;size16&quot;&gt;함수발생기 &amp;rarr; 입력 신호 생성&lt;br /&gt;오실로스코프 &amp;rarr; 출력 신호 분석&lt;/p&gt;
&lt;p data-end=&quot;3240&quot; data-start=&quot;3234&quot; data-ke-size=&quot;size16&quot;&gt;예를 들어:&lt;/p&gt;
&lt;ol style=&quot;list-style-type: decimal;&quot; data-end=&quot;3296&quot; data-start=&quot;3241&quot; data-ke-list-type=&quot;decimal&quot;&gt;
&lt;li data-end=&quot;3263&quot; data-start=&quot;3241&quot; data-section-id=&quot;1f6jbt3&quot;&gt;함수발생기로 10kHz 사인파 입력&lt;/li&gt;
&lt;li data-end=&quot;3276&quot; data-start=&quot;3264&quot; data-section-id=&quot;1kpc2u8&quot;&gt;증폭기 회로 통과&lt;/li&gt;
&lt;li data-end=&quot;3296&quot; data-start=&quot;3277&quot; data-section-id=&quot;9bw95h&quot;&gt;오실로스코프로 출력 파형 분석&lt;/li&gt;
&lt;/ol&gt;
&lt;p data-end=&quot;3307&quot; data-start=&quot;3298&quot; data-ke-size=&quot;size16&quot;&gt;이 과정을 통해:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3349&quot; data-start=&quot;3308&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3314&quot; data-start=&quot;3308&quot; data-section-id=&quot;1j44art&quot;&gt;Gain&lt;/li&gt;
&lt;li data-end=&quot;3327&quot; data-start=&quot;3315&quot; data-section-id=&quot;8judur&quot;&gt;Distortion&lt;/li&gt;
&lt;li data-end=&quot;3335&quot; data-start=&quot;3328&quot; data-section-id=&quot;16v87qu&quot;&gt;Noise&lt;/li&gt;
&lt;li data-end=&quot;3349&quot; data-start=&quot;3336&quot; data-section-id=&quot;l63q07&quot;&gt;Phase Shift&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3365&quot; data-start=&quot;3351&quot; data-ke-size=&quot;size16&quot;&gt;등을 확인할 수 있습니다.&lt;/p&gt;
&lt;hr data-end=&quot;3370&quot; data-start=&quot;3367&quot; data-ke-style=&quot;style1&quot; /&gt;
&lt;h1 data-end=&quot;3389&quot; data-start=&quot;3372&quot; data-section-id=&quot;1ajya05&quot;&gt;EZTMI 함수발생기의 장점&lt;/h1&gt;
&lt;p&gt;&lt;figure class=&quot;imageslideblock alignCenter&quot; data-image=&quot;[{&amp;quot;src&amp;quot;:&amp;quot;https://blog.kakaocdn.net/dn/cduIfk/dJMcabRGtoW/bs7LO9okZROScI9HwBcdek/img.jpg&amp;quot;},{&amp;quot;src&amp;quot;:&amp;quot;https://blog.kakaocdn.net/dn/bBWPqG/dJMb99TUgGq/9W3GuFietQtPpPy6BIutg1/img.jpg&amp;quot;},{&amp;quot;src&amp;quot;:&amp;quot;https://blog.kakaocdn.net/dn/rxIp5/dJMcajoBRnk/LWmH1xxaZ4jW7G0Knli4Jk/img.jpg&amp;quot;}]&quot;&gt;
  &lt;div class=&quot;image-container&quot;&gt;&lt;span class=&quot;image-wrap selected&quot; data-phocus=&quot;https://blog.kakaocdn.net/dn/cduIfk/dJMcabRGtoW/bs7LO9okZROScI9HwBcdek/img.jpg&quot; data-url=&quot;https://blog.kakaocdn.net/dn/cduIfk/dJMcabRGtoW/bs7LO9okZROScI9HwBcdek/img.jpg&quot;&gt;&lt;img src=&quot;https://blog.kakaocdn.net/dn/cduIfk/dJMcabRGtoW/bs7LO9okZROScI9HwBcdek/img.jpg&quot; loading=&quot;lazy&quot; srcset=&quot;https://img1.daumcdn.net/thumb/R1280x0/?scode=mtistory2&amp;amp;fname=https%3A%2F%2Fblog.kakaocdn.net%2Fdn%2FcduIfk%2FdJMcabRGtoW%2Fbs7LO9okZROScI9HwBcdek%2Fimg.jpg&quot; onerror=&quot;this.onerror=null; this.src='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png'; this.srcset='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png';&quot; data-origin-width=&quot;960&quot; data-origin-height=&quot;720&quot; data-is-animation=&quot;false&quot;/&gt;&lt;/span&gt;&lt;span class=&quot;image-wrap &quot; data-phocus=&quot;https://blog.kakaocdn.net/dn/bBWPqG/dJMb99TUgGq/9W3GuFietQtPpPy6BIutg1/img.jpg&quot; data-url=&quot;https://blog.kakaocdn.net/dn/bBWPqG/dJMb99TUgGq/9W3GuFietQtPpPy6BIutg1/img.jpg&quot;&gt;&lt;img src=&quot;https://blog.kakaocdn.net/dn/bBWPqG/dJMb99TUgGq/9W3GuFietQtPpPy6BIutg1/img.jpg&quot; loading=&quot;lazy&quot; srcset=&quot;https://img1.daumcdn.net/thumb/R1280x0/?scode=mtistory2&amp;amp;fname=https%3A%2F%2Fblog.kakaocdn.net%2Fdn%2FbBWPqG%2FdJMb99TUgGq%2F9W3GuFietQtPpPy6BIutg1%2Fimg.jpg&quot; onerror=&quot;this.onerror=null; this.src='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png'; this.srcset='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png';&quot; data-origin-width=&quot;960&quot; data-origin-height=&quot;720&quot; data-is-animation=&quot;false&quot;/&gt;&lt;/span&gt;&lt;span class=&quot;image-wrap &quot; data-phocus=&quot;https://blog.kakaocdn.net/dn/rxIp5/dJMcajoBRnk/LWmH1xxaZ4jW7G0Knli4Jk/img.jpg&quot; data-url=&quot;https://blog.kakaocdn.net/dn/rxIp5/dJMcajoBRnk/LWmH1xxaZ4jW7G0Knli4Jk/img.jpg&quot;&gt;&lt;img src=&quot;https://blog.kakaocdn.net/dn/rxIp5/dJMcajoBRnk/LWmH1xxaZ4jW7G0Knli4Jk/img.jpg&quot; loading=&quot;lazy&quot; srcset=&quot;https://img1.daumcdn.net/thumb/R1280x0/?scode=mtistory2&amp;amp;fname=https%3A%2F%2Fblog.kakaocdn.net%2Fdn%2FrxIp5%2FdJMcajoBRnk%2FLWmH1xxaZ4jW7G0Knli4Jk%2Fimg.jpg&quot; onerror=&quot;this.onerror=null; this.src='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png'; this.srcset='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png';&quot; data-origin-width=&quot;960&quot; data-origin-height=&quot;720&quot; data-is-animation=&quot;false&quot;/&gt;&lt;/span&gt;&lt;button class=&quot;btn btn-prev&quot;&gt;&lt;span class=&quot;ico-prev&quot;&gt;이전&lt;/span&gt;&lt;/button&gt;&lt;button class=&quot;btn btn-next&quot;&gt;&lt;span class=&quot;ico-next&quot;&gt;다음&lt;/span&gt;&lt;/button&gt;&lt;/div&gt;
  &lt;div class=&quot;mark&quot;&gt;&lt;span data-index=&quot;0&quot;&gt;0&lt;/span&gt;&lt;span data-index=&quot;1&quot;&gt;1&lt;/span&gt;&lt;span data-index=&quot;2&quot;&gt;2&lt;/span&gt;&lt;/div&gt;
&lt;/figure&gt;
&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;div&gt;
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&lt;div&gt;&amp;nbsp;&lt;/div&gt;
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&lt;div&gt;&lt;figure class=&quot;imageblock alignCenter&quot; data-ke-mobileStyle=&quot;widthOrigin&quot; data-origin-width=&quot;680&quot; data-origin-height=&quot;400&quot;&gt;&lt;span data-url=&quot;https://blog.kakaocdn.net/dn/nv1To/dJMcadBVi5l/ty1lMxd02byZQUlu6KTxyk/img.jpg&quot; data-phocus=&quot;https://blog.kakaocdn.net/dn/nv1To/dJMcadBVi5l/ty1lMxd02byZQUlu6KTxyk/img.jpg&quot;&gt;&lt;img src=&quot;https://blog.kakaocdn.net/dn/nv1To/dJMcadBVi5l/ty1lMxd02byZQUlu6KTxyk/img.jpg&quot; srcset=&quot;https://img1.daumcdn.net/thumb/R1280x0/?scode=mtistory2&amp;fname=https%3A%2F%2Fblog.kakaocdn.net%2Fdn%2Fnv1To%2FdJMcadBVi5l%2Fty1lMxd02byZQUlu6KTxyk%2Fimg.jpg&quot; onerror=&quot;this.onerror=null; this.src='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png'; this.srcset='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png';&quot; loading=&quot;lazy&quot; width=&quot;680&quot; height=&quot;400&quot; data-origin-width=&quot;680&quot; data-origin-height=&quot;400&quot;/&gt;&lt;/span&gt;&lt;/figure&gt;
&lt;/div&gt;
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&lt;div&gt;&amp;nbsp;&lt;/div&gt;
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&lt;/div&gt;
&lt;/div&gt;
&lt;p data-end=&quot;3467&quot; data-start=&quot;3433&quot; data-ke-size=&quot;size16&quot;&gt;&lt;a href=&quot;https://eztmi.com&quot; data-end=&quot;3467&quot; data-start=&quot;3433&quot;&gt;EZTMI 공식 홈페이지&lt;span aria-hidden=&quot;true&quot;&gt;&lt;/span&gt;&lt;/a&gt;&lt;/p&gt;
&lt;p data-end=&quot;3523&quot; data-start=&quot;3469&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI는 산업용 전자 계측기 전문 기업으로 실무 중심의 함수발생기 제품군을 공급하고 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;3565&quot; data-start=&quot;3525&quot; data-ke-size=&quot;size16&quot;&gt;특히 단순 스펙 경쟁이 아니라 실제 현장 활용성 중심 구성이 강점입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3590&quot; data-start=&quot;3572&quot; data-section-id=&quot;v0luzy&quot; data-ke-size=&quot;size26&quot;&gt;1. DDS 기반 고정밀 출력&lt;/h2&gt;
&lt;p data-end=&quot;3617&quot; data-start=&quot;3592&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 함수발생기는 DDS 기술 기반으로:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3651&quot; data-start=&quot;3618&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3630&quot; data-start=&quot;3618&quot; data-section-id=&quot;1jd7a8u&quot;&gt;높은 주파수 안정성&lt;/li&gt;
&lt;li data-end=&quot;3638&quot; data-start=&quot;3631&quot; data-section-id=&quot;1jvw40r&quot;&gt;낮은 왜곡&lt;/li&gt;
&lt;li data-end=&quot;3651&quot; data-start=&quot;3639&quot; data-section-id=&quot;uq0jw5&quot;&gt;안정적인 출력 품질&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3661&quot; data-start=&quot;3653&quot; data-ke-size=&quot;size16&quot;&gt;을 제공합니다.&lt;/p&gt;
&lt;p data-end=&quot;3709&quot; data-start=&quot;3663&quot; data-ke-size=&quot;size16&quot;&gt;즉:&lt;br /&gt;&amp;ldquo;보기 좋은 파형&amp;rdquo;이 아니라 실제 측정 가능한 수준의 정밀 신호를 생성합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3732&quot; data-start=&quot;3716&quot; data-section-id=&quot;xc8ndf&quot; data-ke-size=&quot;size26&quot;&gt;2. 산업 현장 중심 설계&lt;/h2&gt;
&lt;p data-end=&quot;3746&quot; data-start=&quot;3734&quot; data-ke-size=&quot;size16&quot;&gt;실제 산업 환경에서는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3774&quot; data-start=&quot;3747&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3756&quot; data-start=&quot;3747&quot; data-section-id=&quot;14ybttl&quot;&gt;장시간 안정성&lt;/li&gt;
&lt;li data-end=&quot;3765&quot; data-start=&quot;3757&quot; data-section-id=&quot;xz8f68&quot;&gt;출력 신뢰성&lt;/li&gt;
&lt;li data-end=&quot;3774&quot; data-start=&quot;3766&quot; data-section-id=&quot;ctebd5&quot;&gt;노이즈 내성&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3787&quot; data-start=&quot;3776&quot; data-ke-size=&quot;size16&quot;&gt;이 매우 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;3809&quot; data-start=&quot;3789&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 제품군은 연구실뿐 아니라:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3846&quot; data-start=&quot;3810&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3816&quot; data-start=&quot;3810&quot; data-section-id=&quot;dhvme9&quot;&gt;생산라인&lt;/li&gt;
&lt;li data-end=&quot;3826&quot; data-start=&quot;3817&quot; data-section-id=&quot;1nz0d5x&quot;&gt;유지보수 현장&lt;/li&gt;
&lt;li data-end=&quot;3835&quot; data-start=&quot;3827&quot; data-section-id=&quot;1pt0dh1&quot;&gt;자동화 설비&lt;/li&gt;
&lt;li data-end=&quot;3846&quot; data-start=&quot;3836&quot; data-section-id=&quot;ktai3x&quot;&gt;전력전자 테스트&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3871&quot; data-start=&quot;3848&quot; data-ke-size=&quot;size16&quot;&gt;등 실무 환경에 적합한 구성을 제공합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3892&quot; data-start=&quot;3878&quot; data-section-id=&quot;1f2n7ge&quot; data-ke-size=&quot;size26&quot;&gt;3. 다양한 출력 기능&lt;/h2&gt;
&lt;p data-end=&quot;3904&quot; data-start=&quot;3894&quot; data-ke-size=&quot;size16&quot;&gt;기본 파형 외에도:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3960&quot; data-start=&quot;3905&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3925&quot; data-start=&quot;3905&quot; data-section-id=&quot;8vnm0f&quot;&gt;Arbitrary Waveform&lt;/li&gt;
&lt;li data-end=&quot;3933&quot; data-start=&quot;3926&quot; data-section-id=&quot;16yie5m&quot;&gt;Burst&lt;/li&gt;
&lt;li data-end=&quot;3941&quot; data-start=&quot;3934&quot; data-section-id=&quot;178dtoc&quot;&gt;Sweep&lt;/li&gt;
&lt;li data-end=&quot;3947&quot; data-start=&quot;3942&quot; data-section-id=&quot;1o4og2&quot;&gt;PWM&lt;/li&gt;
&lt;li data-end=&quot;3960&quot; data-start=&quot;3948&quot; data-section-id=&quot;6c76fe&quot;&gt;Modulation&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3992&quot; data-start=&quot;3962&quot; data-ke-size=&quot;size16&quot;&gt;등 다양한 기능을 지원하는 제품군이 구성되어 있습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;4016&quot; data-start=&quot;3999&quot; data-section-id=&quot;182ppa5&quot; data-ke-size=&quot;size26&quot;&gt;4. 뛰어난 가격 대비 성능&lt;/h2&gt;
&lt;p data-end=&quot;4062&quot; data-start=&quot;4018&quot; data-ke-size=&quot;size16&quot;&gt;고가 해외 브랜드 대비 합리적인 비용으로 고성능 테스트 환경 구축이 가능합니다.&lt;/p&gt;
&lt;p data-end=&quot;4067&quot; data-start=&quot;4064&quot; data-ke-size=&quot;size16&quot;&gt;특히:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4096&quot; data-start=&quot;4068&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4072&quot; data-start=&quot;4068&quot; data-section-id=&quot;yiin9d&quot;&gt;학교&lt;/li&gt;
&lt;li data-end=&quot;4083&quot; data-start=&quot;4073&quot; data-section-id=&quot;1ygt7o0&quot;&gt;중소기업 연구소&lt;/li&gt;
&lt;li data-end=&quot;4096&quot; data-start=&quot;4084&quot; data-section-id=&quot;6ggms4&quot;&gt;스타트업 개발 환경&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4111&quot; data-start=&quot;4098&quot; data-ke-size=&quot;size16&quot;&gt;에서 매우 효율적입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;4136&quot; data-start=&quot;4118&quot; data-section-id=&quot;fciqpt&quot; data-ke-size=&quot;size26&quot;&gt;5. 사용자 친화적 인터페이스&lt;/h2&gt;
&lt;p data-end=&quot;4173&quot; data-start=&quot;4138&quot; data-ke-size=&quot;size16&quot;&gt;전자 계측 장비는 기능이 많을수록 조작이 어려워질 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;4188&quot; data-start=&quot;4175&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 함수발생기는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4217&quot; data-start=&quot;4189&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4198&quot; data-start=&quot;4189&quot; data-section-id=&quot;1ds3mdo&quot;&gt;직관적인 UI&lt;/li&gt;
&lt;li data-end=&quot;4206&quot; data-start=&quot;4199&quot; data-section-id=&quot;1xrrwo1&quot;&gt;빠른 설정&lt;/li&gt;
&lt;li data-end=&quot;4217&quot; data-start=&quot;4207&quot; data-section-id=&quot;g9ps4h&quot;&gt;쉬운 파형 제어&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4255&quot; data-start=&quot;4219&quot; data-ke-size=&quot;size16&quot;&gt;를 통해 초보자부터 전문 엔지니어까지 폭넓게 사용할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;4255&quot; data-start=&quot;4219&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style1&quot; /&gt;
&lt;h1 data-end=&quot;4266&quot; data-start=&quot;4262&quot; data-section-id=&quot;yi4awm&quot;&gt;결론&lt;/h1&gt;
&lt;p data-end=&quot;4337&quot; data-start=&quot;4268&quot; data-ke-size=&quot;size16&quot;&gt;함수발생기는 단순히 신호를 출력하는 장비가 아니라 전자 시스템을 검증하고 회로 성능을 분석하기 위한 핵심 테스트 장비입니다.&lt;/p&gt;
&lt;p data-end=&quot;4354&quot; data-start=&quot;4339&quot; data-ke-size=&quot;size16&quot;&gt;특히 현대 산업 환경에서는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4401&quot; data-start=&quot;4355&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4366&quot; data-start=&quot;4355&quot; data-section-id=&quot;6la4bd&quot;&gt;고속 디지털 회로&lt;/li&gt;
&lt;li data-end=&quot;4377&quot; data-start=&quot;4367&quot; data-section-id=&quot;14ifb9c&quot;&gt;임베디드 시스템&lt;/li&gt;
&lt;li data-end=&quot;4386&quot; data-start=&quot;4378&quot; data-section-id=&quot;1lv19qg&quot;&gt;자동차 전장&lt;/li&gt;
&lt;li data-end=&quot;4393&quot; data-start=&quot;4387&quot; data-section-id=&quot;chr61p&quot;&gt;전력전자&lt;/li&gt;
&lt;li data-end=&quot;4401&quot; data-start=&quot;4394&quot; data-section-id=&quot;nnfz4s&quot;&gt;통신 장비&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4446&quot; data-start=&quot;4403&quot; data-ke-size=&quot;size16&quot;&gt;등이 확대되면서 더욱 정밀하고 안정적인 신호 생성 기술이 중요해지고 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;4563&quot; data-start=&quot;4448&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 함수발생기는 DDS 기반 고정밀 출력과 산업 현장 중심 설계를 기반으로 다양한 테스트 환경에서 안정적인 성능을 제공하며, 뛰어난 가성비와 실용성을 강점으로 다양한 산업 분야에서 활용되고 있습니다.&lt;/p&gt;
&lt;p data-is-only-node=&quot;&quot; data-is-last-node=&quot;&quot; data-end=&quot;4622&quot; data-start=&quot;4565&quot; data-ke-size=&quot;size16&quot;&gt;정확한 입력 신호는 정확한 분석의 시작이며, 함수발생기는 전자 계측 환경의 핵심이라고 할 수 있습니다.&lt;/p&gt;</description>
      <author>eztmi-review</author>
      <guid isPermaLink="true">https://eztmi-review.tistory.com/2</guid>
      <comments>https://eztmi-review.tistory.com/2#entry2comment</comments>
      <pubDate>Thu, 14 May 2026 12:07:00 +0900</pubDate>
    </item>
    <item>
      <title>오실로스코프(Oscilloscope)란 무엇인가?</title>
      <link>https://eztmi-review.tistory.com/1</link>
      <description>&lt;h1 data-end=&quot;31&quot; data-start=&quot;0&quot; data-section-id=&quot;1j2irxk&quot;&gt;오실로스코프(Oscilloscope)란 무엇인가?&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;50&quot; data-start=&quot;18&quot; data-ke-size=&quot;size16&quot;&gt;전자 신호를 &amp;ldquo;눈으로 보는 장비&amp;rdquo;, 오실로스코프의 모든 것&lt;/p&gt;
&lt;p data-end=&quot;156&quot; data-start=&quot;52&quot; data-ke-size=&quot;size16&quot;&gt;전자기기 내부에서는 끊임없이 전기 신호가 흐르고 있습니다.&lt;br /&gt;하지만 전압과 전류는 눈에 보이지 않기 때문에, 실제로 어떤 신호가 발생하고 있는지 확인하려면 전문 계측 장비가 필요합니다.&lt;/p&gt;
&lt;p data-end=&quot;232&quot; data-start=&quot;189&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;232&quot; data-start=&quot;189&quot; data-ke-size=&quot;size16&quot;&gt;그 대표적인 장비가 바로 &lt;b&gt;오실로스코프(Oscilloscope)&lt;/b&gt; 입니다.&lt;/p&gt;
&lt;p data-end=&quot;332&quot; data-start=&quot;234&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;332&quot; data-start=&quot;234&quot; data-ke-size=&quot;size16&quot;&gt;오실로스코프는 시간(Time)에 따른 전압(Voltage)의 변화를 파형(Waveform) 형태로 표시하여 전자 신호를 실시간으로 분석할 수 있게 해주는 전자 계측 장비입니다.&lt;/p&gt;
&lt;p data-end=&quot;430&quot; data-start=&quot;334&quot; data-ke-size=&quot;size16&quot;&gt;멀티미터가 단순 평균 전압 또는 저항 값을 측정하는 장비라면, 오실로스코프는 전압이 시간에 따라 어떻게 변화하는지를 실시간으로 보여주는 고급 분석 장비라고 볼 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;454&quot; data-start=&quot;432&quot; data-ke-size=&quot;size16&quot;&gt;현대 산업 환경에서는 단순 측정을 넘어:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;571&quot; data-start=&quot;456&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;482&quot; data-start=&quot;456&quot; data-section-id=&quot;1mc5yzh&quot;&gt;신호 무결성(Signal Integrity)&lt;/li&gt;
&lt;li data-end=&quot;507&quot; data-start=&quot;483&quot; data-section-id=&quot;6y0w7s&quot;&gt;노이즈 분석(Noise Analysis)&lt;/li&gt;
&lt;li data-end=&quot;520&quot; data-start=&quot;508&quot; data-section-id=&quot;1pnbspw&quot;&gt;디지털 통신 디버깅&lt;/li&gt;
&lt;li data-end=&quot;531&quot; data-start=&quot;521&quot; data-section-id=&quot;ynoxg0&quot;&gt;전력 품질 분석&lt;/li&gt;
&lt;li data-end=&quot;545&quot; data-start=&quot;532&quot; data-section-id=&quot;no54yo&quot;&gt;임베디드 시스템 개발&lt;/li&gt;
&lt;li data-end=&quot;557&quot; data-start=&quot;546&quot; data-section-id=&quot;v7m7t0&quot;&gt;자동차 전장 진단&lt;/li&gt;
&lt;li data-end=&quot;571&quot; data-start=&quot;558&quot; data-section-id=&quot;1iyak58&quot;&gt;고속 인터페이스 분석&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;638&quot; data-start=&quot;573&quot; data-ke-size=&quot;size16&quot;&gt;등 다양한 목적으로 사용되고 있으며, 현재 전자&amp;middot;전기 산업에서 가장 핵심적인 계측 장비 중 하나로 자리잡고 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;638&quot; data-start=&quot;573&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;466&quot; data-start=&quot;343&quot; data-ke-size=&quot;size16&quot;&gt;과거에는 단순히 파형을 확인하는 수준이었다면, 최근 디지털 오실로스코프는 신호 저장, FFT 분석, 프로토콜 디코딩, 자동 측정, 데이터 로깅 등 다양한 기능을 제공하며 전자&amp;middot;전기 산업에서 필수 장비로 자리잡고 있습니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;490&quot; data-start=&quot;473&quot; data-section-id=&quot;1ae69th&quot;&gt;오실로스코프는 왜 필요한가?&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;543&quot; data-start=&quot;492&quot; data-ke-size=&quot;size16&quot;&gt;전자 회로나 시스템은 정상적으로 동작하더라도 내부에서는 매우 빠른 속도로 신호가 변화합니다.&lt;/p&gt;
&lt;p data-end=&quot;551&quot; data-start=&quot;545&quot; data-ke-size=&quot;size16&quot;&gt;예를 들어:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;645&quot; data-start=&quot;553&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;570&quot; data-start=&quot;553&quot; data-section-id=&quot;ymnbzt&quot;&gt;전원이 순간적으로 흔들리는지&lt;/li&gt;
&lt;li data-end=&quot;584&quot; data-start=&quot;571&quot; data-section-id=&quot;14a623g&quot;&gt;센서 신호가 정상인지&lt;/li&gt;
&lt;li data-end=&quot;599&quot; data-start=&quot;585&quot; data-section-id=&quot;1boul91&quot;&gt;통신 데이터가 깨지는지&lt;/li&gt;
&lt;li data-end=&quot;614&quot; data-start=&quot;600&quot; data-section-id=&quot;9fs9au&quot;&gt;PWM 제어가 정확한지&lt;/li&gt;
&lt;li data-end=&quot;627&quot; data-start=&quot;615&quot; data-section-id=&quot;1n0f2jl&quot;&gt;노이즈가 발생하는지&lt;/li&gt;
&lt;li data-end=&quot;645&quot; data-start=&quot;628&quot; data-section-id=&quot;1i2qfrv&quot;&gt;디지털 신호 타이밍이 맞는지&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;675&quot; data-start=&quot;647&quot; data-ke-size=&quot;size16&quot;&gt;이러한 문제들은 멀티미터만으로는 확인이 어렵습니다.&lt;/p&gt;
&lt;p data-end=&quot;733&quot; data-start=&quot;677&quot; data-ke-size=&quot;size16&quot;&gt;오실로스코프는 이러한 신호를 실시간으로 시각화하여 문제 원인을 정확하게 분석할 수 있도록 도와줍니다.&lt;/p&gt;
&lt;p data-start=&quot;343&quot; data-end=&quot;466&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;663&quot; data-start=&quot;645&quot; data-section-id=&quot;faicdm&quot;&gt;오실로스코프의 기본 동작 원리&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;h2 data-end=&quot;703&quot; data-start=&quot;665&quot; data-section-id=&quot;1ezt322&quot; data-ke-size=&quot;size26&quot;&gt;시간축(Time Base)과 전압축(Vertical Scale)&lt;/h2&gt;
&lt;p data-end=&quot;737&quot; data-start=&quot;705&quot; data-ke-size=&quot;size16&quot;&gt;오실로스코프 화면은 기본적으로 두 개의 축으로 구성됩니다.&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;805&quot; data-start=&quot;739&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;771&quot; data-start=&quot;739&quot; data-section-id=&quot;1x7dg0f&quot;&gt;X축(Horizontal Axis) : 시간(Time)&lt;/li&gt;
&lt;li data-end=&quot;805&quot; data-start=&quot;772&quot; data-section-id=&quot;11truos&quot;&gt;Y축(Vertical Axis) : 전압(Voltage)&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;849&quot; data-start=&quot;807&quot; data-ke-size=&quot;size16&quot;&gt;즉, 특정 시간 동안 전압이 어떻게 변화하는지를 그래프로 표현하는 것입니다.&lt;/p&gt;
&lt;p data-end=&quot;857&quot; data-start=&quot;851&quot; data-ke-size=&quot;size16&quot;&gt;예를 들어:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;935&quot; data-start=&quot;859&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;874&quot; data-start=&quot;859&quot; data-section-id=&quot;l6qoqs&quot;&gt;DC 전압 &amp;rarr; 직선 형태&lt;/li&gt;
&lt;li data-end=&quot;899&quot; data-start=&quot;875&quot; data-section-id=&quot;uri83j&quot;&gt;사인파(Sine Wave) &amp;rarr; 곡선 형태&lt;/li&gt;
&lt;li data-end=&quot;917&quot; data-start=&quot;900&quot; data-section-id=&quot;v6qetc&quot;&gt;PWM 신호 &amp;rarr; 사각파 형태&lt;/li&gt;
&lt;li data-end=&quot;935&quot; data-start=&quot;918&quot; data-section-id=&quot;1v0olaq&quot;&gt;노이즈 신호 &amp;rarr; 불규칙 파형&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;946&quot; data-start=&quot;937&quot; data-ke-size=&quot;size16&quot;&gt;으로 표시됩니다.&lt;/p&gt;
&lt;p data-end=&quot;946&quot; data-start=&quot;937&quot; data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;975&quot; data-start=&quot;949&quot; data-ke-size=&quot;size16&quot;&gt;대표적으로 측정 가능한 항목은 다음과 같습니다.&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1095&quot; data-start=&quot;977&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;984&quot; data-start=&quot;977&quot; data-section-id=&quot;1gdx5k5&quot;&gt;전압 크기&lt;/li&gt;
&lt;li data-end=&quot;1001&quot; data-start=&quot;985&quot; data-section-id=&quot;15uwy91&quot;&gt;주파수(Frequency)&lt;/li&gt;
&lt;li data-end=&quot;1014&quot; data-start=&quot;1002&quot; data-section-id=&quot;ftqv28&quot;&gt;주기(Period)&lt;/li&gt;
&lt;li data-end=&quot;1032&quot; data-start=&quot;1015&quot; data-section-id=&quot;1l4ruup&quot;&gt;듀티비(Duty Cycle)&lt;/li&gt;
&lt;li data-end=&quot;1050&quot; data-start=&quot;1033&quot; data-section-id=&quot;gwt3ht&quot;&gt;상승시간(Rise Time)&lt;/li&gt;
&lt;li data-end=&quot;1068&quot; data-start=&quot;1051&quot; data-section-id=&quot;1ywr432&quot;&gt;하강시간(Fall Time)&lt;/li&gt;
&lt;li data-end=&quot;1074&quot; data-start=&quot;1069&quot; data-section-id=&quot;208hbg&quot;&gt;노이즈&lt;/li&gt;
&lt;li data-end=&quot;1087&quot; data-start=&quot;1075&quot; data-section-id=&quot;1dbz7sr&quot;&gt;리플(Ripple)&lt;/li&gt;
&lt;li data-end=&quot;1095&quot; data-start=&quot;1088&quot; data-section-id=&quot;v8mhrh&quot;&gt;신호 왜곡&lt;/li&gt;
&lt;/ul&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;972&quot; data-start=&quot;953&quot; data-section-id=&quot;1x102gi&quot;&gt;디지털 오실로스코프의 내부 구조&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;1038&quot; data-start=&quot;974&quot; data-ke-size=&quot;size16&quot;&gt;현대 산업 현장에서 사용되는 제품 대부분은 DSO(Digital Storage Oscilloscope) 방식입니다.&lt;/p&gt;
&lt;p data-end=&quot;1069&quot; data-start=&quot;1040&quot; data-ke-size=&quot;size16&quot;&gt;디지털 오실로스코프는 다음과 같은 구조로 동작합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1096&quot; data-start=&quot;1071&quot; data-section-id=&quot;dez3m3&quot; data-ke-size=&quot;size26&quot;&gt;1. 입력 신호(Input Signal)&lt;/h2&gt;
&lt;p data-end=&quot;1124&quot; data-start=&quot;1098&quot; data-ke-size=&quot;size16&quot;&gt;프로브를 통해 회로의 전압 신호를 입력받습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1152&quot; data-start=&quot;1131&quot; data-section-id=&quot;1u8ij1r&quot; data-ke-size=&quot;size26&quot;&gt;2. 감쇠기(Attenuator)&lt;/h2&gt;
&lt;p data-end=&quot;1184&quot; data-start=&quot;1154&quot; data-ke-size=&quot;size16&quot;&gt;고전압 입력을 안전하게 낮추어 내부 회로를 보호합니다.&lt;/p&gt;
&lt;p data-end=&quot;1215&quot; data-start=&quot;1186&quot; data-ke-size=&quot;size16&quot;&gt;일반적으로 1X / 10X 프로브 설정을 사용합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1260&quot; data-start=&quot;1222&quot; data-section-id=&quot;xvgydw&quot; data-ke-size=&quot;size26&quot;&gt;3. ADC(Analog to Digital Converter)&lt;/h2&gt;
&lt;p data-end=&quot;1289&quot; data-start=&quot;1262&quot; data-ke-size=&quot;size16&quot;&gt;아날로그 전압 신호를 디지털 데이터로 변환합니다.&lt;/p&gt;
&lt;p data-end=&quot;1312&quot; data-start=&quot;1291&quot; data-ke-size=&quot;size16&quot;&gt;이 과정에서 매우 중요한 요소가 바로:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1355&quot; data-start=&quot;1314&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1337&quot; data-start=&quot;1314&quot; data-section-id=&quot;xiiqwk&quot;&gt;샘플링 속도(Sampling Rate)&lt;/li&gt;
&lt;li data-end=&quot;1355&quot; data-start=&quot;1338&quot; data-section-id=&quot;1cgvqxe&quot;&gt;분해능(Resolution)&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1361&quot; data-start=&quot;1357&quot; data-ke-size=&quot;size16&quot;&gt;입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1394&quot; data-start=&quot;1368&quot; data-section-id=&quot;r7jo93&quot; data-ke-size=&quot;size26&quot;&gt;4. 메모리 저장(Memory Depth)&lt;/h2&gt;
&lt;p data-end=&quot;1419&quot; data-start=&quot;1396&quot; data-ke-size=&quot;size16&quot;&gt;변환된 데이터를 내부 메모리에 저장합니다.&lt;/p&gt;
&lt;p data-end=&quot;1460&quot; data-start=&quot;1421&quot; data-ke-size=&quot;size16&quot;&gt;메모리 깊이가 깊을수록 긴 시간 동안 고속 신호를 분석할 수 있습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1503&quot; data-start=&quot;1467&quot; data-section-id=&quot;w1hwhj&quot; data-ke-size=&quot;size26&quot;&gt;5. DSP(Digital Signal Processing)&lt;/h2&gt;
&lt;p data-end=&quot;1531&quot; data-start=&quot;1505&quot; data-ke-size=&quot;size16&quot;&gt;디지털 필터링 및 FFT 연산 등을 수행합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1561&quot; data-start=&quot;1538&quot; data-section-id=&quot;chhipr&quot; data-ke-size=&quot;size26&quot;&gt;6. 디스플레이 출력(Display)&lt;/h2&gt;
&lt;p data-end=&quot;1600&quot; data-start=&quot;1563&quot; data-ke-size=&quot;size16&quot;&gt;최종적으로 사용자가 파형을 시각적으로 확인할 수 있도록 표시합니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;1625&quot; data-start=&quot;1607&quot; data-section-id=&quot;kmrpb7&quot;&gt;오실로스코프의 핵심 성능 요소&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;1688&quot; data-start=&quot;1627&quot; data-ke-size=&quot;size16&quot;&gt;오실로스코프는 단순히 화면만 보는 장비가 아닙니다.&lt;br /&gt;실제 측정 정확도와 신호 재현 능력이 매우 중요합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1714&quot; data-start=&quot;1695&quot; data-section-id=&quot;17slvpz&quot; data-ke-size=&quot;size26&quot;&gt;1. 대역폭(Bandwidth)&lt;/h2&gt;
&lt;p data-end=&quot;1758&quot; data-start=&quot;1716&quot; data-ke-size=&quot;size16&quot;&gt;대역폭은 오실로스코프가 정확하게 측정 가능한 최대 주파수 범위를 의미합니다.&lt;/p&gt;
&lt;p data-end=&quot;1766&quot; data-start=&quot;1760&quot; data-ke-size=&quot;size16&quot;&gt;예를 들어:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1834&quot; data-start=&quot;1768&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1803&quot; data-start=&quot;1768&quot; data-section-id=&quot;1x9hkf&quot;&gt;100MHz 대역폭 &amp;rarr; 약 100MHz 이하 신호 분석 가능&lt;/li&gt;
&lt;li data-end=&quot;1834&quot; data-start=&quot;1804&quot; data-section-id=&quot;11rjlle&quot;&gt;200MHz 대역폭 &amp;rarr; 고속 디지털 신호 분석 가능&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1846&quot; data-start=&quot;1836&quot; data-ke-size=&quot;size16&quot;&gt;대역폭이 부족하면:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;1882&quot; data-start=&quot;1848&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;1855&quot; data-start=&quot;1848&quot; data-section-id=&quot;puk03w&quot;&gt;파형 왜곡&lt;/li&gt;
&lt;li data-end=&quot;1870&quot; data-start=&quot;1856&quot; data-section-id=&quot;y6mj59&quot;&gt;Rise Time 증가&lt;/li&gt;
&lt;li data-end=&quot;1882&quot; data-start=&quot;1871&quot; data-section-id=&quot;1p6dibd&quot;&gt;고주파 성분 손실&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;1899&quot; data-start=&quot;1884&quot; data-ke-size=&quot;size16&quot;&gt;문제가 발생할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;1936&quot; data-start=&quot;1901&quot; data-ke-size=&quot;size16&quot;&gt;일반적으로 측정 신호보다 최소 5배 이상의 대역폭을 권장합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;1969&quot; data-start=&quot;1943&quot; data-section-id=&quot;vobx52&quot; data-ke-size=&quot;size26&quot;&gt;2. 샘플링 속도(Sampling Rate)&lt;/h2&gt;
&lt;p data-end=&quot;2006&quot; data-start=&quot;1971&quot; data-ke-size=&quot;size16&quot;&gt;샘플링 속도는 1초 동안 신호를 몇 번 측정하는지를 의미합니다.&lt;/p&gt;
&lt;p data-end=&quot;2011&quot; data-start=&quot;2008&quot; data-ke-size=&quot;size16&quot;&gt;단위:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2027&quot; data-start=&quot;2012&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2019&quot; data-start=&quot;2012&quot; data-section-id=&quot;16vmvt7&quot;&gt;MSa/s&lt;/li&gt;
&lt;li data-end=&quot;2027&quot; data-start=&quot;2020&quot; data-section-id=&quot;16zvdvl&quot;&gt;GSa/s&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2062&quot; data-start=&quot;2029&quot; data-ke-size=&quot;size16&quot;&gt;고속 샘플링이 중요한 이유는 Nyquist 이론 때문입니다.&lt;/p&gt;
&lt;p data-end=&quot;2101&quot; data-start=&quot;2064&quot; data-ke-size=&quot;size16&quot;&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;fs&amp;ge;2fmaxf_s \geq 2f_{max}&lt;/span&gt;&lt;span aria-hidden=&quot;true&quot;&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;f&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;s&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;​&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&amp;ge;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;2&lt;/span&gt;&lt;span&gt;&lt;span&gt;f&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;ma&lt;/span&gt;&lt;span&gt;x&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;​&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/p&gt;
&lt;p data-end=&quot;2153&quot; data-start=&quot;2103&quot; data-ke-size=&quot;size16&quot;&gt;실무에서는 정확한 파형 재현을 위해 보통 최소 5~10배 이상의 샘플링 속도를 사용합니다.&lt;/p&gt;
&lt;p data-end=&quot;2221&quot; data-start=&quot;2155&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 디지털 오실로스코프 제품군은 고속 샘플링 기반으로 빠른 디지털 신호 분석 환경에 적합하게 구성되어 있습니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2253&quot; data-start=&quot;2228&quot; data-section-id=&quot;vq7w8&quot; data-ke-size=&quot;size26&quot;&gt;3. 메모리 깊이(Memory Depth)&lt;/h2&gt;
&lt;p data-end=&quot;2281&quot; data-start=&quot;2255&quot; data-ke-size=&quot;size16&quot;&gt;고속 신호를 장시간 저장할 수 있는 능력입니다.&lt;/p&gt;
&lt;p data-end=&quot;2295&quot; data-start=&quot;2283&quot; data-ke-size=&quot;size16&quot;&gt;메모리 깊이가 낮으면:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2340&quot; data-start=&quot;2297&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2309&quot; data-start=&quot;2297&quot; data-section-id=&quot;r59j2g&quot;&gt;긴 구간 측정 불가&lt;/li&gt;
&lt;li data-end=&quot;2321&quot; data-start=&quot;2310&quot; data-section-id=&quot;g2o6kt&quot;&gt;순간 노이즈 누락&lt;/li&gt;
&lt;li data-end=&quot;2340&quot; data-start=&quot;2322&quot; data-section-id=&quot;18i9shp&quot;&gt;디지털 버스트 신호 분석 제한&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2357&quot; data-start=&quot;2342&quot; data-ke-size=&quot;size16&quot;&gt;문제가 발생할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;2444&quot; data-start=&quot;2359&quot; data-ke-size=&quot;size16&quot;&gt;최근 산업용 디지털 오실로스코프는 수십 Mpts 이상의 메모리를 제공하며, EZTMI 제품군 역시 장시간 신호 저장 및 분석에 적합한 구성을 제공합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2483&quot; data-start=&quot;2451&quot; data-section-id=&quot;2i30lp&quot; data-ke-size=&quot;size26&quot;&gt;4. 수직 분해능(Vertical Resolution)&lt;/h2&gt;
&lt;p data-end=&quot;2513&quot; data-start=&quot;2485&quot; data-ke-size=&quot;size16&quot;&gt;ADC의 비트 수(Bit Depth)를 의미합니다.&lt;/p&gt;
&lt;p data-end=&quot;2518&quot; data-start=&quot;2515&quot; data-ke-size=&quot;size16&quot;&gt;예시:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2541&quot; data-start=&quot;2519&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2525&quot; data-start=&quot;2519&quot; data-section-id=&quot;1j26abz&quot;&gt;8bit&lt;/li&gt;
&lt;li data-end=&quot;2533&quot; data-start=&quot;2526&quot; data-section-id=&quot;15b68za&quot;&gt;10bit&lt;/li&gt;
&lt;li data-end=&quot;2541&quot; data-start=&quot;2534&quot; data-section-id=&quot;15b4pf8&quot;&gt;12bit&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2581&quot; data-start=&quot;2543&quot; data-ke-size=&quot;size16&quot;&gt;분해능이 높을수록 미세 전압 변화를 더 정밀하게 측정할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;2586&quot; data-start=&quot;2583&quot; data-ke-size=&quot;size16&quot;&gt;특히:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2621&quot; data-start=&quot;2587&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2597&quot; data-start=&quot;2587&quot; data-section-id=&quot;rsg8w8&quot;&gt;전원 리플 측정&lt;/li&gt;
&lt;li data-end=&quot;2608&quot; data-start=&quot;2598&quot; data-section-id=&quot;11diq4p&quot;&gt;센서 신호 분석&lt;/li&gt;
&lt;li data-end=&quot;2621&quot; data-start=&quot;2609&quot; data-section-id=&quot;ocgvic&quot;&gt;저전압 노이즈 분석&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2635&quot; data-start=&quot;2623&quot; data-ke-size=&quot;size16&quot;&gt;에서 매우 중요합니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;2660&quot; data-start=&quot;2642&quot; data-section-id=&quot;1wmhfam&quot;&gt;오실로스코프의 주요 측정 항목&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;h2 data-end=&quot;2676&quot; data-start=&quot;2662&quot; data-section-id=&quot;1l3v2t3&quot; data-ke-size=&quot;size26&quot;&gt;전압(Voltage)&lt;/h2&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;2729&quot; data-start=&quot;2678&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;2692&quot; data-start=&quot;2678&quot; data-section-id=&quot;dtcsk5&quot;&gt;Peak Voltage&lt;/li&gt;
&lt;li data-end=&quot;2715&quot; data-start=&quot;2693&quot; data-section-id=&quot;1uj34cx&quot;&gt;Peak-to-Peak Voltage&lt;/li&gt;
&lt;li data-end=&quot;2729&quot; data-start=&quot;2716&quot; data-section-id=&quot;1lwh9ye&quot;&gt;RMS Voltage&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;2740&quot; data-start=&quot;2731&quot; data-ke-size=&quot;size16&quot;&gt;등을 측정합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2764&quot; data-start=&quot;2747&quot; data-section-id=&quot;uv08x4&quot; data-ke-size=&quot;size26&quot;&gt;주파수(Frequency)&lt;/h2&gt;
&lt;div&gt;
&lt;div&gt;
&lt;div&gt;&amp;nbsp;&lt;/div&gt;
&lt;div&gt;
&lt;div&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;f=1Tf = \frac{1}{T}&lt;/span&gt;&lt;span aria-hidden=&quot;true&quot;&gt;&lt;span&gt;&lt;span&gt;f&lt;/span&gt;&lt;span&gt;=&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;T&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;1&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;​&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/div&gt;
&lt;div&gt;
&lt;div&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;TT&lt;/span&gt;&lt;span aria-hidden=&quot;true&quot;&gt;&lt;span&gt;&lt;span&gt;T&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/div&gt;
&lt;div data-value=&quot;2.00&quot;&gt;&amp;nbsp;&lt;/div&gt;
&lt;/div&gt;
&lt;/div&gt;
&lt;div&gt;
&lt;div&gt;Tf = 0.5 Hz&lt;/div&gt;
&lt;/div&gt;
&lt;/div&gt;
&lt;/div&gt;
&lt;p data-end=&quot;2825&quot; data-start=&quot;2808&quot; data-ke-size=&quot;size16&quot;&gt;신호의 반복 속도를 의미합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2853&quot; data-start=&quot;2832&quot; data-section-id=&quot;vwetbo&quot; data-ke-size=&quot;size26&quot;&gt;듀티 사이클(Duty Cycle)&lt;/h2&gt;
&lt;p data-end=&quot;2873&quot; data-start=&quot;2855&quot; data-ke-size=&quot;size16&quot;&gt;PWM 제어에서 매우 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;2912&quot; data-start=&quot;2875&quot; data-ke-size=&quot;size16&quot;&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;Duty&amp;nbsp;Cycle=TONT&amp;times;100%Duty\ Cycle = \frac{T_{ON}}{T} \times 100\%&lt;/span&gt;&lt;span aria-hidden=&quot;true&quot;&gt;&lt;span&gt;&lt;span&gt;D&lt;/span&gt;&lt;span&gt;u&lt;/span&gt;&lt;span&gt;t&lt;/span&gt;&lt;span&gt;y&lt;/span&gt;&lt;span&gt;&amp;nbsp;&lt;/span&gt;&lt;span&gt;C&lt;/span&gt;&lt;span&gt;yc&lt;/span&gt;&lt;span&gt;l&lt;/span&gt;&lt;span&gt;e&lt;/span&gt;&lt;span&gt;=&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;T&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;T&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;ON&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;​&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;​&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&amp;times;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;100%&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/p&gt;
&lt;p data-end=&quot;2943&quot; data-start=&quot;2914&quot; data-ke-size=&quot;size16&quot;&gt;모터 제어 및 전력 제어 시스템에서 핵심 요소입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;2974&quot; data-start=&quot;2950&quot; data-section-id=&quot;u3nbb4&quot; data-ke-size=&quot;size26&quot;&gt;Rise Time / Fall Time&lt;/h2&gt;
&lt;p data-end=&quot;2997&quot; data-start=&quot;2976&quot; data-ke-size=&quot;size16&quot;&gt;디지털 신호 품질 분석에서 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;3043&quot; data-start=&quot;2999&quot; data-ke-size=&quot;size16&quot;&gt;고속 회로에서는 Rise Time 분석이 신호 무결성에 직접적인 영향을 줍니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;3075&quot; data-start=&quot;3050&quot; data-section-id=&quot;mdo4q1&quot;&gt;EZTMI 오실로스코프의 산업 현장 활용성&lt;/h1&gt;
&lt;p&gt;&lt;figure class=&quot;imageblock floatLeft&quot; data-ke-mobileStyle=&quot;widthOrigin&quot; data-filename=&quot;TDS-7000 제품사진.jpg&quot; data-origin-width=&quot;960&quot; data-origin-height=&quot;720&quot;&gt;&lt;span data-url=&quot;https://blog.kakaocdn.net/dn/cke9PS/dJMcaii0CJm/05p1gKm0vg7K2LAnAN2U5k/img.jpg&quot; data-phocus=&quot;https://blog.kakaocdn.net/dn/cke9PS/dJMcaii0CJm/05p1gKm0vg7K2LAnAN2U5k/img.jpg&quot;&gt;&lt;img src=&quot;https://blog.kakaocdn.net/dn/cke9PS/dJMcaii0CJm/05p1gKm0vg7K2LAnAN2U5k/img.jpg&quot; srcset=&quot;https://img1.daumcdn.net/thumb/R1280x0/?scode=mtistory2&amp;fname=https%3A%2F%2Fblog.kakaocdn.net%2Fdn%2Fcke9PS%2FdJMcaii0CJm%2F05p1gKm0vg7K2LAnAN2U5k%2Fimg.jpg&quot; onerror=&quot;this.onerror=null; this.src='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png'; this.srcset='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png';&quot; loading=&quot;lazy&quot; width=&quot;960&quot; height=&quot;720&quot; data-filename=&quot;TDS-7000 제품사진.jpg&quot; data-origin-width=&quot;960&quot; data-origin-height=&quot;720&quot;/&gt;&lt;/span&gt;&lt;/figure&gt;
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  &lt;div class=&quot;image-container&quot;&gt;&lt;span data-url=&quot;https://blog.kakaocdn.net/dn/cCr8Ge/dJMcaaFj51F/tj5YJrLLqE97xBaSzRBhYK/img.jpg&quot; data-phocus=&quot;https://blog.kakaocdn.net/dn/cCr8Ge/dJMcaaFj51F/tj5YJrLLqE97xBaSzRBhYK/img.jpg&quot; data-origin-width=&quot;960&quot; data-origin-height=&quot;720&quot; data-filename=&quot;EDS-2220 제품사진.jpg&quot; data-is-animation=&quot;false&quot; style=&quot;width: 49.4186%; margin-right: 10px;&quot; data-widthpercent=&quot;50&quot;&gt;&lt;img src=&quot;https://blog.kakaocdn.net/dn/cCr8Ge/dJMcaaFj51F/tj5YJrLLqE97xBaSzRBhYK/img.jpg&quot; srcset=&quot;https://img1.daumcdn.net/thumb/R1280x0/?scode=mtistory2&amp;amp;fname=https%3A%2F%2Fblog.kakaocdn.net%2Fdn%2FcCr8Ge%2FdJMcaaFj51F%2Ftj5YJrLLqE97xBaSzRBhYK%2Fimg.jpg&quot; onerror=&quot;this.onerror=null; this.src='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png'; this.srcset='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png';&quot; loading=&quot;lazy&quot; width=&quot;960&quot; height=&quot;720&quot;/&gt;&lt;/span&gt;&lt;span data-url=&quot;https://blog.kakaocdn.net/dn/cV5NiK/dJMcaii0AEH/f2v4K1YP4n699MHPIVLRwK/img.jpg&quot; data-phocus=&quot;https://blog.kakaocdn.net/dn/cV5NiK/dJMcaii0AEH/f2v4K1YP4n699MHPIVLRwK/img.jpg&quot; data-origin-width=&quot;960&quot; data-origin-height=&quot;720&quot; data-filename=&quot;mds-6120ap 제품사진.jpg&quot; data-is-animation=&quot;false&quot; style=&quot;width: 49.4186%;&quot; data-widthpercent=&quot;50&quot;&gt;&lt;img src=&quot;https://blog.kakaocdn.net/dn/cV5NiK/dJMcaii0AEH/f2v4K1YP4n699MHPIVLRwK/img.jpg&quot; srcset=&quot;https://img1.daumcdn.net/thumb/R1280x0/?scode=mtistory2&amp;amp;fname=https%3A%2F%2Fblog.kakaocdn.net%2Fdn%2FcV5NiK%2FdJMcaii0AEH%2Ff2v4K1YP4n699MHPIVLRwK%2Fimg.jpg&quot; onerror=&quot;this.onerror=null; this.src='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png'; this.srcset='//t1.daumcdn.net/tistory_admin/static/images/no-image-v1.png';&quot; loading=&quot;lazy&quot; width=&quot;960&quot; height=&quot;720&quot;/&gt;&lt;/span&gt;&lt;/div&gt;
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&lt;p data-end=&quot;3176&quot; data-start=&quot;3119&quot; data-ke-size=&quot;size16&quot;&gt;&lt;a href=&quot;https://eztmi.com?utm_source=chatgpt.com&quot; data-end=&quot;3176&quot; data-start=&quot;3119&quot;&gt;EZTMI 공식 홈페이지&lt;span aria-hidden=&quot;true&quot;&gt;&lt;/span&gt;&lt;/a&gt;&lt;/p&gt;
&lt;p data-end=&quot;3231&quot; data-start=&quot;3178&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI는 산업용 계측기 전문 기업으로 다양한 디지털 오실로스코프 제품군을 공급하고 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;3259&quot; data-start=&quot;3233&quot; data-ke-size=&quot;size16&quot;&gt;특히 실무 환경 중심의 제품 구성이 강점입니다.&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;h2 data-end=&quot;3283&quot; data-start=&quot;3266&quot; data-section-id=&quot;14gq6f8&quot; data-ke-size=&quot;size26&quot;&gt;1. 임베디드 시스템 디버깅&lt;/h2&gt;
&lt;p data-end=&quot;3298&quot; data-start=&quot;3285&quot; data-ke-size=&quot;size16&quot;&gt;MCU 기반 회로에서는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3318&quot; data-start=&quot;3300&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3306&quot; data-start=&quot;3300&quot; data-section-id=&quot;1j4hcbe&quot;&gt;UART&lt;/li&gt;
&lt;li data-end=&quot;3312&quot; data-start=&quot;3307&quot; data-section-id=&quot;1o4qoy&quot;&gt;SPI&lt;/li&gt;
&lt;li data-end=&quot;3318&quot; data-start=&quot;3313&quot; data-section-id=&quot;1o489c&quot;&gt;I2C&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3342&quot; data-start=&quot;3320&quot; data-ke-size=&quot;size16&quot;&gt;등의 통신 신호 분석이 매우 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;3400&quot; data-start=&quot;3344&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 오실로스코프는 다양한 시리얼 버스 디코딩 기능을 지원하여 개발 및 디버깅 효율을 높입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3426&quot; data-start=&quot;3407&quot; data-section-id=&quot;12xxo04&quot; data-ke-size=&quot;size26&quot;&gt;2. 전력전자 및 SMPS 분석&lt;/h2&gt;
&lt;p data-end=&quot;3439&quot; data-start=&quot;3428&quot; data-ke-size=&quot;size16&quot;&gt;SMPS 회로에서는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3496&quot; data-start=&quot;3441&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3458&quot; data-start=&quot;3441&quot; data-section-id=&quot;17jtpgk&quot;&gt;Switching Noise&lt;/li&gt;
&lt;li data-end=&quot;3475&quot; data-start=&quot;3459&quot; data-section-id=&quot;1nwvxbs&quot;&gt;Ripple Voltage&lt;/li&gt;
&lt;li data-end=&quot;3496&quot; data-start=&quot;3476&quot; data-section-id=&quot;16hpb53&quot;&gt;MOSFET Gate Signal&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3509&quot; data-start=&quot;3498&quot; data-ke-size=&quot;size16&quot;&gt;분석이 필수적입니다.&lt;/p&gt;
&lt;p data-end=&quot;3548&quot; data-start=&quot;3511&quot; data-ke-size=&quot;size16&quot;&gt;FFT 및 고속 샘플링 기능은 전원 품질 분석에 매우 효과적입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;3569&quot; data-start=&quot;3555&quot; data-section-id=&quot;46k8pu&quot; data-ke-size=&quot;size26&quot;&gt;3. 자동차 전장 분석&lt;/h2&gt;
&lt;p data-end=&quot;3602&quot; data-start=&quot;3571&quot; data-ke-size=&quot;size16&quot;&gt;최근 자동차는 CAN/LIN 기반 네트워크로 동작합니다.&lt;/p&gt;
&lt;p data-end=&quot;3636&quot; data-start=&quot;3604&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 제품군은 자동차 통신 신호 분석에도 적합합니다.&lt;/p&gt;
&lt;p data-end=&quot;3643&quot; data-start=&quot;3638&quot; data-ke-size=&quot;size16&quot;&gt;활용 예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3678&quot; data-start=&quot;3644&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3655&quot; data-start=&quot;3644&quot; data-section-id=&quot;1oqbmqi&quot;&gt;ECU 신호 분석&lt;/li&gt;
&lt;li data-end=&quot;3667&quot; data-start=&quot;3656&quot; data-section-id=&quot;e6sv8w&quot;&gt;인젝터 파형 측정&lt;/li&gt;
&lt;li data-end=&quot;3678&quot; data-start=&quot;3668&quot; data-section-id=&quot;1oyv0p4&quot;&gt;센서 출력 분석&lt;/li&gt;
&lt;/ul&gt;
&lt;h2 data-end=&quot;3700&quot; data-start=&quot;3685&quot; data-section-id=&quot;1sbwft&quot; data-ke-size=&quot;size26&quot;&gt;4. 생산라인 품질 검사&lt;/h2&gt;
&lt;p data-end=&quot;3728&quot; data-start=&quot;3702&quot; data-ke-size=&quot;size16&quot;&gt;생산 현장에서는 반복 측정 안정성이 중요합니다.&lt;/p&gt;
&lt;p data-end=&quot;3744&quot; data-start=&quot;3730&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 오실로스코프는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;3787&quot; data-start=&quot;3745&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3752&quot; data-start=&quot;3745&quot; data-section-id=&quot;1hlunp&quot;&gt;자동 측정&lt;/li&gt;
&lt;li data-end=&quot;3768&quot; data-start=&quot;3753&quot; data-section-id=&quot;zfulj8&quot;&gt;Pass/Fail 테스트&lt;/li&gt;
&lt;li data-end=&quot;3777&quot; data-start=&quot;3769&quot; data-section-id=&quot;yf93q1&quot;&gt;데이터 저장&lt;/li&gt;
&lt;li data-end=&quot;3787&quot; data-start=&quot;3778&quot; data-section-id=&quot;14ybttl&quot;&gt;장시간 안정성&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;3810&quot; data-start=&quot;3789&quot; data-ke-size=&quot;size16&quot;&gt;등 산업 현장 중심 기능을 제공합니다.&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;3836&quot; data-start=&quot;3817&quot; data-section-id=&quot;dz3f9i&quot;&gt;디지털 오실로스코프의 고급 기능&lt;/h1&gt;
&lt;h2 data-end=&quot;3867&quot; data-start=&quot;3838&quot; data-section-id=&quot;rngs8f&quot; data-ke-size=&quot;size26&quot;&gt;FFT(Fast Fourier Transform)&lt;/h2&gt;
&lt;p data-end=&quot;3925&quot; data-start=&quot;3869&quot; data-ke-size=&quot;size16&quot;&gt;시간 영역(Time Domain) 신호를 주파수 영역(Frequency Domain)으로 변환합니다.&lt;/p&gt;
&lt;p data-end=&quot;3964&quot; data-start=&quot;3927&quot; data-ke-size=&quot;size16&quot;&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;X(f)=&amp;int;&amp;minus;&amp;infin;&amp;infin;x(t)e&amp;minus;j2&amp;pi;ftdtX(f)=\int_{-\infty}^{\infty}x(t)e^{-j2\pi ft}dt&lt;/span&gt;&lt;span aria-hidden=&quot;true&quot;&gt;&lt;span&gt;&lt;span&gt;X&lt;/span&gt;&lt;span&gt;(&lt;/span&gt;&lt;span&gt;f&lt;/span&gt;&lt;span&gt;)&lt;/span&gt;&lt;span&gt;=&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&amp;int;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&amp;minus;&lt;/span&gt;&lt;span&gt;&amp;infin;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&amp;infin;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;​&lt;/span&gt;&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;x&lt;/span&gt;&lt;span&gt;(&lt;/span&gt;&lt;span&gt;t&lt;/span&gt;&lt;span&gt;)&lt;/span&gt;&lt;span&gt;&lt;span&gt;e&lt;/span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&lt;span&gt;&amp;minus;&lt;/span&gt;&lt;span&gt;j&lt;/span&gt;&lt;span&gt;2&lt;/span&gt;&lt;span&gt;&amp;pi;&lt;/span&gt;&lt;span&gt;f&lt;/span&gt;&lt;span&gt;t&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;span&gt;d&lt;/span&gt;&lt;span&gt;t&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;/p&gt;
&lt;p data-end=&quot;3972&quot; data-start=&quot;3966&quot; data-ke-size=&quot;size16&quot;&gt;이를 통해:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4002&quot; data-start=&quot;3973&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;3981&quot; data-start=&quot;3973&quot; data-section-id=&quot;1xx7jdc&quot;&gt;EMI 분석&lt;/li&gt;
&lt;li data-end=&quot;3993&quot; data-start=&quot;3982&quot; data-section-id=&quot;1wkhsm5&quot;&gt;노이즈 원인 분석&lt;/li&gt;
&lt;li data-end=&quot;4002&quot; data-start=&quot;3994&quot; data-section-id=&quot;jep70g&quot;&gt;고조파 측정&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4013&quot; data-start=&quot;4004&quot; data-ke-size=&quot;size16&quot;&gt;등이 가능합니다.&lt;/p&gt;
&lt;h2 data-end=&quot;4030&quot; data-start=&quot;4020&quot; data-section-id=&quot;qxk4qz&quot; data-ke-size=&quot;size26&quot;&gt;프로토콜 디코딩&lt;/h2&gt;
&lt;p data-end=&quot;4066&quot; data-start=&quot;4032&quot; data-ke-size=&quot;size16&quot;&gt;디지털 통신 데이터를 사람이 읽을 수 있는 형태로 변환합니다.&lt;/p&gt;
&lt;p data-end=&quot;4073&quot; data-start=&quot;4068&quot; data-ke-size=&quot;size16&quot;&gt;지원 예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4104&quot; data-start=&quot;4074&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4080&quot; data-start=&quot;4074&quot; data-section-id=&quot;1j4hcbe&quot;&gt;UART&lt;/li&gt;
&lt;li data-end=&quot;4086&quot; data-start=&quot;4081&quot; data-section-id=&quot;1o4dms&quot;&gt;CAN&lt;/li&gt;
&lt;li data-end=&quot;4092&quot; data-start=&quot;4087&quot; data-section-id=&quot;1o4803&quot;&gt;LIN&lt;/li&gt;
&lt;li data-end=&quot;4098&quot; data-start=&quot;4093&quot; data-section-id=&quot;1o4qoy&quot;&gt;SPI&lt;/li&gt;
&lt;li data-end=&quot;4104&quot; data-start=&quot;4099&quot; data-section-id=&quot;1o489c&quot;&gt;I2C&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4138&quot; data-start=&quot;4106&quot; data-ke-size=&quot;size16&quot;&gt;이는 임베디드 및 자동차 산업에서 매우 중요한 기능입니다.&lt;/p&gt;
&lt;h2 data-end=&quot;4162&quot; data-start=&quot;4145&quot; data-section-id=&quot;dqph72&quot; data-ke-size=&quot;size26&quot;&gt;트리거(Trigger) 기능&lt;/h2&gt;
&lt;p data-end=&quot;4186&quot; data-start=&quot;4164&quot; data-ke-size=&quot;size16&quot;&gt;오실로스코프의 핵심 기능 중 하나입니다.&lt;/p&gt;
&lt;p data-end=&quot;4224&quot; data-start=&quot;4188&quot; data-ke-size=&quot;size16&quot;&gt;특정 조건에서만 파형을 캡처하여 순간 오류를 분석할 수 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;4228&quot; data-start=&quot;4226&quot; data-ke-size=&quot;size16&quot;&gt;예:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4300&quot; data-start=&quot;4229&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4243&quot; data-start=&quot;4229&quot; data-section-id=&quot;9xu2yb&quot;&gt;Edge Trigger&lt;/li&gt;
&lt;li data-end=&quot;4265&quot; data-start=&quot;4244&quot; data-section-id=&quot;1yy9frd&quot;&gt;Pulse Width Trigger&lt;/li&gt;
&lt;li data-end=&quot;4281&quot; data-start=&quot;4266&quot; data-section-id=&quot;jy0k01&quot;&gt;Video Trigger&lt;/li&gt;
&lt;li data-end=&quot;4300&quot; data-start=&quot;4282&quot; data-section-id=&quot;k31vq&quot;&gt;Protocol Trigger&lt;/li&gt;
&lt;/ul&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style6&quot; /&gt;
&lt;h1 data-end=&quot;4326&quot; data-start=&quot;4307&quot; data-section-id=&quot;514x8a&quot;&gt;&lt;i&gt;&lt;b&gt;왜 EZTMI 오실로스코프인가?&lt;/b&gt;&lt;/i&gt;&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;h2 data-end=&quot;4345&quot; data-start=&quot;4328&quot; data-section-id=&quot;76jwi&quot; data-ke-size=&quot;size26&quot;&gt;1. 산업 실무 중심 설계&lt;/h2&gt;
&lt;p data-end=&quot;4381&quot; data-start=&quot;4346&quot; data-ke-size=&quot;size16&quot;&gt;연구소뿐 아니라 실제 산업 현장에서 활용 가능한 기능 중심 구성&lt;/p&gt;
&lt;h2 data-end=&quot;4401&quot; data-start=&quot;4383&quot; data-section-id=&quot;1w26tco&quot; data-ke-size=&quot;size26&quot;&gt;2. 뛰어난 가격 대비 성능&lt;/h2&gt;
&lt;p data-end=&quot;4427&quot; data-start=&quot;4402&quot; data-ke-size=&quot;size16&quot;&gt;합리적인 비용으로 고성능 계측 환경 구축 가능&lt;/p&gt;
&lt;h2 data-end=&quot;4449&quot; data-start=&quot;4429&quot; data-section-id=&quot;ceg1ku&quot; data-ke-size=&quot;size26&quot;&gt;3. 유지보수 및 기술지원 강점&lt;/h2&gt;
&lt;p data-end=&quot;4468&quot; data-start=&quot;4450&quot; data-ke-size=&quot;size16&quot;&gt;국내 공급 기반의 빠른 대응 가능, 국내유일 A/S지원&lt;/p&gt;
&lt;h2 data-end=&quot;4486&quot; data-start=&quot;4470&quot; data-section-id=&quot;xm8cpm&quot; data-ke-size=&quot;size26&quot;&gt;4. 다양한 산업 적용성&lt;/h2&gt;
&lt;p data-end=&quot;4526&quot; data-start=&quot;4487&quot; data-ke-size=&quot;size16&quot;&gt;전자개발 / 자동화 / 자동차 / 전력전자 / 교육기관 등 폭넓은 활용&lt;/p&gt;
&lt;h2 data-end=&quot;4544&quot; data-start=&quot;4528&quot; data-section-id=&quot;1fo2kvy&quot; data-ke-size=&quot;size26&quot;&gt;5. 사용자 친화적 UI&lt;/h2&gt;
&lt;p data-end=&quot;4569&quot; data-start=&quot;4545&quot; data-ke-size=&quot;size16&quot;&gt;초보자부터 전문 엔지니어까지 쉽게 사용 가능&lt;/p&gt;
&lt;hr contenteditable=&quot;false&quot; data-ke-type=&quot;horizontalRule&quot; data-ke-style=&quot;style1&quot; /&gt;
&lt;h1 data-end=&quot;4580&quot; data-start=&quot;4576&quot; data-section-id=&quot;yi4awm&quot;&gt;결론&lt;/h1&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-ke-size=&quot;size16&quot;&gt;&amp;nbsp;&lt;/p&gt;
&lt;p data-end=&quot;4647&quot; data-start=&quot;4582&quot; data-ke-size=&quot;size16&quot;&gt;오실로스코프는 단순 전압 측정 장비가 아니라 전자 시스템 내부 신호를 분석하고 문제를 진단하는 핵심 분석 장비입니다.&lt;/p&gt;
&lt;p data-end=&quot;4664&quot; data-start=&quot;4649&quot; data-ke-size=&quot;size16&quot;&gt;특히 최근 산업 환경에서는:&lt;/p&gt;
&lt;ul style=&quot;list-style-type: disc;&quot; data-end=&quot;4716&quot; data-start=&quot;4665&quot; data-ke-list-type=&quot;disc&quot;&gt;
&lt;li data-end=&quot;4676&quot; data-start=&quot;4665&quot; data-section-id=&quot;6la4bd&quot;&gt;고속 디지털 회로&lt;/li&gt;
&lt;li data-end=&quot;4687&quot; data-start=&quot;4677&quot; data-section-id=&quot;kvtc2h&quot;&gt;전력전자 시스템&lt;/li&gt;
&lt;li data-end=&quot;4696&quot; data-start=&quot;4688&quot; data-section-id=&quot;1lv19qg&quot;&gt;자동차 전장&lt;/li&gt;
&lt;li data-end=&quot;4707&quot; data-start=&quot;4697&quot; data-section-id=&quot;14ifb9c&quot;&gt;임베디드 시스템&lt;/li&gt;
&lt;li data-end=&quot;4716&quot; data-start=&quot;4708&quot; data-section-id=&quot;h8ppzt&quot;&gt;스마트팩토리&lt;/li&gt;
&lt;/ul&gt;
&lt;p data-end=&quot;4760&quot; data-start=&quot;4718&quot; data-ke-size=&quot;size16&quot;&gt;등이 확대되면서 고성능 디지털 오실로스코프의 중요성이 더욱 커지고 있습니다.&lt;/p&gt;
&lt;p data-end=&quot;4853&quot; data-start=&quot;4762&quot; data-ke-size=&quot;size16&quot;&gt;EZTMI 오실로스코프는 산업 실무 중심의 기능 구성과 높은 가성비, 안정적인 성능을 기반으로 다양한 산업 환경에서 효율적인 신호 분석 솔루션을 제공하고 있습니다.&lt;/p&gt;
&lt;p data-is-only-node=&quot;&quot; data-is-last-node=&quot;&quot; data-end=&quot;4936&quot; data-start=&quot;4855&quot; data-ke-size=&quot;size16&quot;&gt;전자 신호를 정확하게 이해하고 분석하는 것은 안정적인 시스템 구축의 시작이며, 오실로스코프는 그 핵심에 있는 필수 계측 장비라고 할 수 있습니다.&lt;/p&gt;</description>
      <category>EZTMI</category>
      <category>계측기</category>
      <category>계측장비</category>
      <category>디지털오실로스코프</category>
      <category>신호분석</category>
      <category>오실로스코프</category>
      <category>전자계측</category>
      <category>전자계측기</category>
      <category>전자회로</category>
      <category>파형측정</category>
      <author>eztmi-review</author>
      <guid isPermaLink="true">https://eztmi-review.tistory.com/1</guid>
      <comments>https://eztmi-review.tistory.com/1#entry1comment</comments>
      <pubDate>Thu, 14 May 2026 11:04:35 +0900</pubDate>
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