OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.50.40 SF-TIB(c) Copyright 1993,94,95,96 DesignSoft Inc. All rights reserved.; $Circuit$?Dql?0.,?ƚZ0=l ~Z0 EMF`D @RpArialtuK<& 85z8vbW55"vvx 5!>!6D&D&6J,J,6Q3Q36W;W;6^E^E6dOdO6jZjZ6qfqf6wrwr6}~}~66666666666  66RpMS Sans SerifvbW    MS Sans Serif     ={7$\H\4Lv(tLv4tDFu =dv%  % % % 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,77,18,3F0=Texas InstrumentsF5=01/25/2013 F1=LMH6629rQ@rQ Arial8Please see inside for the things that are being modeledSymbol????333333??? pX` p `X`T_0B9C035020130125114105?``T_0B9C071020130125114105;````T_0B9C0AD020130125114105;ppT_0B9C0E9020130125114105?p`pp`pT_0B9C125020130125114105Vout? `` ``T_0B9C1D9020130125114105Vinm?  T_0B9C215020130125114105Vinp;````T_0B9C28D020130125114105;((T_0B9C2C9020130125114105?PpPpT_0B9C305020130125114105?T_0B9C341020130125114105;ppppT_0B9C37D020130125114105;88808880T_0B9C3B9020130125114105;8888T_0B9C3F5020130125114105;8888T_0B9C431020130125114105;T_0B9C4A9020130125114105;````T_0B9C521020130125114105?H8HH8T_0CFF2A6020130125114105;8888T_0CFF2E2020130125114105;888X888XT_0D0B1FA020130125114105;T_07B2730020130125114816DB80 V1T_07FF397020120218054548 JP100 (V)DB8 V2T_07FF4B1020120218054612 JP100 (V)@ B(R1T_07FF5CB020120218054710R_AX300_W100 (R)n@@?Y@ BR2T_07FF8BB020120218055814R_AX300_W100 (R)Y@@?Y@DB V4T_07FF9D5020120218055847 JP100 (V)BVG1T_07FFA33020120218055916 JP100 (VG)?.AVBrpVoutT_07FFA91020120218060040 NOPCB (VF) BX`R3T_0A0286D020120403213728R_AX300_W100 (R))\:@@?Y@:B/H(U1T_0AEA810020130125112949 LMH6629LMH6629TX:\ELAB_MODEL_DS\Part_Numbers\LMH6629\Active_Work\TINA\LMH6629_TINA_AIO\LMH6629.LIBSCK#LMH6629Label KCAAPP(d*4 8 @d*3t  @d*7 H( @d*8KK  @ @d*5   @d*6OnClickDi@0@ @h @@00g"- Courier New?g"+ Courier New1?g"+ Courier New+?Vo*@Vo*@ * LMH6629N*****************************************************************************J* (C) Copyright 2013 Texas Instruments Incorporated. All rights reserved.N*****************************************************************************H** This model is designed as an aid for customers of Texas Instruments.K** TI and its licensors and suppliers make no warranties, either expressedG** or implied, with respect to this model, including the warranties ofF** merchantability or fitness for a particular purpose. The model isK** provided solely on an "as is" basis. The entire risk as to its quality)** and performance is with the customer.N******************************************************************************A** Released by: WEBENCH(R) Design Center, Texas Instruments Inc.* Part: LMH6629* Date: 1/24/2013* Model Type: All In One* Simulator: TINA-TI%* Simulator Version: 9.1.30.94 SF-TI* EVM Order Number: N/A* EVM Users Guide: N/A4* Datasheet: SNOSB18E APRIL 2010REVISED JUNE 2011** Model Version: 1.0*N****************************************************************************** * Updates:** Version 1.0 : Release to Web*N***************************************************************************** * Notes:*#* LMH6629 SPICE MODEL PERFORMANCE*3* MODEL FEATURES INCLUDE OPEN LOOP GAIN AND PHASE,6* OUTPUT SWING, OUTPUT CURRENT THRU THE SUPPLY RAILS,3* OUTPUT CURRENT LIMIT, CLOAD EFFECTS, RF EFFECTS,6* SLEW RATE, COMMON MODE REJECTION WITH FREQ EFFECTS,2* POWER SUPPLY REJECTION WITH FREQ EFFECTS, INPUT3* VOLTAGE NOISE WITH 1/F, INPUT CURRENT NOISE WITH4* 1/F, INPUT BIAS CURRENT, INPUT COMMON MODE RANGE,1* INPUT OFFSET VOLTAGE WITH TEMPERATURE EFFECTS,1* INPUT CAPACITANCE, COMP PIN FUNCTION INCLUDING5* THRESHOLD AND INPUT CURRENT, AND QUIESCENT CURRENT+* VS VOLTAGE AND TEMPERATURE. SHUTDOWN PIN<* AND ITS FUNCTIONALITY IS NOT INCLUDED IN THE MODEL.*)* MODEL TEMP RANGE IS -40 TO +125 DEG C.*<* NOTE THAT MODEL IS FUNCTIONAL OVER THIS RANGE BUT NOT ALL+* PARAMETERS TRACK THOSE OF THE REAL PART.** SPEC MACRO DATA* MODEL SHEET UNITS*+* VOLTAGE NOISE 1 MHZ 0.69 0.69 NV/RTHZ*,* VOLTAGE NOISE 200 HZ 1.29 1.29 NV/RTHZ*+* CURRENT NOISE 1 MHZ 2.6 2.6 PA/RTHZ*,* CURRENT NOISE 200 HZ 11.8 11.8 PA/RTHZ** BANDWIDTH @ COMP=1#* VCC=5.0 AV=10 900 900 MHZ** SLEW @ COMP=1%* VCC=5.0 AV=10 1598 1600 V/US** BANDWIDTH @ COMP=0$* VCC=5.0 AV= 4 800 800 MHZ** SLEW @ COMP=0%* VCC=5.0 AV= 4 515 530 V/US** BANDWIDTH @ COMP=1#* VCC=3.3 AV=10 820 820 MHZ** SLEW @ COMP=1%* VCC=3.3 AV=10 1253 1100 V/US** BANDWIDTH @ COMP=0#* VCC=3.3 AV= 4 726 730 MHZ** SLEW @ COMP=0%* VCC=3.3 AV= 4 458 500 V/US** GAIN PEAKING* SMALL SIGNAL * @ COMP = 1 * @ 5.0 V* @ RF=1500 3.0 2.0 DB* @ RF=1000 1.7 1.6 DB* @ RF= 750 1.0 0.4 DB* @ RF= 240 NIL NIL DB** FREQUENCY FOR#* OPEN LOOP GAIN 470 400 MHZ * = 20 DB * @ COMP = 1** OPEN LOOP PHASE* @ 1 GHZ -140 -142 DEG * @ COMP = 1** FREQUENCY FOR#* OPEN LOOP GAIN 174 175 MHZ * = 20 DB * @ COMP = 0** OPEN LOOP PHASE* @ 1 GHZ -139 -136 DEG * @ COMP = 0** AVOL 78.5 78.5 DB*(* CMRR/FZERO -87/140 -87/300 DB/KHZ** PSRR+/FZERO,* USING TEST CKT -71/660 -69/660 DB/KHZ* AV=10 AND OUT* ATTN=6DB FOR* 14DB TOTAL CORR** PSRR-/FZERO,* USING TEST CKT -78/760 -76/??? DB/KHZ* AV=10 AND OUT* ATTN=6DB FOR* 14DB TOTAL CORR*)* COMMON MODE RANGE VCC-1.2 VCC-1.2 V* UPPER LIMIT*)* COMMON MODE RANGE VEE-0.3 VSS-0.3 V* LOWER LIMIT*"* INPUT BIAS CURRENT 10 7 UA * @ -40 C*"* INPUT BIAS CURRENT 15 15 UA * @ 27 C*"* INPUT BIAS CURRENT 23 22 UA * @ 125 C*"* INPUT CAPACITANCE 1.7 1.7 PF** VOS 150 150 UV** TCVOS 0.45 0.45 UV/C*(* +SWING @ RL= 100 VCC-0.81 VCC-0.81 V*(* -SWING @ RL= 100 VEE+0.82 VEE+0.82 V** ICC @ 2.7 V 14.3 14.3 MA** ICC @ 5.5 V 16.3 16.4 MA*#* ICC @ 4V @ -40 C 14.7 14.5 MA*#* ICC @ 4V @ 27 C 15.3 15.2 MA*#* ICC @ 4V @ 125 C 16.2 16.0 MA*+* CLOAD PERFORMANCE PER DATA SHEET GRAPHS*&* COMP PIN THRESHOLD 1.4 0.8-2.0 V*$* COMP PIN BIAS CURRENT 21 22 UA*(***************************************&* PINOUT ORDER +IN -IN +V -V OUT COMP%* PINOUT ORDER 4 3 8 5 7 6N*****************************************************************************.SUBCKT LMH6629 4 3 8 5 7 6*6* SEE BELOW FOR MODEL PROGRAMMING, NOTES AND FEATURES** BEGIN MODEL PROGRAMMING3* THE LINES BELOW ALLOW THE MODEL TO BE SET UP FOR* DIFFERENT SUPPLY VOLTAGES.*7* TO PROGRAM FOR SUPPLY VOLTAGE, COMMENT OUT THE GROUP4* OF STATEMENTS YOU DO NOT WANT TO USE. THE DEFAULT!* BELOW IS for 5 VOLT OPERATION.*** 5.0 VOLT GROUP * OFFSETV78 60 50 71E-6* SLEWR392 44 46 6E3R422 44 35 675 * BANDWIDTHC53 35 42 1.10E-12C61 35 20 0.60E-12* END 5.0 VOLT GROUP* 3.3 VOLT GROUP * OFFSET*V78 60 50 97E-6* SLEW*R392 44 46 12E3*R422 44 35 675 * BANDWIDTH*C53 35 42 1.20E-12*C61 35 20 0.63E-12* END 3.3 VOLT GROUP** END MODEL PROGRAMMING** BEGIN MODEL NOTES * COMP PIN:2* THE COMP MODE PIN HAS A THRESHOLD OF 1.4 VOLTS.:* FOR MODE ZERO (LO), PULL BELOW THRESHOLD OR LEAVE OPEN.** FOR MODE ONE (HI), PULL ABOVE THRESHOLD1* BUT DO NOT EXCEED VCC. NOTE THAT WHEN COMP PIN:* IS LEFT FLOATING, IT MAY READ A VOLTAGE HIGHER THAN V+,1* BUT THE MODEL BEHAVES ACCORDING TO THE DEFAULT-* STATE WHICH IS COMP LO WHEN LEFT FLOATING.* SOT23-5 EMULATION:4* SOT23-5 PACKAGE CAN BE EMULATED BY TYING THE COMP * PIN HIGH.* END MODEL NOTES*3* MODEL FEATURES INCLUDE OPEN LOOP GAIN AND PHASE,6* OUTPUT SWING, OUTPUT CURRENT THRU THE SUPPLY RAILS,3* OUTPUT CURRENT LIMIT, CLOAD EFFECTS, RF EFFECTS,6* SLEW RATE, COMMON MODE REJECTION WITH FREQ EFFECTS,2* POWER SUPPLY REJECTION WITH FREQ EFFECTS, INPUT3* VOLTAGE NOISE WITH 1/F, INPUT CURRENT NOISE WITH4* 1/F, INPUT BIAS CURRENT, INPUT COMMON MODE RANGE,1* INPUT OFFSET VOLTAGE WITH TEMPERATURE EFFECTS,1* INPUT CAPACITANCE, COMP PIN FUNCTION INCLUDING5* THRESHOLD AND INPUT CURRENT, AND QUIESCENT CURRENT+* VS VOLTAGE AND TEMPERATURE. SHUTDOWN PIN6* AND ITS FUNCTIONALITY IS NOT INCLUDED IN THE MODEL.*Q36 5 9 10 QOPQ37 8 11 10 QON D37 7 8 DD D38 5 7 DD D39 12 0 DIN D40 13 0 DINI24 0 12 0.1E-3I25 0 13 0.1E-3E99 14 0 5 0 1E100 15 0 8 0 1 D41 16 0 DVN D42 17 0 DVNI26 0 16 3E-3I27 0 17 3E-3E101 18 3 16 17 3.65E-2G23 4 18 12 13 8.73E-5R381 5 8 1400E102 19 0 15 20 1E103 21 0 14 20 1E104 22 0 23 0 1R382 19 24 1E4R383 21 25 1E4R384 22 26 1E4R385 0 24 0.1R386 0 25 0.1R387 0 26 0.1E105 27 4 26 0 1.8R388 28 23 10R389 23 29 10C48 19 24 3E-12C49 21 25 3E-12C50 22 26 115E-12E106 30 27 25 0 0.05E107 31 30 24 0 -0.1Q38 14 32 11 QDPQ39 15 32 9 QDNI28 8 5 11.7E-3I29 15 11 7.7E-4I30 9 14 7.7E-4R390 20 33 10R391 20 32 10C51 33 20 8E-12C52 32 20 2.5E-12E108 34 35 36 0 1E109 35 37 36 0 1E110 38 20 35 20 1 D43 39 15 DD D44 14 40 DDV73 37 40 1.35V74 39 34 1.34I31 0 41 1E-3 D45 41 0 DDV75 36 41 -0.6551 D46 43 44 DD D47 44 45 DDR393 0 44 4.5E5C54 18 0 0.85E-12C55 31 0 0.85E-12R394 10 47 0.25G24 33 20 35 20 0.1G25 32 20 33 20 0.1L3 47 7 0.25E-9R395 47 7 100E111 43 38 36 0 2E112 45 38 36 0 -2C56 18 31 0.45E-12G26 44 0 48 49 -6E-3Q40 48 50 51 QIPQ41 49 31 52 QIPR397 51 53 0.1R398 52 53 0.1Q42 54 55 56 QIPQ43 55 55 56 QIPR399 57 48 50R400 57 49 50 V76 54 53 0V77 57 14 -0.3C58 48 49 1E-13D48 50 58 DICD49 31 58 DICE113 29 0 4 59 1E114 28 0 18 59 1 C59 7 0 0.1PR401 35 34 1E9R402 37 35 1E9R403 3 18 1E9R404 4 27 1E9R405 27 30 1E9R406 30 31 1E9R407 38 45 1E9R408 38 43 1E9G27 4 18 61 62 3.3E-4R410 0 62 1E3R411 0 62 1E3R412 0 61 1E3R413 0 61 1E3E116 63 42 64 0 30E117 65 0 64 0 -30 V79 66 65 15V80 67 63 -15R414 63 42 1E18R415 65 0 1E18!M61 0 67 42 68 PSW L=1.5U W=150U!M62 42 66 0 69 NSW L=1.5U W=150UR416 68 0 1E12R417 69 0 1E12E118 70 46 71 0 30E119 72 35 71 0 -30 V81 73 72 15V82 74 70 -15R418 70 46 1E18R419 72 35 1E18"M63 35 74 46 75 PSW L=1.5U W=150U"M64 46 73 35 76 NSW L=1.5U W=150UR420 75 0 1E12R421 76 0 1E12E120 77 0 64 0 -1 V84 71 77 1R423 0 77 1E12R424 0 77 1E12R425 0 71 1E12E121 18 60 36 0 276E-6V85 15 78 1.65 V86 15 56 -1D50 79 31 DICD51 79 50 DICV87 80 14 0.275E122 78 58 36 0 1.1E123 79 80 36 0 1.1E124 20 14 15 14 0.7R427 0 20 1E12 V88 81 0 1E125 82 81 36 0 -2G28 55 14 82 0 5.25E-3G29 8 5 36 0 -5E-3Q44 83 84 85 QSWR430 83 15 100E3I32 15 86 10E-6Q45 87 88 85 QSWQ46 85 86 14 QSWQ47 86 86 14 QSWR431 87 15 100E3E126 89 0 83 87 1R432 0 89 200E3R433 14 84 1E6!M65 64 89 0 0 NEN L=1.5U W=1500UR434 64 90 50E3 V91 90 0 1C63 83 87 35E-15 R435 6 84 1C64 84 14 2E-12C65 6 14 1E-12C66 64 0 65E-15I33 15 84 22E-6V93 88 14 1.4R436 0 81 1E9R437 0 78 1E9R438 0 36 1E9R439 80 79 1E9R440 0 82 1E9R441 60 18 1E9E127 59 14 15 14 0.7R442 0 59 1E12R443 0 59 1E12.MODEL QDP PNP.MODEL QDN NPN2.MODEL QON NPN VAF=150 BF=420 IKF=1.5 RE=0.5 RC=12.MODEL QOP PNP VAF=150 BF=420 IKF=1.5 RE=0.5 RC=1;.MODEL QIP PNP VAF=150 BF=260 IKF=0.005 RB=1.4 RE=0.1 RC=1.MODEL DVN D KF=4E-13.MODEL DIN D KF=26E-14.MODEL DIC D RS=0.1 .MODEL DD D*.MODEL PSW PMOS KP=200U VTO=-7.5 IS=1E-18).MODEL NSW NMOS KP=200U VTO=7.5 IS=1E-18.MODEL QSW NPN).MODEL NEN NMOS KP=200U VTO=0.5 IS=1E-18.ENDS* END MODEL LMH6629437856Bf8T_07FF3F5020120218054558 NOPCB (GND)Bf8T_07FF453020120218054612 NOPCB (GND)BfT_07FF629020120218054836 NOPCB (GND)BfT_07FF977020120218055847 NOPCB (GND)Bf pT_0A028CB020120403213736 NOPCB (GND)8? ]@ư>?ư>'dd?Y@[ddddj@?.A _B.AeAMbP?@@?h㈵>ư> $ 4@D@ =B?& .>??ư>ư>ư>ư>ư>ư>?I@?I@?I@& .>#;@& .>-q=ư>MbP?-q=MbP?vIh%<=@@D@& .>?MbP?4@?{Gz?ꌠ9Y>)F,@?+= _BKH9$@Y@#B ;ư>?.AMbP??????I@?Xd I@nMbP?{Gz?{Gz?MbP????|=Hz>}Ô%ITNoname