Cal Poly 18 Bulletin 01

Cal Poly 18 Bulletin 01

2011-05-18: Inital Status

I (Richard Berry) meet with Dan Gray and Greg Rohde to plan getting the Cal Poly 18 operational.

Pointed straight up, it stands 85 inches floor to top.

The telescope is 60 inches nose to tail; the altitude axis is 36 inches from the ground;
when level, the top of the tube is 48 inches high.

The encoder side of the altitude axis, with 12 megatick Renishaw-tape encoder.

Windings of the Dave Rowe direct-drive motor.

MUST-DO MECHANICAL

Provide Rotater/Focuser unit

Make/install homing switches, both axes

Make/install limit switches, both axes

Controllers/wiring for each of the above

MUST-DO SOFTWARE:

Azimuth no-wrap code, to provide crossover "window"

Servo configuration for setting up new controller

Firmware zero-crossing hysteresis code

Firmware phase-angle hysteresis code

Firmware output limits code

Firmware current limits code

Firmware integral limit code code

Lower-priority tasks:

Determine focus change caused by Paracorr

Locate Newtonian focus point

Modify struts to eliminate standoffs(?)

Study/eliminate secondary vibration problem

Blacken reflective surfaces visible from focus point

House/protect control boards

Investigate Ethernet-to-USB (Silex SX-3000GB ~$100)

Acquire control computer and software

Telescope Dimensions for Housing:

Axes cross 36.5" above base

Tube 20" axis cross to mirror end

Tube 49" axis cross to top end

Rocker end top 23" x 23"

Base 32" across

Maximum width fork arms ~38"

Level telescope 47" base to top

Top end sweeps ~52" from axis cross

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