ZX05-C60LH-S中文资料

PT-7728SeriesIEC61850-324+4G-port Layer2Gigabit modular managed rackmount EthernetswitchesFeatures and Benefits•IEC61850-3,IEEE1613(power substations),and EN50121-4(railwayapplications)compliant•IEC62439-3Clause4(PRP)and Clause5(HSR)compliant1•Built-in MMS server based on IEC61850-90-4switch data modeling forpower SCADA•Complies with a portion of EN50155specifications•Turbo Ring and Turbo Chain(recovery time<20ms@250switches),2RSTP/STP,and MSTP for network redundancy•VLAN Unaware:Supports priority-tagged frames to be received by specificIEDs•Up to12ports with M12connectors•Isolated redundant power inputs with universal24VDC,48VDC,or110/220VDC/VAC power supply range•-40to85°C operating temperature rangeCertificationsIntroductionThe PT-7728is designed to meet the demands of power substation automation systems(IEC61850-3,IEEE1613),and railway applications(EN 50121-4),and also features critical packet prioritization(GOOSE and SMVs)and a built-in MMS server.The PT-7728’s Gigabit and Fast Ethernet backbone,redundant ring,and24VDC,48VDC,or110/220VDC/VAC dual isolated redundant power supplies increase the reliability of your communications and save on cabling/wiring costs.The modular design of the PT-7728also makes network planning easy,and allows greater flexibility by letting you install up to4Gigabit ports and24Fast Ethernet ports.Along with the optional front or rear wiring,these features together make the PT-7728suitable for a variety of industrial applications.Additional Features and Benefits•Switch data modeling based on the IEC61850-90-4standard •IEEE1588v2PTP(Precision Time Protocol)for time synchronization of networks(PTP models only)•VLAN Unaware:Supports priority-tagged frames to be received by specific IEDs•DHCP Option82for IP address assignment with different policies •EtherNet/IP and Modbus TCP industrial Ethernet protocols supported•Line-swap fast recovery•Configurable by web browser,Telnet/serial console,CLI,Windows utility,and ABC-01automatic backup configurator •IGMP snooping and GMRP for filtering multicast traffic from industrial Ethernet protocols•Supports advanced VLAN capability with Q-in-Q tagging•IEEE802.3ad,LACP for optimum bandwidth utilization•Bandwidth management to prevent unpredictable network status •Multi-port mirroring for online debugging•Automatic warning by exception through email and relay output •RMON for proactive and efficient network monitoring•Automatic recovery of connected device’s IP addressesCybersecurity Features•User passwords with multiple levels of security protect against unauthorized configuration•SSH/HTTPS is used to encrypt passwords and data•Lock switch ports with802.1X port-based network access control so that only authorized clients can access the port•RADIUS/TACACS+allows you to manage passwords from a central location •802.1Q VLAN allows you to logically partition traffic transmitted between selected switch ports•Secure switch ports so that only specific devices and/or MAC addresses can access the ports•Disable one or more ports to block network traffic•SNMPv3provides encrypted authentication and access security1.Only available with PM-7200-4GTX-PHR-PTP and PM-7200-4GSFP-PHR-PTP modules.2.Gigabit Ethernet recovery time<50msSpecificationsEthernet InterfaceCabling Direction PT-7728-F Series:Front cablingPT-7728-R Series:Rear cablingCompatible Modules Slot1/2/3:PM-7200-8TXPM-7200-2MSC4TXPM-7200-2MST4TXPM-7200-2SSC4TXPM-7200-4MSC2TXPM-7200-4MST2TXPM-7200-4SSC2TXPM-7200-6MSCPM-7200-6MSTPM-7200-6SSCPM-7200-8SFPPM-7200-4M12PM-7200-8MTRJPM-7200-4TX-PTP(PT-7728-PTP only)PM-7200-4MST-PTP(PT-7728-PTP only)PM-7200-4MSC-PTP(PT-7728-PTP only)Slot4:PM-7200-4GTXSFPPM-7200-2GTXSFPPM-7200-4GSFP-PHR-PTP(PT-7728-PTP only)PM-7200-4GTX-PHR-PTP(PT-7728-PTP only)PM-7200-1BNC2MST-PTP(PT-7728-PTP only)Standards IEEE802.1D-2004for Spanning Tree ProtocolIEEE802.1p for Class of ServiceIEEE802.1Q for VLAN TaggingIEEE802.1s for Multiple Spanning Tree ProtocolIEEE802.1w for Rapid Spanning Tree ProtocolIEEE802.1X for authenticationIEEE802.3for10BaseTIEEE802.3ab for1000BaseT(X)IEEE802.3ad for Port Trunk with LACPIEEE802.3u for100BaseT(X)and100BaseFXIEEE802.3x for flow controlIEEE802.3z for1000BaseSX/LX/LHX/ZXEthernet Software FeaturesFilter802.1Q,GMRP,GVRP,IGMP v1/v2c,QinQ VLAN,VLAN unawareIndustrial Protocols EtherNet/IP,Modbus TCPManagement Back Pressure Flow Control,BOOTP,DHCP Option66/67/82,DHCP Server/Client,Flowcontrol,HTTP,IPv4/IPv6,LLDP,Port Mirror,RARP,RMON,SMTP,SNMP Inform,SNMPv1/v2c/v3,Syslog,Telnet,TFTP,Fiber checkMIB Bridge MIB,Ethernet-like MIB,MIB-II,P-BRIDGE MIB,Q-BRIDGE MIB,RMON MIBGroups1,2,3,9,RSTP MIBPower Substation IEC61850QoS,MMSRedundancy Protocols All models:Link Aggregation,MSTP,RSTP,STP,Turbo Chain,Turbo Ring v1/v2PTP models:HSR,PRPSecurity Broadcast storm protection,HTTPS/SSL,TACACS+,Port Lock,RADIUS,Rate Limit,SSHTime Management All models(except PTP models):NTP Server/Client,SNTPPTP models:NTP Server/Client,SNTP,IEEE1588PTP v1/v2(hardware-based)Switch PropertiesIGMP Groups256Max.No.of VLANs64VLAN ID Range VID1to4094Priority Queues4Serial InterfaceConsole Port RS-232(RJ45)Input/Output InterfaceAlarm Contact Channels Resistive load:3A@30VDC,240VACPower ParametersInput Voltage-24-24/-48-48/-HV-HV/-24-HV/-48-HV models:Redundant power modulesPT-7728-24Series:24VDC(18to36VDC)PT-7728-48Series:48VDC(36to72VDC)PT-7728-HV Series:110/220VAC/VDC(85to264VAC,88to300VDC) Overload Current Protection SupportedReverse Polarity Protection SupportedConnection10-pin terminal blockInput Current PT-7728-24Series:2.38A@24VDCPT-7728-48Series:1.12A@48VDCPT-7728-HV Series:0.49/0.26A@110/220VAC,0.59/0.30A@110/220VDC Physical CharacteristicsHousing AluminumIP Rating IP30Dimensions(without ears)440x44x325mm(17.32x1.73x12.80in)Weight5900g(13.11lb)Installation19-inch rack mountingEnvironmental LimitsOperating Temperature-40to85°C(-40to185°F)Note:Cold start requires minimum of100VAC@-40°CStorage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsSafety UL60950-1EMI EN55032Class A,CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:8kV;Air:15kVIEC61000-4-3RS:80MHz to1GHz:35V/mIEC61000-4-4EFT:Power:4kV;Signal:4kVIEC61000-4-5Surge:Power:4kV;Signal:4kVIEC61000-4-6CS:10VIEC61000-4-8PFMFIEC61000-4-11DIPsPower Substation IEC61850-3,IEEE1613Railway EN50121-4,EN50155(complies with a portion of EN50155specifications)Traffic Control NEMA TS2MTBFTime393,828hrsStandards Telcordia SR332WarrantyWarranty Period5yearsDetails See /warrantyPackage ContentsDevice1x PT-7728Series switchCable1x DB9female to RJ4510-pinInstallation Kit4x cap,plastic,for RJ45port2x rack-mounting earDocumentation1x document and software CD1x quick installation guide1x warranty card1x product certificates of quality inspection,Simplified Chinese1x product notice,Simplified ChineseNote SFP modules and/or modules from the PM-7200Module Series need to be purchasedseparately for use with this product.DimensionsOrdering Information12PT-7728-F-2428Up to4Up to24Front–24VDC–-45to85°C PT-7728-R-2428Up to4Up to24Rear–24VDC–-45to85°C PT-7728-F-24-2428Up to4Up to24Front✓24VDC24VDC-45to85°C PT-7728-R-24-2428Up to4Up to24Rear✓24VDC24VDC-45to85°CPT-7728-F-24-HV28Up to4Up to24Front✓24VDC 110/220VDC/VAC-45to85°CPT-7728-R-24-HV28Up to4Up to24Rear✓24VDC 110/220VDC/VAC-45to85°CPT-7728-F-4828Up to4Up to24Front–48VDC–-45to85°C PT-7728-R-4828Up to4Up to24Rear–48VDC–-45to85°C PT-7728-F-48-4828Up to4Up to24Front✓48VDC48VDC-45to85°C PT-7728-R-48-4828Up to4Up to24Rear✓48VDC48VDC-45to85°CPT-7728-F-48-HV28Up to4Up to24Front✓48VDC 110/220VDC/VAC-45to85°CPT-7728-R-48-HV28Up to4Up to24Rear✓48VDC 110/220VDC/VAC-45to85°CPT-7728-F-HV28Up to4Up to24Front–110/220VDC/VAC–-45to85°CPT-7728-R-HV28Up to4Up to24Rear–110/220VDC/VAC–-45to85°CPT-7728-F-HV-HV28Up to4Up to24Front✓110/220VDC/VAC110/220VDC/VAC-45to85°CPT-7728-R-HV-HV28Up to4Up to24Rear✓110/220VDC/VAC110/220VDC/VAC-45to85°CPT-7728-PTP-F-2428Up to4Up to24Front–24VDC–-45to85°C PT-7728-PTP-F-24-2428Up to4Up to24Front✓24VDC24VDC-45to85°CPT-7728-PTP-F-24-HV 28Up to4Up to24Front✓24VDC110/220VDC/VAC-45to85°CPT-7728-PTP-F-4828Up to4Up to24Front–48VDC–-45to85°C PT-7728-PTP-F-48-4828Up to4Up to24Front✓48VDC48VDC-45to85°CPT-7728-PTP-F-HV28Up to4Up to24Front–110/220VDC/VAC–-45to85°CPT-7728-PTP-F-HV-HV 28Up to4Up to24Front✓110/220VDC/VAC110/220VDC/VAC-45to85°CPT-7728-PTP-R-2428Up to4Up to24Rear–24VDC–-45to85°C PT-7728-PTP-R-24-2428Up to4Up to24Rear✓24VDC24VDC-45to85°CPT-7728-PTP-R-24-HV 28Up to4Up to24Rear✓24VDC110/220VDC/VAC-45to85°CPT-7728-PTP-R-4828Up to4Up to24Rear–48VDC–-45to85°CPT-7728-PTP-R-48-4828Up to4Up to24Rear✓48VDC(36-72VDC)48VDC(36-72VDC)-45to85°C12PT-7728-PTP-R-HV 28Up to4Up to24Rear–110/220VDC/VAC–-45to85°CPT-7728-PTP-R-HV-HV 28Up to4Up to24Rear✓110/220VDC/VAC110/220VDC/VAC-45to85°CAccessories(sold separately)PM-7200Module SeriesPM-7200-1BNC2MST-PTP Fast Ethernet module for PT-7728-PTP series with2100BaseFX multi-mode ports with ST connectors,1PPS output with BNC connector,hardware-based IEEE1588PTP V2protocol supportPM-7200-2GTXSFP Gigabit Ethernet module with210/100/1000BaseT(X)or1000BaseSFP slot combo portsPM-7200-2MSC4TX Fast Ethernet module with2100BaseFX multi-mode ports with SC connectors and410/100BaseT(X)portsPM-7200-2MST4TX Fast Ethernet module with2100BaseFX multi-mode ports with ST connectors and410/100BaseT(X)portsPM-7200-2SSC4TX Fast Ethernet module with2100BaseFX single-mode ports with SC connectors and410/100BaseT(X)portsPM-7200-4GTXSFP Gigabit Ethernet module with410/100/1000BaseT(X)or1000BaseSFP slot combo portsPM-7200-4M12Fast Ethernet module with410/100BaseT(X)ports with M12connectorsPM-7200-4MSC2TX Fast Ethernet module with4100BaseFX multi-mode ports with SC connectors and210/100BaseT(X)portsPM-7200-4MST2TX Fast Ethernet module with4100BaseFX multi-mode ports with ST connectors and210/100BaseT(X)portsPM-7200-4SSC2TX Fast Ethernet module with4100BaseFX single-mode ports with SC connectors and210/100BaseT(X)portsPM-7200-6MSC Fast Ethernet module with6100BaseFX multi-mode ports with SC connectorsPM-7200-6MST Fast Ethernet module with6100BaseFX multi-mode ports with ST connectorsPM-7200-6SSC Fast Ethernet module with6100BaseFX single-mode ports with SC connectorsPM-7200-8SFP Fast Ethernet module with8100BaseSFP slotsPM-7200-8TX Fast Ethernet module with810/100BaseT(X)portsPM-7200-8MTRJ Fast Ethernet module with8100BaseFX multi-mode ports with MTRJ connectorsPM-7200-4TX-PTP Fast Ethernet module for PT-7728-PTP series with410/100BaseT(X)ports,hardware-based IEEE1588PTP V2protocol supportPM-7200-4MST-PTP Fast Ethernet module for PT-7728-PTP series with4100BaseFX multi-mode ports with ST connectors,hardware-based IEEE1588PTP V2protocol supportPM-7200-4MSC-PTP Fast Ethernet module for PT-7728-PTP series with4100BaseFX multi-mode ports with SC connectors,hardware-based IEEE1588PTP V2protocol supportPM-7200-4GTX-PHR-PTP Gigabit Ethernet module with41000Base T(X)ports,PRP/HSR protocol supportPM-7200-4GSFP-PHR-PTP Gigabit Ethernet module with4100/1000Base SFP slots,PRP/HSR protocol supportSoftwareMXview-50Industrial network management software with a license for50nodes(by IP address)MXview-100Industrial network management software with a license for100nodes(by IP address)MXview-250Industrial network management software with a license for250nodes(by IP address)MXview-500Industrial network management software with a license for500nodes(by IP address)MXview-1000Industrial network management software with a license for1000nodes(by IP address)MXview-2000Industrial network management software with a license for2000nodes(by IP address)MXview Upgrade-50License expansion of MXview industrial network management software by50nodes(by IP address)Storage KitsABC-01Configuration backup and restoration tool for managed Ethernet switches and AWK Series wirelessAPs/bridges/clients,0to60°C operating temperatureSFP ModulesSFP-1FELLC-T SFP module with1100Base single-mode with LC connector for80km transmission,-40to85°Coperating temperatureSFP-1FEMLC-T SFP module with1100Base multi-mode with LC connector for4km transmission,-40to85°Coperating temperatureSFP-1FESLC-T SFP module with1100Base single-mode with LC connector for40km transmission,-40to85°Coperating temperatureSFP-1G10ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G10ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G10BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G10BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1G20ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G20ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G20BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G20BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1G40ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G40ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G40BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G40BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1GEZXLC SFP module with11000BaseEZX port with LC connector for110km transmission,0to60°C operatingtemperatureSFP-1GEZXLC-120SFP module with11000BaseEZX port with LC connector for120km transmission,0to60°C operatingtemperatureSFP-1GLHLC SFP module with11000BaseLH port with LC connector for30km transmission,0to60°C operatingtemperatureSFP-1GLHLC-T SFP module with11000BaseLH port with LC connector for30km transmission,-40to85°C operatingtemperatureSFP-1GLHXLC SFP module with11000BaseLHX port with LC connector for40km transmission,0to60°C operatingtemperatureSFP-1GLHXLC-T SFP module with11000BaseLHX port with LC connector for40km transmission,-40to85°Coperating temperatureSFP-1GLSXLC SFP module with11000BaseLSX port with LC connector for500m transmission,0to60°C operatingtemperatureSFP-1GLSXLC-T SFP module with11000BaseLSX port with LC connector for500m transmission,-40to85°Coperating temperatureSFP-1GLXLC SFP module with11000BaseLX port with LC connector for10km transmission,0to60°C operatingtemperatureSFP-1GLXLC-T SFP module with11000BaseLX port with LC connector for10km transmission,-40to85°C operatingtemperatureSFP-1GSXLC SFP module with11000BaseSX port with LC connector for300/550m transmission,0to60°Coperating temperatureSFP-1GSXLC-T SFP module with11000BaseSX port with LC connector for300/550m transmission,-40to85°Coperating temperatureSFP-1GZXLC SFP module with11000BaseZX port with LC connector for80km transmission,0to60°C operatingtemperatureSFP-1GZXLC-T SFP module with11000BaseZX port with LC connector for80km transmission,-40to85°C operatingtemperature©Moxa Inc.All rights reserved.Updated Mar18,2020.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。

SX-815L 机电一体化综合实训考核设备使用说明书 V1.0使用说明书 V1.0SX-815L 机电一体化综合实训考核设备《SX-815L 机电一体化综合实训考核设备使用说明书 V1.0》 编写委员会主 任：伊洪良 副主任：黄 鑫 技 术：叶光显唐涨 林洪俊 美 工：刘梦良 排 版：林 婧杨水昌 夏敬安 王鑫郭菁查先明 马灿华彭源 陈贵丹张尾喜 张监洋广东三向教学仪器制造有限公司 2010 年 6 月SX-815L 机电一体化综合实训考核设备使用说明书 V1.0目录设备简介 ......................................................................................................... 1 λ 设备概述 ...........................................................................................................1 λ 技术参数 ...........................................................................................................1 λ 结构介绍 ...........................................................................................................2 λ 产品配置 ...........................................................................................................3 λ 各单元模块描述 ...............................................................................................4 快速入门 ......................................................................................................... 7 λ 操作流程 ...........................................................................................................7 λ 第一章、实训桌体的安装 ...............................................................................8第一步、实训台的安装 .......................................................................................8 第二步、电脑桌的安装 .....................................................................................14 第三步、调试台的安装 .....................................................................................16 λ 第二章、实训前的准备 .................................................................................17 第一步、实训工具及设施的准备 .....................................................................17 第二步、控制方案介绍 .....................................................................................19 第三步、设备电源的引入 .................................................................................21 λ 第二章、控制模块的安装 .............................................................................22 第一步、控制模块介绍 .....................................................................................22 第二步、控制模块信号线连接 .........................................................................24 第三步、控制模块电源线连接 .........................................................................25 λ 第三章、执行单元的安装 .............................................................................27 第一步、环形传输带单元的安装 .....................................................................27 第二步、机器人单元的安装 .............................................................................28 第三步、恒速转台加工单元的安装 .................................................................28 第四步、工件装配单元的安装 .........................................................................29 第五步、仓库单元的安装 .................................................................................30 第六步、人机界面单元的安装 .........................................................................30 第七步、气路控制“三联件”的安装 .............................................................31 第八步、执行单元的定位 .................................................................................31 第九步、单元电路线槽的安装 .........................................................................31λ 第四章、控制线路的安装 ............................................................................. 32 第一步、控制接口板的安装 ............................................................................. 32 第二步、控制信号线的连接 ............................................................................. 33 第三步、执行单元 24VDC 电源线连接........................................................... 44λ 第五章、气路的安装 ..................................................................................... 44 第一步、各单元气路原理图 ............................................................................. 44 第二步、各单元气路的连接 ............................................................................. 46λ 第六章、网络线与编程线的连接 ................................................................. 46 第一步、网络线的连接 ..................................................................................... 46 第二步、编程线的连接 ..................................................................................... 47 第三步、设备电源和气源的接入 ..................................................................... 48λ 第七章、调试程序的下载 ............................................................................. 49 第一步、PLC 编程软件的安装（GX Developer V8）.................................... 49 第二步、人机界面画面组态软件的安装（EV5000biulder）......................... 51 第三步、PLC 调试程序的下载......................................................................... 51 第四步、人机界面工程的下载 ......................................................................... 53λ 第八章、执行单元的调试 ............................................................................. 55 第一步、气路的调试 ......................................................................................... 55 第二步、电路的调试 ......................................................................................... 58λ 第九章、设备的整体调试 ............................................................................. 65 第一步、相关参数的设置 ................................................................................. 65 第二步、设备自动运行 ..................................................................................... 68 第三步、设备运行调整 ..................................................................................... 68 第四步、设备停止运行 ..................................................................................... 70λ 第十章、工艺的完善 ..................................................................................... 70 第一步、线路工艺的完善 ................................................................................. 70 第二步、气路工艺的完善 ................................................................................. 70 第三步、线槽盖板工艺完善 ............................................................................. 71 第四步、工作环境的清洁 ................................................................................. 71SX-815L 机电一体化综合实训考核设备使用说明书 V1.0设备简介Equipment Introduction设备概述该设备是依据维修电工高技能人才培训教程，维修电工考核鉴定 题库的要求开发设计。

Refer to Application NotesEN-60601-1 CertifiedSelection GuidePart Input Output Output Efficiency Max Number Voltage Voltage Current Capacitive DIP 14 4kV (VDC)(VDC)(mA)(%)Load (1)RJZ-xx3.3S (H) 3.3,5,9,12,15,24 3.360670-753300µF RJZ-xx05S (H) 3.3,5,9,12,15,24540078-851200µF RJZ-xx09S (H) 3.3,5,9,12,15,24922278-841200µF RJZ-xx12S (H) 3.3,5,9,12,15,241216680-85680µF RJZ-xx15S (H) 3.3,5,9,12,15,241513382-85680µF RJZ-xx24S (H) 3.3,5,9,12,15,24248380-85220µF RGZ-xx3.3D (H)3.3,5,9,12,15,24±3.3±30375±1500µF RGZ-xx05D (H) 3.3,5,9,12,15,24±5±20075-82±470µF RGZ-xx09D (H) 3.3,5,9,12,15,24±9±11175-80±470µF RGZ-xx12D (H) 3.3,5,9,12,15,24±12±8478-82±220µF RGZ-xx15D (H) 3.3,5,9,12,15,24±15±6680-84±220µF RGZ-xx24D(H)3.3,5,9,12,15,24±24±4282-84±100µFxx = Input Voltage. Other input and output voltage combinations available on request.* add Suffix “P ”for Continuous Short Circuit Protection, e.g. RGZ-0524D/P , RJZ-0505S/HPO u t p u t P o w e r (%)100602040Operating Temperature °C80Input Voltage Range ±10%Output Voltage Accuracy ±5%Line Voltage Regulation 1.2%/1% of Vin typ.Load Voltage Regulation 3.3V Types ±20% max.(10% to 100% full load)5V Types ±15% max.All other Types±10% max.Output Ripple and Noise (20MHz limited)±150mVp-p max.Temperature Coefficient 0.02%/°C max.Operating Frequency 20kHz min./ 50kHz typ. / 90kHz max.Efficiency at Full Load 70% min. / 80% typ.Minimum Load = 0%Specifications valid for 10% minimum load only.Isolation Voltage (tested for 1 second)3000VDC (rated for 1 minute)1500VAC / 60Hz Isolation Voltage H-Suffix (tested for 1 second)4000VDC min.H-Suffix)(rated for 1 minute)2000VAC / 60HzIsolation Capacitance 120pF max.Isolation Resistance 15G Ωmin.Short Circuit Protection 1 SecondP-SuffixContinuousOperating Temperature Range (free air convection)-40°C to +85°C (see Graph)cont.2 Watt DIP14Single &Dual OutputDerating-Graph(Ambient T emperature)●2W Single and Dual Outputs in DIP 14●3kVDC and 4kVDC Isolation●Optional Continuous Short Circuit Protected ●Custom Solutions Available ●UL94V-0 Package Material ●Efficiency up to 85%FeaturesUnregulated ConvertersSpecifications (measured at T A = 25°C, nominal input voltage, full load and after warm-up)DescriptionThe RJZ and RGZ series converters are available in DIP14 packages, so can be used for applications where component height is restricted.The wide selection of input voltage and output voltage options plus an I/O-Isolation of 3kVDC or 4kVDC as standard makes these converters suitable for many industrial and medical applications.EN-60950-1 Certified RJZ & RGZECONOLINEDC/DC-Converterwith 3 year WarrantyR J Z &R G ZREV: 1/2010E-62RoHS2002/95/EC6/6/Typical CharacteristicsStorage Temperature Range-55°C to +125°CRelative Humidity95% RHPackage Weight 2.8gPacking Quantity24 pcs per TubeMTBF (+25°C)using MIL-HDBK 217F RJZ types893 x 103 hoursRGZtypes810 x 103 hours(+85°C)using MIL-HDBK 217F RJZ types208 x 103 hoursRGZ types151 x 103 hours}Detailed Information seeApplication Notes chapter "MTBF"Specifications - continuedEfficiency%10040%0%100%40Efficiency / Load60%80%20%206080Total Output current (%)Efficiency%10040%0%100%40Efficiency / Load60%80%20%206080Total Output current (%)Deviation / Load40%0%100%60%80%20%Total Output current (%)30.000DeviationfromNominal(%)-5.0000.0005.00010.00015.00020.00025.000Deviation / Load40%0%100%60%80%20%Total Output current (%)30.000DeviationfromNominal(%)-5.0000.0005.00010.00015.00020.00025.000RJZ-xx05SRJZ-xx09SEfficiency%10040%0%100%40Efficiency / Load60%80%20%206080Total Output current (%)Deviation / Load40%0%100%60%80%20%Total Output current (%)30.000DeviationfromNominal(%)-5.0000.0005.00010.00015.00020.00025.000RJZ-xx12SEfficiency%10040%0%100%40Efficiency / Load60%80%20%206080Total Output current (%)Deviation / Load40%0%100%60%80%20%Total Output current (%)30.000DeviationfromNominal(%)-5.0000.0005.00010.00015.00020.00025.000RJZ-xx15SREV:1/2010E-63RJZ&RGZ /Typical CharacteristicsE f f i c i e n c y %10040%0%100%40Efficiency / Load 60%80%20%206080Total Output current (%)E f f i c i e n c y %10040%0%100%40Efficiency / Load60%80%20%206080Total Output current (%)Deviation / Load40%0%100%60%80%20%Total Output current (%)30.000D e v i a t i o n f r o m N o m i n a l (%)-5.0000.0005.00010.00015.00020.00025.000Deviation / Load40%0%100%60%80%20%Total Output current (%)30.000D e v i a t i o n f r o m N o m i n a l (%)-5.0000.0005.00010.00015.00020.00025.000RGZ-xx12DRGZ-xx15DPackage Style and Pinning (mm)Dual Output Single Output 3rd angle projectionRecommended Footprint Details14 PIN DIP PackageXX.X ± 0.5 mm XX.XX ± 0.25 mmPin ConnectionsPin #RJZ RGZ 1–Vin –Vin 7NC NC 8+Vout +Vout 9No Pin Com 10–Vout –Vout 14+Vin+VinNC = No Connection E f f i c i e n c y %100040%0%100%40Efficiency / Load 60%80%20%206080Total Output current (%)Deviation / Load30.00040%0%100%D e v i a t i o n f r o m N o m i n a l (%)60%80%20%-5.000Total Output current (%)0.0005.00010.00015.00020.00025.000RGZ-xx05DR J Z &R G ZREV: 1/E-64Notes Note 1Maximum capacitive load is defined as the capacitive load that will allow start up in under 1 second without damage to the converter.Certifications EN General Safety Report: PS-R7219C1EN60950-1:2001 + A11:2004EN Medical safetyReport: PS090301601EN 60601-1/分销商库存信息:RECOM-POWERRJZ-0505S RJZ-0509S RJZ-0512S RJZ-0515S RJZ-0524S RJZ-053.3S RJZ-0905S RJZ-0909S RJZ-0912S RJZ-0915S RJZ-0924S RJZ-093.3S RJZ-1205S RJZ-1209S RJZ-1212S RJZ-1215S RJZ-1224S RJZ-123.3S RJZ-1505S RJZ-1509S RJZ-1512S RJZ-1515S RJZ-1524S RJZ-153.3S RJZ-2405S RJZ-2409S RJZ-2412S RJZ-2415S RJZ-2424S RJZ-243.3S RJZ-0505S/H RJZ-0505S/P RJZ-0509S/H RJZ-0509S/P RJZ-0512S/H RJZ-0512S/P RJZ-0515S/H RJZ-0515S/P RJZ-0524S/H RJZ-0524S/P RJZ-053.3S/H RJZ-053.3S/P RJZ-0905S/H RJZ-0905S/P RJZ-0909S/H RJZ-0909S/P RJZ-0912S/H RJZ-0912S/P RJZ-0915S/H RJZ-0915S/P RJZ-0924S/H RJZ-0924S/P RJZ-093.3S/H RJZ-093.3S/P RJZ-1205S/H RJZ-1205S/P RJZ-1209S/H RJZ-1209S/P RJZ-1212S/H RJZ-1212S/P RJZ-1215S/H RJZ-1215S/P RJZ-1224S/H RJZ-1224S/P RJZ-123.3S/H RJZ-123.3S/P RGZ-0505D RGZ-0509D RGZ-0512D RGZ-0515D RGZ-0524D RGZ-053.3D RGZ-0905D RGZ-0909D RGZ-0912D RGZ-0915D RGZ-0924D RGZ-093.3D RGZ-1205D RGZ-1209D RGZ-1212D RGZ-1215D RGZ-1224D RGZ-123.3D RJZ-1505S/H RJZ-1505S/P RJZ-1509S/H RJZ-1509S/P RJZ-1512S/H RJZ-1512S/P RJZ-1515S/H RJZ-1515S/P RJZ-1524S/H RJZ-1524S/P RJZ-153.3S/H RJZ-153.3S/P RJZ-2405S/H RJZ-2405S/P RJZ-2409S/H RJZ-2409S/P RJZ-2412S/H RJZ-2412S/P RJZ-2415S/H RJZ-2415S/P RJZ-2424S/H RJZ-2424S/P RJZ-243.3S/H RJZ-243.3S/P RGZ-1505D RGZ-1509D RGZ-1512D RGZ-1515D RGZ-1524D RGZ-153.3D RGZ-2405D RGZ-2409D RGZ-2412D RGZ-2415D RGZ-2424D RGZ-243.3D RGZ-0505D/H RGZ-0505D/P RGZ-0509D/H RGZ-0509D/P RGZ-0512D/H RGZ-0512D/P RGZ-0515D/H RGZ-0515D/P RGZ-0524D/H RGZ-0524D/P RGZ-053.3D/H RGZ-053.3D/P。

上海微型力传感器_微型拉压力传感器_微型测力传感器_LH-S05哪家好？
上海微型力传感器_微型拉压力传感器_微型测力传感器_LH-S05哪家好？那我们先了解下微型力传感器_微型拉压力传感器_微型测力传感器_LH-S05的特点和用途。

特点：拉压两用型力传感器，体积小巧，安装方便，测力部分为外螺纹；传感器精度高，动态响应快，具有优越的线性与重复性；
用途：主要应用于拉压力测力仪、铆钉机、焊接机、键盘按钮手感度测试仪等拉/压力测力仪器以及自动化设备等测试领域。

安装注意事项：
传感器安装使用时，需注意区分传感器的安装面及受力面，受力面的螺杆，扭动时不可用力过大，所受的侧向力不可以超过满量程的一半。

受力面:螺杆与柱子间有间隙,受力时可产生形变,测量力值.
安装固定面:螺杆与柱子间无间隙,且有凸出模块。

受力时不会产生形变，仅用于固定传感器。

技术参数Technical Specification
那么上海微型力传感器_微型拉压力传感器_微型测力传感器_LH-S05哪家好呢？
上海力恒传感技术有限公司致力于力传感器及其信号处理的系统工作，公司在力传感器领域有着不断的追求。

随着中国自动化不断发展进步，上海力恒传感技术团队积累了多年工作经验。

出于对自动化的理解和认识，公司始终坚持"因为专业、所以信服"的企业运作理念打造了一支自动化领域的专业团队，为客户提供系统的售前和售后服务，持续不断的提供稳定的产品，持续研发新的产品、满足客户需求。

© 2001 Xilinx, Inc. All rights reserved. All Xilinx trademarks, registered trademarks, patents, and disclaimers are as listed at /legal.htm .All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.IntroductionThe Spartan ™ and the Spartan-XL families are a high-vol-ume production FPGA solution that delivers all the key requirements for ASIC replacement up to 40,000 gates.These requirements include high performance, on-chip RAM, core solutions and prices that, in high volume,approach and in many cases are equivalent to mask pro-grammed ASIC devices.The Spartan series is the result of more than 14 years of FPGA design experience and feedback from thousands of customers. By streamlining the Spartan series feature set,leveraging advanced process technologies and focusing on total cost management, the Spartan series delivers the key features required by ASIC and other high-volume logic users while avoiding the initial cost, long development cycles and inherent risk of conventional ASICs. The Spar-tan and Spartan-XL families in the Spartan series have ten members, as shown in T able 1.Spartan and Spartan-XL FeaturesNote: The Spartan series devices described in this data sheet include the 5V Spartan family and the 3.3V Spartan-XL family. See the separate data sheet for the 2.5V Spartan-II family.•First ASIC replacement FPGA for high-volume production with on-chip RAM•Density up to 1862 logic cells or 40,000 system gates •Streamlined feature set based on XC4000 architecture •System performance beyond 80MHz•Broad set of AllianceCORE ™ and LogiCORE ™ predefined solutions available •Unlimited reprogrammability •Low cost•System level features-Available in both 5V and 3.3V versions -On-chip SelectRAM ™ memory -Fully PCI compliant-Full readback capability for program verificationand internal node observability -Dedicated high-speed carry logic -Internal 3-state bus capability-Eight global low-skew clock or signal networks -IEEE 1149.1-compatible Boundary Scan logic -Low cost plastic packages available in all densities -Footprint compatibility in common packages•Fully supported by powerful Xilinx development system -Foundation Series: Integrated, shrink-wrapsoftware-Alliance Series: Dozens of PC and workstationthird party development systems supported-Fully automatic mapping, placement and routing Additional Spartan-XL Features• 3.3V supply for low power with 5V tolerant I/Os •Power down input •Higher performance •Faster carry logic•More flexible high-speed clock network•Latch capability in Configurable Logic Blocks •Input fast capture latch•Optional mux or 2-input function generator on outputs •12 mA or 24 mA output drive •5V and 3.3V PCI compliant •Enhanced Boundary Scan •Express Mode configuration •Chip scale packagingSpartan and Spartan-XL Families Field Programmable Gate ArraysDS060 (v1.6) September 19, 2001Product Specification T able 1: Spartan and Spartan-XL Field Programmable Gate Arrays1.Max values of Typical Gate Range include 20-30% of CLBs used as RAM.2DS060 (v1.6) September 19, 2001General OverviewSpartan series FPGAs are implemented with a regular, flex-ible, programmable architecture of Configurable Logic Blocks (CLBs), interconnected by a powerful hierarchy of versatile routing resources (routing channels), and sur-rounded by a perimeter of programmable Input/Output Blocks (IOBs), as seen in Figure 1. They have generous routing resources to accommodate the most complex inter-connect patterns.The devices are customized by loading configuration data into internal static memory cells. Re-programming is possi-ble an unlimited number of times. The values stored in thesememory cells determine the logic functions and intercon-nections implemented in the FPGA. The FPGA can either actively read its configuration data from an external serial PROM (Master Serial mode), or the configuration data can be written into the FPGA from an external device (Slave Serial mode).Spartan series FPGAs can be used where hardware must be adapted to different user applications. FPGAs are ideal for shortening design and development cycles, and also offer a cost-effective solution for production rates well beyond 50,000 systems per month.Figure 1: Basic FPGA Block DiagramSpartan series devices achieve high-performance, low-cost operation through the use of an advanced architecture and semiconductor technology. Spartan and Spartan-XL devices provide system clock rates exceeding 80MHz and internal performance in excess of150MHz. In contrast to other FPGA devices, the Spartan series offers the most cost-effective solution while maintaining leading-edge per-formance. In addition to the conventional benefit of high vol-ume programmable logic solutions, Spartan series FPGAs also offer on-chip edge-triggered single-port and dual-port RAM, clock enables on all flip-flops, fast carry logic, and many other features.The Spartan/XL families leverage the highly successful XC4000 architecture with many of that family’s features and benefits. T echnology advancements have been derived from the XC4000XLA process developments.Logic Functional DescriptionThe Spartan series uses a standard FPGA structure as shown in Figure1, page2. The FPGA consists of an array of configurable logic blocks (CLBs) placed in a matrix of routing channels. The input and output of signals is achieved through a set of input/output blocks (IOBs) forming a ring around the CLBs and routing channels.•CLBs provide the functional elements for implementing the user’s logic.•IOBs provide the interface between the package pins and internal signal lines.•Routing channels provide paths to interconnect the inputs and outputs of the CLBs and IOBs.The functionality of each circuit block is customized during configuration by programming internal static memory cells. The values stored in these memory cells determine the logic functions and interconnections implemented in the FPGA.Configurable Logic Blocks (CLBs)The CLBs are used to implement most of the logic in an FPGA. The principal CLB elements are shown in the simpli-fied block diagram in Figure2. There are three look-up tables (LUT) which are used as logic function generators, two flip-flops and two groups of signal steering multiplexers. There are also some more advanced features provided by the CLB which will be covered in the Advanced Features Description, page13.Function GeneratorsTwo 16x1 memory look-up tables (F-LUT and G-LUT) are used to implement 4-input function generators, each offer-ing unrestricted logic implementation of any Boolean func-tion of up to four independent input signals (F1 to F4 or G1 to G4). Using memory look-up tables the propagation delay is independent of the function implemented.A third 3-input function generator (H-LUT) can implement any Boolean function of its three inputs. Two of these inputs are controlled by programmable multiplexers (see box "A" of Figure2). These inputs can come from the F-LUT or G-LUT outputs or from CLB inputs. The third input always comes from a CLB input. The CLB can, therefore, implement cer-tain functions of up to nine inputs, like parity checking. The three LUTs in the CLB can also be combined to do any arbi-trarily defined Boolean function of five inputs.4DS060 (v1.6) September 19, 2001A CLB can implement any of the following functions:•Any function of up to four variables, plus any second function of up to four unrelated variables, plus any third function of up to three unrelated variablesNote: When three separate functions are generated, one of the function outputs must be captured in a flip-flop internal to the CLB. Only two unregistered function generator outputs are available from the CLB.•Any single function of five variables•Any function of four variables together with some functions of six variables•Some functions of up to nine variables.Implementing wide functions in a single block reduces both the number of blocks required and the delay in the signal path, achieving both increased capacity and speed. The versatility of the CLB function generators significantly improves system speed. In addition, the design-software tools can deal with each function generator independently.This flexibility improves cell usage.Flip-FlopsEach CLB contains two flip-flops that can be used to regis-ter (store) the function generator outputs. The flip-flops and function generators can also be used independently (see Figure 2). The CLB input DIN can be used as a direct input to either of the two flip-flops. H1 can also drive either flip-flop via the H-LUT with a slight additional delay.The two flip-flops have common clock (CK), clock enable (EC) and set/reset (SR) inputs. Internally both flip-flops are also controlled by a global initialization signal (GSR) which is described in detail in Global Signals: GSR and GTS ,page 20.Latches (Spartan-XL only)The Spartan-XL CLB storage elements can also be config-ured as latches. The two latches have common clock (K)and clock enable (EC) inputs. Functionality of the storage element is described in Table 2.Figure 2: Spartan/XL Simplified CLB Logic Diagram (some features not shown)Clock InputEach flip-flop can be triggered on either the rising or falling clock edge. The CLB clock line is shared by both flip-flops.However, the clock is individually invertible for each flip-flop (see CK path in Figure 3). Any inverter placed on the clock line in the design is automatically absorbed into the CLB. Clock EnableThe clock enable line (EC) is active High. The EC line is shared by both flip-flops in a CLB. If either one is left discon-nected, the clock enable for that flip-flop defaults to the active state. EC is not invertible within the CLB. The clock enable is synchronous to the clock and must satisfy the setup and hold timing specified for the device.Set/ResetThe set/reset line (SR) is an asynchronous active High con-trol of the flip-flop. SR can be configured as either set or reset at each flip-flop. This configuration option determines the state in which each flip-flop becomes operational after configuration. It also determines the effect of a GSR pulse during normal operation, and the effect of a pulse on the SR line of the CLB. The SR line is shared by both flip-flops. If SR is not specified for a flip-flop the set/reset for that flip-flop defaults to the inactive state. SR is not invertible within the CLB.CLB Signal Flow ControlIn addition to the H-LUT input control multiplexers (shown in box "A" of Figure 2, page 4) there are signal flow control multiplexers (shown in box "B" of Figure 2) which select the signals which drive the flip-flop inputs and the combinatorial CLB outputs (X and Y).Each flip-flop input is driven from a 4:1 multiplexer which selects among the three LUT outputs and DIN as the data source.Each combinatorial output is driven from a 2:1 multiplexer which selects between two of the LUT outputs. The X output can be driven from the F-LUT or H-LUT, the Y output from G-LUT or H-LUT .Control SignalsThere are four signal control multiplexers on the input of the CLB. These multiplexers allow the internal CLB control sig-nals (H1, DIN, SR, and EC in Figure 2 and Figure 4) to be driven from any of the four general control inputs (C1-C4 in Figure 4) into the CLB. Any of these inputs can drive any of the four internal control signals.T able 2: CLB Storage Element FunctionalityLegend:XDon ’t careRising edge (clock not inverted).SR Set or Reset value. Reset is default.0*Input is Low or unconnected (default value)1*Input is High or unconnected (default value)Figure 3: CLB Flip-Flop Functional Block Diagram6DS060 (v1.6) September 19, 2001The four internal control signals are:•EC: Enable Clock•SR: Asynchronous Set/Reset or H function generator Input 0•DIN: Direct In or H function generator Input 2•H1: H function generator Input 1.Input/Output Blocks (IOBs)User-configurable input/output blocks (IOBs) provide the interface between external package pins and the internal logic. Each IOB controls one package pin and can be con-figured for input, output, or bidirectional signals. Figure 6shows a simplified functional block diagram of the Spar-tan/XL IOB.IOB Input Signal PathThe input signal to the IOB can be configured to either go directly to the routing channels (via I1 and I2 in Figure 6) or to the input register. The input register can be programmed as either an edge-triggered flip-flop or a level-sensitive latch. The functionality of this register is shown in Table 3,and a simplified block diagram of the register can be seen in Figure 5.Figure 4: CLB Control Signal InterfaceFigure 5: IOB Flip-Flop/Latch Functional BlockDiagramTable 3: Input Register FunctionalityX Don ’t care.Rising edge (clock not inverted).SR Set or Reset value. Reset is default.0*Input is Low or unconnected (default value)1*Input is High or unconnected (default value)The register choice is made by placing the appropriate library symbol. For example, IFD is the basic input flip-flop (rising edge triggered), and ILD is the basic input latch (transparent-High). Variations with inverted clocks are also available. The clock signal inverter is also shown in Figure5 on the CK line.The Spartan IOB data input path has a one-tap delay ele-ment: either the delay is inserted (default), or it is not. The Spartan-XL IOB data input path has a two-tap delay ele-ment, with choices of a full delay, a partial delay, or no delay. The added delay guarantees a zero hold time with respect to clocks routed through the global clock buffers. (See Glo-bal Nets and Buffers, page12 for a description of the glo-bal clock buffers in the Spartan/XL families.) For a shorter input register setup time, with positive hold-time, attach a NODELAY attribute or property to the flip-flop.The output of the input register goes to the routing channels (via I1 and I2 in Figure6). The I1 and I2 signals that exit the IOB can each carry either the direct or registered input signal.The 5V Spartan input buffers can be globally configured for either TTL (1.2V) or CMOS (VCC/2) thresholds, using an option in the bitstream generation software. The Spartan output levels are also configurable; the two global adjust-ments of input threshold and output level are independent. The inputs of Spartan devices can be driven by the outputs of any 3.3V device, if the Spartan inputs are in TTL mode. Input and output thresholds are TTL on all configuration pins until the configuration has been loaded into the device and specifies how they are to be used. Spartan-XL inputs are TTL compatible and 3.3V CMOS compatible. Supported sources for Spartan/XL device inputs are shown in Table4.Spartan-XL I/Os are fully 5V tolerant even though the V CC is 3.3V. This allows 5V signals to directly connect to the Spar-tan-XL inputs without damage, as shown in Table4. In addi-tion, the 3.3V V CC can be applied before or after 5V signals are applied to the I/Os. This makes the Spartan-XL devices immune to power supply sequencing problems.Figure 6: Simplified Spartan/XL IOB Block Diagram8DS060 (v1.6) September 19, 2001Spartan-XL V CC ClampingSpartan-XL FPGAs have an optional clamping diode con-nected from each I/O to V CC . When enabled they clamp ringing transients back to the 3.3V supply rail. This clamping action is required in 3.3V PCI applications. V CC clamping is a global option affecting all I/O pins.Spartan-XL devices are fully 5V TTL I/O compatible if V CC clamping is not enabled. With V CC clamping enabled, the Spartan-XL devices will begin to clamp input voltages to one diode voltage drop above V CC . If enabled, TTL I/O com-patibility is maintained but full 5V I/O tolerance is sacrificed.The user may select either 5V tolerance (default) or 3.3V PCI compatibility. In both cases negative voltage is clamped to one diode voltage drop below ground.Spartan-XL devices are compatible with TTL, LVTTL, PCI 3V, PCI 5V and LVCMOS signalling. The various standards are illustrated in Table 5.Additional Fast Capture Input Latch (Spartan-XL only)The Spartan-XL IOB has an additional optional latch on the input. This latch is clocked by the clock used for the output flip-flop rather than the input clock. Therefore, two different clocks can be used to clock the two input storage elements.This additional latch allows the fast capture of input data,which is then synchronized to the internal clock by the IOB flip-flop or latch.T o place the Fast Capture latch in a design, use one of the special library symbols, ILFFX or ILFLX. ILFFX is a trans-parent-Low Fast Capture latch followed by an active High input flip-flop. ILFLX is a transparent Low Fast Capture latch followed by a transparent High input latch. Any of the clock inputs can be inverted before driving the library element,and the inverter is absorbed into the IOB.IOB Output Signal PathOutput signals can be optionally inverted within the IOB,and can pass directly to the output buffer or be stored in an edge-triggered flip-flop and then to the output buffer. The functionality of this flip-flop is shown in T able 6.T able 4: Supported Sources for Spartan/XL InputsT able 5: I/O Standards Supported by Spartan-XL FPGAsTable 6: Output Flip-Flop Functionality X Don ’t careRising edge (clock not inverted). SR Set or Reset value. Reset is default.0*Input is Low or unconnected (default value)1*Input is High or unconnected (default value)Z3-stateOutput Multiplexer/2-Input Function Generator (Spartan-XL only)The output path in the Spartan-XL IOB contains an addi-tional multiplexer not available in the Spartan IOB. The mul-tiplexer can also be configured as a 2-input function generator, implementing a pass gate, AND gate, OR gate, or XOR gate, with 0, 1, or 2 inverted inputs.When configured as a multiplexer, this feature allows two output signals to time-share the same output pad, effec-tively doubling the number of device outputs without requir-ing a larger, more expensive package. The select input is the pin used for the output flip-flop clock, OK.When the multiplexer is configured as a 2-input function generator, logic can be implemented within the IOB itself. Combined with a Global buffer, this arrangement allows very high-speed gating of a single signal. For example, a wide decoder can be implemented in CLBs, and its output gated with a Read or Write Strobe driven by a global buffer. The user can specify that the IOB function generator be used by placing special library symbols beginning with the letter "O." For example, a 2-input AND gate in the IOB func-tion generator is called OAND2. Use the symbol input pin labeled "F" for the signal on the critical path. This signal is placed on the OK pin — the IOB input with the shortest delay to the function generator. Two examples are shown in Figure7.Output BufferAn active High 3-state signal can be used to place the out-put buffer in a high-impedance state, implementing 3-state outputs or bidirectional I/O. Under configuration control, the output (O) and output 3-state (T) signals can be inverted. The polarity of these signals is independently configured for each IOB (see Figure6, page7). An output can be config-ured as open-drain (open-collector) by tying the 3-state pin (T) to the output signal, and the input pin (I) to Ground.By default, a 5V Spartan device output buffer pull-up struc-ture is configured as a TTL-like totem-pole. The High driver is an n-channel pull-up transistor, pulling to a voltage one transistor threshold below V CC. Alternatively, the outputs can be globally configured as CMOS drivers, with additional p-channel pull-up transistors pulling to V CC. This option, applied using the bitstream generation software, applies to all outputs on the device. It is not individually programma-ble.All Spartan-XL device outputs are configured as CMOS drivers, therefore driving rail-to-rail. The Spartan-XL outputs are individually programmable for 12mA or 24mA output drive.Any 5V Spartan device with its outputs configured in TTL mode can drive the inputs of any typical 3.3V device. Sup-ported destinations for Spartan/XL device outputs are shown in Table7.Three-State Register (Spartan-XL Only)Spartan-XL devices incorporate an optional register control-ling the three-state enable in the IOBs. The use of the three-state control register can significantly improve output enable and disable time.Output Slew RateThe slew rate of each output buffer is, by default, reduced, to minimize power bus transients when switching non-criti-cal signals. For critical signals, attach a FAST attribute or property to the output buffer or flip-flop.Spartan/XL devices have a feature called "Soft Start-up," designed to reduce ground bounce when all outputs are turned on simultaneously at the end of configuration. When the configuration process is finished and the device starts up, the first activation of the outputs is automatically slew-rate limited. Immediately following the initial activation of the I/O, the slew rate of the individual outputs is deter-mined by the individual configuration option for each IOB. Pull-up and Pull-down NetworkProgrammable pull-up and pull-down resistors are used fortying unused pins to V CC or Ground to minimize power con-sumption and reduce noise sensitivity. The configurablepull-up resistor is a p-channel transistor that pulls to V CC.The configurable pull-down resistor is an n-channel transis-tor that pulls to Ground. The value of these resistors is typi-cally 20KΩ − 100KΩ (See "Spartan DC Characteristics Figure 7: AND and MUX Symbols in Spartan-XL IOB10DS060 (v1.6) September 19, 2001Over Operating Conditions" on page 43.). This high value makes them unsuitable as wired-AND pull-up resistors.After configuration, voltage levels of unused pads, bonded or unbonded, must be valid logic levels, to reduce noise sensitivity and avoid excess current. Therefore, by default,unused pads are configured with the internal pull-up resistor active. Alternatively, they can be individually configured with the pull-down resistor, or as a driven output, or to be driven by an external source. To activate the internal pull-up, attach the PULLUP library component to the net attached to the pad. To activate the internal pull-down, attach the PULL-DOWN library component to the net attached to the pad.Set/ResetAs with the CLB registers, the GSR signal can be used to set or clear the input and output registers, depending on the value of the INIT attribute or property. The two flip-flops can be individually configured to set or clear on reset and after configuration. Other than the global GSR net, no user-con-trolled set/reset signal is available to the I/O flip-flops (Figure 5). The choice of set or reset applies to both the ini-tial state of the flip-flop and the response to the GSR pulse.Independent ClocksSeparate clock signals are provided for the input (IK) and output (OK) flip-flops. The clock can be independently inverted for each flip-flop within the IOB, generating eitherfalling-edge or rising-edge triggered flip-flops. The clock inputs for each IOB are mon Clock EnablesThe input and output flip-flops in each IOB have a common clock enable input (see EC signal in Figure 5), which through configuration, can be activated individually for the input or output flip-flop, or both. This clock enable operates exactly like the EC signal on the Spartan/XL CLB. It cannot be inverted within the IOB.Routing Channel DescriptionAll internal routing channels are composed of metal seg-ments with programmable switching points and switching matrices to implement the desired routing. A structured,hierarchical matrix of routing channels is provided to achieve efficient automated routing.This section describes the routing channels available in Spartan/XL devices. Figure 8 shows a general block dia-gram of the CLB routing channels. The implementation soft-ware automatically assigns the appropriate resources based on the density and timing requirements of the design.The following description of the routing channels is for infor-mation only and is simplified with some minor details omit-ted. For an exact interconnect description the designer should open a design in the FPGA Editor and review the actual connections in this tool.The routing channels will be discussed as follows;•CLB routing channels which run along each row and column of the CLB array.•IOB routing channels which form a ring (called a VersaRing) around the outside of the CLB array. It connects the I/O with the CLB routing channels.•Global routing consists of dedicated networks primarily designed to distribute clocks throughout the device with minimum delay and skew. Global routing can also be used for other high-fanout signals.CLB Routing ChannelsThe routing channels around the CLB are derived from three types of interconnects; single-length, double-length,and longlines. At the intersection of each vertical and hori-zontal routing channel is a signal steering matrix called a Programmable Switch Matrix (PSM). Figure 8 shows the basic routing channel configuration showing single-length lines, double-length lines and longlines as well as the CLBs and PSMs. The CLB to routing channel interface is shown as well as how the PSMs interface at the channel intersec-tions.T able 7: Supported Destinations for Spartan/XL OutputsNotes:1.Only if destination device has 5V tolerant inputs.CLB InterfaceA block diagram of the CLB interface signals is shown in Figure9. The input signals to the CLB are distributed evenly on all four sides providing maximum routing flexibility. In general, the entire architecture is symmetrical and regular. It is well suited to established placement and routing algo-rithms. Inputs, outputs, and function generators can freely swap positions within a CLB to avoid routing congestion during the placement and routing operation. The exceptions are the clock (K) input and CIN/COUT signals. The K input is routed to dedicated global vertical lines as well as four single-length lines and is on the left side of the CLB. The CIN/COUT signals are routed through dedicated intercon-nects which do not interfere with the general routing struc-ture. The output signals from the CLB are available to drive both vertical and horizontal channels.Programmable Switch MatricesThe horizontal and vertical single- and double-length lines intersect at a box called a programmable switch matrix (PSM). Each PSM consists of programmable pass transis-tors used to establish connections between the lines (see Figure10).For example, a single-length signal entering on the right side of the switch matrix can be routed to a single-length line on the top, left, or bottom sides, or any combination thereof, if multiple branches are required. Similarly, a dou-ble-length signal can be routed to a double-length line on any or all of the other three edges of the programmable switch matrix.Single-Length LinesSingle-length lines provide the greatest interconnect flexibil-ity and offer fast routing between adjacent blocks. There are eight vertical and eight horizontal single-length lines associ-ated with each CLB. These lines connect the switching matrices that are located in every row and column of CLBs. Single-length lines are connected by way of the program-mable switch matrices, as shown in Figure10. Routing con-nectivity is shown in Figure8.Single-length lines incur a delay whenever they go through a PSM. Therefore, they are not suitable for routing signals for long distances. They are normally used to conduct sig-nals within a localized area and to provide the branching for nets with fanout greater than one.Figure 8: Spartan/XL CLB Routing Channels and Interface Block DiagramFigure 9: CLB Interconnect Signals。

5W,AC/DC converterCB RoHSFEATURES●85-305VAC and 100-430VDC input voltage range ●High I/O isolation test voltage up to 4000VAC ●Multi application,flexible layout●Output short circuit,over-current,over-voltage protection ●Compact size●Industrial-grade design●IEC/EN/UL62368safety approvalLS05-15BxxSS(-F)series is one of Mornsun’s highly efficient green power AC-DC Converter series.They feature wide input range accepting either AC or DC voltage,high efficiency,low power consumption,reinforced isolation.All models are particularly suitable for industrial control,electric power and instrumentation applications which don’t have high requirement for dimension and lower demand for EMC compliance levels.A variety of EMC external circuits meet the needs of multiple industries.For extremely harsh EMC environment,we recommend using the application circuit show in Design Reference of this datasheet.Selection GuideCertificationPart No.Output PowerNominal Output Voltage andCurrent (Vo/Io)Efficiency at 230V AC(%)Typ.Capacitive Load(uF)Max.CB/CE/ULLS05-15B03SS(-F) 3.3W3.3V/1A672200LS05-15B05SS(-F)5W 5V/1A 741500LS05-15B09SS(-F)9V/0.56A 75680LS05-15B12SS(-F)12V/0.42A 76470LS05-15B15SS(-F)15V/0.34A 77330LS05-15B24SS(-F)24V/0.21A79100Note:If the product is used in a severe vibration application,it needs to be glued and fixed.Input SpecificationsItemOperating Conditions Min.Typ.Max.Unit Input Voltage Range AC input 85--305V AC DC input100--430VDC Input Frequency 47--63HzInput Current 115V AC ----0.2A 230V AC ----0.1Inrush Current115V AC --5--230V AC--10--Recommended External Input Fuse 1A,slow-blow,required(The actual use needs to be selected accordingto the application enviroment)Hot PlugUnavailableOutput SpecificationsItemOperating Conditions Min.Typ.Max.UnitOutput Voltage Accuracy LS05-15B03SS(-F)--±2±3%LS05-15B05/09/12/15/24SS(-F)--±1±2Line Regulation Full load --±0.5--Load Regulation 10%-100%load--±1±1.5Output Ripple &Noise*20MHz bandwidth (peak-to-peak value)--50150mV Temperature Coefficient --±0.02--%/°C Stand-by Power Consumption ----0.5W Short Circuit Protection Hiccup,continuous,self-recoveryOver-current Protection≥150%Io,self-recovery Over-voltage Protection3.3/5V output≤7.5V (Output voltage clamp)9V output ≤15V (Output voltage clamp)12/15V output ≤20V (Output voltage clamp)24V output≤30V(Output voltage clamp) Minimum Load0----%Hold-up Time 115V AC input1015--ms 230V AC input6575--Note:*The“parallel cable”method is used for ripple and noise test,please refer to AC-DC Converter Application Notes for specific information. General SpecificationsItem Operating Conditions Min.Typ.Max.UnitIsolation Input-output Electric Strength Test for1min.,leakage current<5mA4000----VACOperating Temperature-40--+85℃Storage Temperature-40--+105Storage Humidity----85%RHSoldering Temperature Wave-soldering260±5℃;time:5-10s Manual-welding360±10℃;time:3-5sSwitching Frequency--65--kHzPower Derating -40℃to-25℃2----%/℃-25℃to+0℃0.8----+55℃to+85℃2----85V AC-110V AC0.8----%/VAC 240VAC-305V AC0.31----Safety Standard IEC62368/EN62368/UL62368 Safety Certification IEC/EN/UL62368Safety Class CLASS IIMTBF MIL-HDBK-217F@25°C>1000,000h Mechanical SpecificationsDimension Refer to the dimensionsWeight7g(Typ.)Cooling method Free air convectionElectromagnetic Compatibility(EMC)Emissions CECISPR32/EN55032CLASS A(Application circuit1,4)CISPR32/EN55032CLASS B(Application circuit2,3)RE CISPR32/EN55032CLASS B(Application circuit1,2,3,4)Immunity ESD IEC/EN61000-4-2Contact±6KV Perf.Criteria B RS IEC/EN61000-4-310V/m perf.Criteria AEFTIEC/EN61000-4-4±2KV(Application circuit1,2)perf.Criteria BIEC/EN61000-4-4±4KV(Application circuit3,4,)perf.Criteria B SurgeIEC/EN61000-4-5line to line±1KV(Application circuit1)IEC/EN61000-4-5line to line±2KV(Application circuit4)perf.Criteria BIEC/EN61000-4-5line to line±1KV/line to ground±2KV(Application circuit2)IEC/EN61000-4-5line to line±2KV/line to ground±4KV(Application circuit3)perf.Criteria BCS IEC/EN61000-4-610Vr.m.s perf.Criteria A Voltage dip,short interruption andvoltage variation IEC/EN61000-4-110%,70%perf.Criteria BProduct Characteristic CurveNote:①With an AC input between 85-110VAC/240-305VAC and a DC input between 100-130VDC/340-430VDC,the output power must be derated as pertemperature derating curves;②This product is suitable for applications using natural air cooling;for applications in closed environment please consult factory or one of our FAE.Additional Circuits Design ReferenceLS series additional circuits design reference (No EMC devices)Note:1.C1is used as filter capacitor with AC input (must be connected externally)and as EMC filter capacitor with DC input(must be connected).The recommended value of C1is 10uF/400V(85Vac-264Vac),10uF/450V(85Vac-305Vac);10uF /400V(100Vdc-370Vdc),10uF/450V(100Vdc-430Vdc).2.We recommend using an electrolytic capacitor with high frequency and low ESR rating for C2(refer to manufacture’s datasheet).Choose a capacitor voltage rating with at least 20%margin,in other words not exceeding 80%.C3is a ceramic capacitor used for filtering high-frequency noise.A suppressor diode (TVS)is recommended to protect the application in case of a converter failure and specification should be 1.2times of the outputvoltage.LS05(-F)series additional components selection guide (No EMC devices)Part No.C1(required)C2(required)C3(required)CY0TVS LS05-15B03SS(-F)10uF/450V (-25℃to +85℃)22uF/450V (-40℃to +85℃)220uF/16V (-25℃to +85℃)470uF/16V (-40℃to +85℃)0.1uF/50V 1nF/400V ACSMBJ7.0A LS05-15B05SS(-F)SMBJ7.0A LS05-15B09SS(-F)220uF/25V (-25℃to +85℃)470uF/25V (-40℃to +85℃)SMBJ12ALS05-15B12SS(-F)SMBJ20A LS05-15B15SS(-F)SMBJ20A LS05-15B24SS(-F)150uF/35V (-25℃to +85℃)470uF/35V (-40℃to +85℃)SMBJ30AEnvironmental Application EMC SolutionLS(-F)series environmental application EMC solution selection tableRecommendedcircuitApplication environmental Typical industryInput voltage rangeEnvironment temperature Emissions Immunity 1Basic applicationNone85～305V AC-40℃to +85℃CLASS A CLASS Ⅲ2Indoor civil environment Smart home/Home appliances(2Y)-25℃to +55℃CLASS BCLASS ⅢIndoor general environment Intelligent building/Intelligentagriculture 3Indoor industrial environment Manufacturing workshop -25℃to +55℃CLASS B CLASS Ⅳ4Outdoor general environmentITS/Video monitoring/Charging point/Communication/Securityand protection-40℃to +85℃CLASS ACLASS ⅣImmunity design circuits for reference Emissions design circuits for referenceCLASSⅢCLASSⅣCLASS A CLASS BElectromagnetic Compatibility Solution--Recommended Circuit1.Application circuit1——Basic applicationRecommended circuit1Application environmental Ambient temperature range Immunity CLASS Emissions CLASS Basic application-40℃to+85℃CLASSⅢCLASS AComponent Recommended valueR1(wire-wound resistor,required)12Ω/3WCX0.1uF/310VACFUSE1A/300V,slow-blow Note1:According to the certification requirements,the X capacitor needs to be connected in parallel with the bleeder resistance,the recommended resistance value is less than3.8MΩ,and the actual need to be selected according to the certification standard.Note2:R1is the input plug-in resistor,this resistor needs to be a wire-wound resistor(required),please do not select chip resistor or carbon film resistor. 2.Application circuit2——Indoor civil/Universal system recommended circuits for general environmentRecommended circuit2Application environmental Ambient temperature range Immunity CLASS Emissions CLASS Indoor civil/general-25℃to+55℃CLASSⅢCLASS BComponent Recommended valueR1(wire-wound resistor,required)12Ω/3WCY0(CY1)1nF/400V ACLCM 3.5mH(MIN:0.2A,MAX:200mΩ)LDM0.33mH(MIN:0.4A,MAX:1Ω)CX0.1uF/310VACCY2/CY31nF/400V ACFUSE(required)1A/300V,slow-blowNote1:In the home appliance application environment,the two Y capacitors of the primary and secondary need to be externally connected (CY0/CY1,value at2.2nF/250VAC),which can meet the EN60335certification.Note2:According to the certification requirements,the X capacitor needs to be connected in parallel with the bleeder resistance,the recommended resistance value is less than3.8MΩ,and the actual need to be selected according to the certification standard.Note3:R1is the input plug-in resistor,this resistor needs to be a wire-wound resistor(required),please do not select chip resistor or carbon film resistor.3.Application circuit 3——Universal system recommended circuits for indoor industrial environmentRecommended circuit 3Application environmental Ambient temperature rangeImmunity CLASSEmissions CLASSIndoor industrial environment -25℃to +55℃CLASS ⅣCLASS BComponentRecommended valueR1(wire-wound resistor,required)12Ω/3W LCM 3.5mH(MIN:0.2A,MAX:200m Ω)LDM 0.33mH(MIN:0.4A,MAX:1Ω)CX 0.1uF/310VAC CY1,CY21nF/400VAC FUSE (required)2A/300V,slow-blowMOV2S14K350Note 1:According to the certification requirements,the X capacitor needs to be connected in parallel with the bleeder resistance,the recommended resistance value is less than 3.8M Ω,and the actual need to be selected according to the certification standard.Note 2:R1is the input plug-in resistor,this resistor needs to be a wire-wound resistor (required),please do not select chip resistor or carbon film resistor.4.Application circuit 4——Universal system recommended circuits for outdoor general/harshEnvironmentRecommended circuit4Application environmental Ambient temperature rangeImmunity CLASSEmissions CLASSOutdoor general environment -40℃to +85℃CLASS ⅣCLASS AComponentRecommended valueR1(wire-wound resistor,required)12Ω/3W CX10.1uF/310VACNTC 13D-5MOV S14K350FUSE1A/300V,slow-blowNote 1:According to the certification requirements,the X capacitor needs to be connected in parallel with the bleeder resistance,the recommended resistance value is less than 3.8M Ω,and the actual need to be selected according to the certification standard.Note 2:R1is the input plug-in resistor,this resistor needs to be a wire-wound resistor (required),please do not select chip resistor or carbon film resistor.5.For additional information please refer to application notes on .EmissionsImmunityEmissionsImmunityLS05-15BxxSS Dimensions and Recommended Layout LS05-15BxxSS-F Dimensions and Recommended LayoutNote:1.For additional information on Product Packaging please refer to .Packaging bag number:58220086(LS05-15BxxSS);58220026(LS05-15BxxSS-F);2.This part is open frame,at least6.4mm safety distance between the the primary and secondary external components of the module isneeded to meet the safety requirement;3.Unless otherwise specified,parameters in this datasheet were measured under the conditions of Ta=25℃,humidity<75%with nominalinput voltage and rated output load;4.All index testing methods in this datasheet are based on our company corporate standards;5.We can provide product customization service,please contact our technicians directly for specific information;6.Products are related to laws and regulations:see"Features"and"EMC";7.Our products shall be classified according to ISO14001and related environmental laws and regulations,and shall be handled byqualified units.Mornsun Guangzhou Science&Technology Co.,Ltd.Address:No.5,Kehui St.1,Kehui Development Center,Science Ave.,Guangzhou Science City,Huangpu District,Guangzhou,P.R.China Tel:86-20-38601850Fax:86-20-38601272E-mail:***************。

LH160S 轧辊专用型硬度计使用说明书目录1 概述 --------------------------------------------------------- 31.1 产品特点-------------------------------------------------- 31.2 主要用途及适用范围---------------------------------------------- 31.3 品种规格-------------------------------------------------- 41.4 工作条件-------------------------------------------------- 42 结构特征与工作原理--------------------------------------------------- 42.1 结构特征-------------------------------------------------- 42.2 工作原理-------------------------------------------------- 63 技术特性 -------------------------------------------------------- 63.1 主要性能-------------------------------------------------- 63.2 技术参数-------------------------------------------------- 63.3 尺寸重量-------------------------------------------------- 74 使用 --------------------------------------------------------- 74.1 使用前的准备和检查---------------------------------------------- 74.2 测量--------------------------------------------------- 85 特别提示 -------------------------------------------------------- 106 操作详解 -------------------------------------------------------- 106.1 开机--------------------------------------------------- 106.2 关机--------------------------------------------------- 106.3 测量--------------------------------------------------- 106.4 菜单结构图------------------------------------------------ 126.5 测量条件设置------------------------------------------------ 136.6 打印功能-------------------------------------------------- 156.7 存储管理器------------------------------------------------ 166.8 浏览界面-------------------------------------------------- 186.9 系统设置-------------------------------------------------- 186.10 软件信息------------------------------------------------- 206.11 软件校准------------------------------------------------- 206.12 充电-------------------------------------------------- 206.13 背光-------------------------------------------------- 216.14 自动关机------------------------------------------------- 216.15 电池的更换217 故障分析与排除--------------------------------------------------- 218 保养和维修 ------------------------------------------------------- 218.1 冲击装置------------------------------------------------ 218.2 正常维修程序------------------------------------------------ 219 检定周期 ------------------------------------------------------ 2110 用户须知 ----------------------------------------------------- 2211 贮存条件、运输及注意事项----------------------------------------------- 22附录 --------------------------------------------------------- 23附表1 ----------------------------------------------------- 23附表2 ----------------------------------------------------- 24附表3 ----------------------------------------------------- 25附表4 ----------------------------------------------------- 261 概述1.1 产品特点针对轧辊肖氏硬度测量设计独立的系统，测量系统支持轧辊专用和非轧辊专用两种状态，并可通过快捷键进行状态切换。

前言用户须知▪操作设备之前，保证已阅读并准确理解本说明书中的所有内容，包括主机安装、外设连接、安全性能、功能使用和维护保养方法等。

▪特别注意说明书中标明“警告”、“注意”、“提示”的内容。

▪特别提醒：如因用户不按照《使用说明书》的规定操作，或不遵守制造商或代理商的说明，而造成任何设备或人员的毁坏或伤害，责任自负。

▪特别提醒：《使用说明书》不常使用时，请妥善保管，以备日后查阅。

注意：本设备属于高压液压试验设备，操作前请仔细阅读本设备使用说明书，特别注意理会强调的安全注意事项。

任何未经培训的人员请勿维修及操作该设备。

该设备必须要有经过培训合格，了解设备性能、安全操作规程及安全注意事项的人员来操作，或者会有危险！以下为出厂建议的操作规程，用户必须制定符合使用车间实际工况的操作规程。

一般操作规程及安全注意事项：1)在没有掌握本试验台工作原理之前,不能擅自操作;开动液压设备,检测试验台上各个接头是否接好,密封;2)检测被试件是否装接好,其他附件接线是否正确,有无短路;3)在启动试验台之后,先检测试验台上各个仪表是否能够正常工作,单体支柱是或固定牢固，检测是否有泄漏油的情况,再检测数据采集是否正常;4)在试验过程中,台上的各个按钮和旋钮操作时都不要用力过大,过快.并且在操作时,注意观察压力表变化情况;5)做高压试验时必须做好防护措施，人员远离高压测试源，需通过仪表观察阀件外部情况，防止高压飞溅伤人。

6)在记录试验数据时,如果允许应将试验台调到低压工作状态;7)确定管路内没有压力时才允许拆解管路接头。

8)试验完毕应关闭试验台泵,电源开关,将试验台溢流阀调到卸荷状态,电源,将试验台及周围环境清理干净.警告:●设备严禁在无水（水箱）、液压油（油箱）的情况下通电。

●拆卸管路前必须确定管内无压。

●高压试验时必须做好防护，远离高压源。

●为避免火灾风险，系统必须单独供电。

注意：●为确保安全，设备外壳必须用≥1.0mm2的双色黄绿线可靠接地，请不要用电源转接板和两芯插座。