Due to integrated real-time monitoring and preventive maintenance functions, the system is well suited for use in intelligent, networked production environments. Mobile devices, the automobile industry, medical technology, 5G/6G communication and industrial electronics require ever more compact and powerful systems, which in turn need high-precision wire connections in minimal space.
To accommodate complex designs such as system-in-package (SiP) and multi-chip modules (MCMs) as well as applications like ball grid arrays (BGAs), land grid arrays (LGAs), memory modules or quad flat packages (QFPs) with external leads, the AERO PRO supports mixed-wire bonding. The versatile machine processes wires with diameters ranging from 0.5 to 2.0 mil (≈12.7 to 50.8 µm) and lengths ranging from 0.2 to 8.0 mm – well suited for fine-pitch bonding on high-density substrates measuring up to 105 × 300mm.
For uniform 22-µm bond balls, the AERO PRO employs the innovative and patented X-POWER 2.0 transducer (‘AEROducer’), a newly developed lightweight and vibration-optimised ultrasonic transducer comprised composite materials that transfers the energy with great precision in X and Y directions. The mechanism of the XY table is designed for maximum stability and durability.
It features software-supported calibrations, including a precisely controlled, friction-free wire clamp, and is optimised for greater bond cycles without compromising quality.
Furthermore, the AERO PRO supports AI-supported setups and process monitoring with the AERO EYE real-time monitoring system, AERO Diagnostics, and AERO Predictive Maintenance for performance forecasting. The continuous monitoring of quality and maintenance requirements increases both yield and operational efficiency. The AERO PRO is fully automation-capable and can be seamlessly integrated into automated guided vehicle (AGV) systems, rail-guided vehicle (RGV) systems, ceiling conveyor (OHT) systems, and manufacturing execution systems (MES).
The new wire bonder from ASMPT also impresses with its high efficiency in terms of space and resource requirements. Due to various improvements, the production output per unit area (UPH/floor space) has increased by 38% compared with the previous model. At the same time, the consumption of CDA (clean dry air) has been reduced by 40 litres per minute – a notable contribution to reducing operating costs and sustainability on the factory floor.
