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Table of Contents | ||||||
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Description
This ICD specifies the interface between the Global Interlock System Status (GISS) and the Global Interlock System (GIS). The GIS provides the GISS with periodic updates of interlock and limit status with respect to the safety of all facility systems.
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1756-RM003C-EN-P Logix5000 General Instructions Reference Manual
s17561756-UM001B-EN-P ControlLogix System User Manual
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The GIC’s communication interface module network settings will be as follows:
IP Address | 10.0.6.3 |
subnet Mask | 255.255.255.0 |
Controller Tags
With a Logix5000 controller, such as the GuardLogix, you use a tag (alphanumeric name) to address data (variables). A tag is a text-based name for an area of the controller’s memory where data is stored. Tags are the basic mechanism for allocating memory, referencing data from logic, and monitoring data. Tags can either be a single data type, such as a bit, integer, floating-point value, string, and so forth or a structure that is a combination of data types. A produced tag is a tag that a controller makes available for use by other controllers. A consumed tag is a tag that receives the data of a produced tag. An array is a tag that contains a block of multiple pieces of data. An array is similar to a file. Within an array, each individual piece of data is called an element. Each element uses the same data type.
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The tag GIC_to_GISS is a UDT consisting of an array of 256 BOOLs.
Table 1
System | Tag Name | Description |
GIC | GIC_to_GISS.BIT[0] | Emergency Stop OK (0=stop) |
GIC | GIC_to_GISS.BIT[1] |
|
GIC | GIC_to_GISS.BIT[2] |
|
GIC | GIC_to_GISS.BIT[3] | Enclosure Altitude Axis Permissive is Ready |
GIC | GIC_to_GISS.BIT[4] | Enclosure Azimuth Axis Permissive is Ready |
GIC | GIC_to_GISS.BIT[5] | Telescope Altitude Axis Permissive is Ready |
GIC | GIC_to_GISS.BIT[6] | Telescope Azimuth Axis Permissive is Ready |
GIC | GIC_to_GISS.BIT[7] | Coudé Rotator Axis Permissive is Ready |
GIC | GIC_to_GISS.BIT[8] | GIC Processor is in Run Mode |
GIC | GIC_to_GISS.BIT[9] | Enclosure LIC Processor is in Run Mode |
GIC | GIC_to_GISS.BIT[10] | Facility LIC Processor is in Run Mode |
GIC | GIC_to_GISS.BIT[11] | Instrument LIC Processor is in Run Mode |
GIC | GIC_to_GISS.BIT[12] | OSS LIC Processor is in Run Mode |
GIC | GIC_to_GISS.BIT[13] | Coudé Rotator Processor is in Run Mode |
GIC | GIC_to_GISS.BIT[14] | Telescope LIC Processor is in Run Mode |
GIC | GIC_to_GISS.BIT[15] | FTS LIC Processor is in Run Mode (future) |
GIC | GIC_to_GISS.BIT[16] | GIC I/O modules status (1=OK) |
GIC | GIC_to_GISS.BIT[17] | Enclosure I/O modules status (1=OK) |
GIC | GIC_to_GISS.BIT[18] | Facility I/O modules status (1=OK) |
GIC | GIC_to_GISS.BIT[19] | Instrument I/O modules status (1=OK) |
GIC | GIC_to_GISS.BIT[20] | OSS I/O modules status (1=OK) |
GIC | GIC_to_GISS.BIT[21] | Coudé Rotator I/O modules status (1=OK) |
GIC | GIC_to_GISS.BIT[22] | Telescope I/O modules status (1=OK) |
GIC | GIC_to_GISS.BIT[23] | FTS I/O modules status (1=OK) |
GIC | GIC_to_GISS.BIT[24] | Enclosure Altitude trapped key ('A') is in place |
GIC | GIC_to_GISS.BIT[25] | Enclosure Azimuth trapped |
keys ('A' and 'G') are in place | ||
GIC | GIC_to_GISS.BIT[26] | Telescope Altitude trapped key ('Ga') is in place |
GIC | GIC_to_GISS.BIT[27] | Telescope Azimuth trapped key is ('Fa')is in place |
GIC | GIC_to_GISS.BIT[28] | Coudé Rotator enable trapped key ('Aa') is in place |
GIC | GIC_to_GISS.BIT[29] | Coudé Rotator full speed trapped key ('Da') in place |
GIC | GIC_to_GISS.BIT[30] |
|
GIC | GIC_to_GISS.BIT[31] |
|
ENC | GIC_to_GISS.BIT[32] | Enclosure Emergency Stop OK (0=stop) |
ENC | GIC_to_GISS.BIT[33] | not used |
ENC | GIC_to_GISS.BIT[34] | not used |
ENC | GIC_to_GISS.BIT[35] | not used |
ENC | GIC_to_GISS.BIT[36] | Enclosure Azimuth Cable Wrap Over Tension (future) |
ENC | GIC_to_GISS.BIT[37] | Enclosure Altitude Cable Wrap Over Tension (future) |
ENC | GIC_to_GISS.BIT[38] | not used |
ENC | GIC_to_GISS.BIT[39] | not used |
ENC | GIC_to_GISS.BIT[40] | Enclosure Azimuth Motion Stopped (1=stopped) |
ENC | GIC_to_GISS.BIT[41] | Enclosure Azimuth Safely Limited Speed |
ENC | GIC_to_GISS.BIT[42] | Enclosure Azimuth Negative Final Limit |
ENC | GIC_to_GISS.BIT[43] | Enclosure Azimuth Positive Final Limit |
ENC | GIC_to_GISS.BIT[44] | Enclosure Altitude Motion Stopped |
ENC | GIC_to_GISS.BIT[45] | not used |
ENC | GIC_to_GISS.BIT[46] | Enclosure Elevation Negative Final Limit |
ENC | GIC_to_GISS.BIT[47] | Enclosure Elevation Positive Final Limit |
ENC | GIC_to_GISS.BIT[48] | Aperture Cover Closed |
ENC | GIC_to_GISS.BIT[49] | Bridge Crane Stowed |
ENC | GIC_to_GISS.BIT[50] | not used |
ENC | GIC_to_GISS.BIT[51] | Jib Crane Stowed |
ENC | GIC_to_GISS.BIT[52] | not used |
ENC | GIC_to_GISS.BIT[53] | not used |
ENC | GIC_to_GISS.BIT[54] | not used |
ENC | GIC_to_GISS.BIT[55] | not used |
ENC | GIC_to_GISS.BIT[56] | not used |
ENC | GIC_to_GISS.BIT[57] | not used |
ENC | GIC_to_GISS.BIT[58] | not used |
ENC | GIC_to_GISS.BIT[59] | not used |
ENC | GIC_to_GISS.BIT[60] | TEOA Platform Stowed |
ENC | GIC_to_GISS.BIT[61] | Enclosure Azimuth aligned lift |
ENC | GIC_to_GISS.BIT[62] | Transfer Bridge Stowed |
ENC | GIC_to_GISS.BIT[63] | not used |
FAC | GIC_to_GISS.BIT[64] | Facility Emergency Stop OK (0=stop) |
FAC | GIC_to_GISS.BIT[65] | Facility Fire Alarm OK (0=fire) |
FAC | GIC_to_GISS.BIT[66] | GIC Seismic Alarm OK (0=earthquake) |
FAC | GIC_to_GISS.BIT[67] | not used |
FAC | GIC_to_GISS.BIT[68] | not used |
FAC | GIC_to_GISS.BIT[69] | not used |
FAC | GIC_to_GISS.BIT[70] | not used |
FAC | GIC_to_GISS.BIT[71] | not used |
FAC | GIC_to_GISS.BIT[72] | Inner Pier Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[73] | Mezzanine Level Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[74] | Coudé Lab Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[75] | Utility Level Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[76] | Catwalk Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[77] | Service Ring Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[78] | Enclosure Floor Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[79] | Telescope Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[80] | Upper Enclosure Hazardous Zone Locked |
FAC | GIC_to_GISS.BIT[81] | not used |
FAC | GIC_to_GISS.BIT[82] | not used |
FAC | GIC_to_GISS.BIT[83] | not used |
FAC | GIC_to_GISS.BIT[84] | |
FAC | GIC_to_GISS.BIT[85] | |
FAC | GIC_to_GISS.BIT[86] | not used |
FAC | GIC_to_GISS.BIT[87] | not used |
FAC | GIC_to_GISS.BIT[88] | Coudé Lab Crane stowed |
FAC | GIC_to_GISS.BIT[89] | Coudé Lab Crane permissive |
FAC | GIC_to_GISS.BIT[90] | not used |
FAC | GIC_to_GISS.BIT[91] | not used |
FAC | GIC_to_GISS.BIT[92] | PFlow Lift stowed |
FAC | GIC_to_GISS.BIT[93] | PFlow Lift Permissive |
FAC | GIC_to_GISS.BIT[94] | PFlow Roof latched closed |
FAC | GIC_to_GISS.BIT[95] | not used |
INST | GIC_to_GISS.BIT[96] | PA&C |
INST | GIC_to_GISS.BIT[97] | Cryo Large FOV Configured |
INST | GIC_to_GISS.BIT[98] | Cryo Small FOV Configured |
INST | GIC_to_GISS.BIT[99] | General Small FOV Configured |
INST | GIC_to_GISS.BIT[100] | VBI |
INST | GIC_to_GISS.BIT[101] |
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INST | GIC_to_GISS.BIT[102] |
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INST | GIC_to_GISS.BIT[103] |
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INST | GIC_to_GISS.BIT[104] | ViSP |
INST | GIC_to_GISS.BIT[105] |
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INST | GIC_to_GISS.BIT[106] |
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INST | GIC_to_GISS.BIT[107] |
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INST | GIC_to_GISS.BIT[108] | DL-NIRSP |
INST | GIC_to_GISS.BIT[109] |
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INST | GIC_to_GISS.BIT[110] |
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INST | GIC_to_GISS.BIT[111] |
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INST | GIC_to_GISS.BIT[112] | VTF |
INST | GIC_to_GISS.BIT[113] |
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INST | GIC_to_GISS.BIT[114] |
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INST | GIC_to_GISS.BIT[115] |
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INST | GIC_to_GISS.BIT[116] | Cryo-NIRSP |
INST | GIC_to_GISS.BIT[117] |
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INST | GIC_to_GISS.BIT[118] |
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INST | GIC_to_GISS.BIT[119] |
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INST | GIC_to_GISS.BIT[120] | WFC |
INST | GIC_to_GISS.BIT[121] |
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INST | GIC_to_GISS.BIT[122] |
|
INST | GIC_to_GISS.BIT[123] |
GOS small field-of-view is configured | |
INST | GIC_to_GISS.BIT[124] |
M9A is fully stowed | |
INST | GIC_to_GISS.BIT[125] |
M9A is fully deployed | |
INST | GIC_to_GISS.BIT[126] |
DLFM1 is fully stowed | |
INST | GIC_to_GISS.BIT[127] |
DLFM1 is fully deployed | ||
OSS | GIC_to_GISS.BIT[128] |
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OSS | GIC_to_GISS.BIT[129] |
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OSS | GIC_to_GISS.BIT[130] |
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OSS | GIC_to_GISS.BIT[131] |
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OSS | GIC_to_GISS.BIT[132] |
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OSS | GIC_to_GISS.BIT[133] |
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OSS | GIC_to_GISS.BIT[134] |
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OSS | GIC_to_GISS.BIT[135] |
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OSS | GIC_to_GISS.BIT[136] |
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OSS | GIC_to_GISS.BIT[137] |
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OSS | GIC_to_GISS.BIT[138] |
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OSS | GIC_to_GISS.BIT[139] |
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OSS | GIC_to_GISS.BIT[140] |
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OSS | GIC_to_GISS.BIT[141] |
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OSS | GIC_to_GISS.BIT[142] |
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OSS | GIC_to_GISS.BIT[143] |
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OSS | GIC_to_GISS.BIT[144] |
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OSS | GIC_to_GISS.BIT[145] |
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OSS | GIC_to_GISS.BIT[146] |
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OSS | GIC_to_GISS.BIT[147] |
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OSS | GIC_to_GISS.BIT[148] |
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OSS | GIC_to_GISS.BIT[149] |
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OSS | GIC_to_GISS.BIT[150] |
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OSS | GIC_to_GISS.BIT[151] |
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OSS | GIC_to_GISS.BIT[152] |
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OSS | GIC_to_GISS.BIT[153] |
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OSS | GIC_to_GISS.BIT[154] |
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OSS | GIC_to_GISS.BIT[155] |
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OSS | GIC_to_GISS.BIT[156] |
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OSS | GIC_to_GISS.BIT[157] |
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OSS | GIC_to_GISS.BIT[158] |
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OSS | GIC_to_GISS.BIT[159] |
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ROT | GIC_to_GISS.BIT[160] | Emergency Stop OK (0=stop) |
ROT | GIC_to_GISS.BIT[161] |
not used
ROT | GIC_to_GISS.BIT[162] |
not used
ROT | GIC_to_GISS.BIT[163] |
ROT | GIC_to_GISS.BIT[164] |
ROT | GIC_to_GISS.BIT[165] |
not used
ROT | GIC_to_GISS.BIT[166] |
not used
ROT | GIC_to_GISS.BIT[167] |
ROT | GIC_to_GISS.BIT[168] | Rotator Motion Stopped (1=stopped) |
ROT | GIC_to_GISS.BIT[169] | Rotator |
Safely Limited Speed (0=overspeed) | ||
ROT | GIC_to_GISS.BIT[170] | Rotator CCW Final Limit OK (0=in limit) |
ROT | GIC_to_GISS.BIT[171] | Rotator CW Limit OK (0=in limit) |
ROT | GIC_to_GISS.BIT[172] | Rotator overspeed (1=overspeed) |
ROT | GIC_to_GISS.BIT[173] |
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ROT | GIC_to_GISS.BIT[174] | Rotator Cable Wrap |
aligned OK (0=interlock) | ||
ROT | GIC_to_GISS.BIT[175] |
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ROT | GIC_to_GISS.BIT[176] |
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ROT | GIC_to_GISS.BIT[177] |
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ROT | GIC_to_GISS.BIT[178] |
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ROT | GIC_to_GISS.BIT[179] |
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ROT | GIC_to_GISS.BIT[180] |
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ROT | GIC_to_GISS.BIT[181] |
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ROT | GIC_to_GISS.BIT[182] |
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ROT | GIC_to_GISS.BIT[183] |
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ROT | GIC_to_GISS.BIT[184] |
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ROT | GIC_to_GISS.BIT[185] |
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ROT | GIC_to_GISS.BIT[186] |
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ROT | GIC_to_GISS.BIT[187] |
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ROT | GIC_to_GISS.BIT[188] |
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ROT | GIC_to_GISS.BIT[189] |
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ROT | GIC_to_GISS.BIT[190] |
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ROT | GIC_to_GISS.BIT[191] | |
TEL | GIC_to_GISS.BIT[192] | Telescope Emergency Stop OK |
TEL | GIC_to_GISS.BIT[193] | |
TEL | GIC_to_GISS.BIT[194] | M1 Maintenance Position Azimuth |
TEL | GIC_to_GISS.BIT[195] | M1 Maintenance Position Altitude |
TEL | GIC_to_GISS.BIT[196] | TEOA Maintenance Position Azimuth |
TEL | GIC_to_GISS.BIT[197] | TEOA Maintenance Position Altitude |
TEL | GIC_to_GISS.BIT[198] |
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TEL | GIC_to_GISS.BIT[199] |
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TEL | GIC_to_GISS.BIT[200] | Telescope Azimuth Motion Stopped |
TEL | GIC_to_GISS.BIT[201] | Telescope Azimuth at Safe Speed |
TEL | GIC_to_GISS.BIT[202] | Telescope Azimuth Negative Final Limit |
TEL | GIC_to_GISS.BIT[203] | Telescope Azimuth Positive Final Limit |
TEL | GIC_to_GISS.BIT[204] | Telescope Altitude Motion Stopped |
TEL | GIC_to_GISS.BIT[205] | Telescope Altitude at Safe Speed |
TEL | GIC_to_GISS.BIT[206] | Telescope Altitude Negative Final Limit |
TEL | GIC_to_GISS.BIT[207] | Telescope Altitude Positive Final Limit |
TEL | GIC_to_GISS.BIT[208] | |
TEL | GIC_to_GISS.BIT[209] | |
TEL | GIC_to_GISS.BIT[210] | Telescope Azimuth Cable Wrap alignment OK |
TEL | GIC_to_GISS.BIT[211] | |
TEL | GIC_to_GISS.BIT[212] | |
TEL | GIC_to_GISS.BIT[213] | |
TEL | GIC_to_GISS.BIT[214] | OSS Bridge stowed |
TEL | GIC_to_GISS.BIT[215] | OSS Bridge permissive |
TEL | GIC_to_GISS.BIT[216] | M5 Bridge stowed |
TEL | GIC_to_GISS.BIT[217] | M5 Bridge permissive |
TEL | GIC_to_GISS.BIT[218] | Telescope Access Doors Closed |
TEL | GIC_to_GISS.BIT[219] | M1 Cart Jacks Stowed |
TEL | GIC_to_GISS.BIT[220] | M1 Cover Closed |
TEL | GIC_to_GISS.BIT[221] | M1 Cover Permissive |
TEL | GIC_to_GISS.BIT[222] |
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TEL | GIC_to_GISS.BIT[223] |
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FTS | GIC_to_GISS.BIT[224] | Array of 32 bits |
FTS | GIC_to_GISS.BIT[225] |
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FTS | GIC_to_GISS.BIT[226] |
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FTS | GIC_to_GISS.BIT[227] |
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FTS | GIC_to_GISS.BIT[228] |
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FTS | GIC_to_GISS.BIT[229] |
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FTS | GIC_to_GISS.BIT[230] |
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FTS | GIC_to_GISS.BIT[231] |
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FTS | GIC_to_GISS.BIT[232] |
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FTS | GIC_to_GISS.BIT[233] |
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FTS | GIC_to_GISS.BIT[234] |
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FTS | GIC_to_GISS.BIT[235] |
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FTS | GIC_to_GISS.BIT[236] |
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FTS | GIC_to_GISS.BIT[237] |
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FTS | GIC_to_GISS.BIT[238] |
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FTS | GIC_to_GISS.BIT[239] |
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FTS | GIC_to_GISS.BIT[240] |
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FTS | GIC_to_GISS.BIT[241] |
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FTS | GIC_to_GISS.BIT[242] |
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FTS | GIC_to_GISS.BIT[243] |
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FTS | GIC_to_GISS.BIT[244] |
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FTS | GIC_to_GISS.BIT[245] |
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FTS | GIC_to_GISS.BIT[246] |
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FTS | GIC_to_GISS.BIT[247] |
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FTS | GIC_to_GISS.BIT[248] |
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FTS | GIC_to_GISS.BIT[249] |
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FTS | GIC_to_GISS.BIT[250] |
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FTS | GIC_to_GISS.BIT[251] |
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FTS | GIC_to_GISS.BIT[252] |
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FTS | GIC_to_GISS.BIT[253] |
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FTS | GIC_to_GISS.BIT[254] |
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FTS | GIC_to_GISS.BIT[255] |
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Commands
The information passed from the GIS to the GISS is essentially a one-way transmission. The GISS does not and cannot command the GIS; the GISS only receives status information.
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