ToupTek ATR533C Colour DSO Camera User Manual

Setup and Connection
Before using the ATR533C camera, ensure that it is properly connected to your computer via the provided USB 3.0 cable. Make sure the camera is securely attached to your telescope or imaging setup.

Software Installation
Install the necessary software for operating the ATR533C camera. Follow the instructions provided in the user manual to install the required drivers and software compatible with the camera.

Camera Configuration
Adjust the camera settings such as exposure time, gain, and resolution based on your imaging requirements. Refer to the user manual for detailed instructions on configuring the ATR533C camera settings.

Image Capture
Once the camera is set up and configured, you can start capturing images. Use the imaging software to initiate image capture and adjust settings in real-time for optimal results.

FAQ

Can the ATR533C camera be used for planetary photography?
Yes, the ATR533C camera is designed for astrophotography and can also be used for planetary photography due to its high-performance features.
What is the cooling temperature range of the ATR533C camera?
The ATR533C camera offers effective cooling temperatures of -35C below ambient under short exposure and -45C under long exposure time.

Description and Features

The ATR533C(ATR3CMOS09000KPA) camera is designed specifically for astrophotography. It is mainly used for deep sky photo shooting, since the camera has cooled CMOS sensor, ultra-low readout noise and zero amp-glow. It can be also used for planetary photo shooting. Its extraordinary performance and extensive usage will give you great astrophotography experience.
The features of ATR533C are listed below:

IMX 533 Color CMOS Sensor

Resolution: 3008 x 3008
3.76μm Square Pixel

1-inch Optical Format
14-bit ADC

512 Mbyte Memory
Precise Temperature Regulation

G Sensitivity: 535mv with 1/30s
Zero Amp-Glow

Ultra-Low Noise: 0.34 to 1.9e- (Low Noise Mode)
Support Low Noise Mode/ High Frame Rate Mode (20 FPS at all Pixel Readout 14 bit)

SNR Max: 47 dB (Low Noise Mode)
Dynamic Range: 87 dB (Low Noise Mode)
-35C below ambient under short exposure/ -45C under long exposure time (> 1s)

ATR533C Specifications and Performance

Camera Specifications

Sensor	Sony IMX533 back illuminated sensor
Diagonal	15.968 mm
Image Resolution	9 mega pixels (3008*3008)
Pixel Size	3.76mm ´ 3.76mm
Image Area	11.31mm ´ 11.28mm
Max FPS at Resolution (USB 3.0)	14bit	8bit
	20 FPS @ 30083008 62 FPS @ 14881500 186 FPS @ 992*998	40 FPS @ 30083008 62 FPS @ 14881500 186 FPS @ 992*998
Max FPS at Resolution (USB 2.0)	14bit	8bit
	1.7 FPS @ 30083008 6.6 FPS @ 14881500 15.5 FPS @ 992*998	3.3 FPS @ 30083008 13.1 FPS @ 14881500 31 FPS @ 992*998
Max FPS at Resolution (Low Noise, USB 3.0)	14bit	8bit
	13.3 FPS @ 30083008 (Low Noise Mode* is only available in All Pixel Readout Mode)	27.5 FPS @ 30083008 (Low Noise Mode* is only available in All Pixel Readout Mode)
Max FPS at Resolution (Low Noise, USB 2.0)	14bit	8bit
	1.7 FPS @ 30083008 (Low Noise Mode* is only available in All Pixel Readout Mode)	3.3 FPS @ 30083008 (Low Noise Mode* is only available in All Pixel Readout Mode)
Shutter Type	Rolling shutter
Exposure Time	0.1ms – 3600s
Gain	1x – 100x
SNR	47 dB
Dynamic Range	87 dB (Low Noise Mode)
Read Noise (Low Noise Mode)	1.9 – 0.34 e-
QE Peak	>80%
Full Well	50ke-
ADC	14bit
DDR3 Buffer	512MB (4Gb)
Connection Port	USB3.0/USB2.0
Camera Adaptor	M42 ´ 0.75mm
Protect Windows	IR-cut filter/AR-window
Spectral Range	380-690nm (with IR-cut filter)
Capture/Control SDK	Windows/Linux/macOS/Android Multiple Platform SDK (Native C/C++, C#/VB.NET, Python, Java, DirectShow, Twain, etc.);
Recording System	Still picture and movie
Camera Dimensions	Diameter 80mm * height 107.1mm
Camera Weight	0.577kg
Back Focus Distance	17.5mm
Cooling:	Two stage TEC
Effective Cooling Temp:	-35°C below ambient under short exposure/ -45°C under long exposure (> 1s)
Supported OS	Microsoft^® Windows® XP / Vista / 7 / 8 / 10 / 11 (32 & 64 bit) OS x (Mac OS X) Linux

Sony IMX533 Sensitivity
The sensor G Sensitivity of ATR533C is 535mv with 1/30s Its spectral sensitivity is shown in Figure 2

14bit ADC and ROI
ATR533C has built in 14bit ADC. It also has 12bit output mode for hardware binning and smaller resolution. The camera also supports hardware ROI, and the smaller the ROI size is, the higher the frame rate is.
Table 2 shows the frame rate of ATR533C in 14/8bit mode, USB3.0 / USB2.0 data transfer interface at different resolutions:

Bit & Interface FPS Resolution	14bit ADC		8bit ADC
Bit & Interface FPS Resolution	USB3.0	USB2.0	USB 3.0	USB 2.0
3008 * 3008	20	1.7	40	3.3
3008 * 3008 (Low Noise)	13.3	1.7	27.5	3.3
1488*1500	62.0	6.6	62.0	13.1
992*998	186	15.5	186	31

DDR3 Buffer
The ATR533C camera has a 512MB (4Gb) DDR3 buffer, which helps maintain the stability of data transmission, and effectively reduce the amp-glow caused, because image data can be temporarily buffered without being sent hastily to the receiver.

Binning
ATR533C supports digital binning from 11 to 88 in either stacking or averaging method, and hardware binning from 11 to 33 in averaging method. Hardware pixel binning is much faster than software binning.

Conversion Gain Switch
ATR533C support HCG and LCG mode switch, the Gain ratio is 3.05.

Power and Cooling System for Precise Temperature Regulation

Please remember, the Camera can be powered only by DC12V 3A power source.
The cooling system of ATR533C is two-stage Thermoelectric Cooling (TEC) with controllable electric fan assisting heat dissipation.
The TEC system is controlled by PID algorithm, which allows the TEC to be precisely regulated towards the target temperature with 0.1C deviation.
The working temperature can be regulated to specific number, and effective temperature drop can be -45C from ambient temperature. Such efficient cooling system guarantees the stability of ultra-low noise mode and quality of the camera image.

Zero Amp-Glow
ATR533C has been carefully designed and is able to achieve zero amp-glow photo shooting. Figure 3 and Figure 4 show the different cameras at 20C and 5-minute exposure time with and without amp-glow. By comparison, the image captured by ATR533C shows zero amp-glow.

Camera Performance Analysis
Camera performance can be evaluated with e-/ADU, Read Noise, Full Well and Dynamic Range.

e-/ADU: The sensors found in cameras used for vision applications have pixels that convert incoming photons into electrons. Gain on a CCD /CMOS camera represents the conversion factor from electrons (e-) into digital counts, or Analog-Digital Units (ADUs). Gain is expressed as the number of electrons that get converted into a digital number, or electrons per ADU (e-/ADU).

Read Noise: Read Noise is created within the camera electronics during the readout process as the electrons are subjected to the analog to digital conversion, amplification and processing steps that enable an image to be produced.
Full Well: The electrons are held in each pixel and are converted into electrical charge which can be measured to show the amount of light that has fallen on each pixel. The maximum electrical charge possible is termed “full well capacity”. Under the same conditions such as noise and A/D converter quality, the greater full well capacity a sensor has, the wider dynamic range the sensor has. As there is a limit to the depth to which pixels can be made, the full well capacity is often proportional to the frontal area of the light gathering element of the pixel.
Dynamic Range: Dynamic range is the ratio between the maximum output signal level and the noise floor at minimum signal amplification (noise floor which is the RMS (root mean square) noise level in a black image). The noise floor of the camera contains sensor readout noise, camera processing noise and the dark current shot noise. Dynamic range represents the camera’s ability to display/reproduce the brightest and darkest portions of the image and how many variations in between. This is technically intra-scene dynamic range. Within one image there may be a portion that is in complete black and a portion that is completely saturated.

For the ATR series camera, the Gain Value is in xxx% mode. Here xxx is used as the x axis (Gain Value) for the description of the camera performance
- ??? ????(??) = 20 ∗ ???10[???(???? ?????)/100]
- ???(???? ?????) = 100 × 10(??? ????(??)/20

Read noise is the most important reference to measure the performance of a camera. Lower read noise usually means better SNR and better quality of image.
It is impressive that ATR533C comes with Low Noise Mode, which means users could get even lower readout noise by selecting Low Noise Mode while the frame rate is reduced as sacrifice. Its significantly low read noise is: 0.34 to 1.9e- (Low Noise Mode).

All following data were acquired in SharpCap with ASCOM driver:
(The ASCOM Driver version for camera TEST was relatively new except in LCG(nomal) mode)

Camera setting used for HCG performance analysis is shown below:
- Full resolution
- RAW 14-bit mode
- Temperature: -10C
Figure 5 shows the curves of the camera analysis data in Table 3

The camera analysis data is shown in Table 3:

SensorAnalysis Data
Gain Value	100	177	316	562	1000	1778	3162	5623	10000	15000
Rel Gain (dB)	0.00	4.94	9.94	14.91	19.88	24.83	29.81	34.8	39.86	43.18
e-/ADU	1.04	0.59	0.33	0.19	0.11	0.06	0.03	0.02	0.01	0.01
Read Noise (e-)	1.27	1.21	0.97	0.96	0.88	0.82	0.79	0.78	0.76	0.66
Full Well (ke-)	17	9.6	5.4	3.1	1.7	1	0.5	0.3	0.2	0.1
Dynamic Range (stop)	13.7	13	12.45	11.63	10.94	10.22	9.44	8.64	7.83	7.49

Camera setting used for HCG performance analysis is shown below（Low noise mode & High full well mode）:
- Full resolution
- RAW 14-bit mode
- Temperature: -10C
Figure 5.1 shows the curves of the camera analysis data in Table 3.1

The camera analysis data is shown in Table 3.1:

SensorAnalysis Data
Gain Value	100	177	316	562	1000	1778	3162	5623	10000	15000
Rel Gain (dB)	0.00	4.97	9.98	14.95	19.92	24.87	29.85	34.86	39.91	43.2
e-/ADU	2.2	1.24	0.7	0.39	0.22	0.13	0.07	0.04	0.02	0.02
Read Noise (e-)	0.63	0.36	0.34	0.42	0.45	0.53	0.49	0.55	0.68	0.6
Full Well (ke-)	36	20.3	11.4	6.4	3.6	2.1	1.2	0.6	0.4	0.2
Dynamic Range (stop)	14	14	14	13.92	12.96	11.92	11.19	10.21	9.06	8.7

Camera setting used for LCG performance analysis is shown below:
- Full resolution
- RAW 14-bit mode
- Temperature: -10C

Figure 7 shows the curves of the camera analysis data in Error! Reference source not found.

The camera analysis data is shown in Error! Reference source not found.:

SensorAnalysis Data
Gain Value	100	158	251	398	630	1000	1584	2511	3981	6309	10000	15000
Rel Gain (dB)	0.00	3.96	8.00	12.03	16.02	20.04	24.02	27.98	32.03	36.02	39.96	43.06
e-/ADU	3.06	1.94	1.22	0.77	0.49	0.31	0.19	0.12	0.08	0.05	0.03	0.02
Read Noise (e-)	2.25	1.78	1.55	1.53	1.51	1.42	1.37	1.34	1.26	1.20	1.09	0.93
Read Noise Low Noise (e-)	1.42	1.29	1.27	1.32	1.30	1.30	1.29	1.28	1.22	1.17	1.11	0.97
Full Well (ke-)	50.0	31.9	20.0	12.6	7.9	5.0	3.2	2.0	1.3	0.8	0.5	0.4
Dynamic Range (stop)	14.0	14.0	13.94	13.22	12.58	11.92	11.26	10.61	10.01	9.41	8.84	8.51

Camera setting used for LCG performance analysis is shown below（Low noise mode & High full well mode）:
- Full resolution
- RAW 14-bit mode
- Temperature: -10C
Figure 7.1 shows the curves of the camera analysis data in Error! Reference source not found..1

The camera analysis data is shown in Error! Reference source not found..1:

SensorAnalysis Data
Gain Value	100	177	316	562	1000	1778	3162	5623	10000	15000
Rel Gain (dB)	0.00	4.95	9.97	14.99	19.99	24.92	29.91	34.94	39.99	43.29
e-/ADU	6..59	3.72	2.09	1.17	0.66	0.37	0.21	0.12	0.07	0.05
Read Noise Low Noise (e-)	1.9	1.07	0.6	0.66	0.72	0.83	1	1.13	1.29	1.4
Full Well (ke-)	107.9	61	34.2	19.2	10.8	6.1	3.4	1.9	1.1	0.7
Dynamic Range (stop)	14	14	14	14	13.88	12.85	11.75	10.74	9.71	9.04

Product Package and Connections

Packing List

Standard Package
A	Carton L:50cm W:30cm H:30cm (20pcs, 12~17Kg/ carton, 0.045m3), not shown in the photo
B	3-A safety equipment case: L:28cm W:23cm H:15cm (1pcs, 3.9Kg/ box); carton size: L:28.2cm W:16.7cm H:25.5cm (TBD), not shown in the photo
C	ATR series camera (M42x0.75 Mount+2” adapter)
D	Power adapter: input: AC 100~240V 50Hz/60Hz, output: DC 12V 3.3A
E	Power cable
F	High-Speed USB3.0 A male to B male gold-plated connectors cable /1.5m
G	M48-M42 extender 0mm
H	M42M-M42F extender 21mm (TBD)
I	M48F – M42M extender 16.5mm (TBD)
J	M42M adapter 12.5mm
K	Cover

Camera Dimension and Its Mount

Item	Specification
Diameter	Æ80mm
Height	107.1mm
Mount	M42Fx0.75mm

Camera Outline and Interface

Item	Specification
1	Protective window, AR window for mono camera, IR-cut filter for color camera
2	M42F ´ 0.75 thread
3	Thermal outlet or radiator
4	LED indicators: 1) Power LED. 2) System LED. 3)TEC LED. 4)Fan LED
5	DC 12V 3A power port, 5.5 ´ 2.1mm
6	Air inlet
7	USB 3.0/ USB 2.0 port
8	USB 2.0 HUB

Camera Mechanical Connection with Adapter

ATR533C can be connected to a telescope with proper adapter, or the camera lens. The most common adapters are already included in the package, but we also provide some specific adaptors based on the requirement.

The female flange to the sensor is 17.5mm. ATR533C comes with M42x0.75 mount and can connect to telescope with the M42x0.75 thread in a direct way.
ATR533C can also connect to the telescope who use 1.25” or 2” eyepieces by M42M-1.25” or M42M-2” adapter. Figure 12 shows the connection of the camera and the adapter. After the adapter is screwed to the camera, the camera can insert into the telescope’s eyepiece tube. Table 10 list the details of the camera and adapter parameters.

Item Specification

Back Focal Distance 17.50mm

M42M-1.25” Adapter M48M-1.25” adapter for 1.25” telescope

M42M-2” Adapter M42M-2” adapter for 2” telescope

Camera Mechanical Connection with Lens
Figure 13 shows the connections of the ATR camera and the lens.Table 11 list the connection’s parameters.

Item	Specification
1	Nikon F-M42 adapter (TBD)
2	EOS EF-M42 adapter
3	Nikon F-mount lens
4	Canon EF-mount lens
5	ATR camera with M42Fx0.75 mount

Camera Electric Connection with Accessories

On the back side of ATR533C, there are 3 connection ports: DC 12V/3A power port, USB3.0/ USB2.0 port and USB-HUB.

Due to the significantly larger power cunsumption of IMX533, ATR533C (including the cooling system) is now booted up only by 12V/3A power supply. USB3.0 no longer workds as a power source but only as a data communication method. The USB-HUB provides connection with other devices, which allows user to avoid the mess of cable management. Once another device is connected through the USB-HUB, it will be connected to PC device through the USB3.0/USB2.0 port.

ToupTek-ATR533C-Colour-DSO-Camera-fig-16

Item	Specification
USB3.0/USb2.0 Port	To computer with USB3.0/USB2.0 cable
USB HUB for Accessories	To filter wheel with USB2.0 cable
USB HUB for Accessories	To guiding camera with USB 2.0 cable
Power Port	DC12V/3A

ATR533C and Its Software

Application Installation

For software, customers are welcomed to go to our software website: https://touptek-astro.com/downloads/, to download the latest ToupSky. The ATR can also be used with ASCOM, DirectShow SDK. If the third-party software is compatible with these SDK, customers can also download the software driver from our website and install the drivers into the third-party software.
ToupSky is ToupTek astronomy camera’s Windows application. ToupSky is a professional software integrated with camera control, image capture & process, image browse, and analysis functions. ToupSky is born with the following features:
- Windows:
  - x86: XP SP3 or above; CPU supports SSE2 instruction set or above
  - x64: Win7 or above
- Features
  - Full control of the camera
  - Trigger mode and video mode support (raw format or RGB format)
  - Automatic capture and quick record function
  - Multi-language support
  - Hardware ROI and digital binning function
  - Extensive image processing functions, like image stitching, live stacking, flat field correction, dark field correction, etc.
- Supported Camera:
  All ToupTek astronomy cameras

User-friendly UI Design

Well-arranged menus and toolbars ensure quick operating;

The unique design of 3 sidebars — Camera, Folders, Undo/Redo are orderly classified；
Convenient operating method (Double click or right-click context menu) as much as possible;
Detailed help manual;

Professional Camera Control Panel

Capture & Resolution	Set the live and snap resolution and snap the image or record video;
Exposure & Gain	Auto exposure (exposure target preset) and manual exposure (exposure time can be inputted manually); Up to 5 times gain;
Color Balance	Advanced single-click intelligent white balance setting, temperature and tint can be manually adjusted;

Color Adjustment	Hue, saturation, brightness, contrast, gamma initialization adjustment;
Frame Rate	Adjustment of frame rate available for different computer configurations;
Flip	Check the “horizontal” or “vertical” option to correct the sample direction;
Sampling	Bin mode can obtain low noise video stream; Skip mode obtains sharper and smoother video stream. Support video stream histogram extension, Negative and positive switching, Gray calibration, Clarity factor for focusing etc.
Bit Depth	Switch between 8 bits and 14 bits. 8 bits is the basic Windows image format. 14 bits will have higher image quality but moderate FPS.
ROI	ROI, Region of interest. This function can set the ROI on the video window. When the ROI group was expanded, a dotted rectangle with “Handles” will appear around the video window that will let you alter the ROI. Use mouse button to adjust the ROI size. If ROI is ok, click Apply will set the video to ROI size, Defaults will return to the original size.
Dark Field Correction	To Enable the Dark Field Correction, one should capture the dark field image first. After the images are captured, the Enable button will be clickable. Checking the Enable button will enable the Dark Field correction. Unchecking it will disable the Dark Field Correction.
Cooling	Set the TE-Cooling target temperature and set the fan On/Off;
Parameters	Load, save, overwrite, import, export self-defined parameters of camera control panel (including calibration information, exposure and color setting information);

Practical Functions with Good Results

Video functions	Various professional functions: Video broadcast; Time lapse capture; Video record; Video stream grid; Image stitch; Video scale bar, date etc.
Image Processing and Enhancement	Control and adjust image by denoise, sharpen, color toning deinterlace, all kinds of filtering algorithm and mathematical morphology algorithm, range, binary, pseudo color, surface plot and line profile ital..
Image Stacking	Image stacking adopts advanced image matching technology. With the recorded video, regardless of shifting, rotation, scaling, the high-fidelity image can be stacked to decrease the image noise.

Powerful Compatibility

Video Interface	Support Twain, DirectShow, SDK Package（Native C++、C#/VB.NET）
Operating System	Compatible with Microsoft® Windows® XP / Vista / 7 / 8 / 10 / 11 (32 & 64 bit), Mac OSX, Linux
Language Support	Unlimited language support, currently available in Simplified Chinese, Traditional Chinese, English, Russian, German, French, Polish and Turkish

Hardware Requirement

PC Requirements	CPU: Intel Core 2 2.8GHz or higher
	Memory:2GB or more
	USB port: USB3.0/USB2.0 port
	Display: 17” or larger
	CD-ROM

ATR533C and Dshow

DshowAstro is an interface driver providing Dshow standard support for ToupTek USB astronomy camera Supported OS: Windows:
- x86: XP SP3 or above; CPU supports SSE2 instruction set or above
- x64: Win7 or above
Supported Camera:
All ToupTek astronomy cameras

ATR533C and the 3rd Party Software

Support Software

No.	Software	Version	WDM	ASCOM	Native
1	PHD Guiding	2.3.0(2014)	√	√	√
2	Nebulosity	3.2.2(2014)	√	×	／
3	MaxIm DL	5.23(2013)	√	×	／
4	SharpCap	2.1(2014)	√	×	／
5	MetaGuide	5.2.0(2014)	√	／	／
6	FireCapture	2.4.05(2014)	√	／	／
7	Astroart	5.0(2014)	√	×	／

N.I.N.A
Powerful open source astronomy equipment management system for deep sky photo shooting, free.

INDI
A popular third-party driver software for astronomy devices, often used on Linux and MacOS.

ASCOM Platform

All AstroCam telescope camera drivers request to install ASCOM platform, free. http://www.ascom-standards.org/index.htm
You can download the ASCOM package from : http://ascom-standards.org/Downloads/Index.htm

PHD Guiding

A popular free guide software: http://openphdguiding.org/
ToupTek’s telescope camera support Native/ASCOM/WDM driver to run the video.

Nebulosity
A popular cooled camera control/image process software directly supported via ASCOM.

MetaGuide
Autoguiding software with novel method to avoid the atmospheric agitation. The latest version support GCMOS01200KPB and the guide port: http://www.astrogeeks.com/Bliss/MetaGuide/

MAXIMDL
Famous full functional CCD Control/Image Process software. Popular used in US.

AstroArt
Famous full functional CCD Control/Image Process software. Popular used in Europe.

FireCapture
Great free planetary capture software. Support part of AstroCam series telescope camera.

SharpCap
A nice free planetary capture software support WDM cameras includes AstroCam series telescope camera.

Registax
A popular free planetary stacking and processing software.

AstroStack
A planetary stacking and process software.

DeepSky Stacker
A free deep sky image stack and process software.

Service

For software upgrades, please refer to “Download” on our official website: https://touptek-astro.com//
For customers who purchase the cameras from local dealer, please contact your dealer for more inquiry. For technical support, please contact e-mail address: astro@touptek.com.

Documents / Resources

ToupTek ATR533C Colour DSO Camera [pdf] User Manual
ATR533C, ATR533C Colour DSO Camera, Colour DSO Camera, DSO Camera, Camera

References

User Manual

ToupTek ATR533C Colour DSO Camera

Product Specifications

Product Usage Instructions

FAQ