The MX10130 is a type of image intensifier tube commonly used in night vision devices. NNVT night vision tube amplify low-light images to make them visible to the human eye. Here’s a brief overview of how image intensifier tubes like the MX10130 work and their components:
Basic Operation
- Photo-Cathode: The process begins with the photo-cathode, which converts incoming photons (light particles) into electrons. The efficiency and the spectral response of the photo-cathode determine how well the tube performs in varying light conditions.
- Microchannel Plate (MCP): After the electrons are emitted from the photo-cathode, they are directed into a microchannel plate. The MCP consists of thousands of tiny channels that amplify the number of electrons through a process known as secondary emission. As electrons travel through these channels, they collide with the channel walls, generating additional electrons.
- Phosphor Screen: The amplified electron stream is then directed towards a phosphor screen. When the electrons hit the phosphor, they cause it to luminesce, producing visible light.
- Output: The resulting light is a brightened image that corresponds to the original low-light scene. This image can then be viewed through an eyepiece or projected onto a display.
Applications
MX10130 is cheap intensifier tube, mostly used in PVS7 night vision goggles and other night vision devices.
| MX10130 image intensifier tube |
| Generation |
Gen2+ |
| Level |
NVT7 |
| Photocathode |
S25 |
| FOM |
FOM2000+ |
| Resolution(lp/mm) |
≥68 |
| SNR(dB) |
≥28 |
| Gain(cd/m²/lx) |
10000-20000 |
| Power supply |
Auto-gating |
| Cathode effective diameter(mm) |
18 |
| Phosphor |
Green Phosphor(P43) |
| Life |
10000h |
| Warranty |
1 Year |
