ROSETTA ROSINA DPU - S/C Science Data Packets ROS-TUB-SP-03/2.2 Revision 2.2 31.10.2003 Prepared by Bjoern Fiethe {{{Document Change Record}}} {| TABLE !Rev. !!Date !!Pages !!Description ! |- |1.0 ||20.04.00 ||All ||First Issue |- |1.1 ||01.09.00 ||3 ||Packet length for D2, R1..3 changed |- |2.0 ||19.04.02 ||All ||Completely revised for FS |- |2.1 ||20.12.02 ||3,4,8- ||Update HK in science data |- |2.2 ||31.10.03 ||All ||Update science types, add compression types |} {{{1. Science Data Sets }}} Each Science Data Set consists of one or several Science Packets defined in 2. All values are in TM-words (16 bits). {{1.1 DFMS}} {| TABLE !Type No. !!Type Ident. !!Name !!Length !!Packet Count !!Usage !!Description ! |- |- ||0x00 ||MCP Leda Mask ||256 ||1 ||Internal Test ||Read Leda Mask bits |- |- ||0x01 ||MCP Leda Row A ||1024 ||1 ||Internal Test ||Read Leda Row A only |- |- ||0x02 ||MCP Leda Row B ||1024 ||1 ||Internal Test ||Read Leda Row B only |- |- ||0x03 ||MCP Leda Peak ||2 ||1 ||Internal Test ||Read Leda Peak Data only |- |- ||0x05 ||CEM Single Data ||4 ||1 ||Internal Test ||Read CEM Data once |- |D1 ||0x81 ||MCP Leda Dual Raw ||2062 ||2 ||Test + Calibration ||14 HK + 2048 *LEDA (A+B) |- |D7 ||0x87 ||MCP Leda 12bit ||398 ||1 ||12bit data compr. ||14 HK + 384 LEDA |- |D20 ||0x20 ||MCP Scan Wavelet Compressed ||Max. 26426 ||Max. 13 ||Full or sinle spectrum ||X * 14 HK (uncompressed) + Compr. Header + (X * 2048 / C) LEDA (X = no. of scans, C = compr. factor) |- |D2X ||0x22..0x2F ||MCP Scan LOG Reduction of Bits ||Max. 103800 ||Max. 51 ||Full or single spectrum ||X * 14 HK (uncompressed) + (X * 2048 * N / 32) EDA (X = no. of scans, N = no. of bits) |- |D40 ||0x40 ||CEM Raw, Average, or Repetitive ||Max. 814 ||1 ||Single spectrum ||14 HK + (4 * Y) CEM (Y = No. of data points) |- |D42 ||0x42 ||FAR Raw, Average, or Repetitive ||Max. 414 ||1 ||Single spectrum ||14 HK + (2 * Y) FAR (Y = No. of data points) |- |D60 ||0x60 ||MCP Scan lossless Compressed ||Max. 103800 ||Max. 51 ||Full or single spectrum ||X * 14 HK (uncompressed) + Compr. Header + (X * 2048 / C) LEDA (X = no. of scans, C = compr. factor) |} {{1.2 RTOF}} {| TABLE !Type No. !!Type Ident. !!Name !!Length !!Packet Count !!Usage !!Description ! |- |R20 ||0x14 ||ETS Full Raw ||Max. 393385 ||Max. 193 ||Test + Calibration ||160 HK + 9 Header + X*3 ETS |- |R21 ||0x15 ||ETSL Full Raw ||Max. 393385 ||Max. 193 ||Test + Calibration ||160 HK + 9 Header + X*3 ETSL |- |R22 ||0x16 ||ETS Select Raw ||16369 ||8 ||300 mass * 18 points ||160 HK + 9 HK + 16200 ETS |- |R23 ||0x17 ||ETSL Select Raw ||16369 ||8 ||300 mass * 18 points ||160 HK + 9 d. + 16200 ETL |- |R24 ||0x18 ||ETS Wavelet Compressed ||Max. 98304 ||Max. 48 ||Full spectrum || 60 HK + 9 Header + Compr. Header + X ETS (depends on compr. factor) |- |R25 ||0x19 ||ETSL Wavelet Compressed ||Max. 98304 ||Max. 48 ||Full spectrum | 160 HK + 9 Header + Compr. Header + X ETSL (depends on compr. factor) |- |R84 ||0x54 ||ETS Lossless Compressed ||Max. 393385 ||Max. 193 ||Full spectrum ||160 HK + 9 Header + Compr. Header + X ETS (depends on compr. factor) |- |R85 ||0x55 ||ETSL Lossless Compressed ||Max. 393385 ||Max. 193 ||Full spectrum ||160 HK + 9 Header + Compr. Header + X ETS (depends on compr. factor) |} {{1.3 COPS}} {| TABLE !Type No. !!Type Ident. !!Name !!Length !!Packet Count !!Usage !!Description ! |- |C1 ||0x01 ||Full Pressure ||304 ||1 ||Detailed Pressure ||150 * NG Pressure very 2s |} {{{2. Science Packet Definitions}}} {{2.1 DFMS Science Packet}} {| TABLE !Position !!Bytes !!Bits !!Name !!Data ! |- |000 ||1 || ||DFMS Science Header ||0x84 |- |001 ||1 || ||Type Identifier || |- |002 ||2 ||15 ||Last Packet Status ||1 = Last Packet |- | || ||14..0 ||Packet Count ||0 = First Packet |- |004 ||2.. 4092 || ||HK + Science Data ||DFMS Science HK data only in first packet |} {{2.2 RTOF Science Packet}} {| TABLE !Position !!Bytes !!Bits !!Name !!Data ! |- |000 ||1 || ||RTOF Science Header ||0x88 |- |001 ||1 || ||Type Identifier || |- |002 ||2 ||15 ||Last Packet Status ||1 = Last Packet |- | || ||14..0 ||Packet Count ||0 = First Packet |- |004 ||2.. 4092 || ||HK + Science Data ||RTOF Science HK data only in first packet |} {{2.3 COPS Science Packet}} {| TABLE !Position !!Bytes !!Bits !!Name !!Data ! |- |000 ||1 || ||COPS Science Header ||0x8C |- |001 ||1 || ||Type Identifier || |- |001 ||2 ||15 ||Last Packet Status ||1 = Last Packet |- | || ||14..0 ||Packet Count ||0 = First Packet |- |004 ||4 || ||Dummy word ||- |- |008 ||4.. 600 || ||Pressure Data ||32-bit IEEE Floating Point (bit 31: sign, bit 30..23: exponent, bit 22..0: 1.fraction) |} {{{3. Science Housekeeping Definitions}}} A set of science related HK data is transmitted at the beginning of each Sciene Data Set. {{3.1 DFMS Science HK Data, Length 14 words }} {| TABLE !Position !!Bytes !!Bits !!Name !!Data ! |- |000 ||2 || ||Mass * 100 || |- |002 ||2 || ||Measurement Mode || |- |004 ||2 || ||Voltage flags 1 || |- | || ||15..14 ||MG ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||13..12 ||ISB ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||11..10 ||ISP ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||9..8 ||IRP1 ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||7..6 ||IRP2 ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||5..4 ||ERP ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||3..2 ||FIL 1 Bias ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||1..0 ||FIL 2 Bias ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- |006 ||2 || ||Voltage flags 2 || |- | || ||15..14 ||FIL 1 Emi ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||13..12 ||FIL 2 Emi ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||11..10 ||SLL ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||9..8 ||SLR ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||7..6 ||SES ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||5..4 ||SEB ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||3..2 ||TLL ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||1..0 ||TLR ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- |008 ||2 || ||Voltage flags 3 || |- | || ||15..14 ||VACC Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||13 ||FAR Repeller Enable ||0 = Off, 1 = On |- | || ||12..0 ||ESA C DAC ||Raw value |- |010 ||2 || ||Voltage flags 4 || |- | || ||15..14 ||ESS1 Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||13..12 ||ESS2 Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||11..10 ||RQ Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||9..8 ||MP Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||7..6 ||HP Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||5..4 ||Z1Q Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||3..2 ||Z2Q Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||1..0 ||HVFDP Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- |012 ||2 || ||Voltage flags 5 || |- | || ||15 ||GCU Heater 1 ||0 = Off, 1 = On |- | || ||14 ||GCU Heater 2 ||0 = Off, 1 = On |- | || ||13 ||Cover Close ||0 = Off, 1 = On |- | || ||12 ||Cover Open ||0 = Off, 1 = On |- | || ||11..10 ||MCP Front ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||9..8 ||MCP Back1 ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||7..6 ||MCP Back2 ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||5..4 ||CEM HV Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||3..2 ||CEM REP Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- | || ||1..0 ||CEM THR Dac ||0 = Off, 1 = Ok, 2 = Low, 3 = High |- |014 ||2 || ||ESAO DAC ||Raw value |- |016 ||2 || ||ESAI DAC ||Raw value |- |018 ||2 || ||MAG Temp ||Raw value |- |020 ||2 || ||GCU 1 Pout (if active) or Cover Position ||Raw value |- |022 ||2 || ||GCU 2 Pout (if active) or Motor Position ||Raw value |- |024 ||2 || ||LEDA or FAR offset setting ||Raw value |- |026 ||2 || ||Gain Step || |} {{3.2 RTOF Science HK Data, Length 160 words}} For correct X,Y values of HK data calculation see RTOF documentation! {| TABLE !Pos !!RSDB !!Byte !!Bit !!Name !!Data ! |- |000 ||NRNAR101: NRNDR100 ||1 || ||RTOF Science HK Header ||0xC8 |- | || ||1 || ||MC Data Retpath || |- | ||NRNDR195 || ||7 ||Cmd Error ||0 = Off, 1 = On |- | ||NRNDR101 || ||6..2 ||Spare || |- | ||NRNDR102 || ||1 ||ETS Light Path ||0 = Off, 1 = On |- | ||NRNDR103 || ||0 ||ETS Path ||0 = Off, 1 = On |- |002 ||NRNAR103 ||2 || ||RTOF HK counter ||Counter 0..65535 |- |004 ||NRNAR104 ||2 || ||RTOF Cmd counter ||Counter 0..65535 |- |006 ||NRNAR105 ||2 || ||RTOF Cmd Error counter ||Counter 0..65535 |- |008 ||NRNAR106 ||2 || ||RTOF Cmd Error position ||Hex value |- |010 ||NRNAR107 ||2 || ||RTOF Science counter ||Counter 0..65535 |- |012 ||NRNAR108 ||2 || ||RTOF Science Error counter ||Counter 0..65535 |- |014 ||NRNAR109 ||2 || ||RTOF Science Error position ||Hex value |- |016 ||NRNAR10A ||2 || ||RTOF S/W mode || |- | ||NRNDR180 || ||15 ||Spare ||0 = Off, 1 = On |- | ||NRNDR181 || ||14 ||HK_ETS ||0 = Off, 1 = On |- | ||NRNDR182 || ||13 ||HK_ETL ||0 = Off, 1 = On |- | ||NRNDR183 || ||12 ||HK_GCU_COV ||0 = Off, 1 = On |- | ||NRNDR184 || ||11..8 ||RTOF mode ||Mode No. |- | ||NRNDR185 || ||7 ||RMOD_HVOP ||0 = Off, 1 = On |- | ||NRNDR186 || ||6 ||RMOD_ETS ||0 = Off, 1 = On |- | ||NRNDR187 || ||5 ||RMOD_ETL ||0 = Off, 1 = On |- | ||NRNDR188 || ||4 ||RMOD_EX ||0 = Off, 1 = On |- | ||NRNDR189 || ||3 ||RMOD_MCP ||0 = Off, 1 = On |- | ||NRNDR18A || ||2 ||RMOD_FEC ||0 = Off, 1 = On |- | ||NRNDR18B || ||1 ||RMOD_COV ||0 = Off, 1 = On |- | ||NRNDR18C || ||0 ||RMOD_GCU ||0 = Off, 1 = On |- |018 ||NRNAR10B ||2 || ||RTOF S/W status || |- | ||NRNDR18D || ||15 ||Function active ||0 = Off, 1 = On |- | ||NRNDR18E || ||14 ||Set volt active ||0 = Off, 1 = On |- | ||NRNDR18F || ||13 ||Execution active ||0 = Off, 1 = On |- | ||NRNDR190 || ||12 ||Monitoring ||0 = Off, 1 = On |- | ||NRNDR191 || ||11 ||Spare ||0 = Off, 1 = On |- | ||NRNDR192 || ||10 ||Peakfit ||0 = Off, 1 = On |- | ||NRNDR193 || ||9 ||Spare ||0 = Off, 1 = On |- | ||NRNDR194 || ||8..0 ||RTOF status ||Hex value |- |020 ||NRNAR10C ||2 || ||Mode number ||Dec value |- |022 ||NRNAR10D ||2 || ||Status Bits 1 || |- | ||NRNDR106 || ||15 ||PSU 9kV ||0 = Off, 1 = On |- | ||NRNDR107 || ||14 ||PSU 70V ||0 = Off, 1 = On |- | ||NRNDR108 || ||13 ||PSU Ion MCP ||0 = Off, 1 = On |- | ||NRNDR109 || ||12 ||PSU Gas MCP ||0 = Off, 1 = On |- | ||NRNDR10A || ||11 ||PSU HM Power ||0 = Off, 1 = On |- | ||NRNDR10B || ||10 ||PSU Pulser ||0 = Off, 1 = On |- | ||NRNDR110 || ||9 ||ETSL Ram Test Active ||0 = Off, 1 = On |- | ||NRNDR111 || ||8 ||ETSL Ram Test Status ||0 = Off, 1 = On |- | ||NRNDR112 || ||7 ||ETSL Ram Test Data ||Dec value |- | ||NRNDR10D || ||6 ||ETS Ram Test Active ||0 = Off, 1 = On |- | ||NRNDR10E || ||5 ||ETS Ram Test Status ||0 = Off, 1 = On |- | ||NRNDR10F || ||4 ||ETS Ram Test Data ||Dec value |- | ||NRNDR10C || ||3 ||Cover near open ||0 = Off, 1 = On |- | || || ||2 ||Cover near close ||0 = Off, 1 = On |- | || || ||1 ||OS Heat mode ||0 = Off, 1 = On |- | || || ||0 ||SS Heat mode ||0 = Off, 1 = On |- |24 ||NRNAR10E ||2 || ||ETS/L Lower Read Address ||Hex value |- |26 ||NRNAR10F ||2 || ||ETS/L Upper Read Address ||Hex value |- |28 ||NRNAR110 ||2 || ||Status Bits 2 || |- | ||NRNDR113 || ||15..13 ||Spare || |- | ||NRNDR196 || ||12 ||ETSL Lower Range ||0 = Off, 1 = On |- | ||NRNDR197 || ||11 ||ETSL Upper Range ||0 = Off, 1 = On |- | ||NRNDR114 || ||10 ||FEC Fil 2 Gas ||0 = Off, 1 = On |- | ||NRNDR115 || ||9 ||FEC Fil 1 Gas ||0 = Off, 1 = On |- | ||NRNDR173 || ||8 ||FEC Fil 2 Ion ||0 = Off, 1 = On |- | ||NRNDR174 || ||7 ||FEC Fil 1 Ion ||0 = Off, 1 = On |- | ||NRNDR116 || ||6 ||FEC I Status ||0 = Ion, 1 = Gas |- | ||NRNDR117 || ||5 ||FEC EH Ion ||0 = Off, 1 = On |- | ||NRNDR118 || ||4 ||FEC EH Gas ||0 = Off, 1 = On |- | ||NRNDR119 || ||3 ||ETS/L LRA Bit 16 ||Hex value |- | ||NRNDR11A || ||2 ||ETS/L URA Bit 16 ||Hex value |- | ||NRNDR11B || ||1 ||ETS Lower Range ||0 = Off, 1 = On |- | ||NRNDR11C || ||0 ||ETS Upper Range ||0 = Off, 1 = On |- |030 ||NRNAR111 ||2 || ||Sequence number ||Dec value |- |032 ||NRNAR112 ||2 || ||MC_FEC_ION_FIHEAT_I ||I=value* X [mA] |- |034 ||NRNAR113 ||2 || ||MC_FEC_GAS_FIHEAT_I ||I = value * X [mA] |- |036 ||NRNAR114 ||2 || ||MC_FEC_ION_REP_V_#A ||V = value * X |- |038 ||NRNAR115 ||2 || ||MC_FEC_ION_REP_V_#B ||V = value * X |- |040 ||NRNAR116 ||2 || ||MC_FEC_GAS_REP_V_#A ||V = value * X |- |042 ||NRNAR117 ||2 || ||MC_FEC_GAS_REP_V_#B ||V = value * X |- |044 ||NRNAR118 ||2 || ||MC_FEC_ION_FIL_V ||V = value * X |- |046 ||NRNAR119 ||2 || ||MC_FEC_GAS_FIL_V ||V = value * X |- |048 ||NRNAR11A ||2 || ||MC_FEC_GAS_FIL_I ||I = value * X [uA] |- |050 ||NRNAR11B ||2 || ||MC_FEC_ION_ENT1_V ||V = value * X |- |052 ||NRNAR11C ||2 || ||MC_FEC_ION_ENT1_I ||I = value * X [uA] |- |054 ||NRNAR11D ||2 || ||MC_FEC_GAS_TRAP_V ||V = value * X |- |056 ||NRNAR11E ||2 || ||MC_FEC_HVVG_V ||U = value * X [V] |- |058 ||NRNAR11F ||2 || ||MC_FEC_HEAT_VG_V ||U = value * X [V] |- |060 ||NRNAR120 ||2 || ||MC_FEC_TEMP ||T = value * X [DegC] |- |062 ||NRNAR121 ||2 || ||MC_GCU_POW_#1 ||V = (value * X) - Y |- |064 ||NRNAR122 ||2 || ||MC_GCU_POW_#2 ||V = (value * X) + Y |- |066 ||NRNAR123 ||2 || ||MC_GCU_#1_I ||V = (value * 366e-6) |- |068 ||NRNAR124 ||2 || ||MC_GCU_#2_I ||V = (value * 366e-6) |- |070 ||NRNAR125 ||2 || ||MC_GCU_OUT_PRES_#1 ||V = (value * 366e-6) |- |072 ||NRNAR126 ||2 || ||MC_GCU_OUT_PRES_#2 ||V = (value * 366e-6) |- |074 ||NRNAR127 ||2 || ||MC_GCU_TEMP_PIRANI_#1 ||V = (value * 366e-6) |- |076 ||NRNAR128 ||2 || ||MC_GCU_TEMP_PIRANI_#2 ||V = (value * 366e-6) |- |078 ||NRNAR129 ||2 || ||MC_GEX_TEMP ||V = (value * 366e-6) |- |080 ||NRNAR12A ||2 || ||MC_HM_PW ||V = (value * X) + Y |- |082 ||NRNAR12B ||2 || ||MC_HM_DEL ||V = (value * X) + Y |- |084 ||NRNAR12C ||2 || ||MC_HM_TEMP ||V = (value * 366e-6) |- |086 ||NRNAR12D ||2 || ||MC_MOT_TOR ||V = (value * X) + Y |- |088 ||NRNAR12E ||2 || ||MC_MOT_TEMP ||DegC = (value * X) + Y |- |090 ||NRNAR12F ||2 || ||MC Motor Position || |- | ||NRNDR11D || ||15 ||Motor On ||0 = Off, 1 = On |- | ||NRNDR11E || ||14 ||Motor Positioning ||0 = Off, 1 = On |- | ||NRNDR11F || ||13..12 ||Velocity ||0 = 5Hz, 1 = 10Hz, 2 = 20Hz, 3 = 40Hz |- | ||NRNDR120 || ||11 ||Open Switch ||0 = Off, 1 = On |- | ||NRNDR121 || ||10 ||Closed Switch ||0 = Off, 1 = On |- | ||NRNDR122 || ||9 ||Hall Error ||0 = Off, 1 = On |- | ||NRNDR123 || ||8 ||Hall Error Fatal ||0 = Off, 1 = On |- | ||NRNDR124 || ||7..0 ||Motor Position ||Dec value |- |092 ||NRNAR130 ||2 || ||MC Power State 2 || |- | ||NRNDR125 || ||15 ||ETSL VDD On ||0 = Off, 1 = On |- | ||NRNDR126 || ||14 ||ETSL VDD Off ||0 = Off, 1 = On |- | ||NRNDR127 || ||13 ||ETSL VCC On ||0 = Off, 1 = On |- | ||NRNDR128 || ||12 ||ETSL VCC Off ||0 = Off, 1 = On |- | ||NRNDR129 || ||11 ||Heater Gas On ||0 = Off, 1 = On |- | ||NRNDR12A || ||10 ||Heater Gas Off ||0 = Off, 1 = On |- | ||NRNDR12B || ||9 ||Heater Ion On ||0 = Off, 1 = On |- | ||NRNDR12C || ||8 ||Heater Ion Off ||0 = Off, 1 = On |- | ||NRNDR12D || ||7 ||Motor Hall Enable ||0 = Off, 1 = On |- | ||NRNDR12E || ||6 ||Motor Hall Disable ||0 = Off, 1 = On |- | ||NRNDR12F || ||5 ||Motor Direction Open ||0 = Off, 1 = On |- | ||NRNDR130 || ||4 ||Motor Direction Close ||0 = Off, 1 = On |- | ||NRNDR131 || ||3 ||Motor Power On ||0 = Off, 1 = On |- | ||NRNDR132 || ||2 ||Motor Power Off ||0 = Off, 1 = On |- | ||NRNDR133 || ||1 ||Motor High Torque On ||0 = Off, 1 = On |- | ||NRNDR134 || ||0 ||Motor High Torque Off ||0 = Off, 1 = On |- |094 ||NRNAR131 ||2 || ||MC Pulser State || |- | ||NRNDR135 || ||15 ||Gas Pulser On ||0 = Off, 1 = On |- | ||NRNDR136 || ||14 ||Gas Pulser Off ||0 = Off, 1 = On |- | ||NRNDR137 || ||13 ||HM Pulser On ||0 = Off, 1 = On |- | ||NRNDR138 || ||12 ||HM Pulser Off ||0 = Off, 1 = On |- | ||NRNDR139 || ||11 ||Ion Pulser On ||0 = Off, 1 = On |- | ||NRNDR13A || ||10 ||Ion Pulser Off ||0 = Off, 1 = On |- | ||NRNDR13B || ||9..0 ||Spare || |- |096 ||NRNAR132 ||2 || ||MC Power State 6 || |- | ||NRNDR13C || ||15..10 ||Spare || |- | ||NRNDR13D || ||9 ||Disable ETS LU ||0 = Off, 1 = On |- | ||NRNDR13E || ||8 ||Enable ETS LU ||0 = Off, 1 = On |- | ||NRNDR13F || ||7 ||ETS VCA On ||0 = Off, 1 = On |- | ||NRNDR140 || ||6 ||ETS VCA Off ||0 = Off, 1 = On |- | ||NRNDR141 || ||5 ||ETS VDD On ||0 = Off, 1 = On |- | ||NRNDR142 || ||4 ||ETS VDD Off ||0 = Off, 1 = On |- | ||NRNDR143 || ||3 ||ETS VCC On ||0 = Off, 1 = On |- | ||NRNDR144 || ||2 ||ETS VCC Off ||0 = Off, 1 = On |- | ||NRNDR145 || ||1 ||ETS VSH/VE On ||0 = Off, 1 = On |- | ||NRNDR146 || ||0 ||ETS VSH/VE Off ||0 = Off, 1 = On |- |098 ||NRNAR133 ||2 || ||MC Power State 8 || |- | ||NRNDR147 || ||15 ||GCU 1 On ||0 = Off, 1 = On |- | ||NRNDR148 || ||14 ||GCU 1 Off ||0 = Off, 1 = On |- | ||NRNDR149 || ||13 ||GCU 2 On ||0 = Off, 1 = On |- | ||NRNDR14A || ||12 ||GCU 2 Off ||0 = Off, 1 = On |- | ||NRNDR14B || ||11 ||GCU 1 Valve On ||0 = Off, 1 = On |- | ||NRNDR14C || ||10 ||GCU 1 Valve Off ||0 = Off, 1 = On |- | ||NRNDR14D || ||9 ||GCU 2 Valve On ||0 = Off, 1 = On |- | ||NRNDR14E || ||8 ||GCU 2 Valve Off ||0 = Off, 1 = On |- | ||NRNDR14F || ||7 ||FEC VCC On ||0 = Off, 1 = On |- | ||NRNDR150 || ||6 ||FEC VCC Off ||0 = Off, 1 = On |- | ||NRNDR151 || ||5 ||FEC VDD On ||0 = Off, 1 = On |- | ||NRNDR152 || ||4 ||FEC VDD Off ||0 = Off, 1 = On |- | ||NRNDR153 || ||3 ||FEC Heater VG On ||0 = Off, 1 = On |- | ||NRNDR154 || ||2 ||FEC Heater VG Off ||0 = Off, 1 = On |- | ||NRNDR155 || ||1 ||FEC HV VG On ||0 = Off, 1 = On |- | ||NRNDR156 || ||0 ||FEC HV VG Off ||0 = Off, 1 = On |- |100 ||NRNAR134 ||2 || ||MC_ETSL_TEMP ||V = (value * 366e-6) |- |102 ||NRNAR135 ||2 || ||MC_ETS_TEMP_CLK ||V = (value * 366e-6) |- |104 ||NRNAR136 ||2 || ||MC_ETS_TEMP_DIG ||V = (value * 366e-6) |- |106 ||NRNAR137 ||2 || ||PSDC_ELB_I ||V = (value * X) |- |108 ||NRNAR138 ||2 || ||PSDC_ELA_I ||V = (value * X) |- |110 ||NRNAR139 ||2 || ||PSDC_GR_I ||V = (value * X) |- |112 ||NRNAR13A ||2 || ||PSDC_BP_I ||V = (value * X) |- |114 ||NRNAR13B ||2 || ||PSDC_GR_G ||V = (value * X) |- |116 ||NRNAR13C ||2 || ||PSDC_BP_G ||V = (value * X) |- |118 ||NRNAR13D ||2 || ||HV1_SL_G ||V = (value * X) + Y |- |120 ||NRNAR13E ||2 || ||HV1_A2_G ||V = (value * X) + Y |- |122 ||NRNAR13F ||2 || ||HV1_A1_G ||V = (value * X) + Y |- |124 ||NRNAR140 ||2 || ||HV1_SL_I ||V = (value * X) + Y |- |126 ||NRNAR141 ||2 || ||HV1_A2_I ||V = (value * X) + Y |- |128 ||NRNAR142 ||2 || ||HV1_A1_I ||V = (value * X) + Y |- |130 ||NRNAR143 ||2 || ||HV2_P_G ||V = (value * X) + Y |- |132 ||NRNAR144 ||2 || ||HV2_P_I ||V = (value * X) + Y |- |134 ||NRNAR145 ||2 || ||HV1_D ||V = (value * X) + Y |- |136 ||NRNAR146 ||2 || ||HV2_HM3 ||V = (value * X) + Y |- |138 ||NRNAR147 ||2 || ||HV1_R1 ||V = (value * X) + Y |- |140 ||NRNAR148 ||2 || ||HV1_R2 ||V = (value * X) + Y |- |142 ||NRNAR149 ||2 || ||HV1_RL ||V = (value * X) + Y |- |144 ||NRNAR14A ||2 || ||HV1_HM1 ||V = (value * X) + Y |- |146 ||NRNAR14B ||2 || ||HV2_HM2 ||V = (value * X) + Y |- |148 ||NRNAR14C ||2 || ||HV1_HML ||V = (value * X) + Y |- |150 ||NRNAR14D ||2 || ||HV2_M_I ||V = (value * X) + Y |- |152 ||NRNAR14E ||2 || ||HV2_M_G ||V = (value * X) + Y |- |154 ||NRNAR14F ||2 || ||PSDC_E2_I ||V = (value * X) |- |156 ||NRNAR150 ||2 || ||PSDC_Temp_BP_I ||TBD |- |158 ||NRNAR151 ||2 || ||PSDC_Temp_BP_G ||T = (value * X) + Y [DegC] |- |160 ||NRNAR152 ||2 || ||PSU_Temp_MCP_I ||TBD |- |162 ||NRNAR153 ||2 || ||PSU_Temp_MCP_G ||TBD |- |164 ||NRNAR154 ||2 || ||PSU_Temp_HV1 ||T = (value * X) + Y [DegC] |- |166 ||NRNAR155 ||2 || ||PSU_Temp_LVPS ||T = (value* X) + Y [DegC] |- |168 ||NRNAR156 ||2 || ||ETSL Status 1 || |- | ||NRNDR157 || ||15 ||ETSL Ion Pulser Status ||0 = Off, 1 = On |- | ||NRNDR158 || ||14 ||ETSL Gas Pulser Status ||0 = Off, 1 = On |- | ||NRNDR198 || ||13 ||ETSL Sync Status ||0 = Int, 1 = Ext |- | ||NRNDR159 || ||12 ||ETSL Calib. Trigger Status ||0 = Off, 1 = On |- | ||NRNDR15A || ||11 ||ETSL Data Readout Status ||0 = Off, 1 = On |- | ||NRNDR15B || ||10 ||ETSL Acquisition Status ||0 = Off, 1 = On |- | ||NRNDR15C || ||9 ||ETSL DTS Status Cancel ||0 = Event, 1 = Extraction |- | ||NRNDR15D || ||8 ||ETSL DTS Status ||0 = Off, 1 = On |- |- | ||NRNDR15E || ||7..6 ||ETSL Input Status ||0 = Ion, 1 = Calibrator, 2 = Gas, 3 = Gas |- | ||NRNDR199 || ||5 ||ETSL Cal. Power Status ||0 = Off, 1 = On |- | ||NRNDR19A || ||4 ||ETSL ADC HIRM Status ||0 = Off, 1 = On |- | ||NRNDR19B || ||3 ||ETSL RAM Threshold ||0 = Low, 1 = High |- | ||NRNDR19C || ||2 ||ETSL FIFO Threshold ||0 = Low, 1 = High |- | ||NRNDR19D || ||1 ||ETSL Latchup Enabled ||1 = Off, 0 = On |- | ||NRNDR19E || ||0 ||ETSL Latchup Detected ||0 = Off, 1 = On |- |170 ||NRNAR197 ||1 || ||ETSL Status 2 || |- | ||NRNDR1B1 || ||7 ||ETSL ADC Power Status ||0 = Off, 1 = On |- | ||NRNDR1B2 || ||6 ||ETSL ADC Threshold ||0 = High, 1 = Low |- | ||NRNDR1B3 || ||5..4 ||ETSL ML Mode ||0 = Adapt, 1 = ML31, 2 = ML63, 3 = ML255 || |- | ||NRNDR1B4 || ||3..0 ||Spare || |- | ||NRNDR1B5 ||1 || ||ETSL Threshold Level ||0 = 5.5mV, 1= 8mV, 2 = 12mV, 3 = 6.7mV, 4 = 20mV, 5= 23.4mV, 6 = 26.6mV, 7 = 33.4mV |- |172 ||NRNAR198 ||2 || ||ETSL Extraction Delay ||t = (Value * X) + Y |- |174 ||NRNAR199 ||2 || ||ETSL ToF ||t = (Value * X) + Y |- |176 ||NRNAR19A ||2 || ||ETSL Cal. Start Delay ||t = (Value * X) + Y |- |178 ||NRNAR19B ||2 || ||ETSL Cal. Pulse Height ||V = (value * X) + Y |- |180 ||NRNAR19C ||2 || ||ETSL Cal. Pulse Width ||t = (value * X) + Y |- |182 ||NRNAR157 ||2 || ||ETS Status 1 || |- | ||NRNDR15F || ||15 ||ETS Ion Pulser Status ||0 = Off, 1 = On |- | ||NRNDR160 || ||14 ||ETS Gas Pulser Status ||0 = Off, 1 = On |- | ||NRNDR161 || ||13 ||ETS Synchronization Status ||0 = Int, 1 = Ext |- | ||NRNDR162 || ||12 ||ETS Calib. Trigger Status ||0 = Off, 1 = On |- | ||NRNDR163 || ||11 ||ETS Data Readout Status ||0 = Off, 1 = On |- | ||NRNDR164 || ||10 ||ETS Acquisition Status ||0 = Off, 1 = On |- | ||NRNDR165 || ||9 ||ETS DTS Status Cancel ||0 = Event, 1 = Extraction |- | ||NRNDR166 || ||8 ||ETS DTS Status ||0 = Off, 1 = On |- | || || || || || |- | ||NRNDR167 || ||7..6 ||ETS Input Status ||0 = Ion, 1 = Calibrator, 2 = Gas, 3 = Gas |- | ||NRNDR168 || ||5 ||ETS Cal. Power Status ||0 = Off, 1 = On |- | ||NRNDR169 || ||4 ||ETS ADC HIRM Status ||0 = Off, 1 = On |- | ||NRNDR16A || ||3 ||ETS RAM Threshold ||0 = Low, 1 = High |- | ||NRNDR16B || ||2 ||ETS FIFO Threshold ||0 = Low, 1 = High |- | ||NRNDR16C || ||1 ||ETS Latchup Enabled ||1 = Off, 0 = On |- | ||NRNDR16D || ||0 ||ETS Latchup Detected ||0 = Off, 1 = On |- |184 ||NRNAR158 ||1 || ||ETS Status 2 || |- | ||NRNDR16E || ||7 ||ETS ADC Power Status ||0 = Off, 1 = On |- | ||NRNDR16F || ||6 ||ETS ADC Threshold ||0 = High, 1 = Low |- | ||NRNDR170 || ||5..4 ||ETS ML Mode ||0 = Adapt, 1 = ML31, 2 = ML63, 3 = ML255 |- | ||NRNDR171 || ||3..0 ||Spare || |- | ||NRNDR172 ||1 || ||ETS Threshold Level ||0 = 5.5mV, 1= 8mV, 2 = 12mV, 3 = 16.7mV, 4 = 20mV, 5= 23.4mV, 6 = 26.6mV, 7 = 33.4mV |- |186 ||NRNAR159 ||2 || ||ETS Extraction Delay ||t = (Value*26.5ns) + 158.5 |- |188 ||NRNAR15A ||2 || ||ETS ToF ||t = (Value*26.5ns) + 26.5 |- |190 ||NRNAR15B ||2 || ||ETS Cal. Start Delay ||t =(Value*26.5ns) + 26.5 + 141 |- |192 ||NRNAR15C ||2 || ||ETS Cal. Pulse Height ||V = (value* 2.314 mV) + 4.928 mV |- |194 ||NRNAR15D ||2 || ||ETS Cal. Pulse Width ||t = (value* 1.2615 ns) -51.728 ns |- |196 ||NRNAR15E ||2 || ||Sent Commands Counter || |- |198 ||NRNAR160: NRNDR1A0 ||1 || ||RTOF Ext. HK Header ||0xE8 |- | ||NRNDR1A1 ||1 || ||Spare || |- |200 ||NRNAR161 ||2 || ||MC_FEC_PVCC_V ||U = value *1e-3 -0.0156 [V] |- |202 ||NRNAR162 ||2 || ||MC_FEC_MVCC_V ||U = value * -7e-4 + 0.003 [V] |- |204 ||NRNAR163 ||2 || ||MC_FEC_PVDD_V ||U = value * 3.1e-3 + 0.0497 [V] |- |206 ||NRNAR164 ||2 || ||MC_FEC_MVDD_V ||U = value * -2.8e-3 + 0.1508 [V] |- |208 ||NRNAR165 ||2 || ||MC_GCU_TEMP_TANK_#1 ||V = (value * 366e-6) |- |210 ||NRNAR166 ||2 || ||MC_GCU_TEMP_TANK_#2 ||V = (value * 366e-6) |- |212 ||NRNAR167 ||2 || ||MC_GCU_IN_PRES_#1 ||V = (value * 366e-6) |- |214 ||NRNAR168 ||2 || ||MC_GCU_IN_PRES_#2 ||V = (value * 366e-6) |- |216 ||NRNAR169 ||2 || ||MC_GEX_PVCC ||V = (value * 0.001) -0.0058 |- |218 ||NRNAR16A ||2 || ||MC_GEX_VD ||V = value * 0.0083 -0.0417 [V] |- |220 ||NRNAR16B ||2 || ||MC_IEX_PVCC ||V = (value * 0.001) -0.0058 |- |222 ||NRNAR16C ||2 || ||MC_IEX_VD ||V = value * 0.0083 -0.0417 [V] |- |224 ||NRNAR16D ||2 || ||MC_HM_PVCA ||V = (value * 0.001) -0.0038 |- |226 ||NRNAR16E ||2 || ||MC_HM_VD ||V = (value * 0.0083) -0.0478 |- |228 ||NRNAR16F ||2 || ||MC_ETSL_PVCC ||V = (value * 0.0011) -0.467 |- |230 ||NRNAR170 ||2 || ||MC_ETSL_MVCA ||V = (value * -7e-4) +6.1e-3 |- |232 ||NRNAR171 ||2 || ||MC_ETSL_PVDD ||V = (value * 3.1e-3) -1.26e-2 |- |234 ||NRNAR172 ||2 || ||MC_ETSL_MVDD ||V = (value * -2.8e-3) +6.8e-3 |- |236 ||NRNAR173 ||2 || ||MC_MOT_PVCC ||V = (value * 0.0009) -0.0327 |- |238 ||NRNAR174 ||2 || ||MC_OMC_SW_OPEN || |- |240 ||NRNAR175 ||2 || ||MC_OMC_SW_CLOSED || |- |242 ||NRNAR176 ||2 || ||MC_HEAT_ION_VG ||V = (value * 0.0051) -0.036 |- |244 ||NRNAR177 ||2 || ||MC_HEAT_GAS _VG ||V = (value * 0.0052) -0.0362 |- |246 ||NRNAR178 ||2 || ||MC_ETS_33V ||V = (value * 366e-6) |- |248 ||NRNAR179 ||2 || ||MC_ETS_PVCA ||V = (value * 366e-6) |- |250 ||NRNAR17A ||2 || ||MC_ETS_MVCA ||V = (value * 366e-6) |- |252 ||NRNAR17B ||2 || ||MC_ETS_VE ||V = value * 0.0014 -0.001 [V] |- |254 ||NRNAR17C ||2 || ||MC_ETS_PVDD ||V = value * 0.0031 -0.0093 [V] |- |256 ||NRNAR17D ||2 || ||MC_ETS_MVDD ||V = value * -0.0032 + 0.1103 [V] |- |258 ||NRNAR17E ||2 || ||MC_ETS_VSH ||V = value * 0.0096 + 0.0747 [V] |- |260 ||NRNAR17F ||2 || ||MC_ETSL_PVCA ||V = (value * 1.1e-3) -0.467 |- |262 ||NRNAR180 ||2 || ||MC_Spare || |- |264 ||NRNAR181 ||2 || ||PSU_+5_Val ||V = (value * -0.001488) |- |266 ||NRNAR182 ||2 || ||PSU_-5_Val ||V = (value * -0.001428) |- |268 ||NRNAR183 ||2 || ||PSU_+15_Val ||V = (value * -0.00458) |- |270 ||NRNAR184 ||2 || ||PSU_-15_Val ||V = (value * -0.004415) |- |272 ||NRNAR185 ||2 || ||PSU_+24_Val ||V = (value * -0.006954) |- |274 ||NRNAR186 ||2 || ||PSU_+8_Val ||V = (value * -0.0014792) |- |276 ||NRNAR187 ||2 || ||PSU_+5_Add_Val ||V = (value * -0.0014798) |- |278 ||NRNAR188 ||2 || ||PSU_+40_Val ||V = (value * -0.0174) -0.4234 |- |280 ||NRNAR189 ||2 || ||PSU_+70_Val ||V = (value * -0.0107) + 4.173 |- |282 ||NRNAR18A ||2 || ||PSU_+5_Cur ||I = value * -0.4383 + 30 [mA] |- |284 ||NRNAR18B ||2 || ||PSU_-5_Cur ||I = value * -0.1508 -28.016 [mA] |- |286 ||NRNAR18C ||2 || ||PSU_+15_Cur ||I = value * -0.1133 -16.502 [mA] |- |288 ||NRNAR18D ||2 || ||PSU_-15_Cur ||I = value * -0.0553 -24.715 [mA] |- |290 ||NRNAR18E ||2 || ||PSU_+24_Cur ||I = value * -0.1285 + 33.042 [mA] |- |292 ||NRNAR18F ||2 || ||PSU_+40/70_Cur ||I = value * -0.0174 -0.4234 [mA] |- |294 ||NRNAR190 ||2 || ||PSU_+5_Add_Cur ||I = value * -0.0571 + 3.4918 [mA] |- |296 ||NRNAR191 ||2 || ||PSU_+8_Cur ||I = value * -0.0254 + 5.663 [mA] |- | || || || || || |- |298 ||NRNAR192 ||4 || ||ETSL NOE || |- | || || ||31..25 ||Spare || |- | ||NRNDR1A5 || ||24..17 ||NOE High value ||Dec value |- | || || ||16..9 ||Spare || |- | ||NRNDR1A6 || ||8..1 ||NOE Low value ||Dec value |- | ||NRNDR1A7 || ||0 ||NOE Status ||0 = Continuous, 1 = NOE |- |302 ||NRNAR193 ||2 || ||ETS NOE High || |- | || || ||15..9 ||Spare || |- | ||NRNDR1A2 || ||8..1 ||NOE High value ||Dec value |- |304 ||NRNAR194 ||2 || ||ETS NOE Low || |- | || || ||15..9 ||Spare || |- | ||NRNDR1A3 || ||8..1 ||NOE Low value ||Dec value |- | ||NRNDR1A4 || ||0 ||NOE Status ||0 = Continuous, 1 = NOE |- |306 ||NRNAR195 ||2 || ||Spare 1 || |- |308 ||NRNAR196 ||2 || ||Spare 2 || |- |310 || ||4 || ||ETS/L Start time ||S/C time in sec. |- |311 || ||4 || ||ETS/L Stop time ||S/C time in sec. |- |312 || ||2 || ||Dummy ||Fill bytes |}