Produkt
incl. VAT
Flange dimensions: 180 mm
Rated Output Power: 2000 – 7500 W
Rated Torque: 9,55 – 47,75 Nm
incl. VAT
Flange dimensions: 180 mm
Rated Output Power: 2000 – 7500 W
Rated Torque: 9,55 – 47,75 Nm
Specification | TC-E 180 6A G2 2 | TC-E 180 6B F2 2 | TC-E 180 6C H1 2 | TC-E 180 6D E2 2 | TC-E 180 6E G1 2 | TC-E 180 6F G5 2 | TC-E 180 6G G4 2 | TC-E 180 6A G3 4 | TC-E 180 6B F2 4 | TC-E 180 6C H1 4 | TC-E 180 6D E2 4 | TC-E 180 6E G1 4 | TC-E 180 6F G5 4 | TC-E 180 6F M1 4 | TC-E 180 6G G4 4 | TC-E 180 6G L2 4 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Continuous Stall Torque | 9.55 Nm | 14.32 Nm | 19.1 Nm | 16.7 Nm | 28.65 Nm | 35 Nm | 47.75 Nm | 9.55 Nm | 14.32 Nm | 19.1 Nm | 16.7 Nm | 28.65 Nm | 35 Nm | 35 Nm | 47.75 Nm | 47.75 Nm |
Peak Torque | 28.65 Nm | 42.97 Nm | 57.29 Nm | 50.3 Nm | 71.62 Nm | 87.53 Nm | 119.37 Nm | 28.65 Nm | 42.97 Nm | 57.29 Nm | 50.3 Nm | 71.62 Nm | 87.53 Nm | 87.53 Nm | 140 Nm | 140 Nm |
Nominal working Speed | 2000 rpm | 2000 rpm | 1500 rpm | 2000 rpm | 1500 rpm | 1500 rpm | 1500 rpm | 2000 rpm | 2000 rpm | 1500 rpm | 2000 rpm | 1500 rpm | 1500 rpm | 1500 rpm | 1500 rpm | 1500 rpm |
Maximum working speed | 3000 rpm | 3000 rpm | 3000 rpm | 3000 rpm | 2500 rpm | 2600 rpm | 2700 rpm | 4000 rpm | 4000 rpm | 4000 rpm | 4000 rpm | 4000 rpm | 4000 rpm | 3100 rpm | 4000 rpm | 3500 rpm |
Nominal Torque | 9.55 Nm | 14.32 Nm | 19.1 Nm | 16.7 Nm | 28.65 Nm | 35 Nm | 47.75 Nm | 9.55 Nm | 14.32 Nm | 19.1 Nm | 16.7 Nm | 28.65 Nm | 35 Nm | 35 Nm | 47.75 Nm | 47.75 Nm |
Nominal Current | 9.6 Arms | 18.8 Arms | 18.8 Arms | 19.3 Arms | 22.8 Arms | 28.8 Arms | 41.5 Arms | 7.5 Arms | 18.8 Arms | 18.8 Arms | 19.3 Arms | 22.8 Arms | 28.8 Arms | 18.8 Arms | 41.5 Arms | 28.4 Arms |
Nominal Power | 2 kW | 3 kW | 3 kW | 3.5 kW | 4.5 kW | 5.5 kW | 7.5 kW | 2 kW | 3 kW | 3 kW | 3.5 kW | 4.5 kW | 5.5 kW | 5.5 kW | 7.5 kW | 7.5 kW |
Rated winding voltage | 230 Vac | 230 Vac | 230 Vac | 230 Vac | 230 Vac | 230 Vac | 230 Vac | 400 Vac | 400 Vac | 400 Vac | 400 Vac | 400 Vac | 400 Vac | 400 Vac | 400 Vac | 400 Vac |
Maximum winding voltage | 360 Vdc | 360 Vdc | 360 Vdc | 360 Vdc | 360 Vdc | 360 Vdc | 360 Vdc | 650 Vdc | 650 Vdc | 650 Vdc | 650 Vdc | 650 Vdc | 650 Vdc | 650 Vdc | 650 Vdc | 650 Vdc |
Maximum voltage to ground | 255 Vac | 255 Vac | 255 Vac | 255 Vac | 255 Vac | 255 Vac | 255 Vac | 265 Vac | 265 Vac | 265 Vac | 265 Vac | 265 Vac | 265 Vac | 265 Vac | 265 Vac | 265 Vac |
Maximum current | 35.5 Arms | 56 Arms | 61 Arms | 61 Arms | 61 Arms | 74.2 Arms | 106.9 Arms | 23 Arms | 56 Arms | 61 Arms | 61 Arms | 61 Arms | 74.2 Arms | 48.3 Arms | 129 Arms | 88.4 Arms |
Continuous Stall current | 8.75 Arms | 16.33 Arms | 16.49 Arms | 16.83 Arms | 19.68 Arms | 25.05 Arms | 36.08 Arms | 6.79 Arms | 16.33 Arms | 16.49 Arms | 16.83 Arms | 19.68 Arms | 25.05 Arms | 16.3 Arms | 36.08 Arms | 27.48 Arms |
Voltage Constant | 66 Vrms/Krpm | 53 Vrms/Krpm | 70 Vrms/Krpm | 60 Vrms/Krpm | 88 Vrms/Krpm | 84.5 Vrms/Krpm | 80 Vrms/Krpm | 85 Vrms/Krpm | 53 Vrms/Krpm | 70 Vrms/Krpm | 60 Vrms/Krpm | 88 Vrms/Krpm | 84.5 Vrms/Krpm | 130 Vrms/Krpm | 80 Vrms/Krpm | 110 Vrms/Krpm |
Torque Constant | 1.09 Nm/Arms | 0.88 Nm/Arms | 1.16 Nm/Arms | 0.99 Nm/Arms | 1.46 Nm/Arms | 1.4 Nm/Arms | 1.32 Nm/Arms | 1.41 Nm/Arms | 0.88 Nm/Arms | 1.16 Nm/Arms | 0.99 Nm/Arms | 1.46 Nm/Arms | 1.4 Nm/Arms | 2.15 Nm/Arms | 1.32 Nm/Arms | 1.82 Nm/Arms |
Winding resistance | 0.572 Ω | 0.168 Ω | 0.234 Ω | 0.168 Ω | 0.199 Ω | 0.104 Ω | 0.062 Ω | 1.156 Ω | 0.168 Ω | 0.234 Ω | 0.168 Ω | 0.199 Ω | 0.104 Ω | 0.25 Ω | 0.062 Ω | 0.115 Ω |
Winding inductance qu-v | 6.7 mH | 2.88 mH | 3.78 mH | 2.8 mH | 4 mH | 2.25 mH | 1.3 mH | 13.44 mH | 2.88 mH | 3.78 mH | 2.8 mH | 4 mH | 2.25 mH | 5.3 mH | 1.3 mH | 2.8 mH |
Winding inductance du-v | 6.1 mH | 2.71 mH | 3.45 mH | 2.57 mH | 3.8 mH | 2.07 mH | 1.22 mH | 12.21 mH | 2.71 mH | 3.45 mH | 2.57 mH | 3.8 mH | 2.07 mH | 4.9 mH | 1.22 mH | 2.63 mH |
Rotor inertia without holding brake | 26.49 kg·cm² | 53.55 kg·cm² | 53.55 kg·cm² | 53.55 kg·cm² | 73.31 kg·cm² | 103.33 kg·cm² | 142.69 kg·cm² | 26.49 kg·cm² | 53.55 kg·cm² | 53.55 kg·cm² | 53.55 kg·cm² | 73.31 kg·cm² | 130.33 kg·cm² | 103.33 kg·cm² | 142.69 kg·cm² | 142.69 kg·cm² |
Rotor inertia with holding brake | 26.99 kg·cm² | 54.09 kg·cm² | 54.09 kg·cm² | 54.09 kg·cm² | 73.99 kg·cm² | 120.19 kg·cm² | 158.69 kg·cm² | 26.99 kg·cm² | 54.09 kg·cm² | 54.09 kg·cm² | 54.09 kg·cm² | 73.99 kg·cm² | 120.19 kg·cm² | 120.19 kg·cm² | 158.69 kg·cm² | 158.69 kg·cm² |
Rotor high inertia without holding brake | 34.67 | – | – | – | – | – | – | 34.67 | – | – | – | – | – | – | – | – |
Rotor high inertia with holding brake | 35.12 | – | – | – | – | – | – | 35.12 | – | – | – | – | – | – | – | – |
Mass without holding brake | 13 Kg | 18.5 Kg | 18.5 Kg | 18.5 Kg | 23.64 Kg | 32 Kg | 41.7 Kg | 13 Kg | 18.5 Kg | 18.5 Kg | 18.5 Kg | 23.64 Kg | 32 Kg | 32 Kg | 41.7 Kg | 41.7 Kg |
Mass with holding brake | 18 Kg | 23 Kg | 23 Kg | 23 Kg | 28 Kg | 36.5 Kg | 46.2 Kg | 18 Kg | 23 Kg | 23 Kg | 23 Kg | 28 Kg | 36.5 Kg | 36.5 Kg | 46.2 Kg | 46.2 Kg |
High inertia mass without holding brake | 14.3 | – | – | – | – | – | – | 14.3 | – | – | – | – | – | – | – | – |
High inertia mass with holding brake | 19.3 | – | – | – | – | – | – | 19.3 | – | – | – | – | – | – | – | – |
Thermal time constant | 35 min | 38 min | 38 min | 38 min | 40 min | 50 min | 60 min | 35 min | 35 min | 35 min | 38 min | 40 min | 50 min | 50 min | 60 min | 60 min |
Maximum radial shaft load | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N | 1200 N |
Maximum axial shaft load | 497 N | 497 N | 497 N | 497 N | 49.7 N | 49.7 N | 49.7 N | 497 N | 497 N | 497 N | 497 N | 49.7 N | 49.7 N | 49.7 N | 49.7 N | 49.7 N |
Family Specification | Produkt |
---|---|
Time Rating | Continuous |
Insulation Class | F |
Enclosure | Totally enclosed. Self-cooled |
Protection Class | IP 54 Standard IP 65 with shaft sealing |
Ambient Temperature | -20 to 40 °C |
Ambient Humidity | 5 to 85% (non-condensing) % |
Poles | 10 |
Certification | UL 1004, CSA, CE, RoHS, Reach compliance |
Recommendation | Rated output with 550x550x20mm steel heat sink flange coupling – Ambient temperature 40°C – Derating must be considered if the oil seal is applied |
Family Overview | Produkt |
---|---|
Flange dimensions | 180 mm |
Rated Output Power | 2000 – 7500 Watt |
Rated Torque | 9,55 – 47,75 Nm |
Rated Speed | – |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6A G2 2 |
---|---|
Continuous Stall Torque | 9.55 Nm |
Peak Torque | 28.65 Nm |
Nominal working Speed | 2000 rpm |
Maximum working speed | 3000 rpm |
Nominal Torque | 9.55 Nm |
Nominal Current | 9.6 Arms |
Nominal Power | 2 kW |
Rated winding voltage | 230 Vac |
Maximum winding voltage | 360 Vdc |
Maximum voltage to ground | 255 Vac |
Maximum current | 35.5 Arms |
Continuous Stall current | 8.75 Arms |
Voltage Constant | 66 Vrms/Krpm |
Torque Constant | 1.09 Nm/Arms |
Winding resistance | 0.572 Ω |
Winding inductance qu-v | 6.7 mH |
Winding inductance du-v | 6.1 mH |
Rotor inertia without holding brake | 26.49 kg·cm² |
Rotor inertia with holding brake | 26.99 kg·cm² |
Rotor high inertia without holding brake | 34.67 |
Rotor high inertia with holding brake | 35.12 |
Mass without holding brake | 13 Kg |
Mass with holding brake | 18 Kg |
High inertia mass without holding brake | 14.3 |
High inertia mass with holding brake | 19.3 |
Thermal time constant | 35 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 497 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6B F2 2 |
---|---|
Continuous Stall Torque | 14.32 Nm |
Peak Torque | 42.97 Nm |
Nominal working Speed | 2000 rpm |
Maximum working speed | 3000 rpm |
Nominal Torque | 14.32 Nm |
Nominal Current | 18.8 Arms |
Nominal Power | 3 kW |
Rated winding voltage | 230 Vac |
Maximum winding voltage | 360 Vdc |
Maximum voltage to ground | 255 Vac |
Maximum current | 56 Arms |
Continuous Stall current | 16.33 Arms |
Voltage Constant | 53 Vrms/Krpm |
Torque Constant | 0.88 Nm/Arms |
Winding resistance | 0.168 Ω |
Winding inductance qu-v | 2.88 mH |
Winding inductance du-v | 2.71 mH |
Rotor inertia without holding brake | 53.55 kg·cm² |
Rotor inertia with holding brake | 54.09 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 18.5 Kg |
Mass with holding brake | 23 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 38 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 497 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6C H1 2 |
---|---|
Continuous Stall Torque | 19.1 Nm |
Peak Torque | 57.29 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 3000 rpm |
Nominal Torque | 19.1 Nm |
Nominal Current | 18.8 Arms |
Nominal Power | 3 kW |
Rated winding voltage | 230 Vac |
Maximum winding voltage | 360 Vdc |
Maximum voltage to ground | 255 Vac |
Maximum current | 61 Arms |
Continuous Stall current | 16.49 Arms |
Voltage Constant | 70 Vrms/Krpm |
Torque Constant | 1.16 Nm/Arms |
Winding resistance | 0.234 Ω |
Winding inductance qu-v | 3.78 mH |
Winding inductance du-v | 3.45 mH |
Rotor inertia without holding brake | 53.55 kg·cm² |
Rotor inertia with holding brake | 54.09 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 18.5 Kg |
Mass with holding brake | 23 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 38 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 497 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6D E2 2 |
---|---|
Continuous Stall Torque | 16.7 Nm |
Peak Torque | 50.3 Nm |
Nominal working Speed | 2000 rpm |
Maximum working speed | 3000 rpm |
Nominal Torque | 16.7 Nm |
Nominal Current | 19.3 Arms |
Nominal Power | 3.5 kW |
Rated winding voltage | 230 Vac |
Maximum winding voltage | 360 Vdc |
Maximum voltage to ground | 255 Vac |
Maximum current | 61 Arms |
Continuous Stall current | 16.83 Arms |
Voltage Constant | 60 Vrms/Krpm |
Torque Constant | 0.99 Nm/Arms |
Winding resistance | 0.168 Ω |
Winding inductance qu-v | 2.8 mH |
Winding inductance du-v | 2.57 mH |
Rotor inertia without holding brake | 53.55 kg·cm² |
Rotor inertia with holding brake | 54.09 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 18.5 Kg |
Mass with holding brake | 23 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 38 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 497 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6E G1 2 |
---|---|
Continuous Stall Torque | 28.65 Nm |
Peak Torque | 71.62 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 2500 rpm |
Nominal Torque | 28.65 Nm |
Nominal Current | 22.8 Arms |
Nominal Power | 4.5 kW |
Rated winding voltage | 230 Vac |
Maximum winding voltage | 360 Vdc |
Maximum voltage to ground | 255 Vac |
Maximum current | 61 Arms |
Continuous Stall current | 19.68 Arms |
Voltage Constant | 88 Vrms/Krpm |
Torque Constant | 1.46 Nm/Arms |
Winding resistance | 0.199 Ω |
Winding inductance qu-v | 4 mH |
Winding inductance du-v | 3.8 mH |
Rotor inertia without holding brake | 73.31 kg·cm² |
Rotor inertia with holding brake | 73.99 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 23.64 Kg |
Mass with holding brake | 28 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 40 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 49.7 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6F G5 2 |
---|---|
Continuous Stall Torque | 35 Nm |
Peak Torque | 87.53 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 2600 rpm |
Nominal Torque | 35 Nm |
Nominal Current | 28.8 Arms |
Nominal Power | 5.5 kW |
Rated winding voltage | 230 Vac |
Maximum winding voltage | 360 Vdc |
Maximum voltage to ground | 255 Vac |
Maximum current | 74.2 Arms |
Continuous Stall current | 25.05 Arms |
Voltage Constant | 84.5 Vrms/Krpm |
Torque Constant | 1.4 Nm/Arms |
Winding resistance | 0.104 Ω |
Winding inductance qu-v | 2.25 mH |
Winding inductance du-v | 2.07 mH |
Rotor inertia without holding brake | 103.33 kg·cm² |
Rotor inertia with holding brake | 120.19 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 32 Kg |
Mass with holding brake | 36.5 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 50 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 49.7 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6G G4 2 |
---|---|
Continuous Stall Torque | 47.75 Nm |
Peak Torque | 119.37 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 2700 rpm |
Nominal Torque | 47.75 Nm |
Nominal Current | 41.5 Arms |
Nominal Power | 7.5 kW |
Rated winding voltage | 230 Vac |
Maximum winding voltage | 360 Vdc |
Maximum voltage to ground | 255 Vac |
Maximum current | 106.9 Arms |
Continuous Stall current | 36.08 Arms |
Voltage Constant | 80 Vrms/Krpm |
Torque Constant | 1.32 Nm/Arms |
Winding resistance | 0.062 Ω |
Winding inductance qu-v | 1.3 mH |
Winding inductance du-v | 1.22 mH |
Rotor inertia without holding brake | 142.69 kg·cm² |
Rotor inertia with holding brake | 158.69 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 41.7 Kg |
Mass with holding brake | 46.2 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 60 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 49.7 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6A G3 4 |
---|---|
Continuous Stall Torque | 9.55 Nm |
Peak Torque | 28.65 Nm |
Nominal working Speed | 2000 rpm |
Maximum working speed | 4000 rpm |
Nominal Torque | 9.55 Nm |
Nominal Current | 7.5 Arms |
Nominal Power | 2 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 23 Arms |
Continuous Stall current | 6.79 Arms |
Voltage Constant | 85 Vrms/Krpm |
Torque Constant | 1.41 Nm/Arms |
Winding resistance | 1.156 Ω |
Winding inductance qu-v | 13.44 mH |
Winding inductance du-v | 12.21 mH |
Rotor inertia without holding brake | 26.49 kg·cm² |
Rotor inertia with holding brake | 26.99 kg·cm² |
Rotor high inertia without holding brake | 34.67 |
Rotor high inertia with holding brake | 35.12 |
Mass without holding brake | 13 Kg |
Mass with holding brake | 18 Kg |
High inertia mass without holding brake | 14.3 |
High inertia mass with holding brake | 19.3 |
Thermal time constant | 35 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 497 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6B F2 4 |
---|---|
Continuous Stall Torque | 14.32 Nm |
Peak Torque | 42.97 Nm |
Nominal working Speed | 2000 rpm |
Maximum working speed | 4000 rpm |
Nominal Torque | 14.32 Nm |
Nominal Current | 18.8 Arms |
Nominal Power | 3 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 56 Arms |
Continuous Stall current | 16.33 Arms |
Voltage Constant | 53 Vrms/Krpm |
Torque Constant | 0.88 Nm/Arms |
Winding resistance | 0.168 Ω |
Winding inductance qu-v | 2.88 mH |
Winding inductance du-v | 2.71 mH |
Rotor inertia without holding brake | 53.55 kg·cm² |
Rotor inertia with holding brake | 54.09 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 18.5 Kg |
Mass with holding brake | 23 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 35 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 497 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6C H1 4 |
---|---|
Continuous Stall Torque | 19.1 Nm |
Peak Torque | 57.29 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 4000 rpm |
Nominal Torque | 19.1 Nm |
Nominal Current | 18.8 Arms |
Nominal Power | 3 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 61 Arms |
Continuous Stall current | 16.49 Arms |
Voltage Constant | 70 Vrms/Krpm |
Torque Constant | 1.16 Nm/Arms |
Winding resistance | 0.234 Ω |
Winding inductance qu-v | 3.78 mH |
Winding inductance du-v | 3.45 mH |
Rotor inertia without holding brake | 53.55 kg·cm² |
Rotor inertia with holding brake | 54.09 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 18.5 Kg |
Mass with holding brake | 23 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 35 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 497 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6D E2 4 |
---|---|
Continuous Stall Torque | 16.7 Nm |
Peak Torque | 50.3 Nm |
Nominal working Speed | 2000 rpm |
Maximum working speed | 4000 rpm |
Nominal Torque | 16.7 Nm |
Nominal Current | 19.3 Arms |
Nominal Power | 3.5 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 61 Arms |
Continuous Stall current | 16.83 Arms |
Voltage Constant | 60 Vrms/Krpm |
Torque Constant | 0.99 Nm/Arms |
Winding resistance | 0.168 Ω |
Winding inductance qu-v | 2.8 mH |
Winding inductance du-v | 2.57 mH |
Rotor inertia without holding brake | 53.55 kg·cm² |
Rotor inertia with holding brake | 54.09 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 18.5 Kg |
Mass with holding brake | 23 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 38 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 497 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6E G1 4 |
---|---|
Continuous Stall Torque | 28.65 Nm |
Peak Torque | 71.62 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 4000 rpm |
Nominal Torque | 28.65 Nm |
Nominal Current | 22.8 Arms |
Nominal Power | 4.5 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 61 Arms |
Continuous Stall current | 19.68 Arms |
Voltage Constant | 88 Vrms/Krpm |
Torque Constant | 1.46 Nm/Arms |
Winding resistance | 0.199 Ω |
Winding inductance qu-v | 4 mH |
Winding inductance du-v | 3.8 mH |
Rotor inertia without holding brake | 73.31 kg·cm² |
Rotor inertia with holding brake | 73.99 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 23.64 Kg |
Mass with holding brake | 28 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 40 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 49.7 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6F G5 4 |
---|---|
Continuous Stall Torque | 35 Nm |
Peak Torque | 87.53 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 4000 rpm |
Nominal Torque | 35 Nm |
Nominal Current | 28.8 Arms |
Nominal Power | 5.5 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 74.2 Arms |
Continuous Stall current | 25.05 Arms |
Voltage Constant | 84.5 Vrms/Krpm |
Torque Constant | 1.4 Nm/Arms |
Winding resistance | 0.104 Ω |
Winding inductance qu-v | 2.25 mH |
Winding inductance du-v | 2.07 mH |
Rotor inertia without holding brake | 130.33 kg·cm² |
Rotor inertia with holding brake | 120.19 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 32 Kg |
Mass with holding brake | 36.5 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 50 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 49.7 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6F M1 4 |
---|---|
Continuous Stall Torque | 35 Nm |
Peak Torque | 87.53 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 3100 rpm |
Nominal Torque | 35 Nm |
Nominal Current | 18.8 Arms |
Nominal Power | 5.5 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 48.3 Arms |
Continuous Stall current | 16.3 Arms |
Voltage Constant | 130 Vrms/Krpm |
Torque Constant | 2.15 Nm/Arms |
Winding resistance | 0.25 Ω |
Winding inductance qu-v | 5.3 mH |
Winding inductance du-v | 4.9 mH |
Rotor inertia without holding brake | 103.33 kg·cm² |
Rotor inertia with holding brake | 120.19 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 32 Kg |
Mass with holding brake | 36.5 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 50 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 49.7 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6G G4 4 |
---|---|
Continuous Stall Torque | 47.75 Nm |
Peak Torque | 140 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 4000 rpm |
Nominal Torque | 47.75 Nm |
Nominal Current | 41.5 Arms |
Nominal Power | 7.5 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 129 Arms |
Continuous Stall current | 36.08 Arms |
Voltage Constant | 80 Vrms/Krpm |
Torque Constant | 1.32 Nm/Arms |
Winding resistance | 0.062 Ω |
Winding inductance qu-v | 1.3 mH |
Winding inductance du-v | 1.22 mH |
Rotor inertia without holding brake | 142.69 kg·cm² |
Rotor inertia with holding brake | 158.69 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 41.7 Kg |
Mass with holding brake | 46.2 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 60 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 49.7 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.
Specification | TC-E 180 6G L2 4 |
---|---|
Continuous Stall Torque | 47.75 Nm |
Peak Torque | 140 Nm |
Nominal working Speed | 1500 rpm |
Maximum working speed | 3500 rpm |
Nominal Torque | 47.75 Nm |
Nominal Current | 28.4 Arms |
Nominal Power | 7.5 kW |
Rated winding voltage | 400 Vac |
Maximum winding voltage | 650 Vdc |
Maximum voltage to ground | 265 Vac |
Maximum current | 88.4 Arms |
Continuous Stall current | 27.48 Arms |
Voltage Constant | 110 Vrms/Krpm |
Torque Constant | 1.82 Nm/Arms |
Winding resistance | 0.115 Ω |
Winding inductance qu-v | 2.8 mH |
Winding inductance du-v | 2.63 mH |
Rotor inertia without holding brake | 142.69 kg·cm² |
Rotor inertia with holding brake | 158.69 kg·cm² |
Rotor high inertia without holding brake | – |
Rotor high inertia with holding brake | – |
Mass without holding brake | 41.7 Kg |
Mass with holding brake | 46.2 Kg |
High inertia mass without holding brake | – |
High inertia mass with holding brake | – |
Thermal time constant | 60 min |
Maximum radial shaft load | 1200 N |
Maximum axial shaft load | 49.7 N |
Technical specifications are for guidance only, as the individual drives and motors are configured for specific applications. Subject to technical and visual changes.