普尔世(PULS)开关电源选型手册
SOpus 系列熔断器产品选型指南
!"#$%&'() !"#$ !"#$%&'()*+ !"#$
(mm) (mm) (mm2)
100 185 300 M10
Opus Excel IEC 60947-3 !"#$% ( ! !
!(
)
!"#$ !" !"#$
!)
kA
50 AC22B AC22B
7
Opus -
!
Opus
!"#$%&'( !"#$% !"#, !"#$%&' !"#$%&'()*+,-./012 !
8
!"
!"#$%&'()*+,-./ ! !"#$% !"#$%&'()*+ !"#$ !"#$%&'$()*+ IP33 !"#$%&'( !"#$%&'()*+,-./01234 !" RAL7032 !"#$%&'() !"# !"#$%&'( !"# ! !"#$ !"# ! !" !"#$% !"#$ !"#$%&' !"# 630A (3 !" ! ! !"#$% !"#$%&'():
Opus
2
Opus Excel !
Opus Plus !
CEDES LPS 100 202 安装及说明书
CEDES安装及操作手册LPS 100/20285…265VAC/120…375VDC 双通道开关电源适用与不同类型的传感器连接使用中文跟传感器配套使用的专用开关电源manufactured under ISO 9001: 2000重要注意事项请注意遵守本手册中的安装说明,否则会引起客户的投诉和严重的召回事件。
请将本手册放置在现场。
© CEDES / Version 1.1 / March 22, 2010Part No.85…265VAC/120…375VDC双通道开关电源安装及操作手册请勿在爆炸性、放射性或化学性的环境中使用本产品!此种环境中只能使用特殊的、经认可的设备,不然会引起严重的伤亡事故或损害!2 © CEDES / March 201085…265VAC/120…375VDC双通道开关电源安装及操作手册①继电器输出接线排- 包含继电器输出通道1 (NC/NO)、继电器输出通道2 (NC/NO)②模式选择开关模式1 - 不带逻辑控制模式2 - 带逻辑控制(与门、或门)功能。
③逻辑输出选择开关逻辑“或”输出(”≥1”)逻辑“与”输出(”&”)④AC电源输入接线排⑤继电器输出状态指示灯(针对继电器输出通道1)⑥继电器输出状态指示灯(针对继电器输出通道2)⑦电源输入状态指示灯⑧传感器信号输入接线排重如果选压输© CEDES / March 2010 34 © CEDES / March 20103. 安装步骤 安装过程应严格按照如下步骤进行:1.切断主电源,保证安装设备处于待检状态 ·开关电源可以通过设置在其底部的燕尾槽被固定在靠近门机控制器的位置上。
2. 传感器的固定安装 3. 开关电源的固定安装 4. 开关电源的电气安装 5. 上电并进行正常功能调试 3.1. 切断主电源为了您自身安全,在安装开关电源之前先切断主电源,并保证安装设备处于待检状态。
开关电源中电容器的选择
f
(U
2 p
−
U
2 v
)
Po
=
fU
2 p
(1
−
k
2
)
α Po
fU
2 i min
Uip
Uv
α= 1
2(1− k 2 )
k= Uv/Up;
t
Ii Ii
U p = 2Uimin
脉冲宽度
t = cos−1 k
2π f
D = t = 2 ft = cos−1 k
T /2
π
流过电容的交流有效值 Iac = β CfUimin
6
2.电压定额
电容器介质中的电场强度大于它的允许电场强度,这是 绝缘介质中的电子被拉出来,产生雪崩效应,引起介质
击穿。额定电压一般比击穿电压低。高电压定额的电容
需要更厚的介质,比低电压体积大。
额定直流电压:电容两极能施加的最高直流电压。
额定交流电压:受损耗限制,一般比直流电压低得多。 并随频率增加允许交流电压降低。
8
各种电容引线结构典型ESL
• SMT元件典型值在2~8nH。 径向引线型电容在10nH~ 30nH,螺旋端子电容 20~50nH,轴向引线型低于 200nH。
容芯卷绕大,平叠小。
9
4. 纹波电流和dv/dt定额
电容温升是ESR损耗引起的。为了保证电容的寿 命,电容规定了允许纹波电流值,而有些电容规 定了电压变化率,即dV/dt,一般用V/μs表示。
2
定义: Q = CU 或 C = Q U
电容量与结构和介质有关:
C
=
εA
d
=
ε0εr A
XP562-GPRPU(B)使用手册
8路通用继电器输出端子板XP562-GPRPU(B)1基本说明XP562-GPRPU(B)端子板是JX-300XP系统中的8路通用继电器输出端子板。
XP562-GPRPU(B)端子板配合8路数字信号输出模块XP362(B)使用,将现场DO信号进行继电器隔离并提高输出驱动能力。
XP562-GPRPU(B)端子板能够实现有源常开触点24VDC/220V AC或者无源常开触点的开关量信号输出。
继电器触点侧带有熔断保险丝插座,保险丝可通过插拔更换。
继电器带插座,方便更换、维护。
一块XP562-GPRPU(B)端子板有两个DB25插座,通过XP527转接模块与XP362(B)卡相连。
当XP362(B)卡件采用单卡方式工作时,通过XP527转接模块,可连接XP562-GPRPU(B)端子板的任意一个DB25插座;当XP362(B)采用冗余方式工作时,通过XP527转接模块,XP562-GPRPU(B)端子板的两个DB25插座分别对应XP362(B)工作卡和备用卡。
XP562-GPRPU(B)端子板采用DIN导轨安装,具有使用简便、安全性高、可靠性强、易于维护等优点。
2性能指标表 2-1 XP562-GPRPU(B)端子板性能指标端子板型号XP562-GPRPU(B)通道数8触点操作次数大于10万次最大触点操作频率 20次/分(额定控制容量)输出容量 3A/通道(MAX),8通道总共不超过10A总:10A 玻璃管可更换式保险丝现场侧(触点)通道级:3.15A 可插拔保险丝保险丝可插拔保险丝系统侧(线圈) 2A现场侧(触点) 24VDC±20%或者220V AC±20%配电电压系统侧(线圈) 24VDC±20%24V功耗(系统测)<300mA配电方式支持并接方式冗余电源输入隔离方式通道间:点点隔离(无源配置)现场侧与系统侧:继电器隔离隔离电压2000V AC 1分钟(现场侧与系统侧)静电放电抗扰度依据标准:GB/T17626.2(IEC61000-4-2)空气放电±8kV,接触放电±6kV,间接放电±8kV电快速瞬变脉冲群抗扰度依据标准:GB/T17626.4(IEC61000-4-4)信号端±1000V浪涌(冲击)抗扰度依据标准:GB/T17626.5(IEC61000-4-5)信号端±2000V工作温度:(0~50)℃存放温度:(-40~70)℃工作湿度:10%~90%,无凝露存放湿度:5%~95%,无凝露工作环境大气压力:(62~106)kPa,相当于海拔4000米3使用说明3.1端子板外观图端子板尺寸:218mm×76mm。
PULS导轨电源-晶圆
一百万小时平均无故障时间-40°C…+70°C 环境温度范围95%转换效率可耐受6000米海拔高度MTBF#PULS 普尔世电源1普尔世电源公司——高可靠性的供电解决方案30年的德国品质高可靠性的供电解决方案DIN导轨式开关电源全球市场领袖全球销售额:80+ Mio. EUR/2008产量:>100万台电源/年Sil e LineSilverLine强力型产品线Mi iLi#PULS普尔世电源2MiniLine迷你型产品线DIMENSION概念型产品线普尔世总部及生产基地中国苏州德国慕尼黑捷克霍穆托夫全球主要生产基地研发分部总部研发基地物流生产基地市场销售和应用支持物流基地采购中心产品定义和研发中心#PULS普尔世电源3普尔世全球分布德国东欧,捷克英国法国美国瑞士中国#PULS 普尔世电源4普尔世电源产品苏州有限公司/普尔世贸易苏州有限公司()() 物流生产基地、研发中心/市场销售、应用支持、新产品定义2005年开始在中国生产,建筑面积10,000平方米,一期5,500平米, 节能工业建筑(Gold, Leadership in Energy and Environmental Design)#PULS 普尔世电源5所获重要奖项1995:发起创立欧洲电源生产商协会EPSMA电源领域的技术领袖2006:电源领域的技术领袖2008:全球市场领袖Founder and member ofEuropean Power SupplyManufacturing Associationsince 1995#PULS普尔世电源7普尔世电源产品应用——与我们的客户一同成长普尔源产品应用与我们的客户同成长#PULS 普尔世电源7普尔世电源产品应用——高可靠性的自动化和控制过程控制:•化工、水处理、冶金、核电/水电/火电站、检测识别设备 工厂自动化:•机床、印包机械、纺织机械、橡塑机械、工程机械、机器人 交通运输:•公路、铁路、航空信息化;地铁、机场、电梯、物流自动化 发电设备:•太阳能发电风力/太阳能发 医疗器械#PULS 普尔世电源6普尔世电源产品应用——过程控制行业典型应用:•DCS/ESD 等系统及其分布式仪器仪表•系统总线供电应用需求:•冗余电源系统高靠性长使用寿命•高可靠性,长使用寿命•稳健的直流电能质量;•耐受恶劣的工作环境:温湿度/高海拔/•优异的电磁兼容性•全功率范围内的高转换效率•体积小巧UL1604 ATEX •UL1604, ATEX,DeviceNet 等认证 典型客户/项目•ABB•YOKOGAWA •Invensys•上海2008年LNG 项目: 24V/160A#PULS 普尔世电源9•… …普尔世电源产品应用——工厂自动化行业典型应用:•机床、印包机械、纺织机械、橡塑机械、工程机械机器人等的电控系统械、机器人,等的电控系统•半导体生产/封装/测试等设备应用需求:稳健的直流电能质量••创新的设计支持•优异的电磁兼容性•体积小巧•全功率范围内的高转换效率•CE, UL,GL, SemiF47等认证 典型客户•Heidelberg/K&B/Man-roland •Herrenknecht •Rieter/Oerlikon •DMG•Schindler •PULS 普尔世电源Trumpf •… …普尔世电源产品应用——交通运输行业典型应用:•轨道交通信号控制系统•机场航空控制系统•高速公路信息系统•物流控制系统应用需求:•极高的高可靠性指标,冗余/UPS •长使用寿命;稳健的直流电能质量•稳健的直流电能质量;•耐受恶劣的工作环境:温湿度/高海拔/振动冲击•优异的电磁兼容性•全功率范围内的高转换效率•体积小巧•CE ,GL ,UL 等认证典型客户/项目•京津城际铁路/武广铁路/郑西/京哈等•Vanderlande PULS 普尔世电源•Smith Heimann普尔世电源产品应用——风力/太阳能发电行业典型应用:•风力发电机主控/变桨/变流电控系统•太阳能逆变器及其控制系统应用需求:•高可靠性,长使用寿命;稳健的直流电能质量•稳健的直流电能质量;•耐受恶劣的工作环境:温湿度/高海拔/振动冲击•优异的电磁兼容性•全功率范围内的高转换效率•体积小巧•CE ,GL ,UL 等认证 典型客户•VESTAS •Enercon •Suzlon •金风•天津瑞能PULS 普尔世电源•... …普尔世电源产品应用——医疗器械行业典型应用:•现代化医疗检测设备的电控系统•药品/医疗器械的生产设备应用需求:•极高的安全性和可靠性•稳健的直流电能质量;•优异的电磁兼容性•全功率范围内的高转换效率•体积小巧•UL60601-1等认证典型客户•Siemens Medical•Philips Medical•CarestreamD•Draeger•... …PULS普尔世电源—DIN 导轨式电源的标准制订者普尔世导轨式源的标准制订者PULS 普尔世第代第三代480W 电源QT20.241西门子菲尼克斯/Chinfa/明纬PULS 普尔世电源截止至2007年底85mm60mm 60mm 90mm 70mm 125.5mmPULS 普尔世电源240W 单相输入电源截止至2007年底PULS普尔世开关稳压直流电源简约:节约电柜内的空间稳健:10年以上的使用寿命/故障零容忍强劲:轻松起动各种困难的负载高效:节能降耗PULS普尔世电源: “友好”的输入侧稳健友好的输侧宽范围交流/直流电压输入可在44Hz到66Hz的频率范围内持续工作,264-300Vac/500ms:264300Vac/500ms: 耐受电网侧高能冲击VED 0160瞬态脉冲:发生在大的支路电流使熔断丝熔断时,该脉冲也会出现在邻近支路中。
Philips 22_fr.fr EU Adaptor - 启动快速指南说明书
• Reportez-vous aux informations de sécurité avant d’utiliser le produit.
• Par la présente, Gibson Innovations déclare que ce produit est conforme aux exigences essentielles et autres dispositions pertinentes de la Directive 2014/53/EU.
Ce symbole s’affiche en continu lorsque vous parcourez les appels bloqués dans le journal des appels.
Ce symbole s’affiche en continu lorsque vous parcourez les appels sortants dans la liste de rappel.
Microphone D455
Haut-parleur
/ /
电源选择指南说明书
For more information, download the FREE Power Supply Technical Guide Tablet Application, now available from the iTunes store and Google play.Tektronix and Keithley Power Supply Selection GuideOthersTektronix PWS2185 1 90 W 18 V 5 A N/A Single-channel, low-noise,non-programmable, benchtop linear power supplyTektronix PWS2323 1 96 W 32 V 3 A N/A Tektronix PWS2326 1 192 W 32 V 6 A N/A Tektronix PWS2721 1 108 W 72 V 1.5 A N/A Tektronix PWS4205 1 100 W 20 V 5 A GPIB Single-channel, low-noise, programmable, benchtop linear power supplyKeithley 2200-20-5 1 100 W 20 V 5 A GPIB/USB Tektronix PWS4305 1 150 W 30 V 5 A GPIB Keithley 2200-30-5 1 150 W 30 V 5 A GPIB/USB Tektronix PWS4323 1 96 W 32 V 3 A GPIB Keithley 2200-32-3 1 96 W 32 V 3 A GPIB/USB Tektronix PWS4602 1 150 W 60 V 2.5 A GPIB Keithley 2200-60-2 1 150 W 60 V 2.5 A GPIB/USB Tektronix PWS4721 1 86 W 72 V 1.2 A GPIB Keithley 2200-72-1 1 86 W 72 V 1.2 A GPIB/USB Keithley 2220-30-1 2220J-30-1 2 45 W 30 V 1.5 A USB Two and three channels, low-noise, programmable, benchtop linear power supply45 W 30 V 1.5 A Keithley2220G-30-1 2220GJ-30-1 245 W 30 V 1.5 A USB/GPIB45 W 30 V 1.5 A Keithley 2230-30-1 2230J-30-1345 W30 V 1.5 A USB45 W 30 V 1.5 A 30 W 6 V 5 A Keithley2230G-30-1 2230GJ-30-13 45 W30 V 1.5 A USB/GPIB45 W 30 V 1.5 A 30 W 6 V 5 A Keithley 2231A-30-3 390 W30 V 3 A Optional USBThree channels,programmable, benchtop linear power supply90 W 30 V 3 A 15 W5 V 3 A Keithley 2280S-32-6 1 192 W 32 V 6 A GPIB/USB/LAN Precision measurement power supply (PMS )2280S-60-3 1 192 W 60 V 3.2 A GPIB/USB/LAN Keithley 2260B-30-36 1 360 W 30 V 36 A USB/LAN Single channel, low-noise, programmable, applicable to automated manufacturing and laboratory testingKeithley 2260B-30-72 1 720 W 30 V 72 A USB/LAN Keithley 2260B-80-13 1 360 W 80 V 13 A USB/LAN Keithley 2260B-80-27 1 720 W 80 V 27 A USB/LANKeithley 2268-20-42 1 850W 20V 42A GPIB/USB/LAN, RS-232, RS-485, Isolated Analog I/O, Non-Isolated Analog I/O1U high and half-rack width, 15V and 5V Auxiliary Outputs, constant power control mode, foldback mode with programmable delayKeithley 2268-40-21 1 850W 40V 21A Keithley 2268-60-14 1 850W 60V 14A Keithley 2268-80-10 1 850W 80V 10.5A Keithley 2268-100-8 1 860W 100V 8.5A Keithley2268-150-51850W150V5.6AModel PWS2185 PWS2323 PWS2326 PWS2721OutputVoltage 0 - 18V 0 – 32V 0 – 32V 0 – 72VOutputCurrent 0 - 5A 0 – 3A 0 – 6A 0 - 1.5AOutputPower90W 96W 192W108WRipple and Noise (20Hz - 7MHz)CV p-p ≤ 3mVCV RMS ≤ 1mVCC RMS ≤ 5mAProgramming Accuracy (25°C ±5°C)≤0.05% + 10mVCurrent ≤0.2% + 10mAReadback accuracy (25 °C ± 5 °C)Voltage≤0.05%+ 15mV<20V: ≤0.05% + 15mV≥20V: ≤0.05% + 120mVCurrent ≤0.1% + 15mADimension 2U high, half rack widthOthers Store up to 20 sets of user settingsWith their good ripple and noise performance, the PWS2000 Series are excellent supplies for education and lab R&D use.PWS2000 SeriesSingle-channel, Low-noise, Non-programmable Power SupplyDesigned for Benchtop ApplicationsPWS2000 Features•Linear power supply with low ripple and noise•Power up to 192W•0.05% voltage programming accuracy•0.2% current programming accuracy•10mV/10mA programming resolution•Ripple and noise peak-to-peak value lessthan 3mV•Store 20 sets of settings•Keypad data entry•Three-year warrantyModel PWS4205 2200-20-5 PWS4305 2200-30-5PWS4323 2200-32-3 PWS4602 2200-60-2PWS4721 2200-72-1 Output Voltage 0 – 20 V 0 – 30 V 0 – 32 V 0 – 60 V 0 – 72 V Output Current 0 – 5 A 0 – 5 A 0 – 3 A 0 - 2.5 A 0 - 1.2 A 100 W150 W96 W150 W86 WRipple and Noise (20 Hz-7 MHz) CV p-p <3 m V <4 mV <4 mV <5 mV <3 mV CV RMS <1 mV <1 mV <1 mV <1 mV <1 mV CC RMS<3 mA<4 mA<3 mA<3 mA<3 mAProgramming Accuracy (25 °C ± 5 °C) Voltage ≤0.03% +3 mV ≤0.03%+3 mV ≤0.03%+3 mV ≤0.03%+6 mV ≤0.03%+6 mV Current≤0.05%+2 mA≤0.05%+2.5 mA≤0.05%+2 mA≤0.05%+1.5 mA≤0.05%+1 mAReadback Accuracy (25 °C ± 5 °C) Voltage ≤0.02%+3 mV ≤0.02%+2.5 mV ≤0.02%+3 mV ≤0.02%+6 mV ≤0.02%+5 mV Current≤0.05%+2 mA≤0.05%+2.5 mA≤0.05%+2 mA≤0.05%+1.5 mA≤0.05%+1 mAProgramming PWS series with USB port, 2200 Series with USB and GPIB ports 2U high, half rack widthOthersList mode support up to 7seven customized test sequences; each sequence can host 80 voltage and current stepsPWS4000/Series 2200Single-channel, Low-noise, Programmable Power Supply Designed for Benchtop and Automated Test ApplicationsPWS4000/2200 Features•Linear power supply with low ripple and noise •Power up to 150W•0.03% voltage programming accuracy •0.05% current programming accuracy•1mV/0.1mA programming resolution, high precision power supply suitable for testing low power components•Remote sense function, further improve output voltage accuracy at the DUT •List mode supports up to 80 steps to improve ATE test efficiency•PWS Series supplied with a USB interface; 2200 Series supplied with USB and GPIB interfaces•Three-year warrantyThe PWS4000 and 2200 Series programmable power supplies have excellent accuracy for R&D and manufacturing testing of a wide range of components, sub-assemblies, and end products.Model2230-30-1, 2230J-30-1*,2230G-30-1, 2230GJ-30-1*2220-30-1, 2220J-30-1*,2220G-30-1, 2220GJ-30-1* OutputChannel32Voltage 0 – 30V 0 – 30V 0 – 6V 0 – 30V 0 – 30VCurrent 0 – 1.5A 0 – 1.5A 0 – 5A 0 - 1.5A 0 – 1.5APower 120W 90WRipple and NoiseCV p-p 7MHz < 3mV < 3mV < 3 mV < 3mV < 3mVCV RMS 7MHz < 1mV < 1mV < 1 mV < 1mV < 1mVCC RMS 20MHz < 5mA < 5mA < 6 mA < 5mA < 5mA Programming Accuracy (25°C ± 5°C)Voltage ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV Current ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA Readback Accuracy (25 °C ± 5 °C)Voltage ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV Current ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA Communication Standard with USB port; 22XXG/GJ with GPIB PortDimension 2U high, half rack widthOthersAll output channel isolated, support output with both positive and negative voltage. Supportoutputs synchronization and tracking modeSeries 2220/2230Two or Three Channels, Low Noise, Programmable Power SupplyDesigned for Benchtop ApplicationsSeries 2220/2230 Features•Two or three outputs•Linear power supply with low ripple and noise•All channels are isolated and can be controlled independently to maximizeflexibility•All channels have remote sensing to ensure maximum voltage accuracy atthe DUT•Two 30V channels can be connected in series or parallel and the displayshows total output voltage and current•0.03% voltage programming accuracy and 0.1% current programmingaccuracy•Three-year warrantySeries 2220/2230 Multi-Channel Power Supplies are excellent for use in student labs, R&D, and test labs.They provide 2 or 3 channels of isolated, high quality power to one or multiple DUTs.* J-versions are designed for 100VAC nominal input AC line voltage.Series 2220/2230 Power Supplyconnections and operating modesfor series and parallel connectionsModel 2231A-30-3 Triple-Channel DC Power Supply Offers Versatility and Ease of Use Designed for Benchtop ApplicationsThe Model 2231A-30-3 is a highly cost-effective power supply with 195W of power for student laboratories and laboratory R&D use.1 2 3 0 – 30V 0 – 30V 0 – 5V 0 - 3 A0 – 3A 0 – 3A195 W≤5mV ≤1mV ≤6 mA≤0.06% + 20mV ≤0.2% + 10mA≤0.06% + 20mV ≤0.2% + 10mA 2U high, half rack widthStore up to 27 sets of user settings2231A-30-3 Features•Three independent and adjustable outputs in one instrument •Power up to 195W•0.06% voltage programming accuracy•0.2% current programming accuracy•DC power with less than 5mVp-p noise•Simultaneous display of all three outputs•Double output levels by connecting the two 30V channels in series or parallel•Store 30 sets of settings •Turn off any output with a programmable timer •Control from a PC •Three-year warrantyModel2280S-32-6 2280S-60-3 Output Voltage 0 - 32V0 - 60VOutput Current 0 - 6A 0 - 3.2A Output Power 192W192W Ripple and noise (20Hz - 20MHz)CV p-p: (mV) 5mV 7mV CV RMS: (mV) 1mV 2mV CC RMS: (mA)3mA3mA Programming accuracyVoltage ≤0.02%+3mV ≤0.02%+6mV Current≤0.05%+0.1mA≤0.05%+0.1mAReadback accuracyVoltage ≤0.02%+2mV ≤0.02%+4mV Current1A/10A Range10mA/100mA Range≤0.05%+250µA ≤0.05%+10µA ≤0.05%+250µA≤0.05%+10µA Readback resolution (under 6.5 digit setting ) Voltage 10µV 10µV Current 10nA10nAMinimumMeasurement Time 0.002 Power Line CyclesResponse Time Voltage Rising Slew Rate 10V/s – 100V/s 10V/s – 100V/s Voltage Falling Slew Rate 10V/s – 100V/s10V/s – 100V/sLoad Transient Response Time <50µsProgramming GPIB/USB/LAN (LXI-C)Dimension 2U high, half rack widthOthersPrecision measurement power supply with 6½-digit DMM measurement capability, GUI, LXI web interface, output list function and programmable output slew rateThe Series 2280S Precision Measurement Power Supply helps R&D and test engineers easily perform current drain analysis on low power products.2280S Precision Measurement Power Supply Single-channel, ProgrammableDesigned for Current Drain AnalysisSeries 2280S•6½-digit DMM measurementcapability to observe load currents from 100nA to 6A•High speed sampling capability, for capturing load current pulses as narrow as 140µs•192W linear power supply with low ripple and noise and <50µs, fast transient response •Output list function•Programmable voltage slew rate simulates supply rise time conditions•GUI with waveform display of output current and voltage•GPIB/USB/LAN port, with LXI web interface for remote control •Three-year warrantySeries 2280S main menu screen (left) and graph screen (right)Model2260B-30-362260B-30-72 2260B-80-13 2260B-80-27 OutputVoltage0 – 30 V 0 - 30 V 0 – 80 V 0 – 80 V OutputCurrent 0 – 36 A 0 – 72 A 0 - 13.5 A 0 – 27 AOutputPower360 W 720 W 360 W 720 W Ripple and Noise (noise bandwidth 20 MHz, ripple bandwidth 1 MHz) CV p-p <60 mV <80 mV <60 mV <80 mV CV RMS<7 mV<11 mV <7 mV <11 mV CC RMS <72 mA <144 mA <27 mA <54 mA Programming Accuracy Voltage ≤0.05%+10mV ≤0.05%+10mV ≤0.05%+10mV ≤0.05%+10mV Current ≤0.1%+30 mA ≤0.1%+60 mA ≤0.1%+30 mA ≤0.1%+30 mA Readback Accuracy Voltage ≤0.1%+10 mV ≤0.1%+60 mV ≤0.1%+10 mV ≤0.1%+10 mV Current≤0.15%+30 mA ≤0.1%+30 mA ≤0.1%+30 mA ≤0.1%+30 mA Response Time Rise Time 50ms 50ms 50ms 50ms Fall Time (Full Load) 50ms 50ms 50ms 50ms Fall Time (No Load)500ms 500ms 500ms 500ms Load Transient Recovery Time 1ms1ms1ms1msCommunication USB/LAN ,GPIB Optional (2260-GPIB-USB adapter)Dimension 3U high; 1/3 rack width (720W);1/6 rack width (360W)Others Adjustable output voltage and current slew rate, programming output resistance, serial and parallel connection, CC priority mode2260B output slew rate control2260B output list functionThe Series 2260B Programmable DC Power Supplies provide plenty of power for automatedenvironmental test systems, life testing systems, and production test systems. The programmable slew rates minimize inrush current to protect DUTs, especially for LED product test and Lithium battery charge characterization.Series 2260BSingle-Channel Programmable Power SupplyDesigned for Automated Test and Benchtop ApplicationsSeries 2260B Features•Single output, high powerdensity, system power supply•360W and 720W output with voltage up to 80V or current up to 72A •Programmable output voltage and current slew rate to avoid inrush current damage to a DUT •List function•Constant current control mode to current overshoot when powering up LED products•Simulate battery output characteristics using the programmable output resistance function •Supports analog programming and USB/LAN/GPIBprogramming for remote control•Three-year warrantyModel2268- 20-422268- 40-212268- 60-142268- 80-102268- 100-82268- 150-5Output Voltage and Current Output Voltage 20 V 40 V 60 V 80 V 100 V 150 V Output Current 42 A 21 A 14 A 10.5 A 8.5 A 5.6 A Output Power850 W850 W850 W850 W860 W850 WOutput Noise (RMS, 300kHz) Voltage 8 mV 8 mV 8 mV 8 mV 8 mV 10 mV Current75 mA45 mA35 mA25 mA20 mA16 mAProgramming Accuracy Voltage ±20 mV ±40 mV ±60 mV ±80 mV ±100 mV ±150 mV Current±84 mA±42 mA±28 mA±21 mA±17 mA±11.2 mAReadback Accuracy Voltage ±20 mV ±40 mV ±60 mV ±80 mV ±100 mV ±150 mV Current ±84 mA±42 mA±28 mA±21 mA±17 mA±11.2 mAResponse Time Rise Time 60 ms 60 ms 60 ms 100 ms 100 ms 100 ms Fall Time (Full Load) 50 ms 50 ms 50 ms 80 ms 100 ms 150 ms Fall Time (No Load) 600 ms 800 ms 900 ms 1000 ms 1200 ms 1800 ms Transient Response Time <1 ms <1 ms <1 ms <2 ms <2 ms <2 msCommunications LAN, USB, GPIB, RS-232, Isolated Analog I/O, Non-isolated I/ODimensions1U high, Half-Rack WidthOtherTwoauxilliaryoutputs,*************@0.5A,constantpowercontrol mode, control uyp to 30 Series 2268 supplies through one PC interface by interconnecting them through their RS-232 interfaces, programmable feedbackmode with programmable onset delay timeSeries 2268 Features•Compact, 1U high, ½-rack enclosure provides the highest power in the smallest package •Two auxiliary outputs power external devices and can eliminate the need for additional instrumentation•Isolated analog inputs minimize noise on control lines•LAN, USB, GPIB, RS-232, RS-485, and analog inputs are all standard •Constant voltage, constant current, and constant power limit setting control•Auto sequence control allows the internal execution of a set of commands to save bus communication time •Numerous safetyfeatures protect the load and the supply including: over voltage and under voltage protection, over current protection, foldback, overtemperature protection, and output interlockUse a Series 2268 DC supply as part of a control system. Analog control signals can program the supply’s output. In addition to driving the load, the supply’s two auxiliary outputs can drive external devices or circuits. The auxiliary outputs can elim inate the need for extra power sources in a test system. Interlock connections can turn off the supply’s output if an unsafe external condition is detected.Series 2268 850 W DC Power Supplies Single-Channel Programmable Power Supply Designed for Automated Test ApplicationsPC。
ALPS小型瞬时型按动开关SPEJ系列选型手册
产品一览
行程 (mm) 1.7
回路数 2
接点数 2
最小订货单位 (pcs.)
日本
出口
500
2,000
产品编号 SPEJ110100
检测 滑动 按动 旋转 编码器 电源 切换式 TACT SwitchTM
包装规格 载带
卷盘尺寸
Unit:mm
包装数 (pcs.)
载带宽度 出口包装箱尺寸
1卷
1箱/日本 1箱/出口包装
■浸焊方式的参考举例 适用于 For PC board 端子型
系列
SPPJ3 SPUN SPUJ, SPUP, SPPH2, SPPH4 SPPJ2, SPPH1, SPED2, SPED4, SPEF
预热温度 100℃ max.
项目 预热温度时间 60s max.
100℃ max.
60s max.
操作部 强度
工作 方向
拉引 方向
50N
30N
—
5N for 1minute 50N
50N
0.5N for 1minute
100MΩ 100MΩ min.
max.
100V DC
49N
50N
—
—
—
耐环 境性能
耐寒性能 耐热性能 耐湿性能
–40±2℃ for 96h
–20±2℃ for 96h 85±2℃ for 96h 40±2℃, 90 to 95%RH for 96h
———
———
焊接温度 260±5℃ 260±5℃ 260±5℃ 260±5℃
浸焊 焊接浸渍时间 5±1s 10±1s 5±1s 10±1s
ALPS产品选型资料来源:/product/alps/ 137
PS5R、PS3L等PLC电源选型指南说明书
PLCsOperatorInterfacesAutomationSoftwareSensorsCommunication&NetworkingPower Supplies Selection GuideS election Guide107113118PlasticPanel or bracket mountUL1604 ListedFile#E234997(SEMI F47 120W &240W only)UL508 ListedCert No.BL980213332392UL508 ListedFile #E177168E Wd e l sPLCs Operator InterfacesAutomation SoftwareSensorsCommunication & NetworkingSwitching Power SuppliesFile #E234997(SEMI F47 120W &240W only)Designed with Accessibility & Convenience in Mind!DC Low Indicator(15W, 120W & 240W Slim Line Only)The indicator turns on when the outputproblems.DC ON Indicatorpower supply is receiving power.Output Voltage AdjustmentThe output voltage can be easily adjusted within + 10% of the rated voltage.Fingersafe, Spring-up Screw TerminalsDon’t worry about losing screws or getting an inadvertent shock from a terminal. The terminals are captive spring-up screws, which makes using them as easy as pushing a screw down and tightening it. They are shock and vibration resistant, and work with ring lugs, fork connectors or stripped wire connections. The terminals are rated IP20 (when tightened) meaning they are recessed to keep fi n-gers and objects from touching the input contacts.TopViewUniversal Input PowerThe applied input power has a range of 85-264V AC (100-350V DC) without the use of jumpers or slide switches. This makes IDEC power suppliessuitable for use anywhere in the world.Output ChannelWith very low output ripples of less than 1% peak to peak, the 120W and 240W power supplies are some of the best in the industry. The output comes with overload protection that avoids damaging the power supply and the spring-up, fi ngersafe, screw terminals add a level of safety and ease for the user. The 240W power supply also has the conve-nience of two output terminals.Ventilation GrillProvides cooling for the power supply and prevents small objects from falling into the power supply circuitry.Long Life ExpectancyIDEC power supplies are very reliable, with a life expectancy of 70,000 hrs. (minimum) or longer, depending on usage. Power factor correction has also been included to minimize harmonic distortion, resulting in a longer operating life and increased reliability.Key features of the PS5R Slim Line series include:Lightweight and compact in sizeWide power range: 10W-240W Universal input:10W to 90W: 85-264V AC/100-370V DC 120W and 240W: 85-264V AC/100-350V DC Power Factor Correction for 60W to 240W (EN61000-3-2)Meets SEMI F47 Sag Immunity (120W & 240W only)Approved for Class 1, Div. 2 Hazardous Locations Overcurrent protection, auto-reset Overvoltage protection, shut down Spring-up screw terminal type, IP20DIN rail or panel surface mount Approvals:CE Marked TÜV c-UL, UL508UL1310 (PS5R-SB, -SC, -SD)•••••••••••UL1604 (Hazardous locations)EN50178:1997LVD: EN60950:2000EMC: Directive EN61204-3:2000 (EMI: Class B, EMS: Industrial)PS5R Slim Line SeriesPLCsOperatorInterfacesAutomationSoftwareSensorsCommunication&NetworkingPower SuppliesP art NumbersAccessoriesPLCsOperator InterfacesAutomation SoftwareSensorsCommunication & NetworkingPLCsOperator Interfaces Automation SoftwareSensorsCommunication & NetworkingPS5R-SBPS5R-SC PS5R-SDPS5R-SEHeight 95.0mm Width 36.0mm Depth 108.0mmHeight 90mmWidth 22.5mm Depth 95mmHeight 115.0mm Width 46.0mm Depth 121.0mmPS5R Slim Line SeriesPLCsOperatorInterfacesAutomationSoftwareSensorsCommunication&NetworkingPower SuppliesM ounting Bracket Dimensions (mm)PS9Z-5R1B (for PS5R-SB)PS9Z-5R1C (for PS5R-SC & PS5R-SD)2-M4 tapped holes or 2-ø4.5 through holes1224.712112PS9Z-5R1B1151526382-M4 Tapped Holes or2-ø4.5 Drilled HolesPS9Z-5R1G (for PS5R-SF & PS5R-SG)PS9Z-5R1E (for PS5R-SE)36481351252-M4 Tapped Holes or2-ø4.5 Drilled Holes13514548364-M4 Tapped Holes or4-ø4.5 Drilled HolesPS9Z-5R2B (for PS5R-SB)2-M4 tapped holes or 2-ø4.5 through holes10211062.944(See the front page for mounting examples.)PS9Z-5R2B。
UPS空开线缆蓄电池配置
UPS空开、线缆、电池配置表北京奇捷恒泰科技有限公司目录1、高频UPS.................................................................................................................................. 1-1、输入、输出、电池电流计算方法 .................................................................................1-1-1、输入电流计算方法..................................................................................................1-1-2、输出电流计算方法..................................................................................................1-1-3、电池逆变电流计算方法.........................................................................................1-1-4、电缆大小计算方法.................................................................................................. 1-2、三进三出高频系列(50节600VDC).........................................................................1-2-1、160-600KVA)空开配置........................................................................................1-2-2、(160-600KVA)电缆配置......................................................................................1-2-3、电池空开接线图 ...................................................................................................... 1-3、三进三出高频系列(40节480VDC).........................................................................1-3-1、(30-120KVA)空开配置........................................................................................1-3-2、(30-120KVA)电缆配置........................................................................................1-3-3、电池空开接线图 ...................................................................................................... 1-4、三进三出高频系列(32节±192VDC) .....................................................................1-4-1、(10-60KVA)空开配置..........................................................................................1-4-2、(10-60KVA)电缆配置..........................................................................................1-4-3、电池空开接线图 ...................................................................................................... 1-5、单进单出高频系列 ............................................................................................................1-5-1、(6-20KVA)空开配置............................................................................................1-5-2、(6-20KVA)电缆配置............................................................................................2、工频UPS.................................................................................................................................. 2-1、输入、输出、电池电流计算方法 .................................................................................2-1-1、输入电流计算方法..................................................................................................2-1-2、输出电流计算方法..................................................................................................2-1-3、电池逆变电流计算方法.........................................................................................2-1-4、电缆大小计算方法.................................................................................................. 2-2、三进三出工频系列(29节348VDC).........................................................................2-2-1、(10-400KVA)空开配置........................................................................................2-2-2、(10-400KVA)电缆配置........................................................................................2-2-3、电池空开接线图 ...................................................................................................... 2-3、三进三出工频系列(30节360VDC).........................................................................2-3-1、(10-60KVA)空开配置..........................................................................................2-3-2、(10-60KVA)电缆配置..........................................................................................2-3-3、电池空开接线图 ...................................................................................................... 2-4、单进单出工频系列 ............................................................................................................2-4-1、(4-40KVA)空开配置............................................................................................2-4-2、(4-40KVA)电缆配置............................................................................................2-4-3、电池空开接线图 ...................................................................................................... 2-5、三进单出系列 .....................................................................................................................2-5-1、(4-40KVA)空开配置............................................................................................2-5-2、(4-40KVA)电缆配置............................................................................................2-6、单进单出系列 .....................................................................................................................2-6-1、(1-30KVA)空开配置............................................................................................2-6-2、(1-30KVA)电缆配置............................................................................................2-6-3、电池空开接线图 ......................................................................................................3、模块化UPS .............................................................................................................................3-1、输入、输出、电池电流计算方法 .................................................................................3-1-1、输入电流计算方法..................................................................................................3-1-2、输出电流计算方法..................................................................................................3-1-3、电池逆变电流计算方法.........................................................................................3-1-4、电缆大小计算方法..................................................................................................3-2、模块化系列..........................................................................................................................3-2-1、(10-200KVA)空开配置........................................................................................3-2-2、(10-200KVA)电缆配置........................................................................................3-2-3、电池空开接线图 ......................................................................................................二、UPS电池配置...............................................................................................................................1、电池配置计算方法................................................................................................................1-1、电流法............................................................................................................................1-2、恒功率法........................................................................................................................1-3、举例说明........................................................................................................................1-4、UPS电池延时配置表.................................................................................................一、UPS空开、电缆配置1、高频UPS1-1、输入、输出、电池电流计算方法1-1-1、输入电流计算方法UPS标称功率(VA)×输出功率因数输入电流(A)=输入临界电压(V)×整机效率×输入功率因数×SS:三相UPS=3,单相UPS=1例1:已知:UPS功率:100KVA,输入临界电压:176V,输入功率因数:0.99(高频机都可以近似取1),整机效率:0.95,S=3,输出功率因数:0.8计算结果如下:100000×0.8输入电流(A)==160176×0.95×3例2:已知:UPS功率:6KVA,输入临界电压:176V,输入功率因数:0.99(高频机都可以近似取1),整机效率:0.90,S=1,输出功率因数:0.7计算结果如下:6000×0.8输入电流(A)==30176×0.9×11-1-2、输出电流计算方法UPS标称功率输出电流(A)=输出电压×SS:三相UPS=3,单相UPS=1例1:已知:UPS功率:100KVA,输出电压:220V,S=3。
Leviton 5500 5505型号19寸电脑机柜内部保护电源设备说明书
ESPECIFICACIONES DEL PRODUCTO 5500/5505-XXXDispositivos de protección contra transitorios (SPD) para montaje en rack de 19 pulgadas 5500/5505-XXXAPLICACIÓN Los dispositivos 5500/5505 de Leviton están diseñados para montaje en racks de 19 pulgadas (48 cm) donde se desea la supresión de picos transitorios para equipos electrónicos montados en rack. Cada dispositivo ofrece un total de 12 salidas protegidas (10 en la parte posterior y 2 en el frente) a fin de facilitar la conexión de todos los equipos montados. El diseño de circuito avanzadobrinda niveles de supresión muy rigurosos y excepcional atenuación del ruido. Cada unidad se suministra con LED de diagnóstico de estados de encendido, protección, puesta a tierra / polaridad, un interruptor de circuito de sobrecarga reiniciable y un cable de fuente de alimentación de 3.6 m (12 pies).ESPECIFICACIÓN Los dispositivos de protección contra transitorios tienen la capacidad de instalarse horizontalmente en un rackde 19 pulgadas o en un gabinete. Los dispositivos de protección contra transitorios incluyen 12 receptáculos de salida, permiten un voltaje de entrada de 120 Vy cuentan con modelos para aceptar corrientes de15 A y 20 A con clavijas de entrada adecuadas. Losdispositivos de protección contra transitorios presentanmodelos con y sin interruptor de encendido, ademástodos los dispositivos incluirán un interruptor de circuitode sobrecarga reiniciable.CARACTERÍSTICAS•El interruptor de circuito reiniciable protege contra sobrecargas.•12 receptáculos: 10 en la parte posterior, 2 en el frente.•Están disponibles versiones de 20 Amp con clavija de entrada recta o de media vuelta.•Los LED de diagnóstico alertan sobre los estados de encendido,protección y puesta a tierra / polaridad.CONSIDERACIONES SOBRE EL DISEÑO•La corriente máxima de transitorios de la serie 5500 es 72 kA.•La corriente máxima de transitorios de la serie 5505 es 27 kA.•Todas las unidades ofrecen 12 receptáculos (10 en la parte posterior, 2 en el frente).•Se monta horizontalmente en los racks de 19 pulgadas o gabinetes.•Cable de alimentación de 3.6 m (12 pies).NORMAS OFICIALES•UL 1363 Tomas de alimentación reubicables, componente reconocido por UL {E118936}.•ANSI/UL 1449 Dispositivos de protección contra transitorios,componente reconocido por UL, SPD tipo 4 evaluado para usarse en aplicaciones tipo 3 {E317603}.ESPECIFICACIONES FÍSICAS5500: 4.44 x 48.26 x 11.55 cm / 1.75 x 19.00 x 4.55 pulg (Al x An x Pr)5505: 4.44 x 48.26 x 6.35 cm / 1.75 x 19.00 x 2.50 pulg (Al x An x Pr)PAÍS DE ORIGENMéxico.INFORMACIÓN SOBRE LA GARANTÍAVaya a /warranty.Página 1 de 3Leviton Network Solutions 2222 - 222nd St. SE Bothell, WA 98021-4416 Asia / Pacífico T +1.631.812.6228 E *********************Canadá T +1.514.954.1840 E *********************Caribe T +1.954.593.1896 E *************************China T +852.2774.9876 E *********************Colombia T +57.1.743.6045 E ************************5500/5505-XXXPagina 2 de 3Leviton Network Solutions 2222 - 222nd St. SE Bothell, WA 98021-4416 Asia / PacíficoT +1.631.812.6228E*********************CanadáT +1.514.954.1840E*********************CaribeT +1.954.593.1896E*************************ChinaT +852.2774.9876E*********************ColombiaT +57.1.743.6045E************************5500/5505-XXX ARCHIVOS ELECTRÓNICOSSi desea visualizar los archivos CAD, las especificaciones típicas o los planos técnicos (.DXF, .DWG ), visite .55005505L16 3871gsp Página 3 de 3Leviton Network Solutions 2222 - 222nd St. SE Bothell, WA 98021-4416 Asia / Pacífico T +1.631.812.6228 E *********************Canadá T +1.514.954.1840 E *********************Caribe T +1.954.593.1896 E *************************China T +852.2774.9876 E *********************Colombia T +57.1.743.6045 E ************************。
【开关电源设计】开关电源经典设计步骤
步骤 9 和 10 计算芯片结温 Tj ① 按下式结算: Tj=[I2RMS×RDS(ON)+1/2×CXT×(VImax+VOR) 2 f ]×Rθ+25℃ 式中 CXT 是漏极电路结点的等效电容,即高频变压器初级绕组分布电容 ② 如果 Tj>100℃,应选功率较大的芯片
u(V)
固定输入:100/115 通用输入:85~265 固定输入:230±35
初级感应电压 VOR(V)
60 135 135
钳位二极管 反向击穿电压 VB(V)
90 200 200
步骤 5 根据 Vimin 和 VOR 来确定最大占空比 Dmax
VOR
Dmax=
×100%
VOR+VImin-VDS(ON)
步骤 33 选定反馈电路
步骤 34 选择输入整流桥
① 整流桥的反向击穿电压 VBR≥1.25√2 umax
3 设输入有效值电流为 IRMS,整流桥额定有效值电流为 IBR,使 IBR≥2IRMS。计算 IRMS
公式如下:
PO IRMS=
ηumincosθ
cosθ为开关电源功率因数,一般为 0.5~0.7,可取 cosθ=0.5
确定 CIN,VImin 值
PO(W) 已知 已知 已知
比例系数(μF/W) 2~3 2~3 1
CIN(μF) (2~3)×PO (2~3)×PO
PO
VImin(V) ≥90 ≥90 ≥240
PULS DIN导轨式开关稳压电源 选型手册
Best-in-ClassDIN 导轨式开关稳压直流电源Y-冗余系列:二极管解耦和冗余模块用于构建冗余电源系统或者隔离敏感负载。
X-半调节系列:半调节三相交流/直流电源为直流电机和其它大功率的峰值电流型负载供电,具有体积小、转换效率高、价格低廉的特点,可用于对输出电压波动和断电保持时间等特性要求不高的场合。
25% 的额外功率储备 无输入浪涌电流 转换效率高达 96%Q -精品系列:功能最丰富、技术最先进的电源系列适用于高要求、高技术、高灵活性需求的应用。
极高的转换效率,50%强劲的BonusPower ® ,丰富的功能,使精品系列电源几乎适用于所有应用需求。
50% 的额外功率储备宽泛的交流和直流输入范围 最小的输入浪涌电流DC ok 继电接触器输出报警功能 (除QS3之外) 近乎完美的功率因数主动式输入端谐波电流抑制(除QS3之外) 快速连接弹压式接线端子 完备的认证和标准C-简约系列:交流/直流电源及直流/直流转换器质优价廉的产品系列,在保证100%的PULS 质量的前提下对部分功能进行取舍,为客户进一步节约成本。
20% 的额外功率储备 最小的输入浪涌电流 螺丝固定接线端子U -缓冲系列:平滑过度各种电网电压波动或断电当电网电压波动或断电时,可以通过释放自身存储的能量避免设备停机、数据丢失或冗长的重新起动等。
断电保持时间从几分钟至数小时,可选择电池作 为储能元件的直流不间断电源断电保持时间在几秒钟左右,可选择免维护的、 电解电容器作为储能元件的缓冲模块Z-系列:安装附件可将DIN 导轨式电源直接安装在墙面/侧面等平面上。
最新电源及其电源附件的产品线,集成了最先进的技术。
分为六个产品系列,您可以根据自己确实的需要选取功能最合适、成本最优化的产品。
电源附件包括冗余/解耦模块、直流/直流转换器、缓冲模块及直流不间断电源等。
SILVERLINE强力型产品总览页码产品型号12CD5.12112CD5.24112CD5.241-L112CD5.241-S112CD5.24212CD5.2437CS3.2417CS5.2417CS5.241-C17CS5.241-S17CS5.2437CS5.2449CS10.2419CS10.241-S19CS10.2429CS10.2439CS10.2449CS10.48111CT10.24111CT10.48111CT5.12111CT5.2415ML15.0515ML15.1215ML15.2415ML30.1005ML30.1015ML30.1025ML30.1065ML50.1005ML50.1015ML50.1025ML50.1055ML50.1095ML50.1115ML70.1005ML90.2005ML95.1005ML100.1005ML100.1025ML100.1055ML100.1095ML100.2005MLY02.1007QS3.2417QS5.2417QS5.DNET 9QS10.1219QS10.2419QS10.241-C19QS10.3019QS10.4819QS10.DNET 9QS20.2419QS20.241-C19QS20.2449QS20.3619QS20.4819QS40.244页码产品型号11QT20.24111QT20.241-C111QT20.36111QT20.48111QT40.24111QT40.48112QTD20.24115SL2.10015SL5.10015SL10.10015SL5.30015SL10.30015SL10.30915SL20.31015SL40.30015SL40.30115SLA3.10015SLA4.10015SLA8.10015SLA8.30015SLAD4.10012SLD2.10015SLR0115SLR0215SLR2.10015SLR5.10015SLR10.10015SLZ0213UB10.24113UB10.24213UB10.24513UBC10.24113UBC10.241-N113UF20.24113UF20.48113UZB12.05113UZB12.07113UZB12.26113UZK12.07113UZK12.26113UZO12.0713UZO12.2611XT40.24111XT40.24211XT40.36111XT40.36211XT40.48111XT40.48211XT40.72111XT40.72212YR2.DIODE 12YRM2.DIODE 12ZM1.UBC1012ZM1.WALL 12ZM2.WALL 12ZM11.SIDE 12ZM12.SIDE 12ZM13.SIDE 12ZM14.SIDE 12ZM15.SIDE功率级别在15W 至100W ,小巧而坚固的塑料外壳,转换效率高,安装接线快捷方便,高可靠性,具有多种非24V 的输出电压可选。
最新模块电源选型手册
产品特性
1. 小体积标准封装及标准引脚 2. 全球通用输入电压:85-264VAC 或 110-370VDC 3. 良好的输出短路和过流保护并可自恢复 4. 超低待机功耗,小于 100mW 5. 高效率,最高可达 75% 以上 6. 输入输出隔离耐压 3000VAC 7. 输出电压精度 3%
效率 %
(TYP)
68 73 70 75 75 80
6
AC - DC
VHxx-T2Sxx-J ( 立式 )
VLxx-T2Sxx-J ( 卧式 )
标准 AC - DC 系列
1-2W 单路输出 AC/DC 宽电压输入立(卧)式开板电源
产品特性
1. 超小体积、业内最小体积 2. 全球通用输入电压:85-264VAC 或 110-370VDC 3. 低待机功耗,小于 100mW 4. 良好的输出短路和过流保护并可自恢复 5. 高效率,最高可达 75% 以上 6. 输入输出隔离耐压 3000VAC 7. 输出电压精度 3%
模块外壳尺
(mm)
28×19×14
输出功率
(W)
1 1 2 2
输出 1 电压电流
(V/mA)
5/200
输出 2 电压电流
纹波噪声
(mV)
50(输出要加外接电路)
12/83
100(输出要加外接电路)
5/400
50(输出要加外接电路)
12/166
100(输出要加外接电路)
效率 %
(TYP)
68 73 70 75
8. 灵活的安装方式 9. 高可靠性、长寿命设计 10. 低发热,可应用于封闭外壳内 11. 经济的解决方案、高性价比 12. 无需外接电路可工作 13. 需要更低的输出纹波可外加 LC 滤波实现 14. 可应用于商用及民用等领域
开关电源磁芯尺寸和类型的选择(凭经验)
单端反激式开关电源磁芯尺寸和类型的选择字体大小:大| 中| 小2008-08-28 12:53 - 阅读:6184 - 评论:2 徐丽红王佰营A、InternationalRectifier公司--56KHz输出功率推荐磁芯型号0---10WEFD15 SEF16 EF16 EPC17 EE19 EF(D)20 EPC25 EF(D)2510-20WEE19 EPC19 EF(D)20 EE,EI22 EF(D)25 EPC2520-30WEI25 EF(D)25 EPC25 EPC30 EF(D)30 ETD29 EER28(L)30-50WEI28 EER28(L) ETD29 EF(D)30 EER3550-70WEER28LETD34 EER35 ETD3970-100WETD34 EER35 ETD39 EER40 E21摘自InternationalRectifier,AN1018-“应用IRIS40xx系列单片集成开关IC开关电源的反激式变压器设计”B、ELYTONE公司型号输出功率(W)<5 5-10 10-20 20-50 50-100 100-200 200-500 500-1KEI EI12.5 EI16 EI19 EI25 EI40 EI50 EI60 -- EE EE13 EE16 EE19 EE25 EE40 EE42 EE55 EE65<5 5-10 10-20 20-50 50-100 100-200 200-500 500-1K EF EF12.6 EF16 EF20 EF25 EF30 EF32 -- --EFD -- EFD12 EFD15 EFD20 EFD25 EFD30 -- -- EPC -- EPC13 EPC17 EPC19 EPC25 EPC30 -- -- EER EER9.5 EER11 EER14.5 EER28 EER35 EER42 EER49 -- ETD -- -- ETD29 ETD34 ETD44 ETD49 ETD54 --EP EP10 EP13 EP17 EP20 -- -- -- -- RM RM4 RM5 RM6 RM10 RM12 RM14 -- -- POT POT1107 POT1408 POT1811 POT2213 POT3019 POT3622 POT4229 -- PQ -- -- -- PQ2016 PQ2625 PQ3230 PQ3535 PQ4040 EC -- -- -- -- -- EC35 EC41 EC70 摘自PowerTransformers OFF-LINE Switch ModeAPPLICATION NOTES"Converter circuitas a function of S.M.P.S. output voltage (Vo) and output power (Po)"C、Fairchild Semiconductor公司--67KHzOutput Power EIcore EE core EPC core EER core0-10W EI12.5 EE8 EPC10EI16 EE10 EPC13EI19 EE13 EPC17EE1610-20W EI22 EE19 EPC1920-30W EI25 EE22 EPC25 EER25.530-50W EI28 EE25 EPC30 EER28EI3050-70W EI35 EE30 EER28L70-100W EI40 EE35 EER35100-150W EI50 EE40 EER40EER42150-200W EI60 EE50 EER49EE60The core quickselection table For universal input range, fs=67kHz and 12V singleoutput摘自:Application Note AN4140Transformer Design Consideration for off-lineFlybackTMConverters using Fairchild Power Switch (FPS)D、单端反激式变压器磁芯的选择公式Ve =5555 * P / f式中:Ve——为磁芯的体积:Ve=Ae*Le;单位为:毫米立方;P——为输入功率;单位为:瓦;f——为开关频率;单位为:千赫兹;本公式假设:Bm=0.3T, Lg/Le=0.5%=气隙长度/磁芯等效长度;如果Lg/Le=气隙长度/磁芯等效长度=1%时,又如何计算呢?(请考虑)输出功率、磁芯截面积和开关频率决定气隙,因为在反激式开关电源中气隙的体积大小决定储能的多少,频率决定能量传输的快慢;如:EI25Ve=2050mm³,Ae=42平方毫米,Le=49.4mm;f=40KHz;η=0.75;Lg= 0.005*49.4 = 0.247mm ---气隙长度Pin =Ve*F/5555 = 2050*40/5555 = 14.76W;Pout =η*Pin= 0.75 * 14.76 = 11.07W;若:f=100KHz 则:Pout = 11.07W *(100/40) = 27.675W;反激式开关电源设计的思考一字体大小:大| 中| 小2007-03-01 11:00 - 阅读:4593 - 评论:3反激式开关电源设计的思考一王佰营徐丽红对一般变压器而言,原边绕组的电流由两部分组成,一部分是负载电流分量,它的大小与副边负载有关;当副边电流加大时,原边负载电流分量也增加,以抵消副边电流的作用。
LT外部输入 输出控制参考手册说明书
30.5控制LT 的外部输入/输出30.5.1简介除了标准输入/输出外,具有内置DIO 的LT 还支持特殊的输入和输出。
这些包括高速计数器输入、脉冲输出、PWM 输出和脉冲捕捉。
•高速计数器输入:可以接收最高100KHz 的脉冲(两相计数器最高50KHz)。
•脉冲输出:可以输出最高65KHz 的脉冲。
•PWM 输出:可以输出最高65KHz 的脉冲。
•脉冲捕捉:可以检测100KHz 的脉冲(ON 5µs 以上)。
分配输入/输出端子的方法在标准输入/输出和特殊输入/输出之间有所不同。
请参阅下表。
功能点数注释详情标准输入/输出标准输入*1*1标准输入、标准输出、PWM 输出、脉冲输出和高速计数器使用相同的输入/输出端子。
因此各输入或输出不能同时使用最大数量的端子。
LT-3200系列12-p30-47LT-3300系列16-标准输出 *1LT-3200系列6-p30-50LT-3300系列16-特殊输入/输出高速计数器(单相计数器) *14CH 测量单相输入信号。
p30-54计数器控制-上/下切换。
p30-55预加载输入-将当前值更改为任意值。
p30-61预选通输入-保存当前计数值。
p30-66同步输出-计数值在指定范围内时输出。
p30-70高速计数器(两相计数器) *12CH 测量两相输入信号。
p30-78计数器控制-上/下切换。
p30-55相位因子模式-指定测量方法。
p30-82预加载输入-将当前值更改为任意值。
p30-61预选通输入-保存当前计数值。
p30-66同步输出-计数值在指定范围内时输出。
p30-70标记输入-清除计数值。
p30-83PWM 输出 *14CH 用指定占空比输出频率脉冲。
p30-84正常脉冲输出 *14CH 按设定脉冲值输出设定频率。
p30-92加速/减速脉冲输出 *14CH 增加脉冲到输出的设定频率。
p30-100脉冲捕捉输入 *14CH捕捉短脉冲(10µs 以上)并通知捕捉时间。
Power PertXpertE C445电机保护系列的智能选择说明书
Motor management intelligence made easyPower Xpert E C445 is the most intelligent option in the C400 motor protection family. C445 offers industry-leading protection, diagnostics and energy usageanalytics. Multiple network options and easy integrationtools make leveraging C445 intelligence easy.Features• Product range • 0.3–800 A• 690 Vac, 4160 Vac with potential transformers (PTs) • 20–80 Hz operation• Selectable trip class (5–40)• Power options 120/240 Vac or 24 Vdc•On-board I/O• 4 digital inputs: 120 Vac or 24 Vdc • 3 relay outputs: 2NO, 1NO/NC•Optional external expansion I/O • Digital I/O 64 in and 64 out • Up to 8 analog I/O cards (RTD and thermocouple input cards)•Logic engine allows forprogramming local logic with function block programming •On-board communication options• EtherNet/IP • Modbus T TCP • Modbus RTU • Web pages • PROFIBUS T • USB•Real-time clock (RTC),backup non-volatile memory, and positive temperature coefficient (PTC) options• Flexible user interface options •Power Xpert in Controlconfiguration and monitoring software tool•Ground fault detection • Residual• Pulse detection • Zero sequencing• High resistance groundBenefits • Reliability• Advanced diagnostics allow for quick and accurate identification of the root cause of a fault in line, load and motor conditions • Voltage loss restart functionality allows for automatic recovery in the event of undervoltage conditions without the need for user intervention • Pre-programmed operation modes support fast, easy, error-free installation for the majority of applications•Flexibility• Modular pass-through design with scalable options for current, voltage, power, energy protections and monitoring • Fully programmable trip and alarm thresholds and time delaysStandards and certifications • CE, UL ®, CSA ®, CCC, C-tick •IEC EN 60947-4-1Power Xpert C445 seriesGlobal motor management relayEaton is a registered trademark.All other trademarks are property of their respective owners.Eaton1000 Eaton Boulevard Cleveland, OH 44122United States © 2018 EatonAll Rights Reserved Printed in USAPublication No. PA042004EN / Z21441September 2018Base control moduleThe core of the C445 system, the base control module contains all of the protection, monitoring and control algorithms in addition to on-board I/O. An interchangeable communication card slot allows for various communications with a single base unit.• 120/240 Vac or 24 Vdc power source options• Four 120 Vac or 24 Vdc inputs, 2NO and 1NO/1NC relay outputs • Optional communications• USB, Modbus RTU, Modbus TCP, EtherNet/IP, Web pages, PROFIBUS• Multiple preconfigured operation modes• On-board logic for local control, and motor management can be programmed via function block programming•On-board I/O can be expanded via external module • Digital I/O, 64 in and 64 out • Up to 8 analog cardsMeasurement moduleThe pass-through design measurement module samples current, voltage, power and energy data consumed by the electric motor and continuously passes it electronically to the base control module via a cable connection. For applications with limited mounting space, users can mount the base control module directly onto the 45 mm measurement module, achieving a best-in-class compact footprint.• 45, 55 and 90 mm frames provide direct pass-through capability from 0.3 to 136 A • External current transformer (CT) kits available for applications up to 800 A• Standard current-based monitoring and protection with options for voltage and PTC inputs • Ground fault pulse detection, used with high resistance ground • Residual ground fault measurement User interfaceTwo user interface options provide safe device access fit to the application. The monitoring userinterface features advanced metering, parameter setting and optional control. The control family offers overlays to match the operation mode with IEC and NEMA T color schemes. All user interfaces offer:• Bright fault and warning LEDs•Micro USB port for connection to Power Xpert in ControlGround fault moduleGround fault detection module coupled with ground fault current transformers allow the C445 Base Control Module to detect excessive ground current on high resistance grounded systems as well as zero sequencing.For more information, visitEa t /C445 Ea t /MCC Ea t /CXHAccessories• Communication cards• Real-time clock and backup memory module • Connection cables• External CT kits (>136 A)• Spare parts kits• Power Xpert in Controlsoftware toolMonitoring user interfaceGround fault moduleFollow us on social media to get the latest product and support information.。
Eaton Moeller系列165630 PFL7-2 1N C 01型号的电路保护器说明书
Eaton 165630PFL7-2/1N/C/01. RCD/MCB, 2A, 100mA, miniature circuit-breakertrip curve C, 1pole+N, residual current circuit-breaker tripcharacteristic: ACGeneral specificationsEaton Moeller series xPole - PFL6/7RCBO - residual-current circuit breakerwith overcurrent protection165630900879044683286 mm75 mm37 mm0.207 kgCE Marked RoHS conform PFL7-2/1N/C/01Product Name Catalog NumberEANProduct Length/Depth Product Height Product Width Product Weight Compliances Model CodeSwitchgear for residential and commercial applications Combined RCD/MCB devicesSingle-pole + N12C2 A0.1 ARCBO AC230 V 50 Hz AC0 kA0.25 kA III2269.5 mm IP202 A0 W1.5 W Meets the product standard's requirements. Meets the product standard's requirements. Meets the product standard's requirements.ApplicationBasic functionNumber of polesNumber of poles (protected) Number of poles (total) Release characteristic Rated currentFault current ratingType Voltage typeVoltage ratingFrequency ratingLeakage current typeRated short-circuit breaking capacity (EN 60947-2) Surge current capacityOvervoltage categoryPollution degreeWidth in number of modular spacingsBuilt-in depthDegree of protectionRated operational current for specified heat dissipation (In) Heat dissipation per pole, current-dependentEquipment heat dissipation, current-dependentStatic heat dissipation, non-current-dependent 10.2.2 Corrosion resistance10.2.3.1 Verification of thermal stability of enclosures10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects0 W 0 W Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Heat dissipation capacity10.2.4 Resistance to ultra-violet (UV) radiation10.2.5 Lifting10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assemblies10.4 Clearances and creepage distances10.5 Protection against electric shock10.6 Incorporation of switching devices and components10.7 Internal electrical circuits and connections10.8 Connections for external conductors10.9.2 Power-frequency electric strength10.9.3 Impulse withstand voltage10.9.4 Testing of enclosures made of insulating material10.10 Temperature rise10.11 Short-circuit ratingEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. Všechna práva vyhrazena. Eaton is a registered trademark.All other trademarks areproperty of their respective owners./socialmediaIs the panel builder's responsibility. The specifications for the switchgear must be observed.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.3Concurrently switching N-neutralDA-DC-03_PFL IL019140ZUeaton-xpole-combined-mcb-rcd-device-rcbo-packaging-manual-multilingual.pdf eaton-xpole-pfl6-rcbo-catalog-ca019046en-en-us.pdf eaton-xpole-pfl7-rcbo-catalog-ca019045en-en-us.pdf10.12 Electromagnetic compatibility10.13 Mechanical functionCurrent limiting class FeaturesCertifikáty Instala ční návody Katalogy。