IMPACT SEP HOUSEKEEPING TELEMETRY FORMAT NOTE: Byte order documented here is as the packet is created in SEP-Central. Revision: T 2006-Feb 7 SEP SOH Start ApID 241 Total packet Length= 272 OK Addressing IDENTIFIER Lng OFFSET TYPE WIDTH A1 A0 Units RL YL YH RH DESCRIPTION Module Mux Source Validity GSE Display UTCs 4 6 U1234 32 1.00000 0.00000 Sec UTC Seconds since epoch SEPInterface SEP UTCf 1 10 UB 8 0.00391 0.00000 Sec UTC Seconds fraction (1/256) SEPInterface SEP SEPTNS_Temp 1 11 UB 8 0.98590 -165.62000 C -40 -30 40 50 Temperature of the electronics SEPInterface SEPT SEPTNS_CS0 1 12 UB 8 7.65000 -479.80000 nA NA NA 1000 1300 Leakage current of center segment linked to PDFE0 SEPInterface SEPT SEPTNS_CS1 1 13 UB 8 7.01000 -402.80000 nA NA NA 1000 1300 Leakage current of center segment linked to PDFE1 SEPInterface SEPT SEPTNS_CS2 1 14 UB 8 6.75000 -425.30000 nA NA NA 1000 1300 Leakage current of center segment linked to PDFE2 SEPInterface SEPT SEPTNS_CS3 1 15 UB 8 6.43000 -324.10000 nA NA NA 1000 1300 Leakage current of center segment linked to PDFE3 SEPInterface SEPT SEPTNS_GR0 1 16 UB 8 6.89000 -394.20000 nA NA NA 1000 1300 Leakage current of guard ring linked to PDFE0 SEPInterface SEPT SEPTNS_GR1 1 17 UB 8 7.26000 -398.20000 nA NA NA 1000 1300 Leakage current of guard ring linked to PDFE1 SEPInterface SEPT SEPTNS_GR2 1 18 UB 8 7.09000 -401.30000 nA NA NA 1000 1300 Leakage current of guard ring linked to PDFE2 SEPInterface SEPT SEPTNS_GR3 1 19 UB 8 7.26000 -325.90000 nA NA NA 1000 1300 Leakage current of guard ring linked to PDFE3 SEPInterface SEPT SEPTNS_SinglesCtr 3 20 U123 24 1.00000 0.00000 counts/min NA NA 1500000 15000000 "24-bit singles counter, not compressed" SEPInterface SEPT SEPTNS_STATUS 1 23 UB 8 1.00000 0.00000 binary see notes below SEPInterface SEPT SEPTE_Temp 1 24 UB 8 0.98590 -165.62000 C -40 -30 40 50 Temperature of the electronics SEPInterface SEPT SEPTE_CS0 1 25 UB 8 6.73000 -544.50000 nA NA NA 1000 1300 Leakage current of center segment linked to PDFE0 SEPInterface SEPT SEPTE_CS1 1 26 UB 8 6.71000 -523.10000 nA NA NA 1000 1300 Leakage current of center segment linked to PDFE1 SEPInterface SEPT SEPTE_CS2 1 27 UB 8 6.03000 -406.20000 nA NA NA 1000 1300 Leakage current of center segment linked to PDFE2 SEPInterface SEPT SEPTE_CS3 1 28 UB 8 6.21000 -432.80000 nA NA NA 1000 1300 Leakage current of center segment linked to PDFE3 SEPInterface SEPT SEPTE_GR0 1 29 UB 8 6.81000 -539.40000 nA NA NA 1000 1300 Leakage current of guard ring linked to PDFE0 SEPInterface SEPT SEPTE_GR1 1 30 UB 8 6.27000 -463.90000 nA NA NA 1000 1300 Leakage current of guard ring linked to PDFE1 SEPInterface SEPT SEPTE_GR2 1 31 UB 8 6.39000 -456.50000 nA NA NA 1000 1300 Leakage current of guard ring linked to PDFE2 SEPInterface SEPT SEPTE_GR3 1 32 UB 8 5.95000 -353.90000 nA NA NA 1000 1300 Leakage current of guard ring linked to PDFE3 SEPInterface SEPT SEPTE_SinglesCtr 3 33 U123 24 1.00000 0.00000 counts/min NA NA 1500000 15000000 "24-bit singles counter, not compressed" SEPInterface SEPT SEPTE_STATUS 1 36 UB 8 1.00000 0.00000 binary see notes below SEPInterface SEPT HET_Temp1 1 37 UB 8 See note below See note below C -40 -25 35 40 "HET Board Temperature 1, see notes below" SEPInterface HET HET_Temp2 1 38 UB 8 See note below See note below C -40 -25 35 40 "HET Board Temperature 2, see notes below" SEPInterface HET HET_PHA0_Chan_ID 1 39 UB 8 PHASIC 0 Channel ID SEPInterface HET HET_PHA0_Preamp 1 40 UB 8 -0.01953 4.98015 V PHASIC 0 Preamp DC output SEPInterface HET HET_PHA0_HG_Thresh 2 41 U12 16 PHASIC 0 high gain threshold SEPInterface HET HET_PHA0_LG_Thresh 2 43 U12 16 PHASIC 0 low gain threshold SEPInterface HET HET_PHA0_Leakage 2 45 U12 16 PHASIC 0 Leakage Current SEPInterface HET HET_PHA1_Chan_ID 1 47 UB 8 PHASIC 1 Channel ID SEPInterface HET HET_PHA1_Preamp 1 48 UB 8 -0.01953 4.98015 V PHASIC 1 Preamp DC output SEPInterface HET HET_PHA1_HG_Thresh 2 49 U12 16 PHASIC 1 high gain threshold SEPInterface HET HET_PHA1_LG_Thresh 2 51 U12 16 PHASIC 1 low gain threshold SEPInterface HET HET_PHA1_Leakage 2 53 U12 16 PHASIC 1 Leakage Current SEPInterface HET HET_Error_Flags 2 55 U12 16 bit-field Error Flags (16 bits) SEPInterface HET HET_Software_version_ID 2 57 U12 16 Software version ID SEPInterface HET HET_N_invalid_token 2 59 U12 16 N invalid token SEPInterface HET HET_N_invalid _trigger 2 61 U12 16 N invalid trigger SEPInterface HET HET_N_lost_raw_events 2 63 U12 16 N lost raw events SEPInterface HET HET_Mjrfrm_num 2 65 U123 16 Major frame number SEPInterface HET HET_Table_chksum 3 67 UB 24 Table checksum HET_DAC_PHASIC0 1 70 UB 8 "24-bit DAC value, bits 0:7 (PHASIC 0 DAC)" HET_DAC_PHASIC1 1 71 UB 8 "24-bit DAC value, bits 8:15 (PHASIC 1 DAC)" HET_DAC_BITS 1 72 UB 8 "24-bit DAC value, bits 16:23 (un:4, mux:2, rng1:1, rng0:1)" HET_Spare 5 73 BUF 40 TBD HET spare HK space SEPInterface HET LET_L2A0_Ileakage 1.25 78 ? 10 uA NA NA 1 2 LET L2A0 detector leakage current SEPInterface LET LET_L2A1_Ileakage 1.25 79.25 ? 10 uA NA NA 1 2 LET L2A1 detector leakage current SEPInterface LET LET_L2A2_Ileakage 1.25 80.5 ? 10 uA NA NA 1 2 LET L2A2 detector leakage current SEPInterface LET LET_L2A3_Ileakage 1.25 81.75 ? 10 uA NA NA 1 2 LET L2A3 detector leakage current SEPInterface LET LET_L2A4_Ileakage 1.25 83 ? 10 uA NA NA 1 2 LET L2A4 detector leakage current SEPInterface LET LET_L2A5_Ileakage 1.25 84.25 ? 10 uA NA NA 1 2 LET L2A5 detector leakage current SEPInterface LET LET_L2A6_Ileakage 1.25 85.5 ? 10 uA NA NA 1 2 LET L2A6 detector leakage current SEPInterface LET LET_L2A7_Ileakage 1.25 86.75 ? 10 uA NA NA 1 2 LET L2A7 detector leakage current SEPInterface LET LET_L2A8_Ileakage 1.25 88 ? 10 uA NA NA 1 2 LET L2A8 detector leakage current SEPInterface LET LET_L2A9_Ileakage 1.25 89.25 ? 10 uA NA NA 1 2 LET L2A9 detector leakage current SEPInterface LET LET_L3Ai_Ileakage 1.25 90.5 ? 10 uA NA NA 10 15 LET L3Ai detector leakage current SEPInterface LET LET_L3Ao_Ileakage 1.25 91.75 ? 10 uA NA NA 20 25 LET L3Ao detector leakage current SEPInterface LET LET_L1A0a_Ileakage 1.25 93 ? 10 uA NA NA 5 7 LET L1A0a detector leakage current SEPInterface LET LET_L1A0b_Ileakage 1.25 94.25 ? 10 uA NA NA 4 6 LET L1A0b detector leakage current SEPInterface LET LET_L1A0c_Ileakage 1.25 95.5 ? 10 uA NA NA 5 7 LET L1A0c detector leakage current SEPInterface LET LET_L1A1a_Ileakage 1.25 96.75 ? 10 uA NA NA 5 7 LET L1A1a detector leakage current SEPInterface LET LET_L1A1b_Ileakage 1.25 98 ? 10 uA NA NA 4 6 LET L1A1b detector leakage current SEPInterface LET LET_L1A1c_Ileakage 1.25 99.25 ? 10 uA NA NA 5 7 LET L1A1c detector leakage current SEPInterface LET LET_L1A2a_Ileakage 1.25 100.5 ? 10 uA NA NA 5 7 LET L1A2a detector leakage current SEPInterface LET LET_L1A2b_Ileakage 1.25 101.75 ? 10 uA NA NA 4 6 LET L1A2b detector leakage current SEPInterface LET LET_L1A2c_Ileakage 1.25 103 ? 10 uA NA NA 5 7 LET L1A2c detector leakage current SEPInterface LET LET_L1A3a_Ileakage 1.25 104.25 ? 10 uA NA NA 5 7 LET L1A3a detector leakage current SEPInterface LET LET_L1A3b_Ileakage 1.25 105.5 ? 10 uA NA NA 4 6 LET L1A3b detector leakage current SEPInterface LET LET_L1A3c_Ileakage 1.25 106.75 ? 10 uA NA NA 5 7 LET L1A3c detector leakage current SEPInterface LET LET_L1A4a_Ileakage 1.25 108 ? 10 uA NA NA 5 7 LET L1A4a detector leakage current SEPInterface LET LET_L1A4b_Ileakage 1.25 109.25 ? 10 uA NA NA 4 6 LET L1A4a detector leakage current SEPInterface LET LET_L1A4c_Ileakage 1.25 110.5 ? 10 uA NA NA 5 7 LET L1A4c detector leakage current SEPInterface LET LET_L1B0a_Ileakage 1.25 111.75 ? 10 uA NA NA 5 7 LET L1B0a detector leakage current SEPInterface LET LET_L1B0b_Ileakage 1.25 113 ? 10 uA NA NA 4 6 LET L1B0b detector leakage current SEPInterface LET LET_L1B0c_Ileakage 1.25 114.25 ? 10 uA NA NA 5 7 LET L1B0c detector leakage current SEPInterface LET LET_L1B1a_Ileakage 1.25 115.5 ? 10 uA NA NA 5 7 LET L1B1a detector leakage current SEPInterface LET LET_L1B1b_Ileakage 1.25 116.75 ? 10 uA NA NA 4 6 LET L1B1b detector leakage current SEPInterface LET LET_L1B1c_Ileakage 1.25 118 ? 10 uA NA NA 5 7 LET L1B1c detector leakage current SEPInterface LET LET_L1B2a_Ileakage 1.25 119.25 ? 10 uA NA NA 5 7 LET L1B2a detector leakage current SEPInterface LET LET_L1B2b_Ileakage 1.25 120.5 ? 10 uA NA NA 4 6 LET L1B2b detector leakage current SEPInterface LET LET_L1B2c_Ileakage 1.25 121.75 ? 10 uA NA NA 5 7 LET L1B2c detector leakage current SEPInterface LET LET_L1B3a_Ileakage 1.25 123 ? 10 uA NA NA 5 7 LET L1B3a detector leakage current SEPInterface LET LET_L1B3b_Ileakage 1.25 124.25 ? 10 uA NA NA 4 6 LET L1B3b detector leakage current SEPInterface LET LET_L1B3c_Ileakage 1.25 125.5 ? 10 uA NA NA 5 7 LET L1B3c detector leakage current SEPInterface LET LET_L1B4a_Ileakage 1.25 126.75 ? 10 uA NA NA 5 7 LET L1B4a detector leakage current SEPInterface LET LET_L1B4b_Ileakage 1.25 128 ? 10 uA NA NA 4 6 LET L1B4a detector leakage current SEPInterface LET LET_L1B4c_Ileakage 1.25 129.25 ? 10 uA NA NA 5 7 LET L1B4c detector leakage current SEPInterface LET LET_L2B0_Ileakage 1.25 130.5 ? 10 uA NA NA 1 2 LET L2B0 detector leakage current SEPInterface LET LET_L2B1_Ileakage 1.25 131.75 ? 10 uA NA NA 1 2 LET L2B1 detector leakage current SEPInterface LET LET_L2B2_Ileakage 1.25 133 ? 10 uA NA NA 1 2 LET L2B2 detector leakage current SEPInterface LET LET_L2B3_Ileakage 1.25 134.25 ? 10 uA NA NA 1 2 LET L2B3 detector leakage current SEPInterface LET LET_L2B4_Ileakage 1.25 135.5 ? 10 uA NA NA 1 2 LET L2B4 detector leakage current SEPInterface LET LET_L2B5_Ileakage 1.25 136.75 ? 10 uA NA NA 1 2 LET L2B5 detector leakage current SEPInterface LET LET_L2B6_Ileakage 1.25 138 ? 10 uA NA NA 1 2 LET L2B6 detector leakage current SEPInterface LET LET_L2B7_Ileakage 1.25 139.25 ? 10 uA NA NA 1 2 LET L2B7 detector leakage current SEPInterface LET LET_L2B8_Ileakage 1.25 140.5 ? 10 uA NA NA 1 2 LET L2B8 detector leakage current SEPInterface LET LET_L2B9_Ileakage 1.25 141.75 ? 10 uA NA NA 1 2 LET L2B9 detector leakage current SEPInterface LET LET_L3Bi_Ileakage 1.25 143 ? 10 uA NA NA 10 15 LET L3Bi detector leakage current SEPInterface LET LET_L3Bo_Ileakage 1.25 144.25 ? 10 uA NA NA 20 25 LET L3Bo detector leakage current SEPInterface LET LET_spare 0.5 145.5 ? 4 LET SPARE SEPInterface LET LET_Temp0 1 146 UB 8 See note below See note below C -40 -25 35 40 LET Board Temperature 0 SEPInterface LET LET_Temp1 1 147 UB 8 See note below See note below C -40 -25 35 40 LET Board Temperature 1 SEPInterface LET LET_Temp2 1 148 UB 8 See note below See note below C -40 -25 35 40 LET Board Temperature 2 SEPInterface LET LET_Temp3 1 149 UB 8 See note below See note below C -40 -25 35 40 LET Board Temperature 3 SEPInterface LET LET_CmdTable 30 150 BUF 240 binary "TBD LET command table, PHASIC status, look-up tables, etc." SEPInterface LET SIT_MJR_FRM# 2 180 U21 16 SIT major frame number SEPInterface SIT SIT_CalGain 2 182 I21 16 0.00049 0.00000 SIT Calibration gain SEPInterface SIT SIT_Cal_Fset 2 184 I21 16 -0.01563 0.00000 SIT Calibration offset SEPInterface SIT SIT_ErrFlags 1 186 UB 8 bit-field SIT Calibration error flags (see below) SEPInterface SIT SIT_HVMon 1 187 UB 8 See note below See note below V -120 -100 3300 3400 HV Monitor SEPInterface SIT SIT_DTOF_Temp 1 188 UB 8 See note below See note below C -50 -45 55 65 DTOF Temperature SEPInterface SIT SIT_Foil_Temp 1 189 UB 8 See note below See note below C -50 -45 35 38 Foil Temperature SEPInterface SIT SIT_SSD_Temp 1 190 UB 8 See note below See note below C -50 -45 35 38 SSD Temperature SEPInterface SIT SIT_P33Mon 1 191 UB 8 See note below See note below V 3 3.1 3.4 3.5 +3.3 Volts SEPInterface SIT SIT_P25Mon 1 192 UB 8 See note below See note below V 2.25 2.35 2.55 2.65 +2.5 Volts SEPInterface SIT SIT_P5DMon 1 193 UB 8 See note below See note below V 4.6 4.8 5.3 5.5 +5D Volts SEPInterface SIT SIT_P6Mon 1 194 UB 8 See note below See note below V 5.6 5.8 6.3 6.5 +6 Volts SEPInterface SIT SIT_Softversion 2 195 U21 16 SIT Software version tag SEPInterface SIT SIT_TableChecksum 3 197 U321 24 SIT Table area checksum SEPInterface SIT SIT_SoftErrorFlags 3 200 U321 24 bit-field SIT Software error flags (see below) SEPInterface SIT SIT_Spare 13 203 BUF 104 TBD SIT spare HK space SEPInterface SIT SEP_APRBTemp 1 216 UB 8 See note below See note below C -40 -20 40 50 Analog/Post-Regulator Board Temperature SEPInterface SEP SEP_BSBTemp 1 217 UB 8 See note below See note below C -40 -20 40 50 Bias Supply Board Temperature SEPInterface SEP SEP_LBTemp 1 218 UB 8 See note below See note below C -40 -20 40 50 Logic Board Temperature SEPInterface SEP SEP_LVPSTemp 1 219 UB 8 See note below See note below C -40 -20 70 80 LVPS Board Temperature SEPInterface SEP SEP_Spare0 1 220 UB 8 -0.01 -0.005 0.005 0.01 SEP Spare 0 SEPInterface SEP SEP_Spare1 1 221 UB 8 -0.01 -0.005 0.005 0.01 SEP Spare 1 SEPInterface SEP SEP_Spare2 1 222 UB 8 -0.01 -0.005 0.005 0.01 SEP Spare 2 SEPInterface SEP SEP_P26DMon 1 223 UB 8 0.03906 -5.00000 V 2.25 2.38 2.63 2.75 +2.6D LVPS Monitor SEPInterface SEP SEP_P34DMon 1 224 UB 8 0.03906 -5.00000 V 3.00 3.14 3.47 3.60 +3.4D LVPS Monitor SEPInterface SEP SEP_P51DMon 1 225 UB 8 0.04875 -6.24000 V 4.50 4.75 5.25 5.50 +5.1D LVPS Monitor SEPInterface SEP SEP_N52DMon 1 226 UB 8 0.04875 -6.24000 V -5.46 -5.33 -5.07 -4.94 -5.2D LVPS Monitor SEPInterface SEP SEP_P13AMon 1 227 UB 8 0.12754 -16.32500 V 11.70 12.35 14.30 14.95 +13A LVPS Monitor SEPInterface SEP SEP_N13AMon 1 228 UB 8 0.12754 -16.32500 V -14.95 -14.30 -12.35 -11.70 -13A LVPS Monitor SEPInterface SEP SEP_P6AMon 1 229 UB 8 0.05855 -7.49500 V 5.40 5.70 6.60 6.90 +6A LVPS Monitor SEPInterface SEP SEP_N6AMon 1 230 UB 8 0.05855 -7.49500 V -6.90 -6.60 -5.70 -5.40 -6A LVPS Monitor SEPInterface SEP SEP_N5RefMon 1 231 UB 8 0.04875 -6.24000 V -5.15 -5.08 -4.93 -4.85 -5VRef Voltage Monitor SEPInterface SEP SIT_P51AMon 1 232 UB 8 0.04875 -6.24000 V 4.95 5.00 5.15 5.20 SIT +5.1A Voltage Monitor SEPInterface SEP SEPTNS_P26DMon 1 233 UB 8 0.03906 -5.00000 V 2.44 2.50 2.70 2.76 SEPT-NS +2.6D LVPS Monitor SEPInterface SEP SEPTNS_P53DMon 1 234 UB 8 0.04875 -6.24000 V 4.98 5.09 5.57 5.67 SEPT-NS +5.3D LVPS Monitor SEPInterface SEP SEPTNS_P56AMon 1 235 UB 8 0.04875 -6.24000 V 5.26 5.38 5.82 5.94 SEPT-NS +5.6A LVPS Monitor SEPInterface SEP SEPTE_P26DMon 1 236 UB 8 0.03906 -5.00000 V 2.44 2.50 2.70 2.76 SEPT-E +2.6D LVPS Monitor SEPInterface SEP SEPTE_P53DMon 1 237 UB 8 0.04875 -6.24000 V 4.98 5.09 5.57 5.67 SEPT-E +5.3D LVPS Monitor SEPInterface SEP SEPTE_P56AMon 1 238 UB 8 0.04875 -6.24000 V 5.26 5.38 5.82 5.94 SEPT-E +5.6A LVPS Monitor SEPInterface SEP SEP_BiasNMon 1 239 UB 8 -1.75781 225.00000 V -140.00 -130.00 -100.00 -90.00 Bias Supply Current Monitor - Negative SEPInterface SEP SEP_BiasPMon 1 240 UB 8 3.90625 -500.00000 V 280.00 290.00 340.00 350.00 Bias Supply Current Monitor - Positive SEPInterface SEP SEP_CmdTable 30 241 BUF 240 binary "TBD SEP_Central command table, SEPT look-up table, etc." SEPInterface SEP Checksum_byte 1 271 8 Sum of all 272 bytes should equal zero SEPInterface SEP 272 Total Bytes 266 272 <==OK Notes: A0 and A1 are conversion factors to engineering units: Converted Value = A0 + A1*Telemetry "For many items, we will probably need to provide two tables - one for FM1, the other for FM2 (ahead and behind…)" "For SEPT leakage currents, the conversion factors are for ambient temperature only. We may need to include the" temperature as a parameter in the calculation of physical units "In bit-field definitions below, bit 0 refers to the ls-bit of a byte." N_SIT_SoftErrorFlags Bit Contains 0 Receive queue full 1 Transmit queue full 2 command queue full 3 Command buffer overflow 4 Command handler timeout 5 Command syntax error 6 Command processing error 7 Callback timer error N_SIT_ErrFlags Bit Contains 0 Cal2 == Cal1 1 Cal2 < Cal1 2 Gain < 6 3 Gain > 13 4 Offset < 10 5 Offset > 22 N_SEPTNS_STATUS Bit Meaning flags in software 0 zero means SEPT NS A-side housekeeping is invalid SPNAT-OK 1 zero means SEPT NS B-side housekeeping is invalid SPNBT-OK 2 "zero means SEPT-NS TA temperature is reported, 1 means TB temperature is reported" SPN-TUSED 3 zero means that SEPT-NS response to cReadDate/cClrIRQ commands is invalid NSTAT-OK "4,5,6" address of singles counter reported in THIS CYCLE 7 1 means that SEPT-NS is in tgen mode SPNTGEN N_SEPTE_STATUS Bit Meaning flags in software 0 zero means SEPT E A-side housekeeping is invalid SPEAT-OK 1 zero means SEPT E B-side housekeeping is invalid SPEBT-OK 2 "zero means SEPT-E TA temperature is reported, 1 means TB temperature is reported" SPE-TUSED 3 zero means that SEPT-E response to cReadDate/cClrIRQ commands is invalid ESTAT-OK "4,5,6" address of singles counter reported in THIS CYCLE 7 1 means that SEPT-E is in tgen mode SPETGEN N_LET_Ileakage Leakage currents are encoded into HK stream in 10 bits. Let the least significant 5 bits be denoted by N1 (= 0 to 31) and the most significant 5 bits by N2 (= 0 to 31). Then leakage current for a given detector can be calculated from: Det. leakage current [uA] = (N2 - N2o) * 1uA + (N1 - N1o) * 39.06nA / 1000 where N2o and N1o depend on the detector type as shown below: N2o N1o L1 0 18 L2 1 0 L3 2 23 N_LET_Temp0 Temp = A + B*ADC + C*ADC^2 + D*ADC^3 + E*ADC^4 + F*ADC^5 N_LET_Temp1 A 8.5021200E+01 Example N_LET_Temp2 B -1.8426540E+00 ADC Temp (deg C) N_LET_Temp3 C 2.1019000E-02 200.00 -24.81 D -1.4837630E-04 E 5.3506590E-07 F -7.8485070E-10 N_SEP_APRBTemp Temp = A + B*ADC + C*ADC^2 + D*ADC^3 + E*ADC^4 + F*ADC^5 N_SEP_BSBTemp A 1.1787263E+04 Example N_SEP_LBTemp B -2.9911919E+02 ADC Temp (deg C) N_SEP_LVPSTemp C 3.0662900E+00 225.00 0.43 D -1.5755810E-02 E 4.0462550E-05 F -4.1530380E-08 N_HET_ADCTemp 1 Temp = 39.4 * tan(0.0085 * (ADC - 116)) + 10 N_HET_ADCTemp 2 where the operand of the tangent function is in radians Example ADC Temp (deg C) 164.00 27.03 SIT analog Housekeeping Conversion FM1 (ahead) FM2 (behind) A0 A1 A0 A1 "For SIT temperatures, an additional corection is required." N_SIT_HVMon 4133.526 -16.587 4133.526 -16.587 N_SIT_DTOF_Temp 40.3893 -0.3556 44.8682 -0.4855 Tcorr = T - (Vref -P6)*Vslope N_SIT_Foil_Temp 40.1166 -0.3373 48.797 -0.4889 where T = uncorrected temperature calculated using coeffecients in table to the left N_SIT_SSD_Temp 40.6621 -0.3739 48.9395 -0.4821 where P6 = SIT_P6Mon voltage calculated using coeffecients in table to the left N_SIT_P33Mon 5.1 -0.02 5.1 -0.02 where Vref and Vslope are defined below N_SIT_P25Mon 5.1 -0.02 5.1 -0.02 N_SIT_P5DMon 10.2 -0.04 10.2 -0.04 FM1 (ahead) FM2 (abehind) N_SIT_P6Mon 10.1911 -0.0412 10.1911 -0.0412 Vref Vslope Vref Vslope 6.03 -34.83 6.07 -34.83