Ultra-high-speed digital micromirror spatial light modulator DMD-2K095-02-16HS
Product Parameters
Model Number |
DMD-2K095-02-16HS |
Specificities |
ultra high speed |
|
Resolution |
1920 x 1080 |
Pixel Size |
10.8μm |
|
Image Size |
0.95" |
Depth |
1-16 bit adjustable |
|
Contrast Ratio |
>2000:1 |
Refresh Frequency (real time transmission) |
8 Bit |
/ |
Input-output synchronization |
Support |
Refresh Frequency (thumbnail sketch) |
16 Bit |
3Hz (5us minimum) |
Spectral Range |
400nm-700nm |
8 Bit |
617.05Hz (5us minimum) |
|
Reflectivity |
>78.5% |
6 Bit |
/ |
|
Damage Threshold |
10W/cm² |
1 Bit |
20746 Hz (5us interval) |
|
RAM/Flash |
RAM 16GB |
Real-time transmission video interface |
NO |
|
PC Interface |
Gigabit Ethernet interface (with USB3.0 adapter) |
Number Of Maps Stored |
62137(1 BIT) 7767(8 BIT) |
|
Angle Of Divergence |
±12° |
Control Software |
HS_DMD_Control |
Supporting software
1. Supports high-speed display of binary images, eight-bit grayscale images, sixteen-bit grayscale images and other 16 grayscale levels, and the image grayscale level can be set flexibly. 2.
2. The cycle display period can be customized, and the frequency can be changed by changing the length of the corresponding cycle time.
3. When the cycle is displayed, you can “terminate” the playback, and change the display cycle and playback order set before.
4. Support internal and external cycle playback and single cycle playback, support internal and external synchronization trigger.
5. Adopts Gigabit Ethernet interface for communication, and USB3.0 network card can also be used for working, which is easy and flexible to use.
6. Supports multiple device networking and synchronized work.
Areas of application
- Laser direct imaging
- holographic imaging
- optical field modulation
- machine vision
- vision guidance
- computational imaging
- spectral analysis
- biomicrography
- circuit board exposure
- structured light projection
- laser holography
- maskless lithography
- hyperspectral imaging
- laser beam calibration
- 3D measurement and 3D printer technology
- spectral analysis
- simulators