English User Manual for Luna
Contents
1. in Setup window click Setup Camera Camera Model ASCOM Advanced IMGIS 2S StarSenseSci Properties in the properties window set the gain and the offset and so on Click OK to back the Camera Control window click the Connect button 5 In the Camera Control window choose the Expose window 6 Choose Find Star set the expose time in the Second textbox 11 7 Click the Option No Calibration 8 Set the bin mode For IMGOH the X 1 and Y 1 9 Click Start button to start capture 10 After capture the image will show Adjust the Screen Stretch simply to get a suitable image 11 After capture the image is the RAW format it is monochrome In MaxIm DL choose Color Convert Color 1 2 3 4 5 6 7 8 9 set the OFFSET X 0 Y 0 choose Generic RGB in Select Camera Watch the result in the preview window If the color is not right change the OFFSET and the type of camera AstroART ASCOM Connection Download the newest ASCOM software in http ascom standards org Install the ASCOM platform software Install the IMGOH driver and the ASCOM plug in for IMGOH After install AART3 0 install AART4 0 update Copy the piccdgui dll into the AART directory the piccdgui dll could be downloaded from the AART website Run AstroART Choose Plug in CCD Camera In the Setup window choose Imaging GuideCamera as ASCOM click SETUP button choose IMGIS 2S StarSenseSci Click the Properties button set the2. GAIN and the OFFSET If IMGOH connects successfully AART will show the temperature window set the Target number Set bin mode in the Setting window of CCD control window Set the expose time in the CCD control window Click START to capture In the 1 1 bin mode in order to get the colorful image you should choose color CCD Color Synthesis Select RGB image and suitable X Y OFFSET to get it Maxim DL Image Measure The FIT images could be measured in MaxIm DL Run MaxIm DL choose View Screen Stretch or click ra button to show Screen Stretch window Adjust the little triangles the image s luminance will be changed Note The Screen Stretch tool only changes the image s screen luminance the original image s luminance could not be changed Screen Stretch Minimum Masimum aa omg use Choose View Information Window or click to open the Information window The mouse across the image will change to a 3 concentric circles In the Information window choose the Mode Aperture first now you can see some information 12 l Cursor Pixel Maximum Minimum Median Average Std Dev Information 3121 000 5073 000 241 000 3641 000 3628 640 506 664 a 377 Y 226 Rad 10 Rad 22 Magnitude Intensity 0 000 SNA 0 000 Bod vg 3042 456 Bgd Dew 679 792 Centroid 37 000 Y 226 000 Fist H ha Flatness dl JN ERE Calibrate gt gt Cursor Aperture mode shows statistics on the area u
3. processing of the captured images Guiding by using IMGOH for astronomic photography IMGOH contains a guiding spot it can be used as a guiding CCD with ASCOM IMGOH uses 1 1 bin and normal download speed default 1 Guiding by using IMGOH in MaxIm DL 1 Download the newest ASCOM software in http ascom standards org 2 Install the ASCOM platform software 3 Install the IMGOH driver and the ASCOM plug in for IMGOH 4 Connect IMGOH and computer with the guide cable 5 Run MaxIm DL click the camera control button 41 generally it uses Camera2 to guide In the camera2 s Setup window click Setup Camera Camera Model ASCOM Advanced IMGOH L X StarSenseSci Properties in the properties window set the gain and the offset and so on Click OK to back the Camera 15 Control window click the Connect button 6 In the Camera Control window choose the Guide option group 7 Set expose time in Seconds textbox The unit is second 8 Click Settings open the Guider Settings window choose Settings Exposure Settings Reset reset the image area to the largest Click OK 9 Choose Expose option group click Start button to take an image 10 Adjust the Screen Stretch tool to adjust the luminance 11 Click the Setting button again open the Guider Setting window select an area in the image the area is the guide area you will use 12 Choose Expose option group click the Start button to take an image The image is t
4. CCD chip and cooling system are more fragile than a small or medium sized CCD Take extra care when transporting and storing the device Any significant impacts may damage your equipment X Keep clear with the radiator 3 Connection Sequence 1 Connect USB cable from camera to PC 2 Connect 9 pin cable from camera to DC201 3 Connect 12V power to DC201 4 Internal diameter of connection to DC201 is 2 1mm The inner of the plug is positive the outer of the plug is cathode If the polarity is wrong the DC201 may be damaged 5 Note the computer and the AC DC adapter is earth grounding well The computer s grounding and the AC DC adapter s must be the same Otherwise if the computer or the AC DC adapter get creepage the USB port will be easily damaged If the grounding couldn t be assured the computer s shell and the cathode of the AC DC adapter s must be connect with a wire STANDARD EQUIPMENT IMGOH CCD camera USB cable IMGOH DC201 DC adapter 9pin power supply cable Accessories Sold Separately Accessories Sold Separately is sold by zones 100 240V AC to 12V DC Adapter Full Air proof box with electric heating silicon gel Camera Interface Glass filter window Camera Front C mount i inner screw Guiding Port or control signal output port 9pin power supply port Camera Software Installation Run the driver install program Connect the IMGOH with
5. IMGOH CCD user manual Version V1 5 SALE TIRABA TT FRR A eee os l SLAN AAA AAA g meo a Sold Sophat na A 3 Carera Meri Na see NA ANA AA E PA PN AA 4 Guiding by using IMGOH for astronomic POTESTAD e mkn 15 RE AN ES NA SS SEE ad EA NP AT PA AON PPA 17 Welcome to take the QHYCCD product Before using the camera please read this manual carefully IMGOH is designed for industrial test biographical test laboratory image and so on it is high sensitive The sample depth is 14 bit monochrome 42 bit color version the light range of one pixel is 0 16383 IMGOH s CCD is the SONY Exview 1 4 inch frame It is progressive the QE is 68 Exview technology improves the shape of microlens on the CCD to increase the sensitivity under the near infrared band 700 1000nm IMGOH builds in the TEC to decrease the hot noise It also possess the low speed read out mode this mode increase the SNR of the image so IMGOH is also suit for using in dark environment IMGOH possesses the high speed USB2 0 port to transfer the data between CCD camera and computer It can export the 14bit no compressive RAW images IMGOH s capture FPS is very high the expose time of single frame is very short so it could capture a lot of frames in a short time IMGOH is suit for planet or moon photography IMGOH possesses the guide port the protocol is ST 4 using a RJ11 6pin guide cable to connect it with equatorial mount SAFETY PRECAUT IONS 1 The
6. OH CCD Camera Parameter CCD sensor CCD size Effective Image Area Effective pixel Pixel size CCD readout Type Full Well Peak QE Anti Blooming Gate Capture Download Speed Readout speed Readout Noise ADC ADC color version Cooling Maximum Delta T Power Input voltage Interface Weight Camera body only without DC201 and cables Camera size Trigger optional SONY Super EXVIEW HAD CCD ICX618 1 4inch 4 46mm 3 80mm 659 494 5 6um 5 6um Progressive Scan 35Ke 68 Yes 110dB 6407480 53FPS amp bit 640 480 30FPS 14bit 500 300 78FPS 8bit 24Mpixel s high speed 12Mpixel s low speed Typical 8e 14bit 42bit 14bit R G B single stage TEC 30 degree below ambient 10W DC12V Input to DC201 adapter Safe Range 11V 13 5V Industrial C mount NIKON amp CANON lens adapter optional 2679 See mechanical dimensions Trigger input port 1 Expose signal output port 1 Guide signal output port 1 Spectral Sensitivity Characteristics excludes lens characteristics and light source characteristics LA ao pop LA NA o Att ot At Relative Response Wavelength nm 17
7. and the EXP the image will be realtime 6 If using the color version of IMGOH adjust the Color Balance Generally the camera couldn t show the right color of the original object s color So it s necessary to adjust the Color Balance We can adjust the R G B channels separately calibrate the right color The range of adjusting is 0 63 If you adjust one channel the color of the channel will be increased a Adjust the White Balance by manual The method is the most precision and universal Before adjusting you should put a white paper in the head of the lens the paper should fill full in the image Watch the Histogram in the software you could see the RGB channels are not superposition Adjust the Color Balance when the RGB channels get superposition the white balance is perfect Focus Aid Histogram b Global White Balance Click the Global WB button it will auto adjust the white balance c Spot White Balance In some condition global white balance could not calibrate correctly For example the red color is in a large part of the image when you use global white balance it will adjust the red color to gray thus the white balance is wrong In order to avoid it the software supply the Spot White Balance Click the Spot WB button the button will turn blue and the mouse will change to a little hand Move the mouse to the image click the white or gray part for original object the software will compute the white balanc
8. ch the MaxIm DL user manual IMGOH CCD Image Calibration Image calibration means to calibrate the CCD with a BIAS field a DARK field and a FLAT field You can completely remove thermal noise of the CCD through proper calibration Additionally you can obtain better image highlights You can remove dark spots which are caused by dust on the surface of the CCD Image calibration is a critical step for serious astronomical photography In order to obtain accurate calibration information you need to use the IMGOH temperature controller CCD should be set in fixed temperature state And temperature should remain the same when shooting The Calibration Principle of CCD Image Calibrated image L B D B F B L D F B 13 There L is the actual shooting image D represents the Dark Frame images B represents BIAS image and F means the FLAT image l Capture BIAS Image BIAS image means exposure time of images is Zero You need avoiding any light to enter into CCD Sensor when you shoot image So you have to cover the lens cap of camera Set Exposure Time to 0 and then use the low speed to shoot many 10 50 sheets BIAS image Save and overlap them Use the function of average overlapping do not match with position to get one BIAS Master image Save this image Partial Cropped BIAS Image B 2 Capture DARK Image DARK Image means the image which of the exposure time is the same as the time it took officially You have to avoid any l
9. e 7 Adjust the lens in focus 8 Capture the non compressed video Click File Video Record Options set the record options Note The FIT format is used in RAW Mono mode After setting click REC button to record video 8 Kecord Options BMP O TIFF elect Working Folder Dh Ee FEE SEE FF EZ Px 643 beta Use Current folder Use another folder ile Sub Folder Options H Auto Creat Subfolder for each Clip e All clip in Current folder Auto Filename Options 2 Use H M S MS Format O Use Suttix ClipNumber RecordNumber CO Total Record Frames A 9 Capture the single image Click File Snap Options set the snap options Note The FIT format is used in RAW Mono mode After setting click Snap button to capture the single image Snap Options ecord Format BMP JPG TIFF elect Working Folder Do See AE SEE FE EZPx64V3 Ibeta Use another folder Auto Filename Options Use H M S MS Format Use Suffix SnapNumber 10 Other options a Favorite Show TimeStamp Show TimeStamp on the image b Favorite Show OSD Show OSD on the image c Favorite High Priority Disk Write This item will increase the priority on writing files into disk The function is improved for the computer which has less video memory It could decrease the display FPS 10 Ze d e g h 1 J k to make sure the writing file speed Camera Setup Color Mono Different camera uses differe
10. he selected area 13 Find a star in the image select it by dragging 14 Click Calibrate button to calibrate the eguatorial mount 15 After calibration choose Options No Calibration 16 Choose Track option group click Start button to start guiding When guiding the 4 LEDs on the back of IMGOH will on they are the 4 guiding directions 17 You can watch the guiding curves by clicking the graph button 2 Guiding by using IMGOH in PHD 1 Download the newest ASCOM software in http ascom standards org 2 Install the ASCOM platform software 3 Install the IMGOH driver and the ASCOM plug in for IMGOH 4 Connect IMGOH and computer with the guide cable 5 Run PHD choose Connect to Camera A ASCOM v5 camera click OK to watch ASCOM Camera Chooser window choose IMGOH L X StarSenseSci then click Properties button set GAIN and so on Click OK to come back 6 Choose Mount On Camera then click Connect to telescope ra button 7 Click button start exposing At the right of the button you can change the expose time with the Pull Down Menu and adjust the screen luminance with the Screen Gamma slider 8 Find a star in the realtime video click it PHD will choose the star by a green square frame 9 Click to start guidmg When guiding the 4 LEDs on the back of IMGOH will on they are the 4 guiding directions 10 You can watch the guiding curves by choosing Tools Enable Graph 16 Parameter IMG
11. ight enter into CCD sensor Therefore you have to cover the lens lid The exposure time should be set the same with shooting time and then use the low speed and mode 1 1 to shoot about 10 50 sheets BIAS image Save and overlay these images to form a Dark Master image Save the image Partial Cropped DARK Image D 14 DARK image which be calibrated by BIAS Field D B gt 3 Capture FLAT Image FLAT image can be used to rectify the problem of the center light but the edge dark which caused by the vignette of optical system It also can be corrected the problem due to some small dust on the CCD sensor glass surface Flat field calibration method is this you need uniform luminous lightbox The lightbox will be placed in front of the telescope You would set the appropriate exposure time then continuous shoot 10 50 frame flat field images Save and overlay these images to form a FLAT Master image save the image To obtain an accurate flat field calibration Please note the following matters You have to take immediately flat field images before the shooting or after finishing shooting Like do this in order to avoid dismantling the device dust on CCD surface and vibration of CCD cause the change of location The scope of exposure 1s better for 30 of the maximum dynamic range which means you have gotten 20000 30000 pixel of flat field image Images of BIAS Master DARK Master and FLAT Master will be calibration data as image post
12. ill impact your images If dew or ice forms on the surface of CCD the water can flow onto the electric board which leads to short circuit or data corruption It is critical that you avoid dew or ice formation during operation on the CCD chip However the TEC s power of IMGOH is low the dew hardly appear If the dew appear on the glass window you must stop IMGOH working immediately If the dew appear on CCD chip it means the camera is not airproof You should open the camera in a dry environment wait for the chip dry and seal the camera Note the camera must be opened in a dry environment if the air contain water it maybe appears dew again Notes about Long term use camera and Remote Observatory If you have to keep the camera working for a long time or the camera is working in a remote observatory please note the safe notice and we recommend that you consult your area dealer for more details Note Don t supply power to the CCD for several days or even weeks if possible Use a power controller to control 12V input or AC input About controlling for BLOOMING IMGOH COD chip have the 110dB anti overflow foundation Generally the overflow is blocked But it is possible to overflow for shooting very bright target So if it is controllable it must avoid photo the very bright target Clean the surface of CCD chip and the glass window If dust coats the surface of the CCD it will impact the your images and possible create dust donut
13. nder the circular cursor as the mouse is moved around Mode Aperture the image The current Cursor position and inner and outer radii are shown at the top The Pixel value directly under the cursor is also shown The following measurements are made only within the aperture inner circle the Maximum Minimum Median Average and standard deviation Std Dev 1 Pixel Show the pixel luminance in the center 2 Maximum Show the brightest pixel s luminance 3 Minimum Show the darkest pixel s luminance 4 Median Show the median of the pixel s luminance in the inner circle 5 Average Show the average of the pixel s luminance in the inner circle 6 Std Dev Show the standard deviation of the pixel s luminance in the inner circle The following measurements are made inside the aperture after first subtracting the average value in the annulus between the middle and outer circles 1 Magnitude As calibrated using the Calibrate button For astronomy 2 Intensity Sum of all pixels within aperture less background 3 SNR SNR is calculated as the ratio of intensity to the standard deviation of the background times the square root of the number of pixels The following measurements are made using only the background annulus between the middle and outer circles 1 Bgd Avg Show the average of the background luminance 2 Bgd Dev Show the deviation of the background luminance If you want to see more information please wat
14. nt Bayer Pattern We should choose the right Bayer Pattern to get the right color Note The RAW Mono mode uses no Bayer Pattern the image is monochrome Camera Setup 14bit Image Choose this item will capture the 14bit image Note With this item the image is monochrome the format is FIT and the read speed is low speed Camera Setup High Speed Readout Choose this item will use the high speed read out It will cost more system resources and increase the noises Camera Setup SDRAM bypass Choose this item will not use the SDRAM If use the SDRAM capturing will more continuous and the FPS will be higher but the noise will increase at the same time the image will appear the stripe especially in the dark environment Camera Setup Camera Fine Tone Open the Fine Tone windows adjust the CCD Timing and the ADC Timing to improve the SNR The first two adjustment of ADC Timing is the most useful When adjusting cover the CCD camera set the gain to a high number adjust the CCD Timing and the ADC Timing to improve the SNR fi FineTune E E ADC Timing 11325 0 Save Setting Screen Zoom Adjust the zoom ratio Language Select the language Help Show help and about message MaxIm DL ASCOM Connection 1 Download the newest ASCOM software in http ascom standards org 2 Install the ASCOM platform software 3 Install the IMGOH driver and the ASCOM plug in for IMGOH 4 Run Maxim DL click the camera control button
15. s and other artifacts If there is only a small amount of dust we suggest just using flat fields calibration to remove them How to clean the glass window 1 Get off the len 2 Use the air blowing to clean the glass window If the dust is tightness use the cleaner for DSLR to clean Note do not use the lens paper because the filter covers coating the lens paper will easily damage it How to clean the CCD chip 1 Open the camera in a dry enviroment 2 Use the air blowing to clean the glass window If the dust is tightness use the cleaner for DSLR to clean 3 Seal the camera in a dry environment Note It must be seal in a dry environment because if the air contain water the camera maybe get dew when using Setting GAIN and EXP User can setting QHYCCD s gain and expose time GAIN is the gain of the ADC s amplifier the range is 0 67 EXP is the expose time for one frame Good setting will get good dynamic range IMGOH mechanical dimensions Simple usage Although many softwares support IMGOH EZPlantary is the suggestion You can use EZPlantary to examine the IMGOH l EZPlantary 1 Connect the IMGOH and the computer 2 Run EZPlantary exe 3 Select Camera Scan Camera if the IMGOH is shown select IMGOH directly and select a suitable resolution The resolution is lower the FPS is higher User should choose a suitable one by real fact 4 After setting the realtime image will show 5 Adjust the GAIN
16. the computer Do not connect the 9pin cable now System will find new device Wait till installation finished In XP select No gt Next Step Install automaticly Use 9pin power cable connect DC201 and IMGOH Please note the side with EMC ring should connect to DC201 Connect DC201 with 12V input The LED of DC201 15 15 5 should be on Run the EZPlantary program choose camera scan camera now the IMGOH will be on click one resolution A es the realtime image will show 7 There are 4 LEDs in the camera if the guiding port is in use they will be on otherwise they are off DC201 Input Voltage Range The DC201 requires a regulated 12V input The normal input range is 11V 13V If you exceed 13V common when you are using an external battery the higher voltage will reduce the life of the TEC and Fan If you exceed 13V please limit the maximum power of your Cooling Settings The power of the IMGOH is 10W if the TEC is on so the power supply should be 12V and exceeds 2A Service Temperature and Humidity of Camera Service Temperature of this camera is from 20C 4F to 30C 86F Relative Humidity amount is from 0 to 90 How to avoid CCD sensor moisture in high humidity environments In certain environments when the temperature of the camera drop below the dew point dew or ice may form on the camera This is simply a law of nature However ice and or dew which form on the surface of CCD chip or optic window w
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