联系我们
联系我们 库存

525系列光耦合器

描述

光耦合器,本质安全电路电隔离(EXi),隔离电压最小4kVDC,CTR最小0.5,截止50kHZ。ATEX & IECEx 认证(18 ATEX 0017 U, KIWA 18.009 U)。绝缘电阻的输入/输出高达10 ^ 12Ω。输入和输出间的最高安全要求达到14.5mm。电隔离和轻微的输入和输出电路之间的耦合电容。可以模拟和数字信号的传输。与继电器相比输出延迟时间比较小。由于无机械磨损因此寿命很长。磁场不影响操作。使光电二极管运行非常短的时间。在传输过程中能够逆变输出信号。


Type of protection: II (1) G [Ex ia Ga] II C
In accordance with: EN 60079-0, EN 60079-11

ATEX Examination Certificate & Assessment Report

IECEx Certificate of Conformity

Mounting Instructions for 525 Optocoupler Series


 

规格

输出/输入端绝缘电压最小值(VDC)4000
电流转移系数lc/lf (lf = 10mA) 最小值0.5
开启/关闭时间(µsec)5.5/4.2
集电极-发射极电压(VDC)最大值32
爬电距离,空气路径I/O最小值 (mm)14.5
环境温度°C-40 to 85

应用领域

任何工厂需要高绝缘和无弧环境, 易燃气体处理厂,ESD可能是一个真正的问题的医疗处理厂, 采矿作业

产品系列规格(PDF)
 
打印

库存查询

型号数据表数据表经销商地区数量购物车请求询价库存日期
525-03-0-I Electro Sonic GroupAmericas0 请求询价2025-02-06
525-03-0-I MASTER/ONLINEAmericas0 请求询价2025-02-06
525-03-0-I Digi-Key ElectronicsAmericas203 购买 请求询价2025-01-10
525-03-0-I Mouser ElectronicsAmericas0 请求询价2025-02-06
525-03-0-I UCE SATMouser ElectronicsAmericas0 请求询价2025-02-06
525-03-0-I Arrow ElectronicsAmericas200 购买 请求询价2025-02-06
525-03-0-I Standex FactoryAmericas0 请求询价2025-02-06

参数搜索

Output/Isolation Voltage Input/Output Min. (VDC)Turn On/Off Time (µsec)Collector-Emitter (Forward Uf) Voltage Max. (VDC)DC Forward Current If max. (mA)Emitter/Collector Power Dissipation Ptot max. (mW)Creeping Distance, Air Path I/O Min. (mm)Current Transfer Ratio lc/lf (lf = 10mA) Min. (A)Transmission Frequencies up to (KHz)产品特点
清除 清除 清除 清除 清除 清除 清除 清除 清除
产品型号 Output/Isolation Voltage Input/Output Min. (VDC)Turn On/Off Time (µsec)Collector-Emitter (Forward Uf) Voltage Max. (VDC)DC Forward Current If max. (mA)Emitter/Collector Power Dissipation Ptot max. (mW)Creeping Distance, Air Path I/O Min. (mm)Current Transfer Ratio lc/lf (lf = 10mA) Min. (A)Transmission Frequencies up to (KHz)产品特点
525-03-0-iTransistor / 4,0005.5/4.232 (1.5)100170/10014.50.550ATEX/IECEx Certified, Small size, 10^12Ω IR

相关的部分

光耦合器,本质安全电路电隔离,隔离电压最小6kVDC,CTR最小0.5,截止50kHZ。绝缘电阻的输入/输出高达10 ^ 13Ω。输入和输出间的最高安全要求达到24.5mm。电隔离和轻微的输入和输出电路之间的耦合电容。可以模拟和数字信号的传输。与继电器相比输出延迟时间比较小。由于无机械磨损因此寿命很长。磁场不影响操作。使光电二极管运行非常短的时间。在传输过程中能够逆变输出信号。

微型光耦合器,本质安全电路电隔离(EXi),隔离电压最小4kVDC,CTR最小0.5,截止85kHZ。ATEX & IECEx 认证(18 ATEX 0017 U, KIWA 18.009 U)。绝缘电阻的输入/输出高达10 ^ 12Ω。输入和输出间的最高安全要求达到12mm。电隔离和轻微的输入和输出电路之间的耦合电容。可以模拟和数字信号的传输。与继电器相比输出延迟时间比较小。由于无机械磨损因此寿命很长。磁场不影响操作。使光电二极管运行非常短的时间。在传输过程中能够逆变输出信号。


Type of protection: II (1) G [Ex ia Ga] II C
In accordance with: EN 60079-0, EN 60079-11

ATEX Examination Certificate & Assessment Report

IECEx Certificate of Conformity

光耦合器522


 

光耦合器,本质安全电路电隔离,隔离电压最小10kVDC,CTR最小0.9,截止50kHZ。绝缘电阻的输入/输出高达10 ^ 12Ω。输入和输出间的最高安全要求达到42mm。电隔离和轻微的输入和输出电路之间的耦合电容。可以模拟和数字信号的传输。与继电器相比输出延迟时间比较小。由于无机械磨损因此寿命很长。磁场不影响操作。使光电二极管运行非常短的时间。在传输过程中能够逆变输出信号。

光耦合器,本质安全电路电隔离,隔离电压最小22kVDC,CTR最小0.8%,截止100kHZ。绝缘电阻的输入/输出高达10 ^ 12Ω。输入和输出间的最高安全要求达到39mm。电隔离和轻微的输入和输出电路之间的耦合电容。可以模拟和数字信号的传输。与继电器相比输出延迟时间比较小。由于无机械磨损因此寿命很长。磁场不影响操作。使光电二极管运行非常短的时间。在传输过程中能够逆变输出信号。

光耦合器,本质安全电路电隔离(EXi),隔离电压最小4kVDC,CTR最小3.0,截止2kHZ,ATEX & IECEx 认证(18 ATEX 0017 U, KIWA 18.009 U)。绝缘电阻的输入/输出高达10 ^ 13Ω。输入和输出间的最高安全要求达到14.5mm。电隔离和轻微的输入和输出电路之间的耦合电容。可以模拟和数字信号的传输。与继电器相比输出延迟时间比较小。由于无机械磨损因此寿命很长。磁场不影响操作。使光电二极管运行非常短的时间。在传输过程中能够逆变输出信号。


Type of protection: II (1) G [Ex ia Ga] II C
In accordance with: EN 60079-0, EN 60079-11

ATEX Examination Certificate & Assessment Report

IECEx Certificate of Conformity

Mounting Instructions for 535 Optocoupler Series


光耦合器,本质安全电路电隔离(EXi),隔离电压最小4kVDC,截止500kHZ,ATEX & IECEx 认证(18 ATEX 0017 U, KIWA 18.009 U)。绝缘电阻的输入/输出高达10 ^ 13Ω。输入和输出间的最高安全要求达到14mm。电隔离和轻微的输入和输出电路之间的耦合电容。可以模拟和数字信号的传输。与继电器相比输出延迟时间比较小。由于无机械磨损因此寿命很长。磁场不影响操作。使光电二极管运行非常短的时间。在传输过程中能够逆变输出信号。


Type of protection: II (1) G [Ex ia Ga] II C
In accordance with: EN 60079-0, EN 60079-11

ATEX Examination Certificate & Assessment Report

IECEx Certificate of Conformity

Mounting Instructions for 567 Optocoupler Series


 

技术文件

应用领域

媒体

Product Training Module – RF Reed Relays Part I

Welcome to Standex Electronics' RF Reed Relays Part I training module. Reed relays have long been known to have the capability to switch and carry RF signals and fast digital pulses. Hardly anyone thought reed relays were capable of switching and carrying RF up to 20 GHz, because the reed switch's leads are composed of nickel/iron which has a relatively high permeability or (MU). However, 20GHz is now a reality at Standex Electronics. We will be presenting the reasons Standex Electronics and their design team have made this possible.

Product Training Module – RF Reed Relays Part II

Welcome to Standex Electronics' RF Reed Relays Part II training module. This second RF presentation assumes you have already heard the first Standex Electronics RF Part I presentation. Understanding the simple physical layout of a reed relay makes it easy to design and rest reed relays for RF and fast digital pulse applications. RF is dependent on the physical layout or signal path it takes while going through circuits and the components that make up those circuits. We will show you how the physical layout of the reed relay will have a direct bearing on the RF signal's success going into and out of the reed relay. Coupled with the relay's physical layout, the materials making up the reed relay are also important.

Product Training Module – Reed Relay Overview

Welcome to Standex Electronics Reed Relay training module. This module will define key terms used in reed relays and their applications. The module will also describe the structure and function of reed relays and their vast number of applications.

Product Training Module – Magnet Technology & Their Uses

Welcome to Standex Electronics where we will be exploring what magnets are and how they are used in the electronic industry. We will define the key terms relating to magnets and we will explore what magnets are, what they do, and how they are used.

Product Training Module – Latching Form B Reed Relays & Sensors

Welcome to Standex Electronics' Latching and Form B Reed Relay and Sensor training module. This module will define key terms of Form B and Latching sensors and relays. The module will also describe the structure and function of latching and Form B reed relays and sensors.

Standex -Meder社スイッチ生産工程 (JP)

リードスイッチを開発して設計することはとても難しい作業です. それで Thuringiaに位置している本社の工場はこの分野で最初に最新生産設備を取り揃えて超精密度を要する多様なリードスイッチを生産しています. その大きさは非常に小さくて薄いコーティング層で成り立っていて, 細心な工程段階を通さなければなりません. このような高度の精密度及び技術を持った生産環境で競争力がある価格と優秀な品質の製品たちが誕生することになるのです...

リードスイッチの構造及び原理 (JP)

リードスイッチ、リードリレー及びリードセンサーは弊社の基本的に大事な製品ラインとしてこの3種類の製品ラインではリードスイッチという共同的な核心素子が入ってあります。リードスイッチは磁石による磁場の原理で駆動されるのに ,この原理は1940 年代初アメリカのベル研究所によって発明されました. 作動原理はとても簡単です。,二つの端に強い磁性体の性格を持った金属リード素子を約何マイクロメーターのとても微細な間隔で重なるようにした後ガラス管に入れて密封させます. そしてガラス管の内部には不活性ガスが満たされます。この時に二つのリード素子はお互いに離れてる状態だったが外部から磁石による磁場が形成になりながら極と極が発生して両極性を持った二つのリード素子はお互いに引き寄せて結合するようになります

리드스위치 구조 및 원리 (KR)

리드 스위치 리드 릴레이 및 리드센서는 본사의 가장 기본적인 중요한 제품군으로 이루어져 있으며, 이 세 가지 제품군에는 리드 스위치 라는 공통적인 핵심소자가 들어갑니다. 리드 스위치 는 자석에 의한 자기장의 원리로 구동되는데 ,이 원리는1940 년대 초 미국벨 연구소에 의해서 발명 되었습니다. 작동원리는 아주 간단하여 ,두 개의 끝단에 강한 자성체의 성격을 가진 금속 리드 소자를 약 몇 마이크로미터의 아주 미세한 간격으로 겹쳐지게 한 후 유리관에 넣고 밀봉시킵니다. 그리고 유리관 내부에는 불활성 가스가 채워집니다 이때에 두 개의 리드소자는 서로 떨어져 있는 상태였으나 외부로부터 자석에 인한 자기장이 형성이 되면서 극과 극이 발생하여 양극성을 가진 두 개의 리드 소자는 서로 끌어당겨 결합하게 됩니다.

메더스위치 생산 제조공정 (KR)

리드 스위치를 개발하고 설계한다는 것은 매우 어려운 작업입니다. 그래서 Thuringia에 위치하고 있는 본사의 공장은 이 분야에서 가장 먼저 최신생산설비를 갖추어 초 정밀도를 요하는 다양한 리드 스위치들을 생산하고 있습니다. 그 크기는 매우 작고 얇은 코팅층으로 이루어져 있어, 세심한 공정단계를 거쳐야 합니다. 이러한 고도의 정밀도 및 기술을 가진 생산 환경에서 비로소 경쟁력 있는 가격과 우수한 품질의 제품들이 탄생하게 되는 것입니다.

订阅我们的电子邮件

We Will Use The Email Address You Provide To Send You Marketing And Promotional Materials.

  • This field is hidden when viewing the form

展览活动

关注我们

领导层聚焦

0 Shares
Thank you for your patience as we are searching for your Stock Check
Loading...
Video
表格下载
Products compare