Posted by brazzuka's
Hi all every modders developer
New thread-topics to discuss opinion camera drivers VGA Sony Ericsson for W: w200/w300/w580/w550/w600/w610/k550/w660/w810/w880/w830/w850/w880/w710/w600 K:k750/k610/k310/k320/k530/k510/k700 Z: z310/z520/z530/z610/z710/v630
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Help support the all developers modders camdrivers & make smile simply click
VISITE SITES/WEB:
UNICEF
THE HUNGER SITE
GREENPEACE
WWF
WHALES
NATIONAL GEOGRAPHIC
Hd's Camera & Acoustic Drivers developers modders:
HD Raiderski
HD Kajá
HD Kriomag
HD BrAzzUkA´s
HD Jomateixa
HD Jonaugust_69
HD Goldman
HD Rune
HD ToShaRa's Acoustic
HD Rufinus Acoustic
HD Peter's Acoustic Mods
HD TVH Acoustic
HD Mid-Extreme Acoustics
HD Hyper Acoustic
HD Rakista Acoustic
About Super/Mini Mode Camera Drivers Visit Topics:
super camera driver for k750/w800/w810
supermode camdriver for K790/K800/K810
mini superMode for K550/W610
mini super mode for VGA CAM models Micron and MCB
mini super mode for model Omnivision 1.3MPixel/2.0MPixel
*The reviews expressed here are not shared by all
Softwares-Applications for Photographics&Videos:
Noiseware
Photomatix
HDR JAVA
About HDR FAQ/QUESTIONS:
How to Create High Dynamic Range Images:
Liquid Resize:
Liquid Resize
About Liquid Resize:
onOne Software Announces Acquisition of Liquid Resize Technology:
Liquid Resize#1
Liquid Resize#2
Fix my Movie:
FIXMYMOVIE
[ This Message was edited by: brazuka on 2008-04-09 03:58 ]
Posted by brazzuka's
// 2.0 Beta Hybrid by BrAzUkA´s with Incredible Spot Photometry and Effects support
// Version 2.0 Beta BrAzuKa´s Hybrid
// optimized for the Sony Ericsson W200... also works with W300
// ** Works with Series W and K k310/k320/w300**
// If you are working for W300 replace the value [12] by [16] in Power Sequence
// Based on 4.0 version driver cam w200 and based Sarmad´s drivers w810
// Video recording:
// Low Quality=10fps
// High Quality=10fps
// Normal mode has Smooth Zoom
// Normal mode with Macro has same quality
//
// Added properties:
// More Effects
// More Brightness
// More Contrast
// More Sharpening
// More Focus
// More Scene
// Night mode
// Focus setting
// Focus operation
// Exif
// More White Balance
// Distance (LED)
// Fill flash (Xenon)
// Q-table
// LED flash
// Xenon Flash Same
// Flash tube
// Power save mode
// ISO Stabilized
// AE level
/ Incredible Spot
Posted by brazzuka's
O driver BrAzUkA hybrid 2.1 será o ultimo a ser lançado pois o mesmo já quase não guarda as caracteristicas do driver do w200 agregado funções do driver w810.
Os proximos drivers em nada tem que ver com o driver original do w200 , a base da programação foi totalmente modificada, o dispositivo de acionamento esta com outras caracteristicas mais rapido e nessa nova versão BrAzUKa para w200 estão adicionados propriedades para melhorar o ruido das fotografias e a velocidade de gravação do video fps juntamente com novas propriedades e outra linguagem de programação.
Novas versões do driver BrAzUkA agregados a drivers e propriedades de alguns drivers modders.
Drivers modders e suas propriedades respectivamente adicionados ao w200
-Sarmads drivers modders
-Paparazy drivers modders
-Kriomag drivers modders
-Kopritis drivers modders
-Chengrong drivers modders
The driver BrAzUkA hybrid 2.1 will be the last to be released because it has almost no have the characteristics of the driver of the w200 aggregate functions of the driver w810.
The drivers coming in has nothing to do with the original driver of the w200, the basis of the programming has been completely modified, the device of this drive with other features faster and this new version BrAzUKa to w200 are added to improve the properties of photographs and noise the speed of recording video fps with new properties and other programming languages.
New versions of the driver BrAzUkA aggregates the drivers and properties of some drivers modders.
Drivers modders and their properties respectively added to the w200
- Sarmads drivers modders
- Paparazy drivers modders
- Kriomag drivers modders
- Kopritis drivers modders
- Chengrong drivers modders
Posted by brazzuka's
BrAzUkA v2.1 hybrid (last version)
The last version hybrid
The upgrade versions for w200 there will be no more the characteristics of the cam driver original w200, totally changed both their properties as the trigger mechanism so not having any more relationship with the driver original w200 and therefore this will be the last version hybrid.
Link:BrAzUkA v2.1 hybrid (last version)
http://forums.se-nse.net/index.php?showtopic=17855&hl=w200&st=120
Posted by brazzuka's
seq_ping=;
05 02 00 0B D0 #CMD_END 05 02 00 0C 07 #CMD_END //JPEG retry time max 2 sec
06 02 00 01 00 52 #CMD_END //Default no mirroring
05 02 00 18 00 #CMD_END //JPEG continuos mode infinite
06 02 00 01 00 41 //Normal focus mode
06 02 00 01 09 56 #CMD_END // Sharpness (09)
06 02 00 01 01 55 #CMD_END // Contrast (01)
06 02 00 01 00 00 #CMD_END // Nivel bilinear filter
06 02 00 01 32 57 #CMD_END // Hue (32)
06 02 00 01 09 58 #CMD_END // Saturation (09)
05 02 00 20 fc #CMD_END // change colors green by red
05 02 00 21 e2 #CMD_END // change colors yellow by blue
06 02 00 01 01 13 #CMD_END // Apply change of colors
06 02 00 01 01 08 #CMD_END // on spot (Brightness center)
#GET_SENSOR_VERSION;
Here are the values of the properties to drive the camera? I know what the difference of initial values of the properties? The initial value of the property will first recognize the environment?
//************************************************
// Brightness, property 21 ***
//************************************************
//
// 0 => Darkest .... 15 => Brightest
//
//---------------------------------------------------
seq_set_prop_13=06 02 00 01 %0 54 #CMD_END;
//************************************************
// Contrast, property 22 ***
//************************************************
//
// 0 => Lowest ..... 16 => Highest
//
//---------------------------------------------------
seq_set_prop_22=$s0 %0 $-5 08 06 02 00 01 $w5 55 #CMD_END;
//************************************************
// Sharpening, property 23 ***
//************************************************
//
// 0 => Lowest ..... 16 => Highest
//
//---------------------------------------------------
seq_set_prop_23=$s0 %0 $-0 08 06 02 00 01 $w5 56 #CMD_END;
Where I change the values of these properties, the values are hexadecimal or depend on each property?
and There are more possibilities to remove if not completely but partially the noise of a VGA camera by the driver cam or simply just going to remove the noise with programs???
Carefully
[ This Message was edited by: brazuka on 2007-11-23 01:07 ]
Posted by number1
On 2007-11-23 01:44:55, brazuka wrote:
seq_ping=;
05 02 00 0B D0 #CMD_END 05 02 00 0C 07 #CMD_END //JPEG retry time max 2 sec
06 02 00 01 00 52 #CMD_END //Default no mirroring
05 02 00 18 00 #CMD_END //JPEG continuos mode infinite
06 02 00 01 00 41 //Normal focus mode
06 02 00 01 09 56 #CMD_END // Sharpness (09)
06 02 00 01 01 55 #CMD_END // Contrast (01)
06 02 00 01 00 00 #CMD_END // Nivel bilinear filter
06 02 00 01 32 57 #CMD_END // Hue (32)
06 02 00 01 09 58 #CMD_END // Saturation (09)
05 02 00 20 fc #CMD_END // change colors green by red
05 02 00 21 e2 #CMD_END // change colors yellow by blue
06 02 00 01 01 13 #CMD_END // Apply change of colors
06 02 00 01 01 08 #CMD_END // on spot (Brightness center)
#GET_SENSOR_VERSION;
Here are the values of the properties to drive the camera? I know what the difference of initial values of the properties? The initial value of the property will first recognize the environment?
//************************************************
// Brightness, property 21 ***
//************************************************
//
// 0 => Darkest .... 15 => Brightest
//
//---------------------------------------------------
seq_set_prop_13=06 02 00 01 %0 54 #CMD_END;
//************************************************
// Contrast, property 22 ***
//************************************************
//
// 0 => Lowest ..... 16 => Highest
//
//---------------------------------------------------
seq_set_prop_22=$s0 %0 $-5 08 06 02 00 01 $w5 55 #CMD_END;
//************************************************
// Sharpening, property 23 ***
//************************************************
//
// 0 => Lowest ..... 16 => Highest
//
//---------------------------------------------------
seq_set_prop_23=$s0 %0 $-0 08 06 02 00 01 $w5 56 #CMD_END;
Where I change the values of these properties, the values are hexadecimal or depend on each property?
and There are more possibilities to remove if not completely but partially the noise of a VGA camera by the driver cam or simply just going to remove the noise with programs???
Carefully
[ This Message was edited by: brazuka on 2007-11-23 01:07 ]
it's all in hex i recommend
06 02 00 01 08 56 #CMD_END // Sharpness (08)
06 02 00 01 01 55 #CMD_END // Contrast (01)
06 02 00 01 00 00 #CMD_END // Nivel bilinear filter
06 02 00 01 32 57 #CMD_END // Hue (32)
06 02 00 01 0a 58 #CMD_END // Saturation (10)
05 02 00 20 fc #CMD_END // change colors green by red
05 02 00 21 e2 #CMD_END // change colors yellow by blue
06 02 00 01 01 13 #CMD_END // Apply change of colors
06 02 00 01 01 08 #CMD_END // on spot (Brightness center)
//************************************************
// Brightness, property 21 ***
//************************************************
//
// 0 => Darkest .... 15 => Brightest
//
//---------------------------------------------------
seq_set_prop_13=06 02 00 01 %0 54 #CMD_END;
not sure about this 1 but i think it's 00 that u change
//************************************************
// Contrast, property 22 ***
//************************************************
//
// 0 => Lowest ..... 16 => Highest
//
//---------------------------------------------------
seq_set_prop_22=$s0 %0 $-5 08 06 02 00 01 $w5 55 #CMD_END;
08<<<< u change this value
//************************************************
// Sharpening, property 23 ***
//************************************************
//
// 0 => Lowest ..... 16 => Highest
//
//---------------------------------------------------
seq_set_prop_23=$s0 %0 $-0 08 06 02 00 01 $w5 56 #CMD_END;
08<<< u change this value
[ This Message was edited by: number1 on 2007-11-23 10:44 ]
Posted by brazzuka's
Camera Driver v2.5 BrAzUkA´s
// Sony Ericsson CamDriver v2.5 by BrAzUkA´s for w200
// Version 2.5 BrAzUka´s
// Optimized for the Sony Ericsson W200
// ** Works with Series W and K ** w300/k310/k320
// Based on version original driver cam W200 and based drivers Series W and K
// Video recording:
// Low Quality=10 fps
// High Quality=10 fps
// Normal=10 fps
// Nigth=10 fps
//
// Added properties:
// New Power sequence on/off
// Automatic mode
// More Exposure
// Night Mode
// Twilight (Afternoon Mode)
// More Reduction Noise
// Disable SVR™ & LiveColours
// Sport Mode
// LiveColours™
// New Zoom property
// New White Balance
// New Scene
// Incredible Photo metering
// More Sharpening
// Contrast stable
// Auto Framerate Flash
// Half Release
Posted by brazzuka's
Photos:
Posted by brazzuka's
CAMERA DRIVER V2.85 BRAZUKA´S
// Sony Ericsson CamDriver v2.85 by BrAzUkA´s for w200
// Version 2.85 BrAzUka´s
// Optimized for the Sony Ericsson W200
// ** Works with Series W and K ** w300/k310/k320
// Based on version original driver cam W200 and based drivers Series W and K
// Video recording:
// Low Quality= 10 fps Normal= 10 fps
// High Quality= 10 fps Nigth= 10 fps
//
// Added properties:
// New Power sequence on/off
// Automatic mode
// More Exposure
// Night Mode
// Twilight (Afternoon Mode)
// More Reduction Noise
// Disable SVR™ & LiveColours
// Sport Mode
// LiveColours™
// New Zoom property
// New White Balance
// New Scene
// Incredible Photo metering
// More Sharpening
// Contrast stable
// Auto Framerate Flash
// Half Release
// Max Exposure (Adjust +/-)
[ This Message was edited by: brazuka on 2007-11-27 18:38 ]
[ This Message was edited by: brazuka on 2007-11-27 23:54 ]
[ This Message was edited by: brazuka on 2007-11-28 18:49 ]
Posted by brazzuka's
CAMERA DRIVER V2.85 SUPER COLOR BRAZUKA´S
/ Sony Ericsson CamDriver v2.85 Super Color by BrAzUkA´s for w200
// Version 2.85 Super Color BrAzUka´s
// Optimized for the Sony Ericsson W200
// ** Works with Series W and K ** w300/k310/k320
// Based on version original driver cam W200 and based drivers Series W and K
// Video recording:
// Low Quality=10 fps Normal=10 fps
// High Quality=10 fps Nigth=10 fps
//
//
// Added properties:
// Super Color
[ This Message was edited by: brazuka on 2007-11-27 18:38 ]
[ This Message was edited by: brazuka on 2007-11-27 23:56 ]
[ This Message was edited by: brazuka on 2007-11-28 18:50 ]
Posted by number1
looks good, i hope u fixed all the bugs aswell
- zoom didn't work
- brightness control didn't work
- and it was far too dark in lower light
Posted by brazzuka's
Camera v3.1 BrAzUkA´s
Most High Quality
Most High Quality of Video
// Sony Ericsson CamDriver v3.1 by BrAzUkA´s for w200
// Version 3.1 BrAzUka´s
// Optimized for the Sony Ericsson W200
// ** Works with Series W and K ** w300/k310/k320
// Based on version original driver cam W200 and based drivers Series W and K Cibershot
// Macro mode = Enhanced Mode (slightly more exposure for better low light shots)
// Manual Focus (use zoom keys to select focus)
// 1.0:autofocus, 1.1:infinity, 1.2-4.0 manual
//
// Macro + Night = Enhanced Night Mode (longer exposure, very low noise)
// Manual focus (as described above)
//
// Normal mode = Quicker Enhanced Mode, less chance of a blur
// Fine Mode = Slower Enhanced Mode (longer exposure)
//
//
// Video recording:
// Low Quality=14 fps
// High Quality=14 fps
// Normal Mode™ Dayligth=14 fps
// Nigth Mode™=14fps
// Normal 15fps, Night 10fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro quality
// EnhancedNight™ mode has Manual Focus with zoom keys
// More Color Video™
// Fast Speed Recording Video™
//
// Added properties:
// New Power sequence™ on/off
// Automatic mode
// Night Mode™
// Color Correction™
// Hue Mode
// Saturation Stable
// EnhancedNight™ Video
// Twilight (Afternoon Mode)Auto Exposure
// More Reduction Noise
// Spot Mode ON (Brightness base of the center)
// LiveColours™
// Shutter speed™
// New Zoom property
// New White Balance
// Real Scenes
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Half Release
// Max Auto Exposure™ (Adjust +/-)
[ This Message was edited by: brazuka on 2007-12-03 02:43 ]
Posted by number1
i just hope 3.1 has no bugs
Posted by sowbran
On 2007-12-02 02:06:13, brazuka wrote:
Camera v3.1 BrAzUkA´s
Most High Quality
Most High Quality of Video
// Sony Ericsson CamDriver v3.1 by BrAzUkA´s for w200
// Version 3.1 BrAzUka´s
// Optimized for the Sony Ericsson W200
// ** Works with Series W and K ** w300/k310/k320
// Based on version original driver cam W200 and based drivers Series W and K Cibershot
// Video recording:
// Low Quality=14 fps
// High Quality=14 fps
// Normal Mode™ Dayligth=14 fps
// Nigth Mode™=14fps
// Normal mode has same Zoom
// Normal mode with Macro quality
//
// Added properties:
// New Power sequence™ on/off
// Automatic mode
// Night Mode™
// Color Correction™
// Hue Mode
// Saturation Stable
// Twilight (Afternoon Mode)Auto Exposure
// More Reduction Noise
// Spot Mode ON (Brightness base of the center)
// LiveColours™
// Shutter speed™
// New Zoom property
// New White Balance
// Real Scenes
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Half Release
// Max Auto Exposure™ (Adjust +/-)
thanks for this but where's the camdriver???
greetings and the camdrivers are amazing cheers
Posted by whatsucka
can w600i cam driver b mod??
Posted by phoenix1985
Where can i down Cam driver?
Posted by brazzuka's
Camera v3.1 BrAzUkA´s
Photos:
Posted by brazzuka's
Camera v3.1 Super Color BrAzUkA´s
Photos:
Posted by brazzuka's
Camera Driver v3.25 BrAzUkA´s
// Sony Ericsson CamDriver v3.25 by BrAzUkA´s for w200
// Version 3.25 BrAzUka´s
// Optimized for the Sony Ericsson W200
// ** Works with Series W and K ** w300/k310/k320
// Thanks Number1 of participation by better adjust the programming language
// Based on version original driver cam W200 and based drivers Series W and K Cibershot
// Macro mode = Enhanced Mode (slightly more exposure for better low light shots)
// Manual Focus (use zoom keys to select focus)
// 1.0:autofocus, 1.1:infinity, 1.2-4.0 manual
//
// Macro + Night = Enhanced Night Mode (longer exposure, very low noise)
// Manual focus (as described above)
//
// Normal mode = Quicker Enhanced Mode, less chance of a blur
// Fine Mode = Slower Enhanced Mode (longer exposure)
//
// ************************************************************
// Thanks to paparazy & sarmad's & kriomag & chegrong & number1
// ************************************************************
//
// Video recording:
// Low Quality=20fps to 22fps
// High Quality=15fps
// Normal Mode™ Dayligth=15fps
// Nigth Mode™=15fps
// Normal 15fps, Night 10fps to 15fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro quality
// EnhancedNight™ mode has Manual Focus with zoom keys
//
// Added properties:
// New Power sequence™ on/off
// Automatic mode
// Night Mode™
// Color Correction™
// Hue Mode
// Saturation Stable
// EnhancedNight™ Video
// More Reduction Noise
// Spot Mode ON (Brightness base of the center)
// LiveColours™
// Shutter speed™
// New Zoom property
// New White Balance
// Real Scenes Support w200
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Max Auto Exposure™ (Adjust +/-)
Photos:
[ This Message was edited by: brazuka on 2007-12-05 16:35 ]
[ This Message was edited by: brazuka on 2007-12-06 14:10 ]
Posted by whatsucka
is it able to mod w600 cam driver??
Posted by brazzuka's
// Sony Ericsson CamDriver v3.25 BETA by BrAzUkA´s for w200
// Version 3.25 BETA BrAzUka´s
// Optimized for the Sony Ericsson W200
// ** Works with Series W and K ** w300/k310/k320
// Thanks to Alex Herdea and Ursamajor by providing service to the test drivers
// for being helpful and patients to always be telling us of something that happens
// in the driver, for the serve explanation of how the programs are calculated
// and tell us something in the history of photography.
// Thanks Number1 of participation by better adjust the programming language.
// Thanks to all involved in one way or another in search of the evolution and
// in one way or another everyone who participated, colaborated also part of this project
// always looking to help people in search of development.
//
// Based on version original driver cam W200 and based drivers Series W and K Cibershot
// Macro mode = Enhanced Mode (slightly more exposure for better low light shots)
// Auto focus
//
// Macro + Night = Enhanced Night Mode (longer exposure, very low noise)
// Auto focus (as described above)
//
// Normal mode = Quicker Enhanced Mode, less chance of a blur
// Fine Mode = Slower Enhanced Mode (longer exposure)
//
// **************************************************************************
// Thanks to paparazy & sarmad's & kriomag & chegrong & alex & ursa & number1
// **************************************************************************
//
// Video recording:
// Low Quality=20fps to 25fps
// High Quality=15fps to 20fps
// Normal Mode™ Dayligth=15fps
// Nigth Mode™=15fps
// Normal 15fps, Night 10fps to 15fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro quality
// EnhancedNight™ mode has Auto Focus
//
// Added properties:
// New Power sequence™ on/off
// Automatic mode
// Night Mode™
// Color Correction™
// Hue Mode
// Saturation Stable
// EnhancedNight™ Video
// More Reduction Noise
// Spot Mode ON (Brightness base of the center)
// LiveColours™
// Shutter speed™
// New Zoom property
// New White Balance
// Real Scenes Support w200
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Max Manual Exposure™ (Adjust +/-) Sometimes Restart the camera for a new reading of exposure
Photos:
Posted by brazzuka's
On 2007-12-06 06:01:44, whatsucka wrote:
is it able to mod w600 cam driver??
W600 1.3mb Camera
There are drivers for the w600 even better because the w600 is 1.3mb pixels and w200 is VGA 640x480 interpol 1.2mb
Posted by Mizzle
On 2007-12-06 15:54:38, brazuka wrote:
On 2007-12-06 06:01:44, whatsucka wrote:
is it able to mod w600 cam driver??
W600 1.3mb Camera
There are drivers for the w600 even better because the w600 is 1.3mb pixels and w200 is VGA 640x480 interpol 1.2mb
It's mp, if you're going to shorten up mega pixels.
And W200's interpolated pictures comes out in 1280 x 960 and is the same size as W600's pictures.
Anyways, was wanting to ask you a question. No offense, but why do you work on making a better driver for a phone with a crappy camera that simply can't produce good shots?
Posted by whatsucka
lol iono...but i donno why nokia 7610 and s700 both are 1.3 mp n thy r so much better than w600 1.3mp
Posted by Lunks
On 2007-12-06 15:59:38, Mizzle wrote:
On 2007-12-06 15:54:38, brazuka wrote:
On 2007-12-06 06:01:44, whatsucka wrote:
is it able to mod w600 cam driver??
W600 1.3mb Camera
There are drivers for the w600 even better because the w600 is 1.3mb pixels and w200 is VGA 640x480 interpol 1.2mb
It's mp, if you're going to shorten up mega pixels.
And W200's interpolated pictures comes out in 1280 x 960 and is the same size as W600's pictures.
Anyways, was wanting to ask you a question. No offense, but why do you work on making a better driver for a phone with a crappy camera that simply can't produce good shots?
Maybe because he has a W200.
Posted by opexblue
On 2007-12-06 17:11:11, whatsucka wrote:
lol iono...but i donno why nokia 7610 and s700 both are 1.3 mp n thy r so much better than w600 1.3mp
AFAIK S700 use CCD, W600 use CMOS. Donno about 7610.
Brazuka it would nice if you also post the download link.
[ This Message was edited by: opexblue on 2007-12-06 20:22 ]
Posted by Raiderski
Anyways, was wanting to ask you a question. No offense, but why do you work on making a better driver for a phone with a crappy camera that simply can't produce good shots?
no offense, but you are little grumbler...
does any other SE phone can do good shots? what exactly is good shot? in my opinion K750/K800/K850 can only create better shots and nothing more. we don't have dSLR's, we only have phones and crappy cameras with weak photo capabilities
Posted by brazzuka's
// Sony Ericsson CamDriver v3.25 by BrAzUkA´s for w200
// Version 3.25 BrAzUkA´s
// Optimized for the Sony Ericsson W200
// ** Works with Series W and K ** w600/w300/k310/k320/z530
// Video recording:
// Low Quality=20fps to 25fps
// High Quality=15fps to 20fps
// Normal Mode™ Dayligth=15fps
// Nigth Mode™=15fps
// Normal 15fps, Night 10fps to 15fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro quality
// EnhancedNight™ mode has Auto Focus Not val
// Added properties:
// New Power sequence™ on/off
// Automatic mode
// Night Mode™ Adjust (Button 2 Two Keyboard)
// Color Correction™
// Hue Mode
// Saturation Stable
// EnhancedNight™ Video
// More Reduction Noise
// Spot Mode ON (Brightness base of the center) Adjust(+/-)Volume
// LiveColours™
// Shutter speed™
// New Zoom property
// New White Balance
// Real Scenes Support w200 Adjust (Button 3 Three Keyboard)
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Max Manual Exposure™ Sometimes Restart the camera for a new reading of exposure
Photos:
http://img114.imageshack.us/img114/4359/dsc01656xy5.jpg
http://img528.imageshack.us/img528/3458/dsc01658ts8.jpg
http://img504.imageshack.us/img504/6048/dsc01659zh7.jpg
http://img528.imageshack.us/img528/8885/dsc01660hm5.jpg
http://img150.imageshack.us/img150/4456/dsc01625du8.jpg
http://img528.imageshack.us/img528/9571/dsc01632wi0.jpg
http://img528.imageshack.us/img528/5628/dsc01635ad2.jpg
http://img528.imageshack.us/img528/9067/dsc01631ka2.jpg
http://img504.imageshack.us/img504/5615/dsc01637mm2.jpg
http://img528.imageshack.us/img528/2448/dsc01638jq3.jpg
http://img504.imageshack.us/img504/6017/dsc01639hs8.jpg
http://img338.imageshack.us/img338/9559/dsc01641fs4.jpg
http://img504.imageshack.us/img504/376/dsc01645rh3.jpg
http://img504.imageshack.us/img504/2343/dsc01650iq5.jpg
http://img151.imageshack.us/img151/5099/dsc01651ld7.jpg
http://img504.imageshack.us/img504/6232/dsc01623pj9.jpg
http://img504.imageshack.us/img504/4756/dsc01591jd0.jpg
http://img504.imageshack.us/img504/3514/dsc01608zp0.jpg
http://img504.imageshack.us/img504/4840/dsc01502sp3.jpg
http://img153.imageshack.us/img153/1132/dsc01437fr4.jpg
Posted by brazzuka's
Photographs night in the dark environment but with light diference.Photos,Pics taken with light ice white (fluorescents) and yellow light (fluorescents)
Photos ligth yellow:
Photos ligth white ice:
Posted by sowbran
amazing but where's the camdriver???
greetings and cheers
Posted by pRo_lama
ifs/settings/camera
Posted by brazzuka's
Pixels
Losango=Square
The images of today are based on pixels in the picture geometry squares.In fact in the of theory when more pixels exist in a given area, the better the resolution rigth.The pixels consist of geometric figures called squares.
There is another figure almost identical to the square geometry can say a brother of the square that has the same proportions in the area of the square but occupies less space than a square in a certain space.The losango is the shape of the square that depending on the reference always hold the less space than a square.A issue is not only involves geometric figures and their forms but the space that they meet and how occups.Certaly the more points you have a particular area we have lost more and more sure of that resolution will be arriving close to the real.
Good only we work not only with pixels but also with lines but certainly the fusion of two drawings geometric filling the entire field of the observer may be the ideal but do not could save memory.
Why is the theory tells us that the losango has the same area as a square but occupies less space on its way perhaps see of another form of images video and photography.
Posted by brazzuka's
Download Driver cam
http://forums.se-nse.net/index.php?showtopic=17855&hl=w200&st=300
Posted by brazzuka's
On 2007-12-02 17:51:27, number1 wrote:
i just hope 3.1 has no bugs
Number
The time of shooting the w200 is very slow so losing the movement of objects, there is somewhere you can change the values for the drive time of shooting is faster ??? or chip limited to action, perhaps with a new cid firmware can release some properties of the hardware w200, I do not know but I think it is very limited but that was of great surprises such modifications of the hardware for a resolution VGA
Posted by brazzuka's
Cam Driver Beta resolution 1280x960 w200 almost the same quality 1,2MB
Added properties:
-JPEG buffer for 1280x960 works w200 implemented
-Color correction and Only because the chip this tired!! very tired Does not support other properties, very limited ... But until the chip has helped us well
Photos:
[ This Message was edited by: brazuka on 2007-12-11 19:14 ]
Posted by brazzuka's
Micron® DigitalClarity™ CMOS Imaging technology
MT9V112 : SOC VGA DIGITAL IMAGE SENSOR
Features
PDF:09005aef81e7c530/Source:09005aef81e7c5b0 Micron Technology, Inc., reserves the right to change products or specifications without notice.
MT9V112_1.fm - Rev. H 3/06 EN 1 ©2005 Micron Technology, Inc. All rights reserved.
1/6-Inch SOC VGA CMOS Digital Image
Sensor
MT9V112I2ASTC
Features
• Micron® DigitalClarity™ CMOS Imaging technology
• System-On-a-Chip (SOC)—Completely integrated
camera system
• Ultra-low power, low cost, progressive scan CMOS
image sensor
• Superior low-light performance
• On-chip image flow processor (IFP) performs
sophisticated processing:
• Color recovery and correction
• Sharpening
• Gamma
• Lens shading correction,
• On-the-fly defect correction
• Filtered image downscaling to arbitrary size with
smooth, continuous zoom and pan
• Automatic Features:
• Auto exposure (AE)
• Auto white balance (AWB)
• Auto black reference (ABR)
• Auto flicker avoidance
• Auto color saturation
• Auto defect identification and correction
• Fully automatic Xenon and LED-type flash support,
fast exposure adaptation
• Multiple parameter contexts, easy/fast mode
switching
• Camera control sequencer automates:
• Snapshots
• Snapshots with flash
• Video clips
• Simple two-wire serial programming interface
• ITU-R BT.656 (YCbCr), 565RGB, 555RGB, or 444RGB
formats (progressive scan)
• Raw and processed Bayer formats
Applications
• Cellular phones
• PDAs
• Toys
• Other battery-powered products
Ordering Information
Table 1: Key Performance Parameters
Parameter typical Value
Optical Format 1/6-inch (4:3)
Active Imager Size 2.30mm(H) x 1.73mm(V)
2.88mm Diagonal
Active Pixels 640H x 480V
Pixel Size 3.6μm x 3.6μm
Color Filter Array RGB Bayer Pattern
Shutter type Electronic Rolling
Shutter (ERS)
Maximum Data Rate/
Master Clock
12 MPS–13.5 MPS/
24 MHz–27 MHz
Frame Rate (VGA 640H x 480V) 30 fps at 27 MHz
ADC Resolution 10-bit, on-chip
Responsivity 1.0V/lux-sec (550nm)
Dynamic Range 71dB
SNRMAX 44dB
Supply Voltage I/O Digital 1.7V–3.1V
(VDD nominal)
Core Digital 1.7V–1.9V or 2.5V–3.1V
(1.8V or 2.8V nominal)
Analog 2.5V–3.1V
(2.8V nominal)
Power Consumption 76mW at 1.8V, 15 fps
Operating temperature –30°C to +70°C
Packaging 36-Ball ICSP, wafer or die
Table 2: Available Part Numbers
Part Number Description
MT9V112I2ASTC 36-Ball iCSP (standard)
MT9V112I9ASTC 36-Ball iCSP (lead-free)
Table
Posted by brazzuka's
// Sony Ericsson CamDriver v3.5 by BrAzUkA´s for z530
// Version 3.5 BrAzUka´s
// Optimized for the Sony Ericsson z530
// Setup Based in Mulan and Doris
// Chip SOC366 works z530 and works MT9V112_1.fm SOC VGA DIGITAL IMAGE SENSOR w200
// Video recording:
// High Quality=10fps to 15fps
// Low Quality=15fps to 20fps
// Normal Mode™ Dayligth=15fps
// Nigth Mode™=15fps
// Normal 15fps, Night 10fps to 15fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro new quality
// EnhancedNight™ mode has Auto Focus Not valid for z530 SOC366
//
// Added properties:
// New Power sequence™ on/off with Master Clock™ for works z530
// Automatic mode
// Night Mode™ Adjust
// Color Correction™
// Hue Mode
// Super Color™
// Saturation Stable
// EnhancedNight™ Video
// More Reduction Noise
// LiveColours™
// Shutter speed™
// New Zoom property
// Brightness adjust (+/-)Volume
// New White Balance
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Max Manual Exposure™
link:
http://z530ise.4shared.com/account/home.jsp
http://www.divshare.com/download/3137496-13c
Posted by brazzuka's
// Sony Ericsson CamDriver 3.5 BETA 171207 by BrAzUkA´s for w200
// Version 3.5 BETA 171207 BrAzUkA´s
// Optimized for the Sony Ericsson W200 ** Works w200 **
// Video recording:
// High Quality=15fps to 20fps
// Low Quality=20fps to 30fps
// Normal Mode™ Dayligth=15fps
// Nigth Mode™=20fps
// Normal 15fps, Night 10fps to 20fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro quality
// EnhancedNight™ mode has Auto Focus Not valid for w200 MT9V112
//
// Added properties:
// New Power sequence™ on/off with Master Clock™ for w200
// Automatic mode
// Night Mode™ Adjust (Button 2 Two Keyboard)
// Color Correction™
// Hue Mode
// JPEG buffer 1280x960 BrAzUkA´s Snapshot™ interpol 1,2MB Mode Expanded
// Saturation Stable
// EnhancedNight™ Video
// More Reduction Noise
// Spot Mode ON (Brightness base of the center) Adjust(+/-)Volume
// LiveColours™
// Shutter speed™
// New Zoom property
// Master Clock™ for w200
// Brightness adjust EV plus daylight and night to change value Adjust(+/-)Volume
// New White Balance
// Real Scenes Support w200 Adjust (Button 3 Three Keyboard)
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Max Manual Exposure™ Sometimes Restart the camera for a new reading of exposure
Posted by brazzuka's
// Sony Ericsson CamDriver Version v5.5 by BrAzUkA´s for w300
// Version v5.5 BrAzUkA´s
// Optimized for the Sony Ericsson W300 ** Works w300 **
// Based on version original driver cam W300 and based drivers Series W and K Cibershot
// Based Configuration w200 and properties w200 support by sensor MT9V112 works w300
//
// Video recording:
// High Quality=15fps to 20fps
// Low Quality=20fps to 30fps
// Normal Mode™ Dayligth=15fps
// Nigth Mode™=20fps
// Normal 15fps, Night 10fps to 20fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro quality
// EnhancedNight™ mode has Auto Focus Not valid for w300 MT9V112
//
// Added properties:
// New Power sequence™ on/off with new Master Clock™ for w300
// Automatic mode
// Night Mode™ Adjust (Button 2 Two Keyboard)
// Color Correction™
// Hue Mode
// JPEG buffer 1280x960 BrAzUkA´s Snapshot™ interpol 1,2MB Mode Expanded
// Saturation Stable
// EnhancedNight™ Video
// More Reduction Noise
// Spot Mode ON (Brightness base of the center) Adjust(+/-)Volume
// LiveColours™
// Shutter speed™
// New Zoom property
// Master Clock™ for w300
// Brightness adjust EV plus daylight and night to change value Adjust(+/-)Volume
// New White Balance
// Real Scenes Support w300 Adjust (Button 3 Three Keyboard)
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Max Manual Exposure™ Sometimes Restart the camera for a new reading of exposure
Attention: Need to test the driver
Posted by brazzuka's
Camera Driver v5.6 BrAzUkA´s w600
// Sony Ericsson CamDriver Version v5.6 by BrAzUkA´s for w600
// Version v5.6 BrAzUkA´s
// Optimized for the Sony Ericsson W600 ** Works w600 **
// Video recording:
// Low Quality= New Recording Video fps
// High Quality= New Recording Video fps
//
// Added properties:More Colors
// More Sharpness
// New White Balance
// Incredible brightness
// New Power Sequence with new frequency
Attention: Need to test the driver
[ This Message was edited by: brazuka on 2007-12-19 00:40 ]
Posted by brazzuka's
-DIGITAL CAMERA SENSOR SIZES -
This article aims to address the question: how does your digital camera's sensor size influence different types of photography? Your choice of sensor size is analogous to choosing between 35 mm, medium format and large format film cameras-- with a few notable differences unique to digital technology. Much confusion often arises on this topic because there are both so many different size options, and so many trade-offs relating to depth of field, image noise, diffraction, cost and size/weight.
I have written this article after conducting my own research to decide whether the new Canon EOS 5D is really an upgrade from the 20D for the purposes of my photography. Background reading on this topic can be found in the tutorial on digital camera sensors.
OVERVIEW OF SENSOR SIZES
Sensor sizes currently have many possibilities, depending on their use, price point and desired portability. The relative size for many of these is shown below:
Canon's 1Ds/1DsMkII/5D and the Kodak DCS 14n are the most common full frame sensors. Canon cameras such as the 300D/350D/10D/20D all have a 1.6X crop factor, whereas Nikon cameras such as the D70(s)/D100 have a 1.5X crop factor. The above chart excludes the 1.3X crop factor, which is used in Canon's 1D series cameras.
Camera phones and other compact cameras use sensor sizes in the range of ~1/4" to 2/3". Olympus, Fuji and Kodak all teamed up to create a standard 4/3 system, which has a 2X crop factor compared to 35 mm film. Medium format and larger sensors exist, however these are far less common and currently prohibitively expensive. These will thus not be addressed here specifically, but the same principles still apply.
CROP FACTOR & FOCAL LENGTH MULTIPLIER
The crop factor describes the sensor's width ratio to a full-frame 35 mm sensor. It is called this because when using a 35 mm lens, such a sensor effectively crops out this much of the image at its exterior (due to its limited size).
35 mm Full Frame Angle of View
One might initially think that throwing away image information is never ideal, however it does have its advantages. Nearly all lenses are sharpest at their centers, while quality degrades progressively toward to the edges. This means that a cropped sensor effectively discards the lowest quality portions of the image, which is quite useful when using low quality lenses (as these typically have the worst edge quality).
Uncropped Photograph Center Crop Corner Crop
On the other hand, this also means that one is carrying a much larger lens than is necessary-- a factor particularly relevant to those carrying their camera for extended periods of time (see section below). Ideally, one would use nearly all image light transmitted from the lens, and this lens would be of high enough quality that its change in sharpness would be negligible towards its edges.
Additionally, the optical performance of wide angle lenses is rarely as good as longer focal lengths. Since a cropped sensor is forced to use a wider angle lens to produce the same angle of view as a larger sensor, this can degrade quality. Smaller sensors also enlarge the center region of the lens more, so its resolution limit is likely to be more apparent for lower quality lenses.
Similarly, the focal length multiplier relates the focal length of a lens used on a smaller format to a 35 mm lens producing an equivalent angle of view, and is equal to the crop factor. This means that a 50 mm lens used on a sensor with a 1.6X crop factor would produce the same field of view as a 1.6 x 50 = 80 mm lens on a 35 mm full frame sensor.
Focal Length Multiplier Calculator
Sensor Type:
Actual Lens Focal Length: mm
Focal Length Multiplier
35 mm Equivalent Focal Length
Be warned that both of these terms can be somewhat misleading. The lens focal length does not change just because a lens is used on a different sized sensor-- just its angle of view. A 50 mm lens is always a 50 mm lens, regardless of the sensor type. At the same time, "crop factor" may not be appropriate to describe very small sensors because the image is not necessarily cropped out (when using lenses designed for that sensor).
LENS SIZE AND WEIGHT CONSIDERATIONS
Smaller sensors require lighter lenses (for equivalent angle of view, zoom range, build quality and aperture range). This difference may be critical for wildlife, hiking and travel photography because all of these often utilize heavier lenses or require carrying equipment for extended periods of time. The chart below illustrates this trend for a selection of Canon telephoto lenses typical in sport and wildlife photography:
Lens weight versus focal length
An implication of this is that if one requires the same magnification on a 35 mm camera as that attained using a 200 mm f/2.8 lens on a camera with a 1.5X crop factor (requiring a 300 mm f/2.8 lens), one would have to carry 3.5X as much weight! This also ignores the size difference between the two, which may be important if one does not want to draw attention in public. Additionally, heavier lenses typically cost much more.
pentaprism in SLR camera
For SLR cameras, larger sensor sizes result in larger and clearer viewfinder images, which can be especially helpful when manual focusing. However, these will also be heavier and cost more because they require a larger prism/pentamirror to transmit the light from the lens into the viewfinder and towards your eye.
DEPTH OF FIELD REQUIREMENTS
As sensor size increases, the depth of field will decrease for a given aperture (when filling the frame with a subject of the same size and distance). This is because larger sensors require one to get closer to their subject, or to use a longer focal length in order to fill the frame with that subject. This means that one has to use progressively smaller aperture sizes in order to maintain the same depth of field on larger sensors. The following calculator predicts the required aperture and focal length in order to achieve the same depth of field (while maintaining perspective).
Depth of Field Equivalents
Sensor #1
Selected aperture
Actual lens focal length mm
Sensor #2
Required Focal Length (for same perspective)
Required Aperture
As an example calculation, if one wanted to reproduce the same perspective and depth of field on a full frame sensor as that attained using a 10 mm lens at f/11 on a camera with a 1.6X crop factor, one would need to use a 16 mm lens and an aperture of roughly f/18. Alternatively, if one used a 50 mm f/1.4 lens on a full frame sensor, this would produce a depth of field so shallow it would require an aperture of 0.9 on a camera with a 1.6X crop factor-- not possible with consumer lenses!
A shallower depth of field may be desirable for portraits because it improves background blur, whereas a larger depth of field is desirable for landscape photography. This is why compact cameras struggle to produce significant background blur in portraits, while large format cameras struggle to produce adequate depth of field in landscapes.
Note that the above calculator assumes that you have a lens on the new sensor (#2) which can reproduce the same angle of view as on the original sensor (#1). If you instead use the same lens, then the aperture requirements remain the same (but you will have to get closer to your subject). This option, however, also changes perspective.
INFLUENCE OF DIFFRACTION
Larger sensor sizes can use smaller apertures before the diffraction airy disk becomes larger than the circle of confusion (determined by print size and sharpness criteria). This is primarily because larger sensors do not have to be enlarged as much in order to achieve the same print size. As an example: one could theoretically use a digital sensor as large as 8x10 inches, and so its image would not need to be enlarged at all for a 8x10 inch print, whereas a 35 mm sensor would require significant enlargement.
Use the following calculator to estimate when diffraction begins to reduce sharpness. Note that this only shows when diffraction will be visible when viewed onscreen at 100%-- whether this will be apparent in the final print also depends on viewing distance and print size. To calculate this as well, please visit: diffraction limits and photography.
Diffraction Limited Aperture Estimator
Sensor Size
Resolution Megapixels
Diffraction Limited Aperture
Keep in mind that the onset of diffraction is gradual, so apertures slightly larger or smaller than the above diffraction limit will not all of a sudden look better or worse, respectively. On a Canon 20D, for example, one can often use f/11 without noticeable changes in focal plane sharpness, but above this it becomes quite apparent. Furthermore, the above is only a theoretical limit; actual results will also depend on lens characteristics. The following diagrams show the size of the airy disk (theoretical maximum resolving ability) for two apertures against a grid representing pixel size:
Pixel Density Limits Resolution
(Shallow DOF Requirement)
Airy Disk Limits Resolution
(Deep DOF Requirement)
An important implication of the above results is that the diffraction-limited pixel size increases for larger sensors (if the depth of field requirements remain the same). This pixel size refers to when the airy disk size becomes the limiting factor in total resolution-- not the pixel density. Further, the diffraction-limited depth of field is constant for all sensor sizesThis factor may be critical when deciding on a new camera for your intended use, because more pixels may not necessarily provide more resolution (for your depth of field requirements). In fact, more pixels could even harm image quality by increasing noise and reducing dynamic range (next section).
PIXEL SIZE: NOISE LEVELS & DYNAMIC RANGE
Larger sensors generally also have larger pixels (although this is not always the case), which give them the potential to produce lower image noise and have a higher dynamic range. Dynamic range describes the range of tones which a sensor can capture below when a pixel becomes completely white, but yet above when texture is indiscernible from background noise (near black). Since larger pixels have a greater volume -- and thus a greater range of photon capacity -- these generally have a higher dynamic range.
digital sensor pixels
Note: cavities shown without color filters present
Further, larger pixels receive a greater flux of photons over a given exposure time (at the same aperture), so their light signal is much stronger. For a given amount of background noise, this produces a higher signal to noise ratio-- and thus a smoother looking photo.
Larger Pixels
(Often Larger Sensor)
Smaller Pixels
(Often Smaller Sensor)
This is not always the case however, because the amount of background noise also depends on sensor manufacturing process and how efficiently the camera extracts tonal information from each pixel (without introducing additional noise). In general though, the above trend holds true. Another aspect to consider is that even if two sensors have the same apparent noise when viewed at 100%, the sensor with the higher pixel count will produce a cleaner looking final print. This is because the noise gets enlarged less for the higher pixel count sensor (for a given print size), therefore this noise has a higher frequency and thus appears finer grained.
COST OF PRODUCING DIGITAL SENSORS
The cost of a digital sensor rises dramatically as its area increases. This means that a sensor with twice the area will cost more than twice as much, so you are effectively paying more per unit "sensor real estate" as you move to larger sizes.
Silicon Wafer
(divided into small sensors)
Silicon Wafer
(divided into large sensors)
One can understand this by looking at how manufacturers make their digital sensors. Each sensor is cut from a larger sheet of silicon material called a wafer, which may contain thousands of individual chips. Each wafer is extremely expensive (thousands of dollars), therefore fewer chips per wafer result in a much higher cost per chip. Furthermore, the chance of an irreparable defect (too many hot pixels or otherwise) ending up in a given sensor increases with sensor area, therefore the percentage of usable sensors goes down with increasing sensor area (yield per wafer). Assuming these factors (chips per wafer and yield) are most important, costs increase proportional to the square of sensor area (a sensor 2X as big costs 4X as much). Real-world manufacturing has a more complicated size versus cost relationship, but this gives you an idea of skyrocketing costs.
This is not to say though that certain sized sensors will always be prohibitively expensive; their price may eventually drop, but the relative cost of a larger sensor is likely to remain significantly more expensive (per unit area) when compared to some smaller size.
OTHER CONSIDERATIONS
Some lenses are only available for certain sensor sizes (or may not work as intended otherwise), which might also be a consideration if these help your style of photography. One notable type is tilt/shift lenses, which allow one to change the angle of the focal plane to increase (or decrease) the apparent depth of field using the tilt feature. The shift feature can help reduce (or eliminate) converging vertical lines caused by aiming the camera above or below the horizon (useful in architectural photography). Furthermore, fast ultra-wide angle lenses (f/2.8 or larger) are currently only available for 35 mm and larger sensors, which may be a deciding factor if needed in sports or photojournalism.
CONCLUSIONS: OVERALL IMAGE DETAIL & COMPETING FACTORS
Depth of field is much shallower for larger format sensors, however one could also use a smaller aperture before reaching the diffraction limit (for your chosen print size and sharpness criteria). So which option has the potential to produce the most detailed photo? Larger sensors (and correspondingly higher pixel counts) undoubtedly produce more detail if you can afford to sacrifice depth of field. On the other hand, if you wish to maintain the same depth of field, larger sensor sizes do not necessarily have a resolution advantage. Further, the diffraction-limited depth of field is the same for all sensor sizes. In other words, if one were to use the smallest aperture before diffraction became significant, all sensor sizes would produce the same depth of field-- even though the diffraction limited aperture will be different.
Technical Notes:
This result assumes that your pixel size is comparable to the size of the diffraction limited airy disk for each sensor in question, and that each lens is of comparable quality. Furthermore, the tilt lens feature is far more common in larger format cameras-- allowing one to change the angle of the focal plane and therefore increase the apparent depth of field.
Another important result is that if depth of field is the limiting factor, the required exposure time increases with sensor size for the same sensitivity. This factor is probably most relevant to macro and nightscape photography, as these both may require a large depth of field and reasonably short exposure time. Note that even if photos can be taken handheld in a smaller format, those same photos may not necessarily be taken handheld in the larger format.
On the other hand, exposure times may not necessarily increase as much as one might initially assume because larger sensors generally have lower noise (and can thus afford to use a higher sensitivity ISO setting while maintaining similar perceived noise).
Ideally, perceived noise levels (at a given print size) generally decrease with larger digital camera sensors (regardless of pixel size).
No matter what the pixel size, larger sensors unavoidably have more light-gathering area. Theoretically, a larger sensor with smaller pixels will still have lower apparent noise (for a given print size) than a smaller sensor with larger pixels (and a resulting much lower total pixel count). This is because noise in the higher resolution camera gets enlarged less, even if it may look noisier at 100% on your computer screen. Alternatively, one could conceivably average adjacent pixels in the higher pixel count sensor (thereby reducing random noise) while still achieving the resolution of the lower pixel count sensor. This is why images downsized for the web and small prints look so noise-free.
Technical Notes:
This all assumes that differences in microlens effectiveness and pixel spacing are negligible for different sensor sizes. If pixel spacing has to remain constant (due to read-out and other circuitry on the chip), then higher pixel densities will result in less light gathering area unless the microlenses can compensate for this loss. Additionally, this ignores the impact of fixed pattern or dark current noise, which may vary significantly depending on camera model and read-out circuitry.
Overall: larger sensors generally provide more control and greater artistic flexibility, but at the cost of requiring larger lenses and more expensive equipment. This flexibility allows one to create a shallower depth of field than possible with a smaller sensor (if desired), but yet still achieve a comparable depth of field to a smaller sensor by using a higher ISO speed and smaller aperture (or when using a tripod).
more info:http://www.cambridgeincolour.com
Posted by brazzuka's
// Sony Ericsson CamDriver Version 7.5 by BrAzUkA´s for w200
// Version 7.5 BrAzUkA´s
// Optimized for the Sony Ericsson W200 ** Works w200 **
// Reason for version because the version 4.0 original of w200 added to the 3.5 versions
// based on the series w and k cibershot concluding the final version 7.5
// Video recording:
// High Quality=15fps to 20fps
// Low Quality=20fps to 30fps
// Normal Mode™ Dayligth=15fps
// Nigth Mode™=20fps
// Normal 15fps, Night 10fps to 20fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro quality
// EnhancedNight™ mode has Auto Focus Not valid for w200 MT9V112
//
// Added properties:
// New Power sequence™ on/off with new Master Clock™ for w200
// Automatic mode
// Night Mode™ Adjust (Button 2 Two Keyboard)
// Color Correction™
// Hue Mode
// JPEG buffer 1280x960 BrAzUkA´s Snapshot™ interpol 1,2MB Mode Expanded
// Saturation Stable
// EnhancedNight™ Video
// More Reduction Noise
// Spot Mode ON (Brightness base of the center) Adjust(+/-)Volume
// LiveColours™
// Shutter speed™
// New Zoom property
// Master Clock™ for w200
// Brightness adjust EV plus daylight and night to change value Adjust(+/-)Volume
// New White Balance
// Real Scenes Support w200 Adjust (Button 3 Three Keyboard)
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Max Manual Exposure™ Sometimes Restart the camera for a new reading of exposure
//=============================
// BrAzUkA´s Master Clock™ w200
//=============================
//Frequency of Master Clock = 2*Frequency of Pixel Clock
//=========================================================
// New Support resolution
//=========================================================
- Snapshot™ interpol 1,2MB Mode Expanded
-More vf mode draft:
176x144
128x160
128x102
-Super Color™ for w200 with new exposure
Posted by brazzuka's
// Sony Ericsson CamDriver Version 7.5 by BrAzUkA´s for w200
// Version 7.5 BrAzUkA´s
// Optimized for the Sony Ericsson W200 ** Works w200 **
// Reason for version because the version 4.0 original of w200 added to the 3.5 versions
// based on the series w and k cibershot concluding the final version 7.5
// Video recording:
// High Quality=15fps to 20fps
// Low Quality=20fps to 30fps
// Normal Mode™ Dayligth=15fps
// Nigth Mode™=20fps
// Normal 15fps, Night 10fps to 20fps, EnhancedNight 5fps
// Normal mode has same Zoom
// Normal mode with Macro quality
// EnhancedNight™ mode has Auto Focus Not valid for w200 MT9V112
//
// Added properties:
// New Power sequence™ on/off with new Master Clock™ for w200
// Automatic mode
// Night Mode™ Adjust (Button 2 Two Keyboard)
// Color Correction™
// Hue Mode
// JPEG buffer 1280x960 BrAzUkA´s Snapshot™ interpol 1,2MB Mode Expanded
// Saturation Stable
// EnhancedNight™ Video
// More Reduction Noise
// Spot Mode ON (Brightness base of the center) Adjust(+/-)Volume
// LiveColours™
// Shutter speed™
// New Zoom property
// Master Clock™ for w200
// Brightness adjust EV plus daylight and night to change value Adjust(+/-)Volume
// New White Balance
// Real Scenes Support w200 Adjust (Button 3 Three Keyboard)
// Incredible Photo metering
// More Sharpening and stable
// Contrast stable
// Auto Framerate Flash
// Max Manual Exposure™ Sometimes Restart the camera for a new reading of exposure
//=============================
// BrAzUkA´s Master Clock™ w200
//=============================
//Frequency of Master Clock = 2*Frequency of Pixel Clock
//=========================================================
// New Support resolution
//=========================================================
- Snapshot™ interpol 1,2MB Mode Expanded
-More vf mode draft:
176x144
128x160
128x102
-Super Color™ for w200 with new exposure
Posted by brazzuka's
photos/pics/fotos
Posted by djburno2000
@Brazuka:
that's an impressive work you've done here.
I have one request though, could you check your links for the Z530 version.
Those appear to be dead for me.
Thanks a lot.
Cheers!
Posted by brazzuka's
z530
cam driver download
http://brazzukas.4shared.com
need to test the driver for future corrections fixes
[ This Message was edited by: brazuka on 2008-01-02 12:23 ]
Posted by brazzuka's
Sony Ericsson Camera Driver v 7.5 BrAzUkA´s super cam driver 030108 w200
download
http://brazzukas.4shared.com/
add:
- New Sequence White Balance
- New shutter Speed
- New ISO
- New Brightness
- Master Clock™
info:
Each with their environment now features depending on the conditions of light and the environment or ambient ligth
types ligth:
-fluorescent white ice
-fluorescent yellow
-incandescent tungsten
//*******************************************************************
// --- White balance property 2 ------------------
//
// 0 => auto 1 =>incandescent lamp tungsten 2 => fluorescent ( two types)
// 3 => clear sky 4 => cloudy
// 5 => one push 6 => hold
//------------------------------------------------
//********************************************************************
seq_set_prop_1_0 = #COM_EVENT (11,00); //AUTO
#COM_EVENT (04,08); //Shutter speed
#COM_EVENT (05,01); //ISO 100
#COM_EVENT (06,0a); // Exposure
#COM_EVENT (42,00); // Focus
#COM_EVENT (08,00); // Spot Photometry
#COM_EVENT (06,00); // Exposure reset
;
seq_set_prop_1_1 = #COM_EVENT (11,03); //clear sky (daylight)
#COM_EVENT (04,08); //Shutter speed
#COM_EVENT (05,01); //ISO 100
#COM_EVENT (06,0a); // Exposure
#COM_EVENT (42,00); // Focus
#COM_EVENT (08,01); // Spot Photometry
#COM_EVENT (06,00); // Exposure reset
;
seq_set_prop_1_2 = #COM_EVENT (11,04); // cloudy
#COM_EVENT (04,08); //Shutter speed
#COM_EVENT (05,01); //ISO 100
#COM_EVENT (06,0a); // Exposure
#COM_EVENT (42,00); // Focus
#COM_EVENT (08,01); // Spot Photometry
#COM_EVENT (06,00); // Exposure reset
;
seq_set_prop_1_3 = #COM_EVENT (11,05); //one push
#COM_EVENT (04,08); //Shutter speed
#COM_EVENT (05,01); //ISO 100
#COM_EVENT (06,0a); // Exposure
#COM_EVENT (42,00); // Focus
#COM_EVENT (08,01); // Spot Photometry
#COM_EVENT (06,00); // Exposure reset
;
seq_set_prop_1_4 = #COM_EVENT (11,06); // hold
#COM_EVENT (04,08); //Shutter speed
#COM_EVENT (05,01); //ISO 100
#COM_EVENT (06,0a); // Exposure
#COM_EVENT (42,00); // Focus
#COM_EVENT (08,01); // Spot Photometry
#COM_EVENT (06,00); // Exposure reset
;
seq_set_prop_1_5 = #COM_EVENT (11,07); //fluorescent (white ice)
#COM_EVENT (04,08); //Shutter speed
#COM_EVENT (05,01); //ISO 100
#COM_EVENT (06,0a); // Exposure
#COM_EVENT (42,00); // Focus
#COM_EVENT (08,01); // Spot Photometry
#COM_EVENT (06,00); // Exposure reset
;
seq_set_prop_1_6= #COM_EVENT (11,01); //incandescent lamp (tungsten)
#COM_EVENT (04,08); //Shutter speed
#COM_EVENT (05,01); //ISO 100
#COM_EVENT (06,0a); // Exposure
#COM_EVENT (42,00); // Focus
#COM_EVENT (08,01); // Spot Photometry
#COM_EVENT (06,00); // Exposure reset
;
Corrections fix of some colors are limited or inabilited because of the processor "chip" for not responding to commands and requested not to interpret commands and a limited VGA resolution interpolated 1.2 mb.
1280 lines by 960 columns
1280x960
The colors relate differently to reflect on the shutter of the camera that is not all cameras have the ability to capture all the reflections of colors of an object, even as the reflection when change is reflected in the mirror of the hardware and never will be the same reflection initial.
[ This Message was edited by: brazuka on 2008-01-04 17:56 ]
Posted by djburno2000
Cheers!
And my Best Wishes for the New Year!
Posted by brazzuka's
Telas Brilhantes
Uma nova tecnologia que mimetiza a maneira como a Natureza põe cores brilhantes nas asas das borboletas pode tornar a tela de telefones celulares claramente legível, até sob o brilho do sol
por M. Mitchell Waldrop
GEORGE RETSECK (PDA); BEN ZWEIG (Waldrop)
A COLORAÇÃO BRILHANTE de uma borboleta tropical é gerada pelo mesmo processo óptico nanométrico utilizado por telas de modulador interferométrico (Imod)
Na próxima vez que comprar um telefone celular, preste bastante atenção na tela. Se tudo acontecer como a Qualcomm espera, aquele pequeno retângulo colorido pode dar um novo significado à expressão “efeito borboleta”. É bem verdade que as telas de modulador interferométrico (Imod, na sigla em inglês), lançadas recentemente pela empresa de San Diego, na Califórnia, não têm relação com o efeito poderoso que o bater das asas do inseto poderia, teoricamente, exercer sobre o clima. No entanto, os dispositivos realmente usam um conjunto de microestruturas artificiais para produzir o mesmo tipo de cores iridescentes que as das asas de borboletas tropicais. E a Qualcomm aposta que essa abordagem dará aos Imods várias vantagens sobre a tecnologia predominante de telas de cristal líquido (LCD, na sigla em inglês).O mais importante é que uma tela de Imod consome muito menos a bateria de aparelho portátil – característica que se tornará cada vez mais decisiva à medida que as pessoas aumentam o uso de telefones celulares para navegação na internet, mensagens de texto, se divertir com jogos, ouvir música e assistir a vídeos. Esse uso intensificado representa um grave desafio de administração de energia para as LCDs, cuja maioria não pode ser lida a não ser que exista luz de fundo brilhando sobre elas. Mas uma tela de Imod simplesmente reflete a luz ambiente do mesmo modo que uma folha de papel (ou as asas da borboleta).“Desse modo, um Imod chega a consumir apenas 6% da energia da bateria de um aparelho portátil, contra quase 50% exigidos por uma LCD”, diz James Cathey, vice-presidente de desenvolvimento de negócios da Qualcomm. E isso significa que um aparelho equipado com um Imod deve durar muito mais com uma única carga – permitindo até o uso de iluminação suplementar necessária para situações de baixa luminosidade. “No cenário típico de uso, estimamos que um telefone equipado com Imod permitiria140 ou mais minutos de tempo de vídeo, enquanto que uma tela LCD tem aproximadamente 50 minutos”, ressalta.[CONHECIMENTO BÁSICO] COMO O IMOD FUNCIONA
GEORGE RETSECK
Telas de modulador interferométrico (Imod) utilizam a interferência de ondas de luz para criar cores brilhantes de acordo com a demanda. Cada célula de unidade básica produz uma única cor (1ª figura) ou a cor preta (figura do meio). Com um arranjo de várias células, é possível formar pixels, ou elementos de imagem (3ª figura). A Qualcomm produz atualmente telas bicromáticas compostas de células de uma única cor, mas diz que as telas completamente coloridas, como as ilustradas aqui, já estão a caminho.
CÉLULA DE UNIDADE COLORIDA
A célula de unidade do Imod consiste em duas superfícies espelhadas paralelas. Quando a luz atinge a estrutura, parte dela é refletida pelo topo e parte passa pelo espelho translúcido na lacuna, onde é refletida internamente. No entanto, um pouco de luz escapa pela superfície superior toda vez que reflete. Muitas das ondas de luz que escapam (verde e azul) ficarão levemente fora de fase com aquelas sendo refletidas pelo topo e com outras ondas que escapam. Essas ondas se cancelam por meio de interferência destrutiva. Mas outras ondas de luz refletidas que estão em fase (em vermelho) vão se juntar (interferência construtiva) e assim serão visíveis ao olho humano.
CÉLULA DE UNIDADE NO ESTADO PRETO
Uma célula de unidade colorida fica preta quando a voltagem aplicada produz uma atração eletrostática entre os espelhos, fechando a lacuna de ar. A cor preta aparece porque a lacuna encolhida muda a luz refletida para a faixa ultravioleta invisível. Outro pulso de voltagem reverte a célula de volta para o colorido.
PIXEL COMPLETAMENTE COLORIDO
Um pixel colorido de Imod é formado por arranjos de subpixels vermelhos, verdes e azuis, cada qual sendo formado por duas colunas de sete células de unidade. O matiz e brilho particulares de um pixel dependem da mistura específica de células ativadas. A profundidade da lacuna determina se as células têm cor vermelha, verde ou azul.
[O CONTEXTO] TECNOLOGIAS CONCORRENTES
ANN SANDERSON
A tecnologia do Imod está entrando em um mercado difícil e multibilionário de telas de aparelhos portáteis, que já conta com várias outras alternativas. Telas de cristal líquido (LCD) são as dominantes atual-mente, mas telas de diodos emissores de luz orgânica (Oleds) têm encontrado nichos de aplicação.
TECNOLOGIA DE TELA
1.LCD
Materiais opticamente ativos modulam uma fonte de luz artificial, como uma luz de fundo
2.OLED
Substâncias orgânicas geram luz quando expostas a uma corrente elétrica
3.IMOD
Materiais refletores modulam a luz ambiente e a refletem repetidamente em uma superfície espelhada
VANTAGENS
1.Baratas, amplamente disponíveis, tecnicamente simples
2.Devem ficar baratas depois que as fábricas forem construídas, e têm resposta elétrica rápida
3.Baratas, baixo consumo de energia, resposta elétrica rápida, boa legibilidade à luz do sol intensa, amplo ângulo de visão, tecnicamente simples
DESVANTAGENS
1.Alto consumo de energia, baixa legibilidade à luz do sol, baixa resistência a temperaturas extremas, ângulos de visão limitados, mecanismo volumoso
2.Alto consumo de energia, baixa legibilidade à luz do sol, tempo de vida relativamente curto, suscetibilidade à água e contaminação de oxigênio, tecnicamente complexas
3.Tecnologia nova e desconhecida, ainda não está disponível em telas completamente coloridas
http://www.sciam.com/
http://www2.uol.com.br/sciam/
Fabry-Perot Interferometer
This interferometer makes use of multiple reflections between two closely spaced partially silvered surfaces. Part of the light is transmitted each time the light reaches the second surface, resulting in multiple offset beams which can interfere with each other. The large number of interfering rays produces an interferometer with extremely high resolution, somewhat like the multiple slits of a diffraction grating increase its resolution.
Fabry-Perot geometry Fabry-Perot resolution
Application to sodium doublet Example of equipment
Doublet separation experiment
IndexInterference conceptsExample of sodium doublet
HyperPhysics***** Light and Vision R Nave
Go Back
Fabry-Perot Geometry
The Fabry-Perot Interferometer makes use of multiple reflections which follow the interference condition for thin films. The net phase change is zero for two adjacent rays, so the condition
represents an intensity maximum.
Fabry-Perot resolution
IndexInterference concepts
HyperPhysics***** Light and Vision R Nave
Go Back
Fabry-Perot Resolution
A high-resolution interferometer, the Fabry-Perot Interferometer has a resolvance of
which means that the least separation of two spectral lines is given by
Resolvance
examples
Calculation
This separation means that the two wavelengths satisfy the Rayleigh criterion. The interferometer can also be characterized by its free spectral range, the change in wavelength necessary to shift the fringe system by one fringe:
Fabry-Perot geometry
IndexInterference concepts
HyperPhysics***** Light and Vision R Nave
Go Back
http://hyperphysics.phy-astr.gsu.edu/hbase/phyopt/fabry.html
Qualcomm mirasol IMOD
mirasol™ Display Technology
Inspired by Nature
A butterfly's shimmering wings. A peacock's iridescent plumage. These are some of Mother Nature's most beautiful color displays. Now, Qualcomm brings that same power to the next generation of mobile information displays with mirasol™ display technology.Qualcomm's mirasol displays bring living color to technology by applying one of nature's most remarkable innovations-the butterfly's wings. These highly developed structures reflect light so that specific wavelengths interfere with each other to create nature's purest, most vivid colors.By studying and mimicking nature's processes and structures – a field of study called biomimetics – Qualcomm engineers have developed the nature-inspired mirasol display solution.
Examples of biomimetics at work can be observed in everyday life:
Velcro® – inspired by seeds' clingy burrs
Low-friction ship hulls – inspired by shark skin
Morphing aircraft wings – inspired by bird wings
Temperature-adapting fabric – inspired by pinecone
Dirt- and water-resistant paint – inspired by the lotus flower
Neuromorphic computer chips – inspired by neural networks
By using this brilliant, time-tested biological development as the launching point for the new IMOD technology, Qualcomm brings nature to light effectively and efficiently in a cutting-edge display that will reshape the industry.
mirasol Displays and Biomimetics: Naturally Brilliant.
http://www.qualcomm.com
Posted by djburno2000
Ok, I installed your driver using XS++
everything went without any problems.
Now, about using the driver.
Sorry I don't know how to upload photos to the forum.
If you PM me an email address, I can send them to you.
Basically, I noticed no difference between Night mode and No night mode.
Pics just looks the same.
Also, for the metering, it sometimes doesn't work. Closing and opening the camera usually make it work.
Then as soon as you take a picture, it stays blocked to the metered it used for that pic. Again it's easier to understand with the pics.
But it's like if you take a photo in light environment then it will keep these setting so for example just after that you take a photo of the computer screen and it's just blaring light.
Start by taking the computer screen and it will stay adjusted for that so in a light room the photos get very dark.
I hope my explanations are clear enough.
Do not hesitate to contact me for more info.
Thanks for your job anyway!
Cheers.