In recent years, the LED-lighting revolution has transformed vehicle styling as well as the quality of the illumination cast onto the road. In fact, in front and behind, the change is evident in new designs, new shapes, and signature branding.
Moreover, cars’ lighting are more bright and easily visible at all times of day or night, while brighter, whiter headlamps vividly illuminate the way forward. Inside, the revolution in the enhancements. That is, customizable mood lighting that lets occupants determine their desired ambience.
The transition to LED lighting is also driving change in the manufacturing processes used to build these “light engines”. Specifically, large numbers of emitters can be arrayed in grids, or strips, and associated power-supply and electronic driving circuitry is also needed. Assembly of components are possible on a printed circuit board (PCB) or flexible printed circuit (FPC) using surface-mount technology. Thus, it’s a leap forward from traditional techniques that transform lamp-unit production into a high-precision sequence. Only a specialized automation can possibly handle this kind of task.
Yamaha Robotics SMT Section is a leading supplier of surface-mount assembly equipment chosen by well known brands as well as manufacturing services (EMS) companies to build automotive LED-lighting assemblies. Its customers range from multinational Tier-1s to disruptors entering the market with innovative concepts.
Therefore, working with customers in this industry directly, and through its sales network throughout Europe, Yamaha has delivered complete surface-mount production lines. Specifically, for lighting as well as general automotive electronic assemblies. These include electronic control units, power modules, sensor modules, chargers, and inverters for hybrid and electric vehicles.
Is it necessary to build all automotive assemblies according to very high standards. Thus, car makers typically apply their own special quality specifications for evaluating components and subsystems received from their suppliers. To succeed in this market demands, it is necessary to keep commitment to delivering in high volume. At the same time, to exact the schedules needed to keep vehicle assembly lines running.
Many of the companies now taking on the challenges associated with building LED assemblies have a long history in the automotive business and have been making conventional lighting products for many years.
On the other hand, many are taking their first steps into surface-mount electronic manufacturing. “Customers are looking for automated inline equipment capable of high throughout and rapid component placement, with fast product changeovers, minimal need for line stoppages, and support for traceability, which is a must for automotive,” comments Shuichi Imai, SMT Sales General Manager, Yamaha Robotics.
The Yamaha 1 STOP SMART SOLUTION brings all these qualities together in a portfolio of screen printing, component mounting, and automatic optical inspection (AOI) platforms. Accordingly, they interconnect and communicate to maintain seamless production with rich diagnostics and reporting.
This keeps operators informed continuously and in real-time of the current status and progress toward production goals. Thus, it is possible to supply any of these machines can individually to upgrade slower or less highly automated equipment from other manufacturers.
It is possible to use the YRi-V 3D AOI as a standalone system with automated program-generation using Yamaha’s YSUP software to accelerate new product introduction.
“Sometimes, a team will come to us with a clear understanding of the production capabilities, speed, and equipment features…They are looking for, while others need more guidance,” explains Shuichi Imai. “Of course, we have plenty of experience across general SMT assembly, LED-specific knowhow, and the demands of the automotive sector to provide the right advice.”
Among equipment from the 1 STOP SMART SOLUTION, the YRP10 screen printer, suits repeatability and ease of use. Its features include a standard cycle time of just 5sec and the 3S swing single squeegee head that automatically self-optimizes as the solder-paste roll diminishes. Moreover, automated stencil loading and setup cuts the effective time between changeovers to zero, enabling the next job to begin instantly.
The YRM20 mounter can place components at up to 115,000cph. Moreover, they can handle wide range of components from 0201 (mm) with multi-purpose head options. This ensures high speed and versatility and minimal changeovers.
In addition, side-view component detection instantly senses pickup status and the mounter automatically creates recognition data for custom or unique components.
The YRi-V AOI system combines high-performance machine vision and optics including high camera resolution, multi-angle and multi-wavelength lighting, and laser height measurement to check for correct component placement and solder-joint integrity. The YRi-V gives unerring results in a fast cycle time, which enables consistently high-quality control even when working at peak production throughput. In early 2024, Yamaha introduced a new multi-component alignment checking feature in the YRi-V that is ideal for LED assembly work. It significantly reduces the time and complexity involved in programming the machine to check correct positioning of large arrays of LED emitters.
All the machines are engineered for fast product changeovers. Accordingly, they enable the lighting manufacturers to build a high mix of products and grow their customer base among car makers. Especially, those who are seeking the best capabilities for building advanced lighting for their new vehicle models.
Moreover, Shuichi Imai concluded, “Our 1 STOP SMART SOLUTION fulfils the complete requirements for component surface-mounting and inspection. Yet, it is flexible and can be configured to meet the exact needs of a wide range of customers. Working with our sales partners, we can individually tailor solutions that help companies move successfully into high-speed high-yield, automated electronics assembly.”
05 September 2024