IRM-8601V-2中文资料

LMP8601MAEVAL/NOPBUser's GuideSNOA539A–February2009–Revised April2013AN-1940LMP8601Evaluation Board1IntroductionThe LMP8601current sense evaluation board is designed to evaluate the LMP8601,60V common mode, bidirectional precision current sensing amplifier.This board has a LMP8601part mounted on the printed circuit board(PCB)together with the required de-coupling capacitor,power supply connections,input and output(I/O)connectors and a3-pin header for connecting the offset pin to either GND or V.SFigure1.The LMP8601Evaluation Board2General DescriptionThe LMP8601and LMP8601Q are fixed20x gain precision amplifiers.The part amplifies and filters small differential signals in the presence of high common mode voltages.The input common mode voltagerange is−22V to+60V when operating from a single5V supply.With3.3V supply,the input common mode voltage range is from−4V to+27V.The LMP8601and LMP8601Q are members of the LinearMonolitic Precision(LMP™)family and are ideal parts for unidirectional and bidirectional current sensing applications.All parameter values of the parts that are shown in the tables of the LMP8601,LMP8601-Q1 60-V Common-Mode Bidirectional Precision Current Sensing Amplifier Data Sheet(SNOSAR2)are100% tested and all bold values are also100%tested over temperature.LMP is a trademark of Texas Instruments.All other trademarks are the property of their respective owners.1 SNOA539A–February2009–Revised April2013AN-1940LMP8601Evaluation Board Submit Documentation FeedbackCopyright©2009–2013,Texas Instruments IncorporatedLMP8601Operating Conditions The part has a precise gain of20x,which is adequate in most targeted applications to drive an ADC to itsfull scale value.The fixed gain is achieved in two separate stages,a pre-amplifier with a gain of10x and an output stage buffer amplifier with a gain of2x.The connection between the two stages of the signal path is brought out on two pins to enable the possibility to create an additional filter network around the output buffer amplifier.These pins can also be used for alternative configurations with different gain as described in the Applications Information section of the LMP8601,LMP8601-Q160-V Common-ModeBidirectional Precision Current Sensing Amplifier Data Sheet(SNOSAR2).The mid-rail offset adjustment pin enables you to use these devices for bidirectional single supply voltage current sensing.The output signal is bidirectional and mid-rail referenced when this pin is connected to the positive supply rail.With the offset pin connected to ground,the output signal is unidirectional and ground-referenced.The LMP8601Q incorporates enhanced manufacturing and support processes for the automotive market, including defect detection methodologies.Reliability qualification is compliant with the requirements and temperature grades defined in the AEC Q100standard.3LMP8601Operating Conditions•Temperature Range−40°C to125°C•Power Supply Voltage3.0V≤VS≤5.5V•CMVR at VS=3.3V−4V to27V•CMVR at VS=5.0V−22V to60V4Description of the LMP8601Evaluation BoardThe LMP8601evaluation board requires a power supply with a voltage between3.0V and5.5V,thesupply current will be<2mA in normal operation with high-impedance load on the output of the part.Thepositive supply voltage is connected to VS(P5).The negative supply voltage is connected to GND(P6).The offset voltage on the output of the LMP8601is determined by the voltage on the offset pin,which isconnected to pin2of J1and the offset voltage will be VOffset /2.This pin is normally connected with a jumperto GND or VS,but this pin can also be driven from a low impedance source(<10Ω).With a jumper on J1between1–2,the offset pin is connected to VS and the offset voltage is half the valueof VS.In this configuration,the LMP8601can be used for measuring bidirectional currents.With a jumper on J1between2–3,the offset pin is connected to GND and the output voltage is ground referenced.In this configuration,the LMP8601is used for measuring unidirectional currents.The input signal is connected between+IN(P1)and−IN(P2)and the output signal is available at OUT (P3).On the board there is the possibility to place a capacitor C2that creates a low-pass filter between the first and second stage.This can be used to reduce the output noise and glitches that might appear fromswitching large common mode voltages with very fast transients at the input.(For more details about this filter,see the Application Information section of the LMP8601,LMP8601-Q160-V Common-ModeBidirectional Precision Current Sensing Amplifier Data Sheet(SNOSAR2).The Header J2is normally shorted with a jumper and connects the first stage to the second stage.The Application Information section of the LMP8601,LMP8601-Q160-V Common-Mode Bidirectional Precision Current Sensing Amplifier Data Sheet(SNOSAR2)explains more about the alternative configurations that can be made after removing the jumper on J2.2AN-1940LMP8601Evaluation Board SNOA539A–February2009–Revised April2013Submit Documentation FeedbackCopyright©2009–2013,Texas Instruments Incorporated PCB Layout GuidelinesFigure2.Power Supply Connectors and Headers5PCB Layout GuidelinesThis section provides general practical guidelines for PCB layouts that use various power and groundtraces.Designers should note that these are only"rule-of-thumb"recommendations and the actual results are predicated on the final layout.5.1Differential SignalsThe two input pins of the LMP8601form a differential pair that must be handled following the rules given below.•Keep both signals coupled by routing them closely together and keeping them of equal length.•Do not allow any other signal in between these two signals of the differential pair.•Keep all impedances in both traces of the signal equal.5.2Power,Ground and De-CouplingKeep the power supply de-coupling capacitor close to the power supply pin(Vof the part.)SMake sure all return currents of the signals can flow next to the originating signals6Description of Headers and Connectors of the LMP8601Evaluation Board The LMP8601evaluation board provides the following headers and connectors for connecting testequipment and supplying the LMP8601part.3 SNOA539A–February2009–Revised April2013AN-1940LMP8601Evaluation Board Submit Documentation FeedbackCopyright©2009–2013,Texas Instruments IncorporatedConnector and Header Functions 7Connector and Header FunctionsDesignator Function or Use CommentJ1Offset selection1–2Mid rail offset(Bi-directional)2–3Ground Referenced(unidirectional) J2the second stage Short to connect first stager output to Normally shortedoutput amplifier inputP1Positive InputP2Negative InputP3OutputP5supply V SP6ground connection(GND)8Bill of Materials(BOM)Designator Component Value Tolerance Comment Package Type C1Capacitor100nF0603C2Capacitor N/A0603J1Header2pin Mid-rail OffsetJ2Header2pinP1Banana plug YELLOW+IN Banana_COLORP2Banana plug WHITE−IN Banana_COLORP3Banana plug BLUE OUT Banana_COLORP5Banana plug RED V S Banana_COLORP7Banana plug BLACK GND Banana_COLORU1LMP8601LMP8601SOIC4AN-1940LMP8601Evaluation Board SNOA539A–February2009–Revised April2013Submit Documentation FeedbackCopyright©2009–2013,Texas Instruments IncorporatedAppendix A Schematic5 SNOA539A–February2009–Revised April2013Schematic Submit Documentation FeedbackCopyright©2009–2013,Texas Instruments Incorporated Appendix B Layoutyout,Silk Screenyout,Top Layer6Layout SNOA539A–February2009–Revised April2013Submit Documentation FeedbackCopyright©2009–2013,Texas Instruments IncorporatedIMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,enhancements,improvements and other changes to its semiconductor products and services per JESD46,latest issue,and to discontinue any product or service per JESD48,latest issue.Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All semiconductor products(also referred to herein 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TI is not responsible or liable for any such statements.Buyer acknowledges and agrees that it is solely responsible for compliance with all legal,regulatory and safety-related requirements concerning its products,and any use of TI components in its applications,notwithstanding any applications-related information or support that may be provided by TI.Buyer represents and agrees that it has all the necessary expertise to create and implement safeguards which anticipate dangerous consequences of failures,monitor failures and their consequences,lessen the likelihood of failures that might cause harm and take appropriate remedial actions.Buyer will fully indemnify TI and its representatives against any damages arising out of the use of any TI components in safety-critical applications.In some cases,TI components may be promoted specifically to facilitate safety-related applications.With such components,TI’s goal is to help enable customers to design and create their own end-product solutions that meet applicable functional safety standards and requirements.Nonetheless,such components are subject to these terms.No TI components are authorized for use in FDA Class III(or similar life-critical medical equipment)unless authorized officers of the parties have executed a special agreement specifically governing such use.Only those TI components which TI has specifically designated as military grade or“enhanced plastic”are designed and intended for use in military/aerospace applications or environments.Buyer acknowledges and agrees that any military or aerospace use of TI components which have not been so designated is solely at the Buyer's risk,and that Buyer is solely responsible for compliance with all legal and regulatory requirements in connection with such use.TI has specifically designated certain components as meeting ISO/TS16949requirements,mainly for automotive use.In any case of use of non-designated products,TI will not be responsible for any failure to meet ISO/TS16949.Products ApplicationsAudio /audio Automotive and Transportation /automotiveAmplifiers Communications and Telecom /communicationsData Converters Computers and Peripherals /computersDLP®Products Consumer Electronics /consumer-appsDSP Energy and Lighting /energyClocks and Timers /clocks Industrial /industrialInterface Medical /medicalLogic Security /securityPower Mgmt Space,Avionics and Defense /space-avionics-defense Microcontrollers Video and Imaging /videoRFID OMAP Applications Processors /omap TI E2E Community Wireless Connectivity /wirelessconnectivityMailing Address:Texas Instruments,Post Office Box655303,Dallas,Texas75265Copyright©2013,Texas Instruments IncorporatedLMP8601MAEVAL/NOPB。

电脑鼠的原理分析及算法研究摘要：本文阐述了电脑鼠的定义和意义，并对电脑鼠的工作原理及硬件、软件设备进行一定的分析，研究了一些传统和经典的算法。

关键词：电脑鼠，模块，算法，蚂蚁算法Analysis of the Principle and Study of Algorithm ofMicroMouseWang Huinan 04010515(Southeast University, Nanjing, 211189)Abstract:This paper describes the definition and significance of MicroMouse. And analyzing the work principle of MicroMouse’s hardware and software equipment. Studying a number of traditional and classical algorithms.Key words: MicroMouse; Module; Algorithms; Ant algorithm本学期，我选修了机电一体化——电脑鼠。

通过学习和查找资料，我对电脑鼠的运行原理有了一定的了解，并产生了一些新的想法。

1电脑鼠的基本知识1.1电脑鼠的定义所谓“电脑鼠”，英文名叫做MicroMouse，是使用嵌入式微控制器、传感器和机电运动部件构成的一种智能行走装置的俗称，它可以在“迷宫”中自动记忆和选择路径，寻找出口，最终达到所设定的目的地。

实际上电脑鼠就是一个电力驱动小车，而这个电动小车是由一个或多个为控制器来控制，通过传感器和其他各功能器件的配合，具备一定的智能。

同时，电脑鼠拥有探测障碍物、行走、转弯、加减速好制动等基本功能。

1.2电脑鼠的意义电脑鼠可谓是一种具有人工智能的小型机器人，结合了机械、电机、电子、控制、光学、程序设计和人工智能等多方面的科技知识。

IRM-8601M2-x seriesFeatures‧High protection ability against EMI‧ Ellipsoid lens for improved reception characteristics ‧ Available for various carrier frequencies ‧ Min burst length: 10 cycles ‧ Min gap length: 14 cycles‧ Low operating voltage and low power consumption ‧ High immunity against ambient light Hi ‧gh immunity against TFT backlight ‧ Long reception range ‧ High sensitivity‧ Pb free and RoHS compliantDescriptionThe IRM-8601M2-x devices are DIP type infraredreceivers which have been developed and designed by using the latest IC technology.The PIN diode and preamplifier are assembled onto a lead frame and molded into a black epoxy package which operates as an IR filter.The demodulated output signal can directly be decoded by a microprocessor.Applications• AV equipment such as TV, VCR, DVD, CD, MD, etc. • CATV set top boxes • Multi-media Equipment• Other devices using IR remote controlApplication Circuit Block DiagramThe RC Filter must be connected as close as possible to Vcc and GND pins.Pin Configuration1. OUT2. GND3. V CC1 2 3IRM-8601M2-x series Parts TableModel No. Carrier FrequencykHz IRM-8601M2-2 36kHz IRM-8601M2 38kHz IRM-8601M2-4 40Package Dimensions(Dimensions in mm)IRM-8601M2-x seriesAbsolute Maximum Ratings (T a =25°C)ParameterSymbol Rating Unit Supply Voltage Vcc 6 V Operating Temperature Topr -20 ~ +80 ℃ Storage Temperature Tstg-40 ~ +85℃Soldering Temperature *1Tsol 260 ℃*14mm from mold body for less than 10 secondsElectro-Optical Characteristics (Ta=25℃, Vcc=3V)Parameter Symbol MIN. TYP. MAX. Unit ConditionCurrent consumption Icc---0.40.6mANo input signalSupply voltage V CC 2.7 - 5.5 VPeak wavelength λp --- 940 --- nm L 0 14 --- ---Reception range L 45 6 --- --- mHalf angle(horizontal) φh --- ±35 --- deg Half angle(vertical) φv --- ±25 --- deg See chapter ‚Test method’High level pulse width T H 450 --- 700 µs Low level pulse width T L 500 --- 750 µs Test signalaccording to figure 1High level output voltage V OH Vcc-0.4 ------ VLow level output voltage V OL --- 0.2 0.5 V I SINK ≦2mA Internal pull up resistor R PU 85 100 115 k ΩIRM-8601M2-x seriesTest methodThe specified electro-optical characteristics are valid under the following conditions.1. Measurement environmentA place without extreme light reflections.2. External lightThe environment contains an ordinary, white fluorescent lamp without high frequency modulation. The≦.color temperature is 2856K and the illumination at the IR receiver is less than 10 Lux (Ev10Lux)3. Standard transmitterThe test transmitter is calibrated by using the circuit shown in figure 2. The radiation intensity of the transmitter is adjusted until Vo=400mVp-p. Both, the test transmitter and the photo diode, have a peak wavelength of 940nm. The photo diode for calibration is PD438B (λp=940nm, Vr=5V).4. The measurement system is shown in Fig.-3Fig.-1 Transmitter Wave Form D.U.T output PulseFig.-2 standard transmitter calibration Fig.-3 Measuring SystemIRM-8601M2-x series Typical Electro-Optical Characteristic CurvesIRM-8601M2-x seriesCode informationProtocol Suitable Protocol SuitableRCA No JVC YesSharp Yes Matsushita YesMitsubishi Yes Sony 12 Bit YesNEC Yes Sony 15 Bit YesYes20BitSonyRC5 YesYes RC6 YesToshibaZenith Yes RCMM NoYesCodeRCS-80 NoContinuousPacking Quantity1500 pcs / Box10 Boxes / CartonIRM-8601M2-x seriesDISCLAIMER1. Above specification may be changed without notice. EVERLIGHT will reserve authority on materialchange for above specification.2. When using this product, please observe the absolute maximum ratings and the instructions for useoutlined in these specification sheets. EVERLIGHT assumes no responsibility for any damage resulting from use of the product which does not comply with the absolute maximum ratings and the instructions included in these specification sheets.3. These specification sheets include materials protected under copyright of EVERLIGHT. Reproduction inany form is prohibited without the specific consent of EVERLIGHT.。

使用说明书OPERATION MANUALMODEL TH8602系列线材综合测试仪目录第1章开箱安装....................................................................................................................... 1-11.1开箱检查....................................................................................................................... 1-11.2电源连接....................................................................................................................... 1-11.3保险丝 .......................................................................................................................... 1-11.4环境.............................................................................................................................. 1-11.5外接治具及转接线使用注意事项................................................................................... 1-21.6预热.............................................................................................................................. 1-21.7仪器的其它特性............................................................................................................ 1-2第2章概述.............................................................................................................................. 2-12.1前面板说明 ................................................................................................................... 2-12.2后面板说明 ................................................................................................................... 2-52.3显示区域定义................................................................................................................ 2-72.4基本操作....................................................................................................................... 2-8第3章详细操作....................................................................................................................... 3-13.1开机.............................................................................................................................. 3-13.2主页面 .......................................................................................................................... 3-23.3设置界面....................................................................................................................... 3-23.3.1 <模式> ................................................................................................................................................... 3-33.3.2 <短断> ................................................................................................................................................... 3-53.3.3 <导通> ................................................................................................................................................... 3-93.3.4 <元件> ................................................................................................................................................ 3-133.3.5 <高压> ................................................................................................................................................ 3-163.3.6 <项目> ................................................................................................................................................ 3-193.4<学习>页面................................................................................................................. 3-203.4.1 学习 ...................................................................................................................................................... 3-203.4.2 短断路网络表 .................................................................................................................................... 3-203.4.3 清零功能 ............................................................................................................................................. 3-213.4.4 高压网络编辑 .................................................................................................................................... 3-223.4.5 导通网络编辑 .................................................................................................................................... 3-243.4.6 芯片学习 ............................................................................................................................................. 3-243.5<MEAS>页面.............................................................................................................. 3-253.5.1 标题 ...................................................................................................................................................... 3-263.5.2 档案 ...................................................................................................................................................... 3-263.5.3 统计 ...................................................................................................................................................... 3-263.5.4 测试结果 ............................................................................................................................................. 3-263.5.5 菜单内容 ............................................................................................................................................. 3-263.6<STAT>页面............................................................................................................... 3-273.6.1 总体统计 ............................................................................................................................................. 3-273.6.2 分项统计 ............................................................................................................................................. 3-283.6.3 菜单功能 ............................................................................................................................................. 3-283.7<FILE>页面 ................................................................................................................ 3-283.7.1 当前档案:UNNAME (普通) ......................................................................................................... 3-283.7.2 内部 ...................................................................................................................................................... 3-293.7.4 循序 ...................................................................................................................................................... 3-313.8<SYS>页面 ................................................................................................................ 3-323.8.1 测试 ...................................................................................................................................................... 3-333.8.2 环境 ...................................................................................................................................................... 3-363.8.3 通讯 ...................................................................................................................................................... 3-383.9<UTILI>页面............................................................................................................... 3-423.9.1 寻找脚位 ............................................................................................................................................. 3-423.9.2 系统自检 ............................................................................................................................................. 3-433.9.3 高压模块 ............................................................................................................................................. 3-433.9.4 I/O编辑 ............................................................................................................................................... 3-443.9.5 存储器初始化 .................................................................................................................................... 3-443.9.6 程序升级 ............................................................................................................................................. 3-453.9.7 系统密码 ............................................................................................................................................. 3-463.9.8 LCR模块 .............................................................................................................................................. 3-463.9.9 读取芯片 ............................................................................................................................................. 3-48 第4章通讯接口 (49)4.1HANDLER接口 (49)4.1.1 Handler接口电路图 (49)4.1.2 接口说明： (49)4.2RS232C接口 ............................................................................................................... 4-14.2.1 RS232标准 ............................................................................................................................................ 4-14.2.2 RS232连接 ............................................................................................................................................ 4-14.3SCPI命令参考 ............................................................................................................. 4-14.3.1 设定命令集 ............................................................................................................................................ 4-14.3.2 测试命令集 ............................................................................................................................................ 4-14.3.3 :FETCH指令集 ................................................................................................................................... 4-564.3.4 系统命令集 ......................................................................................................................................... 4-714.3.5 文件命令集 ......................................................................................................................................... 4-854.3.6 DISP命令集 ....................................................................................................................................... 4-874.3.7 其他命令集 ......................................................................................................................................... 4-874.3.8 公共命令集 ......................................................................................................................................... 4-88 第5章技术指标..................................................................................................................... 5-89第6章保修.............................................................................................................................. 6-1第7章附录.............................................................................................................................. 7-17.1手册更改说明................................................................................................................ 7-1第1章开箱安装本章讲述当您收到仪器后必须进行的一些检查，并且在安装使用仪器之前必须了解和具备的条件。

英可瑞IARM系列电力系统监控配置说明目录1.IARM-SA10主监控器 (4)1.1.SA10有二级子系统监控器一体化系统（一段直流系统） (4)1.1.1.系统通信关系图 (4)1.1.2.系统最大配置 (5)1.2.SA10无二级子系统监控器一体化系统（一段直流系统） (6)1.2.1.系统通信关系图 (6)1.2.2.系统最大配置 (7)1.3.SA10无二级子系统监控器一体化系统（两段直流系统） (9)1.3.1.系统通信关系图 (9)1.3.2.系统最大配置 (10)1.4.SA10纯直流系统（一段母线） (13)1.4.1.系统通信关系图 (13)1.4.2.系统最大配置 (14)1.5.SA10纯直流系统（两段母线） (15)1.5.1.系统通信关系图 (15)1.5.2.系统最大配置 (16)1.6.SA10直流屏蔽门专用系统 (17)1.6.1.系统通信关系图 (17)1.6.2.系统最大配置 (17)1.7.SA10电子负载系统 (18)1.7.1.系统通信关系图 (18)1.7.2.系统最大配置 (19)2.IARM-SCX2主监控器 (19)2.1.SCX2主监控器（一段母线） (19)2.1.1.系统通信关系图 (19)2.1.2.系统最大配置 (20)2.2.SC32主监控器（两段母线，非标带电操控制定制程序） (22)2.2.1.系统通信关系图 (22)2.2.2.系统最大配置 (23)2.3.SC32主监控器（电力通信系统专用） (24)2.3.1.系统通信关系图 (24)2.3.2.系统最大配置 (25)3.IARM-TC10监控器 (26)3.1.TC10终端显示器 (26)3.1.1.系统通信关系图 (26)3.1.2.系统最大配置 (26)3.2.TC10逆变监控器 (27)3.2.1.系统通信关系图 (27)3.2.2.系统最大配置 (27)4.PMU-S51主监控器 (28)4.1.S51主监控器（一段母线） (28)4.1.1.系统通信关系图 (28)4.1.2.系统最大配置 (29)5.PMU-S31主监控器 (30)5.1.S31主监控器（一段母线） (30)5.1.1.系统通信关系图 (30)5.1.2.系统最大配置 (30)6.PMU-S21主监控器 (31)6.1.S21主监控器（一段母线） (31)6.1.1.系统通信关系图 (31)6.1.2.系统最大配置 (32)7.PMU-S10主监控器 (33)7.1.S10主监控器（小系统） (33)7.1.1.系统通信关系图 (33)7.1.2.系统最大配置 (34)1.IARM-SA10主监控器1.1.SA10有二级子系统监控器一体化系统（一段直流系统）1.1.1.系统通信关系图CAN2直流馈线系统IARM-TC32FCAN1COM2直流充电系统IARM-SC22DCOM1CAN2485C DC48V 系统IARM-TC32CCAN1485ACAN2485C 电力UPS 系统IARM-TC32UCAN1485ACAN2485B 485C交流系统IARM-TC32ACAN1485A485整流模块485电池巡检仪CAN FC10/FC05CAN FC10/05485TG 通信模块CAN FC10/05CAN FC10/05485UPS 模块485电表/A21485ATS/A21注：此虚线框部为纯直流系统功能IARM-SA10CAN1RS485ARS485B61850485CPMU-P10模块61850协议转换器MODBUS1.1.2.系统最大配置一体化主监控器二级子系统监控器子监控模块最大配置数量备注IARM-SA10（主监控器）PMU-P10（协议转换器）IARM-TC32A交流系统监控器ATS（飞世龙ACA400或旭泰SK400）2用于测量交流进线，并控制互投地址56~57，飞世龙MODBUS协议2#A211不配ATS时可用A21测量两路交流进线电压地址49（拔码设置1），MODBUS协议多功能交流电表（建议用深圳泰瑞捷）2用于测量交流母线地址60~61，DLT645-2007或DLT645-1997国标协议1#A211不配多功能电表时可用A21测量交流母线电压地址48（拔码设置0）），MODBUS协议FC10或FC05模块（1主屏：14馈屏：4*3=12）13英可瑞馈线模块CAN通信协议地址1地址2~13（每屏固定占3地址）每屏最多3台且最多测量64支路IARM-SC32D直流系统监控器110V或220V电压等级充电模块24地址从1开始，英可瑞MODBUS协议一组电池巡检仪B21或B3或B4521英可瑞MODBUS协议地址112~116（拔码设置0~4）地址112~113（拔码设置0~1）地址112（拔码设置0）二组电池巡检仪B21或B3或B4521英可瑞MODBUS协议地址117~121（拔码设置5~9）地址117~118（拔码设置5~6）地址117（拔码设置5）IARM-TC32F直流馈线监控器FC10或FC05模块（主屏：2馈屏：4*4=16分屏：4*20=80）98英可瑞馈线模块CAN通信协议地址14~15地址16~31地址32~111每屏最多4台且最多测量64支路IARM-TC32C DC/DC通信模块（TG系列）16通信电源模块（只TG系列）通信系统监控器TG模块地址144~159（拔码设置0~15），RS485通信，MODBUS协议（拔码设P03协议）FC10或FC05模块2英可瑞馈线模块CAN通信协议地址112~113最多2台且最多测量64路IARM-TC32U 通信系统监控器INV/UPS模块8英可瑞MODBUS协议地址128~135FC10或FC05模块2英可瑞馈线模块CAN通信协议地址114~115最多2台且最多测量64路1.2.SA10无二级子系统监控器一体化系统（一段直流系统）1.2.1.系统通信关系图PMU-P10模块61850协议转换器61850MODBUSIARM-SA10485CCAN1RS485A RS485B1.2.2.系统最大配置一体化主监控器二级子系统监控器子监控模块最大配置数量备注IARM-SA10（主监控器）PMU-P10（协议转换器）无ATS（飞世龙ACA400或旭泰SK400）2用于测量交流进线，并控制互投地址56~57，飞世龙MODBUS协议2#A211不配ATS时可用A21测量两路交流进线电压地址49（拔码设置1），MODBUS协议多功能交流电表（建议用深圳泰瑞捷）2用于测量交流母线地址60~61，DLT645-2007或DLT645-1997国标协议1#A211不配多功能电表时可用A21测量交流母线电压地址48（拔码设置0）），MODBUS协议FC10或FC05模块（1主屏：14馈屏：4*3=12）13英可瑞馈线模块CAN通信协议地址1地址2~13（每屏固定占3地址）每屏最多3台且最多测量64路无110V或220V电压等级充电模块24地址从1开始，英可瑞MODBUS协议DC10模块1英可瑞MODBUS协议地址64（拔码设置0）用于交流、一段直流、一组电组相关测量及特殊开关量测量，系统故障输出。