RSRC LVINLBVWtx TD@<!]3P ُ B~5j ՍuLVINAvTech-pulse.viLVINAVTAVR Initialize.vi $@0Instr. Descriptor (GPIB::8)@pInstr VISA session@!ID Query (T: Check)@!Reset (T: Reset)@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error outPTH06 avtavr avtavr.llbAVTAVR Initialize.viLVINAVTAVR Close.viu @pInstr VISA session@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error outPTH01 avtavr avtavr.llbAVTAVR Close.viLVINAVTAVR Error Message.vi  @pInstr VISA session @!Status@pInstrdup VISA session@Error Code (0)@0Error Message (empty)@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error outPTH09 avtavr avtavr.llbAVTAVR Error Message.viLVINAVTAVR Application Example.vi   @pInstr VISA session@ Delay (50 ns)@PW Mode (0:Normal)@ Pulse Width (100 ns*)@@P @!status @code@0sourceerror in (no error)@ Frequency (1 Hz)@ Amplitude (0) @Trigger Source (0:Internal)@!Output State (Off) @Amplitude Mode (0: Normal)@pInstrdup VISA session6@P @!status @code@0source error outPTH0? avtavr avtavr.llbAVTAVR Application Example.viLVINAVTAVR Error Query.vi @pInstr VISA session@pInstrdup VISA session @Error@0 Error Message@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error outPTH07 avtavr avtavr.llbAVTAVR Error Query.vi   $@0Instr. Descriptor (GPIB::8)@ Delay (0 ns) @PW Mode@ Pulse Width (150 ns)@@P @!status @code@0sourceerror in (no error)@ Frequency (1 Hz)@ Amplitude (-20 volt )@Trigger Source@!Output Status (red is ON)@Amplitude Mode6@P @!status @code@0source error outP= c$ c c \P"@P@flg@oRt@eofudfPAmplitude ModexdfdPtxdPoldPext P" P@@\P"@P@flg@oRt@eofudfPTrigger SourcepdfdPtxdPoldPext P" P@@TP"@P@flg@oRt@eofudf PPW ModexdfdPtxdPoldPext P" P@@ cbP"@P@flg@oRt@eofudfP Amplitude (-20 volt )p dfdP txdP oldP ext P   cbP"@P@flg@oRt@eofudfP Pulse Width (150 ns)p dfdP txdP oldP ext P   cZP"@P@flg@oRt@eofudfP Delay (0 ns)x dfdP txdP oldP ext P   c^P"@P@flg@oRt@eofudfP Frequency (1 Hz)p dfdP txdP oldP ext P   cfP"@P@flg@oRt@eofudfP!Output Status (red is ON)x!dfdP!txdP!oldP!ext cP"@P@flg@oRt@eofudf@PP @!status @code@0sourceerror in (no error)xP!0dfdPP!0txdPP!0oldPP!0ext P cP"@P@flg@oRt@eofudf6PP @!status @code@0source error outxP!0dfdPP!0txdPP!0oldPP!0ext P c|P"@P@flg@oRt@eofudf$P0Instr. Descriptor (GPIB::8) p0dfd P0txd P0old P0ext c c c:6@P @!status @code@0source error out c c@pInstr VISA session cD@@P @!status @code@0sourceerror in (no error) c c c@ Delay (0 ns) @PW Mode@ Pulse Width (150 ns)@ Frequency (1 Hz)@ Amplitude (-20 volt )@Trigger Source"@!Output Status (red is ON)@Amplitude Mode c c($@0Instr. Descriptor (GPIB::8) c c c c ^( p  D4@Y?>! v@$$@$?AcGPIB::84H@PDtT $ 0  dpx 2   .X    @@T@@@r@ @@@@(@@@X@X@XVIDSAvTech-pulse.viVIDSAVTAVR Initialize.viDPTH0VIDSAVTAVR Error Query.viLPTH0VIDSAVTAVR Error Message.viPPTH0VIDSAVTAVR Close.viTPTH0VIDSAVTAVR Application Example.viHPTH0 Hi386 code2E{ E`ETPUEd$==ÐӀ}#EPXC\CLC,C4{8tPRZXC<C|tPRZXCT CdCCD{HSQRVWPEEXPE EXPERUQ YZXEEPERUQ YZXEEQRuhPED$XCd$ZY=t_^ZY[ÐuP$Yd$ =X} JE(E!E"ƅƅ4ƅƅƅtƅƅƅƅdƅɍHHH Hƅt hh UEP@d$ZY_^ZY[]ÐXy9 <"1~   U pV^fn%Y o8 + d CODE2(6.0rc5Oldest compatible LabVIEW.2D2A$23\V230hhpbPPNP @Trigger Source@ Frequency (1 Hz)@ Delay (0 ns) @PW Mode@ Pulse Width (150 ns)@Amplitude Mode@ Amplitude (-20 volt )@!Output Status (red is ON)$@0Instr. Descriptor (GPIB::8)@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error out*  HDThis VI is a ready-to-run control panel for the Avtech Electrosystems AVR series of pulse generators, as well as most of the AVMP, AVMR, AVP, AVPP, AVI, AVIR, AVL, and AVOZ models. This VI is basically a wrapper VI for the Application Example VI. The Application Example VI contains most of the actual functionality. Manufacturer: Avtech Electrosystems Ltd. Model Numbers: AVMP-1A-B, AVMP-2-B, AVMP-3-B, AVMP-4-B, AVP-2S-B, AVP-AV-1S-B, AVP-AV-1-B, AVP-AV-1-B, AVP-AV-HV2-B, AVP-AV-HV3-B, AVP-AV-2-B, AVPP-1-B, AVPP-2-B, AVMR-1-B, AVMR-2-B, AVI-V-B, AVI-V-HV1-B, AVI-V-HV2-B, AVI-V-HV3-B, AVIR-1-B, AVIR-2-B, AVIR-3-B, AVIR-4-B, AVR-E1-B, AVR-E2-B, AVR-E3-B, AVL-2-B, AVL-AV-B, AVL-2A-B, AVL-AV-1-B, AVRF-1-B, AVRF-2-B, AVRF-3-B, AVRF-4-B, AVR-1-PW-B, AVR-S1-B, AVR-S2-B, AVR-A-1-PW-B, AVR-A-1-S1-B, AVR-3-B, AVR-4-B, AVR-5B-B, AVR-7B-B, AVR-8A-B, AVR-9A-B, AVR-9B-B, AVR-9C-B, AVR-9D-B, AVRH-1-B, AVRH-2-B, AVRH-3-B, AVR-G1-B, AVR-G2-B, AVO-2-B, AVO-2W-B, AVO-2-A-B, AVO-5-B, AVO-5A-B, AVO-5B-B, AVO-5B1-B, AVO-5D-B, AVO-6A-B, AVO-6B-B, AVO-6C-B, AVO-6C1-B, AVO-6D-B, AVO-7A-B, AVO-7B1-B, AVO-7B2-B, AVO-7A1-B, AVO-9A-B, AVO-9B-B, AVO-9E-B, AVO-9G-B, AVOZ-A1A-B, AVOZ-A1-B, AVOZ-A2-B, AVOZ-A3-B, AVOZ-B1-B, AVOZ-B2-B. Instrument Type: Pulse Generator Created By: Dr. Michael J. Chudobiak, mjc@avtechpulse.com Visit us at www.avtechpulse.com!JኤDD)Ÿ+Ż3!!!ffffffffffffffffgwwwwwwwwwwwwwwvgwwwwwwwwwwwwwwvgwwwwvgwwwvgwwwvgwwwwwvgwwwwwvgwwwwwwwwwwwwwwvgwwwwwwwwwwwwwwvgwwwwwwwwwwwwwwvgffffffffffffwvgoffffffffffffgvgfffffffffffffvgf`vgf`3vgf`3vgf`vgf`vgv`vgwfffffffffffffvgwwwwwwwwwwwwwwvgwwwwwwwwwwwwwwvgwwwwwwwwwwwwwwvgwwwwwvgwwwwwwvgwwwwwwwvgwwwwwwwvgwwwwwwvgwwwwwwwwwwwwwwvgwwwwwwwwwwwwwwvffffffffffffffffҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴ##ҴҴ##ҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴҴnn   $@0Instr. Descriptor (GPIB::8)@ Delay (0 ns)@PW Mode @ Frequency (1 Hz)*@P!0error in (no error)@ Frequency (1 Hz)@ Amplitude (-20 volt )@Trigger Source @!Output Status (red is ON)@Amplitude Mode @P!0 error out DTHPD288 ~ 0$@0Instr. Descriptor (GPIB::8)@0source @code @!statusL@@P @!status @code@0sourceerror in (no error)F6@P @!status @code@0source error out.@pInstrdup VISA session, @Amplitude Mode (0: Normal).@0Error Message (empty) @Error Code (0) @!Status$@!Output State (Off), @Trigger Source (0:Internal)"@ Amplitude (0)&@ Frequency (1 Hz)*@ Pulse Width (100 ns*)$@PW Mode (0:Normal) @ Delay (50 ns)*@ Pulse Width (150 ns)"@ Delay (0 ns)&@!Reset (T: Reset)$@!ID Query (T: Check)*@pInstr VISA sessionB2 $@0Instr. Descriptor (GPIB::8)@pInstr VISA session@!ID Query (T: Check)@!Reset (T: Reset)@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error out   @pInstr VISA session@ Delay (50 ns)@PW Mode (0:Normal)@ Pulse Width (100 ns*)@@P @!status @code@0sourceerror in (no error)@ Frequency (1 Hz)@ Amplitude (0) @Trigger Source (0:Internal)@!Output State (Off) @Amplitude Mode (0: Normal)@pInstrdup VISA session6@P @!status @code@0source error outD8  @pInstr VISA session @!Status@pInstrdup VISA session@Error Code (0)@0Error Message (empty)@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error out @Trigger Source.@!Output Status (red is ON) @Amplitude Mode @PW Mode @pInstr VISA session@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error out*@ Amplitude (-20 volt ). @pInstr VISA session@pInstrdup VISA session @Error@0 Error Message@@P @!status @code@0sourceerror in (no error)6@P @!status @code@0source error out @Error&@0 Error Messageu (@X (@X$XP|$XHp$$X DlDD|  , DD , < <X dD  X rDHcXHdXAmplitude ModeHG2cscsH$G2`bq`cp`D0@0@Amplitude Parameters]DTiming ParameterssDNN***Trigger Source HF2AOBOHF2,,lDab PW Mode HF2H$TF2abyDJZ]JZ] ** *Amplitude (-20 volt )Hx32aqaquDQQ Frequency (1 Hz)xDdd** *Pulse Width (150 ns)HE2&5&5qD88*** Delay (0 ns)H0E233uD`a  Frequency (1 Hz)HD2hiwDHH error in (no error)RD&6 &6 sourceHpD2;^R;K>PD$88codeHC2'Q'QRD$statusH$C2&&UDkl error outRD"s2"t2sourceHB27y]7zGPD$  codeHB2""RD$p q statusH$PB2~!!Daqaq***Instr. Descriptor (GPIB::8)HA2uCuCTD'p(pLaser ON}D "" "Output Status (red is ON)aDstAVTAVR Error Query.viiDABAVTAVR Application Example.vi[DBBAVTAVR Close.vicDFFAVTAVR Error Message.vi`D88AVTAVR Initialize.viHDD2 !HDLC2+],] HDB2HDA2W(kW)k HDD2}~HDXE2   HDhE2*l:*m:HD32BpRBqRHDF2##HD(G2~~HDG2k{k{Normal Ext Control,InternalExternalManualHold ImmediateNormal PWin=PWout|PNG  IHDR(-SPLTE岲LLLf3̙f3f3ffffff3f3333f333f3f3̙f3̙̙̙̙f̙3̙ffffff3f3333f333f3̙f3̙̙f3̙f3ff̙ffff3f33̙33f333̙f3ffffff3ffff̙fff3fffffff3ffffffffffff3fff3f3f3f3ff33f3ffffff3f3333f333333̙3f3333333f3333f3f3f3ff3f33f33333333f333333333f333f3̙f3f3ffffff3f3333f333f3 """)))UUUMMMBBB999|PP֭𠠤.9?IDATxc`f($!lTTH@@Mr~ 0-p l4K9M/dIENDB`33qzPNG  IHDR(-SPLTE岲LLLf3̙f3f3ffffff3f3333f333f3f3̙f3̙̙̙̙f̙3̙ffffff3f3333f333f3̙f3̙̙f3̙f3ff̙ffff3f33̙33f333̙f3ffffff3ffff̙fff3fffffff3ffffffffffff3fff3f3f3f3ff33f3ffffff3f3333f333333̙3f3333333f3333f3f3f3ff3f33f33333333f333333333f333f3̙f3f3ffffff3f3333f333f3 """)))UUUMMMBBB999|PP֭𠠤.9AIDATxc`f(`O -?B( ȶ0@T  Y9N` A?KIENDB`q|PNG  IHDR(-SPLTE岲LLLf3̙f3f3ffffff3f3333f333f3f3̙f3̙̙̙̙f̙3̙ffffff3f3333f333f3̙f3̙̙f3̙f3ff̙ffff3f33̙33f333̙f3ffffff3ffff̙fff3fffffff3ffffffffffff3fff3f3f3f3ff33f3ffffff3f3333f333333̙3f3333333f3333f3f3f3ff3f33f33333333f333333333f333f3̙f3f3ffffff3f3333f333f3 """)))UUUMMMBBB999|PP֭𠠤.9?IDATxc`f($!lTTH@@Mr~ 0-p l4K9M/dIENDB`33qzPNG  IHDR(-SPLTE岲LLLf3̙f3f3ffffff3f3333f333f3f3̙f3̙̙̙̙f̙3̙ffffff3f3333f333f3̙f3̙̙f3̙f3ff̙ffff3f33̙33f333̙f3ffffff3ffff̙fff3fffffff3ffffffffffff3fff3f3f3f3ff33f3ffffff3f3333f333333̙3f3333333f3333f3f3f3ff3f33f33333333f333333333f333f3̙f3f3ffffff3f3333f333f3 """)))UUUMMMBBB999|PP֭𠠤.9AIDATxc`f(`O -?B( ȶ0@T  Y9N` A?KIENDB`qFPHPAvTech-pulse.vi7FPHP(287|7|7,(\$XL5T$)\ 8L 8 L T 0pDKX$ |+`PWG`s1O@$4p4 FXGbYt34 JX btx3< 6X _ar|3G20  2X/elD0  X^`s4 p/A34 p30phN||*PW8O3 I@"$$X4 F|O34 J| @P3< 2| -3F20  2|/.;D0  |>0 p$R8D |*P W_2xM@$ P4 F8`34 J8 3< 68 `3pF20  28/D0  8_0pW|*4@PIt^,0YH84 F I[^n34  2 `r n3@ 2 @^ipcpclg@ 2 itododkh0  ^t0p|-tT|)@PL)e,-Ff4 NR R34 F e34  2 '63@ 2 @pcpclg@ 2 )ododkh0  )80p L. `|)l@P 9*<.Xf,4 F ` 934  2 ` 43@ 2 ` @pcpclg@ 2 ` ododkh0  ` 60p / 4H|)@P ^)4- 2fh4 F  _34  2 g3@ 2  @^epcpclg@ 2  ^eododkh0  e0p J5 |(0p 2|'x<S` fZ&D4h4 F  I30 7  aU0  fZhh4Q %aU4+,`84 F %7 34 2 :_S3p 4+ :_:_:_0  8aU@P *T%*d@4 Fh 934 2h (R3@ 2h @pcpclg@ 6h *ododkh0 h *T4O %)\D4 G3< j'3D2 %n%!n%"o%!n%"o0"pH\"|'<"S`je Hd"4" F\ j30# 7\ o`0# \ je#@#@4#Q\!r`%<,#H4# F !r334$ 2 6x^3p% 4+ 6t^v6t^v6t^v0%  4r`@%P\%D$d @I4% F 34& 2 #3@' : @pcpclg@' : %ododkh0'  %4'O\o t#8 '4' G@o3<( j@}"3|B2* @x px +px ,qx +px ,q0,pd,|(@4,Q`@ ,0d4, F `r34- 2 tD3p. 5+ ttt0.  rF.7\.     L     8  T         .5..~p2DkH2h22^x<?<D2.oThis control specifies the interface and address of the device that is to be initialized (Instrument Descriptor). The exact grammar to be used in this control is shown in the note below. Default Value: "GPIB::8" Notes: (1) Based on the Instrument Descriptor, this operation establishes a communication session with a device. The grammar for the Instrument Descriptor is shown below. Optional parameters are shown in square brackets ([]). Interface Grammar ------------------------------------------------------ GPIB GPIB[board]::primary address[::secondary address] [::INSTR] The GPIB keyword is used with GPIB instruments. The default value for optional parameters are shown below. Optional Parameter Default Value ----------------------------------------- board 0 secondary address none - 30 t._error out is a cluster that describes the error status after this VI executes. If an error occurred before this VI was called, error out is the same as error in. Otherwise, error out shows the error, if any, that occurred in this VI. Use the error handler VIs to look up the error code and to display the corresponding error message. Using error in and error out clusters is a convenient way to check errors and to specify execution order by wiring the error output from one subVI to the error input of the next. Valid Range: Not Applicable Default: status= False (no error) code = 0 source = empty string.The status boolean is either TRUE (X) for an error, or FALSE (checkmark) for no error or a warning. The pop-up option Explain Error (or Explain Warning) gives more information about the error displayed.L. 2  0z0z/{.|-}.The code input identifies the error or warning. The pop-up option Explain Error (or Explain Warning) gives more information about the error displayed.,.P%.The source string describes the origin of the error or warning. The pop-up option Explain Error (or Explain Warning) gives more information about the error displayed.L. 2h %0z0z/{.|-}.error in is a cluster that describes the error status before this VI executes. If error in indicates that an error occurred before this VI was called, this VI may choose not to execute its function, but just pass the error through to its error out cluster. If no error has occurred, then this VI executes normally and sets its own error status in error out. Use the error handler VIs to look up the error code and to display the corresponding error message. Using error in and error out clusters is a convenient way to check errors and to specify execution order by wiring the error output from one subVI to the error input of the next. Valid Range: Not Applicable Default: status= False (no error) code = 0 source = empty string(. < p + $.The status boolean is either TRUE (X) for an error, or FALSE (checkmark) for no error or a warning. The pop-up option Explain Error (or Explain Warning) gives more information about the error displayed.(.  H, .The code input identifies the error or warning. The pop-up option Explain Error (or Explain Warning) gives more information about the error displayed..The source string describes the origin of the error or warning. The pop-up option Explain Error (or Explain Warning) gives more information about the error displayed.L. :  gm0z0z/{.|-},.  8 l ,D L. : $0z0z/{.|-}(.4h.L. : ` 0z0z/{.|-}.This floating-point control determines the instrument's pulse repetition frequency. Valid Range: instrument-dependent, but always >0 and <= 1e7. Default: 1.0.This floating-point control determines the instrument's output pulse width, when the pulse width mode is set to "normal". Valid Range: instrument-dependent, but always >0 and <10.0. Default: 100e-9L. : co0z0z/{.|-}.This floating-point control determines the delay time. In single-channel instruments, the delay is between the main output and the sync pulse. For a positive value of delay, the sync pulse precedes the main output. In dual-channel instruments, it is between the CH1 output and the CH2 output. Valid Range: instrument-dependent, but always between -10.0 and +10.0 for single-channel instruments, and between 0 and +10.0 for dual-channel instruments. Default: 50e-9..This floating-point control determines the instrument's output amplitude, when the amplitude mode is set to "normal". Valid Range: instrument-dependent. Default: 0.0.This integer control determines the instrument's amplitude control mode. Valid Range: 0: Normal (amplitude controlled by the user) 1: Ext Control (amplitude controlled by an external analog signal.) Default: 0: Normal(.This integer control determines the instrument's pulse width control mode. Valid Range: 0: Normal (pulse width controlled by the user) 1: PWin = PWout (pulse width controlled by an external logic signal. Only useful when the trigger source is external.) Default: 0: Normal.This integer control determines the instrument's trigger source. Valid Range: 0: Internal triggering 1: External triggering 2: Manual triggering 3: Hold trigger (i.e., triggering disabled) 4: Immediate trigger - disabled. The Immediate trigger mode is disabled, because it would result in a pulse being triggered before the other parameters have been set to their desired values. Default: 0: Internal triggering L. 8L  T 4.O T6l5L.This boolean control determines whether or not the main output is active. Valid Range: F: output off T: output on Default: F: off.6664. 5&q34/ G530 5)ff)*)* XBDHPAvTech-pulse.viLVINAVTAVR Initialize.viPTH0LVINAVTAVR Close.viPTH0LVINAVTAVR Error Message.viHPTH0LVINAVTAVR Application Example.viPTH0LVINAVTAVR Error Query.viPTH0> BDHP2\28>>>,0p&+\0+`H***4))l)((@''x@01D rLe`92P0\,d4l< t 0, |!403fryu0\ 0403gy|0 0L,403h0, 0403i0 0-!403Pj0 0d403kryu0d 0403 l0 0T4403mryu04 0403n0 0$403Xoryu 0 0l403p 0l 0,p'x403(qryu 0 0\<403ry| 0< 0403s 0 0, 403`t0 0,'x403u0t40 Krm3@11DP@` HE@>2`1  P X ( `0h 1/@!413 D@FC1 1 8 413 l,@FC1  10 )l413 +@FC1 10 *413 <*@FC1 100 p)413 )@FC1 P 1. 'x413 (@FC1 11 @)413 t'FKH1 1/ *4413 &FKH1 11p *413 D%KPM1 1/ x(413 $KPM 1 X 1 413 #PUR 1 1 H (413 |"PUR 1 ( 1-` +`413 UZW 1 1 413LUZW 1 1, !413Z`]1` 1413Z`]1 1P0413Z`]10 1413Z`]1 1 413TZ`]1 1,p'x413 Z`]1h41 K@m3@21DDTP`G2P2d4l< tD 2.!423Q2 2423PS2 2d423T2d 2423 U2 2T4423V24 2423d2 2$423Xc2 2l423b2l 2423(a2 2\<423` 2< 2423_ 2 2-,423`^ 2 2t423] 2t 24230\ 2 2dD423[2D 21423Z242 KCm3@31DXPH@2P3@xHP  3H-!433H,G3 3H`@433H13@ 3H433H03 3H0433Hd!3 3H.!433H 3x 3H433H43 3HhH433H3H 3H433H3 3H8433Hl3 3H433H 3 3H433H< 3 3H,p'x433H 3P 3H433H  3 3H@ 433Ht 3 3H433H3 3H-433HD343 KHGm3@41D&DC A2P4  !T!"$""#\#$,$$%d%&4 4. <(@443 pB4  4 443 A4 4! 443!@@4 4!t!T443!?4!T 4/@!!443">4! 4"D"$443"x=4"$ 4""443"<4" 4#"443#H;4" 4#|#\443#:4#\ 4##443$9 4# 4$L$,443$8 4$, 4.P$'x443$7 4$ 4%$443%P6 4$ 4%%d443%5 4%d 4%%443& 44% 4.&T'x443&34&444 K9m3,5&H05D',L5 'x'(@())l)*4**+`05@&.P 'x'45 B'xm306@&1(( 46 B'*^m307@&.(@(p47 B(@m308@&/ T(Wg _(48 B(V'lm309@&1 ) )849 B)|m30:@&0 )l  )4: B)l m30;@&00L)*: 2*4; B))k;m30<@&/*4AQ I*d4< B*4AoSn30=@&0*# *4= B*$n30>@&1p8*~ +,4> B*}n30?@&-`+`jzr+4? B+`j|n3\@, ,p,--`-..P../@//00001 1p14@D,T27 @`\4@D,3P@h4@D,4LP@tP4@D-D47@4@D-5 @+` 4@D-6P@ 4@D.477@x4@D.6PP@'x$4@D.7D0@(@ 4@D/$8P @&4 4@D/t887 @!4@D/9,!@( X4@D09 @*4 4@D0d: @) P4@D0;@* 4@D1;0 @)l 4@D1T=4 @) 4@D1< @* 4@D1=P@'L@,++),*d)5`hfh&'X+02@~D22FH9221dP<<2@, u]u@,pu]@,@-@-`WrWrH@.P@-H@.@.@/@CCH@.C@/_M_M@/IHIH@002828C@0''C@000C@1pMM@1 HH@1 ( G  4= $]Y4= MS Sans Serif MS Sans Serif MS Sans Serif012000000RSRC LVINLBVWtx T` 4hRSIDTLVSRhBDPW|LIviCPTMDSTMDFDSLIdsVICDversDLDRFPTD0CPMpDSTRGXICONlicl4icl8CPCTDTHPTRec5CPSTDSIMlLIfpFPHPLIbdBDHPHIST FTAB 3232P32tE2 72 F2H32h<6232(42)P42)4\42*h42*А620,2012222612822E12FL022F$22F02GH|22G<22 H$22 Hpx22 H22 I,22Ix22I22JD22J32K ,32K 32K22LL12L12M12M`12Mܠ12N412N12N|12O p12 OxX12#O412$P 012%Px12&P12'Q02(Qd02*Q02-R02.R02/Rؠ020S0021S\022TP023TD024T8025UT,026U 027V028VP029V/2:V/2;W4/2<W/2=W̜/2>X/2?Xd/2@Xx/2XH22 Y22YH22Ydd12)Yp02!Y|L12"]<@12+`02,d02h|t02hh02(t/2T/2H/2<