In my last blog post I documented how I got on with the widely available economy EQ2 motor, which costs about £30. I initially opted for this cheaper option since I thought it would supplement the manual fine RA control, not replace it. On reflection, I decided to upgrade to the £60 multi-speed EQ2 motor.
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| What you get in the box |
I was under the impression this was an official SkyWatcher accessory, (updated) but the packaging and instructions are not clearly branded this way (this is apparently normal for all SkyWatcher accessories). Again you get a single page of instructions, although this time only one illustration was printed mirrored. However, in the operation instructions where it describes the button functions there are funny symbols printed for the rotation speeds, and the button captions don't match the control box.
The other negative thing that struck me on first inspection (apart from the instructions), was the quality of the battery holder and it's black case. It works, but it feels rather cheap.
It is a bit more complicated than for the simple economy EQ2 motor, but the basic attachment process is still quite straightforward.
Using the motor controls
This seems very easy. When turned on, the LED flashes red, then goes steady green (assuming your batteries are fresh), and begins turning to counteract the Earth's rotation. While you press and hold any of the four main buttons, the LED changes from green to red, and the motor speed changes.
The bottom left "stop" button turns off the motor, meaning the field of view will effectively move at 15 degrees per hour (natural drift from the Earth's spin). The bottom right "2X" button will move at 30 degrees per hour (double speed), meaning the field of view will effectively move at 15 degrees per hour. Essentially then, these two buttons act as slow controls for moving the RA axis "West" or "East".
The top push buttons for "reverse" and "forwards" are labelled as 4X, which presumably means 60 degrees per hour. They act as fast controls for moving the RA axis.
There is also a North/South toggle switch (next to the on/off power switch), which flips all the rotations so that the motor can be used south of the equator.
The instructions claim the motor is pre-calibrated at the factory, but there is a variable resistor inside the EQ2 motor control box for fine adjustments.
Using the manual controls
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| Instruction sheet | Control box |
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| The battery box (takes four D batteries) and its black case |
Mounting the motor
In addition to being multi-speed, an additional improvement over the simple motor is this one is mounted with a clutch system, allowing manual fine RA control as well. That's what the spring attached to the motor is for, and the previously useless disk-like cam by the big cog gear wheel on the EQ2 mount itself.
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| Motor mounting side | Motor cable side |
Using the motor controls
This seems very easy. When turned on, the LED flashes red, then goes steady green (assuming your batteries are fresh), and begins turning to counteract the Earth's rotation. While you press and hold any of the four main buttons, the LED changes from green to red, and the motor speed changes.
The bottom left "stop" button turns off the motor, meaning the field of view will effectively move at 15 degrees per hour (natural drift from the Earth's spin). The bottom right "2X" button will move at 30 degrees per hour (double speed), meaning the field of view will effectively move at 15 degrees per hour. Essentially then, these two buttons act as slow controls for moving the RA axis "West" or "East".
The top push buttons for "reverse" and "forwards" are labelled as 4X, which presumably means 60 degrees per hour. They act as fast controls for moving the RA axis.
There is also a North/South toggle switch (next to the on/off power switch), which flips all the rotations so that the motor can be used south of the equator.
The instructions claim the motor is pre-calibrated at the factory, but there is a variable resistor inside the EQ2 motor control box for fine adjustments.
Using the manual controls
This multi-speed motor connects to the large toothed cog wheel on the RA axis via a spring and cam based clutch. This means you can move the metal clutch via its lever to disengage the motor, and then use the manual RA fine control (via the control rod if attached). The cam's design means it locks in both the engaged and disengaged positions - very neat.
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| Motor engaged, clutch lever up | Motor disengaged, clutch lever down |
Teething problems
On my first evening out (even indoors) the motor would jump sometimes in forward mode, especially in fast forward (although reverse was fine). That's shown in this video, initially at normal speed then in fast forward mode:
Gently applying pressure with a finger (to assist the spring) stopped this. Based on online discussions like this Sky at Night forum thread (which has some very clear photos and advice) I focused my attention on the T-bar which holds the motor.
Simply tightening the T-bar with the motor in the engaged position solves the jumping problem, but isn't perfect. I can still disengage the motor using the clutch, but when the T-bar is tight, the spring isn't strong enough to pull the motor back when the clutch is released. So a little manual intervention is required. Hmm, probably some fine tuning required - the simple EQ2 motor was more straightforward in this regard.
Initial Conclusions
Getting the spring tension just right seems a bit fiddly (the downside of the clutch arrangement to allow manual fine RA control). However, as I'd hoped, the fact the motor is multi-speed makes fine RA control at high magnification much more practical than with the economy single-speed motor.
Getting the spring tension just right seems a bit fiddly (the downside of the clutch arrangement to allow manual fine RA control). However, as I'd hoped, the fact the motor is multi-speed makes fine RA control at high magnification much more practical than with the economy single-speed motor.
Hi Peter,
ReplyDeleteI bough this motor and I am waiting for it to arrive. I was thinking about to use an external power supply in place of the batteries.
Do you know what is the current consumption of the motor (in amps)?
Regards,
SkyAtNight has closed its forum, so the thread is now unreadable.
ReplyDeleteThe issue with jumping is because of the overtightening the pressure between RA worm and gear, check the grease presence in gear and the scope is well balanced. The spring tension "from box" must be enough. Another issue may be because of the gear position, which connected to motor: the bad clutch "on" position may not provide enough tension between mount and motor gear, so you must change the position of worm gear till the clutch "on" position will be a bit wobbly (it provide the maximum pressure between gears), or you can accurately fix clutch shape with file.
ReplyDelete