ABB接触器AF1350
ABB电气元件选型表.
A95-30-11
A50-30-11
TA75DU52
12
45
85
T2N160 R160 MA
A110-30-11
A110-30-11
A63-30-11
TA75DU63
13
55
97
T2N160 R160 MA
A110-30-11
A110-30-11
A75-30-11
TA75DU63
14
AF580-30-11
A300-30-11
TA450DU310
22
355
640
S7S1250 R1250 I
AF750-30-11
AF750-30-11
AF400-30-11
T900DU375
23
400
720
S7S1250 R1250 I
AF750-30-11
AF750-30-11
AF400-30-11
A40-30-00
TA75DU42
29--42
14
18.5
37
T2N160 R42 MA
A50-30-00
TA75DU52
36--52
15
20
40
T2N160 R52 MA
A50-30-00
TA75DU52
36--52
16
22
44
T2N160 R52 MA
A63-30-00
TA75DU52
36--52
315
580
S6N800 R800 I
AF580-30-11
T900DU650
465--650
31
355
ABB接触器附件选型
灭弧罩(套)
适用于EH175接触器
KW210
灭弧罩(套)
适用于EH210接触器
KW260
灭弧罩(套)
适用于EH260接触器
KW300
灭弧罩(套)
适用于EH300接触器
KW160
灭弧罩(套)
适用于EH160接触器
KW370
灭弧罩(套)
适用于EH370接触器
KW550
灭弧罩(套)
适用于EH550接触器
NEF71850-18*230-240V50/60HZ
拍合式接触器线圈
适用于IORR...315,420接触器
NEF71500-03 110VDC
拍合式接触器线圈
适用于IORE...315,420接触器
NEF82220 220VDC
拍合式接触器线圈
适用于IORC...500,550接触器
NEF72101-03 220VDC
ZAF110*48-130V AC/DC
线圈
适用于AF95-AF110接触器
ZAF110*100-250V AC/DC
线圈
适用于AF95-AF110接触器
ZAF110*20-60V DC
线圈
适用于AF95-AF110接触器
ZAF185*48-130V AC/DC
线圈
适用于AF145-AF185接触器
拍合式接触器主触点(1套单极)
适用于拍合式500,550安接触器
NEM1813 (For 800-4000A)
拍合式接触器主触点(1套单极)
适用于拍合式800…4000安接触器
RCR1SZNM 110
拍合式接触器磁过载继电器
额定工作电流1A
ABB 接触器及热继尺寸
Thermal and Electronic O/L Relays TA 25 DU, TA 42 DU, TA 75 DU, TA 80 DU, TA 110 DU, TA 200 DU, TA 450 DU/SU ...... 9/72 E 16 DU, E 200 DU, E 320 DU, E 500 DU, E 800 DU, E 1250 DU ..................................... 9/74 T 7 DU ...........ቤተ መጻሕፍቲ ባይዱ...................................................................................................................... 9/77
Mini Contactors with Thermal O/L Relays and with Accessories B 6, B 7, BC 6, BC 7 ............................................................................................................ 9/76
Only major dimensions are quoted on the drawings contained in this section. Detailed dimension drawings on request.
A95-30-11ABB三极交流接触器057727882628
品牌ABB型号A95-30-11主触头3A辅助触头1A1B产品认证CCCABB —A系列交流接触器用于交流50Hz 或60Hz,额定绝缘电压为69 0-1000V,在AC-3 使用类别下额定工作电压为380V 时的额定工作电流为9A-400A。
AF400-30-11 200kW线圈电压:48-130/110-250/250-500(V)——0577********主要供远距离接通及分断电路之用,适用于控制交流电动机的起动、停止及反转。
符合IEC947,VDE0660,GB14048等标准品牌,规格,型号正常工作条件和安装条件1、安装地点的海拔不超过2000M2、周围空气温度不超过+40度,且其25H内的平均温度值不超过=35度,周围空气温度下限值为-5度3、安装地点的空气相对温度在最高+40度时不超过50%,在较低温度时可允许有较高的相对温度,例如20度时达90%,对由于温度变化偶尔产生的凝露应采取特殊措施。
4、安装地点的污染等级为3级5、接触器允许垂直或水平安装,当垂直安装时,安装而与垂直的倾斜度不大于正负30%ABB交流接触器A9-30-01 线圈电压(V):24/110/220/380ABB交流接触器A9-30-10线圈电压(V):24/110/220/380ABB交流接触器A12-30-01 线圈电压(V):24/110/220/380ABB交流接触器A12-30-10线圈电压(V):24/110/220/380ABB交流接触器A16-30-01线圈电压(V):24/110/220/380ABB交流接触器A16-30-10线圈电压(V):24/110/220/380ABB交流接触器A26-30-01线圈电压(V):24/110/220/380ABB交流接触器A26-30-10线圈电压(V):24/110/220/380ABB交流接触器A30-30-01线圈电压(V):24/110/220/380ABB交流接触器A30-30-10线圈电压(V):24/110/220/380 ABB交流接触器A40-30-10线圈电压(V):24/110/220/380 ABB交流接触器A40-30-01线圈电压(V):24/110/220/380 ABB交流接触器A50-30-11线圈电压(V):24/110/220/380 ABB交流接触器A63-30-11线圈电压(V):24/110/220/380 ABB交流接触器A75-30-11线圈电压(V):24/110/220/380 ABB交流接触器A95-30-11线圈电压(V):24/110/220/380 ABB交流接触器A110-30-11线圈电压(V):24/110/220/380 ABB交流接触器A145-30-11线圈电压(V):24/110/220/380 ABB交流接触器A185-30-11线圈电压(V):24/110/220/380 ABB交流接触器A210-30-11线圈电压(V):24/110/220/380 ABB交流接触器A260-30-11线圈电压(V):24/110/220/380 ABB交流接触器A300-30-11线圈电压(V):24/110/220/380 ABB交流接触器A320-30-11线圈电压(V):24/110/220/380。
新-经济型ABB接触器
精简方便 - 精确简便 全新设计的 AX系列接触器,使现场的安装和使用更加简便。 - 产品保护 AX接触器可以与起动器、过载继电器等元件直接连接并相互配 合,简化了产品选型工作。 - 易维护 185A以上的接触器,无需拆主进、出线,即可更换线圈和检查 主触点,维护更安全,更省时。
可靠的质量 - 可靠的技术 ABB 超过百年的电气经验和接触器的发展历程,积累了宝贵的 经验,确保我们能够提供具有最高品质的产品。 - 可靠的产品配合 为了确保最高的可靠性和安全性,ABB接触器通过与电动机起 动器、过载继电器等各种保护装置的配合,从而实现负载的1 类、2 类保护。 - 产品认证 符合IEC60947-4-1、GB14048.4 标准。 具有 CCC 、 CE 、 CCS 认证。
产品资料 / 03 2014
控制产品 - 电动机控制与保护产品 • 交流接触器(AX、AF) • 过载继电器 • 电动机起动器
电动机额定功率和额定电流
表中所列的电流值是根据标准三相四极鼠笼式电动机,于每分钟 1500转, 50Hz 或每分钟 1800转, 60Hz 条件下。 所列数值仅供参考,根据不同的极数或电动机制造商,可有所变化。
保护环境 - 高效节能 本着对保护环境的高度重视,全新设计的AX系列接触器完全满 足国家的能效标准。 - 材质 为了减少对环境的影响,我们选择符合RoHS指令和国内有关规 定的产品材质。
1/1 1SXF101005C2001 / ABB / 电动机保护和控制产品
AX接触器 产品概述
AX 系列接触器结构紧凑、体积小、寿命长、工作稳定可靠、安装维护简单,接触器 和过载继电器适用于建筑业和工业领域,如: 电动机控制、保暖和通风、空调、水 1 泵和校正功率因数等。
型号说明
ABB A系列接触器
Terminals at the same level as other system components
ABB,X Cˆ < , ,X ’h G ‘&`4»+ <,X ]>
Contactor fits perfectly with ABB breakers, switch fuses and overload relays
Completely protected connections
IP20 from front
IP20
© ABB Group - 32 30-Apr-07
ABB A2ˇ º y?” < 2ˇ
Co-ordination contactors - Isomax breakers Co-ordination contactors - Isomax breakers
© ABB Group - 1 30-Apr-07
A 2ˇ º y?” <
© ABB Group - 2 30-Apr-07
ABB A
ABB A
A 9, A 12, A 16
A 26, A 30, A 40 A(F)50, A(F)63, A(F)75 A(F)95, A(F)110
© ABB Group - 3 30-Apr-07
50%
80% " „ 0+
" „ 0+ _
_
ABB AF2ˇ º y?” < 2ˇ
(
)
AF400 „ y?” < ˆ ,¨ y+ PLC {
© ABB Group - 20 30-Apr-07
ABB AF2ˇ º y?” < 2ˇ
ABB接触器
SA A63-30-11 380 82200731
SA
SA A75-30-11 24 82200822
SA A75-30-11 110 82200812
SA A75-30-11 220 82200818
SA A75-30-11 380 82200828
LA
LA A260-30-11 24 82203535
LA A260-30-11 110 82205663
LA A260-30-11 220 82203563
LA A260-30-11 380 82203547
LA
LA A300-30-11 24 82203580
LA A300-30-11 110 82205664
SA B6-40-00 110 82201650
SA B6-40-00 220 82201651
SA B6-40-00 380 82201652
SA
SA B7-40-00 24 82201674
SA B7-40-00 110 82201738
SA B7-40-00 220 82201673
SA A40-30-10 220 10059730
SA A40-30-10 380 10060139
SA
SA A40-30-01 24 10060140
SA A40-30-01 110 10060141
SA A40-30-01 220 10060142
SA A40-30-01 380 10060143
ABB接触器华东区总代理
接触器 (交流线圈) - B , A 型(三极)
ABB IOR接触器样本
IOR 200..-MT IORE 200..-MT 275 260
260 180
240
IOR 500..-MT IORE 500..-MT 550 550
550 380
540
IOR 800..-MT IORE 800..-MT 800 800
800 580
780
IORR 1400..-MT IORE 1400..-MT 1300 1250
970 610
1000
IORR 1700..-MT IORE 1700..-MT 1700 1650
1170 680
1200
IORR 2100..-MT IORE 2100..-MT 1850 1850
1270 810
1300
For contactors with N.C. main poles, couplers for no load breaking, magnetical or mechanical latching, see the main catalogues. Ratings > 2000 A, 500 Va.c. or > 1850 A, 1000 Va.c.: on request.
DC-3 / DC-5 1000 Vd.c. Ie A
3 poles
DC-1
1500 Vd.c. Ie A
DC-3 / DC-5 1500 Vd.c. Ie A
IOR 63..-CC IORE 63..-CC 85
85 68 85 68 85 68
IOR 125..-CC IORE 125..-CC 170
150 130
80
IOR 260 IORE 260 275 260
ABB A145-30-11接触器
2、周围空气温度不超过+40度,且其25H内的平均温度值不超过=35度,周围空气温度下限值为-5度3、安装地点的空气相对温度在最高+40度时不超过50%,在较低温度时可允许有较高的相对温度,例如20度时达90%,对由于温度变化偶尔产生的凝露应采取特殊措施。
4、安装地点的污染等级为3级5、接触器允许垂直或水平安装,当垂直安装时,安装而与垂直的倾斜度不大于正负30%ABB交流接触器A9-30-01 线圈电压(V):24/110/220/380ABB交流接触器A9-30-10线圈电压(V):24/110/220/380ABB交流接触器A12-30-01 线圈电压(V):24/110/220/380ABB交流接触器A12-30-10线圈电压(V):24/110/220/380ABB交流接触器A16-30-01线圈电压(V):24/110/220/380ABB交流接触器A16-30-10线圈电压(V):24/110/220/380ABB交流接触器A26-30-01线圈电压(V):24/110/220/380ABB交流接触器A26-30-10线圈电压(V):24/110/220/380ABB交流接触器A30-30-01线圈电压(V):24/110/220/380ABB交流接触器A30-30-10线圈电压(V):24/110/220/380 ABB交流接触器A40-30-10线圈电压(V):24/110/220/380 ABB交流接触器A40-30-01线圈电压(V):24/110/220/380 ABB交流接触器A50-30-11线圈电压(V):24/110/220/380 ABB交流接触器A63-30-11线圈电压(V):24/110/220/380 ABB交流接触器A75-30-11线圈电压(V):24/110/220/380 ABB交流接触器A95-30-11线圈电压(V):24/110/220/380 ABB交流接触器A110-30-11线圈电压(V):24/110/220/380 ABB交流接触器A145-30-11线圈电压(V):24/110/220/380 ABB交流接触器A185-30-11线圈电压(V):24/110/220/380 ABB交流接触器A210-30-11线圈电压(V):24/110/220/380 ABB交流接触器A260-30-11线圈电压(V):24/110/220/380 ABB交流接触器A300-30-11线圈电压(V):24/110/220/380 ABB交流接触器A320-30-11线圈电压(V):24/110/220/380。
ABB--AF.ZB.RT接触器。NFZB.RT接触器是中间继电器(轨道机车专用)
订货资料
技术数据
端子标识和位置
外形尺寸
附件 辅助触点 订货资料 技术数据 电气寿命 端子标识和位置
联锁和连接件 订货资料 技术数据
其它附件 订货资料
电压代码表
1
1/1
2
2/1 2/2 2/3 2/4 2/8 2/9 2/14 2/15
3
3/1 3/2 3/3 3/4 3/7 3/8 3/10 3/11
- 功能随机振动试验:5...150 Hz 1 ms-2(有效轴)/ 20 分钟 - 加速随机振动试验:5...150 Hz 5.70 ms-2(有效轴)/ 5 小
时 - 冲击试验:5 g 30 ms OX, OY, OZ(全轴) / 每秒 3 次冲击
防火和防烟雾性能达到最高等级,符合多个国家标准和欧洲 标准,无安装限制条件 法国标准:NF F 16-101 / NF F 16-102,类别 A11) – 重量部分 > 100 g: 严重等级 3 – 靠近电弧附近: 严重等级 4 意大利标准:UNI CEI 11170, LR4 严重等级1) – 防火和阻燃性(根据 EN ISO 11925-2): 30 s – 防烟雾等级(根据 NF F 16-101): F2 max 德国标准:DIN5510-2 欧洲标准:CEN/TS 45545,危险等级 HL2
此类接触器采用模块式设计,带 3 个主极。 – 根据 IEC 60077 标准和 EN 50155 标准中相关部分的要求而设计 – 抗冲击和振动性能符合 IEC 61373 (类别 1,等级 B) – 阻燃和防火性符合 NF F 16-101 / 16-102 (类别 A1, 严重等级 3 & 4)、UNI CEI 11170 ( LR4 严重等级)、 DIN
ABB 通用型接触器
9A 12 A 18 A 9A 12 A 18 A 9.5 A 12.5 A 15 A 7A 9A 10.5 A 2.2 kW 3 kW 4 kW 4 kW 5.5 kW 7.5 kW 4 kW 5.5 kW 9 kW 4 kW 5.5 kW 9 kW 5.5 kW 7.5 kW 9 kW 10 x Ie AC-3(IEC 60947-4-1) 8 x Ie AC-3 (IEC 60947-4-1) 12 A 5.5 kW 16 A 7.5 kW 22 A 11 kW
技术数据
主极 使用特性 标准
额定工作电压 额定频率范围 约定(自由空气)发热电流
打开接触器
导体截面 额定工作电流 接触器环境温度
导ቤተ መጻሕፍቲ ባይዱ截面
使用类别 接触器环境温度
额定工作电流
相电机
额定功率
转 转
相电机
额定接通能力 额定分断能力 短路保护对不带热
过载继电器的接触器, 不含电机保护
型熔断器
额定短时耐受电流 环境温度 自由空气从冷态
32 A
1.2 W 0.35 W
50 A 700 A 350 A 225 A 150 A 50 A 500 A 200 A 1.8 W 0.6 W
63 A
63 A
2.4 W 0.9 W
2.4 W 1.3 W
150 次/小时
内置辅助触点(IEC)
额定工作电压 Ue max. 约定(自由空气)发热电流 Ith - θ ≤ 40 ° C 额定频率范围 额定工作电流 Ie / AC-15 IEC 60947-5-1 690 V 16 A 25 ... 400 Hz 6A 4A 3A 2A 10 x Ie AC-15(IEC 60947-5-1) 10 x Ie AC-15 (IEC 60947-5-1) 6 A / 144 W 2.8 A / 134 W 0.55 A / 60 W 0.27 A / 60 W 0.15 A / 60 W 0.1 A / 60 W 10 A 100 A 140 A 12 V / 3 mA ≥ 2 ms 0.1 W 1200 次/小时 900 次/小时
ABB接触器概述
ABB接触器概述:接触器适用于建筑业和工业领域,如:电机控制、保暖和通风、空调、水泵、提升设备、照明和校正功率因数等。
ABB接触器的规格包括4 和 5.5KW 的微型接触器、高达400kW 的接触器组(AC3),建筑用接触器(家用和工业用),拍合式接触器,热过载继电器和电子继电器,以及完整的附件,确保选择灵活性和满足客户需求,公司制造工厂位于海西经济区的核心----美丽的鹭岛厦门。
通用型接触器-交流操作接触器-直流操作接触器适用范围A9 ... A300 接触器主要用于控制三相电动机以及额定工作电压达690 VAC / 1000 V AC 或220 V DC / 600 V DC 的电力线路。
并可适用于其他应用场合,如隔离、电容器组切换、照明控制等。
AF09 ... AF38 接触器用于控制电压至 690 V AC 和 220 V DC 的电源回路。
它们主要用于控制三相电动机、非感性负载或微感负载。
AF09 ... AF38 接触器带有 1 个电子线圈接口,可接受很宽的控制电压范围 Uc min ... Uc max。
三种线圈涵盖 24...250 V 50/60 Hz 或20 ... 250 V DC 之间的控制电压• AF 接触器具有很强的抗控制电压波动能力。
一种线圈(如 100 ...250 V 50/60 Hz - DC)可适用于全球范围内各种控制电压,无需更换线圈• AF .. Z 接触器配有 1 个 Z 型线圈,可直接由 24 V DC 500 mA 的PLC 输出控制,它同时具有很低的保持功耗。
可耐受短时压降和电压中断(符合 SEMI F47-0706)AF50 ... AF2050 接触器主要用于三相电动机以及额定工作电压达 690VAC / 1000 V AC 或220 V DC / 600 V DC。
适用于旁路、电容器组切换、照明控制、直流电力线路控制等其他应用场合。
AF 系列接触器带交直流通用、宽电压、电子式控制线圈,无论控制电 源为交流50/60Hz 或直流,均可直接接至控制线圈,无需考虑不同国家的电力网络及控制电源种类不同等问题。
ABB控制产品AF系列样本手册
11/0 1SXF101060C2002 |ABB|控制产品1概览1/2订货信息4 - 45 kW / 5 - 60 hpAF09 ... AF38 交/直流操作1/5AF09Z ... AF38Z 交/直流操作,低功耗1/6AF40 ... AF96 交/直流操作1/7主要附件1/855 - 200 kW / 75 - 300 hpAF116 ... AF146 交/直流操作,带1NO + 1NC辅助触点1/10AF190 ... AF370 交/直流操作,带1NO + 1NC辅助触点1/11主要附件1/12 200 - 560 kW / 300 - 900 hpAF400 ... AF750 交/直流操作,带1NO + 1NC辅助触点1/14AF1250 ... AF2650 交/直流操作,带1NO + 1NC辅助触点1/15主要附件1/16技术数据1/18端子标识和位置1/31主要尺寸1/34ABB|控制产品| 1SXF101060C2002 1/11用于控制电动机及电力线路IEC (1)AC-3 额定功率θ ≤ 60 °C (2), 400 V kW4 5.57.5111518.518.522303745UL/CSA 3 相电动机480 V hp57.5101520203040506060交/直流控制电压型号AF09AF12AF16AF26AF30AF38AF40AF52AF65AF80AF96IEC AC-3 额定工作电流θ ≤ 60 °C (2), 400 V A912182632384053658096 AC-1 额定工作电流θ ≤ 40 °C, 690 V A25283045505070100105125130UL/CSA一般应用的额定电流600 V A252830455050608090105115 NEMA NEMA 尺寸000—1——2——3—(1) 1000 V IEC额定参数,适用于AF146 ... AF2650接触器。
ABB接触器A30-30-10
品牌:ABB 型号:A30-30-10主触头:3A 辅助触头:1AABB接触器的规格包括4 和5.5KW 的微型辅助触头:1B接触器、高达400kW 的接触器组(AC3),建筑用接触器(家用和工业用),拍合式接触器,热过载继电器和电子继电器,以及完整的附件,确保选择灵活性和满足客户需求。
ABB系列交流接触器用于交流50Hz 或60Hz,额定绝缘电压为690-1000V,在AC-3 使用类别下额定工作电压为380V 时的额定工作电流为9A-400A。
AF400-30-11 200kW线圈电压:48-130/110-250/250-500。
主要供远距离接通及分断电路之用,适用于控制交流电动机的起动、停止及反转。
符合IEC947,VDE0660,GB14048-0577********-136********等标准。
主要结构及工作原理接触器为正装直动式双断点结构,罩盖与躯壳采用耐弧塑料制成,A 9-A16采用自动灭弧,而A26-A110有U型的灭弧片置于躯壳中,形成封闭灭弧室灭弧好,飞弧距离为零。
触头采用抗熔焊及耐电磨损的银基合金材料制成,导电性能好,寿命长,对环境无污染。
铁芯采用E形结构,体积小。
线圈的接线方式有两种可供用户选择,一种两接线端在产品的同一端,另一种两接线端分别在产品的两端,接线灵活方便。
底座用玻璃纤维增强塑料制成,强度高,介电性能好。
安装方式可以螺钉安装,也可以用导轨安装,拆装方便迅速。
导电部件不外露,安全性能好。
正常工作条件和安装条件1、安装地点的海拔不超过2000M。
2、周围空气温度不超过+40度,且其25H内的平均温度值不超过= 35度,周围空气温度下限值为-5度。
3、安装地点的空气相对温度在最高+40度时不超过50%,在较低温度时可允许有较高的相对温度,例如20度时达90%,对由于温度变化偶尔产生的凝露应采取特殊措施。
4、安装地点的污染等级为3级。
5、接触器允许垂直或水平安装,当垂直安装时,安装而与垂直的倾斜度不大于正负30%。
ABB交流接触器选型
ABB 接触器(交流线圈)(直流线圈)技术选型(2008-12-13 18:06:57)标签:abba系列接触器交流线圈型号分析杂谈分类:低压配电、工控产品技术选型A 9 - 3 0- 1 0①②③④① A 表示:系列②9 表示:电流③30 表示:极数(3极)④ 10 表示:触点① A 型(交流线圈)B 型(交流线圈)AF 型(交流线圈)EK 型(交流线圈)VB6 型(交流线圈)VB7 型(交流线圈)BC 型(直流线圈)AL 型(直流线圈)AE 型(直流线圈)AF 型(直流线圈)VBC 型(直流线圈)EK 型(直流线圈)② 6A 7A 9A 12A 16A 26A 30A 40A 50A 63A 75A 95A 110A 145A 185A 210A 300A 400A 460A 580A 750A 1350A 1650AA 型(交流线圈)(三极)9A 12A 16A 26A 30A 40A 50A 63A 75A 95A 110A145A 185A 210A 300AA 型(交流线圈)(四极)9A 16A 26A 50A 75AB 型(交流线圈)(三极)6A 7AB 型(交流线圈)(四极)6A 7AAF 型(交流线圈)(三极)400A 460A 580A 750A 1350A 1650AEK 型(交流线圈)(四极)110A 150A 175A 210A 370A 550A 1000A VB6 型(交流线圈)(三极)6A 小型可逆接触器VB7 型(交流线圈)(三极)7A 小型可逆接触器BC 型(直流线圈)(三极)6A 7ABC 型(直流线圈)(四极)6A 7AAL 型(直流线圈)(三极)9A 12A 16A 26A 30A 40AAE 型(直流线圈)(三极)50A 63A 75AAF 型(直流线圈)(三极)95A 110A145A 185A 210A 260A 300A 400A 460A 580A 750A 1350A 1650A VBC 型(直流线圈)(三极)6A 7AEK 型(直流线圈)(四极)110A 150A 175A 210A 370A 550A 1000A★IOR 型(交流线圈)(三极)85A 170A 260A 420A 550A 800A 1400A 1700A 2100A★IORE型(直流线圈)(三极)85A 170A 260A 420A 550A 800A 1400A 1700A 2100A★IORC型(直流线圈)(三极)85A 170A 260A 420A 550A 800A★IOR 型IORE型IORC型属于拍合式接触器★UA 型26A 30A 50A 63A 75A 95A 110A 用于三相电容器★UA...RA 型16A 26A 30A 50A 63A 75A 带有内装式阻尼电阻器,用于三相电容器.③ 3 0 表示:极数(3极)4 0 表示:极数(4极)④ 1 0 表示:1常开0 1 表示:1常闭1 1 表示:1常开+1常闭注:常用的线圈电压有24V 110V 220V 380V。
AF400-1250接触器中文操作说明
ABB Automation Products, Cewe-Control SE-721 61 Västerås, Sweden Telephone +46 21 32 07 00Telefax +46 21 12 60 01接触器使用手册Contactors Schütze Contacteurs Kontaktorer Contattori Contactores KontaktoriOperating instructionns Betriebsanlietung Notice d’instructions InstruktionIstruzioni tecnicheIlnstrucciones de empleo OhjeWarning! The operation, installation and servicing of this product must be carried out by a qualified electrician, following installation standards and safety regulations. Before operating the contactor, make sure that the control voltage supply corresponds with the coil marking. Wrong control voltage can damage the coil. Do not touch live parts. Danger!Warnung! Die inbetriebnahme und die installation des vorhandenen Gerätes sowie jegliche Wartungsarbeiten müssen durch einen Fachelektriker, der die anerkannten technischen Regeln, die Montagenormen und die Sicherheitsvorschriften beachtet, durchgefürt werden. Vor Inbetriebnahme der Schüttze prüfen ob Steuerspannung am Verwendungsort mit den aufgedruckten Spulendaten übereinstimmt. Der Anschluss einer anderen Steuerspannung kan zur Zerstörung der Spule führen. Spannung führende Teile nicht berühren. Lebensgefahr!Attention! La mise en ceuvre et I'installation de cet appareil et toute intervention doivent être affectuées par un électricien professionnel appliquant les normesd'installation et les réglements de sécurité. Avant la mise en marche des contacteurs, vérifier que la tension du circuit de contrôle correspond bien aux indications de la bobine. Le raccordement d'une tension différente peut mener à une destruction de la bobine. Ne pas toucher les pièces sous tension. Danger de mort!Varning! Igångsättning och installation av apparaten samt alla ingrepp bör utföras av en kompetent elektriker enligt alla gällande installationsnormer och säkerhetsregler. Kontrollera före installation av kontaktorn att aktuell manöverspänning överensstämmer med spolens märkdata. Felaktig manöverspänning kan skada spolen. Beröring av spänningsförande delar är förenat med livsfara.Attenzione! La messa in opera, I'installazione di questo apparecchio ed ogni tipo di intervento devono essere effettuati da un elettricista professionista il quale applichi le regole del mestiere, le norme di installazione ed i regolamenti di sicuezza. Prima della messa in servizio del contattore, verificare che la tensione di alimentazione del circuito di comando corrisponda esattamente a quella indicata sulla bobina. L'alimentazione con una tensione diversa, puo provocare il danneggiamento della bobina. Non toccare le parti attive. Pericolo di vita!¡Atención! La instalación y puesta en marcha de este aparato, así como cualquier intervención, deben realizarse por un electricista profesional que aplique las normas de instalaciones eléctricas y la reglamentación de seguridad. Antes de la puesta en servicio del contactor, comprobar si coincide la tensión de mando que va a aplicar con los datos impresos en la bobina. La conexión de otra tensión de mando puede destruir la bobina. Las partes bajo tensión no deben tocarse. ¡Peligro de muerte!Varoitus! Tämän laitteen käyttäminen, asennus ja huoltaminen vaatii ammattihenkilön. Seuraavia asennusmääräyksiä ja turvaohjeita tulee noudattaa. Ohjausjännitteen ja kontaktorin kelaan merkityn jännitteen yhteensopivuus tulee varmistaa enne käyttönottoa. Epäsopiva käyttöjännite saattaa vioittaa kelaa. Älä koske jänniteisiin osiin. Vaara!注意!所有对此产品的操作、安装及维护,均需由合格的电气工程师,在遵循安装标准及安全准则的条件下进行。
ABB AF电接触器产品说明书
Clean contactContactor technology for power switching and motor control gUnnAR JOHAnSSOn – Electric contactors are nearly as old as electro-technology itself – a fact ABB can attest to, having produced low-volt-age equipment for over 100 years. now, however, innovation and new technology are breathing new life into contactors and are eliminating many of the problems that traditionally dogged this workhorse of the electrical switching world. ABB’s new-generation AF contactors arepaving the way.29Clean contacttact bridge with springs that provide contact force in the closed position. The movement is accomplished by an elec-tromagnet that is enclosed by a coil ➔1. Simple product concept Large contactors from A BB differ sig-nificantly from competitors’ by having the main circuit located at the rear. Launched about 10 years ago, this ap-proach has now been proven in the field. This configuration facilitates com-bination with other switching devices, primarily circuit breakers, and prevents the main circuit cables, which are thick and rather stiff, from blocking ac-cess ➔2. The cost of the electronics has been brought down to a level that makes these electronically controlled contac-tors comparable in price to conventional ones. A ssembly costs are low as the electronic module easily snaps into the contactor. Less raw material When contactors make or break large currents, arcs are generated. TheseA contactor is an electrically controlled switching device that works much like a relay, but for higher currents. Unlike the circuit breaker, which is another type of switching device, the contactor cannot break short-circuit currents, though it can perform many more oper-ations. Traditionally, contactors are for starting and stopping electrical machin-ery. The most common contactor type is the three-pole contactor, used to make, conduct and break the current in a three-phase system.Contactors are built around a contact system that connects to the main cir-cuit. A djacent to this contact system is a breaking cham-ber containing various devices that improve breaking performance. The moving contacts are operated by a con-ABB’s new contactors utilize software and an electronic circuit in combination with a specially designed magnet to quickly build up a high contact force.A rear-mounted circuit facili-tates combination with other switching devices and pre-vents the main circuit cables blocking access.30ABB review 2|13 1 Contactor schematic Title picture Ever since electrotechnology was first introduced into the world of industry, contactors have played a vital role. New ideas have now overcome traditional drawbacks, allowing a new generation of contac-tors to be launched.31separation forces to cause contact lift. Therefore, contacts must be held tightly closed so as to resist any possible sep-aration forces. To do this, A BB’s new contactors utilize software and an elec-tronic circuit in combination with a spe-cially designed magnet to quickly build up a high contact force. The circuit also provides a measured and controlled movement that minimizes vibrations. Contact lift is rare and erosion on mak-ing is thus minimized.Opening contacts When breaking high currents (over 100 A ), the arc has to be moved away quickly from the silver contact material in order to limit erosion. The erosion also has to be distributed as evenly as possible between the different phases.In order to move the arc away from the contacts, conventional technology is used. A steel plate encloses the contact and draws the arc away. Designs are now carefully calculated and optimized by using simulation tools. Some old truths have been questioned and dis-proved while others have been exploited to their full potential.The control circuit, together with the coil and magnet, can, unfortunately, cause the contactor phases to be loaded un-evenly as the voltage at the control cir-cuit is often related to the main circuit and a certain amount of synchronization can occur between the moment of switching and the voltage phase. The load will then not be evenly distributed between the contactor’s phases and the erode the contact material and this ero-sion determines the contactor life. Ahigh-grade silver alloy is usually the prin-cipal contact constituent. As silver is ex-pensive, increasing the contact bulk toincrease contact life is impractical, soABB has devoted much research to find-ing other ways to extend contact life.Several approaches have emerged:− Improving contactor movements byusing an electronic control circuit− Using software solutions that reducecontact wear− Designing new magnets that allowhigher contact forces− Introducing new breaking chambersthat better remove and quench arcs− Tuning the contact material manufac-ture and composition to give highdurabilityClosing contactsWhen switches close, small, shortbounces sometimes occur before thecontacts settle in the closed position.This so-called contact bounce causesminor, erosive arcs to form. As the cur-rent at this point is low, contact bounceis not so important. Far more importantis contact lift.Contact lift happens a little later, whenthe current is high ➔3. The contacts arethen usually in the correct position butthere are factors, for example, the highswitching current, that can separatethem, causing arcs. As high currents areflowing, erosion is severe ➔4. A lso, vi-brations, which arise from the closing contactor magnet, can interact with the The cost of these electronically controlled con-tactors is compa-rable to that of conventionaldevices.2 Placement of circuit at the rear eases access 2a Older contactor with main circuit in the front2b new contactor with main circuit in the rear Clean contact32ABB review 2|13the fact that they weld together and rapidly erode. A silver and tin oxide mix-ture, with dopants, however, provides a good contactor material. A s this mate-rial is so critical, ABB uses a very care-fully determined mixture and the most advanced manufacturing processes to produce it.Reliability is key Reliability is the contactor quality most valued by customers. ABB has devoted much meticulous design work and ex-tensive testing to realizing contactor products that meet the highest reliability requirements. The quality of the control circuit is critical.phase most used will wear soonest and, in so doing, determine the lifetime of the entire device. It is better to distribute the load evenly between the phases and equalize contact erosion. The ABB soft-ware and electronics do exactly this by eliminating synchronization. Significant improvements in longevity have result-ed. The method has a patent pending. Contact material The actual contact material used and its production method have a great influ-ence on erosion. In the past, alloys of silver and cadmium provided very good performance, but cadmium has long since been prohibited. Pure silver con-tacts would be excellent were it not for3 Contact bounce and contact lift 3a Contact bounce typically occurs at low current values and is not problematic.3b Contact lift occurs at high currents and can cause severe contact erosion.A silver and tin o xide mixture, with dopants, provides a good contactor material.33The method, however, does have short-comings:− Sensitivity to voltage variations. Variations in the supply voltage cause changes in the coil current. These have a quadratic effect on the magnetic force. In unfortunate cases, contacts can suddenly open and close, causing failure of the device.− Most users will want to use an AC control voltage, for instance 230 Vat 50 Hz. Themagnet must thenbe both big andcomplicated tokeep up the force at the controlvoltage zerocrossings.−The powerconsumption ofthe circuit is high,especially whenit is supplied with an alternating voltage.− The tolerance requirements of the surface at the magnet’s poles are extremely high. During heavy use, the dimensions can change, causing a deterioration in the magnetic force. The control circuit A contactor’s control circuit is built around a split electromagnet that works with a spring system. The magnet is a ctivated by a current flowing through a coil that causes the two magnet halves to attract each other. This attraction closes the magnet and, via the spring system, it also closes the contacts and provides contact force. When the mag-net is deactivated, it opens – along with the contacts, interrupting the main cur-rent ➔5. This basic principle has been used for over 100 years and no one has yet presented a more competitive alter-native. A BB and its main competitors use this simple, proven and reliable so-lution to make, conduct and break largecurrents.4 Contact lift at making – snapshot from a movie. The arc consumes contactor material. 5 Conventional and well-proven control circuitABB’s AF contactors use a patented microprocessor-con-trolled circuit that ensures the coil current is correct, regard-less of voltage fluctuations.The circuit pro-vides a measured and controlled movement that minimizes vibra-tions.Clean contact34ABB review 2|13Contactor design, though over 100 years old, has become a new and en-gaging field of product development – thanks to new technology and innova-tive thinking. Further enhancements to simplify the design, increase the reliabil-ity, improve logistics and optimize the service of this stalwart of electrical switching are in full flow.Modern technology and innovative d esign, however, now deal with these issues.new in control circuits A BB’s new A F contactors use a micro-processor-controlled circuit with patent-ed algorithms that ensure the coil cur-rent is always correct, regardless of voltage fluctuations. Thus, both the magnetic flux and the contact forces are optimized. The circuit also converts A C to DC voltage. This reduces power requirements, provides smoother mag-netic force and dispenses with zero crossings. It also enables a smaller, sim-pler and more reliable magnet to be used. Mechanical and electrical wear are minimized.Because zero crossings are eliminated and the coil current is controlled, old and well-proven magnet designs that otherwise would have severe limitations can be resurrected and fully exploited.In the smallest AF contactors, a cylindri-cal magnet with a movable piston is used together with pole surfaces that are conical ➔6. This is a very compact and low-power arrangement. It is so ef-fective and requires so little power that the contactors can be operated with a weak power supply such as a transistor output. The larger A F contactors use a magnet whose moving and fixed parts are T-shaped and U-shaped, respec-tively ➔7. This is also a compact and low-power solution. Both types of mag-net take advantage of the fact that only DC exists in the coil.gunnar Johansson ABB Low Voltage Products Västerås, Sweden *************************.com The ABB software and electronics distribute the load evenly between the phases and equalizes contact erosion. 6 Section of cylindrical magnet 7 Magnet with T-shaped moving part。
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Contactorstype AF1350 / AF16502ABB1SFC101005C0201DescriptionThe AF1350/AF1650 3-pole contactors are of the block type design.● Main poles and auxiliary contact blocks – 3 main poles,– 1 N.O. and 1 N.C. auxiliary contacts (1 contact block fitted on the left hand side).– 2 N.O. and 2 N.C. auxiliary contacts (1 contact block fitted on each side)A maximum of 4 auxiliary contact blocks can be fitted on each contactor.● Electronic controlThe contactors are fitted with an electronic coil interface controlled by a specific integrated circuit developed by ABB.Advantages– Wide voltage range, 100...250 V a.c. and d.c.– Can manage large voltage variations – Reduced power consumption – Very distinct closing and opening – Noise free– Can withstand voltage interruptions or voltage dips in the control supply (≤ 20 ms)● Control inputsThe AF1350/AF1650 contactors are as standard equipped with low voltage inputs for control, for example by a PLC(☞ see drawing below)AF1350/AF1650 3-pole Contactorsa.c./d.c. Operated - Wide voltage range Electronic Coil InterfaceABB 31SFC 101005C0201AF1350/AF1650 3-pole Contactorsa.c./d.c. Operated - Wide voltage range Electronic Coil InterfaceApplicationsAF1350 and 1650 are modern and compact 3-pole contactors designed for heavy duty industrial applications.They are designed for carrying and switching both inductive (AC-3) and resitive (AC-1) loads.High mechanical and electrical endurance make them suitable also for motor applications.Typical applications are as:– Transfer switch or as main isolation contactor in generator sets – Main contactor for static power switching – Main or by-pass contactor in windmills– Main or by-pass contactor for frequency drives and softstarters – Y/D starters for example on board shipsThe coil is electronically controlled with features such as wide coil voltage range, low pull-in value and low power consumption to mention some of the features. It can also be operated with a low voltage signal directly from a PLC.These contactors are fully tested together with ABB breakers to meet type 2 co-ordination.For motor applications there is a three phase electronic overload relay called E1250 DU available.● The most compact 1650A contactor● Modern family design to match other ABB products ● Type 2 coordinated with breakers ● Electronic coil interface ● PLC operation possible ● cULus approved●Low environmental impact thanks to Life Cycle Assessment4ABB1SFC101005C0201AF1350/AF1650 3-pole ContactorsOrdering detailsCAL 18-11ZL1650ZW1650VM16501S F C 101009F 02011S F C 101008F 0201AF1350 / AF16501S F C 101026F 02011S F C 101033F 02011S F C 101007F 02011S F C 101006F 0201ZAF1650ZP16501S F C 101024F 02011S F C 101025F 0201E1250 DUContactor (Terminal screws and fixing screws included)AccessoriesCAL18-11B is a block for mounting outside a CAL18-11 block.Arc chutes/De-ionizing platesElectronic overload relay - class 10, 20, 30 selectable mounting kit with busbars for contactor mounting includedABB 51SFC 101005C0201AF1350/AF1650 3-pole ContactorsTechnical DataMagnet System CharacteristicsContactor type:AF1350/AF1650Rated control circuit voltage (U c min...U c max)– at 50 Hz V 100 (250)Coil consumption Average pull-in value50 Hz VA 190060 Hz VA 1900d.c.z .W 1700Average holding value 50 HzVA/W 48/1760 Hz VA/W 48/17Operating time A1-A2between coil energization and:N.O. contact closing ms 50 ... 80N.C. contact openingms50 ... 80between coil de-energization and :N.O. contact opening ms 35 ... 55N.C. contact closing ms35 (55)with PLCbetween coil energization and:N.O. contact closing ms40 ... 65N.C. contact openingms 40 ... 65between coil de-energization and :N.O. contact opening ms 10 (30)Main Pole - Utilization CharacteristicsContactor type:AF1350AF1650Conventional free-air thermal current I thRated operational current I e /AC-1for air temperature close to contacto rθ ≤ 40 °C A13501650U e max. 1000 V θ ≤ 55 °C A11501450θ ≤ 70 °C A10001270with conductor cross-sectional area mm 22//100x5 1)3//100x5 1)Utilization category AC-3for air temperature close to contactor < 55 °C Rated operational current I e AC-3220-230-240 V A86010503-phase motors 380-400 V A8601050415 V A8601050440 V A 8601050Rated making capacity AC-3Rated short-time withstand current I cwMechanical durability– millions of operating cycles 500 0001) Dimensions of the barsGeneral Technical DataContactor type:AF1350/AF1650Rated insulation voltage U i according to IEC 60947-4-1V 1000according to UL/CSAV600Rated impulse withstand voltageU imp.kV8StandardsDevices complying with- International standards IEC 60947-1 / 60947-4-1- European standards EN 60947-1 / 60947-4-1- UL 508Certifications - Approvals6ABB1SFC101005C0201AF1350/AF1650 3-pole ContactorsTechnical Data ULAmp-rating for AF1350/AF1650The ”amp-rating” value corresponds to the ”General Use Rating” defined in specification UL508: the operational current, bot during pull-in and steady-state conditions, must not exceed the ”amp-rating”value of the device. In alternating current, the inductive cos ϕ of the load between 0.75 and 0.8.ContactorsMain contactsAuxiliary contacts (General Use Rating)Nominal Nominal ”pilot duty”NominalNominal current voltage current voltage3-phase motor-ratingUL Approvals stipulate the following for contactors:- the ”3-phase motor-rating”: motor power (hp) and corresponding current (A).- the ”amp-rating”: usual operational current (A) and nominal voltage (V).The technical characteristics figuring on devices must be respected and have been reproduced in the table below.ContactorsSize Motor power P (hp) and nominal current I e (A)NEMAU e U e U e 220V/240V 440V/480V550V/600VABB71SFC 101005C0201Tripping curves for E1250 DU electronic overload relaysNot suitable for single-phase and direct current (d.c.) motors!Electronic overload relays E1250 DU for contactors AF1350/AF1650T echnical dataDescriptionThe electronic overload realy (type E1250 DU) is available in the current range 375...1250 A. The E1250 DU is a 3-phase relay intended for a.c.circuits and is not suitable for single-phase or direct current (d.c.) circuits. The reset of the relay can be done manually or automatically. Trippingclass can be set manually (class 10, 20 or 30). A busbar kit for mounting the E1250 DU to the AF1350/AF1650 contactor is included.Tripping characteristics 3-phase T r i p p i n g t i m eOperating current as a multiple of the setting currentGeneral technical dataType E1250 DUApprovals and certificates Connection terminals and attachment type8ABB1SFC101005C0201AF1350/AF1650 3-pole ContactorsDimensions and Drilling plansAF1350/AF1650 Contactor + E1250 DU Electronic O/L relayAF1350/AF1650 ContactorDimensions Drilling planDimensionsDrilling planABB91SFC 101005C0201AF1350/AF1650 3-pole ContactorsDimensions and Drilling planPLC wiring and mounting positionsWhen used with switches the wiring can be done as below.Control with logic control signalsWhen used with transistor outputs the wiring can be done as below.Note: Emergency stop should disconnect A1 and A2DimensionsDrilling planA1A2ON Stop0V+24V StartOFF_N COMSupply voltage Contactor 321X5A1A2ON OFF_NCOM 0V+24V Stop_nStart Supply voltage Contactor 321X51S F C 101021F 02011S F C 101022F 02011S F C 101018F 0201Note: Emergency stop should disconnect A1 and A2Mounting positionsPos.51S F C 101034F 020110ABB1SFC101005C0201TypesRated current AC-1, 40 °C IEC General use ratingULA Comprehensive product portofolioA.., AF .., 3-pole ContactorsA.., EK.., 4-pole ContactorsABB 111SFC 101005C0201World-wide support,industry-wide experienceAutomation TechnologiesThe Automation Technologies division serves customers in the automotive, chemicals, consumer, electronics, life sciences,manufacturing, marine, metals, minerals, paper, petroleum,turbo-charging and utility industries.Besides strong domain knowledge of the industries we serve, our offer includes IT -based measurement, control,instrumentation, drives, motors, power electronics, robots,software and a broad range of low-voltage products. Much of this is sold through external channel partners such as distributors, system integrators, contractors and original equipment manufacurers.Low Voltage ProductsThe new range of motor control equipment is supported by technical documentation and coordination tables. This together with improved design and more compact units makes it easier than ever to incorporate our products in your projects.Interested in more information about:• ABB Low Voltage Products offer?• Coordination tables according to IEC 947-4-1• Downloads of catalogues and other marketing and technical documentation?Please enter /lowvoltage or contact your local ABB sales office.As part of its on-going product improvement, ABB re-serves the rights to modify the characteristics or the pro-ducts described in this document. The information given is not-contractual. For further details please contact the ABB company marketing these products in your country.A B B A u t o m a t i o n T e c h n o l i g i e s A B / C e w e -C o n t r o l , S E -721 61 V äs t e r ås , S w e d e n , T e l e p h o n e +46 21 32 07 00, T e l e f a x +46 21 12 60 011S F C 101005C 0201, M a r c h 2004, P r o d . A B B A u t o m a t i o n T e c h n o l o g i e s A B / C e w e -C o n t r o l /X M , P r o n t e d i n t V äs t e r ås , S w e d e n。