2900L Manual Programming System
Universal Device Programmer with Precision Socket Actuator Lever
Precision High Volume Production Manual Programmer– the 2900L is a multi-socket manual production programmer ideal for volumes from 1K to 500K+ per year. BPM’s 2900L is excellent for smaller jobs with long programming times
Improved Production Throughput
Operators can consistently actuate sockets while placing and removing devices, minimizing fatigue from opening standard and high-tension sockets by hand. Precision socket actuation increases socket longevity. Opening the socket fully and evenly every time minimizes the potential for bent pins on programmable devices. The Universal Pressure Plate supports virtually all available production sockets and allows for quick package changes and adjustments.
For ultimate performance, we combined our powerful Vector Engine Co-Processor®, capable of achieving a peak operating rate of 12.8 Gb per second, with true universal device support for MCUs, managed NAND, flash memory and more.
Our Vector Engine Co-Processor accelerates flash memory waveforms during the programming cycle. Faster speeds are achieved through synchronous operations that eliminate the dead times when the DUT waits on the programmer. The result is programming near the theoretical limits of the silicon design– the faster the device, the faster the device is programmed.
Versatility & Capacity
OneNAND, eMMC, iNAND, MLC, SLC, MCU, PLD―whatever your device type, the 2900L supports it. Plus, you can connect up to eleven programmers to one PC for concurrent programming of up to 44 devices!
High-Quality Socket Cards
Socket cards provide the electro-mechanical interface between your device and the programmer. They’re precisely designed to deliver high-fidelity waveforms to the programmable device, ensuring very high first-pass yield. 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 uptime, produces higher first-pass yield, and saves replacement costs by as much as 75 percent.