Presentation Thermal-magnetic motor circuit-breakers types GV, GV and GV7 GV-ME, GV-P, GV-ME and GV7-R motor circuit-breakers are -pole thermal-magnetic circuit-breakers specifically designed for the control and protection of motors, conforming to standards IEC/EN 60947- and IEC/EN 60947-4-. Connection These circuit-breakers are designed for connection by screw clamp terminals. Circuit-breaker GV-ME can be supplied with spring terminal connections. These ensure secure, permanent and durable clamping that is resistant to harsh environments, vibration and impact and is even more effective when conductors without cable ends are used. Each connection can take two independent conductors. GV-ME with screw clamp connections Operation O I 4 O I 4 4 O. GV-ME with spring terminal connections GV-P GV-ME GV-ME GV-P GV7-R GV-ME and GV-ME: Pushbutton control. Energisation is controlled manually by operating the Start button I. De-energisation is controlled manually by operating the Stop button O, or automatically by the thermal-magnetic protection elements or by a voltage trip attachment. to position O. Control is manual and local when the motor circuit-breaker is used on its own. Control is automatic and remote when it is associated with a contactor. Protection of motors and personnel GV-P: control by rotary knob. GV7-R: control by rocker lever. Energisation is controlled manually by moving the knob or rocker lever to position I. De-energisation is controlled manually by moving the knob or rocker lever to position O. De-energisation due to a fault automatically places the knob or rocker lever in the Trip position. Re-energisation is possible only after having returned the knob or rocker switch Motor protection is provided by the thermal-magnetic protection elements incorporated in the motor circuit-breaker. The magnetic elements (short-circuit protection) have a non-adjustable tripping threshold, which is equal to about times the maximum setting current of the thermal trips. The thermal elements (overload protection) include automatic compensation for ambient temperature variations. The rated operational current of the motor is displayed by means of a graduated knob 4. Personnel protection is also provided. All live parts are protected against direct finger contact. The addition of an undervoltage trip allows the circuit-breaker to be de-energised in the event of an undervoltage condition. The user is therefore protected against sudden starting of the machine when normal voltage is restored, since the Start button I has to be pressed to restart the motor. With the addition of a shunt trip, de-energisation of the unit can be remotely controlled. GV-ME The operators on both open-mounted and enclosed motor circuit-breakers can be locked in the Stop position O by up to padlocks. Because they are suitable for isolation, these circuit-breakers, in the open position, provide an adequate isolation distance and indicate the actual position of the moving contacts by the position of the operators. Special features These motor circuit-breakers are easily installed in any configuration thanks to their universal fixing arrangement: screw fixing or clip-on mounting on symmetrical, asymmetrical or combination rails. GV7-R Characteristics: pages /5 to /7 & /5 to /0 pages /4 to /48 pages /49 to /5 /
Definitions, comments Coordination (according to standard IEC/EN 60947-4-) The standard defines the degree of acceptable damage to the equipment following a short-circuit. Standard IEC/EN 60947-4- (motor-starters) defines types Type Damage to motor-starter components is The fault current has been successfully interrupted. coordination accepted. No damage has been caused to persons or to installations. Type coordination Welding of the contactor or motor-starter contacts is accepted providing they can be easily separated. Coordination table for GV + contactors: see the Technical & Application guide at www.schneider.co.uk.. Iq = rated conditional short-circuit current (ka) - that the circuit-breaker can interrupt - that the associated motor-starter components can withstand without damage. Suitability for isolation x According to standard IEC/EN 60947-, sub-clause 7--6 (additional safety requirements for equipment suitable for isolation): Equipment suitable for isolation shall provide in the open position and isolating distance in accordance with the requirements necessary to satisfy the isolating function and shall be fitted with an indicating device indicating the position of the moving contacts. This position indicator shall be connected to the moving contacts in a reliable way; the handle may form such an indicator, providing it cannot indicate the open position when released unless all the moving contacts are in the open position. Breaking capacity (according to standard IEC/EN 60947-) Icu: Rated ultimate short-circuit breaking capacity Breaking capacity for which the prescribed conditions according to a specified test sequence do not include the capability of the circuit-breaker to carry its rated current continuously following the sequence of operations )O-t-CO. Ics: Rated service short-circuit breaking capacity Breaking capacity for which the prescribed conditions according to a specified test sequence include the capability of the circuit-breaker to carry its rated current continuously following the sequence of operations O-t-CO-t-CO. It is expressed as a percentage of Icu (5, 50, 75 or 00%). In operational conditions, the short-circuit currents normally encountered rarely exceed 5 to 50% of the prospective short-circuit current at the point of installation of the circuit-breaker. Other definitions Discrimination (selectivity) Discrimination of protective devices requires that protection against a fault arising at any point of the network is effected by the nearest device on the supply side of the fault. Discrimination may be total or partial. In the latter case the overcurrent limit must be defined. See pages /0 to /4. Cascading Where two separate protective devices in series operate at the same time under short circuit fault conditions, the breaking capacity lcu of the downstream device is increased. See page /0. Current limiting By the use of additional poles operating in series with the main poles, the overall breaking capacity lcu of a motor circuitbreaker is substantially increased. A single current limiting block may be used in conjunction with a number of motor circuit-breakers up to the 6 A thermal limit. See page /6. Sensitivity to phase loss (according to standard IEC/EN 60947-4-, sub-clause 7...5.) Limits of operation of -pole thermal overload relays energised on two poles: With the overload relay energised on two poles at.0 times the current setting (Ir) and on one pole at 0.9 Ir, tripping shall not occur in less than hours starting from the cold state at 0 o C. When the value Ir flowing in two poles is increased to.5 Ir and the third pole is de-energised, tripping shall occur in less than hours. See curves, pages /8 to /0. /4
Characteristics Thermal-magnetic motor circuit-breakers types GV-ME and GV-P (Also applies to GV-RT. Use GV-ME table eg: for GV-RT4 use GV-ME4 data) Breaking capacity of GV-ME and GV-P Circuit-breaker type GV- GV- ME0 ME07 ME08 ME0 ME4 ME6 ME0 ME ME P0 P07 P08 P0 P4 P6 P0 P P to and to and ME06 ME P06 P Rating A 0..5 4 6. 0 4 8 0..5 4 6. 0 4 8 to and to and.6 5.6 5 Breaking capacity 0/ Icu ka g g g g g g g 50 50 g g g g g g g g g conforming to 40 V IEC/EN 60947- Ics g g g g g g g 00 00 g g g g g g g g g % () 400/ Icu ka g g g g g 5 5 5 0 g g g g g g 50 50 50 45 V Ics g g g g g 50 50 40 50 g g g g g g 50 50 50 % () 440 V Icu ka g g g 50 5 8 8 6 6 g g g g g 50 0 0 0. Ics g g g 00 00 50 50 50 50 g g g g g 75 75 75 75 % () 500 V Icu ka g g g 50 0 6 6 4 4 g g g g 50 4 0 0 0 Ics g g g 00 00 75 75 75 75 g g g g 00 75 75 75 75 % () 690 V Icu ka g g 8 8 6 6 6 4 4 4 Ics g 75 75 75 75 75 75 75 75 g 00 00 00 00 00 00 00 00 % () Associated fuses (if required) if Isc > breaking capacity Icu conforming to 0/ am A g g g g g g g 80 80 g g g g g g g g g IEC/EN 60947-40 V gg A g g g g g g g 00 00 g g g g g g g g g 400/ am A g g g g g 6 6 80 80 g g g g g g 00 00 00 45 V gg A g g g g g 80 80 00 00 g g g g g g 5 5 5 440 V am A g g g 50 50 50 50 6 6 g g g g g 50 6 80 80 gg A g g g 6 6 6 6 80 80 g g g g g 6 80 00 00 500 V am A g g g 50 50 50 50 50 50 g g g g 50 50 50 50 50 gg A g g g 6 6 6 6 6 6 g g g g 6 6 6 6 6 690 V am A g 6 5 40 40 40 40 g 0 5 40 40 50 50 50 50 gg A g 0 40 40 50 50 50 50 g 5 50 50 6 6 6 6 g > 00 ka. () As % of Icu. pages / to /4 pages /4 to /48 pages /49 to /5 /5
Characteristics (continued) Thermal-magnetic motor circuit-breakers types GV-ME and GV-P (Also applies to GV-RT. Use GV-ME table eg: for GV-RT4 use GV-ME4 data) Breaking capacity of GV-ME and GV-P (used in association with current limiter GV-L) Circuit-breaker type GV- ME0 ME07 ME08 ME0 ME4 ME6 ME0 ME ME ME to ME06 Rating A 0..6.5 4 6. 0 4 8 5 Breaking capacity 0/ Icu ka g g g g g g g g g g conforming to 40 V IEC/EN 60947- Ics g g g g g g g g g g % () 400/ Icu ka g g g g g 00 00 00 00 00 45 V Ics g g g g g 50 50 40 40 40 % () 440 V Icu ka g g g g g 50 0 0 0 0. Ics g g g g g 75 75 75 75 75 % () 500 V Icu ka g g g g 50 4 0 0 0 0 Ics g g g g 00 00 75 75 75 75 % () Circuit-breaker type GV- P0 P07 P08 P0 P4 P6 P0 P P P to P06 Rating A 0..6.5 4 6. 0 4 8 5 Breaking capacity 0/ Icu ka g g g g g g g g g g conforming to 40 V IEC/EN 60947- Ics g g g g g g g g g g % () 400/ Icu ka g g g g g g g g g g 45 V Ics g g g g g g g g g g % () 440 V Icu ka g g g g g 00 00 00 00 00 Ics g g g g g 50 50 50 50 50 % () 500 V Icu ka g g g g 00 00 00 00 00 00 Ics g g g g 50 50 50 50 50 50 % () 690 V Icu=Ics ka g 50 50 50 50 50 50 50 50 50 () Circuit-breaker type GV- ME0 ME07 ME08 ME0 ME4 ME6 ME0 ME ME ME to ME06 Rating A 0..6.5 4 6. 0 4 8 5 Cable protection against thermal stress in the event of short-circuit (PVC insulated copper cables) Minimum mm p p p 0 ka 6 ka () () () () () c.s.a. protected.5 mm p p p 0 ka 0 ka () () () () () at 40 C at Isc max..5 mm p p p p p p p p p () pages / to /4 4 6 mm p p p p p p p p p p g > 00 ka. p Cable c.s.a. protected. () As % of Icu. () Cable c.s.a. not protected. () With limiter LA9-LB90. pages /4 to /48 pages /49 to /5 /6
Characteristics Magnetic motor circuit-breakers types GV-LE and GV-L Breaking capacity of GV-LE and GV-L Type GV- GV- LE0 LE07 LE08 LE0 LE4 LE6 LE0 LE LE L0 L07 L08 L0 L4 L6 L0 L L to to LE06 L06 Rating A 0.4.5 4 6. 0 4 8 5 0.4.5 4 6. 0 4 8 5 to to.6 Breaking capacity 0/ Icu ka g g g g g g g 50 50 g g g g g g g 50 50 to IEC/EN 60947-40 V Ics g g g g g g g 00 00 g g g g g g g 00 00 % () 400/ Icu ka g g g g g 5 5 5 0 g g g g g 50 50 50 50 45 V Ics g g g g g 50 50 40 50 g g g g g 50 50 50 50 % () 440 V Icu ka g g g 50 5 8 8 6 6 g g g g 0 0 0 0 0. Ics g g g 00 00 50 50 50 50 g g g g 75 75 75 75 75 % () 500 V Icu ka g g g 50 0 6 6 4 4 g g g g 0 0 0 0 0 Ics g g g 00 00 75 75 75 75 g g g g 00 75 75 75 75 % () 690 V Icu ka g g 4 4 4 4 4 4 4 4 Ics g 75 75 75 75 75 75 75 75 g 00 00 00 00 00 00 00 00 % () Associated fuses (if required) If Isc > breaking capacity Icu to IEC/EN 60947-0/ am A g g g g g g g 80 80 g g g g g g g 00 00 40 V gg A g g g g g g g 00 00 g g g g g g g 5 5 Cable protection against thermal stress in the event of short-circuit (PVC insulated copper cables) 400/ am A g g g g g 6 6 80 80 g g g g g 80 00 00 00 45 V gg A g g g g g 80 80 00 00 g g g g g 00 5 5 5 440 V am A g g g 50 50 50 50 6 6 g g g g 50 6 80 80 80 gg A g g g 6 6 6 6 80 80 g g g g 6 80 00 00 00 500 V am A g g g 50 50 50 50 50 50 g g g g 50 50 50 50 50 gg A g g g 6 6 6 6 6 6 g g g g 6 6 6 6 6 690 V am A g 6 5 40 40 40 40 g 0 5 40 40 50 50 50 50 gg A g 0 40 40 50 50 50 50 g 5 50 50 6 6 6 6 Minimum c.s.a. mm ka p p p 0 6 () () () () p p p 0 6 () () () () protected at 40 C and at Isc max.5 mm ka p p p 0 0 () () () () p p p 0 0 () () () () pages / to /4.5 mm p p p p p p p p () p p p p p p p p () 4 6 mm p p p p p p p p p p p p p p p p p p g > 00 ka () As % of Icu () Cable c.s.a. not protected p Cable c.s.a. protected pages /4 to /48 pages /49 to /5 /7
Curves TeSys protection components Thermal-magnetic motor circuit-breakers types GV-ME and GV-P Thermal-magnetic tripping curves for GV-ME and GV-P Average operating time at 0 C according to multiples of the setting current Time (s) 0 000 000. 00 0 0, 0,0 0,00,5 0 00 x setting current (Ir) poles from cold state poles from cold state poles from hot state pages / to /4 /8 pages /4 to /48 pages /49 to /5
Curves TeSys protection components Thermal-magnetic motor circuit-breakers type GV-RT Thermal-magnetic tripping curves for GV-RT Time (s) 0 000 000 00. 0 0, 0,0 0,00 0 00 x setting current (Ir) poles from cold state poles from cold state poles from hot state pages / to /4 pages /4 to /48 pages /49 to /5 /9
Curves TeSys protection components Magnetic motor circuit-breakers types GV-L and GV-LE Tripping curves for GV-L or LE combined with thermal overload relay LRD or LR-K Average operating time at 0 C according to multiples of the setting current Time (s) 0 000 000. 00 0 0, 0,0 0,00 0 00 x setting current (Ir) poles from cold state poles from cold state poles from hot state pages / to /4 /0 pages /4 to /48 pages /49 to /5
Curves (continued) TeSys protection components Thermal-magnetic motor circuit-breakers types GV-ME and GV-P Current limitation on short-circuit for GV-ME and GV-P -phase 400/45 V Dynamic stress I peak = f (prospective Isc) at.05 Ue = 45 V Limited peak current (ka) 00 = 0.5 = 0.. 0 = 0.7 = 0.5 4 5 6 = 0.8 7 8 cos = 0.95 = 0.9 9 0 0, 0, 0 5 () 00 Prospective Isc (ka) Maximum peak current 7 6-0 A 4- A 8 4-6. A 0-5 A 9.5-4 A 4 7- A 0.6-.5 A 5-8 A -.6 A 6 9-4 A Limit of rated ultimate breaking capacity on short-circuit of GV-ME (4, 8, and 5 A ratings) pages / to /4 pages /4 to /48 pages /49 to /5 /
Curves (continued) TeSys protection components Magnetic motor circuit-breakers types GV-L and GV-LE Current limitation on short-circuit For GV-L and GV-LE only -phase 400/45 V Dynamic stress I peak = f (prospective Isc) at.05 Ue = 45 V Limited peak current (ka) 00 = 0.5. = 0. 0 = 0.7 = 0.5 4 5 6 = 0.9 = 0.8 7 8 9 0 cos = 0.95 0, 0, 0 5 00 Prospective Isc (ka) Maximum peak current 6 0 A. A 7 6. A 5 A 8 4 A 4 8 A 9.5 A 5 4 A 0.6 A Limit of rated ultimate breaking capacity on short-circuit of GV-LE (4, 8 and 5 A ratings) pages / to /4 / pages /4 to /48 pages /49 to /5
Curves (continued) TeSys protection components Magnetic motor circuit-breakers types GV-L and GV-LE Current limitation on short-circuit For GV-L and GV-LE + thermal overload relay LRD or LR-K -phase 400/45 V Dynamic stress I peak = f (prospective Isc) at.05 Ue = 45 V Limited peak current (ka) 00 = 0.5 = 0.. 0 = 0.7 = 0.5 4 5 = 0.8 6 7 cos = 0.95 = 0.9 8 9 0 0, 0, 0 5 00 Prospective Isc (ka) Maximum peak current 6 0 A A 7 6. A 5 A 8 4 A 4 8 A 9.5 A 5 4 A 0.6 A Limit of rated ultimate breaking capacity on short-circuit of GV-LE (4, 8 and 5 A ratings) pages / to /4 pages /4 to /48 pages /49 to /5 /
Curves (continued) TeSys protection components Thermal-magnetic motor circuit-breakers types GV-ME and GV-P Thermal limit on short-circuit for GV-ME Thermal limit in KA s in the magnetic operating zone Sum of I dt = f (prospective Isc) at.05 Ue = 45 V Sum of I dt (ka s) 00 4 5 6. 7 0 8 9 0 0, 0,0 0, 0 00 Prospective Isc (ka) 4- A 6 6-0 A 0-5 A 7 4-6. A 7- A 8.5-4 A 4-8 A 9.6-.5 A 5 9-4 A 0 -.6 A pages / to /4 /4 pages /4 to /48 pages /49 to /5
Curves (continued) TeSys protection components Thermal-magnetic motor circuit-breakers types GV-ME and GV-P Thermal limit on short-circuit for GV-P Thermal limit in ka s in the magnetic operating zone Sum of I dt = f (prospective Isc) at.05 Ue = 45 V Sum of I dt (ka s) 00 4 5 6. 0 7 8 9 0, 0,0 0, 0 00 Prospective Isc (ka) 4- A 6 6-0 A 0-5 A 7 4-6. A 7- A 8.5-4 A 4-8 A 9.6-.5 A 5 9-4 A 0 -.6 A pages / to /4 pages /4 to /48 pages /49 to /5 /5
Curves (continued) TeSys protection components Magnetic motor circuit-breakers types GV-L and GV-LE Thermal limit on short-circuit for GV-L only Thermal limit in ka s in the magnetic operating zone Sum of I dt = f (prospective Isc) at.05 Ue = 45 V Sum of I dt (ka s) 00. 4 5 6 0 7 8 0, 0,0 0, 0 00 Prospective Isc (ka) 5 A and A 5 6. A 8 A 6 4 A 4 A 7.5 A 4 0 A 8.6 A pages / to /4 /6 pages /4 to /48 pages /49 to /5
Curves (continued) TeSys protection components Magnetic motor circuit-breakers types GV-L and GV-LE Thermal limit on short-circuit for GV-LE only Thermal limit in ka s in the magnetic operating zone Sum of I dt = f (prospective Isc) at.05 Ue = 45 V Sum of I dt (ka s) 00 4 5 6. 0 7 8 9 0, 0,0 0, 0 00 Prospective Isc (ka) A 6 6. A 5 A 7 4 A 8 A 8.5 A 4 4 A 9.6 A 5 0 A pages / to /4 pages /4 to /48 pages /49 to /5 /7
Curves (continued) TeSys protection components Magnetic motor circuit-breakers types GV-L and GV-LE Thermal limit on short-circuit For GV-L and GV-LE + thermal overload relay LRD or LR-K Thermal limit in ka s in the magnetic operating zone Sum of I dt = f (prospective Isc) at.05 Ue = 45 V Sum of Idt (ka s) 00 4. 5 6 0 7 8 9 0, 0 0,0 0, 0 5 00 Prospective Isc (ka) A (GV-LE) 7 4 A 5 A and A (GV-L) 8.5 A 8 A 9.6 A 4 4 A 0 Limit of rated ultimate breaking capacity on short-circuit 5 0 A of GV-LE (4, 8 and 5 A ratings) 6 6. A pages / to /4 /8 pages /4 to /48 pages /49 to /5
Earth loop impedance Maximum Earth Fault Loop Impedance Z S for 0.4s disconnection time with U 0 0V () Thermal Adjustment Magnetic Tripping Tolerance Maximum Loop Reference Range I n Current I m I m +0% Impedance Z s (A) (A) (A) (Ω) GV-ME0 0...0.6.50.80 7.78 GV-ME0 0.6...0.5.40.88 79.86 GV-ME0 0.5...0.4 5.00 6.00 8. GV-ME04 0.4...0.6 8.00 9.60.96 GV-ME05 0.6....00 5.60 4.74 GV-ME06...6.50 7.00 8.5 GV-ME07.6...5.50 40.0 5.7 GV-ME08.5...4 5.00 6.0.76 GV-ME0 4...6. 78.00 9.60.46 GV-ME4 6...0 8.00 65.60.9 GV-ME6 9...4 70.00 04.00. GV-ME0...8.00 67.60 0.86 GV-ME 7... 7.00 9.40 0.59 GV-ME 0...5 7.00 9.40 0.59 GV-ME 4... 46.00 499.0 0.46 GV-P0 0...0.6.50.80 7.78 GV-P0 0.6...0.5.40.88 79.86 GV-P0 0.5...0.4 5.00 6.00 8. GV-P04 0.4...0.6 8.00 9.60.96 GV-P05 0.6....00 5.60 4.74 GV-P06...6.50 7.00 8.5 GV-P07.6...5.50 40.0 5.7 GV-P08.5...4 5.00 6.0.76 GV-P0 4...6. 78.00 9.60.46 GV-P4 6...0 8.00 65.60.9 GV-P6 9...4 70.00 04.00. GV-P0...8.00 67.60 0.86 GV-P 7... 7.00 9.40 0.59 GV-P 0...5 7.00 9.40 0.59. GV-L0 0.4 5.00 6.00 8. GVL-L04 0.6 8.00 9.60.96 GV-L05.00 5.60 4.74 GV-L06.6.50 7.00 8.5 GV-L07.5.50 40.0 5.7 GV-L08 4 5.00 6.0.76 GV-L0 6. 78.00 9.60.46 GV-L4 0 8.00 65.60.9 GV-L6 4 70.00 04.00. GV-L0 8.00 67.60 0.86 GV-L 5 7.00 9.40 0.59 GV-LE0 0.4 5.00 6.00 8. GVL-LE04 0.6 8.00 9.60.96 GV-LE05.00 5.60 4.74 GV-LE06.6.50 7.00 8.5 GV-LE07.5.50 40.0 5.7 GV-LE08 4 5.00 6.0.76 GV-LE0 6. 78.00 9.60.46 GV-LE4 0 8.00 65.60.9 GV-LE6 4 70.00 04.00. GV-LE0 8.00 67.60 0.86 GV-LE 5 7.00 9.40 0.59 GV-LE 46.00 499.0 0.46 GV-RT0 0.5...0.4 8.00 9.60.96 GV-RT04 0.4...0.6.00 5.60 4.74 GV-RT05 0.6....00 6.40 8.7 GV-RT06...6.00 9.60 5.8 GV-RT07.6...5 5.00 6.0.76 GV-RT08.5...4 78.00 9.60.46 GV-RT0 4...6. 8.00 65.60.9 GV-RT4 6...0 00.00 40.00 0.96 GV-RT6 9...4 80.00 6.00 0.68 GV-RT0...8 400.00 480.00 0.48 GV-RT 7... 400.00 480.00 0.48 () Whilst the IEE Regulations provide for a disconnection time of 5s for fixed equipment, the value of impedance obtained will limit the current to a level which may affect the starting characteristics of the motor. Dimensions, mounting: pages / to /4 pages /4 to /48 pages /49 to /5 /9
Discrimination Cascading Upstream circuit-breaker NSC00N NS00N NS00H NS00L Breaking capacity ka rms 8 5 70 50 Downstream circuit-breaker Breaking capacity (ka rms) GV-ME 4 A 8 5 50 50 GV-L 8 A 70 50 GV-P 8 A 70 50 GV-L or GV-LE upstream circuit-breaker. Upstream circuit-breaker L4 L6 L0 L trip unit LE4 LE6 LE0 LE Rating (A) 0 4 8 5 Downstream Rating Discrimination (A) circuit-breaker (A) GV-ME0 0.6 GV-ME0 0.5 GV-ME0 0.4 GV-ME04 0.6 GV-ME05 0000 GV-ME06.6 50 00 400 900 GV-ME07.5 00 50 00 400 GV-ME08 4 50 00 GV-ME0 6. GV-ME4 0 GV-ME6 4 GV-ME0 8 GV-ME GV-ME 5 GV-ME GV-P0 0.6 GV-P0 0.5 GV-P0 0.4 GV-P04 0.6 GV-P05 0000 GV-P06.6 50 00 400 900 GV-P07.5 00 50 00 400 GV-P08 4 50 00 GV-P0 6. GV-P4 0 GV-P6 4 GV-P0 8 GV-P GV-P 5 GV-L0 0.4 GV-L04 0.6 GV-L05 0000 GV-L06.6 50 00 400 900 GV-L07.5 00 50 00 400 GV-L08 4 50 00 GV-L0 6. GV-L4 0 GV-L6 4 GV-L0 8 GV-L 5 GV-LE0 0.4 GV-LE04 0.6 GV-LE05 0000 GV-LE06.6 50 00 400 900 GV-LE07.5 00 50 00 400 GV-LE08 4 50 00 GV-LE0 6. GV-LE4 0 GV-LE6 4 GV-LE0 8 GV-LE 5 GV-LE Total discrimination zone 50 Partial discrimination limited to 50 ka No discrimination Dimensions, mounting: pages / to /4 pages /4 to /48 pages /49 to /5 /0
Discrimination Compact NS00 or NS60N/H/L upstream circuit-breaker with TM-D trip unit Upstream circuit-breaker NS00N/H/L NS60N/H/L Trip unit TM-D TM-D Rating (A) 6 5 40 6 80 00 Downstream Thermal Rating Discrimination (ka) circuit-breaker overload relay (A) GV-ME0 Built-in 0. 0.6 GV-ME0 Built-in 0.6 0.5 GV-ME0 Built-in 0.5 0.40 GV-ME04 Built-in 0.40 0.6 GV-ME05 Built-in 0.6 GV-ME06 Built-in.6 GV-ME07 Built-in.6.5 GV-ME08 Built-in.5 4 0 GV-ME0 Built-in 4 6. GV-ME4 Built-in 6 0 GV-ME6 Built-in 9 4 GV-ME0 Built-in 8 0 0 GV-ME Built-in 7 5 6 GV-ME Built-in 0 5 4 6 GV-ME Built-in 4 5 GV-P0 Built-in 0. 0.6 GV-P0 Built-in 0.6 0.5 GV-P0 Built-in 0.5 0.40 GV-P04 Built-in 0.40 0.6 GV-P05 Built-in 0.6 GV-P06 Built-in.6 GV-P07 Built-in.6.5 GV-P08 Built-in.5 4 0 0 GV-P0 Built-in 4 6. GV-P4 Built-in 6 0 GV-P6 Built-in 9 4 GV-P0 Built-in 8 0 GV-P Built-in 7 5 0 GV-P Built-in 0 5 4 6. GV-L0 LRD0 0.5 0.4 GV-L04 LRD04 0.4 0.6 GV-L05 LRD05 0.6 GV-L06 LRD06.6 GV-L07 LRD07.6.5 GV-L08 LRD08.5 4 0 0 GV-L0 LRD0 4 6 GV-L4 LRD 5.5 8 GV-L6 LRD6 9 GV-L0 LRD 8 0 GV-L LRD 7 5 4 6 GV-LE0 LR-K00 0.6 0. GV-LE0 LR-K00 0. 0.6 GV-LE0 LR-K004 0.6 0.54 GV-LE04 LR-K004 0.6 0.54 GV-LE04 LR-K005 0.54 0.80 GV-LE05 LR-K005 0.54 0.80 GV-LE05 LR-K006 0.8. GV-LE06 LR-K006 0.8. GV-LE06 LR-K007..8 GV-LE07 LR-K007..8 GV-LE07 LR-K008.8.6 GV-LE08 LR-K00.6.7 0 0 GV-LE08 LR-K0.7 5.5 0 0 GV-LE0 LR-K0.7 5.5 GV-LE0 LR-K04 5.5 8 GV-LE4 LR-K04 5.5 8 GV-LE4 LR-K06 8.5 GV-LE4 LR-D4 7 0 GV-LE6 LR-D6 9 GV-LE0 LR-D 8 0 GV-LE LR-D 7 5 4 6 GV-LE LR-D5 5 Total discrimination 6 Partial discrimination limited to 6 ka No discrimination Dimensions, mounting: pages / to /4 pages /4 to /48 pages /49 to /5 /
Discrimination (continued) Compact NS60 or 50N/H/L upstream circuit-breaker with TM-D trip unit Upstream circuit-breaker NS60N/H/L NS50N/H/L Trip unit TM-D TM-D Rating (A) 5 60 60 00 50. Downstream Thermal Rating Discrimination (ka) circuit-breaker overload relay (A) GV-ME0 Built-in 0. 0.6 GV-ME0 Built-in 0.6 0.5 GV-ME0 Built-in 0.5 0.40 GV-ME04 Built-in 0.40 0.6 GV-ME05 Built-in 0.6 GV-ME06 Built-in.6 GV-ME07 Built-in.6.5 GV-ME08 Built-in.5 4 GV-ME0 Built-in 4 6. GV-ME4 Built-in 6 0 GV-ME6 Built-in 9 4 GV-ME0 Built-in 8 GV-ME Built-in 7 GV-ME Built-in 0 5 GV-ME Built-in 4 GV-P0 Built-in 0. 0.6 GV-P0 Built-in 0.6 0.5 GV-P0 Built-in 0.5 0.40 GV-P04 Built-in 0.40 0.6 GV-P05 Built-in 0.6 GV-P06 Built-in.6 GV-P07 Built-in.6.5 GV-P08 Built-in.5 4 GV-P0 Built-in 4 6. GV-P4 Built-in 6 0 GV-P6 Built-in 9 4 GV-P0 Built-in 8 GV-P Built-in 7 GV-P Built-in 0 5 / GV-L0 LRD0 0.5 0.4 GV-L04 LRD04 0.4 0.6 GV-L05 LRD05 0.6 GV-L06 LRD06.6 GV-L07 LRD07.6.5 GV-L08 LRD08.5 4 GV-L0 LRD0 4 6 GV-L4 LRD 5.5 8 GV-L6 LRD6 9 GV-L0 LRD 8 GV-L LRD 7 5 GV-LE0 LR-K00 0.6 0. GV-LE0 LR-K00 0. 0.6 GV-LE0 LR-K004 0.6 0.54 GV-LE04 LR-K004 0.6 0.54 GV-LE04 LR-K005 0.54 0.80 GV-LE05 LR-K005 0.54 0.80 GV-LE05 LR-K006 0.8. GV-LE06 LR-K006 0.8. GV-LE06 LR-K007..8 GV-LE07 LR-K007..8 GV-LE07 LR-K008.8.6 GV-LE08 LR-K00.6.7 GV-LE08 LR-K0.7 5.5 GV-LE0 LR-K0.7 5.5 GV-LE0 LR-K04 5.5 8 GV-LE4 LR-K04 5.5 8 GV-LE4 LR-K06 8.5 GV-LE4 LR-D4 7 0 GV-LE6 LR-D6 9 GV-LE0 LR-D 8 GV-LE LR-D 7 5 GV-LE LR-D5 Total discrimination 6 Partial discrimination limited to 6 ka No discrimination Dimensions, mounting: pages / to /4 pages /4 to /48 pages /49 to /5
Discrimination Compact NS00N/H/L upstream circuit-breaker with STRSE trip unit Upstream circuit-breaker NS00N/H/L Trip unit STRSE Rating (A) 5 40 6 00 Downstream Thermal Rating Discrimination (ka) circuit-breaker overload relay (A) GV-ME0 Built-in 0. 0.6 GV-ME0 Built-in 0.6 0.5 GV-ME0 Built-in 0.5 0.40 GV-ME04 Built-in 0.40 0.6 GV-ME05 Built-in 0.6 GV-ME06 Built-in.6 GV-ME07 Built-in.6.5 GV-ME08 Built-in.5 4 0.5 0.5 5 5 GV-ME0 Built-in 4 6. 0.5 0.5 GV-ME4 Built-in 6 0 0.5.. GV-ME6 Built-in 9 4.. GV-ME0 Built-in 8. GV-ME Built-in 7. GV-ME Built-in 0 5. GV-ME Built-in 4. GV-P0 Built-in 0. 0.6 GV-P0 Built-in 0.6 0.5 GV-P0 Built-in 0.5 0.40 GV-P04 Built-in 0.40 0.6 GV-P05 Built-in 0.6 GV-P06 Built-in.6 GV-P07 Built-in.6.5 GV-P08 Built-in.5 4 0.5 0.5 0 0 GV-P0 Built-in 4 6. 0.5 0.5 GV-P4 Built-in 6 0 0.5.. GV-P6 Built-in 9 4.. GV-P0 Built-in 8.. GV-P Built-in 7. GV-P Built-in 0 5.. GV-L0 LRD0 0.5 0.4 GV-L04 LRD04 0.4 0.6 GV-L05 LRD05 0.6 GV-L06 LRD06.6 GV-L07 LRD07.6.5 GV-L08 LRD08.5 4 0.5 0.5 0 0 GV-L0 LRD0 4 6 0.5 0.5 GV-L4 LRD 5.5 8 0.5.. GV-L6 LRD6 9.. GV-L0 LRD 8.. GV-L LRD 7 5. GV-LE0 LR-K00 0.6 0. GV-LE0 LR-K00 0. 0.6 GV-LE0 LR-K004 0.6 0.54 GV-LE04 LR-K004 0.6 0.54 GV-LE04 LR-K005 0.54 0.80 GV-LE05 LR-K005 0.54 0.80 GV-LE05 LR-K006 0.8. GV-LE06 LR-K006 0.8. GV-LE06 LR-K007..8 GV-LE07 LR-K007..8 GV-LE07 LR-K008.8.6 GV-LE08 LR-K00.6.7 0.5 0.5 0 0 GV-LE08 LR-K0.7 5.5 0.5 0.5 0 0 GV-LE0 LR-K0.7 5.5 0.5 0.5 GV-LE0 LR-K04 5.5 8 0.5 0.5 GV-LE4 LR-K04 5.5 8 0.5.. GV-LE4 LR-K06 8.5 0.5.. GV-LE4 LR-D4 7 0 0.5.. GV-LE6 LR-D6 9.. GV-LE0 LR-D 8.. GV-LE LR-D 7 5. GV-LE LR-D5. Total discrimination 6 Partial discrimination limited to 6 ka No discrimination Dimensions, mounting: pages / to /4 pages /4 to /48 pages /49 to /5 /
Discrimination (continued) Compact NS60 60N/H/L upstream circuit-breaker with STR E trip unit Upstream circuit-breaker NS60N/H/L NS50N/H/L NS400 or 60N/H/L Trip unit STRSE STRSE STRSE/5UE Rating (A) 60 60 50 400 60. Downstream Thermal Rating Discrimination (ka) circuit-breaker overload relay (A) GV-ME0 Built-in 0. 0.6 GV-ME0 Built-in 0.6 0.5 GV-ME0 Built-in 0.5 0.40 GV-ME04 Built-in 0.40 0.6 GV-ME05 Built-in 0.6 GV-ME06 Built-in.6 GV-ME07 Built-in.6.5 GV-ME08 Built-in.5 4 GV-ME0 Built-in 4 6. GV-ME4 Built-in 6 0 GV-ME6 Built-in 9 4 GV-ME0 Built-in 8 GV-ME Built-in 7 GV-ME Built-in 0 5 GV-ME Built-in 4 GV-P0 Built-in 0. 0.6 GV-P0 Built-in 0.6 0.5 GV-P0 Built-in 0.5 0.40 GV-P04 Built-in 0.40 0.6 GV-P05 Built-in 0.6 GV-P06 Built-in.6 GV-P07 Built-in.6.5 GV-P08 Built-in.5 4 GV-P0 Built-in 4 6. GV-P4 Built-in 6 0 GV-P6 Built-in 9 4 GV-P0 Built-in 8 GV-P Built-in 7 GV-P Built-in 0 5 /4 GV-L0 LRD0 0.5 0.4 GV-L04 LRD04 0.4 0.6 GV-L05 LRD05 0.6 GV-L06 LRD06.6 GV-L07 LRD07.6.5 GV-L08 LRD08.5 4 GV-L0 LRD0 4 6 GV-L4 LRD 5.5 8 GV-L6 LRD6 9 GV-L0 LRD 8 GV-L LRD 7 5 GV-LE0 LR-K00 0.6 0. GV-LE0 LR-K00 0. 0.6 GV-LE0 LR-K004 0.6 0.54 GV-LE04 LR-K004 0.6 0.54 GV-LE04 LR-K005 0.54 0.80 GV-LE05 LR-K005 0.54 0.80 GV-LE05 LR-K006 0.8. GV-LE06 LR-K006 0.8. GV-LE06 LR-K007..8 GV-LE07 LR-K007..8 GV-LE07 LR-K008.8.6 GV-LE08 LR-K00.6.7 GV-LE08 LR-K0.7 5.5 GV-LE0 LR-K0.7 5.5 GV-LE0 LR-K04 5.5 8 GV-LE4 LR-K04 5.5 8 GV-LE4 LR-K06 8.5 GV-LE4 LR-D4 7 0 GV-LE6 LR-D6 9 GV-LE0 LR-D 8 GV-LE LR-D 7 5 GV-LE LR-D5 Total discrimination 6 Partial discrimination limited to 6 ka No discrimination Dimensions, mounting: pages / to /4 pages /4 to /48 pages /49 to /5
Characteristics Thermal-magnetic motor circuit-breakers types GV-ME and GV-P Circuit-breaker type GV-ME GV-P Environment Conforming to standards IEC/EN 60947-, 60947-, 60947-4-, UL 508, CSA C- N 4, NF C 6-650, NF C6-0, 79-0, VDE 0, 0660. Product approvals CSA, CEBEC, GOST, TSE, UL, BV, GL, LROS, DNV, CSA, UL, PTB, EZU, GOST, TSE, DNV, LROS, GL, PTB, EZU, SETI, RINA BV, RINA Protective treatment TH TH Degree of protection Basic unit: IP 0 Basic unit: IP 0 conforming to IEC/EN 6059 In enclosure GV-Mi0: IP 4 In enclosure GV-Mi0: IP 55 Shock resistance 0 gn - ms 0 gn - ms conforming to IEC/EN 60068--7 Vibration resistance 5 gn (5 to 50 Hz) 5 gn (5 to 50 Hz) conforming to IEC/EN 60068--6. Ambient air temperature - storage C - 40 + 80-40 + 80 - operation C - 0 + 60-0 + 40-0 + 60 in open air in enclosure In open air Temperature compensation C - 0 + 60 in free air - 0 + 60 Flame resistance C 960 960 conforming to IEC/EN 60695-- Maximum operating altitude m 000 000 Operating positions in relation to normal vertical mounting position 90 90 90 90 90 90 90 90 GV-ME GV-MEii Cabling Number of conductors and c.s.a. Maximum Minimum Maximum Minimum Maximum Minimum Solid cable mm x 6 x x 6 x () x 6 x Flexible cable without cable end mm x 6 x.5 x 4 x.5 () x 6 x.5 Flexible cable with cable end mm x 4 x x 4 x Suitable for isolation Yes Yes conforming to IEC/EN 60947-7--6 Tightening torque N.m.7.7 Resistance to mechanical impact J 0.5 0.5 Enclosed: 6 Sensitivity to phase failure Yes, conforming to IEC/EN 60947-4- 7---5- () For c.s.a. of to.5 mm, use cable end reducer LA9-D99. Dimensions, mounting: pages / to /4 pages /4 to /48 pages /49 to /5 /5
Characteristics (continued) Thermal-magnetic motor circuit-breakers types GV-ME and GV-P Circuit-breaker type GV-ME GV-P Technical characteristics Utilisation category conforming to IEC/EN 60947- A A conforming to IEC/EN 60947-4- AC- AC- Rated operational voltage (Ue) conforming to IEC/EN 60947- V 690 690 Rated insulation voltage (Ui) conforming to IEC/EN 60947- V 690 690 conforming to CSA C- n 4, UL 508 V 600 600. Rated operational frequency conforming to IEC/EN 60947- Hz 50/60 50/60 Rated impulse withstand voltage (U imp) kv 6 6 conforming to IEC/EN 60947- Total power dissipated per pole W.5.5 Mechanical durability C.O. 00,000 00,000 (C.O.: Closing, Opening) Electrical durability C.O. 00,000 00,000 for AC- duty 440 V In/ Duty class C.O./h 5 5 (maximum operating rate) Rated duty conforming to IEC/EN 60947-4- Uninterrupted duty Uninterrupted duty Maximum conventional rated A 0.6... 0.6... thermal current (Ith) conforming to IEC/EN 60947-4- Dimensions, mounting: pages / to /4 pages /4 to /48 pages /49 to /5 /6
Characteristics Magnetic motor circuit-breakers types GV-LE and GV-L Circuit-breaker type GV-LE GV-L Environment Conforming to standards IEC/EN 60947-, IEC/EN 60947-, NF C 6-650, NF C 6-0, NF C 79-0, VDE 0, VDE 0660 Approvals BV, GL, LROS, DNV, TSE, UL, CSA BV, GL, LROS, DNV, EZU, GOST, TSE, UL, CSA pending Protective treatment TH TH Shock resistance to IEC/EN 60068--7 0 gn 0 gn Vibration resistance to IEC/EN 60068--6 5 gn (5 to 50 Hz) 5 gn (5 to 50 Hz) Ambient air temperature - storage C - 40 + 80-40 + 80 - operation C - 0 + 60-0 + 60 Flame resistance to IEC/EN 60695-- C 960 960 Maximum operating altitude m 000 000 Operating position. 90 90 90 90 Cabling Number of conductors and c.s.a. Max Min Max Min Solid cable mm x 6 x x 6 x Flexible cable without cable end mm x 6 x.5 x 6 x.5 Flexible cable with cable end mm x 4 x x 4 x Suitability for isolation Yes Yes conforming to IEC/EN 60947-7--6 Tightening torque N.m.7.7 Resistance to mechanical impact J 0.5 0.5 Utilisation category conforming to IEC/EN 60947- A A conforming to IEC/EN 60947-4- AC- AC- Rated operational voltage (Ue) conforming to IEC/EN 60947- V 690 690 Rated insulation voltage (Ui) conforming to IEC/EN 60947- V 690 690 Rated operational frequency conforming to IEC/EN 60947- Hz 50/60 50/60 Rated impulse withstand voltage (U imp) to IEC/EN 60947- kv 6 6 Total power dissipated per pole W.8.8 Mechanical durability C.O. 00,000 00,000 (C.O.: closing, opening) Electrical durability for AC- duty C.O. 00,000 00,000 Duty class (maximum operating rate) C.O./h 40 40 Rated duty to IEC/EN 60947-4- Continuous duty Continuous duty pages / to /4 pages /4 to /48 pages /49 to /5 /7
Characteristics Thermal-magnetic motor circuit-breakers types GV Electric trips Trip type GV-AU GV-AX () GV-AS Characteristics of electric trips Rated insulation voltage (Ui) conforming to IEC/EN 60947- V 690 500 690 conforming to CSA C- n 4, V 600 600 UL 508 Operational voltage conforming to IEC/EN 60947- V 0.85. Un 0.7. Un Drop-out voltage V 0.7 0.5 Un 0.75 0. Un. Inrush consumption a VA 4 c W 8 0.5 Sealed consumption a VA.5 5 c W..6 Operating time From the moment the voltage reaches its operational value until opening of the circuit-breaker. conforming to IEC/EN 60947- ms 0 5 On-load factor 00 % Cabling Number of conductors or Solid cable mm.5 Flexible cable without cable end mm 0.75.5 Flexible cable with cable end mm 0.75.5 Tightening torque N.m.4 max Mechanical durability C.O. 00,000 (C.O.: Closing-Opening) () Wiring scheme of undervoltage trip for dangerous machines (conforming to INRS) on GV-ME only, see page /49. pages / to /4 /8 pages /4 to /48 pages /49 to /5
Characteristics Thermal-magnetic motor circuit-breakers types GV Auxiliary contacts Contact type Instantaneous auxiliary Fault signalling Instantaneous auxilairy GV-AN, GV-AD GV-AD, GV-AM () GV-AE Rated insulation voltage (Ui) (associated insulation coordination) V 690 690 50 (690 in relation to to IEC/EN 60947- main circuit) to CSA C- n 4 and UL 508 V 600 00 00 Conventional rated thermal current (Ith) to IEC/EN 60947-5- A 6.5.5 to CSA C- n 4 and UL 508 A 5 Mechanical durability C.O. 00,000 000 00,000 Operational power and current to IEC/EN 60947-5-, a.c. operation AC-5/00,000 C.O. AC-4/000 C.O. AC-5/00,000 C.O. Rated operational voltage (Ue) V 48 0 0 80 440 500 690 4 48 0 0 4 48 0 0 7 40 45 7 40 7 40 Operational power, normal conditions VA 00 500 70 850 650 500 400 6 48 7 7 48 60 0 0 Occasional breaking and making VA 000 7000,000 5,000,000,000 9000 0 00 450 450 480 600 70 400 capacities, abnormal conditions Rated operational current (Ie) A 6 4.5...5 0.6.5 0.5 0..5 0.5. Operational power and current to IEC/EN 60947-5-, d.c. operation DC-/00,000 C.O. DC-/000 C.O. DC-/00,000 C.O. Rated operational voltage (Ue) V 4 48 60 0 40 () 4 48 60 4 48 60 Operational power, normal conditions W 40 40 80 40 0 4 5 9 4 5 9 Occasional breaking and making W 40 60 40 0 80 00 50 50 00 50 50 capacities, abnormal conditions Rated operational current (Ie) A 6 5. 0.5 0. 0.5 0. 0.5 Low level switching contact reliability GV-AE: Number of failures for for n million operating cycles (7 V-5 ma): = 0-6 Minimum operational conditions V 7 d.c. operation ma 5 Short-circuit protection By GB-CBpp circuit-breaker (rating according to operational current GB-CB06 or for Ue 45 V) or by gg fuse 0 A max gg fuse 0 A max Cabling, screw clamp terminals Number of conductors Solid cable mm.5.5 Flexible cable without cable end mm 0.75.5 0.75.5 Flexible cable with cable end mm 0.75.5 0.75.5 Tightening torque N.m.4 max.4 max Cabling, spring terminal connections GV-AN only Flexible cable without cable end mm 0.75.5 0.75.5 0.75.5 0 Contact operation, instantaneous auxiliary contacts Power pole Contact open GV-AN0 N/O Contact closed N/O GV-AN GV-AE GV-AE0 GV-AE GV-ADpp0 N/O N/C N/O N/C N/O N/O N/O N/C N/O Operation of fault signalling contacts GV-AM Change of state following tripping on short-circuit. GV-AD0pp and GV-AD0pp Change of state following tripping on short-circuit, overload or undervoltage. GV-ADpp0 N/C () For application example of fault signalling contact and short-circuit signalling contact, see page /49. () Add an RC circuit type LA4-D to the load terminals, see page /87. pages / to /4 pages /4 to /48 pages /49 to /5 /9
Characteristics Thermal-magnetic motor circuit-breakers types GV Auxiliary contacts Characteristics of -pole busbars GV-Gppp Rated insulation voltage (Ui) To IEC/EN 60947- V 690 Conventional rated thermal current To IEC/EN 6049- A 6 (Ith) Permissible peak current ka (I peak) Permissible thermal limit ka s 04 (I t) Degree of protection To IEC/EN 6059 IP 0 Characteristics of terminal blocks GV-G05 and GV-G09. Rated insulation voltage (Ui) To IEC/EN 60947- V 690 Conventional rated thermal current To IEC/EN 60947-5- A 6 (Ith) Degree of protection To IEC/EN 6059 IP 0 Cabling Solid cable mm x.5 to 5 conductor or x.5 to 0 conductors Flexible cable without mm x.5 to 5 conductor or x.5 to 0 conductors cable end Flexible cable with mm x.5 to 6 conductor or x.5 to 4 conductors cable end Tightening torque Connector N.m. Screw clamp N.m.7 Characteristics of current limiters (GV-ME and GV-P) Type GV-L LA9-LB90 Rated insulation voltage (Ui) To IEC/EN 60947- V 690 690 Conventional rated thermal current To IEC/EN 60947- A 6 6 (Ith) Operating threshold rms current A 500 (non adjustable threshold) 000 (non adjustable threshold) Cabling conductor conductors conductor conductors Solid cable mm.5 5.5 0.5 5.5 0 Flexible cable without mm.5 5.5 0.5 5.5 0 cable end Flexible cable with mm.5 6.5 4.5 6.5 4 cable end Tightening torque N.m. pages / to /4 /0 pages /4 to /48 pages /49 to /5
References Thermal-magnetic motor circuit-breakers type GV-ME GV-ME with pushbutton control and screw clamp terminals () Standard power ratings Setting Magnetic Reference Weight of -phase motors range tripping 50/60 Hz in category AC- of current 400/45 V 500 V 690 V thermal Id ± 0 % P Icu Ics P Icu Ics P Icu Ics trips () () () () kw ka kw ka kw ka A A kg 0. 0.6.5 GV-ME0 0.60 GV-ME 0.06 g g 0.6 0.5.4 GV-ME0 0.60 0.09 g g 0.5 0.40 5 GV-ME0 0.60 0. g g 0.7 g g 0.40 0.6 8 GV-ME04 0.60 0.8 g g 0.40 0.6 8 GV-ME04 0.60 0.5 g g 0.55 g g 0.6 GV-ME05 0.60 0.7 g g 0.7 g g.6.5 GV-ME06 0.60 0.55 g g 0.55 g g 0.75 g g.6.5 GV-ME06 0.60. 0.75 g g. g g.6.5 GV-ME06 0.60 0.75 g g. g g.5 75.6.5.5 GV-ME07 0.60. g g.5 g g. 75.5 4 5 GV-ME08 0.60.5 g g. g g 75.5 4 5 GV-ME08 0.60. g g 50 00 4 75 4 6. 78 GV-ME0 0.60 g g 4 0 00 5.5 75 6 0 8 GV-ME4 0.60 4 g g 5.5 0 00 7.5 75 6 0 8 GV-ME4 0.60 5.5 5 50 7.5 6 75 9 75 9 4 70 GV-ME6 0.60 75 9 4 70 GV-ME6 0.60 7.5 5 50 9 6 75 5 75 8 GV-ME0 0.60 9 5 40 4 75 8.5 75 7 7 GV-ME 0.60 5 40 5 4 75 0 5 7 GV-ME (4) 0.60 5 0 50 8.5 4 75 75 4 46 GV-ME 0.60 Thermal-magnetic circuit-breakers GV-ME with built-in auxiliary contact block With instantaneous auxiliary contact block (composition, see page /): - GV-AE, add suffix AETQ to the motor circuit-breaker reference selected above. Example: GV-ME0AETQ. - GV-AE, add suffix AETQ to the motor circuit-breaker reference selected above. Example: GV-ME0AETQ. - GV-AN, add suffix ANTQ to the motor circuit-breaker reference selected above. Example: GV-ME0ANTQ. These circuit-breakers with built-in contact block are sold in lots of 0 units in a single pack. () For bulk packs of GV-ME, call our Customer Information Centre on 0870 608 8 608. () As % of Icu. () For use of GV-ME in an enclosure, see pages /8 and /9. (4) Maximum rating which can be mounted in enclosures GV-MC or MP, please call our Customer Information Centre on 0870 608 8 608. g > 00 ka. Characteristics: pages /5 to /7 & /5 to /0 pages /4 to /48 pages /49 to /5 /
References Thermal-magnetic motor circuit-breakers type GV-P GV-P with rotary knob and screw clamp terminals Standard power ratings Setting Magnetic Reference Weight of -phase motors range tripping 50/60 Hz in category AC- of current 400/45 V 500 V 690 V thermal Id ± 0 % P Icu Ics P Icu Ics P Icu Ics trips () () () () kw ka kw ka kw ka A A kg 0. 0.6.5 GV-P0 0.50 GV-P 0.06 g g 0.6 0.5.4 GV-P0 0.50 0.09 g g 0.5 0.40 5 GV-P0 0.50. 0. g g 0.7 g g 0.40 0.6 8 GV-P04 0.50 0.8 g g 0.40 0.6 8 GV-P04 0.50 0.5 g g 0.55 g g 0.6 GV-P05 0.50 0.7 g g 0.7 g g.6.5 GV-P06 0.50 0.55 g g 0.55 g g 0.75 g g.6.5 GV-P06 0.50 0.75 g g. g g.6.5 GV-P06 0.50 0.75 g g. g g.5 8 00.6.5.5 GV-P07 0.50. g g.5 g g. 8 00.5 4 5 GV-P08 0.50.5 g g. g g 8 00.5 4 5 GV-P08 0.50. g g g g 4 6 00 4 6. 78 GV-P0 0.50 g g 4 50 00 5.5 6 00 6 0 8 GV-P4 0.50 4 g g 5.5 50 00 7.5 6 00 6 0 8 GV-P4 0.50 5.5 g g 7.5 4 75 9 6 00 9 4 70 GV-P6 0.50 6 00 9 4 70 GV-P6 0.50 7.5 50 50 9 0 75 5 4 00 8 GV-P0 0.50 9 50 50 0 75 8.5 4 00 7 7 GV-P 0.50 50 50 5 0 75 0 5 7 GV-P 0.50 5 50 50 8.5 0 75 4 00 4 46 GV-P 0.50 () As % of Icu. () For use of GV-P in an enclosure, see pages /8 and /9. g > 00 ka. Characteristics: pages /5 to /7 & /5 to /0 / pages /4 to /48 pages /49 to /5
References Thermal-magnetic motor circuit-breakers type GV-ME Thermal-magnetic circuit-breakers GV-ME with spring terminal connections () Pushbutton control Standard power ratings Setting Magnetic Reference Weight of -phase motors range of tripping 50/60 Hz in category AC- thermal current 400/45 V 500 V trips Id ± 0 % P Icu Ics () P Icu Ics () kw ka kw ka A A kg 0. 0.6.5 GV-ME0 0.80 GV-MEpp 0.06 g g 0.6 0.5.4 GV-ME0 0.80 0.09 g g 0.5 0.40 5 GV-ME0 0.80 0. g g 0.40 0.6 8 GV-ME04 0.80 0.8 g g 0.5 g g 0.7 g g 0.6 GV-ME05 0.80 0.7 g g. 0.7 g g 0.7 g g.6.5 GV-ME06 0.80 0.55 g g 0.55 g g 0.75 g g 0.75 g g. g g.6.5.5 GV-ME07 0.80. g g.5 g g.5 4 5 GV-ME08 0.80.5 g g. g g. g g 50 00 4 6. 78 GV-ME0 0.80 g g 4 0 00 6 0 8 GV-ME4 0.80 4 g g 5.5 0 00 5.5 5 50 7.5 6 75 9 4 70 GV-ME6 0.80 7.5 5 50 9 6 75 8 GV-ME0 0.80 9 5 40 4 75 7 7 GV-ME 0.60 5 40 5 40 5 4 75 0 5 7 GV-ME 0.60 Contact blocks Description Mounting Max. Type of contacts Sold in Unit Weight number lots of reference kg Instantaneous Front N/O + N/C 0 GV-AE 0.00 auxiliary N/O + N/O 0 GV-AE0 0.00 contacts LH N/O + N/C GV-AN 0.060 side N/O + N/O GV-AN0 0.060 Accessory Description Application Sold in Unit Weight lots of reference kg LA9-D99 Cable end For connection of 0 LA9-D99 reducer () conductors from to.5 mm () For connection of conductors from to.5 mm the use of a cable end reducer LA9-D99 is recommended. () As % of Icu. g > 00 ka () supplied with each circuit-breaker as standard. Characteristics: pages /5 to /7 & /5 to /0 pages /4 to /48 pages /49 to /5 /
GV-AK00 GV-L GV-AX. GV-ME GV-AD GV-AM GV-AU GV-P GV-AM GV-AS GV-L GV-AE, AE0 GV-AN GV-AN GV-AE GV-LE GV-AE /4
References Thermal-magnetic and magnetic motor circuit-breakers type GV with screw clamp terminals Accessories Contact blocks with screw clamp terminals Description Mounting Maximum Type of contacts Sold in Unit Weight number lots of reference kg Instantaneous Front () N/O or N/C () 0 GV-AE 0.05 auxiliary N/O + N/C 0 GV-AE 0.00 contacts N/O + N/O 0 GV-AE0 0.00 Side N/O + N/C GV-AN 0.050 (LH) N/O + N/O GV-AN0 0.050 Fault signalling Side () N/O + N/O GV-AD00 0.055 contact + (LH) (fault) + N/C GV-AD00 0.055 instantaneous N/C + N/O GV-AD00 0.055 auxiliary contact (fault) + N/C GV-AD00 0.055 Short-circuit signalling Side C/O GV-AM 0.045 contact (LH) common point Electric trips with screw clamp terminals Mounting Voltage Reference Weight kg Undervoltage or shunt trips (4). Side 4 V 50 Hz GV-Ap05 0.05 ( block on RH side 60 Hz GV-Ap06 0.05 of circuit-breaker) 48 V 50 Hz GV-Ap055 0.05 60 Hz GV-Ap056 0.05 00 V 50 Hz GV-Ap07 0.05 00 0 V 60 Hz GV-Ap07 0.05 0 5 V 50 Hz GV-Ap5 0.05 60 Hz GV-Ap6 0.05 0 7 V 50 Hz GV-Ap5 0.05 7 V 60 Hz GV-Ap5 0.05 00 V 50 Hz GV-Ap07 0.05 00 V 0 V 60 Hz GV-Ap07 0.05 0 V 40 V 50 Hz GV-Ap5 0.05 60 Hz GV-Ap6 0.05 80 V 400 V 50 Hz GV-Ap85 0.05 60 Hz GV-Ap86 0.05 45 V 440 V 50 Hz GV-Ap45 0.05 45 V 60 Hz GV-Ap46 0.05 440 V 60 Hz GV-Ap85 0.05 480 V 60 Hz GV-Ap45 0.05 500 V 50 Hz GV-Ap505 0.05 600 V 60 Hz GV-Ap505 0.05 Undervoltage trip, INRS (can only be mounted on GV-ME) Safety device for dangerous machines, conforming to INRS and VDE 0 Side 0 5 V 50 Hz GV-AX5 0.0 ( block on RH side 60 Hz GV-AX6 0.0 of circuit-breaker 7 V 60 Hz GV-AX5 0.0 GV-ME) 0 40 V 50 Hz GV-AX5 0.0 60 Hz GV-AX6 0.0 80 400 V 50 Hz GV-AX85 0.0 60 Hz GV-AX86 0.0 45 440 V 50 Hz GV-AX45 0.0 440 V 60 Hz GV-AX85 0.0 Add-on contact blocks with screw clamp terminals Description Mounting Maximum Reference Weight number kg Visible isolation Front () GV-AK00 0.50 block (5) Limiters At top GV-L 0.0 (GV-ME and GV-P) LA9-LB90 Characteristics: pages /5 to /7 & /5 to /0 Independent LA9-LB90 0.0 () Mounting of a GV-AE contact block or a GV-AK00 visible isolation block on GV-P and GV-L. () Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted. () The GV-AD is always mounted next to the circuit-breaker. (4) To order an undervoltage trip: replace the dot (p) in the reference with a U, example: GV-AU05. To order a shunt trip: replace the dot (p) in the reference with an S, example: GV-AS05. (5) Visible isolation of the poles upstream of circuit-breaker GV-P and GV-L. pages /4 to /48 pages /49 to /5 /5
GV-G454 GV-G54 LAD- GV-G09 GV-G454 LAD- GV-G54 GV-G0. GV-G05 LA9-E07 GV-AF GV-AF0 GV-AF4 GK-AF0 GV-GA0 GV-AF0 GV-G0 GV-AP0 TRIP. RESET GV-V0 O /6
References Thermal-magnetic and magnetic motor circuit-breakers type GV with screw clamp terminals Accessories Accessories Description Application Sold in Unit Weight lots of reference kg Adapter plate For mounting a GV-ME 0 GV-AF0 0.0 or GV-LE by screw fixing For mounting a GV-ME or 0 LAD- (supports GV only) 0.040 GV-P and contactor LC-D09 to LAD-(supports GV & contactor) D8 with front faces aligned Height compensation plate 7.5 mm 0 GV-F0 0.00 Combination block Between GV and contactor 0 GV-AF0 0.00 LC-K or LP-K Between GV and contactor 0 GV-AF 0.06 LC-D09 D8 Between GV mounted 0 GV-AF4 0.06 on LAD- and contactor LC-D09 D8 Motor starter With -pole connection GK-AF0 0.0 adapter plate for mounting a GV and an LC-D09 to D5 contactor Description Application Pitch Reference Weight mm kg. Sets of -pole tap-offs 45 GV-G45 0.06 6 A busbars 54 GV-G54 0.08 7 GV-G7 0.04 tap-offs 45 GV-G45 0.058 54 GV-G54 0.060 4 tap-offs 45 GV-G445 0.077 54 GV-G454 0.085 7 GV-G47 0.094 5 tap-offs 54 GV-G554 0.00 Description Application Sold in Unit Weight lots of reference kg Protective end cover () For unused busbar outlets 5 GV-G0 0.005 Terminal blocks for Connection from the top GV-G09 0.040 supply to one or more Can be fitted with current limiter GV-G05 0.5 GV-G busbar sets GV-L (GV-ME and GV-P) Cover for terminal block For mounting in 0 LA9-E07 0.005 modular panels Flexible -pole connection Centre distance between 0 GV-G0 0.0 for connecting a GV mounting rails: 00 0 mm to an LC-D09 D5 contactor Set of connections For connecting GV-ME 0 GV-GA0 0.045 upstream/downstream to a printed circuit board Clip-in marker holders For GV-P, GV-L, GV-LE 00 LA9-D9 () 0.00 (supplied with each and GV-RT (8 x mm) circuit-breaker) Padlockable external operator Description Reference Weight kg pages /4 to /48 For GV-P and GV-L Padlocking in On and Off position GV-AP0 0.00 (50 to 90 mm) Black handle, blue legend plate, IP 54 Padlocking in Off position GV-AP0 0.00 Red handle, yellow legend plate, IP 54 For GV-LE Padlocking in On and Off position GV-AP0 0.80 Black handle, blue legend plate, IP 54 Padlocking device For all GV devices For use with up to 6 padlocks (not supplied), GV-V0 0.0 Ø 6 mm shank max. () Check with requirements of local Isolation standards before use. /7
. GV-MC GV-V0 GV-K04 GV-MP GV-K0 GV-E0 GV-CP GV-SN /8
References Enclosed thermal-magnetic motor circuit-breakers type GV-ME and accessories, assembled by user Enclosed thermal-magnetic motor circuit-breakers GV-ME Thermal-magnetic motor circuit-breakers and accessories: see pages / and /. The motor starter comprising an enclosed motor circuit-breaker GV-ME conforms to IEC/EN 60947-4-. GV- ME0 ME0 ME0 ME04 ME05 ME06 ME07 ME08 ME0 ME4 ME6 ME0 ME ME Ithe (A) 0.6 0.5 0.4 0.6.6.5 4 6. 9 7 Enclosures for thermal-magnetic motor circuit-breakers GV-ME Type Degree of protection Possible attachments Reference Weight on side of GV-ME Left Right kg Surface IP 4 GV-MC0 0.90 mounting Double, insulated with IP 55 GV-MC0 0.00 protective or GV-MCK04 () 0.40 conductor. Sealable IP 55 for GV-MC0 0.00 cover temperature < + 5 C Flush, IP 4 (front face) GV-MP0 0.5 mounting IP 4 (reduced flush mounting) GV-MP0 0.5 with protective IP 55 (front face) GV-MP0 0.0 conductor IP 55 (reduced flush mounting) GV-MP04 0.0 Front plate. For direct control, through a panel IP 55 GV-CP 0.800 of a chassis-mounted GV-ME Accessories common to all enclosures (to be ordered separately) Description Sold in Unit Weight lots of reference kg Padlocking device () to padlocks GV-V0 0.075 for GV-ME operator (padlocking is only Ø 4 to 8 mm possible in O position) Mushroom Spring return () GV-K0 0.05 head Stop Latching () Key release GV-K0 0.60 pushbutton IP 55 key n 455 Ø 40 mm, red Turn to GV-K0 0.5 release GV-K04 () 0.0 Sealing kit For enclosures IP 55 0 GV-E0 0.0 and front plate IP 55 for θ < + 5 C 0 GV-E0 0.0 Neutral terminal 00 AB-VV65UBL 0.05 Partition 50 AB-AC6BL 0.00 Description Voltage Colour Sold in Unit Weight V lots of reference kg Neon 0 Green 0 GV-SN 0.09 indicator Red 0 GV-SN4 0.09 light Orange 0 GV-SN5 0.09 Clear 0 GV-SN7 0.09 0/40 Green 0 GV-SN 0.09 Red 0 GV-SN4 0,09 Orange 0 GV-SN5 0,09 Clear 0 GV-SN7 0,09 80/440 Green 0 GV-SN 0.09 Red 0 GV-SN4 0.09 Orange 0 GV-SN5 0.09 Clear 0 GV-SN7 0.09 () The GV-MCK04 enclosure has a GV-K04 mushroom head Stop pushbutton fitted as standard. () Supplied with IP 55 sealing kit. For use with GV-Mp0. () Padlockable in Off position using Ø 4 to 8 mm shank padlocks. /9
References Magnetic motor circuit-breakers types GV-L and GV-LE Magnetic circuit-breakers GV-L with screw clamp terminals. GV-L Rotary handle Standard power ratings Magnetic Trip- Use in Reference Weight of -phase motors protection ping association 50/60 Hz in category AC- rating current with 400/45 V 500 V 690 V Id ± 0 % thermal P Icu Ics P Icu Ics P Icu Ics overload () () () relay kw ka kw ka kw ka A A kg 0.09 g g 0.4 5 LRD-0 GV-L0 0.0 0. g g 0.7 g g 0.6 8 LRD-04 GV-L04 0.0 0.8 g g 0.6 8 LRD-04 GV-L04 0.0 0.55 g g LRD-05 GV-L05 0.0 0.5 g g LRD-05 GV-L05 0.0 0.75 g g LRD-06 GV-L05 0.0 0.7 g g 0.7 g g LRD-05 GV-L05 0.0 0.55 g g 0.55 LRD-06 GV-L06 0.0 0.75 g g.6.5 LRD-06 GV-L06 0.0 0.75 g g. g g.5 4 00.5.5 LRD-07 GV-L07 0.0. g g.5.5 LRD-08 GV-L08 0.0.5 g g.5 g g 4 00 5 LRD-08 GV-L08 0.0. g g 4 5 LRD-08 GV-L08 0.0. g g g g 4 4 00 6. 78 LRD-0 GV-L0 0.0 g g 4 0 00 5.5 4 00 0 8 LRD- GV-L4 0.0 4 g g 5.5 0 00 0 8 LRD-4 GV-L4 0.0 7.5 4 00 0 8 LRD-4 GV-L4 0.0 9 4 00 4 70 LRD-6 GV-L6 0.0 5.5 50 50 7.5 0 75 4 00 4 70 LRD-6 GV-L6 0.0 7.5 50 50 9 0 75 5 4 00 8 LRD- GV-L0 0.0 9 50 50 0 75 8.5 4 00 5 7 LRD- GV-L 0.0 50 50 5 0 75 5 7 LRD- GV-L 0.0 5 50 50 8.5 0 75 4 00 46 LRD- GV-L 0.0 () As % of Icu. g > 00 ka. Characteristics: pages /5 to /7 & /5 to /0 /40 pages /4 to /48 pages /49 to /5
References Magnetic motor circuit-breakers types GV-L and GV-LE Magnetic circuit-breakers GV-LE with screw clamp terminals GV-LE Rocker lever Standard power ratings Magnetic Trip- Use in Reference Weight of -phase motors protection ping association 50/60 Hz in category AC- rating current with 400/45 V 500 V 690 V Id ± 0 % thermal P Icu Ics P Icu Ics P Icu Ics overload () () () relay kw ka kw ka kw ka A A kg 0.06 g g 0.4 5 LR-K00 GV-LE0 0.0 0.09 g g 0.4 5 LR-K004 GV-LE0 0.0 0. g g 0.7 g g 0.6 8 LR-K004 GV-LE04 0.0 0.8 g g 0.6 8 LR-K005 GV-LE04 0.0 0.55 g g LR-K005 GV-LE05 0.0 0.5 g g LR-K006 GV-LE05 0.0 0.75 g g LR-K006 GV-LE05 0.0 0.7 g g 0.7 g g LR-K006 GV-LE05 0.0 0.55 g g 0.55 g g. g g.6.5 LR-K007 GV-LE06 0.0 0.75 g g.6.5 LR-K007 GV-LE06 0.0 0.75 g g. g g.5 75.5.5 LR-K008 GV-LE07 0.0. g g.5.5 LR-K008 GV-LE08 0.0.5 g g.5 g g 75 4 5 LR-K00 GV-LE08 0.0. g g 4 5 LR-K0 GV-LE08 0.0. g g 50 00 4 75 6. 78 LR-K0 GV-LE0 0.0 g g 4 0 00 5.5 75 0 8 LR-K04 GV-LE4 0.0 4 g g 5.5 0 00 0 8 LR-K06 GV-LE4 0.0 7.5 75 0 8 LRD-4 GV-LE4 0.0 9 75 4 70 LRD-6 GV-LE6 0.0 5.5 5 50 7.5 6 75 75 4 70 LR-K0 GV-LE6 0.0 7.5 5 50 9 6 75 5 75 8 LRD- GV-LE0 0.0 9 5 40 4 75 8.5 75 5 7 LRD- GV-LE 0.0 5 40 5 4 75 5 7 LRD- GV-LE 0.0 5 0 50 8.5 4 75 75 46 LRD- GV-LE 0.0 () As % of Icu. TeSys protection components g > 00 ka.. Characteristics: pages /5 to /7 & /5 to /0 pages /4 to /48 pages /49 to /5 /4
References Thermal magnetic circuit-breakers type GV-RT () For motors with high current peak on starting. GV-RT Control by rocker lever Standard power ratings Setting Magnetic Reference Weight of -phase motors range of tripping 50/60 Hz in category AC- thermal current 0 400 trips Id ± 0 % 0 V 45 V 440 V 500 V 690 V kw kw kw kw kw A A kg 0.06 0.09 0.09 0.5 0.40 8 GV-RT0 0.50 0. 0. 0.8 0.8 0.7 0.40 0.6 GV-RT04 0.50 0.09 0.5 0.5 0. 0.7 0.7 0.7 0.55 0.6 GV-RT05 0.50 0.8 0.7 0.7 0.7 0.75 0.5 0.55 0.55 0.55..6 GV-RT06 0.50 0.75 0.75 0.7 0.75...5.6.5 5 GV-RT07 0.50 0.55..5. 0.75.5.5..5 4 78 GV-RT08 0.50... 4 4 6. 8 GV-RT0 0.50.5 4 5.5. 4 4 5.5 7.5 6 0 00 GV-RT4 0.50. 5.5 9 5.5 7.5 7.5 9 4 80 GV-RT6 0.50 7.5 4 7.5 9 9 5 8 400 GV-RT0 0.50 9 5.5 8.5 7 400 GV-RT 0.50 For primaries of -phase transformers Control by rocker lever Standard power ratings Setting range Magnetic Reference Weight 0 400 of thermal tripping current 40 V 45 V 440 V 500 V 690 V trips Id ± 0 % kva kva kva kva kva A A kg 0.5 0.40 8 GV-RT0 0.50 0.40 0.6 GV-RT04 0.50 0.6 0.6 0.6 GV-RT05 0.50 0.4 0.6.6 GV-RT06 0.50.6 0.6.6.6.5 5 GV-RT07 0.50.6.6.5.5.5 4 78 GV-RT08 0.50.6.5 4.5 4 4 5 4 6. 8 GV-RT0 0.50 6. 4 5.5 5 5 6. 6 0 00 GV-RT4 0.50 0 4 6. 6..5 9 4 80 GV-RT6 0.50 5 0 6. 0 0.5 0 8 400 GV-RT0 0.50 Accessory () Description Reference Weight kg Padlockable external operator (IP 54), GV-AP0 0.80 black handle, blue legend plate () Characteristics of GV-RT identical to those of GV-ME except for tripping current (id). () Other accessories such as mounting, cabling and marking accessories are identical to those used for GV-ME motor circuit-breakers, see page /9. Characteristics: pages /5 to /7 & /5 to /0 /4 pages /4 to /48 pages /49 to /5