Product Information
The SCG-W5000 is a comprehensive device that integrates chemiluminescence technology and gel imaging. it is
equipped with a high-sensitivity cooled camera with 9 million pixels, enabling rapid, accurate, and high
throughput detection and imaging of samples. it is widely used in the fields of life sciences, medicine, and
environmental protection.
Product Features
Chemiluminescence Imaging System :
1. Weak band signal, one-time imaging
2. Both strong and weak band signals can be achieved, and the desired results can be obtained
3. Source file can be saved, and the image can be adjusted at any time
4. High Efficient
Gel Imaging System:
Three modes and multiple parameters can be flexibly adjusted, resulting in clear and bright imaging
UV laser protective board, safe and convenient for gel cutting
TechnicalSpecifications
| Product Name |
Multi-functional Imaging System |
| Cat.No. |
SCG-W5000 |
| Dimensions |
400×371×700 mm |
| Camera |
PixelResolution |
9 million |
| Resolution |
3000×3000 |
| Pixel size |
3.76×3.76μm |
| Target size |
1“(11.28×11.28 mm) |
| Full Well Capacity |
16.5ke-(HCG),50.5ke-(LCG) |
| Sensitivity |
877mv@1/30s |
| ReadoutNoise |
1.24e-(HCG),3.22e-(LCG) |
| Dark Current |
0.0003e-/s/pixel@-15℃ |
| Signal-to-Noise Ratio |
42.2dB(HCG),47dB(LCG) |
| ExposureTime |
0.1ms~1h |
| Binning Mode |
1×1,2×2,3×3 |
| Grayscale |
16-bit(65536 levels) |
| Cooling |
Relative to Ambient Temperature -40°c |
| Camera Type |
Black and White Camera |
| Lens |
Aperture |
F0.95-F16 |
| Focal Length |
17mm |
| Type |
Motorized zoom lens |
|
Light
Source
|
Bright Field Light source |
Downward-facing LED white light source, symmetrically distributed on
both sides
|
| Ultraviolet light source |
310nm LED array, providing uniform transmissive illumination. |
| Dark Box |
Light isolation |
Fully light-sealed, isolates environmental light. |
| Rotating disc |
The door control sensor can control the on/off of the bright field light
source.
|
| Rotating disc |
Switch the filter according to the current mode to match the
applications of chemiluminescence and gelimaging.
|
| Field of View |
Effective field of view for membraneimagingis136mmxl36mm
(expandable to200mmx200mm if necessary)
Effective field of view for proteingelimagingis136mmx 136mm
(expandableto200mmx 200mmifnecessary)
The effective field of view for nucleic acid gel imaging is 200mmx200mm
|
| Gel Cutting |
After opening the door, the UV light source can be extracted and used
with aUV protective board for cutting adhesive
|
|
Software
Functions
|
Exposure Modes |
High Quality: Image quality is the highest
Standard: Balances image quality and exposure speed.
High Sensitivity: Provides the fastest exposure speed. |
| Auto Exposure |
Intelligent exposure technology quickly determines the optimal exposure time. With
the combination of time imaging and time accumulation functions, users can achieve
the best image results with just one operation.
|
| Real-time imaging |
Real-time presentation of the changes in sample signals during the exposure process.
allowing for the observation of every detail of the capture. Overexposed areas will be
indicated for samples with overexposure.
|
| Time imaging |
After exposure is complete, each frame image within the exposure time can be
generated Through precise retrospective adjustments, users can choose any frame
image within that exposure time as the final output.
|
| Time Accumulation |
For samples with insufficient exposure, users can choose to continue exposure after the
initial exposure is completed, enabling the sample to receive additional exposure on top
of the already exposed time.
|
| IndustrialComputer |
10.4 inches,1024x768,Windows operating system |
| ExternalInterfaces |
USB 3.0×2 |
| Operating Voltage |
100V-240V |
| ProductPower |
100W |
| Product Net Weight |
30Kg |
Notes
It is prohibited to touch or scratch the internal lenses of the dark box with hands or sharp objects
After placing the experimental samples, make sure to close the instrument's flip door to prevent external light from entering
the dark box and affecting the experimental results
During imaging experiments, shaking the experimental table or instrument is prohibited to avoid impacting the image
quality.
Pay attention to electrical safety. Pullingor moving the power cord during the experiment is prohibited
After the experiment is completed, clean the samples and any residues inside the dark box thoroughly
| Cat. No. |
SCG-W5000 |
SCG-W3000 |
SCG-W1000 |
| Dimension |
400×371×700 mm |
400×371×700 mm |
400×371×700 mm |
| Camera |
Depth-cooled high sensitivity camera |
Depth-cooled high sensitivity camera |
High-sensitivity camera |
| Resolution |
2992*3000,9 megapixels |
2992*3000, 9 megapixels |
3072*2048,4.2 megapixels |
| Pixel |
3.76×3.76 μm |
3.76×3.76 μm |
2.4×2.4 μm |
| Shooting Area |
Effective field of view for blotting film/protein gel: 136×136 mm (can be expanded to 200×200 mm if required);
Effective field of view for nucleic acid gel: 200×200 mm. |
Blotting Film
136×136 mm (expandable to 200×200 mm if required) |
Nucleic Acid Gel / Protein Gel
140×140 mm |
| Cooling Temperature |
Relative ambient temperature -40°C |
Relative ambient temperature -40°C |
- |
| Light Source |
Bright-field Light Source: Downward-facing LED white light source, symmetrically distributed on both sides.
UV Light Source: 310 nm LED array for uniform transmission illumination. |
Downward-facing LED white light, symmetrically distributed on both sides |
Bright-field Light Source: Downward-facing LED white light source, symmetrically distributed on both sides.
UV Light Source: 310 nm LED array for uniform transmission illumination. |
| Industrial Computer |
10.4 inches, 1024×768
Windows operating system |
10.4 inches, 1024×768
Windows operating system |
10.4 inches, 1024×768
Windows operating system |
| External Interface |
2 USB3.0 |
2 USB3.0 |
2 USB3.0 |
| Working Voltage |
100 V-240 V |
100 V-240 V |
100 V-240 V |
| Product Power |
100 W |
100 W |
100 W |
| Net Weight |
30 kg |
25 kg |
30 kg |
| Real-Time Imaging |
Yes |
Yes |
- |
| Time Imaging |
Yes |
Yes |
- |
| Time Accumulation |
Yes |
Yes |
- |
| Auto Exposure |
Yes |
Yes |
Yes |
| Choice of 3 Imaging Modes |
Yes |
Yes |
- |
| Protein Gel/Nucleic Acid Gel Imaging |
Yes |
- |
Yes |
| Nucleic Acid Gel Cutting |
Yes |
- |
Yes |
Functional Description
Operating Procedures
Chemiluminescence Imaging Application
Power on
Plug in the power cord and turn on the power switch at the back of the instrument. The industrial computer will
start up.
Sample Loading
Open the instrument door, take out the sample tray, place the prepared text sample on the tray, and then place
the tray flat in the groove inside the instrument dark box.Closetheinstrumentdoor.
Launchinglmaging Software
After the industrial computer starts up, the application software will be automatically loaded. 0ncethe software
is successfully launched, it will navigate to the main page.
The top-left section displays the company logo.
The bottom-left section is the status bar, showing the current camera and control board connection status, as
well as detection of the inserted removable disk.
The top-right section displays the software version number.
The bottom-right section includes buttons for switching between simplified/traditional Chinese, switching to
English, exporting the page, and closing the program.
Clicking on the central icon will enter the preview and capture page
Clicking on the Chemiluminescence will enter the preview and capture page
Preview and Capture Page
On the preview page, the user needs to input the location for storing the experimental results. The file name is
optional and facilitates file retrieval for the user.
The user can choose between manual exposure and automatic exposure as the current experimental mode.
For manual exposure, the user needs to input the exposure time, while for automatic exposure, the algorithm
calculates the optimal exposure time.
On the right side of the preview, the user can input a time value in microseconds (us). This time represents the
exposure time for the bright field image. Clicking the preview switch initiates the preview, and the preview time
can be adjusted as needed.
Clicking the capture button starts the exposure for capturing the image while clicking the return button takes
the user back to the main page.
Shooting Process
1. Select automatic exposure and set the preview time.
Automatic exposure intelligent exposure technology can quickly determine the optimal exposure time.
2. Real-time making
Click on the capture button to start the exposure. A strip is displayed on the left, and a countdown of the
exposure time is shown on the right. As the countdown progresses, real-time imaging of the sample signal
changes is displayed on the left.
Real-time imaging Presents the changes in the sample signal during the exposure process in real-time,
allowing users to grasp every detail of the capture. This breakthrough feature not only enhances shooting
efficiency but also greatly improves user interaction experience.
During real-time imaging, areas in the strip that are overexposed will be displayed in red. lf it is determined that
the strip meets the requirements, you can click on the stop button in the lower right corner to end the exposure
early.
3. Temporallmaging, Time Accumulation
After the exposure is complete, it automatically enters the results page, where adjustments can be made to the
captured results.
Temporal Imaging Through precise retrospective adjustment, users can select any frame within the exposure
time as the final output result.
Time Accumulation Even after the exposure is complete, users can choose to continue the exposure, allowing
the sample to receive additional exposure based on the already-exposed time. When clicking "Continue
Exposure," there is a prompt for the minimum exposure time. The set time needs to be greater than this minimum
time. lf the set time is shorter than this minimum time, the actual exposure time will be the minimum exposure
time indicated by the prompt.
Image adjustments, result saving
<p style="margin:0px;padding:0px;list-style:none;font-family:'Microsoft YaHei', Avenir, Helvetica, Arial,&
Français
English
