#******************************************************************* # # $Source: /sc/CvsTree/sc/gen/src/form/ased_acqu.form,v $ # # Copyright (c) 1995 - 2008 # BRUKER BioSpin GmbH # D-76287 Rheinstetten, Germany # # All Rights Reserved # # # $Id: ased_acqu.form,v 1.16.2.1 2009/11/27 16:29:43 ge Exp $ #******************************************************************* EDIT_PAR COMMAND FILE DI_MODE LONG ED_ENTRY ACQU ORDER FILE HEADER "====== General ======" NAME PULPROG END NAME TD END NAME SW END T_NAME SWH TYPE R32 CLASS ACQU SUBRANGE 0.0 1e38 REL "SWH=SW*SFO1" INV_REL "SW=SWH/SFO1" UNIT "Hz" FORMAT "%14.2f Hz" TEXT "sweep width" END T_NAME AQ TYPE R32 CLASS ACQU SUBRANGE 0.0 1e38 REL "AQ=aqcalc(SW,SFO1,TD,DIGTYP)" INV_REL "TD=tdcalc(SW,SFO1,1.0e6*AQ,DIGTYP)" UNIT "sec" FORMAT "%14.7f sec" TEXT "acquisition time" END NAME RG END T_NAME DW TYPE R32 CLASS ACQU SUBRANGE 0.0 1e38 REL "DW=1/(2*SW*SFO1)" INV_REL "SW=1000000/(2*(0.005+DW)*SFO1)" UNIT "usec" FORMAT "%14.3f usec" TEXT "dwell time " END NAME DE FORMAT "%14.2f usec" END T_NAME CNST2 TYPE R32 CLASS ACQU SUBRANGE -1e38 1e38 REL "CNST2=CNST[2]" INV_REL "CNST[2]=CNST2" FORMAT "%14.7f" TEXT "= J(XH)" END T_NAME d0 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "d0=3u" INV_REL "D[0]=d0" UNIT "sec" TEXT "d0=3u" FORMAT "%14.8f sec" NONEDIT END T_NAME D1 TYPE R32 CLASS ACQU SUBRANGE 0.0 1e38 REL "D1=D[1]" INV_REL "D[1]=D1" UNIT "sec" FORMAT "%14.8f sec" TEXT "relaxation delay; 1-5 * T1" END T_NAME d4 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "d4=1s/(cnst2*4)" INV_REL "D[0]=d4" UNIT "sec" TEXT "d4=1s/(cnst2*4)" FORMAT "%14.8f sec" NONEDIT END T_NAME D8 TYPE R32 CLASS ACQU SUBRANGE 0.0 1e38 REL "D8=D[8]" INV_REL "D[8]=D8" UNIT "sec" FORMAT "%14.8f sec" TEXT "mixing time" END T_NAME d10 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "d10=3u" INV_REL "D[0]=d10" UNIT "sec" TEXT "d10=3u" FORMAT "%14.8f sec" NONEDIT END T_NAME d11 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "d11=30m" INV_REL "D[0]=d11" UNIT "sec" TEXT "d11=30m" FORMAT "%14.8f sec" NONEDIT END T_NAME d12 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "d12=20u" INV_REL "D[0]=d12" UNIT "sec" TEXT "d12=20u" FORMAT "%14.8f sec" NONEDIT END T_NAME D16 TYPE R32 CLASS ACQU SUBRANGE 0.0 1e38 REL "D16=D[16]" INV_REL "D[16]=D16" UNIT "sec" FORMAT "%14.8f sec" TEXT "delay for homospoil/gradient recovery" END T_NAME DELTA TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "DELTA=larger(p14,p22)+d0*2" INV_REL "D[0]=DELTA" UNIT "sec" TEXT "DELTA=larger(p14,p22)+d0*2" FORMAT "%14.8f sec" NONEDIT END T_NAME DELTA1 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "DELTA1=p16+d16+larger(p2,p22)+d10*2" INV_REL "D[0]=DELTA1" UNIT "sec" TEXT "DELTA1=p16+d16+larger(p2,p22)+d10*2" FORMAT "%14.8f sec" NONEDIT END T_NAME DELTA2 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "DELTA2=d4-larger(p2,p14)/2-p16-de-8u" INV_REL "D[0]=DELTA2" UNIT "sec" TEXT "DELTA2=d4-larger(p2,p14)/2-p16-de-8u" FORMAT "%14.8f sec" NONEDIT END T_NAME DELTA3 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "DELTA3=d4-larger(p2,p14)/2" INV_REL "D[0]=DELTA3" UNIT "sec" TEXT "DELTA3=d4-larger(p2,p14)/2" FORMAT "%14.8f sec" NONEDIT END T_NAME DELTA4 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "DELTA4=d4-larger(p2,p14)/2-p1*2/PI" INV_REL "D[0]=DELTA4" UNIT "sec" TEXT "DELTA4=d4-larger(p2,p14)/2-p1*2/PI" FORMAT "%14.8f sec" NONEDIT END NAME DS TEXT "number of dummy scans" END T_NAME in0 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "in0=inf1/2" INV_REL "D[0]=in0" UNIT "sec" TEXT "in0=inf1/2" FORMAT "%14.8f sec" NONEDIT END T_NAME in10 TYPE R32 SUBRANGE 0.0 1e8 CLASS ACQU REL "in10=inf2/2" INV_REL "D[0]=in10" UNIT "sec" TEXT "in10=inf2/2" FORMAT "%14.8f sec" NONEDIT END T_NAME INF1 TYPE R64 CLASS ACQU SUBRANGE 0.0 1e38 REL "INF1=INF[1]" INV_REL "INF[1]=INF1" UNIT "usec" FORMAT "%14.2f usec" TEXT "1/SW(H) = 2 * DW(H)" NONEDIT END T_NAME INF2 TYPE R64 CLASS ACQU SUBRANGE 0.0 1e38 REL "INF2=INF[2]" INV_REL "INF[2]=INF2" UNIT "usec" FORMAT "%14.2f usec" TEXT "1/SW(X) = 2 * DW(X)" NONEDIT END NAME NS TEXT "scans to execute" END T_NAME P21 TYPE R32 CLASS ACQU SUBRANGE 0.0 1.0e10 REL "P21=P[21]" INV_REL "P[21]=P21" UNIT "usec" FORMAT "%14.2f usec" TEXT "pulse 21" END NAME ZGOPTNS TEXT "options for zg" END HEADER "======== CHANNEL f1 ========" NAME NUC1 NONEDIT TEXT "nucleus for channel 1" END NAME O1 FORMAT "%14.2f Hz" TEXT "frequency of ch. 1" END T_NAME O1P TYPE R64 CLASS ACQU SUBRANGE -1e38 1e38 REL "O1P=O1/BF1" INV_REL "O1=O1P*BF1" UNIT "ppm" FORMAT "%14.3f ppm" TEXT "frequency of ch. 1" END T_NAME P1 TYPE R32 CLASS ACQU SUBRANGE 0.0 1.0e10 REL "P1=P[1]" INV_REL "P[1]=P1" UNIT "usec" FORMAT "%14.2f usec" TEXT "f1 channel - 90 degree high power pulse" END T_NAME p2 TYPE R32 SUBRANGE -1e38 1e38 CLASS ACQU REL "p2=p1*2" INV_REL "D[0]=p2" UNIT "usec" TEXT "p2=p1*2" FORMAT "%14.2f usec" NONEDIT END T_NAME P28 TYPE R32 CLASS ACQU SUBRANGE 0.0 1.0e10 REL "P28=P[28]" INV_REL "P[28]=P28" UNIT "usec" FORMAT "%14.2f usec" TEXT "f1 channel - trim pulse" END T_NAME PLW1 TYPE R32 CLASS ACQU SUBRANGE 0 93.91 REL "PLW1=PLW[1]" INV_REL "PLW[1]=PLW1" UNIT "W" FORMAT "%14.5g W" TEXT "f1 channel - power level for pulse (default)" END T_NAME PLdB1 TYPE R32 CLASS ACQU SUBRANGE -19.8271 1000 REL "if(PLW[1]>0)PLdB1=-10*log(PLW[1])/LN10;else PLdB1=1000;" INV_REL "PLW[1]=0;if(PLdB1<1000)PLW[1]=pow(10.0,(-PLdB1)/10.0)" UNIT "dB" FORMAT "%14.2f dB" TEXT "power PL1 in dB" END NAME SFO1 FORMAT "%14.7f MHz" TEXT "frequency of ch. 1" END HEADER "======== CHANNEL f2 ========" NAME CPDPRG2 TEXT "file name for cpd2" END NAME NUC2 NONEDIT TEXT "nucleus for channel 2" END NAME O2 FORMAT "%14.2f Hz" TEXT "frequency of ch. 2" END T_NAME O2P TYPE R64 CLASS ACQU SUBRANGE -1e38 1e38 REL "O2P=O2/BF2" INV_REL "O2=O2P*BF2" UNIT "ppm" FORMAT "%14.3f ppm" TEXT "frequency of ch. 2" END T_NAME P3 TYPE R32 CLASS ACQU SUBRANGE 0.0 1.0e10 REL "P3=P[3]" INV_REL "P[3]=P3" UNIT "usec" FORMAT "%14.2f usec" TEXT "f2 channel - 90 degree high power pulse" END T_NAME p4 TYPE R32 SUBRANGE -1e38 1e38 CLASS ACQU REL "p4=p3*2" INV_REL "D[0]=p4" UNIT "usec" TEXT "p4=p3*2" FORMAT "%14.2f usec" NONEDIT END T_NAME P14 TYPE R32 CLASS ACQU SUBRANGE 0.0 1.0e10 REL "P14=P[14]" INV_REL "P[14]=P14" UNIT "usec" FORMAT "%14.2f usec" TEXT "f2 channel - 180 degree shaped pulse for inversion" END T_NAME PCPD2 TYPE R32 CLASS ACQU SUBRANGE 0 1e38 REL "PCPD2=PCPD[2]" INV_REL "PCPD[2]=PCPD2" UNIT "usec" FORMAT "%14.2f usec" TEXT "f2 channel - 90 degree pulse for decoupling sequence" END T_NAME PLW0 TYPE R32 CLASS ACQU SUBRANGE 0 375.18 REL "PLW0=PLW[0]" INV_REL "PLW[0]=PLW0" UNIT "W" FORMAT "%14.5g W" TEXT "0W" END T_NAME PLdB0 TYPE R32 CLASS ACQU SUBRANGE -25.8424 1000 REL "if(PLW[0]>0)PLdB0=-10*log(PLW[0])/LN10;else PLdB0=1000;" INV_REL "PLW[0]=0;if(PLdB0<1000)PLW[0]=pow(10.0,(-PLdB0)/10.0)" UNIT "dB" FORMAT "%14.2f dB" TEXT "power PL0 in dB" END T_NAME PLW2 TYPE R32 CLASS ACQU SUBRANGE 0 375.18 REL "PLW2=PLW[2]" INV_REL "PLW[2]=PLW2" UNIT "W" FORMAT "%14.5g W" TEXT "f2 channel - power level for pulse (default)" END T_NAME PLdB2 TYPE R32 CLASS ACQU SUBRANGE -25.8424 1000 REL "if(PLW[2]>0)PLdB2=-10*log(PLW[2])/LN10;else PLdB2=1000;" INV_REL "PLW[2]=0;if(PLdB2<1000)PLW[2]=pow(10.0,(-PLdB2)/10.0)" UNIT "dB" FORMAT "%14.2f dB" TEXT "power PL2 in dB" END T_NAME PLW12 TYPE R32 CLASS ACQU SUBRANGE 0 375.18 REL "PLW12=PLW[12]" INV_REL "PLW[12]=PLW12" UNIT "W" FORMAT "%14.5g W" TEXT "f2 channel - power level for CPD/BB decoupling" END T_NAME PLdB12 TYPE R32 CLASS ACQU SUBRANGE -25.8424 1000 REL "if(PLW[12]>0)PLdB12=-10*log(PLW[12])/LN10;else PLdB12=1000;" INV_REL "PLW[12]=0;if(PLdB12<1000)PLW[12]=pow(10.0,(-PLdB12)/10.0)" UNIT "dB" FORMAT "%14.2f dB" TEXT "power PL12 in dB" END NAME SFO2 FORMAT "%14.7f MHz" TEXT "frequency of ch. 2" END NAME SPNAM3 TEXT "file name for SP3" END T_NAME SPOAL3 TYPE R32 CLASS ACQU SUBRANGE -1.0 1.0 REL "SPOAL3=SPOAL[3]" INV_REL "SPOAL[3]=SPOAL3" FORMAT "%14.3f" TEXT "phase alignment of freq. offset in SP3" END T_NAME SPOFFS3 TYPE R32 CLASS ACQU SUBRANGE -1e38 1e38 REL "SPOFFS3=SPOFFS[3]" INV_REL "SPOFFS[3]=SPOFFS3" UNIT "Hz" FORMAT "%14.2f Hz" TEXT "offset frequency for SP3" END T_NAME SPW3 TYPE R32 CLASS ACQU SUBRANGE 0 375.18 REL "SPW3=SPW[3]" INV_REL "SPW[3]=SPW3" UNIT "W" FORMAT "%14.5g W" TEXT "f2 channel - shaped pulse 180 degree" END T_NAME SPdB3 TYPE R32 CLASS ACQU SUBRANGE -25.8424 1000 REL "if(SPW[3]>0)SPdB3=-10*log(SPW[3])/LN10;elseSPdB3=1000;" INV_REL "SPW[3]=0;if(SPdB3<1000)SPW[3]=pow(10.0,(-SPdB3)/10.0)" UNIT "dB" FORMAT "%14.2f dB" TEXT "power SPW3 in dB" END HEADER "======== CHANNEL f3 ========" NAME NUC3 NONEDIT TEXT "nucleus for channel 3" END NAME O3 FORMAT "%14.2f Hz" TEXT "frequency of ch. 3" END T_NAME O3P TYPE R64 CLASS ACQU SUBRANGE -1e38 1e38 REL "O3P=O3/BF3" INV_REL "O3=O3P*BF3" UNIT "ppm" FORMAT "%14.3f ppm" TEXT "frequency of ch. 3" END T_NAME p22 TYPE R32 SUBRANGE -1e38 1e38 CLASS ACQU REL "p22=p21*2" INV_REL "D[0]=p22" UNIT "usec" TEXT "p22=p21*2" FORMAT "%14.2f usec" NONEDIT END T_NAME PLW3 TYPE R32 CLASS ACQU SUBRANGE 0 387.3 REL "PLW3=PLW[3]" INV_REL "PLW[3]=PLW3" UNIT "W" FORMAT "%14.5g W" TEXT "f3 channel - power level for pulse (default)" END T_NAME PLdB3 TYPE R32 CLASS ACQU SUBRANGE -25.9805 1000 REL "if(PLW[3]>0)PLdB3=-10*log(PLW[3])/LN10;else PLdB3=1000;" INV_REL "PLW[3]=0;if(PLdB3<1000)PLW[3]=pow(10.0,(-PLdB3)/10.0)" UNIT "dB" FORMAT "%14.2f dB" TEXT "power PL3 in dB" END NAME SFO3 FORMAT "%14.7f MHz" TEXT "frequency of ch. 3" END HEADER "====== GRADIENT CHANNEL =====" NAME GPNAM1 TEXT "SMSQ10.100" END NAME GPNAM2 TEXT "SMSQ10.100" END T_NAME GPZ1 TYPE R32 CLASS ACQU SUBRANGE -100.0 100.0 REL "GPZ1=GPZ[1]" INV_REL "GPZ[1]=GPZ1" UNIT "%" FORMAT "%14.2f %" TEXT "80%" END T_NAME GPZ2 TYPE R32 CLASS ACQU SUBRANGE -100.0 100.0 REL "GPZ2=GPZ[2]" INV_REL "GPZ[2]=GPZ2" UNIT "%" FORMAT "%14.2f %" TEXT "20.1% for C-13, 8.1% for N-15" END T_NAME P16 TYPE R32 CLASS ACQU SUBRANGE 0.0 1.0e10 REL "P16=P[16]" INV_REL "P[16]=P16" UNIT "usec" FORMAT "%14.2f usec" TEXT "homospoil/gradient pulse" END