Lenze drive setup

Shopping carts can be stored locally, divided and merged when they are loaded. In addition to the pure product search in the EASY Product Finder, the basic sizing offers you the opportunity to easily come up with a "first" draft of a drive solution for a geared motor with an inverter. The solution can be logged and transferred directly to the shopping cart. Application-oriented drive sizing is the be-all and end-all for the development of a goal-oriented machine concept.

The DSD considers energy efficiency separately for each application. As a result, the tool uncovers potential savings for you during the development of the machine concept. A mechatronic system analysis is extremely important for a machine concept. The DSD contains well-founded and proven knowledge on drive applications and electromechanical drive components.

This knowledge is made available to you interactively. Both simple and complex applications are defined by their individual process data and specific speed curves. The mechanical and electrical drive structure can be individually adapted to the requirements of your machine. The drive components are tested for both the physical requirements as well as the feasible combinations. All parties involved in the planning process have a shared view of the development of the drive solution. The energy performance certificate transparently illustrates the energy balance of the calculated drive solution.

A detailed technical protocol summarizes the design results. The highlights of the DSD include optimum ease of operation for quick and simple drive sizing, analysis and testing of the entire drive system and the creation of alternative drive solutions.

Together with you, we use the new engineering tool to plan your machine and set your ideas in motion for the future.

The journey through the digital transformation: With Lenze, you can tackle the challenges of this journey in production as well as in machine development and construction! Simply plan your system efficiently: The quick and easy system design will help you save time finding a solution. As a result, you gain valuable engineering resources, reduce risks and can bring your machine to market faster. And what's best: The early suggested solutions give you certainty you are making the right decisions when planning your automation.

Whether you are solving standard tasks or making special machines: Take advantage of our expertise. We have included extensive know-how in the Lenze FAST technology modules and are making it available to you. Our standard software modules are already available to design engineers in the machine concept planning phase.

This minimises the downstream programming effort and gives you more time to focus on the special features that make your machine interesting. In addition, you can execute iterations much faster during system planning, because not all the changes always need to be incorporated into other tools.

Eliminating manual interfaces reduces the risk of transmission errors. The digitised development process makes it possible for you to develop the right automation concept for your individual machine at an early stage of the project. The standardised and automatically created documentation can be used in later engineering phases and during operation, and the maintenance measures can be used until the end of the life cycle. Thank you for intense service and parts delivery.

You people were knowledgeable, patient and helpful. From ordering parts at 4 pm EST and receiving them the next day by noon, not once but 3 times! Absolutely amazing. And a special thanks to Ron as we were troubleshooting a very tricky application. Our customer was very happy and impressed. Home 3 Phase Power Tools. Phase Converter Checklist Get the right phase converter.

Talk to one of our Journeymen Electricians Contact Us. Awesome sales and even better after sales service. I highly recommend Electram! Fantastic technical and sales support. When installing the drive ensure optimal airflow by observing all clearance distances in the drive's user manual. Do not expose the drive to excessive: vibration, temperature, humidity, sunlight, dust, pollutants, corrosive chemicals or other hazardous environments. When working on live drive controllers, applicable national regulations for the prevention of accidents e.

VBG 4 must be observed. The electrical installation must be carried out in accordance with the appropriate regulations e. Additional information can be obtained from the regulatory documentation. The regulatory documentation contains information about installation in compliance with EMC shielding, grounding, filters and cables. These notes must also be observed for CE-marked controllers. The manufacturer of the system or machine is responsible for compliance with the required limit values demanded by EMC legislation.

Systems including controllers must be equipped with additional monitoring and protection devices according to the corresponding standards e. You are allowed to adapt the controller to your application as described in the documentation. Please observe the corresponding notes on the controller. Network control permits automatic starting and stopping of the inverter drive. The system design must incorporate adequate protection to prevent personnel from accessing moving equipment while power is applied to the drive system.

This document defines the specifics required for Modbus serial communication with a Lenze-AC Tech standard MC or MC Series drive for control, status monitoring, and programming parameters.

A familiarity with normal drive capabilities and operations is assumed. Therefore, the device communicating with the drives must be a Modbus Master. The baud rate is , no parity two stop bits. The bit sequence is:. At this time the AC Tech drives do not support the broadcast function of the protocol.

However, when transmitted to a slave over the serial link, the actual address transmitted is one less. This is because the addresses are numbered starting from 0. AC Tech register numbers are also numbered starting from 0. Therefore, AC Tech register numbers always correspond exactly with the address transmitted.

In some instances we may show both for clarity. The function codes supported by AC Tech drives are:. In general we can read only one register at a time. However, there are a few limited exceptions. Register 24 - 29 Modbus Register 25 - 30 can also be read as a group of 6 words. AC Tech uses a method of reading a group of related registers that may not be consecutive within the drive memory map. When this is done for the registers below, the response from the drive will be for the number of words requested but will not be with consecutive registers.

Register Modbus Register , Fault history, should be read as a group of 4 words. Register Modbus Register , Software version, should be read as a group of 4 words. As with function 03, we read one register at a time except where noted. Although the function is for multiple registers, we will accept only a single register to be written.

Note: Since we do not differentiate between 4X and 3X references, function codes 03 and 04 are treated identically. This may be of importance when configuring networks for DDE Servers. Lenze-AC Tech manufactures several drive families. Since each drive family has different parameters and size ranges, the parameter register definitions are in many cases quite different. In order to facilitate communication in a network with a mix of drive types, certain AC Tech Register locations have been made universal among AC Tech drives.

While their locations are consistent, their contents may vary as defined in Table 2. Not all drives will have all control functions but when the function is. Drive Family and register Configuration. All registers are 16 bits. The data within these registers can take on the following forms:. Example: Register 1 Modbus Register 2.

This unsigned integer could represent many different types of data with various scaling rules and units, which are defined by the DATA TYPE of the register. For Example: drive speeds are always stored internally as hundredths of a Hz but the drive may display that speed in terms of RPM's using programmed conversion factors.

Table 3 lists examples of the internal units used on the MC series.