======================= 1. Testing System Noise ======================= __1. Wear Gloves/a ground wire. __2. Touch the statics voltage checker. __3. Remove the connector plug. __4. Connect a dummy connector. __5. Turn on 2 swtichs on the blue power supply box. On computer: __6. ctue 1997 In another window: __7. Find an empty partiton go to top of /rico/____ __8. Create directory for CCD________ ifm ________ go to /rico/_____/____ Starting gse and processes: __9. gse 1997 1999 __10. gse> l ccd10c1 __11. gse> dacs-ccdid17 __12. gse> capture 1 0 0 Name of file: resist Name of directory: setup/ Starting xvista and analysis: __13. xvista setdir img dir=/setup rd 1 resist.0001.fits rp 16oct go tv 1 cf=jt 200.0 0.0 Is the quality of the frame acceptable? _____ i. Uniformity _________ ii.Any Bright Spot ___________ __14. Kill gse __15. Kill ctue __16. Power off ============== 2. Setting IFM ============== __1. Kill gse and ctue __2. Power off __3. Wear gloves/a ground wire __4. touch the static voltage checker __5. Remove the connector plug __6. Connect a CCD connector (with a black cable) __7. Cover the detector with cloth __8. Check cable connectioins __CCD connector to the power box __the ground wire connectioins __red wire to the temperature contorl __two black wire to the LN2 control box __9. Turn on the two switchs on the blue power supply. __10. Turn on the smaller power supply i. stundby ii. 15 V iii. enter iv. standby ========== 3. Cooling ========== __1. Chamber pressure: <5x10**-5 __2. Temperature control is off __3. Turn on the LN2 control box __4. Open LN2 valve __5. Short the two black wires to the LN2 control box Is LN2 control box working? _____ __6. Control box turn on/off as the CCD cooling down? Is LN2 control box working? _____ Setting the computer for data acquisition: __7. Shutting down rico/restart __8. Open three windows __9. Go to /rico// directory __9. start gse gse 1997 1999 i. gse> l ccd10c1 ii. gse> dacs-ccdid17 iii. gse> capture 1 0 0 name of the file: tempo name of the directory: setup/ __10. start xvista i. setdir img dir=/setup ii. rd 1 tempo.0001.fits iii. rp 16oct iv. go Write down pressure, time, and noise levels. At each temp, repeat the process above (capture 1 0 0 to xvista analysis). Write down "sigma" values as the noise: Noise (sgima from xvista) Temp. Pressure time A B C D 0______________________|___________________________________ -10______________________|___________________________________ -20______________________|___________________________________ -30______________________|___________________________________ -40______________________|___________________________________ -50______________________|___________________________________ -60______________________|___________________________________ -70______________________|___________________________________ -80______________________|___________________________________ -90______________________|___________________________________ -100______________________|___________________________________ -110______________________|___________________________________ -120______________________|___________________________________ __11. Start the temperature control i. setpoint ii. -120 iii. enter iv. Heater Hight __12. Check LN2 pressure (~ 10 - 20 psi) __13. Is the power ~30%? If >30%,-------> lower the LN2 pressure. Is the temperature stablized? ____ __14. Fill README information. ============== 4. Setting Vdd ============== __1. Close valve __2. Set Fe source i. Relase a stopper ii. Set Fe55 source to 1.25 Setting bias levels. __3. gse> l vdd-80 __4. gse> capture 1 0 0 name of the file: bias name of the directory: tune/Vdd80 __5. xvista setdir img dir=/tune/Vdd80 rd 1 bias.0001.fits rp 16oct go __6. Set the bias levels Mean of A:____ - 200 = ____: gse> biasA ____ Mean of B:____ - 200 = ____: gse> biasB ____ Mean of C:____ - 200 = ____: gse> biasC ____ Mean of D:____ - 200 = ____: gse> biasD ____ __7. Start Vdd checking. Info: Vdd = ___ |put a Vdd value. (gse) l vdd-___ |loading a script vdd-__ close valve | close the x-ray valve (gse) capture 5 0 0 |capture 5 bias frames | "2" is bias, "3" is tune/Vdd__/ ocnoise | this computes noises and put the | results in the directory Vdd__ noise value ok? |write down 4 noise values open valve | open the valve to expose the CCD (gse) capture 10 00 | taking 10 frames of data, | "2" is fe55 Analysis (e.g.,...) | type gonanal1: Steve's script for analysis Complete ____ | if complete, check Vdd =80 (gse) l vdd-80 close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ __8. Reset the bias levels Mean of A:____ - 200 = ____: gse> biasA ____ Mean of B:____ - 200 = ____: gse> biasB ____ Mean of C:____ - 200 = ____: gse> biasC ____ Mean of D:____ - 200 = ____: gse> biasD ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ Vdd = ___ (gse) l vdd-___ close valve (gse) capture 5 0 0 (name=bias) (directory = tune/Vdd___/) ocnoise (uses bias.0001.fits and bias.0002.fits) noise values ok? A= _____ B= _____ C= _____ D= _____ open valve (gse) capture 10 0 0 (name=fe55) (directory = unchanged) Analysis (e.g. goanal1 vdd___.evts;fe55gain vdd___;more *.out) Complete ____ __9. Go to ~sek/bin __10. Copy "04dec" __11. Modify path names __12. Run the script; find Minimum Minimum Noise Voltage Output A _____ Output B _____ Output C _____ Output D _____ __13. Go to /usr/acis/s56dsp/scripts __14. Copy "vdd-w158c4.tdb" __15. Chenge the values. __16. Reset vias Mean of A:____ - 200 = ____: gse> biasA ____ Mean of B:____ - 200 = ____: gse> biasB ____ Mean of C:____ - 200 = ____: gse> biasC ____ Mean of D:____ - 200 = ____: gse> biasD ____ __13. Fill README information. ================== 5. Data Aquisition ================== ======== 5.1 Fe55 ======== __1. Check Fe source is in position __2. Open valve __3. gse> capture 1 0 0 name of the file: bias name of the directory: Fe55/ __4. xvista i. tv Is the quality of the frame acceptable? ____ i. __5. Close valve Taking 5 bias frames: __6. gse> capture 5 0 0 name of the CCD:______ name of the LBox:______ name of the Acq:__________ name of the Dacs:_________ name of sequence:_________ name of the file: bias name of the direcotry: Fe55/ __7. Open valve Taking 150 data frames: __8. gse>capture 150 name of the file:fe55 __9. Pull up the Fe55 source __10. Check the pressure of the LN2 (~10 - 20 psi) __11. Turn on x-ray control. Set: 5amp. __12. Fill README information ============== 5.2 Dark Frame ============== __1. Close valve __2. No frame delay. ges> capture 10 0 0 (file name = dark-0) (file path = dark/) __3. 5 frame delay. gse> seqhalt gse> l time_( ).pram gse> pseqmove 0 gse> capture 20 0 0 (file name = dark-__) Kill the process when 10 complete frames are taken. __4. 10 frame delay. gse> seqhalt gse> l time_( ).pram gse> pseqmove 0 gse> capture 30 0 0 (file name = dark-__) Kill the process when 10 complete frames are taken. __5. 15 frame dely. gse> seqhalt gse> l time_( ).pram gse> pseqmove 0 gse> capture 40 0 0 (file name = dark-__) Kill the process when 10 complete frames are taken. __6. Reset gse> seqhalt gse> l time_0.pram gse> pseqmove 0 __7. Fill README information. ============ 5.3 Aluminum ============ __1. Turn of the power supply Set: 8 keV __2. Beam current: 0.3 mamp __3. Left adjustment: _______ Right adjustement: _______ __4. Open valve __5. gse> capture 1 0 0 name of the file:bias name of the directory: alumimun/ Is the quality of the fame acceptable? i. Beam current:_______ __6. Close valve __7. gse> capture 5 0 0 name of the file:bias name of the directory: alumimun/ __8. Oepn valve __9. gse> capture 150 0 0 name of the file:Al_k ========== 5.4 Oxygen ========== __1. Beam current: 0.3 mamp __2. Left adjustmemt: _________ Right adjustment: _________ __3. gse> capture 1 0 0 name of the file:bias name of the directory: oxygen/ Beam current: ________ __4. Close valve __5. gse> capture 5 0 0 name of the file: bias name of the directory:oxygen/ __6. Open valve __7. gse> capture 150 0 0 name of the file: O_k __8. Fill README information. =========== 5.5 Closing =========== __1. Turn off the beam generator power. __2. Turn off The power supply. __3. Turn off the power supples for CCD. __4. Turn off the temperature control. __5. Turn off the LN2 control box. __6. Close the valve of the LN2. __7. Quit gse. __8. Start screening. screening_fi________________________________________ screening_bi________________________________________ __9. Tape backup? Tape: __________________________ asaveit ___________________________________________ dltsaveit _________________________________________