Celestron 91073 Instruction Manual Download

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Mounting the Astrograph

The RASA 8 has a CGE dovetail mounting bar. This is compatible with mounts

that accept a CGE or

Losmandy-D style dovetail. The astrograph itself weighs 17 lbs., so a mount with a load capacity greater

than that is required to ensure good performance when a camera and any accessories are added.

Choosing a Camera

When choosing a camera to use with the RASA 8, there are several things to keep in mind.

1. Sensor size–

The optical design is optimized for use with sensors

that have a diagonal size up

to 22 mm. It will still perform well with up to 32 mm diagonal sensors, but field illumination in

the corners will be reduced.

2. Pixel size–

The RASA 8 works effectively with a wide range of sensor pixel sizes. Unlike many

telescopes, it can work well with smaller pixels (i.e. less than 5 μm

) due to its fast focal ratio

(F/2.0) and short focal length (400 mm).

3. Obstruction–

Since it mounts in front of the optics, use a camera

that blocks as little of the

aperture as possible. Best results will be obtained with cameras

that have a cylindrical design

and an outer diameter of less than 100 mm. Many astronomical CMOS and “Hyperstar

compatible” CCD cameras are especially well-suited to the RASA 8.

4. Backfocus–

For all flat-field astrographs, including the RASA 8, it is important that the

camera’s sensor is positioned at the proper distance from where it mounts to the telescope.

Otherwise, performance at the edge of the sensor, especially larger sensors, may suffer. For

the RASA 8, this location is 29 mm from the top surface of the lens group cell. A camera’s

backfocus, also known as its flange focal distance, is the distance between the camera sensor

and where the camera body mechanically connects to a camera lens or telescope. Therefore,

cameras with sensors deeply recessed within their body having more than 29 mm of backfocus

cannot be used with the RASA 8 as the sensor cannot be placed at the proper location.

DSLR cameras cannot be used with the RASA 8 due to their large obstruction and long backfocus.

Installing a Camera

If using a camera

that mounts with M42 threads, the supplied M42 camera adapter can be used.

This will likely require utilizing optional M42 extension rings to place the camera sensor at the

proper location. When using the M42 camera adapter, the required backfocus distance is 25 mm.

So, for example, if the backfocus of a camera is 17 mm, then 8 mm of M42 extension ring(s)

between the camera and M42 camera adapter will be needed. For best results with larger sensors,

get the backfocus within 1 mm of the required distance.

The supplied C-thread camera adapter can be used to attach any camera which mounts with

a standard C-thread. If the camera’s sensor spacing meets the C-thread standard (i.e. 17.5 mm

backfocus), no additional adapters are required.
For use with Canon or Sony mirrorless cameras, Celestron offers optional RASA 8 camera adapters.

These have a bayonet mount, and position the camera sensor at the proper location.

Other cameras will require a custom camera adapter. Also, cameras with relatively large sensors

may benefit from a custom camera adapter to best illuminate the sensor. Refer to the “Camera

Adapter Requirements” drawing at Celestron.com (located on the RASA 8 webpage under the

“Support and Downloads” tab) to determine the custom camera adapter design.

To attach your camera:
1

. Place the knurled retaining ring over the camera adapter.

. Thread the retaining ring clockwise onto the lens group cell at the front of the RASA 8.

Make sure the camera adapter seats flatly on the lens cell and tighten the retaining

ring until the camera adapter is snug against the cell. Do not over-tighten the ring.

. Thread the camera body onto the camera adapter. Camera orientation can be adjusted later.

Alternatively, the camera adapter, with retaining ring attached as in step 1, can be first connected to the

camera. Then, while holding the camera, thread the retaining ring onto the lens group cell.

CAUTION: Over-tightening the retaining ring can cause the lens group cell to rotate

relative to the Schmidt corrector, which may affect optical alignment. Keep the camera

adapter snug against the lens cell, but do not over-tighten the ring.

Adjusting Camera Orientation

Once the camera is installed, you can adjust its orientation by slightly loosening the retaining ring.

Loosen the ring no more than 1/8th turn, rotate the camera as desired, and retighten the ring.

Remember not to over-tighten the ring.

Cooling Down and Fan Operation

Optical performance of the RASA 8 will be best when it has reached thermal equilibrium with the

outside air. The greater the temperature difference between the astrograph and the outdoors, the

longer it will take to cool down. It is a good idea to store the astrograph in a cool area and keep it

outside for an hour or so before imaging.
The RASA 8 rear cell is equipped with an air cooling system utilizing a fan to facilitate cooling the

optics to the ambient temperature. The fan pulls air through the mesh vents located on the perimeter

of the rear cell. The mesh prevents dust from entering the astrograph. The supplied battery pack

powers the fan. It requires 8x AA batteries (not included). Install the batteries as indicated in the

plastic mold of the battery holder. Plug the battery pack into the jack near the fan to turn it on. When

ready to image, unplug the battery pack to turn the fan off.
Alternatively, the fan can be powered with a 12V DC power source supplying at least 100mA.

Connect to the fan jack with a 5.5 mm/2.1 mm tip positive DC power plug.

Focusing

The focuser moves the primary mirror forward and backward within the rear cell. The RASA
8 utilizes a redesigned focus system, called the Ultra-Stable Focus System, which minimizes

unwanted lateral movement of the primary mirror when focusing or slewing the astrograph.
To focus, turn the focus knob until the image appears sharp in your camera. If the knob will no

longer turn, the focuser has reached the end of its mechanical travel. In this case, rotate the knob in

the opposite direction until focus is achieved. A single turn of the focusing knob does not move the

primary mirror much; it takes about 30 turns to go through the entire range of focus. If focusing

on a dim object and the focus knob is turned too quickly, it is possible to go right through focus

without seeing the image. To avoid this problem, try first focusing on a bright star so the image is

visible even when out of focus.
Celestron offers a focus motor which is compatible with the RASA 8. A focus motor can be a great

convenience when astroimaging, as the focusing can be done from the same computer

that is

controlling the camera.

Attaching Accessories

The RASA 8 includes a CGE dovetail accessory bar which is also compatible with accessories

which work on Losmandy-D plates. The dovetail accessory bar can be used to mount an

optional guidescope.
A Celestron finderscope can be attached using the pairs of threaded holes in the rear cell of the

astrograph. These holes have Phillips-head screws in them when not in use.

Removing the Optical Window

If using a filter somewhere in the light path, or if the camera has an optical window, it is

recommended to remove the optical window in the lens group cell. This maintains the best

optical performance of the astrograph.

To remove the optical window:
1

. Remove the camera and camera adapter.

. Carefully grasp the knurled edge of the optical window cell within the lens group cell, and begin

rotating it counter-clockwise. If the edge of the window cell cannot be grasped initially because

it is too recessed, use the slots in the window cell to begin rotating it.

. Unthread the window cell completely, and carefully remove it from the lens group cell.

. Store the optical window in a place where it will not get scratched or dirty.

Celestron offers a light pollution filter for the RASA 8 which conveniently mounts in place of the

optical window. This improves image contrast in skies which have significant light pollution.

Dew Prevention

The Schmidt corrector is especially susceptible to condensation because the glass is directly exposed

to the night sky. If the temperature of the astrograph drops below the dew point, dew may form on the

corrector within minutes. The easiest way to prevent dew is to add an optional 8” dew shield, which

shrouds the corrector and slows radiant cooling. If conditions are more severe, a dew heater can be

added to apply slight heat to the corrector to keep it dry all night.
Do not store the astrograph if covered in dew. Allow it to dry first without the dust cover on. Storing optics

when wet can promote mold growth on the optical surfaces.

Cleaning of the Optics

Dust, debris, and fingerprints on the optics will generally have little effect on imaging with the RASA 8.

However, if the external surfaces of the Schmidt corrector or the lens group become excessively dirty,

they should be cleaned. Dust can be removed with a blower bulb or an optical cleaning brush. Then, use

optical cleaning solution and lens cleaning tissue to remove any remaining debris or stains. Apply the

solution to the tissue and then apply the tissue to the lens. Use low pressure strokes, do not rub in circles.

When cleaning the corrector, strokes should go from the center to the outer edge. Use a new tissue for

each stroke so as not to spread any oils or debris.
To minimize the need for cleaning, keep the dust cover on the astrograph when it is not in use.
Cleaning the internal optical surfaces should only be done by the Celestron Repair Department. If your

RASA 8 needs internal cleaning, please call Celestron for a return authorization number and price quote.

Collimation

The RASA 8 optics are factory aligned, and should not normally need collimation adjustments. However,

adjustments can be made to the tilt of the lens group, if needed, to collimate the entire optical system.

The primary mirror and corrector are permanently aligned at the factory, and cannot be adjusted.
The astrograph must be collimated with a camera installed. Using a camera

that does not obstruct the

light path (i.e. the aperture of the Schmidt corrector) or

that has a cylindrical body is recommended;

this makes it easier to see concentricity of the defocused star diffraction pattern.

Equipment needed:

3 mm Hex key
2 mm Hex key
Mount and camera set up, ready to image

. Install the camera on the astrograph.

. Slightly loosen the retaining ring and rotate the camera adapter so the three slotted

openings in the adapter allow access to the collimation screws. Retighten the retaining ring.

Overview

Schmidt Corrector

Focus Knob

Lens Group

Dust Cover

Lens Group Cell

Battery Pack (Batteries not Included)

Dovetail Mounting Bar

C-Thread Camera Adapter

Cooling Fan

M42 Camera Adapter

12V DC Jack for Cooling Fan

Retaining Ring

The Rowe-Ackermann Schmidt Astrograph 8 (RASA 8) is an incredibly fast (F/2.0) 8” aperture optical system that delivers a flat field without optical aberrations. It is capable of

capturing stunning deep-sky astronomical images without the difficulties presented by slower and longer focal length telescopes. The astrograph can only be used with a camera.

Retaining

Ring

Camera

Adapter

Mounting Holes

For Finderscope

Optical

Window Cell

Collimation
Screws