FL12KM-12A中文资料
FR12中文资料

Single Junction Drop-In Isolator800MHz, 900MHz, 1800MHz, 1900MHz, 2100MHzFR12 SeriesM/A-COM Inc. and its affiliates reserve the right to make changes to the product(s) or information contained herein without notice. M/A-COM makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does M/A-COM assume any liability whatsoever arising out of the use or application of any product(s) or information. • North America Tel: 800.366.2266 / Fax: 978.366.2266• Europe Tel: 44.1908.574.200 / Fax: 44.1908.574.300• Asia/Pacific Tel: 81.44.844.8296 / Fax: 81.44.844.8298Visit for additional data sheets and product information.V71 Features•20dB Isolation•0.35dB Insertion Loss•Low cost package•Custom products available with alternative con-figurations such as couplers, attenuators, highpower termination and reverse circulation.DescriptionM/A COM’s drop-in circulators and isolators, de-signed for Wireless base station and power amplifierapplications, feature high reliability performance at alow cost. These designs feature a low cost packageideally suited for high volume manufacturing. M/ACom is one of the largest suppliers of isolator andcirculators in the world.Ordering InformationPart Number Frequency Range (MHz)FR12-0001 869—894FR12-0002 925—960FR12-0003 1805—1880FR12-0004 1930—1990FR12-0009 2110—2170Outline DrawingElectrical Specifications: Z0 = 50ΩParameter -30°C to +85°CIsolation 20dB minimumInsertion Loss 0.35dB maximumVSWR, all ports 1.22:1Circulation ClockwiseAbsolute Maximum Ratings 11.Operation of this device above any one of these parametersParameter Absolute MaximumForward Power 150 WattsReflected Power 20 WattsOperating Temperature -30°C to +85°CStorage Temperature -45°C to +125°C。
湖南万通汽修学校,上汽荣威维修手册-连接器3

熔断丝规格功能FL1150 A发电机, 发动机舱熔断丝2,7,10 ,保险丝5,8,9FL260 A乘客舱保险丝6,9,22,24,25,27,28,42,转换继电器FL350 A喇叭继电器,乘客舱保险丝16,17,18,旋转耦合器FL480 A冷却风扇继电器FL5100 A BCM,乘客舱保险丝19,20,21,23,30,35, 39,40,41,43,45,46,37,近光灯继电器,后雾灯继电器FL6--FL740 A起动继电器,起动电机FL850 A ABS ECU(泵)FL950 A乘客舱保险丝2,5,10,13,14,15,26,38,44,后风窗加热继电器,远光灯继电器FL1040 A鼓风机继电器,鼓风机电机,空调控制面板FL1150 A ABS ECU(阀)FL1250 A乘客舱保险丝8,31,32,近光灯继电器,高位制动灯,后制动灯,右前转向灯,右侧转向灯,右后转向灯保险丝规格功能F115 A涡轮增压控制电磁阀,后氧传感器,碳罐控制阀,曲轴位置传感器(非涡轮增压),进气凸轮轴电磁阀,排气凸轮轴电磁阀,发动机ECU(涡轮增压)F220 A喷油嘴,点火线圈,发动机ECU(非涡轮增压),曲轴位置传感器(涡轮增压)F315 A前氧传感器, 凸轮轴位置传感器, 热膜式空气流量传感器,进气凸轮轴传感器,排气凸轮轴传感器F415 A冷却风扇继电器, 空调压缩机离合器继电器, 空档起动开关,自动变速箱ECUF510 A发动机ECUF615 A前雾灯继电器F730 A左前转向灯,左侧转向灯,左后转向灯,倒车灯继电器,乘客舱保险丝3,12,36,位置灯继电器F820 A乘客舱保险丝7F910 A空调压缩机离合器继电器,空调压缩机离合器F1030 A风窗玻璃刮水器继电器 1 和 2乘客舱保险丝盒 (BCM)保险丝规格功能F1--F215 A点烟器F310 A倒车灯,内后视镜信号F4--F510 A外后视镜加热F610 A惯性开关/燃油泵继电器F715 A辅助电源插座F830 A左前车门玻璃升降器电机F9 5 A离合器踏板开关,倒车灯开关,空档起动开关,后视摄像头F1020 A前照灯远光灯F11--F12 5 A左示宽灯,后牌照板灯,左尾灯F13 5 A大灯手动水平调节F14 5 A转向盘组合开关,组合仪表F1520 A ESCL ECUF1630 A前风窗洗涤电机F1730 A乘客座椅调节开关F1815 A喇叭F1930 A未使用F2020 A右前照灯近光灯F2130 A驾驶员座椅调节开关F22 5 A档位显示,空调控制面板F2330 A左后车门玻璃升降器电机/玻璃升降器控制模块F2430 A右前车门玻璃升降器电机/玻璃升降控制模块F2515 A未使用F2620 A后风窗玻璃加热F27 5 A起止开关F28 5 A转角传感器F29--F3015 A未使用F3125 A非驾驶员锁锁止继电器,非驾驶员锁解锁继电器,乘客侧门中控门锁电机,后车门中控门锁电机F3220 A左前照灯近光灯F33--F34--F3510 A ABS ECU,自动变速箱 ECUF36 5 A右示宽灯,右尾灯F37 5 A诊断接口F38 5 A化妆镜灯,前阅读灯,后阅读灯,手套箱灯F3910 A驾驶员锁锁止继电器,驾驶员中控门锁电机,加油口开闭器电机,驾驶员锁解锁继电器,行李箱盖开启电机继电器,行李箱盖开启电机F4015 A娱乐控制面板F4110 A后雾灯F4210 A安全气囊ECUF4320 A天窗开关,天窗电机F44 5 A内后视镜供电,雨量传感器,PDC ECUF4510 A空调控制面板,新鲜/循环空气电机,中控门锁开关,多功能控制开关,灯光控制模块,驾驶员侧组合开关F4630 A右后车门玻璃升降器电机/玻璃升降控制模块。
奋乐 FL1200A 单相电参数测量仪 使用手册说明书

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目录
序言
概述
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旧包装盒的处理
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您的产品
正面状态下
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反面状态下
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主要特点
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仪表安全指标
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技术指标
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仪器的使用注意事项
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仪器的保养
FL1200A 单相电参数测量仪
使用手册
杭州奋乐电子有限公司
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单相数字功率表 使用说明
感谢您购买杭州奋乐电子有限公司生产的 FL****系列单相电参数测量仪产品,为正确使用您 的产品,请仔细阅读本手册并将其妥善保管,以便日后查阅之用。
杭州奋乐电子有限公司 电话:0571-89969323 传真:0571-89969323 地址:杭州市拱墅区拱康路瓜山东苑 72 号 网址: E-Mail: hzfenle@
◆转换键(PF/Hz):功率因数值和频率值相切换显示。
◆ 设定键:按下该键,设定仪表的参数。具体如下 : 1、A--L:设定电流下限 “▲”“●”“ ”切换
2、A--H:设定电流上限“▲”“●”“ ”切换
3、P--L:设定功率下限 “▲”“●”“ ”切换
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4、P--H:设定功率上限 “▲”“●”“ ”切换 当设定功率时可以用“锁存键”来切换“W”和“kW” 5、Beep: 设定蜂鸣器是否报警,即设定蜂鸣器是否响与不响,OFF 表示关,ON 表示开(出
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序言
概述 新型单相系列电参数测量仪,外壳采用超薄机箱,重量轻,便于携带。
LF12中文资料

LF00AB/C SERIESVERY LOW DROPVOLTAGE REGULATORS WITH INHIBITJuly 1999s VERY LOW DROPOUT VOLTAGE (0.45V)sVERY LOW QUIESCENT CURRENT(TYP.50µA IN OFF MODE,500µA IN ON MODE)s OUTPUT CURRENT UP TO 500mA sLOGIC-CONTROLLED ELECTRONIC SHUTDOWNsOUTPUT VOLTAGESOF 1.25;1.5;1.8;2.5;2.7;3;3.3;3.5;4;4.5;4.7;5;5.2;5.5;6;8;8.5;9;12Vs INTERNAL CURRENT AND THERMAL LIMIT s ONLY 2.2µF FOR STABILITYsAVAILABLEIN ±1%(AB)OR ±2%(C)SELECTIONAT 25o CsSUPPLY VOLTAGE REJECTION:80db (TYP.)sTEMPERATURE RANGE:-40TO 125o CDESCRIPTIONThe LF00series are very Low Drop regulators available in PENTAWATT,TO-220,ISOWATT220,DPAK and PPAK package and in a wide range of output voltages.The very Low Drop voltage (0.45V)and the very low quiescent current make them particularly suitable for Low Noise,Low Power applications and specially in battery powered systems.In the 5pins configuration (PENTAWATT and PPAK)a Shutdown Logic Control function is available (pin 2,TTL compatible).This means that when the device is used as a local regulator,it is possible to put a part of the board in standby,decreasing the total power consumption.In the three terminal configuration the device has the same electrical performance,but is fixed inSCHEMATIC DIAGRAMPPAK DPAKPENTAWATTTO-220ISOWATT220®1/32ABSOLUTE MAXIMUM RATINGSSymbol Parameter Value Unit V i DC Input Voltage-0.5to40(*)VI o Output Current Internally limitedP tot Power Dissipation Internally limitedT st g Storage Temperature Range-40to150o C T op Operating Junction Temperature Range-40to125o C (*)For18<V IN<40the regulator is in shut-downTHERMAL DATASymbol Parameter PENTAWATT TO-220ISOWATT220DPAK/PPAK UnitR thj-ca se R thj-amb Thermal Resistance Junction-caseThermal Resistance Junction-ambient3503504608100o C/Wo C/WCONNECTION DIAGRAM(top view)PENTAWATTTO-220ISOWATT220PPAK DPAK LF00AB/C2/32ORDERING NUMBERSType PENTAWATT TO-220ISOWATT220DPAK PPAK OutputVoltageLF12C(*) LF12AB(*) LF15C(*) LF15AB(*) LF18CLF18AB LF25CLF25AB LF27CLF27AB LF30CLF30AB LF33CLF33AB LF35CLF35AB LF40CLF40AB LF45C(*) LF45AB(*) LF47CLF47AB LF50CLF50AB LF52CLF52AB LF55CLF55AB LF60CLF60AB LF80CLF80AB LF85CLF85AB LF90CLF90AB LF120C LF120AB 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.25V1.25V1.5V1.5V1.8V1.8V2.5V2.5V2.7V2.7V3V3V3.3V3.3V3.5V3.5V4V4V4.5V4.5V4.75V4.75V5V5V5.2V5.2V5.5V5.5V6V6V8V8V8.5V8.5V9V9V12V12VTEST CIRCUITSLF00AB/C3/32ELECTRICAL CHARACTERISTICS FOR LF12AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=3.3VI o=50mA,V i=3.3V-25<T a<85o C 1.2381.2251.25 1.2631.275VVV i Operating Input Voltage I o=500mA 2.516V I o ut Output Current Limit1A ∆V o Line Regulation V i=2.5to16V,I o=5mA210mV ∆V o Load Regulation V i=2.8V I o=5to500mA210mV I d Quiescent Current ON MODEV i=2.5to16V I o=0mA V i=2.6to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=3.5V±1Vf=120Hz f=1KHz f=10KHz 827765dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µV V d Dropout Voltage I o=200mA 1.25V V il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF12C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=3.3VI o=50mA,V i=3.3V-25<T a<85o C 1.2251.21.25 1.2751.3VVV i Operating Input Voltage I o=500mA 2.516V I o ut Output Current Limit1A ∆V o Line Regulation V i=2.5to16V,I o=5mA210mV ∆V o Load Regulation V i=2.8V I o=5to500mA210mV I d Quiescent Current ON MODEV i=2.5to16V I o=0mA V i=2.6to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=3.5V±1Vf=120Hz f=1KHz f=10KHz 827765dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µV V d Dropout Voltage I o=200mA 1.25V V il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF LF00AB/C4/32ELECTRICAL CHARACTERISTICS FOR LF15AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=3.5VI o=50mA,V i=3.5V-25<T a<85o C 1.4851.4701.5 1.5151.530VVV i Operating Input Voltage I o=500mA 2.516V I o ut Output Current Limit1A ∆V o Line Regulation V i=2.5to16V,I o=5mA210mV ∆V o Load Regulation V i=2.8V I o=5to500mA210mV I d Quiescent Current ON MODEV i=2.5to16V I o=0mA V i=2.8to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=3.5V±1Vf=120Hz f=1KHz f=10KHz 827765dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µV V d Dropout Voltage I o=200mA1V V il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF15C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=3.5VI o=50mA,V i=3.5V-25<T a<85o C 1.471.441.5 1.531.56VVV i Operating Input Voltage I o=500mA 2.516V I o ut Output Current Limit1A ∆V o Line Regulation V i=2.5to16V,I o=5mA210mV ∆V o Load Regulation V i=2.8V I o=5to500mA210mV I d Quiescent Current ON MODEV i=2.5to16V I o=0mA V i=2.8to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=3.5V±1Vf=120Hz f=1KHz f=10KHz 827765dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mA1VV il Control Input Logic Low-40<T a<125o C0.8VV ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µFLF00AB/C5/32ELECTRICAL CHARACTERISTICS FOR LF18AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=3.3VI o=50mA,V i=3.3V-25<T a<85o C 1.7821.7641.8 1.8181.836VVV i Operating Input Voltage I o=500mA316V I o ut Output Current Limit1A ∆V o Line Regulation V i=2.8to16V,I o=5mA212mV ∆V o Load Regulation V i=3.3V I o=5to500mA210mV I d Quiescent Current ON MODEV i=2.5to16V I o=0mA V i=3.1to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=3.5V±1Vf=120Hz f=1KHz f=10KHz 827760dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µV V d Dropout Voltage I o=200mA0.7V V il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF18C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=3.5VI o=50mA,V i=3.5V-25<T a<85o C 1.7641.7281.8 1.8361.872VVV i Operating Input Voltage I o=500mA316V I o ut Output Current Limit1A ∆V o Line Regulation V i=2.8to16V,I o=5mA212mV ∆V o Load Regulation V i=3.3V I o=5to500mA210mV I d Quiescent Current ON MODEV i=2.5to16V I o=0mA V i=3.1to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=3.5V±1Vf=120Hz f=1KHz f=10KHz 827760dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µV V d Dropout Voltage I o=200mA0.7V V il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF LF00AB/C6/32ELECTRICAL CHARACTERISTICS FOR LF25AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=4.5VI o=50mA,V i=4.5V-25<T a<85o C 2.4752.4502.5 2.5252.550VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=3.5to16V,I o=5mA212mV ∆V o Load Regulation V i=3.8V I o=5to500mA212mV I d Quiescent Current ON MODEV i=3.5to16V I o=0mA V i=3.8to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=4.5V±1Vf=120Hz f=1KHz f=10KHz 827765dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.200.400.350.70VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF25C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=4.5VI o=50mA,V i=4.5V-25<T a<85o C 2.452.42.5 2.552.6VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=3.5to16V,I o=5mA212mV ∆V o Load Regulation V i=3.8V I o=5to500mA212mV I d Quiescent Current ON MODEV i=3.5to16V I o=0mA V i=3.8to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=4.5V±1Vf=120Hz f=1KHz f=10KHz 827765dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8VV ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µFLF00AB/C7/32ELECTRICAL CHARACTERISTICS FOR LF27AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=4.7VI o=50mA,V i=4.7V-25<T a<85o C 2.6732.6462.7 2.7272.754VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=3.7to16V,I o=5mA213mV ∆V o Load Regulation V i=4V I o=5to500mA213mV I d Quiescent Current ON MODEV i=3.7to16V I o=0mA V i=4to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=4.7V±1Vf=120Hz f=1KHz f=10KHz 827765dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF27C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=4.7VI o=50mA,V i=4.7V-25<T a<85o C 2.6462.5922.7 2.7542.808VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=3.7to16V,I o=5mA213mV ∆V o Load Regulation V i=4V I o=5to500mA213mV I d Quiescent Current ON MODEV i=3.7to16V I o=0mA V i=4to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=4.7V±1Vf=120Hz f=1KHz f=10KHz 827765dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF LF00AB/C8/32ELECTRICAL CHARACTERISTICS FOR LF30AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=5VI o=50mA,V i=5V-25<T a<85o C 2.9702.9403 3.0303.060VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=4to16V,I o=5mA315mV ∆V o Load Regulation V i=4.3V I o=5to500mA315mV I d Quiescent Current ON MODEV i=4to16V I o=0mA V i=4.3to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=5V±1Vf=120Hz f=1KHz f=10KHz 817665dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF30C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=5VI o=50mA,V i=5V-25<T a<85o C 2.942.883 3.063.12VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=4to16V,I o=5mA315mV ∆V o Load Regulation V i=4.3V I o=5to500mA315mV I d Quiescent Current ON MODEV i=4to16V I o=0mA V i=4.3to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=5V±1Vf=120Hz f=1KHz f=10KHz 817665dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8VV ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µFLF00AB/C9/32ELECTRICAL CHARACTERISTICS FOR LF33AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=5.3VI o=50mA,V i=5.3V-25<T a<85o C 3.2673.2343.3 3.3333.366VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=4.3to16V,I o=5mA316mV ∆V o Load Regulation V i=4.6V I o=5to500mA316mV I d Quiescent Current ON MODEV i=4.3to16V I o=0mA V i=4.6to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=5.3V±1Vf=120Hz f=1KHz f=10KHz 807565dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF33C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=5.3VI o=50mA,V i=5.3V-25<T a<85o C 3.2343.1683.3 3.3663.432VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=4.3to16V,I o=5mA316mV ∆V o Load Regulation V i=4.6V I o=5to500mA316mV I d Quiescent Current ON MODEV i=4.3to16V I o=0mA V i=4.6to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=5.3V±1Vf=120Hz f=1KHz f=10KHz 807565dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF LF00AB/C10/32ELECTRICAL CHARACTERISTICS FOR LF35AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=5.5VI o=50mA,V i=5.5V-25<T a<85o C 3.4653.4303.5 3.5353.570VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=4.5to16V,I o=5mA317mV ∆V o Load Regulation V i=4.8V I o=5to500mA317mV I d Quiescent Current ON MODEV i=4.5to16V I o=0mA V i=4.8to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=5.5V±1Vf=120Hz f=1KHz f=10KHz 797460dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF35C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=5.5VI o=50mA,V i=5.5V-25<T a<85o C 3.433.363.5 3.573.64VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=4.5to16V,I o=5mA317mV ∆V o Load Regulation V i=4.8V I o=5to500mA317mV I d Quiescent Current ON MODEV i=4.5to16V I o=0mA V i=4.8to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=5.5V±1Vf=120Hz f=1KHz f=10KHz 797460dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8VV ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF11/32ELECTRICAL CHARACTERISTICS FOR LF40AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=6VI o=50mA,V i=6V-25<T a<85o C 3.9603.9204 4.0404.080VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=5to16V,I o=5mA420mV ∆V o Load Regulation V i=5.3V I o=5to500mA420mV I d Quiescent Current ON MODEV i=5to16V I o=0mA V i=5.3to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=6V±1Vf=120Hz f=1KHz f=10KHz 787360dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF40C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=6VI o=50mA,V i=6V-25<T a<85o C 3.923.844 4.084.16VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=5to16V,I o=5mA420mV ∆V o Load Regulation V i=5.3V I o=5to500mA420mV I d Quiescent Current ON MODEV i=5to16V I o=0mA V i=5.3to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=6V±1Vf=120Hz f=1KHz f=10KHz 787360dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF 12/32ELECTRICAL CHARACTERISTICS FOR LF45AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=6.5VI o=50mA,V i=6.5V-25<T a<85o C 4.4554.4104.5 4.5454.590VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=5.5to16V,I o=5mA422mV ∆V o Load Regulation V i=5.8V I o=5to500mA422mV I d Quiescent Current ON MODEV i=5.5to16V I o=0mA V i=5.8to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=6.5V±1Vf=120Hz f=1KHz f=10KHz 777260dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.70VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF45C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=6.5VI o=50mA,V i=6.5V-25<T a<85o C 4.414.324.5 4.594.68VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=5.5to16V,I o=5mA422mV ∆V o Load Regulation V i=5.8V I o=5to500mA422mV I d Quiescent Current ON MODEV i=5.5to16V I o=0mA V i=5.8to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=6.5V±1Vf=120Hz f=1KHz f=10KHz 777260dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.70VVV il Control Input Logic Low-40<T a<125o C0.8VV ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF13/32ELECTRICAL CHARACTERISTICS FOR LF47AB(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=6.7VI o=50mA,V i=6.7V-25<T a<85o C 4.6534.6064.7 4.7474.794VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=5.7to16V,I o=5mA423mV ∆V o Load Regulation V i=6V I o=5to500mA423mV I d Quiescent Current ON MODEV i=5.7to16V I o=0mA V i=6to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=6.7V±1Vf=120Hz f=1KHz f=10KHz 777260dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF ELECTRICAL CHARACTERISTICS FOR LF47C(refer to the test circuits,T j=25o C,C i=0.1µF,C o=2.2µF unless otherwise specified)Symbol Parameter Test Conditions Min.Typ.Max.UnitV o Output Voltage I o=50mA,V i=6.7VI o=50mA,V i=6.7V-25<T a<85o C 4.6064.5124.7 4.7944.888VVV i Operating Input Voltage I o=500mA16V I o ut Output Current Limit1A ∆V o Line Regulation V i=5.7to16V,I o=5mA423mV ∆V o Load Regulation V i=6V I o=5to500mA423mV I d Quiescent Current ON MODEV i=5.7to16V I o=0mA V i=6to16V I o=500mA 0.5112mAmAOFF MODE V i=6V50100µA SVR Supply Voltage Rejection I o=5mA V i=6.7V±1Vf=120Hz f=1KHz f=10KHz 777260dBdBdBeN Output Noise Voltage B=10Hz to100KHz50µVV d Dropout Voltage I o=200mAI o=500mA 0.20.40.350.7VVV il Control Input Logic Low-40<T a<125o C0.8V V ih Control Input Logic High-40<T a<125o C2VI i Control Input Current V i=6V,V c=6V10µAC O Output Bypass Capacitance ESR=0.1to10ΩI o=0to500mA210µF 14/32。
成都海汛流体科技有限公司 MNY 系列微型调速水泵 说明书

MNY系列微型调速水泵说明书前言首先非常感谢您选择成都海汛流体科技有限公司的产品。
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摘要本文为MNY系列微型调速水泵相关说明,用于指导相关技术人员了解该产品特性。
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您非常了解您的产品,并对所需微型泵的相关参数、规格大小等信息有明确概念。
关键字水气两用、PWM调速、保护功能、转速反馈、关键参数、操作说明版本记录成都海汛流体科技有限公司地址:成都市武侯区武科西一路85号网址:目录前言 (1)目录 (2)1产品特征 (3)1.1产品命名 (3)1.2水气两用 (3)1.3长寿命、低干扰 (3)1.4调速功能 (3)1.5转速反馈 (4)1.6保护功能 (4)1.7免维护、无污染传输 (4)1.8耐腐蚀性良好 (4)1.9安装无限制 (4)2产品认证 (5)3技术参数 (6)3.1关键参数 (6)3.2抽水、排水高度 (6)3.3产品版本 (7)3.4使用条件 (8)3.5产品材质 (9)3.6过滤问题 (9)3.7噪音和消音器 (9)3.8配套管径 (9)3.9电机启动电流 (9)4操作说明 (11)4.1信号线说明 (11)4.2接线说明 (12)5注意事项 (14)6三维尺寸图 (15)7产品外观 (16)1产品特征1.1产品命名□□□□□□□□-□□□版本代码:1是简化版,2是标准版,3是品质版。
控制特征代码压力代码:表示负压/正压级别。
电压代码:1是12V,2是24V,3是5V,4是12V以下不包含5V,5是12~24V中间电压,6是24V以上电压。
15FL12-12W-M资料

1800 OCEAN A VE., FRNTRONKONKOMA, NY 11779TEL 800-9HV-POWER TEL 631-471-4444FAX 631-471-4696“Making High Voltage Easier!”®Isolated up to 15kVDC leakage current of <10nA AC leakage capacitance of <40pF 3 regulated floating LV power outputsIsolated digital I/O to and from floating hot deck Isolated analog I/O to and from floating hot deck UL, CUL, IEC-60950-1, and Demko RecognizedGENERAL INFORMATION:The “FL” Series of floating-hot-deck, low-voltage power supplies offers an integrated solution for systems requiring LV power & controls with high-voltage isolation. Combining a highly isolated, DC-to-DC, multi-output low-voltage power supply (LVPS) with an advanced isolated digital & analog I/O topology,the “FL” sub-system provides both power and controls to floating-hot-deck circuitry. This solution, when combined with one or more UV HVPS or other circuitry, can provide high-performance solutions for applications such as:Floating/Stacked Ion- or E-Beam Biases Floating Filament Bias Floating Pulsers & Gated Grids Floating Capacitance Meters Floating High Side Current Monitors Floating Leakage TestersPlease contact UltraVolt's customer service department for an analysis of your requirements.DESIGN METHODOLOGY:The “FL” Series utilizes a dual-ended forward converter topology with a nominal switching frequency of <100 kHz. Once input voltage stabilizes, under-voltage lockout is released. When the LVPS enable is raised above a TTL 1, the converter begins to switch. The soft-start circuit brings the converter to full power over a 1mS period, reducing surges on the source supply. A constant-frequency PWM regulation system with optically isolated feed back controls the MOSFET push-pull power stage, driving a highly isolated transformer. This isolated power ultimately provides 3 separate LV floating outputs at >80% efficiency. The power stage is protected from intermittent output-current overloads or short circuits via a primary current limit circuit. The isolated digital I/O channel(s) are optically transmitted directly to the floating hot deck with a schmitt trigger buffer providing glitch-free output on the floating hot deck. The isolated analog I/O channel(s) are converted to digital data and optically transmitted directly to the floating hot deck for conversion back to analog.COMPATIBILITY:The “FL” Series works directly with any UltraVolt “A” or “C”Series DC-to-DC HVPS from 0 to 62V through 0 to 35kV @ 0to 4 watts through 0 to 20 watts. By providing isolated power,TTL enable/disable, and voltage programming, UV HVPS can be floated or stacked on one another.ISOLATED POWER OUTPUTS:The “15FL12-12W” provides floating +12VDC @ 1 Amp, -12VDC @ 10 mA, and +5VDC @ 10 mA from a single ground side +12VDC input. The “15FL24-24W” provides floating +24VDC @ 1 Amp, -12VDC @ 10 mA, and +5VDC @ 10 mA from a single ground side +24VDC input. The main output is typically used to drive a floating HVPS, or filament switching regulator, etc. The -12VDC is for use with the +DC in providing bias to floated Op-Amps, DACs & ADCs. The +5 VDC can run floating micro-controllers or watchdog reset circuits.ISOLATED CONTROLS: DIGITAL CHANNELSThe “-I/O” option provides isolated digital I/O channel(s)from the grounded system side to the floating hot deck. The TTL bit is inverted. The output, a schmitt trigger TTL buffer,sources up to 0.8mA and sinks up to 13 mA. This bit is typically used to enable/disable a floated UV HVPS. It can also be used at up to 300kHz to drive a pulser, gate, sample-and-hold multiplexer or to communicate with a floated micro controller.The “-R/B” option provides one additional down channel.ISOLATED CONTROLS: ANALOG CHANNELSThe “-I/O” option provides isolated analog I/O channel(s)from the grounded system side to the floating hot deck. The analog signal is converted to digital and translated back to analog at the floating hot deck. The output is buffered with a source impedance of 1.5K Ω. This signal is typically used to remote program a floated UV HVPS. It can be used at up to 30 Hz to drive an amplifier, sample-and-hold, or to program other devices such as a floating filament regulator. The “-R/B”option provides one additional down channel.STANDBY MODE:All “FL” models feature an LVPS enable/disable function.When the enable is TTL 0 (< +0.7 VDC +/-0.2 Isink=1mA), the floating LVPS is in standby mode. All isolated outputs go to 0VDC; input current drops to < 90 mA; and all functions are shut down except the +5 Volt reference, which is always operational.If the LVPS enable pin is left unconnected, TTL 1 or at greater voltages up to +32VDC the converter operates normally.MECHANICAL:“FL” Series units are in PCB-mountable plastic cases requiring a footprint of 8.5 in 2and only 10 in 3of volume. Mounting plates and brackets are available for chassis mounting. See Application Note AP-6 for thermal considerations and for mounting configurations.ENVIRONMENTAL:The “FL” Series provides full power operation at case temperatures from -20 to +55o C. All units receive a 24-hour burn-in prior to final testing. Extended temperature range is available along with other enhanced capabilities. Please contact the factory.FLOATING HOT DECK LVPS WITH ISOLATED DIGITAL AND ANALOG I/O41Specifications subject to change without noticeFLOATING HOT DECK LVPS WITH ISOLATED DIGITAL AND ANALOG I/OTEL 800-9HV-POWER or 800-948-7693 or 631-471-4444 FAX 631-471-46961800 Ocean Ave., Frnt, Ronkonkoma, NY 11779“Making High Voltage Easier!”®42TEL 800-9HV-POWER or 800-948-7693 or 631-471-4444 FAX 631-471-46961800 Ocean Ave., Frnt, Ronkonkoma, NY 11779“Making High Voltage Easier!”®FLOATING HOT DECK LVPS WITH ISOLATED DIGITAL AND ANALOG I/O43Ordering Information1 - Input Power Ground Return2 - Positive Power Input3 - LVPS Enable/Disable Input4 - TTL Up/HVPS Enable/Disable (-I/O Only)5 - Signal Ground Return6 - Analog Up/ HVPS Remote Programming Input (-I/O Only)7 - +5V Reference Output1 - Floating +Iout monitor input (Analog Down Channel 1)2 - Floating -Iout monitor input (Analog Down Channel 1)3 - Floating +Eout monitor input (Analog Down Channel 2)4 - Floating -Eout monitor input (Analog Down Channel 2)Local ConnectionsTypeOption Power5 - N/C (reserved for future use)7 - Floating TTL input (Digital Down Channel 1)6 - N/C (reserved for future use)Additional Isolated Connections (-R/B only)Example:15FL12-12W-I/OIsolation Model Input8 - +Iout monitor output (Analog Down Channel 1)9 - -Iout monitor output (Analog Down Channel 1)10- +Eout monitor output (Analog Down Channel 2)11- -Eout monitor output (Analog Down Channel 2)12 - N/C (reserved for future use)13 - N/C (reserved for future use)14 - TTL output (Digital Down Channel 1)Additional Local Connections (-R/B option)8 - Floating PWR Ground Return 9 - Floating +12VDC or +24VDC Output 10 - Floating -12VDC Output11 - Floating TTL Up/HVPS Enable/Disable (-I/O Only)12 - Floating Signal Ground Return13 - Floating Analog Up/ HVPS Remote Programming Input (-I/O Only)14 - Floating +5.6V Reference OutputIsolated/Floating ConnectionsCopyright 1991-2006, UltraVolt, Inc.Rev. G 10/061800 Ocean Ave., Frnt, Ronkonkoma, NY 11779“Making High Voltage Easier!”®44IEC-60950-1All units are RoHS-5 compliant.Models with -RB option are not yet certified withUL, CUL, IEC-60950-1, or Demko.。
CR12CM-12A资料

CR12CM-12AThyristorMedium Power UseREJ03G0350-0200Rev.2.00Nov 30, 2007 Features• I T (AV) : 12 A • V DRM : 600 V • I GT : 30 mA • Non-Insulated Type • Planar Passivation TypeOutlineApplicationsSwitching mode power supply, regulator for autocycle, motor control, heater control, and other general purpose control applicationsMaximum RatingsVoltage classParameter Symbol12UnitRepetitive peak reverse voltage V RRM 600 V Non-repetitive peak reverse voltage V RSM 720 V DC reverse voltage V R (DC) 480 V Repetitive peak off-state voltage V DRM 600 V DC off-state voltage V D (DC) 480 VParameter Symbol Ratings Unit ConditionsRMS on-state current I T (RMS) 18.8 A Average on-state current I T (AV) 12 A Commercial frequency, sine half wave180° conduction, Tc = 91°CNote2Surge on-state current I TSM 360 A 60Hz sine half wave 1 full cycle,peak value, non-repetitiveI 2t for fusing I 2t 544 A 2s Value corresponding to 1 cycle of halfwave 60Hz, surge on-state currentPeak gate power dissipation P GM 5 W Average gate power dissipation P G (AV) 0.5 W Peak gate forward voltage V FGM 6 V Peak gate reverse voltage V RGM 10 V Peak gate forward current I FGM 2 A Junction temperature Tj – 40 to +125 °C Storage temperature Tstg – 40 to +125 °C Mass — 2.0 g Typical valueElectrical CharacteristicsParameter Symbol Min. Typ. Max. Unit Test conditions Repetitive peak reverse current I RRM — — 2.0 mA Tj = 125°C, V RRM applied Repetitive peak off-state current I DRM — — 2.0 mA Tj = 125°C, V DRM applied On-state voltage V TM — — 1.6 V Tc = 25°C, I TM = 40 A,instantaneous valueGate trigger voltage V GT— — 1.5 V Tj = 25°C, V D = 6 V, I T = 1 A Gate non-trigger voltage V GD 0.2 — — VTj = 125°C, V D = 1/2 V DRM Gate trigger current I GT — — 30 mA Tj = 25°C, V D = 6 V, I T = 1 AHolding current I H — 15 — mA Tj = 25°C, V D = 12 V Thermal resistanceR th (j-c) — — 1.2 °C/W Junction to case Note1 Note2Notes: 1. The contact thermal resistance R th (c-f) in case of greasing is 1.0°C/W.2. Case temperature is measured at anode tab 1.5 mm away from the molded case.Performance CurvesPackage DimensionsOrder CodeLead form Standard packing Quantity Standard order code Standard order code exampleStraight type Vinyl sack 100Type name CR12CM-12A Lead form Plastic Magazine (Tube) 50Type name – Lead forming code CR12CM-12A-A8 Note : Please confirm the specification about the shipping in detail.Refer to "/en/network " for the latest and detailed information.Renesas Technology America, Inc.450 Holger Way, San Jose, CA 95134-1368, U.S.A Tel: <1> (408) 382-7500, Fax: <1> (408) 382-7501Renesas Technology Europe LimitedDukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.K.Tel: <44> (1628) 585-100, Fax: <44> (1628) 585-900Renesas Technology (Shanghai) Co., Ltd.Unit 204, 205, AZIACenter, No.1233 Lujiazui Ring Rd, Pudong District, Shanghai, China 200120Tel: <86> (21) 5877-1818, Fax: <86> (21) 6887-7858/7898Renesas Technology Hong Kong Ltd.7th Floor, North Tower, World Finance Centre, Harbour City, Canton Road, Tsimshatsui, Kowloon, Hong Kong Tel: <852> 2265-6688, Fax: <852> 2377-3473Renesas Technology Taiwan Co., Ltd.10th Floor, No.99, Fushing North Road, Taipei, Taiwan Tel: <886> (2) 2715-2888, Fax: <886> (2) 3518-3399Renesas Technology Singapore Pte. Ltd.1 Harbour Front Avenue, #06-10, Keppel Bay Tower, Singapore 098632 Tel: <65> 6213-0200, Fax: <65> 6278-8001Renesas Technology Korea Co., Ltd.Kukje Center Bldg. 18th Fl., 191, 2-ka, Hangang-ro, Yongsan-ku, Seoul 140-702, Korea Tel: <82> (2) 796-3115, Fax: <82> (2) 796-2145Renesas Technology Malaysia Sdn. BhdUnit 906, Block B, Menara Amcorp, Amcorp Trade Centre, No.18, Jln Persiaran Barat, 46050 Petaling Jaya, Selangor Darul Ehsan, Malaysia Tel: <603> 7955-9390, Fax: <603> 7955-9510RENESAS SALES OFFICES。
FL-A型飞力泵安全控制器产品说明书

安明电气保证生产安全使用说明书FL-A型搅拌器/潜水泵安全控制器广州市安明电气科技有限公司荣誉出品FL-A型飞力潜水泵/搅拌机安全控制器,以飞力搅拌器/潜水泵本身具有标准配套传感器为蓝本而设计的安全控制装置。
它与飞力搅拌器/潜水泵配套使用,就能达到最佳使用效果并为维护、维修带来极大之方便。
FL-A具有定子室泄漏或油室泄漏监测保护、电机绕组温度监测保护(内含双金属开关)功能。
(1)本公司之FL-A型号产品均可在任何情况下,都能为飞力潜水泵/搅拌机提供有效的安全保护(2)安全控制器能对各输入传感器进行自动诊断,而且全部故障信号都能进行显示及锁存,为维修同检查带来方便。
(3)采用数字信号处理,功耗少,散热低,性能稳定。
(4)由于采用数字技术,消除各种频率干扰,提高抗干扰能力,工作可靠。
(5)采用进口名牌继电器,负载能力强,达到5A/220V(无源触点)。
(6)电子控制板,双面进行特殊处理,大大提高防潮,防腐以及绝缘性能的能力,增强稳定性、可靠性,能大大延长其工作寿命。
1、主要规格及技术参数A:FL-A型安全控制器可以处理搅拌器/潜水泵的以下输出信号电机定子室绕组过热的热敏开关(中国大陆常用叫法:双金属片开关)电机定子室内的泄漏传感器FLS:油室中的水分泄漏传感器CLS:B:FL-A型安全控制器技术运行参数:I(电流)小于3MA→电机绕组温度过热。
I(电流)大于3MMA、小于22MA→正常工作状态。
I(电流)大于22MA→泄漏故障状态(包含定子室泄漏或油室泄漏)。
C:绿灯:正常工作时亮,其技术含义:非一般电源指示,而是本控制器内部自检及工作运转正常。
泄漏红灯:红灯亮时,则表示发生FLS或CLS故障:发生泄漏时有10秒左右的延时时间,(达到设定值时计算)。
D:FL-A型安全控制器以下输出信号(1)电机绕组温度过高继电器采用双路无源触点输出(2)泄漏继电器采用无源触点输出2. 正常使用环境条件(1)工作环境温度:-20℃~+40℃;(2)长期不得大于相对湿度90%;3. 供电电压(1)24V AC/DC;(2)正常运行参数:电流值3MA<I<22MA;电流值I<3MM为过高温度;电流值I> 22MA为泄漏故障,有10秒延时。
彩页GLF-UNC-12A

水下高清网络球机型号:GLF-UNC-12A(L/T)简介:香港格来美(英国雷神公司)实业有限公司的GLF-UNC-12A(L/T))水下网络高清球机采用最新的高清技术,可以提供1920*1080高清分辨率的视频。
摄像头拥有1/2.8"CMOS逐行扫描成像传感器,36倍高清光学变焦电动变焦镜头。
外壳铝合金(淡水);钛合金(海水)材料可根据客户要求任意选择,耐压300米,设计小巧,非常适合集成到ROV上以及其它的深海应用。
GLF-UNC-12A(L/T)水下网络高清摄像头能够跟连接水下机器人,高输出LED灯组成一个完整的格兰浮水下视频系统。
GLF-UNC-12A(L/T)水下网络高清摄像头可以通过一个连接器,一根定制线缆,无缝集成到用户的系统中,通过图形用户界面可以远程控制摄像头的光学变焦,聚焦和曝光等。
特点:1:内置编码器,外置解码器,让现场线缆更加单元化,告别传统网络连接;2,定制版单向密封水密接插件;耐压级别最高可达3000米,3,尊享质保两年,终身维修,远超行业标准。
技术参数:感光元器件1/2.8"Progressive Scan CMOS最低照度彩色:0.05Lux@(F1.6,AGC ON)黑白:0.01Lux@(F1.6,AGC ON)电子快门1-1/30,000s数字变倍16倍焦距 4.7-94mm,20倍光学变倍速度大约3秒(光学,广角-望远)水平视角61.4-2.9度(广角-望远)近摄距10-1000mm(广角-望远)光圈数F1.6-F3.5水平范围360°连续旋转水平速度水平键控速度:0.1°-160°/s,速度可设水平预置点速度:160°/s垂直范围0°-90°垂直速度垂直键控速度:0.1°-120°/s,速度可设垂直预置点速度:120°/s分辨率及帧率50Hz:25fps(1920×1080)、25fps(1280×720) 60Hz:30fps(1920×1080)、30fps(1280×720)视频压缩H.265/H.264/MJPEG防水等级300M(超出范围可定制)材质铝合金或钛合金。
AX-12完整中文资料

Main Specifications主要规格精度°操作角度300 ° 或转动电压7V 〜 10V(推荐电压:)最大电流900mA工作温度-5 〜 85 ℃℃控制信号数字信号协议类型半双工异步串行通信( 8位, 1位停止位,无奇偶校验)物理连接多降式TTL电平(总线型)ID 最多254个ID(编号0 〜 253 )比特率7343bps 〜 1 Mbps反馈类型位置,温度,负载,输入电压等Connection to UART 连接到UARTTo control the Dynamixel actuators, the main controller needs to convert its UART signals to the half duplex type. The recommended circuit diagram for this is shown below.为了控制Dynamixel舵机,主控制器需要转换UART信号为半双工类型。
建议电路图所示。
The power is supplied to the Dynamixel actuator from the main controller through Pin 1 and Pin 2 of the Molex3P connector. (The circuit shown above is presented only to explain the use of half duplex UART. The CM-5 controller already has the above circuitry built in, thus the Dynamixel actuators can be directly connected to it)Dynamixel的电源供应器是从主控制器通过Molex3P连接器的PIN1引脚和PIN2引脚。
BCR8KM-12LA中文资料

Gate Characteristics (I, II and III)
3 2 VGM = 10V
PG(AV) = 0.5W PGM = 5W IGM = 2A VGT = 1.5V
Gate Trigger Current vs. Junction Temperature
103 7 5 3 2 102 7 5 3 2 101 –60 –40–20 0 20 40 60 80 100 120 140
Rev.1.00, Aug.20.2004, page 3 of 7
元器件交易网
BCR8KM-12LA
Maximum Transient Thermal Impedance Charቤተ መጻሕፍቲ ባይዱcteristics (Junction to ambient)
Maximum On-State Power Dissipation
Maximum Ratings
Parameter Repetitive peak off-state voltageNote1 Non-repetitive peak off-state voltageNote1 Symbol VDRM VDSM Voltage class 12 600 720 Unit V V
元器件交易网
BCR8KM-12LA
Triac
Medium Power Use
REJ03G0318-0100 Rev.1.00 Aug.20.2004
Features
• • • • IT (RMS) : 8 A VDRM : 600 V IFGTI , IRGTI, IRGTⅢ : 30 mA (20 mA)Note5 Viso : 2000 V • Insulated Type • Planar Passivation Type • UL Recognized : Yellow Card No. E223904 File No. E80271
石家庄四菱科技密度计使用说明书

(1)
(三)放射源的安装和操作
放射源容器的结构见附图2,源容器底部六角型托盘上有4个φ12mm的
孔,用于固定放射源容器;容器侧面还有四个M10的螺孔,也可用于对容器进行固定。按使用要求,放射源工作容器一般固定在一次装置支架相应的位置。
用于主机复位。
(一)上电操作
严格按照系统安装方法将系统安装好,特别注意电源线的连接。一切就绪后,按下主机右下方的电源开关,仪表进入初始化状态,液晶屏显示:
之后进入工作状态。这时,液晶屏上显示运行参数画面见图1,根据提示当按下↓﹑↑键时,可循环显示射线计数﹑输出模拟量﹑密度等运行参数。
图 1运行参数画面
式中:N0 — 射线的入射计数率;
Ni — 射线透射计数率;
χ — 液层厚度,m ;
d — 料液密度,kg/m3
μm— 质量吸收系数,m2/kg。
当料液的厚度固定时,根据透射计数率的变化测出料液密度变化。
di= [Ln(N1)-Ln(Ni)]/μ + d1 ⑴
式中,Ni—被测液料的透射计数率;
N1—标准液料的透射计数率;
用于工业过程中对密度的在线连续检测,并可参与生产过程的自动控制。
采用非接触测量方式,特别适用于高温﹑高压﹑密封设备内易然、易爆﹑强腐蚀﹑剧毒等恶劣条件下的在线检测。
(二)技术特点
1.长期稳定性好、精确度高
利用射线探测原理,实现非接触式测量。探测器安装在工业设备外面,设备内的高温﹑高压以及液体的腐蚀性等,均不会对测量产生干扰,长期使用稳定﹑可靠﹑不易损坏;运用硬件滤波和软件滤波相结合的方式有效地抑制外界干扰信号,提高系统的抗噪性;本仪表具有自动漂移补偿及放射源衰减自动补偿功能,系统长时间稳定性极佳,射线脉冲计数率的长期稳定性和重复性优于0.1%。采用射线能谱分析技术,使计量的线性度大大提高,增加了系统的精确度。
12芯国标护套线参数

12芯国标护套线参数
12芯国标护套线是一种常用的通信线缆,常用于网络传输、电话线路和室内布线等领域。
以下是该线缆的一些常见参数:
1. 芯数:12芯,即有12个通信信号传输芯线。
2. 国标:符合中国国家标准的设计与制造要求。
3. 护套:线材外层的保护层,常用的护套材料有PVC、LSZH 等,能够保护线芯免受外界物理损害。
4. 线径:一般有不同的线径规格可选,常见的有0.5mm、
0.9mm、1.2mm等。
5. 电阻:该线缆的电阻一般低于100欧姆,保证信号传输的稳定性。
6. 频率范围:常见的频率范围为0-100MHz,能够满足一般的通信需求。
7. 传输距离:该线缆的传输距离一般在100米左右,超过该距离信号质量可能会有所下降。
8. 环境适应性:适用于室内环境,对温度、湿度等环境条件有一定的适应性。
需要注意的是,具体的参数可能会因制造商、产品型号和应用环境等因素而有所差异,上述参数仅供参考。
在使用时,建议根据实际需求选择合适的线缆型号和规格。
FL-1200系列高流速旋钢管流量表说明书

Displacement Transducers, Dynamic Measurement Force Sensors, Instrumentation for Pressure and Strain Measurements, Load Cells, Pressure Gauges, Pressure Reference Section, Pressure Switches, Pressure Transducers, Proximity Transducers, Regulators, Pressure Transmitters, Strain Gauges, Torque Transducers, Valves
HIGH FLOW RATE PURGE ROTAMETERS
CAPACITIES: 0.08 to 5.0 GPM for Water,
0.34 to 15.0 SCFM for Air
B
FL-1200 Series
$670
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ߜ 316 SS and Brass Construction Available
ߜ Shielded for Use in Pressurized Systems
ߜ Easy-to-Read 65 mm (2.6") Scale
Dimensions: mm (in)
The FL-1200 flowmeters provide a low-cost means of flow rate indication. They are designed for applications where precise accuracy requirements for metering are not imperative. These meters are ideal for purge service, sealed oil systems, bearing lubrication, cooling water indication, and other associated applications.
泽安电子PDG12C0020TFFL电流保护型电缆保护器说明书

Eaton PDG12C0020TFFLEaton Power Defense molded case circuit breaker, Globally Rated, Frame 1, Two Pole, 20A, 18kA/480V, T-M (Fxd-Fxd) TU, Standard Terminals Load Only (PDG1X2T125)General specificationsEaton Power Defense molded case circuit breakerPDG12C0020TFFL 78667976257875.95 mm 139.7 mm 50.8 mm 0.907 kg Eaton Selling Policy 25-000, one (1) year from the date of installation of theProduct or eighteen (18) months from thedate of shipment of the Product,whichever occurs first.RoHS Compliant CCC MarkedIEC 60947-2UL 489CSAProduct NameCatalog Number UPCProduct Length/Depth Product Height Product Width Product Weight WarrantyCompliancesCertifications20 AComplete breaker 1Two-polePD1 Global Class A T-M (Fxd-Fxd) TU600 Vac600 VStandard Terminals Load Only18 kAIC at 480 Vac 10 kAIC @600V (UL/CSA) 25 kAIC @240V (UL) 18 kAIC @480V (UL)20 kAIC Icu/ 20 kAIC Ics/ 42 kAIC Icm @380-415V (IEC) 10 kAIC Icu @125 Vdc 10 kAIC Icu @250 Vdc25 kAIC Icu/ 25 kAIC Ics/ 52.5 kAIC Icm @240V (IEC)Eaton Power Defense PDG12C0020TFFL 3D drawing Consulting application guide - molded case circuit breakers Power Defense technical selling booklet Power Defense brochurePower Defense molded case circuit breaker selection poster Power Defense molded case circuit breakers - Frame 1 product aidAmperage Rating Circuit breaker frame type Frame Number of poles Circuit breaker type Class Trip Type Voltage rating Voltage rating - max TerminalsInterrupt rating Interrupt rating range 3D CAD drawing packageApplication notesBrochuresCertification reportsEU Declaration of Conformity - Power Defense molded case circuit breakersPDG1 UL authorizationPower Defense Declaration concerning California’s Proposition 65PDG1 CSA certificationPDG1 CCC certificationInstallation instructionsPower Defense Frame 1 UL global box terminal (steel) 125A 2P -IL012165EN H02Power Defense Frame 1 UL global handle block padlockable off only - IL012179ENPower Defense Frame 1 UL global interphase barrier - IL012176EN Power Defense Frame 1 UL global interphase barrier instructions -IL012313ENPower Defense Frame 1 UL global Padlockable Handle Lock Hasp -IL012225ENPower Defense Frame 1-2-3-4 IP door barrier assembly instructions -IL012278ENPower Defense Frame 1 UL Global variable depth rotary handle mech installation instructions - IL012308ENPower Defense Frame 1 UL global lock padlockable handle haspIL012180ENPower Defense Frame 1 Instructions - IL012152ENPower Defense Frame 1 UL global tunnel terminal (aluminum) 125A 2P - IL012166EN H02Power Defense Frame 1 UL global screw terminal end cap kit 125A 2P - IL012162ENPower Defense Frame 1 UL global handle block padlockable -IL012178ENPower Defense padlockable handle lock hasp top off only installation instructions - IL012226ENPower Defense Frame 1 UL global handle block non padlockable -IL012177ENPower Defense Frame 1 UL global DIN rail adapter 2, 3, 4-pole -IL012185ENPower Defense Frame 1 UL global screw terminal end cap kit metric 125A 2P - IL012170ENInstallation videosPower Defense Frame 1 UL Global Aux, Alarm, ST and UVR Animated Instructions.rhMultimediaEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaPower Defense Frame 3 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense Frame 6 Trip Unit How-To Video Eaton Power Defense for superior arc flash safety Power Defense Frame 5 Trip Unit How-To Video Power Defense molded case circuit breakersPower Defense Frame 2 Variable Depth Rotary Handle Mechanism Installation How-To Video Power Defense Breakers Eaton Specification Sheet - PDG12C0020TFFL Power Defense time current curve Frame 1 - PDG1Single and double break MCCB performance revisited Molded case and low-voltage breaker health Safer by design: arc energy reduction techniquesSpecifications and datasheetsTime/current curvesWhite papers。
FLUKE123/124 使用手册

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1
测试仪的使用 ................................................................................................................. 7
本章的目的..................................................................................................................... 7 给测试接通电源.............................................................................................................. 7 将测试仪复位 ................................................................................................................. 8 改变背衬光..................................................................................................................... 9 视屏判读 ........................................................................................................................ 10 菜单的选择..................................................................................................................... 11 测量接口 ........................................................................................................................ 12 用连通和检视(Connect-and-View™)显示未知信号.................................................... 13 进行测量 ........................................................................................................................ 14 锁定视屏 ........................................................................................................................ 16
KC—12A型断路器动特性分析仪

KC—12A断路器动特性分析仪使用说明书福建省普华电子科技有限公司FUJIAN PUHUA ELECTRONICS CO.,LTD前言衷心感谢您选用本公司产品,您因此将获得本公司全面的技术支持和服务保障。
本公司专业致力于高压电气试验设备的研发、生产和服务。
多年来,积累了丰富的从业经验,协助了广大电气试验工程师们,优质高效地完成现场电气设备试验计划,并赢得广泛的信任和支持!使用本产品前,请认真参阅使用说明书,以减少不必要的人身及设备意外损害!未尽之处,您可以随时向本公司技术服务部电话咨询,您也可以要求技术服务部工程师技术培训及现场试验指导。
了解产品的功能:介绍了面板和功能,了解电源输入、显示画面、打印、直流电源调控、测试端口、按键的功能。
以便读者掌握仪器基本功能。
操作基础:介绍了测试线接线方法、直流电源调控、参数设置、基本操作等。
在此可完整掌握仪器接线、操作、测试。
附录1:常见断路器测速定义:收录了常见断路器的测速定义附录2:六氟化硫断路器测速定义附录3:接线图※为了安全和正确操作请仔细阅读说明书KC-12A断路器动特性分析仪说明书 2010年5月版(一)产品技术参数1.1 使用环境:输入电源:220V±10% 50Hz±10% 大气压力:86~106kPa温度:-10~40℃湿度:≤85RH1.2 安全性能:1.2.1绝缘电阻﹥2MΩ1.2.2介电强度电源对机壳工频1.5kV耐压1分钟,无闪络和飞弧。
1.3 主要测试项目及功能:1.3.1时间:◆普通开关:量程 4000.0ms 分辨率 0.1ms误差①100ms以内 0.1ms±1个字②100ms以上 0.1%±1个字③同期◆石墨触头开关量程 4000.0ms 分辨率 0.1ms误差 0.2%±1个字同期±0.1ms1.3.2速度◆量程 20.00m/s 分辨率 0.01m/s◆①误差 0~2m/s ±0.1m/s±1个字②误差2m/s以上±0.2m/s±1个字1.3.3行程 1.3.4回路电阻测量电源:100A 量程:0~2000μΩ误差:±(0.5%读数±5μΩ)1.3.5电流:量程20.00A 分辨率:0.01A 1.3.6输出电源:DC30~250V 数字可调/20A (瞬时工作) 1.3.7 计算机接口:①标准RS-232接口;②U 盘接口 1.3.8 外形尺寸:350mm ×310mm ×220mm (L * W * H ) 1.3.9 重量:10kg(二)性能特点2.1 性能:2.1.1时间:12个断口的固有分、合闸时间,同相同期、相间同期。
kuoyuh 88series 12a原理 -回复

kuoyuh 88series 12a原理-回复什么是"kuoyuh 88series 12a原理"?Kuoyuh 88 series 12a是一种电子保险丝,用于保护电路免受过流和短路等电气问题的损害。
这款保险丝在广泛的电子设备和系统中使用,包括计算机、家用电器和汽车等。
了解Kuoyuh 88 series 12a原理对于电子工程师和维修人员非常重要,因为它们可以帮助他们诊断和解决电路问题。
首先,我们需要了解什么是保险丝以及它们的作用。
保险丝是一种安装在电路中的保护装置,可以在电流过载时自动断开电路。
它能够防止电路中的线路或元件过热、短路或其他故障。
保险丝是电子设备中十分重要的一部分,它们可以保护设备和用户免受电气问题带来的损坏和危险。
Kuoyuh 88 series 12a是一种重要的保险丝规格,它具有12安培额定电流。
额定电流是指保险丝可以安全运行的最大电流值。
当电路中的电流超过额定电流时,Kuoyuh 88 series 12a就会断开电路,从而保护电路不受损害。
Kuoyuh 88 series 12a保险丝的原理是基于热效应。
当电流通过保险丝时,保险丝的电阻会发生变化。
根据欧姆定律,电阻与电流成正比。
当电流增加时,保险丝的电阻也会随之增加。
这会导致保险丝自身产生热量。
当热量超过保险丝的耐热限度时,保险丝就会断开电路。
这一过程被称为动态热响应。
此外,Kuoyuh 88 series 12a还具有瞬时断流特性。
这意味着当电流超过额定电流的瞬间,保险丝会立即断开电路。
这是由于保险丝的瞬时承载能力不足以承受过载电流。
这种特性确保了设备和电路在故障发生时能够迅速断开,防止损坏和潜在危险。
识别Kuoyuh 88 series 12a保险丝的额定电流非常重要。
这可以帮助电子工程师选择正确的保险丝,以确保电路在安全工作范围内运行。
额定电流取决于具体应用的需求。
如果电流超过了额定电流,保险丝将会断开电路,阻止电流继续流动。
LINAK升降柱DL12产品数据表说明书

DESKLINE®(办公系列)DL12为直线升降柱奠定了标准。
它是一款结构紧凑的三段式直线升降柱,堪称各种升降桌应用的完美之选。
DL12采用隐形滑动衬垫设计,升降柱型材之间的间距实现最小化,从而带来令人悦目的流线形状。
紧凑式矩形升降柱的开发旨在满足内置尺寸小而行程长的市场需求。
此外,升降柱还专为不带横杆的升降桌而设计,可保证更大的桌腿空间和更多的设计可能性。
作为标准配置,所有DL12 均配有集成式传感器 PIEZO™。
PIEZO™(安全防撞)可最大程度地降低因碰撞而导致升降桌损坏的风险。
DL12系统由DESKLINE®(办公系列)控制盒(CBD)进行控制,从而确保完美的同步驱动和安静稳定的平稳运行。
DL12可用作单独升降柱或在二个、三个或四个同步系统中使用。
DL12还可提供经优化的扩展版DL12XL,专门用于显示屏和监控台的高度调节。
特点:• 设计紧凑,导向装置和推杆集成于一体• 安装在DL12上的电缆可通过独立的DESKLINE®电机电缆连接到CBD上• 最大负载:每个升降柱为700 N• 最大速度:38 mm/s(空载)• 标准安装尺寸:518 mm或545 mm• 标准行程长度:660 mm• 升降柱尺寸:60 x 100 mm(外部),54.8 x 94.8mm(中部)和49.6 x 89.6 mm(内部)• 弯曲力矩:My =最大150 Nm(动态)• 颜色:所有部件均为黑色(RAL9005),所有部件均为灰色(RAL9006)或所有部件均为白色(RAL9016)• 安静,平稳• PIEZO TM:集成传感器降低碰撞导致升降桌损坏的风险• PVC-Free TM环保升降柱(无PVC)• 隐形滑动衬垫实现最优设计• 最小化型材间距实现最优设计• 中部同步驱动选项:• 定制颜色• 电机外壳适配器(黑色)预安装或作为单独的单元提供• DL12XL扩展版专用于平板显示器- 安装尺寸:700 mm- 行程:999 mm- 负载:最大600 N- 弯曲力矩:最大100 Nm(动态)- 颜色:黑色(RAL9005)、灰色(RAL9006)和白色(RAL9016)- 工作占空比:5%使用:• 典型应用:- 办公桌- 电视升降系统• 单个或两个、三个、四个同步驱动• 与CBD6S相结合才能实现多个同步驱动• 工作占空比:10% ~满负荷连续使用2分钟,然后暂停18分钟• 环境温度:10至40 °C• 与DESKLINE®控制盒和所有DESKLINE®控制器兼容• 通过EN 60335-1认证• CBD6S通过UL962认证• 存储和运输温度:-10至+50 °C升降柱(DESKLIFT™) DL12DL12订购示例:518 = 518 mm 545 = 545 mm 700 = 700 mm (XL version)660 = 660 mm 999 = 999 mm (XL version)E = Piezo & IID 0 = Standard M = Motorhouse Adapter mounted*A = Grey RAL 9006B = Black RAL 9005D = White RAL 90160 = Standard 0 = 200 mm 0 = 2 x 10 mm pitch DL12 = 3 parted inline column, rectangular 60x100 mm, large profile down* = Not available for XL version 电机外壳适配器也可作为单独的部件订购,部件编号:HOUSINGDL12-001 电机外壳适配器仅供应黑色。
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ARY
FL12KM-12A
HIGH-SPEED SWITCHING USE
FL12KM-12A
OUTLINE DRAWING
10 ± 0.3
6.5 ± 0.3 3 ± 0.3
Dimensions in mm 2.8 ± 0.2
15 ± 0.3
φ 3.2 ± 0.2
14 ± 0.5
3.6 ± 0.3
1.1 ± 0.2 1.1 ± 0.2 0.75 ± 0.15
ON-STATE VOLTAGE VS. GATE-SOURCE VOLTAGE (TYPICAL) 20
DRAIN-SOURCE ON-STATE VOLTAGE VDS (ON) (V)
TC = 25°C Pulse Test 16A
16
1.6
VGS = 10V
12
12A
1.2
20V
8
6A
0.8
Limits Min. 600 ±30 — — 2.0 — — — — — — — — — — — — Typ. — — — 3.0 0.80 4.80 8.0 1250 150 55 25 45 250 90 1.5 — Max. — ±10 1 4.0 0.94 5.64 — — — — — — — — 2.0 3.13
DRAIN-SOURCE ON-STATE RESISTANCE rDS (ON) (25°C)
DRAIN-SOURCE ON-STATE RESISTANCE rDS (ON) (t°C)
FORWARD TRANSFER ADMITTANCE VS. DRAIN CURRENT (TYPICAL) 101
7 5 TC = 25°C 75°C 125°C
DRAIN CURRENT ID (A)
FORWARD TRANSFER ADMITTANCE yfs (S)
16
3 2
12
100
0.75 ± 0.15
2.54 ± 0.25
2.54 ± 0.25
4.5 ± 0.2
2.6 ± 0.2
q 10V DRIVE q VDSS ............................................................................... 600V q rDS (ON) (MAX) ............................................................. 0.94Ω q ID ......................................................................................... 12A
(Tch = 25°C)
Test conditions ID = 1mA, VGS = 0V IGS = ±100µA, VDS = 0V VGS = ±25V, VDS = 0V VDS = 600V, VGS = 0V ID = 1mA, VDS = 10V ID = 6A, VGS = 10V ID = 6A, VGS = 10V ID = 6A, VDS = 10V VDS = 25V, VGS = 0V, f = 1MHz
ARY
FL12KM-12A
HIGH-SPEED SWITCHING USE
ELECTRICAL CHARACTERISTICS
Symbol V (BR) DSS V (BR) GSS IGSS IDSS VGS (th) rDS (ON) VDS (ON) yfs Ciss Coss Crss td (on) tr td (off) tf VSD Rth (ch-c) Parameter Drain-source breakdown voltage Gate-source breakdown voltage Gate-source leakage current Drain-source leakage current
GATE-SOURCE VOLTAGE VGS (V)
20
TCh = 25°C ID = 12A
16
16
TC = 25°C 75°C 125°C
12
12
8
4
VDS = 100V 200V 400V
8
4
0
0
20
40
60
80
100
0
0
1.0
2.0
3.0
4.0
5.0
GATE CHARGE Qg (nC)
SOURCE-DRAIN VOLTAGE VSD (V)
5 3 2 tw =10µs
40
101
7 5 3 2 100µs 1ms 10ms
30
20
100
7 5 3 2
10
10–1 TC = 25°C 0 0 50 100 150 200
7 5
Single Pulse
DC
3 5 7 101 2 3 5 7 102 2 3 5 7 103 2 3
CASE TEMPERATURE TC (°C)
Ciss
3 2
103
7 5 3 2 Coss Crss
102
7 5 3 2
102
7 5 3 TCh = 25°C 2 f = 1MHZ VGS = 0V 2 3 5 7 100 2 3 5 7 101 2 3 5 7 102 2
td(on)
101
101 0 10
2
3
5 7 101
2
3
5 7 102
DRAIN-SOURCE VOLTAGE VDS (V)
Unit V V µA mA V Ω V S pF pF pF ns ns ns ns V °C/W
Gate-source threshold voltage Drain-source on-state resistance Drain-source on-state voltage Forward transfer admittance Input capacitance Output capacitance Reverse transfer capacitance Turn-on delay time Rise time Turn-off delay time Fall time Source-drain voltage Thermal resistance
GATE DRAIN SOURCE
TO-220FN
APPLICATION Switch mode power supply, Inverter fluorescent lamp, etc.
MAXIMUM RATINGS
Symbol VDSS VGSS ID IDM IDA PD Tch Tstg Viso —
元器件交易网
MITSUBISHI Nch POWER MOSFET
. ation change. ecific nal sp subject to fi a t o re is is nic limits a e: Th tr Notice parame Som
P
MIN RELI
7 5 3 2 VDS = 10V Pulse Test 2 3 5 7 101 2 3 5 7 102
8
4
0
0
4
8
12
16
20
10-1
100
GATE-SOURCE VOLTAGE VGS (V)
DRAIN CURRENT ID (A)
CAPACITANCE VS. DRAIN-SOURCE VOLTAGE (TYPICAL) 104
DRAIN CURRENT ID (A)
16
DRAIN CURRENT I= 20V 10V 6V 5V
6
8
4
4
4V
2
4V
0
0
4
8
12
16
20
0
0
2
4
6
8
10
DRAIN-SOURCE VOLTAGE VDS (V)
DRAIN-SOURCE VOLTAGE VDS (V) Sep.1998
7 5 3 2
SWITCHING CHARACTERISTICS (TYPICAL) 103
7 5 TCh = 25°C VDD = 200V VGS = 10V RGEN = RGS = 50Ω td(off) tf tr
SWITCHING TIME (ns)
CAPACITANCE Ciss, Coss, Crss (pF)
元器件交易网
MITSUBISHI Nch POWER MOSFET
. ation change. ecific nal sp subject to fi a t o re is is nic limits a e: Th tr Notice parame Som
P
MIN RELI
4
0.4
0
0
4
8
12
16
20
0 0 10
2
3
5 7 101
2
3
5 7 102
GATE-SOURCE VOLTAGE VGS (V)
DRAIN CURRENT ID (A)
TRANSFER CHARACTERISTICS (TYPICAL) 20
TC = 25°C VDS = 50V Pulse Test
(Tc = 25°C)
Parameter Drain-source voltage Gate-source voltage Drain current Drain current (Pulsed) Avalanche drain current (Pulsed) Maximum power dissipation Channel temperature Storage temperature Isolation voltage Weight VGS = 0V VDS = 0V