MT9M034: 1/3-Inch CMOS Digital Image Sensor
Features
1/3-Inch CMOS Digital Image Sensor
MT9M034 Data Sheet, Rev. 8
For the latest data sheet, please visit www.onsemi.com
Table 1:
Key Parameters
Typical Value
Features
• Superior low-light performance
• HD video (720p60)
• Linear or high dynamic range capture
• Video/Single Frame modes
• On-chip AE and statistics engine
• Parallel and serial output
• Auto black level calibration
• Context switching
Parameter
Optical format
Active pixels
1/3-inch (6 mm)
1280 x 960 = 1.2 Mp
3.75m
Pixel size
Color filter array
Shutter type
RGB Bayer or monochrome
Electronic rolling shutter
6 – 50 MHz
74.25 MHz
12-bit
Input clock range
Output clock maximum
• Temperature Sensor
Output
Parallel
Full resolution
720p
45 fps
Applications
• Video surveillance
• 720p60 video applications
• High dynamic range imaging
Frame
rate
60 fps
Responsivity
5.48 V/lux-sec
43.9 dB
SNRMAX
Maximum dynamic range
>115 dB
I/O
1.8 or 2.8V*
1.8 V
General Description
Supply
Digital
voltage
The ON Semiconductor MT9M034 is a 1/3-inch CMOS
digital image sensor with an active-pixel array of
1280H x 960V. It captures images in either linear or
high dynamic range modes, with a rolling-shutter
readout. It includes sophisticated camera functions
such as auto exposure control, windowing, and both
video and single frame modes. It is designed for both
low light and high dynamic range scene performance.
It is programmable through a simple two-wire serial
interface. The MT9M034 produces extraordinarily
clear, sharp digital pictures, and its ability to capture
both continuous video and single frames makes it the
perfect choice for a wide range of applications, includ-
ing surveillance and HD video.
Analog
2.8 V
270 mW (1280 x 720
60 fps Parallel output Linear
Mode)
Power consumption
460 mW (1280 x 720 60 fps
Parallel output HDR Mode)
Operating temperature
(ambient) -TA
–30°C to + 70° C (surveillance)
10x10 mm 48-pin iLCC
Bare die
Package options
*1.8V VDD_IO is recommended due to better row noise per-
formance
MT9M034/D Rev. 8, 2/16 EN
1
©Semiconductor Components Industries, LLC,2016