Parameters |
Sensors/Transducers Type |
IMAGE SENSOR,CMOS |
Housing |
CERAMIC |
Output Range |
-0.30-2.80V |
Output Interface Type |
2-WIRE INTERFACE |
Pixel Size |
5.60x5.60μm |
Operating Current-Max |
50mA |
Dynamic Range |
74.8 dB |
Optical Format |
1/4 inch |
Horizontal Pixel Count |
680 |
Master Clock |
27 MHz |
Frame Rate |
30 fps |
Vertical Pixel |
512 |
Array Type |
FRAME |
Body Height |
2.25mm |
RoHS Status |
ROHS3 Compliant |
Lead Free |
Lead Free |
Factory Lead Time |
1 Week |
Surface Mount |
YES |
Mounting Feature |
SURFACE MOUNT |
Part Status |
Active |
Moisture Sensitivity Level (MSL) |
3 (168 Hours) |
Additional Feature |
ELECTRONIC ROLLING SHUTTER, IT ALSO OPERATES AT ANALOG SUPPLY VOLTAGE 2.66-2.94 V |
Body Length or Diameter |
11.43mm |
Operating Temperature (Max) |
70°C |
Body Breadth |
11.43 mm |
Operating Temperature (Min) |
-30°C |
Output Type |
DIGITAL VOLTAGE |
Supply Voltage-Max (Vsup) |
1.9V |
Supply Voltage-Min (Vsup) |
1.7V |
Termination Type |
SOLDER |
MT9V138C12STC-DR Overview
An image sensor with a dynamic range of 74.8 dB should be used. The optical format of the image sensor is 1/4 inch. There's 1.9V voltage limit on image sensors. In contrast, image sensors should provide a minimum voltage of 1.7V. Image sensors should not be subjected to temperatures above 70°C in order to function properly. However, these electronic components should be maintained at a temperature above -30°C. When used, image sensors can carry up to 50mA of current.
MT9V138C12STC-DR Features
Moisture Sensitivity Level (MSL): 3 (168 Hours)
Pixel Size: 5.60x5.60μm
Master Clock: 27 MHz
Horizontal Pixel Count: 680
Output Range: -0.30-2.80V
MT9V138C12STC-DR Applications
There are a lot of ON Semiconductor MT9V138C12STC-DR Image Sensors applications.
- Visual IR thermometers
- Gesture control (man-machine interface)
- Conditioning control system
- Mobile Devices
- Motion Monitoring
- Cell Phones
- People and object counting
- Door opening, machine controlling and safeguarding
- Thermal Comfort sensor in automotive Air
- Machine Vision