The 4910 is faster and even easier to operate than any of our previous systems with accelerated on-the-fly alignment, optimized motion, and the most autonomous “Teach” yet. BPM has managed to close the loop on fully-automated teach — making job set-ups faster and more accurate than humanly possible. There’s nothing like it in the marketplace. Powered by the latest 9th Generation Technology, the 4910 delivers the fastest programming speeds in the industry for MCUs, eMMC HS400, NAND, NOR, and Serial Flash devices. BPM’s 9th Gen technology produces 200 MHz signals, transferring each byte of data in up to 2.5 nanoseconds―up to 9 times faster than competing systems.
Universal 9th Gen Technology with Vector Engine Co-Processor accelerates flash memory waveforms for programming near the theoretical limits of silicon design. The faster the device, the faster it’s programmed. Combined with BPWin, the most advanced feature-rich process control software in the industry, on-the-fly vision alignment and WhisperTeach+, the 4910 produces more devices per year than any other system. Additional options include 3D Vision inspection for coplanarity, bent lead, pitch, width, diameter, standoff and X/Y errors. A full lineup of Input/output options is available, along with Raydiance™, BPM's hybrid laser marking system, for clear traceability on even the smallest programmable devices. Finally, BPWin software API tools integrate your manufacturing process for tight inventory control and process management, allowing you to monitor and control each programming job.
True Universal Support
The 4910 offers true universal support―one solution for all your device programming requirements. Compatible with many existing 7th Gen and 8th Gen socket cards and algorithms, our customers retain the value of previous asset investments. One universal programming site accommodates all devices, reducing the number of systems, sites, and sockets needed. That saves you money, training, complexity and floor space.
High-Quality Socket Cards
Socket cards provide the electro-mechanical interface between your device and the programmer. They’re designed to deliver high-fidelity waveforms to the programmable device, ensuring very high first-pass yields. Each individual socket card can be fully utilized and easily replaced to maintain full programming capacity. Our socket card design, with a receptacle socket option, ultimately increases your manufacturing up-time, produces higher first-pass yields and reduces replacement costs by up to 75 percent.