LosmakenVastmakenSluiten

EP7211-0035 | EtherCAT Box, 1-channel motion interface, servomotor, 48 V DC, 4.5 A, OCT, suitable for STO applications

Image similar, may contain optional accessories
EP7211-0035 | EtherCAT Box, 1-channel motion interface, servomotor, 48 V DC, 4.5 A, OCT, suitable for STO applications

EP7211-0035 | EtherCAT Box, 1-channel motion interface, servomotor, 48 V DC, 4.5 A, OCT, suitable for STO applications

EtherCAT signal input
EtherCAT signal output
M12 HWE connection sockets
Signal status display
M12 I/O connection sockets
OCT motor cable connection socket
Power supply status display:
Box supply (US)
Auxiliary voltage (UP)
Power IN
Power OUT
1 | Tx+
2 | Rx+
3 | Rx-
4 | Tx-
A | U
B | W
C | V
1 | +Brake
2 | -Brake
3 | +OCT
4 | -OCT
5 | n.c.
⏚ | FE
1 | GNDP
2 | GNDS
3 | FE
4 | +24 V DC US
5 | +48 V DC UP
Top view 
Connector assignment 
EP7211-0035 | EtherCAT Box, 1-channel motion interface, servomotor, 48 V DC, 4.5 A, OCT, suitable for STO applications

EP7211-0035 | EtherCAT Box, 1-channel motion interface, servomotor, 48 V DC, 4.5 A, OCT, suitable for STO applications

The EP7211-0035 servomotor EtherCAT Box with integrated One Cable Technology (OCT) offers high servo performance in a very compact design for AM8100 series motors with up to 4.5 A (Irms). The One Cable Technology combines motor cable and absolute feedback system in a single cable. The integrated electronic identification plate of the AM81xx motors can be read in automatically by the servo box to configure the motor parameters. In this way, wiring and commissioning requirements are simplified.

The high-performance control technology supports fast and highly dynamic positioning tasks, while numerous monitoring functions offer maximum operational reliability. EtherCAT as a high-performance system communication enables ideal interfacing with PC-based control technology. LEDs indicate status, warning and error messages as well as possibly active limitations. Two integrated digital inputs enable the connection of limit switches.

The STO function according to EN 61800-5-2 can be implemented with the aid of the non-reactive HWE input according to a safety level Cat. 3, PL d according to DIN EN ISO 13849-1:2015 (see document “EP7211-0034 TwinSAFE application example”).

Product status:

regular delivery

Product information

Technical dataEP7211-0035
ProtocolEtherCAT
Bus interface2 x M8 socket, 4-pin, a-coded, shielded
Technologycompact drive technology
Number of outputs1 x servomotor, 1 x motor brake
Number of channels1
Number of inputs2 x end position, 1 x feedback, 1 x HWE
Connection methoddirect motor connection with OCT
Load typepermanent magnet-excited three-phase synchronous motor
Supply voltage power8…48 V DC (external)
Distributed clocksyes
Output current (rms)4.5 A
Peak current (rms)max. 9.0 A for 1 s
PWM clock frequency16 kHz
Current controller frequency32 kHz
Rotating field frequency0…599 Hz
Rated speed controller frequency16 kHz
Power supply connectionfeed: 1 x 7/8" plug, 5-pin; downstream connection: 1 x 7/8" socket, 5-pin
Electrical isolation500 V
Current consumption from US120 mA
Output voltage motor brake24 V DC
Output current motor brakemax. 0.5 A
Realization STOhard-wired via safe output
Safe stop functionsSafe Torque Off (STO)
Special featurescompact and system-integrated, absolute feedback, One Cable Technology (OCT), plug and play, STO (Safe Torque Off), preset drive profile CiA DS402
Weightapprox. 500 g
Operating/storage temperature-25…+60°C/-40…+85°C
Vibration/shock resistanceconforms to EN 60068-2-6/EN 60068-2-27
EMC immunity/emissionconforms to EN 61000-6-2/EN 61000-6-4
Protect. rating/installation pos.IP65/66/67 (conforms to EN 60529)/variable
Approvals/markingsCE, UL, TÜV SÜD
Housing data7/8" infeed
Dimensions (W x H x D)60 mm x 150 mm x 26.5 mm
MaterialPA6 (polyamide)
Installation2 fixing holes 3.5 mm diameter for M3; 2 fixing holes 4.5 mm diameter for M4

Loading content ...

Loading content ...

Loading content ...

Loading content ...

Loading content ...

Loading content ...

Loading content ...

© Beckhoff Automation 2024 - Terms of Use