BDBG-09_OperatingManual_JP
Contents
1. 3 2 1 3 2 3 2 3 2 4 1 3 2 4 2 3 DER 3 2 4 3 322 EET VIIL7I 3B X01 456 183 TV TY201 VCCP 23 me B7 21A MB 4M M 67 Windows OS IBM BICT 412919 001 BICT 468353 001 BICT 436231 001 BICT 685621 002 BICT 685622 0022. Stat error DER TEMPERATURE Test OK High A 5 Low sensitive Measurement ne DETECTOR
3. 14 A BDBG EXE 1 BDBG 09 DER ik 2 BDBG 09 3 OS Windows 98 IBM 4 BDBG 09 BDBG 09 RS 232 RS 485 USB RS 48 5 bdbg exe PortTalk
4. Work Get factors Send factors Measurement Stop Control Query address Query address Get factors DETECTOR DETECTOR Send factors DETECTOR Measurement DER
5. Multiplication factor Dead time formula Dead time physical Personal background uSvh DER Personal Background 20 BDBG 09 BDBG 09 DETECTOR
6. 213 1 2 2 2 2 2 2 1 2 2 1 1 2 2 1 2 2 2 2 2 2223 223 2 2 3 1 E BICT 468353 001 BICT 683621 002 BICT 685622 0
7. Stop Measurement MEASURED RATE Stat error RUTest 21 B B 1 Data frames exchange between the detecting unit and the data display system is done via the RS 485 Interface in a half duplex mode Exchange parameters rate 19200 bps data word length 8 bit parity bit none stop bit 1 Time interval between the bytes in one frame should not exceed 1 ms Time interval between the frames should not be less than 5 ms B 2 After the supply voltage from the data display system is transmitted to the detecting unit the latter not later than in 30 s automatically starts gamma radiation DER measurement and processing of data frames form the data display system B 3 This detecting unit supports data communications protocol version with both 4 digit filed address v1 2 and 8 digit field address v1 3 B 3 1 Communications protocol with the 4 digit field address v1 2 To receive the measured value of DER from the detecting unit the data
8. 3 3V 1 5 1 5 1 1 2 1 2 1 Cs OCTI 7 DER 50 uSv h 100 pSvh 2 AE SERA 1 59 3 B7 21A 10 A 1 A 4 HIIV 12V2 0 V 30V 0 A 2 5 A 5 VIIL L3B DER 0 8 uSv h 1 0 Sv h amp C BICT 412919 001 BICT 468353 001 BICT 436231 001 BICT 685621 002 BICT 685622 002 BICT 467371 001 CD 7 IBM
9. kg 1 3 11 BDBG 09 1 7 1 7 1 1 7 2 2 2 1 2 1 1 2 1 2
10. PE SPPE Sparing Vist Center 33 Volodymyr Velyky Str Lviv 79026 Ukraine Tel 38032 242 15 15 fax 4 358032 242 20 15 13 5 51 1 52 B3 10 2
11. AE 1 1 2 10 II 3 70 m C 1 3 1 3 1 BICT 418266 008 BDBG 09 1 1 3 2 BICT 745265 001 1 1 3 3 BICT 418266 006 HE 1 ik 1 1 3 4 BICT 418266 006 DO 1 1 3 5 BICT 412915 003 1 1 3 6 BICT 412911 001 APK 1 4 1 APK Belden 8102 2 1 3 7 BICT 412919 001 14 1 4 1 1 1 2 3
12. uiSvh 3 2 4 3 9 DER TOCT 8 207 76 324310 0 F t 8 3 3 C eso P 0 95 n 5 t 2 78 S y 2 00 2 00 i l S H 10 n n 1 3 4 3 2 4 3 11 limit of relative residual bias 10 H o 10 J T 2 3 5 SH 10 X VIIL T3B 28317 4S y R DER limit of basic relative permissible error 12 o PT 324312 7 10 g 100 o s g ox 324313 L S Tohi 9H 00 20 100 z U amp d O 0 8 lt 8 Sg u 324314 S Tanig H 00 2K 8 100 5 e 3 6 E 3 2 4 3 15
13. Setup tab A 1 amp BDBG 09 Result txt v Extended protocol A 1 Setup tab Bdbg exe COM port COM port USB USB emulation tl Rot COM port Measurement results 2 Save save continuously save N reliable values Notepad BS bdbg exe
14. Get factors Send factors Addressing New block address AL Change Change New address New delay factor Change v1 2 Current delay factor New delay factor Exchange COM port Sent Received Errors
15. 10 6 6 1 1 2 2 Omm6ka Ommg6ka cpssun 63 64 7
16. ro 1101 11 0 1 0 1 Byte 55h start of frame character Byte AAh 0 1 1 1 1 0901 901 90 0 bD7 Dn4 protocol v1 3 character oO 0 O07 0 0 0 1 0 D7 D0 Factors1 frame code mantissa high byte exponent mantissa low byte mantissa middle byte mantissa high byte exponent mantissa low byte mantissa middle byte Multiplication factor of the high sensitivity detector float MSP430 Dead time rormalaj of the high sensitivity etector float MSP430 Dead time physical of the high sensitivity detector word Dead time physical 3 of the high sensitivity detector word low byte high byte low byte high byte mantissa high byte exponent mantissa low byte mantissa middle byte mantissa high byte exponent mantissa low byte mantissa middle byte mantissa high byte exponent mantissa low byte mantissa middle byte mantissa high byte exponent mantissa low byte mantissa middle byte Background K of the high sensitivity detector float MSP430 Personal background of the high sensitivity detector float MSP430 Multiplication factor of the low sensitivity detector float MSP430 Dead time formula of the low sensitivity detector float MSP430 Dead time physical of the low sensitivity detector word low byte high byte Dead time physical 3 of the low sensitivity detector word low byte high byte
17. 4 1 2 2 1 2 3 1 4 3 2 D 4 6 2 142 RS 48S CU xd CBM 20 CI 3bT
18. Frzz s n xi Bile Action Yew Help e DSA Computer lt Disk drives Display adapters DVD CD ROM drives 3 Floppy disk controllers Floppy disk drives IDE ATAJATAPI controllers Ge Keyboards Mice and other pointing devices Monitors Network adapters a Other devices Ports COM amp LPT 9 Communications Port COMI d Processors 99 Sound video and game controllers 5 System devices Universal Serial Bus cortrolers bdbg exe USB Latency Timer 1mS Properties USB Serial Port COM 17 USE Serial Port COM3 Properties General Port Settings Driver USB Senal Port COM 3 Device type Ports COM amp LPT Manufacturer FTDI Location on USB Senal Converter Device status This device is working properly II vou are having problems with this device click Troubleshoot to start the troubleshooter Device usage Use this device enable Port Settings USB Serial Port COM3 Properties General Port Settings Driver Advanced
19. C Light version BDBG 09 Extended protocol v1 3 bdbg exe bdbg ini bdbg exe KRIZ Work tab A 2 BDBG 09 Result txt Work Setup Serial MEASURED DOSE RATE Stat eror TEMPERATURE DETECTOR HIGH SENSITIVE LOW SENSITIVE Multiplication factor Dead time formula Dead time physical Z Persona hackorund Control Query address E z A2 Work tab bdbg exe Serial MEASURED DOSE RATE DER 2
20. 2 3 2 1 2 3 2 2 DER 30 DER y DER DER 3 y DER 3 3 1 3 1 1 3 1 3 1
21. Windows NT Windows 2000 Windows XP OS PortTalk bdbg exe Couldn t access PortTalk Driver Please ensure driver is loaded 6 3 USB USB USB e RS 485 USB Windows XP Found Hew Hardware Wizard This wizard helps you install software for USB lt gt Serial Cable IF your hardware came with an installation CD lt or floppy disk insert il mow What do you want the wizard to do C Install the software automatically Recommended Install from a list or specific location Advanced Click Next ta continue Install from a list or specific location Advanced Nex Found New Hardware Wizard Please choose your search and installation options Sea
22. g U Rrul aq in max Ge ae um Rrul Ohm m Uci 13 V Umin 7 V BDBG 09 Imax 0 03 A BDBG 09 l m Xt D 2 l C lt D x S A Rra l 7 0 32 ccc Cule FE m Rrul Ohm m S 19200 bps Mo 39 Anisotropy of the BDBG 09 vet Anisotropy of the BDBG 09 horizontal plane E BDBG 09 E B a B E NM W B8 ESETE NM G B W NM 40
23. 3 1 3 3 1 2 2 4 3 1 3 3 2 a b a b 3 1 3 4 HII 1125 3 1 3 5 11 10 3 2
24. 3 2 4 3 19 Cf Z DO y DER AST 900 80 1 mSvIh 3 2 4 3 16 3 2 4 3 20 7Cs DER 0 8002 10 mSv h 3 2 4 3 16 3 2 4 3 21 7Cs DER 9GO 8 0 1 Svyh 3 2 4 3 16 3 2 4 3 22 L H 10 puSvh DER DER 15 2 10 3 2 4 4 3 2 4 4 1 1 2 3 2 4 4 2 4 4 1
25. COIS H 10 lZuSv h amp DER 0 05 3 00 7 DBR 25 25 60 7 13 30 8 min 3 5 3 4 0 05 MeV 125 MeVv r DER 60 60 P Cs Co Am 7 6 eV V mA S gt 9 24 6 5 10 40 C 60 C D 207C 10 C 5 122 1 2 2 1 1 2 2 2
26. daring Re E a mm Lom uot CE x EE nn LER RE RUNE RN 3 1 2 2 2 1 3 1 3 3 1 3 1 3 1 3 1 1 a b 3 1 3 1 2 RAe LT MEKAK H
27. 40 C 60 C 40C 100 84 kPa 106 7 kPa 1 2 2 3 1 2 2 4 5ms 10 msk COME NLA 1000 10 100 ms 1 2 2 5 40 C 60 35 C 953 98 m s 16 ms 1000 10 1 22 6 400 Am 50 Hz l Hz 1 2 2 7 1000 Svh 5 r 1 2 2 8 1 1 2 9
28. BDBG exe DER Setup tab Work tab Measurement 2 234 DER BDBG exe IMEASURED RATE DER DER 180 DER DER 420 ADR 1 2 2 4 2 2 4 1 2 1 2 1 1
29. 18 aix COM Port Number coM3 v T DK USB Transfer Sizes ee Select lower settings to correct performance problems at low baud rates Select higher settings for faster performance Defaults Receive Bytes 4096 Transmit Bytes 4036 Miscellaneous Options Serial Enumerator Minimum Read Timeout msec Serial Printer Cancel lf Power Off Minimum Write Timeout msec Event n Surprise Removal Set RTS n Close E 8 E lt Latency Timer 1 mS OK 7 7 1 PortTalk Drivers PortTalk uninstall exe 7 2 USB USB CD Drivers FTDI Drivers ftdiunin exe 8 Bdbg exe 8 Bdbg exe program 8 1 bdbg exe
30. yYIITI 3B 3 2 4 3 3 2 2 3 1 BICT 685621 002 2 2 3 3 32434 DER 10 3 3 2 4 3 5 DER gt 10 i l A 3 1 32436 yIT 3B Cs DER 610 0 8 0 1 uSv h 3 2 4 3 7 DER 10 3 32438 DER H GO H 10 H2 10 H3 10 3 2 uSv h He
31. DER 7 DER RS 48S 7 DER c RS 48S C
32. 1 1 2 2 2 D0 3 3 3 D1 2242 2 1 23 2 3 1 2 3 1 1 2 2 1 2 3 1 2 2 3 2
33. eure 22h start of frame character Eur Ti lo pmotocor vis character C address D7 D0 HEEEGPS unit address D Current DERI frame code DERO low DERI DERZ DER3 high byte Statistical error of measurement DODI self testing results of the detecting unit DO 1 failure of the high sensitivity detector Dl 1 failure of the low sensitivity detector DER fixed point number low order digit value 0 01 pSv h Reliable measurement result character D2 0 result is true Tun result is false D 0 LDV DER 0 01 pSv h D7 1 LDV DER 0 1 pSv h control arithmetical checksum with a carry measurement result is accepted as false if the statistical error of measurement exceeds maximum permissible error of measurement 31 Temperaturel query frame format the data display system to the detecting unit for the detecting units with embedded temperature detector Tlslwlslglslml Byte 55h start of frame character Byte nan a e a 2 e ao o oF D7 D4 protocol vl 3 character pore address D7 D0 detecting unit address 7 D 0 Temperaturel query frame code control arithmetical checksum with a carry OF Fh address broadcast address All detecting units respond to the query with such address Current temperaturel frame format the detecting unit to the data display system m Toe os oe os oe P
34. YITA 3B Cs DER ASF 900 8 0 1 0 uSv h BDBG exe MEASURED RATE 7r DER 3 2 4 3 7 3 2 4 3 14 ky DER 3 2 4 3 16 YIILL 3B Cs DER 60 80 0 10 0 unSv h BDBG exe MEASURED RATE 7r DER 10 DER 5 3 2 4 3 7 3 2 4 3 14 3 2 4 3 17 7Cs DER o10 800 0 100 0 unSvh 3 2 4 3 16 3 2 4 3 18 7Cs DER o10 8 0 1 mSvyh 3 2 4 3 16
35. USB USB 6 6 1 Windows NT Windows 2000 Windows XP OS bdbg exe PortTalk Windows 98 Windows ME OS PortTalk BDBG 09 USB e RS 48S USB USB 6 2 PortTalk Drivers PortTalk porttalk sys windows system32 drivers porttalkrreg PortTalk uninstalllexe
36. OF OK OK OK OK OF OF OR OR OK OF OF OK OKE OR OF OK OF OF OR OK WS de e b fE fE uS GO Cal Lai Q CO LG L m Eg La F oi F D3 BJ BJ BJ ba ba pa ba ba Ba FE EE efs Lad F 24 3 24 3 24 3 24 3 24 3 24 3 24 3 24 3 24 3 24 3 38 D BDBG 09 BDBG 09 2 0 22 0 75 mm 100 120 Ohm 6 12 mm Hirschmann CA6LD D1
37. Se Dead time physical of the high low Byte eiie detector 4 high byte word Dead time physical 3 of the high sensitivity detector high byte word mantissa high byte ME exponent Background K oF coc Big sensitivity mantissa low byte float MSP430 mantissa middle byte mantissa high byte Personal background of the high Si ARES sensitivity detector mantissa low byte float MSP430 mantissa middle byte mantissa high byte L Multiplication factor of the low ae sensitivity detector mantissa low byte float MSP430 mantissa middle byte mantissa high byte Dead time formula of low sensitivity PARNER detector mantissa low byte float MSP430 mantissa middle byte low byte Dead time physical of the low sensitivity detector high byte word 1 rt Dead time physical 3 of the low tow Dyke sensitivity detector high byte word mantissa high byte j W dgtivit exponent Background K OF ee DOM sensitivity mantissa low byte float MSP430 mantissa middle byte control arithmetical checksum with a carry Confirmation frame format the detecting unit to the data display system D7 D6 D5 D4 D3 D2 DD Byte 55h start of frame character o o o oe aan low byte LEN 0 normal operation l L error 170 9 1 t mS e ES BS D4 Confirmation frame code DO detecting unit address 25 Current factors query frame format the data display system t
38. control arithmetical checksum with a carry current address Confirmation1 frame format the detecting unit to the data display system D7 be D5 D4 D3 f 22 op ERESESEREAESERET Byte 55h start of frame character ppp T p Do me 2m OLD address D7 D0 OLD address of the detecting unit D6 D Confirmationl frame code 1 0 0 0 0 0 0 1 1 D7 0 normal operation 1 error control arithmetical checksum with a carry B 4 Checksum for data communications using both v1 2 protocol and v1 3 protocol is calculated according to Figure B 1 ow arithmetical summation ded ma 1 m Figure B 1 Checksum calculation algorithm C 37 EXAMPLE OF MEASUREMENT RESULTS SAVED WITH THE HELP OF BDBG EXE Bdbg exe APPENDIN C PROGRAM Measured Dose Rate Max stat error BDBG 05 0308123 Response delay factor to broadcast query 1 06 04 2009 HIGH SENSITIVE DETECTOR Multiplication factor Dead tine Dead time Personal background LOW SENSITIVE DETECTOR Multiplication factor Dead time Dead time BDBG 09 0308123 15 14 27 formula physical formula physical Factors received from detecting unit 0 33 126 125 6 o 42 1 50 45 642 Response delay factor to broadcast query 1 06 04 2009 HIGH SENSITIVE DETECTOR Multiplication factor Dead
39. Windows OS 1 6 RES ETE 1 6 1 _ EAN TP67 ik accordance mark 1 6 2 1 6 3 1 6 4
40. the low sensitivity detector high byte word low byte Dead time physical 3 of the low sensitivity detector high byte word mantissa high byte j Background K of the low sensitivity Som FER detector mantissa low byte float MSP430 mantissa middle byte control arithmetical checksum with a carry low byte 26 Serial query frame format the data display system to the detecting unit Dn p ps pa o3 2 pi pop Pl PPP ri Byte 55h start of frame character 0 Byte AAR D7 D4 Serial query frame code A3 A2 A1 A D3 D0 detecting unit address QFh address broadcast address All detecting units respond to the query with such address Serial frame format the detecting unit to the data display system oT pe S DADs PE p Byte 55h start of frame character Hye RAM D7 D4 Serial 4 frame code D3 D0 detecting unit address am Lx No 2 Serial No high byte arithmetical checksum with a carry Address change frame format the data display system to the detecting unit D7 D D5 D4 D3 D2 DiS Do O Byte 55h start of frame character il i p a n 6 Byte Aap D7 D4 Address change frame code 0 1 l 0 A3 A Al AO D3 DO current address of the dete
41. 02 SATS BICT 685622 002 RS 232 Windows OS A 2 2 3 2 BICT 685621 002 2233 020222 V
42. BDBG 09 BICT 418266 006 HE S on OERA Re O FRE A B C D E BDBG 09 y DER y 1cm PC 1 1 1 BDBG 09 BDBG 09 y 1 cm DER 1 2 1 2 1 1 1 1 1 m i 5 Al TE SB BE 1 DER uSv h 0 05 107 2 Cs DER 15 2 H 10 0 9
43. BICT 467371 001 CD 3 23 20 65 15 84kPa 106 7 kPa 025 nuSv h 12 0 0 V 3 2 4 3 2 4 1 a nem Ag BICT 418266 006 DO 3 ik 11 3 2 4 2 2 2 3 3 2 4 3 3 2 4 3 1 VIIT I3B EE y 3 2 4 3 2
44. BO 12 16 g 59 96 C H OH 16g Na 8 0 4 5H 0 1 0 2 1 2 3 1 3 2 1 3 3 1 3 3
45. ata display system in the process of system operation DER query frame format the data display system to the detecting unit rr ss os Tes Tos Tz o 9 Eas Ea Kas ss ca dll ZPE P e NEAN ing DER query frame code D3 DO A3 A2 Al AO or 0Fh address broadcast address All detecting units respond to the query with such address Current DER frame format the detecting untt to the data display system 0Fh address broadcast address All detecting units respond to the query with such address Current DER frame format the detecting untt to the data display system measurement result is accepted as false if the statistical error of measurement exceeds maximum permissible error of measurement rer ss ss oa os oa Por Poo C of frame character D Current DER frame code DERO low byte fixed point number low order digit value LDV 0 01 pSv h DER3 high byte Statistical error of measurement D0 D1 self testing results of the detecting unit DO 1 failure of the high sensitivity detector Dl 1 failure of the low sensitivity detector Reliable measurement result character D2 0 result is true D2 1 result is false D7 0 LDV DER 0 01 pSv h D7 1 LDV DER 0 1 pSv h arithmetical checksum with a Carry measurement result is TETE as false if the statistical error of measurement exc
46. cting unit 0 9 0 0 NA3 NA2 NA1 NAO D3 D0 new address of the detecting unit control arithmetical checksum with a carry Confirmation frame format the detecting unit to the data display system Ilpel5slpl5sl5lml5el C lereleilziselz es x Byte 55h start of frame character 1 0 1 0 1 D 1 Ll error D6 D4 Confirmation frame code D3 D0 OLD address of the detecting unit 27 Serial query frame format the data display system to the detecting unit Dn p ps pa o3 2 pi pop Pl PPP ri Byte 55h start of frame character 0 Byte AAR D7 D4 Serial query frame code A3 A2 A1 A D3 D0 detecting unit address QFh address broadcast address All detecting units respond to the query with such address Serial frame format the detecting unit to the data display system oT pe S DADs PE p Byte 55h start of frame character Hye RAM D7 D4 Serial 4 frame code D3 D0 detecting unit address am Lx No 2 Serial No high byte arithmetical checksum with a carry Address change frame format the data display system to the detecting unit D7 D D5 D4 D3 D2 DiS Do O Byte 55h start of frame character il i p a n 6 Byte Aa
47. display system should transmit the DER query frame to the detecting unit The detecting unit will respond in 5 ms to 15 ms with the Current DER frame where current DER maximum statistical error of its measurement and self testing results of the detecting unit will be displayed To receive the measured value of temperature from the detecting unit with embedded temperature detector the data display system should transmit the Temperature query frame to the detecting unit The detecting unit will respond in 5 ms to 15 ms with the Current temperature frame where current temperature and condition of the temperature detector will be given To receive the current calibration factors from the detecting unit the data display system should transmit the Current factors query frame to the detecting unit Within 500 ms the detecting unit will respond with the Factors frame where the current calibration factors will be given To change the calibration factors the data display system should transmit the New factors frame to the detecting unit Within 500 ms the detecting unit will respond with the Confirmation of factors frame with the displayed results of calibration factors reception In the event of successful reception the detecting unit records them in the nonvolatile memory and not later than in 30 s starts measurement of gamma radiation DER using new factors To receive the serial number of the detecti
48. eeds maximum ae error of measurement 23 Temperature query frame format the data display system to the detecting unit for the detecting units with embedded temperature detector D D6 ps Da o3 o2 pu pop peta tots tots fota Byte 55h start of frame character D7 D4 Temperature query frame code D3 D0 detecting unit address OFh address broadcast address All detecting units respond to the query with such address Current temperature frame format the detecting unit to the data display system 7lpelpslp4 pslpzlpnlpo Tio io i o gt Byte 55h start of frame character ERIEBEBISRB pree amn D7 D4 Temperature frame code Temperature binary number E IE 5 oes temperature S l below zero temperature 5 a Di 0 normal operation of thermal detector D7 1l failure of thermal detector control arithmetical checksum with a carry 24 New factors frame format the data display system to the detecting unit mw pe ps p pa p pi EO C C C 0 C C 3 z lsszlslml t Z 3a Byte 55h start of tframe character Byte Anh D7 D4 New factors frame code i 2 mantissa high byte Multiplication factor of the high PSPP sensitivity detector mantissa low byte float MSP430 mantissa middle byte mantissa high byte E Dead time formula of the high sensitivity detector mantissa low byte float MSP430 mantissa middle byte
49. itivity detector float MSP430 Multiplication factor of the low sensitivity detector float MSP430 Dead time formula of low sensitivity detector float MSP430 Dead time physical of the low sensitivity detector word low byte high byte Dead time physical 3 of the low sensitivity detector high byte word mantissa high byte exponent mantissa low byte mantissa middle byte control low byte Background K of the low sensitivity detector float MSP430 arithmetical checksum with a carry 33 Confirmation1 frame format the detecting unit to the data display system 27 ve 25 os p oe pit pop ie x s zt e z ul s Byte 55h start of frame character 21a i el i pese LmIa sis ma e s m m D7 D4 protocol v1 3 character address DO detecting unit address D0 Confirmationl frame code 1 0 0 0 0 0 1 1 0 normal operation error control arithmetical checksum with a carry Current factors query frame format the data display system to the detecting unit D7 D6 D5 p4 p3 r2 Dp1 DO 34 G O ooo Byte 55h start of frame character Byte AAh D7 D4 protocol v1 3 character address D7 DO0 detecting unit address address D7 D0 Current factorsl query frame code control control arithmetical checksum with a carry 34 Factors1 frame format the data display system to the detecting unit EN LS TS C
50. mantissa high byte exponent Background K of the low sensitivity detector mantissa low byte float MSP430 mantissa middle byte control arithmetical checksum with a carry 35 Serial 1 query frame format the data display system to the detecting unit Byte 55h start of rame character Byte AAh D7 Dp0 Serial amp 1 query frame code Control control arithmetical checksum with a carry OFFh address broadcast address All detecting units respond to the query with such address Serial 1 frame format the detecting unit to the data display system AAAA C C a amp al la np i Byte 55h start of frame character Io lilolilo ilolByte Anh D7 D4A protocol v1 3 character D7 D 0 detecting unit address Serial No 0 low byte Serial No 1 i Serial No of the detecting unit ihig te Serial No 3 high byte D7 D0 current response delay factor to control arithmetical checksum with a carry 36 Addressl change frame format the data display system to the detecting unit p D6 o5 ba p3 pz pi pop LHe H e e Byte 55h start of frame character o i oi o Le fll Tole To To e prosesor vri macer l D7 00 current address of the detecting uni D7 D Addressl change frame code new address new address D7 DO0 new address of the detecting unit DENEN D7 D new response dE factor to
51. n 500 ms the detecting unit will respond with the Factors1 frame where the current calibration factors will be given To change the calibration factors the data display system should transmit the New factors1 frame to the detecting unit Within 500 ms the detecting unit will respond with the Confirmation of factors1 frame with the displayed results of calibration factors reception In the event of successful reception the detecting unit records them in the nonvolatile memory and not later than in 30 s starts measurement of gamma radiation DER using new factors To receive the serial number of the detecting unit and the response delay factor to broadcast query the data display system should send the Serial 1 query frame to the detecting unit The detecting unit will respond in 5 ms to 15 ms with the Serial 1 frame with the displayed serial number and the response delay factor to the broadcast query To change the address of the detecting unit and the response delay factor to the broadcast query the data display system should transmit the Address1 change frame to the detecting unit In 5 ms to 500 ms the detecting unit will respond with the Confirmation1 frame Caution In the address field of the Confirmation1 frame the old value of address will be recorded In the event of successful reception of a new value and response delay factor to the broadcast query the detecting unit records it in the no
52. ng unit the data display system should transmit the Serial query frame to the detecting unit The detecting unit will respond in 5 ms to 15 ms with the Serial frame with the displayed serial number To change the address of the detecting unit the data display system should transmit the Address change frame to the detecting unit In 5 ms to 500 ms the detecting unit will respond with the Confirmation frame Caution In the address field ofthe Confirmation frame the old value of address will be recorded In the event of successful reception of a new value the detecting unit records it in the nonvolatile memory and not later than in 5 s starts responding to the frames with a new address To make operation with several detecting units up to 15 units easier that are simultaneously connected to the data display system via single RS 485 interface the 0Fh broadcast address is 22 provided The use of this address is permitted only in the DER query Temperature query and Serial query frames All detecting units respond to the query with such address broadcast query When the detecting units respond to the broadcast query each of them does it with delay T which is calculated by the formula T 5mS Adr SmS B 1 where Adr is the address of the detecting unit The broadcast query also enables easy realization of autodetection of the detecting units that connect disconnect to from the d
53. nvolatile memory and not later than in 5 s starts responding to frames with a new address To make operation with several detecting units up to 255 units easier that are simultaneously connected to the data display system via single RS 485 interface the OFFh broadcast address is provided The use of this address is permitted only in the DERI query Temperaturel query and Serial 1 query frames All detecting units respond to the query with such address broadcast query When the detecting units respond to the broadcast query each of them does it with delay T which is calculated by the formula T 5 mS t x 8 mS B 2 where t response delay factor to the broadcast query 0 255 The broadcast query also enables easy realization of autodetection of the detecting units that connect disconnect to from the data display system in the process of system operation 30 DERI query frame format the data display system to the detecting unit pr pe ms pe o3 o2 n vo o 0 5 ae ee E DEG Byte 55h start of frame character address D7 D0 detecting unit address Press D7 D DER1 query frame code O contro control arithmetical checksum with a carry OFFh address broadcast address All detecting units respond to the query with such address Current DERI frame format the detecting unit to the data display system ES C
54. o the detecting unit mrpm w m w w w w Byte 55h start of frame character D7 D4 Current factors query frame 1 0 A3 A2 A1 AO code D3 D0 detecting unit address Factors frame format the data display system to the detecting unit D7 D6 n5 p4 p3 Dp2 D1 DO Byte 55h start of frame character 5 3 5 Y URED UA D D4 Factors frame code 2 mantissa high byte Multiplication factor of the high td da td sensitivity detector mantissa low byte float MSP430 mantissa middle byte mantissa high byte i Dead time formula of the high Se sensitivity detector mantissa low byte float MSP430 mantissa middle byte Dead time physical of the high sensitivity detector high byte word low byte pean ring oy OF phe miah high byte word mantissa high byte exponent Background K at EHE 2 sensitivity mantissa low byte float MSP430 mantissa middle byte mantissa high byte Personal background of the high PRPOREDI sensitivity detector mant ssa low byte float MSP430 mantissa middle byte mantissa high byte Multiplication factor of the low CAPETE sensitivity detector mant ssa low byte float MSP430 mantissa middle byte low byte zi D C k mantissa high byte s Dead time formula of the low EE sensitivity detector mantissa low byte float MSP430 mantissa middle byte Dead time physical of
55. ormat the data display system to the detecting unit a D3 D2 DI D0 O Byte 55h start of frame character nz Address change frame code Al A0 D3 O current address of the detecting unit D3 D new address of the detecting unit arithmetical checksum with a carry 0 normal operation gt error D4 Confirmation frame code D OLD address of the detecting unit B 3 2 Communications protocol with the 8 digit field address v1 3 To receive the measured value of DER from the detecting unit the data display system should transmit the DER1 query frame to the detecting unit The detecting unit will respond in 5 ms to 15 ms with the Current DERI frame where current DER maximum statistical error of its measurement and self testing results of the detecting unit will be displayed 29 To receive the measured value of temperature from the detecting unit with embedded temperature detector the data display system should transmit the Temperaturel query frame to the detecting unit The detecting unit will respond in 5 ms to 15 ms with the Current temperaturel1 frame where current temperature and condition of the temperature detector will be given To receive the current calibration factors from the detecting unit the data display system should send the Current factors1 query frame to the detecting unit Withi
56. ou s ee ment ium cR 2121212 127127 12 12 Temperature binary number S above zero temperature s S l below zero temperature D7 X X x S 2 2 D7 0 normal operation of thermal detector D7 l failure of thermal detector control arithmetical checksum with a carry 32 New factors1 frame format the data display system to the detecting unit f oa e ea SS 6 1 100 13119 3 5 s Byte 55h start of frame character Byte Aah D7 D4 protocol v1 3 character address D7 D0 detecting unit address address Too o Is TEIG eese factorei frame code mantissa high byte exponent mantissa low byte mantissa middle byte mantissa high byte exponent mantissa low byte mantissa middle byte Multiplication factor of the high sensitivity detector float MSP430 Dead time formula of the high sensitivity detector float MSP430 Dead time physical of the high sensitivity detector high byte DRE low byte Dead time physical 3 of the high sensitivity detector word low byte high byte mantissa high byte exponent mantissa low byte mantissa middle byte mantissa high byte exponent mantissa low byte mantissa middle byte mantissa high byte exponent mantissa low byte mantissa middle byte mantissa high byte exponent mantissa low byte mantissa middle byte Background K of the high sensitivity detector float MSP430 Personal background of the high sens
57. p D7 D4 Address change frame code 0 1 l 0 A3 A Al AO D3 DO current address of the detecting unit 0 9 0 0 NA3 NA2 NA1 NAO D3 D0 new address of the detecting unit control arithmetical checksum with a carry Confirmation frame format the detecting unit to the data display system Ilpel5slpl5sl5lml5el C lereleilziselz es x Byte 55h start of frame character 1 0 1 0 1 D 1 Ll error D6 D4 Confirmation frame code D3 D0 OLD address of the detecting unit 28 Serial query frame format the data display system to the detecting unit Te ee Por Pes L amp 3xw amp s 5 i 3 Byte 55h start of frame character E mis D7 D4 Serial query frame code A3 AZ Al A x j D3 D0 detecting unit address OFh address broadcast address All detecting units respond to the query with such address Serial frame format the detecting unit to the data display system C57 e s5 4 s5 2 251 20 Byte 55h start of frame character e s o rr r s e n T isis nn Fm le PADa detecting unit aadress Serial No 0 d byte Serial No Serial No Serial No 3 high byte control arithmetical checksum with a carry Serial No of the detecting unit Address change frame f
58. rch for ths best diver in these locations Use the check boxes below to limit or expand the default search which includes local paths and remervable madia The best driver found will be installed Search removable media floppy CD ROM Include this location in the search A Drivers FTDI Drivers v O Dont search will choose the driver to inztall Chooze this option t select the device driver from a lich window does nol guarantee that the driver you choose will be the best match for your hardware CD Drivers FTDI Drivers Nexe USB 16 Found Hew Hardware Wizard Completing the Found New Hardware wizard The wizard has finished installing the soltwars For USB Serial Converter Click Finish to clase the wizard Finish Found New Hardware Wizard USB USB
59. time Dead time Personal background LOW SENSITIVE DETECTOR Multiplication factor Dead time Dead time BDBG 09 0308123 15 14 33 Iormula iphysical Formula physical Factors sent to detecting unit 0 33 126 125 6 n 42 1 50 45 642 Response delay factor to broadcast 06 DE 06 06 06 06 Qs 06 06 06 06 06 06 06 06 06 06 06 06 06 06 06 04 04 2009 03 04 04 2009 2009 04 03 043 2009 2009 03 03 04 03 04 04 04 2009 034 04 04 04 04 04 04 20059 2009 20095 2005 20095 200 2008 2008 2008 2008 2008 200 2005 2009 2008 2009 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 14 14 14 15 15 15 15 15 15 16 16 15 16 16 16 17 17 17 17 17 17 A3 34 44 54 05 2 15 a4 a4 44 55 05 14 24 34 45 EE 04 14 1 24 2 30 745 55 05 LJ 5 mw 0 00 0 12 0 10 0 11 0 11 0 12 0 11 0 11 0 11 0 10 0 10 0 10 0 10 0 11 0 10 0 11 0 11 0 11 0 12 0 12 0 11 query 1 psv h uSv h psv h n5v h uS5v h uSv h uSv h nSv h psv h psv h nSv h psv h psv h psv h uSv h uSv h psv h nSv h psv h uSv h psv h 255 115 81 amp 63 amp 55 amp 47 43 41 38 37 35 33 32 30 29 27 26 25 24 23 23 Data exchange stopped
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