AM8100
AM8100 |
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| Baulänge | |||
| 1 | 2 | 3 | |
| Flanschgröße | |||
| F1 (40 mm) |
AM8111 M0 = 0,20 Nm, nn = 4000 min-1 |
AM8112 M0 = 0,38 Nm, nn = 4500 min-1 |
AM8113 M0 = 0,52 Nm, nn = 3000 min-1 |
| F2 (58 mm) |
AM8121 M0 = 0,50 Nm, nn = 3000 min-1 |
AM8122 M0 = 0,80 Nm, nn = 2000…8000 min-1 |
AM8123 M0 = 1,20 Nm, nn = 5000 min-1 |
| F3 (72 mm) |
AM8131 M0 = 1,30…1,35 Nm, nn = 1000…4000 min-1 |
AM8132 M0 = 2,37…2,40 Nm, nn = 1000…2500 min-1 |
AM8133 M0 = 3,2 Nm, nn = 2000 min-1 |
| F4 (87 mm) |
AM8141 M0 = 2,40 Nm, nn = 1000…2500 min-1 |
AM8142 M0 = 3,9 Nm, nn = 1500 min-1 |
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AG2250
AG2250 |
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| Bauform | ||
| gerade | gewinkelt | |
| Baugröße | ||
| PLE40 |
AG2250-+PLE40 Nenn-Abtriebsdrehmoment 5…20 Nm |
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| PLE60 |
AG2250-+PLE60 Nenn-Abtriebsdrehmoment 15…64 Nm |
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| PLE80 |
AG2250-+PLE80 Nenn-Abtriebsdrehmoment 38…120 Nm |
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| WPLE40 |
AG2250-+WPLE40 Nenn-Abtriebsdrehmoment 4,5…20 Nm |
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| WPLE60 |
AG2250-+WPLE60 Nenn-Abtriebsdrehmoment 14…64 Nm |
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| WPLE80 |
AG2250-+WPLE80 Nenn-Abtriebsdrehmoment 38…120 Nm |
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ASxxxx
ASxxxx |
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| Nennstrom (pro Phase) | |||||||
| 1,00 A | 1,50 A | 2,00 A | 5,00 A | 5,60 A | 6,50 A | 5,60 A | 6,40 A | |
| Flanschmaß | |||||||
| N1 (NEMA17/42 mm) |
AS1010 0,40 Nm |
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AS1020 0,5 Nm |
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| N2 (NEMA23/56 mm) |
AS1030 0,6 Nm |
AS2021 0,8 Nm |
AS1050 1,2 Nm |
AS2022 1,50 Nm |
AS2023 1,8 Nm | 2,3 Nm |
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| N3 (NEMA34/86 mm) |
AS2041 3,3 Nm |
AS2043 8,0 Nm |
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AS1060 5,0 Nm |
AS2042 6,4 Nm |
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AG1000
AG1000 |
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| Bauform | |||
| gerade | |||
| Baugröße | |||
| PM52 |
AG1000-+PM52.i Nenn-Abtriebsdrehmoment 4 Nm |
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| PM81 |
AG1000-+PM81.i Nenn-Abtriebsdrehmoment 20 Nm |
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AMI8100
AMI8100 |
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| Baulänge | |||
| 1 | 2 | 3 | |
| Flanschgröße | |||
| F2 (58 mm) |
AMI8121 M0 = 0,48 Nm, nn = 3000 min-1 |
AMI8122 M0 = 0,78 Nm, nn = 2000…4500 min-1 |
AMI8123 M0 = 1,00 Nm, nn = 3000 min-1 |
| F3 (72 mm) |
AMI8131 Neu M0 = 1,20 Nm, nn = 1800 min-1 |
AMI8132 Neu M0 = 2,18 Nm, nn = 1000 min-1 |
AMI8133 Neu M0 = 2,85 Nm, nn = 800 min-1 |
AL8100
EL/ELM7xxx | Kompakte Antriebstechnik
EL/ELM7xxx | Kompakte Antriebstechnik |
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| < 3 A | 3…5 A | > 5 A | 16 A | |
| Motorart | ||||
| Servomotor |
ELM7211-0010 Ieff = 4,5 A, 48 V DC |
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ELM7211-9016 Ieff = 4,5 A, 48 V DC, TwinSAFE Logic |
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ELM7211-9018 Ieff = 4,5 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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ELM7212-0010 Ieff = 2 x 4,5 A, 48 V DC |
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ELM7212-9016 Ieff = 2 x 4,5 A, 48 V DC, TwinSAFE Logic |
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ELM7212-9018 Ieff = 2 x 4,5 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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ELM7221-0010 Ieff = 8 A, 48 V DC |
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ELM7221-9016 Ieff = 8 A, 48 V DC, TwinSAFE Logic |
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ELM7221-9018 Ieff = 8 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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ELM7222-0010 Ieff = 2 x 8,0 A, 48 V DC |
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ELM7222-9016 Ieff = 2 x 8,0 A, 48 V DC, TwinSAFE Logic |
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ELM7222-9018 Ieff = 2 x 8,0 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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ELM7231-0010 Ieff = 16 A, 48 V DC |
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ELM7231-9016 Ieff = 16 A, 48 V DC, TwinSAFE Logic |
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ELM7231-9018 Ieff = 16 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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EL7201-9014 Ieff = 2,8 A, 48 V DC, OCT, STO |
EL7211-9014 Ieff = 4,5 A, 48 V DC, OCT, STO |
EL7221-9014 Ieff = 7…8 A mit ZB8610, 48 V DC, OCT, STO |
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EL7201-0010 Ieff = 2,8 A, 48 V DC, OCT |
EL7211-0010 Ieff = 4,5 A, 48 V DC, OCT |
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EL7201 Ieff = 2,8 A, 48 V DC, Resolver |
EL7211 Ieff = 4,5 A, 48 V DC, Resolver |
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| Schrittmotor |
EL7031 Imax = 1,5 A, 24 V DC |
EL7041 Imax = 5,0 A, 48 V DC, Inkr.-Enc. |
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EL7031-0030 Imax = 2,8 A, 24 V DC |
EL7041-0052 Imax = 5,0 A, 48 V DC |
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EL7037 Imax = 1,5 A, 24 V DC, Inkr.-Enc., feldorientierte Regelung |
EL7047 Imax = 5,0 A, 48 V DC, Inkr.-Enc., feldorientierte Regelung |
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EL7047-9014 Imax = 5,0 A, 48 V DC, Inkr.-Enc., feldorientierte Regelung, STO |
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EL7062 Imax = 3 A, 5 V DC, Inkr.-Enc. |
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| DC-Motor-Endstufe |
EL7332 Imax = 1,0 A, 24 V DC |
EL7342 Imax = 3,5 A, 48 V DC, Inkr.-Enc. |
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| BLDC |
EL7411 Ieff = 4,5 A, 48 V DC |
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EL7411-9014 Ieff = 4,5 A, 48 V DC, STO |
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| 4-Achs-Interface |
EM7004 4 Inkr.-Enc., 32 Digital-I/Os 24 V DC, 4 Analog-Ausgänge ±10 V |
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Die Standard-EtherCAT-Klemmen (ELxxxx) können optional als ESxxxx mit steckbarer Verdrahtungsebene bestellt werden.
EP7xxx | Kompakte Antriebstechnik
EP7xxx | Kompakte Antriebstechnik |
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| < 3 A | > 3 A | ||
| Funktion | |||
| Servomotormodul |
EP7211-0034 Ieff = 4,5 A, 48 V DC, OCT, STO geeignet, Antriebspr. MDP 742 |
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EP7211-0035 Ieff = 4,5 A, 48 V DC, OCT, STO geeignet, Antriebspr. CiA DS402 |
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| Schrittmotormodul |
EP7041-1002 Imax = 1,5 A, 48 V DC, Inkremental-Encoder, 2 digitale Eingänge, 1 digitaler Ausgang |
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EP7041-0002 Imax = 5 A, 48 V DC, Inkremental-Encoder, 2 digitale Eingänge, 1 digitaler Ausgang |
EP7047-1032 Imax = 5,0 A, 48 V DC |
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EP7041-2002 Imax = 5 A, 48 V DC, Inkremental-Encoder, 2 digitale Eingänge, 1 digitaler Ausgang, Motoranschluss über Stecker |
EP7041-4032 Imax = 5,0 A, 48 V DC, BiSS-C-Encoder |
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EP7041-3002 Imax = 5 A, 48 V DC, Inkremental-Encoder, für Highspeed-Anwendungen, Gebersystem (24-V-DC-Encoder) |
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EP7041-3102 Imax = 5 A, 48 V DC, Inkremental-Encoder, für Highspeed-Anwendungen, Gebersystem (5-V-DC-Encoder) |
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| DC-Motor-Endstufe |
EP7342-0002 Imax = 3,5 A, 48 V DC |
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| Motor-Controller-Box |
EP7402-0057 für Rollenbahnsysteme, 24 V DC, EtherCAT-Abzweig |
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EP7402-0167 für Rollenbahnsysteme, 48 V DC |
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EPP7xxx | Kompakte Antriebstechnik
EPP7xxx | Kompakte Antriebstechnik |
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| < 3 A | > 3 A | |
| Funktion | ||
| Schrittmotormodul |
EPP7041-1002 Imax = 1,5 A, 48 V DC, Inkremental-Encoder |
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EPP7041-3002 Imax = 5,0 A, 48 V DC, Inkremental-Encoder |
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| DC-Motor-Endstufe |
EPP7342-0002 Imax = 3,5 A, 48 V DC |
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ER7xxx | Motion
ER7xxx | Motion |
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| < 3 A | > 3 A | |
| Funktion | ||
| Schrittmotormodul |
ER7041-1002 Imax = 1,5 A, Inkremental-Encoder, 2 digitale Eingänge, 1 digitaler Ausgang |
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ER7041-0002 Imax = 5 A, Inkremental-Encoder, 2 digitale Eingänge, 1 digitaler Ausgang |
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ER7041-2002 Imax = 5 A, Inkremental-Encoder, 2 digitale Eingänge, 1 digitaler Ausgang, Motoranschluss über Stecker |
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ER7041-3002 Imax = 5 A, Inkremental-Encoder, für Highspeed-Anwendungen, Gebersystem (24-V-DC-Encoder) |
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| DC-Motor-Endstufe |
ER7342-0002 Imax = 3,5 A, 48 V DC |
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EJ7xxx | Kompakte Antriebstechnik
EJ7xxx | Kompakte Antriebstechnik |
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| < 3 A | 3…5 A | ||
| Motorart | |||
| Servomotor |
EJ7211-0010 Ieff = 4,5 A, 48 V DC, OCT |
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EJ7211-9414 Ieff = 4,5 A, 48 V DC, OCT, STO, TwinSAFE SC |
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| Schrittmotor |
EJ7031 Imax = 1,5 A, 24 V DC |
EJ7041-0052 Imax = 5,0 A, 48 V DC |
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EJ7037 Imax = 1,5 A, 24 V DC, Inkremental-Encoder, feldorientierte Regelung |
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EJ7047 Imax = 5,0 A, 48 V DC, Inkremental-Encoder, feldorientierte Regelung |
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| DC-Motor-Endstufe |
EJ7334-0008 Imax = 3,0 A, 24 V DC |
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EJ7342 Imax = 3,5 A, 48 V DC, Inkremental-Encoder |
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| BLDC |
EJ7411 Ieff = 4,5 A, 48 V DC |
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KL2xxx | Motion
KL2xxx | Motion |
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| < 3 A | 3…5 A | |
| Schrittmotor |
KL2531 Imax = 1,5 A, 24 V DC |
KL2541 Imax = 5,0 A, 48 V DC, Inkremental-Encoder |
| DC-Motor-Endstufe |
KL2532 Imax = 1,0 A, 24 V DC |
KL2552 Imax = 5,0 A, 48 V DC, Inkremental-Encoder |
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KL2284 Wendeschaltung, Imax = 2,0 A, 0…24 V DC |
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| AC-Motor-Drehzahlsteller |
KL2791 230 V AC, 200 VA, 1-Phasen-Wechselstrommotor |
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Die Standard-Busklemmen (KLxxxx) können optional als KSxxxx mit steckbarer Verdrahtungsebene bestellt werden.
TExxxx | TwinCAT 3 Engineering
TExxxx | TwinCAT 3 Engineering |
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| Betriebssystem | Produkt-Typ | ||
| TwinCAT 3 Motion Designer |
TE5910 |
Windows 7, Windows 10 | Engineering |
| TwinCAT 3 Drive Manager 2 |
TE5950 |
Windows 7, Windows 10 | Engineering |
| TwinCAT Drive Manager |
TC Drive Manager |
Windows 7, Windows 10 | - |
| TwinCAT 3 Bode Plot Base |
TE1320 |
Windows 7, Windows 10 | Engineering, Runtime |
| TwinCAT 3 Autotuning |
TE5960 |
Windows 10 | Engineering |
| TwinCAT 3 Cogging Compensation für Linearmotoren |
TE5920 |
Windows 7, Windows 10, TwinCAT/BSD | Engineering |
| TwinCAT 3 Cogging Compensation Runtime |
TF5920 |
Windows 7, Windows 10, TwinCAT/BSD | Engineering, Runtime |
AMI8100
AMI8100 |
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| Baulänge | |||
| 1 | 2 | 3 | |
| Flanschgröße | |||
| F2 (58 mm) |
AMI8121 M0 = 0,48 Nm, nn = 3000 min-1 |
AMI8122 M0 = 0,78 Nm, nn = 2000…4500 min-1 |
AMI8123 M0 = 1,00 Nm, nn = 3000 min-1 |
| F3 (72 mm) |
AMI8131 Neu M0 = 1,20 Nm, nn = 1800 min-1 |
AMI8132 Neu M0 = 2,18 Nm, nn = 1000 min-1 |
AMI8133 Neu M0 = 2,85 Nm, nn = 800 min-1 |
TwinSAFE sichere Antriebstechnik
TwinSAFE sichere Antriebstechnik |
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| Motorart | ||||
| Servomotor | Schrittmotor | BLDC | ||
| Produktserie | ||||
| EL7xxx | EtherCAT-Klemmen |
EL7201-9014 Ieff = 2,8 A, 48 V DC, OCT, STO |
EL7047-9014 Imax = 5,0 A, 48 V DC, Inkr.-Enc., feldorientierte Regelung, STO |
EL7411-9014 Ieff = 4,5 A, 48 V DC, STO |
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EL7211-9014 Ieff = 4,5 A, 48 V DC, OCT, STO |
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EL7221-9014 Ieff = 7…8 A mit ZB8610, 48 V DC, OCT, STO |
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ELM7211-9016 Ieff = 4,5 A, 48 V DC, TwinSAFE Logic |
ELM7211-9018 Ieff = 4,5 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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ELM7212-9016 Ieff = 2 x 4,5 A, 48 V DC, TwinSAFE Logic |
ELM7212-9018 Ieff = 2 x 4,5 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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ELM7221-9016 Ieff = 8 A, 48 V DC, TwinSAFE Logic |
ELM7221-9018 Ieff = 8 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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ELM7222-9016 Ieff = 2 x 8,0 A, 48 V DC, TwinSAFE Logic |
ELM7222-9018 Ieff = 2 x 8,0 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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ELM7231-9016 Ieff = 16 A, 48 V DC, TwinSAFE Logic |
ELM7231-9018 Ieff = 16 A, 48 V DC, Safe Motion, TwinSAFE Logic |
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| EP7xxx | EtherCAT Box | Industriegehäuse |
EP7211-0034 Ieff = 4,5 A, 48 V DC, OCT, STO geeignet, Antriebspr. MDP 742 |
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| EJ7xxx | EtherCAT-Steckmodule |
EJ7211-9414 Ieff = 4,5 A, 48 V DC, OCT, STO, TwinSAFE SC |
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