DLP Discovery™ Solutions
The KP4100 is a cost effective solution for the most advanced spatial light modulator solutions on the market today. The KP4100 kits provide unparalleled control and versatility at the pixel level, empowering users like never before. Whether you are just beginning your research, replacing an existing technology, or looking to move your validated idea to large scale production, the KP4100 is the solution for you.
Keynote Photonics offers four Discovery starter kits. The visible spectrum products, the KP4100 1080P Visible kit and the KP4100 XGA Visible kit, have leadtime and pricing as indicated on the Keynote Photonics eStore. If you are interested in UV spectrum products for either 1080P or XGA, please fill out the Contact Form for additional information.
The KP4100 can push DLP chipsets to produce a maximum speed of 32,552 binary frames per second using phased reset operations and is capable of efficiently reflecting a large spectral range of incident light due to its aluminum mirror chemistry. The KP100 is available in VIS and UV configurations covering a range of roughly 350-800nm and ideal for maskless lithography, rapid prototyping, microscopy, and display applications.
You can directly control the KP4100 kit using the Xilinx Virtex 5 Applications FPGA (Field Programmable Gate Array). This FPGA enables end users to develop and program custom routines through Verilog or VHDL that push the KP4100 to its limit of more than 32,000 frames per second. The Apps FPGA is able to process data received from the USB 2.0 or Avnet EXP interfaces on the KP4100 circuit board either directly or from the onboard SODIMM memory module.
- 32,552 fps (XGA)/23,148 fps (1080p)
- Xilinx Virtex 5 LX50 Apps FPGA
- 400MHz 2xLVDS interface
- Cypress USB 2.0
- Avnet EXP Expansion Connectors
- Package Type
- Pixel Pitch (um)
- Frame Rate (binary fps)
- Array size (in.)
- Optical Fill Factor (%)
- VIS, UV
- VIS, UV
To get your KP4100 Discovery Product Brief, please click on the button and fill out the form to get instant access.