1
Main Features
•High Sensitivity Full Frame CCD Sensor
•2300 x 3500 Resolution with 10 µm Square Pixels
•100% Aperture Pixels
•12-bit Dynam ic Range
•Very Low Noise: 63 dB SNR
•Binning and ROI Modes
•LVDS Data Format
•High Data Rate: 25 Mpixels/s
•Flexi ble and Easy to Operate via RS232 Control
– Trigger Mo de: Free Run or External Trigger Modes
– Binning 2x2 and 4x4, Up to 5 ROI
– Exposure Time
– Gain: x1 or x4
– Tri Shot Color Operation
•Single Power Supply: DC 24V
•High Reliability – CE Compliant
•F (Nikon) Mount Adapter (Lens Not Supplied)
Product Description
This camera is designed to meet high performance and quality requirements while
providing easiness of use.
• ATMEL manages the whole chain, from the sensor to the camera. The result is a
camera able to work in 12-bit, with a dedicated electronic offering an excellent
signal to noise ratio.
• Because of the 100% aperture pixel the sensitivity of the camera is fairly high
even in the near infrared.
• The programmable settings let the user works at different integration time and
gain. External trigger allows to synchronise the camera on external event while tri
shot color mode allows very high resolution for color image acquisition.
Applications
Perfor mance and reliabil ity of th is camer a make it wel l suited for the most dem andin g
applica tions as film and do cument sc anning, sem iconductor a nd PCB inspection,
DNA analysis, metrology, X-ray imaging, etc...
CAMELIA 8M
8 Megapixels
Digital Camera
Rev. 1986B–IMAGE–03/03
2CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Imaging System
Description
Figure 1. Imaging System
CAMELIA camera is powered by a single +24V power supply.
CAMELIA camera is configurable via the serial port of the computer (by using either
CommCam software or standard RS232 communicator as TTY or Hyperterminal).
CAMELIA camera sends digital video.
As CAMELIA’s CCD is a full frame sensor, the user must use either pulsed lightning or a
chopper/shutter in front of the camera in order to have incident lightning on the CCD
only during integration time. The user must design an electro-optical interface to drive
camera, shutter/ch opper or lightning by using the "SHUTT ER" signal delivered by the
camera . If re quire d, the sy st em c an send an ex ter na l trig ger or ext er nal ITC (i nteg ration
time control signal) to the camera.
The BG38 Filter is essential to have a correct white balance on Color Cameras.
Note that the following Elements are not provided by ATMEL:
• Shutter (LCD or Mechanical)
• BG38 (Anti Infra Red) Filter
• Control Box
• Lens
• Light Source
• +24V Power Supply
•Computer
For a compl ete expla nation of t he util ity o f the B G38 Fi lter a nd the Shutter , ple ase c on-
sult the associated FAQs and the example Images on the ATMEL CDROM "Camera
Documentation & Software".
Light Source
Light &
Shutter
Trigger
Cables
Lens Shutter
& BG38
Camera Power Supply Cable +24V
RS-232
Cable
Data &
Sync
Cable
Control Box
PC Computer
FGT
Frame Grabber
3
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
CCD Description
Image For mat 35.0 mm (V) x 23.0 mm (H)
Active Pixels
Readout Register Readout register along the small side of the image area (vertical image).
Pixel Geometry Pixels are 10 µm x 10 µm with an aperture ratio of 100%.
Anti-blooming by
Clocking Anti-blooming can be activated or inhibited (see “RS232 Controls” on page 10):
• Anti-blooming OFF: anti-blooming inhibited. This position is recommended if anti-
blooming is not required for the application.
• Anti-blooming ON: anti-blooming activated.
• When binning is disabled, the anti-blooming is efficient until 8 times the saturation
Current.
Video Signal Processing
Gain Video signal processing gain can be adjusted by setting the ''CDS gain'' via RS232: a
commutation 1x or 4x is available at the input of the video signal processing.
The 4x position is recommended for low level applications.
Figure 2. Video Signal Processing Gain
Table 1. Active Pixels
Mode (set via RS232) Image size (H x V) Timing diagram correspondence
No binning 2300 x 3500 H = M
V = N
2x2 pixel binning 1150 x 1750
4x4 pixel binning 574 x 875
MPP Photosensitive Zone
Output Register
16 Dark References
3500 Lines
2300 Columns - 100% aperture
- 10µm square pixels
4CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Timing 2x2 and 4x4 pixel bin ning are poss ible to enable p reviewing modes. Prev iew mode is
only av ailable i n Black and white ot herwis e the user ha s to use O verlay mo de (but ne i-
ther correction nor software LUT are applicable on displayed images).
Frame Timing Three timin g modes ar e ava ilable : Conti nuous, ex tern al trig gered an d Integ ratio n Time
controlled (ITC).
The signals described in the following drawings are:
Notes: 1. Pixel is defined as valid (part of the Frame) when both LEN and FEN Signals are at
Low Level .
2. The latency (called Td after) of 1 Readout line Time defined below depends on the
binning mode. For no binning, this latency is around 104 µs.
3. Minimu m T i me at high leve l of LEN Sig nal is 10 µs (Transfer T im e betwee n two lines ).
4. Minimum Time at high level of FEN Signal is 4 lines readout Time (around 416 µs).
5. Shutter Delay is adjustable via Commcam or RS232 commands (1, 5, 10 or 20 ms).
Table 2. Timing Mode
Mode Frame Readout Time Line Readout Time
No binnin g 370 ms 104 µs
2x2 pixel binni ng 200 ms 114 µs
4x4 pixel binning 110 ms 134 µs
Table 3. Frame Timing
Signal Name Description Cam.
In/Out Pins
Connection
LEN Line ENable Low state active when pixel is part
of line Out 26/27
FEN Frame
ENable Low state active when lines are
part of frame Out 3/4
SHUTTER SHUTTER
Sync External shutter Trig output Sig.
(high level active) Out 21/22
TRIG TRIGger External Trigger Input Signal
(Rising Edge) In 46/47
ITC Integration
Time Control External ITC Input Signal
(Falling/Rising Edges) In 46/47
PCK Pixel Clock Internal M aster Data Clock Sign al
at 25 MHz Out 1/2
5
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
Continuous The camera delivers frames continuously:
• Frame N+1 integration starts as soon as frame N readout is completed.
• Integration time is set by RS232.
• “Video Lines” (before and after valid frame) are 4+4 for Binning 1x1 (and also 1+1
for Binning 4x4).
Figure 3. Continuous Timing Diagram
Operation with External
Trigger Integration start is controlled by the user from the external signal TRIG:
• The rising edge of TRIG activates the start of the frame integration. This rising edge
is synchronized by the camera with a latency of Td (Time delay equivalent to a
readout Time for a Line: See notes above).
• Integration time is set by RS232.
• Note: TRIG signal period must be greater than integration time plus frame readout
time.
• “Video Lines” (before and after valid frame) are 4+4 for Binning 1x1 (and also 1+1
for Binning 4x4).
Figure 4. External Trigger Timing Diagram
LEN
Frame
integration
Time set by RS232 Video lines
Line 1
Line 2
Line N-1
Line N
Video lines
M Pixels
Shutter
delay 2 ms
FEN
SHUTTER
LEN
TRIG
Frame
integration
Time set by RS232 Video lines
Line 1
Line 2
Line N-1
Line N
Video lines
M Pixels
Td
Shutter
delay WaitingFrame readout
FEN
SHUTTER
6CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Operation with "Int egration
Time Control" Integration is fully controlled by the user from the external signal ITC:
• The falling edge of ITC activates the start of the frame integration. This falling edge
is synchronized by the camera with a latency of Td (Time delay equivalent to a
readout Time for a Line: See notes above).
• The rising edge of ITC activates the stop of the frame integration. This rising edge is
synchronized by the camera with the same latency of Td.
• Note: ITC signal period must be greater than integration time (defined by ITC low)
plus frame readout time.
• “Video Lines” (before and after valid frame) are 4+4 for Binning 1x1 (and also 1+1
for Binning 4x4).
Figure 5. "Integration Time Control" Timing Diagram
Line Timing Duty cycle of the PCK is 50%.
Rising and falling edges: 1.5 ns.
Data rate is (Internal pixel clock): 25 MHz in binning mode 1x1.
Figure 6. Line Timing Diagram
LEN
ITC
Frame
integration
Time set by RS232 Video lines
Line 1
Line 2
Line N-1
Line N
Video lines
M Pixels
Td Td
Shutter
delay WaitingFrame readout
FEN
SHUTTER
LEN
PCK
DATAs
1st Valid Pixel Last Valid Pixel
7
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
R.O.I (REGIONS OF
INTEREST) Caution: This function is available only since the 5th October 2001 with the Camera S/N:
01321093 . For o lder C ameras, t hese c ommands a ren’t a vailable and c an corrupt the
EEPROM (see “Camera Identification” on page 13).
CAMELIA 8M (bo th Color a nd Bl ack & Whit e) c an op erate in a “ multi ROI” mode a llow-
ing masking of regions of the image and thus increasing frame rate by a reduced
readout time.
User defines up to 5 windows to be masked. In addition he specifies starting and ending
addresses for each window.
Time reduction: about 92 µsec per masked line.
Two steps (under RS232 controls or Commcam):
• Enter the list of starting and ending addresses by the command:
Y=ssss/eeee/ssss/eeee/…/eeee/
• Enter the number of regions masked by the command: F=X (X=0 to 5)
Rules The line addresses must be a multiple of 4 (to be compliant with the binning).
The Image starts at Line 0 and ends at Line 3499 and the smallest area is of 4 lines.
The commands must be send in the following order: “Y=…” then “F=…”.
For FGT Software Users, the user has to resize the number of lines in FGT settings.
Example In order to mask 3 regions in the “wafer image” defined as following:
• The First 304 lines at the top of the image (blue background)
• 748 lines in the center of the image (two center lines of the wafer)
• The last 304 lines of the image (blue background):
– "Y=0/304/1376/2124/3196/3499/"
–"F=3"
In this example readout time will be reduced of 1356 lines equivalent to 125 ms.
Figure 7. Readout Time
8CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Electrical Interfaces
Digital I/O Specifications
LVDS driv er s/ re ce iv er s:
• LVDS: Low Voltage differential Signal. (EIA 644 standard). All digital I/Os are
differential: (signal+, signal-). Specifications are given for signal +.
• Manufacturer NS.
• Driver: DS90C031TM (SO16 package).
• Receiver: DS90C032TM (SO16 package).
Table 4. Digital I/O Specifications
Symbol I/O Definition Leve
l
TRIG_ITC I Timing control:
- TRIG_ITC is either an external trigger or "integration
time contro l" de pending on th e tim ing mod e con fig ured
via RS232.
Operation with external trigger:
- TRIG_ITC = TRIG
Operation with "integrati on time control":
- TRIG_ITC = ITC
- TRIG_ITC is synchronized by the camera line clock
(jitter: 104 µs)
LVDS
PDATA(11..0) O Digital video output: 12-bit LVDS
FEN O Frame enable:
- FEN = 0: frame data valid: active lines
- FEN = 1: frame data not valid
LVDS
LEN O Line enable:
- LEN = 0: line data valid: active pixels
- LEN = 1: line data not valid
LVDS
PCK O Pixel clock LVDS
SHUTTER O Shutter open/close:
- during integration: shutter = 1
- during readout: shutter = 0
Delay between the falling edge of shutter and the start of
readout:
- 4 positions: 1 ms, 5 ms, 10 ms, 20 ms (set via
RS232).
LVDS
COLOUR_I(1..0) I Color selection of the next frame (in color mode):
- "00": red
- "01": green
- "10": blue
LVDS
COLOUR_O(1..0) O Color identification of the current frame (in color mode):
- "00": red
- "01": green
- "10": blue.
LVDS
9
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
Digital I/O Cabling 50 pins connec to r.
Connector reference: HIROSE DX10A-50S.
Mating connector on cable side: HIROSE DX40-50P ; shell: HIROSE DX50-CV1.
Notes: 1. NC : not connected.
2. A "Data + Sync" cable is provided with FGT Frame grabber. This cable allow inter-
connection between:
- The camera,
- The Electro-optical interface,
- The "FGT" frame grabber: see "FGT Frame Grabber user manual".
Table 5. Digital I/O Pinout
Pin
Number Signal Pin
Number Signal
1PCK+26LEN+
2PCK-27LEN-
3 FEN+ 28 COLOUR_O1+
4 FEN- 29 COLOUR_O1-
5 COLOUR_O2+ 30 GROUND
6 COLOUR_O2- 31 GROUND
7 PDATA0+ 32 PDATA1+
8 PDATA0- 33 PDATA1-
9 PDATA2+ 34 PDATA3+
10 PDATA2- 35 PDATA3-
11 PDATA4+ 36 PDATA5+
12 PDATA4- 37 PDATA5-
13 PDATA6+ 38 PDATA7+
14 PDATA6- 39 PDATA7-
15 PDATA8+ 40 PDATA9+
16 PDATA8- 41 PDATA9-
17 PDATA10+ 42 PDATA11+
18 PDATA10- 43 PDATA11-
19 GROUND 44 NC
20 GROUND 45 NC
21 SHUTTER+ 46 TRIG_ITC+
22 SHUTTER- 47 TRIG_ITC-
23 COLOUR_I1+ 48 COLOUR_I2+
24 COLOUR_I1- 49 COLOUR_I2-
25 NC 50 NC
10 CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
RS232 Controls
RS232 Specif ications Camera configuration is set by RS232 interface. The following features are available:
Table 6. RS232 Specifications
Function RS232 Configuration Comment RS232
Command
Timi ng mode 3 mo des:
- continuous (free running)
- external trigger
- external ITC
T=1
T=2
T=3
Binning 3 modes:
- no binning
- 2x2 pixel binning
- 4x4 pixel binning
Image size: 2300(H) x 3500(V)
Image size: 11 50(H) x 1750(V)
Image size: 574(H) x 875(V)
B=0
B=1
B=2
CDS gain 2 positions:
- G = 1
- G = 4
G = 4 is recommended for
applica tion s requ iri ng high
sensitivity H=0
H=1
Shutter 2 modes:
- active
- inactive (always open) S=0
S=1
Shutter delay 4 positions:
- 1 ms
- 5 ms
- 10 ms
- 20 ms
D=0
D=1
D=2
D=3
Anti-blooming
control 2 modes:
- active
- inactive A=0
A=1
Black & white
or color Mode 2 modes:
- black and white
- 3 shot col or C=0
C=1
Black & white
integration
time
Integration time value in ms
from 1 ms to 2000 ms
Active in Monochrome
Must be an integer
Ex: 120 for 120 ms
120.4 not allowed
Ex:
I=120
Red
integration
time
Value in ms
from 1 ms to 2000 ms
Active only in "3 shot color"
mode
Must be an integer
Ex: 120 for 120 ms Ex:
J=120
Green
integration
time
Value in ms
from 1 ms to 2000 ms
Active only in "3 shot color"
mode
Must be an integer
Ex: 120 for 120 ms Ex:
K=120
11
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
Notes: 1. R.O.I commands are available only since the 5th October 2001 with the Camera
S/N: 01321093. For older Cameras, these commands aren’t available and can cor-
rupt the EEPROM. For any doubt, please contact hotline before using R.O.I function
(See “Camera Identification” on page 13).
2. ATM EL recommends to use E = 1 because of the limited EEPROM write cycles refer
on page 11.
Detail of the RS232
Commands
Command Syntax • Valid syntax is: S=n(CR) with:
– S: command identification: S is a single character in upper case
– n: setting value
– (CR): means "carriage return" (ASCII code = 13)
– No spaces, nor tabs may be inserted between S, =, n and (CR)
– For CAMELIA 8M only, each address value is ended by “/”:
Y=ssss/eeee/….eeee/
• Example of a valid command: I=500(CR): sets the Integration Time at 500 ms
• Example of non valid commands:
– I=500(CR): spaces
– i=500(CR): g instead of G
– I=3000(CR): 3000 is out of range
– Y=ssss/eeee/sssseeee/: a “/” is missing
Storage of the Settings in
EEPROM We recommend to use ‘’E=1’’ for settings that are often changed (check the maximum
numbe r of wri te cycl es abov e) and w hen t he time r equir ed by th e camer a to pro cess a
command is critical.
• The maximum number of write cycles allowed for the EEPROM is: 10 000.
• The time required to process a valid ‘’E=0’’ command is around 50 ms.
• The time required to process a valid ‘’E=1’’ command is around 12 ms.
Blue
integration
time
Value in ms
from 1 ms to 2000 ms
Active only in "3 shot color"
mode
Must be an integer
Ex: 120 for 120 ms Ex:
L=120
R.O.I(1)
Number of
Windows
0 to 5 windows Ex:
F=2
R.O.I(1)
Windows
Addresses
Line start/Li ne Stop … Must be an in teg er divisibl e by 4
Line Stop >3
First Line = 0; Last Line = 3499
Ex:
Y=1824/2252
/3156/3499/
Storage of
the settings in
EEPROM(2)
E=0: setting stored
E=1: setting not stored Effective after the send of the
command E=0
Table 6. RS232 Specifications (Continued)
Function RS232 Configuration Comment RS232
Command
12 CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Command Processing after
‘’E=0’’ Each command received by the camera is processed:
• If the command is valid:
– setting is done
– setting is stored in EEPROM
– the camera returns the setting
– the camera returns: >OK(CR)
• If the setting value is out of range (command not valid):
– nothing is done
– the camera returns its current setting (i.e. the setting resulting from the last
valid command)
– the camera returns: > 1
• If the syntax is not correct (command not recognized by the camera):
– the camera returns: > 2
Example of a valid command:
I=500(CR): sent by the user
I=0500(CR): returned by the camera
>OK(CR): returned by the camera
Note: the nu mber of c haracters re turned by the camera is always the same whatev er
the valu e of the settin g is. For examp les :
I=10(CR): sent by the user
I=0010(CR): returned by the camera
>OK(CR): returned by the camera
I=1500(CR): sent by the user
I=1500(CR): returned by the camera
>OK(CR): returned by the camera
Example of non valid commands:
I=3000(CR): sent by the user
I=0500(CR): returned by the camera (03: setting actually in camera)
>1(CR): returned by the camera: setting value out of range
M=2: sent by the user
>2(CR): returned by the camera: command not recognized by the camera
13
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
Command Processing after
‘’E=1’’ Each command received by the camera is processed:
• If the command is valid:
– setting is done
– the camera returns: >OK(CR)
• If the setting value is out of range (command not valid):
– nothing is done
– the camera returns: > 1
• If the syntax is not correct (command not recognized by the camera):
– the camera returns: > 2
Camera Identification A chara cter string s tore d in EE PR OM gi ves th e prod uct mo del, it s vers ion and its s erial
number.
Example: CAMEL_COL_1.6M_01_9851002
stands for: CAMELIA COLOR 1.6M, version 01, serial number 9851002
It is read by sending: !=0 (C R)
The serial number is detailed as following:
Figure 8. Serial Num ber
Customer Identification Customer identification is a character string (25 characters max).
• It is set and stored in EEPROM by sending $=xx..xx
• It is read by sending !=1(CR)
• Customer identification is stored in EEPROM whatever the state of E.
Reading Current Settings When receiving ’!=3(CR)’’ the camera returns its current settings.
98 51 002
Year Number in the week
Week in the year
14 CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Factory Configuration When receiving ‘’!=4(CR)’’, the camera is factory configured and then sends back its
settings:
A=0(CR)
C=0(CR)
H=0(CR)
S=1(CR)
B=0(CR)
T=0(CR)
I=0100(CR)
J=0100(CR)
K=0100(CR)
L=0100(CR)
D=2(CR)
E=0(CR)
F=0(CR) (Y not set)
>OK(CR)
RS232 Cabling On camera Dsub 9pins.
On computer side Dsub9 female, pin out compatible with computer serial port.
Pin out is the same on camera side and on computer side.
Notes: 1. NC : not connected.
2. A "RS232" cable is provided with FGT Frame grabber.
Table 7. RS232 Pinout
Pin Number
At camera output Signal
1NC
2RX
3TX
4NC
5 GROUND
6NC
7TRS
8CTS
9NC
15
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
Power Supply
Power Supply Specifications
Power Supply Cabling
Notes: 1. NC : not connected.
2. A "power supply" cable is provided with FGT Frame grabber.
Figure 9. Receptacle Viewed from Camera Back
Table 8. Power Supply Specification
Parameter Nominal Value Min Value Max Va lue
Voltage +24V +20V +28V
Current 0.6A nd nd
Table 9. Power Supply Pinout
Hirose 6 p ins
male
HR10A-7R-6P
Pin Number
At camer a
output Signal
Pin Number
At end of
power
supply cable SUBD9 male
5+24V1
6+24V2
NC 3
NC 4
NC 5
1 GROUND 6
2 GROUND 7
NC 8
NC 9
1
2
3
6
5
4
16 CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Specifications
Definitions LSB: Least Significant Bit: 12-bit correspond to 4095 LSB.
Absolute Maximum
Ratings Storage temperature: -20°C to +70°C
Operating temperature: 0°C to +50°C
Operating humidity (non condensing): < 80% at +35°C
Vibration: 2g sinusoidal, from 10 Hz to 100 Hz
Power supply: +20V to +28V
Weight 900 g
Electro-optical
Performance Conditions: Camera operating free air temperature: 20°C
Notes: 1. Full scale value VPE: maximum digital video signal.
2. Temporal noise VN: r.m.s value in darkness. Measured by subtracting 2 images pixel
to pixel at 40 ms of integration time.
3. This parameter depends on integration time and on CCD temperature. Thermal noise
doubles every 16°C of temperature elevation. Dark signal doubles every 8°C of tem-
perature elevation. But a internal clamp correct the mean value of this phenomena.
4. Dark signal non uniformity: r.m.s value. Excludes blemishes.
5. Dynamic range DY = VPE/VN
6. Responsitivity conditions: CDS gain = 1x, 3200K, light source powered between 200
and 1100 nm, measured on the sensor.
7. Resolution conditions: VIDEO = 2000 LSB, CDS gain = 1x, 3200K with BG38 2 mm
8. Anti-blooming ON. Integration time = 100 ms.
9. Measured at 24V.
Table 10. Electro-optical Performance
Parameter Symbol Typical
Value Unit Notes
Full scale value VPE 4095 LSB (1)
Tempo ral noi se VN 2.7 LSB (2)(3)
Dark signal non uniformity DSNU 2 LSB.s (3)(4)
Dynamic range DY 1500
63 dB
(5)
Responsivity R 51.43 LSB/(nJ/cm2)(6)
Resolution
Horiz ont al Transfer functi on at Nyqui st
Vertical Contrast Transfer function at
Nyquist
CTFh
CTFv 40%
40% –
–
(7)
Anti-blooming (over illumination capability) – 8x – (8)
Electrons to LSB conversion – 15 e-/LSB
Current consumption I 500 mA (9)
17
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
Spectral Responsivity Figure 10. Spectral Responsivity
Note: nJ/cm2 measured on the sensor.
0
10
20
40
60
80
100
30
50
70
90
400 500 600 700 800 900 1000 1100
LSB/(nJ/cm2)
Responsivity at G = 1
Wavelength (nm)
18 CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Image Grade
Specification • Defect Sizes
– Blemish: 1 x 1 defect.
– Cluster: blemish grouping of not more than a given number of adjacent
defects:
1 x 1 < cluster 1 size ≤ 2 x 2
2 x 2 < cluster 2 size ≤ 5 x 5
– Column: one-pixel-wide column with more than 7 contiguous defective
pixels.
– Defect separation: defects are separated by no less than "D min" pixels in
any direction.
• Defects in Darkness
– Blemish or cluster: pixel(s) whose signal deviate(s) more than 150 LSB.
– Column: column whose signal deviates more than 15 LSB.
• Defects under Illumination
– Blemish or cluster: pixel(s) which deviate(s) by more than +20% or -30%
from the "average" pixel.
– Column: column which deviates by more than 10% from the "average"
column.
Defect Test Conditions • Room temperature = 20°C.
• Integration time in darkness = 100 ms.
• Light source: Halogen 3200K with BG38 (2 mm thick) IR cut- off with f/11 aperture.
• Test under illumination at 50% of saturation level.
• No software correction performed.
• Deviations specified with CDS gain = 1.
Classifications
Table 11. Image Gr ad e Classi fi cat ion s
Grade
Blemishes Cluster 1 Cluster 2 Column
Total D min Total D min Tota l D min Total D min
E≤ 500 3 ≤ 30 50 ≤ 6100≤ 5150
H≤ 300 3 ≤ 10500–0–
19
CAMELIA 8M Digital Camera
1986B–IMAGE–03/03
Geometrical
Specifications
Figure 11 . With F Mount Ring
SN:
First pixel
First line
Data & Sync
110.5 mm
Power
RS 232
Made in France
114 mm
144.5 mm
108 mm
2 x 1/4 - 20 UNC 2B 25.6 mm
74 ± 0.1 mm
37 ± 0.2 mm
5 ± 0.3 mm 6 ± 0.2 mm
26 ± 0.3 mm
112 mm
64 ± 0.2 mm
2 x ∅ 2h7 4 x M3 4 mm
46 mm
Factory adjusted
∅ 66 mm
6 ± 0.2 mm
20 CAMELIA 8M Digital Camera 1986B–IMAGE–03/03
Figure 12. Without F Mount Ring
SN:
First pixel
First line
Data & Sync
110.5 mm
Power
RS 232
Made in France
114 mm
108 mm
2 x 1/4 - 20 UNC 2B 25.6 mm
74 ± 0.1 mm
37 ± 0.2 mm
5 ± 0.3 mm 6 ± 0.2 mm
8.9 ± 0.35 mm
6.9 ± 0.6 mm
26 ± 0.3 mm
6 ± 0.2 mm
112 mm
64 ± 0.2 mm
2 x ∅ 2h7 4 x M3 4 mm
∅ 66 mm
∅ 56 ± 0.1 mm
M 51 - 5 H pas 0.75
Printed on recycled paper.
© Atmel Corporation 2003.
Atmel Corporation makes no warranty for the use of its products, other than those expressly contained in the Company’s standard warranty
which is detailed in Atmel’s Terms a nd Conditions located on the Company’s web site. The Company assumes no responsibility for any errors
which may appear in this docum ent, reserves the right to change devices or specifications detailed herein at any time without notice, and does
not make any commitment to update t he information contained herein. No licenses to patents or other intellectual property of At mel are granted
by the Company in conn ection with the sale of At mel produc ts, expressly or by im plication. Atmel’s products are not authorized fo r use as crit ical
components in life s upport devic es or s ystems.
Atmel Headquarters Atmel Operation s
Corporate Headquarters
2325 Orchard Parkway
San Jose , CA 9513 1
TEL 1(408) 441-0311
FAX 1(408) 487-2600
Europe
Atmel Sarl
Route des Arsenaux 41
Case Postale 80
CH-1705 Fribourg
Switzerland
TEL (41) 26-426-5555
FAX (41) 26-426-5500
Asia
Room 1219
Chin ache m G old en Pla za
77 Mody Road Tsimshatsui
East Kowloon
Hong Kong
TEL (852) 2721-9778
FAX (852) 2722-1369
Japan
9F, Tonetsu Shinkawa Bldg.
1-24 -8 Shin kawa
Chuo-ku, Tokyo 104-0033
Japan
TEL ( 81) 3- 3523- 3551
FAX (81) 3-3523-7581
Memory
2325 Orchard Parkway
San Jose, CA 95131
TEL 1(408) 441-0311
FAX 1(408) 436-4314
Microcontrollers
2325 Orchard Parkway
San Jose, CA 95131
TEL 1(408) 441-0311
FAX 1(408) 436-4314
La Chantrerie
BP 70602
44306 Nantes Cedex 3, France
TEL (33) 2-40-18-18-18
FAX ( 33) 2- 40-1 8-19-6 0
ASIC/ASSP/Smart Cards
Zone Industrielle
13106 Rousset Cedex, France
TEL (33) 4-42-53-60-00
FAX ( 33) 4- 42-5 3-60-0 1
1150 East Cheyenne Mtn. Blvd.
Colorado Springs, CO 80906
TEL 1(719) 576-3300
FAX 1(719) 540-1759
Scottish Enterprise Technology Park
Maxwell Building
East Kilbride G75 0QR, Scotland
TEL (44) 1355-803-000
FAX (44) 1355-242-743
RF/Automotive
Theresienstrasse 2
Postfach 3535
74025 Heilbr onn, Ge rmany
TEL (49) 71-31-67-0
FAX (49) 71-31-67-2340
1150 East Cheyenne Mtn. Blvd.
Colorado Springs, CO 80906
TEL 1(719) 576-3300
FAX 1(719) 540-1759
Biometrics/Imaging/Hi-Rel MPU/
High Speed Converters/RF Datacom
Avenue de Rochepleine
BP 123
38521 Saint-Egreve Cedex, France
TEL (33) 4-76-58-30-00
FAX ( 33) 4- 76-5 8-34-8 0
e-mail
literature@atmel.com
Web Site
http://www.atmel.com
1986B–IMAGE–03/03 0M
ATMEL® is the registered trademark of Atmel; Camelia™ is the trademark of Atmel.
Other terms and product names may be the trademarks of others.
