ETC OV7620

Preliminary Company Confidential
OV7620 Product Specifications -Rev. 1.3 (5/13/00)
OV7620 SINGLE-CHIP CMOS VGA COLOR DIGITAL CAMERA
Features
• SCCB (Serial Camera Control Bus) interface
• 326,688 pixels, 1/3” lens, VGA / QVGA format
• Electronic exposure / Gain / white balance control
• Read out - progressive / Interlace
• Image enhancement - brightness, contrast, gamma, saturation,
sharpness, window, etc.
• Data format - YCrCb 4:2:2, GRB 4:2:2, RGB Raw Data
• 8/16 bit video data: CCIR601, CCIR656, ZV port
• Internal / external synchronization scheme
• Video Timing - 525 line, 30 fps
• Frame exposure / line exposure option
• Wide dynamic range, anti-blooming, zero smearing
• 5 Volt operation, low power dissipation.
• Video Conferencing
• Video Phone
• Video Mail
• Still Image
• PC Multimedia
AGND
VREQ
FREX
AGCEN/RAMINT
RESET
SVDD
SGND
MID
SIO-0
SIO-1
AVDD
AGND
General Description
OV7620 is a highly integrated high resolution
(640x480) Interlaced / Progressive Scan CMOS digital
color / black&white video camera chip. The digital
video port supports 60Hz YCrCb 4:2:2 16Bit / 8 Bit format, ZV Port output format, RGB raw data 16Bit/8Bit
output format and CCIR601/CCIR656 format. The builtin SCCB interface provides an easy way of controlling
the built-in camera functions.
Array Elements
6
5
4
3
2
1
48
47
46
45
44
43
Pixel Size
OV7620
42
41
40
39
38
37
36
35
34
33
32
31
CHSYNC/BW
Y0/CBAR
Y1/PROG
Y2/G2X
Y3/RAW
Y4/CS1
Y5/SHARP
Y6/CS2
Y7/CS0
PCLK/OUTX2
DOVDD
DOGND
Image Area
4.86 x 3.64mm
Electronic
Exposure
500 : 1
Scan Mode
progressive
interlace
Gamma
Correction
128 Curve Settings
See specifics
Minimum
Illumination
2.5 lux @ f1.4
0.5 lux @ f1.4
(3000K)
S/N Ratio
> 48dB
19
20
21
22
23
24
25
26
27
28
29
30
7
8
9
10
11
12
13
14
15
16
17
18
7.6 x 7.6 um
Power Supply
5VDC, ±5%
UV7/B8
UV6/BPCLR
UV5/MIR
UV4/SLAEN
UV3/ECLKO
UV2/QVGA
UV1/CC656
UV0/GAMDIS
XCLK1
XCLK2
DVDD
DGND
AGND
AVDD
PWDN
VRS
VCCHG
SBB
VTO
AVDD
AGND
VSYNC/CSYS
FODD/SRAM
HREF/VSRAM
664 x 492
Power
Requirements
<120mW Active
<10uW Standby
OV7001 48-Pin Out Diagram
Package
48-pin LCC
Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
SECTION 1
PRODUCT OVERVIEW
OV7620 is a highly integrated high resolution (640x480) Interlaced / Progressive Scan CMOS
digital color / black&white video camera chip. The digital video port supports 60Hz YCrCb 4:2:2
16Bit / 8 Bit format, ZV Port output format, RGB raw data 16Bit/8Bit output format and CCIR601/
CCIR656 format. The built-in SCCB (Serial Camera Control Bus) interface provides an easy way
of controlling the built-in camera functions.
1.1 FEATURES
• Single chip digital color/black&white video camera chip.
• Scanning - Interlaced / Progressive Scan.
• Format - 1/3” lens compatible.
• Image area -4.86X 3.64mm.
• Total active pixel elements - (H)664 x (V)492 square pixel.
• Default active pixel element -(H)640 x (V)480.
• Pixel size: 7.6 x 7.6um.
• 10Bit two channel internal A/D Converter and 8/10 Bit Output.
• PCLK and HREF polarity programmable.
• Digital Output format YCrCb 16bit/8bit selectable
60Hz 16 Bit YCrCb 4:2:2 - 640x480
60Hz 8 Bit YCrCb 4:2:2 - 640x480
RGB Raw Data Digital Output 16Bit/8Bit selectable
• Two-line output:
• Y Channel: B G B G B G ...
• UV Channel: G R G R G R ...
Two-line alternate output:
Y Channel: G G G G G G ...
UV Channel: B R B R B R ...
One-line output, use Y Channel only, effective only in Progressive Scan Mode
1st line: B G B G B G B G...
2nd line: G R G R G R G R ...
• CCIR601 /CCIR656 standard.
• YCrCB or YUV output format to support TV or monitor display
• ZV Port YUV 16 Bit format.
• QVGA format(320x240).
• Y/UV or RGB output byte MSB and LSB swap.
• SCCB interface, support fast mode: 400 kBit/s.
• External Field Sync input.
• External Horizontal / Vertical Sync input format, OV7620 worked as slave chip.
• Support external micro-controller and RAM interface
• Progressive Scan mode: support whole-frame exposure.
• Programmable frame rate - 0.5 to 30fps.
• Electronic shutter setting (use 27Mhz crystal and default clock rate).
Interlaced: 1/60 to 1/15734(s)
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
Progressive Scan: 1/30 to 1/15734(s)
• AGC (+24dB) - auto / programmable.
• PreAmp Gain 6/12 db.
• Auto-Exposure-ratio programmable.
• White balance - auto/programmable.
• Auto-White-Balance-ratio programmable.
• Brightness & contrast adjustment.
• Color Saturation adjustment.
• Aperture correction.
• Multiple gamma correction curve selection.
• Multiple luminance gamma correction curve selection.
• S/N ratio > 48 dB.
• Software/Hardware Reset.
• Software/hardware power saving control
• Minimum illumination 2.5 lux at f1.4 (3000k).
• Optical fill factor is 40%.
• Supply: 5 volt for analog and Digital circuit;5volt or 3.3volt for digital interface.
• Power consumption < 120 mW.
• Power-save mode < 10 uA.
• Chip SCCB ID: 0 1 0 CS2 CS1 CS0 1 R/W (CS2 CS1 CS0 select by PIN when power-on, default 0).
• 48pin package.
3
Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
1.2 Pin Assignments
Table 1:Pin Descriptions(Pin type and default level: I-1: digital input+10k pull up; I-0: digital input +10k pull
down, XI/XO; xtal IO; /Secondary functions are set during power up; O/I: digital CMOS level output Bias: power
supply bias.).
Pin #
Name
Class
SVDD
Bias
Sensing Power (+5V) pins.
8, 14,44
AVDD
Bias
Analog Power (+5V) pins.
29
DVDD
Bias
Digital Power (+5V) pins.
32
DOVDD
Bias
Digital I/O Power (+5V / +3.3V) pins.
48
SGND
Bias
Sensing ground connections. Connect to supply common
6, 7, 15, 43
AGND
Bias
Analog ground connections. Connect to supply common
30
DGND
Bias
Digital ground connection. Connect to supply common
31
DOGND
Bias
Digital Output ground connection.
2
RESET
I
3
AGCEN/RAMINT
I-I
4
FREX
I
5
VrEQ
CAP
9
PWDN
I-0
10
VrS
CAP
Internal voltage reference. Requires an 0.1uF decoupling capacitor
to ground.
11
VcCHG
CAP
Internal voltage reference. Requires an 1.0uF decoupling capacitor
to ground.
12
SBB
I
SBB = 1 selects the power-up method of programming the internal
functions. SBB = 0 selects the SCCB pin programming method.
Results of the power-up method can only be changed by a new
power-up or reset sequence.
Video Test Output (NTSC)
1
Function
Chip reset, “high” active.
AGCEN =1 enables the Auto Gain Control. AGCEN = 0 disables it.
This pin setting is effective when pin SBB = 1.
RAMINT=1 initializes frame transfer.
Frame exposure control input, effective in progressive scan only.
The positive width of FREX defines the exposure time.
Internal voltage reference. Requires an 0.1uF decoupling capacitor
to ground.
PWDN =1 puts chip in power down (sleep) mode.
13
VTO
O
16
VSYNC/CSYS
O/I
VSYNC: Vertical sync output. This pin is asserted high during several scan lines in the vertical sync period.
CSYS: Composite Sync. When not using SCCB, a 10k pull up
changes pin 42(CHSYNC) to CSYS.
17
FODD/SRAM
O/I
FODD: Odd field flag. Asserted high during the odd field, low during
the even field.
SRAM: External SRAM
18
HREF/VSFRAM
O/I
HREF: Horizontal window reference output. HREF is high during the
active pixel window, otherwise low.
VSFRAM: Vertical Sync Frame.
19
UV7/B8
O/I
UV7: Digital output UV bus. UV7 used for 16-bit operation for outputting chrominance data.
B8: Switch for 8 bit mode luminance/Chroma tristate. Default is 16
bit mode.
20
UV6/BPCLR
O/I
UV6: Digital output UV bus. UV6 used for 16-bit operation for outputting chrominance data.
BPCLR: Bypass RGB color matrix.
21
UV5/MIR
O/I
UV5: Digital output UV bus. UV5 used for 16-bit operation for outputting chrominance data.
MIR: Mirror.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
Pin #
OMNIVISION TECHNOLOGIES INC.
Name
Class
22
UV4/SLAEN
O/I
UV4: Digital output UV bus. UV4 used for 16-bit operation for outputting chrominance data.
SLAEN: Slave Enable.
23
UV3/ECLKO
O/I
UV3: Digital output UV bus. UV3 used for 16-bit operation for outputting chrominance data.
ECKLO: Swap clock output - changes pin 17(FODD) to XCLK out.
24
UV2/QVGA
O/I
UV2: Digital output UV bus. UV2 used for 16-bit operation for outputting chrominance data.
QVGA: QVGA format (320x240)
25
UV1/CC656
O/I
UV1: Digital output UV bus. UV1 used for 16-bit operation for outputting chrominance data.
CC656: CCIR 656 mode.
26
UV0/GAMDIS
O/I
UV0: Digital output UV bus. UV0 used for 16-bit operation for outputting chrominance data.
GAMDIS: Disables Chroma Gamma (RGB).
XCLK1, XCLK2
XO, XI
XCLK1 and XCLK2 are the input/output of the on-chip video oscillator. Nominal crystal clock frequency is 27MHz. If an external clock is
used, input to XCLK1, leave XCLK2 unconnected.
33
PCLK/OUTX2
O/I
PCLK: Pixel clock output. By default, data is updated at the falling
edge of PCLK and is stable at its rising edge. PCLK runs at the pixel
rate in 16-bit bus operations and twice the pixel rate in 8-bit bus
operations
OUTX2: Doubles current output.
34
Y7/CSO
O/I
Y7: Digital output Y bus. In a 16-bit operation, the luminance data is
clocked out of this bus at the rate of one byte per pixel. In 8-bit operation, the luminance data and the chrominance data is multiplexed
to this bus.
CSO: ID configuation bit for the SCCB slave ID.
35
Y6/CS2
O/I
Y6: Digital output Y bus. In a 16-bit operation, the luminance data is
clocked out of this bus at the rate of one byte per pixel. In 8-bit operation, the luminance data and the chrominance data is multiplexed
to this bus.
CS2: ID configuation bit for the SCCB slave ID.
36
Y5/SHARP
O/I
Y5: Digital output Y bus. In a 16-bit operation, the luminance data is
clocked out of this bus at the rate of one byte per pixel. In 8-bit operation, the luminance data and the chrominance data is multiplexed
to this bus.
SHARP: Enable Analog Sharpness.
37
Y4/CS1
O/I
Y4: Digital output Y bus. In a 16-bit operation, the luminance data is
clocked out of this bus at the rate of one byte per pixel. In 8-bit operation, the luminance data and the chrominance data is multiplexed
to this bus.
CS1: ID configuation bit for the SCCB slave ID.
38
Y3/RAW
O/I
Y3: Digital output Y bus. In a 16-bit operation, the luminance data is
clocked out of this bus at the rate of one byte per pixel. In 8-bit operation, the luminance data and the chrominance data is multiplexed
to this bus.
RAW: Raw Data.
39
Y2/G2X
O/I
Y2: Digital output Y bus. In a 16-bit operation, the luminance data is
clocked out of this bus at the rate of one byte per pixel. In 8-bit operation, the luminance data and the chrominance data is multiplexed
to this bus.
G2X: Gain 2X.
27, 28
Function
5
Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
Pin #
OMNIVISION TECHNOLOGIES INC.
Name
Class
Function
40
Y1/PROG
O/I
Y1: Digital output Y bus. In a 16-bit operation, the luminance data is
clocked out of this bus at the rate of one byte per pixel. In 8-bit operation, the luminance data and the chrominance data is multiplexed
to this bus.
PROG: Progressive Scan Mode.
41
Y0/CBAR
O/I
Y0: Digital output Y bus. In a 16-bit operation, the luminance data is
clocked out of this bus at the rate of one byte per pixel. In 8-bit operation, the luminance data and the chrominance data is multiplexed
to this bus.
CBAR: Color Bar Test Pattern.
42
CHSYNC/BW
O/I
CHSYNC: Digital output for either composite sync or horizontal sync
signal.
BW: Enables Black & White.
45
SIO-1
I
SCCB Serial clock input with schmitt trigger.
46
SIO-0
IO
SCCB Serial data, input with schmitt trigger.
47
MID
I-0
Multiple SCCB slave ID enable.
MID = 1 SCCB slave ID is configurable through power up setting in
CS(2:0)
MID = 0 SCCB slave ID is preset to 42H/43H.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
1.3 CHIP OPERATION
Referring to FIG 1.1, OV7620 includes a 664x492 resolution image array, an analog signal processor, dual 10bit A/D converters, analog video mux, digital data formatter and video port, SCCB
interface with its registers, the digital controls including timing block, exposure block and white
balance.
RGB
VcSAT VcCNT
mx
RVO
BUO
GYO
DENB
GAMMA
r
g
b
row select
XVCLK1
UV(7:0)
(664X492)
image
array
registers
video
timing
generator
sys-clk
1/2
ADC
exposure white
detect
balance
detect
column sense amp
VrEQ
mx
video port
Y
Cb
Cr
ADC
formatter
analog
processing
VcSHP
Y(7:0)
mx
PCLK
FODD
HREF
exposure
control
AGCEN
CHSYNC
FSIN
FREZ
MIR PROG
FZEX
WB
control
AWB
AWBTH/
AWBTM
SCCB
interface
SIO-1
SIO-0
SBB
VSYNC
FIG 1.1 OV7620Block Diagram
OV7620is a 1/3 inch CMOS imaging device. The sensor contains approximately 326,688 pixels.
It is base on field integration read-out system with line-by-line transfer and an electronic shutter
with synchronous pixel read out scheme. The color filter of the sensor consists of primary color
RG/GB array arranged in line alternating fashion.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
The majority of signal processing is performed in the analog processing block, which does color
separation, matrixing, AGC, gamma correction, color correction, color balance, black level calibration, knee smooth, aperture correction, controls for the luminance and chrominance picture
and anti-alias filtering. The analog video signals are based on the formula:
Y = 0.59G + 0.31R + 0.11B; where R,G,B is the equivalent color components in each pixel
U = R-Y;
V = B-Y;
Another output data format is YCrCb, its formula is as follows:
Y = 0.59G + 0.31R + 0.11B
Cr = 0.713 x (R - Y)
Cb = 0.564 X (B - Y)
The YCrCb /RGB Raw Data signal is fed to two 10 bit A/D converters, one for the Y/R&G channel, one is shared by Cr&Cb / B&G channels. The A/D converted data stream is further conditioned in the digital formatter, finally the 16bit or 8 bit data muxing is done in the digital video port.
The on-chip 10 bit A/D can operate up to 13.5 MSPS, since it is fully synchronous to the pixel
rate, the conversion rate always follows the frame rate. An A/D black-level-calibration circuitry
ensures the black level of Y/RGB is translated to value 16, and the peak white level is limited to
240; CrCb black level is 128, Peak/Bottom is 240/16. RGB raw data output range is 16/240, 0 &
255 reserved for sync flag. Also OV7620 support non-CCIR standard output range, that is 1/254,
0 and 255 are reserved for sync flag.
The computation in the electronic exposure control is based on the brightness of the full image.
The exposure algorithm is optimized for normal scene which assuming the subject is well-lit relative to the background. In case of a different backlight condition, there is also a AEC White/
Black ratio selection register, which can be used as AEC algorithm adjustment to get special image. Along with the AEC is the on chip AGC which can boost gain up to 24dB if needed. To
achieve proper color temperature, auto or manual white balance control is also available. There
is a separate saturation, brightness contrast and sharpness adjustment for further fine tuning of
the picture quality. OV7620 provide a set of register to control White Balance ratio register which
can be used as increase/decrease image field Red/Blue component ratio. In most case, the default setting may be sufficient.
The windowing feature allows the user to size the window according to their need. The window
is sizable from 4X2 to 664x492 and can be placed anywhere inside the 664X492 boundary. Noted this function does not change the frame rate or data rate, it simply change the assertion of the
HREF to match with the horizontal and vertical region that is programmed by the user. A typical
application for this is hardware zooming, and panning. Default output window is 640x480.
The digital video port offers 16 bit 4:2:2 format complying to the 60Hz CCIR601 timing standard.
OV7620 also supports 8 bit data format in Cb Y Cr Y order by using port Y only and running at
twice the pixel rate while the port UV is inactive. Other than the 16 bit data bus, OV7620 supplies
standard video timing signals such as VSYNC, HREF, PCLK, FODD, CHSYNC.
OV7620 support standard ZV Port Interface Timing. It provides VSYNC, CHSYNC, PCLK and
16 Bit data bus: Y<7:0> and UV<7:0>. PCLK rising edge clock data bus into ZV port.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
To decrease data transfer rate while high resolution image unnecessary, OV7620 provide a solution, that is it can output QVGA resolution image. This mode decrease pixel rate one half. The
resolution default value is 320x240 and can be programmable. Every line only output one half
data. For Interlaced Mode, all field line output (320), for Progressive Scan Mode, only one half
line data output.
The digital video port also offer RGB Raw Data 16 Bit/8 Bit format. The output sequence is
matched to OV7620 Color Filter Pattern, that is UV channel output sequence is G R G R ..., Y
Channel output sequence is B G B G,....To 8 Bit RGB Raw data output format, just use Y channel
and disable UV channel, output sequence is B G R G ....
OV7620 support CCIR656 YCrCb 4:2:2 digital output format. The SAV(Start of Active Video) and
EAV(End of Active Video) is just at the beginning and the end of HREF window. So the position
of SAV and EAV is changing with active pixel window. Also you can get 8 bit RGB raw data with
SAV and EAV information.
OV7620 support some flexible YUV output format. One is standard YUV 4:2:2. Another is U V
sequence swap format, that means UV channel output V U V U ...(16 Bit) and V Y U Y ...(8 Bit).
The 3rd format is Y/UV sequence swap in 8 Bit output, that is Y U Y V ....
OV7620 can be use as black&white camera. At this mode, it’s vertical resolution will be higher
than color mode. All data will be output from Y port and UV port will be tri-state. Data (Y/RGB)
output rate is same as 16 Bit mode.
OV7620 can be programmable to swap Y/UV or RGB output byte MSB and LSB. Y7 - Y0 default
sequence is Y7 is MSB and Y0 is LSB. When swap, Y7 is LSB and Y0 is MSB, relative middle
bits are swapped.
An important factor about digital camera is how convenient the interface is, OV7620 has made
the frame rate programmable and the A/D synchronous to the actual pixel rate. Essentially, it is
a whole image capture system in a single chip. Since the internal AEC has a range of 1:260, and
AGC have 24dB, for the most of applications, the camera can adjust itself to meet the lighting
condition without user intervention.
OV7620 support hardware/software RESET function: when RESET pin tie to high, whole chip
will be reset including all register. Hardware sleeping mode: when PWDN tie to high, chip clock
will be stop and internal circuit reset except all SCCB register. Also there is a SCCB control software reset control register 12 bit 7, which is same as hardware RESET pin function.
OV7620 hardware reset time minimum is 1 ms.
OV7620 support hardware/software power saving mode. When the PWDN pin tie to high, whole
chip will be set to power down status without any current consumption. For software power down
control, all current set to zero except crystal circuit. In power down mode, all SCCB register value
will be kept.
Two control mechanism have been built into OV7620: A. one time read-in of pin states at power
up or RESET status, including hardware and software reset; B. SCCB interface. Two methods
are mutually exclusive, only one is used at a time, selected by pin SBB. Method A has limited
access to full chip features.
The power up reset method is a one time setting, the setting can not be altered later. The pins
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
used in the control are shared with the digital video port data bus. At power up, the video port is
initially tri-stated, allowing the external pull-up/pull-down resistor to set the default operating conditions, 2048 clocks later the video port resumes normal function. The detail of the power up pin
control method is explained in the individual pin out section.
SCCB interface provides full access to all the features. The detail is in the SCCB register set.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
1.4 VIDEO FORMAT
Table 1.1: 4:2:2 16 bit Format
Data Bus
Pixel Byte Sequence
Y7
Y7
Y7
Y7
Y7
Y7
Y7
Y6
Y6
Y6
Y6
Y6
Y6
Y6
Y5
Y5
Y5
Y5
Y5
Y5
Y5
Y4
Y4
Y4
Y4
Y4
Y4
Y4
Y3
Y3
Y3
Y3
Y3
Y3
Y3
Y2
Y2
Y2
Y2
Y2
Y2
Y2
Y1
Y1
Y1
Y1
Y1
Y1
Y1
Y0
Y0
Y0
Y0
Y0
Y0
Y0
UV7
U7
V7
U7
V7
U7
V7
UV6
U6
V6
U6
V6
U6
V6
UV5
U5
V5
U5
V5
U5
V5
UV4
U4
V4
U4
V4
U4
V4
UV3
U3
V3
U3
V3
U3
V3
UV2
U2
V2
U2
V2
U2
V2
UV1
U1
V1
U1
V1
U1
V1
UV0
U0
V0
U0
V0
U0
V0
0
1
2
3
4
5
Y FRAME
UV FRAME
0
2
4
Table 1.2: 4:2:2 8 bit Format
Data Bus
Pixel Byte Sequence
Y7
U7
Y7
V7
Y7
U7
Y7
V7
Y7
Y6
U6
Y6
V6
Y6
U6
Y6
V6
Y6
Y5
U5
Y5
V5
Y5
U5
Y5
V5
Y5
Y4
U4
Y4
V4
Y4
U4
Y4
V4
Y4
Y3
U3
Y3
V3
Y3
U3
Y3
V3
Y3
Y2
U2
Y2
V2
Y2
U2
Y2
V2
Y2
Y1
U1
Y1
V1
Y1
U1
Y1
V1
Y1
Y0
U0
Y0
V0
Y0
U0
Y0
V0
Y0
Y FRAME
UV FRAME
0
1
2
01
3
23
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OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
Tclk
PCLK
Thd
Tsu
HREF
Y<7:0>
UV<7:0>
10
Y
Y
10
80
U
V
80
repeat for all data bytes
Pixel Data 16 bit Timing
Use PCLK rising edge latch data bus
Tclk
PCLK
Tsu
Thd
HREF
Y<7:0>
10
80
10
U
Y
V
Y
80
10
repeat for all data bytes
Pixel Data 8 bit Timing
Use PCLK rising edge latch data bus
FIG 1.2 Pixel Data Bus (YUV Output)
Note: Tclk is pixel clock period. When OV7620 system clock is 27MHz, Tclk=74ns for 16 Bit output; Tclk=37ns for 8 Bit output. Tsu is HREF set-up time, maximum is 15 ns; Thd is HREF hold
time, maximum is 15 ns.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
1.5 RGB Raw Data Format
RGB Raw data output from Y and UV port.
UV port output data sequence: G R G R G R ... or B R B R ...(refer to register 28 bit 2)
Y port output data sequence: B G B G B G ... or G G G G ...(refer to register 28 bit 2)
Array Color Filter Patter is Bayer-Pattern
Table 1.3:
R\C
1
2
3
4
.
641
642
643
644
1
B11
G12
B13
G14
B
G
B
G
2
G21
R22
G23
R 24
G
R
G
R
3
B31
G32
B33
G34
B
G
B
G
4
G41
R42
G43
R 44
G
R
G
R
5
B51
G52
B53
G54
B
G
B
G
481
B
G
B
G
B
G
B
G
482
G
R
G
R
G
R
G
R
483
B
G
B
G
B
G
B
G
484
G
R
G
R
G
R
G
R
485
B
G
B
G
B
G
B
G
.
1.5.1 Interlaced Mode 16 Bit Format (HREF total 242)
1.5.1.1 Default mode: In ODD FIELD, 1st HREF output UV channel is 2nd line: G21 R22 G23 R24... and Y channel
is Row 1: B11 G12 B13 G14 ... . 2nd HREF output UV channel output 4th line: G41 R42 G43 R44 ... and Y port output
3rd line: B31 G32 B33 G34 ... , so on. Data bus should be latched by PCLK rising edge and related to the exact physical position In Even FIELD, 1st HREF Y channel output B31 G32 B33 G34 ... and UV channel output G21 R22 G23
R24 ...2nd HREF Y channel output B51 G52 B53 G54 ... and UV output G41 R42 G43 R44 ....
1.5.1.2 YG mode: In ODD FIELD, 1st HREF Y channel output G21 G12 G23 G14 ... and UV channel is B11 R 22 B13
R24 .... 2nd HREF Y channel output G41 G32 G43 G34 ... and UV channel output B31 R 42 B33 R44 .... In EVEN
FIELD, 1st HREF Y channel output G21 G32 G23 G34 ... and UV channel output B31 R22 B33 R24 ... 2nd HREF
channel output G41 G52 G43 G54 ... and UV channel output B51 R42 B53 R44 ...
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1.5.2 Progressive Scan Mode 16 Bit Format (HREF total 484)
1.5.2.3 Default mode: 1st HREF UV channel output unstable data, Y output B11 G12 B13 G14 .... 2nd HREF UV
channel output G21 R22 G23 R24 ..., Y output B11 G12 B13 G14 ... 3rd HREF UV channel output G21 R22 G23 R24 ...,
Y output B31 G23 B33 G34 .... Every line data output twice.
1.5.2.4 YG mode: 1st HREF Y and UV output unstable data. 2nd HREF Y channel output G21 G12 G23 G14 ..., UV
output B11 R22 B13 R24 ... 3rd HREF Y is G21 G32 G23 G34 ..., UV channel is B31 R22 B33 R24 ... Every line data output twice.
1.5.2.5 One line mode: 1st HREF Y channel output B11 G12 B13 G14 ..., 2nd HREF Y channel output G21 R22 G23
R24 ..., so on. UV channel tri-state.
1.5.3 Interlaced Mode 8 Bit (242 HREF)
1.5.3.6 ODD FIELD: 1st HREF Y channel output B11 G21 R22 G12 ... 2nd HREF Y channel output B31 G41 R42
G32..., so on. PCLK timing is double and use PCLK rising edge latch data bus. UV channel tri-state.
1.5.3.7 EVEN FIELD: 1st HREF Y channel output B31 G21 R22 G32 ... 2nd HREF Y channel output B51 G41 R42
G52 ..., so on. PCLK timing is double and data bus should be latched by its rising edge. UV channel tri-state.
1.5.4 Progressive Scan Mode 8 Bit (484 HREF)
1.5.4.8 1st HREF Y channel output unstable data. 2nd HREF Y channel output B11 G21 R22 G12 ... 2nd HREF Y
channel output B31 G21 R22 G32 ..., so on. PCLK timing is double and PCLK rising edge latch data bus. UV channel tri-state. Every line data output twice.
RGB raw data timing chart is as follows:
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Tclk
PCLK
Tsu
Thd
HREF
UV<7:0>
Y<7:0>
10
G
R
10
10
B
G
10
repeat for all data bytes
Pixel Data 16 bit Timing
PCLK rising edge latch data bus
Tclk
PCLK
Tsu
Thd
HREF
Y<7:0>
10
10
B
G
B
G
10
10
repeat for all data bytes
Pixel Data 8 bit Timing
PCLK rising edge latch data bus
FIG 1.3 Pixel Data Bus (RGB Output)
Note: Tclk is pixel clock period. When OV7620 system clock is 27MHz, Tclk=74ns for 16 Bit output; Tclk=37ns for 8 Bit output. Tsu is HREF set-up time, maximum is 15 ns; Thd is HREF hold
time, maximum is 15 ns.
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1.6 ZV Port Interlace Timing
The ZV Port is a single-source uni-directional video bus between a PC Card socket and a VGA
controller. The ZV Port complies with CCIR601 timing to allow NTSC decoders to deliver realtime digital video straight into the VGA frame buffer from a PC Card. OV7620 support ZV Port
Timing, which output signal can be output to a PC Card directly, then to VGA controller. The timing is as below:
Even Field 1(FODD=0)
Odd Field(FODD=1)
VSYNC
t8
t8
HREF
t6
t5
t7
t2
PCLK
t1
Y<7:0> /
UV<7:0>
t4
t3
1
2
639 640
Valid Data
Horizontal Timing
VSYNC
Tvs
Y<7:0>/
UV<7:0>
Tve
1 Line
Tline
FIG 1.4 ZV Port Timing
Notes: ZV Port format output signal include:
VSYNC: Vertical sync pulse.
HREF: Horizontal valid data output window.
PCLK: Pixel clock used to clock valid data and CHSYNC into ZV Port. Default frequency is 13.5MHz when
use 27MHz as system clock. Rising edge of PCLK is used to clock the 16 Bit data.
Y<7:0>: 8 Bit luminance data bus..
UV<7:0>: 8 Bit chrominance data bus.
All Timing Parameters is list in following table.‘
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Table 1.4: ZV Port AC Parameter
Symbol
Parameter
Min.
t1
PCLK fall timing
4 ns
t2
PCLK low time
30 ns
t3
PCLK rise time
4 ns
t4
PCLK high time
30 ns
t5
PCLK period
74 ns
t6
Y/UV/HREF setup time
10 ns
t7
Y/UV/HREF hold time
20 ns
t8
VSYNC setup/hold time to HREF
1 us
Max.
8 ns
8 ns
Note: In Interlaced Mode, there are Even/Odd field different (t8). When In Progressive Scan Mode, only
frame timing same as Even field(t8).
After VSYNC falling edge, OV7620 will output black reference level, the line number is Tvs,
which is the line number between the 1st HREF rising edge after VSYNC falling edge and 1st
valid data CHSYNC rising edge. Then valid data, then black reference, line number is Tve, which
is the line number between last valid data CHSYNC rising edge and 1st CHSYNC rising edge
after VSYNC rising edge. The black reference output line number is dependent on vertical window setting.
When in default setting, Tvs = 14*Tline, which is changed with register register 19<7:0>. If in
Interlaced Mode, register 19<7:0> change 1 step, Tvs increase 1 line. If in Progressive Scan
Mode, register 19<7:0> step equal to 2 line.
When in default setting, Tve = 4*Tline for Odd Field, Tve = 3*Tline for Even Field, which is
changed with register register 1A<7:0>. If in Interlaced Mode, register 1A<7:0> change 1 step,
Tve increase 1 line. If in Progressive Scan Mode, register 1A<7:0> step equal to 2 line.
In Progressive Scan Mode, Tve = 3*Tline and Tvs = 35*Tline.
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1.7 Interface for External RAM Controller and Micro-controller
OV7620 can be programmed to output single frame data to external RAM. The structure block
diagram is as follows:
SCCB and Initial
OV7620
ACK
FPGA
u-CPU
Data
Add
DRAM / SRAM
The timing diagram is as follows:
SRAM
HREF
VS
AGCEN
DATA
Tri-State
Tri-State
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SRAM is internal control bit which is high means the OV7620 enter external RAM status. This is
programmed by SCCB (register 27) or power-on read-in. When SRAM=1, OV7620 all data bus
will be tri-stated and ready to send the data. Micro-controller will send a initial signal to FPGA to
reset all RAM Address block, after that, there are two method to get one frame data frame
OV7620:
1. Micro-controller send a initial pulse to OV7620 AGCEN input pin
2. Micro-controller send a SCCB command to program OV7620 send Single frame data
The OV7620 output signal VS is the ACK signal from sensor, when VS is high means OV7620
is in ready status, when VS is low, means OV7620 will send one frame data.
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1.8 Digital Output Format Table
Table 1.5: Digital Output Format Type
Interlaced
Resolution
YUV 4:2:2
RGB
Y/UV swap2
Progressive Scan
640x480
320x240
640x480
320x240
16Bit
Y
Y
Y
Y
8Bit
Y
Y
Y
Y
CCIR656
Y
Y
Y
Y
16Bit
Y
Y
Y
Y
8Bit
Y
Y
Y
Y
CCIR6561
Y
Y
Y
Y
16Bit
-
-
-
-
8Bit
Y
Y
Y
Y
YUV3
Y
Y
Y
Y
RGB4
Y
Y
Y
Y
16Bit
Y
Y
Y
Y
8Bit
-
-
-
-
16Bit
-
-
Y
-
8Bit
-
-
-
-
Y
Y
Y
Y
U/V swap
YG
One Line
MSB/LSB swap5
Note: “Y” in the table means this combination is supported by OV7620.
1. RGB CCIR656 format means 4-byte SAV and EAV is inserted at the beginning and ending of
HREF, which are used to grab Vsync and Hsync information. So only use 8-bit data bus line and
don’t need VSYNC and CHSYNC signal line.
2. Y/UV swap is valid only in 8 bit output. Y channel output sequence is Y U Y V ... rather U Y V
Y ....
3. To YUV format, U/V swap means UV channel output sequence swap. V U V U ... rather U V
U V ... for 16 bit; V Y U Y ... rather U Y V Y ... for 8-bit.
4. To RGB format, U/V swap means neighbor row B R output sequence swap. So refer to preview
RGB raw data output format, different format change accordingly.
5. MSB/LSB swap means: Default Y/UV channel output port relationship is:
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Table 1.6: Default Output Sequence
MSB
LSB
Output Port
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0
Internal Output data
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0
If swap, sequence is change to:
Table 1.7: Swap MSB/LSB output sequence
MSB
LSB
Output Port
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0
Internal Output data
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
6. RGB mode selected by COMA3=1; COMA3=0 select YUV mode.
7. 8 Bit mode selected by COMB5=1.
8. CCIR656 mode selected by COMB4=1.
9.Y/UV swap selected by COMA4=1.
10. YG mode selected by COMH2=1.
11. One line mode selected by COMH7=1.
12. U/V swap mode selected by COMD0=1.
13. MSB/LSB swap mode selected by COMF2=1.
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1.9 QVGA Resolution Digital Output Format
Table 1.8: QVGA Digital Output Format(YUV, beginning of line)
Pixel #
1
2
3
4
5
6
7
8
Y
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
UV
U0,V0
U1,V1
U2,V2
U3,V3
U4,V4
U5,V5
U6,V6
U7,V7
1.9.5 Interlaced Mode:
Y channel output Y2 Y3 Y6 Y7 Y10 Y11 ... UV channel output U2 V3 U6 V7 U10 V11 ... Every line output
data number is half(320 pixels) and all line data(240 line) in one field will be output.
1.9.6 Progressive Scan Mode:
Y channel output Y2 Y3 Y6 Y7 Y10 Y11 ... UV channel output U2 V3 U6 V7 U10 V11 ... Every line output
data number is half(320 pixels) and only one half line data (every other line, total 240 line) in
one frame will be output.
1.9.7 QVGA 60 Frame/s Mode:
In Interlace Mode, QVGA mode output frame rate is 30 Frame/s and 60 Field/s. When in 60 Frame/s
mode, only Odd field data output and frame rate is 60 Frame/s.
Table 1.9: QVGA Digital Output Format (RGB Raw data, beginning of line)
Pixel #
1
2
3
4
5
6
7
8
Line 1
B0
G1
B2
G3
B4
G5
B6
G7
Line 2
G0
R1
G2
R3
G4
R5
G6
R7
1.9.8 Interlaced Mode (Default RGB two line output mode):
UV channel output G0 R1 G4 R5 G8 R9 ... Y channel output B0 G1 B4 G5 B8 G9 ...Every line output half
data(320 pixels) and all line data(240 line) in one field will be output.
1.9.9 Interlaced Mode (YG two line output mode):
Y channel output G0 G1 G4 G5 G8 G9 ... UV channel output B0 R1 B4 R5 B8 R9 ... Every line output half
data(320 pixels) and all line data(240 line) in one field will be output.
1.9.10 Progressive Scan Mode (Default RGB two line output mode):
UV channel output G0 R1 G4 R5 G8 R9 ... Y channel output B0 G1 B4 G5 B8 G9 ...Every line output half
data(320 pixels) and all line(480 line) data in one frame will be output.
1.9.11 Progressive Scan Mode (YG two line output mode):
UV channel output G0 R1 G4 R5 G8 R9 ... Y channel output B0 G1 B4 G5 B8 G9 ...Every line output half
data(320 pixels) and all line(480 line) data in one frame will be output.
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1.10 Slave Mode Operation
OV7620 can be programmable to be slave device. Default OV7620 is a master device, it provide
Hsync, Vsync output. If used as slave device, (register 29 bit 6=1), external master device must
provide:
System clock CLK to XCLK1 pin;
Horizontal sync Hsync to CHSYNC pin, positive acted.
Vertical frame sync Vsync to VSYNC pin, positive acted.
When in slave mode, OV7620 tri-state CHSYNC and VSYNC output pin and use as input pin. To
synchronize the chip, OV7620 use external system clock CLK synchronize external horizontal
sync Hsync, then use synchronized horizontal sync to synchronize external vertical frame sync
Vsync. But to match internal counter, these three must keep exact relation as below:
Hsync period is 2*858 * CLK
Vsync period is 525* 2*858 * CLK
Tclk
CLK
Ths
Hsync
1 line=2*858*Tclk
Vsync
Tvs
1 frame = 525*2*858*Tclk
Note: (1) Ths > 6*Tclk (2) Ths < Tvs < 2*858*Tclk
FIG 1.5 Slave Mode External Sync Timing
OV7620 will be stable after 1 frame. (2nd Vsync).
1.11 Frame Exposure Mode
OV7620 support frame exposure mode when in Progressive Scan Mode. When the FREX pin is
used as an external master device sets the exposure time. When FREX =1, the whole array is
precharged. The exposure time is then determined by the external master device which controls
FREX. When FREX=0, the OV7620 begins to output data line by line. While data is output, the
OV7620 must be blocked from light by using a mechanical shutter, so that the whole array is exposed at the same time and has the same exposure period. In default line exposure mode, the
array precharge and read mode is first charge 1st line, after one line read out, precharge 2nd
line, so on. the width of FREX=1 must large the a fixed timing to make sure whole array has been
precharged.
Frame exposure mode timing is as below:
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Tset
Mechanical shutter closed
FREX
Tin
Ths
HSYNC
Prechage begin at rising edge of HSYNC
ARRAY
PRECHARGE
Array Exposure Period Tex
Array Precharge
period Tpr
DATA
OUTPUT
1 Frame (484 line)
Valid Data
Invalid Data
Black Data
Head of Valid data
Thd (8 line)
Next Frame
VSYNC
HREF
FIG 1.6 Frame Exposure Timing
Note: Tpr = 492 * 4 * Pclk, Pclk is internal pixel clock. For default 27MHz, Tclk=74 ns. If CLK<5:0> set to
divided number, Tclk will increase accordingly.
Tex is array exposure time which is decided by external master device.
Tin is undetermined due to the use of HSYNC rising edge to synchronize FREX, Tin < Ths
When FREX=0, there are 8 lines of data output before valid data output. Thd = 4 * Ths. Valid data is output
when HREF=1.
Tset = Tin + Tpr + Tex. Tset > Tpr + Tin. Because Tin is uncertain, so exposure time setting resolution is
Ths (one line).
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1.12 SCCB BUS
SCCB access is enabled only if pin SBB=0. OV7620 is a slave device that supports 400kbit/s 7bit
address data transfer protocol. Within each byte, MSB is always transferred first, read/write control bit is the LSB of the first byte
The protocol requires SIO-0 must be stable during the HIGH period of the SIO-1. Each data bit can
only change state when is SIO-1 LOW.
OV7620 reserves CS(2:0) for the slave ID, which makes eight slave camera combinations.
OV7620 SCCB supports multi-byte write and multi-byte read. In a write cycle, the master must
supply the subaddress, however, the master does not supply the subaddress in the read cycle,
therefore, OV7620 takes the read subaddress from the previous write cycle. In multi-byte write
or multi-byte read cycles, the subaddress is auto increment after the first data byte so that continuous locations can be accessed in one bus cycle. Since a multi-byte cycle overwrites its original subaddress, if a read cycle follows immediately to a multi-byte cycle, it is necessary to insert
a single byte write cycle that provides a new subaddress.
If OV7620 support 400 kBit/s fast SCCB mode, system clock (CLK) must be at least 10 Mhz.
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1.13 SCCB REGISTER SETS
OV7620 can be configured, by setting pin CS<2:0> high or low at reset/power up, to one of eight
slave IDs as listed below, the ID can not be altered once the chip is out of reset or power up state.
Table 1.10: Slave ID
CS<2:0>
000
001
010
011
100
101
110
111
WRITE ID (hex)
42
46
4a
4e
52
56
5a
5e
READ ID (hex)
43
47
4b
4f
53
57
5b
5f
OV7620 support two option: single chip and multiple chip decided by PIN MID. If MID set to
LOW (Default value), chip slave ID is 42(for write) and 43(for read). If MID set to HIGH, OV7620
can support 8 slave ID selection. Default MID is LOW by internal setting.
In write cycle, the second byte in SCCB bus is the subaddress for selecting the individual on chip
registers, the third byte is the data associated with this register. Writing to unimplemented subaddress and reserved subaddress is ignored.
In read cycle, the second byte is the data associated with the previous stored subaddress. reading of unimplemented subaddress returns unknown.
Registers [00] ~ [02] contains image effect parameters that also can be modified by internal controls in auto adjust mode. This provides a simple way to read out those parameters computed by
chip internal controls. To do this, first set the chip in auto adjust mode (Register 13 bit 0=1, register 12 bit 2 = 1, register 12 bit 5=1), wait for the image is stable, the register [00],[01] and [02]
will be updated by internal control circuit. Then returns it to manual adjust mode(register 13 bit
0=0), all the registers retain the last adjusted values and can be read or overwritten by external
host. When the chip is operated in auto adjust mode(register 13 bit 0=1), register [00] ~ [02] will
be update by internal algorithm and if write data to them, there will be no effect on chip parameters. The register data can be read out.
The detailed definitions of each register are described below.
Register 00 - rw: AGC gain control
Bits
Default
Null
AGC6
AGC5
AGC4
AGC3
AGC2
AGC1
AGC0
-
-
0
0
0
0
0
0
AGC<5:0> - gain setting for the entire image channel.
The formula is:
Gain = (AGC<3:0>/16+1)*(AGC<4>+1)*(AGC<5>+1); range (1x ~ 7.75x), AGC<5> and
AGC<4> control SA2.
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Register 01 - rw: Blue gain control
Bits
Default
BLU7
BLU6
BLU5
BLU4
BLU3
BLU2
BLU1
BLU0
1
0
0
0
0
0
0
0
BLU<6:0> - white balance value for the blue channel.
The formula is:
Blue_gain=1+(BLU<7:0> - [80])/[100]; range (0.5x ~ 1.5x).
BLU<7> - Sign bit. If “1”, Blue gain increase; “0” gain decrease.
Register 02 - rw: Red gain control
Bits
RED7
RED6
RED5
RED4
RED3
RED2
RED1
RED0
Default
1
0
0
0
0
0
0
0
RED<6:0> - white balance value for the red channel.
The formula is:
Red_gain=1+(RED<7:0> - [80])/[100]; range (0.5x ~ 1.5x).
RED<7> - Sign bit. If “1”, Red channel gain increase; “0” gain decrease.
Register 03 - rw: Saturation control
Bits
Default
SAT7
SAT6
SAT5
SAT4
SAT3
SAT2
SAT1
SAT0
1
0
-0
0
0
0
0
0
SAT<7:0> - saturation adjustment for the UV channel based on the default setting;
range (-4dB ~ +6dB). If SAT<7:0> > [80], increase; if SAT<7:0> < [80], decrease.
Register 04 & 05 - w: Reserved Register
This register is reserved for internal test use. Write data to this register will be no function.
Register 06 - rw: Brightness control
Bits
Default
BRT7
BRT6
BRT5
BRT4
BRT3
BRT2
BRT1
BRT0
1
0
0
0
0
0
0
0
BRT<7:0> - brightness adjustment for the Y/RGB channel based on the default setting;
range (-200mv ~ +200mv). If BRT<7:0> > [80], brightness increase; If BRT<7:0> < [80], brightness decrease. This register is auto/manual controllable. If register 2D bit 4=1, this register is
controlled by chip automatically, if write value to this register, this value will be updated by
internal circuit. Only when register 2D bit 4=0, this register can be set to any value
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Register 07 - rw: Angalog Sharpness control
Bits
Default
SHP7
SHP6
SHP5
SHP4
SHP3
SHP2
SHP1
SHP0
1
1
0
0
0
0
1
1
SHP<7:4> - Sharpness Threshold.
SHP<3:0> - Sharpness Magnitude.
Register [08] ~ [0B] - w: Reserved.
These four registers are reserved for internal use. Write data to these registers will not function.
Register 0C - rw: White Balance background control -- Blue channel
Bits
Default
Null
Null
ABLU5
ABLU4
ABLU3
ABLU2
ABLU1
ABLU0
-
-
1
0
0
0
0
0
Changes AWB Hue Control
ABLU<4:0> - White Balance background blue color component ratio adjustment. Adjust resolution is
0.625% and total range is (+20% - -20%) This register is used to offset image background blue
component ratio.
ABLU<5> - Sign bit. If “1”, decrease background blue component ratio; “0” increase blue component ratio.
Register 0D - rw: White Balance background control -- Red channel
Bits
Default
Null
Null
ARED5
ARED4
ARED3
ARED2
ARED1
ARED0
-
-
1
0
0
0
0
0
Changes AWB Hue Control
ARED<4:0> - White Balance background red color component ratio adjustment. Adjust resolution is 1.5%
and total range is (+20% - -20%) This register is used to offset image background red component ratio.
ARED<5> - Sign bit. If “1”, decrease background red component ratio; “0” increase red component ratio.
Register 0E ~ 0F- rw: Reserved
These two registers are reserved for internal use. Write data to these registers will not function.
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OMNIVISION TECHNOLOGIES INC.
Register 10 - rw: Auto-Exposure-Control Register
Bits
AEC7
AEC6
AEC5
AEC4
AEC3
AEC2
AEC1
AEC0
Interlace
0
1
1
1
1
1
1
1
Progressive Scan
1
1
1
1
1
1
1
1
AEC<7:0> - exposure time setting; the formula is
Interlaced: TEXPOSURE = TLINE x AEC(7:0);
Progressive: TEXPOSURE = TLINE x AEC(7:0)x2;
where TLINE = Frame Time / 525
if use 27MHz, TLINE = 63.5 uS
Range is: [00] - [7F] for Interlaced; [00] - [FF] for Progressive Scan.
* This register setting is only effective when operated in manual adjust mode (register 13 bit 0=0). Nevertheless, this register is always accessible through the SCCB bus. If register 13 bit 0=1, this
register will be updated by internal circuit according AEC algorithm, and if write special value
to this register will be useless. The register value can be read out at any time and latest AEC
value will be return. If register 13 bit 0=0, or register 29 bit 7=1, the register will hold last value
unchanged (either input from SCCB or AEC algorithm result).
* It generally takes no more than two fields for the image to reach the intended exposure after changing the
setting.
Register 11 - rw: Clock rate control
Bits
SYN7
SYN6
CLK5
CLK4
CLK3
CLK2
CLK1
CLK0
Default
0
0
0
0
0
0
0
0
CLK<5:0> - system clock prescaler; this register defines the chip pixel clock rate, clock rate is defined by
following fulmar:
(16 Bit mode) PCLK = (CLK_input / (( CLK<5:0> + 1) * 2))
(8 Bit mode) PCLK = (CLK_input / ( CLK<5:0> + 1))
SYN<7:6> - Three sync output polarity selection:
SYN7 = 0, SYN6 = 0: HSYNC negative, CHSYNC negative, VSYNC positive edge;
SYN7 = 0, SYN6 = 1:.HSYNC negative, CHSYNC negative, VSYNC negative;
SYN7 = 1, SYN6 = 0: HSYNC positive, CHSYNC negative, VSYNC positive.
SYN7 = 1, SYN6 = 1: HSYNC negative, CHSYNC positive, VSYNC positive.
* The effect of the change is immediate, however, it generally takes about two fields for the image to reach
the stable state
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OMNIVISION TECHNOLOGIES INC.
.
Register 12 - rw: Common control A
Bits
Default
COMA7
COMA6
COMA5
COMA4
COMA3
COMA2
COMA1
COMA0
0
0
1
0
0
1
0
0
COMA7 - “1” initiates the chip soft reset, the reset takes place after the acknowledge bit is issued, the
effect is the same as power up the chip, the chip is initialized to a default state, all registers
including SCCB’s contents are set to default, this bit is self cleared after the reset.
COMA6 - “1” selects mirror image
COMA5 - “1” enables AGC. “0” - stop AGC and set register [00] to default value. Only effective in auto
adjust mode.
COMA4 - “1” select 8 Bit Digital output format is Y U Y V Y U Y V ...
COMA3 - “1” selects raw data signal as video data output, “0” selects YCrCb as video data output. The
selection applies to both analog video and digital video.
COMA2 - “1” enable auto white balance, “0” AWB stop and AWB register [01] and [02] value is held at last
updated value. Can used as one-shot AWB mode. Valid only in auto mode.
COMA1 - “1” selects Color Bar Test pattern output.
COMA0 - “1” select precise A/D Black Level Compensation (BLC) line method. “0” use standard black level
compensation to do A/D BLC field method which is more stable but less precise.
Register 13 - rw: Common control B
Bits
Default
COMB7
COMB6
COMB5
COMB4
COMB3
COMB2
COMB1
COMB0
-
-
0
0
0
0
0
1
COMB7 - Reserved.
COMB6 - Reserved.
COMB5 - “1” selects 8 bit data format, Y/CrCb and RGB video data is multiplexed to the eight bit Y bus, tristate UV bus; “0” selects 16 bit format, data go to both Y<7:0> bus and UV<7:0> bus.
COMB4 - “0” enables digital output in CCIR601 format. “1” enables CCIR656 format.
COMB3 - “0” selects horizontal sync for output to pin CHSYNC, “1” selects composite sync for output.
COMB2 - “1” tri-states bus Y<7:0> and UV<7:0>, “0” enables both buses.
COMB1 - “1” initiates the single frame transfer, for this function to work, field drop mode (FD<1:0> in register [16]) must set to “OFF”. See figure below. After this bit is set, for Interlaced mode, HREF is
only asserted for consecutive two fields beginning at Odd field. This bit is cleared automatically at the end of this frame. For Progressive Scan mode, HREF is only asserted for one
frame. Clearing this bit in the middle of active frame has no effect to the assertion of current
HREF.
COMB0 - “1” enables auto adjust mode, in this mode, internal exposure circuitry overwrites those parameters in registers [00]~[02], the chip adjusts the image based on a preset algorithm. “0” manual
adjust mode.
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OMNIVISION TECHNOLOGIES INC.
.
FODD
VSYNC
1 FRAME
FD<1:0>
SCCB BIT CLEAR
COMB1
SCCB BIT SET
END OF FRAME
BIT CLEAR
SCCB BIT SET
SCCB BIT CLEAR
HREF
FIG 1.7 Single Frame Transfer Example (Interlaced Mode)
VSYNC
1 FRAME
FD<1:0>
SCCB BIT CLEAR
SCCB BIT CLEAR
COMB1
SCCB BIT SET
END OF FRAME
BIT CLEAR
SCCB BIT SET
SCCB BIT CLEAR
HREF
FIG 1.8 Single Frame Transfer Example (Progressive Scan Mode)
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Register 14- rw: Common control C
Bits
Default
COMC7
COMC6
COMC5
COMC4
COMC3
COMC2
COMC1
COMC0
0
-
0
0
0
1
-
-
COMC7 - AWB activation threshold selection: 1- high; 0-low.
COMC6 - Reserved.
COMC5 - QVGA digital output format selection. 1 - 320x240; 0 - 640x480.
COMC4 - Field/Frame vertical sync output in VSYNC port selection: 1 - frame sync, only inserted in ODD
field vertical sync; 0 - field vertical sync, effect in Interlaced mode
COMC3 - HREF polarity selection: 0 - HREF positive effective, 1 - HREF negative.
COMC2 - RGB gamma selection: 1 - Gamma on, value defined by register [62] value; 0 - gamma is 1 (linear).
COMC1 - Reserved.
COMC0 - Reserved.
Register 15- rw: Common control D
Bits
Default
COMD7
COMD6
COMD5
COMD4
COMD3
COMD2
COMD1
COMD0
-
0
-
-
-
-
-
1
COMD7 - Reserved.
COMD6 - PCLK polarity selection. “0” OV7620 output data at PCLK falling edge and data bus will be stable
at PCLK rising edge; “1” rising edge output data and stable at PCLK falling edge. When
OV7620 work as CCIR656 format, COMB4=1, this bit is disable and should use PCLK rising
edge latch data bus.
COMD<5:1> - Reserved.
COMD0 - U V digital output sequence exchange control. 0 - V U V U ... for 16Bit, V Y U Y ... for 8 Bit; 1- U
V U V ... for 16Bit and U Y V Y ... for 8 Bit.
Register 16 - rw: Frame Drop
Bits
Default
FD7
FD6
FD5
FD4
FD3
FD2
FD1
FD0
0
0
0
0
0
0
1
1
FD<7:2>- Frame drop selection, it operates in ODD and EVEN mode as defined by FD<1:0>, it is ignored
in OFF & FRAME mode. Its purpose is to divide the video signal into programmed number of
time slots in unit of field/frame, and to allow HREF to be active only one field/frame during the
period. This function does not affect the video data or pixel rate.
000000 - 000001: disable digital data output, only output black reference level.
000010 - 111111: Output 1 of (2 ~ 63) frame. If set register 33 bit 1= 1, that means
only drop 1 frame from (2 ~ 63) frame.
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OMNIVISION TECHNOLOGIES INC.
1 field
ODD MODE
EVEN MODE
FODD
HREF
EVEN MODE
FD<7:2>=000010
FD<1:0>=10
slot 1
slot 2
slot 3
slot 4
slot 1
slot 2
slot 3
slot 4
slot 2
slot 1
slot 2
slot 1
slot 2
slot 1
slot 2
slot 1
HREF
ODD MODE
FD<7:2>=000001
FD<1:0>=01
FIG 1.9 Field Division Examples (Interlaced Mode)
Interlaced:
FD<1:0>- field mode selection. Each frame consists of two fields: Odd & Even, these bits defines the
assertion of HREF in relation to the two fields.
00 - OFF mode; HREF is not asserted in both fields, one exception is the single frame transfer
operation (see the description for the register [13])
01 - ODD mode; HREF is asserted in odd field only.
10 - EVEN mode; HREF is asserted in even field only.
11 - FRAME mode; HREF is asserted in both odd field and even field. FD<7:2> useless (default).
1 frame
SLOT MODE
VSYNC
HREF
FD<7:2>=000001
FD<1:0>=01
slot 2
slot 1
slot 2
slot 1
slot 2
slot 1
slot 2
slot 1
FIG 1.10 Frame Division Examples (Progressive Scan Mode)
Progressive Scan:
FD<1:0> - frame mode selection.
00 - OFF mode; HREF is not asserted in both fields, one exception is the single frame transfer
operation (see the description for the register [13])
01,10 - SLOT mode; HREF is asserted in frame according FD<7:2>.
11 - FRAME mode; HREF is asserted in every frame. FD<7:2> useless
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Register 17 - rw: Horizontal Window start
Bits
Default
HS7
HS6
HS5
HS4
HS3
HS2
HS1
HS0
0
0
1
0
1
1
1
1
HS<7:0> - selects the starting point of HREF window, each LSB represents four pixels for Interlaced/Progressive full resolution mode, two pixels for QVGA resolution mode, this value is set
based on an internal column counter, the default value corresponds to 640 horizontal window.
Maximum window size is 664. see window description below. HS<7:0> programmable range
is [2C]- [D2], and should less than HE<7:0>. HS<7:0> should be programmable to value larger
than or equal to [2C]. Value larger than [D2] is invalid. See Figure 1.14.
Register 18 - rw: Horizontal Window end
Bits
Default
HE7
HE6
HE5
HE4
HE3
HE2
HE1
HE0
1
1
0
0
1
1
1
1
HE<7:0> - selects the ending point of HREF window, each LSB represents four pixels for full resolution
and two pixels for QVGA resolution, this value is set based on an internal column counter, the
default value corresponds to the last available pixel. The HE<7:0> programmable range is
[2D] - [D2]. HE<7:0> should be larger than HS<7:0> and less than or equal to [D2]. Value
larger than [D2] is invalid. See Figure 1.14.
Register 19- rw: Vertical Window start
Bits
Default
VS7
VS6
VS5
VS4
VS3
VS2
VS1
VS0
0
0
0
0
0
1
1
0
VS<7:0> - selects the starting row of vertical window, in full resolution mode, each LSB represents 1scan
line in one field for Interlaced Mode, 2 scan line in one frame for Progressive Scan Mode. In
QVGA resolution (set by register 14 bit 5), each LSB represents 1 scan line in one field for
Interlaced Mode, 1scan line in one frame for Progressive Scan Mode. See Figure 1.14. Min. is
[05], max. is [F6] and should less than VE<7:0>.
Register 1A- rw: Vertical Window end
Bits
Default
VE7
VE6
VE5
VE4
VE3
VE2
VE1
VE0
1
1
1
1
0
1
0
1
VE<7:0>- selects the ending row of vertical window, in full resolution mode, each LSB represents 1scan
line in one field for Interlaced Mode, 2 scan line in one frame for Progressive Scan Mode. In
QVGA resolution, each LSB represents 1 scan line in one field for Interlaced Mode, 1scan line
in one frame for Progressive Scan Mode. See Figure 1.14. Min. is [05], max. is [F6] and should
larger than VS<7:0>.
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HREF
HS
HE
VS
Active Window
VE
FULL image boundary
FIG 1.11 Window Sizing
As shown above, HS<7:0> defines the starting pixel within a scan line, HE<7:0> defines the ending pixel
within a scan line. VS<7:0> defines the starting row within a field, VE<7:0> defines the ending
row within a field. VS/VE automatically defines the window height of a image frame. The rectangular window defined by HS/HE/VS/VE is the active image window. Only pixels insides this
window is valid, along with the HREF timing signals, black level substitutes the pixel data
when outside the active window.
Identical value for HS/HE or VS/VE is not permitted since it causes undefined window size.
If end point is lower than the starting point, the window begins from the starting point and ends at the far
end of the available image boundary.
The window size calculate formula is as below:
1. Horizontal size: VGA mode: Horizontal window size = (Register [18] - Register [17])*4.
QVGA mode: Horizontal window size = (Register [18] - Register [17])*2.
2. Vertical size: VGA mode: Vertical window size = (Register [1A]- Register [19]+1);
QVGA mode: Horizontal window size = (Register [1A] - Register [19]+ 1).
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Register 1B- rw: Pixel shift
Bits
Default
PS7
PS6
PS5
PS4
PS3
PS2
PS1
PS0
0
0
0
0
0
0
0
0
PS<7:0> - to provide a way to fine tune the output timing of the pixel data relative to that of HREF, it physically shifts the video data output time early or late in unit of pixel clock as shown in the figure
below. This function is different from changing the size of the window as is defined by
HS<7:0> & HE<7:0> in register [17] and [18].
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The number of pixels that can only be shifted late. Maximum shift pixel number is 255.
define by
HS<7:0>
define by
HE<7:0>
HREF
ACTIVE WINDOW
BLACK LEVEL
Y<7:0> - DEFAULT
LEFT SIDE
PIXEL ADDED
RIGHT SIDE
PIXEL LOST
Y<7:0> - LATE
right
shift
Full= 664
physical image boundary
FIG 1.12 Pixel Shift Examples
Register 1C- r: Manufacture ID high byte
Bits
Default
MIDH7
MIDH6
MIDH5
MIDH4
MIDH3
MIDH2
MIDH1
MIDH0
0
1
1
1
1
1
1
1
MIDH<7:0> - read only, always returns “7F”.
Register 1D- r: Manufacture ID low byte
Bits
Default
MIDL7
MIDL6
MIDL5
MIDL4
MIDL3
MIDL2
MIDL1
MIDL0
1
0
1
0
0
0
1
0
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MIDL<7:0>- read only, always returns “A2”
Register 1E ~ 1F- rw: Reserved
These two registers are reserved for internal use. Write data to these registers will not function.
Register 20- rw: Common control E
Bits
Default
COME7
COME6
COME5
COME4
COME3
COME2
COME1
COME0
0
0
0
0
0
-
0
0
COME7 - Modified CCIR656 format vertical sizing enabled. “1” will enable vertical windowing function. “0”
will limit vertical size to 480 lines - unchanged by [19] and [1B ].
COME6 - Field luminance average signal generation enable.Value is stored in register [7C]
COME5 - “1” First stage aperture correction enable. Correction strength will be decided by register [07]. “0”
disable first stage aperture correction.
COME4 - “1” Second stage aperture correction enable. Correction strength and threshold value will be
decided by register 26 bit 7 ~ register 26 bit 4.
COME3 - AWB smart mode enable. 1 - Drop out pixel when compare pixel red, blue and green component
level to change register [01] and [02], which luminance level is higher than presetting level and
lower than presetting level, this two level is set by register [0F]. 0 - calculate all pixels to get
AWB result. Valid only when register 13 bit 0=1 and register 12 bit 2=1
COME2 - Reserved.
COME1 - AWB fast/slow mode selection. “1” - AWB is always fast mode, that is register [01] and [02] is
changed every field/frame. “0” AWB is slow mode, [01] and [02] change every 16/64 field/
frame decided by register 70 bit 1. When AWB enable, register 12 bit 2=1, AWB is working as
fast mode at first 1024 field/frame, than as slow mode later.
COME0 - Digital output driver capability increase selection: “1” Double digital output driver current; “0” low
output driver current status.
Register 21- rw: Y Channel Offset Adjustment
Bits
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0
Default
1
0
0
0
0
0
0
0
Y6-Y0: Y channel digital output offset adjustment. Range: +127mV ~ -127mV. If COMG2=0, this register
will be updated by internal auto A/D BLC circuit, and write a value to this register with SCCB
has no effect. If COMG2=1, Y channel offset adjustment will use the register stored value
which can be changed by SCCB. If COMF1=0, this register has no adjustment effect to A/D
output data. If output RGB raw data, this register will adjust R/G/B data.
Y7: Offset adjustment direction 0 - Add Y[6:0]; 1 - Subtract Y[6:0].
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Register 22- rw: U Channel Offset Adjustment
Bits
Default
U7
U6
U5
U4
U3
U2
U1
U0
1
0
0
0
0
0
0
0
U6-U0: U channel digital output offset adjustment. Range: +128mV ~ -128mV. If register 27 bit 2=0, this
register will be updated by internal auto A/D BLC circuit, and write a value to this register with
SCCB has no effect. If register 27 bit 2=1, U channel offset adjustment will use the register
stored value which can be changed by SCCB. If register 26 bit 1=1, this register has no effect
to A/D output data. If output RGB raw data, this register will adjust R/G/B data.
U7: Offset adjustment direction: 0 - Add U[6:0]; 1 -Subtract U[6:0].
If register 2D bit 0 = 0, this register has no function.
Register 23- rw: Crystal Current control.
Bits
Default
CC7
CC6
CC5
CC4
CC3
CC2
CC1
CC0
0
0
0
-
-
-
-
-
CC7 - CC6: Crystal amplifier current gain. (00) maximum current; (11) minimum current
CC5 ~ CC0: Reserved
Register 24- rw: AEW Auto Exposure White Pixel Ratio
Bits
AEW7
AEW6
AEW5
AEW4
AEW3
AEW2
AEW1
AEW0
Interlace
0
0
0
0
1
0
0
0
Progressive Scan
0
0
0
1
0
0
0
0
Registers 24 and 25 together control the AEC target values for image brightness.
For a brighter image, increase register 24 and decrease register 25.
For a darker image, decrease register 24 and decrease reister 25.
AEW7-AEW0 - used to calculate the white pixel ratio. OV7620 AEC algorithm counts the whole field/frame
white pixel (its luminance level is higher than a fixed level) and black pixel (its luminance level
is lower than a fixed level) number. When white/black pixel ratio is same as the ratio defined
by registers [25] and [26], image stable. This register is used to define the white pixel ratio,
default is 25%, each LSB represent step: Interlaced: 1.3%; Progressive Scan: 0.7%. Change
range is: Interlaced: [01] ~ [4A]; Progressive Scan: [01] ~ [96]. Increase AEW<7:0> will
increase the white pixel ratio. For same light condition, the image brightness will increase if
AEW<7:0> increase.
Note: AEW<7:0> must combined with register [26] AEB<7:0>. Keep the relation always true: AEW<7:0> +
AEB<7:0> > [4A] for Interlaced; AEW<7:0> + AEB<7:0> > [90].
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Register 25- rw: AEC Auto Exposure Black Pixel Ratio
Bits
AEB7
AEB6
AEB5
AEB4
AEB3
AEB2
AEB1
AEB0
Interlace
0
1
0
0
1
0
1
0
Progressive Scan
1
0
0
0
1
0
1
0
AEB7-AEB0 - used to calculate the black pixel ratio. OV7620 AEC algorithm is count whole field/frame
white pixel (its luminance level is higher than a fixed level) and black pixel (its luminance level
is lower than a fixed level) number. When white/black pixel ratio is same as the ratio defined
by registers [25] and [26], image stable. This register is used to define black pixel ratio, default
is 75%, each LSB represent step: Interlaced: 1.3%; Progressive Scan: 0.7%. Change range is:
Interlaced: [01] ~ [4A]; Progressive Scan: [01] ~ [96]. Increase AEB<7:0> will increase black
pixel ratio. For same light condition, the image brightness will decrease if AEB<7:0> increase.
Note: AEB<7:0> must combined with register [25] AEW<7:0>. Keep the relation always true: AEW<7:0> +
AEB<7:0> > [4D] for Interlaced; AEW<7:0> + AEB<7:0> > [90].
Register 26 - rw: Common control F
Bits
Default
COMF7
COMF6
COMF5
COMF4
COMF3
COMF2
COMF1
COMF0
1
0
1
0
0
0
1
0
COMF7 - COMF6: Digital Sharpness threshold selection.
[00] - Difference of neighbor pixel luminance is larger than 8 mV, correction on.
[01] - 16 mV.
[10] - 32 mV.
[11] - 64 mV.
COMF5 - COMF4: Digital Sharpness Magnitude selection.
[01] - Strength is 50% of difference of neighbor pixel luminance.
[10] - 100%.
[11] - 200%.
COMF3 - Reserved
COMF2 - Swap bus MSB/LSB. “1” LSB->Bit7, MSB->Bit0; “0” normal.
COMF1 - “1” A/D Black level calibration enable. Do not use “0”.
COMF0 - “1” Output first 4 line black level for Interlaced Mode and 8 line black level for Progressive Scan
Mode before valid data output. HREF number will increase 4/8 relatively. “0” no black level
output.
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Register 27 - rw: Common control G
Bits
Default
COMG7
COMG6
COMG5
COMG4
COMG3
COMG2
COMG1
COMG0
1
1
1
0
0
0
1
0
COMG7: Reserved.
COMG6: Reserved.
COMG5: Reserved.
COMG4: RGB matrix disable. “1” - Bypass RGB matrix. “0” - Enable RGB matrix.
COMG3: Reserved.
COMG2: “1” Enables manual adjustment of A/D offset: 1 - A/D data will add or subtract a value defined by
registers [21] and [22]. 0 - A/D data will be shifted by a value defined by registers [21], [22] and
[2E], which is updated by internal circuit.
COMG1: - Disables CCIR range clip.
COMG0: - Special interface for external micro-controller and RAM timing control. See timing chart.
Register 28 - rw: Common control H
Bits
Default
COMH7
COMH6
COMH5
COMH4
COMH3
COMH2
COMH1
COMH0
0
0
0
0
0
0
0
0
COMH7: - “1” selects One-Line RGB raw data output format, “0” selects normal dual-line (repetitive) raw
data output, effective only in Progressive Scan mode.
COMH6: - “1” enable Black/White mode.
COMH5: - “1” select Progressive Scan mode; “0” select Interlaced mode.
COMH4: - Freeze AEC/AGC value - current values retained. This is effective only when register 13 bit 0=1.
COMH3: - AGC disable.
COMH2: - Raw data output format: “1” - Green on Y channel, B R B R....on UV channel (GRB422), “0” - G
R G R.... on Y channel, B G B G..... on UV channel.
COMH1: - 2x Gain boost. “1” Double PreAmp gain to 6dB. “0” PreAmp gain is 0dB.
COMH0: - Reserved.
Register 29 - rw: Common control I
Bits
Default
COMI7
COMI6
COMI5
COMI4
COMI3
COMI2
COMI1
COMI0
0
0
0
0
0
0
0
0
COMI7: - AEC disable. “1” If register 13 bit 0=1, AEC stop and register [10] value will be held at last AEC
value and not be updated by internal circuit. “0” - if register 13 bit 0=1, register [10] value will
be updated by internal circuit
COMI6: - Enable slave sync mode selection. “1” slave mode, use external CHSYNC and VSYNC.
“0” master mode
COMI<5:4> - Reserved.
COMI3: - Central weighted exposure control.
COMI2: - Reserved.
COMI1 - COMI0: Version flag.
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OMNIVISION TECHNOLOGIES INC.
Register [2A] - rw: Frame Rate Adjust Register 1
Bits
Default
EHSH7
EHSH6
EHSH5
EHSH4
EHSH3
EHSH2
EHSH1
EHSH0
0
0
0
0
0
0
0
0
EHSH7 - Frame Rate adjustment enable bit. “1” Enable.
EHSH<6:5> - Highest 2 bit of frame rate adjust control byte. See explanation in register [2B].
EHSH4 - “1” - UV component delay 2 pixel. “ 0” no 2*Tp delay.
EHSH3 - Y channel brightness adjustment enable. When COMF2=1 active.
EHSH2 - For QVGA raw data format. “1” will force Y to output B G B G and UV to output G R G R
EHSH<1:0> - Reserved.
Register [2B] - rw: Frame Rate Adjust Register 2
Bits
Default
EHSL7
EHSL6
EHSL5
EHSL4
EHSL3
EHSL2
EHSL1
EHSL0
0
0
0
0
0
0
0
0
EHSL<7:0> - Lowest 8 bit of frame rate adjust control byte. Frame rate adjustment resolution is 0.12%.
Control word is 10 bit. Every count decreases frame rate by 0.12%. Range is 0.12% - 112%. If
frame rate adjustment is enabled, COME7 must be set to “0”.
Register [2C] - rw: Black Expanding Register
Bits
Default
EXBK7
EXBK6
EXBK5
EXBK4
EXBK3
EXBK2
EXBK1
EXBK0
1
0
0
0
1
0
0
0
EXBK<7:4> - Coarse Auto Black Level adjustment. Range is 0.08% - 1.3%
EXBK<3:0> - Fine Auto Black Level adjustment. Range is 0.08% - 1.3%.
Register [2D] - rw: Common Control J
Bits
Default
COMJ7
COMJ6
COMJ5
OMJ4
COMJ3
COMJ2
COMJ1
COMJ0
1
0
0
0
0
0
-
1
COMJ7 - Reserved. Always set to “1”.
COMJ6 - QVGA 60 frame/s selection. “1” Only Odd field in Interlace Mode data output, “0” Odd/Even field
data output frame rate is 30 frames/s. VGA is output at 60 frames/s in dual line mode raw data.
COMJ5 - Reserved. Always set to “0”.
COMJ4 - Auto brightness enabled.
COMJ3 - Reserved. Always set to “0”.
COMJ2 - Banding filter enable. After adjust frame rate to match indoor light frequency, this bit enable a different exposure algorithm to cut light band induced by fluorescent light.
COMJ1 - Reserved. Always set to “0”.
COMJ0 - Reserved. Always set to “1”.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
Register [2E]- rw: V Channel Offset Adjustment
Bits
V7
V6
V5
V4
V3
V2
V1
V0
Default
1
0
0
0
0
0
0
0
V7-V0: V channel digital output offset adjustment. Range: +128mV ~ -128mV. If COMG2=0, this register
will be updated by internal auto A/D BLC circuit, and write a value to this register with SCCB
has no effect. If COMG2=1, V channel offset adjustment will use the register stored value
which can be changed by SCCB. If COMF1=1, this register has no effect to A/D output data. If
output raw data, this register will adjust R/G/B data.
V7: Offset adjustment direction: o - Add V[6:0]; 0-Substrate V[6:0].
If COMJ0 = 0, this register value is common to U and V channel.
Register 2F ~ 5F - w: Reserved
Address [2F] - [5F] are reserved for internal use.
Register 60- rw: Signal Process Control A
Bits
Default
SPCA7
SPCA6
SPCA5
SPCA4
SPCA3
SPCA2
SPCA1
SPCA0
0
0
1
0
0
1
1
1
SPCA7: 1.5x gain boost.
SPCA6: Reserved.
SPCA5: “1” disables green averaging for UV channel.
SPCA4: “1” disables green averaging for lumninance channel.
SPCA<3:2> Reserved.
SPCA<1:0>: Reserved. Color set to “0111”; B&W set to “0000”.
Register 61- rw: Signal Process Control B
Bits
Default
SPCB7
SPCB6
SPCB5
SPCB4
SPCB3
SPCB2
SPCB1
SPCB0
1
0
0
0
0
0
1
0
SPCB7: “1” YUV mode; “0” raw data mode.
SPCB6: Reserved. Always set to “0”.
SPCB5: Reserved. Always set to “0”.
SPCB4: Reserved. Always set to “0”.
SPCB3: Reserved. Always set to “0”.
SPCB2: Limits range of register [6] to half value.
SPCB<1:0>: Auto Brightness target reference level: (00) -- 0 IRE; (01) -- 6 IRE; (10) -- 10 IRE;
(11) -- 20 IRE.
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Preliminary Company Confidential
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OMNIVISION TECHNOLOGIES INC.
Register 62- rw: RGB Gamma Control
Bits
Default
RGM7
RGM6
RGM5
RGM4
RGM3
RGM2
RGM1
RGM0
0
0
0
1
0
0
1
0
RGM<7:1> raw data or UV gamma curve selection.
RGM0: Reserved. Always set to “0”.
Register 63- rw: Reserved
Address [63] are reserved for internal use.
Register 64- rw: Y Gamma Control
Bits
Default
YGM7
YGM6
YGM5
YGM4
YGM3
YGM2
YGM1
YGM0
0
1
0
1
1
0
0
1
YGM<7:1>: Y gamma curve selection.
YGM<0>: “1” enable; “0” disable (linear).
Register 65- rw: Signal Process Control C
Bits
Default
SPCC7
SPCC6
SPCC5
SPCC4
SPCC3
SPCC2
SPCC1
SPCC0
0
1
0
0
0
0
1
0
SPCC<7:3> Reserved.
SPCC2: A/D mode selection. Increase A/D range by 1.5X
SPCC<1:0>: A/D reference selection. <00>: input signal range 0.9V; <01>: 1.0V peak
<10>: 1.15V peak; <11>: 1.26V peak. Do not use <00> selection.
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Preliminary Company Confidential
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OMNIVISION TECHNOLOGIES INC.
Register 66- rw: AWB Process Control
Bits
Default
AWBC7
AWBC6
AWBC5
AWBC4
AWBC3
AWBC2
AWBC1
AWBC0
0
1
0
1
0
1
0
1
White balance limiting function - YUV matrix control.
Register 74:7 must be enabled for AWB process control.
AWBC<7:6>: Smart AWB ignores RGB raw data pixel values above (00):70%, (01): 80%, (10): 90%,
(11):100%.
AWBC<5:4>: Smart AWB ignores RGB raw data pixel values below (00):10%, (01) 20%, (10) 30%,
(11) 40%.
AWBC<3:2>: U threshold level selection if use U/V as white balance feedback
00: (-10% ~ 10%); 01: (-20% ~ 20%); 10: (-30% ~ 30%); 11: (-40% ~ 40%)
AWBC<1:0>: V threshold level selection if use U/V as white balance feedback
00: (-10% ~ 10%); 01: (-20% ~ 20%); 10: (-30% ~ 30%); 11: (-40% ~ 40%)
Register 67- rw: Color Space Selection
Bits
Default
YUV7
YUV6
YUV5
YUV4
YUV3
YUV2
YUV1
YUV0
0
0
0
1
1
0
1
0
YUV<7:6>: UV coefficient selection (U/V is output and u/v is input)
• [00]: YUV
• [01]: Analog YUV
• [10]: CCIR 601 YCrCb
• [11]: PAL YUV
YUV5: U/V signal delay 2 pixel selection
YUV4: U/V signal with 3 point chroma average(2 pixel delay accordingly)
YUV<3:2>: Y signal delay selection: (00) - 0; (01) - 1; (10) - 2; (11) - 3 pixels
YUV1: Auto saturation control (decreases color noise) enable.
YUV0: Auto saturation control range selection: 0 - 1.5x; 1 - 1x.
Register 68- rw: Signal Process Control D
Bits
Default
SPCD7
SPCD6
SPCD5
SPCD4
SPCD3
SPCD2
SPCD1
SPCD0
1
1
0
0
1
1
0
0
SPCD<7:5>: AEC/AGC Brighness Target level selection.
000 - 10%; 001 - 30%; 010 - 50%; 011 - 70%; 100 - 80%; 101 - 90%; 110 - 100%; 111 - 110%.
SPCD4: Reserved. Always set to “0”.
SPCD<3:2>: Anti-alias threshold: 11 lowest threshold; 01, 10 midrange threshold; 00 highest threshold.
SPCD<1:0>: Anti-alias magnitude: 00 - low strength; 01, 10 mid strength; 11:high strength.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
Register 69- rw: Analog Sharpness
Bits
Default
EDGE7
EDGE6
EDGE5
EDGE4
EDGE3
EDGE2
EDGE1
EDGE0
0
1
1
1
0
0
1
0
EDGE<7:3> Reserved.
EDGE2: Vertical Edge Enhancement enable. Register 20:5 must be set to “1”.
EDGE<1:0>: Reserved.
Register 6A- rw: Vertical Edge Enhancement Control
Bits
Default
VEG7
VEG6
VEG5
VEG4
VEG3
VEG2
VEG1
VEG0
-
1
0
0
0
0
1
0
VEG<6:4>: Vertical Edge Enhancement threshold range
VEG<3:0>: Vertical Edge Enhancement magnitude value. 0000: weakest; 1111: strongest.
Register 6B-6E rw: Reserved
Address [6B] - [6E] are reserved for internal use.
Register 6F - rw: Even/Odd Noise Compensation Control
Bits
Default
EOC7
EOC6
EOC5
EOC4
EOC3
EOC2
EOC1
EOC0
-
-
1
1
1
0
1
0
EOC<7:6>: Reserved.
EOC<5:4>: Color Kill luminance threshold selection: 00 - none; 01 - 2.6v; 10 - 2.4v; 11 - 2.3v. Lower luminance selection will activate color kill.
EOC<3:0>: Set to factory recomended values.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
Register 70 - rw: Common Control K
Bits
Default
COMK7
COMK6
COMK5
COMK4
COMK3
COMK2
COMK1
COMK0
1
0
0
0
0
0
0
1
COMK7 - “1” HREF edges coincident (no delay) with PCLK negative/falling edges (COMD6 must be set to
“0”). “0” HREF edge occurs 10 ns after PCLK positive/rising edge.
COMK6 - Output port drive current additional 2x control bit.
COMK5 - Reserved.
COMK4 - Selects ZV port timing. “1” VSYNC output ZV port vertical sync signal. “0” normal TV vertical
sync signal.
COMK3 - Accelerated saturation mode for camera mode change. (QVGA, 8 Bit output, CCIR 656 mode
and Progressive Scan Mode). After relative control bit set, the first VS will be the stable image
with suitable AEC/AWB setting. “0” - slow mode, after mode change need more field/frame to
get stable AEC/AWB setting image.
COMK2 - Reserved.
COMK1 - AWB update rate selection. “1” fast mode; “0” slow mode.
COMK0 - Set to “1” in single line mode, otherwise set to “0” and set COMG4 to disable.
Register 71 - rw: Common Control J
Bits
Default
COML7
COML6
COML5
COML4
COML3
COMK2
COML1
COML0
0
0
0
0
0
0
0
0
COML7 - Auto Brightness update rate: “1” - Slow mode; “0” - fast mode.
COML6 - Gated PCLK selection. “1” - Enables PCLK gated by HREF; “0” - PCLK is free running clock
COML5 - Swap HREF output pin with CHSYNC. “1” - HREF pin output CHSYNC signal; “0” - No swap.
COML4 - Swap CHSYNC output pin with HREF. “1” - CHSYNC pin output HREF signal; “0” - normal output.
COML<3:2>- Highest 2 bit for HSYNC rising edge shift control, combined with register [72]
COML<1:0>- Highest 2 bit for HSYNC falling edge shift control, combined with register [73]
Register 72- rw: Horizontal Sync 1st Edge shifting
Bits
Default
HSDY7
HSDY6
HSDy5
HSDY4
HSDY3
HSDY2
HSDY1
HSDY0
0
0
0
1
0
1
0
0
HSDY<7:0> - Lower 8 bit control for shifting horizontal sync CHSYNC first edge. Range is [000] - [3FF].
Every count equals 1 PCLK.
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
Register 73 - rw: Horizontal Sync 2nd Edge shifting
Bits
Default
HEDY7
HEDY6
HEDY5
HEDY4
HEDY3
HEDY2
HEDY1
HEDY0
0
1
0
1
0
1
0
0
HSDY<7:0> - Lower 8 bit control for shifting horizontal sync CHSYNC second edge. Range is [000] - [3FF].
Every count equals 1 PCLK.
Register 74 - rw: Common Control M
Bits
Default
COMM7
COMM6
COMM5
COMM4
COMM3
COMM2
COMM1
COMM0
0
0
1
0
0
0
0
0
COMM7 - Enable UV Smart AWB threshold control.
COMM<6:5> - AGC maximum gain selection: 00 - 2x; 01 - 4x; 10 - 2x; 11 - 8x
COMM<4:0> - Reserved.
Register 75 - rw: Common Control N
Bits
Default
COMN7
COMN6
COMN5
COMN4
COMN3
COMN2
COMN1
COMN0
1
0
0
0
0
0
1
0
COMN7 - “1” enables Auto brightness range limit. Minimum will be [40]. Otherwise will be [00] ~ [FF].
COMN<6:3> - Reserved.
COMN2 - This bit further reduces the exposure time to 1/120 second or 1/100 second when the banding filter is enabled and the light is too strong.
COMN1- If enabled, manual write white balance value, then change to auto, the stable time will be less.
Speeds white balance stable time when switching from manual to AWB.
COMN0 - Enables addition of 2 pixel averaging.
Register 76 - rw: Common Control O
Bits
Default
COMO7
COMO6
COMO5
COMO4
COMO3
COMO2
COMO1
COMO0
0
0
0
0
0
0
0
0
COMO7 - Output XCLK from FODD pin.
COMO6 - Reserved.
COMO5 - Software power down enable: 1 - enable; 0 - wake up
COMO4 - Reserved.
COMO3 - Limits the Minimum Exposure time to 4 lines rather 1 line with AEC enable
COMO2 - Tri-state sync and CLK output, except data line
COMO<1:0> - Reserved.
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Preliminary Company Confidential
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OMNIVISION TECHNOLOGIES INC.
Register 77-7B - rw: Reserved
Address [2F] - [5F] are reserved for internal use.
Register 7C - rw: Field Average Level Storage
Bits
Default
AVG7
AVG6
AVG5
AVG4
AVG3
AVG2
AVG1
AVG0
0
0
0
0
0
0
0
0
AVG<7:0> -- Strorage fileld luminance average value if register 20 bit 6=1.
Notice: for QVGA and Progressive Scan mode, the real luminance average value is double of this register
value, other mode is same. If set to RGB raw data mode, the value is Green component average value.
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Preliminary Company Confidential
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OMNIVISION TECHNOLOGIES INC.
SECTION 2 PIN DESCRIPTION
ASUB
VrEQ
FREX
AGCEN
FSIN
SVDD
SGND
MULT
SIO-0
SIO-1
DEVDD
DEGND
6
5
4
3
2
1
48
47
46
45
44
43
2.1 PINOUT
OV7620
top view
BW/CHSYNC
CBAR/Y0
PROG/Y1
G2X / Y2
RGB / Y3
CS1 / Y4
SHARP / Y5
CS2 / Y6
CS0 / Y7
PWDB/PCLK
DOVDD
DOGND
UV7 / B8
UV6 / BPALF
UV5 / MIR
UV4 /SLAEN
UV3 / ECLKO
UV2 / QVGA
UV1 / CC656
UV0 / GAMMA
XCLK1
XCLK2
DVDD
DGND
AGND
AVDD
PWDN
NS1
VcCHG
SBB
VTO
ADVDD
ADGND
VSYNC / CSYS
FODD/SRAM
HREF/VSFRAM
19
20
21
22
23
24
25
26
27
28
29
30
7
8
9
10
11
12
13
14
15
16
17
18
FIG 2.1 OV7620 48Pin Digital Package
50
42
41
40
39
38
37
36
35
34
33
32
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Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
ELECTRICAL SPECIFICATION
Table 3.1: DC CHARACTERISTICS (0oC < TA < 85oC, Voltages referenced to GND)
Descriptions
Min
Max
Typ
Units
VDD1
Supply voltage- internal analog
DEVDD,ADVDD,AVDD,SVDD,AOVDD,DVDD
4.75
5.25
5.0
V
VDD2
Supply voltage - internal digital &output digital
(DOVDD)
4.5
3.0
5.5
3.6
5.0
3.3
V
V
IDD1
Supply Current (@ 60Hz frame rate & 5 volt
digital I/O,25pf + 1TTL load on 16 bit data bus)
-
40
-
mA
IDD2
Standby supply current
-
10
5
uA
Symbol
Supply
Digital Inputs
VIL
input voltage LOW
-
0.8
-
V
VIH
input voltage HIGH
2.0
-
-
V
Cin
input capacitor
-
10
-
pF
Digital Outputs - standard load 25pf, 1.2kΩ to 3.0volts
VOH
output voltage HIGH
2.4
-
-
V
VOL
output voltage LOW
-
0.6
-
V
SCCB Inputs VIL
SIO-0 and SIO-1 (VDD2=5V)
-0.5
1.5
0
V
VIH
SIO-0 and SIO-1(VDD2=5V)
3.0
Vdd + .5
5
V
VIL
SIO-0 and SIO-1 (VDD2=3V)
-0.5
1
0
V
VIH
SIO-0 and SIO-1(VDD2=3V)
2.5
3.5
3
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Preliminary Company Confidential
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OMNIVISION TECHNOLOGIES INC.
Table 3.2: ANALOG CHARACTERISTICS (TA=25oC; Vdd=5V)
Descriptions
Symbol
Min
Max
Typ
Units
RGB/YCrCb output
Iso
maximum sourcing current
15
mA
Vrgb
DC level at zero signal
RGB peak-peak amplitude
1
1
V
V
DC level at zero signal
Y peak-peak 100% amplitude (without sync)
sync amplitude
1
1
0.3
V
V
V
Vry
DC level at zero signal
Cr peak-peak (75% saturation)
1.2
700
V
mV
Vby
DC level at zero signal
Cb peak-peak (75% saturation)
1.2
890
V
mV
100
ΚΩ
2.5
V
Vy
User Adjustable Controls
(VcBRT)
Ri
input resistance
factory set reference bias
(VrAD1,VrAD2,VrAD3,VrEQ,VrPK,NSSA1,VcCHG, VcBLM)
VrEQ
biased level
2.0
3.0
NS1SA1
SA1 reference level
2.2
V
VcCHG
Photo cell Charge level
2.6
V
ADC parameters
B
analog bandwidth
MHz
DLE
DC differential linearity error
0.5
LSB
ILE
DC integral linearity error
0.5
LSB
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Preliminary Company Confidential
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OMNIVISION TECHNOLOGIES INC.
Table 3.3: AC CHARACTERISTICS (0oC < TA < 85oC, Voltages referenced to GND)
Descriptions
Symbol
Min
Max
Typ
Units
10
30
27.0
MHz
Oscillator & Clock in
fosc
frequency (XCLK1,XCLK2)
tr , tf
clock input rise/fall time
CLKO
V
clock input duty cycle
5
ns
45
55
50
%
SCCB timing(400kbit/s)
tBUF
Bus free time between STOP & START
1.3
-
-
us
tHD:SAT
SIO-1 change after START status
0.6
-
-
us
tLOW
SIO-1 low period
1.3
-
-
us
tHIGH
SIO-1 high period
0.6
-
-
us
tHD:DAT
Data hold time
0
-
-
us
tSU:DAT
Data set-up time
0.1
-
-
us
tSU:STP
Set-up time for STOP status
0.6
-
-
us
74
37
-
-
ns
ns
Digital timing
tpclk
PCLK cycle time
16 bit operation
8 bit operation
tr,tf
PCLK rise/fall time
-
15
-
ns
tpdd
PCLK to data valid
-
15
-
ns
tphd
PCLK to HREF delay
5
20
10
ns
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tr
OMNIVISION TECHNOLOGIES INC.
tf
tpclk
PCLK
tphd
tphd
HREF
tpdd
Y<7:0>
10
Y
UV<7:0>
80
U
Y
V
FIG 2.2 Pixel Timing
54
10
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tBUF
SIO-0
tHD:DAT
tHD:SAT
tSU:DAT
tLOW
tSU:STP
SIO-1
tHIGH
FIG 2.3 SCCB Bus Timing
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h10
Y0
Y1
Y642
Y643
h10
h10
U0
V0
U642
V643
h10
(a) HORIZONTAL TIMING
483
484
1
2
3
241
242
(b) VERTICAL TIMING (Interlaced Mode)
FIG 2.4 16 Bit 4:2:2 Video Port Timing (Interlaced Mode)
56
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OMNIVISION TECHNOLOGIES INC.
h10
Y0
Y1
Y642
Y643
h10
h10
U0
V0
U642
V643
h10
(a) HORIZONTAL TIMING
1
2
483
484
(b) VERTICAL TIMING (Progressive Scan Mode)
FIG 2.5 16 Bit 4:2:2 Video Port Timing (Progressive Scan Mode)
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OMNIVISION TECHNOLOGIES INC.
3. Different Method to get QVGA format Compare
Table 3.4: Compare of QVGA Method
Method
Resolution
Frame Rate
Lens
A
320x240
60 frame/s
1/3”
B
320x240
30 frame/s
1/3”
C
322x240
30 frame/s
1/4”
D
354x288
30 frame/s
1/4”
Note: To get the frame rate, OV7620 must use 27 MHz crystal.
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0.440 ±0.005
0.040 ±0.003
31
42
OMNIVISION TECHNOLOGIES INC.
+0.010
0.060 -0.005
TYP.
0.040 ±0.007
TYP.
NOTES:
1) All dimensions in inches
43
30
48
Bottom View
0.020 ±0.003
TYP.
19
6
R 0.0075
18
4 CORNERS
7
R 0.0075
48 PLCS
0.085 ±0.010
0.036 MIN.
0.003
0.065 ±0.007
0.002
+0.012
0.560 SQ. -0.005
0.430 SQ. ±0.005
0.350 SQ. ±0.005
42
0.030
±0.003
31
30
43
0.015 ±0.002
0.020 ±0.002
31
42
43
0.003
30
Side View
48
1
6
19
6
7
Top View
7
19
18
18
0.006 MAX.
0.002 TYP.
FIG 2.6 Package Mechanical Data
59
Preliminary Company Confidential
OV7620 Product Specifications - Rev. 1.2 (5/13/00)
OMNIVISION TECHNOLOGIES INC.
.
1
Array Center
(0.0094, 0.0015)
DIE
Sensor
Array
Package Center
(0, 0)
Top View
FIG 2.7 OV7620 Sensor Array Location (in inches)
Ordering Information
Part Number
OV7620
Description
Color Digital Sensor
Comments
48 pin LCC
OmniVision Technologies, Inc. reserves the right to make changes without further notice to any product herein to improve reliability, function, or
design. OmniVision Technologies, Inc. does not assume any liability arising out of the application or use of any product or circuit described
herein; neither does it convey any license under its patent rights nor the rights of others. No part of this publication may be copied or reproduced, in any form without the prior written consent of OmniVision Technologies, Inc.
60