Time saving
Fast and easy startup thanks to the electronic nameplate and the use of preconfigured MOVIKIT® software modules.
Simplicity
Fast and easy unit replacement during servicing without engineering PC thanks to portable memory module for storing all unit data.
Openness
Connection to common control systems by supporting various fieldbus protocols and the CiA402 drive profile.
Flexibility
Configurable functional safety - from integrated safety function STO to higher-level safety functions as well as safe communication.
If you need a compact inverter that makes your work easier and, at the same time, keeps your control system options open, our MOVITRAC® advanced is exactly the right choice.
Designed and developed as a compact all-rounder, MOVITRAC® advanced can control and monitor synchronous and asynchronous AC motors with or without an encoder, asynchronous motors with LSPM technology, and both synchronous and asynchronous linear motors. What's more, it benefits from a wide power range of 0.25 to 315 kW and an overload capacity of 150%.
MOVITRAC® advanced is flexible thanks to its integrated communication interfacefor connection to all standard control systems. Connection is possible via PROFINET, EtherNet/IPTM, EtherCAT®/SBusPLUS, Modbus TCP, EtherCAT® CiA402 or POWERLINK CiA402. You can also configure functional safety with MOVITRAC® advanced – from the integrated STO safety function to higher-level safety functions and safe communication.
MOVITRAC® advanced is ideal for materials handling and motion applications such as conveyor belts, hoists and palletizers, making it a true compact all-rounder.
With which products can the MOVITRAC® advanced standard inverter be combined?
Virtually all components from SEW‑EURODRIVE's modular system, so your application is bound to be covered. Combine the standard inverter with standard or servo gearmotors such as the following new addition to the range: CM3C.. series synchronous servomotors – find out more here. Or simply select an appropriate decentralized drive for your requirements.
Motor design
Degree of protection: IP10, IP20 optional (only with power connectors plugged in for grid and motor)
Interference emission: Limit value class C2 to EN 61800-3. The interference suppression level can be improved with relevant measures. You will find further information about this in the product manual ("EMC-compliant installation according to EN 61800-3" section).
Connections: Spring-loaded terminals up to 7.5 kW units
Further options
Technical data | Nominal line voltage V | 1 × AC 200 – 240 3 × AC 200 – 240 3 × AC 380 – 500 | Sizes 0S – 0L 0S, 0L, 3 – 6 0S, 0L, 3 – 8 |
Nominal power kW | 0.25 – 315 | ||
Overload capacity | 150% |
From control technology to inverters and drives, whether centralized or decentralized, there are no language barriers with any of the components from the MOVI-C® modular automation system.
Plan the design of your machines or systems with a single control, communication or installation topology. Our hardware and software will slot seamlessly into place and simply get things moving.
Even when it comes to communication know-how, the standard solution has no limitations. Whatever control or communication topology you specify, MOVITRAC® will have the necessary interface built and make light work of controlling the motor assigned to it.
MOVIKIT®software modules in the "Drive" and "Motion" categories can be used in conjunction with MOVITRAC® advanced. The "Drive" category includes MOVIKIT® software modules that are operated directly on the MOVITRAC® advanced standard inverter:
Single-cable technology for power supply and data transfer with digital encoder for synchronous and asynchronous motors
In fact, only one hybrid cable is required and installed here for the data connection between inverter and motor, and the MOVILINK® DDI digital data interface transfers the power, brake and diagnostic data to the motor.
Different functional scopes are available, depending on the functional safety option selected (CSO, CSB or CSL). The table below provides an overview.
Functional safety overview | |||
Hardware | MOVISAFE® …/CSO/… | MOVISAFE® …/CSB/… | MOVISAFE® …/CSL/… |
Safe inputs | - | 4 | 4 |
Safe outputs | - | - | 1 |
Safe stop function | STO PL d | STO PL d, SS1c | STO PL d, SS1c, SS1b |
Safe brake control | - | - | SBC |
Safe motion | - | - | SLS, SSM |
Safe direction of rotation | - | - | SDI |
Safe communication | - | PROFISafe, Safety over EtherCAT® | PROFISafe, Safety over EtherCAT® |
Safe encoders | - | - | EI7C-FS |
Various keypads with different functional scopes are available.
All device data (parameter and configuration settings) is always stored on the memory module and is kept up to date. If a device needs to be replaced, the system can be started up again in next to no time without additional tools by simply removing the memory module from the old device and plugging it into the replacement.
The CDM11A diagnostic module creates the interface to the MOVISUITE®engineering software. The module also contains two 7-segment displays for displaying the device status. In addition, the module is required for use of the CBG11A and CBG21A keypads.
Sub-mounting plates for sizes 0S and 0L, including pre-installed braking resistor – for space-saving mounting of braking resistors underneath the inverter.
Shield plate extension – for space-saving mounting of e.g. SEW brake rectifiers or multi-level terminal blocks.