ABB AC servo motors BSM Series

ABB AC servo motors BSM Series

Motion Control Products

Motion controllers: including NextMove ESB - 2 and NextMove e100, support multi-axis co-ordinated motion with various control methods and communication interfaces, suitable for multi-task control of simple motion applications.

Servo Drives: such as the MicroFlex series and MotiFlex series, with a variety of control modes and communication interfaces for single-drive and multi-axis systems, with some models incorporating safety features and energy sharing capabilities.

Introduction to Motion Control and PLC products

Solutions

ABB’s comprehensive range includes multi-axis Motion Controllers, high

performance Motion Control Drives, rotary servo motors, PLCs and

HMI - all designed to seamlessly interface with each other to provide acomplete motion solution. This allows you to optimize your design time,save development costs and minimize your time to market.

Choice

ABB firmly believes in offering our customers a range of productsto fit a variety of market needs. Whether this means delivering

a product from stock, designing a product for your specific application, accessing technical data, or how you place your order,we make it easy to do business with us. Our products are designed to handle a wide range of applications.

Quality, reliability & design

With ISO9001:2008 certification to assure conformity to customer requirements and quality standards, and by using the latest CAD tools and manufacturing techniques, ABB’s engineering teams work side-by-side through design, product development, manufacture and final test to make sure that total quality and reliability is built into and stays with each product throughout its long lifetime.

Experience

Technical knowledge is the key to solving customers’ needs.

Our extensive experience has been gained over many years through close customer contact from product development to field maintenance, providing invaluable feedback for our product development process - ensuring ABB Motion Control and PLC products meet the ease of use, flexibility and performance

demanded by the markets we serve. 

Application Scenarios

Food processing industry: This series of motors are constructed of stainless steel with laser-etched nameplates, which meets the hygiene standards of the food industry, such as FDA shaft seal and BISSC standards, which can effectively prevent bacteria adhesion and contamination, and is suitable for food processing, bakery machinery, beverage equipment, etc. In food packaging, the high precision positioning and stable operation of the motor can ensure the accuracy and efficiency of packaging. In food packaging, the motor's high-precision positioning and stable operation can ensure the accuracy and efficiency of packaging; in bakery machinery, it can adapt to high temperature, humidity and other environments to ensure the continuous and stable work of the equipment.

Pharmaceutical industry: With IP67 protection level and full stainless steel shell, it can effectively resist the erosion and cleaning of chemical substances in the process of drug production, and meet the strict requirements of pharmaceutical environment on equipment hygiene and corrosion resistance. In pharmaceutical production equipment, such as pharmaceutical filling machines, pharmaceutical testing equipment, etc., its high-precision motion control can ensure the accuracy and quality of pharmaceutical production.

Liquid handling industry: all stainless steel material and good sealing makes it able to operate stably in liquid environment, which can be used in liquid conveying equipment, measuring and distributing equipment, and so on. In chemical liquid transfer pumps, it ensures that the motor is not damaged when it comes into contact with corrosive liquids, and at the same time guarantees the stability and precise control of the transfer process.

Places with high hygienic requirements: As it meets high hygienic standards, it can be used in medical equipment, catering equipment and other equipment with stringent hygienic requirements. In medical testing equipment, its high precision and reliability help to improve the accuracy of testing; in catering equipment, it can adapt to the frequent cleaning of the working environment to ensure the normal operation of the equipment.

Harsh corrosive environments: The motor's stainless steel and highly protective design allows it to withstand flushing conditions of 1500 psi (103 bar), allowing it to be used in industrial environments where corrosive substances are present or where frequent flushing is required. In some chemical production plant, offshore equipment and other scenes, can resist the erosion of the harsh environment, to ensure the long-term stable operation of the equipment.

BSM Series Servo Motors

BSM N Series: Low inertia, high dynamic performance, NdFeB magnetic material, peak torque up to four times the continuous torque. Available with a variety of feedback devices, protection ratings to IP54/IP55, cooling packages and optional holding brakes on some models. Torque ranges from 3.9 - 354 lb-in (0.45 - 40 Nm) for applications requiring high acceleration and accurate positioning.

BSM C Series: High inertia, economical, reliable magnetic design with three times the peak torque of continuous torque. Multiple feedback devices and optional configurations, IP54/IP55 rated, torque range of 10 - 1185 lb-in (1.2 - 134 Nm) for high inertia load matching equipment.

SSBSM Series: All stainless steel with IP67 protection and 1500 psi flushing conditions for use in harsh environments such as food and liquids. Available in standard and low inertia designs with a variety of feedback devices and optional holding brakes.

BSM 25/33 Series: Durable round housing, foot mountable, standard neodymium magnet design. Torque range of 18 - 138 lb-in (2 - 15.6 Nm) with light weight, small diameter, and high power output for speed control applications.

Motor sizing calculations: Determine motor requirements based on load mechanical characteristics (e.g. friction and inertia) and motion profiles. Calculation of load parameters for different drive modes (direct, gear, tangential, ball screw), calculation of acceleration torque, rms torque, current and temperature in combination with motor parameters, selection of suitable motor and drive.

Calculation of motor selection: Determination of motor requirements based on load mechanical characteristics (e.g. friction and inertia) and motion profiles. Calculate the load parameters under different drive modes (direct drive, gear drive, tangential drive, ball screw drive), calculate the acceleration torque, root mean square torque, current and temperature in combination with the motor parameters, and select the appropriate motor and drive.