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Número de pieza | NOII5SM1300A | |
Descripción | IBIS5 1.3 Megapixel CMOS Image Sensor | |
Fabricantes | ON Semiconductor | |
Logotipo | ||
Hay una vista previa y un enlace de descarga de NOII5SM1300A (archivo pdf) en la parte inferior de esta página. Total 30 Páginas | ||
No Preview Available ! NOII5SM1300A
IBIS5 1.3 Megapixel CMOS
Image Sensor
Features
• 1280 x 1024 Active Pixels
• 6.7 mm x 6.7 mm Square Pixels
• 2/3” Optical Format
• Global and Rolling Shutter
• Master Clock: 40 MHz
• 27 fps (1280 x 1024) and 106 fps (640 x 480)
• On-chip 10-bit ADCs
• Serial Peripheral Interface (SPI)
• Windowing (ROI)
• Sub-sampling: 1:2 Mode
• Supply Voltage
♦ Analog: 3.0 V to 4.5 V
♦ Digital: 3.3 V
♦ I/O: 3.3 V
• Power Consumption: 200 mW
• −30°C to +65°C Operating Temperature Range
• 84-pin LCC Package
• These Devices are Pb−Free and are RoHS Compliant
Applications
• Machine Vision
• Inspection
• Robotics
• Traffic Monitoring
http://onsemi.com
Figure 1. IBIS5−1300 Photo
Description
The IBIS5-1300 is a solid state CMOS image sensor that integrates the functionality of complete analog image acquisition,
digitizer, and digital signal processing system on a single chip. This 1.3-mega pixel (1280 x 1024) CMOS active pixel sensor
dedicated to industrial vision applications features both rolling and snapshot (or global) shutter. Full frame readout time is
36 ms (max. 27.5 fps), and readout speed are boosted by windowed region of interest (ROI) readout. Another feature includes
the double and multiples slope functionality to capture high dynamic range scenes. The sensor is available in a monochrome
version or Bayer (RGB) patterned color filter array.
User programmable row and column start/stop positions allow windowing down to a 2x1 pixel window for digital zoom.
Sub sampling or viewfinder mode reduces resolution while maintaining the constant field of view and an increased frame
rate. An on-chip analog signal pipeline processes the analog video output of the pixel array. Double sampling (DS) eliminates
the fixed pattern noise. The programmable gain and offset amplifier maps the signal swing to the ADC input range. A 10-bit
ADC converts the analog data to a 10-bit digital word stream. The sensor uses a 3-wire serial peripheral interface (SPI), or a
16-bit parallel interface. It operates with a 3.3 V power supply and requires only one master clock for operation up to 40 MHz.
It is housed in an 84-pin ceramic LCC package.
ORDERING INFORMATION
Marketing Part Number
Description
NOII5SM1300A-QDC
Mono with glass
NOII5SM1300A-QWC
NOII5SC1300A-QDC
Mono without glass
Color with glass
NOII5FM1300A-QDC
Mono on thicker epitaxial layer, with glass
NOTE: See Ordering Code Information on page 33 for more information.
Package
84−pin LCC
Device Status
End−of−Life (EOL)
Last Time Buy
PCN Close date:
October 29, 2011
© Semiconductor Components Industries, LLC, 2013
May, 2013 − Rev. 12
1
Publication Order Number:
NOII5SM1300A/D
1 page NOII5SM1300A
ARCHITECTURE AND OPERATION
This section presents detailed information about the most important sensor blocks
Imager core
Sensor
Y−left
addressing
Pixel
Y-right
addressing
Reset
C
Sample
Select
Column output
Pixel core
Column amplifiers
Analog multiplexer
X−addressing
Output
amplifier
Sequencer
ADC
System clock
40 MHz
External
connection
Figure 2. Block Diagram of IBIS5−1300 Image Sensor
Floor Plan
Figure 2 shows the architecture of the IBIS5-1300 image
sensor. It consists basically of a pixel array, one X- and two
Y-addressing registers for the readout in X- and Y-direction,
column amplifiers that correct for the fixed pattern noise, an
analog multiplexer, and an analog output amplifier
Use the left Y-addressing register for readout operation.
Use the right Y-addressing register for reset of pixel rows. In
multiple slope synchronous shutter mode, the right
Y-addressing register resets the whole pixel core with a
lowered reset voltage. In rolling curtain shutter mode, use
the right Y-addressing register for the reset pointer in single
and double slope operation to reset one pixel row.
The on-chip sequencer generates most of the signals for
the image core. Some basic signals (such as start/stop
integration, line and frame sync signals) are generated
externally.
A 10-bit ADC is implemented on chip but electrically
isolated from the image core. You must route the analog
pixel output to the analog ADC input on the outside.
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5
5 Page NOII5SM1300A
X−Addressing
Because of the high pixel rate, the X-shift register selects
two columns at a time for readout, so it runs at half the
system clock speed. All even columns are connected to
bus A; all odd columns to bus B. In the output amplifier,
bus A and bus B are combined into one stream of pixel data
at system clock speed.
At the end of the row blanking time, the X_SYNC switch
is closed while all other switches are open and the decoder
output is fed to the register. The decoder loads a logical one
in one of the registers and a logical zero in the rest. This
defines the starting point of the window in the X direction.
As soon as the X_SYNC signal is released, the register starts
shifting from the start position.
When no sub-sampling is required, X_SUB is inactive.
The pointer in the shift-register moves one bit at a time.
When sub-sampling is enabled, X_SUB is activated. The
shift register moves two bits at a time. Taking into account
that every register selects two columns, hence two pixels
sub-sampling results in the pattern ‘XXOOXXOO’ when
eight pixels are considered. Suppose the columns are
numbered from left to right starting with 0 (zero) and
sub-sampling is enabled:
COL(i )
COL (i+2)
COL(i+1)
COL(i+3)
X_SW AP30
X_SW AP12
BUS_A
BUS_B
AB
Reg(n)
SYS_CLOCK 1/2
AB
Reg(n+1)
AB
Reg(n+2)
Column
amplifiers
Output
amplifier
X_SUB
X_SYNC
DEC(n+1) DEC(n+2)
Figure 9. Column Structure
If columns 1 and 2, 5 and 6, 9 and 10 … are swapped using
the SWAP_12 switches, a normal sub-sampling pattern of
‘XOXOXOXO’ is obtained.
If columns 3 and 4, 7 and 8, 11 and 12 … are swapped
using the SWAP_30 switches, the pattern is
‘OXOXOXOX’.
If both the SWAP_12 and SWAP_30 switches are closed,
pattern ‘OOXXOOXX’ is obtained.
Y_SYNC Y_SUB
Y_SW AP12 Y_SW AP30
Reg(n)
DEC(n+1)
Reg(n+1)
SRH ROW(n+1)
DEC(n+2)
Reg(n+2)
SRH
ROW(n+2)
DEC(n+3)
Reg(n+3)
SRH ROW(n+3)
DEC(n+4)
Reg(n+4)
SRH ROW(n+4)
Figure 10. Row Structure
Because every register addresses two columns at a time,
the addressable pixels range in sub-sample mode is from
zero to half the maximum number of pixels in a row (only
even values). For instance: 0, 2, 4, 6, 8… 638.
Table 11. X–SUB-SAMPLING PATTERNS
X_SUB
X_SWAP12 X_SWAP30
Sub-Sample
Pattern
0 0 0 XXXXXXXX
1 0 0 XXOOXXOO
1 1 0 XOXOXOXO
1 0 1 OXOXOXOX
1 1 1 OOXXOOXX
Y−Addressing
For symmetry reasons, the sub-sampling modes in the
Y-direction are the same as in X-direction.
Table 12. Y–SUB-SAMPLING PATTERNS
Y_SUB
Y_SWAP12 Y_SWAP30
Sub-Sample
Pattern
0 0 0 XXXXXXXX
1 0 0 XXOOXXOO
1 1 0 XOXOXOXO
1 0 1 OXOXOXOX
1 1 1 OOXXOOXX
In normal mode, the pointer for the pixel row is shifted one
at a time.
When sub-sampling is enabled, Y_SYNC is activated.
The Y-shift register shifts 2 succeeding bits and skips the 2
next bits. This results in pattern ‘XXOOXXOO’.
Activating Y_SWAP12 results in pattern
‘XOXOXOXO’.
Activating Y_SWAP30 results in pattern
‘OXOXOXOX’.
Activating both Y_SWAP12 and Y_SWAP30 results in
pattern ‘OOXXOOXX’.
The addressable pixel range when Y-sub sampling is
enabled is: 0–1, 4–5, 8–9, 12–13, … 1020–1021
http://onsemi.com
11
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NOII5SM1300A | IBIS5 1.3 Megapixel CMOS Image Sensor | ON Semiconductor |
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