HoTech Advanced CT Laser Collimator Manual
Contents
1. plate 7 1 Locate the three laser dots a Switch to Mode 2 or Mode 3 three lasers and the crosshair or Mode 3 with backlight b Verify if the crosshair is still center pointed on both the target plate and the Alignment Tabs or screw markers c Locate the three laser dots on the target plate d If the three laser dots are visible on the target plate go to step 8 to collimate your telescope e If the three laser dots are not visible or partially visible on the target plate please continue to the following possible scenarios 7 2 The SCA Reflector is not properly adapted a The SCA Reflector represents the axial alignment of your drawtube eyepiece holder You must install it correctly square in your drawtube in order to represent the axial position of your eyepiece or CCD camera position This axial position of your drawtube is directly related to the alignment axis of your entire optical system telescope Please refer to step 3 for proper SCA Reflector installation guide b If you have verified the correct installation and still exhibit the same condition continue to the next step otherwise go to step 8 7 3 The SCA Reflector is not positioned at the focal plane a This can happen if you were initially using the diagonal for viewing thus the focal plane is at the diagonal extension distance After you remove the diagonal for collimation without any focusing adjustment it will move the three l2. Instruction Sheet ADVANCED CT LASER COLLIMATOR for CASSEGRAIN TELESCOPES Thank you for purchasing the state of the art HOTECH Advanced CT Laser Collimator instrument This instrument uses the most advanced laser optical technologies achieving excellent collimation in a very short distance Collimation is a method to align your telescope s optics The laser collimator makes the collimation process more efficient and it can increase collimation accuracy with the guide of the instrument Your telescope is aligned at the factory but harsh handling during shipping can sometimes misalign collimation Some telescopes are not well collimated when shipped Misaligned collimation can mean decrease of optical efficiency thus introduces poor image contrast astigmatism and blurry images The following describes how to collimate your Cassegrain style telescope with the aid of the Advanced CT Laser Collimator to optimize the optical efficiency of your telescope Please read the entire instruction sheet before using your Advanced CT Laser Collimator Be aware of the following as you use your Laser Collimator Only turn ON your laser s when you are going to use it Turn ON your laser s with adult supervision for collimating the telescope purpose use only Do not point the laser s directly or indirectly via reflected glass or mirror other than your telescope to anyone s eye We will demonstrate the laser collimation on a Schmidt Cassegrain Telescope which app
3. Wrap and tighten the black strap around the OTA next to the 3 indexed markers on the OTA b Insert the base of three Alignment Tabs at the corresponding pre marked position c Pre adjust the Alignment Tabs to make it tangent to the OTA b c Advanced CT Laser Collimator User s Manual page 4 of 8 4 3 3 Lining up the Alignment Tabs normal to the OTA Itis important to keep the Alignment Tabs tangent to the OTA at each marked position for an accurate aiming reference Use the crosshair laser on the collimator to help you achieve this step a Position the laser collimator at about the same center height of your telescope Switch to Mode 1 to activate the crosshair laser b Aim the crosshair directly at the visual back of your telescope to project the crosshair on the 4 edge marks Check the reflection of the crosshair laser on the target from the SCA reflector and adjust both pointing of the collimator and the telescope to bring the reflected crosshair back to the center of the target on the collimator c Iterate the process until both the projecting crosshair on your telescope is on the 4 edge marks and the reflected crosshair is in the center of the target d Adjust the Alignment Tabs to line up with the crosshair to the end of the Alignment Tab This will ensure the tabs are pointing normal tangent to the OTA You will rely on these tabs during collimation Switch to Mode 0 to turn off the laser collim
4. aser dots out of the target screen If you do not use the diagonal continue to the 7 4 b Adjust the focus to bring at least two laser dots into the full view of the target plate Adjust the focus in one direction first to see if any of the laser dots are moving toward the center direction of the target If the laser s is moving or expanding away from the center of the target reverse the focusing direction to bring at least two laser dots into the full view of the target plate Go to step 8 to collimate your telescope 7 4 Your telescope is grossly out of alignment When your telescope is grossly out of alignment the laser dots may be completely out of the target screen You may start the collimation process to see if you can bring the three laser dots into the target screen Proceed to step 8 0 Advanced CT Laser Collimator User s Manual page 7 of 8 8 0 Collimating Your Telescope The main objective in this step is to bring the three laser dots on the same track on the target You will need to constantly check the crosshair laser step 6 for both telescope and collimator aiming on each iterated adjustment Here are few simple precautions you need to follow while adjusting the secondary mirror alignment screws located on the back of the secondary mirror assembly or front center of the telescope a Never touch the central screw which holds the secondary mirror b The three screws must be turned in moderation no screw bei
5. ator 4adgo mark E e a amp b b amp e b amp e d 5 0 Posi ing the Laser Collimator at the Proper Distance The distance between the laser collimator and your i telescope varies depending on the diameter and focal distance of your telescope In general the longer the distance away from your telescope the higher accuracy you will achieve And in practice any distance beyond the focal distance will be sufficient for your calibration for both visual and practical adjustment purposes In this procedure we en atone mean will help you identify the best collimating distance for your PEW Bavaro telescope 5 1 Determine the distance between the laser collimator and your telescope a Position the collimator in front of the scope to about equal length of the OTA with the target display facing the telescope photo above b Switch the collimator to Mode 1 crosshair laser only c Roughly aim the crosshair toward the telescope d Experiment with the proper distance by slightly lifting the tripod with the collimator on it and move the collimator slowly toward and away from the telescope while keeping the reflected crosshair on the target plate Don t worry about getting the crosshair perfectly concentric in the center of the target at this point You will see how the crosshair contract and expands in size on the target plate in relation to the distance adjustments e Move the collim
6. ator to where the crosshair converges to the smallest size This is the back focal point of the primary mirror Now begin to move the target towards the telescope until the crosshair expands to the size of the first ring on the target f Firmly position the tripod at this distance This will be your collimating distance 6 0 Achieving Co Alignment on the Collimator and Your Telescope This is the critical stage where you must co align the collimator and your telescope for an accurate reading of your optics alignment DO NOT use the center of the secondary mirror assembly as your crosshair centering reference because the secondary mirror might not be center positioned on the corrector plate and the telescope might not be pointing straight at the collimator at this point You can use it as a quick gross adjustment but not for final aiming adjustment Advanced CT Laser Collimator User s Manual page 6 of 8 6 1 1 For telescopes using the internal screws as the aiming reference a Check if the crosshair is visible on the internal screws b Aim the crosshair emitting from the collimator on your telescope s 4 corner referencing edges the internal screws Us the fine adjustment stage to refine the collimator aiming c Go to step 6 2 next page 4 corner Secondary Mirror 6 1 2 For telescopes using the Alignment Tabs as the aiming reference a Check if the crosshair is visible on the t
7. hree tabs b Point the crosshair as close to the center of the primary mirror and wave your hand behind the Alignment Tabs to find the crosshair If the crosshair is cropped beyond the tip of the stick move your collimator further away from the telescope until you can see a portion of the crosshair projecting on the tip of the Alignment Tabs c Us the fine adjustment knob to refine the collimator aiming to line up with the three Alignment Tabs Advanced CT Laser Collimator User s Manual page 6 of 8 6 2 Aim your telescope back to the collimator a Use the telescope s fine adjustment knob to adjust the reflected crosshair to the center of the target You will need to line up the vertical and horizontal cropped crosshair lines with the cross line on the target plate When it points square the vertical and horizontal cropped crosshair lines will have symmetry length Colimator Primary Mirror 4 Corner k Ede 6 3 Co alignment confirmation Iterate step 6 0 until both conditions are met This means both telescope and the collimator are pointing square at each other like looking at a distant star Lock your telescope and you are ready to diagnose your optics 7 0 How to Read the Diagnostic Result on the Collimator With proper aiming in step 6 the collimator can accurately reveal any errors in your optical system by reading the center deviation of the three returning laser dots on the target
8. intra focal and extra focal technique with a high magnification eyepiece on a magnitude 0 to 1 star to determine the result Fine tune the collimation if necessary Please refer to the Star Collimation manual for detail You are ready for observing after final touch up 10 0 Possible Scenarios if the Laser Collimation Does Not Agree with Star Collimation 10 1 Both the collimator and the telescope were not co aligned during adjustment It is possible that during collimation step 8 the co alignment of the collimator and the telescope were slightly off causing an incorrect diagnosis It is very critical to ensure both the collimator and the telescope are co aligned to simulate the light path entering the telescope Do not adjust the collimation screws Go to step 6 to verify the co alignment of the collimator and the telescope and check if three laser dots still fall on the same track If both conditions are met your optical system is in good condition meaning they re all lined up well on the same optical axis If not continue to the next step 10 2 The miror flop on your primary mirror focusing mechanism is causing the miscollimation Due to machining tolerances on the primary mirror baffle and improper greasing on the baffle some telescopes exhibit more mirror flop then others A slight loose tolerance will cause major axial alignment deviation The Advanced CT Laser Collimator is sensitive enough to pick up any deviation in step 6 Prior adj
9. is just like looking at a distant star and centering the star in the eyepiece FOV during a star test except the star is about 3 feet in front of your telescope Advanced CT Laser Collimator User s Manual page 1 of 8 To ensure accurate aiming you must use the crosshair laser emitting from the center of the collimator as a guide to the center point on your primary mirror FIG 2A and the reflected crosshair from the telescopes primary mirror to the center point of the target FIG 2C Please expect to spend most of the time on iterating the aiming adjustment Be patient and consistent the reward is beyond your imagination How to Adjust Collimation on Your Scope You can collimate your telescope at almost any position e g telescope 20 deg up as long as both the collimator and the telescope point square at each other Once the lasers and your telescope are co aligned adjust the necessary secondary alignment screws gently to move the three projecting laser dots to line up on the same track on the target plate Process Flow Chart 1 Setup collimator distance 2 Install reflector in eyepiece 3 Aim collimator at telescope FIG 2A 4 Aim telescope at collimator FIG 2C 5 Adjust secondary to bring the three laser dots on the same track Package Content 1 x Premium Soft Carrying Case 1 x Advanced CT Laser Collimator 1 x SCA Reflector Mirror 1 25 or 2 1x 3V CR123 Lithium Battery 1 x Paper Ruler 1 x External alig
10. lies to collimating all Cassegrain style telescopes in the similar way All lasers on the collimator are class II lt 1mW For additional information please visit our website www hotechusa com or write us at info hotechusa com Collimation Basics You Must Know Before You Start What to Adjust The only user accessible alignment component on a Cassegrain Telescope includes CT SCT RC Maksutov is the secondary mirror alignment screws Therefore you only need to adjust the three alignment screws located at the front of the telescope behind the secondary mirror see illustration below The limited adjustment makes the collimation simple to adjust but difficult to achieve For ease of manual adjustment we recommend replacing the stock alignment screws to a larger thumb screws for easier access and finer feel adjustment Secondary mirror Primary Mirror Collimator fi How the Collimator Works The Advanced CT Laser Collimator samples your entire optical system primary secondary mirror and the eyepiece axial position with a simulated large aperture flat wavefront light source generated by three parallel lasers positioned behind the target plate The target plate provides a clear view of the optics alignment condition when the three lasers are reflected back on the target FIG 1 It is extremely critical that the lasers must point square co aligned with your primary mirror for an accurate reading It
11. ng over tightened or totally unscrewed c When a screw is turned the other two must be tightened Never keep more than one screw loose d Each turn on the screws must be small Reference the screw adjustment to the displacement of the three laser dots on the target plate to determine your adjustment level 8 1 Collimate your telescope a Adjust the alignment screws to bring the three reflected laser dots on the same track on the target b If you cannot bring all three laser dots into the target view because the dots are too far apart adjust the focus to merge the three laser dots at approximate distance between track 4 amp 5 Check for proper aiming of the collimator and the telescope in step 6 The telescope might shift in position if you put too much pressure during secondary mirror adjustment You must double check if you have nudged the telescope pointing out of the co alignment d terate step 8 1 until both the three laser dots are on the same track on the target and the aiming of both the collimator and telescope are still co aligned o 9 0 Verifying and Fine Tuning Your Collimation 9 1 Star test to verify the adjustment a On your first observing session star test the telescope to verify the adjustments The Advanced CT Laser Collimator should bring excellent collimation to your telescope Minor adjustment might be required due to temperature variation during a long observing session b Use the
12. nment Tab Strap in bottom layer 3 x Alignment Tabs in bottom layer 1 x Users Manual in cover pocket Advanced CT Laser Collimator User s Manual page 2 of 8 1 0 Setting Up the Laser Collimator on the Tripod 1 1 Where to setup the telescope and the collimator Station both the collimator and the telescope on a solid ground no carpeted wooden floor or any other surface that will flex or vibrate It is required to have both stationed on the same ground floor 4 2 Setup the collimator on the tripod a Fasten the laser collimator on the recommended fine adjustment stage with the thread knob on the mount to the 4 20 screw hole at bottom of the rail base b Further lock the thread knob with the fly wheel lock c Use the standard 14 20 screw on your tripod to fasten the fine adjustment stage 2 0 Getting Familiar with Your Instrument 2 1 Installing the battery Unthread the battery compartment cap then insert the CR123 lithium battery with the positive side up tip side up then close the battery cap 2 2 Switching the laser to the proper mode Position the collimator on a tripod about 4 feet distance from a white wall with the target side facing the wall Rotate the rotary knob on the top right comer of the collimator to activate different laser modes You will see the projecting laser patterns on the wall activating at various positions Mode 0 Unit off Mode 1 Crosshair la
13. ror 3 1 Adapting the SCA Reflector Mirror on your focuser If the purpose of the night is visual observation you may adapt the SCA Reflector with the diagonal on the condition that it does not introduce optical aberrations center of the field is not shifted if the diagonal rotates in the drawtube However if photography or CCD imaging is planned it is best to adapt the SCA Reflector without the diagonal For an installation video guide of the SCA mechanism please review our YouTube videos at www YouTube com hotechusa under Installing and Uninstalling HOTECH SCA Laser Collimator 4 0 Do You Need the External Alignment Tabs Itis very critical to have the lasers co aligned with your primary mirror optical axis for an accurate diagnosis of your telescope To achieve this you use the projecting crosshair on the collimator to center point your primary mirror by referencing the 4 corners on the mirror to the crosshair lines Then you use the reflected crosshair lines projected on the primary mirror to center point back to the target The crosshair lines from the collimator are precisely 90 degrees apart You will have to find or create the 90 degrees markings on or close proximity to your primary mirror for collimator aiming reference Itis ideal to edge mark the 4 corners 90 degrees apart on the primary mirror or the cell holder if it is accessible For those scopes that do not have accessible open truss configuration plea
14. se refer to the following solutions 4 1 Visible components close to the primary cell no Alignment Tabs needed Most Meade SCT telescopes have at least 4 visible mounting screws at the base of the telescope 90 degrees apart protrude into the OTA Identify the position of these 4 screws by looking from the front of your telescope You will rely on these screws as your collimator aiming guide You will not need the external Alignment Tabs for your telescope if the mounting screws are visible Please proceed to step 5 0 GG ld 4 2 No visible components close to the primary cell require Alignment Tabs If there are no visible markings or objects in close proximity to the primary mirror that are 90 degrees apart use the included Alignment Tabs as your alternative external aiming guide 4 3 Setting up the Alignment Tabs 4 3 1 Measure and mark the 4 corner distance on your OTA a Use the included paper strip ruler and wrap it on the OTA closest to the primary mirror position b Mark the position where the paper strip intercepts to a full diameter wrap c Remove the paper strip Line up the start of the strip with the marked position and fold it twice to find the 4 length of your OTA diameter d Wrap the paper strip back on your OTA and use a marker or pencil to mark three consecutive positions 90 degrees apart on your OTA 4 3 2 Installing the Alignment Tabs a
15. ser ON Mode 2 Crosshair laser and three alignment lasers ON Mode 3 Crosshair laser three alignment lasers and target backlight ON for night use Other modes DT Three alignment lasers ON BL Backlight ON 1L Crosshair laser and backlight ON CL Three alignment lasers and backlight ON This is a logic switch Other modes are for visual preferences that will not affect the collimation process Please use the recommended mode in each procedure for best result 2 3 Gross pointing adjustment Switch the laser to Mode 2 lift the tripod and move the collimator with the tripod at various distances from the wall to see how the crosshair expands and reduces in size in reference to different distances 2 4 Fine adjustment stage adjustment Place the tripod with collimator back on the ground Find and adjust the corresponding knob on the stage in the following Vertical Adjustment The large knob on right is for quick rough adjustment in the vertical direction You can loosen the large knob and level the laser first The forward small knob is for fine adjustment in the vertical up down direction You must lock the large knob first in order to make the fine adjustment with the forward knob Horizontal Adjustment The left side small knob is for fine adjustment in the horizontal left right direction Advanced CT Laser Collimator User s Manual page 3 of 8 3 0 Adapting the SCA Reflector Mir
16. usting the secondary alignment screw observe the shifting position of the three laser dots on the target by making two full turns clockwise on the focus knob then reverse half turn The shifting of the laser dots during the reverse turn tells how much mirror flop you have on your focusing mechanism If the displacement is more than 2 tracks spacing distance we recommend attaching a higher grade focuser on your visual back for focusing adjustment and leave the built in focus mechanism untouched 10 3 The eyepiece drawtube is not square to your primary mirror We recommend replacing a new higher grade eyepiece drawtube or a focuser that can compensate the pointing error We have found several older SCT models having poorly machined eyepiece drawtube which do not hold the eyepiece square in the OTA This may cause serious collimation problems Advanced CT Laser Collimator User s Manual page 8 of 8
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