Gemini 2 6 16

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The Gemini program consisted of a total of 19 launches, 2 initial uncrewed test missions, 7 target vehicles, and 10 crewed missions, each of which carried two astronauts to Earth orbit. Designed as a bridge between the Mercury and Apollo programs, the Gemini program primarily tested equipment and mission procedures and trained astronauts and ground crews for future Apollo missions. The general objectives of the program included: long duration flights; testing the ability to maneuver a spacecraft and to achieve rendezvous and docking of two vehicles in Earth orbit; training of both flight and ground crews; conducting experiments in space; extravehicular operations (standup sessions and spacewalks); active control of reentry to achieve a precise landing; and onboard orbital navigation. The Gemini missions lasted for periods ranging from 5 hours to 14 days.

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Gemini Missions

Gemini 1

Launched 8 April 1964
Uncrewed Orbital
Reentered 12 April 1964

Gemini 2

Launched 19 January 1965
Uncrewed Suborbital
Splashdown 19 January 1965

Gemini 3

Launched 23 March 1965
Gus Grissom and John Young
Splashdown 23 March 1965

Gemini 4

Launched 3 June 1965
James McDivitt and Ed White
Splashdown 7 June 1965

Gemini 5

Launched 21 August 1965
Gordon Cooper and Pete Conrad
Splashdown 29 August 1965

Gemini 6A

Launched 15 December 1965
Walter Schirra and Tom Stafford
Splashdown 16 December 1965

Gemini 7

Launched 4 December 1965
Frank Borman and Jim Lovell
Splashdown 18 December 1965

Gemini 8

Launched 16 March 1966
Neil Armstrong and David Scott
Splashdown 16 March 1966

Gemini 9A

Launched 3 June 1966
Tom Stafford and Gene Cernan
Splashdown 6 June 1966

Gemini 10

Launched 18 July 1966
John Young and Michael Collins
Splashdown 21 July 1966

Gemini 11

Launched 12 September 1966

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Pete Conrad and Richard Gordon
Splashdown 15 September 1966

Gemini 12

Launched 11 November 1966
Jim Lovell and Buzz Aldrin
Splashdown 15 November 1966

Chronology of U.S. Astronaut Missions - Mercury, Gemini, and Apollo
The First U.S. Spacewalk - Ed White's Gemini 4 EVA
Images of Earth - from Gemini and other spacecraft
More Project Gemini Information - Kennedy Space Center
Project Gemini History - Kennedy Space Center
Gemini Pictures - Johnson Space Center

Gemini Books Online

On The Shoulders of Titans: A History of Project Gemini - NASA History Office

Gemini 2 6 16 Meaning

Project Gemini Technology and Operations - A Chronology - NASA History Office
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Vampire vs werewolf online game. Earth Home Page
Planetary Science Home Page

Author/Curator:
Dr. David R. Williams, dave.williams@nasa.gov
NSSDCA, Mail Code 690.1
NASA Goddard Space Flight Center
Greenbelt, MD 20771
+1-301-286-1258

NASA Official: Dr. David R. Williams, david.r.williams@nasa.gov
Last Updated: 30 December 2004, DRW

Gemini Level 5, Version 2.1 Serial Interface Command Description

Gemini's LX200-like Commands

The Gemini system supports a subset of the Meade� LX200 CommandSet making it compatible to many planetarium programs using this command set.Programs featuring special Gemini drivers can make use of the additional LX200-style extensions.Gemini also supports a Native Command Set as described below.Many of these features and a hub functionality allowing several programs to access theGemini controller simultaneously can be accessed by using an ASCOM driver .

Syntax: values in <> are (to be) replaced by actual values. Curledbrackets {} show alternative characters.
Upon completion, ASCII characters or strings are returned, if indicated.
Command
Returns
Remarks
0x06 (ACK char)B# while the initial startup message is being displayed ,
b# while waiting for the selection of the Startup Mode,
S# during a Cold Start or
G# if startup was completed with an equatorial mount selected,
A# if startup was completed with an Alt/Az mount selected.NEW in L5.1
Usable for testing the serial link and determining the typeof mount (German Equatorial or Alt/Az).
During Startup, with a 'b#' being returned, the connected device can select the startupmode by sending either a
  • bC# for selecting the Cold Start,
  • bW# for selecting the Warm Start and
  • bR# for selecting the Warm Restart.
Synchronize
:CE<character>#<character>#This commands echoes the given character, followed by a hash mark. It can be used to synchronize the serial data exchange.NEW in L5
:Cm#No object!# or
<object name>#
The string 'No object!#' is returned if the mount is not aligned orno object was selected, otherwise the name of the selected object used is returned.
This command does an 'Additional Alignment', (re)calculating the current pointingmodel parameters and synchronizing to the position of the selected object.
:CM#No object!# or
<object name>#
The string 'No object!#' is returned if the mount is not aligned orno object was selected, otherwise the name of the selected object used is returned.
The position (RA and DEC) is synchronized to the position of the objectby setting the Index or Flip parameters of the current model.
:C<n>#
<n>#
Select a pointing model. Currently two models (n=0, n=1) are supported. NEW in L5
:Cc#
<n>#
Selects the currently active pointing model for I/O access. Currently two models (n=0, n=1) are supported. NEW in L5
:C?#<n>#Returns the number of the currently active pointing model. Currently two models (n=0, n=1) are supported. NEW in L5
:CI#No object!# or
<object name>#
The string 'No object!#' is returned if the mount is not aligned orno object was selected, otherwise the name of the selected object used is returned.
An Initial Align is done. The currently selected model is reset and the mount issynchronized to the selected object. NEW in L5
:CR#<n>#The currently selected model <n> is reset. NEW in L5
:CU#<n>#The last alignment of the currently selected model is reset. NEW in L5
Focus Control
:F+#Focus In
:F-#Focus Out
:FQ#Stop focusing
:FF#Focus Fast
:FM#Focus Medium
:FS#Focus Slow
Get Information
:GA#In Double Precision mode:
{+-}<dd>.<dddddd>#
In High Precision mode:
{+-}<dd>:<mm>:<ss>#
In Low Precision mode:
{+-}<dd>�<mm>#
Get Altitude (from L1, V2.0 up)
:GB#<n>#Get LED Display Brightness Value(from L1, V2.0 up)
n=0: 100% n=6: 6.6% n=7: blank display n=8: test mode (all pixels lit).
:GC#<mm>/<dd>/<yy>#Local Calendar Date, month mm, days dd and years yy separated by slashes.
:Gc#(24)#Clock Format
:GD#In Double Precision mode:
{+-}<dd>.<dddddd>#
In High Precision mode:
{+-}<dd>:<mm>:<ss>#
In Low Precision mode:
{+-}<dd>�<mm>#
Apparent (refraction included) Declination the telescope is pointingto, to the equinox of the date. Except during GoTo operations, the coordinatesare corrected according to the pointing model.
Signed degrees (-90 to +90), minutes, seconds. The degree sign in LowPrecision mode is the character 0xDF.
:Gd#In Double Precision mode:
{+-}<dd>.<dddddd>#
In High Precision mode:
{+-}<dd>:<mm>:<ss>#
In Low Precision mode:
{+-}<dd>�<mm>#
Selected object's declination.New in L5.1
:GE#<hh>:<mm>:<ss>#Get Alarm time (from L1, V2.0 up)
:GG#{+-}<hh># or
{+-}<hh>:<mm>:<ss>#
Get the difference between local time and UTC (from L1,V2.0 up). If your local time is earlier than UTC this command will return apositive value, if later than UTC the value is negative.The extended format with minutes and seconds is new in L5.Minutes and seconds will be omitted if both are zero.
:Gg# {+-}<ddd>�<mm>#
In Double Precision mode:
{+-}<dd>.<dddddd>#
Get Site Longitude (from L1, V2.0 up)
:GH#[-]<hh>:<mm>:<ss>#
In Double Precision mode:
{+-}<hh>.<hhhhhh>#
Hour Angle the telescope is pointing to. From L4, V1.0 up.
:GI#<Information Buffer Content>#Get the content of the information buffer. Up to 256 characters, followed by a hash mark. NEW in L5
:GL#<hh>:<mm>:<ss>#
In Double Precision mode:
{+-}<hh>.<hhhhhh>#
Civil Time (UTC time from the internal Real Time Clock + UTC offset),hours, minutes, seconds in 24-hour format.
:Gm#{EW}#Get Telescope Mount's Side of Meridian. E# for East or W# for West side is replied. From L4, V1.0 up.
:GM#<name string>#Name (up to 15 characters) of the first site stored.
:GN#<name string>#Name (up to 15 characters) of the second site stored.
:GO#<name string>#Name (up to 15 characters) of the third site stored.
:GP#<name string>#Name (up to 15 characters) of the fourth site stored.
:GR#In Double Precision mode:
{+-}<hh>.<hhhhhh>#
High Precision mode:
<hh>:<mm>:<ss>#
Low Precision mode:
<hh>:<mm>.<m>#
Apparent (refraction included) Right Ascension the telescope is pointingto, to the equinox of the date. Despite during GoTo operations, the coordinatesare corrected according to the pointing model.
Hours (0 to 24), minutes, seconds or tenth of minutes.
:Gr#In Double Precision mode:
{+-}<dd>.<dddddd>#
In High Precision mode:
{+-}<dd>:<mm>:<ss>#
In Low Precision mode:
{+-}<dd>�<mm>#
Selected object's right ascension.New in L5.1
:GS#<hh>:<mm>:<ss>#
In Double Precision mode:
{+-}<hh>.<hhhhhh>#
Sidereal Time. From L4, V1.0 up.
:Gt#{+-}<dd>�<mm>#
In Double Precision mode:
{+-}<hh>.<hhhhhh>#
Get Site Latitude (from L1, V2.0 up).
:GV#<l><vv>#Get Software Level l(one digit) and Version vv(two digits)
:GVD#<mm> <dd> <yyyy>#Get Software Built Date (from L4, V1.0 up)
:GVN#<l>.<vv>#Get Software Level l(one digit) and Version vv(two digits) (from L4, V1.0 up)
:GVP#Losmandy Gemini#Product String (from L4, V1.0 up)
:GVT#<hh>:<mm>:<ss>#Get Software Built Time (from L4, V1.0 up)
:Gv#N (for 'no movement')
T (for Tracking)
G (for Guiding)
C (for Centering)
S (for Slewing)
! for Stall
Get Maximum Velocity of both axes.
:GW#N (for 'no movement')
T (for Tracking)
G (for Guiding)
C (for Centering)
S (for Slewing)
! for Stall
Get Velocity RA New in L5.
:Gw#N (for 'no movement')
T (for Tracking)
G (for Guiding)
C (for Centering)
S (for Slewing)
! for Stall
Get Velocity DEC New in L5.
:Gu#N (for 'no tracking')
T (for Tracking)
G (for Guiding)
C (for Centering)
S (for Slewing)
! for Stall
Get Velocity RA, DEC (2 characters) New in L5.
:GZ# In Double Precision mode:
{+-}<hh>.<hhhhhh>#
In High Precision mode:
<ddd>:<mm>:<ss>#
In Low Precision mode:
<ddd>�<mm>#
Get Azimuth. From North over East. (From L4, V1.0 up)
Park
:hP#Park at Home Position. The Home Position defaults to the celestial pole visibleat the given hemisphere (north or south) but can be set by the user at the Gemini.
:hC#Park at the Startup Position. This position is the position required for a Cold or Warm Start,pointing to the celestial pole of the given hemisphere (north or south), with the counterweightpointing downwards (CWD position). From L4, V1.0 up.
:hZ#Park at Zenith.New in L5.
:hN#Sleep Telescope: stop tracking, blank displays.
:hW#Wake Up Telescope, resume tracking.
:h?#2: Park operation in progress
1: Park operation completed. The mount is parked.
0: No Prk command received or Park operation failed.
Parking Status Inquiry
Move TelescopeNote: the directions mentioned depend upon the hemisphere of theobserving site and the side of the mount the telescope actually is. Directionsdo not change when crossing one of the poles.
:MA#0
1Object below horizon.#
2No object selected.#
3Manual Control.#
Slew to an object. The object selection had to be done by sendingthe Sz and Sa commands with the horizontal (Azimuth and Altitude) object coordinates. This command will be rejected while the system is in Manual Mode, f.i. identifying or selecting an object from the internaldatabases. From L4, V1.0 up.
:MF<n>#Move Find: for 0<256 move n arcmin in a Meander Search pattern at centering speed. Can be interrupted by :Q#. If not interrupted, Move Find will return to the start position after 6 cycles.
For n=0 the position is changed ('wobbled') shaping an X with 5 arcmin legs moving at a quarter of the centering speed to detect faint objects.
:ML##Move Lock: Slew commands :MS# and :MA# will be suppressed, error code 3 (Manual Control)will be returned if these commands are sent.
:Ml##Move Unlock: Slew commands :MS# or :MA# will be allowed to be executed again.
:Mf#0
1Object below horizon.#
3Manual Control.#
4Position unreachable.#
Do a meridian flip and slew to the current coordinates.
:MM#0
1Object below horizon.#
2No object selected.#
3Manual Control.#
4Position unreachable.#
5Not aligned.#
6Outside Limits.#7Rejected - Mount is parked!#
Slew to an object, doing a meridian flip if possible. Selection has had to be done locally(from Gemini's databases) or by sendingthe Sr and Sd commands with the equatorial object coordinates. This command will be rejected whilethe system is in Manual Mode, f.i. identifying or selecting an object from the internaldatabases.
:MS#0
1Object below horizon.#
2No object selected.#
3Manual Control.#
4Position unreachable.#
5Not aligned.#
6Outside Limits.#7Rejected - Mount is parked!#
Slew to an object. Selection has had to be done locally (from Gemini's databases) or by sendingthe Sr and Sd commands with the equatorial object coordinates. This command will be rejected whilethe system is in Manual Mode, f.i. identifying or selecting an object from the internaldatabases.
:Me#Move eastwards at the selected speed rate.
:Mw#Move westwards at the selected speed rate.
:Mn#Move northwards at the selected speed rate.
:Ms#Move southwards at the selected speed rate.
:mi<RA steps>;<DEC steps>#Move axes by a certain amount of motor encoder ticks. The parameter value is multiplied by the factor given by the last :mm command (default 1).The allowed parameter range is 0.65535, signed to select the direction.If this range is not sufficient, a prescaler factor can be set by the :mm command.
:mm<step multiplier>#Step multiplier for the :mi command. The step count parameter of the :mi command is multiplied by this factor.
Precision Guiding
:Ma<direction><arcsecs>#Moves into <direction> 'e', 'w', 'n', 's' for <arcsecs>arc seconds. <arcsecs> are converted into motor encoder ticks,in L4 the result must not exceed 255 or will be cut off modulo 256.
:Mi<direction><steps>#Moves into <direction> 'e', 'w', 'n', 's' for <steps> (1 <= steps <= 255) motor encoder ticks.
:Mg<direction><time>#Moves into <direction> 'e', 'w', 'n', 's' for <time>milliseconds. <time> is converted into motor encoder ticks, in L4 theresult must not exceed 255 or will be cut off modulo 256.
Object/Observing/Output
:OC#Clears the Observing Log.
:OI<catalog-id><object-id>#Select an object object-id from Gemini's internal databases catalog-id. Catalog-id is a character selecting one of the contiguous catalogues:'1': Messier, '2': NGC, '3': IC, '4': Sh2, '7': SAO, ':': LDN, ';': LBN.Object-id is a numeric designation of the object in the catalogue; it can be followed by an extension character for NGC and IC catalogues.
:OO#<current display content>#Ask for the current content of the output display line (up to 32 charactersfollowed by a hash mark). New in L5.
:Oo#<previous display content>#Ask for the current content of the output display line (up to 32 charactersfollowed by a hash mark). New in L5.
:ON<name>#Tells the Gemini system the name or identification of the selectedobject. If this command is not used, the name defaults to 'PC Object'.Using this command is recommended between the :Sr and :Sd commands for equatorial coordinates or the :Sz and :Sa commands for horizontal coordinates respectively. From L4, V1.0 up.
:OR#<log entry>#Reads the next line from the Observing Log.
:OS#Points to the beginning of the Observing Log.
:Oc#Delete all User Catalogue entries.
:Od<object line>#Download a User Catalogue entry to the Gemini. The object line consist of
  • the object name (up to 10 ASCII characters),
  • a comma ',' as delimiter,
  • Right Ascension <hh>:<mm>:<ss>,
  • Declination {+-}<dd>:<mm>:<ss>.
The coordinates have to be given for the epoch 2000.0.
:On#<n>#0 <= n <= 4096: Read current number of Gemini's User Catalogue entries.
:Or#<object line>#Upload a User Catalogue entry from Gemini.
:Os#Points to the beginning of the User Catalogue (for downloading).
Precession and Refraction
:p0#No precession calculation necessary in the Gemini. Coordinates transferred to theGemini are already precessed to the equinox of the date. Refraction is not calculated.
:p1#Precession calculation is to be done by Gemini. Coordinates transferred to theGemini refer to the standard epoch J2000.0. Refraction is not calculated.
:p2#No precession calculation necessary in the Gemini. Coordinates transferred to theGemini are already precessed to the equinox of the date. Refraction is calculated. From L4, V1.0 up.
:p3#Precession calculation is to be done by Gemini. Coordinates transferred to theGemini refer to the standard epoch J2000.0. Refraction is calculated. From L4, V1.0 up.
Precision
:P#DBL PRECISION
or
HIGH PRECISION
or
LOW PRECISION
All strings are 14 characters long (there are 2 blanks between LOW or DBLand PRECISION).
:U#Toggle between Low Precision (short) and High Precision (long) mode.Gemini is in High Precision mode after starting up.
:u#NEW in L5Select the Double Precision mode. Values will be displayed in signed floating point formatwith 6 digits after the decimal point. 'Set' parameters can be send the same way.
Quit Moving
:Q#Quit all movements mentioned below.
:Qe#Quit movement eastwards.
:Qw#Quit movement westwards.
:Qn#Quit movement northwards.
:Qs#Quit movement southwards.
Rate
:RC#Rate Centre. Subsequent Move commands will move at Centering Speed.
:RG#Rate Guide. Subsequent Move commands will move at Guiding Speed.
:RM#Rate Move. Subsequent Move commands will move at Move/Find Speed.
:Rm[<sign>][<value>]#Set Move Rate, either to an absolute value (if no sign was specified) given or (if a sign was given) as increment/decrement to the current rate. If no value is specified, Move Rate is set to the default value 50.
:RS#Rate Slew. Subsequent Move commands will move at Slewing Speed.
:R?#G#, C#, M# or S#Currently selected speed for Move commands is returned as one of the characters G, C, M or S followed by a hash mark. New in L5.
Set
:Sa{+-}<dd>{*�}<mm>#
or
:Sa{+-}<dd>{*�:}<mm>:<ss>#
0 if invalid or
1 if valid
Sets the object's altitude. A negative sign is ignored. Values greaterthan 90 degrees are set to 90 degrees.It is important that the :Sz# command has been send prior.If the coordinate selection is valid the object status is set to 'Selected'. From L4, V1.0 up.
:SB<n>#Set LED Display Brightness Value(from L1, V2.0 up)
n=0: 100% n=6: 6.6% n=7: blank display n=8: test mode (all pixels lit).
:SC<mm>/<dd>/<yy>#0 if invalid or
1Updating planetary data#
<24 blanks>#
Set Calendar Date: months mm, days dd, year yy of the civil time accordingto the timezone set. The internal calender/clock uses GMT.
:Sd{+-}<dd>{*�}<mm>#
or
:Sd{+-}<dd>{*�:}<mm>:<ss>#
0 if invalid or
1 if valid
Sets the object's declination. It is important that the :Sr# command has been send prior.Internal calculations are done that may take up to 0.5 seconds. If the coordinate selection is valid the object status is set to 'Selected'.
:SE<hh>:<mm>:<ss>#1Set Alarm Time from the civil time hours hh, minutes mm and seconds ss.The timezone has to be set before using this command.
:SG{+-}hh#1Set the number of hours by which your local time differs from UTC. Ifyour local time is earlier than UTC set a positive value, if later thanUTC set a negative value. The time difference has to be set beforesetting the calendar date (SC) and local time (SL), since the Real TimeClock is running at UTC.
:S0<name string>#1Set name of site #0. The minimum length of site name strings is 1 byte, the maximum length 15 bytes. New in L5.
:SM<name string>#1Set name of the first site stored. The minimum length of site name strings is 1 byte, the maximum length 15 bytes.
:SN<name string>#1Set name of the second site stored.
:SO<name string>#1Set name of the third site stored.
:SP<name string>#1Set name of the forth site stored.
:SL<hh>:<mm>:<ss>#1Set RTC Time from the civil time hours hh, minutes mm and seconds ss.The timezone has to be set before using this command.
:Sg{+-}<ddd>*<mm>#1 if validSets the longitude of the observing site to ddd degrees and mm minutes.The longitude has to be specified positively for western latitudes (westof Greenwich, the plus sign may be omitted) and negatively for easternlongitudes. Alternatively, 360 degrees may be added to eastern longitudes.
:Sp#No object!# or
1 if object coordinates were set.
Precess coordinate transmitted by means of :Sr and :Sd to the equinox of the date.
:Sr<hh>:<mm>.<m>#
or
:Sr<hh>:<mm>:<ss>#
0 if invalid or
1 if valid
Sets the object's Right Ascension and the object status to 'Not Selected'.The :Sd# command has to follow to complete the selection. The subsequentuse of the :ON..# command is recommended.
:St{+-}<dd>*<mm>#1 if validSets the latitude of the observing site to dd degrees, mm minutes.The minus sign indicates southern latitudes, the positive sign may be omitted.
:Sw<n>#1 if validSets the Slewing rate for the Move commands
:Sz<ddd>{*�}<mm>#
or
:Sz<ddd>{*�:}<mm>:<ss>#
0 if invalid or
1 if valid
Sets the object's azimuth. From L4, V1.0 up.
Site Select
:W<n>#Select stored Site n with 0<=n<=3.
:W?#0<=n<=3.Stored Site n
:WQ#Query a connected GPS receiver.

Gemini Native Commands

Many of Gemini's system settings that cannot be accessed using the LX200-like command setcan be read or modified using the native command set implemented in Gemini. The native commands follow a simple syntax:

<<id>:<checksum>#<parameter value><checksum>#Get Value(from L2 up)
><id>:<parameter value><checksum>#Set Value(from L2 up)
Id's and possible values in Level 5, Version 1.0:
Id
Get Parameters
Set Parameters
Get Return Values
Description and Remarks
0.8

0: Custom Mount
1: GM-8
2: G-11
3: HGM-200
4: MI-250
5: Titan
6: Titan50
7: G-10
8: G-12
Mount Type. Custom mount support (Id 0 and also commands 21.28) was introduced in L4. Attention: The CI-700 entry was replaced by the MI-250. CI-700 can be supported as a custom mount.
10, 11.15

10: Neither use encoder nor end switches
11: Use Encoder
12: Test Encoder
13: Ignore Encoder
14: Use end switches
15: Don't use end switches
Axis Encoder port status. 10 can be used for requesting.
21
{+-}80.720{+-}80.720RA worm gear ratio. The sign indicates the direction.
Note: The 1,296,000 arcsec of a circle divided by the product of worm gear ratio, spur gear ratio and motor encoder resolution define the step size per encoder tick. Gemini L4 supports step sizes from 0.2 arcsec/tick to 2.5 arcsec/tick. Combinations exceedingthis range are not allowed.
22
{+-}80.720{+-}80.720DEC worm gear ratio. The sign indicates the direction. See note for command 21.
23
10.15010.150RA spur gear ratio. See notes for commands 21 and 27.
24
10.15010.150DEC spur gear ratio. See note for command 21.
25
100.2048100.2048RA motor encoder resolution. See notes for commands 21 and 27.
26
100.2048100.2048DEC motor encoder resolution. See note for command 21.
27

2000.25600Number of RA steps for one worm revolution (since is a product ofspur ratio and motor encoder ratio,this command can only be used forreading out the maximum step count, not for setting it).
Note: This product must not exceed 25600. If higher valuesare reported the combination of RA spur gear ratio and motor encoder isinvalid.
28

2000.25600Amount of DEC steps for one worm revolution (since is a product ofspur ratio and motor encoder ratio,this command can only be used forreading out the maximum step count, not for setting it).
33
10.15010.150RA spur gear ratio in 'double' format. See notes for commands 21 and 27.
34
10.15010.150DEC spur gear ratio in 'double' format. See note for command 21.
51

0 . 1Gemini mainboard version. Returns '0' for the original rectangular unit, '1' for the square 'mini' controler. NEW in L5.2
81


Enquiry to get a coordinates and states string. See separate ENQ macro description.NEW in L5.1
91
0 or 10 or 1Native Command checksum behavior. 0: MSB bit is cleared (modulo 128), 1: MSB bit is not cleared.NEW in L5
92
0 . 20 . 2Park behavior. 0: Every Move command wakes up the mount (default), 1: Only GoTo and Unpark commands wake up, 2: Only a WakeUp command wakes up the mount.NEW in L5.1
96

1: Configuration data reloaded from SD card,
2: SRAM variables structure was changed by the new firmware version,
4: Wrong SRAM checksum, f.i. after changing battery,
8: reserved,
16: RTC and location updated by GPS,
32: RTC had to be initialized,
64: reserved,
128: reserved.
Startup circumstances, a bitwise combination of several indications regarding the static ram (SRAM) containing the setup and the real-time clock RTC (both running on battery while Gemini is powered off)
NEW in L5.1
97

Eight revision characters
1: Site,
2: Date/Time,
3: Mount Parameter,
4: Display content,
5: Modelling parameters,
6: Speeds,
7: Park,
8: reserved.
State Check. This string of characters can be requested periodically to be compared with a former state. Whenever one of these characters was changed, the corresponding serial commands can be used to get the latest information.
The characters are initialized to a '0' (0x30), will be incremented up to '~' (0x7E) and will then start at '0' again. There can be multiple changes between requests.
NEW in L5
99

Decimal sum of
1: Telescope is Aligned,
2: Modelling in use,
4: Object is selected,
8: GoTo operation is ongoing,
16: RA limit reached,
32: Gemini assumes object coordinates to refer to J2000.0 and precesses them to the equinox of the date.
Status Inquiry.
100
{+-}2048.32768{+-}2048.32768Encoder Resolution in RA.
101
0.Encoder Resolution RA-1Get Encoder Value RA.
110
{+-}2048.32768{+-}2048.32768Encoder Resolution in DEC.
111
0.Encoder Resolution DEC-1Get Encoder Value DEC.
120
20.200020.2000Manual Slewing Speed.
121
20.200020.2000Manual Slewing Speed in RA. New in L5.
122
20.200020.2000Manual Slewing Speed in DEC. New in L5.
130, 131.137

131: Sidereal
132: King Rate
133: Lunar
134: Solar
135: Terrestrial Mode
136: Closed Loop
137: Comet/User Defined
Tracking Rate. 130 can be used for requesting.
140
20.200020.2000GoTo Slewing Speed (for both axes).
141
20.200020.2000GoTo Slewing Speed in RA. New in L5.
142
20.200020.2000GoTo Slewing Speed in DEC. New in L5.
145
20.200020.2000Move Speed (for both axes). New in L5.
146
20.200020.2000Move Speed in RA. New in L5.
147
20.200020.2000Move Speed in DEC. New in L5.
150
0.2.0.80.2.0.8Guiding Speed (for both axes).
151
0.2.0.80.2.0.8Guiding Speed in RA. New in L5.
152
0.2.0.80.2.0.8Guiding Speed in DEC. New in L5.
160, 161.163

161: Visual Mode
162: Photo Mode
163: All Speeds
Classical Hand Controller Mode. 160 can be used for requesting.
170
1.2551.255Centering Speed (for both axes).
171
1.2551.255Centering Speed in RA. New in L5..
172
1.2551.255Centering Speed in DEC. New in L5.
180, 181.182

181: Alarm Off
182: Alarm On
Alarm Mode. 180 can be used for requesting.
190, 191.192

191: RA Motor stopped.
192: RA Motor moving.
RA Motor Movement. Command 190 can be used to obtain the current status,191 for stopping and 192 for restarting the tracking.
200
0.2550.255TVC Step Count.
201
{+-}0.65535{+-}0.65535Modelling Parameter A (Polar Axis Misalignment in Azimuth),in seconds of arc.
202
{+-}0.65535{+-}0.65535Modelling Parameter E (Polar Axis Misalignment in Elevation),in seconds of arc.
203
{+-}0.65535{+-}0.65535Modelling Parameter NP (Axes Non-Perpendicularity at the Pole),in seconds of arc.
204
{+-}0.65535{+-}0.65535Modelling Parameter NE (Axes Non-Perpendicularity at the Equator),in seconds of arc.
205
{+-}0.65535{+-}0.65535Modelling Parameter IH (Index Error in Hour Angle),in seconds of arc.
206
{+-}0.65535{+-}0.65535Modelling Parameter ID (Index Error in Declination),in seconds of arc.
207
{+-}0.65535{+-}0.65535Modelling Parameter FR (Mirror Flop/Gear Play in RA),in seconds of arc.
208
{+-}0.65535{+-}0.65535Modelling Parameter FD (Mirror Flop/Gear Play in Declination),in seconds of arc.
209
{+-}0.65535{+-}0.65535Modelling Parameter CF (Counterweight & RA axis Flexure),in seconds of arc.
211
{+-}0.65535{+-}0.65535Modelling Parameter TF (Tube Flexure),in seconds of arc.
220

<ddd>d<mm>;<ddd>d<mm>Set the respective Safety Limit to the current position. The Getfunction returns the eastern and western safety limits currently set.Note: Gemini will automatically compensate if you change hemispheresby swapping the eastern and western limits. This is because the mountis oriented northwards in the northern hemisphere and southwards inthe southern hemisphere and so the side of the mount that faces eastin the northern hemisphere will face west in the southern hemisphereand vice versa.
221
<ddd>d<mm><ddd>d<mm>Get/Set eastern Safety Limit with respect to the meridian in degrees ddd and minutes mm.See note at command 220.
222
<ddd>d<mm><ddd>d<mm>Get/Set western Safety Limit with respect to the meridian in degrees ddd and minutes mm.See note at command 220.
223
<ddd>d<mm><ddd>d<mm>Get/Set Western GoTo limit (with respect to the meridian) in degrees ddd and minutes mm.GoTo operations will include a meridian flip if necessary to stay outside this limit.
Note: If the RA angles usable for GoTo operations (East Safety Limit to Western GoTo limitare not sufficient to point to any location, GoTo operations to unreachable locations will be refusedand the hand controller will display 'Interrupted'. A zero value (000d00) indicates that the GoToLimit wasn't set yet and the default (002d30, allowing for at least 10 minutes tracking the object)is to be used.
225

<seconds>Get Amount of steps (motor encoder ticks) to Western GoTo Limit.NEW in L5
226

<seconds>Get Tracking Time to Western GoTo Limit in seconds.NEW in L5
230

<east>;<west>Get physical Safety Limits in clusters of 256 motor encoder ticks.See note at command 221.
231

<east>;<west>Get Amount of steps (motor encoder ticks) to the Safety Limits.NEW in L5
235

<ra_clusters>;<dec_clusters>Get current physical RA and DEC axes position in clusters of 256 motor encoder ticks.
236

0.255;0.255Get the remainders of the current physical RA and DEC axes position clusters.
237

<ra_clusters>;<dec_clusters>Get the size of a half physical circle in clusters of 256 motor encoder ticks.
238

<ra ticks>;<dec ticks>Get the size of a half physical circle in motor encoder ticks.NEW in L5
239

<ra ticks>;<dec ticks>Get current physical RA and DEC axes position in motor encoder ticks.NEW in L5
245

<ra lag>;<dec lag>Get current physical RA and DEC servo motor offsets, -390.390.
If the result is always zero, this command may require a new servo motor firmware.NEW in L5.1
246

<ra lag>;<dec lag>Get current RA and DEC servo motor duty cycle, -100.100.
If the result is always zero, this command may require a new servo motor firmware.NEW in L5.1
311
0.150.63Feature Port Status. 4 bits (0.15) can be used for setting input/outputbits, 6 bits (including two additional input only bits 16 and 32, extending the range to 0.63) are available for input.
312

0.15Encoder Port Status. 4 bits (0.15) can be used for reading or setting input/outputbits if it is not intended to connect mount axis encoders but to use these channels alternatively.
321

Floating point valueMain battery voltage in volts.NEW in L5.2
322

Floating point valueLithium battery voltage in volts.NEW in L5.2
411
Up to L4: 256.65535
L5: 0.4294967295
Up to L4: 256.65535
L5: 0.4294967295
RA (comet) tracking rate divisor. Up to L4, the RA timer runs at 1.5 MHz,using this divisorthe tracking rate can be adapted to the (mount dependent) speed of anobject to be tracked. Attention: up to L4, several internal prescalers may beused for further dividing down the frequency.
NEW in L5 The divisor corresponds to a 12.0 MHz timer.
412
Up to L4: {+-}0.65535
L5: {+-}0.2147483647
Up to L4: {+-}0.65535
L5: {+-}0.2147483647
DEC comet tracking rate divisor. Attention: Changed Meaning!In L3, there was no timer for DEC comet tracking available,the DEC divisor referred to the number of RA steps to be done for one step in DEC.
In L4, the divisor value counts the number of internal timer ticks (at 22.888 18359 Hz)per one step in DEC, independently from RA. This corresponds to 0.657154312 arcsec/tick
NEW in L5 The divisor corresponds to a 12.0 MHz timer. The sign indicates the direction. A zero value disables DEC tracking.
413
Up to L4: 256.65535
L5: 0.4294967295
Up to L4: 256.65535
L5: 0.4294967295
RA- (slow, eastwards) guiding rate divisor.
L4: While guiding eastwards, an additional 4x prescaler is active.
L4: A value of zero returned means a timer set to the maximum of 65536.
NEW in L5 The divisor corresponds to a 12.0 MHz timer.
414
Up to L4: 256.65535
L5: 0.4294967295
Up to L4: 256.65535
L5: 0.4294967295
RA+ (fast, westwards) guiding rate divisor. See description to command 413.
NEW in L5 The divisor corresponds to a 12.0 MHz timer.
415
Up to L4: 0.65535
L5: 0.4294967295

Up to L4: 0.65535
L5: 0.4294967295

DEC guiding rate divisor.
NEW in L5 The divisor corresponds to a 12.0 MHz timer.
416
0.4G (4294967295) 0.4GDEC guiding rate Prescaler.
NEW in L5.1 The prescaler multiplies the value of the DEC comet tracking rate divisor to achieve very slow movements in DEC.
421

0.4GRA sidereal tracking rate divisor.
NEW in L5.1
422

0.4GEquivalent 1x DEC sidereal tracking rate divisor.
NEW in L5.1
501
0.PECmax0.PECmaxCurrent RA PEC counter in steps, from 0 to the maximum step count per worm revolution PECmax.This maximum is the product of RA motor encoder resolution and spur gear ratio. It can be calculated multiplying the return values of the <23 and <25 commands or canbe obtained directly by <27.
502

0.2 . 0.8Guiding Speed used for training PEC. Only valid if PEC was trained or PEC data were downloaded, see command 509. The set command can be used without parameters and sets the guiding speed back to the value used for training.
503
0.256000.25600Maximum RA PEC counter in steps, from 0 to the maximum step count per worm revolution PECmax.This maximum is calculated as the product of RA motor encoder resolution and spur gear ratioat startup and whenever mount type or mount parameter are changed.
Using this command, PECmax can be set to user defined values, f.i. to allow multiple wormcycles to be recorded.
504
0.2550.255Maximum consecutive RA PEC steps. 0 disables step supervision. Higher values definethe maximum count of PEC steps in a row to enforce tiny corrections. After this maximum countis reached, normal tracking speed is reestablished.
508
0.10.1Enable (1) or disable (0) PEC playback at boot time, if PEC data are available.NEW in L5.2
509
0.630.63PEC status. Decimal sum of:
1: PEC active,
2: freshly trained (not yet altered) PEC data are available as current PEC data,
4: PEC training in progress,
8: PEC training was just completed,
16: PEC training will start soon,
32: PEC data are available.
511offset
value;offset;repeat countvalue;repeat countCurrently used PEC data. [value] can be 0 (=normal tracking),
1 (RA-, guiding eastwards) or
8 (RA+, guiding westwards).
[offset] ranges from 0 to PECmax-1.
[repeat count] indicates the number of equal valuesstarting at the given offset.
512offset
value;offset;repeat countvalue;repeat countSaved PEC data. [value] can be
0 (=normal tracking),
1 (RA-, guiding eastwards) or
8 (RA+, guiding westwards).
[offset] ranges from 0 to PECmax-1;
[repeat count] indicates the number of equal valuesstarting at the given offset.
Obsoleted in L5 by SD card PEC files.
521

RA-/slow step count;
normal step count;
RA+/fast step count
PEC statistics. Three decimal values, summing up the steps at the three speeds.
530


Start PEC training. The training phase will start about ten seconds after this command was issued. NEW in L5
531


Switch PEC replay on, if there are valid PEC data available. NEW in L5
532


Switch PEC replay off. NEW in L5
535

'0': No PEC training was ongoing.
'1': PEC training was aborted before it started
'2': PEC training was aborted
Abort PEC training . NEW in L5
550


Load/Store PEC data from/to SD card file PECCurrPEC.pec. NEW in L5
551<filename>
<filename>

Load/Store PEC data from/to SD card file <filename>. NEW in L5
601


Select English as language for the following display outputs.NEW in L5
602


Select German as language for the following display outputs.NEW in L5
603


Select French as language for the following display outputs.NEW in L5
604


Select Spanish as language for the following display outputs.NEW in L5
700
Mount DesignMount DesignBasic mount design: 0: Equatorial, 1: Alt/Az. NEW in L5.1
801
IPv4 addressIPv4 addressIP version 4 address in decimal dotted notation.Activates new network settings immediately. NEW in L5
802
IPv4 netmaskIPv4 netmaskIP version 4 netmask in decimal dotted notation.Activates new network settings immediately. NEW in L5
803
IPv4 default gatewayIPv4 default gatewayIP version 4 gateway address in decimal dotted notation.Activates new network settings immediately. NEW in L5
804
IPv4 primary name server addressIPv4 primary name server addressIP version 4 name server address in decimal dotted notation.Activates new network settings immediately. NEW in L5
805
IPv4 secondary name server addressIPv4 secondary name server addressIP version 4 name server address in decimal dotted notation.Activates new network settings immediately. NEW in L5
810
0: don't use DHCP
1: use DHCP
0: don't use DHCP
1: use DHCP
Decides whether DHCP is activated at startup or not.NEW in L5
811
IPv4 addressIPv4 addressIP version 4 address in decimal dotted notation.NEW in L5
812
IPv4 netmaskIPv4 netmaskIP version 4 netmask in decimal dotted notation.NEW in L5
813
IPv4 default gatewayIPv4 default gatewayIP version 4 gateway address in decimal dotted notation.NEW in L5
814
IPv4 primary name server addressIPv4 primary name server addressIP version 4 name server address in decimal dotted notation.NEW in L5
815
IPv4 secondary name server addressIPv4 secondary name server addressIP version 4 name server address in decimal dotted notation.NEW in L5
816
Network Time Protocol server addressIPv4 NTP server addressIP version 4 NTP server address in decimal dotted notation.NEW in L5.2
818
Ethernet port MAC addressEthernet port MAC addressEthernet port MAC address in hexadecimal notation.NEW in L5
826
'0' or '1' to indicate if a asynchronous NTP server query was started.Query the predefined Network Time Protocol Server.NEW in L5.2
910filename
'0' if file not found
'1' if file was opened
Open a file for downloading it
911

'0' if error
'2' followed by data
Read file data
912filename
'0' file not deleted
'1'file deleted
Delete a file.
43610

'1' file loaded/stored
'0'file not loaded/stored
Load/Store the SRAM configuration data from/into the file configGemini.cfg.NEW in L5
43611filenamefilename'1' file loaded/stored
'0'file not loaded/stored
Load/Store the SRAM configuration data from/into the file filename.NEW in L5
43690


Reset to Losmandy HGM default values.
43691


Reset to Mountain Instruments default values.
65533


Reboot the Gemini controller software, enforcing a Cold Start.
65534


Reboot the Gemini controller software.
65535


Reboot the Gemini controller software.

Using the native commands:Game king video poker strategy.

  • The Identification tag is interpreted as an integer value, leadingzeros are ignored.
  • Parameters are separated from the Id and from each other by hyphens.
  • The checksum for the native commands is calculated by a bytewise XORoperation of the transmitted characters, including the Get/Set commandsign ('<', '>') and colon ':'. The highest significant bitof the result is cleared (modulo 128 operation) and 64 is added.
  • Undefined Ids are ignored in Set operations. For Get operations, only ahash mark will be returned.
  • In Debug Mode, the expected and the received checksum are displayed on the hand controller display in hexadecimal format whenever a discrepancy is detected. A command sent with a wrong checksum will not be executed.

Examples

  • Get the Mount Type: '<0:v' and '<00:F#' are equivalent.
  • '<1:w#' and '<2:t#' and '<3:u#' will deliver the same result,f.i. the string '1q#' if the mount type is set to GM-8 or '2r#'if G-11 is selected.

Meade� is a trademark registered by Meade Instruments Corporation,California, USA.