PFCL201C 5.0KN模块控制器
(E)系统保护LZM…3(-4)-AE630 E 1 1 0.90 0.85 0.80 LZM…4技术数据LZM1、LZM2、LZM3、LZM4注释表中规定的值适用于负载分布相等的3极和4极固定安装设备。在四极器件上,N导体中的电流等于零。总电阻负载是三极或四极开关的测量值。对于三极或四极开关,总散热量是在I n,50/60Hz下测得的值。散热量可通过以下公式计算:P=3 x R x I²注:表中所列值适用于负载分布相等的3极和4极设备。在四极器件上,N导体中的电流等于零。总电阻负载是三极或四极开关的测量值(与In和释放类型无关)。散热量可通过以下 0 79 256 400–––72 151 500–––93 124 LZM,最大1000 A,带电子脱扣器(3极和4极)LZM3 LZM4 R[µOhm][µOhm]100 37 57伊顿公司CA012002EN端子容量技术数据LZM…注释1)额定电流In确定符合IEC/EN 60947(开关设备标准),通常与最大定义横截面相关,并用于定向。必须遵守适用于每种情况的工程标准。2) 取决于1断路器技术数据LZM…1,LZM…2,LZM..3,LZM.4额定不间断电流最大160 A LZMB1 LZMC1 LZMN1通用标准IEC/EN 60947防直接接触手指和手背防护符合VDE 0106第100部分气候防护湿热,恒定,符合IEC 60068-2-78湿热,符合IEC 60068-2-30的周期性环境温度存储°C–25…+70操作°C–30…+70机械抗冲击性(IEC/EN 60068-2-27)20(半正弦冲击20 ms)符合VDE 0106第101部分和第101/A1部分的安全隔离辅助触点和主触点之间的V AC 500辅助触点之间的AC 300安装位置垂直和所有方向的90°输入电源按要求的防护等级操作控制区域内的设备:IP20(基本防护等级)外壳,绝缘外壳:IP40,带门耦合旋转手柄:IP66端子隧道端子:IP10相位隔离器和条形端子:IP00断路器额定冲击耐受电压Uimp主触点V 6000 6000 6000辅助触点V 6000 60006000额定工作电压Ue V AC 440 440过电压类别/污染等级III/3 III/3额定绝缘电压Ui V 690 690 690开关容量额定短路闭合容量240 V I cm kA 63 121 187 400/415 V I cm 额定短时耐受电流t=0.3 s I cw kA––t=1 s I cwkA–––额定接通和断开容量额定工作电流AC-1 40 EATON CORPORATION CA012002EN 52注释1)最大备用保险丝,如果安装位置的预期短路电流超过断路器的开关容量2)对于电流热损失,规范指的是框架尺寸断路器的最大标称电流技术数据LZM…1、LZM…2、LZM..3,LZM…4额定不连续电流额定不间断电流最大300 A最大630 A最大1000 A LZMB2 LZMC2 LZMN2 LZMC3 LZMN3 LZMN4 IEC/EN 60947,符合VDE 0106第100部分的手指和手背防潮,恒定,符合IEC 60068-2-78湿热,符合IEC 60068-2-30–25…+70–25…+70 20(半正弦冲击20 ms)500 300垂直,各方向90°根据要求在操作控制区域:IP20(基本防护等级)绝缘环绕:IP40,带门联轴节旋转手柄:IP66隧道端子:IP10相位隔离器和条形端子: RPORATION CA012002EN 53隔离开关技术数据LN…注释1)当前热损失额定值指框架的最大电流额定值大小LN1(-4)LN2(-4)LNG(-4)最大160 A最大250 A最大630 A最大1000 A开关隔离开关额定冲击耐受电压主触点Uimp Ui V AC 690 690 1000 1000用于IT电力网络V 690 690 525开关容量额定短路闭合容量I cm kA 2.8 5.5 25 53额定短时耐受电流t=0.3 s I cw kA 3
(E) System protection LZM... 3 (- 4) - AE630 E 1 1 0.90 0.85 0.80 LZM... 4 The values specified in the notes table of technical data LZM1, LZM2, LZM3, LZM4 are applicable to 3-pole and 4-pole fixed installation equipment with equal load distribution. On a quadrupole device, the current in the N-conductor is equal to zero. The total resistive load is a measurement of a three pole or four pole switch. For three or four pole switches, the total heat dissipation is measured at I n, 50/60Hz. Heat dissipation can be calculated by the following formula: P=3 x R x I ² Note: The values listed in the table are applicable to 3-pole and 4-pole equipment with equal load distribution. On a quadrupole device, the current in the N-conductor is equal to zero. The total resistive load is a measurement of a three pole or four pole switch (independent of In and release type). Heat dissipation can be determined to conform to IEC/EN 60947 (switchgear standard) by the following 0 79 256 400 – – 72 151 500 – – 93 124 LZM, maximum 1000 A, LZM3 LZM4 R [µ Ohm] [µ Ohm] 100 37 57 EATON CA012002 EN terminal capacity technical data LZM... Note 1) Rated current In, usually related to the maximum defined cross-section, is used for orientation. The engineering standards applicable to each case must be observed. 2) Depends on 1 circuit breaker technical data LZM... 1, LZM... 2, LZM. 3, LZM 4 Rated uninterrupted current Maximum 160 A LZMB1 LZMC1 LZMN1 General standard IEC/EN 60947 Protection against direct contact with fingers and back of hand complies with VDE 0106 Part 100 Climate protection Damp heat, constant, complies with IEC 60068-2-78 Damp heat, Periodic ambient temperature storage according to IEC 60068-2-30 ° C – 25...+70 operation ° C – 30...+70 mechanical impact resistance (IEC/EN 60068-2-27) 20 (half sine impact 20 ms) Safety isolation according to VDE 0106 Part 101 and Part 101/A1 AC 300 between auxiliary contacts and V AC 500 auxiliary contacts between main contacts Installation position 90 ° input power supply in vertical and all directions Operate equipment in the control area according to the required protection level: IP20 (Basic protection level) enclosure, insulated enclosure: IP40, Door coupling rotary handle: IP66 terminal Tunnel terminal: IP10 phase isolator and strip terminal: IP00 circuit breaker Rated impulse withstand voltage Uimp Main contact V 6000 6000 6000 Auxiliary contact V 6000 60006000 Rated working voltage Ue V AC 440 440 Overvoltage category/pollution level III/3 III/3 Rated insulation voltage Ui V 690 690 690 Switch capacity Rated short circuit making capacity 240 V I cm kA 63 121 187 400/415 V I cm Rated short time withstand current t=0.3 s I c W kA – – t=1 s I cwkA – – – rated making and breaking capacity Rated working current AC-1 40 EATON CORPORATION CA012002EN 52 Note 1) Maximum standby fuse, if the expected short circuit current at the installation location exceeds the switching capacity of the circuit breaker 2) For current heat loss, the specification refers to the maximum nominal current technical data LZM... 1, LZM... 2, LZM.. 3 of the frame size circuit breaker, LZM... 4 Rated discontinuous current Rated uninterrupted current Maximum 300 A Maximum 630 A Maximum 1000 A LZMB2 LZMC2 LZMN2 LZMC3 LZMN3 LZMN4 IEC/EN 60947, in accordance with VDE 0106 Part 100, fingers and backs of hands are moistureproof, constant, in accordance with IEC 60068-2-78, humidity and heat, in accordance with IEC 60068-2-30 – 25...+70 – 25...+70 20 (semi sinusoidal impact 20 ms) 500 300 vertical, 90 ° in each direction, in the operation control area as required: IP20 (basic protection level), insulation surround: IP40, Rotary handle of coupling with door: IP66 tunnel terminal: IP10 phase isolator and strip terminal: RPORATION CA012002EN 53 Technical data LN... Note 1) Current heat loss rating refers to the maximum current rating of the frame LN1 (- 4) LN2 (- 4) LNG (- 4) Max 160 A Max 250 A Max 630 A Max 1000 A Rated impulse withstand voltage of switch disconnector Main contact Uimp Ui V AC 690 690 1000 1000 for IT power network V 690 690 525 Switch capacity Rated short circuit making capacity I cm kA 2.8 5.5 25 53 Rated short time withstand current t=0.3 s I cw kA 3
