36MT160 ASEMI品牌原装三相整流方桥
可控硅整流管MFC300A1600V
125
0.2 V
Rth(j-c) 热阻抗(结至壳) 180°正弦半波,单面散热
0.10 0
℃/W
Rth(c-h) 热阻抗(结至散) 180°正弦半波,单面散热
0.04 ℃/W
Viso 绝缘电压
50HZ , R.M.S , t=1min 2500
Iiso:1Ma(max)
V
安装扭矩(M5)
Fm
安装扭矩(M6)
I2t VTO RT VTM dv/dt
di/dt
IGT VGT
参数
通态平均电流
方均根电流
断态重复峰值电压 反向重复峰值电压
断态重复峰值电流 反向重复峰值电流 通态不重复浪涌电 流 浪涌电流平均时间 积 门槛电压 斜率电阻 通态峰值电压 断态电压临界上升 率
通态电流临界上升 率
门极触发电流 门极触发电压
2S V mΩ V V/μs
A/μs
mA V
杭州拓直电气有限公司 Hangzhou Tuozhi Electric Co., Ltd
可控硅整流管混合模块 thyristor and rectifier module
MFC300
IH
维持电流
20
100 mA
VGD 门极不触发电压
VDM=67%VDRM
测试条件
180°正弦半波,50HZ 单面 散热,Tc=85℃
VDRM&VRRM tp=10ms VDsM&VRsM= VDRM&VRRM+200V VDM= VDRM VRM= VRRM 10ms 底宽,正弦半波
VR=0.6 VRRM
ITM=900A VDM=67%VDRM ITM=900A 门极触发电流幅 值 IGM=1.5A,门极电流上 升时间 tr≤0.5μs
普通晶闸管 可控硅模块 MTC200A1600V
Gate Trigger Zone at varies temperature 90$
-30°C -10°C 25°C 125°C
䮼ᵕ⬉य़,VGTˈ V
2.5 2 1.5 1 0.5 0 0 50
100
150
200
250
䮼ᵕ⬉⌕ ,IGT ˈmA
Fig.9 䮼ᵕࡳ⥛᳆㒓
Fig.10 䮼ᵕ㾺থ⡍ᗻ᳆㒓
MTC200A
特点
1). 芯片与底板电气绝缘,2500V交流电压 2). 全压接结构,优良的温度特性和功率循环能力 3). 体积小,重量轻
典型应用
1). 交直流电机控制 2). 各种整流电源 3). 变频器
IT(AV) VDRM/VRRM ITSM I2t
200A 600~1800V 7.2 A×103 259 A2S*103
外形尺寸图
214F3
216F3
401F
乐清市柳晶整流器有限公司(编)
普通晶闸管、可控硅模块
3/3
主要参数
符号 IT(AV) IT(RMS) VDRM VRRM IDRM IRRM ITSM It VTO rT VTM dv/dt di/dt IGT VGT IH VGD Rth(j-c) Rth(c-h) Viso Fm Tstg Wt Size
2
参数 通态平均电流 方均根电流 断态重复峰值电压 反向重复峰值电压 断态重复峰值电流 反向重复峰值电流 通态不重复浪涌电流 浪涌电流平方时间积 门槛电压 斜率电阻 通态峰值电压 断态电压临界上升率 通态电流临界上升率 门极触发电流 门极触发电压 维持电流 门极不触发电压 热阻抗(结至壳) 热阻抗(壳至散) 绝缘电压 安装扭矩(M8) 安装扭矩(M6) 贮存温度 质量 包装盒尺寸
亚特诺新一代三相应用接触器产品介绍说明书
Motor control and protectionICON familyStart easily Protect preciselyIntroducing Eaton’s new contactor range for AC-3 applications to 170A. Perfectly suited for applications in the commercial and industrial segments for panel builders and machinery OEMs.The contactor has a smaller footprint than the existing xStart series and offers application adjusted ratings.Icon Contactors SeriesCoil voltages available are 24V50/60HZ, 110V50/60HZ, 230V50/60HZ, 400V50/60HZ, DC24V .Basic devices Rated operational current Max. motor rating for three-phase motors 50 - 60 Hz Conventional thermal current I th = I e AC-1at 40°C A Open Contact AC-3AC-3AC-4380 V 400 V I e220 V 230 V P 380 V 400 V P 660 V 690 V P 220 V 230 V P 380 V 400 V P 660 V 690 V P N/O = Normallyopened contact N/C = Normally 4 pole, 3 poleConnection type: Screw terminals9 2.5 4 4.5 1.5 2.5 3.6 20 – 1 N/C 12 3.5 5.5 6.5 2 3 4.4 20 1 N/O –12 3.5 5.5 6.5 2 3 4.4 20 – 1 N/C 15 4 7.5 7 2 3 4.4 20 1 N/O –154 7.5 7 2 3 4.4 20 – 1 N/C 3 poleConnection type: Screw terminals1857.511 2.5 4.56.5 401 N/O–18 5 7.511 2.5 4.5 6.5 40 – 1 N/C 257.51114 3.5 68.5 401 N/O–25 7.5 1114 3.5 6 8.5 40 – 1 N/C 32101515 4 710 451 N/O–32 10 1515 4 710 45 – 1 N/C 381118.515 4 710 451 N/O–3811 18.5 15 4 710 45 – 1 N/C 3 poleConnection type: Screw terminals40 12.5 18.523 5 912 60 1 N/O 1 N/C 50 15.5 2230 6 1014 80 1 N/O 1 N/C 65 20 3035 7 1217 98 1 N/O 1 N/C 7222 3735 7 1217 98 1 N/O 1 N/C 3 poleConnection type: Screw terminals80 25 3737112015110 1 N/O 1 N/C 95304545 1120151301 N/O1 N/C3 poleConnection type: Screw terminals115 37 5590 17 2843 160 ––150 48 75 96 20 3348 190 ––1705290140 20 3348 203––CMN00027DILM9-01N CMN00038DILM12-10N CMN00049DILM12-01N CMN00060DILM15-10N CMN00071DILM15-01N CMN00082DILM18-10N DILM18-01N CMN00104DILM25-10N DILM25-01N(CMN00126DILM32-10N DILM32-01N CMN00148DILM38-10N DILM38-01N CMN00170DILM40-11N DILM50-11N DILM65-11N DILM72-11N DILM80-11N DILM95-11N DILM115N DILM150N DILM170N (...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)(...)• Phase failure sensitivity and temperature compensation • Reset pushbutton manual/auto • Test/off pushbutton• Auxiliary contact (1 N/O + 1 NC)•Fitted directly on the contactor of the maximum current to 175AIcon Overload relays ZB..N series0.1 – 0.16CMN00333CMN00335ZB12N-1,6CMN00336ZB12N-2,4CMN00337ZB12N-4CMN00338ZB12N-6CMN00339ZB12N-10CMN00340ZB12N-12CMN00341ZB12N-161 – 1.5CMN00352ZB32N-24CMN00353ZB32N-30CMN00354ZB32N-36CMN00355ZB32N-38CMN00356Setting range of overload releasesCircuit symbolAuxiliary contactFor use withI r AN/O = normally open contact N/C = normally closed contact0.4 – 0.6 1 N/O 1 N/C 0.6 – 1 1 N/O 1 N/C 1 – 1.6 1 N/O 1 N/C 1.6 – 2.4 1 N/O 1 N/C 2.4 – 4 1 N/O 1 N/C 4 – 6 1 N/O 1 N/C 6 – 10 1 N/O 1 N/C 9 – 12 1 N/O 1 N/C 12 –161 N/O1 N/C 17 – 24 1 N/O 1 N/C 22 – 30 1 N/O 1 N/C 29 – 36 1 N/O 1 N/C 33 – 381 N/O1 N/COverload relaysIcon Overloads ZB…N seriesSetting range of overload releasesCircuit symbolAuxiliary contactFor use withI r AN/O = normally open contact N/C = normally closed contact63 – 80 1 N/O 1 N/C 77 – 971 N/O1 N/C50 – 70 1 N/O 1 N/C 70 – 100 1 N/O 1 N/C 95 – 125 1 N/O 1 N/C 120 – 150 1 N/O 1 N/C 145 – 1751 N/O1 N/COverload relays Part no.Article no.– 25CMN00363– 50– 35– 25 – 50ZB95N-50 – 35ZB150N-35Icon Contactor Relays DILA…N seriesWiring method: Screw terminals Basic devices with interlocked opposing contacts ContactRated operational current AC – 15Conventional thermal current at 55°CN/O = Normally opened contact N/C = Normally closed contact220 V 230 V 240 V I e A380 V 400 V 415 V I e AI th A4 N/O – 4 416 3 N/O 1 N/C 4 4 16 2 N/O 2 N/C 4 4 16 1 N/O 3 N/C 4416–4 N/C4416DILA-40N DILA-31N DILA-22N DILA-13N DILA-04N(Coil voltages available are 24V50/60HZ, 110V50/60HZ, 230V50/60HZ, 400V50/60HZ, DC24V .• Varied 4-pole contact configurations • Conventional thermal current (Ith): 16A• Identical construction sizes for AC- and DC-operated contactor relays •Integrated surge suppressors for DC-operated contactor relaysA complete range of accessories are available for the Icon series, such as:• Auxiliary contacts (top mount)• Auxiliary contacts (side mount)• RC Suppressors• Varistor Suppressors• Pneumatic timer modules • Mechanical Interlocks • Sealable Shrouds•External Reset Button(...)(...)(...)(...)(...)E a t o n10 Kent RoadMascot NSW 2020Tel: 1300 332 866Fax: (02) 9693 1258Email: ************************ Eaton is a registered trademarkof Eaton Corporation.All trademarks are property of their respective owners.For more information about Eaton visit: Eaton’s mission is to improve the quality of life and the environment through the use of power management technologies and services. We provide sustainable solutions that help our customers effectively manage electrical, hydraulic, and mechanical power – more safely, more effi ciently, and more reliably. Eaton’s 2019 revenues were $21.4 billion, and we sell products to customers in more than 175 countries. We have approximately 95,000 employees.For more information about Eaton visit: 。
SOCAY瞬态电压抑制二极管SMAJ160A型号详解
SOCAY瞬态电压抑制二极管SMAJ160A型号详解
硕凯电子(Sylvia)
一、产品图
1、为表面安装应用优化电路板空间
2、低泄漏
3、单向单元
4、玻璃钝化结
5、低电感
6、优良的钳位能力
7、400W的峰值功率能力在10×1000μ波形重复率(占空比):0.01%
8、快速响应时间:从0伏特到最小击穿电压通常小于1.0ps
9、典型的,在电压高于12V时,反向漏电流小于5μA
10、高温焊接:终端260°C/40秒
11、典型的最大温度系数△Vbr=0.1%x Vbr@25°C x△T
12、塑料包装有保险商实验室可燃性94V-0
13、无铅镀雾锡
14、无卤化,符合RoHS
15、典型失效模式是在指定的电压或电流下出现
16、晶须测试是基于JEDEC JESD201A每个表4a及4c进行的
17、IEC-61000-4-2ESD15kV(空气),8kV(接触)
18、数据线的ESD保护符合IEC61000-4-2(IEC801-2)
19、数据线的EFT保护符合IEC61000-4-4(IEC801-4)
三、应用范围
TVS器件非常适合保护I/O接口,Vcc总线和其他应用于电信、计算机、工业和消费电子应用的易损电路。
五、UL认证编号
六、特性曲线
七、产品尺寸
八、命名方式
八、型号标识。
英飞凌IGBT模块型号参数汇总表
FS6R06VE3_B2 FS10R06XL4 FS10R06VE3 FS10R06VE3_B2 FS10R06VL4_B2 FS15R06XE3 FS15R06XL4 FS15R06VE3 FS15R06VE3_B2 FS15R06VL4_B2 FS20R06W1E3
6A,600V@Tc=80℃,IGBT3,饱和压降1.45V 10A,600V@Tc=80℃,IGBT2 Low Loss,饱和 压降1.95V 10A,600V@Tc=80℃,IGBT3,饱和压降1.55V 10A,600V@Tc=80℃,IGBT3,饱和压降1.55V 10A,600V@Tc=80℃,IGBT2 Low Loss,饱和 压降1.95V 15A,600V@Tc=80℃,IGBT3,饱和压降1.55V 15A,600V@Tc=80℃,IGBT2 Low Loss,饱和 压降1.95V 15A,600V@Tc=80℃,IGBT3,饱和压降1.55V 15A,600V@Tc=80℃,IGBT3,饱和压降1.55V 15A,600V@Tc=80℃,IGBT2 Low Loss,饱和 压降1.95V
EasyPACK 750 EasyPACK 1B EasyPACK 750 EasyPACK 750 EasyPACK 750 EasyPACK 1B EasyPACK 1B EasyPACK 750 EasyPACK 750 EasyPACK 750
20A,600V@Tc=100℃,IGBT3,饱和压降1.55V EasyPACK 1B
20A,600V,@Tc=80℃,IGBT3,饱和压降1.55V EasyPACK 750 20A,600V@Tc=80℃,IGBT3,饱和压降1.55V 20A,600V@Tc=80℃,IGBT3,饱和压降1.55V EasyPACK 750 EasyPACK 750 EconoPACK 2B
36MT160三相整流桥 ASEMI参数说明
36MT160 ASEMI品牌台湾原装三相整流方桥
型号:36MT160
品牌:ASEMI
封装:D-63
特性:三相整流方桥
★电性参数:36A1600V
★芯片材质:GPP
★正向电流(Io):36A
★芯片个数:5
★正向电压(VF):1.05V
★芯片尺寸:180
★浪涌电流Ifsm:500A
★是否进口:是
★漏电流(Ir):500uA
★工作温度:-55℃~+150℃
★恢复时间(Trr):500ns
★引线数量:5
★编辑人:李绚
ASEMI品牌36MT160三相整流方桥桥参数规格:电流:36A;电压:1600V;盒装:20PCS/盒。
应用于工业中大部分的三
相交流用电设备,马达,电焊机,发电机,变频器,通用电磁炉,工业电源控制柜,数控车床,通讯等大型机电设备。
本产品原装质量保证高稳定性和可靠性。
欢迎咨询取样测试。
电厂主厂房MCC柜系统电气cad原理图
普通晶闸管 可控硅模块 MTC90A1600V
Fig.5 ᳔ࡳ㗫Ϣᑇഛ⬉⌕݇㋏᳆㒓
Fig.6 ㅵ⏽ᑺϢ䗮ᗕᑇഛ⬉⌕݇㋏᳆㒓
Surge Current 2.0 Vs.Cycles ⬉⌕ᑇᮍᯊ䯈鳥I2t,103A 2S 䗮ᗕ⌾⍠⬉⌕ITSM,KA ਼⊶᭄ n,@ 50Hz
2 I t 20 Vs.Time 25
2
21
17
13
9
5
1 10
ᯊ䯈t,ms
Fig.7 䗮ᗕ⌾⍠⬉⌕Ϣ਼⊶᭄ⱘ݇㋏᳆㒓
Fig.8 I2t⡍ᗻ᳆㒓
普通晶闸管、可控硅模块
2/3
MTC90A
Gate characteristic at 25e C junction temperature 䮼ᵕ⬉य़,VGT ˈ V 䮼ᵕ⬉⌕ ,IGTˈ A 3*: PLQ PD[ 䮼ᵕ㾺থ⬉य़,VGTˈ V 3*0 : V㛝ᆑ 䮼ᵕ㾺থ⬉⌕ ,IGTˈ mA
普通晶闸管、可控硅模块
3/3
#$ t,S
Fig.1䗮ᗕӣᅝ⡍ᗻ᳆㒓
07& Max. Power Dissipation Vs.Mean On-state Current ㅵ⏽ᑺTc(max),e C
Fig.2 㒧㟇ㅵⶀᗕ⛁䰏ᡫ᳆㒓
Max. case Temperature07& Vs.Mean On-state Current
主要参数
符号 IT(AV) IT(RMS) VDRM VRRM IDRM IRRM ITSM It VTO rT VTM dv/dt di/dt IGT VGT IH VGD Rth(j-c) Rth(c-h) Viso Fm Tstg Wt Size
电磁干扰滤波器组件页面 - CORCOM, DIV OF TYCO ELECTRONICS CORP
FOKY2.E48570Electromagnetic Interference Filters - Component Page BottomElectromagnetic Interference Filters - ComponentSee General Information for Electromagnetic Interference Filters - ComponentCORCOM, DIV OF TYCO ELECTRONICS CORP E48570620 S BUTTERFIELD RDMUNDELEIN, IL 60060-9457 USAAppliance filters, Model(s) 100BCF6, 130BCF6, 15ED1, 15ED8, 16BCF6, 180BCF6, 30BCF6, 42BCF6, 55BCF6, 75BCF6, 7BCF6Electromagnetic interference appliance filters, Model(s) 100BCF10, 10CUFE1, 10CUFF1, 10CUFS1, 10EHZ1, 10EMC1, 10EMC3, 10EMC6,10ERK1, 10ESB1, 10ESB3, 10ESB6, 10VRK1, 10VSB1, 10VSB3, 10VSB6, 130BCF10, 15CUFE1, 15CUFF1, 15CUFS1, 15EHZ1, 15EMC1, 15EMC3, 15EMC6, 15ERK1, 15VRK1, 16BCF10, 16EHQ1, 16EQ1, 180BCF10, 1CUFE1, 1CUFF1, 1CUFS1, 20EHQ1, 20EHQ6, 20EHQ7, 20EHZ1, 20EHZ6,20EHZ7, 20EMC1, 20EMC3, 20EMC6, 20EQ1, 20ERK1, 20ESB1, 20ESB6, 20VQ1, 20VRK1, 20VSB1, 20VSB6, 2FB3, 30BCF10, 30EHZ6, 30EMC1, 30EMC3, 30EMC6, 30VSB1, 30VSB6, 3CUFE1, 3CUFF1, 3CUFS1, 3EHQ1, 3EHQ3, 3EHQ7M, 3EHQ8, 3EHQ8M, 3EMC1, 3EMC3, 3EMC6, 3EQ1,3EQ3, 3EQ7M, 3EQ8, 3EQ8M, 3ERK1, 3ERK3, 3FB3, 3FB3-MS, 3VQ1, 3VQ3, 3VQ8, 3VQ8M, 3VRK1, 3VRK3, 42BCF10, 4EHZ1, 55BCF10, 5FB3,60DB8, 60DBF8, 60DBJ8, 60DBX8, 6CUES1, 6CUFE1, 6CUFF1, 6EHQ1, 6EHQ3, 6EHQ8, 6EHQ8M, 6EHZ1, 6EMC1, 6EMC3, 6EMC6, 6EQ1, 6EQ3,6EQ8, 6EQ8M, 6ERK1, 6ERK3, 6ESB1, 6ESB3, 6VRK1, 6VRK3, 6VSB1, 6VSB3, 75BCF10, 7BCF10, A3B00-30, A3C00-30, F3071C, F3071E, F3186, F3265, F3978C, F4077, F4325, F4325A, F4340, F4341, F4342, F4382, F4499, F4507, F4525, F4607, F4612, F4654, F4655, F4659, F4663, F4666, F7247B, F7247X, F7247Y, F7262A, F7268A, F7328C, F7776A, HFB3Electromagnetic interference facility filters, Model(s) F6478C, F6478D, F6497A, TECUL225A6, TECUL225B6, TECUL300A6, TECUL300B6, TECUL400A6, TECUL400B6Electromagnetic Interference Filter, Model(s) 1, 3, 6, 10 or 15 followed by EJT followed by 1F or 8F.1, 3, 6, 10, 15 or 20 followed by EJT followed by 1 or 8.12FCD10, 16FCD10, 25FCD10, 36FCD10, 3VAQ3, 3VAQ8F, 3VAQ8FS, 50FCD10, 6EUP and 6EU1, 6FCD10, 6VAQ3, 6VAQ8F, 6VAQ8FS, CDEUA (a), CDEUL (a), CDEUW (a), CDEUX (a), CDEUX060A4-1, F3804A, F3804D, F7751A, F7753AElectromagnetic interference filters, Model(s) 1, 2, 3, 6 or 10, followed by EDK or VDK, followed by 1 or 31, 3, 6 or 10, followed by EAH or EBH, followed by 1, 2 or P.1, 3, 6 or 10, followed by EEA or EEB, followed by 1, 2 or P.1, 3, 6, 10 or 15, followed by EAS or EBS, followed by 1 or 8.1, 3, 6, 10 or 15, followed by EBF, followed by 1 or 4.100 or 125, followed by DC, followed by F or B, followed by 6 or 10, may be followed by B and/or F.10CFE1, 10CFS1, 10CHE1, 10CHS1, 10CKFE1, 10CKFS1, 10CKHE1, 10CKHS1, 10EDP, 10EEJ1, 10EEJ2, 10EEJ8, 10EEJP, 10EG1, 10EGG1-1,10EGG1-2, 10EGG8-1, 10EGG8-2, 10EGS1-1, 10EGS1-2, 10EGS8-1, 10EGS8-2, 10EHG1-2, 10EHG8-2, 10EHGS1-1, 10EHGS1-2, 10EJH1,10EJH2, 10EJH8, 10EJHP, 10EJHS1, 10EJHS8, 10EJM1, 10EJM2, 10EJM8, 10EJMP, 10EJMS1, 10EJMS8, 10EJS1, 10EJS8, 10EJT1, 10EJT8, 10EOP, 10VG1, 10VN1, 110AYC10B, 12EJMS1, 150AYC10B, 150AYC10B-95, 15EEJ1, 15EEJ2, 15EEJ8, 15EEJP, 15EJH1, 15EJH2, 15EJH8, 15EJHP,15EJHS1, 15EJHS8, 15EJM1, 15EJM2, 15EJM8, 15EJMP, 15EJMS8, 15EJS1, 15EJS8, 15EJT1, 15EJT815SRB, followed by 1, 2, 8, P, S1 or S8, may or may not be followed by Q, R, S, T, W, X, Y or Z.16AYA6, 16AYA6A, 16AYC10BElectromagnetic Interference Filters, Model(s) 16WGA1, 16WGB1, 16WGC1, 16WGD1, 16WGE1, 16WGF1, 16WGA3, 16WGB3, 16WGC3,16WGD3, 16WGE3, 16WGF3, 16WGA7, 16WGB7, 16WGC7, 16WGD7, 16WGE7, 16WGF7, 16WGA8, 16WGB8, 16WGC8, 16WGD8, 16WGE8 and16WGF8Electromagnetic interference filters, Model(s) 180AYC10B, 1CFE1, 1CFS1, 1CHE1, 1CHS1, 1CKFE1, 1CKFS1, 1CKHE1, 1CKHS1, 1EDK1,1EDK3, 1EDP, 1EEJ1, 1EEJ2, 1EEJ8, 1EEJP, 1EGG1-1, 1EGG1-2, 1EGG1C-1, 1EGG1C-2, 1EGG8-1, 1EGG8-2, 1EGG8C-1, 1EGG8C-2, 1EGS1-1,1EGS1-2, 1EGS8-1, 1EGS8-2, 1EHG1-2, 1EHG8-2, 1EHGS1-2, 1EJH1, 1EJH2, 1EJH8, 1EJHP, 1EJHS1, 1EJHS8, 1EJM1, 1EJM2, 1EJM8, 1EJMP,1EJMS1, 1EJMS8, 1EJS1, 1EJS8, 1EJT1, 1EJT8, 1EOP, 1VDK1, 1VDK3, 20AYP6C, 20AYT6C, 20EDK1, 20EEJ1, 20EEJ8, 20EJH1, 20EJH8, 20EJHS1, 20EJHS8, 20EJM1, 20EJMS1, 20EJMS8, 20EJS1, 20EJS8, 20EJT820SRB, followed by 1, 8, S1 or S8, followed by W, X or Y.20VDK1, 20VDK6, 25AYA6, 25AYA6A, 25AYC10B, 2VK1L3, 6, 10 or 15, followed by DAF or DAS, followed by 1, 8 or P.30AYP6C, 30AYT6C, 36AYA6, 36AYA6A, 36AYC10B, 3CFE1, 3CFS1, 3CHE1, 3CHS1, 3CKFE1, 3CKFS1, 3CKHE1, 3CKHS1, 3EDP, 3EEJ1, 3EEJ2,3EEJ8, 3EEJP, 3EGG1-1, 3EGG1-2, 3EGG1C-1, 3EGG1C-2, 3EGG8-1, 3EGG8-2, 3EGG8C-1, 3EGG8C-2, 3EGS1-1, 3EGS1-2, 3EGS8-1, 3EGS8-2,3EHG1-2, 3EHG8-2, 3EHGS1-2, 3EHZ1, 3EJH1, 3EJH2, 3EJH8, 3EJHP, 3EJHS1, 3EJHS8, 3EJM1, 3EJM2, 3EJM8, 3EJMP, 3EJMS1, 3EJMS8, 3EJS1, 3EJS8, 3EJT1, 3EJT8, 3EOP, 3EX1, 3EZ1, 3VK1L, 45AYP6C, 45AYT6C, 50AYA6, 50AYA6A, 5EFL2S, 5VK1L, 60AYP6C, 60AYT6CElectromagnetic Interference Filters, Model(s) 63ADT6, 63ADT6S, 100ADT6, 100ADT6S, 160ADT6, 200ADT6 and F6229C.Electromagnetic interference filters, Model(s) 63AYC10B, 6CFE1, 6CFS1, 6CHE1, 6CHS1, 6CKFE1, 6CKFS1, 6CKHE1, 6CKHS1, 6EDP, 6EEJ1, 6EEJ2, 6EEJ8, 6EEJP, 6EG1, 6EGG1-1, 6EGG1-2, 6EGG1C-1, 6EGG1C-2, 6EGG8-1, 6EGG8-2, 6EGG8C-1, 6EGG8C-2, 6EGS1-1, 6EGS1-2,6EGS8-1, 6EGS8-2, 6EHG1-2, 6EHG8-2, 6EHGS1-2, 6EJH1, 6EJH2, 6EJH8, 6EJHP, 6EJHS1, 6EJHS8, 6EJM1, 6EJM2, 6EJM8, 6EJMP, 6EJMS1,6EJMS8, 6EJS1, 6EJS8, 6EJT1, 6EJT8, 6EOP6FC10, 12FC10, 16FC10, 25FC10, 36FC10, 50FC106VG1, 6VN1, 80AYC10B, C1066A, C1069, C1195, C1195A, C1201A, C5691, C5691A, C7019A, C7049, F3433, F3613, F3613A, F3779, F3786,F4092, F4093, F4093A, F4136B, F4169B, F4217A, F4217B, F4259, F4290, F4298, F4402, F4481, F4564, F4649, F5396B, F7328A, F7381C,F7382M, F7382P, F7386C, F7387C, F7387D, F7388C, F7405B, F7531M, F7532A, F7655A, F7702D, F7892F, F7897A, F8017E, F8026A, F8030A,F8032A, F8137A, F8138A, F8143A, F8225AP, followed by five characters, followed by D, followed by 3, 6 or X, followed by D.P, followed by five characters, followed by H or S, followed by 3, followed by A, B, 0 or S.P, followed by five characters, followed by H, L, S or Z, followed by 6 or X, followed by A, B, C, 0 or S, may be followed by W.P, followed by five characters, followed by M3E, M6E or MXE.Facility filters, Model(s) CDSUA1030-C, CDSUA1060-C, CDSUA1100 C, CDSUA2030 CRadio frequency interference filters, Model(s) 10AY01, 10EB1, 10EB3, 10EBFX, 10EC1, 10EC8, 10ED1, 10ED1C, 10ED4, 10ED4C, 10ED8,10ED8C, 10EF1F, 10EF1FC, 10EF4, 10EF4C, 10EF8, 10EF8C, 10EH1, 10EH3, 10EH4, 10EH4C, 10EHT1, 10EHT3, 10EK1, 10EK3, 10EK7, 10EK7M, 10EP1, 10EP3, 10ER1, 10ER3, 10ER7, 10ER7M, 10ESK1, 10ESK3, 10ESK7, 10ESK7M, 10ET1, 10ET3, 10MV1, 10R1, 10R6, 10VB1, 10VB3,10VB6, 10VK1, 10VK3, 10VK6, 10VK7, 10VK7M, 10VR1, 10VR3, 10VR6, 10VR7, 10VR7M, 10VS1, 10VSK1, 10VSK3, 10VSK7, 10VSK7M, 10VT1, 10VT3, 10VV1, 10VW1, 12EP1, 12EP3, 15EASZ, 15EBFX, 15EBSZ, 15EEAY, 15EEBY, 15EFIF, 15EH4, 15EHT1, 15EHT6, 15ET1, 15ET6, 15VT1,15VT6, 1EB1, 1EB3, 1EC1, 1EC2, 1EC4, 1EC8, 1ED1, 1ED2, 1ED4, 1ED8, 1EF1F, 1EF2F, 1EF4, 1EF8, 1EK1, 1EK3, 1ER1, 1ER3, 1EZP, 1VB1,1VB3, 1VK1, 1VK3, 1VR1, 1VR3, 20AY01, 20B1, 20B6, 20EB1, 20EH1, 20EH6, 20EHT1, 20EHT6, 20EHT7, 20EK1, 20EK6, 20EP1, 20EP6, 20ER1, 20ESK1, 20ESK6, 20ET1, 20ET6, 20MV1, 20VB1, 20VB6, 20VK1, 20VK6, 20VK7, 20VP1, 20VP6, 20VR1, 20VR6, 20VS1, 20VS6, 20VSK1,20VSK6, 20VT1, 20VT6, 20VV1, 20VV6, 20VW1, 20VW6, 20VW7, 2EB1, 2EB3, 2EDL1S*, 2EDL4*, 2EK1, 2EK3, 2ER1, 2ER3, 2EXP, 2EYP, 2EZP,2VB1, 2VB3, 2VK1, 2VK3, 2VR1, 2VR3, 30ESK6, 30ESK6C, 30VB6, 30VK6, 30VK6C, 30VSK6, 30VSK6C, 3AY01, 3B1, 3EB1, 3EB3, 3EC1, 3EC2,3EC4, 3EC8, 3ED1, 3ED2, 3ED4, 3ED8, 3EF1F, 3EF2F, 3EF4, 3EF8, 3EH1, 3EH3, 3EHT1, 3EHT3, 3EHT7, 3EHT7M, 3EK1, 3EK3, 3EK7, 3EK7M,3EP1, 3EP3, 3EP7, 3EP7M, 3ER1, 3ER3, 3ER7, 3ER7M, 3ESK1, 3ESK3, 3ESK7, 3ESK7M, 3ET1, 3ET3, 3ET7, 3EXL2S, 3EXP, 3EYP, 3EZL2S, 3EZP, 3MV1, 3R1, 3VB1, 3VB3, 3VK1, 3VK3, 3VK7, 3VK7M, 3VR1, 3VR3, 3VR7, 3VR7M, 3VS1, 3VSK1, 3VSK3, 3VSK7, 3VSK7M, 3VV1, 3VW1, 40VK6, 40VK6C, 40VSK6, 4EDL1S*, 4EDL4*, 4EXP, 4EYP, 5EB1, 5EB3, 5EFM1, 5EFM1C, 5EFM1S, 5EFM1SC, 5EFM4, 5EFM4C, 5EFM4S, 5EFM4SC,5EHM1, 5EHM1C, 5EHM1S, 5EHM1SC, 5EHM4, 5EHM4C, 5EHM4S, 5EHM4SC, 5EK1, 5EK3, 5EK7, 5EK7M, 5ER1, 5ER3, 5ER7, 5ER7M, 5R1, 5VB1, 5VB3, 5VK1, 5VK3, 5VK7, 5VK7M, 5VR1, 5VR3, 5VR7, 5VR7M, 60VS6, 6AY01, 6EC1, 6EC2, 6EC4, 6EC8, 6ED1, 6ED1C, 6ED2, 6ED4, 6ED4C,6ED8, 6ED8C, 6EDL1S*, 6EDL4*, 6EF1F, 6EF2F, 6EF4, 6EF8, 6EH1, 6EH3, 6EH4, 6EH5, 6EH8, 6EH9, 6EHL1S*, 6EHL4*, 6EHT1, 6EHT3, 6EHT7, 6EHT7M, 6EP1, 6EP3, 6ESK1, 6ESK3, 6ESK7, 6ESK7M, 6ET1, 6ET3, 6ET7, 6EXP, 6MV1, 6VS1, 6VSK1, 6VSK3, 6VSK7, 6VSK7M, 6VV1, 6VW1,7EP1, 7EP3, 8ED8C, F1709C, F2470, F2537, F2577, F2577Z, F2801, F2801Z, F2807, F2821, F2870, F2914A, F2954, F3016, F3017, F3101,F3101A, F3101B, F3107, F3130, F3259, F3259A, F3295A, F3392, F3404, F3407, F3409, F3410, F3421, F3457, F3467, F3558, F3582, F3643,F3658, F3713, F3721A, F3742, F3787, F3949, F3986, F3997A, F3997B, F4006, F4008, F4025, F4041, F4041A, F4041Z, F4055, F4140, F4141,F4230A, F4230D, F7002B, F7003A, F7025A, F7070A, F7071A, F7120A, F7130D, F7147A, F7202A, F7210A, F7235A, F7311F, F7323A, F7329A,F7335A, F7346B, F7350C, F7352C, F7356A, F7358E, F7358F, F7376A, F7376B, F7393C, F7424B, F7431A, F7518D, F7526A, F7585A, F7585B,F7585D, F7585E(a) - followed by 010, 030, 060, 100, 150, 225, 300 or 400, followed by suffix A or B, followed by suffix 4 or 6* - May be followed by C and/or M. Where C indicates receptacle with integral spring tabs for mounting; and M indicates filter is normally provided with dual (European) fusing.Marking: Company name or trademark , , , , , ,and model designation.Last Updated on 2015-05-07Questions?Print this page Terms of Use Page Top© 2015 UL LLC When the UL Leaf Mark is on the product, or when the word "Environment" is included in the UL Mark, please search the UL Environment database for additional information regarding this product's certification.The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured under UL's Follow-Up Service. Only those products bearing the UL Mark should be considered to be Certified and covered under UL's Follow-Up Service. Always look for the Mark on the product.UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide Information, Assemblies, Constructions, Designs, Systems, and/or Certifications (files) must be presented in their entirety and in a non-misleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with permission from UL" must appear adjacent to the extracted material. In addition, the reprinted material must include a copyright notice in the following format: "© 2015 UL LLC".。
东元tsta说明书
■警告及注意事項:警告y不可在送電中,實施配線工作。
y輸入電源切離後,伺服驅動器之狀態顯示CHARGE LED未熄滅前,請勿觸摸電路或更換零件。
y伺服驅動器的輸出端U、V、W,絕不可接到AC電源。
! 注意y當伺服驅動器安裝於控制盤內,若周溫過高時,請加裝散熱風扇。
y不可對伺服驅動器作耐壓測試。
y機械開始運轉前,確認是否可以隨時啟動緊急開關停機。
y機械開始運轉前,須配合機械來改變使用者參數設定值。
未調整到相符的正確設定值,可能會導致機械失去控制或發生故障。
y機械開始運轉前,務必確認參數Cn030:系列化機種設定,需選取正確的驅動器和馬達匹配組合!■安全注意事項:在安裝、運轉、保養、點檢前,請詳閱本說明書。
另外,唯有具備專業資格的人員才可進行裝配線工作。
說明書中安全注意事項區分為「警告」與「注意」兩項。
:表示可能的危險情況,如忽略會造成人員死亡或重大損傷。
警告! 注意:表示可能的危險情況,如未排除會造成人員較小或輕微的損傷及機器設備的損壞。
所以應詳閱本技術手冊再使用此伺服驅動器。
i首先,感謝您採用東元精電伺服驅動器TST A系列(以下簡稱TST A)和伺服馬達。
TST A可由數位面板操作器或透過P C人機程式來操作,提供多樣化的機能,使產品更能符合客戶各種不同的應用需求。
在使用TST A前,請先閱讀本技術手冊,本說明書主要內容包括:y y y y y 伺服系統的檢查、安裝及配線步驟。
數位面板操作器的操作步驟、狀態顯示、異常警報及處理對策說明。
伺服系統控制機能、試運轉及調整步驟。
伺服驅動器所有參數一覽說明。
標準機種的額定規格。
為了方便作日常的檢查、維護及瞭解異常發生之原因及處理對策,請妥善保管本說明書在安全的地點,以便隨時參閱。
註:請將此說明書交給最終之使用者,以使伺服驅動器發揮最大效用。
ii目錄第一章產品檢查及安裝1-1產品檢查............................................................................................................................1-1 1-1-1伺服驅動器機種確認.................................................................................................1-1 1-1-2伺服馬達機種確認.....................................................................................................1-2 1-1-3伺服驅動器與伺服馬達搭配對照表.........................................................................1-3 1-2伺服驅動器外觀及面板說明............................................................................................1-7 1-3伺服驅動器操作模式簡介................................................................................................1-8 1-4伺服驅動器安裝環境條件與方法....................................................................................1-9 1-4-1安裝環境條件.............................................................................................................1-9 1-4-2安裝方向及間隔.......................................................................................................1-10 1-5伺服馬達安裝環境條件與方法......................................................................................1-11 1-5-1安裝環境條件...........................................................................................................1-11 1-5-2安裝方式...................................................................................................................1-11 1-5-3其他注意事項...........................................................................................................1-12第二章配線準備2-1系統組成及配線................................................................................................................2-1 2-1-1伺服驅動器電源及週邊裝置配線圖.........................................................................2-1 2-1-2伺服驅動器配線說明.................................................................................................2-2 2-1-3電線規格.....................................................................................................................2-3 2-1-4馬達端出線.................................................................................................................2-4 2-1-5馬達及電源標準接線圖.............................................................................................2-6 2-1-6 TB端子說明..............................................................................................................2-7 2-1-7馬達附機械式剎車(BR A K E)接線說明....................................................................2-7 2-2I/O信號端子說明...............................................................................................................2-8 2-2-1 CN1控制信號端子說明............................................................................................2-9iii2-2-2 CN2編碼器信號端子說明......................................................................................2-21 2-3控制信號標準接線圖......................................................................................................2-23 2-3-1位置控制(Pe Mode)接線圖(L ine Dr ive r)................................................................2-23 2-3-2位置控制(Pe Mode)接線圖(Open Col l ec to r)..........................................................2-24 2-3-3位置控制(P i Mode)接線圖......................................................................................2-25 2-3-4速度控制(S Mode)接線圖.......................................................................................2-26 2-3-5轉矩控制(T Mode)接線圖.......................................................................................2-27第三章面板操作說明3-1驅動器面板操作說明........................................................................................................3-1 3-2面板顯示訊息說明............................................................................................................3-8 3-2-1狀態顯示功能說明.....................................................................................................3-8 3-2-2診斷功能說明.............................................................................................................3-9第四章試運轉操作說明4-1無負載伺服馬達試運轉....................................................................................................4-2 4-2無負載伺服馬達搭配上位控制器試運轉........................................................................4-5 4-3連接負載伺服馬達搭配上位控制器試運轉.....................................................................4-8第五章控制機能5-1控制模式選擇....................................................................................................................5-1 5-2轉矩模式............................................................................................................................5-2 5-2-1類比轉矩命令比例器.................................................................................................5-2 5-2-2類比轉矩命令偏移調整.............................................................................................5-3 5-2-3轉矩命令直線加減速.................................................................................................5-4 5-2-4轉矩輸出方向定義.....................................................................................................5-5 5-2-5內部轉矩限制設定.....................................................................................................5-6 5-2-6轉矩模式的速度限制.................................................................................................5-6 5-2-7其他轉矩控制機能.....................................................................................................5-8iv5-3速度模式............................................................................................................................5-9 5-3-1選擇速度命令...........................................................................................................5-10 5-3-2類比速度命令比例器...............................................................................................5-11 5-3-3類比速度命令偏移調整...........................................................................................5-11 5-3-4類比速度命令限制...................................................................................................5-12 5-3-5編碼器信號分周輸出...............................................................................................5-12 5-3-6速度命令平滑化.......................................................................................................5-14 5-3-7速度旋轉方向定義...................................................................................................5-17 5-3-8速度迴路增益...........................................................................................................5-18 5-3-9共振抑制濾波器(Notch F i l t e r).................................................................................5-19 5-3-10速度模式的轉矩限制............................................................................................5-21 5-3-11增益切換機能........................................................................................................5-22 5-3-12其他速度控制機能................................................................................................5-29 5-4位置模式..........................................................................................................................5-32 5-4-1外部脈波命令模式...................................................................................................5-33 5-4-2內部位置命令模式...................................................................................................5-35 5-4-3電子齒輪比...............................................................................................................5-40 5-4-4位置命令一次平滑加減速.......................................................................................5-45 5-4-5位置命令方向定義...................................................................................................5-46 5-4-6位置迴路增益調整...................................................................................................5-46 5-4-7脈波誤差量清除.......................................................................................................5-47 5-4-8原點復歸...................................................................................................................5-48 5-4-9其他位置控制機能...................................................................................................5-56 5-5伺服增益調整..................................................................................................................5-57 5-5-1自動增益調整...........................................................................................................5-61 5-5-2手動增益調整...........................................................................................................5-64 5-5-3改善響應特性...........................................................................................................5-65 5-6其他機能..........................................................................................................................5-66 5-6-1輸入/輸出接點機能規劃.........................................................................................5-66v5-6-2控制模式切換...........................................................................................................5-69 5-6-3接點輔助機能...........................................................................................................5-69 5-6-4剎車模式...................................................................................................................5-70 5-6-5機械剎車時序...........................................................................................................5-70 5-6-6 C W/C C W驅動禁止方式.........................................................................................5-72 5-6-7外部回生電阻的選用...............................................................................................5-72 5-6-8風扇運轉設定...........................................................................................................5-77 5-6-9類比監視...................................................................................................................5-77 5-6-10參數重置................................................................................................................5-78第六章參數機能6-1參數群組說明...................................................................................................................6-1 6-2參數機能表.......................................................................................................................6-2第七章通訊機能7-1通訊機能(RS-232 & RS-485).......................................................................................7-1 7-1-1通訊接線.....................................................................................................................7-1 7-1-2 RS-232通訊協定及格式...........................................................................................7-2 7-1-3 RS-485通訊協定及格式...........................................................................................7-5 7-2各參數相對應之通訊位址..............................................................................................7-16第八章異常警報排除8-1異常警報說明.....................................................................................................................8-1 8-2異常排除對策.....................................................................................................................8-3vi第一章產品檢查及安裝1-1 產品檢查本伺服產品在出廠前均做過完整之功能測試,為防止產品運送過程中之疏忽導致產品不正常,拆封後請詳細檢查下列事項:y 檢查伺服驅動器與伺服馬達型號是否與訂購的機型相同。
风电发电运行人员培训试题(库)
风电发电运行人员培训试题(库)一、填空题:(每空0.5分,共30分)1.安全生产,必须贯彻“、、”的方针,坚持“”,树立“、”的理念。
2.风电场输变电设备包括风电场升压站、、风力发电机组等。
3.风电场工作人员应掌握安全带、、安全帽、防护服和工作鞋等个人防护设备的正确使用方法,具备、及相关知识和技能,特殊作业应取得相应。
4.风速超过m/s及以上时,禁止人员户外作业:攀爬风力发电机组时,风速超m/s及以上时,禁止任何人员攀爬机组。
5.箱变的绝缘油主要作用是和。
6.双馈异步发电机的运行状态:状态、状态、状态。
7.风电场场输变电系统:包括两部分。
集电线路有两种方式。
输电线路分为KV和KV架空输电线路。
8.风力发电机开始发电时,轮毂高度处的最低风速叫。
风力发电机达到额定功率输出时规定的风速叫。
瞬时风速的最大值称为。
9.风轮包括:、、、。
10.风力发电机组的启动和停机有四种操作方式,分别为:11.在天气时不要停留在风力发电机组或靠近风力发电机组。
12.偏航系统:一般分为和。
一般由、、、、、等几个部分组成13.风机的安全链是由风力发电机组重要保护元件组成,并独立于机组逻辑控制的回路。
14.在操作主变前,应将变压器合上。
主变运行中不得同时将和退出。
15.攀爬机组前,应将机组置于状态,禁止人在同一段塔架同时攀爬;上下攀爬机组时,通过塔架平台盖板后,应立即随手16.风电发电机组最重要的参数是和。
17.主变结构由_铁芯、绕组、油箱、油、散热器、呼吸器、油位计、释压器、分接头开关、瓦斯继电器组成18.主变型号为SZ11-50000/110_容量为50000 KVA,额定高压侧电流为251 A,额定低压侧电流为824.8 A 结线组别为YN,dll 冷却方式是ONAN19.主变由运行转检修操作过程中,应先查13A8刀闸确已合上,而后断开13A开关,再断开33A开关,最后断开13A8刀闸。
(直接填写实际设备名称)20.主变绝缘电阻测量使用2500V摇表测量。
oms160马达参数
oms160马达参数Understanding the technical specifications of the OMS160 motor is essential for anyone looking to utilize it for their particular application. The OMS160 is a high-performance motor that boasts impressive power and efficiency. With a maximum speed of 6000 RPM and a power rating of up to 16 kW, this motor is ideal for a wide range of industrial and commercial applications.理解OMS160马达的技术规格对于任何计划将其用于特定应用的人来说都是至关重要的。
OMS160是一款高性能电机,具有出色的动力和效率。
最大转速为6000 RPM,额定功率高达16 kW,这款电机非常适用于各种工业和商业应用。
In addition to its power and speed capabilities, the OMS160 motor also offers a high level of reliability and durability. This motor is built to withstand the rigors of continuous use in demanding environments. Its robust construction and high-quality components ensure that it can deliver consistent performance over time, making it a reliable choice for critical applications.除了具备强大的功率和速度能力外,OMS160电机还提供了高水平的可靠性和耐久性。
基于Simulink的三相桥式半控整流电路的仿真分析
基于Simulink的三相桥式半控整流电路的仿真分析于家凤;李沁生【摘要】针对三相桥式半控整流电路,本文在分析了电路的工作原理基础上,采用Matlab/Simulink仿真平台,分别对带有电阻性负载及电阻电感性负载的三相桥式半控整流电路建立仿真模型,改变共阴极组晶闸管的控制角为0°、30°、60°、90° 进行仿真分析,仿真结果验证三相桥式半控整流电路的工作特性.【期刊名称】《船电技术》【年(卷),期】2017(037)009【总页数】4页(P77-80)【关键词】Simulink;晶闸管;建模;仿真;三相桥式半控整流电路【作者】于家凤;李沁生【作者单位】江苏海事职业技术学院,南京 211170;江苏海事职业技术学院,南京211170【正文语种】中文【中图分类】TM461整流电路是利用电子器件的开关特性把交流电转换成直流电的电路,广泛应用于工业领域、电力系统、通信系统及其他领域。
三相桥式半控整流电路相比于三相桥式全控整流电路更简单、更经济,因此,在中等容量的整流装置或不要求可逆的电力系统中广泛应用。
本文基于SIMULINK仿真平台,对三相桥式半控整流电路的不同性质负载的工作情况建立仿真模型及仿真研究,具有一定的现实意义。
不仅有利于电力电子技术理论学习,还对工程实践具有指导作用。
三相桥式半控整流电路如图1所示,是由变压器、共阴极接法的3个晶闸管(VTl、VT3和VT5)、共阳极接法的3个二极管(VD2、VD4和VD6)及负载连接而成,这种电路具有可控和不可控的特性。
输出整流电压uo是三组整流电压之和,改变共阴极组晶闸管的控制角,可获得0—2.34U2(变压器二次侧电压)的直流电压。
VTl、VT3和VT5为触发脉冲相位互差120°的晶闸管,VD2、VD4和VD6为整流二极管,由这6个管子组成三相桥式半控整流电路。
它们的导通顺序依次为:VT1-VD2-VT3-VD4-VT5-VD6。