FEATURE AUTOMATION


INCREASING POWER DEMANDS FOR ROBOTS


resuming operation. This takes valuable time away from production and potentially reduces revenue costs.


BATTERY CONSIDERATIONS To overcome this problem, engineers should ensure that the robot has a suitable backup battery integrated into its system. The range of primary, non- rechargeable, Lithium Thionyl Chloride and Lithium Manganese Dioxide cells and batteries from Ultralife Corporation, for example, provide long term power to a robots control system. Integrating batteries like this means that if power is lost, any critical configuration information is safely retained. Another important consideration when


by Michelle Windsor, global marketing manager, Ultralife Corporation W


hile many experts believe we are on the precipice of a robotics


revolution, robots have in fact existed for over 2,000 years. The first robot was a steam-powered pigeon, which was created by ancient Greek mathematician Archytas and was designed to study how birds fly. Although the concept has existed for


some time, the types of robots that exist today are far more complex then Archytas’s original creation. This is in terms of both the design and their purpose. For example, 70 per cent of industrial robots are reportedly used in the automotive, electrical and machinery industry. The science fiction representations of


robots have been known to spark fear among the public but, with improved features and technological advancements, it appears more businesses are in fact investing in the robotics market. In 2016, North America ordered 24,606


robots alone. Costing $1.9 billion, the investment was a ten per cent growth from the figures reported in 2015 and the demand doesn’t appear to be disappearing. The International Federation of Robotics (IFR) has forecasted that the number of robots to be deployed worldwide will increase to 2.6 billion units by 2019. One of the biggest drivers influencing


the demands for robots is the internet. E- commerce retailers like Amazon are well


22 OCTOBER 2019 | IRISH MANUFACTURING


known for their automated distribution centres, which deliver products safely and efficiently to customers.


OUTGROWING EXISTING TECHNOLOGY Although robots reduce operational costs and speed up various tasks carried out on the factory floor, this isn’t possible without the correct power source. Batteries are the main component of a robotic system and as original equipment manufacturers (OEMs) create more intuitive robots, the power demands for these devices become significantly greater than many existing power sources. Mobile robots, for example, feature


various sensors and processors, in addition to higher-current actuators. Each of these demands a high volume of power. Loss of power in a robot can be problematic for several reasons. The first being that, in the event of power failure, a robot can lose its calibration and mastering values. Calibration governs the set parameters


in the kinematic structure of a robot, such as the relative position of joints, tool-centre-point (TCP) positions and joint lengths. For robots used in the medical sector, calibration is fundamental to the robot’s accuracy — especially if operating on a patient. This means that the engineer must


manually re-programme the robot controller once power returns and before


In 2016, North America ordered 24,606 robots alone


selecting the right battery for a robotic application is whether it features smart functionalities like Ultralife’s UBI-2590 MGPP product range. The range combines Ultralife’s SmartCircuit technology and SMBus v1.1 interface to provide pertinent battery information. Available in three variations, the range


features a Lithium-ion version of the battery, which can communicate with compatible devices and chargers to provide accurate runtime predictions, safety indications and maintenance optimisation. This is part of the battery’s management system (BMS), which protects the cells from issues like over- voltage, under-current and short-circuit. The range also features dual LCD


displays, which indicate the absolute state of charge of each battery. This allows the operator to easily monitor the robot so that they know when to shut down or recharge the battery. This improves on the traditional voltage cut-off management that most batteries rely on and provides a more predictable performance. Most batteries will also include smart


features that broadcast its charging voltage and current requirements to a compliant smart charger. This technology ensures fast, efficient and safe charging because it is the battery that is in control of the process. Whether it's a guided autonomous


Ultralife Corporation www.ultralifecorp oration.com


vehicle (GAV) in a factory, or a wheeled- platform robot for moving shelves and pallets, the cost of downtime from robots like these can be substantial to a company’s production. Powering the robot should, therefore, be a core focus for OEMs.


/ IRISHMANUFACTURING


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