MAX5902LBEUT中文资料

欧陆590端子使用说明端子信息——电源板(1型、2型、4型、5型)请注意，在1型和2型设备上，L1、L2、L3、A，以及A-端子位于分离的端子板上。

而3型、4型和5型设备则采取母线连接的方法。

3型设备的端子名称从D1至D8，并在本表端子编号栏中显示在括号中。

端子名称及标号端子说明主电源端子L1 三相主电源输入，相位基准进线1主电源端子L2 三相主电源输入，相位基准进线2主电源端子L3 三相主电源输入，相位基准进线3110至220伏交流电源，频率为50/60Hz 5%，线线连接，基准接地(TN)以及非基准接地(IT)电枢连接正向A，调速器直流电源输出、基准电枢正极连接至直流调速器上。

电枢连接负向A- 调速器直流电源输出、基准电枢负极连接至直流调速器上。

最大电压取决于电源电压，比率为:Vout近似等于1.15V交流电源外部励磁电源FL1(D1) 外部单向交流进线1，输入至励磁电桥外部励磁电源FL1(D2) 外部单向交流进线2，输入至励磁电桥1型设备上无此功能所需交流输入电压,1.11 x标称直流输出假如标称直流输出电压超过了励磁电压至少10,，那么，励磁调节器将控制励磁电流。

例如， V交流 = 1.11 x V直流以及V直流 = 1.1 x VFIELD因此，V直流 = 1.22 x VFIELD外部交流电源必须安装有高速熔断器，从而保护励磁调节器。

对于具有10A励磁能力的控制器，应使用10A熔断器。

注意事项:在使用外部交流输入时，端子之间具有正确的相位关系非常重要。

必须从L1(红色)和L2(黄色)相位上直接获得电源，或者通过变压器间接获得电源。

L1必须连接到FL1上，同时，L2必须连接到FL2上。

电源等级为:最大为500V 交流线线频率为50-60Hz 励磁输出F- (D3) 电机励磁连接所使用的直流电源。

励磁输出F+(D4) 在这些端子上所使用的直流输出电压将取决于交流电源电压以及励磁控制模式。

590控制器的简介590控制器是Eurotherm公司的全数字直流控制单元，只要加上相应的控制线路及各种工艺的控制线路就可以组成直流调速系统590系列中有以下型号：3相再生式4象限电枢控制器590－电流在180A以下592－电流在151到270A范围内594－电流在271到450A范围内596－电流在451到270A范围内598－电流超过721A者为外部任选组件3相非再生2象限电枢控制器：591－电流在180A以下593－电流在151到270A范围内595－电流在271到450A范围内597－电流在451到270A范围内599－电流超过721A者为外部任选组件非再生控制装置，由一个全控晶闸管桥构成，具有瞬态过载保护和配套的电子控制电路；在一个选定旋转方向上，提供精确的速度和（或）转矩控制。

再生控制装置，由二个全控晶闸管桥和高级的电子控制装置构成，在两个旋转方向上，能控制加速和减速，以及速度与转矩。

各种形式的电枢控制装置，都配备励磁调节器作为标准部件。

该调节器，由一单相全波半控晶闸管桥构成，有瞬态过载保护。

该调节器提供固定的电压源或电流源，取决于所选择的恒转矩运行方式。

励磁电流工作方式，还可以进一步得到加强，以便为要求扩大速度控制范围的恒功率控制的系统，提供一个削弱磁场的范围。

590控制器的简介《二》1．控制电路控制单元中所有的控制算法都是由16位微处理（单片机），控制软件的结构及微处理器工作的速度可有保证所有控制回路的调节作用在主电路六个可控硅桥的转换时间之内完成，以保证电流环的取样时间小于3.3ms（50HZ），速度算法运算也可在此时间内完成，以获得优越的动态性能。

对可逆装置，转矩（电流）反向时的无环流时间非常短（且可由软件设定，出厂时设定为1ms），使电流环对冲击负载具有优越的性能和反应。

机内提供的一套自整定（self－tune）算法，可自动计算出控制装置和电机组合一体后，电流环的P、I常数及电流断续点，这功能只需要在操作键上作一个简单的操作就可以获得，使系统获得最佳的动态特性，大大缩短了调试时间。

绿米双路控制器说明书双电源自动切换开关电器主要用在紧急供电系统，将负载电路从一个电源自动换接至另一个(备用)电源的开关电器，以确保重要负荷连续、可靠运行。

因此，常常应用在重要用电场所，其产品可靠性尤为重要。

转换一旦失败将可能造成以下二种危害之一，其电源间的短路或重要负荷断电(甚至短暂停电)，其后果都是严重的，这不仅仅会带来经济损失(使生产停顿、金融瘫痪)，也可能造成社会问题(使生命及安全处于危险之中)。

因此，工业发达国家都把自动转换开关电器的生产、使用列为重点产品加以限制与规范。

双电源自动切换开关一般由两部分组成：开关本体(ats)+控制器。

而开关本体(ats)又有pc级(整体式)与cb级(断路器)之分,双电源自动转换开关电器(atse)质量的好坏关键取决于开关本体(ats)。

1.pc级ats：一体式结构(三点式)。

它是双电源切换的专用开关，具有结构简单、体积小、自身连锁、转换速度快(0.2s内)、安全、可靠等优点，但需要配备短路保护电器。

2.cb级ats：配备过电流脱扣器的ats，它的主触头能够接通并用于分断短路电流。

它是由两台断路器加机械连锁组成，具有短路保护功能控制器的工作状况控制器主要用来检测被监测电源(两路)工作状况，当被监测的电源发生故障(如任意一相断相、欠压、失压或频率出现偏差)时，控制器发出动作指令，开关本体则带着负载从一个电源自动转换至另一个电源，备用电源其容量一般仅是常用电源容量的20%~30%。

图1是典型ats应用电路。

控制器与开关本体进线端相连。

控制器的优点控制器一般应有非重要负荷选择功能。

控制器也有两种形式：一种由传统的电磁式继电器构成;另一种是数字电子型智能化产品。

它具有性能好，参数可调及精度高，可靠性高，使用方便等优点。

一、分类及定义双电源主要分为PC级双电源(整体式)和CB级双电源(双断路器式)PC级双电源：能够接通、承载、但不用于分断短路电流的双电源双电源若选择不具有过电流脱扣器的负荷开关作为执行器则属于PC级自动转换开关。

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AMPA 励磁电流反馈安培[539]XXXX.X AMPS 0.0 AMPS 安培只读4***RAW FIELD FBK.原始励磁电流反馈[181]XXX.XX %0.00%只读4***FLD. FIRING ANGLE 励磁触发角[184]XXX.XX DEG 0 DEG 度只读4***ANIN 1 (A2)模拟输入1 (A2)[050]XXX.XX 0.00 VOLTS 伏只读4***ANIN 2 (A3)模拟输入2 (A3)[051]XXX.XX 0.00 VOLTS 伏只读4***ANIN 3 (A4)模拟输入3 (A4)[052]XXX.XX 0.00 VOLTS 伏只读4***ANIN 4 (A5)模拟输入4 (A5)[053]XXX.XX 0.00 VOLTS 伏只读4***ANIN 5 (A6)模拟输入5 (A6)[054]XXX.XX 0.00 VOLTS 伏只读4***ANOUT 1 (A7)模拟输出1 (A7)[055]XXX.XX 0.00 VOLTS 伏只读4***ANOUT 2 (A8)模拟输出2 (A8)[056]XXX.XX 0.00 VOLTS 伏只读4***START (C3)起动 (C3)[068]0:OFF; 1:ON OFF 只读4***DIGITAL INPUT C4数字输入 (C4)[069]0:OFF; 1:ON OFF 只读4***DIGITAL INPUT C5数字输入 (C5)[070]0:OFF; 1:ON OFF 只读4***DIGIN 1 (C6)数字输入1 (C6)[071]0:OFF; 1:ON OFF 只读4***DIGIN 2 (C7)数字输入2 (C7)[072]0:OFF; 1:ON OFF 只读4***DIGIN 3 (C8)数字输入3 (C8)[073]0:OFF; 1:ON OFF 只读4***DIGOUT (B5)数字输出 (B5)[074]0:OFF; 1:ON ON 只读4***DIGOUT (B6)数字输出 (B6)[075]0:OFF; 1:ON ON 只读4***DIGOUT (B7)数字输出 (B7)[076]0:OFF; 1:ON OFF 只读4***RAISE/LOWER O/P 上升/下降输出[264]XXX.XX %0.00%只读4***PID OUPUT PID 输出[417]XXX.XX %0.00%只读4***PID ERRORPID 误差[415]XXX.XX %0.00%只读4***SPT SUM OUTPUT 设定值合计1输出[086]XXX.XX %0.00%只读4***RAMP OUTPUT 斜 坡输出[085]XXX.XX %0.00%只读4***SPEED SETPOINT 速度设定值[063]XXX.XX %0.00%只读4***TERMINAL VOLTS 端电压[057]XXX.X %(h)0.0%只读4***BACK EMF反电动势[060]XXX.X %(h)0.0%只读4***TACH INPUT (B2)测速输入 (B2)[308]XXX.XX %0.0%只读4***RAW TACH INPUT 原始测速输入[058]XXX.X %(h)只读4***ENCODER编码器[206]XXXXX RPM 0 RPM 转/分钟只读4***RAW ENCODER RPM 原始编码器每分钟转数[059]XXX.XX RPM 只读4***RAW SPEED FBK 原始速度反馈[062]XXX.XX %只读4***RAW SPEED ERROR 原始速度误差[064]XXX.XX %只读4***CONTACTOR CLOSED 接触器闭合 (未分配)[083]0:OFF; 1:ON 只读只读只读只读只读只读只读0:FALSE 虚;1:TRUE 真0:FALSE 虚;1:TRUE 真0:FALSE 虚;1:TRUE 真0:FALSE 虚;1:TRUE 真[374][376]FALSE 虚TRUE 真0:FALSE 虚;1:TRUE 真FALSE 虚4***FIELD ENABLED 励磁使能44***HEALTH LED ***PID CLAMPED ***DRIVE RUNNING 驱动器运行 (未分配)44DISABLED 禁止0:DISABLED 禁止;1:ENABLED 使能[122]正常指示灯PID箝位[416][169]4***READY准备[125]***SYSTEM RESET系统复位 (未分配)3**SETUP PARAMETERS 建立参数4***RAMPS斜坡5****RAMP ACCEL TIME 斜坡加速时间[002]0.1~600.0 SECS 0.1 SECS 秒读写5****RAMP DECEL TIME 斜坡减速时间[003]0.1~600.0 SECS 0.1 SECS 秒读写5****RAMP HOLD 斜坡保持[118]0:OFF; 1:ON OFF 读写5****RANP INPUT 斜坡输入[005]-105.00~105.00%0.00%读写5****%S-RAMPS 斜坡百分数[266]0.00~100.00% 2.50%读写5****RAMPING THRESH.斜坡阈值[286]0.00~100.00%0.50%读写5****RESET VALUE 复位值[422]-300.00~300.00%0.00%读写5****MIN SPEED 最小速度[126]0.00~100.00%0.00%读写4***AUX O/P 辅助输入/输出5****AUX START 辅助启动[161]0：OFF ；1：0N ON 读写5****AUX JOG 辅助点动[227]0：OFF ；1：0N ON 读写5****AUX ENABLE 辅助使能[168]0：OFF ；1：0N ON 读写5****AUX DIGOUT 1辅助数字输出 1[094]0：OFF ；1：0N OFF 读写5****AUX DIGOUT 2辅助数字输出 2[095]0：OFF ；1：0N OFF 读写5****AUX DIGOUT 3辅助数字输出 3[096]0：OFF ；1：0N OFF 读写5****ANOUT 1模拟输出 1[128]-100.00~100.00%0.00%读写5****ANOUT 2模拟输出 2[129]-100.00~100.00%0.00%读写5****JOG/SLACK 点动/放松[496]0：OFF ；1：0N OFF 读写5****ENABLE使能[497]0：OFF ；1：0N OFF 读写0×0000~0×FFFF0×00000×0000~0×FFFF[288]读写读写读写读写读写读写加速常数(恒加速)0:DISABLED 禁止;1:ENABLED 使能[004]ENABLED 使能5****CONSTANT ACCEL 5****EXTERNAL RESET 外部复位5****AUTO RESET 自动复位5****REM.SEQ.ENABLE 远程序列使能[535][287]0(1sb): 0×0001远程使能1:0×0002 远程启动2:0×0004 远程点动ENABLED 使能0：FALSE 虚；1：TRUE 实FALSE 虚DISABLED 禁止0:DISABLED 禁止;1:ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能8:0×0100 远程报警(报警确认)9:0×0200 远程跳闸 (远程/远程跳闸)10:0×0400 保留3:0×0008 远程点动模式(选择点动速度)4:0×0010 保留5:0×0020 保留6:0×0040 保留15:0×8000 保留5****REM.SEQUENCE远程顺序[536]11:0×0800 保留12:0×1000 保留13:0×2000 保留14:0×4000 保留7:0×0080 保留0(1sb): 0×0001惯性停机(惯性停机命令)[537]序列状态****SEQ.STATUS 54***OP-STATION 操作面板5****SET UP 设置6*****SETPOINT设定值[512]0.00~100.00%0.00%读写6*****JOG SETPOINT点动设定值[513]0.00~100.00% 5.00%读写5****START UP VALUES 启动值6*****INITIAL SETPOINT 初始设定值[519]0.00~100.00%0.00%读写5****LOCAL RAMP现场斜坡6*****RAMP ACCEL TIME 斜坡加速时间[514]0.1~600.0 SECS 10.0 SECS 秒读写6*****RAMP DECEL TIME 斜坡减速时间[515]0.1~600.0 SECS10.0 SECS 秒读写4***JOG/SLACK 点动/放松5****JOG SPEED 1点动速度 1[218]-100.00~100.00% 5.00%读写5****JOG SPEED 2点动速度 2[219]-100.00~100.00%-5.00%读写5****TAKE UP 1叠加 1 (拉紧1)[253]-100.00~100.00% 5.00%读写5****TAKE UP 2叠加 2 (拉紧2)[254]-100.00~100.00%-5.00%读写5****CRAWL SPEED 爬行速度[225]-100.00~100.00%10.00%读写5****RAMP RATE 斜坡速率[355]0.1~600.0 SECS1.0 SECS 秒读写4***RAISE/LOWER 上升/下降5****RESET VALUE 复位值[255]-300.00~300.00%0.00%读写5****INCREASE RATE 增加速率[256]0.1~600.0 SECS 10.0 SECS 秒读写5****DECREASE RATE 降低速率[257]0.1~600.0 SECS 10.0 SECS 秒读写5****RAISE INPUT上升输入6*****LOCAL KEY ENABLE[261]0：FALSE 虚；读写读写读写读写FALSE 虚FALSE 虚读写读写读写0：FALSE 虚;1：TRUE 真5.00%0.00~100.00%0：FALSE 虚；1：TRUE 真TRUE 真TRUE 真[516]初始正转方向[520]6*****INITIAL FWD DIRECTION6*****INITIAL JOG SETPOINT 656*****INITIAL LOCAL 初始现场(本控)****MODE 方式0：FALSE 虚；1：TRUE 真FALSE 虚0：FALSE 虚；1：TRUE 真FALSE 虚0：FALSE 虚；1：TRUE 真*****INITIAL PROGRAM [517]初始编程初始点动设定值现场键启用[511][518][228]1:0×0002 程序停机(程序(快速)停机命令2:0×0004 禁止(禁止/使能命令)3:0×0008 运行(调速器启动命令)4:0×0010 点动(调速器点动命令)5:0×0020 保留(未定义)6:0×0040 报警(未确认的报警)7:0×0080 保留(未定义)8:0×0100 正在运行(接触器合,准备使能)9:0×0200 使能 (调速器使能)10:0×0400 零速(零速输出,标记号17)11:0×0800 正常输出(正常输出,标记号1212:0×1000 准备(准备输出,标记号559)13:0×2000 保留14:0×4000 保留15:0×8000 保留5****MIN VALUE 最小值[258]-300.00~300.00%-100.00%读写5****MAX VALUE最大值[259]-300.00~300.00%100.00%读写4***SPECIAL BLOCKS 专用模块5****DIAMETER CALC.直径计算6*****LINE SPEED 线速度[424]-105.00~105.00%0.00%读写6*****REEL SPEED 卷筒速度[437]-105.00~105.00%0.00%读写6*****MIN DIAMETER 最小直径[425]0.00~100.00%10.00%读写6*****MIN SPEED 最小速度[426]0.00~100.00% 5.00%读写6*****RESET VAIUE 复位值[462]0.00~100.00%10.00%读写6*****RAMP RATE 斜坡率[453]0.1~600.0 SECS 5.0 SECS 秒读写6*****DIAMETER直径[427]0.00~100.00%0.00%只读6*****MOD OF LINE SPD 线速度的模值[428]0.00~105.00%0.00%只读6*****MOD OF REEL SPD 卷筒速度的模值[429]0.00~105.00%0.00%只读6*****UNFILT DIAMETER 未滤波直径[430]0.00~100.00%0.00%只读5****TAPER CALC.锥度计算6*****TAPER锥度[438]-100.00~100.00%0.00%读写6*****TENSION SPT.张力设定值[439]0.00~100.00%0.00%读写6*****TAPERED DEMAND 锥度要求[452]0.00~100.00%0.00%只读6*****TENTION TRIM 张力修正[440]-100.00~100.00%0.00%读写6*****TOT.TENS.DEMAND 总张力给定[441]-100.00~100.00%0.00%只读5****TORQUE CALC.转矩计算6*****TORQUE DEMAND 转矩要求[432]-200.00~200.00%0.00%读写5****SETPOINT SUM 2设定值合计 26*****INPUT 2输入 2[445]-300.00~300.00%0.00%读写6*****INPUT 1输入 1[443]-300.00~300.00%0.00%读写6*****INPUT 0输入 0[444]-300.00~300.00%0.00%读写6*****RATIO 1比率 1[446]-3.0000~3.0000 1.0000读写6*****RATIO 0比率 0[447]-3.0000~3.0000 1.0000读写6*****DIVIDER 1除数 1[466]-3.0000~3.0000 1.0000读写6*****DIVIDER 0除数 0[448]-3.0000~3.0000 1.0000读写6*****LIMIT极限[449]0.00~200.00%100.00%读写6*****SPT SUM OUTPUT 设定值合计输出[451]-200.00~200.00%0.00%只读6*****STPT SUM 2 OUT 0设定值合计 2 输出 0[491]-200.00~200.00%0.00%只读6*****STPT SUM 2 OUT 1设定值合计 2 输出 1[492]-200.00~200.00%0.00%只读5****PID比例-微分-积分6*****PROP.GAIN比例增益[404]0.0~100.0 1.0读写6*****INT. TIME CONST.积分时间常数[402]0.01~100.00SECS 5.00 SECS 秒读写6*****DERIVATIVE TC微分时间常数[401]0.000~10.000SECS 0.000 SECS 秒读写50：FALSE 虚；1：TRUE 真FALSE 虚5****LOWER INPUT 下降输入[262]0：FALSE 虚；1：TRUE 真FALSE 虚****EXTERNAL RESET 外部复位[307]读写1：TRUE 真读写读写EN ABLED 使能DISABLED 禁止读写读写6*****OVER WIND 过卷[434]外部复位*****EXTERNAL RESET 0:DISABLED 禁止;1:ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能6*****TENSION ENABLE 张力使能[463]6[433]EN ABLED 使能6*****POSITIVE LIMIT 正极限[405]0.00~105.00%100.00%读写6*****NEGATIVE LIMIT 负极限[406]-105.00~0.00%-100.00%读写6*****O/P SCALER(TRIM)输出换算(修正)[407]-3.0000~3.00000.2000读写6*****INPUT 1输入 1[410]-300.00~300.00%0.00%读写6*****INPUT 2输入 2[411]-300.00~300.00%0.00%读写6*****RATRO 1比率 1[412]-3.0000~3.0000 1.0000读写6*****RATRO 2比率 2[413]-3.0000~3.0000 1.0000读写6*****DIVIDER 1除数 1[418]-3.0000~3.0000 1.0000读写6*****DIVIDER 2除数 2[414]-3.0000~3.0000 1.0000读写读写读写6*****INT. DEFEAT 积分失效[409]0:OFF; 1:ON OFF 读写6*****FILTER T.C.滤波器时间常数[403]0.000~10.000SECS 0.100 SECS 秒读写模式[473]0~406*****MIN PROFILE GAIN 最小曲线增益[474]0.00~100.00%20.00%读写6*****PROFILED GAIN 曲线增益(随直径改变后的增益)[475]0.0~100.00.0只读5****TENS+COMP CALC.张力+补偿计算6*****STATIC COMP 静态补偿[487]-300.00~300.00%0.00%读写6*****DYNAMIC COMP 动态补偿[488]-300.00~300.00%0.00%读写6*****FIX.INERTIA COMP 固定惯性补偿[479]-300.00~300.00%0.00%读写6*****VAR.INERTIA COMP 变化惯性补偿[480]-300.00~300.00%0.00%读写6*****ROLL WIDTH/MASS 滚角宽度/质量[481]0.00~100.00%100.00%读写6*****LINE SPEED SPT 线速度设定值[498]-105.00~105.00%0.00%读写6*****FILTER T.C.滤波器时间常数[482]0~2000010读写6*****RATE CAL比率校准[483]-100.00~100.0010.00读写6*****NORMALISED dv/dt 标准(正常化) dv/dt [484]-300.00~300.00%0.00%读写6*****INERTIA COMP O/P 惯性补偿输出[485]XXX.XX %0.00%只读6*****TENSION SCALER 张力换算(器)[486]-3.0000~3.00001.0000读写4***FIELD CONTROL 励磁控制5****FID VOLTAGE VARS 励磁电压变量6*****FLD.VOLTS RATIO 励磁电压(输入/输出)比率[210]0.0~100.0%(h)90.0%读写5****FLD.CURRENT VARS 励磁电流变量6*****SETPOINT 设定值[171]0.00~100.00%100.00%读写6*****PROP. GAIN 比例增益[173]0.00~100.000.10读写6*****INT. GAIN积分增益[172]0.00~100.001.28读写6*****FLD. WEAK VARS 励磁削弱变量0:VOLTAGECONTROL 电压控制1:CURRENTCONTROL 电流控制读写读写读写读写MODE=4时,随直径改变后的增益=A*(直径-最小直径）^4+BMODE=0时,随直径改变后的增益=常数=PMODE=1时,随直径改变后的增益=A*(直径-最小直径）+B CURRENT CONTROL 电流控制0:DISABLED 禁止;1:ENABLED 使能ENABLED 使能[408][489]0:DISABLED 禁止;1:ENABLED 使能6*****REWIND重卷6*****MODEMODE=2时,随直径改变后的增益=A*(直径-最小直径）^2+B MODE=3时,随直径改变后的增益=A*(直径-最小直径）^3+B 5使能5****FLD. CTRL MODE励磁控制方式6[170][209]0:DISABLED 禁止;1:ENABLED 使能ENABLED 使能ENABLED 使能****FIELD ENABLE 励磁使能*****ENABLE7******EMF LEAD 电动势超前[175]0.10~50.00 2.00读写7******EMF LAG 电动势滞后[176]0.00~200.0040.00读写7******EMF GAIN电动势增益[177]0.00~100.000.30读写7******MIN FLD. CURRENT 最小励磁电流[179]0.00~100.00%10.00%读写7******MAX VOLTS最大电压[178]0.00~100.00%100.00%读写7******BEMF FBK LEAD 反电动势反馈超前[191]10~5000(ms)100读写7******BEMF FBK LAG 反电动势反馈滞后[192]10~5000(ms)100读写5****FLD.QUENCH DELAY 励磁断开延时[185]0.0~600.0 SECS 0.0 SECS 秒读写4***CURRENT PROFILE 电流剖面(电流曲线)5****SPD BRK 1 (LOWER)速度中断点1 (低)[032]0.00~100.00%100.0%读写5****SPD BRK 2 (HIGH)速度中断点2 (高)[031]0.00~100.00%100.0%读写5****I MAX BRK 1 (SPD1)电流最大断点1 (速度1)[093]0.00~200.00%(h)200.0%读写5****I MAX BRK 2 (SPD2)电流最大断点2 (速度2)[033]0.00~200.00%(h)200.0%读写4***INVERSE TIME 反向时间5****AIMING POINT 目标点[204]0.00~200.00%110.00%读写5****DELAY 延时[199]0.0~600.0 SECS 10.0 SECS 秒读写5****RATE速率（比率）[200]0.0~600.0 SECS 60.0 SECS 秒读写4***STOP RATES 停机率5****STOP TIME 停机时间[027]0.0~600.0 SECS 10.0 SECS 秒读写5****STOP LIMIT停机极限[217]0.0~600.0 SECS 60.0 SECS 秒读写5****CONTACTOR DELAY 接触器延时[302]0.0~600.0 SECS 1.0 SECS 秒读写5****PROG STOP TIME 程序停机时间[026]0.0~600.0 SECS 0.1 SECS 秒读写5****PROG STOP LIMIT 程序停机极限[216]0.0~600.0 SECS 60.0 SECS 秒读写5****PROG STOP I LIM 程序停机电流极限[091]0.00~200.00%100.00%读写5****STOP ZERO SPEED 停机零速[029]0.00~100.00%2.00%读写4***CALIBRATION校准5****NOM MOTOR VOLTS 标称(额定)电机电压[521]100~875V 100VOLTS 伏特读写5****ARMATURE CURRENT 电枢电流[523] 2.0~15.0AMPS 2.0AMPS 安培读写5****FIELD CURRENT 励磁电流[524]0.2~4.0AMPS 0.2AMPS 安培读写5****ARMATURE V CAL.电枢电压校准[020]0.9800~1.1000 1.0000读写5****IR COMPENSATION I×R 补偿[021]0.00~100.00%0.00%读写5****ENCODER RPM 编码器每分钟转数[022]0~6000RPM 1000 RPM 转/分读写5****ENCODER LINES 编码器线数[024]10~50001000读写5****ANALOG TACH CAL 模拟测速校准[023]0.9800~1.1000 1.0000读写5****ZERO SPD. OFFSET 零速偏置[010]-5.00~5.00%0.00%读写5****SPDFBK ALM LEVEL 速度反馈报警电平[180]0.0~100.0%(h)50.0%读写5****STALL THRESHOLD 堵转阈值[263]0.00~200.00%95.00%读写5****STALL TRIP DELAY 堵转跳闸延时[224]0.1~600.0 SECS 10.0 SECS 读写5****REM TRIP DELAY 远程跳闸延时[541]0.1~600.0 SECS 10.0SECS 秒读写5****OVER SPEED LEVEL过速电平[188]0.00~200.00%125.00%读写读写读写读写读写励磁断开方式[186]组态使能(组态有效)[039]5****FID.QUENCH MODE 5****CONFIGURE ENABLE 5[174]****ARMATURE I (A9)电枢电流（A9）0:DISABLED 禁止;1:ENABLED 使能DISABLED 禁止0:QUENCH 断开;1:STANDBY 备用7******FLD.WEAK ENABLE 励磁削弱使能QUENCH 断开[025]0:UNIPOLAR 单极;1:BIPOLAR 双极BIPOLAR 双极0:DISABLED 禁止;1:ENABLED 使能DISABLED 禁止5****FIELD I CAL.励磁电流校准[182]0.9800~1.1000 1.0000读写4***INHIBIT ALARMS 禁止报警5****REM TRIP DELAY 远程跳闸延时[541]0.1~600.0 SECS 10.0SECS 秒读写4***CURRENT LOOP电流环5****CUR.LIMIT/SCALER 电流极限/换算(定标)器[015]0.00~200.00%100.00%读写5****MAIN CURR. LIMIT 主电流极限[421]0.00~200.00%200.00%读写5****PROP.GAIN 比例增益[016]0.00~200.0045.00读写5****INT.GAIN 积分增益[017]0.00~200.00 3.50读写5****AUTOTUNE自动调谐[018]0:OFF; 1:ON OFF读写5****FEED FORWARD 前馈[136]0.10~50.00 2.00读写5****DISCONTINUOUS 不连续(断续点)[137]0.00~200.00%12.00%读写5****ADDITIONAL DEM 附加给定[030]-200.00~200.00%0.00%读写5****POS.I CLAMP 正电流箝位[301]-100.00~100.00%0.00%读写5****NEG.I CLAMP 负电流箝位[048]-100.00~100.00%0.00%读写4***SPEED LOOP 速度环5****SPD.PROP.GAIN速度比例增益[014]0.00~200.0010.00读写5****SPD.INT.TIME CONST 速度积分时间常数[013]0.001~30.000SECS 0.500 SECS 秒读写5****INT.DEFEAT 积分失效[202]0:OFF; 1:ONOFF 读写0~3读写读写读写读写读写读写读写读写读写读写读写读写ENABLED 使能读写读写0:INHIBITED 禁止:1:ENABLED 使能INHIBITED 禁止0：FALSE 虚；1：TRUE 真TRUE 真ENABLED 使能ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能DISABLED 禁止0:NEGATIVE 负极;1:POSITIVE 正极POSITIVE 正极2:ENCODER 编码器4Q(REGEN)再生速度反馈报警[081]ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能0:DISABLED 禁止;1:ENABLED 使能励磁故障[019]5555****TRIP RESET [305][028]****5073 RCV ERROR5073接收错误[111]跳闸复位****SPED FBK SELECT速度反馈选择****FIELD FAIL ****STALL TRIP(INHIBIT) 堵转跳闸DISABLED 禁止5****SPEED FBK ALARM 5****ENCODER ALARM 编码器报警[092]5****REM TRIP INHIBIT 远程跳闸禁止[540]50:DISABLED 禁止;1:ENABLED 使能ENABLED 使能5****BIPOLAR CLAMPS 双极箝位[090]电流给定隔离0:0FF =master(主);1:ON =slave(从属)OFF(主)5****REGEN MODE再生方式[201]0:DISABLED 禁止;1:ENABLED 使能ENABLED 使能0: 2Q(NON-REGEN)非再生; 1:4Q(REGEN)再生[119]主桥臂[527]5****ENCODER SIGN 编码器符号(极性)[049]****MASTER BRIDGE 5****I DMD.ISOLATE 0:ARM VOLTS FBK 电枢电压反馈[047]51:ANALOG TACH FBK 模拟测速反馈ARM VOLTS FBK 电枢电压反馈5****SPD.FBK.FILTER 速度反馈滤波器[547]0.000~1.000读写5****ADVANCED 先进功能(高级)6*****ADAPTION 自适应[268]0~30禁止7******SPD BRK1(LOW)速度断点1 (低)[269]0.00~100.00% 1.00%读写7******SPD BRK2(HIGE)速度断点2 (高)[270]0.00~100.00%5.00%读写7******PROP.GAIN 比例增益[271]0.00~200.00 5.00读写7******SPD.INT.TIME 速度积分时间[272]0.001~30.0000.500 SECS 秒读写6*****I GAIN IN RAMP 斜坡电流增益[274]0.0000~2.0000 1.0000读写6*****POS.LOOP P GAIN 位置环比例增益[273]-200.00~200.00%0.00%读写6*****ZERO SPD.QUENCH 零速断开7******ZERO SPD.LEVEL 零速电平[284]0.00~200.00%0.50%读写7******ZERO IAD LEVEL 零负载电流(IAD)电平[285]0.00~200.00%1.50%读写5****SETPOINTS 设定值6*****SETPOINT 1设定点 1[289]-105.00~105.00%0.00%读写6*****RATIO 2 (A3)比率 2 (A3)[007]-3.0000~3.0000 1.0000读写6*****SETPOINT 2 (A3)设定点 2 (A3)[290]-105.00~105.00%0.00%只读6*****SETPOINT 3设定点 3[291]-105.00~105.00%0.00%读写6*****SETPOINT 4设定点 4[041]-105.00~105.00%0.00%读写6*****MAX DEMAND 最大给定[357]0.00~105.00%105.00%读写6*****MIN DEMAND 最小给定[358]-105.00~0.00%-105.00%读写4***STANDSTILL静止5****ZERO THRESHOLD 零阈值[012]0.00~100.00%2.00%读写5****SOURCE TAG 源标记[306]0~49989读写4***SETPOINT SUM 1设定值合计 15****RATIO 1比率 1[006]-3.0000~3.00001.0000读写5****RATIO 0比率 0[208]-3.0000~3.00001.0000读写5****DIVIER 1除数 1[419]-3.0000~3.0000 1.0000读写5****DIVIER 0除数 0[420]-3.0000~3.00001.0000读写5****DEADBAD WIDTH 死区宽度[131]0.0~100.0%0.0%读写5****LIMIT 极限[375]0.00~200.00%105.00%读写5****INPUT 2输入 2[423]-200.00~200.00%0.00%读写5****INPUT 1输入 1[100]-200.00~200.00%0.00%读写5****INPUT 0输入 0[309]-200.00~200.00%0.00%读写读写读写读写读写读写[008]5****SIGN 15****SIGN 0符号 0[292]符号 1静止逻辑5****STANDSTILL LOGIC [011][009]0:NEGATIVE 负极;1:POSITIVE 正极POSITIVE 正极6*****SING 2 (A3)0:DISABLED 禁止;1:ENABLED 使能DISABLED 禁止3:ENCODER/ANALOG 编码/模拟组合反馈7******MODE 方式1:SPD FBK DEPENDENT 与速度反馈有关2:SPD ERROR DEPENDENT 与速度误差有关3:CUR.DEMAND DEPENDENT 与电流给定有关0:DISABLED 禁止;0:NEGATIVE 负极;1:POSITIVE 正极POSITIVE 正极0:NEGATIVE 负极;1:POSITIVE 正极POSITIVE 正极符号 2 (A3) (极性)3**PASSWORD 口令4***ENTER PASSWORD 输入口令[120]0×0000~0×FFFF 0×0000读写4***CHANGE PASSWORD 改变口令[121]0×0000~0×FFFF0×0000读写3**ALARM STATUS 报警状态最后报警[528]0×0000: 无现行报警0×0001: 超速0×0002: 丢失脉冲0×0004: 励磁电流0×0008: 散热器过热跳闸0×0010: 电机热敏电阻0×0020: 过压(VA)0×0040: 速度反馈0×0080: 编码器故障0×0100:励磁故障0×0200: 三相故障0×0400: 锁相环4***HEALTH WORD 正常字[115]0×00000×8218只读4***HEALTH STORE正常存储[116]0×00000×0000只读4***THERMISTOR STATE 热敏电阻状态 (未分配)[337]只读4***SPEED FBK STATE 速度反馈状态 (未分配)[472]只读3**MENUA 菜单4***MENU DELAY 菜单延时[038]0~6553531读写4***LANGUAGE 语言5****ENGLISH英语3**PARAMETER SAVE 参数储存3**SERIAL LINKS 串行连接4***MAIN PORT (P1)主通讯口 (P1)5****GROUP ID (GID)集群号(GID)[138]0读写5****UNIT ID (UID)单元号(UID)[139]0读写ASC ⅡBINARY 二进制OPTION 任选5****PROTOCOL(通讯)协议[148]EI ASC Ⅱ读写只读只读读写读写读写只读4***LAST ALARM4远程跳闸0×f006:PCB 版本0×ff06:产品代码0×f001:自动调谐失灵(中止)[526]4***BY-PASS PASSWORD 0：FALSE 虚；1：TRUE 真忽略口令 保留4***FULL MENUS 4***STALL TRIP 全菜单5****SRL LINK ENABLE 0:DISABLED 禁止;1:ENABLED 使能ENABLED 使能串行连接使能(启动)[146]0:DISABLED 禁止;1:ENABLED 使能ENABLED 使能***REMOTE TRIPFALSE 虚0×0000[542]堵转跳闸[112]0:0K 正确1:FAILED 失败OK 正确0：FALSE 虚；1：TRUE 真0×ff05:远程跳闸0×f200: 配置使能0×f400: 无操作面板0×0800: 5703接收错误0×1000: 堵转跳闸0×2000: 过电流跳闸0×f005: 外部跳闸0×8000: 交流互感器故障0×f001:自动调谐失误[037]300; 600; 1200; 24004800; 9600(缺省);192005****ESP SUP. (ASCⅡ)ESP支持(ASC Ⅱ)[152]DISABLED 读写5****CHANGEBAND (BIN)改变带(BIN)[144]0.00~327.67%0.00%读写5****ERROR REPORT 出错报告[158]0×0000~0×FFFF 0×00C0读写5****PNO. 7参数号7[142]0×0000~0×FFFF0×FFFF 读写5****OPTION ADDRESS 任选地址[499]0~327670读写5****OPTION VERSION 任选版本[303]0.00~99.990.00只读5****PARITY奇偶校验[334]ODD 奇/EVEN 偶EVEN 偶读写4***AUX PORT (P2)辅助通讯口(P2)5****SRL LINK ENABLE 串行连接使能(启动)[147]ENABLED读写5****GROUP ID (GID)集群号(GID)[140]0读写5****UNIT ID (UID)单元号(UID)[141]0读写5****PROTOCOL (通讯)协议[149]EI ASC Ⅱ读写5****BAUD RATE波特率[151]9600读写5****ESP SUP. (ASCⅡ)ESP支持(ASC Ⅱ)[153]DISABLED 读写5****CHANGEBAND (BIN)改变带(BIN)[145]0.00%读写5****ERROR REPORT 出错报告[159]0×00C0读写5****PNO. 7参数号7[143]0×FFFF 读写4***TEC OPTION技术任选项0: NONE1: RS4852: PROFIBUS DP 3: LINK 4: DEVICE NET 5: CAN OPEN 6: LON WORKS 7: TYPE 75****TEC OPTION IN 1技术任选输入 1[501]-32768~327680读写5****TEC OPTION IN 2技术任选输入 2[502]-32768~327680读写5****TEC OPTION IN 3技术任选输入 3[503]-32768~327680读写5****TEC OPTION IN 4技术任选输入 4[504]-32768~327680读写5****TEC OPTION IN 5技术任选输入 5[505]-32768~327680读写5****TEC OPTION FAULT 技术任选故障[506]NONE 只读5****TEC OPTION VER 技术任选版本[507]0×0000~0×FFFF 0×0000只读5****TEC OPTION OUT 1技术任选输出 1[508]0只读5****TEC OPTION OUT 2技术任选输出 2[509]只读4***SYSTEM PORT (P3)系统通讯口(P3)5****P3 SETUP P3设置0~30:DISABLED 禁止;1:5703MASTER 主机2:5703SLAVE 从机3:CELite(EIASC Ⅱ)6*****5703 SUPPORT 5703支持7******SETPT.RATIO 设定值比率[132]-3.0000~3.00000.0000读写DISABLED 禁止读写6*****MODE方式[130][150]9600读写5****TEC OPTION TYPE技术任选类型[500]NONE读写****BAUD RATE 5波特率7******5703 INPUT 5703输入[187]-300.00~300.00%0.00%只读******5703 OUTPUT5703输出[189]-300.00~300.00%0.00%只读******SCALED 5703 DATA 转换后5703数据[189]0.00%只读6*****BISYNCE SUPPORT 双同步支持7******GROUP ID (GID)集群号(GID)[329]0×0000~0×00070读写7******UNIT ID (UID)单元号(UID)[330]0×0000~0×000F0读写7******ESP SUP.(ASCⅡ) ESP支持(ASC Ⅱ)[328]DISABLED 禁止读写7******CHANGEBAND (BIN)改变带(BIN)[331]0.00%读写7******ERROR REPORT 出错报告[332]0×0000~0×FFFF0×00C0读写7******PNO. 7参数号7[333]0×0000~0×FFFF0×FFFF 读写6*****P3 BAUD RATE P3波特率[198]300~576009600读写5****DUMP MMI -> P3将MMI 信息传送给上位机5****DUP XFER <- P3从上位机传送数据给驱动器5****DUP XFER -> P3驱动器向上位机传送数据5****DUMP MMI (TX)将MMI信息传送给上位机6*****UP TO ACTION 直到作用5****DUP XFER (RX)从上位机传送数据给驱动器6*****UP TO ACTION 直到作用5****DUP XFER (TX)驱动器向上位机传送数据6*****UP TO ACTION直到作用54***PNO CONFIG 参数号配置5****PNO 112参数号 112[312]0~549354 (0)读写5****PNO 113参数号 113[313]0~54922 (0)读写5****PNO 114参数号 114[314]0~549209 (0)读写5****PNO 115参数号 115[315]0~54918 (0)读写5****PNO 116参数号 116[316]0~549170 (0)读写5****PNO 117参数号 117[317]0~54919 (0)读写5****PNO 118参数号 118[318]0~549174 (0)读写5****PNO 119参数号 119[319]0~54947 (0)读写5****PNO 120参数号 120[320]0~549304 (379)读写5****PNO 121参数号 121[321]0~54932 (380)读写5****PNO 122参数号 122[322]0~54933 (381)读写5****PNO 123参数号 123[323]0~54931 (382)读写5****PNO 124参数号 124[324]0~54924 (383)读写5****PNO 125参数号 125[325]0~54949 (384)读写5****PNO 126参数号 126[326]0~549201 (385)读写5****PNO 127参数号 127[327]0~549210 (0)读写3**SYSTEM系统4***SOFTWARE软件5****ENGLISH Nov 11 194***CONFIGURE I/O 配置输入/输出读写读写[039]0:DISABLED 禁止;1:ENABLED 使能DISABLED 禁止5****CONFIGURE ENABLE组态(配置)使能7******SETPT.SIGN 设定值符号****Serial Link Version Number 串行连接版本号 (未分配)0:NEGATIVE 负极;1:POSITIVE 正极[155]0×0000~0×FFFFPOSITIVE 正极[133]75****ANALOG INPUTS 模拟输入6*****ANIN 1 (A2)模拟输入 1 (A2)7******CALIBRTION 校准[230]-3.0000~3.0000 1.0000读写7******MAX VALUE 最大值[231]-300.00~300.00%100.00%读写7******MIN VALUE最小值[232]-300.00~300.00%-100.00%读写7******DESTINATION TAG 目的标记[246]0~549100读写6*****ANIN 2 (A3)模拟输入 2 (A3)7******CALIBRTION 校准[233]-3.0000~3.00001.0000读写7******MAX VALUE 最大值[234]-300.00~300.00%100.00%读写7******MIN VALUE 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毕业论文(2007届)多点温度巡回检测系统学生姓名：__***学号：院系：机电工程系专业：__自动化指导教师：完成日期：多点温度巡回检测系统摘要本设计为多点温度巡回检测系统，系统由上位机、下位机、通讯三部分组成。

采用以计算机作为上位机，以单片机为核心的仪器作为下位机，再加上通讯来完成设计。

该系统是利用多台下位机来采集分布在不同位置的温度值，实现多点的测量，通过网络与计算机通讯，解决了温度测量中分布与多点的问题，并且由计算机来实现对温度的集中监视与管理。

多点温度巡回检测以计算机为平台设计的温度测量管理软件对整个系统进行统一管理，并对下位机可进行系统参数的设定；实现对多点温度的采集、数据处理、实时显示、报表，打印等功能。

下位机主要以单片机AT89C52为核心，用Small Rtos51作为软件开发平台，实现对多点温度进行巡回检测，包括温度转换、温度设定、显示以及报警等功能，同时实现与上位机的通信。

通讯采用串口的方式，以应用于电子控制器上的一种通用语言Modbus协议来实现，便于联网与网络管理。

关键词温度检测；高精度；Small RTOS51；串口；ModbusThe cycling multi-point temperaturedetection systemABSTRACTThe design of the cycling multi-point temperature detection system uses computers and microcontrollers as PCs and lower computers respectively, together with communications between them.This system adopts several lower computers to acquire the temperature, distributing in different positions, and solves the problem of distribution and different points in the measurement of temperature through computer communications network, monitoring and management of the temperature can also be reached.The cycling multi-point temperature detection system consists of PCs, lower computers and communications, and manages the entire system by software, realizing the functions just as acquisition, data processing, real-time display, report, print of multi-point temperature and so on. The core of lower computers is AT89C52 MCU. The software in the instrument adopts Small RTOS51. This part implements the cycling detection of multi-point temperature, including the functions of conversion, setting, display, alarm and communications. The communications bases on Modbus protocol, making use of serial port mode, and then puts interconnection and management of network into effect.KEYWORDS temperature detection; High precision; Small RTOS51; Serial Port; Modbus目录中文摘要 (I)英文摘要 (II)1前言 (1)2系统设计 (1)2.1系统要求 (1)2.2温度传感器及其测温原理 (1)2.1.1分立式式温度传感器 (1)2.1.2模拟集成温度传感器 (2)2.1.3集成数字化温度传感器 (2)2.1.4系统分析和测温传感器的选择 (2)2.2系统方案的确定 (3)3多点温度巡回检测系统的硬件设计 (4)3.1系统结构与各功能模块 (4)3.2 AD590 (6)3．2．1 AD590的性能特点与工作原理 (6)3．2．2 AD590的应用 (7)3.3 数据采集及处理模块 (7)3.3.1 AT89C52简介 (8)3.3.2 通道选择的实现 (8)3.3.3 模数转换的实现 (9)3.4 显示报警及操作模块 (9)3.4.1 液晶显示 (9)3.4.2 报警模块 (10)3.4.3 按键模块 (10)3.5 数据通讯模块 (10)4多点温度巡回检测系统的软件设计 (11)4.1下位机软件程序设计 (11)4.1.1下位机程序开发方法简介 (11)4.1.2 Small RTOS5l简介 (11)4.1.3 下位机程序设计的实现 (12)4.1.4 串口通讯及协议 (13)4.2 上位机温度控制软件设计 (14)5系统测试与分析 (17)5.1通道选择调试 (17)5.2温度测量 (17)5.3上位机与下位机通讯调试 (17)6系统的抗干扰措施 (18)6.1 下位机的抗干扰措施 (18)6.2 数据通讯校验 (18)7系统的进一步发展方向 (19)8参考文献 (19)9 附录 (21)10 致谢 (23)1前言温度是科学技术中最基本的物理量之一，物理、化学、生物等学科都离不开温度。

MAX5902/MAX5903+72V , SOT23/TDFN, Simple Swapper Hot-SwapControllers________________________________________________________________Maxim Integrated Products119-1988; Rev 3; 1/07General DescriptionThe MAX5902/MAX5903 are hot-swap controllers that allow a circuit card to be safely hot plugged into a live backplane without causing a glitch on the power-sup-ply rail. These devices operate from +9V to +72V and provide the simplest hot-swap solution by eliminating all external components except the external p-channel MOSFET.The MAX5902/MAX5903 limit the inrush current to the load and provide a circuit-breaker function for overcurrent protection. During startup the circuit-breaker function is disabled and the MAX5902/MAX5903 limit the inrush cur-rent by gradually turning on the external MOSFET. Once the external MOSFET is fully enhanced, the circuit-break-er function is enabled and the MAX5902/MAX5903 pro-vide overcurrent protection by monitoring the voltage drop across the external MOSFET’s on-resistance.The MAX5902/MAX5903 include an undervoltage lock-out (UVLO) function, ON/OFF control input, and a power-good status output, PGOOD (MAX5902) or PGOOD (MAX5903). A built-in thermal shutdown fea-ture is also included to protect the external MOSFET in case of overheating.The MAX5902/MAX5903 offer latched or autoretry fault management and are available with 300mV, 400mV or 500mV circuit-breaker thresholds. Both the MAX5902 and MAX5903 are available in small SOT23 and TDFN pack-ages, and are specified for the extended -40°C to +85°C temperature range. For specific ordering information, see the Selector Guide at the end of the data sheet.ApplicationsNetwork Routers Servers Network Switches RAIDBase Station Line Industrial SystemsCardsFeatures♦Wide +9V to +72V Operation♦Requires No External Sense Resistor ♦Drives External p-Channel MOSFET ♦Limits Inrush Current ♦Circuit-Breaker Function♦Less than 2mA Quiescent Current ♦ON/OFF Input Permits Load Power-Supply Control and Sequencing ♦Adjustable Undervoltage Lockout ♦Power-Good Output with +72V Rating♦Latching or Automatic Retry Fault Management ♦Thermal Shutdown Helps Protect the External MOSFET ♦Available in Two Small Packages 6-Pin TDFN and SOT23Ordering InformationPin ConfigurationsTypical Operating CircuitsSimple Swapper is a trademark of Maxim Integrated Products, Inc.For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .M A X 5902/M A X 5903Controllers 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V S = +9V to +72V, GND = 0V, ON/OFF open circuit, T A = -40°C to +85°C, unless otherwise noted. Typical values are at V S = +48V and T= +25°C.) (Notes 1, 2)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Terminal Voltage (with respect to GND unless otherwise noted)V S , DRAIN, PGOOD, PGOOD ................................-0.3V to +76V ON/OFF ....................................................................-0.3V to +4V GATE to V S ............................................................-12V to +0.3V Current into any Pin............................................................±3mAContinuous Power Dissipation (T A = +70°C)6-Pin SOT23 (derate 9.1mW/°C above +70°C)..........727mW 6-Pin TDFN (derate 18.2mW/°C above +70°C).......1454mW Junction to CaseThermal Resistance, θJC (TDFN)..............................8.5°C/W Maximum Junction Temperature.....................................+150°C Storage Temperature Range.............................-60°C to +150°CMAX5902/MAX5903Controllers_______________________________________________________________________________________3GND, unless otherwise noted.Note 2:All specifications are 100% tested at T A = +25°C, unless otherwise noted. Specifications over -40°C to +85°C are guaran-teed by characterization.Note 3:This is the delay time from a valid on condition until V GS begins rising. Valid on conditions are: the device is not in undervolt-age lockout; ON/OFF is not driven low; and the device is not in thermal shutdown.Note 4:This is the delay from a valid low on ON/OFF until V GS falls. Pulses on ON/OFF less than t OFF are ignored, offering glitchimmunity.Note 5:Guaranteed by characterization, not production tested. C GATE is a capacitor from GATE to V S .ELECTRICAL CHARACTERISTICS (continued)(V S = +9V to +72V, GND = 0V, ON/OFF open circuit, T A = -40°C to +85°C, unless otherwise noted. Typical values are at V S = +48V and T A = +25°C.) (Notes 1, 2)Typical Operating Characteristics(V S = +48V, GND = 0V, and T A = +25°C, unless otherwise noted. See Figure 2 for test circuits.)0.70.81.00.91.11.203015456075SUPPLY CURRENT vs. INPUT VOLTAGEINPUT VOLTAGE (V)S U P P L Y C U R R E N T (m A )0.70.81.00.91.11.2-4010-15356085SUPPLY CURRENT vs. TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (m A )2528272629303132333435-4010-15356085V UVLO THRESHOLD vs. TEMPERATURETEMPERATURE (°C)L O C K O U T V O L T A G E (V )Typical Operating Characteristics (continued)(V S = +48V, GND = 0V, and T A = +25°C, unless otherwise noted. See Figure 2 for test circuits.)M A X 5902/M A X 5903Controllers 4_______________________________________________________________________________________57119131503015456075GATE DRIVE VOLTAGE vs. INPUT VOLTAGEINPUT VOLTAGE (V)G A T E D R I V E (V )75125100175150200225-4010-15356085RETRY TIMEOUT vs. TEMPERATUREM A X 5902 t o c 05TEMPERATURE (°C)T I M E O U T P E R I O D (m s )t = 20ms/divTURN-ON WAVEFORMS R L = 60Ω, C L = 100µFA : V OUT , 50V/divB : I IN , 1A/divC : V GATE , 50V/divD : V IN , 50V/divA B DCMAX5902 toc06000t = 2ms/divTURN-ON WAVEFORMS R L = OPEN, C L = 100µFA : V OUT , 50V/divB : I IN , 1A/divC : V GATE , 20V/divA B C MAX5902 toc07t = 1µs/divCIRCUIT-BREAKER EVENTV OVERDRIVE = 20mV, C GATE = 1000pFABCMAX5902 toc1000A : V DS , 0.5V/divB : V GS , 10V/divC : V PGOOD TO V S , 50V/div t = 2ms/divTURN-ON WAVEFORMSR L = 60Ω, C L = 10µF A : V OUT , 50V/div B : I IN , 0.5A/div C : V GATE , 20V/div AB C MAX5902 toc08t = 1µs/divCIRCUIT-BREAKER EVENTV OVERDRIVE = 200mV, C GATE = 1000pFABCMAX5902 toc11000A : V DS , 0.5V/div B : V GS , 10V/divC : V TO V S , 50V/divt = 2ms/divTURN-ON WAVEFORMSR L = 60Ω, C L = 100µF A : V OUT , 50V/div B : I IN , 1A/div C : V GATE , 20V/divAB C MAX5902 toc09MAX5902/MAX5903ControllersM A X 5902/M A X 5903Controllers6_______________________________________________________________________________________MAX5902L/MAX5903L turn off the MOSFE T, discon-necting the load immediately. If no circuit-breaker fault exists, the MAX5902/MAX5903 assert the power-good output. Then, if any of four conditions exist, the power-good output deasserts and the MAX5902/MAX5903turn off the MOSFET. The four conditions are: the volt-age across the MOSFE T exceeds the circuit-breaker threshold; the supply voltage falls below the undervolt-age lockout level; the die temperature exceeds +125°C; or ON/OFF is forced low. After a circuit-break-er fault, the MAX5902L/MAX5903L keep the MOSFE T off until the power is cycled, or the part is reset by tog-gling ON/OFF low for 10ms (typ). After a circuit-breaker fault, the MAX5902A/MAX5903A automatically restarts in 150ms (typ). All versions automatically restart after athermal fault, or an undervoltage shutdown, if the fault condition goes away for at least 150ms (typ).ON/OFF offers external control of the MAX5902/MAX5903, facilitating power-supply sequencing, and may also be used to change the undervoltage lockout (UVL) level. UVLO keeps the external MOSFE T switched off as long as the input voltage is below the desired level.A power-good output, PGOOD (MAX5902) or PGOOD (MAX5903), asserts when the external MOSFET is fully enhanced and the source-drain voltage is below the circuit-breaker threshold. PGOOD and PGOOD are open-drain outputs referenced to GND, and can with-stand up to +72V.Figure 2. Test CircuitsMAX5902/MAX5903Controllers_______________________________________________________________________________________7A thermal shutdown feature protects the external MOS-FE T by turning it off if the die temperature of the MAX5902/MAX5903 exceeds +125°C. The MAX5902/MAX5903 must be in good thermal contact with the external MOSFE T. See Layout Guidelines in the Appli-cations section of the data sheet.A circuit-breaker function monitors the voltage across the external MOSFET, V SD , and turns off the MOSFET if V SD exceeds the circuit-breaker threshold, V CB . The circuit-breaker function is enabled after the MOSFET is fully enhanced. Three threshold voltage options are available—300mV, 400mV, and 500mV. One version is available with no circuit-breaker function. Fault man-agement for the MAX5902/MAX5903 is offered with two different configurations; latched and automatic retry.Latched Circuit BreakerAfter a circuit-breaker trip event, the latched versions (MAX5902L/MAX5903L) drive GATE to V S , turning off the external MOSFE T, and PGOOD (PGOOD) is deasserted. A latched off condition needs to be reset by toggling ON/OFF low for at least 10ms, or by cycling the power supply, V S .Automatic Retry Circuit BreakerAfter a circuit-breaker trip event, the automatic retry versions (MAX5902A/MAX5903A) drive GATE to V S ,turning off the external MOSFE T, and PGOOD (PGOOD) is deasserted. If the start conditions are met for a full 150ms (t RS ) the start sequence is re-initiated.The start conditions are: the device is not in UVLO;ON/OFF is not driven low; and the device is not in ther-mal shutdown.No Circuit BreakerFor the versions without a circuit breaker, MAX5902N (MAX5903N), PGOOD (PGOOD) are asserted when the MOSFE T is fully enhanced. Once powered up the MAX5902N/MAX5903N ignore the MOSFE T drain-to-source voltage for applications where a circuit-breaker function is not desired.Applications InformationON/OFF Control InputThe ON/OFF control input provides three functions:external ON/OFF control; setting of the UVLO level; and resetting after a circuit-breaker event has caused the MAX5902L/MAX5903L to turn off the external MOSFET.Pulling ON/OFF to GND for at least 10ms (t OFF ) forces the MAX5902/MAX5903 to turn off the external MOSFET (see Figure 3 for a circuit example). To reset the MAX5902L/MAX5903L after a circuit-breaker event,toggle ON/OFF to GND for at least 10ms (t OFF ).ON/OFF can be used to sequence power supplies.Connecting a capacitor from ON/OFF to GND will delay the rise of ON/OFF proportional to the capacitance and input impedance of ON/OFF , typically 33k Ω(Figure 4). The MAX5902/MAX5903 can be controlled by logic-level signals. Logic-level signals of 3.3V or 1.8V may be directly connected to ON/OFF . For 5V logic level control,insert a series 47k Ωresistor as shown in Figure 5.Figure 4. Power-Supply SequencingFigure 3. Programmed +18V Lockout, with Optional Optocoupler On/Off Control.Turn-On and Turn-Off DelaysAfter power is applied, or ON/OFF is released, there is a 150ms delay (t ON ) before the gate ramp is started.This delay is also the automatic restart time delay.In the event of a circuit-breaker condition or an over-temperature fault condition, the turn-off delay is less than 4µs. An undervoltage condition must exist for at least 10ms (t OFF ) before the MAX5902/MAX5903 turns off the external MOSFET. ON/OFF must be held low for at least 10ms (t OFF ) before the MAX5902/MAX5903turns off the external MOSFET. Turn-off delay minimizes spurious shutdowns due to noisy signals or momentary voltage spikes, as well as preventing accidental reset-ting of the circuit-breaker latch (MAX5902L/MAX5903L).Thermal ShutdownA thermal shutdown feature helps protect the external MOSFE T. If the die temperature of the MAX5902/MAX5903 exceeds +125°C, the MOSFET is turned off.For accurate performance the MAX5902/MAX5903must be in close thermal contact with the external MOS-FET. See the Layout Guidelines section for information.Due to the low power dissipation of the MAX5902/MAX5903, its junction temperature will typi-cally be within a few degrees of the MOSFE T. All ver-sions of the MAX5902/MAX5903 automatically restart from a temperature fault when the junction temperature drops below +110°C.Undervoltage LockoutThe MAX5902/MAX5903 turns off the external MOSFET if the magnitude of the input voltage is below the level set by ON/OFF for longer than 10ms (t OFF ). If ON/OFF is left unconnected, the lockout voltage (V UVLO )defaults to 31.5V. V UVLO may also be set to any value within the power-supply range by using external resis-tors. To set the lockout voltage to a value between +9Vand +72V use a resistor divider connected between V S and GND, with the center node of the divider connect-ed to ON/OFF . For example, use a 3k Ωresistor (R1 in Figure 3) from ON/OFF to GND and calculate the otherwhere V UVLO is the desired lockout voltage, and V ON/OFF is the ON/OFF reference threshold specified in the Electrical Characteristics table (typically 1.26V).Figure 3 shows an example circuit with V UVLO set for +18V. To defeat the UVLO simply connect a single 100k Ωresistor between ON/OFF and V S , as shown in Figure 6.The Power-Good OutputThe power-good output, PGOOD (PGOOD), is open-drain and asserts when the external MOSFE T is fully enhanced and V SD is less than the circuit-breaker threshold (V CB ). For versions without the circuit-breaker function (MAX5902N/MAX5903N), PGOOD (PGOOD)asserts when the external MOSFET is fully enhanced.PGOOD (PGOOD) deasserts within 4µs when a circuit-breaker event occurs or if the die temperature exceeds +125°C. PGOOD (PGOOD) deasserts if V S < V UVLO for longer than 10ms or ON/OFF is held low for longer than 10ms.The MAX5902 PGOOD is active-low and the MAX5903PGOOD is active-high. Both are open-drain n-channel MOSFE Ts with their sources connected to GND, and can withstand up to +72V.M A X 5902/M A X 5903Controllers 8_______________________________________________________________________________________Figure 6. Defeating Undervoltage LockoutFigure 5. Logic ControlMAX5902/MAX5903Controllers_______________________________________________________________________________________9Selecting a Circuit-Breaker ThresholdThe MAX5902A/MAX5903A and the MAX5902L/MAX5903L offer a circuit-breaker function to protect the external MOSFE T and the load from the potentially damaging effects of excessive current. As load current flows through the external MOSFET, a voltage, V SD , is generated from source to drain due to the MOSFE T’s on-resistance, R DS(ON). The MAX5902A/MAX5903A and MAX5902L/MAX5903L monitor V SD when the exter-nal MOSFE T is fully enhanced. If V SD exceeds the circuit-breaker threshold the external MOSFET is turned off, and PGOOD (PGOOD) is deasserted. To accom-modate different MOSFE Ts and different load currents the MAX5902/MAX5903 are available with circuit-break-er threshold voltages of 300mV, 400mV, and 500mV. To determine the proper circuit-breaker threshold for an application use:V CB > (R DS(ON)) ✕ (I OUT(MAX))where R DS(ON)is the on-resistance of the MOSFET and I OUT (MAX) is the maximum expected output current.The MAX5902N/MAX5903N have no circuit-breaker function. For these parts choose an external MOSFE T which meets the load requirements.The circuit-breaker function is intended to protect against gross overcurrent or short-circuit conditions.During a gross overcurrent or short-circuit condition,the MAX5902/MAX5903 disconnect the load by dis-abling the external MOSFET. For calculating the circuit-breaker threshold use the MOSFET’s R ON at the worst possible operating condition, and add a 20% overcur-rent margin to the maximum circuit current. For instance, if a MOSFE T has an R ON of 0.06Ωat T A =+25°C, and a normalized on-resistance factor of 1.75 at T A = +130°C (from the MOSFE T data sheet), the R ON used for calculation is the product of these two num-bers, or (0.06Ω) x (1.75) = 0.105Ω. Then, if the maxi-mum current is expected to be 2A, using a 20%margin, the current for calculation is (2A) x (1.2) = 2.4A.The resulting minimum circuit-breaker threshold is then a product of these two results, or (0.105Ω) x (2.4A) =0.252V. The next highest minimum available threshold is 0.280V of the MAX5902ABE UT, which is an ideal choice given these parameters. Using this method to choose a circuit-breaker threshold allows the circuit to operate under worst case conditions without causing a circuit-breaker fault, but the circuit-breaker function will still operate if a short circuit, or a gross overcurrent condition exists.Determining Inrush CurrentDetermining a circuit’s inrush current is necessary to help choose the proper MOSFE T. The MAX5902/MAX5903 regulate the inrush current by means of con-trolling the load voltage slew rate, but inrush current is also a function of load capacitance. Determine inrush current using:where C is the load capacitance, and SR is the MAX5902/MAX5903 Load Voltage Slew-Rate Magnitude from the Electrical Characteristics table. For example, assuming a load capacitance of 100µF, and using the typical value of 9V/ms for the slew rate, the inrush current is 0.9A typical.If the maximum possible Load Voltage Slew Rate is used, the maximum inrush current calculates to 1.8A.Choose a MOSFE T with a maximum pulsed currentspecification that exceeds the maximum inrush current.Figure 7. Circuit Board Layout Example.V IN = +9V to +72VM A X 5902/M A X 5903Suggested External MOSFETsLayout GuidelinesGood thermal contact between the MAX5902/MAX5903 and the external MOSFET is essential for the thermal shutdown feature to operate effectively. Place the MAX5902/MAX5903 as close as possible to the drain of the external MOSFE T, and use wide circuit board traces for good heat transfer. See Figure 7 for an example of a PC board layout.Chip InformationTRANSISTOR COUNT: 658PROCESS TECHNOLOGY: BiCMOSControllers 10______________________________________________________________________________________MAX5902/MAX5903Controllers______________________________________________________________________________________11Selector GuideTDFN+Denotes lead-free package.M A X 5902/M A X 5903Controllers 12______________________________________________________________________________________Typical Operating Circuits (continued)Pin Configurations (continued)MAX5902/MAX5903Controllers______________________________________________________________________________________13Package Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to /packages .)M A X 5902/M A X 5903Controllers Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.14____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600©2007 Maxim Integrated Productsis a registered trademark of Maxim Integrated Products, Inc.Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to /packages .)。

调速器概述如何工作用简单术语讲，调速器就是使用控制环（一个内部的电流环和一个外部的速度环）来控制直流电机。

这些控制环在应用框图里可以看到。

框图显示了调速器所有的软件接口关系。

使用操作平台，你能选择调速器所使用的控制环中的两者之一；▲电流环▲速度环（默认）为了调速器更有效的控制，通常提出一个电流和速度反馈信号给一个相应的环。

电流反馈传感器是内置式的，然而速度反馈直接是电枢感应电路提供（默认），或有模拟测速发电机、编码器提供，或将微测速器连接到相关的任选面板来进行。

若将速度限定时，你可以由于励磁减弱通过电机磁场的控制，也速度提高就是励磁，进一部修整调电枢电压速器的运行。

通过消减xx200V电枢电压磁电流可以获得电机转速维持恒定的提高，并且可以超过励磁电流5.7ADC电机的额定电枢电压励磁减少所能获得的速度。

额定速度速度调速器可以远程使用数字/模拟输入和输出,或是现场使用操作平台来控制。

插上一个COMMS任选技术盒，调速器可以链接一个网络，并被PLC/SCADA或其它智能设备所控制。

控制特点控制控制线路完全和动力线路隔离（SELV）输出控制● 三相全控晶闸管桥● 微处理器实现相控扩展的触发范围●可以使用45到65HZ的频率输入作为50或60HZ的电源供应控制功能● 全数字式● 先进的PI调节，具有完全匹配的电流环，以达到最佳动态运行性能● 电流环具有自整定功能●可调速的PI，具有积分分离功能速度控制● 采用电枢电压反馈，具有IR补偿●采用编码器反馈，或模拟测速发电机速度范围● 用测速发电机反馈，标准为100：1稳态精度● 有数字设定值的编码器反馈（串行线路或P3）为0.01%●模拟测速器反馈为0.1%●电压反馈为2%●使用QUADRALOCMKⅡ5720数字控制器可达到绝对精确(误差为0.0%)注意:长期模拟精度，要受测速发电机温度稳定性的影响。

调整软件里的所有调整可在操作平台或是通过串行口来改变，操作平台除了诊断方便外，还提供参数和菜单的监控和标准。

欧陆590参数设定先根据电机的名牌参数，设置好电枢电流、电枢电压、励磁电流、交流或直流反馈，反馈电压的设定值。

1、加速时间设定：SETUP PARAMETERS参数设定-------:RAMPS斜坡--------:RAMP ACCEL TIME斜坡加速时间------:0.1SECS0.1秒2、减速时间设定：SETUP PARAMETERS参数设定--------:RAMPS斜坡:------RAMP DECEL TIME斜坡减速时间--------:0.5SECS0.5秒参数设定：斜坡：斜坡减速时间：0.5秒3、励磁控制方式设定：SETUP PARAMETERS: 参数设定--------FIELD CONTROL励磁控制-------:FLD CTRL MODE IS励磁控制方式------- 1 VOLTAGE CONTROL 电压（飞锯使用）--------- 2 CORRENT CONTROL 电流（轧车使用）4 励磁电压变量（励磁电压设定）SETUP PARAMETERS参数设定------:FIELD CONTROL励磁控制-------:FLD VOLTAGE V ARS励磁电压变量------:RATIO OUT/IN比率------: 48%（380V*48%=182.4V为励磁电压，飞锯使用，轧车电流控制不使用）5 静态逻辑选择设定：（低于门槛设定值以下的给定值视为零给定）SETUP PARAMETERS参数设定------:STANDSTILL静止-------:STANDSTILL LOGIC静止逻辑-------:ENABLED使能6 静态逻辑设定点选择SETUP PARAMETERS参数设定-----:STANDSTILL静止-------:ZERO THRESHOLD门槛值--------:2%7 再生方式应选择（应该是正反转选择）SETUP PARAMETERS设定参数------CURRENT LOOP电流环------ REGEN MODE再生方式------1如调速器为可逆的590C，再生方式应选择ENABLED（电机工作在四象限运行）；飞锯使用2如调速器为不可逆的591C，再生方式应选择DISABLED（电机工作在二象限运行）轧车使用8电流环自整定：SETUP PARAMETERS参数设定------CURRENT LOOP电流环------AUTOTUNE自整定------ON/OFF使能9 参数储存：PARAMETERS SA VE参数储存------:UP TO ACTION按上键执行-------:↑:FINISHED按↑储存完成粗调完成后，要对调速器进行细调，既对调速器的输出进行校准。

多麦克斯指纹锁说明书多麦克斯指纹锁说明书1. 多麦克斯指纹锁简介多麦克斯指纹锁是一种高安全性和便利性的智能门锁，它通过指纹识别技术来实现开锁操作。

不仅可以有效避免钥匙丢失或被盗用的风险，还能提供更加方便的开锁方式，使您的家庭或办公室更加安全。

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- 多种开锁方式：除了指纹识别外，多麦克斯指纹锁还可以通过密码、IC卡、遥控器等多种方式开锁，方便用户选择。

- 高安全性：多麦克斯指纹锁采用了先进的加密算法和密钥管理技术，确保用户的指纹和其他信息不被盗用或模拟复制。

- 容量大：多麦克斯指纹锁具有大容量的指纹库，可以存储多个用户的指纹信息，方便家庭或办公室的多人使用。

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3. 使用方法- 设置管理员指纹：首次使用多麦克斯指纹锁时，需要设置管理员指纹，管理员指纹具有最高权限。

- 添加普通用户：管理员可以通过相应的操作步骤，将其他用户的指纹信息添加到指纹库中。

- 开锁操作：用户只需将手指放到指纹识别器上，等待片刻，系统会自动识别指纹并进行开锁操作。

4. 注意事项- 如使用其他开锁方式（如密码、IC卡等）时，请确保相关设备的正常工作状态。

- 请避免将指纹识别器暴露在阳光直射下，以免影响识别效果。

- 清洁指纹识别器时，请使用干净的软布或纸巾，避免使用强酸、强碱等化学物品。

5. 维护保养- 请定期清洁指纹识别器，以确保识别效果。

- 如发现指纹锁有异常情况，如无法正常开锁等问题，请及时联系售后服务部门进行处理。

以上是多麦克斯指纹锁的简单说明书，如有更详细的使用方法和注意事项，请参考附带的详细说明书或咨询售后服务部门。