OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.150.328 SF-TIB(c) Copyright 1993,94,95,96 DesignSoft Inc. All rights reserved.; $Circuit$?SP}fߥ?~~?ƚ$9{l @$ EMFSi  RpMS Sans Serifwu    MS Sans Serif    (2\x.8pb#Hpbb4` w<tw4Dv(2dv%  &%  '%   1@ ` @ @@@`@@@@@` `@``````` @` @` @` @`@ @@@`@@@@@ @ @@ @` @ @ @ @ @@@ @@@@@`@@@@@@@@@@`@ `@@`@``@`@`@`@`@@ @@@`@@@@@@ @@@`@@@@@@ @@@`@@@@@@ @@@`@@@@@ @` @ ` @ @@@`@@@@@` `@``````` @` @`ࠀ @` @` @` @ ` @ @@@`@@@@@` `@``````` @` @` @`0 4 MH @ A ??l( D A( A Dʦ @ ` @@ @@@`@@@@`` `@`````` @` @` @` @`@@ @@@`@@@@@ @ @ @@ `@ @ @ @ @@@@ @@@@@`@@@@@@@@@`@` @`@@``@`@`@`@`@@ @@@`@@@@@@ @@@`@@@@@@ @@@`@@@@@@ @@@`@@@@ @` @ ` @@ @@@`@@@@`` `@`````` @` @` @` @` @` @ ` @@ @@@`@@@@`` `@`````` @` @` @`OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOWGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGWOOGOGGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOWOOOOOOOOGOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOWOGOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGGOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOWOOGOOOOOOOOOOGOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOGWWGOOOGGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOWOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOWOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOWOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOGWOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGWOOOGGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOOOOOOOOOOOOOOOOGGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGOGOOGGOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOWWGOOOOOOGGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGGOOGGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOGGOOOGOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO0 % % % @ ` @ @@@`@@@@@` `@``````` @` @` @` @`@ @@@`@@@@@ @ @@ @` @ @ @ @ @@@ @@@@@`@@@@@@@@@@`@ `@@`@``@`@`@`@`@@ @@@`@@@@@@ @@@`@@@@@@ @@@`@@@@@@ @@@`@@@@@ @` @ ` @ @@@`@@@@@` `@``````` @` @`ࠀ @` @` @` @ ` @ @@@`@@@@@` `@``````` @` @` @`VER=1.0Font0=Verdana,14Font1=Verdana,14,BRect0=2,0,0,85,22Rect1=1,0,0,85,10Rect2=1,0,10,10,17Rect3=1,10,10,75,17Rect4=1,75,10,85,17Rect5=1,0,17,50,22Rect6=1,50,17,85,22Text0=0,2,2,TitleText1=0,2,11,SizeText2=0,2,18,DateText3=0,12,11,Document No.Text4=0,77,11,RevText5=0,52,18,SheetText6=0,70,18,ofField0=1,T,11,2,80Field1=1,T,11,5,80Field2=1,S,4,13,5Field3=1,T,14,13,40Field4=1,R,78,13,6Field5=1,D,12,18,30Field6=1,P,64,18,3Field7=1,A,77,18,3 F0=LMG1020F4=1.0 F5=1/23/20174F1=Nanosecond-speed 5V Low-Side Gate Driver for GaNF3=November 15, 2016 2@ 2 ArialLMG1020 Transient SimulationSymbol????333333??X@X Arial TEST BENCH DESCRIPTION:.1. The LMG1020Transient model is unencrypted.P2. The operating quiescent current and shutdown current have not been modelled.H3. Thermal shutdown characteristics of the part have not been modelled.SIMULATION INFO:>1. Go to Analysis >> Transient. Check 'Draw excitation' box.'4. Enable 'Calculate operating point'.!5. To run simulation, click OK. I6. The simulation takes less than a minute on a 4 core 2.8GHz machine.Symbol????333333??CXx``xXxT_12C6D00020170120142333?XxXxxT_12C6C4C020170120142344?T_12C6A30020170120142403;T_12C62EC020170120142441CXXXT_0DA9634020170120142446?XxXXxT_12C4558020170120142451;x8xx8xT_12CFEB5020170120142500?xxT_12CFEF1020170120142500?T_12D3067020170120142529; 8 8T_0DB9E80020170120142627;88T_0DC47EB020170120142725CT_0DC3FB4020170120142741?T_0DC0AB0020170120142827;T_0DC0AEC020170120142827;8888T_0DC05C1020170120142842;0x080x08T_0DBECA7020170120142856?hH08hHh808T_0DBD2A3020170120142929;088088T_0DBD2DF020170120142929?T_07F4226020170120143020;T_07F2DBC020170120143030?`88x`8888xT_0804DAC020170120143409;8xx8xxT_0804DE8020170120143409?(8(8T_07EF7E4020170120143413;HhHhT_08BB768020170123120626;x8x8T_08C16E7020170123120646?88888T_08C1723020170123120646DB V1T_10C1189020170120142256Battery_9V_V (V)@ BXC2T_10C12A3020170120142311CP_CYL300_D700_L1400 (C) ư>@eAY@? BXR1T_10C1593020170120142411R_AX600_W200 (R)MbP?@?Y@ BR2T_10C16AD020170120142434R_AX600_W200 (R)MbP?@?Y@ BR3T_10C1B15020170120142722R_AX600_W200 (R)?@?Y@DB V2T_10C1BD1020170120142731Battery_9V_V (V)4@ B0R4T_10C1C8D020170120142850R_AX600_W200 (R)@@@?Y@ BhpC1T_10C1DA7020170120142924CP_CYL300_D700_L1400 (C) Uoc/4>@eAY@?BVG1T_10C1F7D020170120143014 Sgen (VG)@@.A& .>Bq`8VSWT_07F1773020170120143201 NOPCB (VF)Bt(Vout:1T_07E94D7020170120143203 NOPCB (VF):BiU2T_08646F5020170123120535 EPC2019EPC2019cC:\ELAB_MODEL_WS\ELAB_MODEL_DS\Part_Numbers\LMG1020\Release_TI\TINA\LMG1020_TINA_TRANS\EPC2019.libSCK#EPC2019Labelh ` p(d*DRAININ  @d*GATEIN @d*SOURCEINx h @f` g"EPC2019Arial333333?i@i@JM* (C) Copyright Efficient Power Conversion Corporation. All rights reserved.N****************************************************************************** Version History:,* 1.00: 06/30/2014 - Initial model creationD* 1.01: 01/12/2015 - Updated the model from the preliminary version).subckt EPC2019 gatein drainin sourcein M.param aWg=277 A1=9.2486 k2=2.111 k3=0.15 rpara=0.02974 rpara_s_factor=0.15 R + aITc=0.004615 arTc=-0.0065 k2Tc=0.00054 x0_0=1.7531 x0_1=4.9125e-07 x0_1_TC=0 1 + dgs1=4.3e-07 dgs2=2.6e-13 dgs3=0.8 dgs4=0.23 < + ags1=2.0042e-10 ags2=9.6497e-11 ags3=1.8454 ags4=0.1739 . + ags5=-4.093e-14 ags6=-5.5507 ags7=0.28143 > + agd1=4.6419e-13 agd2=1.8162e-12 agd3=-0.10754 agd4=1.4625 - + agd5=3.5962e-11 agd6=-3.7643 agd7=5.5568 . + agd8=2.1166e-12 agd9=-31.198 agd10=32.013 ; + asd1=6.9149e-11 asd2=1.7469e-10 asd3=-20.764 asd4=4.72 ; + asd5=2.1901e-10 asd6=-0.20196 asd7=67.825 rg_value=0.4 Ard drainin drain {((1-rpara_s_factor)*rpara*(1-arTc*(Temp-25)))}?rs sourcein source {(rpara_s_factor*rpara*(1-arTc*(Temp-25)))}rg gatein gate {(rg_value)}$*Large resistors to aid convergence&Rcsdconv drain source {100000Meg/aWg}%Rcgsconv gate source {100000Meg/aWg}$Rcgdconv gate drain {100000Meg/aWg}2gswitch drain source Value {if(v(drain,source)>0,U+ (A1*(1-aITc*(Temp-25))*log(1.0+exp((v(gate,source)-(k2*(1-k2Tc*(Temp-25))))/k3))* c+ v(drain,source)/(1 + max(x0_0+x0_1*(1-x0_1_TC*(Temp-25))*v(gate,source),0.2)*v(drain,source)) ),U+ (-A1*(1-aITc*(Temp-25))*log(1.0+exp((v(gate,drain)-(k2*(1-k2Tc*(Temp-25))))/k3))* e+ v(source,drain)/(1 + max(x0_0+x0_1*(1-x0_1_TC*(Temp-25))*v(gate,drain),0.2)*v(source,drain)) ) ) }5ggsdiode gate source VALUE {if( v(gate,source) < 10,Z+ 0.5*aWg/1077*(dgs1*(exp((v(gate,source))/dgs3)-1)+dgs2*(exp((v(gate,source))/dgs4)-1)),E+ 0.5*aWg/1077*(dgs1*(exp((10)/dgs3)-1)+dgs2*(exp((10)/dgs4)-1)) ) }3ggddiode gate drain Value {if( v(gate,drain) < 10,X+ 0.5*aWg/1077*(dgs1*(exp((v(gate,drain))/dgs3)-1)+dgs2*(exp((v(gate,drain))/dgs4)-1)),E+ 0.5*aWg/1077*(dgs1*(exp((10)/dgs3)-1)+dgs2*(exp((10)/dgs4)-1)) ) }5*Model for voltage dependent gate-source capacitanceQE_IGS tl_gs bl_gs value = {0.5*ags2*ags4*log(1+exp((v(gate,source)-ags3)/ags4))+5+ ags5*ags7*log(1+exp((v(source,drain)-ags6)/ags7))++ ags1*v(gate,source) }V_INGS br_gs bl_gs 0.0C_IGS br_gs tr_gs {1.0e-6}R_IGS tr_gs tl_gs {1.0e-4}F_IGS gate source V_INGS 1e6R_IGS2 bl_gs source 100Meg4*Model for voltage dependent gate-drain capacitancePE_IGD tl_gd bl_gd value = {0.5*ags2*ags4*log(1+exp((v(gate,drain)-ags3)/ags4))+3+ agd2*agd4*log(1+exp((v(gate,drain)-agd3)/agd4))+3+ agd5*agd7*log(1+exp((v(gate,drain)-agd6)/agd7))+5+ agd8*agd10*log(1+exp((v(gate,drain)-agd9)/agd10))++ agd1*v(gate,drain) }V_INGD br_gd bl_gd 0.0C_IGD br_gd tr_gd {1.0e-6}R_IGD tr_gd tl_gd {1.0e-4}F_IGD gate drain V_INGD 1e6R_IGD2 bl_gd drain 100Meg6*Model for voltage dependent source-drain capacitanceNE_ISD tl_sd bl_sd value = {asd2*asd4*log(1+exp((v(source,drain)-asd3)/asd4))+5+ asd5*asd7*log(1+exp((v(source,drain)-asd6)/asd7))++ asd1*v(source,drain) }V_INSD br_sd bl_sd 0.0C_ISD br_sd tr_sd {1.0E-6}R_ISD tr_sd tl_sd {1.0e-4}F_ISD source drain V_INSD 1e6R_ISD2 bl_sd drain 100Meg.endsDRAININGATEIN SOURCEINB $D2T_08B9B6A020170123125011DO41-10 (1N1183) 1N1183 Standard?:BXU1T_082DE59020180514153347 LMG1020LMG1020[C:\Users\a0199733\AppData\Local\Temp\DesignSoft\{Tina9-Industrial-06102016-094623}\LMG1020SCK#LMG1020LabelP H X(d*VDD>(VTHRESH)|V( @d*GND>(VTHRESH)|V# @d*INP>(VTHRESH)&V(  @d*OUTHD0B P @d*OUTL P @d*INM P @fH g"LMG1020Arial333333?k(s@k(s@snI5DMjMi5l/4UE/P5jatA==hw==iDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffARjb3BtjubnTVwSECU4aX4Q80a78rDeiTDDbA3K4=GXLsOOQdLmYLIMg9GOlKq/bmyPj2sPIXh3eBO2FgNL6tu0ILNQfWasn0wv1vFiDoJxboQkHdzznswki7oE/+W3nDR+G0NYDcoijQNFvi9lF3P8l2lPCG0B8KkTP1W9Z5+d+QogwRM1L/3gEoEDtqQJxINjVriDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffARjb3BtjubnTVwSECU4aX4Q80a78rDeiTDDbA3K4=0roYjbtpj3IAoKEd1jULf642p/7iQTElqeY/Hy5ibnQNVy+BDQQ0kz8zYZdsGJhOfwMQNb3fagIKR7OhpgXexj8bPx3P/lu/iWQ/KBmnCnFSr1nzy5kNRZnQZIfE0sv63oiXE0HQyoOSxngvxzwzRmNe0x8=wbt9uK6M1j+QJrJX1dzodUaWsPTzuMUs3rZkFb0ZRtL51pBaYW8JAguGFHYC9cR/sr+RrIJHlQtU8//UnfE3Lo7q629v+/kmgpxaMrgS42mhaZ//pH1Nq/WqVTM4VYoHwRTGN7hEiC1eJTpWESNdwV6twFkP0/anJ2dDyUmlap3cVdWMHUQTVfNqSn7nrf7mzZOGP/phIHZ8jjOKPoVnjI6effiSaS3txTL2sxa+yd6q3ePsHAZDJn1cXknz8tWSWkUO9Y880vgAbCzzWyfEblBocLY3QsStLCufMCw85EQKLu8IzTWiJX8xdv/cqvI=GCSLlOCBvsDVhqN+zbuZy68zP7amRNm0muCS22bIKAMJ717LrkkGHdb+X1ZYsTGoBw1TzYIHtoAQsR3oaj0ZZLDMK5FP6LSi0kjKaMF+3GkOpC4RmAWYpteqNpIQzUBWUa9RvR8iVrI0AyssxGbjQQ6kWsE9jCLxyHU=T1n5Fl+gBuu8etAsTol1Z6AWA6aAgOK7p9SXeRTehMpgyomDScqnJvHzDeWYehmHQDcn65MkdKWLqGew2uLVan6+EWsK3Ke6YVBaQbuv736zApSirmtWzda0zTJuoPhQArxjgo65cc+JFhe3LRU1OL8BNwoIgr6H87WicNc=IMEHl/BUUzA/PoyIk/CNNMK0WaQSijRZodn/YZryOcDiiRAqc4elplQU6uyYtd96LCFl/+rklvone9Gm1Rklp78XCKD2sD5KsjWzzbnrApSgQCGyEDhSRziiIbBoJueHD6KEUnMdfbaprC+YRE/WKemplMJRwoA8MqGqXEAm/zF5iDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffARjb3BtjubnTVwSECU4aX4Q80a78rDeiTDDbA3K4=hw==Qnw3OZZtqjmyraeRhUngr51/L2oAv9MzLCGVMRbMTJy0XKEYhpHD8pEwGW9tTXst578sLh1m+CiKa0NxMG+LXkedQifng2lknnGmYYKsQGyZDEiDtWi0d3pSp730=!dmkt44cdbs6WN7napNtglVFDlSLOp/c+DpFOshJtp+yn89FaPBfs16tAmQ4=%DpFOshJtp+zxQ33U3nZxDZZ1YqNHiUxRkA==fEYM28Nc/bABsjiLbWPPUMZ53i0=JjXhu/kjAF6o+aSS8jKQ+0J3kQ==)2VU6uTV6Ckx8p4hKS/vDaSF6TVtggFHPq77QdgTXdmkt44cdbs69X6p3Dzse3hDzxMA=mnw3OZZtqjmyMPagk0wfPTOPgy5zMsmimyvV1ctUTBvi+O1ElFjYiRoAQaC7FNaslAT/l1+z1Lvv3kGwjxdQAM3FVEkVjbof167erglwkVXpBQfMMGJ9+G/Psaa5xTM71fXWNEZEyAIMH/x9HXOp2g+3mNznhVlSyoHmAQCPVBAOLqnKsASpmHzMxYGQ==Ybp0vi7kO1KaOn8+dMFgzd6mC6uyI9Vnj8jB8qSPXQeO/b/mc5hQ2G2admj9iuSeQ+TYWVJcCE/FRE+WHDd/SDw==AwYNf1fWXJwM3/3yvb22muzNaXJTS+cgNLCLtjocJ8SuyIE5AHL/cLUcLEUCBYxo=DkKvKoFCaD/d65tphxs=9umBmVlsS8rLIUKRaqA5REMUZ3cekINiG8WUkNxRYaFySY6FRo0E9giiqiIn241WpLpZiLlHlWdtQLgtOEwEvvO8wQ1v16qefFYcJKVLvrZmbBS+2t3LKHRvl+2ntnTX5zXMPqRMIsrsPM69if34vbGx8awWhiWaeS1h5H0p6JWyKSBxA04AZ8X1TNCSbuvfXsEQfy3HsHj44rKXQ==ASlHOJPadrffWjfRUPdbchflsjiSKfCxRTxfpL/0vZEV1WKVl1VmEeCWV8AQf+w==iPJctN9P0fY6YeFc6fcvdAO5Gy2b/ORHt3z3MRsIk08fGxZ/DEJs0uYTNpLuERE3M31vAs2wQb7KlW6HV9JeCU3N0BswTeywKzhYi+xd5UVvmOVMBcMNBVaeNSVXPAw==MPrx6/OUQYODR+CMq8xB26lDx5+4w0ia1yxij4VKy6CruKhBXgZ++EbWy3Q/isd5CsKpZpCufDLOXMSlHOJPadrfdYFOBzvlcQYnkrK7Z+q66iHUvjHaNJm7MHexfCpskbu52Z2vcD760yG7JQ7AzN49N2iPJctN9P0fY4Gi5AXsXWRjKUVOAMj1Rj3FD/R/0JG1zMvVM7ZhtZirZj37GQPv+Seb9RYwBa32FUpOSte/LpkbYo8tD8NvJB0WsIsTDZgUVvmOVMBcMP6Y33FEWUm+Q==MSlHOJPadrffjalwk6IOrSMGSFfggMAb6/dM9OVkrNRgHT3k0XO899D071UKJsoDZjwCuHb/F6DQ=EPrx6/OUQYOBS9lULthu6dFshXVFUwdhrX3lNCmmTbjovkg8ve2BmAD/ABB6U9goiEwA==SlHOJPadrfdVufNGIg3U5LKCtUgoj6sPA5LOYXmXNob1FnAtv7No5MahmXMqMPrx6/OUQYOAVtCYfKZ2aXkAdRr33RkQbFyHCBz225uxpkwaJZewRpJjhUJF6sp2XCoLoZuQw7UE=iMISnp8GQ8zMLQvEUYvSiASkE4KyjB3RWrG8g/5JpG09zEEKDeC8aIdue+ciYGTWqRu+hp3HZMJLLs/O3knJTRqMjav5ad3V61mkiN5pFiMISnp8GQ8zMu/zahhJsnrFYPN02NaWSZbPELU+u/9SMttTg4sEDRKj93WBT+OwB9vAehhcislbLBCheTjT+rf52qZjN/t0k0Nx4VUYqbQPJctN9P0fY446p8B8MSqEj1II8eyIerBCkQl4Y4qIaqIG3jdtreDyOiDt0ImRNTbDl0IUVaCnXDgCrvsEPrx6/OUQYODFsitYjz6QdBOHQfICf9IrXk31cKp27JxUkdbr8U2G6yOz22jTzZ9vlw==mlNaB+JnlNzb6lE0H8bWOf8JBr88O4GxExOlB2fJWc1GETNTmcJiDJe0b9AHtI0C2z80TcncTKUXBrSuzSR1SqsvFs2QMqlA1MtvZpcJxOA==QnCGzdVCamh9PQa6oc0JCjkptkdSWQWceJRHvWkJ3IXE+sOneP6B0alIl6vqSL4o6gsmbFy3ZxalYvdo=eIn241WpLpZguENj5gTlQ0qbLWa6PKS7AGARqSkm9KCRNcZ8QE6VicYZ8TlySbiqSdyVFSmGtgFgpRZG6yaNAoMjw1Lw0FBhGyA==nCGzdVCamh9PQa6oc0JCjq0=1IswfB/VyGT56yu42HFqmpBYhMwhJudaJ1Ad4znY6tV4vgUuf)Ptgz0YXh5xuRlBiRnlOdoPyWEsXKFnmutE6VnU33-S2bubcqIM1Pk3a8NDSQKjKVrl6CNxtN4slnj7eYkqA==5mgCulOr7oW/jKmYdDKX9wDd0t2tfVMu6fujvS6lrjP0nnCxUXt4=-+gulyKmvjm/4fuVmJeSYYJTTJy8NOQe0w3EWeu4Uiw7mMMWNAuJH0Z8UmBRzoAZWp4mk3LaxTj9F3k0UZm5t6U4zbdpCvcypSNjEsHwTqbxLHGQ94+hX5jQ4v)KX/nWNj7PRTtJ2w9ryVcECs/R3uGlaQdM+Z9Pg==iIn241WpLpZjIqi2HJOZ6oHKazWwoAxR3xylenwNOF3gE/TzLNKmCQUYxPjXX08qF7qxkDaUvUG6pijIOC20erzTXtYysNkfYZrXaohC41h5H0p6JWyKSBxA04AZ8X1TNCSbuvfXsEQfy3HsHj44rKXQ==EwYmDSzSOn56d/jknRIPmbhjkFFInNUkfdKkVqHZ0VQyT/tLU3EVINpE+Jycv8GGQH0I=esmBu1Bx3JWnyMg6LpFLl6ZrWRE1AA9C7w5ssMujTmbJ5J8+hw+LwqXq1H1qR2uMQwBbyM8gFE2Np9FeMaRM2zt9OHEawufj53YoNIB/MoJrjktkJSzhiVr7ywzfGcO+dzgRCOcmnBQ2frhUMUXFFSi/E+UWtQlggFRb4D9H1HZQ==AwYmDSzSOn56AAyCkXXL1lrpQXbBS93A6FeyV/g8uZF6fUEg8Vj/L9A+aa3WKXR561V1SaB3Umhc/Zh5Pllg4GVf2MAX2niiBHa2SnFJB5pM1J/BXm)dfIHnfcEQfztJriNrDZr2nxxwX0Z7WkYYizOQOxOieJog+ykgmCKC30i81N69s0BIlUlijhpzA224zt+Ft1Ge6u8cjO1FGvHXRv/fFpgf8Z17+V+DvsQ7jZvxzaoo+191Y0xc7zRDg1qaGllC%qwiQqc7fvBZ0bQpHQG76Lam3ZcKf4uaVrp0=5ijZxcFKZYSyTRM2066O51mvq7G2uUA2Rp5N+QEmd0XNJQy7aVL00eIn241WpLpZi1ApjdjkbTZRuArP6jfJ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hh+As305!zunkqCkOPJoCeFHTfONY/aryUJLyKR4DYSKY9XIMADa5OrH60ZTgkZWkNNoEaOABqHSKlJQwu4rUjyMc4p3TPY/G8mH4o6WaUG35syqAGdqsTEIM/FAI8r/8=MGvaIAXfQjdeKS+ARkeeTbbUwgTHe1poQyCLyYEaVY1yyjo6AVSAzDnvGDMkIiWBOxtF3V3oGHQ==7arknlkzKCceog==0jpDhRUgCCM5D0yCx/2PmeIvIyRZyi5qFqo23qBg5A==sAoUYsZAIkfF6Wx9s0NyUQ==!M+CU/C35TFcSejonSAwXh2D3MqgwqSiBhxs=UumBmVlsS8rJQTlJ7LmID+UBYXirOT+dr1X1JUfbXTWVeBoMugMtuLwD4ko/btWTQ+WIVi5xK3Pdaa5h9bA==IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==-OszSLeSteQjx0K0qqM5jVpCUCJU5HbHmab4vzJkF7nn+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=z7YriDvYTgA/30SXtIDvINNQpoc=hxs=UumBmVlsS8rLjRiSkD7pphDYe1hxD2yread8wlsMaxxd6DPS6jWsHnlD5if77TZ7nZ47O5N03alCx1R3htbsIIHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==OszSLeSteQjx0K0qqM5jVg8iDSk=-ZNxSt78sK38eQY5uinZw2HRwuY62mFh8BiFWbi84dMIyH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=z7YriDvYTgCmfb4rJleIcNVE1i4=hxs=YumBmVlsS8rIgrYUIzAM/QHleagsWtcWju/Rkmmf/LrKqoIrPsIy5XGKt6oXPo3Iyu0Jp0be7tj/3Un7m6sYjHiQ=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==OszSLeSteQjx0K0qqM5jVg8iDSk=ZNxSt78sK38eQY5uinZw2B/acLg=-uDaSVqPBawqOaHA7zno22UfiaQx9qT2kbfgFLsr1+oloH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=z7YriDvYTgB4yTuUbK+sKvnIZHo=hxs=UumBmVlsS8rLm+RhZicyH06NtCul3oldicN7ghtm14uPNxEZywrdlKcAgczhc0N/COognQPIzDZNVwK9RY5U=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==-OszSLeSteQjx0K0qqM5jViqx+1IuN73pw72Yp6l9ytDJH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=hGJKahUJIkZZUpDXl2zOodFAUmfghxs=YumBmVlsS8rIWkrwKuY2xBakUpfapRhMRaT31n5srg0vOMUzDAAkx6J8F9ROoFtUTOd6tXFwFWlAV1sdF9hzhbA==IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==OszSLeSteQjx0K0qqM5jVg8iDSk=-ZNxSt78sK38eQY5uinZw2EqNw9upiJZJ54f9+EmngTkEH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=hGJKahUJIkbX6dkTyeab4JZFeV2whxs=YumBmVlsS8rLi4YWK7XxveGZJeHfZAwF55Q50tigKvqcYzN/SHdh3KkzrE8Rv5AFQzh0Dj2y2dGz75qG+/F/xdcDKIHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==OszSLeSteQjx0K0qqM5jVg8iDSk=ZNxSt78sK38eQY5uinZw2B/acLg=-uDaSVqPBawqOaHA7zno22f218VtjiFxXaEDb/a/PZUB+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=hGJKahUJIkbdWFpMu5Oe1E9OlquOhxs=QumBmVlsS8rKWHc523B8BzLAUZZGqxFp3UrvvnTANfOkjfrsDR6yjH3eLiR9jK1Km+d1kzHU6dBBqTKoNIHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==-OszSLeSteQjx0K0qqM5jVpCUCJU5HbHmab4vzJkF7nn+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=pmpixFZ66Wvo44uclK2vgGYLhw==hxs=UumBmVlsS8rI7HGP9ftjBjzO0cyb/nMHAQPFPVjqhw+GZJh+7N1DX4BnyekUApkzAYl1VNXAcb5vyCH2vDJs=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==OszSLeSteQjx0K0qqM5jVg8iDXM=-ZNxSt78sK38eQY5uinZw2HRwuY62mFh8BiFWbi84dMIyH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=pmpixFZ66WtoYjgg5UwW7tnacw==hxs=YumBmVlsS8rLZFPagKvh3Nwi/DPkcdsPT2JUYvUXS+gsZuIxBFkPiZn0IRcqLzXvXM6DhCtbY5pUD52d4qGDXVQ==IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==OszSLeSteQjx0K0qqM5jVg8iDXM=ZNxSt78sK38eQY5uinZw2B/acOI=-uDaSVqPBawqOaHA7zno22UfiaQx9qT2kbfgFLsr1+oloH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=pmpixFZ66WuieCQy6YTQc/b39w==hxs=UumBmVlsS8rJKdJAZ3ROXcyAxjsTBCawq8oZuOT6vYEB4+mqow3xqhgTOVglNNF76pT6pOc+gezTPiT+PIw==IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==-OszSLeSteQjx0K0qqM5jViqx+1IuN73pw72Yp6l9ytDJH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmcIPKeLHpQUlx4VApo=hxs=UumBmVlsS8rIzp8ewE/5fDXAMPGm7c7TvE9l5JNS6nutC98xJYt9qLfPagH1kn+TAGokk2pSUWq1d1sgNGiLnIHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==OszSLeSteQjx0K0qqM5jVg8iDXM=-ZNxSt78sK38eQY5uinZw2EqNw9upiJZJ54f9+EmngTkEH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmc2bRgqmFjfSLjYzuc=hxs=YumBmVlsS8rLJlt14NH8r28d2dOU3iws4LPBpnj8v8nebXNHODmPMRbeRLJ4XN9YMjO8yrB4wHCR8IrlaLhQjgpw=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==OszSLeSteQjx0K0qqM5jVg8iDXM=ZNxSt78sK38eQY5uinZw2B/acOI=-uDaSVqPBawqOaHA7zno22f218VtjiFxXaEDb/a/PZUB+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmeQrNahcM2aE8nntxI=hxs=]umBmVlsS8rJgvFxTBzRyo11gbq4TK34V1YMhGjK5qHBmHwW+TsTdTd1Oe76Wimgj9SN9ObWC8OHspF4RLz1gtmuIlw==EHqNYR0XagecmmvrlBtDh1qNnq4Ect5/A1e1VOhsuZUsezQkw+EkAq40XRdiPdPVw3w==OszSLeSteQjx0K0qqM5jVg8iDXM=ZNxSt78sK38eQY5uinZw2B/acOI=uDaSVqPBawqOaHA7zno22cbcnfU=-lVcx72+flwnP6AM3is+ND61vOt64dn7c37bCTwIu0jA/H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmcHg7uJ1+KGP971Oh4=hxs=]umBmVlsS8rIqfRYuO4VltVgqgTn6kN5HbPDGDSgp7OFCQOJauC9DofaBv9hx5zhvIvpz8AY/FoYCwCJZlIxODyiUN50pEHqNYR0XagecmmvrlBtDh1qNnq4Ect5/A1e1VOhsuZUsezQkw+EkAq40XRdiPdPVw3w==OszSLeSteQjx0K0qqM5jVg8iDXM=ZNxSt78sK38eQY5uinZw2B/acOI=uDaSVqPBawqOaHA7zno22cbcnfU=lVcx72+flwnP6AM3is+ND7NJs9c=-YVeLinoHrwJspCCkTrOUpk6M9VuyW/hrfjNHvgzJ1ZLZH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmf3uZStwLbKDFn2J9I=hxs=QumBmVlsS8rKNkVW+vjRsw47/1eOE1gh9WKy8u+xdSBZyD69dh9H+Ka1WT0aZDd4tkIPw6phPLIesHXE=EHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA7sM=m5AD3cwgsJ+5fiUUs73rrg==H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=qTQL637eHDSEBh62gpwOQTLt+g==hxs=UumBmVlsS8rKULqUw9TeJbfBXN6JVoyVm1Nq6NjY7zujEQeTKappR7ahZbVElSey2xPzgJXqoZde3AVWljw==EHqNYR0Xaged/N3MzNDbAEXtr5ACTz99bCGRlCYkkptA2Zdvjv48FBGFP1D6ibA5mKQA=-OszSLeSteQjx0K0qqM5jVpCUCJU5HbHmab4vzJkF7nn+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=9JXswg+GB02tuwBy2acgRcK8w60=hxs=UumBmVlsS8rJ8EsIoRzGf9FBfvCNyJAfRV52bzZbJRyxDViuA9ZR3zmKiYYzsm/FLXjbuo1+gN3oQ3kBZq/8=EHqNYR0Xaged/N3MzNDbAEXtr5ACTz99bCGRlCYkkptA2Zdvjv48FBGFP1D6ibA5mKQA=-OszSLeSteQjx0K0qqM5jViqx+1IuN73pw72Yp6l9ytDJH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=n93XGsB0Lye15Bf2TxnPrExv0/W7hxs=UumBmVlsS8rLvMpg7/cD2dohWB8cfYLvxQWX+xq4Z8ypkUJ0qMMz6NHCG2vWv97iI4pTMk/i01/gMMTVa78JuAHqNYR0Xaged/N3MzNDbAEXtr5ACTz99bP7J42xgGbaKxrHs0zYcIWEO84yOp306LZ2wvClNs+L/Pfu6o/x8=H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=Ri4a56dqQCgNEMm3QVvQaXbVcbM=hxs=iumBmVlsS8rJcRysVIwTQAXdLYuGDIFB6S3vNjGulnK3sgzcdokt+NAmTKDo/1zv9LYD6MLzX4OJZcf+s+ycFIkBbzf5QlTzLgJ6D/R4=IHqNYR0XagefrecEp/Jc+2o33T5pQ3Ty0MoPA8ShKXGn1wfRKacwI6CoJns501OSg3XMBWA==+j9uyMWI7Hr4q908MXLheg==H3xUbEla9cVmU/IdLakrfTik!KSfM4miO/EcrT+yk97z/esDBHoVqa5YKMHqNYR0XageffLOhCBOIW6WBP1uVVmFchSceMWVws+2cb0+wvHrfwwftq8XURCS6POWraNsBNHR0=m5AD3cwgsJ+5fiUUs73rrg==YUxq7shb4aEmRLyGaUBfMKAGaMstA07Gwiyv%qTQL637eHDRUK7gzcWumOVUb3FQRfCibzw==hxs=iumBmVlsS8rJqA02iWqxevP+p3qajSX95MNIlPEkCkQztWUlxbSQUJC/nMG+upKOfUERZKlr8j3ULKQUpM5da36EDHKq7jGEpQKZ7wao=IHqNYR0XagefrecEp/Jc+2o33T5pQ3Ty0MoPA8ShKXGn1wfRKacwI6CoJns501OSg3XMBWA==+j9uyMWI7Hr4q908MXLheg==H3xUbEla9cVmU/IdLakrfTik!KSfM4miO/EcrT+yk97z/esDBHoVqa5YKMHqNYR0XageffLOhCBOIW6WBP1uVVmFchSceMWVws+2cb0+wvHrfwwftq8XURCS6POWraNsBNHR0=+j9uyMWI7Hr4q908MXLheg==YUxq7shb4aEmRLyGaUBfMKAGaMstA07Gwiyv%vsqGwic6goQb/cymB+fA95ka118tFGudjw==hxs=QumBmVlsS8rIP/YqSVjYXHy4BsBYEZdz+THEKaNmI1VVKDciUrRtNVYjvoKrouMJbFmkubRFddq4Lojs=EHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA7sM=+j9uyMWI7Hr4q908MXLheg==H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=vsqGwic6goRgmS9YF5YFXlTLrg==5wywxdjo3ri3t5ADakh60r21/wlDRDontxSGf7dVmmRBW3kyqGxNcIDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffAgaGT8ZuLhxs=99oj+QNVmGlp32MYo6Jo1YhfMqvN9Iw2rmWdGRVvajSsn2+qd2DfVYIA=aumBmVlsS8rIv78mp4dIUg4mBAQiCmJ8E/e0RuMO2JUFlqFCYGNRqA7UUZl3IugEMs8ynq8a0fOkYv5MRYe9n26OJg8J6Sg==]Uj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHBiljo+fhq5O9GpDd0N7ERnOVVkUWXznJ6LuodsFwNrpBbWPQmej9s04AOg==wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=aBRNQdsj1tZVVI0ySO7f0hVt2qifI6B0VgZ3meqlUsCT62i0bJ3iWtq2khfvdWlLa2LfSyh3TFTQflmJ38fUGAsYQ9165WJnAx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Gq+mdg==/Sv+wnMfdss33gTI7doK+0p3GgdLijxZgardpdG3fugog9af9yQ2hCJdotXm0Sc=%89eTaYUMMfG3/h4KZ8PfrWIMlQD7nj03Fjg=hxs=]DkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffARjb3BtjubnTVwSECU4aX4SnCNw==5wywxdjo3ri3t5ADakh60r21/wlDRDontxSGf7dVmmRBW3kyqGxNcaumBmVlsS8rLDWqxr+KL7bntMspQNP9Kgnj/+itOeDEEeDvF1x1CaClruBmoOC3BlREfSl3TzOo0Y5eYDAKqM0waVuW4rhg==]Uj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHVvH37bEr8L2eJU7PAbF2Ok0RAx8BDiST3nnZ9crSLZoY0rQRw0c+x/pofg==wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=aBRNQdsj1tZVVI0ySO7f0hVt2qifI6B0VgZ3meqlUsCT62i0bJ3iWtq2khfvdWlLa2LfSyh3TFTQflmJ38fUGAsYQ9165WJnAx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Gq+mdg==/Sv+wnMfdss33gTI7doK+0p3GgdLijwie7LU9qWx2g==fugog9af9yQ2hCJdotXm0Sc=%89eTaYUMMfEZv88KAVBzhf1w8d92+KhoARo=IDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffAgaGT8ZuLhxs=9oj+QNVmGlp32MYo6Jo1YhfMqvN9Iw2rmWdGRVvajSsn2+qd2DfVYH9RTBVGKPUW1RM2JE56g1WiXAR7OfwJQnvFvZlXQHq1+t9FQc+cotVHPyfGf29bscC/CxwP8sQ3mn4flOZBeumBmVlsS8rJKbshu3FZ9xCqiAqN5rkn2tcAu8ymr+gP82iNDKS9vqgB71mCoqimYv8JvpMV7g5Suj4Sa855Mznh1zPOryTtraZE=aUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHFN4jobWoIN4c154ArQNxv5N7MclMGBdPjDQ2buKGEDkwE7c3oo8f042DHvPdlc0=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=aBRNQdsj1tZVVI0ySO7f0hVt2qifI6B0VgZ3meqlUsCT62i0bJ3iWtq2khfvdWlLa2LfSyh3TFTQflmJ38fUGAsYQ9165WJnAx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Gq+mdg==fugog9af9yQ2hCJdotXm0Sc=)Vho+hQQ1OibP3gQKJ+RIDbMvu+mKY4Kd/EIcuA==hxs=9oj+QNVmGlp32MYo6Jo1YhfMqvN9Iw2rmWdGRVvajSsn2+qd2DfVYH9RTBVGKPUW1RM2JE56g1WiXAR7OfwJQnvFvZlXQHq1+t9FQc+cotVHPyfGf29bscC/CxwP8sQ3mn4flOZBeumBmVlsS8rJKbshu3FZ9xNW8gQzbW7M0yaGVzWhvbBaDYfqprf8tDkJKC2PvlGpZF0MaUsnFLgGB8U8lJrVvcuCg6rKy0FEuAHc=aUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHxwG5erBS7gqoMxO7/NqiTlEf1Pm1/h8ABqvqcnklFJ6XOw0bFWv609MT4uok8ms=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=aBRNQdsj1tZVVI0ySO7f0hVt2qifI6B0VgZ3meqlUsCT62i0bJ3iWtq2khfvdWlLa2LfSyh3TFTQflmJ38fUGAsYQ9165WJnAx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Gq+mdg==fugog9af9yQ2hCJdotXm0Sc=)Vho+hQQ1OiZpMFdu7KybsEMT73uNWVxIwxaxuw==hxs=iumBmVlsS8rJGDwIllENAFUqcZ6FTd8kLGb2lrJLOPL7WH2/pHgx+tCarKMkLVeeXU1UTH9nscD8emDQ7qokbkZ9EDeEN2FWm6a3OU+U618AGJbXrt8RiheDCvdYTnVP7hsTtvdUe8YW9O08YZ5Y+MlQ==mlY6vLmEQ/apJC9Wtr1lEmfAfsLQ6pPSN7EIv33+GHpcXyRFGqYLWiBbHOrUxyR+L2sQHQoOqtDRsal/kXuvgXqdKK6jvzyZgdt1ekkQdIC4=UqG5qtdFiJf8Bih2JUHTT6AGUeFJqWleQa5f5m6RixsmYaVEzSmy6AZyhrNRVQYvpTOVRuK6wzxhg3lwktw==}5Ec9TPzLJQQ5pSHs4CQUYNCASVl3VehnCZHDSMmeirpQbpFv2cqxOcTpmNz7AkrDOVSzptgT46IGQexmqjwldheHwJEaVx6o/2odtwjxmbtf6YohqYJmP1jklw==mc6Up9n2Js5A0cnd36TYvDSGBkVMHqPJ/paQCYSJXkfPqGqCYXAwGI5932ZEmwDTY4LSt3ITmi0ehtpf6AbmFh+0/z6GdlMoUA3n20aVREzSyyUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHxwG5erBS7gqoMxO7/NqiTlEf1Pm1/h8AS4RTbSlBpwU2NCY6J+1X/1Q2TBz+oJVkk0Oa+OBSiAHtCFmnIRKCponb-4YrELO0B4nY7rqATdpjOmHO3mIkS5IQw99Vc8d221dI=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=yBRNQdsj1tZVVI0ySO7f0hV7DBZ4A5UuA4+8aSlMH2LPbjTt/ICe7o3JWdTiayRy5SMtZ6myqOA9Lcp6VRuKS8WziQpUz7hphA5FNkHrmY+GsYWf6jlId8YEZx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Oq+mdg==/Sv+wnMfdsuUwGWnlq+bxg==+0p3GgdLijyK2IYac2bjhiY=fugog9af9yQ2hCJdotXm0Sc=%W2eQWlqMlkUV+9QbCn/NB96p1OgdZ9c9An8=hxs=eumBmVlsS8rKmOoagFc2kUQhpzz8Q0UlJOeIvpxCjXW0D7NihGzeHVcNZHrEezq+AXF1O14MLvNPP7zwqQzWTelRrsSiBwv4/Akk=18AGJbXrt8RiheDCvdYTnVP7hsTtvdUe8YW9O08YZ5Y+MlQ==mlY6vLmEQ/apJC9Wtr1lEmfAfsLQ6pPSN7EIv33+GHpcXyRFGqYLWiBbHOrUxyR+L2sQHQoOqtDRsal/kXuvgXqdKK6jvzyZgdt1ekkQdIC4=UqG5qtdFiJf8Bih2JUHTT6AGUeFJqWleQa5f5m6RixsmYaVEzSmy6AZyhrNRVQYvpTOVRuK6wzxhg3lwktw==}5Ec9TPzLJQQ5pSHs4CQUYNCASVl3VehnCZHDSMmeirpQbpFv2cqxOcTpmNz7AkrDOVSzptgT46IGQexmqjwldheHwJEaVx6o/2odtwjxmbtf6YohqYJmP1jklw==qc6Up9n2Js5A0cnd36TYvDSGBkVMHqPJ/paQCYSJXkfPqGqCYXAwGI5932ZEmwDTY4LSt3ITmi0ehtpf6AbmFh+0/z6GdlMoUA3n20aVREzSyoA==yUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHVvH37bEr8L2eJU7PAbF2Ok0RAx8BDiSTxI3i4+KGkNvj3nlueChCDVmnC/coIdCyPlxR/JBFTo+v42/MjO0z+1n7-4YrELO0B4nY7rqATdpjOmHO3mIkS5IQw99Vc8d221dI=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=iBRNQdsj1tZVVI0ySO7f0hV7DBZ4A5UuA4+8aSlMH2LPbjTt/ICe7oxtsAql6P+8/vDVOegvfCrbG/4qS/McywNyHvIzZ1EehrytkPQ==x5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Oq+mdg==/Sv+wnMfdsuUwGWnlq+bxg==+0p3GgdLijyK2IYac2bjhiY=fugog9af9yQ2hCJdotXm0Sc=!W2eQWlqMlkWLUwcrT7mQ0RWEqBE8UIVThxs=iumBmVlsS8rJGDwIllENAFdKwDk/1cK5Hqd+TfO3h9bkKdDH4PG/y/Rm1I6XYXlhjOGQxVANdH6/oMEsCypdL0ZwH10XucJR9WTEZZ4lV18AGJbXrt8RiheDCvdYTnVP7hsTtvdUe8YW9O08YZ5Y+MlQ==mlY6vLmEQ/apJC9Wtr1lEmfAfsLQ6pPSN7EIv33+GHpcXyRFGqYLWiBbHOrUxyR+L2sQHQoOqtDRsal/kXuvgXqdKK6jvzyZgdt1ekkQdIC4=UqG5qtdFiJf8Bih2JUHTT6AGUeFJqWleQa5f5m6RixsmYaVEzSmy6AZyhrNRVQYvpTOVRuK6wzxhg3lwktw==}5Ec9TPzLJQQ5pSHs4CQUYNCASVl3VehnCZHDSMmeirpQbpFv2cqxOcTpmNz7AkrDOVSzptgT46IGQexmqjwldheHwJEaVx6o/2odtwjxmbtf6YohqYJmP1jklw==qc6Up9n2Js5A0cnd36TYvDSGBkVMHqPJ/paQCYSJXkfPqGqCYXAwGI5932ZEmwDTY4LSt3ITmi0ehtpf6AbmFh+0/z6GdlMoUA3n20aVREzSyoA==}Uj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHFN4jobWoIN4c154ArQNxv5N7MclMGBdPtEs2hVG3CMWnxiDWIV/qBwSEmgc/xTOf+XaMVffy9uK7w2NA3tbKlfWmbg==-4YrELO0B4nY7rqATdpjOmHO3mIkS5IQw99Vc8d221dI=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5ptrw==hYo+KBnWIBLXTvlaodXRY3TDAKTIqgjPQ7sAu5Zq8oplPyc=yBRNQdsj1tZVVI0ySO7f0hV7DBZ4A5UuA4+8aSlMH2LPbjTt/ICe7o3JWdTiayRy5SMtZ6myqOA9Lcp6VRuKS8WziQpUz7hphA5FNkHrmY+GsYWf6jlId8YEZx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Oq+mdg==/Sv+wnMfdsuUwGWnlq+bxg==+0p3GgdLijyK2IYac2bjhiY=fugog9af9yQ2hCJdotXm0Sc=%W2eQWlqMlkUKPbtoOaDyjFP1htWR5Mf1Gxo=hxs=eumBmVlsS8rJGXHM8oI6nGLXQWliPOkV/H7BVc/og3OtGbH5RMRbbs3ZDlW1FPulB1XdJcyNPyBsAfDHuc0fqh/ckcFl7GhjjX44=18AGJbXrt8RiheDCvdYTnVP7hsTtvdUe8YW9O08YZ5Y+MlQ==mlY6vLmEQ/apJC9Wtr1lEmfAfsLQ6pPSN7EIv33+GHpcXyRFGqYLWiBbHOrUxyR+L2sQHQoOqtDRsal/kXuvgXqdKK6jvzyZgdt1ekkQdIC4=UqG5qtdFiJf8Bih2JUHTT6AGUeFJqWleQa5f5m6RixsmYaVEzSmy6AZyhrNRVQYvpTOVRuK6wzxhg3lwktw==}5Ec9TPzLJQQ5pSHs4CQUYNCASVl3VehnCZHDSMmeirpQbpFv2cqxOcTpmNz7AkrDOVSzptgT46IGQexmqjwldheHwJEaVx6o/2odtwjxmbtf6YohqYJmP1jklw==qc6Up9n2Js5A0cnd36TYvDSGBkVMHqPJ/paQCYSJXkfPqGqCYXAwGI5932ZEmwDTY4LSt3ITmi0ehtpf6AbmFh+0/z6GdlMoUA3n20aVREzSyoN4=yUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHBiljo+fhq5O9GpDd0N7ERnOVVkUWXznJ+MSqrnSp2jvv7oKW6c4gm4xH1cuUX7lNfP2JRfHTkAIBh+xpMYzyTFEq-4YrELO0B4nY7rqATdpjOmHO3mIkS5IQw99Vc8d221dI=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=yBRNQdsj1tZVVI0ySO7f0hV7DBZ4A5UuA4+8aSlMH2LPbjTt/ICe7o3JWdTiayRy5SMtZ6myqOA9Lcp6VRuKS8WziQpUz7hphA5FNkHrmY+GsYWf6jlId8YEZx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Oq+mdg==/Sv+wnMfdsuUwGWnlq+bxg==+0p3GgdLijyK2IYac2bjhiY=fugog9af9yQ2hCJdotXm0Sc=!W2eQWlqMlkW/yUlz89T23ijEpko3PJfOhxs=uu9bH283agbLyCy3f1q2yEolMdhKsJAV3wkGZQv4Dz6SONZh7pP+QgsIZfWxct08sAkNvVYymdDjnH2UZwurUAw06t8pYBFf6E1qIfYVPtBpjK8y5j288hWcostU0SkawR6unO7ezB/iew==MszbYmPZ+8umMlWs5Mij0x+67bJnlMAWRrfwncLK0UICyy/W86NoSRMPdXgxtP1rSXKR2QjPrlJk=YN+EZJ+AWTg+Y5DV0r/i5O2EOt6WxtCOYTR+zS2n1DjCNLgvE3NT4ga5nlFGpdienjY2SB5Tt4WPL3nXBY7fzcoE=8qaYaMthosCx8FAhw15g8fqwcDaSNmwcJt/hYLr6UHe1pcfZSmNnf2osm7QqD2rVKfS8ntnSAQWJfyvRe/Z3Bkntmz9X4NuyvwkCcHY28zotsKHPMyF90HXAjFmfTCzU+Edzb4gbfvJlgFlFWlejjmwjg1hEkUSrz0X1vUU=!DkKvKoFCaD+c/o2FhnhKoq1tIvUmIg==9umBmVlsS8rJF5sCQtAD9tT1UxHaY8w7+0mBUIxlUD4Auf8SmxgvQu44=DxGpna7mCiqstuiAZvIL5x8h7A==vEqR8a2uhSE/Q2XeWA==mrU4KsSd7yH1RYjwOXJ5miYuBuw7YNx840Md0Yxy%GxWLqKRM9I/jJ21PyOih/Fk4zvbXIub8Sw==9G4FMpiA0hE1NJcwlMb0yyDg6C2Y1JohhioKIsWwDjyeUw4tmAr09fCM=wXXwp8y7rL4Kml4O7cNOTob0%h2JwHQg+PXPn4wN/okV2N0M0cAEXD4nkzA==eWoWzbeXkJ5M1uQfH8qdq1cvlxezKNfB4iscpei5vR2wcrgadHMbyKR5/Z6scXZjqDcfE10rR/hhqZLHO2c5jc4eftNYGX0jWipJnikBozlRlHsr/OH7PpD/iZbZWhWFNY66vFmY9DyG39fgAupxxt/9/Anc8o0il98AKEQ9fpT1MZUbEhjwKMKaW/1wKOLbODCHhmx6NUU38=UD4YFLtGenD4f4GkadYk=aZTqkaRmtR4Yts+OzQ1de09F3+lk6wPHJDChy5LKSBfZD0s53dU1Sq49sg==MrP22BZexrP63B4oq+040Q==5dFwHG8HUuEMJEEeQ1ZC4YoJPSEYQ1KX3uhbEtbJsXgWYupVXVg==YuywjzodRzgG73+lfu7eZl8XIZ/cQiUYMlkp7F8wcbJ5p4Fj6ti5lYhJIi+/eUMD0derKd24191GcRnWwDOoHWECq]varB7I4ajDgM52nWwUbK2VrmfNWM8hkgTvigfgtLuHiYoTGeb0q9UumyP9rNm2totc+qm5Zb1LDjqTx0KkcytZprxlme0WY4Dl+x2quPvOA2cUo8OA==%DkKvKoFCaD/iGIk6ISuBbKtScRNMBzcFj9keItb41TQm8AvXIVwi3GNG9HXUQBtFl3iKMvRsw+PJYjA943hh3ZOV0mv1IpLb3KOdGWi5uerY=YsWjJ/2UGKX0UYDVKcrhMxo=%DkKvKoFCaD8qvym0XjjkBzihwwhwj/n1fg==M6G6Xl13HCTElgbnVMBSlxp3Pj9dk/I8NJNbhoOHMKefa1AEtjmZ+aR8JjhjJr+3wUH4h2ecEJQ==B+cmBKaPKEJ8JjtB390n40WL%+pEzlVcrwFgam6zoboNuyeJW3djC9sY5wQ==UkOFU98TYWr3fAdIdCLXXgMF9jwjX7K3gxXhDwmuBHQ3ewKpZpYV3f/hli+yICJMS7hIitCJKNizf9M9yW3hSYPHUSvnBIrIpQrN7O2D5tdqGaSxWXaI6VJSO/M7lZWOMx2UQHYZLYGwqyaLjbKJvdxSMy5w/6CR2tsghKcklqTsF/FtP5qgEs9Sjl15brxKpB9DkKvKoFCaD+ojDXP/84B/2j2iR6azg/iZGRoVR9yL0j/LI06UmbV3+xp5+pEzlVcrwFgam6zoboNuyX4nSgrqInV2ligNnNPJqW32zrqrtA==UL3SJHwtj1NNlX5vxsruRrkus0fkyoXu7eIbAc0zgKT0O8pvz3ySl04TVdmzNKmvVeWJ/9u9N3z1Zx49J3O4SYCjT3TPUl0oJhrE6z9fI52UOWhRq37nwc3qIap+QJCyATzID6ylxTxVB+m8mqdS91/rCYtjkey0tkPky5FfIrBlrDYxVRNgcevXN2xxUC2lnI+GE=UDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQm6ZrkBwZSyO/QPlOhA8JpuOIAdWJwTAyBUCsZYY/mk2A0DF9STg==VorsMVGFJ1EMYfiHtH4=Ez279JJsKn6lrOqIxZGQ38fD575x6rJ4cdNLZ/PvkacbC4y2aI8U8AM1jgQSFv+9AbY8z=jxuWqHf//66DH55UyJZt0UtEPpqtEV1Vmp1XZiX2+1Xn38c4ZZPzraL8BQ==kH87vN2HisO4f6z/6ddNrQ==3N0nToa6sfhKwKdoPg==AAMf6k2Rs0jdumyNJods0aeYDPAhFwzXNbkn0n4gO5zCg/EjBqYvSOdTzwBj34Q==8XIl+k8KNNjHCwvZZWI1IZ7nv15fTLIuHMXKbtw+Zub2+TaNYUzSSWjRjGgATlqtia6ztDwqeujDB+GGCVrICU0/mAg==1ofmzA6Q889UK7d2ut/X7A==EWVlCSXPgPFnSM9rLvHOhmZU4IFtYG97YIvJbiiJQHIg3nSz/5bTVkfd+19RoFgSuJug=hNXXEGVE+OzhbVI=QFjITl7GHTdKSQ==645SQvOFRzXSctov0TM=5gz41sWX38Dzesivtn7tTUPnnhBKSHMUXtNrtKq8I1dpC+v0HF17wZHgFpa38mQ8HQPGRFA==q8x7bE7t1BXWsD4=B0L8R1H7eBOxoXmySaadgFxvpv8xA+V4RRmktxonUQ==hxs=5umBmVlsS8rI7of5rljyvpRZKxWdE8Zqv8k+pKd0vQWbiJXf7nA==OS3a5Pw2odW1+HCX3w==WEu3mf6pUX4D+8JjzJkhH9MiNfUs6wgqLA==hxs==umBmVlsS8rJLsOpYK1Xrs2XFhu2gJthAQrWGIY0tGdZdDvpPFpquCVGdUVs=8aV4SiXKpFaVOr0Z4Q==WEu3mf6pUX6H2OOiELpmZUCJUrfKwDeYRc0PqOuSGbkCz6IQYxJ2t2/tMw==hxs=-umBmVlsS8rLuXAKaQ5TYgyFtgXYHA7aUNF8RL8/YEV0o9JFntSv0dKKV7bxGZr/LtduRwxxhxSwthCddw9Fyl0MOrtJpy4oMQkQ==Bnjvk4cI4LHXb/VvJR91fg==hxs=IumBmVlsS8rKGMCB2Mo5T8Lv5Y/teQLaQh1lbfr7JwYLx6mFEwh5XTZNXbQNnf9Rm4Mw1ehQuUK4km+bT5H7Nl/HKYOVjNDe1rq8ktj5b4s0gAuslTYn+6qz4DGEmVR+O7N2SwH4bHeZwqoGpwl7yUzbYYuP5b2C+mTdrPDDaITgkVng==hxs=%umBmVlsS8rLqJBnyxjgdCLfXMfb0xtgrPoKUMQnyT/ujn4SkI4/WpqQwd7oQzejAPx6UhO6Kbnkh8XB7sQGDtm5l9s03LBD/hWrQZkAi71yfH6r0==jpg5jJrqnvnT8SsiIZy6Oo007GTNhtzlHBeu/ZvdkXuS8GkgxRn4mcRIlar/ g1q66j8pZw==hxs=mumBmVlsS8rJoKPo4TNXi0jaxhUEBDjYBP3lAk/hsaHWmKzJIHKZhkf//tHXZvH6kwMp5eNFpJanVdxsV6lTHMiE++QhE2ikqPJivlxtIaA==!zunkqCkOPJoCeFHTfONY/aryUJLyKR4DMIdcHuT+uoaFim8kfGFigxnmKQ6n9qp0L3LvHPkxS6NPbjAsLMoWICDTzHo+rzdxIFFAR+ukKX6U=MGvaIAXfQjdeKS+ARkeeTbbUwgTHe1poQVM8m9uYtYbkyIXvNX0ks10ZXFiD85iH5chm4rIVuKA==7arknlkzKCceog== L6EWPaOZbi0KiSqucCnf2+oxKl5RRwnt7Q==meIvIyRZyi6gNmrZA6mnk2Mn)M+CU/C35TFcSyO/NR9eE/VaTDfSOXpbziix+AQ==hxs=5umBmVlsS8rKbU6aZgOU7imit7ZqJ/vNv0FUvBSKXf76iDxXgeTYuiCWNkB2gifa/9MrERp+oXmSVDm5ZLhs0FBt5Ko8TFhJgZiIWGetui+TSIey3SxgA4spN6A3GjO6aQ0HGrdRvlAWu35DXkDocwpKjmeM8==DQcxGsiTlpByaMqxkBV2yogoFnNQTddxbrgZLkRhMvjBIJx4L2bAwRHeqWc=!y7q1IOM//JYVXwUIVecmYPSrBqfu9OQ=-4MLCHkpOiqu2o/TBv6Wu6oLludrSmLtKq+IY+AuyzA==%k5OenA4bMaiJpTmsUcwMqk7OdIHZSBz6G1P9M+CU/C35TFePEhUFidc=5g73JIryDKEv5uUAO8sdKHCe28jFba1u1Vcf4pvgbYD6BhcoOxGI=UDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffARjb3BtjubnQtGKDn0g==UDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffARjb3BtjubnQtGKDn0g==UDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffARjb3BtjubnQtGKDn0g==5g73JIryDKEv5uUAO8sdKHCe28jFba1u1Vcf4pvgbYD6BhcoOxGI=hxs=%umBmVlsS8rIUPXwLfCRCDyyK4PeJkJ32+g==Iyqz9zif4Pflt6qRknJBn1wGDA==9Jb5unxjg9jSx3V7eLv7i6ic9yl4zxsrFAdnCi+8Ye6EI1Dl/D0cS3WWD=mVXowItlw5WSECv7j7q75tu8K/scab7aibOfVGWqQAluZlZlLFm6l2z+td4==6v1xJC2I9uBDdyFwoObt3l/Tm8glJnTOtgHv4d12K6CYH7sCw2wTAvAX2FM==Cjc+N4qJ8L5m9/u49JNnffLd6e3oL48HXGd5eP8JuViafz9HkiBAipxNxLheEgTmIeZOlTne59Nni1C8VAGSoQpwafNhaOU4vaG1Nrc85gtpR8lYuXf+4ckkAoLGYBF8=19FRBI6EMdfjgIS2FPKBCYSfcAnnjzob9Z5pnNW4D+vc+HSI=mPgLqMSfjvIzW1UmkA==hxs=%umBmVlsS8rLKCdm7V1/gzuQTmbxpW62EDw==9GvaIAXfQjdfo9omoNJOpKDLqYg6a/NFdjqWsJsH176IVR+mzTHR2ow==uNtizA7kkaA3ojjs7w==OSdVpu57XaCuMG6lg/n28fU67msJTHGIhjk=hxs=}umBmVlsS8rIMfN+oPGNtRggp5ecnLnqI0/+B59UIEotKVxue7VYTG9ijGooZvCdKe9Ba6GfqQ7CwR7jcxa4k7a/nqMtyWuVSZvTgYNTgUBgB1hklrAWVAgpIaGE=yI60cnAR3LFvCQY=rzJiArREk8NdnZX3tQ==VorsMVGFJ1EMYfiHtH4=AlPnO3XFEIrB2SJROhRe70dfs/7ZwKQfTw/7VDvssP/UTRY3u1rPzUSKVfpcJ517EyXG/pT8WLhUbMqSWhgahEVA=i4l33cqgXduO0lbejcVdV8ge0KhzntsO6zgyH6gRNYXJafh32baXsfyDBkihJ0RyG8NmSHWg1i2RvCDMAY0W5Yk0TEd3lSw0zZlgw9/z/mXXOsHKNNImR1R0EUHpIoxYCKJtahPbuHPBt4qoCpdsUUsaUJQOfI+dRaortq7pYn45FbRpuz9I1FJYMO2WeqCxsEmIOqxQKTMD++A/+z3unbLzUx2Qv+rHa2GeP6nz5FEQ===DVEuxvqSmitTniKN1/7YaBOU4DT+S27mXpgQ9kTT+4S+Le60eN9I79oQSps=gkDGmWyCJo4H/Yc2BmApeWrphV8FrRMUSM1EjSiDZuZO3kq+JXKZnm6HoAx0ZG74ZgBHh9w2ouWruHtrbBCtMEF0CMm5v8XqUcKfBdJ/CAx97DxYXFB9Kdw==iZuq3Bh4DnJ3ojGZ+2/vLt02WyNH5XOB4Cu1aEbWwIDDKj5a4IE0/hI5sdlBAd+UZvIMYMeLVlrx+mn3EQCyO0L1IZ1gSAsgppfkgHQ==wEubmLjUtUYRdYAYCagLIQ==EGvaIAXfQjdeR+1+9i0TcgFiAJYmBlT5o1o9hOXsLFk0x4J9WFMLlbYtsvuicX40QxA==Q/TVjvAcoW6V3k1AhMGi7Q==rGH5N4NA7xAApaA=vsqGwic6goTudQQGqs73hxs=umBmVlsS8rKrhkO0kMRrc0vtngPc2POAPF+iOWv/PAfsvYYeShjYQWvNG6ZBPM9nSeZsFodNPcuFPhToAoY9hxrV+iGn/Pp+TkSRs/MhMBNqLQkDR7cNWS2bQWxtXg9X0LmbPY/oMg==I4IUqOfGFck93ZywtA4=+nAENUz/jm8I1lQUzb0=0SewRsKCjBErMcSYD5o=oWkjIzqKfzo0YEO/M8Y=0y5QBVjjFryabXsssBA=dotaNdB2llDQsZlA4Fw=UYGZWE0bSWj6nNH7hSWyfG1dh0AYiQTjiiWCxUws0MIgQJyedSGrG9S297kaBDzmCKFRUgNM3FdMvLP39DIA=IFL1LohPoT2qtHuWQ52b+4Y/wphTYc0DOuFwBMtPFEoXgzTV9//l89WP6gf/88susKD/a2g==qSozSVVoKxjGbG8cKoao14r1jj2oqbjcHNIwbwifPq4Kezgu6BeWrxqUPi5U/wmkg0+dcpci5SZKfGDAr6m6vEgij3FoiCgpB86WfT+WUEa8JQzcHzu9yyWXASlvuC0zbhxs=}umBmVlsS8rLDILsJHxXUXCTlr6c+MfCKpKfiTdctbHgLAvzpqdVl+CfKzTvhB+9ye29knO9HDpxjrZT43ebit/pwEI+hEv50Ba9R+AABpIIp1Zr2tIoUyDMPlw==I4IUqOfGFck93ZywtA4=+nAENUz/jm8I1lQUzb0=0SewRsKCjBErMcSYD5o=oWkjIzqKfzo0YEO/M8Y=0y5QBVjjFryabXsssBA=IFL1LohPoT2qtHuWQ52b+4Y/wphTYc0DOhMD41lngFajgEUiRJP3RS1Eek8fs7qoR2SsVnQ==qKq2lwf3ec7xhCbEVDPJXLAbsLmoAcM9zttUwAoCv2fsqtftgVc40liemYC0/D2TD7QcfxOrDRlBuP8tALHZg3JLI/v4D8YZfvsxCjtnqzgbj1vORt5riNbE3NSWE6jpEhxs=aumBmVlsS8rLciVNYd5uyjK5YNWkgW+Y25kX8XzSi5GIypL4BECQuAkfpfZarEVKU6ZUsBeTFgOBtJhDcECxK0+RYpsI7l6E=aCWNkB2gifa/DJ375AlTKEVvFOLl34E9Vt7qg/qfxQdbRQN83KlbLUGdFSdNFU3kRUC+Ncu+UjQGVCsOueIaOM4vRrVsIUwo=Gyo0lDe9RWFc+2c==4MLCHkpOiqvTFbMDskMQ28k/2wq0SoYtsaE6nkV2Xc2ymme+MZb0YfH3klrd!k5OenA4bMajnvBTKL6S1dNK7Noy7J65O!FE3yX5P4WhHybXEuI8hDwPmYNH4xNHA=1Etckn/bSFIwP4HrDUItN/l3WehSXkNVdod/aRkTuNTq1EpWpv/Fpas+Q9HuUGGfA+WiVj6r9rg==hxs=YumBmVlsS8rJQTlJ7LmID+VIPY0XR1SBQu395ECzcFoHrfXmOSdSQQmJDO2VOKd2oVs4VSuzolxuChYVdKJ7Ca2c=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==-OszSLeSteQjx0K0qqM5jVpCUCJU5HbHmab4vzJkF7nn+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4HnhCdSw==%z7YriDvYTgA/30SXtIDvIAtrPCHm1c87gw==hxs=VDDGNDINPOUTHOUTLINMBfT_10C13BD020170120142347 NOPCB (GND)BfXT_10C141B020170120142350 NOPCB (GND)BfT_10C1479020170120142354 NOPCB (GND)BfT_10C17C7020170120142517 NOPCB (GND)BfT_10C1B73020170120142731 NOPCB (GND)BfhpT_10C1D49020170120142924 NOPCB (GND)Bf0T_10C1E05020170120142932 NOPCB (GND)BfT_10C1301020170120143024 NOPCB (GND)BfhT_08B1EDB020170123120626 NOPCB (GND)8?L ]@h"MbP??ư>'dd?Y@[dddd$@?.A.A.AeAMbP?@@?h㈵>ư> $ 4@D@ =B?& .>??ư>ư>ư>ư>ư>ư>?I@?I@?I@& .>#i;@& .>-q=ư>MbP?-q=MbP?vIh%<=@@D@& .>?MbP?4@?{Gz?ꌠ9Y>)F@?+=:0yE>KH9$@Y@& .>ư>?.AMbP??????I@Default analysis parameters. These parameters establish convergence and sufficient accuracy for most circuits. In case of convergence or accuracy problems click on the "hand " button to Open other parameter sets.?Xd I@nMbP?{Gz?{Gz?MbP????|=Hz>}Ô%ITNoname