Camera
This mostly focuses on USB cameras. AmScope seems to lead the consumer market (say $50-$800 or so) using various sensors under the hood. ATIK (astronomy focused) and Apogee seem to both be popular at the next price bucket ($1000-$4000 or so). Of course, once you get to this range people typically know what they want and applications can be specialized.
Contents
- 1 = Sensors
- 2 Aptina
- 3 Sony
- 4 Micron
- 5 = AmScope
- 6 MD series
- 7 "Fluorescent Camera"
- 8 MA series
- 9 MT series
- 10 MU series
- 11 = Celestron
- 12 Motic
- 13 ScopeTek
- 14 ToupTek
- 14.1 TE-Cooling USB2.0 CCD Camera with C-Mount
- 14.2 TE-Cooling USB2.0 CCD Camera with C-Mount
- 14.3 USB3.0 CCD Camera with C-Mount
- 14.4 USB 2.0 Aptina CMOS Camera with C-mount
- 14.5 USB2.0 Sony EXCCD Camera with C-mount
- 14.6 USB2.0 Sony HCCD Camera with C-mount
- 14.7 Compact USB2.0 CMOS Camera with 23.2mm Ocular Tube
- 14.8 Linear CCD Camera
- 14.9 Windows GUI
- 14.10 Mac/Linux GUI (ToupViewX)
- 15 Tucsen
- 16 Qimaging
- 17 ATIK
- 18 Apogee Instruments Inc. Alta
- 19 Point Grey Flea
- 20 Mightex’s TCN-1304-U
- 21 SYNGENE
- 22 ThorLabs
- 23 Micrometics
- 24 OMAX
- 25 References
= Sensors
This is about the core sensor used in a variety of cameras. Note that specific camera implementations can have a dramatic difference in image quality and thus two cameras using the same sensor aren't necessarily interchangable
Aptina
Reference: http:www.aptina.com/products/image_sensors/
I'm just going to assume that anything with MT is Micron before the subdivision and AR is Aptina (where did the R come from?)
Linux kernel support:
- MT9M001
sn9c20x.c
- MT9M111
m5602/m5602_mt9m111.c sn9c20x.c
- MT9M112
sn9c20x.c stk1135.c
- MT9V011
sn9c20x.c
- MT9V111
zc3xx.c sonixj.c sq930x.c sn9c20x.c
- MT9V112
sn9c20x.c
- MT9VPRB
sn9c20x.c
Known used in microscope cameras:
Model | Type | Max res | MP | Sensor size | Pixel size | Notes | Ref |
---|---|---|---|---|---|---|---|
MT9P001I12STC | CMOS | 2,592 x 1,944 | 5 | 1/2.5" | 2.2µm | ||
MT9T001C12STC | CMOS | 2,048 x 1,536 | 3 | 1/2" | 3.2µm | "Pin-for-pin compatible with Micron’s 1.3-megapixel MT9M001 and 2-megapixel MT9D001" | |
MT9M111 | CMOS | 1280H x 1024 | 1.3 | 1/3" | 3.6μm | Not listed in site...discontinued? |
MT9M111
- MT9M111I29STC: not lead free
- MT9M111I99STC: lead free iCSP)
Other chips:
Model | Type | Max res | MP | Sensor size | Pixel size | Notes | Ref |
---|---|---|---|---|---|---|---|
AR0130CS | |||||||
AR0132AT | |||||||
AR0260 | |||||||
AR0330 | |||||||
AR0330CS | |||||||
AR0331 | |||||||
AR0542 | |||||||
AR0832E | |||||||
AR0833 | |||||||
AR1011HS | |||||||
AR1230 | |||||||
AR1331CP | |||||||
AR1411HS | |||||||
MT9D014D00STC | |||||||
MT9D015 | |||||||
MT9D115 | |||||||
MT9D131C12STCH | |||||||
MT9E013D00STC | |||||||
MT9F002 | |||||||
MT9J003I12STCU | |||||||
MT9J003I12STCV | |||||||
MT9M001C12STM | |||||||
MT9M002I12STC | |||||||
MT9M012D00STC | |||||||
MT9M019D00STC | |||||||
MT9M021 | |||||||
MT9M024 | |||||||
MT9M031 | |||||||
MT9M032C12STC | |||||||
MT9M032C12STMU | |||||||
MT9M034 | |||||||
MT9P006I12STC | |||||||
MT9P011D00STC | |||||||
MT9P012D00STCM | |||||||
MT9P013D00STC | |||||||
MT9P014D00STC | |||||||
MT9P031I12STC | |||||||
MT9P031I12STM | |||||||
MT9P401I12STC | |||||||
MT9T012D00STC | |||||||
MT9T013D00STC | |||||||
MT9T031C12STC | |||||||
MT9T112D00STC | |||||||
MT9V011D00STC | |||||||
MT9V011P11STC | |||||||
MT9V022I77ATC | |||||||
MT9V022I77ATM | |||||||
MT9V022IA7ATC | |||||||
MT9V022IA7ATM | |||||||
MT9V024IA7XTC | |||||||
MT9V024IA7XTM | |||||||
MT9V024IA7XTR | |||||||
MT9V032C12STC | |||||||
MT9V032C12STM | |||||||
MT9V032D00STC | |||||||
MT9V032D00STM | |||||||
MT9V034C12STC | |||||||
MT9V034C12STM |
Sony
Linux kernel support:
- sq930x.c: ICX098BQ
Model | Type | MP | Max res | Sensor size | Pixel size | Notes | Ref |
---|---|---|---|---|---|---|---|
ICX205AK | |||||||
ICX205AL | |||||||
ICX252AQ | |||||||
ICX282AQ | |||||||
ICX285AL | |||||||
ICX285AQ |
Micron
Aptina Imaging: A CMOS Image Sensor Division of Micron: http:investors.micron.com/releasedetail.cfm?releaseid=440432
See Aptina
= AmScope
These are a good option if you want something decent at a reasonable price. Don't believe they make any of their own cameras though. By pulling from multiple vendors they are able to offer a wide selection from 0.3MP inexpensive eyepiece cameras to pricy, but presumably good quality, cooled CCD cameras.
NOTE: -CK simply indicates calibration kit is included, does not effect the camera and so are omitted from cross reference charts
MD series
"Compact Digital Camera Imager"
Low cost eyepiece cameras.
Cross reference:
AmScope | ? | Notes |
---|---|---|
MD130 | ||
MD200 | ||
MD35 |
c-mount
Cross reference ([stonedrv.inf]):
AmScope | ScopeTek | Notes |
---|---|---|
MD400E | DCM35E | |
MD600E | DCM130E | |
MD700 | DCM200 | |
MD700E | MDC200 | Odd to have series crossing in same driver |
MD800E | DCM310 | |
MD900 | DCM500 | |
MD900E | DCM510 | |
MD1800 | DCM800 | JM has one |
MD1900 | DCM900 | AZ has one |
Microscope:amscope:md1800.jpg?300
Above: AmScope MD1800 (ScopeTek DCM800). Camera left showing red AR coating and 10x c-mount relay lens right. I didn't get mine new so I'm not sure what accessories they come with but mine did have eyepiece adapters.
The cameras themselves are made by ScopeTek. I think ScopeTek has its own GUI software and the AmScope software is made by AmScope.
Originally used with the 3.0 GUI (or at least when I got it):
Microscope:amscope:3.0 active.png?300 Microscope:amscope:3.0 splash.png?300
The driver is a collection of files but essentially boils down to stonedrv.sys per being a ScopeTek camera.
"Fluorescent Camera"
Expensive
Cross reference:
AmScope | ? |
---|---|
MT3300-CCD |
MA series
Cross reference:
AmScope | ? |
---|---|
MA1000 | |
MA500 |
MT series
Cross reference:
AmScope | ? |
---|---|
MT130 | |
MT300 | |
MT500 | |
MT900 | |
MT1000 | |
MT1400-FL | |
MT1400-CCD | |
MT5000 | |
MT5800 |
MU series
Cross reference:
AmScope | ToupTek | Notes |
---|---|---|
MU035 | ||
MU130 | ||
MU300 | UCMOS03100KPA | Linux v4l driver (unreleased?) |
MU303 | ||
MU500 | ||
MU500-PB10 | ||
MU503 | ||
MU800 | UCMOS08000KPB | Linux driver (mainline) |
MU900 | ||
MU1000 | ||
MU1003 | ||
MU1403 | U3CMOS14000KPA | Linux driver (x86, x86_64, no ARM) |
Microscope:touptek:mu800 overview.jpg?300
Microscope:touptek:mu800 side.jpg?300
Left: camera left showing AR coating with 10x relay lens right. Note that the relay is shorter than the previous generation. Also comes with an aluminum threaded cap for the relay lens (the MD series has baffles, not threads on the end of the relay lens). Right: showing threaded mount and adapter used to mate to inspection scope.
The cameras themselves are made by ToupTek. The software is updated to work with them. Similarly, ToupTek publishes their own unrelated software.
Mechanically the camera is stronger than the MD1800. It is much heavier in weight having a thicker case. The c-mount threading is much deeper. Another nice improvement is that the relay lens has a rubber gasket where as the MD relay lens I had to crudely seal myself to prevent dust from entering through the camera port. I haven't compared the optical quality, I in particular wonder what sort of design tradeoff where made to make the relay lens shorter. Its also a lot fatter so it might have simply been a height vs width tradeoff. FOV is about the same. The threaded port is also a nice feature, I can think of a number of situations where it can come in handy.
One item of interest is that the USB port is a lot harder to take in/out than the MD series or other typical USB devices.
NOTE: I had problems with the driver crashing on a USB 1.0 computer. Upgrading the machine (VM) to USB 2.0 solved the problem.
The GUI is evidently now ToupView per the new ToupTek cameras:
Microscope:amscope:amscope 3.2 active.png?300 Microscope:amscope:amscope 3.2 splash.png?300
HOWEVER, while the mechanical improvements are appreciated, I am unsure the electronics/driver is as high quality as the previous generation. The camera occasionally fails to startup in the GUI. A large problem is that it does not work with DirectShow (verified through multiple completely different applications). This is a huge issue for me as the Python library I use for the CNC microscope uses DirectShow at the core.
MU800
Have been using this for a while. Started this section in attempt to improve quality from some distortion I'm having.
Stats from http:www.amscope.com/mu800.html
- OEM: ToupTek
- Max res: 3264 x 2448
- Sensor Type: custom MT/Aptina
At one point I had MT9E001 listed, not sure where I got that...doesn't really match this part
- Scan Mode: progressive
- Sensor Size (D): 7.140mm / 0.28"
H: 5.712mm V: 4.284mm
- Optical format: 1/2.5-inch (4:3)
- Pixel size: 1.75um x 1.75um
- Sensitivity: 0.3V/lux-sec(550nm)
- Dynamic range: 70.0 dB
- S/N ratio: 38.9 dB
Looking to see what it would take to match it up to BH2: http:www.alanwood.net/photography/olympus/c-mount-video-bh2-microscope.html
- A camera with a 2/3" (11mm diag) or higher sensor is reccomended
- C-mount adapter has 0.3X relay lens
- Adapters:
MTV-3 * "The MTV-3 produces a circular image approximately 16 mm in diameter, and to take full advantage of this a video camera with a 1″ sensor would be needed. The Nikon 1 J1 and V1 cameras have a CX format sensor with a 15.9 mm diagonal, and so they also appear to be suitable." U-PMTVC * "The only significant difference from the MTV-3 is that it provides some adjustment for parfocality between the video camera and the viewing eyepieces." TVZ-M Zoom Video Lens (catalogue number 7-C567) * magnification range of 0.55× to 1.1×. * includes a parfocalising collar and is designed to work without a photo eyepiece.
- Diagnostic Instruments produce alternative adapters for video cameras with ½″, 2/3″ and 1″ format sensors; they are designed to work without a photo eyepiece.
- "designed for use with video cameras with either a 1″ sensor (16 mm diagonal) or a 2/3″ sensor (11 mm diagonal), depending on the choice of photo eyepiece; cameras with smaller sensors can be used but will have a restricted field of view."
- "Reduction factors in C-mount adapters are normally quoted relative to a 1″ sensor, so a 0.3× adapter would be used with a 1/3″ sensor. However, in the specification of the MTV-3 (and the U-PMTVC), Olympus use 0.3× to refer to the reduction of the image circle of an NFK 2.5× eyepiece from approximately 48 mm (to safely cover 35 mm film) down to 16 mm for a 1″ video sensor."
MU1403
Stats from http:www.amscope.com/14mp-usb3-0-real-time-live-video-microscope-digital-camera-10-mp.html
- OEM: ToupTek
- USB Interface: 3.0
- Max Resolution: 4096 x 3288
- Sensor Type: Aptina MT9F002 CMOS (Color)
- Scan Mode: progressive
- Sensor Size (D): 7.672mm / 0.3"
H: 6.138mm / 0.24" V: 4.603mm / 0.18"
- Optical format: 1/2.3"
- Pixel size: 1.4um x 1.4um
- Sensitivity: 0.724V/lux-sec (550nm)
- Dynamic range: 65.3 dB
- S/N ratio: 35.5 dB
= Celestron
Microscope:celestron:44421:box.jpg?300 Microscope:celestron:44421:box open.jpg?300 Microscope:celestron:44421:front.jpg?300
Above: Celestron 44421 2.0 MP USB eyepiece camera
I got this camera in a cereal box...err from frequent flier miles. I got it mostly because my miles were expiring and I figured I might as well get something with them. I could have got several but I wasn't sure if I was going to use the one let alone several. As of yet that's remained true as I still haven't plugged it in.
I doubt they are OEM. Looks like their main bussiness are telescopes
Motic
USB: yes
Saw some of these for a high price (Moticam Pro) on eBay, not sure of quality. Considering some of those use 2/3" sensors though which are pricy probalby decent quality
Moticam 480
The "everything in one" camera...has USB, composite, SD card, etc
Model | Interface | Sensor | Notes |
---|---|---|---|
Moticam 480 | USB2, composite, SD | CCD 1/3", 720x576 | "Multi-output" |
Moticam
Model | Interface | Sensor | Notes |
---|---|---|---|
Moticam X | WiFi | CMOS, 1280x1024, 1/3" | |
Moticam 1 | USB | CMOS, 800x600, 1/4" | |
Moticam 1SP | USB | CMOS, 1280x1024, 1/3" | |
Moticam 2 | USB | CMOS, 1600x1200, 1/3" | |
Moticam 3 | USB | CMOS, 2048x1536, 1/2" | |
Moticam 5 | USB | CMOS, 2592x1944, 1/2.5" | |
Moticam 10 | USB | CMOS, 3664x2748, 1/2.5" |
Moticam Pro
Model | Interface | Sensor | Notes |
---|---|---|---|
Moticam Pro 205A | USB2 | Sony ICX205AK | |
Moticam Pro 205B | USB2 | Sony ICX205AK | |
Moticam Pro 205C | USB2 | Sony ICX205AL | |
Moticam Pro 205D | USB2 | Sony ICX205AL | |
Moticam Pro 252A | USB2 | Sony ICX252AQ | |
Moticam Pro 252B | USB2 | Sony ICX252AQ | |
Moticam Pro 282A | USB2 | Sony ICX282AQ | |
Moticam Pro 282B | USB2 | Sony ICX282AQ | |
Moticam Pro 285A | USB2 | Sony ICX285AQ | |
Moticam Pro 285B | USB2 | Sony ICX285AQ | |
Moticam Pro 285C | USB2 | Sony ICX285AL | |
Moticam Pro 285D | USB2 | Sony ICX285AL |
ScopeTek
USB: yes
I have an AmScope MD1800:
https:picasaweb.google.com/JohnDMcMaster/Amscope_md1800?authuser=0&feat=directlink
The actual manufacturer is ScopeTek using a Cypress FX2 USB microcontroller. I haven't looked at the sensor. I tried to reverse engineer the protocol and got images but couldn't figure out how to lock the frames meaning if you ever dropped a packet the picture got out of sync. Contact JohnDMcMaster at gmail.com if you are interested in figuring this out to get a Linux driver.
DCM series
"DCM A Series: cylinder shape, DCM B Series: square shape". Omitted from table below since they are same inside
I have an AmScope square version. It is a c-mount with a 0.5X c-mount relay lens on it
List of models:
Model | Interface | Sensor | Notes |
---|---|---|---|
DCM35DL | 1/3" CMOS, 8μmX8μm, 640 X 480 | ||
DCM35 | 1/3" CMOS, 8μmX8μm, 640 X 480 | ||
DCM130 | 1/2" CMOS, 5.2μmX5.2μm, 1280 X 1024 | ||
DCM310 | 1/2" CMOS, 3.2μmX3.2μm, 2048 X 1536 | ||
DCM510 | 1/2.2" CMOS, 2.2μmX2.2μm, 2592 X 1944 | ||
DCM800 | 1/2.5" CMOS, 1.75μmX1.75μm, 3264 X 2448 | ||
DCM900 | 1/2.3" CMOS, 1.75μmX1.75μm, 3488 X 2616 |
MDC series
Model | Interface | Sensor | Notes |
---|---|---|---|
MDC200 | 1/3" CCD, 3.2μmX3.2μm, 1600X1200 | ||
MDC320 | 1/3" CCD, ?, 2048 X 1536 | ||
MDC560 | 1/2" CCD, ?, 2720X2048 | ||
MDC140BW | USB2.0 | 2/3" CCD Sony ICX285AL | "140 Maga Pixels" where 1 maga pixel is evidently 10,000 pixels. Why does it have its own page? |
DEM series
Eyepiece camera
"*All of our DEM series cameras are driverless. They can be setup directly with Windows XP SP2/ Windows Vista"
Model | Interface | Sensor | Notes |
---|---|---|---|
DEM35 | 1/4" CMOS, 6μmX6μm, 640 X 480 | ||
DEM130 | 1/4" CMOS, 2.8μmX2.8μm, 1280 X1024 | ||
DEM200 | 1/3" CMOS, 2.8μmX2.8μm, 1600 X1200 | ||
DEM300 | ? | ||
DEM500 | ? |
VCM series
VGA interface
Model | Interface | Sensor | Notes |
---|---|---|---|
VCM200 | VGA | ? |
ACM35
Model | Interface | Sensor | Notes |
---|---|---|---|
ACM35(PAL,220V) | VGA(628X582 pixels) | ||
ACM35(NTSC,110V) | VGA(510X492pixels) |
GUI
The OEM GUI is maybe called either ScopePhoto or MiniSee (http:www.scopetek.com/download/download.html) I haven't tried using them.
ToupTek
On the software side, one nice thing is that they have Windows, Mac, and Linux support. The Linux GUI is simple but functional. Unlike the Windows driver the Mac/Linux versions use libusb (as opposed to kernel modules). This is nice in that it makes the application portable but prevents third party applications from accessing the camera. Therefore I'm going to complete reverse engineering / re-implementing a driver for it so that it can work with the CNC application.
TE-Cooling USB2.0 CCD Camera with C-Mount
Model | Interface | Sensor | Notes |
---|---|---|---|
SCCCD05200KPA-ICX655AQ | SONY ICX655AQA CCD(Color) | [[http:www.touptek.com/product/showproduct.php?lang=en&id=57 | Vendor]] |
SCCCD01400KPA-ICX285AQ | SONY ICX285AQ CCD(Color) | [[http:www.touptek.com/product/showproduct.php?lang=en&id=56 | Vendor]] |
SCCCD01400KPB-ICX205AK | SONY ICX205AK CCD(Color) | [[http:www.touptek.com/product/showproduct.php?lang=en&id=58 | Vendor]] |
SCCCD01400KMA-ICX285AK | SONY ICX285AK CCD(Mono) | [[http:www.touptek.com/product/showproduct.php?lang=en&id=59 | Vendor]] |
SCCCD01400KMB-ICX205AL | SONY ICX205AL CCD(Mono) | [[http:www.touptek.com/product/showproduct.php?lang=en&id=60 | Vendor]] |
TE-Cooling USB2.0 CCD Camera with C-Mount
Model | Interface | Sensor | Notes |
---|---|---|---|
U3CMOS14000KPA-MT9F002 | MT9F001 | ||
U3CMOS10000KPA-MT9J003 | MT9J003 | ||
U3CMOS08500KPA-Special | Aptina CMOS Special sensor(Color) | ||
U3CMOS05100KPA-MT9P006 | MT9P006 | ||
U3CMOS03100KPA-AR0330 | AR0330 |
USB3.0 CCD Camera with C-Mount
Model | Interface | Sensor | Notes |
---|---|---|---|
U3CCD05200KPA-ICX655AQ | ICX655AQ | ||
U3CCD05000KPA-ICX282Q | ICX282Q | ||
U3CCD01400KPA-ICX285AQ | ICX285AQ | ||
U3CCD00300KMA-ICX619AL | ICX619AL |
USB 2.0 Aptina CMOS Camera with C-mount
Model | Interface | Sensor | Notes |
---|---|---|---|
UCMOS00350KPA-MT9V001 | MT9V001 | ||
UCMOS01300KPA-MT9M001 | MT9M001 | ||
UCMOS02000KPA-MT9D111 | MT9D111 | ||
UCMOS02000KPB-Special | Aptina Special CMOS(Color) | ||
UCMOS03100KPA-MT9T001 | MT9T001 | ||
UCMOS05100KPA-MT9P001 | MT9P001 | ||
UCMOS08000KPB-Special | Aptina | ||
UCMOS09000KPB-Special | Aptina Special | ||
UCMOS10000KPA-MT9J001 | MT9J001 | ||
UCMOS14000KPA-MT9F001 | MT9F001 |
USB2.0 Sony EXCCD Camera with C-mount
Model | Interface | Sensor | Notes |
---|---|---|---|
EXCCD01400KPA-ICX285AQ | ICX285AQ | ||
EXCCD01400KMA-ICX285AK | ICX285AK | ||
EXCCD00300KMA-ICX619AL | ICX619AL |
USB2.0 Sony HCCD Camera with C-mount
Model | Interface | Sensor | Notes |
---|---|---|---|
UHCCD05200KPA-ICX655AQ | ICX655AQ | ||
UHCCD05100KPA-ICX452AQ | ICX452AQ | ||
UHCCD05000KPA-ICX282Q | ICX282Q | ||
UHCCD03100KPB-ICX252AQ | ICX252AQ | ||
UHCCD03100KPA-ICX412AQ | ICX412AQ | ||
UHCCD02000KPA-ICX274AQ | ICX274AQ | ||
UHCCD01400KPA-ICX205AK | ICX205AK | ||
UHCCD01400KPB-ICX205AK | ICX205AK | ||
UHCCD00800KPA-ICX204AK | ICX204AK |
Compact USB2.0 CMOS Camera with 23.2mm Ocular Tube
Model | Interface | Sensor | Notes |
---|---|---|---|
SCMOS00350KPA-MT9V011 | Aptina MT9V011 CMOS(Color) | ||
SCMOS01300KPA-Special | Special | ||
SCMOS02000KPA-Special | Special | ||
SCMOS03000KPA-Special | Special | ||
SCMOS05000KPA-Special | Special |
Linear CCD Camera
Model | Interface | Sensor | Notes |
---|---|---|---|
LHCCD00511-ILX511 | ILX511 | ||
LHCCD00554-ILX554 | ILX554 | ||
LHCCD01304-TCD1304 | TCD1304 |
Windows GUI
Microscope:touptek:toupsee 1.1.png?300
Similar to the Tucsen GUI it includes a file manager. One thing unique to this GUI is that the video window is separate from the main window, a feature that I'm lukewarm over.
I think there is an alternate Windows GUI.
Mac/Linux GUI (ToupViewX)
Running under Linux:
Microscope:touptek:toupcam linux running.png?300
I saw it running under Mac but didn't grab a screenshot, I think it was slightly different. Although their website references the Linux version I couldn't find it posted anywhere. However, I e-mailed support and they e-mailed it to me in a few days and seemed generally helpful.
Ubuntu 12.04 x64 instructions
If you get this error:
./ToupViewX: error while loading shared libraries: libbz2.so.1: cannot open shared object file: No such file or directory
Because this is a 32 bit binary you need to install the dependencies.
sudo apt-get install libbz2-1.0:i386
It uses libusb so you'll need to run it as root or other workaround:
sudo ./ToupViewX
Tucsen
Misc series
These all use the same driver package, haven't looked as to how related they are. Very confusingly the TCC-1.4H is listed for two drivers. I'll leave it in both sections for now until I understand better why
Model | Interface | Sensor | Notes |
---|---|---|---|
IS130 | Micron MT9M111 | ||
IS300 | Micron MT9T001 | ||
IS500 | Micron MT9P001 | ||
IS1000 | |||
TCC-1.4HICE | |||
TCC-1.4LICE | |||
TCC-5.0ICE | |||
TCC-6.1ICE | |||
Discovery C15 | |||
Discovery M15 | |||
Discovery C30 |
I got one of these (actually I have a 5MP and a 10MP) off of eBay new and it had an atrocious sensor (it looks like a starfield when dark). It also appears to use the same chipset as my MD1800 but the external looks nothing like on the ScopeTek website. Unless I get better evidence to show this was a one time fluke, these are garbage and should be avoided.
Update: got a new unit and it doesn't have problems:
https:picasaweb.google.com/JohnDMcMaster/Tucsen50MP?authuser=0&feat=directlink
Interestingly enough it has a different USB VID / UID such that it no longer works with the AmScope software. But it doesn't have the bad pixels (or at least visibly). Still, it has the same internals so it probably uses the same driver. Presumably the Tucsen casing is larger to give it a higher quality feeling. That said, I don't mind a heavy duty aluminum case but it is oversized.
NOTE: I had problems with the driver crashing on a VM, possibly the same problem as the AmScope driver (needed to enable faster USB)
I recently found out there is a Linux SDK although I didn't see any mention of it on their site. It provides an interface to libCamCore.so.1, a libusb based userspace library.
5.0 MP (IS500)
http:tucsen.en.made-in-china.com/product/iMkEpwFXQecd/China-5-0MP-Color-Digital-Microscope-Camera-IS500-.html
- Sensor type: MT9P001
- Sensor size: 1/2.5 inch
- Pixel size: 2.2μm X 2.2μm
- Resolution: 2592H x 1944V
10.0 MP (IS1000)
http:tucsen.en.made-in-china.com/product/OovnWuUJZBVk/China-10-0MP-Microscope-Camera-IS1000-.html
- Sensor type: MT9J001
- Sensor size: 1/2.3inch
- Pixel size: 1.67μm X 1.67μm
- Resolution: 3856H x 2764V
TCA series
Model | Interface | Sensor | Notes |
---|---|---|---|
TCA-1.31C | |||
TCA-1.3BWHS | |||
TCA-1.3CHS | |||
TCA-1.31CHS | |||
TCA-2.0C | |||
TCA-3.0C | |||
TCA-5.0BW | |||
TCA-5.0C | |||
TCA-8.0C | |||
TCA-9.0C |
TCC series
Model | Interface | Sensor | Notes |
---|---|---|---|
TCC-1.4CHICE-N | |||
TCC-1.4HICE-N | |||
TCC-1.4CLICE | |||
TCC-1.4LICE | |||
TCC-1.4LICE-N | |||
TCC-3.3ICE-N | |||
TCC-8.0C |
Tsview GUI
Designed to be used with Tsview:
Microscope:tucsen:tsview 7 splash.png?300
Much busier than the AmScope software. Has things like a file manager which depending on your workflow could seem a bit out of place if you just want software to take pictures.
Qimaging
Firewire: yes
These show up on ebay for a few k, not sure quality. I've seen firewire though and some look cooled so probably decent quality.
ATIK
Makes 16 bit USB cameras intended for astronomy (most other cameras are 8 bit). Expect to pay 1,000+
Apogee Instruments Inc. Alta
http:planewave.com/?page=1&id0=2&id=4
http:www.ccd.com/alta_f16m.html
$4400+. 12 and 16 bit models
Point Grey Flea
http:ww2.ptgrey.com/USB3/Flea3
8 MP, 16 bit for $1,000 according to http:nofilmschool.com/2012/07/forget-3k-for-3k-how-about-4k-16bit-raw-for-1k/
http:ww2.ptgrey.com/USB3/Flea3
Mightex’s TCN-1304-U
OEM model?
SYNGENE
ThorLabs
8 and 10 bit CMOS and CCDs
http:www.thorlabs.us/Navigation.cfm?Guide_ID=2025
Micrometics
12 bit, consumer level pricing
OMAX
USB microscope camera seen on eBay. Could be ScopeTek
References
- Touptek camera: http:touptek.com/product/showproduct.php?lang=en&id=83