Multi-axis servo drive
0.35 - 15 kW | i700
Lenze SE
Hameln/Nuremberg, 22 November 2011
The i700 from Lenze was designed for multi-axis applications, and simplifies machine design, build and commisssioning. In addition to an easy assembly concept, the new drive system is remarkably compact and flexible: double axis models ensure that the volume of the drives is a minimum, while dynamic motor control permits a wide range of applications. Thanks to intuitive software tools and a central engineering interface, the i700 can be integrated easily into automation architectures through EtherCAT. Together with the Controller 3200 C, it constitutes the heart of the Lenze Controller-based Automation System for machines with central motion control.
In the first release, the new servo inverter from Lenze comprises single-axis and double-axis modules for the power range from 0.37 up to 15 kW, along with appropriate power supply modules. Easy wiring using a plug connectors is an advantage. The power supply modules do not usually require any filtering or DC fusing, and are factory-fitted with a braking chopper. The intermediate electrical connections between the i700 drives are made without a cable, using an innovative rail system, and are easily installed by setting connector arms.
The reduced space requirement, lower number of components, easier assembly and cabling of the i700 offer the user a significant boost to productivity. The easy engineering of the system makes a further contribution. The i700 was designed for engineering using only one interface.
The i700 supports the full spectrum of motor technologies, from standard 3-phase up to synchronous servomotors. With extremely short cycle times (250 µs for positional control), a signal resolution of 32 bits and an overload capacity of more than 200 percent, the new servo inverter is as well-suited to highly dynamic, precise, multi-axis applications. Examples are those found in handling and packaging machines or robot applications, also simple positioning tasks.
The integrated safety functionalitiy also simplifies the machine design. "Safe Torque Off (STO)" is provided as standard, while in future, in order to implement extended safety networks, a variant will be available offering, for example, SS1, SS2, SOS, SLS, SDI or SLI, and which achieves the highest safety level (SIL 3, PL e) over EtherCAT (FSoE).
The i700 from Lenze was designed for multi-axis applications, and simplifies machine design, build and commisssioning. In addition to an easy assembly concept, the new drive system is remarkably compact and flexible: double axis models ensure that the volume of the drives is a minimum, while dynamic motor control permits a wide range of applications. Thanks to intuitive software tools and a central engineering interface, the i700 can be integrated easily into automation architectures through EtherCAT. Together with the Controller 3200 C, it constitutes the heart of the Lenze Controller-based Automation System for machines with central motion control.
In the first release, the new servo inverter from Lenze comprises single-axis and double-axis modules for the power range from 0.37 up to 15 kW, along with appropriate power supply modules. Easy wiring using a plug connectors is an advantage. The power supply modules do not usually require any filtering or DC fusing, and are factory-fitted with a braking chopper. The intermediate electrical connections between the i700 drives are made without a cable, using an innovative rail system, and are easily installed by setting connector arms.
The reduced space requirement, lower number of components, easier assembly and cabling of the i700 offer the user a significant boost to productivity. The easy engineering of the system makes a further contribution. The i700 was designed for engineering using only one interface.
The i700 supports the full spectrum of motor technologies, from standard 3-phase up to synchronous servomotors. With extremely short cycle times (250 µs for positional control), a signal resolution of 32 bits and an overload capacity of more than 200 percent, the new servo inverter is as well-suited to highly dynamic, precise, multi-axis applications. Examples are those found in handling and packaging machines or robot applications, also simple positioning tasks.
The integrated safety functionalitiy also simplifies the machine design. "Safe Torque Off (STO)" is provided as standard, while in future, in order to implement extended safety networks, a variant will be available offering, for example, SS1, SS2, SOS, SLS, SDI or SLI, and which achieves the highest safety level (SIL 3, PL e) over EtherCAT (FSoE).
