K60P144M100SF2RM_CN_02
K60(Rev6-Ch55-TSI)(中文)
第55 章触屏输入(Touch senseinput ,TSI)55.1 引言触摸感应输入(TSI)模块具有高灵敏和强鲁棒性的电容触摸感应检测能力。
通过独立的可编程的检测阈值和结果寄存器,TSI模块可以完成电容的测量。
TSI 模块在带有超低电流加法的低功耗模式下运行,能以一个触摸事件唤醒CPU。
它是一种稳定的电容测量模块,能够实现键盘触摸,旋转和滑动。
55.2 特点(1)具有多达16个输入的电容触摸感应式引脚和独立结果寄存器(2)具有可编程的阈值上下限,自动检测电极电容量的改变(3)在运行模式和低功耗模式下,自动周期扫描单元会有不同的占空比(4)为了实现键盘触摸,旋转,滑动,完全支持FSL触摸感应SW库(TTS)。
(5)运行在所有低功耗模式下:Wait, Stop, VLPR, VLPW, VLPS,LLS,VLLS{3,2,1}(6)能够从低功耗模式中唤醒MCU(7)配置中断:a.扫描结束中断或者超出范围中断b.TSI错误中断:电极板和VDD/VSS短路或者转换运行超时(8)补充温度和提供电压变化(9)在低功耗模式下,支持不需要外部晶体的操作,(10)每个电极电容量测量可以整合从1到4096次(11)可编程的电极振荡器和TSI参考振荡器可以实现模块灵敏度高,扫描时间短和功耗低的功能(12)在不需要外部硬件时,实现每个电极电容测量只需要使用一个引脚55.3 总述这部分是对TSI模块的总述。
下图给出了简化了的TSI模块结构图。
图55-1 触摸感觉输入结构图55.3.1 电极电容测量单元电极电容测量单元能感应一个TSI引脚的电容量变化和输出一个16位结果。
这个模块基于双振荡器架构。
其中一个振荡器和外部电极阵列连接,根据电极电容器震荡;而其他振荡器则根据内部参考电容器进行振荡。
在可配置的外部电极振荡器振荡期间,参考振荡器的周期计数值可以衡量引脚的电容量。
图55-2 TSI电容衡量单元结构图为了适应电极电容量的不同大小,电极振荡器使用一个可编程的电流源对引脚电容进行充电和放电,该电流源由SCANC[EXTCHRG]位进行选择。
IR公司_大功率MOS管选型
I DContinuous Drain Current(A)70°Micro3Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPartNumberPD Max.PowerDissipation (W)N-ChannelLogic LevelIRLML2402*912570.54200.25 1.20.95230H1IRLML2803912580.54300.251.20.93230P-ChannelLogic LevelIRLML6302*912590.54-200.6-0.62-4.8230H1IRLML5103912600.54-300.6-0.61-4.8230* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°Micro6Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPartNumberPD Max.PowerDissipation (W)N-ChannelLogic LevelIRLMS1902915401.7200.10 3.2 2.675H2IRLMS1503915081.7300.103.22.675P-ChannelLogic LevelIRLMS6702*914141.7-200.20-2.3-1.975H2IRLMS5703914131.7-300.20-2.3-1.975* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°Micro8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRF7601* 912611.820 0.035 5.7 4.6 70 H3IRF7603 912621.830 0.035 5.6 4.5 70Dual N-Channel Logic LevelIRF7501* 912651.220 0.135 2.4 1.9 100 H3IRF7503 912661.2530 0.135 2.4 1.9 100P-Channel Logic LevelIRF7604* 912631.8-20 0.09 -3.6 -2.9 70 H3IRF7606 912641.8-30 0.09 -3.6 -2.9 70Dual P-Channel Logic LevelIRF7504* 912671.25-20 0.27 -1.7 -1.4 100 H3IRF7506 912681.25-30 0.27 -1.7 -1.4 100Dual N- and P-Channel Logic LevelIRF7507* 912691.2520 0.1352.4 1.9 100 H3-20 0.27 -1.7 -1.4IRF7509 912701.2530 0.135 2.4 1.9 100-30 0.27 -1.7 -1.4* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRF7413913302.5300.011139.250H4IRF7413A 916132.5300.0135128.450IRF9410915622.5300.0375.850Dual N-ChannelIRF7311914352.0200.029 6.6 5.362.5H4IRF7313914802.0300.029 6.5 5.262.5IRF7333917002.0300.10 3.5 2.862.5917002.0300.050 4.9 3.962.5IRF9956915592.0300.103.52.862.5Dual P-ChannelIRF7314914352.0-200.058-5.3-4.362.5H4IRF7316915052.0-300.058-4.9-3.962.5IRF9953915602.0-300.25-2.3-1.862.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)RΘMax.ThermalResistance(°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)Dual N- and P-ChannelIRF7317 915682.020 0.029 6.6 5.3 62.5 H42.0-20 0.058 -5.3 -4.3 62.5IRF9952 915622.030 0.103.5 2.8 62.5915622.0-30 0.25 -2.3 -1.8 62.5IRF7319 916062.030 0.029 6.5 5.2 62.52.0-30 0.058 -4.9 -3.9 62.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRF7401912442.5200.0228.77.050H4IRF7201911002.5300.0307.0 5.650IRF7403912452.5300.0228.55.450Dual N-ChannelLogic LevelIRF7101908712.0200.10 3.5 2.362.5H4IRF7301912382.0200.050 5.2 4.162.5IRF7303912392.0300.050 4.9 3.962.5IRF7103910952.0500.1303.02.362.5P-ChannelLogic LevelIRF7204911032.5-200.060-5.3-4.250H4IRF7404912462.5-200.040-6.7-5.450IRF7205911042.5-300.070-4.6-3.750IRF7406912472.5-300.045-5.8-3.750IRF7416913562.5-300.02-10-7.150* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)Dual P-ChannelLogic LevelIRF7104910962.0-200.250-2.3-1.862.5H4IRF7304912402.0-200.090-4.3-3.462.5IRF7306912412.0-300.10-3.6-2.962.5Dual N- and P-Channe Logic LevelIRF7307912421.4200.050 4.3 3.490H4-200.090-3.6-2.9IRF7105910972.0250.1093.5 2.862.52-250.25-2.3-1.862IRF7309912432.0300.050 4.9 3.962.5-300.10-3.6-2.9* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SOT-223Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFL4105913812.1550.045 3.7 3.060H6IRFL110908612.01000.54 1.50.9660IRFL4310913682.11000.20 1.6 1.360IRFL21090868 2.02001.50.960.660IRFL214908622.02502.00.790.560P-ChannelIRFL9110908642.0-1001.2-1.1-0.6960H6N-ChannelLogic LevelIRLL3303913792.1300.031 4.6 3.760H6IRLL014N 914992.1550.14 2.0 1.660IRLL2705913802.1550.043.83.060* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFR33039164257300.0313321 2.2H7IRFR024N9133638550.0751610 3.3IRFR41059130248550.0452516 2.7IRFR12059131869550.0273723 1.8IRFR11090524251000.54 4.3 2.75IRFR120N 91365391000.219.1 5.8 3.2IRFR391091364521000.11159.5 2.4IRFR2109052625200 1.5 2.6 1.75IRFR22090525422000.8 4.833IRFR21490703252502 2.2 1.45IRFR2249060042250 1.1 3.8 2.43IRFR3109059725400 3.6 1.7 1.15IRFR3209059842400 1.8 3.123IRFR42090599425003 2.4 1.53IRFRC2090637426004.421.33* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)P-ChannelIRFR55059161057-550.11-18-11 2.2H7IRFR53059140289-550.065-28-18 1.4IRFR90149065425-600.5-5.1-3.25IRFR90249065542-600.28-8.8-5.63IRFR91109051925-100 1.2-3.1-25IRFR91209052042-1000.6-5.6-3.63IRFR9120N 9150739-1000.48-6.5-4.1 3.2IRFR92109052125-2003-1.9-1.25IRFR92209052242-200 1.5-3.6-2.33IRFR92149165850-250 3.0-2.7-1.7 2.5IRFR93109166350-4007.0-1.8-1.12.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRLR27039133538300.0452214 3.3H7IRLR33039131657300.0313321 2.2IRLR31039133369300.0194629 1.8IRLR024N 9136338550.0651711 3.3IRLR27059131746550.042415 2.7IRLR29059133469550.0273623 1.8IRLR120N 91541391000.18511 6.9 3.2IRLR341091607521000.10159.52.4* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-ChannelIRFZ24NS 913554555 0.07 17 12 3.3 H10IRFZ34NS 913116855 0.04 29 20 2.2IRFZ44NS 9131511055 0.022 49 35 1.4IRFZ46NS 9130512055 0.020 53 37 1.3IRFZ48NS 9140814055 0.016 64 45 1.1IRF1010NS 913723.855 0.011 84 60 40IRF3205S 9130420055 0.008 110 80 0.75IRFZ44ES 9171411060 0.023 48 34 1.4IRF1010ES 9172017060 0.012 83 59 0.90IRF2807S 9151815075 0.013 71 50 1.0IRF520NS 9134047100 0.2 9.5 6.7 3.2IRF530NS 9135263100 0.11 15 11 2.4IRF540NS 91342110100 0.052 27 19 1.6IRF1310NS 91514120100 0.036 36 25 1.3IRF3710S 91310150100 0.028 46 33 1.0IRF3315S 9161794150 0.082 21 15 1.6IRF3415S 91509150150 0.042 37 26 1.0IRFBC20S 9.101450600 4.4 2.2 1.4 2.5IRFBC30S 9101574600 2.2 3.6 2.3 1.7IRFBC40S 91016130600 1.2 6.2 3.9 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemandNumberCase Outline KeyPart NumberP D Max.PowerDissipation (W)IRFBF20S 9166554900 8.0 1.7 1.1 2.3 H10P-ChannelIRF5305S 91386110-55 0.06 -31 -22 1.4 H10IRF4905S 914783.8-55 0.02 -74 -52 40IRF9520NS 9152247-100 0.48 -6.7 -4.8 3.2IRF9530NS 9152375-100 0.20 -14 -9.9 2.0IRF9540NS 9148394-100 0.117 -19 -13 1.6IRF5210S 91405150-100 0.06 -35 -25 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRL3302S 916925720 0.020 39 25 2.2 H10IRL3202S916756920 0.016 48 30 1.8IRL3102S 916918920 0.013 61 39 1.4IRL3402S 9169311020 0.01 85 54 1.1IRL3502S 9167614020 0.007 110 67 0.89IRL2703S 913604530 0.04 24 17 3.3IRL3303S 913236830 0.026 38 27 2.2IRL3103S 9133811030 0.014 64 45 1.4IRL2203NS 9136717030 0.007 116 82 0.90IRL3803S 9131920030 0.006 140 98 0.75IRLZ24NS 913584555 0.06 18 13 3.3IRLZ34NS 913086855 0.035 30 21 2.2IRLZ44NS 9134711055 0.022 47 33 1.4IRL3705NS 9150217055 0.01 89 63 0.90IRL2505S 9132620055 0.008 104 74 0.75IRLZ44S 9090615060 0.028 50 36 1.0IRL530NS 9134963100 0.1 15 11 2.4IRL2910S 91376150100 0.026 48 34 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°SOT-227Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous DrainCurrent 25°C(A)RΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelFully Isolated Low ChargeFA38SA50LC 916155005000.1338240.25H21FA57SA50LC916506255000.0857360.20* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°I-PakThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFU33039164257300.0313321 2.2H8IRFU024N 9133638550.0751610 3.3IRFU41059130248550.0452519 2.7IRFU12059131869550.0273723 1.8IRFU11090524251000.54 4.3 2.7 5.0IRFU120N 91365391000.219.1 5.8 3.2IRFU391091364521000.11159.5 2.4IRFU2109052625200 1.5 2.6 1.7 5.0IRFU22090525422000.80 4.8 3.0 3.0IRFU2149070325250 2.0 2.2 1.4 5.0IRFU2249060042250 1.1 3.8 2.4 3.0IRFU3109059725400 3.6 1.7 1.1 5.0IRFU3209059842400 1.8 3.1 2.0 3.0IRFU4209059942500 3.0 2.4 1.5 3.0IRFUC2090637426004.42.01.33.0I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°I-PakThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)P-ChannelIRFU55059161057-550.11-18-11 2.2H8IRFU53059140289-550.065-28-18 1.4IRFU90149065425-600.50-5.1-3.2 5.0IRFU90249065542-600.28-8.8-5.6 3.0IRFU91109051925-100 1.2-3.1-2.0 5.0IRFU91209052042-1000.60-5.6-3.6 3.0IRFU9120N 9150739-1000.48-6.5-4.1 3.2IRFU92109052125-200 3.0-1.9-1.2 5.0IRFU92209052242-200 1.5-3.6-2.3 3.0IRFU92149165850-2503.0-2.7-1.7 2.5IRFU93109166350-4007.0-1.8-1.12.5N-ChannelLogic LevelIRLU27039133538300.0452214 3.3H8IRLU33039131657300.0313321 2.2IRLU31039133369300.0194629 1.8IRLU024N 9136338550.0651711 3.3IRLU27059131746550.04241715IRLU29059133469550.0273623 1.8IRLU120N 91541391000.18511 6.9 3.2IRLU341091607521000.10159.52.4I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°HEXDIPThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFD014907001.3600.2 1.7 1.2120H9IRFD024906991.3600.1 2.5 1.8120IRFD110903281.31000.54 1.00.71120IRFD120903851.31000.27 1.30.94120IRFD210903861.3200 1.50.60.38120IRFD220904171.32000.80.80.50120IRFD214912711.3250 2.00.570.32120IRFD224912721.3250 1.10.760.43120IRFD310912251.3400 3.60.420.23120IRFD320912261.3400 1.80.600.33120IRFD420912271.3500 3.00.460.26120IRFDC20912281.36004.40.320.21120I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-220Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C (A)R ΘMax.Thermal Resistance(°C/W)1Faxon Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)N-ChannelLow ChargeIRF737LC91314743000.75 6.1** 1.7 3.9H11IRF740LC 910681254000.5510** 1.039IRF840LC 910691255000.858.0** 1.039IRFBC40LC910701256001.26.2**1.039I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFZ24N 9135445550.071712 3.3H12IRFZ34N9127656550.042618 2.7IRFZ44N 9130383550.0244129 1.8IRFZ46N 9127788550.024633 1.7IRFZ48N 9140694550.0165337 1.6IRF1010N 91278130550.0127251 1.2IRF320591279150550.0089869 1.0IRFZ34E 9167268600.0422820 2.2IRFZ44E 91671110600.0234834 1.4IRF1010E 91670170600.01281570.90IRF280791517150750.0137150 1.0IRF520N 91339471000.209.5 6.79.5IRF530N 91351601000.111511 2.4IRF540N 91341941000.0522719 1.6IRF1310N 916111201000.0363625 1.3IRF3710913091501000.0284633 1.0IRF331591623941500.0822115 1.6IRF3415914771501500.0423726 1.0IRFBC209062350600 4.4 2.2 1.4 2.5IRFBC309048274600 2.2 3.6 2.3 1.7IRFBC4090506125600 1.2 6.2 3.9 1.0IRFBE2090610548006.51.81.22.3I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)IRFBE3090613125800 3.0 4.1 2.6 2.0H12IRFBF3090616125900 3.7 3.6 2.3 1.0IRFBG209060454100011 1.40.86 2.3IRFBG309062012510005.03.12.01.0P-ChannelIRF9Z24N 9148445-550.175-12-8.53.3H12IRF9Z34N 9148556-550.10-17-12 2.7IRF530591385110-550.06-31-22 1.4IRF490591280150-550.02-64-45 1.0IRF9530N 9148275-1000.20-13-9.2 2.0IRF9540N 9143794-1000.117-19-13 1.6IRF521091434150-1000.06-35-25 1.0IRF62159147983-1500.29-11-7.81.8I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRL3302 916965720 0.020 39 25 2.2 H12IRL3202 916956920 0.016 48 30 1.8IRL3102 916948920 0.013 61 39 1.4IRL3402 9169711020 0.01 85 54 1.1IRL3502 9169814020 0.007 110 67 0.89IRL2703 913594530 0.04 24 17 3.3IRL3303 913225630 0.026 34 24 2.7IRL3103 913378330 0.014 56 40 1.8IRL2203N 9136613030 0.007 100 71 1.230 0.007 61 43 3.2IRL3803 9130115030 0.006 120 83 1.0IRLZ24N 913574555 0.06 18 13 3.3IRLZ34N 913075655 0.035 27 19 2.7IRLZ44N 913468355 0.022 41 29 1.8IRL3705N 9137013055 0.01 77 54 1.2IRL2505 9132520055 0.008 104 74 0.75IRL520N 9149447100 0.18 10 7.1 3.2IRL530N 9134863100 0.10 15 11 2.4IRL540N 9149594100 0.044 30 21 1.6IRL2910 91375150100 0.026 48 34 1.0I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-220 FullPak (Fully Isolated)Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous DrainCurrent 25°C(A)R ΘMax.Thermal Resistance (°C/W)1Fax on Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)N-ChannelLow ChargeIRFI740GLC91209404000.55 6.0** 3.139H13IRFI840GLC 91208405000.85 4.8** 3.139IRFIBC40GLC91211406001.24.0**3.139I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFIZ24N 9150126550.07139.2 5.8H14IRFIZ34N9148931550.041913 4.8IRFIZ44N 9140338550.02428200.024IRFIZ46N 9130640550.023122 3.8IRFIZ48N 9140742550.0163625 3.6IRFI1010N 9137347550.0124431 3.2IRFI32059137448550.0085640 3.1IRFIZ24E 9167329600.071149.6 5.2IRFIZ34E 9167437600.0422115 4.1IRFI510G 90829271000.54 4.5 3.2 5.5IRFI520N 91362271000.207.2 5.1 5.5IRFI530N 91353331000.11117.8 4.5IRFI540N 91361421000.0521813 3.6IRFI1310N 91611451000.0362216 3.3IRFI371091387481000.0252820 3.1IRFI620G 90832302000.8 4.1 2.6 4.1IRFI630G 90652322000.4 5.9 3.7 3.6IRFI640G 90649402000.189.8 6.2 3.1IRFI614G 9083123250 2.0 2.1 1.3 5.5IRFI624G 9083330250 1.1 3.4 2.2 4.1IRFI634G 90738322500.45 5.6 3.5 3.6IRFI644G 90739402500.287.953.1I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)IRFI720G 9083430400 1.8 2.6 1.7 4.1H14IRFI730G 9065032400 1.0 3.7 2.3 3.6IRFI740G 90651404000.55 5.4 3.4 3.1IRFI734G 9100135450 1.2 3.4 2.1 3.6IRFI744G 91002404500.63 4.9 3.1 3.1IRFI820G 9064130500 3.0 2.1 1.3 4.1IRFI830G 9064632500 1.5 3.12 3.6IRFI840G 90642405000.85 4.6 2.9 3.1IRFIBC20G 90850306004.41.71.1 4.1IRFIBC30G 90851356002.2 2.5 1.63.6IRFIBC40G 9085240600 1.2 3.5 2.2 3.1IRFIBE20G 9085330800 6.5 1.4.86 4.1IRFIBE30G 9085435800 3.0 2.1 1.4 3.6IRFIBF20G 90855309008.0 1.2.79 4.1IRFIBF30G90856359003.71.91.23.6P-ChannelIRFI9Z24N 9152929-550.175-9.5-6.7 5.2H14IRFI9Z34N 9153037-550.10-14-10 4.1IRFI49059152663-550.02-41-29 2.4IRFI9540G 9083742-1000.117-13-9.2 3.6IRFI9540N 9148742-1000.117-13-9.2 3.6IRFI52109140448-1000.06-20-14 3.1IRFI9634G 9148835-2501.0-4.1-2.63.6I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRLI2203N 9137847300.0076143 3.2H14IRLI38039132048300.0066747 3.1IRLIZ24N 9134426550.06149.9 5.8IRLIZ34N 9132931550.0352014 4.8IRLIZ44N 9149838550.0222820 4.0IRLI3705N 9136947550.014733 3.2IRLI25059132763550.00858412.4IRLI520N 91496271000.187.7 5.4 5.5IRLI530N 91350331000.10117.8 4.5IRLI540N 91497421000.04420143.6IRLI291091384481000.02627193.1P-ChannelLogic LevelIRFI9520G 9083537-1000.6-5.2-3.6 4.1H14IRFI9530G 9083638-1000.03-7.7-5.4 3.6IRFI9620G 9087430-200 1.5-3.0-1.9 4.1IRFI9630G 9083840-2000.8-4.3-2.7 3.6IRFI9640G9083940-2000.5-6.1-3.93.1I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-247Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C (A)R ΘMax.Thermal Resistance (°C/W)1Fax on Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)1N-ChannelLow ChargeIRFP350LC912291904000.3018**0.6570H16IRFP360LC 912302804000.2023**0.4598IRFP450LC 912311905000.4016**0.6570IRFP460LC 912322805000.2720**0.4598IRFPC50LC 912331906000.6013**0.6570IRFPC60LC912342806000.4016**0.4598I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not rated。
TWR-K60F120M快速上手指南说明书
TWR-K60F120M TWR-K60F120M-KITTWR-K60F120M Quick Start Guide High-Performance MCUs withTWR-K60F120M Freescale Tower System Development Board PlatformThe TWR-K60F120M board is part of the Freescale Tower System, a modular development board platform that enables rapid prototyping and tool re-use through reconfigurable hardware. The TWR-K60F120M can be used with a broad selection of Tower System peripheral boards.Get to Know the TWR-K60F120M BoardPrimary General-Purpose Tower Plug-In MMA8451 Power/OSJTAGMini-B USB ConnectorFigure 1: Front side of TWR-K60F120M board (TWRPI devices not shown)Figure 2: Back side of TWR-K60F120M boardVBAT (RTC) MC9S08JM60OSJTAGStep-by-Step Installation Instructions• MK60FN1M0VLQ12 MCU (120 MHz ARM® Cortex®-M4 core, floating point unit, 1 MB flash, Ethernet, USB OTG,tamper detection, encryption, NANDflash controller, 144 LQFP)• M C9S08JM60 open source JTAG (OSJTAG) circuit• M icron MT29F2G16ABAEAWP 2 Gb NAND flash• F our user-controlled status LEDs• F our capacitive touchpads and two mechanical pushbuttons• G eneral-purpose TWRPI socket (Tower plug-in module)• T WRPI-TOUCH-STR socket (touch-sensing Tower plug-in)1Install theSoftware and ToolsInstall the P&E Micro Kinetis Tower Toolkit.The Toolkit includes the OSJTAG and USB-to-serial drivers. These can be found onthe DVD under Software.2Configure theHardwareInstall the included battery into the VBAT(RTC) battery holder. Then, connect oneend of the USB cable to the PC and theother end to the power/OSJTAG mini-Bconnector on the TWR-K60F120M board.Allow the PC to automatically configure theUSB drivers if needed.3Tilt theBoardTilt the board side to side to see the LEDson E1–E4 light up as it is tilted. While theboard is held flat, touch the pads onE1–E4 to toggle the LEDs.4Play theMemory GamePress SW2 to play a memory recall gameusing the touch pads E1–E4. A sequencewill light up, then press the touch pads inthe order flashed. If an incorrect sequenceis touched or too much time has elapsed,the LEDs will blink rapidly and the gamewill reset.Press SW1 to return to the accelerometerdemo.5Download the TWR-K60F120M User Manualand Demonstration LabsGo to /TWR-K60F120Mand download the TWR-K60F120M usermanual and demonstration labs.6Download the FreescaleCodeWarrior IDE andMQX™ RTOSDownload the Freescale CodeWarrior IDEand MQX RTOS by clicking on the relevantlinks on the Software tab of the Tower KitDVD.TWR-K60F120M FeaturesTWR-K60F120M Jumper OptionsThe following is a list of all jumper options. The default installed jumper settings areshown in shaded boxes.*NOTE: This option must be selected whenever a Tower System module card that provides a clock on primary elevator pin B24 is connected to the CPU module.Visit /TWR-K60F120M,/K60 or /Kinetis for information on the TWR-K60F120M module, including:• TWR-K60F120M user guide• T WR-K60F120M schematics• T ower System fact sheetSupportVisit /support for a list of phone numbers within your region.WarrantyVisit /warranty for completewarranty information.For more information, visit /Tower Join the online T ower community at Freescale, the Freescale logo, CodeWarrior, the Energy Efficient Solutions logo, Kinetis and Xtrinsic are trademarks of Freescale Semiconductor, Inc., Reg. U.S. Pat. & Tm. Off. Tower is a trademark of Freescale Semiconductor, Inc. All other product or service names are the property of their respective owners. ARM and Cortex are registered trademarks of ARM Limited (or its subsidiaries) in the EU and/or elsewhere. All rights reserved.© 2012, 2014 Freescale Semiconductor, Inc.Doc Number: TWRK60F120MQSG REV 2 Agile Number: 926-78653 REV DTWR-K60F120M TWR-K60F120M-KIT。
日立电梯元件代码及各种牌子电梯型号列表
日立电梯元件代码及各种牌子电梯型号列表日立电梯元件代码1 A 门电机YPVF2 ACR 电流控制调整电子板YPVF、VFM(H)G、HVF、NPX3 AD 模数电子板YPVF4 ALARM 警铃按钮GVF5 ALP 停电柜全梯种6 AM 电流表VFM(H)G、HVF7 AMP 增幅器NPX8 ATD 司机下行按钮全梯种9 ATT 司机开关全梯种10 ATU 司机上行按钮全梯种11 AVR 自动稳压电源YPVF、VFM(G)、HVF、NPX12 B951-CSD 轿顶电器箱数字显示电子板NPH13 B.CON 信号网转换电子板VFM(H)G、HVF、NPX14 BD 基极驱动VFM(H)G、HVF15 BDR 抱闸电阻VFM(H)G、HVF、NPX、G(G)VF16 BD-TR 基极驱动变压器VFM(H)G、HVF、NPX、G(H)VF17 BELL 警铃全梯种18 BGM 背景音乐装置VFM(H)G、HVF、NPX19 BSR 抱闸电阻VFM(H)G、HVF、NPX、G(G)VF20 BZ 蜂鸣器全梯种21 CAGE。
B。
L 内指令应答信号灯YPVF22 CALL 对讲机呼叫按钮YPVF23 CAM 防止手动开门装置VFM(H)G、HVF、NPX24 CDS 关门减速开关VFM(H)G、HVF、NPX25 CFR CFC 制动器阻容组件YPVF26 CLN 轿厢串行通信电子板VFM(H)G、HVF、NPX27 CLOSE 关门按钮全梯种28 CLS 关门限位开关YPVF、G(H)VF29 CNV 整流器YPVF、VFM(G)、HVF、NPX30 CONTROL-1 AC100V电源保险丝YPVF31 CONTROL-2 多重回路电源保险丝YPVF32 CONTROL-3 光电装置电源保险丝YPVF33 COUNT 计数器全梯种34 CP 控制柜全梯种35 CP-FAN 大功率逆变器冷却分扇YPVF、VFM(G)、HVF、NPX36 CPI 轿内指示器全梯种37 CR 阻容组件YPVF38 CRS 阻容组件YPVF39 CRU2 阻容组件YPVF40 D1-D4 二极管YPVF41 D2 二极管桥堆YPVF42 DBR 制动电阻G(H)VF43 DCO 门停止VFM(H)G、HVF、NPX44 DIGITAL CPI 轿内数字式显示全梯种45 DLS 下终端限位开关全梯种46 DM1 电感线圈YPVF47 DM37 副安全触板短接开关G(H)VF48 DM 门电机G(H)VF49 M.MOTOR 门电机VFM(H)G、HVF、NPX50 DMC。
parker K系列无框电机
所有这些线圈的详细信息也同样 可以在我们的网站上找到:www. 。如果您在选 择合适的电机尺寸及功率方面需要 协助,请联系派克应用工程师。
电流:最大负载及加速度将决定 所需的电流,还取决于转矩常数 和所选择的电压常数。
K系列无框伺服电机
K系列无框电机 产品概述
无框架电机套装提供可靠与紧凑的途径构建您自己的高性能电机
直接驱动运动结构在降低成本,增加可靠性及改进性能 方面给设备制造商明显的优势。
无框架套装电机是要求高性能且占用空间较小的机械 设计的理想解决方案。采用套装电机,可以直接集成 机械传动装置,不需要使用会增加设备尺寸和复杂性 的零件。使用无框架套装电机使电机的外壳更小,更 可靠。直接驱动运动结构在降低成本,增加稳定性及 改进性能方面给设备制造商以明显的优势。
120 100
80 60 40 20 0
0
300 250 200 150 100
50 0
0
2500 2000 1500 1000
500
0 0
K032 @ 340 VDC
Continuous
Peak
K032050
K032100
K032200
NOTE: 不同于340VDC的性能表现,请联系工厂。
派克有众多额外的框架尺寸,堆叠厚度及 线圈,以满足几乎任何电压及电流的实用 组合。如果你没能找到满足您特定应用性 能,电子及机械要求的产品,请联系我们。
2000
4000
6000 8000 速度(rpm)
1000 12000 14000
Torque (oz-in)
Torque (oz-in)
稳上用户手册巨人通力
(版权所有,不得翻印)上海稳上创新技术有限公司Shanghai Wenshang Innovative Technology Co., Ltd.注意事项☆亲爱的用户,首先感谢您使用本公司产品!为了使您能正确地安装调试和使用,并保证人身及设备安全,在安装调试前,请务必先仔细阅读本《用户手册》。
☆请对照应急装置主机背面的铭牌所列型号、参数(上述内容是订货时由需方提供的)与电梯各有关部分进行仔细核对,如不一致,请不要安装,更不能通电试验。
应立即与我司技术部联系,商讨解决办法。
(技术部联系电话:Tel:-823)☆机内有高压,若开盖调试,请勿触及高压部分。
★从出厂之日起六个月内,本产品未投入正常运行时(如未开箱使用或已安装调试好本产品但电梯未正常启用),务必按以下方法给蓄电池充电:将应急装置主机后端盖板打开,取出接线头与电池箱对应端子接牢(0V、24V、48V),接上三相380V电源线和零线,将应急装置前面板电源开关置于ON位置,充电24小时即可。
☆本公司保留对产品及使用手册进行改进和修改的权利,本手册如有更改,恕不另行通知。
WS420电梯应急装置●○●○●○●○●○●○●●○●○●○●○●○●○●●○●○●○●○●○●○●目录1.概述 (01)2.工作原理 (02)3.安装接线 (04)4.调试程序 (10)5.维护须知 (13)6.维修指南 (14)7.装箱清单 (15)8.合格证 (16)9.保修卡 (16)概述WS420电梯应急装置1. 概述WS420系列电梯应急装置是针对电梯由于停电或故障而导致突然停梯时,自动进行救援的一种电梯安全装置。
应急救援时,该装置以蓄电池为能源,逆变出电梯所需要的电能,开动电梯将轿厢运行至就近平层位置,打开轿门和厅门,让乘客安全离开,以免困在电梯中。
H多功能型除停电应急外,在电梯电气控制系统发生故障时(不包括安全和门锁回路故障),也能自动应急救援并播放安抚语音,让乘客不惊慌。
变电所电气主接线图、配电干线系统图
电气设备参数表
叶轮给煤机101-104叶轮给煤机行走电机隔爆型三相异步电动机型号:YB112m-6 功率:2.2KW 电压:380V/660V转速:940r/min 防爆等级:Ip44 频率:50Hz电流:5.6/3.23A 接法:Δ/Y 绝缘等级:F级工作制:S 防爆合格证号:ONEX00457 重量:63Kg标准编号:JB9594-1999 出场编号:264 出厂日期:2003年11月无锡市南方防爆电机有限公司。
101-104叶轮给煤机叶轮电机隔爆型三相异步电动机型号:YB2-200L-4 功率:30KW 工作制:81防爆标志:EXdIIBT4 电压:380V/660V 接法:Δ/Y防暴等级:IP55 电流:57.6/33.3A CosΦ:0.86绝缘等级:F级编号:73 频率:50Hz转速:1470r/min 重量:320Kg 标准编号:JB7565-1999防爆合格证号:CNEX02.192 生产许可证号:XK06-121-000162003年10月江苏请江电机股份有限公司地址:淮安市请江电机路6号101-104叶轮给煤机油泵电机单相异步电动机型号YC7114-Y 功率:980W 电压:220V电流:2.70A 防暴等级:IP44 转速:1400r/min频率:50Hz 绝缘等级:B 级电容:100μF 编号:22005年5月奉化市分马力电机有限公司101-104叶轮给煤机控制箱时间继电器型号:TYPE/ST3PC-A INP.20ADCONTACTRAING:AC220V mAK/NG:0.3A无锡市明达电器有限公司接触器3TB43 22-OX 1EC947 VDE0660 GB14048Vi=660V Ith=30A AC3 生产许可证:XK06-2010025苏州西门子电器有限公司热继电器 3VA59 SIEMENS塑料外壳式断路器电流:16A 额定电压:690V Gm-100m3300频率:50Hz 温度:+40℃脱扣器整定电流:10A北京人民电器厂电话:69242058控制变压器型号:13KJBK2 容量:550VA 频率:50Hz~60Hz输入:660V 输出:220V2004年7月沈阳分局电器设备厂指示灯 APT A009397 AD/6-22SVNr上海安普特电器上海二工电气厂按钮APT 1EC60947-5-1GB/T14048.1 AC660V Ith 10AGB/14048.5 AC15 DC131#变电所3号柜 1#叶轮给煤机 VV22-1KV 3x25+1x16 210m 1#变电所3号柜 2#叶轮给煤机 VV22-1KV 3x25+1x16 230m 1#变电所3号柜 3#叶轮给煤机 VV22-1KV 3x25+1x16 450m 1#变电所3号柜 4#叶轮给煤机 VV22-1KV 3x25+1x16 480mBPKP101 101叶轮给煤机 300m KVVP-500 7x1.5BPKP101 101叶轮给煤机 250m KVVP-500 24x1.5BPKP102 102叶轮给煤机 250m KVVP-500 7x1.5BPKP102 102叶轮给煤机 250m KVVP-500 24x1.5BPKP103 103叶轮给煤机 550m KVVP-500 7x1.5BPKP103 103叶轮给煤机 500m KVVP-500 24x1.5BPKP104 104叶轮给煤机 500m KVVP-500 7x1.5BPKP104 104叶轮给煤机 500m KVVP-500 24x1.5105-106皮带电机隔爆型三相异步电动机型号:YB3153-4 功率:110KW 电压:380V/660V电流:210A/116A 转速1486r/min 绝缘等级:F重量:1200Kg 标准编号:JB9594-1999 编号:0006安全标志编号:910627-2002 防爆合格证号:10125432004年2月山西防爆电机有限公司105-106制动器隔爆型电力液压推动器型号:Ed8016 防爆标志:dI 额定推力:800N输入功率:290W 电流:0.72A 防爆等级:IP44绝缘等级:F 行程:60m 电压660V 频率:50Hz编号:0404H2 防爆合格证号:CNEX03.328焦作制动器股份有限公司105电机配电 1#变电所3号柜6号 VV22-1KV 3x70+1x35 240m 106电机配电 1#变电所3号柜7号 VV22-1KV 3x70+1x35 240m 105电机配电 1#变电所6号柜4号 VV22-1KV 3x6+1x4 240m 106电机配电 1#变电所6号柜3号 VV22-1KV 3x6+1x6 240m107皮带电机隔爆型三相异步电动机型号:YB280S-4 标准编号:JB9594-1999 频率:50Hz功率:75KW 电压:380V/660V 电流:139.7/80.6A接法:Δ/Y 防护等级:IP44 转速:1480r/min绝缘等级:F CosΦ:0088 工作制:S1出厂编号:0060 重量:650Kg 防爆合格证号:1012542安全标志编号:910626-20022004年6月山西防爆电机(集团)有限公司107制动器防爆型电力液压推动器型号:Ed8016 防爆标志:dI 行程:600m额定推力:800N 电压660V 输入功率:290W电流:0.72A 防护等级:IP44 频率:50Hz绝缘等级:F 编号:040421 防爆合格证号:CNEX03.328焦作制动器股份有限公司107电机配电 1#变电所6号柜8号 VV22-1KV 3x70+1x35 278m 107电机配电 1#变电所6号柜6号 VV22-1KV 3x6+1x4 278m108皮带电机型号:Y2355m-4 功率:220KW 电压:380V/660V接法:Δ/Y 电流:389/225A 频率:50Hz转速:1490r/min CosΦ:0.90 防爆等级:IP54绝缘等级:F 重量:1760Kg 标准编号:JB/T8680-19982004年4月山西防爆电机集团有限公司108电力液压推动器型号:Ed121/6额定推力:1250N 行程:60mm 频率50Hz相数:3 电压:660V 接法:Y电流:0.8A 绝缘等级:F 防护等级:IP65编号:0404K2 重量:30Kg焦作制动器股份有限公司108电机配电 1#变电所9号柜7号 VV22-1KV 3x185+1x95 296m 108电机配电 1#变电所5号柜5号 VV22-1KV 3x6+1x4 266m111皮带电机三相异步电动机型号:Y315M-4 132KW 380V/660V 240/138ACosΦ0.89 工作制S1 接法:Δ/Y 50Hz1486r/min 1000Kg防爆等级:IP44 LW101dB(A)出厂编号:0026 标准编号:JB/T9616-1999B级绝缘 2004年7月山西防爆电机(集团)有限公司制动器(111)型号:Ed121/6额定推理:1250N 行程:60mm输入功率:180W 频率:50Hz相数:3 接法:Y电压:660V 电流:0.8A绝缘等级:F 防护等级:IP65编号:0404K2 重量:30Kg焦作制动器股份有限公司111皮带电机配电 1#变电所8号柜 VV22-1KV 3x70+1x35 255m111皮带电机配电 1#变电所5号柜 VV22-1KV 3x10+1x6 256m121皮带电机隔爆型三相异步电机型号:YB225m-4 45KW 50Hz380V/660V 80/48.2A 接法:Δ/Y F级绝缘CosΦ=0.88 转速1480r/min防爆合格证号:4400128 环境空气:40℃编号:JB9594-1999 出品编号:03/J737-9-01重量:440Kg 出厂日期:2003年10月佳木斯电机股份有限公司制造121制动器隔爆型电力液压推动器防爆标志:ExdIIBT4型号:Ed500-60Ex 额定行程:60mm额定推力:500N 绝缘等级:F防护等级:IP65 编号:010********重量:26Kg 防爆合格证号:CNFx03.130江西华伍起重电器有限责任公司121电机配电 1#变电所5号柜8号 VV22-1KV 3x35+1x16 290m 121电机配电 1#变电所6号柜5号 VV22-1KV 3x10+1x6 290m113皮带电动机三相异步电动机型号:Y31522-4 标准编号:JB1T10391-2002200KW 363/210A 接法:Δ/Y 50Hz380/660V 绝缘等级:F 转速:1485r/min防爆等级:IP54 1172Kg 编号:487652004.7 中华人民共和国浙江永方机电有限公司113制动器型号:YTD800-60 推力:800N电机:380V 50Hz 防护等级:IP65重量:15Kg 绝缘等级:F编号:010********江西华五起重电器有限责任公司113电机配电 1#变电所8号柜2号 VV22-1KV 3x35+1x16 88m113电机配电 1#变电所4号2个 VV22-1KV 3x6+1x4 88m 116皮带电机隔爆型三相异步电动机型号:YB3153-4 功率1.10KW 50Hz380V/660V 200/115A 防护等级:IP44接法:Δ/Y 转速:1483r/min CosΦ0.89 F级绝缘防爆合格证号:4400131 标准编号:JB9595-1999出厂编号:041DC711-04 1100Kg 2004年6月佳木斯电机股份有限公司制造116制动器隔爆型电力液压推动器型号:Ed500-60Ex 防爆标志:ExdIIBT4额定推力:500N 额定行程:60mm电机:660/50Hz 绝缘等级:F防护等级:IP65 编号:010********重量:26Kg 防爆合格证号:CNFx03.130江西华五其中电器有限责任公司116电机配电 1#变电所8号柜 VV22-1KV 3x70+1x35 110m 116电机配电 1#变电所6号柜 VV22-1KV 3x6+1x4 110m118皮带电机(三相异步电动机)型号:Y2355m-4 380V/660V 接法:Δ/Y389/225A 50Hz 1490r/minIP54防爆等级绝缘等级F 1760Kg标准编号:JB/T8680-1998 2004年7月山西防爆电机(集团)有限公司电力液压推动器型号:Ed121/6额定推力:1250N 行程:60mm输出功率:180W 频率:50Hz相数:3 接法:Δ/Y电压:660V 电流:0.8A绝缘等级:F 防护等级:IP65编号:0404K3 重量:30Kg焦作制动器股份有限公司118电机配电 1#变电似8号柜柜4号 VV22-1KV 3x35+1x16 280m 118电机配电 1#变电似6号柜柜3号 VV22-1KV 3x6+1x4 280m120A、B皮带电机高压三相异步电动机型号:YKK4503-4 电压6000V 频率:50Hz功率:560KW 电流63.6A 转速:1485r/min功率因素:0.86 接法:Y 绝缘等级:F冷却方式:IC611 重量:4370Kg标准编号:JB/T103152-2002出厂编号:51979 出品年月:2004年7月浙江永发机电有限公司120A、B制动器型号:TYPE.Ed30116.DC 液压油:Oi:25推力:3000N 行程:60mm电机:660V 50Hz 1.6A 750W防护等级:IP65 绝缘等级:F 重量:27Kg编号:010********江西华五起重电器有限责任公司120A、B电机配电 1#变电所高压室 VV22-6KV 3x50 650m 120A、B电机配电 1#变电所 VV22-6KV 3x10¬+1x6 650mΦJR1-315/660矿用隔爆交流软起动器名称型号及规格备注可控硅模块MSJ—DJK2 350A 660V电机综合保护器ABD8-400 配电流互感器,36V操作电压隔离换相开关H6K H6K-315-1140 分断能力1500A,立式安装A型真空接触器KM1 CKJ5-250/1140 250A/1140V,36V操作电压熔断器FU1 2A(660V)熔断器FU2 5A/220V熔断器FU3 0.1A/220V控制变压器BK-150 150KVA , 660/36V操作按钮SB1-SB4 KA4-1 双刀双掷,220V中间继电器K2 JZC-31 36V操作电压钮子开关SA1.SA2 双刀双掷,220V阻容吸收装置660V/220AΦJR3-270/660交流软起动器名称型号及规格备注可控硅模块MSJ—DJK2 800A / 660V电机智能保护器JDB-LQ 300/52A 配电流互感器,36V操作电压刀熔隔离开关ΦHR5-400/660 分断能力1500A,660V真空接触器KM1、2 CKJ5-400/1140 400A/1140V,36V操作电压熔断器FU1 6A/220V熔断器FU2 10A/220V控制变压器BK-300 300KVA , 660/36V操作按钮SB1-SB4 KA4-1 双刀双掷,220V中间继电器K1—K3 PT52AT30 220V操作电压旋转开关SA1.CK 220V/660V阻容吸收装置FV12 660V/220A储煤棚输送机隔爆型三相异步电动机型号:DSB75-4 50Hz 75KW660V/1140V 接法:Δ/Y IP44 绝缘等级F1480r/min 675Kg安全标号:20011771出品标号:5E0C-02-5防爆合格证号:CNGx00.395BRG.DE:631712290dBA 2005年5月南阳防爆集团有限公司输送机开关矿用隔爆型真空电磁起动器型号:GBZ-200 防爆标志:ExdI额定控制功率:660V 170KW 380V/100KW防爆合格证号:1042589安全标号:98098-2004额定工作电压:660V/380V 165Kg2005年6月古交市矿山机电厂取料机油泵电机隔爆型三相异步电动机型号:YB100L2-4 30KW防爆标志:ExdIIBT4 220/380V 绝缘等级:F转速:1420r/min 60Hz 47Kg 11.8/6.8A 接法:Δ/Y 防爆合格证号:52011-96R丹东黄海电机有限公司油泵电机隔爆型三相异步电动机型号:YB280S-4V 功率:75KW 防爆标志:ExdIIBT4380V/660V 绝缘等级: 1480转 50Hz防护等级:IP44 650Kg 140/80.4A防爆合格证号:52093-04丹东黄海电机有限公司行走电机隔爆型三相异步电动机型号:YBB2M 2-6 5.5KW 50Hz防护等级:IP54 380V 12.6A 接法:Δ转速:960r/min 绝缘等级:F CosΦ0.78安全标志号:921301-2002 防爆合格证号:CmExL1022866 101Kg 佳木斯电机股份有限公司制造增安型轴油通风机型号:GAP-806 60W 380V 50Hz防护等级:IP54 5Kg 绝缘等级:F标准编号:OHP5.510.000 2004年7月大连宏达电机配电厂取料机两侧电机型号:YB3/5S44 50Hz 380V 110KW1100Kg IP54 F出厂编号:04E-0054-02标准编号:JB9594-1999 2004年7月防爆编号:CmExL1022873 佳木斯电机股份有限公司高压电缆接线箱型号:nLJ-1F 额定电压:6KV 额定电流:630A出厂编号:X848 2004年10月沈阳新生电器开关制造有限公司磁带式电缆卷筒型号:CZJ-1500DGA 回路数:4容量:1500Kg 电流:200A 卷绕速度0/30/min转矩:504NM 出厂编号:04239 2004年10月沈阳嘉信电缆卷筒制造有限公司花环电机隔爆型三相异步电动机型号:YB90L-4 1.5KW 380VIP 45 噪声:LW67bB(A)50Hz 接法:Y 37Kg编号:138 防爆标志:ExdIIBT4标准编号:JB9594-1999防爆合格证号:CmExC1022906沈阳市黎明电机厂变频器A-BALLen-Bradley1336PLLSⅡSeNSORLSS VECTOR660V空开ABB SACES6ASCE S6N IU=800A Ue=690V IEC974-2CELEN 60947-2 Ue V 230 415 400 500 600 250 500 750 1CD KA 65 36 30 25 20 35 20 16ICS=100% ICU(75% ICU690V)刮板空开ABB S5S5N IU=630A Ue=690V IEC60947-2 GB14048.2 Ue(V)230 415 440 500 690 250 500 750ICU(KA)65 35 30 25 20 35 35 20ICS=100% ICU(75% ICU690V)电机保护器CGDigital Protection Relay Cdigta (EMPR)Control Voltage:220V 50/60HzAox.Contact :OL (95-98)/a/bCutput Contact :250vac 3A(ReSLatLve LonΦ)Curent Range: 5-6(A)照明空开:A•BIEC947.VDE0660IU=160A 50/60HzUimp=8KVBCat.A140m-m5F-D20堆料机114电机隔爆型三相异步电动机型号:YB315S-4 110KW 50Hz 380/660V115A/295A 接法:Δ/Y转速:1483r/min CosΦ0.89标准编号:B9594-1999 防爆合格证号:CmExC10228731100Kg 2004年5月佳木斯电机股份有限公司制造114制动器防爆型制动器型号:YTD800-60 推力800N电机:380V 50Hz 防护等级:IP65重量:13Kg 绝缘等级:F编号:010********江西华伍其中电器有限责任公司行走电机起重用隔爆型三相异步电动机型号:YB2E-160M/-4 定子:Y接 380V绝缘等级:F 250Kg 出厂编号:04C-0190-04防爆合格证号:4400103 标准编号:JB/710253-2001 2004年6月佳木斯电机股份有限公司制造取料机变压器型号:SG10-800/6 相数:3分接位置高压低压电压V 电流A 电压V 电流A2~3 6300 73.32 400 1154.73~4 6000 76.984~5 5700 81.03额定容量:800KvA 额定频率:50Hz 电压组合:6/0.4Kv 联结组标号:Yy00 冷却方式:AN 绝缘水平:LI60AC20/AC3绝缘耐热等级:11级短路阻抗:5.81% 器身重量:2510Kg总重量:2650Kg 沈阳昊诚电气设备有限公司取料机变压器型号:SG10-400/6 相数:3分接位置高压低压电压V 电流A 电压V 电流A2~3 6300 36.66 400 577.43~4 6000 38.494~5 5700 40.52额定容量:400KvA 额定频率:50Hz 电压组合:6/0.4Kv 联结组标号:Yy00 冷却方式:AN 绝缘水平:LI60AC20/AC3绝缘耐热等级:11级短路阻抗:4.36% 器身重量:1670Kg总重量:1800Kg 沈阳昊诚电气设备有限公司取料机电气设备660V万能式断路器 BMW50-2000/3符合标准:IEC60947-2 GB14048.2编号:40196北京明日电器设备有限公司性能参数:额定绝缘电压:Ui 690V额定电流:630A 50Hz额定工作电压:400V 690V额定极限短路分断能力:ICV 80KA 60KA额定运行短路分断能力:ICS 50KA额定短时耐受电流(IS):1CW 50KA释能电磁铁电压:220V分励脱口器电压:220V欠压脱口器电压:220V欠压延时时间:3电操机构电压:220V智能脱口器电压:220V长延时~In:瞬时――KA短延时~In:接地――In6Kv真空开关EKDOGN30-10隔离开关额定电压:10KV额定电流:1250A热稳定电流:47KA出厂编号:0855出厂时间:2004年7月上海一开电器集团公司电力变压器型号:Sq-650/6/0.66容量:650KVA电压:6000±5Y/660V额定功率:50Hz联组标号:YYno冷却方式:ONAN使用方法:户外短路阻抗:4.45Y绝缘水品:LI76、AL36标准代号:GB1094.1 GB1094.2-1996 /GB1094.3 GB1094.5-85 产品代号:1DB.710.951出厂序号:040653器身重:1325油重:460Kg总重:2235KgI:6300Ⅱ:6000 660V/551.1Ⅲ:67002004年9月山西嘉龙机电设备制造有限公司电力变压器型号:Sq-1000/6容量:1000KVA电压:6000±5Y/400V额定功率:50Hz联组编号:YYno冷却方式:ONAN使用条件:户外短路阻抗:4.45Y绝缘水平:LI76.AC36标准代号:GB1094.1 GB1094.2-1996 /GB1094.3 GB1094.5-85 产品代号:IDB.710.953出厂序号:040625器身重:705 油重:615总重:3005KgI:6300V 400V 1143AⅡ:6000Ⅲ:67002004年9月山西嘉龙机电设备制造有限公司6KV易损件名称型号数量备注万能式断路器BMW50-200/3 IEC60947-2JB/4048.2 1 编号:40195北京明日三相三线有功电路表EKDQ KW.H 3*3(6)A DSB64-21800V/KW.H 3*100V 50Hz 1 NO:2003-112044 上海光辉仪表电压表EKDG6C2KV MC03820369 2操作机构开关状态显示器2H-KZQ-200C 1601PT保险RN2-60.5A 6 210mm合闸指示灯AD11-25/21 220V 15储能开关LA18-22X2 2信号继电器DX-318J 3中间继电器D2T-208 4保险R014 Gg 10A 5660V易损件名称规格数量备注保险管CNC RT19 R014 500V-50KA 4A 100保险管CNC RT19 R014 500V-50KA 6A 100保险管CNC RT19 R014 500V-50KA 10A 100熔断器RSC-A3500/1000-2 2接触器100-B250NA3+195CA20 2接触器100-C12F-0 2按钮DBCY090IE337CLTDAC-15 10指示灯AD16-22D31 AC220V 18MA 30Z指示灯N,AD16G-16A AC220V 30交流真空接触器CKJ5-400交流线圈220V 5交流真空接触器CKJ5-125交流线圈220V 10交流真空接触器CKJ5-250交流线圈220V 10指示灯大AD16-22D31 25指示灯小AD16-16A 25按钮PBCY090 IE 337(LY7)AC-15 10保险管RT14 RT189G 长度35mm 10变电所易损件名称规格数量备注熔断器CNC RT19 Am1 R014 500V~50KA 6A1EC 269 GB13539.1 Φ8.5×31.550熔断器EKDQ R014 380V~100KA 500V~50KA gG 10AΦ8.5×31.5 1EC 269 GB13539 50熔断器CHNT A000/28 RT28-63 aM3 Φ14×51 500V 63A GB13539 1EC 60269 正泰集团公司50熔断器CHNT RT14-20 Φ10×38 380V 4A A000/28GB13539-92 正泰集团公司50熔断器快熔保险 RZSI 1000V 沪工10现场通讯跑偏拉绳开关及按钮照明制动按钮开关型号:BZA422 防爆标志:ExdeIICT6额定工作电压:~380V防爆等级:IP65 工作电流:6A防爆合格证号:SD10815 2004年11月抚顺市海浪防爆电器厂防爆扬声器型号:dYH-3 输入电压:220V防爆标志:ExdIIBI6 防爆合格证号:CJEX02.2.060客效电功率:15VA阜新市双星电子有限责任公司矿用本质安全型电话机型号:KTH 防爆标志:Ex.bI(150℃)额定电压:DC24148V 关联设备:HDK 额定电流20mA防爆合格证号:1024399 振玲电压:≤40振玲电流:≤30mA 安全标志编号:20030626生产许可正号:XK06-141-00001 2005年6月华荣集团有限公司打点电话机型号:KTT.3防爆形式:Ex,bI 防爆合格证号:2014036安全标志编号:20011244 关联设备:KDW9A/KDW15/2BK内部电池:GNY1.2VX61600mAh出厂编号:050536 出厂日期:05年4月常州联力自动化有限公司K2D-20A工业型抗噪声扩音终端电压:AC220V±15%扩音功率:5-25W降噪能力90dB 环境通化清晰度:100%体积:230×540×145(mm)重量:10Kg 壁挂式常州市博瑞特信息技术有限公司办公照明普40W 日光灯现场照明普60W、100W、200W金属卤化物灯 400W 1000W高压钠灯 250W瓦斯监控仪型号:KJF19 电源:380V 本安电压:19V 本安电流500mA 防爆标志:bdmI 电源功耗:30W防爆合格证号:2024006 安标编号:96105-2002产品编号:07314 2005年4月镇江中煤电子有限公司检修开关防爆照明动力配电箱型号:Bxm(n)S1-4/63xD电压:380V 支路电流63A防爆合格证号:CVEx01.249许可证号:xK06-123-001032004年12月中国华荣防爆电器有限公司集控易损件名称规格数量备注拉绳开关KLT-I 5 2A 3Kg 380/220V跑偏开关KPT1-12-30 5 2A 3Kg 380/220V钢丝绳Φ6、Φ8、Φ9 100按钮(绿色)APT IEC 60947 GB14048.5GB1T14048.1 U1AC660V Ith10A AC-15DC-13 20 上海宇普特电器停止按钮(带自锁)APT IEC 60947 GB14048.5GB1T14048.1 U1AC660V Ith10A AC-15DC-13 20 上海宇普特电器中间继电器220V线圈10电话机 5电笛DDJ1 220V 5 上海电器防爆电话机喇叭AC220V±15%功率5-25W 40W 8TH-1240 2保险管2A、4A、6A、10A、20A 5摄像头MODEL:EP-810HCPOWER:DC12V 5WVIDEO:GOTPUT1.0VP_P75 2一体化条色摄像头MODEL:EP-810HCPOWER:DC12V 5WVIDEO:GOTPUT1.0VP_P75 212V直流电源 5F头 5信号干扰器 5皮带测速仪感应头DH-5-C 5 沈阳三原电器电铃 2直杆小一字小改锥 1卡接刀 1带保险端子 1云台 2解码器 1寻址器 1滤波器TRANS EM1 B2KL-10A 250VAC 10A50/60Hz 25℃~+85℃ 1单级开关C6A 10A 25A 1120跑偏开关KBP/127 额定电流1A 防爆标志ExdI 1 启东市华峰矿用机电设备厂120拉绳开关KHS1/12L 额定电压24额定电流1A 1120扩音开关充电电流18mA工作电压17V工作电流≤620mA 2 天津市新奥拓自动化BDG58-2F63×40×32-20T防爆动力配电箱(粉尘)元件明细表名称符号型号数量备注断路器QF C65N-D63A/3P 1断路器1QF C65N-D40A/3P 1断路器2QF C65N-D16A/3P 1断路器3QF C65N-D20A/1P 1断路器4QF C65N-D10A/1P 1交流接触器KM1 LC1-D4011M5C 1交流接触器KM2 LC1-D0910M5C 1辅助触头LA1-DN20C 3热继电器FR1 LR2-D3355C 1热继电器FR2 LR2-D1314C 1中间继电器KA1-KA7 HH54P DC24V 5 AC220V/DC24V稳压电源WY S-350-24 1 蘑菇头,自锁式防爆控制按钮SB1 LA5821 1防爆控制按钮SB2-SB4 LA5821 3防爆信号灯HL1-HL4 8017/2/DC24V 4 绿色防爆信号灯HL5-HL9 8017/2/DC24V 5 红色二极管V1-V11 耐压100V,3A 5受煤坑渣浆泵 106-107型号:40ZYBD 扬程21.4米效率36%流量:39.6m3/时转速:2200转/分功率11KW 2004年7月中华人民共和国阳泉水泵厂121-108机尾渣浆泵三相异步电动机型号:Y160 11KW 接法:Δ每分钟2930转电流:21.8A 编号:0031B级绝缘 50Hz 219公斤2004年7月标准编号:JB1T9616-1999山西省长中工业公司特种电机厂渣浆泵型号:402ZYDBO 扬程:27.4米 380V流量16.3m3/时编号:4004电机:Y132.S1-2 5.5KW山西省长丰工业公司特种电机厂立式多级泵 K06C/T80-20X4电机型号:Y18L-4 380V 接法Δ扬程80米流量50m3/n上海凯泉原业有限公司储煤棚风扇电机型号:DWT-11 No.8风量:16708m3/n 全压:52/Pa转速:960r/min 功率:5.5KW编号:03700 2004年7月山东德通实业有限公司153风扇电机型号:Y160L 11KW 380V 接法:Y/Δ22.6A 标准编号:JB/T96916-1999 126Kg 2005年6月天津大明电机受煤坑风扇电机型号:OWT-1 No.14风量:76700m2/n 全压:250Pa转速:720r/min 功率:7.5KW编号:0.36772004年7月山东德通实业有限公司(新加)风扇电机隔爆型三相异步电动机型号:TYEP YB16nM2-22930r/min 50Hz380V/660V 29.4/16.9AIP44 F沈阳实力电机股份有限公司制造 2005年6月受煤坑电动葫芦型号:CDMD 起升速度:80.8m/min 运升速度:20m/min 起重量:5T 起升速度:18m 工作级别:中级出厂编号:40650588河南省豫中起重设备厂受煤坑型号:COMD 起重量:3T 提升高度12米速度:80.8/min 运升速度:20m/min出厂编号:40650570河南省豫中起重设备厂七号转载站电动葫芦型号:COMD 起重量:3T 起重高度:24米速度:升速度:80.8m/min 运升速度:20m/min出厂编号:40650560河南省豫中起重设备厂120皮带机头电厂1#站电动葫芦型号:C01 起重量:10T 起重高度:56米运升速度:20米/min 起升速度:2米/分工作制度:中级XHSS旋斗式皮带中部采样机型号:RSDL-160 开口尺寸:150mm 功率:7.5KW外形尺寸:2503×2500×3116转速:39r/min 2004年7月德州赫尔期采样设备有限公司XHSS旋斗式皮带中部采样机皮带给料机型号:SF-40C 皮带宽度:400mm输送量3.3/n 外形尺寸:4.9×0.9×1.1m节数:3-15.6m/min 重量520Kg编号H04-07-2旋斗式皮带采样机下部型号RSDL-40 形口尺寸:40mm 功率:0.55KW 外形尺寸:1100×850×770重量:16Kg2004年8月锤式破碎机型号:HTC-0403 出力能力:55t/h电机功率:5.5KW 旋转速度:960r/min进料:150mm 出料:≤6mm重量:780Kg出厂日期:2004年8月107机尾凝结水回收器水泵三相异步电动机型号:Y100L-2 功率:3KW 电压:380V频率:50Hz 电流:6.4A 接法:Y/Δ绝缘等级:B 2004年6月北京市金嵘峰电机厂2泵离心泵型号:1L50.32.2006 扬程:40m 流量:10米/小时轴功率:2.2KW 转速:2900转/分配用功率:3KW 效率:48%出厂编号:402204出厂日期:2004年6月北京盘龙泉泵业有限公司。
使用Kinetis K60的PDB实现ADC转换定时 说明书
Freescale Semiconductor Application Note1IntroductionThe Programmable Delay Block (PDB) provides controllable delays from either an internal or an external trigger, or a programmable interval tick to the hardware trigger inputs of the ADCs. This functionality is required for applications when precise timing of ADC conversions are required, or when the measured signal must be filtered using precise sampling.The PDB is necessary in some motor control specific applications which require advanced ADC to PWM synchronization. This application note describes the set-up of the PDB, routing of the signal onto a GPIO pin, and sequence error handling. A typical application is the BLDC six-step method. This application note focuses on the Kinetis K60 family, the FlexTimer, and 16-bit ADCs.2Understanding PDBterminologyThis section describes the important terms used in the Kinetis K60 reference manual that relate to this application.Document Number:AN4822Rev. 0, 12/2013Contents1.Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12.Understanding PDB terminology . . . . . . . . . . . . . . . . 13.PDB Set-up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24.Routing the PDB pre-trigger onto a GPIO pin . . . . . . 45.PDB sequence error handling . . . . . . . . . . . . . . . . . . . 46.Application example . . . . . . . . . . . . . . . . . . . . . . . . . . 57.Reference documentation . . . . . . . . . . . . . . . . . . . . . . 68.Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Tips and Tricks Using PDB in Motor Control Applications on Kinetisby Ivan LovasFreescale Semiconductor, Inc.PDB Set-upFigure 1 illustrates the arrangement of the FlexTimer to the ADCs in association to the terms used.Figure 1. Internal arrangement of PDBInput trigger source —One possible input source which starts the PDB counter for all PDB channels. All possible input sources can be found in the chip reference manual, in the section “PDB Input Trigger Connections.” The input trigger source number must be entered into register PDBx_SC, field TRGSEL.PDB channel —Each PDB channel is associated with one ADC. This means that ADC0 is associated with PDB channel 0 and ADC1 is associated with PDB channel 1.Pre-trigger delay —Each pre-trigger is generated after a predefined delay, which is measured from the input trigger event. After this delay, an ADC convertor begins to measure and the result of conversion is stored in the result register corresponding to the respective pre-trigger delay. Relationships between pre-triggers and result registers are described in the Table 1.3PDB Set-upTo accurately synchronize between the FlexTimer and ADC, three peripherals must be configured. Only the settings necessary for synchronization will be described. The settings for PWM generation and ADC module are application specific and therefore cannot be described in detail here.Table 1. Relation between pre-triggers and result registersRespective Pre-Trigger DelayRegister with Conversion Result PDB0_CH0_DL Y0ADC0_RA PDB0_CH0_DL Y1ADC0_RB PDB0_CH1_DL Y0ADC1_RA PDB0_CH1_DL Y1ADC1_RBPDB Set-upExample1. PDB settingsPDBinit(void){SIM_SCGC6 |= SIM_SCGC6_PDB_MASK; // enable clock for PDB modulePDB0_MOD = MODULO;// modulo for PDB counter should be same as FTM modulo//enable required pre-triggers, enable back-to-back operationPDB0_CH1C1 = PDB_C1_EN (0x03) | PDB_C1_TOS(0x03) | PDB_C1_BB (0x02);PDB0_CH0C1 = PDB_C1_EN (0x03) | PDB_C1_TOS(0x03) | PDB_C1_BB (0x02);PDB0_CH0DLY0 = 150;// delay for first pre-trigger of PDB channel 0PDB0_CH1DLY0 = 200; // delay for first pre-trigger of PDB channel 1PDB0_SC = PDB_SC_PDBEN_MASK| PDB_SC_PRESCALER(0x0)| PDB_SC_TRGSEL(0x8) // 0x8=FTM0| PDB_SC_MULT(0)| PDB_SC_LDOK_MASK| PDB_SC_PDBEIE_MASK;}FlexTimer init trigger signal needs to be routed out of the FlexTimer by the FlexTimer settings command.Example2. FlexTimer settingsFTM0_EXTTRIG |= FTM_EXTTRIG_INITTRIGEN_MASK;Example3. ADC settingsADC1_SC2 |= ADC_SC2_ADTRG_MASK; // Enable H/W trigger for ADC1ADC0_SC2 |= ADC_SC2_ADTRG_MASK; // Enable H/W trigger for ADC0SIM_SOPT7 = 0; // Select H/W trigger source for the ADCsADC1_SC1A = ADC_SC1_ADCH(11); // BEMF voltage measurement (ADC1_RA)ADC1_SC1B = ADC_SC1_AIEN_MASK | ADC_SC1_ADCH(12);// DC-Bus current (ADC1_RB)ADC0_SC1A = ADC_SC1_ADCH(19); // DC voltage (ADC0_RA)ADC0_SC1B = ADC_SC1_AIEN_MASK | ADC_SC1_ADCH(14); // Pressure sensor (ADC0_RB)Routing the PDB pre-trigger onto a GPIO pin4Routing the PDB pre-trigger onto a GPIO pinTo check whether the synchronization is working correctly, it is good to route the pre-trigger signal to a GPIO pin. For this purpose, you can use an unused channel of the FlexTimer.The following settings are necessary to prepare the trigger diagnostic pin. This example selects the FlexTimer channel 7, however it is possible to select any free FlexTimer channel.FTM0_C7SC |= FTM_CnSC_MSA_MASK;// Set the output compare mode to FTM channel 7FTM0_C7SC |= FTM_CnSC_ELSA_MASK;// Enable the output toggle on matchPORTD_PCR7 |= PORT_PCR_MUX(4);// Set the pin alternative for PORTD 7 - Route the FTM signal to a pinNext, fill the FlexTimer value register with the value of the required delay. If the PDB delay is changing periodically, the FlexTimer value register requires periodic updates.FTM0_C7V = PDB0_CH1DLY0; // Enter the value of the delay from the pre-trigger delay register5PDB sequence error handlingThe ADC n block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion is in progress that is triggered by one of the pre-triggers from PDB channel n, then a new trigger from the PDB channel's corresponding pre-trigger m cannot be accepted by ADC n, and ERR[m] is set. For example, in the Sensorless BLDC six-step control, ADC channels are periodically switched according to rotor position. This principle may cause a PDB sequence error. To avoid this type of error, it is necessary to switch to the channel only when no conversion is active. It is recommended to only allow switching after the ADC conversion complete interrupt is received.Changing the ADC channel can be also tricky, because writing SC1A while SC1A is actively controlling a conversion, aborts the current conversion therefore; the conversion complete interrupt is not called, the result register is not read, the PDB flag is not cleared, and a PDB sequence error occurs. In Software Trigger mode, when SC2[ADTRG]=0, writes to SC1A it subsequently initiates a new conversion ifSC1[ADCH] contains a value other than all 1s.When the PDB is not managed correctly, PDB sequence errors can occur. These situations occur given several scenarios. For example:•When delay0 and delay1 of one PDB channel are too close and the first conversion is not complete before the start of a new conversion.•When the asynchronous event that causes the conversion complete flag is not cleared on time anda new conversion is requested, such as:—an interrupt with a high priority causes the COCO flag not to be cleared on time.—using break points during application debugging.•When the ADC channel is changed during an active ADC conversion, such as:—a BLDC motor with Hall sensors controlled by interrupts.—a slow control loop is asynchronous to a fast control loop.Application example After a PDB sequence error occurs the PDB remains inactive until the errors are cleared. Before a PDB error is cleared, the PDB module must be disabled and re-enabled after errors are cleared.Example4. An example of a PDB sequence error interrupt routinevoid PDB_error_isr(void){PDB0_SC &= ~PDB_SC_PDBEN_MASK; // disable PDBPDB0_CH0S &= ~PDB_S_ERR_MASK; // reset error CH0PDB0_CH1S &= ~PDB_S_ERR_MASK; // reset error CH1PDB0_SC |= PDB_SC_PDBEN_MASK; // Enable PDB}This function is called when a PDB error occurs. Bit PDBx_SC_PDBEIE must be set to enable the sequence error interrupt. It is not required to set bit PDBx_SC_PDBIE to enable the error interrupt.6Application exampleFigure2 illustrates a practical usage of PDB synchronization when a noisy signal is measured. As shown, the measured signal (orange signal) is effectively filtered by proper sampling. Samples are taken after a transient event finishes, so only clean signal is measured. Points where the samples are taken are indicated by the blue diagnostic signal.Reference documentation Figure 2. Example of proper setting of PDB trigger, for noisy signal filtering7Reference documentationK60 Sub-Family Reference Manual for 100 MHz devices in 100 pin packages (document K60P100M100SF2V2RM)K60 Sub-Family Reference Manual for 100 MHz devices in 121 pin packages (document K60P121M100SF2V2RM)K60 Sub-Family Reference Manual for 100 MHz devices in 144 pin packages (document K60P144M100SF2V2RM)K60 Reference Manual (document number K60P120M100SF2RM)K60 Sub-Family Reference Manual for 100 MHz devices in 100 pin packages (document K60P100M100SF2RM)Legend:Orange waveform: Noisy signal to be measured.Blue waveform: Diagnostic signal (toggled on the ADC trigger).Revision history K60 Sub-Family Reference Manual for 100 MHz devices in 121 pin packages(document K60P121M100SF2RM)K60 Sub-Family Reference Manual for 100 MHz devices in 144 pin packages(document K60P144M100SF2RM)8Revision historyRevision 0 is the initial release of the document.Document Number:AN4822 Rev. 012/2013Information in this document is provided solely to enable system and software implementers to use Freescale products. There are no express or implied copyright licenses granted hereunder to design or fabricate any integrated circuits based on the information in this document.Freescale reserves the right to make changes without further notice to any products herein. Freescale makes no warranty, representation, or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters that may be provided in Freescale data sheets and/or specifications can and do vary in different applications, and actual performance may vary over time. All operating parameters, including “typicals,” must be validated for each customer application by customer’s technical experts. Freescale does not convey any license under its patent rights nor the rights of others. Freescale sells products pursuant to standard terms and conditions of sale, which can be found at the following address: /SalesTermsandConditions.How to Reach Us:Home Page:Web Support:/supportFreescale, the Freescale logo, and Kinetis are trademarks of Freescale Semiconductor,Inc., Reg. U.S. Pat. & Tm. Off. All other product or service names are the property oftheir respective owners. ARM and the ARM Power logo are the registered trademarksof ARM Limited.© 2013 Freescale Semiconductor, Inc.。
欧姆龙接近开关说明书
相互干扰 型号
A
B
尺寸
(单位: mm)
A
B
E2J E2K-X4M
80 70
E2K-X8M
150 110
E2K-X15M
300 200
926
外形尺寸
E2K-X4ME□ E2K-X4MY□
CAD᭄
E2K-X8ME□ E2K-X8MY□
E2K-X
(单位:mm) CAD᭄
80 φ21
60 17
20 4 4 φ10.7
高频电场的影响 当附近有可以产生高频电场的超声波洗涤装置、高频发生装 置、无线电收发机·移动电话及变频器等时会造成错误动作。 作为代表性的对架可参阅光电传感器的共通注意事项 「关于干扰」→1312页。
●安装时 紧固螺母时用力勿过大,且一定要使用止扣垫圈。
݊Ҫ ೈ䆒
φd
nm
ˆ
ҟ㒡
ᖙ乏ഄ
䞥ሲԧ
*金属体时接地时又不接地时易造成动作的不稳定,因此必须接地。
0 10 20 30 40 50 60 70 Ẕ⌟⠽ԧⱘ䖍䭓d(mm)
E2K-X15M
䎱 行 25
X嗻 mm嗼 20
ƶ50 t
X
15
10
5
ഄ䞥ሲ
䴲ഄ䞥ሲ ⦏⩗
㣃䜮˄ᷥ㛖˅ ϭ⛃䝌˄ᷥ㛖˅
0
5
10
15
20
25
Ẕ⌟⠽ԧⱘ䖍䭓t(mm)
924
E2K-X
泄漏电流特性
E2K-X□MY
⊘ ⓣ
2.0
⬉
⌕嗻
m嗼 A
ˆ2. Eൟ˖Ẕ⌟ᰒ冫♃˄㑶˅ Yൟ˖ࡼᰒ冫♃˄㑶˅
䖥Ӵᛳ఼
Ӵᛳ఼ᣛफ ᷅ൟ 㾦ൟ ᬒ఼ߚ行 Ё㒻ൟ 䴭⬉ᆍ䞣ൟ ݊Ҫ ೈ䆒 ҟ㒡
西门子伺服电机简明样本2013
技术支持与服务呼叫中心 电话 : +86- 400-810-4288 +86-10-6471 9990 传真 : +86-10- 6471 9991
资料 西门子通用驱动产品选型大全(PM 21,英文) 下载网址 :/download/searchResult.aspx?searchText=PM+21
西门子提供免费的、功能强大的产品选型工具软件 Sizer。通过 Sizer 软件可以选择合适的电机及驱动、控制系统。 下载网址 :/download/searchResult.aspx?searchText=sizer
依靠完善的产品规格体系、创新的模块化设计和上述的丰富可选项,您可以根据实际使用的需求,选择到犹如定制化的最适合电机 产品。您还可以借助西门子选型工具 Sizer 和图纸工具 CAD-Creator 来进行辅助选择,上述软件均免费使用。
请注意 :并非所电机都覆盖所有上文所述可选项。具体的使用需求可咨询西门子当地销售工程师或使用西门子标准选型大全(PM 21) 来进行更精确的选择。
1FN 直线电机
பைடு நூலகம்47
1FW 力矩电机
西门子运动控制伺服电机概览
适于各种任务的理想电机
适于各种任务的理想电机 在运动控制传动领域中可明显感受到的趋势 :电机的结构越来越紧凑,动态性能日益提高,功率范围不断扩大,电机型号更为广泛, 以及采用机械集成解决方案。为满足这种多样化的需求,西门子公司在全球范围内提供了品种繁多的伺服电机和主流传动产品。不 管您的实际要求是什么,我们总能为您提供最佳电机。功率范围涵盖 0.05kW 到 1,340kW(转矩范围从 0.18Nm 到 12,435Nm);转 速范围 0rpm 到 20,000rpm 适用于各种运动控制应用。 西门子中国公司网址 :
南阳电机样本1
产 品 样 本
代公 司
2005 年 11 月
0AP.138.0108 共 16 页 第1 页
1 概述
Y、YKK、YKS 系列(6kV、10kV)高压三相异步电动机(机座号 355-630)是我公司九十年代最 新产品, 是我公司在引进吸收德国西门子高压电动机制造技术的基础上, 结合公司长期稳定生产高压 三相异步电动机的设计制造经验而优化的系列产品。 本系列产品采用九十年代新技术、新材料、新工艺,选材考究、制造精良,具有高效、节能、 噪声低、振动小、重量轻、性能可靠、安装维修方便等优点。 本系列电动机符合国家标准 GB755《旋转电机 定额和性能》 、行业标准 JB/T7593《Y 系列高压
提出部门 标记 处数 更改文件号 签 字 日期
0AP.138.0108 共 16 页 第2 页
International Standard IEC34. The machining size and tolerance of all parts conform to the corresponding China national standards and international standards. For these series motors, the protection degree on enclosures is IP23, IP44 and IP54, IP55, cooling form is IC01, IC611 and IC81W etc. and mounting arrangement is IMB3. The motors with other corresponding protection degree, cooling form and mounting arrangement can also be supplied on customers’ requirement. These series motors with tropical humidity type (TH type), tropical arid type (TA type), outdoor type (W type), outdoor neutral chemical corrosion resistance type (WF1 type) and outdoor tropical humidity type (WTH type) are also available. These series motors can be used to drive various general-purpose machines, such as compressors, water pumps, crushers, cutting lathes, conveyors and other mechanical equipments installed in mine, mechanical industries, petrochemical industries and power plant etc. and can be used as drivers.
M200&M100产品介绍
6
Fit for purpose 按需所制:
投资与产品性能之间的最佳平衡
M200&M100综合考虑中国市场用户使用需求和习惯, 为用户全面节省成本。
● M200
● 灵活性: 内置串口+扩展板设计+扩展模块 ● 有以太网型号 ● RUN/STOP,MINI-USB ● 可插拔式端子
● M100
● 简单DI/DO应用 ● 内置串口 ● RUN/STOP,MINI-USB ● 固定端子
PLCs
Schneider Electric - Industry business – June 2014
3
PLC
● 2个系列产品: M200
M100
按需所制 &易用可靠 PLC
按需所制的灵活性和功 能,满足机器的扩展 专用于顺序控制, 并内置通讯
Schneider Electric - Industry business – June 2014
Schneider Electric - Industry business – June 2014 18
M200 Ethernet
●Ethernet
●10M/100M 自适应, 全双工/半双工 ●RJ45 port ●Modbus TCP/IP
●(Client/Server)
Magelis GXU
Schneider Electric - Industry business – June 2014
泵
• 泵站 • 压滤机 • 水处理系统子站
塑料& 橡胶
• 挤出机 • 切管机 • 膜切机
5
选择M200&M100
的理由…
Schneider Electric - Industry business – June 2014
MK60最小系统板使用说明书
MK60系统板模块使用说明书一简介:K60系列微控制器具有IEEE 1558以太网,全速和高速USB 2.0 On—The—Go带设备充电探测、硬件加密以及防篡改探测能力,具有丰富的模拟、通信、定时和控制外设,从100LQFP封装256KB闪存开始可扩展到256MAPBGA 1MB内存。
大内存的K60系列微控制器还提供可选的单精度浮点单元、NAND闪存控制器和DRAM控制器。
144脚LQFP封装的K60的引脚分布图如图1所示,很多引脚都是功能复用引脚,至于引脚选择哪个功能取决于相关寄存器的配置。
图1 K60 144 LQFP引脚分布图由功能框图可知,K60含有的功能模块包括:串行通信UART、GPIO、定时器、A/D、D/A、CMP、TSI、SPI、I2C、I2S、CAN、USB、SDHC以及存储模块。
不同单片机的相同功能模块用法是基本一样的,因此,这里的UART、GPIO、定时器、A/D、SPI、CAN与XS128的功能模块用法是一样的,CMP与XS128的PWM模块功能类似,都可以输出PWM波形。
关于其他模块的功能这里不再进行介绍,请大家参考K60的datasheet或者reference manual。
二模块特点:1.模块将单片机的引脚基本上全部引出,便于进行二次开发;2.模块电源设计了过流和过压保护,进一步增加系统抗电压和电流冲击能力;3.特别提醒大家的是,该模块不和5V接口兼容,所以使用时一定要小心,别直接使用5V电源供电,否则可能烧坏模块。
三模块使用注意事项◆板子为镀金板,使用过程中要轻拿轻放同时不要用手触摸金面,因为手上汗液容易引起金面氧化,产品使用久了,易导致接触不良等故障;◆产品放置时,因为焊接元器件个别高度凸出,因此不要有其它重物压在上面,以防压坏电路板上的贴片元件,进而影响板子性能;◆电路板存放温度不要超过55°,湿度小于60%;◆板子放置不要靠近潮湿地方,以防板子受潮影响使用,如果板子受潮,请将板子至于通风干燥地方进行干燥处理,如空调下,利用空调热风进行干燥;◆由于板子的引脚是裸露设计,请不要用手触摸相关引脚,以防静电损坏芯片引脚,影响板子性能.◆电路板使用前,必须检查所接电源是否在说明书规定的范围内,以防电压太高击穿关键芯片,影响板子性能;◆电路板使用时,注意不要将电源接反.四 K60的非I/O功能介绍像电源类的引脚以及用于复位及JTAG的引脚我们可以称为非I/O引脚,即这些引脚是不能当作一般I/O口使用的,非I/O引脚的总结及功能如表3-1所示。
固纬电子实业MFG-2000系列多通道函数信号发生器使用手册说明书
多通道函数信号发生器MFG-2000系列使用手册固纬料号NO.82MF32K000EC1ISO-9001认证企业2015.07本手册所含资料受到版权保护,未经固纬电子实业股份有限公司预先授权,不得将手册内任何章节影印、复制或翻译成其它语言。
本手册所含资料在印制之前已经过校正,但因固纬电子实业股份有限公司不断改善产品,所以保留未来修改产品规格、特性以及保养维修程序的权利,不必事前通知。
固纬电子实业股份有限公司台湾台北县土城市中兴路7-1号目录安全说明 (6)产品介绍 (10)面板介绍 (12)显示 (21)设置信号发生器 (22)快速操作 (24)如何使用数字输入 (26)如何使用帮助菜单 (27)顯示區域的分配 (29)选择波形 (30)调制 (32)扫描 (41)脉冲串 (43)ARB (45)工具栏 (51)菜单树 (52)默认设置 (70)操作 (72)CH1/CH2通道 (74)RF通道 (87)Pulse 通道 (98)功率放大器 (109)调制 (112)3幅值调制 (AM) (115)幅移键控 (ASK) 调制 (122)频率调制 (FM) (128)频移键控 (FSK) 调制 (134)相位(PM)调制 (140)相移键控 (PSK) 调制 (146)脉冲宽度(PWM)调制 (151)总和(SUM)调制 (157)频率扫描 (163)脉冲串模式 (172)辅助系统功能设置 (182)存储和调取 (183)选择远程接 (187)系统和设置 (191)通道功能设置 (195)双通道操作 (199)任意波形 (204)插入内置波形 (205)显示任意波形 (207)编辑任意波形 (214)输出任意波形 (223)存储/调取任意波形 (225)远程接口 (234)确立远程连接 (239)网络浏览器控制界面 (244)指令列表 (252)4状态寄存器指令 (260)接口设置指令 (263)应用指令 (264)输出指令 (270)脉冲设置指令 (279)幅值调制(AM)指令 (283)振幅键控(ASK)指令 (288)频率调制(FM)指令 (292)频移键控(FSK)指令 (297)相位调制(PM)指令 (301)相位键控(PSK)指令 (305)总和调制(SUM)指令 (309)脉宽调制(PWM)指令 (314)频率扫描(Sweep)指令 (319)脉冲串模式(Burst)指令 (329)任意波形(ARB)指令 (340)计频器(Counter)指令 (348)相位 (Phase) 指令 (350)耦合(Couple)指令 (351)存储和调取指令 (354)错误信息 (356)SCPI状态寄存器 (369)附录 MFG-2000系列规格 (375)EC符合性声明书 (385)GLOBL HEADAQARTERS (386)任意波内建波形 (387)索引 (395)56安全说明本章节包含操作和存储信号发生器时必须遵照的重要安全说明。
Eaton Moeller EASY I O 扩展设备 产品说明书
Eaton 197224Eaton Moeller® series EASY I/O expansion, For use with easyE4, 24 V DC, Inputs expansion (number) analog: 4, screw terminal EASY-E4-DC-4PE1Spécifications généralesEaton Moeller® series EASY I/O expansion197224401508089285458 mm 90 mm 36 mm 0.1 kg IEC/EN 61000-6-3 IEC 60068-2-30 CULus per UL 61010 IEC/EN 61131-2 IEC 60068-2-6 IEC 60068-2-27 IEC/EN 61000-6-2 EN 61010 EN 50178CSA-C22.2 No. 61010 IEC 60664 IEC/EN 61000-4-2 UL ListedUL Category Control No.: NRAQ, NRAQ7UL File No.: E205091 DNV GL CEEASY-E4-DC-4PE1Product NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight Certifications Model CodeAdditional measurement aids: Filtering (software), smoothing of analog input signal (PT1 behavior), only with set sampling time, selectable per sensor: yesExpandableExpansion deviceMeasuring principle: Two or three wire per sensor, selectable by connection of sensorCard diagnosticDiagnostics below lower measurement range IP20According to EN 50178, EN 61010-2-201, UL61010-2-201, CSA-C22.2 NO. 61010-2-201Rail mounting possibleTop-hat rail fixing (according to IEC/EN 60715, 35 mm)Wall mounting/direct mountingScrew fixing using fixing brackets ZB4-101-GF1 (accessories) Front build in possibleIII2Control relays easyE4TCP/IPMODBUS≤ 5 %12 Bit (0- 4095, digital, scaling per sensor)EASYSOFT-SWLIC/easySoft7easyE4 extensionDC50 mm Drop height, Drop to IEC/EN 60068-2-31 0.3 m 795 - 1080 hPa (operation) -25 °CFeatures Functions Degree of protection Insulation resistance Mounting methodOvervoltage category Pollution degree Product category ProtocolResidual ripple ResolutionSoftwareTypeVoltage typeDrop and toppleHeight of fall (IEC/EN 60068-2-32) - max Air pressureAmbient operating temperature - minHorizontalVertical15 g, Mechanical, according to IEC/EN 60068-2-27, Half-sinusoidal shock 11 ms, 18 Impacts57 - 150 Hz, 2 g constant acceleration10 - 57 Hz, 0.15 mm constant amplitudeAccording to IEC/EN 60068-2-655 °C-40 °C70 °CCondensation: prevent with appropriate measuresClearance in air and creepage distances according to EN 50178, EN 61010-2-201, UL61010-2-201, CSA-C22.2 NO. 61010-2-2015 - 95 % (IEC 60068-2-30, IEC 60068-2-78)8 kV2 kV, Signal cableAccording to IEC/EN 61000-4-42 kV, Supply cable6 kV10 V/m at 0.8 - 1.0 GHz (according to IEC EN 61000-4-3)1 V/m at 2.0 - 2.7 GHz (according to IEC EN 61000-4-3)3 V/m at 1.4 - 2 GHz (according to IEC EN 61000-4-3)10 V (according to IEC/EN 61000-4-6)Class B (EN 61000-6-3)According to IEC/EN 61000-4-5, power pulses (Surge), EMC 0.5 kV, Supply cables, symmetrical, EASY…DC, power pulses (Surge), EMC1 kV, Supply cables, asymmetrical, power pulses (Surge), EMC20 ms≤ 10 ms, Bridging voltage dips 0.2 - 2.5 mm² (22 - 12 AWG), flexible with ferrule 0.2 - 4 mm² (AWG 22 - 12), solid3.5 x 0.8 mm, Terminal screw0.6 Nm, Screw terminals3.4 W (at 24 V DC)12.5 A (for 6 ms)1 W1 W24 V DC (-15 %/+ 20 % - power supply)20.4 - 28.8 V DC0 VACMounting position Shock resistance Vibration resistance Ambient operating temperature - max Ambient storage temperature - min Ambient storage temperature - max Environmental conditionsRelative humidityAir dischargeBurst impulseContact dischargeElectromagnetic fieldsImmunity to line-conducted interference Radio interference classSurge ratingVoltage dips Terminal capacityScrewdriver sizeTightening torqueHeat dissipationInrush currentPower consumptionPower lossRated operational voltage Supply voltage at AC, 50 Hz - min0 VAC20.4 VDC28.8 VDC≥ 1A (T), Fuse, Power supplyScrew terminal≤ 30 m, unscreened, Analog inputs temperature resistance Pt100 or Ni1000 sensors Input type resistance sensor: Platinum sensor Pt100 (according to DIN EN 60751, IEC 751)Input type resistance sensor: Nickel sensor Ni1000 (according to DIN 43760)40 mA4NoneBetween Analog inputs PT100 or Ni1000 and Power supply: no Between Analog inputs PT100 or Ni1000 and expansion units: yesBetween Analog inputs PT100 or Ni1000 and Inputs: noYes, for supply voltage (Siemens MPI optional)0 W 0 W 0 W 0 ASupply voltage at AC, 50 Hz - maxSupply voltage at DC - minSupply voltage at DC - maxShort-circuit protectionConnection typeCable length InputInput currentNumber of inputs (analog)Number of inputs (digital)Number of outputs (analog)Number of outputs (digital)Explosion safety category for gas Potential isolationProtection against polarity reversal Equipment heat dissipation, current-dependent PvidHeat dissipation capacity PdissHeat dissipation per pole, current-dependent PvidRated operational current for specified heat dissipation (In) Static heat dissipation, non-current-dependent PvsNone1 WMeets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Explosion safety category for dust 10.2.2 Corrosion resistance10.2.3.1 Verification of thermal stability of enclosures 10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects10.2.4 Resistance to ultra-violet (UV) radiation 10.2.5 Lifting10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assemblies 10.4 Clearances and creepage distances 10.5 Protection against electric shock10.6 Incorporation of switching devices and components 10.7 Internal electrical circuits and connections 10.8 Connections for external conductors 10.9.2 Power-frequency electric strength 10.9.3 Impulse withstand voltageEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. Tous droits réservés.Eaton is a registered trademark.All other trademarks are property of their respective owners./socialmediaIs the panel builder's responsibility.The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility.Is the panel builder's responsibility.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.DA-CE-ETN.EASY-E4-DC-4PE1DA-MN-h1430de MZ049014EN Video easy E4 control relay IL050021ZU DA-CS-dc_4pe1DA-CD-dc_4pe1TT-197224_EASY-E4-DC-4PE1-de_DE eaton-modular-plc-easy-i-o-expansion-dimensions-002.eps eaton-modular-plc-easy-i-o-expansion-3d-drawing-002.eps10.9.4 Testing of enclosures made of insulating material 10.10 Temperature rise10.11 Short-circuit rating10.12 Electromagnetic compatibility 10.13 Mechanical functioneCAD modelGuide utilisateur Installation videosInstructions d'installationmCAD model Notes de venteSchémas。
野火K60 测试说明书
野火K60核心板和调试板测试说明书欢迎使用野火 K60 核心板,现在让我们走近K60……目录野火K60核心板和调试板测试说明书 (1)1.K60 核心板资源介绍 (2)2.供电方式 (2)排针供电 (2)USB供电 (3)Jlink供电 (4)3.J-Flash下载固件 (7)4.野火鹰眼软排线转接板 (11)5.测试方案 (13)LED测试 (13)USB测试 (14)摄像头无线发送模式 (18)调试板测试模式 (20)1. K60 核心板资源介绍首先,拿到我们的野火K60核心板,先来熟悉我们的板载资源:图 1 野火核心板正面 图 2野火核心板背面2. 供电方式 排针供电野火K60核心板的排针,有专门的5V 电源输入和3.3V 电源输入管脚,两者可任意选择其中一个来进行供电。
如果是采用5V 供电,则通过板载的LDO 芯片转换为3.3V ,供控制器、无线模块、摄像头使用。
建议采用 5V 供电,板载专用的低压差线性LDO 更能保证电源的稳定。
LED 1~4 野火摄像头排线接口复位按钮NRF24L01+无线模块接口Micro USB 接口V5V 转3.3V50MHz晶振 预留给USB 转TTL 接口KEY 1 & 2 电源指示灯KEY 1 & 2 JLink 接口LED 1~43.3V 管脚 3.3V和5V 管脚供电后,此电源灯会亮图 3 核心板排针供电指示注意:不要把5V电源插入 3.3V 的排针座内!!!USB供电用micro USB 数据线(现在绝大部分的智能机都是用这类的数据线),一头接入核心板,另外一头接入电脑的USB口或者5V供电的带USB口充电器的口上。
比mini USB更加扁平的图 4 micro USB数据线图 5野火K60核心板USB 供电方式Jlink 供电野火K60 核心板使用标准的10PIN 插头,Jlink 默认不支持供电,但Jlink 虽然支持使用power on 和 power off 命令来实现供电,但仅仅适用于5V 供电,而且不适用于 10PIN 管脚。
K2000M系统PLC调试手册
选择刚度即为调整 PA55 参数。 可设置的最大刚度受传动系统的刚性限制。
参数序号
描述
缺省值
最小值
最大值
55
系统刚度
4
0
12
通常可划分为:低刚性系统 0~3 级,中刚性系统 4~6 级,高刚性系统 6 级以上。刚度值越小,系统响
应越慢,抗扰动能力越弱。刚度值越大,系统响应越快,抗扰动能力越强,刚度值过高则容易引起振动。
其它版本软件的系统的不同之处请参看“补充说明书”。
n 数控机床的机能不仅由数控系统来决定,而且是由机床、强电、驱动系统等组合一起的机能决 定的,而这组合后的机能、编程、操作的详细情况,在与机床结合后才决定。
n 在进行机床调试过程中,不能一上来就运转机床,要通过试运行来确认机床的状态;确认项目 包括:使用单程序段、进给速度倍率、机床锁住功能、没有安装工件和刀具时的空运转。如果 不能肯定机床的运转正常,会因为预想不到的运转而损坏机床。
同 Er041 故障对策。若频繁出现此故障,则表明编码 器损坏,应更换电机。
1.12. SD310 与总线系统的连接
设定值
备注
04
控制方式选择
POS
SPD 使用系统位置环,对驱动器作速度处理
70
伺服总线站地址
1
轴号 根据当前轴号设置
注:应注意各轴驱动器的轴号与站号一一对应,否则站地址冲突会导致驱动器与系统连接不上。
8毫米
10毫米
PA12
4096
16384
8192
2048
1微米
PA13
125
625
375
125
PA12
2048
8192
4096
LT602使用手册
技术文件LT602型智能电动机保护控制器使用手册(V1.0)合肥兰特电气有限公司目录第一章产品简介 (1)1.1概述1.2 产品型号及定义1.3 配套专用电流互感器1.4 电气参数1.5 电磁兼容1.6 环境条件1.7 保护功能第二章产品结构 (3)2.1产品组成2.2主控单元2.3显示单元第三章接线与应用 (4)3.1端子定义3.2 控制器面板3.3 控制器电流接线3.4 LT602T/LT602T接线与应用3.5 LT602L/LT602L接线与应用3.6 LT602C/LT602C接线与应用第四章使用与操作 (15)4.1面板说明4.2 键盘定义4.3 显示说明4.4故障代码表4.5参数设置第五章保护功能与工作原理 (21)5.1启动超时保护5.2堵转保护5.3过载保护5.4电流不平衡保护5.5缺相保护5.6接触器分断能力保护5.7过压保护5.8欠压保护第六章通讯协议 (23)6.1 PLC ModBus 兼容性6.2广泛的通讯集成6.3 ModBus基本规则6.4数据帧格式6.5通讯规约6.6出错处理附录:通讯数据与地址 (29)第一章产品简介1.1 概述LT系列智能马达保护控制器是我公司针对电动机在各种应用场合产生的故障而研发的电动机保护装置。
适用于保护交流50Hz,额定工作电压至660V的各种电机。
对电动机的短路、过载、堵转、断相/不平衡、过压/欠压、漏电等故障引起的危害予以保护。
1.2 产品型号及定义LT602C——□——□——□1.3 配套专用电流互感器对于额定电流小于100A的电机,保护控制器均采用内置电流互感器。
对于额定电流大于100A的电机,保护控制器需外配专用电流互感器,互感器须满足10倍过流要求。
1.4 漏电电流:电流范围:0-1000mA1.5 电气参数1.5.1 额定电压:AC380V、AC660V1.5.2 额定电流: 1A、5A、25A、50A、100A、 250A、500A、820A1.5.3 辅助电源:AC85V-265V,50Hz, DC85V-330V1.5.4 电源功耗:<10VA/10W1.5.5 继电器输出接点容量: AC 250V,5A1.5.6 绝缘电阻:100MΩ/500V1.5.7 介质强度(工频耐压):2kv(r.m.s),50Hz,1min(强电回路)500v(r.m.s),50Hz,1min(弱电回路)1.5.8 测量准确度:电流:±1.0%(≤120%Ie),±3.0%(120%Ie~800%Ie)电压:±1.0% 漏电电流:±2.0%1.5.9 模拟量输出(选配):量程:0-200%额定电流,输出:4-20mA(B相电流)1.6 电磁兼容1.6.1 电快速瞬变脉冲群抗扰度试验:执行标准IEC60255-22-4,等级:Ⅳ级(通信端口2kV,其它端口4kV)1.6.2 静电放电抗扰度试验:执行标准IEC60255-22-2,等级:Ⅲ级(接触放电6kv,空气放电8kv)1.6.3 浪涌(冲击) 抗扰度试验:执行标准IEC60255-5,等级:Ⅳ级(强电回路4kv,弱电回路1kv)1.6.4 射频电磁场辐射抗扰度试验:执行标准IEC60255-22-4,等级:Ⅲ级(10v/m)1.7.1 工作环境:温度:-10℃—55℃,湿度20%RH-95%RH1.7.2 储藏环境:温度:-25℃—55℃,湿度20%RH-95%RH1.7.3 安装海拔≤2000m1.8 保护功能注释:(1)“*”:欠/过压保护功能仅适用于LT602C/ LT602C。
- 1、下载文档前请自行甄别文档内容的完整性,平台不提供额外的编辑、内容补充、找答案等附加服务。
- 2、"仅部分预览"的文档,不可在线预览部分如存在完整性等问题,可反馈申请退款(可完整预览的文档不适用该条件!)。
- 3、如文档侵犯您的权益,请联系客服反馈,我们会尽快为您处理(人工客服工作时间:9:00-18:30)。
第二章引言2.1概述本章概述了Kinetis系列以及其中的K60系列,还对设备所涵盖的模块进行了概括描述。
2.2K60系列引言K60微控制器系列具有以下性能:IEEE1588以太网,全速和高速USB 2.0On-The-Go带设备充电探测,硬件加密和防窜改探测能力。
丰富的模拟、通信、定时和控制外设从100LQFP 封装256KB闪存开始可扩展到256MAPBGA1MB闪存。
大闪存的K60系列器件还可提供可选的单精度浮点单元、NAND闪存控制器和DRAM控制器2.3功能模块分类器件按照功能分为不同的模块,下面的章节对每个功能模块有着更详细的描述。
表格2-1功能模块分类模块描述ARM Crotex-M4内核32位ARM Crotex-M内核,具有DSP指令和单精度浮点运算单元,1.25DMIPS/MHz,基于ARMv7结构,在某些系列中还包括16KB的数据/指令高速缓冲。
系统模块系统集成控制模块电源管理和模式控制多种电源模式可供选择:运行、等待、停止和掉电模式低漏电流唤醒单元杂项控制单元交叉开关内存保护单元内部总线直接内存访问(DMA)控制器与复用器,增加可用的DMA请求外部看门狗存储内部存储器包括程序存储器FlexNVMFlexRAM可编程FLASH编程加速内存SRAMCache外部存储和设备控制总线接口:FlexBus串行可编程接口:EzPortNAND flash控制器时钟可选的多个时钟源:包括内部时钟和外部时钟为系统提供系统时钟的振荡器为实时时钟提供时钟源的振荡器加密CRC模块硬件加密和随机数发生器模拟集成可编程放大增益的高速AD转换器模拟比较器DA转换器内部参考电压定时器可编程延时模块柔性定时器周期性中断定时器低功耗定时器载波调制定时器实时时钟通信以太网MAC控制器支持IEEE1588协议USB OTG内嵌全速/低速PHYUSB支持设备充电检测功能USB自带电压调节功能高速USB控制器ULPI接口CANSPII2CUARTSD主机控制器I2S人机界面GPIO硬件电容触摸屏接口2.3.1Crotex-M4内核模块器件内包含以下核心模块表格2-2核心模块2.3.2系统模块器件内包含以下系统模块表2-2系统模块模块描述系统集成控制模块(SIM)系统集成控制模块实现部分模块的一些基本的配置功能系统控制模块(SMC)系统控制模块控制和保护系统在各个电源模式的切换,控制电源管理模块(PMC),在电源切换时复位整个系统。
电源管理模块(PMC)电源管理单元提供多种电源模式。
不同的电源模式可以为使用者提供最佳的功耗模式。
包括上电复位,可编程阀值的掉电检测。
低漏唤醒单元(LLWU)低漏唤醒单元支持多种内部/外部唤醒模式杂项控制模块(MCM)设置嵌入式跟踪调试单元。
交叉开关(XBS)交叉开关连接着主机总线和外围器件总线,他能实现总线上所有的主机访问任意的从机,在不同的主机访问相同的从机时提供优先级仲裁。
内存保护单元(MPU)提供内存保护和任务隔离功能,并监视总线上主机和从机的通信。
外围设备总线根据交叉开关的配置,位大部分外围器件的存取提供接口。
DMA复用器(DMAMUX)DMA复用器在众多的DMA请求中,挑选出16个传递给DMA控制器内存直接读取控制器(DMA)外部看门狗监视器(EWM)软件看门狗(WDOG)2.3.3存储和存储接口器件包含以下的存储器和存储接口表格2-4存储和存储接口模块描述闪存(Flash Memory)程序存储区,可执行代码的非易失存储器FlexMemory:包含以下类型的存储器FlexNVM:非易失存储器,可是存放可执行代码,数据或者是模拟EEPROMFlexRAM:随机读取寄存器,可以用作传统的RAM,也可用作高耐写的EEPROM或者是加速闪存编程。
编程闪存:编程加速RAM,用于加速Flash编程。
管理片上和外围的存储模块的接口闪存控制器(Flash memory controller)随机动态存储器(SRAM)内部的RAM,一部分RAM在低漏模式下仍能保持供电。
管理核心和外设存取系统RAM。
随机动态存储器控制器(SRAM controller)系统寄存器块32位的寄存器,在VDD供电的所有电源模式下都可以访问。
VBAT寄存器块32位的寄存器,在VBAT供电的所有电源模式下都可以访问。
可编程串行接口(EzPort)和业界标准的SPI闪存使用相同的的串行接口,命令集为其子集。
能够读、擦除和编程闪存闪存编程后用复位命令重启系统FlexBus六个独立的、可由用户设置的片选信号,可以与外部SRAM、PROM、EPROM、EEPROM、闪存和其他外设无缝接口8位、16位和32位数据总线宽度,提供复用或非复用的地址和数据总线的配置2.3.4时钟器件包含以下的时钟模块表2-5时钟模块2.3.5安全和完整性模块器件包含以下的安全和完整新模块表2-6安全和完整性模块模块描述加密加速单元(CAU)支持DES、3DES、AES、MD5、SHA-1和SHA-256算法简单的C调用飞思卡尔优化后的加密函数随机数生成器(RNG)支持数字签名标准中定义的密钥生成算法(参考:/fipspubs/fip186.htm)集成的熵源能够为RNGB提供熵,以获取种子冗余循环校验(CRC)•采用16位或32位移位寄存器的CRC发生器电路•16/32位CRC用户可配置•可编程的生成器多项式•误码检测功能可以检测所有单、双、奇误码及大多数多位误码•可编程的初始种子值•高速CRC计算•通过转置寄存器转置输入数据和CRC结果,此为可选特性,用于某些字节是lsb格式的应用2.3.6模拟外设器件包含以下的模拟模块表2-7模拟模块模块描述16位具有可编程增益功能的ADC16位的逐次逼近型ADC,具有可编程增益功模拟比较器全电压范围内比较两个模拟输入信号6位的DAC64抽头的梯形电阻网络,向需要电压基准的应用提供基准12位的DAC低电压通用型DAC,可以输出到外部引脚,也作为一个模拟比较或者是ADC的输入。
电压参考(VREF)可配置的修正寄存器,以0.5mV为单位递增,在复位后自动加载室内温度值。
可以用于医疗,比如说血糖仪。
为模拟外设或者是电压传感器提供参考电压。
如ADC,DAC,CMP.2.3.7定时器外设器件包含以下的定时器模块表2-8定时器模块模块描述可编程延迟模块(PDB)•16位分辨率•3位预分频•上升沿信号触发计数器•支持两个触发信号,每一个都可以独立的延迟•输出可以将同一个输入的两次转换或在一起,或者是输出一个精确地脉冲输出。
这些特性可以用于产生一个控制信号,来控制模拟比较器,或者是输出到外部引脚,如果某些应用需要。
比如是功率因数校正。
•连续或者单次输出,每一个通道都可以独立使能或者触发。
•可选旁路预触发•支持DMAFlex定时器(FTM)•FTM源时钟可选择•可设置的预分频器•16位计数器器支持自由运行或初始/最终值,并且可向上或上/下计数•输入捕捉、输出比较、边缘对齐和中央对齐PWM模式•输入捕捉和输出比较模式•FTM通道可以成对工作、采用相同的输出或者采用一主一辅输出或采用两个单独的通道(具有独立的输出)•死区插入可以提供给每个互补对•生成硬件触发•软件控制PWM输出•全局错误控制最多允许4个错误输入•配置通道极性•对输入捕捉、基准比较、溢出的计数器或检测到的故障情况设置中断•带输入过滤器的正交解码器,相对位置计算,在位置计数或者捕获外部事件的位置计数中断•FTM事件支持DMA•全局时基模式在FTM实例中共享单时基周期中断定时器(PIT)•最多四个通用中断定时器•最多四个用于触发ADC转换的中断定时器•32位计数器分辨率•同步系统时钟频率•支持DMA低功耗定时器(LPT)•预分频器/毛刺过滤器的时钟可选•1kHz内部LPO•32.768kHz外部晶振•内部参考时钟(在低漏模式不可用)•带15位计数器的可配置的毛刺过滤器或预分频器•带比较的16位时间或者脉冲累加器•在定时器比较时产生的中断•在定时器比较时产生硬件触发(在低漏模式不可用)载波调制定时器(CMT)•4种运行模式•时间模式,独立控制高电平和低电平时间•基带•频移键控(FSK)•直接通过软件控制IRO引脚•在时间、基带和FSK模式下扩展空间操作•可选择的输入时钟分频•在循环结束时中断•能够关闭CMT_IRO信号并用于定时器中断实时时钟(RTC)•独立的电源,POR和32kHz晶振•32位秒计数器和32位告警•当检测到防窜改检测时能被置为无效•16位预分频器带补偿能够更正0.12ppm到3906ppm之间的错误IEEE1588定时器为IEEE1588提供硬件时间戳2.3.8通信接口器件包含以下的通信接口表2-9通信模块IIC 总线与I2C 总线标准和SM 总线规范版本2特性兼容UART 可编程的8位或9位数据格式支持使用ISO 7816协议与智能卡交互SDHC设计用于CE-ATA 、SD 存储器、miniSD 存储器、SDIO、miniSDIO、SD Combo 、MMC、MMCplus 和RS-MMC 卡IIS为支持音频,独立(异步)或者共享(同步)发送和接收段,带分离的或者共享的内部/外部时钟和帧同步,运行于主或从模式2.3.9人机界面接口器件包含以下的人机界面接口2-10人机界面接口2.4订购信息下表列举了本文档中所包含的所有器件的型号表2-11订购器件型号总结型号CPU频率MHz引脚数封装闪存容量KB 程序闪存KBEEPROM KB SRAM KBGPIOMK60DN256ZVLQ10100144LQFP 256256—64100MK60DX256ZVLQ10100144LQFP 512256464100MK60DN512ZVLQ10100144LQFP 512512—128100MK60DN256ZVMD10100144MAPBGA 256256—64100MK60DX256ZVMD10100144MAPBGA 512256464100MK60DN512ZVMD10100144MAPBGA512512—128100作者:默_li源文件名称:K60P144M100SF2RM.pdf源文件版本:K60Sub-Family Reference Manual,Rev.6,Nov2011目标文件版本:0.1最后编辑日期:2012.04.22.16.51修改说明:初稿,本人水平有限,红色部分是在是没能直接翻译出来有问题可以Email:soonli@敬告:本文档可随意复制传播,修改其中内容请通知作者!未经作者允许,不准将本文档的部分或者全部内容用于任何商业有关的用途!英文原版版权归飞思卡尔所有,本文本作者保留所有权利。