PulseForge - Model 3300 - Semiconductor and Photovoltaic Materials Processing System
From Photonic Curing Solutions
The PulseForge 3300 is designed to process higher melting point materials, such as silicon, zinc oxide, ITO, ceramics and CIGS, used for printed logic, display, and photovoltaic applications. The tools create the very high processing temperatures required for recrystallization and annealing, but without damaging low - temperature materials like polymeric substrates, glass (including thin flexible glass) or adjacent organic materials. This is accomplished by using proprietary high-intensity lamps at very short pulse durations.
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Products Details
Designed for Printed Electronics: Semiconductors and Photovoltaics
Power Delivery.
Specifications
- Peak radiant power delivered (kW/cm2) 35
- Max radiant energy delivered (J/cm2) 100
- Max voltage to lamp(s) 950
- Effective max linear processing speed (meters/min)* >100
- Curing dimension per pulse (mm)** 150 x (150 – 4800)***
- Max area cured per sample (mm)** Unlimited
- Pulse length range (microseconds)**** 25–100,000
- Pulse length increment (microseconds) 1
- Minimum pulse spacing (microseconds) 20
- Max pulse rate kHz
- Output spectrum (nm) 200–1500
- Uniformity of exposure (point to point) +/- 2% or better
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