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2001 - 8M16

Abstract: MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2
Text: Configuration Refresh Count 3,4,5 -8E -75 - 7E Row Addressing 4K (A0­A11) Bank Addressing , Part Number Example: - 7E - 7E -75 -8E 3,4,5 -75 -8E 3 ,4,5 Refer to Micron Technical Note: TN , as x16 pin function. MT48LC16M8A2TG- 7E NOTE: 1. 2. 3. 4. 5. 6. - CLOCK ACCESS TIME , NOP SPEED tOH DOUT DQ tAC CAS LATENCY = 3 - 7E -75 -8E NOP tLZ CAS


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PDF 128Mb: MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 PC100-, PC133-compliant 096-cycle 11x13 60-pin, 8M16 MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2
2001 - 128MSDRAM

Abstract: No abstract text available
Text: Number Example: MARKING 32M4 16M8 8M16 A2 NC NC TG FB 3,6 FC 3,6 -8E -75 - 7E 3,4,5 - , PARAMETERS SPEED GRADE - 7E - 7E -75 -8E 3,4,5 -75 -8E 3 ,4,5 CLOCK ACCESS TIME SETUP FREQUENCY CL = 2* CL = 3 , 1.5ns 1.5ns 2ns 1.5ns 2ns HOLD TIME 0.8ns 0.8ns 0.8ns 1ns 0.8ns 1ns MT48LC16M8A2TG- 7E NOTE: 1. 2. 3 , OPERATING FREQUENCY (MHz) SPEED - 7E -75 -8E CAS LATENCY = 2 133 100 100 CAS LATENCY = 3 143 133 125


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PDF 128Mb: PC100-, PC133-compliant 096-cycle MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 60-pin, 11x13 128MSDRAM
2001 - 8M16

Abstract: MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2
Text: dash (­) indicates x8 and x4 pin function is same as x16 pin function. -8E 3,4,5 -75 - 7E 32 , Number Example: MT48LC16M8A2TG- 7E NOTE: 1. 2. 3. 4. 5. 6. - - 7E - 7E -75 -8E3,4,5 -75 , tOH DOUT DQ tAC CAS LATENCY = 3 - 7E -75 -8E NOP tLZ CAS LATENCY = 2 133


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PDF 128Mb: MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 PC100-, PC133-compliant 096-cycle 60-pin, 11x13 8M16 MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2
2001 - A11 MARKING CODE

Abstract: micron x8 pc100 sdram MT48LC8M16A2 MT48LC32M4A2 MT48LC16M8A2 8M16 sdram 4 bank 4096 16 MT48LC16M8A2FB-75 MARK 8E diode PC133 registered reference design
Text: Refresh Count 3,4,5 -8E -75 - 7E Row Addressing 4K (A0­A11) Bank Addressing Column , Number Example: - 7E - 7E -75 -8E 3,4,5 -75 -8E 3 ,4,5 Refer to Micron Technical Note: TN , as x16 pin function. MT48LC16M8A2TG- 7E NOTE: 1. 2. 3. 4. 5. 6. - CLOCK ACCESS TIME , NOP SPEED tOH DOUT DQ tAC CAS LATENCY = 3 - 7E -75 -8E NOP tLZ CAS


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PDF 128Mb: MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 PC100-, PC133-compliant 096-cycle 60-ball, 11x13 A11 MARKING CODE micron x8 pc100 sdram MT48LC8M16A2 MT48LC32M4A2 MT48LC16M8A2 8M16 sdram 4 bank 4096 16 MT48LC16M8A2FB-75 MARK 8E diode PC133 registered reference design
2001 - Not Available

Abstract: No abstract text available
Text: : MARKING 32M4 16M8 8M16 A2 NC NC TG FB 3,6 FC 3,6 -8E -75 - 7E 3,4,5 - VDD DQ0 DQ0 - VDDQ , PARAMETERS SPEED GRADE - 7E - 7E -75 -8E 3,4,5 -75 -8E 3 ,4,5 CLOCK ACCESS TIME SETUP FREQUENCY CL = 2* CL = 3 , 1.5ns 1.5ns 2ns 1.5ns 2ns HOLD TIME 0.8ns 0.8ns 0.8ns 1ns 0.8ns 1ns MT48LC16M8A2TG- 7E NOTE: 1. 2. 3 , OPERATING FREQUENCY (MHz) SPEED - 7E -75 -8E CAS LATENCY = 2 133 100 100 CAS LATENCY = 3 143 133 125


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PDF 128Mb: PC100-, PC133-compliant 096-cycle MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 60-pin, 11x13
2003 - A11 MARKING CODE

Abstract: MARK 8E diode 8M16 MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2 micron x8 pc100 sdram PC133 registered reference design
Text: 4K 4K Configuration Refresh Count 3,4,5 -8E -75 - 7E -6A Row Addressing 4K (A0­A11 , None IT 3 -6A - 7E - 7E -75 -8E 3,4,5 -75 -8E 3 ,4,5 MT48LC16M8A2TG- 7E Refer to Micron , T2 COMMAND READ NOP NOP tLZ CAS LATENCY = 3 -6A - 7E -75 -8E T3 CLK


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PDF 128Mb: MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 PC100-, PC133-compliant 096-cycle 60-ball, 11x13 A11 MARKING CODE MARK 8E diode 8M16 MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2 micron x8 pc100 sdram PC133 registered reference design
2001 - MT48LC16M8A2

Abstract: MT48LC16M8A2BB 8M16 MT48LC32M4A2 MT48LC8M16A2 TN-48-05 PC133 registered reference design
Text: ) Column Addressing 2K (A0­A9, A11) 1K (A0­A9) 512 (A0­A8) -75 - 7E -6A None L :G KEY TIMING PARAMETERS SPEED GRADE None IT 3 -6A - 7E - 7E -75 -75 1. Refer to Micron Technical Note: TN , LATENCY = 3 -6A - 7E -75 T3 CLK CAS LATENCY = 2 - 133 100 167 143 133 tOH


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PDF 128Mb: MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 PC100-, PC133-compliant 096-cycle 025mm. 09005aef8091e66d/Source: 09005aef8091e625 MT48LC16M8A2 MT48LC16M8A2BB 8M16 MT48LC32M4A2 MT48LC8M16A2 TN-48-05 PC133 registered reference design
2001 - MT48LC16M8A2BB

Abstract: PC133 registered reference design
Text: NC NC DQ2 NC DQM - TG P FB 3 BB 3 F44 B44 -75 - 7E -6A None L :G None IT 3 Note: The , Addressing KEY TIMING PARAMETERS SPEED GRADE -6A - 7E - 7E -75 -75 CLOCK ACCESS TIME SETUP FREQUENCY CL = 2 , Figure 2 CAS Latency T0 CLK COMMAND T1 T2 T3 READ NOP tLZ NOP tOH DOUT -6A - 7E -75 DQ tAC


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PDF 128Mb: PC100-, PC133-compliant 096-cycle MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 54-BALL, 09005aef8091e66d/Source: 09005aef8091e625 MT48LC16M8A2BB PC133 registered reference design
2001 - 8M16

Abstract: marking B44 MT48LC16M8A2 MT48LC16M8A2BB MT48LC16M8A2P MT48LC32M4A2 MT48LC8M16A2 PC133 registered reference design TN-48-05
Text: ) Column Addressing 2K (A0­A9, A11) 1K (A0­A9) 512 (A0­A8) -75 - 7E -6A KEY TIMING PARAMETERS None L :G SPEED GRADE -6A - 7E - 7E -75 -75 None IT 3 Refer to Micron Technical Note , CAS LATENCY = 3 -6A - 7E -75 T3 CLK CAS LATENCY = 2 - 133 100 167 143 133


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PDF 128Mb: MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 PC100-, PC133-compliant 096-cycle 09005aef8091e66d/Source: 09005aef8091e625 128MSDRAM 8M16 marking B44 MT48LC16M8A2 MT48LC16M8A2BB MT48LC16M8A2P MT48LC32M4A2 MT48LC8M16A2 PC133 registered reference design TN-48-05
2001 - 8M16

Abstract: MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2 TN-48-05 PC133 registered reference design MT48LC16M8A2BB MT48LC16M8A2P
Text: (PC133) -75 7.5ns @ CL = 2 (PC133) - 7E 6.0ns @ CL=3 (x16 only) -6A · Self Refresh Standard None , (A0­A9, A11) 1K (A0­A9) 512 (A0­A8) KEY TIMING PARAMETERS SPEED GRADE -6A - 7E - 7E -75 -8E , tLZ CAS LATENCY = 3 -6A - 7E -75 -8E T3 CLK CAS LATENCY = 2 £ 133 £ 100 £ 100


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PDF 128Mb: MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 PC100-, PC133-compliant 096-cycle 60-BALL, 025mm. 8M16 MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2 TN-48-05 PC133 registered reference design MT48LC16M8A2BB MT48LC16M8A2P
2001 - MT48LC16M8A2BB

Abstract: 5 to 32 decoder using 4 t0 16 decoders MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2 TN-48-05 8M16 16M8 PC133 registered reference design
Text: = 3 (PC133) -75 7.5ns @ CL = 2 (PC133) - 7E 6.0ns @ CL=3 (x16 only) -6A · Self Refresh , ) 512 (A0­A8) KEY TIMING PARAMETERS SPEED GRADE -6A - 7E - 7E -75 -8E 3,4,5 -75 -8E 3 ,4,5 , READ NOP -6A - 7E -75 -8E T3 NOP CLK COMMAND tLZ CAS LATENCY = 2 - 133


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PDF 128Mb: MT48LC32M4A2 MT48LC16M8A2 MT48LC8M16A2 PC100-, PC133-compliant 096-cycle 60-BALL, 025mm. MT48LC16M8A2BB 5 to 32 decoder using 4 t0 16 decoders MT48LC16M8A2 MT48LC32M4A2 MT48LC8M16A2 TN-48-05 8M16 16M8 PC133 registered reference design
1995 - IC DM74LS00

Abstract: DP8350 lm555 ic IC DM74LS04 eprom 2716 DM74LS74 hex keyboard dm74c00 IC data sheet DM74LS04 LM555
Text: flowchart can be used in local if the ``lead-in'' block is omitted Typical transmission sequences are 7E 02 42 10 1B 7E 02 63 10 10 10 10 1B 7E 02 42 8 8 8 4A 7E 0C 7E 0C 1B All the graphics symbols , by sending 14H prefixed by the 7E lead-in code DATA TERMINAL FEATURES Y Modes remote local Y , Terminal u indicates a control key entry Lead-in code 7E The majority of the software written for , Cursor Address Cursor Read Cursor 0A 0D 09 7E 0C 7E 0B 08 10 7E 12 7E 1C 7E 03 7E 06 7E


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PDF DP8350 INS8080 AN-199 RS-232 IC DM74LS00 lm555 ic IC DM74LS04 eprom 2716 DM74LS74 hex keyboard dm74c00 IC data sheet DM74LS04 LM555
2001 - AM29LV065D

Abstract: AM29LV641DHL AMD VID
Text: 1 555 AA 2 2AA 55 3 (BA) 555 90 4 (BA) X01 7E 5 (BA) X0E , Am29LV256M MirrorBitTM 7E 12 01 (H, L) Data Am29BDS323D D1 AA Address 1 Flash Device , 555 55 3 (BA) AAA 90 4 (BA) X02 7E 5 (BA) X1C 6 (BA) X1E , Flash Device IDs Flash Device Device ID Am29BDS643D 7E 02 00 Am29PDS322D 7E 06 01 (T); 7E 06 00 (B) Am29LV002B 40 (T); C2 (B) Am29LV004B B5 (T); B6 (B) Am29LV008B 3E (T


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2001 - AM29LV641DHL

Abstract: Am29LV160D
Text: ) 555 90 4 (BA) X01 7E 5 (BA) X0E 02 6 (BA) X0F 01 Migrating from , byte-mode is as follows: Flash Device Device ID Am29LV256M MirrorBitTM 7E 12 01 (H, L) Data , (BA) X02 7E Am29DL161D 36 (T); 39 (B) 5 (BA) X1C 02 Am29DL162D 2D (T); 2E (B , 7E 02 00 Am29PDS322D 7E 06 01 (T); 7E 06 00 (B) Am29DL640D 7E 02 01 Am29PL320D 7E 03 01 (T); 7E 03 00 (B) Am29LV640G 7E 0E 01(T); 7E 0E 00 (B); 7E 0C 00 (H, L) Am29LV641G


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PDF Am29BDS643D Am29PDS322D Am29DL640D Am29PL320D Am29F080B Am29F016D Am29F017D Am29F032B Am29BL802C AM29LV641DHL Am29LV160D
5 CW P9

Abstract: No abstract text available
Text: , 5A?B>;3@F] U }GF>;@7 s;? 7@E ;A@El \dk`b J ce`b J dh`g] ? u;>7 |A`lfbbdegbj u;>7 |A`lr , ^ cr ?3J`\3F cp df/sr] p9,@}d^ p9r6} + 7E ;EF;H7l chp dii/pradf/sr cw~ dfb/pr -/_j cdg/pr \|} 5A , ;> BAI7D ,F3@63D6l pBBDAJ`idb?0 , 7@E ;F;H7l pBBDAJ`geb?0 2<89 30@0 ?SFNHFQH SWPI |A?;@3> /A>F397 /sr g h , de rA;> + 7E ;EF3@57 eh J \c cbZ] gb J \c cbZ] ccg J \c cbZ] dbb J \c cbZ] fhb J \c cbZ] jdb J \c cbZ , ` p>>AI34>7 /A>F397 /sr i`b j`f cd`h ch`j dg`d ee`h hi`d jf`b rA;> + 7E ;EF3@57 fi J \c cbZ] hj J \c


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PDF 53B34; \47FI77@ F35FE] 8AD57 BDAF75F76 63F3E D787D7 67F7D? 75FDA35AGEF D7E7DH76` 5 CW P9
mc14069

Abstract: 076H U-503 bq3285 BO-244 074h
Text: J UNITROOE- I U-503 Using the bq3285/ 7E in a Enabling the 32.768kHz Output The 32.768kHz , shown: Green or Portable Environment Introduction The bq3285/ 7E Real-Time Clock is a PC , bq3285/ 7E adds 128 additional bytes of memory to give the designer and user greater flexibility in , bq3285/ 7E . It can be used to store power m anagem ent tim e-out settings, plugand-play configuration data, or additional chip set parame ters. The bq3285/ 7E allows the alarm interrupt from the real-time clock


OCR Scan
PDF U-503 bq3285/7E 768kHz 32kHz 300-mil 150-mil mc14069 076H bq3285 BO-244 074h
2011 - Not Available

Abstract: No abstract text available
Text: > > 7@E 93 E 7 5: 3 C 97 I ' 9I"]\# BC A6F5E )' R0 7C J> AH A@C 7D ; D E 3 @57 ' 9I"]\# R G 3> 3 @5: 7 , 6 ;4? 3 E ( X U F@> 7D D AE : 7C H; D 7D B75; 8 ; 76 AJZJVN\NZ A@E ; @FAFD 6C 3; @ 5FC C 7@E , U *# * F> D 76 6C 3; @ 5FC C 7@E FJU]N -( -( -( ,+ +-( -( .( EWR\ 6 $ 9$^bZ`S $ 6I # 6I , 5FC C 7@E D ; @9> 7 BF> D 7+# G 3> 3 @5: 7 7@7C 9J D ; @9> 7 BF> D 7 [@ , 7G 7C D 7 6; A67 6 , 73 = 6AH@ G A> E 3 97 !3 E 7E :C 7D : A> 6G A> E 3 97 2 7C A 93 E 7G A> E 3 97 6C 3; @ 5FC C 7@E


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1997 - A101

Abstract: A102 A104 A106 A110 IDT QUALITY & RELIABILITY MONITOR REPORT
Text: 0.5 eV, ß=1.6, C.L. = 60% Product Line: SRAM CEMOS 3 CEMOS 6 CEMOS 7 CEMOS 7E CEMOS 8 1 15 , 60% SRAM, 3.3V CEMOS 7 CEMOS 7E CEMOS 8 0 0 1 0 +150°C, Vcc = 5.5V, Ea = 0.5 eV, ß , -28 3 B +5.5V +150°C 116 174,000 0 11256E 9539 C- 7E SOJ-28 3 H +5.5V +150°C 116 58,000 0 11256E 9544 C- 7E SOJ-28 3 H +5.5V +150°C 116 58,000 0 11V256C 3.3V 9537 C- 7E P-DIP-28 3 Y +3.6V +150°C 116 58,000 0


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PDF VII-15 A101 A102 A104 A106 A110 IDT QUALITY & RELIABILITY MONITOR REPORT
2011 - A4t 99

Abstract: A4t 76
Text: D R + F3 > ; 8 ; 76 3 55AC 6; @9 E A$ R( 5: 3 @@7> > A9; 5> 7G 7> R I57> > 7@E 93 E 7 5: 3 C 97 , \NZ A@E ; @FAFD 6C 3; @ 5FC C 7@E CaVKXU 4XWMR\RXW[ $9 ) =I 0 ( 8 U ) =I 0 ( 8 U ) =I 0 ( 8 U ) =I 0 ( 8 U *# * F> D 76 6C 3; @ 5FC C 7@E FJU]N -( ,+ ,1 +-( -( - , 7@E D ; @9> 7 BF> D 7+# G 3> 3 @5: 7 7@7C 9J D ; @9> 7 BF> D 7 !3 E 7D AFC 57 G A> E 3 97 )# [@ , 6 0? C 3; @D AFC 57 4C 73 = 6AH@ G A> E 3 97 !3 E 7E :C 7D : A> 6G A> E 3 97 ) "7H#9II ) =I 0 $


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2011 - Not Available

Abstract: No abstract text available
Text: > ; 53 E ; A@D BAH7C ? 3 @3 97? 7@E 6 F=%JE*-*%+ B_WL #* * & ! ?HJRHNL F=%JE*-*%+ , : 7C H; D 7D B75; 8 ; 76 ?HXHTLZLX A@E ; @FAFD 6C 3; @ 5FC C 7@E A_TIVS 3VUKPZPVUY +9 0 8 U 0 8 U * F> D 76 6C 3; @ 5FC C 7@E G 3> 3 @5: 7 7@7C 9J D ; @9> 7 BF> D 7 !3 E 7D AFC 57 G A> E 3 97 , .= .: 7C ? 3> C 7D ; D E 3 @57 < F@5E ; A@ 53 D 7 .: 7C ? 3> C 7D ; D E 3 @57 < F@5E ; A@ 3 ? 4; 7@E , . .3,< ,.> 0< 4 = > 4 .= C 3; @D AFC 57 4C 73 = 6AH@ G A> E 3 97 !3 E 7E :C 7D : A> 6G A> E 3 97 1


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Not Available

Abstract: No abstract text available
Text: > ; 53 E ; A@D BAH7C ? 3 @3 97? 7@E 6 F=%JE*-*%+ B_WL #* * & ! ?HJRHNL F=%JE*-*%+ , : 7C H; D 7D B75; 8 ; 76 ?HXHTLZLX A@E ; @FAFD 6C 3; @ 5FC C 7@E A_TIVS 3VUKPZPVUY +9 0 8 U 0 8 U * F> D 76 6C 3; @ 5FC C 7@E G 3> 3 @5: 7 7@7C 9J D ; @9> 7 BF> D 7 !3 E 7D AFC 57 G A> E 3 97 , .= .: 7C ? 3> C 7D ; D E 3 @57 < F@5E ; A@ 53 D 7 .: 7C ? 3> C 7D ; D E 3 @57 < F@5E ; A@ 3 ? 4; 7@E , . .3,< ,.> 0< 4 = > 4 .= C 3; @D AFC 57 4C 73 = 6AH@ G A> E 3 97 !3 E 7E :C 7D : A> 6G A> E 3 97 1


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PDF 726-IPD068P03L3G IPD068P03L3
N458

Abstract: 8e89 C887 6ba9 G4EG 74G4 HC74G 0WQ1 A68g
Text: 7E HFG45?8 FC887 7E 7E 7E 7E 7E


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PDF 6d748\RY F8G89B< lq23lqrqk 08GAk N458 8e89 C887 6ba9 G4EG 74G4 HC74G 0WQ1 A68g
AI 757

Abstract: baa9 BDAA876 63d6 eg99
Text: @F\ |GF>;@7 q;? 7@E ;A@Ek [ca_f J ba_c J bf_d\ ? s;>7 {A_kp~pacaabaabjej 1;:?/1? 2/?/ 1;78 2/? , {;] n9p6| bp [* 7E _ >A36\ d c_cf a_bf d_j ca J [b baY\ f d_hf a_cf g_f ff , _ 1;78 +F3@63D6k efa?/l + 7@E ;F;H7k caa?/ fn cfa.np`da.qp in cfa.np ban chh.np p|+O ma_f b`bau , >HMQJRJTH ?VOH [|@>K 8AD b sAD? n\ z3J_ };5=^GB qDAB^AGF pA;> n>>AI34>7 .A>F397 .A>F397 * 7E ;EF3@57 .A , ;> * 7E ;EF3@57 dn bn pA@F35F D3F;@9 3F cd >REMGEPG ?VOH z3J_ {A?;@3> };5=^GB qDAB^AGF n


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PDF 53B34; pD77B397 BDAA876 63F3E D787D7 67F7D? 75FDA35AGEF D7E7DH76_ AI 757 baa9 63d6 eg99
E090

Abstract: No abstract text available
Text: ,215 +/+AA9BAAA$0+7D; 7E 35FADK0GFA?3F;A@ AA/03@60BAAA/0$AI0(DA8;>70+;@9>70'GFBGF (AI7D0+GBB>; 7E (DA57EE0A@FDA>60&7%35:;@;@96 GFA?AF;H760(35=39;@90CG;B?7@F60 %3F7D;3>E0 3@6>;@96 + , >708AD0'GF6AAD0,7?B7D3FGD70JFD7? 7E N0EE;EFE0+KEF7?0A?B>;3@57 3)',*,'%6,215 !,%+ !@BGF0.A>F3970D3 , @05A@67@E;@94 AA>;@9 /;F:EF3@60.A>F3973'@70?;@GF74 !EA>3F;A@0* 7E ;EF3@57 .;4D3F;A@03@A@0AB7D3F;@94 +:A5 , = &FFABB090&FFACC7600>3EE0 BAA CDAA B0J0BCA0J0BA B0J0BFA0J0CEA D +/+AA9BAAA$0+7D; 7E 8


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PDF B7D3FGD70 35FAD0 ADD75F 35FADK0 AA/03 60BAAA/0 DA57EE0 73FGD7E03 73FGD7E E090
2011 - C973

Abstract: No abstract text available
Text: D R + F3 > ; 8 ; 76 3 55AC 6; @9 E A$ R( 5: 3 @@7> > A9; 5> 7G 7> R I57> > 7@E 93 E 7 5: 3 C 97 , A@E ; @FAFD 6C 3; @ 5FC C 7@E CaVKXU 4XWMR\RXW[ $9 ) =I 0 ( 8 U ) =I 0 ( 8 U ) =I 0 ( 8 U ) =I 0 ( 8 U *# * F> D 76 6C 3; @ 5FC C 7@E FJU]N +( *. +( *) *)( + , D ( X$[Oe U G 3> 3 @5: 7 5FC C 7@E D ; @9> 7 BF> D 7+# G 3> 3 @5: 7 7@7C 9J D ; @9> 7 BF> D , .> .0@ 2> 6 ?@ 6 0? C 3; @D AFC 57 4C 73 = 6AH@ G A> E 3 97 !3 E 7E :C 7D : A> 6G A> E 3 97 2 7C A 93 E


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