Circuit breaker 3p system/cable + terminal at top
Circuit breaker 3p system/cable + terminal at top
Product range | Circuit-breaker | |||
Protective function | System and cable protection | |||
Standard/Approval | IEC | |||
Installation type | Fixed | |||
Release system | Thermomagnetic release | |||
Construction size | NZM2 | |||
Number of poles | 3 pole | |||
Standard equipment | Box terminal top screw connection bottom | |||
400/415 V 50 Hz [Icu ] | 50 kA | |||
Rated current = rated uninterrupted current [In = Iu] | 160 A | |||
Standards | IEC/EN 60947 | |||
Protection against direct contact | Finger and back of hand proof to VDE 0106 Part 100 | |||
Climatic proofing | Damp heat, constant, to IEC 60068-2-78 Damp heat, cyclic, to IEC 60068-2-30 |
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Ambient temperature >Ambient temperature, storage |
- 40 - + 70 °C | |||
Ambient temperature >Operation |
-25 - +70 °C | |||
Mechanical shock resistance (10 ms half-sinusoidal shock) according to IEC 60068-2-27 | 20 (half-sinusoidal shock 20 ms) g | |||
Safe isolation to EN 61140 >Between auxiliary contacts and main contacts |
500 V AC | |||
Safe isolation to EN 61140 >between the auxiliary contacts |
300 V AC | |||
Weight | 2.345 kg | |||
Mounting position | ||||
Direction of incoming supply | as required | |||
Degree of protection >Device |
In the operating controls area: IP20 (basic degree of protection) | |||
Degree of protection >Enclosures |
With insulating surround: IP40 With door coupling rotary handle: IP66 |
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Degree of protection >Terminations |
Tunnel terminal: IP10 Phase isolator and strip terminal: IP00 |
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Other technical data (sheet catalogue) | Weight Temperature dependency, Derating Effective power loss |
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Rated current = rated uninterrupted current [In = Iu] | 160 A | |||
Rated surge voltage invariability [Uimp
] >Main contacts |
8000 V | |||
Rated surge voltage invariability [Uimp
] >Auxiliary contacts |
6000 V | |||
Rated operational voltage [Ue] | 690 V AC | |||
Rated operational voltage [Ue] | 750 V DC | |||
Overvoltage category/pollution degree | The following settings are required in order to ensure correct tripping: The fast-response release will take longer to respond when used for DC applications. Because of this, the setting on the trip block inscription, which is specified for AC currents, must be set to a lower value for DC currents. DC correction factor for instantaneous release response value: o NZM1: 1.25 o NZM2: 1.35 o NZM3: 1.45 Example: NZM3 Ie = 500A. Desired DC tripping current: 10 * Ie = 5000A. Calculation: • Desired DC value / correction factor = AC setting on trip block • 5000A / 1.45 = 3448 A ~ 7 * Ie = Value that needs to be set on the trip block Permitted circuit configurations: |
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Rated insulation voltage [Ui ] | III/3 | |||
Use in unearthed supply systems | 1000 V | |||
Rated short-circuit making capacity [Icm
] >240 V [Icm ] |
≦ 690 V | |||
Rated short-circuit making capacity [Icm
] >400/415 V [Icm ] |
187 kA | |||
Rated short-circuit making capacity [Icm
] >440 V 50/60 Hz [Icm ] |
110 kA | |||
Rated short-circuit making capacity [Icm
] >525 V 50/60 Hz [Icm ] |
77 kA | |||
Rated short-circuit making capacity [Icm
] >690 V 50/60 H [Ic] |
55 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Icu to IEC/EN 60947 test cycle O-t-CO [Icu] >240 V 50/60 Hz [Icu ] |
40 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Icu to IEC/EN 60947 test cycle O-t-CO [Icu] >400/415 V 50/60 Hz [Icu ] |
85 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Icu to IEC/EN 60947 test cycle O-t-CO [Icu] >440 V 50/60 Hz [Icu ] |
50 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Icu to IEC/EN 60947 test cycle O-t-CO [Icu] >525 V 50/60 Hz [Icu ] |
35 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Icu to IEC/EN 60947 test cycle O-t-CO [Icu] >690 V 50/60 Hz [Icu ] |
25 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Icu to IEC/EN 60947 test cycle O-t-CO [Icu] >500 V DC [Icu] |
20 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Icu to IEC/EN 60947 test cycle O-t-CO [Icu] >750 V DC [Icu] |
30 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Ics to IEC/EN 60947 test cycle O-t-CO-t-CO [Ics] >240 V 50/60 Hz [Ics ] |
30 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Ics to IEC/EN 60947 test cycle O-t-CO-t-CO [Ics] >400/415 V 50/60 Hz [Ics ] |
85 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Ics to IEC/EN 60947 test cycle O-t-CO-t-CO [Ics] >440 V 50/60 Hz [Ics ] |
50 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Ics to IEC/EN 60947 test cycle O-t-CO-t-CO [Ics] >525 V 50/60 Hz [Ics ] |
35 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Ics to IEC/EN 60947 test cycle O-t-CO-t-CO [Ics] >690 V 50/60 Hz [Ics] |
25 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Ics to IEC/EN 60947 test cycle O-t-CO-t-CO [Ics] >500 V DC [Ics] |
5 kA | |||
Rated short-circuit breaking capacity Icn [Icn
] >Ics to IEC/EN 60947 test cycle O-t-CO-t-CO [Ics] >750 V DC [Ics] |
7.5 kA | |||
Rated short-circuit breaking capacity Icn [Icn ] | 7.5 kA | |||
Rated short-time withstand current >t = 0.3 s [Icw ] |
Maximum back-up fuse, if the expected short-circuit currents at the installation location exceed the switching capacity of the circuit-breaker. | |||
Rated short-time withstand current >t = 1 s [Icw ] |
1.9 kA | |||
Utilization category to IEC/EN 60947-2 | 1.9 kA | |||
Lifespan, mechanical(of which max. 50 % trip by shunt/undervoltage release) [Operations] | A | |||
Lifespan, electrical >AC-1 >400 V 50/60 Hz [Operations] |
20000 | |||
Lifespan, electrical >AC-1 >415 V 50/60 Hz [Operations] |
10000 | |||
Lifespan, electrical >AC-1 >690 V 50/60 Hz [Operations] |
10000 | |||
Lifespan, electrical >AC--3 >400 V 50/60 Hz [Operations] |
7500 | |||
Lifespan, electrical >AC--3 >415 V 50/60 Hz [Operations] |
6500 | |||
Lifespan, electrical >AC--3 >690 V 50/60 Hz [Operations] |
6500 | |||
Lifespan, electrical >Max. operating frequency |
5000 | |||
Total break time at short-circuit | 120 Ops/h | |||
Standard equipment | < 10 ms | |||
Optional accessories | Box terminal top screw connection bottom | |||
Round copper conductor >Box terminal >Solid |
Box terminal Tunnel terminal connection on rear |
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Round copper conductor >Box terminal >Stranded |
1 x (10 - 16) 2 x (6 - 16) mm2 |
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Round copper conductor >Tunnel terminal >Solid |
1 x (25 - 185) 2 x (25 - 70) mm2 |
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Round copper conductor >Tunnel terminal >Stranded >1-hole |
1 x 16 mm2 | |||
Round copper conductor >Bolt terminal and rear-side connection >Direct on the switch >Solid |
1 x (25 - 185) mm2 | |||
Round copper conductor >Bolt terminal and rear-side connection >Direct on the switch >Stranded |
1 x (10 - 16) 2 x (6 - 16) mm2 |
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Al circular conductor >Tunnel terminal >Solid |
1 x (25 - 185) 2 x (25 - 70) mm2 |
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Al circular conductor >Tunnel terminal >Stranded >Stranded |
1 x 16 mm2 | |||
Cu strip (number of segments x width x segment thickness) >Box terminal [min.] |
1 x (25 - 185) mm2 | |||
Cu strip (number of segments x width x segment thickness) >Box terminal [max.] |
2 x 9 x 0.8 mm | |||
Cu strip (number of segments x width x segment thickness) >Bolt terminal and rear-side connection >Flat copper strip, with holes [min.] |
10 x 16 x 0.8 (2x) 8 x 15.5 x 0,8 mm |
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Cu strip (number of segments x width x segment thickness) >Bolt terminal and rear-side connection >Flat copper strip, with holes [max.] |
2 x 16 x 0.8 mm | |||
Copper busbar (width x thickness) [mm] >Bolt terminal and rear-side connection >Screw connection |
10 x 24 x 0.8 mm | |||
Copper busbar (width x thickness) [mm] >Bolt terminal and rear-side connection >Direct on the switch [min.] |
M8 | |||
Copper busbar (width x thickness) [mm] >Bolt terminal and rear-side connection >Direct on the switch [max.] |
16 x 5 mm | |||
Control cables | 24 x 8 mm | |||
Rated operational current for specified heat dissipation [In] | 1 x (0.75 - 2.5) 2 x (0.75 - 1.5) mm2 |
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Equipment heat dissipation, current-dependent [Pvid] | 160 A | |||
Operating ambient temperature min. | 38.4 W | |||
Operating ambient temperature max. | -25 °C | |||
10.2 Strength of materials and parts >10.2.2 Corrosion resistance |
+70 °C | |||
10.2 Strength of materials and parts >10.2.3.1 Verification of thermal stability of enclosures |
Meets the product standard´s requirements. | |||
10.2 Strength of materials and parts >10.2.3.2 Verification of resistance of insulating materials to normal heat |
Meets the product standard´s requirements. | |||
10.2 Strength of materials and parts >10.2.3.3 Verification of resistance of insulating materials to abnormal heat and fire due to internal electric effects |
Meets the product standard´s requirements. | |||
10.2 Strength of materials and parts >10.2.4 Resistance to ultra-violet (UV) radiation |
Meets the product standard´s requirements. | |||
10.2 Strength of materials and parts >10.2.5 Lifting |
Meets the product standard´s requirements. | |||
10.2 Strength of materials and parts >10.2.6 Mechanical impact |
Does not apply, since the entire switchgear needs to be evaluated. | |||
10.2 Strength of materials and parts >10.2.7 Inscriptions |
Does not apply, since the entire switchgear needs to be evaluated. | |||
10.3 Degree of protection of ASSEMBLIES | Meets the product standard´s requirements. | |||
10.4 Clearances and creepage distances | Does not apply, since the entire switchgear needs to be evaluated. | |||
10.5 Protection against electric shock | Meets the product standard´s requirements. | |||
10.6 Incorporation of switching devices and components | Does not apply, since the entire switchgear needs to be evaluated. | |||
10.7 Internal electrical circuits and connections | Does not apply, since the entire switchgear needs to be evaluated. | |||
10.8 Connections for external conductors | Is the panel builder´s responsibility. | |||
10.9 Insulation properties >10.9.2 Power-frequency electric strength |
Is the panel builder´s responsibility. | |||
10.9 Insulation properties >10.9.3 Impulse withstand voltage |
Is the panel builder´s responsibility. | |||
10.9 Insulation properties >10.9.4 Testing of enclosures made of insulating material |
Is the panel builder´s responsibility. | |||
10.10 Temperature rise | Is the panel builder´s responsibility. | |||
10.11 Short-circuit rating | The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices. | |||
10.12 Electromagnetic compatibility | Is the panel builder´s responsibility. The specifications for the switchgear must be observed. | |||
10.13 Mechanical function | Is the panel builder´s responsibility. The specifications for the switchgear must be observed. |
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