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3/LTC1159-5

Catalog Datasheet MFG & Type PDF Document Tags

SMP40P06

Abstract: lt1159 ) VOUT Regulated Output Voltage LTC1159-3.3 LTC1159-5 IIN VIN Pin Current (Note 3) Normal , Information. 3 LTC1159/LTC1159-3.3/LTC1159-5 U W TYPICAL PERFOR A CE CHARACTERISTICS Line , 5 10 15 SWITCH CURRENT (mA) 20 LTC1159 · TPC07 4 0 0 1 3 4 2 OUTPUT , 0 1 3 4 2 MAXIMUM OUTPUT CURRENT (A) 5 LTC1159 · F02 Figure 2. RSENSE vs Maximum , 1 3 4 2 (VIN ­ VOUT) VOLTAGE (V) 5 LTC1159 · TPC04 Figure 4. Minimum Suggested COUT
Linear Technology
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LTC1267 SMP40P06 lt1159 77120-A7 MBRS330 HL-8700 77120 3/LTC1159-5 LTC1142 LTC1148 LTC1143 LTC1147 LTC1149

1153-B

Abstract: 9435DY LTC1159CS-3.3 LTC1159CS-5 e x t v cc ¡3] N-GATE P-GND Vcc Å' 15] P-GND Vcc ORDER PART , SSlflMtfl ODllflMO MO b 5 LT C 115 9 /LTC 115 9 -3 .3 /LT C 1159-5 O P C R A T IO n (Refer to , 5 5 1 f l4 b f i 0011645 T4E â  LTC 115 9 /LTC 115 9 -3 .3 /LT C 1159-5 np p ucnno n s , regulated voltage is determined by: V out = I1 + j ^ ) 1 2 5 V 1 5 9 -3 .3 ♦GATE â'" la â' " , x 3 0S-C0N Z S-GND im ; 750pF . V 0UT EXTVcc 1N4148 P-DRIVE N-GATE LTC1159-5
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OCR Scan
1153-B 9435DY DD116SS 5C179

HL-8700

Abstract: SMP40P06 VCC EXTVCC LTC1159-5 90 D1 MBRS140T3 L* 33µH RSENSE 1 0.05 2 3 SHDN1 0V = , VIN 2 15 SHDN2 VCC 3 14 EXTVCC P-DRIVE 4 13 N-GATE VCC 5 12 PGND , SWITCH CURRENT (mA) 20 0 0 1 3 4 2 OUTPUT VOLTAGE (V) LTC1159 · TPC07 5 , 0 1 3 4 2 (VIN ­ VOUT) VOLTAGE (V) 5 LTC1159 · TPC04 Figure 4. Minimum Suggested , ­ + 2 0.1 µF 3 4 5 6 7 CT 3300pF 8 P-GATE CAP VIN SHDN2 VCC
Linear Technology
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1159F LTC1159-5 Si9410DY Si9435DY MBRS140 2N7002 1N5993 TJ4-100-1 LR2512-01-R050-J LTC1628

SMP40P06

Abstract: VCC EXTVCC LTC1159-5 D1 MBRS140T3 90 L* 33µH RSENSE 1 0.05â"¦ 2 3 SHDN1 0V , CAP VIN 2 15 SHDN2 VCC 3 14 EXTVCC P-DRIVE 4 13 N-GATE VCC 5 12 , 2 V 3.5 5 6.5 µs Note 3: On LTC1159 versions which have a SHDN1 pin, it must be , increases approximately 40%. 3 LTC1159 LTC1159-3.3/LTC1159-5 ELECTRICAL CHARACTERISTICS Note 6 , 20 LTC1159-3.3 0 5 10 15 SWITCH CURRENT (mA) 20 0 0 1 3 4 2 OUTPUT
Linear Technology
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LTC1702 LTC1735 LTC1773 LTC1778 LTC1876

1W4148

Abstract: SMP40P06 Feedback Voltage (LTC1159 Only) Regulated Output Voltage LTC1159-3.3 LTC1159-5 V|n Pin Current (Note 3 , 20 1 VllNIMUIV1 TlHRESHOL D 1 SWITCH CURRENT (mA) LTC1159*TPC07 2 3 4 5 0 0 , . rruneAB TECHNOLOGY 5 LTC1159/LTC1159-3,3/LTCl 159-5 OPCRRTIOfl (Refer to Functional Diagram , positive transition of greater than 0.5V/(js slew rate. 0 1 2 3 4 5 (V i n - V out ) VOLTAGE (V , nnnnnnnnnn 0.301 -0.311 (7.65 - 7.90) yyyyyyyyyy 1 2 3 4 5 6 7 8 9 10 0.068 -0.078 (1.73 -1.99) 1
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OCR Scan
1W4148 LTC1174 LTC1265

BATB5

Abstract: 20 0 1 SW ITCH C U RR EN T (m A) LTC 115 B * TP C 07 2 3 4 5 20 40 60 80 , -1 /2-R 0 40 J Fig u re 1 1 . 5 :1 In p u t R a n g e (4 V to 2 0 V ) H ig h E ffic ie n c y 3 .3 V , p ic a l f ip p u c n n o n s V|N 15V TO 40V Fig u re 1 3 . H ig h E ffic ie n c y 1 5 V to 4 , a l O u tp u t H ig h E ffic ie n c y 5 V an d 3 .3 V R e g u la to r LT /G P 0494 6K · PR IN T ED , LTC1159-3.3 JLTC1159-5 p e c if ic a t io n s i m FflTURS Operation from 4V to 40V Input
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OCR Scan
BATB5 JLTC1159-5 CTX20-4 PSA56 I350V BR350 HL-KK122T/BB
Abstract: H Ct E LTC1159CN LTC1159CN-3.3 LTC1159CN-5 LTC1159CS LTC1159CS-3.3 LTC1159CS-5 ¡ 3 , DD1E7S3 3^fl 4-161 LTC1159/LTC1159-3.3/LTC1159-5 flp p u c O T io n s m F o n m n T io n p - C h p , WfflL LTC1159/LTC1159-3.3/LTC1159-5 TECHNOLOGY High Efficiency Synchronous Step-Down , ltra-H igh E fficie n cy : Up to 9 5 % â  20juA S u p p ly Current in Shutdow n The LTC®1159 series , LTC1159-5 Efficiency LOAD CURRENT (A) LTC 11S9-TAD 1 Figure 1. High Efficiency Step-Down -
OCR Scan
CTX50-5-KM EH00Y GD12733
Abstract: ~ 1 I00(jf V in CAP I P-GATE 100V SI9435DV 0.1 5|iF ff V cc I 3 .3 jiF P-DRIVE V cc EXTVcc LTC1159-5 SHDN1 0V= NORMAL >2V= SHUTDOWN SEN SE * SH0N2 S EN SE " , i9 4 3 5 D Y jj ¡à + \ SÃ9435DY 47pF â' ^25Vx2 5V " OUTPUT CAP P-GATE , SDecifications â¡ I I F T\J LTC1159/LTC1159-3.3/LTC1159-5 TECHNOLOGY High Efficiency Synchronous , \ â  SSIÃ"Mbfi 13-11 0D11115 ^3^ LTC1159/LTC1159-3.3/LTCl 159-5 nÃsoiuTâ'¬ mnximum r a t -
OCR Scan
IRFZ44 SL-1-R020J 94100Y BRS140T3 BAS16 DD1113D

diode sg 5 ts

Abstract: lt1105 8 1 8 ' out (mA) 40 40 15 15 DEVICE L T 1 0 7 3 -5 L T 1 1 1 0 -5 L T 1 0 7 3 -1 2 L T 1 1 1 , (mA) DEVICE 4 00 90 150 2 20 6 00 L T 1 3 0 0 * L T 1 1 7 3 -5 L T 1 1 1 1 -5 L T 1 1 0 7 -5 L T 1 1 08 -5 LT1 3 0 0 * ' L T 1301 * * L T 1302 LT 1 1 7 3 -1 2 LT 1 1 1 1 -1 2 L T 1 1 0 7 -1 2 LT 1 1 0 8 , S electable 3 .3 V /5 V Out L o w e st I q S u rfa ce M o u n t S u rfa ce M o u n t L o w e s t Iq S electable 3 .3 V /5 V O ut S e lectable 5 V /1 2 V O ut H ig h e st P o w e r O u tp u t L o w e
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OCR Scan
diode sg 5 ts lt1105 1147a Diode LT 450 T3316-6 LT1270A LT1270 LT1268 LT1070 LT1271 LT1071

NS 4250

Abstract: LTC1267 top view VccÅ' 28] ext vqc Vin [I 27] mshdn cap3|t 26] cap5 pgate 3 [T 25] pgate 5 pdrive 3 [t ig pdrive 5 ngate 3 Q[ 23] ngate 5 pgnd3[T 22] pgnd5 VCC3E 1]vcc5 OnÅ' 20] sgnd5 IimÅ' t9] shdn5 , 12V, VMShdn, Vshdni,3,5 = OV (Note 2), unless otherwise noted. symbol parameter conditions min typ , Vout/4 - 25mV (Forced) â'¢ 135 25 160 180 mV mV vsense+3,5-vsense 3, 5 Current Sense Threshold Voltage LTC1267 Vsense_3, 5 = Vout + 100mv (Forced) Vsense 3,5 = VOur-100mV(Forced) â'¢ 135 25 160 180 mV mV vshdn
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OCR Scan
267-ADJ5 LTC1267-ADJ LTC1267-ADJ5 NS 4250 LTC1267CG LTC1267CG-ADJ LTC1267-ADJ/LTC KRLSL-1R040J CTK20-4 KRLSL-1R050J

LT1257

Abstract: LT485 LT1010 AN9 9 14 LT1010, LTC1052 LTM III:3 19 5 LT1300, LT1097 AN22 12 23 , AN67 77 125 LT1192 LTM II:3 5 10 LT1192 5V Powered Precision Instrumentation , LTC1100/LT1101/LT1102 LTM I:2 5 1b NA AN3 3 3 LTC1043, LT1056 LTC1043 DS 10 , AN4 3 6 LT1010 LTM I:2 12 5 LT1193 Video MUX Cable Driver (LT1227) DN57 , , LT1006 AN37 3 5 LT1006 LT1001 DS 9 NA LT1001 AN6 4 3 LT1001 AN37
Linear Technology
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LT1088 LT1257 LT485 AN6752 OP227 "direct replacement" an6266 ltc1097 DN134 LT1078 LT1004 LT1016 LT1222 LT1166
Abstract: has focused on improving the MnO2 conductivity by optimising pyrolysis conditions [3, 4]. This has , 2 (see also Figure 5). In this model, MnO2:β phase has a band gap of 0.26 eV and MnO2:γ phase , inversion. These parameters are also dependent on bulk 19 -3 conductivity, carrier concentration , characteristics. Figure 3 is a comparison of typical ESR values at 100kHz for conventional TPS and Series III , same group of parts as above is shown in Figure 5, and a ripple current comparison is shown in Fig AVX
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Ta2O5 phase diagram

Abstract: graphite 7650 improving the MnO2 conductivity by optimising pyrolysis conditions [3, 4]. This has resulted in , TPS TI ER I I I Figure 3. Conventional TPS vs Tier III typical ESR value ESR, Capacitance , Figure 5). In this model, MnO2: phase has a band gap of 0.26 eV and MnO2: phase 0.58-0.7 eV. When an , are also dependent on bulk conductivity, carrier concentration (typically 1019 cm-3 with mobility , are also important to consider for ESR versus frequency characteristics. Figure 3 is a comparison of
AVX
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Ta2O5 phase diagram graphite 7650 220K10 Tantalum phase diagram band gap silver phase diagram band gap kemet TPS Series IMPESR00M-R

LTC1159

Abstract: lanskroun load and reduced voltage derating requirements in low impedance circuits ­ see Figures 3 and 4 , ] Specific Heat [J/mol/K] Dielectric Thickness [10-9m/V] Dielectric Constant (-) Figure 3, 4 , medium medium high ore/power cost 300ppm 3% 3% availability 40% 90%* 90%* weight, drop test, CV , Oxide powder parameters overview table. 5 0 Ta Availability ­ Supply Chain Nb NbO Note , base and higher volume availability. 3 Capacitance Change @ 120Hz Basic Features of Tantalum
AVX
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lanskroun 5M1002-N

LTC1267

Abstract: LTC1159 VIN 2 27 MSHDN CAP3 3 26 CAP5 PGATE 3 4 24 PDRIVE 5 NGATE 3 6 26 CAP2 23 NGATE , 11 18 SENSE + 5 SHDN3 12 17 SENSE ­ 5 SENSE ­ 3 13 SENSE + 3 14 16 CT5 15 ITH5 G , NUMBER 27 MSHDN CAP1 3 PGATE 1 4 PGATE 1 4 LTC1267CG 25 PGATE 5 PDRIVE 3 5 VIN 2 , , VSHDN1,3,5 = 0V (Note 2), unless otherwise noted. SYMBOL PARAMETER VFB1, 2 Feedback Voltage , Threshold Voltage VSENSE ­1, 2 VSENSE + 3, 5 ­ Current Sense Threshold Voltage VSENSE ­3, 5 VSHDN
Linear Technology
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CTX33-4 Si941 LTC1267-ADJ/LTC1267-ADJ5 28SSOP LTC1266 LTC1574

step down transformer

Abstract: SMD transformer Regulator IHSM-5832 High Current, Molded, Inductor LT1507 Auxiliary 5 V/3 A, 3.3 V/3.5 A, 12 V , 5 V Auxiliary Output LPE-6562-A092 SMD Transformer LTC1436 5 V/3 A Fixed Output with 12 V Auxiliary Output LPE-6562-A092 SMD Transformer LTC1436A-PLL 5 V/3 A Fixed Output with , Auxiliary Output and LPE-6562-A092 SMD Transformer LTC1437A 5 V/3 A Fixed Output with 12 V , Switching LPE-6562-A214 SMD Transformer LTC1439 4-Output High Efficiency Low Noise 5 V/3 A
Vishay Dale
Original
step down transformer SMD transformer EL 33 transformer switching transformer winding pulse transformer driver ic REGULATOR IC 7832 IHSM-4825 LT1375/LT1376 LT1374 LT1506 LPT-4545-200LA LTC1433

LTC1267

Abstract: 1267f TOP VIEW VCC 1 28 EXT VCC VIN 2 27 MSHDN CAP3 3 26 CAP5 PGATE 3 4 24 PDRIVE 5 NGATE 3 6 23 NGATE 5 PGND3 7 22 PGND5 VCC3 8 21 VCC5 CT3 9 20 SGND5 ITH3 10 19 SHDN5 SGND3 11 18 SENSE + 5 SHDN3 12 17 SENSE ­ 5 SENSE ­3 13 16 CT5 , 5 PDRIVE 3 5 VIN 2 27 MSHDN CAP1 3 U RATI GS W AXI U U ABSOLUTE , , VSHDN1,3,5 = 0V (Note 2), unless otherwise noted. SYMBOL PARAMETER VFB1, 2 Feedback Voltage
Linear Technology
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1267f LT1267

Tantalum and Niobium Technology Roadmap

Abstract: metal Nb0 ceramic medium medium high 300ppm 3% 3% 40% 90%* 90%* 16.4 8.6 7.3 2 2 600 11.5 , 10 5 0 Niobium and niobium oxide are more abundant in nature than tantalum. These materials are , oxide capacitors is given in Figure 5 below. Niobium Oxide has two orders higher ignition energy , â'" see Figures 3 and 4. Parameter Tantalum Niobium Ta2O5 Nb2O5 Dielectric CV , %/1000 hrs same Figure 3, 4. Comparison of Ignition Rate, Ignition Energy and Specific Heat for NbO
AVX
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Tantalum and Niobium Technology Roadmap 293DN

Ta2O5 phase diagram

Abstract: 470uf 10v ELECTROLYTE capacitor . 5 6 50 1732 1559 693 87 78 35 TPSD 227* 006#0050 D 220 6. 3 13. 9 8 50 1732 1559 693 87 78 35 TPSD , * 010#0045 E 470 10 47. 0 10 45 1915 1723 766 86 78 34 TPSW 336* 016#0150 W 33 16 5. 3 6 150 775 697 310 116 105 46 TPSW 336* 016#0250 W 33 16 5. 3 6 250 600 540 240 150 135 60 TPSD 476* 016#0080 D 47 16 7. 5 6 , 15 25 3. 8 6 125 1095 986 438 137 123 55 TPSD 226* 025#0125 D 22 25 5. 5 6 125 1095 986 438 137 123 , 129 57 TPSE686* 025#0125 E 68 25 17. 0 6 125 1149 1034 460 144 129 57 TPSD 106* 035#0125 D 10 35 3. 5
AVX
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470uf 10v ELECTROLYTE capacitor ep 1387 TPSE226 TPSE336 TPSV476

24v 12v 10A regulator

Abstract: 24v 12v 20A regulator Low Ripple/Noise and Improved Transient Response C1 0.1µF R2 16.5k 5 4 6 8 12 3 14 , 0.1µF 50V D3 BAT54 20 19 2 5VREF 4 SL/SDJ R5 191k 1% 3 5 6 7 10 SS VC , R16 191k 1% C29 0.1µF C28 1000pF C30 1000pF 3 5 6 7 10 SS VC U4 LT1339 , Wide SSOP (0.300"), M = 3-Lead DD, MS8 = 8-Lead MSOP, N = Plastic DIP, Q = 5-Lead DD, R = 7-Lead DD, S , LTC1153/4/5 s GPS/GSM s Radio/Entertainment s Collision Avoidance Computer s Driveline Controls
Linear Technology
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24v 12v 10A regulator 24v 12v 20A regulator CD4047 100KHZ CIRCUITS Step-up 12V to 36V 300mA cd4047 ic IC CD4047 LT1074HV/LT1076HV LT1676/LT1776 LT1680 LT1070/71/72 LT1170/71/72 LT1080
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