TK500规格说明书(V2.3)
TK108说明书
GPS安全监护手机使用说明书欢迎使用感谢您选择GPS安全监护手机手机。
该部手机是GSM与GPS技术的完美结合,流线型时尚外观设计,简洁高雅;充分展示时尚个性;大容量电话簿、短信息、闹钟、通话中心,话机设置,调频广播,GPS定位,挂机状态紧急报警等实用功能,助您享受生活的丰富多彩。
●请仔细阅读本手册后, 再使用本手机。
●新购买的手机,在首次使用前需先充电12小时,并且在第一次电量完全耗尽后,再进行第二次充电。
如此反复使用几次后,电池将达到最佳使用效果。
本款手机说明书内容与实物可能存在差异,请以实物为准。
若本款手机及其附件有任何更新,本公司恕不另行通知。
目录1.安全警告和注意事项41.1 安全防范措施41.2 使用手机的注意事项51.3使用电池的注意事项51.4 使用充电器的注意事项61.5 有关要求72.使用须知92.1.检查手机及配件92.2.手机规格92.2.1配件规格92.2.2技术规格92.3.外观102.4 .如何插入SIM卡112.5 电池112.5.1 安装电池112.5.2充电113.基本操作133.1.开关机133.2 .待机快捷操作133.3.按键锁定133.4.调节听筒音量143.5.文字输入143.5.1.输入汉字错误!未定义书签。
3.5.2.输入字母错误!未定义书签。
3.5.3.输入数字错误!未定义书签。
4.功能结构144.1.电话簿144.1 .1查找154.1.2 新增154.1.3 复制154.1.4 设置154.2.短消息154.2.1写消息154.2.2 收件箱164.2.3 发件箱164.2.4 短信设置164.3.通话中心164.4.话机设置164.5.工具165.手机的保养176.故障查找187.关于GPS部分使用说明197.1与GPS相关功能接受197.2基本功能具体对应指令及操作方法19 7.2.1.位置查询19(1)短信查询19(2)平台查询207.2.2.中心号码设定217.2.3.双向通话功能217.2.4.SOS求助功能217.2.5.定时上传间隔设定227.2.6.修改密码功能227.2.7.低电压报警功能227.2.8.设置接入点指令237.2.9.电子围栏功能23(1)GPS围栏功能23(3)围栏读取功能23(4)取消围栏功能247.2.10.辅助功能:248.售后服务25注意事项:251.安全警告和注意事项1.1 安全防范措施使用手机之前,请仔细阅读过“安全警告和注意事项”以后,再正确地使用该手机。
TK系列应用选型参考手册(phase)
T K永磁同步力矩电机应用选型参考手册索引TK电机选型说明 (2)TK电机参数、尺寸 (3)TK电机应用技术说明 (25)TK电机选型说明TK □□ - □□ - □□定子外部直径定子长度力矩常数举例说明:TK 85 – 50 - 01定子外部直径:85 mm定子长度: 50 mm力矩常数:1 Nm/ArmsTK 85Technical Data Summary TK 85Extremely thin ring motor-only20.5mm radialApplications:Small spindles,wrist joints,laser cuttinglimited flux controllabilitySymbol TK85-50-01TK85-100-01TK85-140-01Units Reference data (winding independent)Nominal torque,S1,0speed,conduction+convection cooled IC4181)Tnc2,806,409,90Nmrms Nominal torque,S1,0speed,water cooled2)Tnw5,1512,0019,00Nmrms Peak torque,S610%1)Tpk7,9718,2128,18Nmrms Maximum torque3)Tul193853Nm Maximum structural speed Pn200020002000rad/sec Critical flux control torque4)Pf224564NmMotor constant Tw0,590,971,23Nm/sqrt(W) Pole number PN101010Connection Y Y YPhysical data (winding independent)Rotor inertia Jm0,3000,6000,840mkgm2 Acceleration at maximum torque apk265633035833543rad/s2 Outer diameter Dout858585mmRotor hole diameter Din444444mmOverall stator length Stkout82132172mmStack length Stk50100140mmStator mass Msta0,931,712,4kgRotor mass Mrot0,380,761,06kg Insulation Class H-F Class H-F Class H-FProtection IP00IP00IP00Thermal data (winding independent)Thermal imp.assumed for cond.Cooling1)Rthc0,7670,5000,360K/W Thermal impedance,motor to cooling frame2)Rthw0,2500,1200,086K/W Thermal capacity Cth391718 1.008J/K Thermal time constant cond cooling1)Tc300359363sec Thermal time constant,water cooled2)Tw988687secLoss at Tnc L0c87174260WLoss at Tnw L0w290578977WCoolant flow,5C temp rise,35C inlet Cfl0,81,72,8lit/min Treshold of built-in PTC PTCt130130130oCElectrical data (winding dependent)Nominal speed(knee speed)5)wn628628628rad/sec Nominal power,water cooling,knee speed6)Pnw3,27,312kWBack E.M.F.between phases Ke0,580,580,58VsTorque constant Kt1,001,001,00Nm/Arms Temp.coeff.of E.M.F.and Kt dKe/dT-0,09-0,09-0,09%/oC Winding resistance,20oC Rw4,401,601,00Ohm Winding inductance Lw6,003,002,10mH Nominal current,zero speed1)In02,796,379,85Arms Nominal current,zero speed,2)In5,4012,5719,91Arms Maximum current3)Ipk23,6447,2866,20Arms Frequency fn500500500Hz Efficiency at rated power6)n0,920,930,92Definitions:1)Motor assembled in light alloy case with outer surface=500%of motor2)Water cooled motor,water inlet temperature=35C,copper temp,120C,3)Torque at which magnetic saturation prevents further overloading with any4)Knee torque corresponding to unlimited constant power operation5)Limit of constant torque operation with400Vac supplyTK 106Technical Data Summary TK 106Medium power medium tube motorsApplications:Direct drive lathesMultiaxis jointsSpeed up to10000rpm,50-500NmNo flux controlSymbol TK106-45-01TK106-90TK106-180-Units Reference data (winding independent)Nominal torque,S1,0speed,conduction+convection cooled IC4181)Tnc3,68,516,6Nmrms Nominal torque,S1,0speed,water cooled2)Tnw6,816,033,0Nmrms Peak torque,S610%1)Tpk102447Nmrms Maximum torque3)Tul3265110Nm Maximum structural speed Pn100010001000rad/sec Critical flux control torque4)Pf3470141NmMotor constant Tw0,911,492,18Nm/sqrt(W) Pole number PN121212Connection Y Y YPhysical data (winding independent)Rotor inertia Jm0,801,452,7mkgm2 Acceleration at maximum torque apk128071668417498rad/s2 Outer diameter Dout106106106mmRotor hole diameter Din656565mmOverall stator length Stkout83128218mmStack length Stk4590180mmStator mass Msta1,42,34,3kgRotor mass Mrot0,512kg Insulation Class H-F Class H-F Class H-FProtection IP00IP00IP00Thermal data (winding independent)Thermal imp.assumed for cond.Cooling1)Rthc0,8900,4470,250K/W Thermal impedance,motor to cooling frame2)Rthw0,2280,1100,057K/W Thermal capacity Cth588966 1.806J/K Thermal time constant cond cooling1)Tc523432452sec Thermal time constant,water cooled2)Tw134106103secLoss at Tnc L0c55111198WLoss at Tnw L0w197394789WCoolant flow,5C temp rise,35C inlet Cfl0,61,12,3lit/min Treshold of built-in PTC PTCt130130130oCElectrical data (winding dependent)Nominal speed(knee speed)5)wn538,57537,39537,15rad/sec Nominal power,water cooling,knee speed6)Pnw3,668,6017,73kWBack E.M.F.between phases Ke0,650,650,65VsTorque constant Kt1,131,131,13Nm/Arms Temp.coeff.of E.M.F.and Kt dKe/dT-0,09-0,09-0,09%/oC Winding resistance,20oC Rw2,300,860,40Ohm Winding inductance Lw4,102,001,00mH Nominal current,zero speed1)In03,207,5514,74Arms Nominal current,zero speed,2)In6,3614,9630,85Arms Maximum current3)Ipk35,5372,17122,13Arms Frequency fn515513513Hz Efficiency at rated power6)n0,950,960,96Definitions:1)Motor assembled in light alloy case with outer surface=500%of motor2)Water cooled motor,water inlet temperature=35C,copper temp,120C,3)Torque at which magnetic saturation prevents further overloading with any4)Knee torque corresponding to unlimited constant power operation5)Limit of constant torque operation with400Vac supplyTK 164Technical Data Summary TK 164High power medium speed spindle motorsApplications:Direct drive lathesSwiss type lathesSpeed up to5000rpm,40-200NmShort duty constant powerSymbol TK164-60-04TK164-110-03TK164-250-09Units Reference data (winding independent)Nominal torque,S1,0speed,conduction+convection cooled IC4181)Tnc1940106Nmrms Nominal torque,S1,0speed,water cooled2)Tnw3780209Nmrms Peak torque,S610%1)Tpk54114302Nmrms Maximum torque3)Tul93171389Nm Maximum structural speed Pn500500500rad/sec Critical flux control torque4)Pf86157366NmMotor constant Tw2,333,636,31Nm/sqrt(W) Pole number PN121212Connection Y Y YPhysical data (winding independent)Rotor inertia Jm4,307,3016mkgm2 Acceleration at maximum torque apk125761559518855rad/s2 Outer diameter Dout164164164mmRotor hole diameter Din969696mmOverall stator length Stkout102152292mmStack length Stk60110250mmStator mass Msta4,8817kgRotor mass Mrot1,32,45,5kg Insulation Class H-F Class H-F Class H-FProtection IP00IP00IP00Thermal data (winding independent)Thermal imp.assumed for cond.Cooling1)Rthc0,3900,2140,093K/W Thermal impedance,motor to cooling frame2)Rthw0,0920,0500,021K/W Thermal capacity Cth 2.016 3.3607.140J/K Thermal time constant cond cooling1)Tc786719664sec Thermal time constant,water cooled2)Tw185168150secLoss at Tnc L0c267491 1.120WLoss at Tnw L0w 1.030 1.880 4.380WCoolant flow,5C temp rise,35C inlet Cfl3,05,412,6lit/min Treshold of built-in PTC PTCt130130130oCElectrical data (winding dependent)Nominal speed(knee speed)5)wn173,29173,9952,40rad/sec Nominal power,water cooling,knee speed6)Pnw6,4113,9210,95kWBack E.M.F.between phases Ke1,801,765,13VsTorque constant Kt3,133,058,89Nm/Arms Temp.coeff.of E.M.F.and Kt dKe/dT-0,09-0,09-0,09%/oC Winding resistance,20oC Rw2,691,062,98Ohm Winding inductance Lw12,636,5824,00mH Nominal current,zero speed1)In06,0813,1211,92Arms Nominal current,zero speed,2)In12,4627,6224,74Arms Maximum current3)Ipk37,1970,1254,69Arms Frequency fn16616650Hz Efficiency at rated power6)n0,860,880,71Definitions:1)Motor assembled in light alloy case with outer surface=500%of2)Water cooled motor,water inlet temperature=35C,copper temp,1203)Torque at which magnetic saturation prevents further overloading4)Knee torque corresponding to unlimited constant power operation5)Limit of constant torque operation with400Vac supplyHigh power-speed spindle motorsApplications:High speed machining centresSpeed up to25,000rpm,30-100kWWater cooled constant power controllabilitySymbol TK170-60-0.6TK170-112-0.6Units Reference data (winding independent)Nominal torque,S1,0speed,conduction+convection cooled IC4181)Tnc1426Nmrms Nominal torque,S1,0speed,water cooled2)Tnw3263Nmrms Peak torque,S610%1)Tpk4074Nmrms Maximum torque3)Tul78117Nm Maximum structural speed Pn30003000rad/sec Critical flux control torque4)Pf67118NmMotor constant Tw1,742,70Nm/sqrt(W) Pole number PN44Connection Y YPhysical data (winding independent)Rotor inertia Jm58mkgm2 Acceleration at maximum torque apk76629135rad/s2 Outer diameter Dout170170mmRotor hole diameter Din6565mmOverall stator length Stkout145197mmStack length Stk60112mmStator mass Msta9,513,5kgRotor mass Mrot2,43,9kg Insulation Class H-F Class H-FProtection IP00IP00Thermal data (winding independent)Thermal imp.assumed for cond.Cooling1)Rthc0,3800,250K/W Thermal impedance,motor to cooling frame2)Rthw0,0670,040K/W Thermal capacity Cth 3.990 5.670J/K Thermal time constant cond cooling1)Tc 1.516 1.418sec Thermal time constant,water cooled2)Tw267227secLoss at Tnc L0c248378WLoss at Tnw L0w 1.250 2.096WCoolant flow,5C temp rise,35C inlet Cfl7,212,0lit/min Treshold of built-in PTC PTCt130130oCElectrical data (winding dependent)Nominal speed(knee speed)5)wn860842rad/sec Nominal power,water cooling,knee speed6)Pnw27,5253,05kWBack E.M.F.between phases Ke0,380,38VsTorque constant Kt0,650,65Nm/Arms Temp.coeff.of E.M.F.and Kt dKe/dT-0,09-0,09%/oC Winding resistance,20oC Rw0,210,09Ohm Winding inductance Lw2,101,20mH Nominal current,zero speed1)In021,5039,92Arms Nominal current,zero speed,2)In51,72101,83Arms Maximum current3)Ipk149,71224,57Arms Frequency fn274268Hz Efficiency at rated power6)n0,960,96Definitions:1)Motor assembled in light alloy case with outer surface=500%of motor2)Water cooled motor,water inlet temperature=35C,copper temp,120C,3)Torque at which magnetic saturation prevents further overloading with any4)Knee torque corresponding to unlimited constant power operation5)Limit of constant torque operation with400Vac supplyHigh power medium speed spindle motorsApplications:Direct drive lathesLarge milling spindlesSpeed up to5000rpm,50-500NmWater cooled constant power controllabilitySymbol TK240-60-04TK240-140-04TK240-240-04Units Reference data (winding independent)Nominal torque,S1,0speed,conduction+convection cooled IC4181)Tnc4196202Nmrms Nominal torque,S1,0speed,water cooled2)Tnw96226477Nmrms Peak torque,S610%1)Tpk117273575Nmrms Maximum torque3)Tul252505865Nm Maximum structural speed Pn100010001000rad/sec Critical flux control torque4)Pf172343573NmMotor constant Tw4,747,8610,97Nm/sqrt(W) Pole number PN161616Connection Y Y YPhysical data (winding independent)Rotor inertia Jm203760mkgm2 Acceleration at maximum torque apk583473849582rad/s2 Outer diameter Dout240240240mmRotor hole diameter Din150150150mmOverall stator length Stkout108178278mmStack length Stk70140240mmStator mass Msta122133kgRotor mass Mrot2,75,28,5kg Insulation Class H-F Class H-F Class H-FProtection IP00IP00IP00Thermal data (winding independent)Thermal imp.assumed for cond.Cooling1)Rthc0,2200,1130,067K/W Thermal impedance,motor to cooling frame2)Rthw0,0380,0190,011K/W Thermal capacity Cth 5.0408.82013.860J/K Thermal time constant cond cooling1)Tc 1.109997929sec Thermal time constant,water cooled2)Tw194168152secLoss at Tnc L0c290583 1.327WLoss at Tnw L0w 1.398 2.800 3.740WCoolant flow,5C temp rise,35C inlet Cfl4,08,010,7lit/min Treshold of built-in PTC PTCt130130130oCElectrical data (winding dependent)Nominal speed(knee speed)5)wn118,52113,80104,44rad/sec Nominal power,water cooling,knee speed6)Pnw11,3825,7249,82kWBack E.M.F.between phases Ke2,532,542,53VsTorque constant Kt4,384,404,39Nm/Arms Temp.coeff.of E.M.F.and Kt dKe/dT-0,09-0,09-0,09%/oC Winding resistance,20oC Rw1,280,470,24Ohm Winding inductance Lw9,304,702,80mH Nominal current,zero speed1)In09,3621,8246,04Arms Nominal current,zero speed,2)In23,0654,07114,45Arms Maximum current3)Ipk71,88143,49246,45Arms Frequency fn151145133Hz Efficiency at rated power6)n0,890,900,93Definitions:1)Motor assembled in light alloy case with outer surface=500%of motor2)Water cooled motor,water inlet temperature=35C,copper temp,1203)Torque at which magnetic saturation prevents further overloading with4)Knee torque corresponding to unlimited constant power operation5)Limit of constant torque operation with400Vac supplyTK 270Technical Data Summary TK 270Highpeak torque ring motorApplications:Direct drive rotary tablesIndexers for transfersWater cooled constant power controllabilitySymbol TK270-40-07TK270-80-08TK270-120-12Units Reference data (winding independent)Nominal torque,S1,0speed,conduction+convection cooled IC4181)Tnc43107170Nmrms Nominal torque,S1,0speed,water cooled2)Tnw95254382Nmrms Peak torque,S610%1)Tpk122305484Nmrms Maximum torque3)Tul188376565Nm Maximum structural speed Pn400200200rad/sec Critical flux control torque4)Pf142297427NmMotor constant Tw5,289,3512,01Nm/sqrt(W) Pole number PN242424Connection Y Y YPhysical data (winding independent)Rotor inertia Jm213853mkgm2 Acceleration at maximum torque apk582880149129rad/s2 Outer diameter Dout270270270mmRotor hole diameter Din180180180mmOverall stator length Stkout78118158mmStack length Stk4080120mmStator mass Msta8,816,322,8kgRotor mass Mrot1,93,65,2kg Insulation Class H-F Class H-F Class H-FProtection IP00IP00IP00Thermal data (winding independent)Thermal imp.assumed for cond.Cooling1)Rthc0,3600,1780,119K/W Thermal impedance,motor to cooling frame2)Rthw0,0660,0310,021K/W Thermal capacity Cth 3.696 6.8469.576J/K Thermal time constant cond cooling1)Tc 1.331 1.219 1.140sec Thermal time constant,water cooled2)Tw244212201secLoss at Tnc L0c246496740WLoss at Tnw L0w 1.200 2.570 3.740WCoolant flow,5C temp rise,35C inlet Cfl3,47,410,7lit/min Treshold of built-in PTC PTCt130130130oC Electrical data (winding dependent)Nominal speed(knee speed)5)wn66,3851,9334,17rad/sec Nominal power,water cooling,knee speed6)Pnw6,3113,1913,05kWBack E.M.F.between phases Ke4,214,927,16VsTorque constant Kt7,298,5312,40Nm/Arms Temp.coeff.of E.M.F.and Kt dKe/dT-0,09-0,09-0,09%/oC Winding resistance,20oC Rw2,871,251,60Ohm Winding inductance Lw20,7613,6120,00mH Nominal current,zero speed1)In05,8912,5513,71Arms Nominal current,zero speed,2)In13,7131,3632,42Arms Maximum current3)Ipk32,2155,1356,95Arms Frequency fn1279965Hz Efficiency at rated power6)n0,840,840,78 Definitions:1)Motor assembled in light alloy case with outer surface=500%of motor2)Water cooled motor,water inlet temperature=35C,copper temp,120C,3)Torque at which magnetic saturation prevents further overloading with any4)Knee torque corresponding to unlimited constant power operation5)Limit of constant torque operation with400Vac supplyTK 370Technical Data Summary TK 370Highpeak torque ring motorApplications:Direct drive rotary tablesIndexers for transfersWater cooled constant power controllabilitySymbol TK370-70-25TK370-140-35TK370-210-45Units Reference data (winding independent)Nominal torque,S1,0speed,conduction+convection cooled IC4181)Tnc195384673Nmrms Nominal torque,S1,0speed,water cooled2)Tnw5078611600Nmrms Peak torque,S610%1)Tpk55510931915Nmrms Maximum torque3)Tul69213842076Nm Maximum structural speed Pn200200200rad/sec Critical flux control torque4)Pf5389161621NmMotor constant Tw14,6420,7329,43Nm/sqrt(W) Pole number PN404040Connection Y Y YPhysical data (winding independent)Rotor inertia Jm111186311mkgm2 Acceleration at maximum torque apk500058766159rad/s2 Outer diameter Dout370370370mmRotor hole diameter Din280280280mmOverall stator length Stkout108178248mmStack length Stk70140210mmStator mass Msta203357kgRotor mass Mrot51015kg Insulation Class H-F Class H-F Class H-FProtection IP00IP00IP00Thermal data (winding independent)Thermal imp.assumed for cond.Cooling1)Rthc0,1400,0610,048K/W Thermal impedance,motor to cooling frame2)Rthw0,0170,0130,008K/W Thermal capacity Cth8.40013.86023.940J/K Thermal time constant cond cooling1)Tc 1.176845 1.149sec Thermal time constant,water cooled2)Tw143180192secLoss at Tnc L0c669 1.256 1.933WLoss at Tnw L0w 4.800 6.30010.975WCoolant flow,5C temp rise,35C inlet Cfl13,818,131,5lit/min Treshold of built-in PTC PTCt130130130oC Electrical data (winding dependent)Nominal speed(knee speed)5)wn14,6510,477,37rad/sec Nominal power,water cooling,knee speed6)Pnw7,439,0211,79kWBack E.M.F.between phases Ke14,8520,1026,40VsTorque constant Kt25,7234,8145,73Nm/Arms Temp.coeff.of E.M.F.and Kt dKe/dT-0,09-0,09-0,09%/oC Winding resistance,20oC Rw4,634,233,62Ohm Winding inductance Lw40,9644,1043,00mH Nominal current,zero speed1)In07,5811,0314,72Arms Nominal current,zero speed,2)In20,7526,0336,83Arms Maximum current3)Ipk33,6349,6956,75Arms Frequency fn473323Hz Efficiency at rated power6)n0,610,590,52 Definitions:1)Motor assembled in light alloy case with outer surface=500%of motor2)Water cooled motor,water inlet temperature=35C,copper temp,120C,3)Torque at which magnetic saturation prevents further overloading with any4)Knee torque corresponding to unlimited constant power operation5)Limit of constant torque operation with400Vac supplyTK 450Technical Data Summary TK 450Highpeak torque ring motor with spindle driveApplications:Direct drive rotary tablesIndexers for transfersWater cooled constant power controllabilitySymbol TK 450-60-40TK 450-120-40TK 450-240-40Units Reference data (winding independent)Nominal torque, S1,0 speed, conduction+convection cooledIC 418 1)Tnc2325301152Nmrms Nominal torque, S1, 0 speed, water cooled 2)Tnw58514073057Nmrms Peak torque, S6 10% 1)Tpk66015083279Nmrms Maximum torque 3)Tul100420084016Nm Maximum structural speed Pn200200200rad/sec Critical flux control torque 4)Pf61812272465NmMotor constant Tw12,6720,3731,37Nm/sqrt(W) Pole number PN484848 Connection Y Y YPhysical data (winding independent)Rotor inertia Jm170309586mkgm2 Acceleration at maximum torque apk388448825595rad/s2 Outer diameter Dout450450450mmRotor hole diameter Din340340340mm Overall stator length Stkout98158278mmStack length Stk60120240mm Stator mass Msta18,24889kgRotor mass Mrot5,2510,521kg Insulation Class H - F Class H - F Class H - F Protection IP 00IP 00IP 00Thermal data (winding independent)Thermal imp. assumed for cond. Cooling 1)Rthc0,1380,0610,036K/W Thermal impedance, motor to cooling frame 2)Rthw0,0190,0100,005K/W Thermal capacity Cth7.64420.16037.380J/K Thermal time constant cond cooling 1)Tc 1.055 1.230 1.346sec Thermal time constant, water cooled 2)Tw145198183secLoss at Tnc L0c506 1.012 2.024WLoss at Tnw L0w 3.5647.19314.250W Coolant flow, 5 C temp rise, 35 C inlet Cfl10,220,640,9lit/min Treshold of built-in PTC PTCt130130130oCElectrical data (winding dependent)Nominal speed (knee speed) 5)wn8,738,167,95rad/sec Nominal power, water cooling, knee speed 6)Pnw5,1111,4924,31kWBack E.M.F. between phases Ke24,2024,1524,20VsTorque constant Kt41,9241,8341,92Nm/Arms Temp.coeff. of E.M.F. and Kt dKe/dT-0,09-0,09-0,09%/oC Winding resistance, 20oC Rw7,302,811,19Ohm Winding inductance Lw79,0039,6019,80mH Nominal current, zero speed 1)In05,5312,6727,48Arms Nominal current, zero speed, 2)In14,6935,4176,77Arms Maximum current 3)Ipk29,9460,01119,76Arms Frequency fn333130Hz Efficiency at rated power 6)n0,590,610,63Definitions:1) Motor assembled in light alloy case with outer surface =500% of motor surface, ambient temp. 40 C, copper2) Water cooled motor, water inlet temperature = 35 C,copper temp, 120 C,3) Torque at which magnetic saturation prevents furtheroverloading with any duty factor4) Knee torque corresponding to unlimited constant power5) Limit of constant torque operation with 400 Vac supplyTK 570Technical Data Summary TK 570High peak torque ring motorApplications:Direct drive rotary tables with turning abilityIndexers for transfers, DD Capstan driveWater cooled constant power controllabilitySymbol TK 570-50-50TK 570-100-65TK570-200-65TK570-300-55Units Reference data (winding independent)Nominal torque, S1,0 speed, conduction+convection cooled IC 418 1)Tnc41975016002440Nmrms Nominal torque, S1, 0 speed, water cooled 2)Tnw988180037405670Nmrms Peak torque, S6 10% 1)Tpk1192213545546944Nmrms Maximum torque 3)Tul1450290058008700Nm Maximum structural speed Pn200200200200rad/sec Critical flux control torque 4)Pf1011217840506281NmMotor constant Tw20,1125,4638,2748,06Nm/sqrt(W) Pole number PN64646464 Connection Y Y Y YPhysical data (winding independent)Rotor inertia Jm42079014202050mkgm2 Acceleration at maximum torque apk2839270232073387rad/s2 Outer diameter Dout570570570570mmRotor hole diameter Din480480480480mm Overall stator length Stkout98148248348mmStack length Stk50100200300mm Stator mass Msta304584122kgRotor mass Mrot6112233kg Insulation Class H - F Class H - F Class H - F Class H - F Protection IP 00IP 00IP 00IP 00Thermal data (winding independent)Thermal imp. assumed for cond. Cooling 1)Rthc0,1170,0660,0330,022K/W Thermal impedance, motor to cooling frame 2)Rthw0,0210,0100,0060,004K/W Thermal capacity Cth12.60018.90035.28051.240J/K Thermal time constant cond cooling 1)Tc 1.474 1.247 1.164 1.127sec Thermal time constant, water cooled 2)Tw265189194190secLoss at Tnc L0c706 1.400 2.820 4.220WLoss at Tnw L0w 3.9338.10015.60022.800W Coolant flow, 5 C temp rise, 35 C inlet Cfl11,323,244,765,4lit/min Treshold of built-in PTC PTCt130130130130oCElectrical data (winding dependent)Nominal speed (knee speed) 5)wn7,555,605,867,00rad/sec Nominal power, water cooling, knee speed 6)Pnw7,4610,0721,9339,71kWBack E.M.F. between phases Ke29,0037,7136,0031,70VsTorque constant Kt50,2365,3262,3554,91Nm/Arms Temp.coeff. of E.M.F. and Kt dKe/dT-0,09-0,09-0,09-0,09%/oC Winding resistance, 20oC Rw4,164,391,770,87Ohm Winding inductance Lw52,0040,8220,0010,00mH Nominal current, zero speed 1)In08,3411,4825,6644,44Arms Nominal current, zero speed, 2)In20,7029,0163,14108,70Arms Maximum current 3)Ipk36,0855,49116,27198,07Arms Frequency fn38293036Hz Efficiency at rated power 6)n0,650,550,580,64Definitions:1) Motor assembled in light alloy case with outer surface = 500% ofmotor surface, ambient temp. 40 C, copper temperature 120 C2) Water cooled motor, water inlet temperature = 35 C, copper temp,120 C,3) Torque at which magnetic saturation prevents further overloadingwith any duty factor4) Knee torque corresponding to unlimited constant power operation5) Limit of constant torque operation with 400 Vac supplyTK 795Technical Data Summary TK 795Highpeak torque ring motorApplications:Direct drive rotary tables with turning/milling abilityRotary tables for glass formingWater cooled constant power controllabilityVertical lathesExtruders and forging pressesSymbol TK 795-140-70TK 795-330-80Units Reference data (winding independent)Nominal torque, S1,0 speed, conduction+convection cooled IC 418 1)Tnc36658231Nmrms Nominal torque, S1, 0 speed, water cooled 2)Tnw590014630Nmrms Peak torque, S6 10% 1)Tpk886221975Nmrms Maximum torque 3)Tul950025000Nm Maximum structural speed Pn100100rad/sec Motor constant Tw70,35122,94Nm/sqrt(W) Pole number PN6060 Connection Y YPhysical data (winding independent)Rotor inertia Jm33007600mkgm2 Acceleration at maximum torque apk26862892rad/s2 Outer diameter Dout795795mmDag690690mmRotor hole diameter Din660660mm Overall stator length Stkout200390mmStack length Stk140330mm Stator mass Msta119263kgRotor mass Mrot2663kg Insulation Class C-H Class C-H Protection IP 00IP 00Thermal data (winding independent)Thermal imp. assumed for cond. Cooling 1)Rthc0,0230,014K/W Thermal impedance, motor to cooling frame 2)Rthw0,0070,003K/W Thermal capacity Cth49.980110.460J/K Thermal time constant cond cooling 1)Tc 1.150 1.546sec Thermal time constant, water cooled 2)Tw335309secLoss at Tnc L0c 3.900 6.400WLoss at Tnw L0w12.05524.700W Coolant flow, 5 C temp rise, 35 C inlet Cfl34,670,8lit/min Treshold of built-in PTC PTCt130130oCElectrical data (winding dependent)Nominal speed (knee speed) 5)wn6,225,86rad/sec Nominal power, water cooling, knee speed 6)Pnw36,7185,80kWBack E.M.F. between phases Ke42,5046,00VsTorque constant Kt73,6179,67Nm/Arms Temp.coeff. of E.M.F. and Kt dKe/dT-0,09-0,09%/oC Winding resistance, 20oC Rw0,730,28Ohm Winding inductance Lw13,906,50mH Nominal current, zero speed 1)In049,79103,31Arms Nominal current, zero speed, 2)In84,37193,29Arms Maximum current 3)Ipk161,32392,22Arms Frequency fn3028Hz Efficiency at rated power 6)n0,750,78Definitions:1) Motor assembled in light alloy case with outer surface = 500% of motorsurface, ambient temp. 40 C, copper temperature 120 C2) Water cooled motor, water inlet temperature = 35 C, copper temp, 120 C,3) Torque at which magnetic saturation prevents further overloading with anyduty factor4) Knee torque corresponding to unlimited constant power operation5) Limit of constant torque operation with 400 Vac supplyHighpeak torque large ring motorApplications:Vertical lathes with milling ability, large rotary tablesIndexers for transfers and glass formingExtruders, bending and forging machinesDD generator for wind and mini hydro powerConstant power control 1:10 rangeSymbol TK 1150-250-110Units Reference data (winding independent)Nominal torque, S1,0 speed, conduction+convection cooled IC 418 1)Tnc16900Nmrms Nominal torque, S1, 0 speed, water cooled 2)Tnw26251Nmrms Peak torque, S6 10% 1)Tpk39431Nmrms Maximum torque 3)Tul45000Nm Maximum structural speed Pn80rad/sec Motor constant Tw225,85Nm/sqrt(W) Pole number PN72 Connection YPhysical data (winding independent)Rotor inertia Jm21000mkgm2 Acceleration at maximum torque apk1878rad/s2 Outer diameter Dout1150mmDag990mmRotor hole diameter Din920mm Overall stator length Stkout310mmStack length Stk250mm Stator mass Msta508kgRotor mass Mrot88kg Insulation Class C-H Protection IP 00Thermal data (winding independent)Thermal imp. assumed for cond. Cooling 1)Rthc0,011K/W Thermal impedance, motor to cooling frame 2)Rthw0,0035K/W Thermal capacity Cth213.360J/K Thermal time constant cond cooling 1)Tc 2.347sec Thermal time constant, water cooled 2)Tw747secLoss at Tnc L0c7.760WLoss at Tnw L0w20.100W Coolant flow, 5 C temp rise, 35 C inlet Cfl57,6lit/min Treshold of built-in PTC PTCt130oC Electrical data (winding dependent)Nominal speed (knee speed) 5)wn2,79rad/sec Nominal power, water cooling, knee speed 6)Pnw73,14kWBack E.M.F. between phases Ke83,90VsTorque constant Kt145,32Nm/Arms Temp.coeff. of E.M.F. and Kt dKe/dT-0,09%/oC Winding resistance, 20oC Rw0,28Ohm Winding inductance Lw14,70mH Nominal current, zero speed 1)In0116,30Arms Nominal current, zero speed, 2)In190,15Arms Maximum current 3)Ipk387,08Arms Frequency fn16Hz Efficiency at rated power 6)n0,78 Definitions:1) Motor assembled in light alloy case with outer surface = 500% ofmotor surface, ambient temp. 40 C, copper temperature 120 C2) Water cooled motor, water inlet temperature = 35 C, copper temp, 120C,3) Torque at which magnetic saturation prevents further overloading withany duty factor4) Knee torque corresponding to unlimited constant power operation5) Limit of constant torque operation with 400 Vac supplyHighpeak torque large ring motorApplications:Vertical lathes with milling ability, large rotary tablesIndexers for transfers and glass formingExtruders, bending and forging machinesDD generator for wind and mini hydro powerConstant power control 1:10 rangeSymbol TK 1900-160-300Units Reference data (winding independent)Nominal torque, S1,0 speed, conduction+convection cooled IC418 1)Tnc27000Nmrms Nominal torque, S1, 0 speed, water cooled 2)Tnw36000Nmrms Peak torque, S6 10% 1)Tpk54075Nmrms Maximum torque 3)Tul55000Nm Maximum structural speed Pn30rad/sec Motor constant Tw368,37Nm/sqrt(W) Pole number PN84 Connection YPhysical data (winding independent)Rotor inertia Jm88000mkgm2 Acceleration at maximum torque apk614rad/s2 Outer diameter Dout1900mmDag1740mmRotor hole diameter Din1650mm Overall stator length Stkout230mmStack length Stk160mm Stator mass Msta463kgRotor mass Mrot116kg Insulation Class C-H Protection IP 00Thermal data (winding independent)Thermal imp. assumed for cond. Cooling 1)Rthc0,011K/W Thermal impedance, motor to cooling frame 2)Rthw0,0057K/W Thermal capacity Cth194.460J/K Thermal time constant cond cooling 1)Tc 2.139sec Thermal time constant, water cooled 2)Tw 1.108secLoss at Tnc L0c7.800WLoss at Tnw L0w15.700W Coolant flow, 5 C temp rise, 35 C inlet Cfl45,0lit/min Treshold of built-in PTC PTCt130oC Electrical data (winding dependent)Nominal speed (knee speed) 5)wn2,51rad/sec Nominal power, water cooling, knee speed 6)Pnw90,27kWBack E.M.F. between phases Ke113,00VsTorque constant Kt195,72Nm/Arms Temp.coeff. of E.M.F. and Kt dKe/dT-0,09%/oC Winding resistance, 20oC Rw0,19Ohm Winding inductance Lw11,00mH Nominal current, zero speed 1)In0137,95Arms Nominal current, zero speed, 2)In193,62Arms Maximum current 3)Ipk351,26Arms Frequency fn17Hz Efficiency at rated power 6)n0,85 Definitions:1) Motor assembled in light alloy case with outer surface =500% of motor surface, ambient temp. 40 C, copper2) Water cooled motor, water inlet temperature = 35 C, coppertemp, 120 C,3) Torque at which magnetic saturation prevents furtheroverloading with any duty factor4) Knee torque corresponding to unlimited constant power5) Limit of constant torque operation with 400 Vac supply。
1200产品说明书(正式)
MG500/1200-WD滚筒式采煤机产品说明书操作人员必须进行相应的煤矿安全规程培训使用者在使用前必须认真阅读本产品说明书太原矿山机器集团有限公司2007年2月(本产品执行MT/T81、MT/T82、Q/140000TK02-2007标准的规定)目录第一章整机概述 (1)1. 机器型号 (1)2. 机器用途 (1)3. 采煤机的组成 (1)4. 采煤机的特点 (1)5. 采煤机的技术特征 (4)第二章摇臂 (6)1. 摇臂的作用 (6)2. 规格与性能 (6)3. 机器的外形图 (7)4. 工作原理与结构特征 (7)5. 注油 (11)6. 摇臂的安装调整和试运转 (11)7. 操作规程 (12)8. 轴承目录 (13)9、常见故障的分析及处理 (14)第三章牵引传动部 (15)1. 牵引传动部的用途 (15)2. 规格与性能 (15)3. 概述 (16)4. 传动系统 (16)5. 制动器 (18)6. 轴承目录 (20)7. 冷却系统 (21)8. 润滑 (21)第四章液压调高系统 (22)1. 泵站概述 (22)2. 采煤机常见故障 (28)3. 调高油缸 (34)第五章主机架 (36)1. 结构 (36)2. 特点 (36)3. 主机架的润滑 (37)第六章辅助部件 (37)1. 喷雾冷却系统 (37)2. 辅助液压系统 (39)3. 护板及拆卸工具 (40)第七章破碎机 (41)1. 破碎机的作用 (41)2. 破碎机的主要技术参数: (41)3. 破碎机的外形、结构及工作原理 (42)4. 破碎机的润滑 (44)5. 破碎机的安装、调试和试运转 (46)6. 操作规程 (46)7. 轴承目录 (47)8. 几点说明 (47)第八章截割滚筒 (47)1. 结构与作用 (47)2. 滚筒的拆卸及注意事项 (48)第九章电气系统 (49)1. 电气系统介绍 (49)2. 电气控制系统 (60)3. 电气系统操作 (74)第十章运输、操作与检修 (76)1. 运输 (76)2. 井上检查与试运转 (78)3. 解体下井运输 (78)4. 采煤机的启动、操作和停机 (79)5. 采煤机的注油 (83)6. 采煤机的维护与检修 (84)第一章整机概述1. 机器型号MG500/1200-WD滚筒式采煤机是一种多电机驱动、横向抽屉式布置,采用机载式交流变频调速装置的新型电牵引采煤机。
14.25G型DC600V客车电气设备说明书
车辆电气设备使用说明书第一章电气控制系统一概述TKDG型铁道客车电气综合控制柜(以下简称综合控制柜)用于DC600V供电旅客列车,是集电源转换控制(控制柜可实现1×35kVA单逆变器车和邻车AC380V互备供电功能)、空调机组控制、蓄电池欠压保护、照明控制、车载网络通讯等功能单元于一体的智能型综合控制柜。
综合控制柜的控制核心采用可编程控制器(以下简称PLC),PLC通过微型可编程终端PT(以下简称显示触摸屏)接受各种指令并自动执行相应的操作步骤,对电气系统运行中出现的各种故障及时进行诊断、指示并保护。
综合控制柜具有检测、控制、诊断保护、信息提示、联网通讯功能,实现电气控制系统的综合控制,可进行车对车通信,并为逐步实现车对地、地对车的计算机联网通讯打下基础。
二主要特点1.综合控制柜实现了客车电气控制系统的小型化、智能化、集成化和系统化。
2.综合控制柜根据预设参数实现自动控制,减轻了操作人员的工作强度,避免由于人为误操作引起的事故,便于操作和维护。
3.综合控制柜对整车电气系统参数进行实时监测,出现故障时及时进行保护动作,避免了由于保护不及时而引起的严重后果。
4.综合控制柜可对轴温报警器、防滑器、烟火报警器、车门的状态进行监视和显示。
5.综合控制柜充分考虑了整车各个电气功能部件的协调工作,使整个电气系统工作更加安全可靠。
6.根据电气系统布线的有关规范和实际存在的问题,不同系统、不同电压等级、不同电流类别的导线尽量相互隔离,结构设计上尽量减少相互间的电磁干扰。
7.综合控制柜的控制方案以自动为主,同时考虑控制系统故障的应急措施,包括极端情况下的手动应急措施。
8.综合控制柜主要具备六大部分功能:①电源转换控制功能(控制柜可实现两1×35kVA单逆变器车邻车AC380V互备供电功能);②空调机组控制功能;③蓄电池欠压保护功能;④照明供电功能;⑤轴温报警器、防滑器、烟火报警器、车门及车下电源箱状态监视功能;⑥联网通讯功能。
ST500智能型电机控制器技术说明书
自耦变压器起动(三继电器) 通讯功能 RS485 接口
通讯协议:Modbus-Rtu、Profibus-Dp
苏州智能配电自动化有限公司
功能配置
标配功能
增选功能
√
√
√
√
√
√
√
√ (温度保护)
√ (漏电保护)
√ (电压功能)
√
(选一种)
无
可选一种
4
ST500 智能型电动机控制器技术说明书
二. 技术参数……………………………………………………………………… 17
4.1 符号对照表………………………………………………………………… 17 4.2 测量显示误差……………………………………………………………… 17 4.3 保护设定参数……………………………………………………………… 18 4.4 各种保护特性说明………………………………………………………… 20
4.4.1 过负载保护 4.4.2 缺相不平衡保护 4.4.3 接地漏电保护 4.4.4 欠电流保护 4.4.5 堵转保护 4.4.6 过热保护 4.4.7 欠压保护 4.4.8 过压保护 4.4.9 欠功率保护 4.4.10 起动加速超时保护 4.4.11 外部故障保护 4.4.12 相序保护
五、特殊控制功能说明…………………………………………………… 25
苏州智能配电自动化有限公司
3
ST500 智能型电动机控制器技术说明书
息,报警信息,故障信息,可以进行参数设定(保护定值,系统参数等),可以输入操作控制 命令(如起动,停车等)。
ST500 手持编程器是一种手持设备,可用来对控制器进行参数整定和各种信息查询, 其功能类似于 ST522 显示模块,但不需和控制器一对一配套,仅是在现场调整参数或维护 查询时才用。
TrueMix 500商品说明书
(1.4) Sound Level
Permanent hearing loss may be caused by exposure to extremely high noise levels. The U.S. Occupational Safety and Health Administration (OSHA) has specified permissible exposures to certain noise levels. According to OSHA, exposure to high sound pressure levels (SPL) in excess of these limits may result in hearing loss. When using equipment capable of generating high SPL, use hearing protection while such equipment is under operation.
(2.2) Setup Scenario........................................................................................ 7
500kHz高频功率放大器使用说明书
TOP-M400-500K宽带功率放大器使用手册(V1.0)云南拓普特种电源科技有限公司2020年9月目录1.简介 (1)2.组成说明 (2)3.工作环境 (2)4.输入输出接口说明 (2)5.技术参数 (3)6操作说明 (4)6.1前面板简介 (4)6.1后面板简介 (7)6.1.1供电端口及电源开关 (7)6.2.2功放输出端口 (8)7远程控制 (9)8操作注意事项 (12)9维护与保养注意事项 (13)TOP-M400-500K功率放大器操作手册(V1.0)(使用前请仔细阅读本操作手册)1.简介TOP-M400-500K功率放大器是一款宽频带大功率线性功率放大器,广泛运用于各种超声波以及水声技术等领域。
TOP-M500-400K功率放大器也可以作为一款大功率高频正弦电源运用于电化学、物理试验以及无线供电等技术领域。
TOP-M400-500K线性功率放大器-3dB的带宽为1kHz至500kHz,输出电压有效值最高达220Vrms。
其额定连续输出功率为500W。
TOP-M400-500K功率放大器产品具有完善的保护功能,在发生保险丝熔断、输出过流、过温以及超频时均能实现自动保护和故障状态指示。
放大器输出有6个档位可调,方便匹配不同阻抗的负载。
图1TOP-M400-500K功率放大器2.组成说明TOP-M400-500K功率放大器主要由大功率宽带线性放大电路、控制电路以及电源变换电路、输出阻抗选择电路、输出检测电路等组成。
3.工作环境TOP-M400-500K功率放大器使用环境应保持空气流通,工作温度范围为-20℃~40℃,湿度不大于90%RH。
4.输入输出接口说明TOP-M400-500K功率放大器的共有5个输入输出接口分别为:220VCA供电接口、功放输出接口、信号输入接口、输出监测口及远程控制接口。
a)功放供电采用200-230V/50-60Hz10A交流供电,供电功率最大约1000W,电源保险管为10A/5*20陶瓷保险。
特灵屋顶式风冷空调(热泵)机组技术手册
屋顶式风冷空调(热泵)机组技术手册RT-TM-YYZH-2006目录1. 屋顶空调选型――――――――――――――――――3 1.1 屋顶空调选型案例―――――――――――――――3 1.2 机组型号40位码――――――――――――――――8 表7-各部件的压降――――――――――――――――10 表8-有效静压――――――――――――――――――11 表9-送风风机传动装置选择――――――――――――13 性能参数――――――――――――――――――――13 2.屋顶空调机组介绍―――――――――――――――14 3.屋顶空调可选件――――――――――――――――16 4.机组重量、尺寸和间隙―――――――――――――19 5.机组送回口尺寸――――――――――――――――21 6.安装底座尺寸―――――――――――――――――25 7.机组电气―――――――――――――――――――26 8.部分工程项目清单―――――――――――――――28 9.部分工程实例―――――――――――――――――30 10.屋顶式空调机组与风管式空调机组比较――――――31 11.主要零部件清单―――――――――――――――321.屋顶空调选型1、1 屋顶空调选型案例屋顶空调机组由于可选项比较多,为了让每位销售工程师能熟练掌握屋顶空调机组的选型,现提供一个案例供大家参考。
上海某一项目需要选择以下屋顶空调机组:制冷工况:室外环境温度-35℃DB室内进风温度-27℃DB/19℃WB冷负荷-170kw制热工况:室外环境温度-7℃DB/6℃WB室内进风温度-20℃DB热负荷-180kw送风量-29000m3/h新风量-6016 m3/h,机外静压-400Pa选配要求:送风型式,下送风新风量可以根据室内空气质量自动调节需要排风装置风机故障报警远程风管温度传感器断电开关辅助电加热70kw需要随即配安装底座4选型步骤:第一步:选择序号2-热泵:要求热泵,所以选择W 序号 12345-78 - 9 10 11 121314151617 - 19 20212223 24 25262728293031 - 40 1C W KADAXXXH2XXXXXXXXXXXX第二步:选择序号4-送回风形式:要求送风型式为下送风,所以选择D 序号 12345-78 - 9 10 11 121314151617 - 19 20212223 24 25262728293031 - 40 1C W KDADAXXXH2XXXXXXXXXXXX第三步:选择序号5、6、7-型号:要求制冷量为170kw ,机组600冷量为180kw ,所以选择600 序号 1234 5- 78 - 910 11121314151617 - 19 20212223 2425262728293031 - 40 1C W KD600 ADAXXXH2XXXXXXXXXXXX第四步:选择序号10-电加热,要求电加热为70kw ,机组配置电加热为75kw ,所以选择E 序号1234 5- 78 - 910 11121314151617 - 19 20212223 2425262728293031 - 40 1C W KD600 ADEAXXXH2XXXXXXXXXXXX/5第五步:选择序号12-排风,要求有排风装置,因为有新风量-6016 m3/h ,机组需要配置强排风,所以选择2 序号 1234 5- 78 - 910 11121314151617 - 19 20212223 2425262728293031 - 40 1C W KD600 ADEA2XXXH2XXXXXXXXXXXX第六步:选择序号13-过滤器,没要求,机组标配有可清洗过滤器,所以选择A 序号 1234 5- 78 - 910 11121314151617 - 19 20212223 2425262728293031 - 40 1C W KD600 ADEA2AXXXH2XXXXXXXXXXXX第七步:选择序号16-新风,要求新风量可以根据室内空气质量自动调节,需要配置经济器,所以选择E 序号 1234 5- 78 - 910 11121314151617 - 19 20212223 2425262728293031 - 40 1C W KD600 ADEA2AEXXXH2XXXXXXXXXXXX第八步:选择序号14-送风风机额定功率,由于选择了附件需要重新校核机组有效静压,查表7机组600对应的经济器压降为35Pa 、电加热压降为72Pa 。
SilverStone Strider Essential 500W 电源说明书
SPECIFICATIONSilverStone Strider EssentialST50F-ES230ATX12V Switching Power SupplyWith Active PFCPS/2011.1 ScopeThis specification defines the performance characteristics of a single phase 500 watts, 5 output power supply. This specification also defines worldwide safety andelectromagnetic compatibility requirements for the power supply which is intended for use in computer products.1.General2.1 Input VoltageNominal Voltage Voltage Variation Range 230 Vrms 207 - 253 Vrms 2.Input Characteristics2.2 Input FrequencyNominal Frequency Frequency Variation Range 50 Hz 47 Hz to 63 Hz* The power supply must operate at above frequency with 207 - 253VACrms input voltage range.02Maximum continuous total DC output power should not exceed 500W.Maximum continuous combined load on +3.3VDC and +5VDC outputs shall not exceed 120W.NOTE:Noise test should be measured with 20 MHz bandwidth frequency oscilloscope.The output terminal shall add a tantalum capacitor of 10uF in parallel with a ceramic capacitor of 0.1uF.2.3 Max. Input AC CurrentMax. Input Current Measuring Range 4.0A 207-253 Vrms2.4 Inrush CurrentThe power supply must meet inrush requirements for any rated AC voltage, during turn on at any phase of AC voltage, during a single cycle AC dropout condition, during repetitive ON/OFF cycling of AC, and over the specified temperature range. The peak inrush current shall be less than the ratings of its critical components (including input fuse, bulk rectifiers, and surge limiting device).2.5 EfficiencySST-ST50F-ES230 provides an efficiency of >80% when measured at full load under 230V/50Hz condition.3.1 Normal Operation Output3.Output characteristics033.2 Remote On/Off Controlled modeThe PSON# signal is required to remotely turn on/off the power supply, PSON# is an active low signal that turns on the output power rails. When this is not pulled low by the system, or left open, the outputs (except the +5VSB) turn off. This signal is pulled to a standby voltage by a pull-up resistor internal to the power supply. TTL level "H" 2.0 V - 5.25 V "L" 0.0 V – 1.0 V3.3 RegulationThe cross regulation defined as follows, the output regulation should be within the specified range.3.4 Rise TimeDC output rise time is less than 20 mS at nominal line and full load.3.5 Hold-up TimeDC +5V output maintains at least 8mS after power off which hold within para 3.1 under 230V/50Hz condition.3.6 5VSB5VSB is requierd for the implementation of PS-ON described above. 5VSB is a standby voltage that may be used to power circuits that require power input during the powered-down state of all power rails. The 5 VSB pin should deliver 5V ± 5% at a minimum of 2.5 A for PC board circuits to operate. Conversely, PC board should draw no more than 2.5A maximum form this pin. This power may be used to operate circuits such as soft power control.043.7 PG-OKPG-OK is a power good signal and should be asserted high by power supply to indicate that the +5 VDC and +3.3 VDC outputs are above the under-voltagethresholds of the power supply. When this signal is asserted high, there should be sufficient mains energy stored by the converter to guarantee continuous power operation within specification. Conversely, when either the +5VDC or the +3.3VDC output voltage falls below the under-voltage threshold, or when mains power has been removed for a time sufficiently long so that power supply operation is no longer guaranteed, PG-OK should be deasserted to a low state. See Figure 1 for a representation of the timing characteristics of the PG-OK,PS-ON, and germanepower rail signals.3.8 3.3V SenseA default 3.3V sense line should be implemented pin 13 of the connector.3.9 Capacitive LoadThe power supply should be able to power up and operate normally with the following capacitances simultaneously present on the DC outputs.4.1 Input ProtectionIn primary circuit of the power supply , a protected fuse is inserted. Only internal fault of the power supply will cause the fuse blown. Any overload or short circuit at DC output will keep from fuse brown or fire hazard.4.Protection4.2 Output Protection4.2.1 Under voltage protection 4.2.1 Under voltage protectionThe +5V/+3.3V DC output are protected against the under voltage condition . range value can't be exceed 3.3~3.7V at 5V terminal and 2.0~2.4V at 3.3V.054.2.2 Over Voltage ProtectionThe +5V/+12V/+3.3V DC output are protected against the over voltage condition . Maximum value can't be over 6.5V at 5V terminal and 15.5V at 12V, 4.3V at 3.3V. 4.2.3 Over Power ProtectionThe power supply can be used electronic circuit to limit the output current against exceeding 60% of surge output power or protected against excessive power delivery since short circuit of any output or over total power at high line.4.2.4 Short Circuit ProtectionShort circuit placed on +5V,+12V,+3.3V,-12V will latch off. +5VSB will auto-recovery.5.1 No Load StartWhen power is applied to SST-ST50F-ES230 with no load connected or under minimum load connected, neither damage to power supply nor hazards to users will occur.5.Start Stability5.2 Cold StartThe power supply shall operate properly when first applied at normal input voltage and or so maximum load after 4 hours storage in 0℃ environment.6.1 Temperature and Humidity6.2 AltitudeThe power supply can operate normally at any altitude between 0 to 10000 feet.6.Environments6.1.1 Operating Temperature 0 to 40 ℃ Relative Humidity 20 to 90 %6.1.2 StorageTemperature -40 to 70 ℃Relative Humidity 20 to 95 % noncondensing6.3 Vibration and ShockSweep and resonance search for each of X,Y,Z, axis at the sweep.RATE of 1/OCTAVE/Min.06FCC,CE7. Conducted EMI8.1 Safety Requirement TUV,CB8. Product Safety8.2 Leakage CurrentThe AC leakage current is less than 3.5mA when the power supply connect to 253Vac/50Hz .8.3 Insulation ResistanceThe insulation resistance should be not less than 30M ohm after applying of 500VDC for 1 minute.8.4 Dielectric Voltage WithstandThe power supply shall withstand for 1 minute without breakdown the application of a 60Hz 1500V AC voltage applied between both input line and chassis(20mA DC cut-off current). Main transformer shall similarly withstand 3000Vacapplied between both primary and secondary windings for a minimum of one minute.A TTL compatible signal for the purpose of initiating an orderly start-up procedure under normal input operating conditions. During power up, this signal is asserted ( low ) until +5V is under regulation and AC reaches min. line specification range. After all voltage are going appropriate level, the system may have a turn on delay of 100mS, but no greater than 500mS. During power off the signal should go to low level before +5V is out of regulation. The low level is 0 to 0.8V and high level is 4.75 to 5.25V. The " Power Good "signal can drive up to 6 standard TTL loads.9. Power Good Signal07The MTBF of the power should be 50,000 hours min10. MTBF11.1 Input VoltageApplying 220Vac for230Vac model.11.2 Test ConditionApplying 75% loads for the power supply in 40 (+/-5) oC chamber for 4 hours.11. Burn-In* T1 : Turn on time ( 2 sec. Max.) * T2 : Rise time ( ≦ 20mS Max.)* T3 : Power good turn on delay time ( 100 < T3 < 500 mS )* T4 : Switch on time (0.5 sec. Max.)* T5 : Power good turn off delay time ( 1.0 mS Min.) PS-ON/OFF * T6 : Power hold-on time ( 8 mS Min.)* Power on-off cycle :When the power supply is turned off for a minimum of 2.0 sec. and turn on again, the power good signal will be asserted.Time DiagramFigure 1AC+5Vs PS-ON/OFF+5V O/PPower Good08EPS 12V 8PIN connectorM/B 24PIN connectorThe power supply with active power factor correction, and meet the EN61000-3-2 standards, The power factor is greater than 0.9 at 230V/50Hz, Max. load.13.Power Factor14.1 Physical Dimension150 mm (W) × 86 mm (H) × 140mm (D)14.2 Connectors14. Mechanical RequirementsThe product shall meet requirement for EN61000-3-2 & EN61000-3-3 :2003 standard of class D, test at 230Vac 50Hz.12. Harmonics09SATA connector8PIN PCI Express connector6PIN PCI Express connector4PIN peripheral connector (HDD) 4PIN floppy connector (FDD)10Warranty InformationThis product has a limited 3 year warranty in North America, Europe, and Australia.For information on warranty periods in other regions, please contact your reseller or SilverStone authorized distributor.Additional info & contactsFor North America (*****************************)SilverStone T echnology in North America may repair or replace defective product with refurbished product that is not new but has been functionally tested. Replacement product will be warranted for remainder of the warranty period or thirty days, whichever is longer. All power supplies should be sent back to the place of purchase if it is within 30 days of purchase, after 30 days, customers need to initiate RMA procedure with SilverStone T echnology in USA by first downloading the “USA RMA form for end-users” form from the below link and follow its instructions./contactus.phpFor Australia only (**************************)Our goods come with guarantees that cannot be excluded under the Australian Consumer Law.You are entitled to a replacement or refund for a major failure and for compensation for any other reasonably foreseeable loss or damage.Y ou are also entitled to have the goods repaired or replaced if the goods fail to be of acceptable quality and the failure does not amount to a major failure. Please refer to above “Warranty terms & conditions” for further warranty details.SilverStone T echnology Co., Ltd. 12F No. 168 Jiankang Rd., Zhonghe Dist., New T aipei City 235 T aiwan R.O.C. + 886-2-8228-1238 (standard international call charges apply)ForEurope(****************************)Forallotherregions(**************************)。
电磁流量计安装使用说明书
电磁流量计示意图
2.2 应用领域 电磁流量计主要应用在以下领域:测量洁净水、污水、生活水、原水,
各种酸、碱、盐等溶液,泥浆、矿浆、纸浆,以及食品方面的液体等流体晌 流量,广泛应用于冶金、造纸、水处理、化工、轻工、纺织、食品及饮料、 餐饮、农业灌溉、水电站、油出、电力和采矿等行业。
标准
标准,(刮刀,可更换DN>350)
传感器防护等级
IP65,IP67,IP68
IP65,IP67,IP68
电导率 介质最高温度 环境最高温度
>2μS/cm(水>20μS/cm) 一体型≤90℃,分体型≤160℃)
-30℃~+65℃
>5μS/cm(水>20μS/cm)
一体型≤90℃,分体型≤160℃(橡 胶、PO≤70℃)
-6-
1000系列电磁流量计 2.4电磁流量计的主要技术参数 2.4.1 标准型和高精度型技术参数
型号
TK1100标准型系列
TK1200高精度系列
口径
DN3-DN2200
DN10-DN1200
精度
0.5%
0.2%,0.3%
安装方式
夹持,法兰
夹持,法兰
重复性 测量范围
0.1% 0-12m/s(流量单位可改变)
-4-
1000系列电磁流量计 1000系列电磁流量计 2.1工作原理
法拉第感应定律(指的是当导体通过磁场时会在导体内部产生感应电势)即 为电磁流量计测量的基础原理。这种测量原理可应用于具有导电性的流体,该 流体流入磁场垂直于流体方向的管道,在流体中感应生成的电势可利用对称布 置的两个电极进行测量。信号电压UE与磁感应强度B,电极间距D以及流体平均 速度v成正比。由于磁感应强度B与电极间距D为常量,所以信号电压UE与平均 流速v成正比。用于计算体积流速的等式表明信号电压UE与体积流量成线性正 比。
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电容式触摸型遥控解码控制芯片 TK500R 八、封装尺寸图 ............................................................................................................................. 15
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电容式触摸型遥控解码控制芯片 TK500R
一、概述
TK500R 芯片主要用于智能家居电容式触摸墙壁开关的核心控制单元电路 应用,TK
◆ 该产品具有如下功能特点和优势:
电源开关控制信号输出。 采用CMOS工艺,低电压损耗,VDD电压范围宽:2.7V ~ 5.5V。 集成触摸按键功能,使用较少的外部元件便可实现触摸按键的应用。 外围电路简单,成本低廉。 兼容PT226X、EV1527遥控编码信号。 每个触摸按键可学习五组(自锁(3组)、全开(1组)、全关(1组)) 遥 控编码数据,密码、遥控代码完全独立存储。
3.2 初始状态
初始上电时,控制引脚 LAMPX(X:1-5)为低电平状态、BEEP 无蜂鸣信号输 出。
3.3 学码方法
在触摸输入引脚(如TK1)持续保持输入信号约4.5秒,TK500R 芯片将进入遥 控编码学习模式(此时无论LAMPX(X:1-5)是否为高电平,进入学习模式后都 将变成高电平)。 BEEP信号输出引脚在进入学习模式的这一刻产生一组 30mS长,频率为2KHz的方波信号,如外接有蜂鸣器将会“滴”的响一声(代 表学习当前触摸输入引脚(如TK1)相应的自锁遥控码)。触摸正在学习的触摸 按键(如TK1),会跳过正在学习自锁的按键码,开始学习全开遥控码,同 时BEEP蜂鸣器将“滴、滴”地响两声(频率2KHz,持续时间30mS,间隔200mS 的方波信号;代表学习全开遥控码)。相同的方法可跳过全开遥控码的学习, 开始学习全关遥控码,BEEP蜂鸣器将“滴、滴、滴”地响三声(代表学习全 关遥控码)。如果再次触摸正在学习的触摸按键,TK500R 芯片将退出学习
6.4.1 滴声的频率..........................................................................................................13 6.4.2 滴声的发声时间..................................................................................................13 6.4.3 滴滴声的间隔时间..............................................................................................13 七、BOM 表......................................................................................................................................14
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电容式触摸型遥控解码控制芯片 TK500R
目录
一、概述........................................................................................................................................... 4 二、工作应用框图 ........................................................................................................................... 4 三、功能应用介绍 ........................................................................................................................... 5
3.4 学码操作
在TK500R 芯片进入学习模式时,按遥控器按键将学习对应的遥控代码。触 摸按键KEY1、KEY2、KEY3(KEY的定义与TK定义不同,TK为物理管脚、KEY 为逻辑管脚,对应关系见表五-1)最多可学习3个自锁遥控码,1个全开遥控码, 1个全关遥控码。触摸按键KEY4、KEY5只能学习1个自锁遥控码,1个全开遥 控码,1个全关遥控码。学习成功后BEEP蜂鸣器会“滴”地响一声,继续按 遥控器按键将继续学习对应的遥控代码,学习成功BEEP蜂鸣器会“滴”(频 率2KHz,持续时间30mS的方波信号)地响一声,当学习成功第3个遥控代 码后,BEEP蜂鸣器会“滴、滴”地响两声,并且进入全开遥控码学习状态中。 在学习自锁遥控码时,学习完1个码后不想继续学习自锁遥控码,触摸正在学 习的触摸按键,会跳过正在学习自锁的按键码,开始学习全开遥控码,同时 BEEP蜂鸣器将“滴、滴”地响两声。进入全开学习状态后,按遥控器按键将 学习对应的遥控代码,学习成功后BEEP蜂鸣器会“滴、滴、滴”地响三声, 并且进入全关遥控码学习状态。进入全关学习状态后,按遥控器按键将学习 对应的遥控代码,学习成功后BEEP蜂鸣器会“滴”地长响一声,同时TK500R 芯片则会退出学习模式,LAMPX(X:1-5)引脚转变为低电平状态。在学习触摸 按键KEY4、KEY5时,进入学习模式后,学习到自锁遥控码后,BEEP蜂鸣器
二、工作应用框图
内部原理框图
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电容式触摸型遥控解码控制芯片 TK500R
三、功能应用介绍
3.1 应用原理
手指接近或接触到触摸面板时,面板的电容量会增大,电容量的轻微变化会 被芯片内部的触摸检测电路识别,经内部逻辑处理单元处理后控制输出引脚 的电平变高或变低。如在TK1引脚输入触摸信号,相应的LAMP1引脚电平状 态会变化。
电容式触摸型遥控解码控制芯片 TK500R
规格说明书 --TK500R
电容式触摸型遥控解码控制芯片 版本 2.2
联系电话: 0755-36960880 电子信箱: support@ 公司网址: 公司名称: 深圳市晶通物控科技开发有限公司 公司地址: 广东省深圳市宝安区福永街道凤塘大道 1 号
3.1 应用原理 ...........................................................................................................................5 3.2 初始状态 ...........................................................................................................................5 3.3 学码方法 ...........................................................................................................................5 3.4 学码操作 ...........................................................................................................................6 3.5 超时退出 ...........................................................................................................................7 3.6 清除遥控码与恢复出厂设置 ...........................................................................................7 3.7 完成状态 ...........................................................................................................................7 四、管脚定义 ................................................................................................................................... 9 五、典型应用电路图 ..................................................................................................................... 10 5.1 应用原理图与应用 .........................................................................................................10 5.2 触摸按键物理逻辑对应表 .............................................................................................10 5.3 触摸感应盘布线要点 .....................................................................................................11 六、电气参数 ................................................................................................................................. 12 6.1 极限参数 ..........................................................................................................................12 6.2 直流电气特性 ..................................................................................................................12 6.3 蜂鸣信号 .........................................................................................................................13 6.4 蜂鸣信号波形图 ...........................................................................................................13