Plug-plate coordinate system
Sloan Digital Sky Survey Telescope Technical Note
19981113
Walter
Siegmund, Steve Kent and Russell Owen
Contents
Introduction
It is necessary to specify the coordinate system for the drilling
of plug-plates so that the drilling file (currently named plPlugMap),
plate drilling, cartridge, rotator wrap and the rotator itself are
compatible.
This discussion is based on a phone meeting on Nov 12, 1998 that
included Pat Waddell, Walt Siegmund, Russ Owen, Bob Nichol, Aronne
Merrelli, and Steve Kent. A ruling guideline is that we wanted to use
existing conventions as much as possible. We also discussed the
conventions used to define the rotator angle.
Coordinate system
The plate design is specified by orthogonal x and y coordinates
defined such that +y is the north direction (increasing declination)
and +x is the east direction (increasing right ascension).
[NOTE: In the presence of refraction, RA and Dec are not
necessarily orthogonal when projected on the plate. In this case,
the +y direction is defined to be exactly north, and the +x direction
is oriented to be easterly trending.] This system is referred to
as the TCC Focal Plane system (a.k.a. the milling machine convention)
and is indicated on Figure 1.
The TCC rotator angle (object system) is defined to be 0 degrees
for this orientation. [NOTE: The TCC instrument block mechanism
allows one to deviate from these conventions; however, we shall
assume that the instrument block is set up so that these conventions
are followed.]
The x,y system is right-handed when one views the sky side of the
plate. This is the side from which the milling machine drills. The
y axis is the OPPOSITE of the FNAL/Princeton y axis convention for
the CCD camera. The handedness of x and y is also opposite. The
handedness of the plates is also flipped from the x,y system used to
define the optical support system. Caveat emptor.
When the TCC rotator angle increases, the direction of increasing
RA rotates from the x axis to the y axis. At 90 degree angle, the y
axis points east. Thus, the rotator angle gives the conventional
astronomical position angle on the sky of the y axis (although
Russell won't acknowledge this necessarily).
The plate identification number is engraved onto the plate along
the -y axis. At the instrument exchange position, the rotator is at
the midpoint of its range of travel: it can rotate +/- 270 degrees
from that point. [THIS CAN BE CHANGED]
At the instrument exchange position, the camera is mounted and
oriented such that if one points the telescope to the horizon without
moving the rotator, then the camera leading array (and r' CCD rank)
is DOWN. This means that the +y axis for the camera is also pointing
down. When viewing the telescope from the back, the rotator needs to
rotate 90 degrees counterclockwise to reach the proper orientation
for drift scanning. This corresponds to increasing the position
angle of the y axis as projected on the sky. Thus, for the camera,
we would like to define the instrument exchange position as having a
position angle of 0 degrees.
At the instrument exchange position, the cartridges are mounted
and oriented such that if one points the telescope to the horizon
without moving the rotator, then the engraved plate id number is
down, or the +y axis is pointing up. Thus, cartridges and the camera
have the OPPOSITE convention r.e. +y axis when mounted on the
telescope. For the spectrographs, the instrument exchange position
has a position angle of 180 degrees.
PROBLEM: The instrument wrap is now implemented such that the
midpoint of the rotator wrap occurs when the rotator is at a position
angle of 180 degrees. We would like the midpoint to be centered at a
position angle of 90 degrees. This means that if we view the
telescope from the back with the telescope pointed at the horizon and
the rotator oriented at its current midpoint position (which also
coincides with its orientation at the instrument exchange position),
then we would like to turn the rotator counterclockwise by 90 degrees
and reinstall the wrap so that its center of travel is at this new
orientation.
Figure 1: Plug-plate drilling sky
side view. The x and y axes are shown. With the rotator angle set
to zero, +y is in the direction of increasing declination and +x
is approximately in the direction of increasing right ascension. A
CAD file, plugplate33.dxf,
is available.
Date created: 11/13/98
Last modified: 11/18/98
Copyright © 1998, Walter A. Siegmund
Walter A. Siegmund
siegmund@astro.washington.edu