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QHY4040 PRO I
QHY4040 PRO I
QHY4040 PRO I
QHY4040 PRO I

    QHY

    QHY4040 PRO I

    $ 14,809.00
    $ 14,809.00

    This item is out of stock but you can place an order now and we’ll ship when it becomes available.

    QHY4040/QHY4040PRO I* is a scientific cooled CMOS camera with GSENSE4040 4K*4K sCMOS sensor. It has a 36.9mm x 36.9mm square sensor with 9.0um pixels in a 4k x 4k array. It has a 36.9*36.9mm big image area. 9um pixel size. The typical application of this camera is astronomy imaging, spectrum, dynamic x-ray DR, satellite tracking, etc.

    *Since 2023, QHY4040 Pro has upgraded to QHY4040 Pro I. They are of the same function and price, while Pro I has a shorter body.

    QHY4040PRO I has both the FSI version and BSI version, while QHY4040 has FSI version only. FSI version has a peak QE of 74%, 70ke full-well at the lowest gain, 4e readout noise at the highest gain. BSI version has a peak QE of 90%, 39ke full-well at the lowest gain, 2.3e readout noise at the highest gain, and a wide spectrum from UV to Near IR. QHY4040PRO I has both FSI version and BSI version, supports selectable dual 12bit  channel output (high gain, or low gain), and also supports the on-camera dual 12bit to 16bit data combination process. The standard version is two-stage TEC cooling with air cooling.

    Liquid cooling version is also available (Customization required).

    QHY4040/QHY4040PRO I* is a scientific cooled CMOS camera with GSENSE4040 4K*4K sCMOS sensor. It has a 36.9mm x 36.9mm square sensor with 9.0um pixels in a 4k x 4k array. It has a 36.9*36.9mm big image area. 9um pixel size. The typical application of this camera is astronomy imaging, spectrum, dynamic x-ray DR, satellite tracking, etc.

    *Since 2023, QHY4040 Pro has upgraded to QHY4040 Pro I. They are of the same function and price, while Pro I has a shorter body.

    QHY4040PRO I has both the FSI version and BSI version, while QHY4040 has FSI version only. FSI version has a peak QE of 74%, 70ke full-well at the lowest gain, 4e readout noise at the highest gain. BSI version has a peak QE of 90%, 39ke full-well at the lowest gain, 2.3e readout noise at the highest gain, and a wide spectrum from UV to Near IR. QHY4040PRO I has both FSI version and BSI version, supports selectable dual 12bit  channel output (high gain, or low gain), and also supports the on-camera dual 12bit to 16bit data combination process. The standard version is two-stage TEC cooling with air cooling.

    Liquid cooling version is also available (Customization required).

    First Light of QHY4040Pro-BSI

    Taken together with a 50cm telescope in Corona Borealis Observatory, Ali, Tibet, China

    Exposure: 5s and 30s

     

    First Light of QHY4040Pro-BSI

    Taken together with a 50cm telescope in Corona Borealis Observatory, Ali, Tibet, China

    Exposure: 5s and 30s

    Features

    First Light of QHY4040Pro-BSI

    Taken together with a 50cm telescope in Corona Borealis Observatory, Ali, Tibet, China

    Exposure: 5s and 30s

     

    QHY4040 standard version is the single-channel ADC output version. It is using the High Gain Channel to output the low readout noise image.  It supports both live video mode and single-frame mode. In single-frame mode. it works at a low CMOS-driven speed. The behavior of the noise performance is the same with the 8FPS@16BIT mode in Live video mode.  In live video mode, it supports five different CMOS clocks.  Max Frame rate from 8FPS to 20FPS.

    The QHY4040 has zero amplifier glow. Please check the following dark frame for it.

    Dark Frame Samples
    Here is a dark frame of 10sec exposure and 30sec exposure @-7.5C.   The QHY4040 can get about max 35C to 40C below ambient.
    http://note.youdao.com/noteshare?id=ae2fabb24d1742f207ba75613648e7c4

    A detailed Dark Frame Samples (Gain 0 and Gain 16. -15C, 0sec bias frame, 30, 60, 120, 300sec Dark Frame)
    http://note.youdao.com/noteshare?id=848bca2fef982e0e6cf9b746b0f65ef3

    About HDR mode support
    QHY4040PRO support the dual 12bit convert to 16bit function. Users can input the combination factor and offset factor to the FPGA of the camera via an API interface. For different sensor temperatures, the offset factor needs to be calibrated.

    Hardware Signal of Exposure End Time
    QHY4040 supports hardware exposure ending signal output. Which can be used for high precise time-domain imaging. This signal can be measured by an external timing base and you will know the precise time of the starting and ending exposure time.

    Multiple Working Mode
    QH4040 supports the continuous live video modesingle-frame mode, and burst mode.  In the live video mode, the camera is free-running to capture the images. In single-frame mode. The camera will start capture one frame when you send the start exposure command. In burst mode, The camera will be in idle status, you can define how many frame will be output and after you send the start exposure command, it will start to capture these frames and then stop output. In both single-frame mode and burst mode, the timing is in sync with the start exposure command. It is beneficial for the high precision timing record work when working with the hardware exposure ending signal.

    This picture shows the hardware exposure ending signal with a burst mode that output from the camera.  This is a four frames burst. Each falling edge indicates an exposure ending time.



    QHY4040 standard version is the single-channel ADC output version. It is using the High Gain Channel to output the low readout noise image.  It supports both live video mode and single-frame mode. In single-frame mode. it works at a low CMOS-driven speed. The behavior of the noise performance is the same with the 8FPS@16BIT mode in Live video mode.  In live video mode, it supports five different CMOS clocks.  Max Frame rate from 8FPS to 20FPS.

    The QHY4040 has zero amplifier glow. Please check the following dark frame for it.

    Dark Frame Samples
    Here is a dark frame of 10sec exposure and 30sec exposure @-7.5C.   The QHY4040 can get about max 35C to 40C below ambient.
    http://note.youdao.com/noteshare?id=ae2fabb24d1742f207ba75613648e7c4

    A detailed Dark Frame Samples (Gain 0 and Gain 16. -15C, 0sec bias frame, 30, 60, 120, 300sec Dark Frame)
    http://note.youdao.com/noteshare?id=848bca2fef982e0e6cf9b746b0f65ef3

    About HDR mode support
    QHY4040PRO support the dual 12bit convert to 16bit function. Users can input the combination factor and offset factor to the FPGA of the camera via an API interface. For different sensor temperatures, the offset factor needs to be calibrated.

    Hardware Signal of Exposure End Time
    QHY4040 supports hardware exposure ending signal output. Which can be used for high precise time-domain imaging. This signal can be measured by an external timing base and you will know the precise time of the starting and ending exposure time.

    Multiple Working Mode
    QH4040 supports the continuous live video modesingle-frame mode, and burst mode.  In the live video mode, the camera is free-running to capture the images. In single-frame mode. The camera will start capture one frame when you send the start exposure command. In burst mode, The camera will be in idle status, you can define how many frame will be output and after you send the start exposure command, it will start to capture these frames and then stop output. In both single-frame mode and burst mode, the timing is in sync with the start exposure command. It is beneficial for the high precision timing record work when working with the hardware exposure ending signal.

    This picture shows the hardware exposure ending signal with a burst mode that output from the camera.  This is a four frames burst. Each falling edge indicates an exposure ending time.

    QHY4040 standard version is the single-channel ADC output version. It is using the High Gain Channel to output the low readout noise image.  It supports both live video mode and single-frame mode. In single-frame mode. it works at a low CMOS-driven speed. The behavior of the noise performance is the same with the 8FPS@16BIT mode in Live video mode.  In live video mode, it supports five different CMOS clocks.  Max Frame rate from 8FPS to 20FPS.

    The QHY4040 has zero amplifier glow. Please check the following dark frame for it.

    Dark Frame Samples
    Here is a dark frame of 10sec exposure and 30sec exposure @-7.5C.   The QHY4040 can get about max 35C to 40C below ambient.
    http://note.youdao.com/noteshare?id=ae2fabb24d1742f207ba75613648e7c4

    A detailed Dark Frame Samples (Gain 0 and Gain 16. -15C, 0sec bias frame, 30, 60, 120, 300sec Dark Frame)
    http://note.youdao.com/noteshare?id=848bca2fef982e0e6cf9b746b0f65ef3

    About HDR mode support
    QHY4040PRO support the dual 12bit convert to 16bit function. Users can input the combination factor and offset factor to the FPGA of the camera via an API interface. For different sensor temperatures, the offset factor needs to be calibrated.

    Hardware Signal of Exposure End Time
    QHY4040 supports hardware exposure ending signal output. Which can be used for high precise time-domain imaging. This signal can be measured by an external timing base and you will know the precise time of the starting and ending exposure time.

    Multiple Working Mode
    QH4040 supports the continuous live video modesingle-frame mode, and burst mode.  In the live video mode, the camera is free-running to capture the images. In single-frame mode. The camera will start capture one frame when you send the start exposure command. In burst mode, The camera will be in idle status, you can define how many frame will be output and after you send the start exposure command, it will start to capture these frames and then stop output. In both single-frame mode and burst mode, the timing is in sync with the start exposure command. It is beneficial for the high precision timing record work when working with the hardware exposure ending signal.

    This picture shows the hardware exposure ending signal with a burst mode that output from the camera.  This is a four frames burst. Each falling edge indicates an exposure ending time.
    Specifications
    Model QHY4040 QHY4040PRO I-FSI QHY4040PRO I-BSI
    CMOS Sensor Gpixel Gense4040 FSI / BSI sCMOS Sensor
    Pixel Size 9.0um x 9.0um
    CMOS Chamber Optic window glass AR+AR multiple layer coating anti-reflection glass
    Sensor Size 36.9mm*36.9mm
    Effective Pixel Area 4096 x 4096
    Effective Pixels 16.8 Megapixels
    Effective Image Area 36.9mm x 36.9mm
    Fullwell Only supports Low Gain channel 26ke- High Gain Channel >70ke

     

     

    Low Gain Channel 26ke.

    		 36ke-
    AD Sample Depth Dual 12bit ADC. Only output high gain channel. Dual 12bit ADC
    (1)Dual Channel Output Together Mode.
    (2)Single Channel Mode (High Gain Channel and Low Gain Channel Seletable)
    (3)Dual 12bit Combine to 16BIT Image mode.    		 Dual 12bit ADC
    (1)Dual Channel Output Together Mode.
    (2)Single Channel Mode (High Gain Channel and Low Gain Channel Seletable)
    (3)Dual 12bit Combine to 16BIT Image mode.
    Full Frame Rate 20FPS@4096*4096 8bit (Clock Speed 4)
    18FPS@4096*4096 8bit (Clock Speed 3)
    16FPS@4096*4096 8bit (Clock Speed 2)
    12FPS@4096*4096 8bit (Clock Speed 1)
    8FPS@4096*4096 8bit (Clock Speed 0)
    8FPS@4096*4096 12bit (Clock Speed 0)    		 USB3.0 Mode, PCIE Mode

     

    20FPS@4096*4096 8Bit  10FPS@4096*4096 16Bit

    39FPS@2048*2048 8Bit  19FPS@2048*2048 16Bit

    73FPS@1080*1080 8Bit  37FPS@1080*1080 16Bit

    		 USB3.0 Mode, PCIE Mode

     

    20FPS@4096*4096 8Bit  10FPS@4096*4096 16Bit

    39FPS@2048*2048 8Bit  19FPS@2048*2048 16Bit

    73FPS@1080*1080 8Bit  37FPS@1080*1080 16Bit
    Readout Noise FSI version
    Typical 4e- @ Gain31 (16.5x)    		 FSI version
    Typical 4e- @ Gain31 (16.5x)    		 BSI version
    Typical 2.3e- @Gain50   (16.5x)
    Dark Current FSI version
    0.05e/pixel/sec @ -15C    		 FSI version
    0.05e/pixel/sec @ -15C    		 BSI version
    0.16e/pixel/sec @ -20C
    Exposure Time Range 20us – 600sec
    Shutter Type Electric Rolling Shutter
    Computer Interface USB3.0 ONLY USB3.0  +  2*10Gbps Filber USB3.0  +  2*10Gbps Filber
    Built-in Image Buffer QHY4040
    128MB DDR2 Memory    		 2GByte (16Gbit) DDR3 Memory 2GByte (16Gbit) DDR3 Memory
    Exposure Ending Hardware Pulse Output Optional TrigOut and Shutter Measure waveform
    GPIO Four High Speed FPGA Controlled GPIO . Can be used for high precise GPS timestamp socket. Or the Electric Shutter on/off waveform output for GPS Card. Or Multiple Camera Synchronized Port and so on.
    Cooling System Dual Stage TE Air Cooler(-35C below ambient)(Test temperature +20°)
    The QHY4040 liquid cooling customized version has a maximum temperature difference of -40 degrees in continuous mode and single frame mode with an exposure time greater than 1 second.
    Recommended flow rates for water-cooled versions 1.6ml/s
    Humidity Sensor QHY4040PRO I has the humidity Sensor in CMOS chamber QHY4040PRO I has the humidity Sensor in CMOS chamber
    Anti-Dew Heater Yes
    Telescope Interface M54/0.75
    Optic Window Type AR+AR High Quality Multi-Layer Anti-Reflection Coating
    Back Focal Length 17mm(±0.2)
    Weigth  785g about 990g  about 990g

     

     



    QHY4040PRO-FSI Curves

     

     

     

     

    QHY4040PRO-BSI Curves

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