LAS Header
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Specific Well--15-129-21957
LAS Header |
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~VERSION INFORMATION
VERS. 2.0 :CWLS Log ASCII Standard - VERSION 2.0
WRAP. NO :One Line per depth step
PROD. Schlumberger :LAS Producer
PROG. DLIS to ASCII 2.3 :LAS Program name and version
CREA. 2013/12/13 11:33 :LAS Creation date {YYYY/MM/DD hh:mm}
DLIS_CREA. 2013-Dec-13 10:48 :DLIS Creation date and time {YYYY-MMM-DD hh:mm}
SOURCE. New_Template__13Dec13_010612__13Dec13_104801.dlis :DLIS File Name
FILE-ID. MaxWell_6Dlis :File Identification Number
#--------------------------------------------------
~WELL INFORMATION
#MNEM.UNIT DATA DESCRIPTION
#---- ------ -------------- -----------------------------
STRT .F 5270.5 :START DEPTH
STOP .F 1460.5 :STOP DEPTH
STEP .F -0.5 :STEP
NULL . -999.25 :NULL VALUE
COMP . Anadarko E&P Onshore LLC
:COMPANY
WELL . Murphy 1-31 M :WELL
FLD . Greenwood :FIELD
LOC . 497.46' FEL & 1335.13' FSL :LOCATION
CNTY . Morton :COUNTY
STAT . Kansas :STATE
CTRY . :COUNTRY
API . 15-129-21957 :API NUMBER
UWI . :UNIQUE WELL ID
DATE . 12-Dec-2013 :LOG DATE {DD-MMM-YYYY}
SRVC . Schlumberger :SERVICE COMPANY
LATI .DEG 37° 13' 5.029" N :LATITUDE
LONG .DEG 101° 55' 10.591" W :LONGITUDE
GDAT . :GeoDetic Datum
SECT . 31 :Section
RANG . 42W
:Range
TOWN . 32S :Township
#-----------------------------------------------------------------------------
~PARAMETER INFORMATION
#MNEM.UNIT VALUE DESCRIPTION
#---- ----- -------------------- ------------------------
RUN . Two :RUN NUMBER
PDAT . MSL :Permanent Datum
EPD .C3 0.000000 :Elevation of Permanent Datum above Mean Sea Level
LMF . GL :Logging Measured From (Name of Logging Elevation Reference)
APD .F 3538.189941 :Elevation of Depth Reference (LMF) above Permanent Datum
#-----------------------------------------------------------------------------
~CURVE INFORMATION
#MNEM.UNIT API CODE DESCRIPTION
#---- ----- -------- -----------------------
DEPT .F
:DEPTH (BOREHOLE) {F10.1}
TDEP ..1IN :Tool Depth {F13.4}
ANOR .M/S2 :Acceleration Computed Norm (vector length) {F13.4}
FINC .DEG :Magnetic Field Inclination {F13.4}
FNOR .OER :Magnetic Field Intensity Computed Norm {F13.4}
HAZIM.DEG :Hole Azimuth Relative to True North {F13.4}
HAZI .DEG :Hole Azimuth Relative to True North {F13.4}
P1AZ .DEG :Pad 1 Azimuth in Horizontal Plane (0 = True North) {F13.4}
RB .DEG :Relative Bearing {F13.4}
SDEVM.DEG :Sonde Deviation {F13.4}
SDEV .DEG :Sonde Deviation {F13.4}
CRD1_PPC1.IN
:PPC1 Radius 1 Arm Bending Compensated {F13.4}
CRD2_PPC1.IN :PPC1 Radius 2 Arm Bending Compensated {F13.4}
CRD3_PPC1.IN :PPC1 Radius 3 Arm Bending Compensated {F13.4}
CRD4_PPC1.IN :PPC1 Radius 4 Arm Bending Compensated {F13.4}
ECO_PPC1.IN :Ellipse Center Offset {F13.4}
EHD1_PPC1.IN :PPC1 Enhanced Hole Diameter 1 (ellipse-based algorithm) {F13.4}
EHD2_PPC1.IN :PPC1 Enhanced Hole Diameter 2 (ellipse-based algorithm) {F13.4}
ELA_PPC1.IN :Ellipse Long Axis {F13.4}
EMID_PPC1.IN :Ellipse Minimum Distance {F13.4}
ERA_PPC1.DEG :Angle between Ellipse Long Axis and Line of Caliper 1-3 {F13.4}
ESA_PPC1.IN
:Ellipse Short Axis {F13.4}
ETC1_PPC1.IN :PPC1 Tool Center Position on the Caliper #1 and #3 log {F13.4}
ETC2_PPC1.IN :PPC1 Tool Center Position on the Caliper #2 and #4 log {F13.4}
HD1_PPC1.IN :PPC1 Hole Diameter 1 {F13.4}
HD2_PPC1.IN :PPC1 Hole Diameter 2 {F13.4}
HDOV_PPC1.IN :Hole Diameter from Oval {F13.4}
LSR_PPC1. :Long and Short Axis Ratio {F13.4}
OSDV_PPC1. :Oval Standard Deviation {F13.4}
PHWA_PPC1.DEG :Pad Hole-Wall Angle (0 = caliper arm perpendicular to hole wall) {F13.4}
PWLIND_PPC1. :PPC1 Power Level Indicator {F13.4}
RB_PPC1.DEG
:PPC1 Relative Bearing {F13.4}
RD1_PPC1.IN :PPC1 Radius 1 Calibrated {F13.4}
RD2_PPC1.IN :PPC1 Radius 2 Calibrated {F13.4}
RD3_PPC1.IN :PPC1 Radius 3 Calibrated {F13.4}
RD4_PPC1.IN :PPC1 Radius 4 Calibrated {F13.4}
REA_PPC1.DEG :Relative Ellipse Azimuth {F13.4}
SRD1_PPC1.IN :PPC1 Synthetic Radius 1 {F13.4}
SRD2_PPC1.IN :PPC1 Synthetic Radius 2 {F13.4}
BMK .6PSI :Bulk Modulus - K {F13.4}
CFRQ_MFL.HZ :Cramer-Rao Center Frequency for Tracked STC (Slowness Time Coherence) Peak for Far Monopole Low Frequency Drive Waveform Firing {F13.4}
DCSI1.
:Data Copy Status Indicator for Waveform Array 1 {F13.4}
DCSI2. :Data Copy Status Indicator for Waveform Array 2 {F13.4}
DCSI3. :Data Copy Status Indicator for Waveform Array 3 {F13.4}
DCSI4. :Data Copy Status Indicator for Waveform Array 4 {F13.4}
DCSI5. :Data Copy Status Indicator for Waveform Array 5 {F13.4}
DCSI6. :Data Copy Status Indicator for Waveform Array 6 {F13.4}
DTCO3.US/F :Compressional Slowness from Measurement 3 {F13.4}
DTCO .US/F :Delta-T Compressional {F13.4}
DTSH3.US/F :Shear Slowness from Measurement 3 {F13.4}
DTSH5.US/F :Shear Slowness from Measurement 5 {F1
3.4}
DTSH6.US/F :Shear Slowness from Measurement 6 {F13.4}
DTSM .US/F :Delta-T Shear {F13.4}
DTSTE.US/F :The elastic Stoneley slowness {F13.4}
DTST .US/F :Delta-T Stoneley - Monopole Stoneley {F13.4}
DWF1_MONO[0]. :Display Waveform 1 Monopole Component {AI11}
DWF2[0]. :Display Waveform Array 2 Monopole Lower Middle Frequency {AI11}
DWF2_MONO[0]. :Display Waveform 2 Monopole Component {AI11}
DWF3[0]. :Display Waveform Array 3 Monopole Far Middle Frequency {AI11}
DWF3_MONO[0]. :Display Waveform 3 Monopole Component {AI11}
DWF4_MONO[0]. :Display Waveform 4 Monopole
Component {AI11}
DWF5_DIIN[0]. :Display Waveform 5 Dipole Inline Component {AI11}
DWF6_DIIN[0]. :Display Waveform 6 Dipole Inline Component {AI11}
ITT .S :Integrated Transit Time {F13.4}
LQC_WF1[0]. :Log Quality Control for Waveform Array Measurement 1 {AF13.4}
LQC_WF2[0]. :Log Quality Control for Waveform Array Measurement 2 {AF13.4}
LQC_WF3[0]. :Log Quality Control for Waveform Array Measurement 3 {AF13.4}
LQC_WF4[0]. :Log Quality Control for Waveform Array Measurement 4 {AF13.4}
LQC_WF5[0]. :Log Quality Control for Waveform Array Measurement 5 {AF13.4}
LQC_WF6[0]. :Log Quality Control for Waveform Arr
ay Measurement 6 {AF13.4}
NPK3 . :Number of Peaks for STC for Measurement 3 {I11}
NPK4 . :Number of Peaks for STC for Measurement 4 {I11}
NPK5 . :Number of Peaks for STC for Measurement 5 {I11}
NPK6 . :Number of Peaks for STC for Measurement 6 {I11}
P1AZ_MAST.DEG :Pad 1 Azimuth in Horizontal Plane (0 = True North), memorized to MAST {F13.4}
P1NO_MAST.DEG :Pad 1 Azimuth in Plane Orthogonal to Tool Axis (0 = True North), memorized to MAST {F13.4}
PKCF_MFL[0].HZ :Peak Stacked Center Frequencies for Far Monopole Low Frequency Drive Waveform Firing {AF13.4}
PKCH3[0]. :Peak Coherence for STC for Measurement 3 {AF13.4}
PKCH4[0].
:Peak Coherence for STC for Measurement 4 {AF13.4}
PKCH5[0]. :Peak Coherence for STC for Measurement 5 {AF13.4}
PKCH6[0]. :Peak Coherence for STC for Measurement 6 {AF13.4}
PKSL3[0].US/F :Peak Slowness for STC for Measurement 3 {AF13.4}
PKSL4[0].US/F :Peak Slowness for STC for Measurement 4 {AF13.4}
PKSL5[0].US/F :Peak Slowness for STC for Measurement 5 {AF13.4}
PKSL6[0].US/F :Peak Slowness for STC for Measurement 6 {AF13.4}
PKTI3[0].US :Peak Time for STC for Measurement 3 {AF13.4}
PKTI4[0].US :Peak Time for STC for Measurement 4 {AF13.4}
PKTI5[0].US :Peak Time for STC for Mea
surement 5 {AF13.4}
PKTI6[0].US :Peak Time for STC for Measurement 6 {AF13.4}
PR . :Poisson s Ratio {F13.4}
QFM .US/F :Qualitative fluid mobility indicator {F13.4}
RB_MAST.DEG :MAST Memorized Relative Bearing {F13.4}
SMG .6PSI :Shear Modulus {F13.4}
SOBS .IN :Label Borehole Size for Bias Correction {F13.4}
SPHI .CFCF :Sonic Porosity {F13.4}
SPJ3[0]. :Slowness Projection for STC on Measurement 3 {AF13.4}
SPJ4[0]. :Slowness Projection for STC on Measurement 4 {AF13.4}
SPJ5[0]. :Slowness Projection for STC on Measurement 5 {AF13.4}
SPJ6[0].
:Slowness Projection for STC on Measurement 6 {AF13.4}
SSVE .FT/S :Sonic Shear Velocity {F13.4}
SVEL .FT/S :Sonic Velocity {F13.4}
TICO_MFM.US :Compressional Integrated Transit Time for Monopole Far Transmitter Mid Frequency Firing {F13.4}
TISH_00C.US :Shear Integrated Transit Time for Dipole 00 Degree Transmitter Chirp Firing {F13.4}
TISH_90C.US :Shear Integrated Transit Time for Dipole 90 Degree Transmitter Chirp Firing {F13.4}
TISH_MFM.US :Shear Integrated Transit Time for Monopole Far Transmitter Mid Frequency Firing {F13.4}
TIST_MFL.US :Stoneley Integrated Transit Time for Monopole Far Transmitter Low Frequency Firing {F13.4}
TWIND_TOTAL.
:Sonic Scanner Twist Indicator Total {F13.4}
VPVS . :Compressional to Shear Velocity Ratio {F13.4}
WFA1N_MONO[0]. :Waveform Array1 Monopole Upper Middle Frequency Monopole Component Normalization Factor {AF13.4}
WFA1_MONO[0]. :Waveform Array 1 Monopole Upper Middle Frequency Monopole Component {AI11}
WFA2N[0]. :Waveform Array 2 Normalization Factor {AF13.4}
WFA2N_MONO[0]. :Waveform Array 2 Monopole Lower Middle Frequency Monopole Component Normalization Factor {AF13.4}
WFA2[0]. :Waveform Array 2 {AI11}
WFA2_MONO[0]. :Waveform Array 2 Monopole Lower Middle Frequency Monopole Component {AI11}
WFA3N[0]. :Wave
form Array 3 Normalization Factor {AF13.4}
WFA3N_MONO[0]. :Waveform Array 3 Monopole Far Middle Frequency Monopole Component Normalization Factor {AF13.4}
WFA3[0]. :Waveform Array 3 {AI11}
WFA3_MONO[0]. :Waveform Array 3 Monopole Far Middle Frequency Monopole Component {AI11}
WFA4N_MONO[0]. :Waveform Array 4 Monopole Far Low Frequency Monopole Component Normalization Factor {AF13.4}
WFA4_MONO[0]. :Waveform Array 4 Monopole Far Low Frequency Monopole Component {AI11}
WFA5N_DIIN[0]. :Waveform Array 5 X-Dipole Inline Dipole Component Normalization Factor {AF13.4}
WFA5N_DIOF[0]. :Waveform Array 5 X-Dipole Crossline Dipole Component Normalization Factor {AF13.4}
WFA5_DIIN[0].
:Waveform Array 5 X-Dipole Inline Dipole Component {AI11}
WFA5_DIOF[0]. :Waveform Array 5 X-Dipole Crossline Dipole Component {AI11}
WFA6N_DIIN[0]. :Waveform Array 6 Y-Dipole Inline Dipole Component Normalization Factor {AF13.4}
WFA6N_DIOF[0]. :Waveform Array 6 Y-Dipole Crossline Dipole Component Normalization Factor {AF13.4}
WFA6_DIIN[0]. :Waveform Array 6 Y-Dipole Inline Dipole Component {AI11}
WFA6_DIOF[0]. :Waveform Array 6 Y-Dipole Crossline Dipole Component {AI11}
WFQC_STATUS. :Waveform Quality Control Status {I11}
YME .6PSI :Young s Modulus (E) {F13.4}
CRD1_PPC2.IN :PPC2 Radius 1 Arm Bending Compensated {F13.4}
CRD2_PPC2.IN
:PPC2 Radius 2 Arm Bending Compensated {F13.4}
CRD3_PPC2.IN :PPC2 Radius 3 Arm Bending Compensated {F13.4}
CRD4_PPC2.IN :PPC2 Radius 4 Arm Bending Compensated {F13.4}
ECO_PPC2.IN :Ellipse Center Offset {F13.4}
EHD1_PPC2.IN :PPC2 Enhanced Hole Diameter 1 (ellipse-based algorithm) {F13.4}
EHD2_PPC2.IN :PPC2 Enhanced Hole Diameter 2 (ellipse-based algorithm) {F13.4}
ELA_PPC2.IN :Ellipse Long Axis {F13.4}
EMID_PPC2.IN :Ellipse Minimum Distance {F13.4}
ERA_PPC2.DEG :Angle between Ellipse Long Axis and Line of Caliper 1-3 {F13.4}
ESA_PPC2.IN :Ellipse Short Axis {F13.4}
ETC1_PPC2.IN
:PPC2 Tool Center Position on the Caliper #1 and #3 log {F13.4}
ETC2_PPC2.IN :PPC2 Tool Center Position on the Caliper #2 and #4 log {F13.4}
HD1_PPC2.IN :PPC2 Hole Diameter 1 {F13.4}
HD2_PPC2.IN :PPC2 Hole Diameter 2 {F13.4}
HDOV_PPC2.IN :Hole Diameter from Oval {F13.4}
LSR_PPC2. :Long and Short Axis Ratio {F13.4}
OSDV_PPC2. :Oval Standard Deviation {F13.4}
PHWA_PPC2.DEG :Pad Hole-Wall Angle (0 = caliper arm perpendicular to hole wall) {F13.4}
PWLIND_PPC2. :PPC2 Power Level Indicator {F13.4}
RB_PPC2.DEG :PPC2 Relative Bearing {F13.4}
RD1_PPC2.IN
:PPC2 Radius 1 Calibrated {F13.4}
RD2_PPC2.IN :PPC2 Radius 2 Calibrated {F13.4}
RD3_PPC2.IN :PPC2 Radius 3 Calibrated {F13.4}
RD4_PPC2.IN :PPC2 Radius 4 Calibrated {F13.4}
REA_PPC2.DEG :Relative Ellipse Azimuth {F13.4}
SRD1_PPC2.IN :PPC2 Synthetic Radius 1 {F13.4}
SRD2_PPC2.IN :PPC2 Synthetic Radius 2 {F13.4}
CTEM .DEGF :Cartridge Temperature {F13.4}
ECGR_EDTC.GAPI :Environmentally Corrected Gamma Ray {F13.4}
GDEV_EDTC.DEG :EDTC Hole Deviation from Gravity {F13.4}
GR_EDTC.GAPI :Gamma Ray {F13.4}
HV .V :Head Voltage
{F13.4}
RAZ_EDTC.F/S2 :EDTC Raw Z-Axis Acceleration Data {F13.4}
MD ..1IN :Measured Depth {F13.4}
AREA .IN2 :Area of Borehole {F13.4}
ACTE .DEGC :Accelerometer Temperature {F13.4}
AX .M/S2 :Acceleration X-Axis {F13.4}
AY .M/S2 :Acceleration Y-Axis {F13.4}
AZ .M/S2 :Acceleration Z-Axis {F13.4}
CTEM_GPITF.DEGC :Cartridge Temperature {F13.4}
FX .OER :Magnetometer X-Axis {F13.4}
FY .OER :Magnetometer Y-Axis {F13.4}
FZ .OER :Magnetometer Z-Axis {F13.4}
MAGTEMP.DEGC
:Magnetometer Temperature {F13.4}
RCAX . :Raw Accelerometer X Component {F13.4}
RCAY . :Raw Accelerometer Y Component {F13.4}
RCAZ . :Raw Accelerometer Z Component {F13.4}
RCFX . :Raw Magnetometer X Component {F13.4}
RCFY . :Raw Magnetometer Y Component {F13.4}
RCFZ . :Raw Magnetometer Z Component {F13.4}
TKO_SFA3[0]. :TKO Slowness-Frequency Projection for Measurement 3 {AF13.4}
TKO_SFA4[0]. :TKO Slowness-Frequency Projection for Measurement 4 {AF13.4}
TKO_SFA5[0]. :TKO Slowness-Frequency Projection for Measurement 5 {AF13.4}
TKO_SFA6[0].
:TKO Slowness-Frequency Projection for Measurement 6 {AF13.4}
FCA1[0]. :Buttons, Pad A, Row 1 {AF13.4}
FCA2[0]. :Buttons, Pad A, Row 2 {AF13.4}
FCA3[0]. :Buttons, Pad A, Row 3 {AF13.4}
FCA4[0]. :Buttons, Pad A, Row 4 {AF13.4}
FCAX .M/S2 :Fast Channel (High Resolution) Acceleration on X Axis {F13.4}
FCAY .M/S2 :Fast Channel (High Resolution) Acceleration on Y Axis {F13.4}
FCAZ .M/S2 :Fast Channel (High Resolution) Acceleration on Z Axis {F13.4}
FCB1[0]. :Buttons, Pad B, Row 1 {AF13.4}
FCB2[0]. :Buttons, Pad B, Row 2 {AF13.4}
FCB3[0]. :Butt
ons, Pad B, Row 3 {AF13.4}
FCB4[0]. :Buttons, Pad B, Row 4 {AF13.4}
FCC1[0]. :Buttons, Pad C, Row 1 {AF13.4}
FCC2[0]. :Buttons, Pad C, Row 2 {AF13.4}
FCC3[0]. :Buttons, Pad C, Row 3 {AF13.4}
FCC4[0]. :Buttons, Pad C, Row 4 {AF13.4}
FCD1[0]. :Buttons, Pad D, Row 1 {AF13.4}
FCD2[0]. :Buttons, Pad D, Row 2 {AF13.4}
FCD3[0]. :Buttons, Pad D, Row 3 {AF13.4}
FCD4[0]. :Buttons, Pad D, Row 4 {AF13.4}
FTIM .MS :Fast Channels Acquisition Time {F13.4}
RCFCAX. :Raw Fast Channel (High Resolution) Acce
leration X Component {F13.4}
RCFCAY. :Raw Fast Channel (High Resolution) Acceleration Y Component {F13.4}
RCFCAZ. :Raw Fast Channel (High Resolution) Acceleration Z Component {F13.4}
EHGR_EDTC.GAPI :High Resolution Corrected Gamma Ray {F13.4}
HGR_EDTC.GAPI :High Resolution Gamma Ray {F13.4}
#-----------------------------------------------------------------------------
#
# DEPT TDEP ANOR FINC FNOR HAZIM HAZI P1AZ RB SDEVM SDEV CRD1_PPC1 CRD2_PPC1 CRD3_PPC1 CRD4_PPC1 ECO_PPC1 EHD1_PPC1 EHD2_PPC1 ELA_PPC1 EMID_PPC1 ERA_PPC1 ESA_PPC1 ETC1_PPC1 ETC2_PPC1 HD1_PPC1 HD2_PPC1 HDOV_PPC1 LSR_PPC1 OSDV_PPC1 PHWA_PPC1 PWLIND_PPC1 RB_PPC1 RD1_PPC1 RD2_PPC1 RD3_PP
C1 RD4_PPC1 REA_PPC1 SRD1_PPC1 SRD2_PPC1 BMK CFRQ_MFL DCSI1 DCSI2 DCSI3 DCSI4 DCSI5 DCSI6 DTCO3 DTCO DTSH3 DTSH5 DTSH6 DTSM DTSTE DTST DWF1_MONO[0] DWF2[0] DWF2_MONO[0] DWF3[0] DWF3_MONO[0] DWF4_MONO[0] DWF5_DIIN[0] DWF6_DIIN[0] ITT LQC_WF1[0] LQC_WF2[0] LQC_WF3[0] LQC_WF4[0] LQC_WF5[0] LQC_WF6[0] NPK3 NPK4 NPK5 NPK6 P1AZ_MAST P1NO_MAST PKCF_MFL[0] PKCH3[0] PKCH4[0] PKCH5[0] PKCH6[0] PKSL3[0] PKSL4[0] PKSL5[0] PKSL6[0] PKTI3[0] PKTI4[0] PKTI5[0] PKTI6[0] PR QFM RB_MAST SMG SOBS SPHI SPJ3[0] SPJ4[0] SPJ5[0] SPJ6[0] SSVE SVEL TICO_MFM TISH_00C TISH_90C TISH_MFM TIST_MFL TWIND_TOTAL VPVS WFA1N_MONO
[0 WFA1_MONO[0] WFA2N[0] WFA2N_MONO[0 WFA2[0] WFA2_MONO[0] WFA3N[0] WFA3N_MONO[0 WFA3[0] WFA3_MONO[0] WFA4N_MONO[0 WFA4_MONO[0] WFA5N_DIIN[0 WFA5N_DIOF[0 WFA5_DIIN[0] WFA5_DIOF[0] WFA6N_DIIN[0 WFA6N_DIOF[0 WFA6_DIIN[0] WFA6_DIOF[0] WFQC_STATUS YME CRD1_PPC2 CRD2_PPC2 CRD3_PPC2 CRD4_PPC2 ECO_PPC2 EHD1_PPC2 EHD2_PPC2 ELA_PPC2 EMID_PPC2 ERA_PPC2 ESA_PPC2 ETC1_PPC2 ETC2_PPC2 HD1_PPC2 HD2_PPC2 HDOV_PPC2 LSR_PPC2 OSDV_PPC2 PHWA_PPC2 PWLIND_PPC2 RB_PPC2 RD1_PPC2 RD2_PPC2 RD3_PPC2 RD4_PPC2 REA_PPC2 SRD1_PPC2 SRD2_PPC2 CTEM ECGR_EDTC GDEV_EDTC GR_EDTC HV RAZ_EDTC MD AREA ACTE AX AY AZ CTEM_GPITF FX FY FZ MAGTEMP RCAX RCAY RCAZ RCFX RCFY RCFZ TKO_SFA3[0] TKO_SFA4[0] TK
O_SFA5[0] TKO_SFA6[0] FCA1[0] FCA2[0] FCA3[0] FCA4[0] FCAX FCAY FCAZ FCB1[0] FCB2[0] FCB3[0] FCB4[0] FCC1[0] FCC2[0] FCC3[0] FCC4[0] FCD1[0] FCD2[0] FCD3[0] FCD4[0] FTIM RCFCAX RCFCAY RCFCAZ EHGR_EDTC HGR_EDTC
#
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