61082-101中文资料
ESP-101_伊萨中文手册
4.0 操作. .................................................................................................................................. 27
4.1 ESP-101控制装置. .....................................................................................................................................27 4.2 使用ESP-101进行切割. ............................................................................................................................30 4.3 电极消耗. .....................................................................................................................................................30 4.4 相隔距离与切割质量.................................................................................................................................31 4.5 挂渣形成. .....................................................................................................................................................32 4.6 常见切割问题. .............................................................................................................................................33
101系统常用配件一览表
KFD101
台
矿用隔爆兼本质 22 安 全 型 远 程 控 制 KDG-127/3-4 —— 箱 23 主控制模块 24 KTC101-Z -01
双轴制动台手册-BBK
安全
vii
设计规格
8
电气规格 ........................................................................................................................................... 8
硬件连接
37
概述 ................................................................................................................................................. 37 系统硬件 ......................................................................................................................................... 37 系统连接 ......................................................................................................................................... 37 设备电气接线图 .............................................................................................................................38
系统概述
爱特顿保护系统UPS 61082 产品说明说明书
Eaton 61082Eaton Protection Station UPS, USB DIN, 800 VA, 500 W, Ingresso:Schuko, Uscite: (4) Schuko, (4) Schuko solo surge, TowerGeneral specificationsNome prodotto Sigla catalogoUPS Protection Station di Eaton61082EAN Lunghezza/profondità del prodotto3553340610820190 mmAltezza prodotto Larghezza prodotto370 mm220 mmPeso prodotto Conformità4 kg Con marchio CECertificazione/iIEC/EN 62040-1IEC/EN 62040-2CEEAC500 W0,6torreNoContatto di protezione (SCHUKO)161 V284 VEaton UPS Companion (consente lo spegnimento sicuro del sistema, il monitoraggio dei consumi energetici e una facile configurazione delle impostazioni dell’UPS)Sostituibile dall'utenteSigillata, piombo-acido98EU Declaration of Conformity Eaton Protection Station UPSEaton Protection Station UPS - 650/800 VA - Installation and user manual (multiple languages)PotenzaFattore potenza uscita Fattore di formaInclude scheda di rete Connessione di ingresso Tensione di ingresso - min Tensione di uscita - max Compatibilità software Sostituzione batteriaTipo di batteria Efficienza Caratteristiche speciali Compliance information Guide utenteConcept 3 in 1: UPS + protezione da sovratenesione + dispositivo multipresaUn dispositivo per la protezione da sovratensione con elevate prestazioni e omologazione IEC 61643-1 La funzione EcoControl consente di risparmiare fino al 30% dell’energia rispetto agli UPS della generazione precedente8 prese per collegare il PC ele periferiche o le apparecchiature audio/video Protezione della linea datiper garantire che la lineainternet (compresa xDSL)sia protetta dallesovratensioniPorta USB e software per la gestione dell’alimentazionecon standardWindows/Linux/MaxTipo di costruzioneModello indipendenteTensione di uscita - min161 VColoreneroCapacità batteria estesanoRange di tensione in uscita184-264 V (regolabile a 161-284 V)TopologiaofflineProtezione da sovratensioneSìTempo di funzionamento a metà carico 1 minTensione nominale di ingresso230 V predefinita (220/230/240 V)Campo di frequenza di ingresso46-70 HzTensione di ingresso - max284 VTipo di tensioneCAFase (uscita)1Gestione della batteriaBatterie sostituibili, test automatico della batteria, protezione da scarica completa, possibilità di avviamento a freddoFunzione di autospegnimentoSìTemperatura di esercizio - Min0 °CValori nominali VA800 VAContatto di commutazione privo di potenzialeNoPresa(4) Schuko, (4) Schuko solo surgeFase (ingresso)1Contenuto della confezioneCavo di alimentazionecollegatoCavo USBManuale per l’utente in 20lingueIstruzioni per la sicurezzaLivello di rumoreMeno di 25 dB a 1 metroTipo di alimentazione1Grafico runtimeVisualizza il grafico di runtimeInterfaccia utenteLEDQuantità della Batteria1Temperatura di esercizio - Max35 °CTensione230 VLunghezza cavo di ingresso1,5 mIntervallo di temperaturaDa 0°C a 35°C (da 32°F a 95°F)Interfaccia EthernetNoComunicazionePorta USB (conforme a HID), cavo in dotazioneUmidità relativa0 - 85% senza condensaPotenza apparente in uscita800 VAKit di montaggio rackNoN. uscite PC (SCHUKO)8Frequenza di uscita50/60 HzRuntime a pieno carico1 minTipo di interfacciaUSBFrequenza primaria - Min46 HzClassificazione batteria12V / 9AhTipoUPSTensione nominale di uscita230 V predefinita (220/230/240 V)Slot di espansionenoRange di tensione in ingresso184-264 V (regolabile a 161-284 V)Frequenza nominale50/60 HzFrequenza primaria - Max70 HzAltitudine2000 mEaton Corporation plcEaton House30 Pembroke RoadDublin 4, Ireland © 2023 Eaton. Tutti i diritti riservati. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。
5082-N100-0C000中文资料
Features• Low Power Consumption • Industry Standard Size• Industry Standard Pinout • Choice of Character Size7.6 mm (0.30 in), 10 mm (0.40 in), 10.9 mm (0.43 in), 14.2 mm (0.56 in), 20 mm (0.80 in)• Choice of ColorsAlGaAs Red, High Efficiency Red (HER), Yellow, Green• Excellent Appearance Evenly Lighted Segments±50° Viewing Angle• Design FlexibilityCommon Anode or Common CathodeSingle and Dual DigitLeft and Right Hand Decimal Points±1. Overflow Character• Categorized for Luminous IntensityYellow and Green Categorized for ColorUse of Like Categories Yields a Uniform Display• Excellent for Long Digit String Multiplexing DescriptionThese low current seven segment displays are designed for applica-tions requiring low power consumption. They are tested and selected for their excellent low current characteristics to ensure that the segments are matched at low currents. Drive currents as low as 1 mA per segment are available.Pin for pin equivalent displays are also available in a standard current or high light ambient design. The standard current displays are available in all colors and are ideal for most applica-tions. The high light ambient displays are ideal for sunlight ambients or long string lengths. For additional information see the 7.6 mm Micro Bright Seven Segment Displays, 10 mm Seven Segment Displays, 7.6 mm/10.9 mm Seven Segment Displays, 14.2 mm Seven Segment Displays, 20 mm Seven Segment Displays, or High Light Ambient Seven Segment Displays data sheets.Low Current Seven SegmentDisplays Technical Data HDSP-335x SeriesHDSP-555x SeriesHDSP-751x SeriesHDSP-A10x Series HDSP-A80x Series HDSP-A90x Series HDSP-E10x Series HDSP-F10x Series HDSP-G10x Series HDSP-H10x Series HDSP-K12x, K70x Series HDSP-N10x SeriesHDSP-N40x SeriesDevicesAlGaAs HER Yellow Green Package HDSP-HDSP-HDSP-HDSP-Description Drawing A1017511A801A9017.6 mm Common Anode Right Hand Decimal A A1037513A803A9037.6 mm Common Cathode Right Hand Decimal B A1077517A807A9077.6 mm Common Anode ±1. Overflow C A1087518A808A9087.6 mm Common Cathode ±1. Overflow D F10110 mm Common Anode Right Hand Decimal E F10310 mm Common Cathode Right Hand Decimal F F10710 mm Common Anode ±1. Overflow G F10810 mm Common Cathode ±1. Overflow H G10110 mm Two Digit Common Anode Right Hand Decimal X G10310 mm Two Digit Common Cathode Right Hand Decimal Y E100335010.9 mm Common Anode Left Hand Decimal I E101335110.9 mm Common Anode Right Hand Decimal J E103335310.9 mm Common Cathode Right Hand Decimal K E106335610.9 mm Universal ±1. Overflow[1]L H101555114.2 mm Common Anode Right Hand Decimal M H103555314.2 mm Common Cathode Right Hand Decimal N H107555714.2 mm Common Anode ±1. Overflow O H108555814.2 mm Common Cathode ±1. Overflow P K121K70114.2 mm Two Digit Common Anode Right Hand Decimal R K123K70314.2 mm Two Digit Common Cathode Right Hand Decimal S N10020 mm Common Anode Left Hand Decimal Q N101N40120 mm Common Anode Right Hand Decimal T N103N40320 mm Common Cathode Right Hand Decimal U N10520 mm Common Cathode Left Hand Decimal V N106N40620 mm Universal ±1. Overflow[1]W Note:1. Universal pinout brings the anode and cathode of each segment’s LED out to separate pins. See internal diagrams L or W.Part Numbering System5082-x xx x-x x x xxHDSP-x xx x-x x x xxMechanical Options[1]00: No mechanical optionColor Bin Options[1,2]0: No color bin limitationMaximum Intensity Bin[1,2]0: No maximum intensity bin limitationMinimum Intensity Bin[1,2]0: No minimum intensity bin limitationDevice Configuration/Color[1]G: GreenDevice Specific Configuration[1]Refer to respective datasheetPackage[1]Refer to Respective datasheetNotes:1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearest Agilent representative fordetails.2. Bin options refer to shippable bins for a part-number. Color and Intensity Bins are typically restricted to 1 bin per tube (excep-tions may apply). Please refer to respective datasheet for specific bin limit information.Package DimensionsPackage Dimensions (cont.)Package Dimensions (cont.)*The Side View of package indicates Country of Origin.Package Dimensions (cont.)Package Dimensions (cont.)Package Dimensions (cont.)Internal Circuit DiagramInternal Circuit Diagram (cont.)Absolute Maximum RatingsAlGaAs Red - HDSP-HERA10X/E10X/H10X HDSP-751X/Yellow GreenK12X/N10X/N40X335X/555X/HDSP-A80X HDSP-A90X Description F10X, G10X Series K70X Series Series Series Units Average Power per Segment or DP375264mW Peak Forward Current per 45mA Segment or DPDC Forward Current per15[1]15[2]mA Segment or DPOperating Temperature Range-20 to +100-40 to +100°C Storage Temperature Range -55 to +100°C Reverse Voltage per Segment 3.0V or DPWave Soldering Temperature for 3Seconds (1.60 mm [0.063 in.] below 250°C seating body)Notes:1. Derate above 91°C at 0.53 mA/°C.2. Derate HER/Yellow above 80°C at 0.38 mA/°C and Green above 71°C at 0.31 mA/°C.Electrical/Optical Characteristics at T A = 25°CAlGaAs RedDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions315600I F = 1 mA A10x3600I F = 5 mA330650I F = 1 mAF10x, G10x3900I F = 5 mA390650I F = 1 mA E10x Luminous Intensity/Segment[1,2]I Vµcd(Digit Average)3900I F = 5 mA400700I F = 1 mAH10x, K12x4200I F = 5 mA270590I F = 1 mAN10x, N40x3500I F = 5 mA1.6I F = 1 mAForward Voltage/Segment or DP V F 1.7V I F = 5 mA1.82.2I F = 20 mA PkAll Devices Peak WavelengthλPEAK645nmDominant Wavelength[3]λd637nmReverse Voltage/Segment or DP[4]V R 3.015V I R = 100 µATemperature Coefficient of∆V F/°C-2 mV mV/°CV F/Segment or DPA10x255F10x, G10x320E10x340Thermal Resistance LED RθJ-PIN°C/W/SegH10x, K12x Junction-to-Pin400N10x, N40x430High Efficiency RedDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions160270I F = 2 mA 751x1050I F = 5 mA200300I F = 2 mA Luminous Intensity/Segment[1,2]I V mcd(Digit Average)1200I F = 5 mA335x, 555x,K70x270370I F = 2 mA1480I F = 5 mA1.6I F = 2 mAForward Voltage/Segment or DP V F 1.7V I F = 5 mA2.1 2.5I F = 20 mA Pk All Devices Peak WavelengthλPEAK635nmDominant Wavelength[3]λd626nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DP751x200335x Thermal Resistance LED RθJ-PIN280°C/WJunction-to-Pin555x, K70x345YellowDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2]250420I F = 4 mA(Digit Average)I V mcd1300I F = 10 mA1.7I F = 4 mAForward Voltage/Segment or DP V F 1.8V I F = 5 mA A80x2.1 2.5I F = 20 mA PkPeak WavelengthλPEAK583nmDominant Wavelength[3,5]λd581.5585592.5nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN200°C/WJunction-to-PinGreenDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2]250475I F = 4 mA(Digit Average)I V mcd1500I F = 10 mA1.9I F = 4 mAForward Voltage/Segment or DP V F 2.0V I F = 10 mA A90x2.1 2.5I F = 20 mA PkPeak WavelengthλPEAK566nmDominant Wavelength[3,5]λd571577nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN200°C/WJunction-to-PinNotes:1. Device case temperature is 25°C prior to the intensity measurement.2. The digits are categorized for luminous intensity. The intensity category is designated by a letter on the side of the package.3. The dominant wavelength, λd, is derived from the CIE chromaticity diagram and is the single wavelength which defines the color of thedevice.4. Typical specification for reference only. Do not exceed absolute maximum ratings.5. The yellow (HDSP-A800) and Green (HDSP-A900) displays are categorized for dominant wavelength. The category is designated by anumber adjacent to the luminous intensity category letter.AlGaAs RedIntensity Bin Limits (mcd)AlGaAs RedHDSP-A10xIV Bin Category Min.Max.E0.3150.520F0.4280.759G0.621 1.16H0.945 1.71I 1.40 2.56J 2.10 3.84K 3.14 5.75L 4.708.55HDSP-E10x/F10x/G10xIV Bin Category Min.Max.D0.3910.650E0.5320.923F0.755 1.39G 1.13 2.08H 1.70 3.14HDSP-H10x/K12xIV Bin Category Min.Max.C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50HDSP-N10xIV Bin Category Min.Max.A0.2700.400B0.3250.500C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50Intensity Bin Limits (mcd), continued HERHDSP-751xIV Bin Category Min.Max.B0.1600.240C0.2000.300D0.2500.385E0.3150.520F0.4280.759G0.621 1.16HDSP-751xIV Bin Category Min.Max.B0.2400.366C0.3000.477D0.3910.650E0.5320.923F0.755 1.39G 1.13 2.08H 1.70 3.14HDSP-555x/K70xIV Bin Category Min.Max.A0.2700.400B0.3250.500C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50Intensity Bin Limits (mcd), continued YellowHDSP-A80xIV Bin Category Min.Max.D0.2500.385E0.3150.520F0.4250.760G0.625 1.14H0.940 1.70I 1.40 2.56J 2.10 3.84K 3.14 5.76L 4.718.64M7.0713.00N10.6019.40O15.9029.20P23.9043.80Q35.8065.60GreenHDSP-A90xIV Bin Category Min.Max.E0.3150.520F0.4250.760G0.625 1.14H0.940 1.70I 1.40 2.56J 2.10 3.84K 3.14 5.76L 4.718.64M7.0713.00N10.6019.40O15.9029.20P23.9043.80Q35.8065.60Electrical/OpticalFor more information on electrical/optical characteristics, please see Application Note 1005.Contrast Enhancement For information on contrast enhancement, please see Application Note 1015.Soldering/Cleaning Cleaning agents from the ketone family (acetone, methyl ethyl ketone, etc.) and from the chorinated hydrocarbon family (methylene chloride, trichloro-ethylene, carbon tetrachloride, etc.) are not recommended for cleaning LED parts. All of these various solvents attack or dissolve the encapsulating epoxies used to form the package of plastic LED parts.For information on soldering LEDs, please refer to Application Note 1027.Note:All categories are established for classification of products. Productsmay not be available in all categories. Please contact your localAgilent representatives for further clarification/information.Color Categories/semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(916) 788 6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6271 2451India, Australia, New Zealand: (+65) 6271 2394Japan: (+81 3) 3335-8152(Domestic/International), or0120-61-1280(Domestic Only)Korea: (+65) 6271 2194Malaysia, Singapore: (+65) 6271 2054Taiwan: (+65) 6271 2654Data subject to change.Copyright © 2005 Agilent Technologies, Inc.Obsoletes 5988-8412ENJanuary 19, 20055989-0080EN。
巴斯夫原油破乳剂Basorol L 101安全技术说明书
安全技术说明书页: 1/9 巴斯夫安全技术说明书按照GB/T 16483编制日期 / 本次修订: 18.12.2021版本: 4.2日期/上次修订: 07.10.2019上次版本: 4.1日期 / 首次编制: 19.11.2007产品: 原油破乳剂 Basorol L 101Product: Basorol® L 101(30434591/SDS_GEN_CN/ZH)印刷日期 01.08.20231. 化学品及企业标识原油破乳剂 Basorol L 101Basorol® L 101推荐用途和限制用途: 油田用特性化学品公司:巴斯夫(中国)有限公司中国上海浦东江心沙路300号邮政编码 200137电话: +86 21 20391000传真号: +86 21 20394800E-mail地址: **********************紧急联络信息:巴斯夫紧急热线中心(中国)+86 21 5861-1199巴斯夫紧急热线中心(国际):电话: +49 180 2273-112Company:BASF (China) Co., Ltd.300 Jiang Xin Sha RoadPu Dong Shanghai 200137, CHINA Telephone: +86 21 20391000Telefax number: +86 21 20394800E-mail address: ********************** Emergency information:Emergency Call Center (China):+86 21 5861-1199International emergency number: Telephone: +49 180 2273-1122. 危险性概述纯物质和混合物的分类:根据 GHS 标准,该产品不需要进行分类。
巴斯夫安全技术说明书日期 / 本次修订: 18.12.2021版本: 4.2产品: 原油破乳剂 Basorol L 101Product: Basorol® L 101(30434591/SDS_GEN_CN/ZH)印刷日期 01.08.2023标签要素和警示性说明:根据GHS标准,该产品不需要添加危险警示标签其它危害但是不至于归入分类:注意有关存储和操作的规定或注解,无已知特殊危害。
IL101 AI二路采集控制网关 使用说明书
IL101AI二路采集控制网关使用说明书2019.03注意事项与维护1、注意事项-请勿带电插拔核心板及外围模块!-请遵循所有标注在产品上的警示和指引信息。
-请保持本产品干燥。
如果不慎被任何液体泼溅或浸润,请立刻断电并充分晾干。
-使用中注意本产品的通风散热,避免温度过高造成元器件损坏。
-请勿在多尘、脏乱的环境中使用或存放本产品。
-请勿将本产品应用在冷热交替环境中,避免结露损坏元器件。
-请勿粗暴对待本产品,跌落、敲打或剧烈晃动都可能损坏线路及元器件。
-请勿使用有机溶剂或腐蚀性液体清洗本产品。
-请勿自行修理、拆卸本公司产品,如产品出现故障请及时联系本公司进行维修。
-擅自修改或使用未经授权的配件可能损坏本产品,由此造成的损坏将不予以保修。
2、售后维修如产品使用过程中出现硬件故障可根据售后服务政策进行维修;地址:广东省深圳市福田区天安数码城创新科技广场二期西座1905联系人:售后维修部电技术支持与定制1、技术支持范围1.1本公司产品的软、硬件资源提供情况咨询;1.2本公司产品的软、硬件手册使用过程中遇到的问题;1.3本公司提供的OEM、ODM售后技术支持;1.4本公司产品的故障判断及售后维修服务。
2、技术支持方式3.1目录注意事项与维护 (2)1、注意事项 (2)2、售后维修 (2)技术支持与定制 (3)1、技术支持范围 (3)2、技术支持方式 (3)第一章整机简介 (1)第二章技术参数 (2)第三章接口说明 (3)第四章硬件参数 (5)第五章软件功能 (6)第六章外形尺寸 (7)第一章整机简介IL101控制单元基于ARM Cortex-A7架构,以NXP(原Freescale)i.MX6UltraLite处理器为核心,采用全工业级元器件,完全按照工业标准设计制造,具备完善的接口防护功能和电气隔离措施,可以在恶劣环境中长期稳定运行。
该产品特点如下:●采用NXP(原Freescale)i.MX6UltraLite处理器,高性能、低功耗、高可靠性●核心模块所有元器件达到工业级-40至85℃温度范围●CPU本身支持ISO7816协议,可直接与国家电网ESAM/PSAM模块通信●内置超级电容,断电后至少可维持系统正常运行15秒,确保交易信息不丢失●采用模块化设计,可迅速针对客户的个性化需求提供私人定制服务●4路DI、4路DO,2路485、2路CAN,均采用电气隔离和接口保护,安全可靠●可通过SD卡升级系统,无需拆卸外壳,简单方便●宽电压范围,可在9至15V范围内安全可靠运行,且内置超级电容,无惧电压波动●采用铝合金型材外壳,带耳体积仅147×103×42mm,体积小巧、外形美观、安装方便●全面的状态指示灯,令系统运行、网络通讯、接口连接……所有状况一目了然●通讯方式多样,板载百兆网口、蓝牙和Wi-Fi、4G(或GPRS)模块●标准DB9调试串口●标准SD卡插槽,支持SD、SDHC和SDXC卡,最大实测容量64G,方便扩充本地存储空间●标准3.5mm立体声耳机接口,内置话筒,亦可增设1W×2喇叭或3.5mm单声道话筒接口第二章技术参数第三章接口说明●上方偏左是4G/GPRS状态指示灯●8位3.81mm间距绿端子包含4个接口,从左到右分别为:RS-485-1、RS-485-2、CAN1、CAN2这些接口都是与CPU电气隔离的,每位端子的功能均由端子上方的字符标识出来。
说明-9210使用说明书
您好,尊敬的用户。
衷心感谢您选择了NAS-9210系列保护测控装置。
这款精心设计而成的NAS-9210系列保护测控装置以适合国内电网的运行特点为目的,以技术创新为基础提高了产品运行的稳定性、可靠性、灵敏性以及装置使用的易操作性。
该系列产品数据采集模块采用高性能CPU器件有效地加快了数据处理速度,既能满足保护的实时性的要求,又可满足测量高精度的要求;主处理器采用32位高性能多CPU架构,使得保护的处理和能力十分强大,能够实时响应,提高了暂态保护的性能;装置显示部分应用了更加友好的视窗式人机对话模式;在通信网络搭建中实现了现场总线网的使用,支持双网通信。
在仔细阅读了这本用户手册之后,您将对NAS-9210系列保护测控装置操作使用方面有了全面的学习。
与此同时您将进一步体会本系列保护测控装置的全新特点:全中文窗体式的人机对话平台首开工业化视窗的人性化发展,菜单操作简单便捷;定值修改方便快捷、事件记录记载详细等等。
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南京钛能电气研究所南京南自电力控制系统工程公司目录前言安全注意事项 (1)装置上电前接线检查 (1)装置上电前电源检查 (1)产品型号校对 (1)禁止带电拔插装置插件 (1)禁止随意进行出口传动操作 (1)NAS-9210系列综合保护装置 (2)NAS-9210系列综合保护装置布置示意图 (2)显示器 (3)键盘 (3)指示灯 (3)其他电气组件 (3)其他物理构件 (5)菜单使用指南 (7)1.按键的通用定义 (7)2.主运行窗口 (7)3.主窗口运行方式下的快捷方式 (8)4.主菜单窗口 (9)4.1 定值区号切换菜单 (9)4.2 保护定值整定菜单 (9)4.3 保护信息查看菜单 (10)4.3.1保护信息 (10)4.3.2事件查询 (10)4.4实用调试工具菜单 (10)14.4.1测量量窗口 (10)4.4.2遥信量窗口 (10)4.4.3保护量窗口 (10)4.4.4传动 (11)4.4.5全遥信 (11)4.5 控制面板菜单 (11)4.5.1通讯参数 (11)4.5.2日期时间 (12)4.5.3屏幕保护 (12)4.5.4权限密码 (12)4.5.5对时方式 (13)4.6 工程参数菜单 (14)4.6.1现场参数 (14)4.6.2功率测量方式 (14)4.6.3CT额定电流 (14)4.7 厂家设置菜单 (15)4.8 帮助窗口菜单 (15)4.8.1帮助信息 (15)4.8.2版本信息 (15)4.8.3技术支持 (15)注意:产品的型号、功能、配置可能由于软件版本升级有所改变,请注意最新版本资料。
施 2
施工组织设计编制单位:重庆柳菁爱国立责任有限公司编制人:120审核人:时间:2014年4月25日目录页一、编制依据本工程建筑施工将严格执行我公司企业标准中技术标准的各项规定及质量控制体系,依据下列文件、资料、规程、规范对各项工艺及施工质量进行控制。
1.1制造厂设备安装,使用说明书;1.2国家有关部门颁布的规程、规范:1.1.1《屋面工程技术规范》GB50207-941.1.2《地下工程防水技术规范》GB50108-20011.1.3《建筑结构荷载规范》GB500009-20011.1.4《砌体工程施工质量验收规范》GB50203-20021.1.5《混凝土结构工程施工质量验收规范》GB50204-2002 1.1.6《屋面工程质量验收规范》GB50207-20021.1.7《建筑地面工程施工质量验收规范》GB50209-2002 1.1.8《地下防水工程施工质量验收规范》GB50208-2002 1.1.9《建筑装饰装修工程施工质量验收规范》GB50210-2001 1.1.10《建筑施工安全检查标准》JGJ 59-991.1.11《施工企业安全生产评价标准》JGJ/T77-20031.1.12《建筑施工脚手架安全技术规范》JGJ 128-20011.1.13《建筑施工高处作业安全技术规范》JGJ80-911.1.14《建筑机械使用安全技术规程》JGJ33-20011.1.15《施工现场临时用电安全技术规范》JGJ46-20051.1.16《建筑工程施工限产供用电安全规范》GB 50194-93二、工程概况工程名称:山与城B区建设单位:重庆朗福置业有限公司建设地点:重庆市南岸区黄桷垭组团C标准分区,净用地面积61061.00㎡。
本工程本次设计由1个组团组成主要由27栋2,3,4,5层一类低层住宅,1栋1层二楼商业配套,以及地下车库,分别围合而成,总建筑面积:86794.08㎡,其中地上建筑面积:63546.41㎡,地下建筑面积:23247.67㎡,总户数:354,总居住人数:1133。
北京四方CSC-101C(101D)说明书(0SF.451.042)_V1.00
2.1 环境条件 ................................................................................................................... 4 2.2 额定参数 ................................................................................................................... 4 2.3 电气绝缘性能 ........................................................................................................... 4 2.4 机械性能 ................................................................................................................... 5 2.5 电磁兼容性 ............................................................................................................... 5 2.6 安全性能 ................................................................................................................... 6 2.7 热性能(过载能力) ............................................................................................... 6 2.8 功率消耗 ................................................................................................................... 6 2.9 输出触点容量 ........................................................................................................... 6 2.10 技术参数 ................................................................................................................... 6
10KV中压开关柜电气设备规格书
山东天弘化学有限公司9万吨/年甲基丙烯酸甲酯及其配套工程项目10KV中压开关柜电气设备规格书A1073A0-160000-001编制:李强校对:李璐审核:2012年11月目录1适用范围 (3)2总结 (3)3规格规范 (3)3.1国家标准 (3)3.2国际标准 (3)4技术条件及要求 (4)4.1使用条件 (4)4.2技术要求 (4)4.3主开关设备及元器件 (6)4.4保护、测量和指示 (7)4.5仪用互感器 (8)4.6其它要求 (8)5检查和试验 (8)6防腐 (8)7铭牌和标牌 (8)8供方责任 (8)9供方文件 (9)10包装、运输 (10)11其它 (10)1适用范围本规格书为山东天弘化学有限公司9万吨/年甲基丙烯酸甲酯及其配套工程项目交流10KV、户内金属铠装置型、手车式中压开关柜设计、选材、制造、检验和试验的最基本要求。
2总结2.1本规格书与相关法规、标准、数据表、图纸等之间的任何矛盾应在工程实施阶段由需方负责澄清。
2.2本规格书并未对一切技术细节做出规定,也为充分引述相关规范和标准的条文,故在具体工程实施阶段,应要求供方根据工程的实际情况及国家新标准、规范提供优质产品。
2.3本规格书所列标准、规范如与供方所执行的标准不一致时,应按较高标准执行,且供方应充分描述本设计与相关法规的不同点。
2.4供方应提供需方要求的全部资料和数据,不应用假设条件及未经试验的数据来掩盖产品参数的缺陷。
2.5应按照相关的标准,包括:IEC标准、国家标准以及行业标准对交流10KV开关柜进行制造、检验、试验、包装运输、安装、调试和运行。
2.6为确保设备的正确安装、操作及维修,供方应提供所有必需附加的设备、专用工具和附件及其清单,即使这些设备和工具在相关资料中没有列出。
2.7 10KV开关柜柜应是经过法定机关检验合格的并经过运行实践考验性的、性能优良、技术先进、价格合理的成熟产品,而不应是试制品或不成熟的产品。
HZXC-101 手动操作箱 使用手册说明书
HZXC-101手动操作箱使用手册武汉市合众电气设备制造有限公司尊敬的顾客感谢您使用本公司的产品。
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本产品除通过电源线接地导线接地外,产品外壳的接地柱必须接地。
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TPS61080DRCR中文资料
FEATURES DESCRIPTIONAPPLICATIONSTYPICAL APPLICATIONGNDLVINSSFBTOPVIEW10-PIN3mmx 3mmx 1mmQFNin5C14.L1:TDKVLCF52C1:Mu r a t aGRM18C2:Mu r a t aGRM21TPS61080TPS61081SLVS644B–FEBRUARY2006–REVISED JANUARY2007 HIGH VOLTAGE DC/DC BOOST CONVERTER WITH0.5-A/1.3-A INTEGRATED SWITCH• 2.5-V to6-V Input Voltage Range The TPS61080/1is a 1.2MHz/600kHz fixedfrequency boost regulator designed for high •Up to27-V Output Voltageintegration,which integrates a power switch,an •0.5-A Integrated Switch(TPS61080)input/output isolation switch and a power diode.1.3-A Integrated Switch(TPS61081)When a short circuit condition is detected,the •12V/400mA and24V/170mA From5-V Input isolation switch opens up to disconnect the output (TYP)from the input.As a result,the IC protects itself andthe input source from any pin,except VIN,from •Integrated Power Diodebeing shorted to ground.The isolation switch also • 1.2-MHz/600-kHz Selectable Fixed Switching disconnects the output from input during shutdown toFrequency prevent any leakage current.Other provisions for •Input to Output Isolation protection include0.5A/1.3A peak-to-peak overcurrent protection,programmable soft start(SS),•Short-Circuit Protectionover voltage protection(OVP),thermal shutdown and •Programmable Soft Start under voltage lockout(UVLO).•Overvoltage ProtectionThe IC operates from input supplies including single •Up to87%Efficiency Li-ion battery,triple NiMH,and regulated5V,such as•10-Pin3mm×3mm QFN Package USB output.The output can be boosted up to27V.TPS61080/1can provide the supply voltages ofOLED,TFT-LCD bias,12V and24V power rails.Theoutput of TPS61080/1can also be configured as a • 3.3V to12V,5V to12V and24V Boostcurrent source to power up to7WLED in flash light Converterapplications.•White LED Backlight for Media Form FactorDisplayORDERING INFORMATION •OLED Power SupplyT A OVERCURRENT PACKAGE PACKAGE •xDSL Applications LIMIT MARKING•TFT-LCD Bias Supply0.5A(min)TPS61080DRCR BCN•White LED Flash Light 1.3A(min)TPS61081DRCR BCO–40°Cto85°C0.5A(min)TPS61080DRCT BCN1.3A(min)TPS61081DRCT BCOFigure1.5V to12V,250mA Step-Up DC/DCConverterPlease be aware that an important notice concerning availability,standard warranty,and use in critical applications of TexasInstruments semiconductor products and disclaimers thereto appears at the end of this data sheet.PowerPAD is a trademark of Texas Instruments.PRODUCTION DATA information is current as of publication date.Copyright©2006–2007,Texas Instruments Incorporated Products conform to specifications per the terms of the TexasInstruments standard warranty.Production processing does notnecessarily include testing of all parameters.C2L1TPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007TERMINAL FUNCTIONSTERMINALI/O DESCRIPTION NAMENO.The inductor is connected between this pin and the SW pin.This pin connects to the source of the L1I isolation FET as well.Minimize trace area at this pin to reduce EMI.Input pin to the IC.It is the input to the boost regulator,and also powers the IC circuit.It is connected to VIN2I the drain of the isolation FET as well.Enable pin.When the voltage of this pin falls below enable threshold for more than 74ms,the IC turns off EN6I and consumes less than 2µA current.GND4Signal ground of the IC Power ground of the IC.It is connected to the source of the PWM switch.This pin should be made very PGND8close to the output capacitor in layout.Voltage feedback pin for the output regulation.It is regulated to an internal reference voltage.An external FB5I voltage divider from the output to GND with the center tap connected to this pin programs the regulated voltage.This pin can also be connected to a low side current sense resistor to program current regulation.Output of the boost regulator.When the output voltage exceeds the 27V overvoltage protection (OVP)OUT9O threshold,the PWM switch turns off until Vout drops 0.7V below the overvoltage threshold.SW10I Switching node of the IC.Connect the inductor between this pin and the L pin.SS3I Soft start programming pin.A capacitor between the SS pin and GND pin programs soft start timing.Switching frequency selection pin.Logic high on the pin selects 1.2MHz,while logic low reduces the FSW7I frequency to 600KHz for better light load efficiency.The thermal pad should be soldered to the analog ground.If possible,use thermal via to connect toThermal Pad –ground plane for ideal power dissipation.FUNCTIONAL BLOCK DIAGRAM2Submit Documentation FeedbackABSOLUTE MAXIMUM RATINGSDISSIPATION RATINGSRECOMMENDED OPERATING CONDITIONS ELECTRICAL CHARACTERISTICSTPS61080TPS61081 SLVS644B–FEBRUARY2006–REVISED JANUARY2007over operating free-air temperature range(unless otherwise noted)(1)VALUE UNIT Supply Voltages on pin VIN(2)–0.3to7V Voltages on pins EN,FB,SS,L and FSW(2)–0.3to7V Voltage on pin OUT(2)30V V Voltage on pin SW(2)30V V Continuous Power Dissipation See Dissipation Rating TableOperating Junction Temperature Range–40to150°C Storage Temperature Range–65to150°C Lead Temperature(soldering,10sec)260°C(1)Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device.These are stress ratingsonly,and functional operation of the device at these or any other conditions beyond those indicated under recommended operating conditions is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.(2)All voltage values are with respect to network ground terminal.T A≤25°C T A=70°C T A=85°C PACKAGEθJCθJA POWER RATING POWER RATING POWER RATINGQFN(1) 3.21°C/W270°C/W370mW204mW148mWQFN(2) 3.21°C/W48.7°C/W 2.05W 1.13W821mW(1)Soldered PowerPAD™on a standard2-layer PCB without vias for thermal pad(2)Soldered PowerPAD on a standard4-layer PCB with vias for thermal padover operating free-air temperature range(unless otherwise noted)MIN NOM MAX UNIT VIN Input voltage range 2.5 6.0V VOUT Output voltage range VIN27VL Inductor(1) 4.710µH C in Input capacitor(1)1µF C OUT Output capacitor(1) 4.7µF T A Operating ambient temperature–4085°CT J Operating junction temperature–40125°C(1)Refer to application section for further informationVIN=3.6V,EN=VIN,TA =–40°C to85°C,typical values are at TA=25°C(unless otherwise noted)PARAMETER TEST CONDITIONS MIN TYP MAX UNIT SUPPLY CURRENTVIN Input voltage range 2.5 6.0VI Q Operating quiescent current into VIN Device switching no load6mAI SD Shutdown current EN=GND1µAV UVLO Under-voltage lockout threshold VIN falling 1.65 1.8VV hys Under-voltage lockout hysterisis50mV ENABLEEnable level voltage VIN=2.5V to6V 1.2V EN V Disable level voltage VIN=2.5V to6V0.4R en Enable pull down resistor4008001600kΩT off EN pulse width to disable EN high to low74ms3Submit Documentation FeedbackTPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007ELECTRICAL CHARACTERISTICS (continued)VIN =3.6V,EN =VIN,T A =–40°C to 85°C,typical values are at T A =25°C (unless otherwise noted)PARAMETERTEST CONDITIONS MIN TYP MAX UNIT SOFT STARTT A =25°C 4.755 5.25I ssSoft start bias current µA 4.65 5.4V clpSS pin to FB pin accuracy Vss =500mV 487500513mV FEEDBACK FB I FBFeedback input bias current V FB =1.229V –100100nA V FB Feedback regulation voltage1.204 1.229 1.254V POWER SWITCH AND DIODE Isolation MOSFET on-resistance0.060.1ΩR DS(ON)V IN =VGS =3.6V 0.170.22N-channel MOSFET on-resistance ΩV IN =VGS =2.5V 0.20.32I LN_NFETN-channel leakage current V DS =28V 12µA V FPower diode forward voltage Id =1A 0.851V I LN_ISO Isolation FET leakage current L pin to ground1µA OC AND SC TPS61080,FSW =High or FSW =Low0.50.7 1.0I LIM N-Channel MOSFET current limit (1)A TPS61081,FSW =High or FSW =Low1.3 1.62.0TPS610801.02.2I SC Short circuit current limit A TPS61081 2.03.5T scd Short circuit delay time 13µs T scr Short circuit release time 57ms V SC OUT short detection threshold (2)VIN –VOUT1.4V OSCILLATOR FSW pin high1.0 1.2 1.5f S Oscillator frequency MHz FSW pin low0.50.60.7D max Maximum duty cycle FB =1.0V 90%94%D min Minimum duty cycle 5%R fsw FSW pin pull down resistance 4008001600k ΩFSW high logic 1.6V FSW V FSW low logic 0.8OVP Output overvoltage protection Vout rising272829V Vovp Output overvoltage protection hysteresis Vout falling 0.7V THERMAL SHUTDOWN T shutdown Thermal shutdown threshold 160°C T hysteresisThermal shutdown threshold hysteresis 15°C (1)VIN =3.6V,Vout =15V,Duty cycle =76%.See Figure 6to Figure 9for other operation conditions.(2)OUT short circuit condition is detected if OUT for 2ms after IC enables.4Submit Documentation Feedback TYPICAL CHARACTERISTICS405060708090100050I- O u t p u t C u r r e n t - m A O E f f i c i e n c y - %5 V .6 V 405060708090100050100I - O u t p u t C u r r e n t - m A O E f f i c i e n c y - %.6 V 25 V TPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007Table of GraphsFIGUREEfficiency Vs Iout,VIN=3.6V OUT=12V,15V,20V,25V,FSW=HIGH,L=4.7µH2Vs Iout,VIN=3.6V OUT=12V,15V,20V,25V,FSW=LOW,L=10µH3Vs Iout,VIN=3V,3.6V,5V,OUT=12V,FSW=HIGH,L=4.7µH4Vs Iout,VIN=3V,3.6V,5V,OUT=12V,FSW=LOW,L=10µH5Overcurrent LimitVIN=3.0V,3.6V,5V,FSW=High/Low 6,7,8,9Line RegulationTPS61081,VIN=2.5V to 6V,OUT=12V,Iout=100mA 10Load RegulationTPS61081,VIN=3.6V,OUT=12V 11Soft StartTPS61081,VIN=3.6V,OUT=12V,Iout=150mA,FSW=HIGH,Css=47nF 12OUT SC ProtectionTPS61081,VIN=3.6V,OUT=12V,Iout=150mA,FSW=HIGH 13Transient ResponseTPS61080,VIN=3.6V,OUT=12V,Iout=10mA to 60mA,Cff=33pF,L=10µH 14TPS61081,VIN=3.6V,OUT=12V,Iout=25mA to 150mA,Cff=33pF,L=4.7µH 15Input and Output RippleTPS61081,VIN=3.6V,OUT=12V,Iout=150mA 16OVPTPS61080/117SS to FB accuracyTPS61080/118Minimum Load Requirement TPS61080/1,VIN =3.6V and 5V,FSW =HIGH,L=4.7µH19EFFICIENCY (TPS61081FSW=HIGH)EFFICIENCY (TPS61081FSW=LOW)vs vs OUTPUT CURRENT OUTPUT CURRENTFigure 2.Figure 3.5Submit Documentation Feedback70100050100150200250300350I - Output Current - mA O E f f i c i e n c y - %30405060708090100050100150200250300350I - Output Current - mAO E f f i c i e n c y - %0.20.40.60.812030405060708090Duty Cycle - %C u r r e n t L i m i t -A00.20.40.60.812030405060708090Duty Cycle - %C u r r e n t L i m i t -ATPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007EFFICIENCY (TPS61081FSW=HIGH)EFFICIENCY (TPS61081FSW=LOW)vs vs OUTPUT CURRENTOUTPUT CURRENT Figure 4.Figure 5.OVER CURRENT LIMIT (TPS61080FSW=LOW)OVER CURRENT LIMIT (TPS61080FSW=HIGH)vs vs DUTY CYCLEDUTY CYCLEFigure 6.Figure 7.6Submit Documentation Feedback 00.400.801.201.602Duty Cycle - %C u r r e n t L i m i t -A 00.400.801.201.6022030405060708090Duty Cycle - %C u r r e n t L i m i t -A 2.53 3.54 4.555.56V - Input Voltage - V I 12.2112.2212.2312.2412.2512.2612.2712.2812.29V - O u t p u t V o l t a g e - V O 12.2012.2212.2412.2612.2812.3012.3200.050.100.150.200.250.30I - Output Current -AO V - O u t p u t V o l t a g e - V O TPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007OVER CURRENT LIMIT (TPS61081FSW=LOW)OVER CURRENT LIMIT (TPS61081FSW=HIGH)vs vs DUTY CYCLEDUTY CYCLEFigure 8.Figure 9.LINE REGULATION TPS61081LOAD REGULATION TPS61081Figure 10.Figure 11.7Submit Documentation FeedbackInput Current500mA/div, DCOUT10V/div, DCSS2V/div, DCInductor Current500mA/div, DCt - Time - 4 ms/div Input Current 2A/div, DC SW 10V/div, DC OUT 10V/div, DC L 5V/div, DCt - Time - 10s/divm OUT100 mV/div,AC Output Current50 mA/div, DCt - Time - 400s/div m OUT 200 mV/div,ACOutput Current 100 mA/div, DC t - Time - 400s/divm OUT 1 V/div, DC 27 V Offset SW20 V/div, DCInductor Current 1A/div, DCt - Time - 20 ns/div OUT50 mV/div,ACVIN50 mV/div,AC SW10 V/div, DCInductor Current 500 mA/div, DCt - Time - 400 ns/divTPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007Soft Start TPS61081Vout SC PROTECTION TPS61081Figure 12.Figure 13.TRANSIENT RESPONSE TPS61080TRANSIENT RESPONSE TPS61081Figure 14.Figure 15.INPUT AND OUTPUT RIPPLE TPS61081OVP TPS61081Figure 16.Figure 17.8Submit Documentation Feedback 00.300.600.901.201.5000.300.600.901.20 1.50SS - Voltage - V F B - V o l t a g e - V 00.40.60.81.46789101112V - Output Voltage - V O I - O u t p u t C u r r e n t - m A O TPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007SS TO FB ACCURACY TPS61080MINIMUM LOAD REQUIREMENT TPS61081Figure 18.Figure 19.9Submit Documentation FeedbackDETAILED DESCRIPTIONOPERATIONSTART UPOVERCURRENT AND SHORT CIRCUIT PROTECTIONTPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007TPS61080/1is a highly integrated boost regulator for up to 27V output.In addition to the on-chip 0.5A/1.2A PWM switch and power diode,this IC also builds in an input side isolation switch as shown in the block diagram.One common issue with conventional boost regulator is the conduction path from input to output even when PWM switch is turned off.It creates three problems,inrush current during start up,output leakage voltage under shutdown,and unlimited short circuit current.To address these issues,TPS61080/1turns off the isolation switch under shutdown mode and short circuit condition to eliminate any possible current path.Although the isolation switch has low R DS(on)for small power losses,shorting the VIN and L pin can bypass the switch and further enhance the efficiency.TPS61080/1adopts current mode control with constant PWM (pulse width modulation)frequency.The switching frequency can be configured to either 600KHz or 1.2MHz through the FSW pin.600KHz improves light load efficiency,while 1.2MHz allows using smaller external component.The PWM operation turns on the PWM switch at the beginning of each switching cycle.The input voltage is applied across the inductor and stores the energy as inductor current ramps up.The load current is provided by the output capacitor.When the inductor current across the threshold set by error amplifier output,the PWM switch is turned off,and the power diode is forward biased.The inductor transfers its stored energy to replenish the output capacitor.This operation repeats in the next switching cycle.The error amplifier compares the FB pin voltage with an internal reference,and its output determines the duty cycle of the PWM switching.This close loop system requires loop compensation for stable operation.TPS61080/1has internal compensation circuitry which accommodates a wide range of input and output voltages.The TPS61080/1integrates slope compensation to the current ramp to avoid the sub-harmonic oscillation that is intrinsic to current mode control schemes.TPS61080/1turns on the isolation FET when the EN pin is pulled high,provided that the input voltage is higher than the undervoltage lockout threshold.The Vgs of the isolation FET is clamped to maintain high on-resistance and limit the current charging the output capacitor.This feature limits the in-rush current that could pull down the input supply and cause system instability.Once the output capacitor is charged to VIN,the IC removes the Vgs clamp to fully turn on the isolation FET and at the same time actives soft start by charging the capacitor on the SS pin.If OUT stays lower than VIN-Vsc following a 2ms delay after enable is taken high,the IC recognizes a short circuit condition.In this case,the isolation FET turns off,and IC remains off until the EN pin toggles or VIN cycles through power on reset (POR).During the soft start phase,the SS pin capacitor is charged by internal bias current of the SS pin.The SS pin capacitor programs the ramp up slope.The SS pin voltage clamps the reference voltage of the FB pin,therefore the output capacitor rise time follows the SS pin voltage.Without the soft start,the inductor current could reach the over current limit threshold,and there is potential for output overshoot.see the APPLICATION INFORMATION section on selecting soft start capacitor values.Pulling the SS pin to ground disables the PWM switching.However,unlike being disabled by pulling EN low,the IC continues to draw quiescent current and the isolation FET remains on.TPS61080/1has a pulse by pulse over current limit feature which turns off the power switch once the inductor current reaches the overcurrent limit.The PWM circuitry resets itself at the beginning of the next switch cycle.The overcurrent threshold determines the available output current.However,the maximum output is also a function of the input voltage,output voltage,switching frequency and inductor rger inductor values and 1.2MHz switching frequency increase the current output capability because of the reduced current ripple.See the APPLICATION INFORMATION section for the maximum output current calculation.In typical boost converter topologies,if the output is grounded,turning off the power switch does not limit the current because a current path exists from the input to output through the inductor and power diode.To eliminate this path,TPS61080/1turns off the isolation FET between the input and the inductor.This circuit is triggered when the inductor current remains above short circuit current limit for more than 13µs,or the OUT pin voltage falls below VIN-1.4V for more than 2ms.An internal catch-diode between the L pin and ground turns on to provide a current discharge path for the inductor.If the short is caused by the output being low,then the IC10Submit Documentation FeedbackOVERVOLTAGE PROTECTIONUNDERVOLTAGE LOCKOUT(UVLO)THERMAL SHUTDOWNENABLETPS61080TPS61081 SLVS644B–FEBRUARY2006–REVISED JANUARY2007DETAILED DESCRIPTION(continued)shuts down and waits for EN to be toggled or a POR.If the short protection is triggered by short circuit current limit,the IC attempts to start up one time.After57ms,the IC restarts in a fashion described in the above section. If the short is cleared,the boost regulator properly starts up and reaches output regulation.However,after reaching regulation,if another event of short circuit current limit occurs,the IC goes into shutdown mode again, and the fault can only be cleared by toggling the EN pin or POR.Under a permanent short circuit,the IC shuts down after a start up failure and waits for POR or the EN pin toggling.The same circuit also protects the ICs and external components when the SW pin is shorted to ground.These features provide much more comprehensive and reliable protection than the conventional boost regulator. Table1lists the IC protection against the short of each IC pin.Table1.TPS61080/1Short Circuit Protection ModeSHORTED TO GND FAULT DETECTION IC OPERATION HOW TO CLEAR THE FAULTIC restarts after57ms;If it happens again, L,SW INDUCTOR>I SC for13µs Turn off isolation FET the fault can only be cleared by togglingEN or POR.OUT(during startOUT<Vin–1.4V for2ms IC shuts down Cleared by toggling EN or PORup)OUT(after start up)OUT<Vin–1.4V without delay IC shuts down Cleared by toggling EN or POREN N/A IC disabled N/AFSW N/A600kHz switching frequency N/ADisable PWM switching and no output;SS N/A N/Abut still dissipate quiescent current.Over voltage protection of the OUTFB N/A OUT voltage fails by OVP hysteresispinGND,PGND,VIN N/A N/A N/AWhen TPS61080/1is configured as regulated current output as shown in the TYPICAL APPLICATIONS,the output voltage can run away if the current load is disconnected.The over voltage condition can also occur if the FB pin is shorted to the ground.To prevent the SW node and the output capacitor from exceeding the maximum voltage rating,an over voltage protection circuit turns off the boost regulator as soon as the output voltage exceeds the OVP threshold.When the output voltage falls0.7V below the OVP threshold,the regulator resumes the PWM switching unless the output voltage exceeds the OVP threshold.An undervoltage lockout prevents mis-operation of the device for input voltages below1.65V(typical).When the input voltage is below the undervoltage threshold,the device remains off and both PWM and isolation switch are turned off,providing isolation between input and output.The undervoltage lockout threshold is set below minimum operating voltage of2.5V to avoid any transient VIN dip to trigger UVLO and causes converter reset. For the VIN voltage between UVLO threshold and2.5V,the IC still maintains its operation.However,the spec is not assured.An internal thermal shutdown turns off the isolation and PWM switches when the typical junction temperature of 160°C is exceeded.The IC restarts if the junction temperature drops by15°C.Connecting the EN pin low turns off the power switch immediately,but keeps the isolation FET on.If the EN pin is logic low for more than74ms,the IC turns off the isolation FET and enters shutdown mode drawing less than 1µA current.The enable input pin has an internal800kΩpull down resistor to disable the device when the pin is floating.11Submit Documentation FeedbackFREQUENCY SELECTIONMAXIMUM and MINIMUM OUTPUT CURRENTI p +1L ǒ1V o u t )V f *V i n )1V i n ǓFs (1)I o +V i n ǒI l i m *I p2Ǔh Vo u t (2)Ip +2 Il o a d V o u t )V f *Vi n L Fs ǸD +LIp e a k Vi n Fs (3)TPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007The FSW pin can be connected to either a logic high or logic low to program the switching frequency to1.2MHz or 600kHz respectively.The 600kHz switching frequency provides better efficiency because of lower switching losses.This advantage becomes more evident at light load when switching losses dominate overall losses.The higher switching frequency shrinks external component size and thus the size of power solution.High switching frequency also improves load transient response since the smaller value inductor takes less time to ramp up and down current.The other benefits of high switching frequency are lower output ripples and a higher maximum output current.Overall,it is recommended to use 1.2MHz switching frequency unless light load efficiency is a major concern.The FSW pin has internal 800k Ωpull up resistor to the VIN pin.Floating this pin programs the switching frequency to 1.2MHz.The over-current limit in a boost converter limits the maximum input current and thus maximum input power from a given input voltage.Maximum output power is less than maximum input power due to power conversion losses.Therefore,the over-current limit,the input voltage,the output voltage and the conversion efficiency all affect maximum current output.Since the over-current limit clamps the peak inductor current,the current ripple has to be subtracted to derive maximum DC current.The current ripple is a function of the switching frequency,the inductor value and the duty cycle.whereIp =inductor peak to peak ripple L =inductor valueVf =power diode forward voltage Fs =Switching frequencyThe following equations take into account of all the above factors for maximum output current calculation.whereIlim =overcurrent limit η=conversion efficiencyTo minimize the variation in the overcurrent limit threshold,the TPS61080/1uses the VIN and OUT pin voltage to compensate for the variation caused by the slope compensation.However,the threshold still has some dependency on the VIN and OUT e Figure 6to Figure 9to identify the typical over-current limit in your application,and use 25%tolerance to and process variations.Because of the minimum duty cycle of each power switching cycle of TPS61080/1,the device can lose regulation at the very light e the following equations to calculate PWM duty cycle under discontinues conduction mode (DCM).WhereIpeak =inductor peak to peak ripple in DCM Iload =load currentD =PWM switching duty cycle12Submit Documentation FeedbackAPPLICATION INFORMATIONPROGRAM OUTPUT VOLTAGES 61080/1mR +R 2 ǒVo u t 1.229V *1Ǔ(4)FEED FORWARD CAPACITORF z +12p R 1 C 1(5)F P +ǒ1R 1)1R 2Ǔ12p C1(6)F P +12p R 2C 1w h e n R 1u u R2.(7)TPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007If the calculated duty cycle is less than 5%,minimum load should be considered to the boost output to ensure regulation.Figure 19provides quick reference to identify the minimum load requirements for two input voltages.Figure 20.Feed Forward Capacitor Connecting With Feedback Resistor DividerTo program the output voltage,select the values of R1and R2(See Figure 20)according to the following equation.A optimum value for R2is around 50k Ωwhich sets the current in the resistor divider chain to 1.229V/50k Ω=24.58µA.The output voltage tolerance depends on the V FB accuracy and the resistor divider.A feed forward capacitor on the feedback divider,shown in Figure 20,improves transient response and phase margin.This network creates a low frequency zero and high pole atThe frequency of the pole is determined by C1and paralleled resistance of R1and R2.For high output voltage,R1is much bigger than R2.SoThe loop gains more phase margin from this network when (Fz+Fp)/2is placed right at crossover frequency,which is approximately 15kHz with recommended L and C.The typical value for the zero frequency is between 1kHz to 10KHz.For high output voltage,the zero and pole are further apart which makes the feed forward capacitor very effective.For low output voltage,the benefit of the feed forward capacitor is less visible.Table 2gives the typical R1,R2and the feed forward capacitor values at the certain output voltage.However,the transient response is not greatly improved which implies that the zero frequency is too high or low to increase the phase margin.Table 2.Recommended Feed Forward CapacitorValues With Different Output VoltageC1(Feed Output VoltageR1R2Forward)12V 437k Ω49.9k Ω33pF 16V 600k Ω49.9k Ω42pF 20V 762k Ω49.9k Ω56pF 25V582k Ω30.1k Ω120pF13Submit Documentation FeedbackSOFT START CAPACITORt ss +C s s 1.229I s s (8)I in _+C o u t I s s V ou t C s s V i n h (9)I i n _+I i n _c o u t )V ou t V i n h I lo a d (10)K r e f +K 2Vc l p )K 2I s s )K 2RǸ(11)INDUCTOR SELECTIONTPS61080TPS61081SLVS644B–FEBRUARY 2006–REVISED JANUARY 2007The 100Ωresistor is added to reduce noise coupling from the OUT to the FB pin through the feed forward capacitor.Without the resistor,the regulator may oscillate at high output current.The voltage at the SS pin clamps the internal reference voltage,which allows the output voltage to ramp up slowly.The soft start time is calculated aswhereC ss =soft start capacitorI ss =soft start bias current (TYP 5µA)1.229V is the typical value of the reference voltage.During start up,input current has to be supplied to charge the output capacitor.This current is proportional to rising slope of the output voltage,and peaks when output reaches regulation.WhereI in_cout =additional input current for charging the output capacitor The maximum input during soft start isOutput overshoot can occur if the input current at startup exceeds the inductor saturation current and/or reaches current limit because the error amplifier loses control of the voltage feedback loop.The in-rush current can also pull down input sources,potentially causing system reset.Therefore,select C ss to make I in_ss stay below the inductor saturation current,the IC over current limit and the input's maximum supply current.TPS61080/1can also be configured for constant current output,as shown in the typical applications.In this configuration,a current sense resistor is connected to FB pin for output current regulation.In order to reduce power loss on the sense resistor,FB pin reference voltage can be lowered by connecting a resistor to the SS pin The new reference voltage is simply the resistor value times the SS pin bias current.However,keep in mind that this reference has higher tolerance due to the tolerance of the bias current and sense resistor,and the offset of the clamp circuit.Refer to the specification V CLP and I SS to calculate the tolerance as following.WhereK ref =percentage tolerance of the FB reference voltage.K Vclp =percentage tolerance of the clamp circuit.K lss =percentage tolerance of the SS pin bias current.K R =percentage tolerance of the SS pin resistor.Without considering the SS pin resistor tolerance,the FB reference voltage has ±5.6%under the room temperature.Because the selection of the inductor affects steady state operation,transient behavior and loop stability,the inductor is the most important component in power regulator design.There are three important inductor specifications,inductor value,DC resistance and saturation current.Considering inductor value alone is not enough.14Submit Documentation Feedback。
艾茨顿保护站USV上电源设备(Katalognummer:61082)商品说明书
Eaton 61082Eaton Protection Station USV, USB DIN, 800 VA, 500 W, Eingang:Schuko, Ausgänge: (4) Schuko, (4) Schuko nur Überspannung,TowerAllgemeine spezifikationProduktname KatalognummerEaton Protection Station USV61082Produkt Länge/Tiefe Produkthöhe190 mm370 mmProduktbreite Produktgewicht220 mm 4 kgEinhaltung(en)Zertifikat(e)CE-Kennzeichnung IEC/EN 62040-1IEC/EN 62040-2CEEACEAN3553340610820500 W0,6TowerNeinSchutzkontakt (SCHUKO)161 V284 VEaton UPS Companion (ermöglicht eine sichere Systemabschaltung, Stromverbrauchsmessung und Konfiguration der USV-Einstellungen)Auswechselbarverschlossen, Bleisäurebatterie98Eaton Protection Station UPS - 650/800 VA - Installation and user manual (multiple languages)EU Declaration of Conformity Eaton Protection Station UPSLeistungAusg.leist.faktor FormfaktorBeinhaltet Netzwerkkarte Eingangsanschluss Eingangsspannung – min Ausgangsspannung – max Softwarekompatibilität Batteriewechsel BatterietypEffizienzBesondere Merkmale Benutzerhandbücher Zertifizierungsberichte3-in-1-Konzept: USV +Überspannungsschutz + Mehrfachsteckdosenleiste Enthält ein leistungsstarkes Überspannungsschutzgerät, das der Norm IEC 616431 entsprichtMit der EcoControl-Funktion sparen Sie bis zu 30 % mehr Strom als mit USVs der Vorgängergeneration8 Steckdosen zum Anschluss Ihres PCs undIhrer Peripheriegeräte oderIhrer AV-AusrüstungSchutz der Datenleitung, um sicherzustellen, dass die Internetleitung(einschließlich xDSL) vorÜberspannungen geschütztistUSB-Anschluss und Energieverwaltungssoftwarefür Windows/Linux/Mac als StandardBauformFreistehendes ModellAusgangsspannung – min161 VFarbeSchwarzErweiterte AkkukapazitätNoAusgangsspannungsbereich184–264 V (einstellbar auf 161–284 V)TopologieOfflineÜberspannungsschutzJaLaufzeit auf Halblast1 minEingangsnennspannung230 V Standard (220/230/240 V)Eingangsfrequenz-Bereich46-70 HzEingangsspannung – max284 VSpannungsartACPhase (Ausg.)1AkkumanagementWechselbare Batterien, automatischer Batterietest, Tiefentladeschutz, kaltstartfähigAutomatische AusschaltfunktionJaBetriebstemperatur - min0 °CVA Wert800 VAPotentialfreier SchaltkontaktNeinSteckdosen(4) Schuko, (4) Schuko, nur ÜberspannungPhase (Ein.)1VerpackungsinhaltBefestigtes NetzkabelUSB-KabelBenutzerhandbuch in 20SprachenSicherheitshinweise,Geräuschpegel< 25 dB bei 1 MeterEinspeisungstyp1LaufzeitgrafikAnzeige des LaufzeitgraphsBenutzeroberflächeLEDsAnzahl Batterien1Betriebstemperatur - max35 °CSpannung230 VEingangskabellänge1,5 mTemperaturbereich0° bis 35°C (32° bis 95°F)Ethernet-SchnittstelleNeinKommunikationUSB-Port (HID-konform), Kabel im Lieferumfang enthaltenRelative Luftfeuchtigkeit0-85 % ohne BetauungAusgangsscheinleistung800 VARack-Montage-BausatzNeinAnzahl der Ausgänge PC (SCHUKO)8Ausgangsfrequenz50/60 HzLaufzeit bei Volllast1 Min.SchnittstellentypUSBPrimäre Frequenz - min46 HzBatterieleistung12V/9AhTypUSV-AnlageAusgangsnennspannung230 V Standard (220/230/240 V)ErweiterungssteckplätzeNEingangsspannungsbereich184–264 V (einstellbar auf 161–284 V)Nennfrequenz50/60 HzPrimäre Frequenz - max70 HzHöhe2000 mEaton Konzern plc Eaton-Haus30 Pembroke-Straße Dublin 4, Irland © 2023 Eaton. Alle Rechte vorbehalten. Eaton ist eine eingetrageneMarke.Alle anderen Warenzeichen sindEigentum ihrer jeweiligenBesitzer./socialmedia。
控制点通用10站10频道系统配置文件说明书
LBI-38924MAINTENANCE MANUALSIMULCAST SYSTEM DRA WINGSCONTROL POINT COMMON EQUIPMENT10 SITE 10 CHANNEL SYSTEM CONFIGURATIONPrinted in U.S.A.CONTROL POINT COMMON EQUIPMENT10 SITE 10 CHANNEL SYSTEMCable Connections, Module Location & Identification(344A4225, Sh. 1, Rev. 2)(344A4225, Sh. 2, Rev. 2)SHELF AND MODULE NUMBERS DIGITAL DELA Y SHELF19D902531G2DIGITAL DELAY MODULE 19D902524P1ANALOG DELA Y SHELF19D902531G3 or G4ANALOG DELA Y MODULE 19D902526P1ANALOG PROCESSING SHELF #119D902543G1COMPRESSOR MODULE 19A149739P1AUDIO BRIDGE MODULE 19D902458P1EQUALIZER MODULE19A149738P1UNIVERSAL SYNC SHELF19D902541G1ALARM MODULE19D902334P1DIGITAL SELECTOR (150BAUD/CLK)19D902519P12400 BAUD MODEM MODULE 19D902521P1UNIVERSAL SYNC MODULE 19D902517P1ANALOG PROCESSING SHELF #219D902544G1AUDIO BRIDGE MODULE 19D902458P1MULTITONE I/F MODULE 19D902515P1MODEM SHELF19D902542G1MODEM I/F MODULE (9600 BAUD)19D902442P1MODEM MODULE (9600 BAUD)19A705178P1MODULE LOCA TION IN RACKS DIGITAL DELA Y SHELFDIGITALSLOT 01DIGITAL DELAY MODULE SITE #01 CHANNELS 1-10SITE #02 CHANNELS 1-10SLOT 02DIGITAL DELAY MODULE SITE #03 CHANNELS 1-10SITE #04 CHANNELS 1-10SLOT 03DIGITAL DELAY MODULE SITE #05 CHANNELS 1-10SITE #06 CHANNELS 1-10SLOT 04DIGITAL DELAY MODULE SITE #07 CHANNELS 1-10SITE #08 CHANNELS 1-10SLOT 05DIGITAL DELAY MODULE SITE #09 CHANNELS 1-10UNIVERSAL SYN SHELFSLOT 01ALARM MODULESLOT 02150 BAUD DA TA SELECTOR MODULE SLOT 03FSK MODEMSLOT 05UNIVERSAL SYN MODULE CHANNELS 01-04SLOT 06UNIVERSAL SYN MODULE CHANNELS 05-08SLOT 07UNIVERSAL SYN MODULE CHANNELS 09-12SLOT 129.6 CLOCK SELECTOR MODULEANALOG PROCESSION SHELF #2SLOT 01150 BAUD BRIDGE SLOT 02MULTIONE MODULE SITE 01-04SLOT 03MULTIONE MODULE SITE 05-08SLOT 04MULTIONE MODULE SITE 09-10MODEM SHELFSLOT 01MODEM INTERFACE MODULE SITE #XX SLOT 02MODEM MODULE CHANNEL 01SLOT 03MODEM INTERFACE MODULE SITE #XX SLOT 04MODEM MODULE CHANNEL 02SLOT 05MODEM INTERFACE MODULE SITE #XX SLOT 06MODEM MODULE CHANNEL 03SLOT 07MODEM INTERFACE MODULE SITE #XX SLOT 08MODEM MODULE CHANNEL 04SLOT 09MODEM INTERFACE MODULE SITE #XX SLOT 10MODEM MODULE CHANNEL 05SLOT 11MODEM INTERFACE MODULE SITE #XX SLOT 12MODEM MODULE CHANNEL 06SLOT 13MODEM INTERFACE MODULE SITE #XX SLOT 14MODEM MODULE CHANNEL 07SLOT 15MODEM INTERFACE MODULE SITE #XX SLOT 16MODEM MODULE CHANNEL 08SLOT 17MODEM INTERFACE MODULE SITE #XX SLOT 18MODEM MODULE CHANNEL 09SLOT 19MODEM INTERFACE MODULE SITE #XX SLOT 20MODEM MODULE CHANNEL 10ANALOG DELA Y SHELFANALOG DELAYSLOT 01ANALOG DELA Y MODULE SITE #01 CHANNELS 01-10SLOT 02ANALOG DELA Y MODULE SITE #01 CHANNELS 11-20SLOT 03ANALOG DELA Y MODULE SITE #02 CHANNELS 01-10SLOT 04ANALOG DELA Y MODULE SITE #02 CHANNELS 11-20SLOT 05ANALOG DELA Y MODULE SITE #03 CHANNELS 01-10SLOT 06ANALOG DELA Y MODULE SITE #03 CHANNELS 11-20SLOT 07ANALOG DELA Y MODULE SITE #04 CHANNELS 01-10SLOT 08ANALOG DELA Y MODULE SITE #04 CHANNELS 11-20LBI-38924LBI-389241Copyright© April 1993, Ericsson Ge Mobile Communications, Inc.CONTROL POINT COMMON EQUIPMENT10 SITE 10 CHANNEL SYSTEMCable Connections, Module Location & Identification (344A4225, Sh. 3 , Rev. 2)10 SITE 10 CHANNEL SYSTEMCable Connections, Module Location & Identification (344A4225, Sh. 4, Rev. 2)AUDIO PROCESSING SHELF #1SLOT #1COMPRESSORSLOT #2AUDIO BRIDGESLOT #3EQUALIZER SITE #1SLOT #4EQUALIZER SITE #2SLOT #5EQUALIZER SITE #3SLOT #6EQUALIZER SITE #4SLOT #7EQUALIZER SITE #5SLOT #8EQUALIZER SITE #6SLOT #9EQUALIZER SITE #7SLOT #10EQUALIZER SITE #8SLOT #11EQUALIZER SITE #9SLOT #12EQUALIZER SITE #10RACK #1 APPLCI ATION ASM 19D904160P8RACK #2 APPLCI ATION ASM 19D904160P9RACK #3 APPLCI ATION ASM 19D904160P10FROM TO CABLE RACK #1S1DIGITAL CROSS CONNECT J57MODEM SHELF D100-A J0119D903985P14 S1DIGITAL CROSS CONNECT J87MODEM SHELF D100-A J0219D903985P16 S2DIGITAL CROSS CONNECT J58MODEM SHELF D101-A J0119D903985P14 S2DIGITAL CROSS CONNECT J88MODEM SHELF D101-A J0219D903985P14 S3DIGITAL CROSS CONNECT J59MODEM SHELF D102-A J0119D903985P14 S3DIGITAL CROSS CONNECT J89MODEM SHELF D102-A J0219D903985P14 S4DIGITAL CROSS CONNECT J60MODEM SHELF D103-A J0119D903985P14 S4DIGITAL CROSS CONNECT J90MODEM SHELF D103-A J0219D903985P14 S5DIGITAL CROSS CONNECT J61MODEM SHELF D104-A J0119D903985P14 S5DIGITAL CROSS CONNECT J91MODEM SHELF D104-A J0219D903985P14 S1MODEM SHELF D100-A J04JACKFIELD D602P0119D903985P22 S1MODEM SHELF D100-A J06JACKFIELD D602P0219D903985P22 S2MODEM SHELF D101-A J04JACKFIELD D604P0119D903985P22 S2MODEM SHELF D101-A J06JACKFIELD D604P0219D903985P22 S3MODEM SHELF D102-A J04JACKFIELD D606P0119D903985P22 S3MODEM SHELF D102-A J06JACKFIELD D606P0219D903985P22 S4MODEM SHELF D103-A J04JACKFIELD D608P0119D903985P22 S4MODEM SHELF D103-A J06JACKFIELD D608P0219D903985P22 S5MODEM SHELF D104-A J04JACKFIELD D610P0119D903985P22 S5MODEM SHELF D104-A J06JACKFIELD D610P0219D903985P22 S1 C01-10 DIGITAL CROSS CONNECT J27DIGITAL DELA Y D300P0119D903985P16 S2 C01-10 DIGITAL CROSS CONNECT J28DIGITAL DELA Y D300P0219D903985P16 S3 C01-10DIGITAL CROSS CONNECT J29DIGITAL DELA Y D300P0319D903985P16 S4 C01-10 DIGITAL CROSS CONNECT J30DIGITAL DELA Y D300P0419D903985P16 S5 C01-10 DIGITAL CROSS CONNECT J31DIGITAL DELA Y D300P0519D903985P16 S6 C01-10 DIGITAL CROSS CONNECT J32DIGITAL DELA Y D300P0619D903985P16 S7 C01-10 DIGITAL CROSS CONNECT J33DIGITAL DELA Y D300P0719D903985P16 S8 C01-10 DIGITAL CROSS CONNECT J34DIGITAL DELA Y D300P0819D903985P16 S9 C01-10 DIGITAL CROSS CONNECT J35DIGITAL DELA Y D300P0919D903985P16 S10 C01-10 DIGITAL CROSS CONNECT J36DIGITAL DELA Y D300P1019D903985P16C01DIGITAL CROSS CONNECT J01CONNECTOR P ANEL #01P0119D903985P24 C02DIGITAL CROSS CONNECT J02CONNECTOR P ANEL #01P0219D903985P24 C03DIGITAL CROSS CONNECT J03CONNECTOR P ANEL #01P0319D903985P24 C04DIGITAL CROSS CONNECT J04CONNECTOR P ANEL #01P0419D903985P24 C05DIGITAL CROSS CONNECT J05CONNECTOR P ANEL #01P0519D903985P24 C06DIGITAL CROSS CONNECT J06CONNECTOR P ANEL #01P0619D903985P24 C07DIGITAL CROSS CONNECT J07CONNECTOR P ANEL #01P0719D903985P24 C08DIGITAL CROSS CONNECT J08CONNECTOR P ANEL #01P0819D903985P24 C09DIGITAL CROSS CONNECT J09CONNECTOR P ANEL #01P0919D903985P24 C10DIGITAL CROSS CONNECT J10CONNECTOR P ANEL #01P1019D903985P24 C1-4DIGITAL CROSS CONNECT J71UNIV SYNC SHF D800P0519D903985P16 C5-8DIGITAL CROSS CONNECT J72UNIV SYNC SHF D800P0619D903985P16 C9-12DIGITAL CROSS CONNECT J73UNIV SYNC SHF D800P0719D903985P16 A DIGITAL CROSS CONNECT J26JACKFIELD D600P0119D903985P24 A ANALOG PROC SHF D700J02JACKFIELD D600P0219D903985P52 A DIGITAL CROSS CONNECT J79ANALOG PROC SHF D700J0219D903985P36 A DIGITAL CROSS CONNECT J82ANALOG PROC SHF D700J0319D903985P36 A DIGITAL CROSS CONNECT J67UNIV SYNC SHF D800P P0119D903985P16 A DIGITAL CROSS CONNECT J68UNIV SYNC SHF D800P0219D903985P16 A DIGITAL CROSS CONNECT J69UNIV SYNC SHF D800P0319D903985P16 A DIGITAL CROSS CONNECT J70UNIV SYNC SHF D800P0419D903985P16 A DIGITAL CROSS CONNECT J78UNIV SYNC SHF D800P1219D903985P16 A DIGITAL CROSS CONNECT J98P ANEL #3 A1P0119D903985P14 A PANEL #3 A1P02JACKFIELD D601J0119D903985P36 A DIGITAL CROSS CONNECT J99P ANEL #3 A2P0119D903985P14 A PANEL #3 A2P02JACKFIELD D601P0119D903985P26 A DIGITAL CROSS CONNECT J85P ANEL #3 A3P0119D903985P14 A PANEL #3 A3P02JACKFIELD D601J0219D903985P36 A DIGITAL CROSS CONNECT J86P ANEL #3 A4P0119D903985P14 A PANEL #3 A4P02JACKFIELD D601P0219D903985P26 D105A DIGITAL CROSS CONNECT J62CONNECTOR P ANEL #02P0119D903985P24 D105A DIGITAL CROSS CONNECT J92CONNECTOR P ANEL #02P0219D903985P24 D106A DIGITAL CROSS CONNECT J63CONNECTOR P ANEL #02P0319D903985P24 D106A DIGITAL CROSS CONNECT J93CONNECTOR P ANEL #02P0419D903985P24 D107A DIGITAL CROSS CONNECT J64CONNECTOR P ANEL #02P0519D903985P24 D107A DIGITAL CROSS CONNECT J94CONNECTOR P ANEL #02P0619D903985P24 D108A DIGITAL CROSS CONNECT J65CONNECTOR P ANEL #02P0719D903985P24 D108A DIGITAL CROSS CONNECT J95CONNECTOR P ANEL #02P0819D903985P24 D109A DIGITAL CROSS CONNECT J66CONNECTOR P ANEL #02P0919D903985P24 D109A DIGITAL CROSS CONNECT J96CONNECTOR P ANEL #02P1019D903985P24 DCC DIGITAL CROSS CONNECT J80CONNECTOR P ANEL #02P1119D903985P24 DCC DIGITAL CROSS CONNECT J81CONNECTOR P ANEL #02P1219D903985P24 DCC DIGITAL CROSS CONNECT J83CONNECTOR P ANEL #02P1319D903985P24 DCC DIGITAL CROSS CONNECT J84CONNECTOR P ANEL #02P1419D903985P24LBI-38924LBI-38924 2(344A4225, Sh. 5, Rev. 2)(344A4225, Sh. 6, Rev. 2)CONTROL POINT COMMON EQUIPMENTRACK #2S6CONNECTOR PANEL #01P01MODEM SHELF D105-A J0119D903985P28S6CONNECTOR PANEL #01P02MODEM SHELF D105-A J0219D903985P28S7CONNECTOR PANEL #01P03MODEM SHELF D106-A J0119D903985P28S7CONNECTOR PANEL #01P04MODEM SHELF D106-A J0219D903985P28S8CONNECTOR PANEL #01P05MODEM SHELF D107-A J0119D903985P26S8CONNECTOR PANEL #01P06MODEM SHELF D107-A J0219D903985P26S9CONNECTOR PANEL #01P07MODEM SHELF D108-A J0119D903985P24S9CONNECTOR PANEL #01P08MODEM SHELF D108-A J0219D903985P24S10CONNECTOR PANEL #01P09MODEM SHELF D109-A J0119D903985P24S10CONNECTOR PANEL #01P10MODEM SHELF D109-A J0219D903985P24S6MODEM SHELF D105-A J04JACKFIELD D612P0119D903985P22S6MODEM SHELF D105-A J06JACKFIELD D612P0219D903985P22S7MODEM SHELF D106-A J04JACKFIELD D614P0119D903985P22S7MODEM SHELF D106-A J06JACKFIELD D614P0219D903985P22S8MODEM SHELF D107-A J04JACKFIELD D616P0119D903985P22S8MODEM SHELF D107-A J06JACKFIELD D616P0219D903985P22S9MODEM SHELF D108-A J04JACKFIELD D618P0119D903985P22S9MODEM SHELF D108-A J06JACKFIELD D618P0219D903985P22S10MODEM SHELF D109-A J04JACKFIELD D620P0119D903985P22S10MODEM SHELF D109-A J06JACKFIELDD620P02 19D903985P22C06CONNECTOR PANEL #01P11ANALOG PROC SHF A406J0319D903985P48C07CONNECTOR PANEL #01P12ANALOG PROC SHF A407J0319D903985P48C08CONNECTOR PANEL #01P13ANALOG PROC SHF A408J0319D903985P48C09CONNECTOR PANEL #01P14ANALOG PROC SHF A409J0319D903985P48C10CONNECTOR PANEL #01P15ANALOG PROC SHF A410J0319D903985P48A406ANALOG PROC SHELF A406J01CONNECTOR P ANEL #01P1619D903985P28C7ANALOG PROC SHF A406J02ANALOG PROC SHF A407J0119D903985P12C8ANALOG PROC SHF A407J02ANALOG PROC SHF A408J0119D903985P12C9ANALOG PROC SHF A408J02ANALOG PROC SHF A409J0119D903985P12C10ANALOG PROC SHF A409J02ANALOG PROC SHF A410J0119D903985P12ANALOG CROSS CONNECTION RACK #3A JACKFIELD A600P01ANALOG PROC SHF A401J0119D903985P22C01ANALOG CROSS CONNECT J01ANALOG PROC SHF A401J0319D903985P64C02ANALOG CROSS CONNECT J02ANALOG PROC SHF A402J0319D903985P64C03ANALOG CROSS CONNECT J03ANALOG PROC SHF A403J0319D903985P62C04ANALOG CROSS CONNECT J04ANALOG PROC SHF A404J0319D903985P62C05ANALOG CROSS CONNECT J05ANALOG PROC SHF A405J0319D903985P62S1 C1-20ANALOG CROSS CONNECT J36ANALOG DELA Y SHF A200P0119D903985P18S2 C1-20ANALOG CROSS CONNECT J37ANALOG DELA Y SHF A200P0219D903985P18S3 C1-20ANALOG CROSS CONNECT J38ANALOG DELA Y SHF A200P0319D903985P18S4 C1-20ANALOG CROSS CONNECT J39ANALOG DELA Y SHF A200P0419D903985P18S5 C1-20ANALOG CROSS CONNECT J30ANALOG DELA Y SHF A200P0519D903985P18S 1-2-3ANALOG CROSS CONNECT J31ANALOG DELA Y SHF A200P1119D903985P18S 4-4ANALOG CROSS CONNECTJ32ANALOG DELA Y SHF A200P1219D903985P18S1 C1-20ANALOG DELA Y SHF A200P06JACKFIELD A600P0219D903985P24S2 C1-20ANALOG DELA Y SHF A200P07JACKFIELD A601P0119D903985P24S3 C1-20ANALOG DELA Y SHF A200P08JACKFIELD A601P0219D903985P24S4 C1-20ANALOG DELA Y SHF A200P09JACKFIELD A602P0119D903985P24S5 C1-20ANALOG DELA Y SHF A200P10JACKFIELD A602P0219D903985P24S 1-2-3ANALOG DELA Y SHF A200P13PANEL #3 B1J119D903985P14S 4-5ANALOG DELA Y SHF A200P14PANEL #3 B1J219D903985P14150 DA TA P ANEL #3 B1J5JACKFIELD A603P0119D903985P52S6 C1-20ANALOG CROSS CONNECT J43ANALOG DELAY SHF A200P0119D903985P18S7 C1-20ANALOG CROSS CONNECT J44ANALOG DELAY SHF A200P0219D903985P18S8 C1-20ANALOG CROSS CONNECT J45ANALOG DELAY SHF A200P0319D903985P18S9 C1-20ANALOG CROSS CONNECT J46ANALOG DELAY SHF A200P0419D903985P18S10 C1-20ANALOG CROSS CONNECT J47ANALOG DELAY SHF A200P0519D903985P18S 6-7-8ANALOG CROSS CONNECT J48ANALOG DELAY SHF A200P1119D903985P18S 9-10ANALOG CROSS CONNECT J49ANALOG DELAY SHF A200P1219D903985P18S6 C1-20ANALOG DELA Y SHF A201P06JACKFIELD A604P0119D903985P22S7 C1-20ANALOG DELA Y SHF A201P07JACKFIELD A604P0219D903985P24S8 C1-20ANALOG DELA Y SHF A201P08JACKFIELD A605P0119D903985P22S9 C1-20ANALOG DELA Y SHF A201P09JACKFIELD A605P0219D903985P22S10 C1-20ANALOG DELA Y SHF A201P10JACKFIELD A606P0119D903985P22S 6-7-8ANALOG DELA Y SHF A200P13PANEL #3 B1J319D903985P14S 9-10ANALOG DELA Y SHF A200P14PANEL #3 B1J419D903985P14C2ANALOG PROC SHF A401J02ANALOG PROC SHF A402J0119D903985P12C3ANALOG PROC SHF A402J02ANALOG PROC SHF A403J0119D903985P12C4ANALOG PROC SHF A403J02ANALOG PROC SHF A404J0119D903985P12C5ANALOG PROC SHF A404J02ANALOG PROC SHF A405J0119D903985P12A406ANALOG CROSS CONNECT J06CONNECTOR PANEL #01P0119D903985P44A407ANALOG CROSS CONNECT J07CONNECTOR PANEL #01P0219D903985P44A408ANALOG CROSS CONNECT J08CONNECTOR PANEL #01P0319D903985P44A409ANALOG CROSS CONNECT J09CONNECTOR PANEL #01P0419D903985P44A410ANALOG CROSS CONNECT J10CONNECTOR PANEL #01P0519D903985P44A405ANALOG PROC SHELF A405J02CONNECTOR PANEL #01P0619D903985P22ACC ANALOG CROSS CONNECT J33CONNECTOR PANEL #01P0719D903985P24ACCANALOG CROSS CONNECTJ34CONNECTOR PANEL #01P0819D903985P24- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -LBI-38924LBI-38924310 SITE 10 CHANNEL SYSTEMCable Connections, Module Location & Identification (344A4225, Sh. 7, Rev. 2)10 SITE 10 CHANNEL SYSTEMCable Connections, Module Location & Identification(344A4225, Sh. 8, Rev. 2)CONTROL POINT COMMON EQUIPMENTPOWER CONNECTIONSRACK #1PP1POWER PANEL #01 P05DIGITAL DELA Y SHELF TB119D903880P721 PP1POWER PANEL #01 P07UNIVERSAL SYN SHELF TB119D903880P784 PP1POWER PANEL #01 P08ANALOG PROC SHLF #2 TB119D903880P733 PS1TB1-01 YELLOW+5POWERP ANELLUG#1BUS+519D903880P762 PS1TB1-02 YELLOW+5PS1TB1-03 YELLOW+5PS1TB1-04 YELLOW+5POWERP ANELLUG#1BUS+5PS1TB1-05YELLOW+5PS1TB1-06 YELLOW+5PS1TB1-07 BLACK GND POWERP ANELLUG#2BUSGDPS1TB1-08 BLACK GNDPS1TB1-09 BLACK GNDPS1TB1-10 BLACK GND POWERP ANELLUG#2BUSGDPS1TB1-11 BLACK GNDPS1TB1-12 BLACK GNDPS1TB1-13 ORANGE+12POWER P ANEL P11-01PS1TB1-14 BLUE-12P11-02PS1TB1-14 BLUE-12P11-03PS1TB1-15 BLACK GND P11-04PS1TB1-16 BROWN+5 SENS POWER P ANEL LUG #1BUS+5PS1TB1-17 WHITE-5SENS POWERP ANELLUG#2BUSGDPP2POWER PANEL #02 P01MODEM SHELF D100A TB119D903880P714 PP2POWER PANEL #02 P02MODEM SHELF D101A TB119D903880P714 PP2POWER PANEL #02 P03MODEM SHELF D102A TB119D903880P714 PP2POWER PANEL #02 P04MODEM SHELF D103A TB119D903880P714 PP2POWER PANEL #02 P04A MODEM SHELF D104A TB119D903880P714 PS2TB1-01 YELLOW+5POWERP ANELLUG#1BUS+519D903880P766 PS2TB1-02YELLOW+5PS2TB1-03 YELLOW+5PS2TB1-04 YELLOW+5POWERP ANELLUG#1BUS+5PS2TB1-05YELLOW+5PS2TB1-06 YELLOW+5PS2TB1-07 BLACK GND POWERP ANELLUG#2BUSGDPS2TB1-08BLACK GNDPS2TB1-09 BLACK GNDPS2TB1-10 BLACK GND POWERP ANELLUG#2BUSGDPS2TB1-11 BLACK GNDPS2TB1-12 BLACK GNDPS2TB1-13 ORANGE+12POWER P ANEL P11-01PS2TB1-14 BLUE-12 P11-02PS2TB1-14 BLUE-12 P11-03PS2TB1-15 BLACK GND P11-04PS2TB1-16 BROWN+5 SENS POWER P ANEL LUG #1BUS+5PS2TB1-17 WHITE-5SENS POWERP ANELLUG#2BUSGD RACK #2PP1POWER PANEL #01 P01MODEM SHELF D105A TB119D903880P714PP1POWER PANEL #01 P02MODEM SHELF D106A TB119D903880P714PP1POWER PANEL #01 P03MODEM SHELF D107A TB119D903880P714PP1POWER PANEL #01 P04MODEM SHELF D108A TB119D903880P714PP1POWER PANEL #01 P04A MODEM SHELF D109A TB119D903880P714PS2TB1-01 YELLOW+5POWER PANEL LUG #1BUS+519D903880P766PS2TB1-02 YELLOW+5PS2TB1-03 YELLOW+5PS2TB1-04 YELLOW+5POWER PANEL LUG #1BUS+5PS2TB1-05 YELLOW+5PS2TB1-06 YELLOW+5PS2TB1-07 BLACK GND POWER PANEL LUG #2BUSGDPS2TB1-08 BLACK GNDPS2TB1-09BLACK GNDPS2TB1-10 BLACK GND POWER PANEL LUG #2BUSGDPS2TB1-11 BLACK GNDPS2TB1-12 BLACK GNDPS2TB1-13 ORANGE+12POWER PANEL P11-01PS2TB1-14 BLUE-12P11-02PS2TB1-14 BLUE-12P11-03PS2TB1-15 BLACK GND P11-04PS2TB1-16 BROWN+5 SENS POWER PANEL LUG #1BUS+5PS2TB1-17 WHITE-5 SENS POWER PANEL LUG #2BUSGDPP1POWER PANEL #02 P01ANALOG PROC SHF A406 TB119D903880P774PP1POWER PANEL #02 P02ANALOG PROC SHF A407 TB119D903880P774PP1POWER PANEL #02 P03ANALOG PROC SHF A408 TB119D903880P774PP1POWER PANEL #02 P04ANALOG PROC SHF A409 TB119D903880P774PP1POWER PANEL #02 P05ANALOG PROC SHF A410 TB119D903880P774RACK #3PS1POWER SUPPLY PS1 TB1-1/6POWER SUPPLY PS2 TB1-1/619D903880P810PS2POWER PANEL #01 P1319D903880P804 P13-01 BLUE-12POWER SUPPLY PS2 TB1- #1P13-02 BLUE-12POWER SUPPLY PS2 TB1- #2P13-03 BLACK GND POWER SUPPLY PS2 TB1- #3P13-04 BLACK GND POWER SUPPLY PS2 TB1- #4P13-05 GREEN-24POWER SUPPLY PS2 TB1- #5P13-06 GREEN-24POWER SUPPLY PS2 TB1- #6PP1POWER PANEL #01 P01ANALOG PROC SHF A401 TB119D903880P774PP1POWER PANEL #01 P02ANALOG PROC SHF A402 TB119D903880P774PP1POWER PANEL #01 P03ANALOG PROC SHF A403 TB119D903880P774PP1POWER PANEL #01 P04ANALOG PROC SHF A404 TB119D903880P774PP1POWER PANEL #01 P05ANALOG PROC SHF A405 TB119D903880P774- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -LBI-38924LBI-38924 4CONTROL POINT COMMON EQUIPMENT (344A4225, Sh. 9, Rev. 2)CABINET TO CABINET CABLES (FIELD)RACK #1 CONNECTOR PANEL 01 P01GETC RACK #GETC CH 0119D903880P122RACK #1 CONNECTOR PANEL 01 P02GETC RACK #GETC CH 0219D903880P122RACK #1 CONNECTOR PANEL 01 P03GETC RACK #GETC CH 0319D903880P122RACK #1 CONNECTOR PANEL 01 P04GETC RACK #GETC CH 0419D903880P122RACK #1 CONNECTOR PANEL 01 P05GETC RACK #GETC CH 0519D903880P122RACK #1 CONNECTOR PANEL 01 P06GETC RACK #GETC CH 0619D903880P123RACK #1 CONNECTOR PANEL 01 P07GETC RACK #GETC CH 0719D903880P123RACK #1 CONNECTOR PANEL 01 P08GETC RACK #GETC CH 0819D903880P123RACK #1 CONNECTOR PANEL 01 P09GETC RACK #GETC CH 0919D903880P123RACK #1 CONNECTOR PANEL 01 P10GETC RACK #GETC CH 1019D903880P123RACK #1 CONNECTOR PANEL 02 P01RACK #2 CONNECTOR P ANEL 01 P0119D903880P120RACK #1 CONNECTOR PANEL 02 P02RACK #2 CONNECTOR P ANEL 01 P0219D903880P120RACK #1 CONNECTOR PANEL 02 P03RACK #2 CONNECTOR P ANEL 01 P0319D903880P120RACK #1 CONNECTOR PANEL 02 P04RACK #2 CONNECTOR P ANEL 01 P0419D903880P120RACK #1 CONNECTOR PANEL 02 P05RACK #2 CONNECTOR P ANEL 01 P0519D903880P120RACK #1 CONNECTOR PANEL 02 P06RACK #2 CONNECTOR P ANEL 01 P0619D903880P120RACK #1 CONNECTOR PANEL 02 P07RACK #2 CONNECTOR P ANEL 01 P0719D903880P120RACK #1 CONNECTOR PANEL 02 P08RACK #2 CONNECTOR P ANEL 01 P0819D903880P120RACK #1 CONNECTOR PANEL 02 P09RACK #2 CONNECTOR P ANEL 01 P0919D903880P120RACK #1 CONNECTOR PANEL 02 P10RACK #2 CONNECTOR P ANEL 01 P1019D903880P120RACK #1 CONNECTOR PANEL 02 P11RACK TEST CONNECTOR PANEL 01 P0119D903880P120RACK #1 CONNECTOR PANEL 02 P12RACK TEST CONNECTOR PANEL 01 P0219D903880P120RACK #1 CONNECTOR PANEL 02 P13RACK #3 CONNECTOR P ANEL 01 P0719D903880P123RACK #1 CONNECTOR PANEL 02 P14FIELD INSTAL DIGITAL ALARMSDIGITAL CROSS CONNECT P97GETC CAB. SYNC CTRL (SERIAL D ATA J24)19D903880P25RACK #3 CONNECTOR PANEL 01 P01RACK #2 CONNECTOR P ANEL 01 P1119D903880P123RACK #3 CONNECTOR PANEL 01 P02RACK #2 CONNECTOR P ANEL 01 P1219D903880P123RACK #3 CONNECTOR PANEL 01 P03RACK #2 CONNECTOR P ANEL 01 P1319D903880P123RACK #3 CONNECTOR PANEL 01 P04RACK #2 CONNECTOR P ANEL 01 P1419D903880P123RACK #3 CONNECTOR PANEL 01 P05RACK #2 CONNECTOR P ANEL 01 P1519D903880P123RACK #3 CONNECTOR PANEL 01 P06RACK #2 CONNECTOR P ANEL 01 P1619D903880P120RACK #3 CONNECTOR PANEL 01 P08FIELD INSTAL ANALOG BSEL PP1 RACK #1 POWER P ANEL #01 P06RACK #3 ANALOG DELA Y SHELF TB119D903880P729PP1RACK #1 POWER P ANEL #01 P06A RACK #3 ANALOG DELA Y SHELF TB119D903880P729PP1RACK #1 POWER P ANEL #01 P09RACK TEST ALARM SHELF TB119D903880P740PP1RACK #1 POWER P ANEL #01 P12RACK #3 POWER P ANEL -12/24 P1419D903880P750PP1RACK #2 POWER P ANEL #02 P13RACK #3 POWER P ANEL 01P1619D903880P750LBI-38924LBI-389245CONTROL POINT COMMON EQUIPMENTLBI-38924LBI-38924SITE 10 CHANNELEquipment Rackup19D904160P8, 9(19D904160, Sh. 10, Rev. 2)6CONTROL POINT COMMON EQUIPMENTLBI-38924LBI-3892410 SITE 10 CHANNELEquipment Rackup19D904160P8,9(19D904160, Sh. 11, Rev. 2)7CONTROL POINT COMMON EQUIPMENT10 SITE 10 CHANNEL Digital Cross Connect Block Diagram (19C852275, Rev. 2)10 SITE 10 CHANNEL Analog Cross Connect Block Diagram (19C852276, Rev. 2)LBI-38924LBI-38924 8LBI-38924LBI-38924This page intentionally left blank9。
NCP101X产品数据手册(中文)
1NCP1010, NCP1011, NCP1012, NCP1013, NCP1014低待机功耗离线SMPS的自给式单片转换器NCP101X 系列集成了一个固定频率的电流模式控制器和一个700V 的MOSFET 。
NCP101X 采用PDIP-7 双列直插或SOT-223封装,可提供构造可靠,低成本电源所需的一切,包括软启动,频率抖动,短路保护,跳周期模式(skip cycle ),最大峰值电流调整和动态自供电(无需辅助线圈)。
不像其他的单片解决方案,NCP101X 本来就是没有噪声的:在额定负载工作期间,器件的转换频率为65-100-130kHz 中的一种。
当电流调整值降到给定值以下,例如,输出功率的需求减小,IC 会自动进入通常所说的skip-cycle 模式,从而在较轻负载下提供出色的效率。
因为此时典型的电流值为最大峰值的1/4,所以没有音频噪声。
因此,在待机功耗降到最小的同时,不会产生噪声。
当反馈信号减弱,例如,发生短路或光耦合器损坏时,会进行短路检测。
通过下拉反馈脚的电压或使它经过一个SCR 接地以进行完全锁存,可实现外部禁用。
最后,软启动和频率抖动进一步简化了设计者的工作,可以快速开发出低成本,可靠的离线电源。
为了提高待机性能,连接辅助线圈可停止DSS 工作,在高压下消耗少于100mW 的功率。
在这种模式下,内置的锁存过压保护可以避免在光耦合器损坏时出现致命的电压失控。
这些器件采用经济的8引脚双列直插式和4引脚SOT-223封装。
订购信息参见该数据手册21页封装尺寸部分详细的订购和发货信息。
特点• 内置700V MOSFET ,典型的R Dson 为11Ω和22Ω• 高电压引脚之间有较大的爬电距离• 电流模式固定频率工作:65kHz-100kHz-130kHz • 仅在低峰值电流下的Skip-cycle 工作:无音频噪声!• 动态自供电,无需辅助线圈• 内部1.0ms 的软启动• 带有辅助线圈工作的锁存过压保护• 频率抖动从而有更好的EMI 特征• 自动恢复的内部输出短路保护• 使用辅助线圈时有低于100mW 的待机功耗• 内部热关闭• 直接光耦合器连接• 提供用于瞬态分析的SPICE 模型• 可提供无铅封装典型应用• 用于充电器的低功率AC/DC 适配器• 辅助电源(USB ,办公设备,TV 等)鑫龙国际电子(香港)有限公司本公司提供NCP101X芯片和以此制作的小型电源和大功率LED驱动评估板、各类电源和LED镇流器2引脚连接NCP1014的最大输出功率特征值R Dson -Ip230Vac100-250Vac11Ω-450 mA 动态自供电14W 6.0W 11Ω-450 mA 辅助线圈19W8.0W1. 仅为特征值:Tamb=50℃, Fswitching=65kHz, 电路安装在推荐的最小敷铜区域内。
1210B102xxx资料
元器件交易网Multilayer Ceramic Chip Capacitors Products – NPO, X7R, Y5VHOW TO ORDER 0603 N 101 J 500 N T Packaging Code T = 7” reel/paper tape Termination N = Ag/Ni/SnPb B = Cu/Ni/SnPb B = Bulk L = Ag/Ni/Sn C = Cu/Ni/Sn 251 = 250V 501 = 500V 102 = 1000VVoltage (VDCW) 100 = 10V 500 = 50V 160 = 16V 101 = 100V 250 = 25V 201 = 200VAPPLICATIONS ∗ ∗ ∗ ∗ ∗ LC and RC tuned circuit Filtering, Timing, & Blocking Coupling & Bypassing Frequency discriminating DecouplingCapacitance Tolerance (EIA Code) B = ±0.1pF F = ±1% K = ±10% C = ±0.25pF G = ±2% M = ±20% Z = -20+80% D = ±0.50pF J = ±5% Capacitance Two significant digits followed by # of zeros (e.g. 101 = 100pF, 102 = 1000pF, 103 = 10nF) Dielectric N = COG (NPO) Size Code 0402 0805 0603 1206 B = X7R 1210 1804 F = Y5VSCHEMATICL WT1812EENPO ∗ ∗ ∗ ∗ ∗ Ultra-stable Low dissipation factor Tight tolerance available Good frequency performance No aging of capacitance ∗ ∗ ∗ ∗X7R Semi-stable High K High volumetric efficiency Highly reliable in high temp. applications High insulation resistanceY5V ∗ High volumetric efficiency ∗ Non-polar construction ∗ General purpose, High KDIMENSIONS Size Length (L) Width (W) Termination (E) 0402 .040±0.0002 1.00±0.05 0.020±0.002 0.50±0.05 .010+.002/-.004 0.25+0.05/-0.10 0603 0.063±0.004 1.60±0.10 0.03±0.004 0.80±0.07 0.015±0.006 0.40±0.15 0805 0.080±0.006 2.00±0.15 0.050±0.006 1.25±0.15 0.020±0.008 0.50±0.20 1206 0.125±0.006 3.20±0.15 0.063±0.006 1.60±0.15 0.025±0.008 0.60±0.20 1210 0.125±0.012 3.20±0.30 0.100±0.008 2.50±0.20 0.030±0.010 0.75±0.25 1808 0.180±0.015 4.50±0.40 0.081±0.010 2.03±0.25 0.030±0.010 0.75±0.25 1812 0.180±0.015 4.50±0.40 0.125±0.012 3.20±0.30 0.030±0.010 0.75±0.25ELECTRICAL RATING Dielectric Capacitance Range Capacitance Tolerance Dissipation Factor T.C.C. Test Parameters (@25°C) Operating Temperature Insulation Resistance ≤100pF >1000pF NPO (COG) 0.5pF ~ 10nF ±0.1pF, ±0.25pF, ±0.50pF ±1%, ±2%, ±5%, ±10% >30pF, 0.1% Max 0±30ppm/°C 1.0±0.2Vrms, 1MHz±10% 1.0±0.2Vrms, 1KHz±10% -55 ~ +125°C @ 25°C +25°C, 10GΩ min or 500Ω-F min, whichever is less X7R (BME) 100pF ~ 1µF ±5%, ±10%, ±20% 6.3V: 10V & 16V: 25V & 50V: 5.0% 3.5% 2.5% Y5V 10nF ~ 10µF ±20%, -20+80% 6.3V: 10V & 16V: 25V & 50V: 5.0% 3.5% 2.5%0±15ppm/°C 1.0±0.2Vrms, 1KHz±10% -55 ~ +125°C @ 25°C +25°C, 10GΩ min or 500Ω-F min, whichever is less+30%/-80%ppm/°C 1.0±0.2Vrms, 1KHz±10% -25 ~ +85°C @ 20°C +25°C, 10GΩ min or 500Ω-F min, whichever is less570 West Lambert Road, Suite M, Brea, CA 92821 TEL: 714-255-9186 FAX: 714-255-9291American Accurate Components, Inc.1元器件交易网10 Volts – 50 VoltsDIELECTRIC SIZE EIA Cap Code VDCW 0R5 0.5pF 1R0 1 1R2 1.2 1R5 1.5 1R8 1.8 2R2 2.2 2R7 2.7 3R3 3.3 3R9 3.9 4R7 4.7 5R6 5.6 6R8 6.8 8R2 8.2 100 10pF 120 12 150 15 180 18 220 22 270 27 330 33 390 39 470 47 560 56 680 68 820 82 101 100pF 121 120 151 150 181 180 221 220 271 270 331 330 391 390 471 470 561 560 681 680 821 820 102 1000pF 122 1200 152 1500 182 1800 222 2200 272 2700 332 3300 392 3900 472 4700 562 5600 682 6800 822 8200 103 .010µF 123 12000 153 15000 183 18000 223 22000 273 27000 333 33000 393 0.39µFMLCC Products – NPO TypeNPO 10 N N N N N N N N N N N N N N N N 0402 16 25 N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N 50 N N N N N N N N N N N N N N 10 S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S 0603 16 25 S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S 50 S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S 10 A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A B B B B B B B B B B D D D D D D D D 0805 16 25 A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A B B B B B B B B B B B B B B B B B B B B D D D D D D D D D D D D 50 A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A B B B B B B B B B B D D D 10 1206 16 25 50 10 1210 16 25 50 10 1812 16 25 50B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C D D D D D D D GB B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C D D D D D D D GB B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C CB B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C CC C C C C C C C C C C C C C C C C C C C C C C C C C C C C CC C C C C C C C C C C C C C C C C C C C C C C C C C C C C CC C C C C C C C C C C C C C C C C C C C C C C C C C C C C CC C C C C C C C C C C C C C C C C C C C C C C C C C C C C CD D D D D D D D D D D D DD D D D D D D D D D D D DD D D D D D D D D D D D DD D D D D D D D D D D D D* Variations of size, capacitance, voltage, and 13” reel are available upon request.570 West Lambert Road, Suite M, Brea, CA 92821 TEL: 714-255-9186 FAX: 714-255-9291American Accurate Components, Inc.2元器件交易网100 Volts – 3000 VoltsMLCC Products – NPO TypeDIELECTRIC NPO EIA SIZE 0603 0805 1206 1210 CODE VDCW 100 100 200 250 500 100 200 250 500 1000 2000 100 200 250 500 1000 2000 100 200 0R5 0.5pF S A A A A B B B B B B 1R0 1 S A A A A B B B B B B 1R2 1.2 S A A A A B B B B B B 1R5 1.5 S A A A A B B B B B B 1R8 1.8 S A A A A B B B B B B 2R2 2.2 S A A A A B B B B B B 2R7 2.7 S A A A A B B B B B B 3R3 3.3 S A A A A B B B B B B 3R9 3.9 S A A A A B B B B B B 4R7 4.7 S A A A A B B B B B B 5R6 5.6 S A A A A B B B B B B 6R8 6.8 S A A A A B B B B B B 8R2 8.2 S A A A A B B B B B B 100 10pF S A A A A B B B B B B C C C C C C D D 120 12 S A A A A B B B B B B C C C C C C D D 150 15 S A A A A B B B B B B C C C C C C D D 180 18 S A A A A B B B B B B C C C C C C D D 220 22 S A A A A B B B B B B C C C C C C D D 270 27 S A A A A B B B B B B C C C C C C D D 330 33 S A A A A B B B B B B C C C C C C D D 390 39 S A A A A B B B B B B C C C C C C D D 470 47 S A A A A B B B B B B C C C C C C D D 560 56 S A A A A B B B B B C C C C C C D D D 680 68 S A A A B B B B B B C C C C C C D D D 820 82 S A A A B B B B B B C C C C C D D D 101 100pF S A A A C B B B B C C C C C C D D D 121 120 S A C C C B B B B C C C C C C D D D 151 150 S A C C D B B B B C C C C C D D D 181 180 S A D D B B B B C C C C C D D D 221 220 S A B B B B C C C C C D D D 271 270 S A B B B C C C C C C D D 331 330 S A B B B C C C C C D D D 391 390 B B B B C C C C C D D D 471 470 B B C C C C C C D D D 561 560 B B C C C C D D 681 680 B C C C C D D 821 820 B C C C C D D 102 1000pF B C C C C D D 122 1200 B C D D D D 152 1500 C C D D D D 182 1800 C C D D D D 222 2200 C D D D D 272 2700 C D D D D 332 3300 C D 392 3900 D 472 4700 D 562 5600 682 6800 822 8200 103 .010µF * Variations of size, capacitance, voltage, and 13” reel are available upon request. TAPE/REEL PACKAGE TYPE, QUANTITY, AND AVAILABILITY Thickness in mm A = 0.65 + 0.05/-0.15 B = 0.85 + 0.5/-0.15 C = 1.00 + 0.05/-0.15 D = 1.2 + 0.15 G = 1.60 + 0.05/-0.15 K = 2.00 + 0.2 M = 2.5 + 0.3 N = 0.5 + 0.05 S = 0.8 + 0.07 0402 Type Qty Paper 10K 0603 Type Qty Paper 4K 0805 Type Qty Paper 4K Paper 4K Plastic 3K Plastic 3K 1206 Type Qty Paper 4K Paper 4K Plastic 3K Plastic 3K Plastic 2K -1812 1808 250 500 1000 2000 3000 1000 2000 3000D D D D D D D D D D D D D D D D D D D D D D D D D D D D D DD D D D D D D D D D D D D D D D D D D D D D D D D D D DD D D D D D D D D D D D D D D D D D D D D D D DD D D D D D D D D D D D D D D D D D D DD D D D DC C C C C C C C C C C C C K K K K K KC C C C C C C C C C C K K K K KC C C C C C C C C C C C C C1210 Type QtyPlastic Plastic Plastic Plastic Plastic -3K 3K 2K 2K 1K -1808 Type Qty Plastic 2K Plastic 2K Plastic 1K Plastic 1K -1812 Type Qty Plastic 1K Plastic 1K Plastic 1K Plastic 1K -570 West Lambert Road, Suite M, Brea, CA 92821 TEL: 714-255-9186 FAX: 714-255-9291American Accurate Components, Inc.3元器件交易网10 Volts – 50 VoltsMLCC Products – X7R TypeDIELECTRIC X7R SIZE 0402 0603 0805 EIA Cap Code VDCW 10 16 25 50 10 16 25 50 10 16 25 50 10 101 100pF N N N N S S S S B B B B 121 120 N N N N S S S S B B B B 151 150 N N N N S S S S B B B B 181 180 N N N N S S S S B B B B 221 220 N N N N S S S S B B B B B 271 270 N N N N S S S S B B B B B 331 330 N N N N S S S S B B B B B 391 390 N N N N S S S S B B B B B 471 470 N N N N S S S S B B B B B 561 560 N N N N S S S S B B B B B 681 680 N N N N S S S S B B B B B 821 820 N N N N S S S S B B B B B 102 1000pF N N N N S S S S B B B B B 122 1200 N N N N S S S S B B B B B 152 1500 N N N N S S S S B B B B B 182 1800 N N N N S S S S B B B B B 222 2200 N N N N S S S S B B B B B 272 2700 N N N S S S S B B B B B 332 3300 N N N S S S S B B B B B 392 3900 N N N S S S S B B B B B 472 4700 N N S S S S B B B B B 562 5600 N N S S S S B B B B B 682 6800 N N S S S S B B B B B 822 8200 N N S S S S B B B B B 103 N N S S S S B B B B B .010µF 123 .012 N N S S S S B B B B B 153 .015 N N S S S S B B B B B 183 .018 S S S S B B B B B 223 .022 S S S S B B B B B 273 .027 S S S S B B B B B 333 .033 S S S B B B B B 393 .039 S S S B B B B B 473 .047 S S S B B B B B 563 .056 S S S B B B B B 683 .068 S S S B B B B B 823 .082 S S B B B D B 104 S S B B B D B .100µF 154 .150 D D D C 184 .180 D D D C 224 .220 D D D C 334 .330 C 474 .470 684 .680 824 .820 105 1.00µF * Variations of size, capacitance, voltage, and 13” reel are available upon request. TAPE/REEL PACKAGE TYPE, QUANTITY, AND AVAILABILITY Thickness in mm A = 0.65 + 0.05/-0.15 B = 0.85 + 0.5/-0.15 C = 1.00 + 0.05/-0.15 D = 1.2 + 0.15 F = 1.40 + 0.05/-0.15 G = 1.60 + 0.05/-0.15 S = 0.8 + 0.07 N = 0.5 + 0.05 0402 – 0603 Type Quantity 0805 – 1206 Type Quantity Paper 4K/Reel Paper 4K/Reel Plastic 3K/Reel Plastic 3K/Reel Plastic 2K/Reel Plastic 2K/Reel Type 1210 Quantity Type 1808 Quantity Type 1812 Quantity1206 16 2550101210 16 2550101812 16 2550B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C C CB B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C C CB B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C CC C C C C C C C C C C C C C C C C C C C C C C C C C C C C C CC C C C C C C C C C C C C C C C C C C C C C C C C C C C C C CC C C C C C C C C C C C C C C C C C C C C C C C C C C C C C CC C C C C C C C C C C C C C C C C C C C C C C C C C C C C CD D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D DD D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D DD D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D DD D D D D D D D D D D D D D D D D D D D D D D D D D D D D D DPlastic Plastic Plastic Plastic3K/Reel 3K/Reel 2K/Reel 2K/ReelPlastic Plastic Plastic Plastic3K/Reel 3K/Reel 1K/Reel 1K/ReelPlastic Plastic Plastic1K/Reel 1K/Reel 1K/ReelPaper Paper4K/Reel 10K/Reel570 West Lambert Road, Suite M, Brea, CA 92821 TEL: 714-255-9186 FAX: 714-255-9291American Accurate Components, Inc.4元器件交易网100 Volts – 3000 VoltsMLCC Products – X7R TypeDIELECTRIC X7R EIA SIZE 0603 0805 1206 1210 1812 1808 CODE VDCW 100 100 200 250 500 100 200 250 500 1000 1000 2000 100 200 250 500 1000 100 200 250 500 1000 2000 1000 1500 3000 101 100pF S B B B B 121 120 S B B B B 151 150 S B B B B 181 180 S B B B B B B B B B B B 221 220 S B B B B B B B B B B B 271 270 S B B B B B B B B B B B 331 330 S B B B B B B B B B B B 391 390 S B B B B B B B B B B B 471 470 S B B B B B B B B B B B D D C C C 561 560 S B B B B B B B B B B C D D C C C 681 680 S B B B B B B B B B B C D D C C C 821 820 S B B B B B B B B B G G D D C C C 102 1000pF S B B B B B B B B B G G C C C C C D D D D D D C C K 122 1200 S B B B B B B B B B G G C C C C C D D D D D D C C K 152 1500 S B B B B B B B B B G C C C C C D D D D D D C C 182 1800 S B B B B B B B B B G C C C C C D D D D D D C C 222 2200 S B B B B B B B B C G C C C C C D D D D D D C C 272 2700 S B B B B B B B D G C C C C C D D D D D D C D 332 3300 S B B B B B B B G G C C C C D D D D D D D C D 392 3900 S B B B B B B B G G C C C C D D D D D D C 472 4700 S B B B B B B B G G C C C C D D D D D D C 562 5600 S B B B B B G C C C C D D D D D D C 682 6800 S B B B B B G C C C C D D D D D D C 822 8200 S B B B B C C C C C D D D D D D 103 S B B B B C C C C C D D D D D D .010µF 123 .012 S B B B B C C C C D D D D 153 .015 S B B C C C C C C D D D D 183 .018 B B C C C C C C D D D D 223 .022 B C C C C C D D D D D 273 .027 B C C C C C D D D D 333 .033 B C C C D D D D 393 0.39 B C C C D D D D 473 .047 B C D D D D D D 563 .056 B C D D D 683 .068 C C D D D 823 .082 C C D D D 104 D C D D D .100µF 124 .120 D C D D D 154 .150 C D 184 .180 C D 224 .220 C D 334 .330 D 474 .470 D 684 .680 824 .820 105 1.00µF * Variations of size, capacitance, voltage, and 13” reel are available upon request. TAPE/REEL PACKAGE TYPE, QUANTITY, AND AVAILABILITY Thickness in mm A = 0.65 + 0.05/-0.15 B = 0.85 + 0.5/-0.15 C = 1.00 + 0.05/-0.15 D = 1.2 + 0.15 F = 1.40 + 0.05/-0.15 G = 1.60 + 0.05/-0.15 K = 2.00 + 0.2 S = 0.8 + 0.07 N = 0.5 + 0.05 0603-0805-1206 Type Quantity Paper 4K/Reel Paper 4K/Reel Plastic 3K/Reel Plastic 3K/Reel Plastic 2K/Reel Plastic 2K/Reel Type 1210 Quantity Type 1808 Quantity Type 1812 QuantityPlastic Plastic Plastic Plastic3K/Reel 3K/Reel 2K/Reel 2K/ReelPlastic Plastic Plastic Plastic Plastic3K/Reel 3K/Reel 1K/Reel 1K/Reel 1K/ReelPlastic Plastic Plastic Plastic1K/Reel 1K/Reel 1K/Reel 1K/Reel570 West Lambert Road, Suite M, Brea, CA 92821 TEL: 714-255-9186 FAX: 714-255-9291American Accurate Components, Inc.5元器件交易网10 Volts – 50 VoltsMLCC Products – Y5V TypeDIELECTRIC Y5V SIZE 0402 0603 0805 EIA Cap Code VDCW 10 16 25 50 10 16 25 50 10 16 25 50 10 103 N N N S S S S A A A A B .010µF 123 .012 N N N S S S S A A A A B 153 .015 N N N S S S S A A A A B 183 .018 N N N S S S S A A A A B 223 .022 N N N S S S S A A A A B 273 .027 N N N S S S S A A A A B 333 .033 N N N S S S S A A A A B 393 .039 N N N S S S S A A A A B 473 .047 N N N S S S S A A A A B 563 .056 N N S S S S A A A A B 683 .068 N N S S S S A A A A B 823 .082 N N S S S S A A A A B 104 N N S S S S A A A A B .100µF 154 .150 S S S S A A A A B 224 .220 S S S A A A A B 334 .330 S S B B B B 474 .470 S S B B B B 684 .680 S B B B 105 S B B C 1.00µF 155 1.50 C 225 2.20 C 335 3.30 D 475 4.75 D 106 10µF * Variations of size, capacitance, voltage, and 13” reel are available upon request.1206 16 25 B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C C C C C D D D D50 B B B B B B B B B B B B B B B B B101210 16 2550101812 16 2550C C C C C C CC C C C C C CC C C C C C CC C C CD D D D D D DD D D D D D DD D D D D D DD D D D D D D100 Volts – 500 VoltsDIELECTRIC Y5V SIZE 0805 1206 1812 EIA Cap Code VDCW 100 200 250 500 100 200 250 500 100 200 250 103 B B B B B .010µF 123 .012 B B B B B 153 .015 B B B B B 183 .018 B B B B B 223 .022 B B B B B 273 .027 B B B B B 333 .033 B B B B B 393 .039 B B B B B 473 .047 B B B B 563 .056 B B B B 683 .068 B B B B 823 .082 B C C C 104 B C C C D D D .100µF 154 .150 C D D D 224 .220 C D D D 334 .330 D D D 474 .470 D D D * Variations of size, capacitance, voltage, and 13” reel are available upon request. TAPE/REEL PACKAGE TYPE, QUANTITY, AND AVAILABILITY Thickness in mm A = 0.65 + 0.05/-0.15 B = 0.85 + 0.5/-0.15 C = 1.00 + 0.05/-0.15 D = 1.2 + 0.15 F = 1.40 + 0.05/-0.15 G = 1.60 + 0.05/-0.15 K = 2.00+0.2mm S = 0.8 + 0.07 N = 0.5 + 0.05 0402 – 0603 Type Quantity 0805 – 1206 Type Quantity Paper 4K/Reel Paper 4K/Reel Plastic 3K/Reel Plastic 3K/Reel Plastic 2K/Reel Plastic 2K/Reel Type 1210 Quantity Type 1808 Quantity Type 1812 Quantity 500Plastic Plastic Plastic Plastic3K/Reel 3K/Reel 2K/Reel 2K/ReelPlastic Plastic Plastic Plastic3K/Reel 3K/Reel 1K/Reel 1K/ReelPlastic Plastic Plastic Plastic1K/Reel 1K/Reel 1K/Reel 1K/ReelPaper Paper4K/Reel 10K/Reel570 West Lambert Road, Suite M, Brea, CA 92821 TEL: 714-255-9186 FAX: 714-255-9291American Accurate Components, Inc.6元器件交易网MLCC Products – PackagingPACKAGING ON TAPE AND REEL Size 0603 0805 T (mm) 0.90~0.70 0.70~0.50 0.90~0.70 1.05~0.85 1.35~1.05 0.90~0.70 1.05~0.85 1.35~1.05 1.05~0.85 1.35~1.05 1.05~0.85 2.15~1.85 1.35~1.05 Tape Paper Tape Paper Tape Paper Tape Plastic Tape Plastic Tape Paper Tape Plastic Tape Plastic Tape Plastic Tape Plastic Tape Plastic Tape Plastic Tape Plastic Tape Quantity 4,000/Reel 4,000/Reel 4,000/Reel 3,000/Reel 3,000/Reel 4,000/Reel 3,000/Reel 3,000/Reel 3,000/Reel 3,000/Reel 3,000/Reel 1,000/Reel 1,000/ReelAREEL FOR TAPINGTaping is in accordance with EIA RS-481 or IEC 286-3TB* C N D1206 1210 1808 1812GUnit: mm Symbol DimensionA 178 ± 2.0N 50 minC 130 ± 0.5D 20 min.B 2.0±0.5G 10.0± 1.5T 14.9max1. PAPER TAPE DIMENSIONSt Feeding hole D A B Chip Capacitors Unlt:mm P P P Direction of FeedE2. PLASTIC TAPE DIMENSIONSChip pocket t Feeding hole D A B Chip Capacitors P Po PChip pocketEF WFWk Unlt:mmDirection of FeedPAPER TAPE W F E P1 P2 P0 ∅P t1 Dimensions in mm 8.0 ± 0.3 3.5 ± 0.05 1.75 ± 0.1 4.0 ± 0.1 2.0 ± 0.05 4.0 ± 0.1 1.5 + 0.1 –0 1.2 maximumPLASTIC TAPE W F E P1 P2 P0 ∅P t1 K Dimension in mm 8.0 ± 0.3 3.5 ± 0.05 1.75 ± 0.1 4.0 ± 0.1 2.0 ± 0.05 4.0 ± 0.1 1.5 + 0.1 –0 0.3 maximum 2.0 maximum570 West Lambert Road, Suite M, Brea, CA 92821 TEL: 714-255-9186 FAX: 714-255-9291American Accurate Components, Inc.7。
001csc101(2)a(b)工程应用培训教材v1.0
CSC101(2)A(B)工程应用培训教材教材编号:PXJC001版本:V1.0编制:赵建新审核:黄守宏批准:孙金诚出版日期:2006年1月目录一、简介 (1)1、型号含义 (1)2、主要功能 (1)3、本培训教材在CPU版本V1.20基础上编写。
(1)二、运行操作篇 (2)1、面板各灯的含义 (2)2、循环显示内容 (2)3、报警信息及其含义 (2)4、面板各键的作用 (4)5、什么情况要停保护 (5)6、什么情况不能停保护 (5)7、运行中可以进行哪些操作 (5)8、运行中不可以进行哪些操作 (5)9、如何切换定值区 (6)10、如何切换压板 (6)11、如何打印定值 (6)12、如何打印报告 (6)13、如何打印、查看版本 (7)三、调试篇 (8)一、直流试验 (8)一)开出试验 (8)1、A型保护开出试验项目 (8)2、B型保护开出试验项目 (9)二)开入试验 (11)二、交流试验 (11)1、零漂检查 (11)2、刻度调整 (12)3、模拟量精度及线性度检查测试 (12)4、模拟量极性检查 (12)5、保护动作值检验和动作时间测量 (12)5.1试验接线图: (13)5.2高频保护试验: (13)5.3 距离保护试验 (15)5.4 零序保护试验 (16)5.5 重合闸试验 (18)5.6 过流保护试验 (18)四、维护篇 (20)1、运行中应该保留装置的哪些信息? (20)2、运行中各种报警、异常的处理 (20)3、监控远动与保护配合的问题:现象、原因与处理 (21)4、保护与其它装置配合的问题:现象、原因与处理 (22)5、设备更换软件或CPU后的操作 (22)6、设备更换软件或MASTER板后的操作 (22)7、设备更换开入或开出插件后的操作 (23)8、更换交流插件后的操作 (23)9、几点说明 (23)一、简介1、型号含义CSC-101A/B、CSC-102A/B、CSC-101C/D数字式超高压线路保护装置(以下简称CSC-101、 CSC-102装置或产品),适用于220kV及以上电压等级的高压输电线路,其主要功能包括纵联距离保护、纵联方向保护、三段式距离保护、四段式零序保护、综合重合闸等。
A-101
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61082FIBER OPTIC PIN PHOTODIODE Mii
OPTOELECTRONIC PRODUCTS
DIVISION
Features:
• Hermetically
sealed
•Optimized for fiber optic applications using 50-200µm fiber
•Electrically isolated TO-46 package
•Spectrally matched to the 62074 series LED.A pplications:
• Mobile
communication
links • Computer
peripherals
• Computer
links •Industrial control links
DESCRIPTION
The 61082 is designed for high speed use in fiber optic receivers. The case is electrically isolated to enhance EMI/RFI shielding. The Pin Photodiodes are designed to interface with multimode optical fibers from 50-125 microns. Available custom binned to customer specifications and/or screened to MIL-PRF-19500.
ABSOLUTE MAXIMUM RATINGS
Storage Temperature...........................................................................................................................................-65°C to +150°C Operating Temperature (See part selection guide for actual operating temperature)....................................... -55°C to +125°C Reverse Voltage.. (25V)
Power Dissipation (Derate at the rate of 2.0 mW/°C above 25°C)....................................................................................200mW Lead Soldering Temperature (1/16” (1.66mm) from case for 5 sec. with soldering iron)................................................... 240°C
Package Dimensions Schematic Diagram
61082 FIBER OPTIC PIN PHOTODIODE ELECTRICAL CHARACTERISTICS
T A = 25°C unless otherwise specified.
PARAMETER SYMBOL MIN TYP MAX UNITS TEST CONDITIONS NOTE Flux Responsivity 61082-XXX R0.400.55A/W V R= 5.0V2
Dark Current 61082-XXX I D10nA V R = 5V, H = 0
Peak Response Wavelength 61082-XXXλP880nm
Rise Time 61082-XXX t r10nS V R= 15V1
Total Capacitance 61082-XXX C T6pF V R= 20V
Field of View 61082-XXX F OV80degrees
NOTES:
1. R L = 50Ω, 10%-90%.
2. Test @ V R = 5V with 50/125 micron, 0.20 N.A. fiber, @ 10µW optical power @ 850nm. Responsivity levels apply to 50µm, 62.5µm and 100µm core optical
fibers.
RECOMMENDED OPERATING CONDITIONS:
PARAMETER SYMBOL MIN MAX UNITS
Reverse Voltage V R510V
2
Irradiance (H)H1525mW/cm
SELECTION GUIDE
PART NUMBER PART DESCRIPTION I
L Range
61082-001Photodiode in coax package, domed lens, commercial version+5µA
61082-101Photodiode in coax package, domed lens (-55° to +100°C) with 100% screening+5µA。