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LRC-LRF2512-01-R004-J
LRC-LRF2512-01-R004-J ECAD Model
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LRF2512-01-R004J Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1999 - 24v input 5v output regulator

Abstract: 24v to 5v switching regulator 24V Switching Voltage Regulator FDS6680A 24v input 8v output regulator THCR70E1H226ZT 1736a DO5022P-781HC EEFUE0J151R LRF2512-01-R004-F
Text: 1SMB24AT3 L1: PANASONIC ETQP6F1R3L Q1 TO Q3: FAIRCHILD FDS6680A R5: IRC LRF2512-01-R004J U1: LINEAR , C13 TO C15 180µF 4V ×3 GND 15 14 10 1 0.1 0.01 DN209 F01 VID4 C11, C12 , R5: IRC LRF2512- 01 -R004-F U1: LINEAR TECHNOLOGY LTC1736CG Figure 1. CPU Core Voltage Regulator , trademarks of Linear Technology Corporation. Circle No. 220 0.1 1 10 LOAD CURRENT (A) 100 , circuit power loss curve is shown in Figure 2. VIN = 20V 1 VIN = 24V VIN = 16V 0.1 VIN = 8V


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PDF 176MM-B 1SMB24AT3 FDS6680A LRF2512-01-R004J LTC1736CG DN209 com/go/dnLTC1736 1-800-4-LINEAR. dn209f 24v input 5v output regulator 24v to 5v switching regulator 24V Switching Voltage Regulator FDS6680A 24v input 8v output regulator THCR70E1H226ZT 1736a DO5022P-781HC EEFUE0J151R LRF2512-01-R004-F
1998 - LRF1206

Abstract: 106E LRF2512 LRF2010
Text: LRC - LRF2512 - 01 - R040 - F Tolerance F= ±1%, G=±2%, J=±5%, K=±10% TCR Characteristic 01 = ±100


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PDF ISO-9001 LRF1206 150oC LRF2010 LRF2512 MIL-STD-202 MIL-PRF-55342 LRF1206 106E
2010 - Not Available

Abstract: No abstract text available
Text: . (add R05) R% 0.5 Typ. (%) 100 0.2 80 (@1R0) R% 0.25 0.1 4 Temperature , Table 7 Method Test High Temp. Exposure MIL-STD-202 Method 108 60 40 20 0 25 R% 0.25 0.1 , -002 R% 0.5 22 Terminal Strength AEC-Q200-006 R% 0.25 0.1 70 150 (°C) Ambient


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PDF AEC-Q200 LR1206 LR2010 LR2512 0R010 0R003 LRF2512 LRF2512â
1999 - an7614

Abstract: AN76 LTC1628 LTC1735 AN76-1 AN-76 LRF2512-01-R004J
Text: -781HC R4 = IRC LRF2512- 01-R004-J U1 = LINEAR TECHNOLOGY LTC1736CG VID3 VID2 INPUT 5V OUTPUT


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PDF AN76-16 an7614 AN76 LTC1628 LTC1735 AN76-1 AN-76 LRF2512-01-R004J
dale resistor code

Abstract: resistor cross reference dale R005 panasonic date code Panasonic marking code metal plate resistor R005 SR732A RESISTOR ROHM R20 SR731J
Text: No file text available


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PDF MCR10 MCR18 CRCW0402 CRCW0603 CRCW0805 CRCW1206 CRCW1210 CRCW2010 CRCW2512 SR731E dale resistor code resistor cross reference dale R005 panasonic date code Panasonic marking code metal plate resistor R005 SR732A RESISTOR ROHM R20 SR731J
JESD22 Method JA-104

Abstract: AEC-Q200-005 AEC-Q200-006 LR2512 LR2010 LR1206 LRC1206 AEC-Q200 r025 mil-std-202 method 108
Text: 0.2 80 (@1R0) R% 0.25 0.1 4 Temperature Cycling 6 Moisture Resistance MIL-STD , -202 Method 108 60 40 20 0 25 R% 0.25 0.1 Thermal Shock MIL-STD-202 Method 107 18 , -006 R% 0.25 0.1 70 150 (°C) Ambient temperature >95% coverage 0.2 6.25 x Pr for 2s R


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PDF AEC-Q200 LR1206 LR2010 LR2512 0R010 0R003 LRF2512 JESD22 Method JA-104 AEC-Q200-005 AEC-Q200-006 LR2512 LR2010 LR1206 LRC1206 r025 mil-std-202 method 108
1998 - T2D DIODE

Abstract: EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1435 LTC1735 LTC1735CGN MBRS340T3 THCR70E1H226ZT 200A battery charger
Text: : PANASONIC EEFUEOG181R CIN: MARCON THCR70E1H226ZT L1: PANASONIC ETQP6F2R0HFA RSENSE: IRC LRF2010- 01 , MAX UNITS ­4 ­ 25 nA 0.8 0.808 V 0.001 0.02 %/V 0.1 ­ 0.1 0.3 ­ , 30 20 0.001 EXTVCC = 5V FIGURE 1 0.1 0.01 1 LOAD CURRENT (A) Efficiency vs Input Voltage 100 95 VIN = 5V 80 VIN = 24V 70 60 50 0.1 1 LOAD CURRENT (A) IOUT = 5A 85 , 400 ­ 0.1 ­0.2 ­0.3 ­0.4 30 30 VIN ­ VOUT Dropout Voltage vs Load Current 300


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PDF LTC1735 12-Phase, SSOP-36 TSSOP-20 LTC3832 LTC4008 1735fc T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1435 LTC1735 LTC1735CGN MBRS340T3 THCR70E1H226ZT 200A battery charger
1998 - ir2910

Abstract: Marcon capacitor Co T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1435 LTC1735 LTC1735C LTC1735I
Text: CIN: MARCON THCR70E1H226ZT L1: PANASONIC ETQP6FZR0HFA RSENSE: IRC LRF2010- 01 -R005J BOOST ITH , Dropout 0.808 0.1 ­ 0.1 q q 0.8 0.001 q 99.4 % 1.3 0.76 mmho 0.84 , 30 20 0.001 EXTVCC = 5V FIGURE 1 0.1 0.01 1 LOAD CURRENT (A) Efficiency vs Input Voltage 100 95 VIN = 5V 80 VIN = 24V 70 60 50 0.1 1 LOAD CURRENT (A) FCB = 0V VIN = , 500 30 ­ 0.1 VIN ­ VOUT (mV) NORMALIZED VOUT (%) EFFICIENCY (%) 90 25 25 10


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PDF LTC1735 LTC1435 LTC1702 550kHz 24-Pin LTC1735-1 16-Pin LTC1736 LTC1772 ir2910 Marcon capacitor Co T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1735 LTC1735C LTC1735I
1998 - marcon 10v 47uf

Abstract: T2D 65 DIODE panasonic T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1435 LTC1735 LTC1735CGN MBRS340T3
Text: L1: PANASONIC ETQP6FZR0HFA RSENSE: IRC LRF2010- 01 -R005J BOOST ITH CC 330pF RC 33k CB , 0.1 ­ 0.1 0.3 ­ 0.3 % % Main Control Loop IVOSENSE Feedback Current (Note 3 , 0.01 fO = 300kHz 30 20 0.001 EXTVCC = 5V FIGURE 1 0.1 0.01 1 LOAD CURRENT (A) Efficiency vs Input Voltage 100 95 VIN = 5V 80 VIN = 24V 70 60 50 0.1 1 LOAD CURRENT (A , VOUT = 5V ­ 5% DROP 400 ­ 0.1 ­0.2 ­0.3 ­0.4 30 30 VIN ­ VOUT Dropout Voltage


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PDF LTC1735 LTC1735F LTC1435 LTC1773 550kHz LTC1778 LTC1876 LTC1878 1735fa marcon 10v 47uf T2D 65 DIODE panasonic T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1735 LTC1735CGN MBRS340T3
2006 - LTC4256-3

Abstract: LTC4256 TP7-TP13 RES 22 OHM 2512 2W 1N4148W SOD123 CR16-10R0FM Zener Diodes 24v 10w 48V 2w zener diode 100CV10FS LT4256-3
Text: -138G KEYSTONE 575-4 INT. RECT. IRF540NS AAC CRL18-6492FM AAC CR16-4021FM AAC CR12-103JM IRC LRF2512- 01


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PDF LT4256-3GN LT4256-3GN LTC4256-3 1/10W LT4254GN DC684A LTC4256 TP7-TP13 RES 22 OHM 2512 2W 1N4148W SOD123 CR16-10R0FM Zener Diodes 24v 10w 48V 2w zener diode 100CV10FS LT4256-3
1998 - LTC1435

Abstract: T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1735 LTC1735CGN MBRS340T3 THCR70E1H226ZT VN2222L
Text: LRF2010- 01 -R005J SW CC2 100pF LTC1735 100pF INTVCC RSENSE 0.005 SENSE ­ VOUT 1.6V , MAX UNITS ­4 ­ 25 nA 0.8 0.808 V 0.001 0.02 %/V 0.1 ­ 0.1 0.3 ­ , 30 20 0.001 EXTVCC = 5V FIGURE 1 0.1 0.01 1 LOAD CURRENT (A) Efficiency vs Input Voltage 100 95 VIN = 5V 80 VIN = 24V 70 60 50 0.1 1 LOAD CURRENT (A) IOUT = 5A 85 , 400 ­ 0.1 ­0.2 ­0.3 ­0.4 30 30 VIN ­ VOUT Dropout Voltage vs Load Current 300


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PDF LTC1735 12-Phase, SSOP-36 TSSOP-20 LTC3832 LTC4008 1735fb LTC1435 T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1735 LTC1735CGN MBRS340T3 THCR70E1H226ZT VN2222L
1998 - ir2910

Abstract: NPN RF Amplifier Marcon electrolytic T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1435 LTC1735 LTC1735CGN
Text: L1: PANASONIC ETQP6FZR0HFA RSENSE: IRC LRF2010- 01 -R005J BOOST ITH CC 330pF RC 33k CB , 0.1 ­ 0.1 0.3 ­ 0.3 % % Main Control Loop IVOSENSE Feedback Current (Note 3 , 40 VIN = 10V VOUT = 3.3V RS = 0.01 fO = 300kHz 30 20 0.001 EXTVCC = 5V FIGURE 1 0.1 , 50 0.1 1 LOAD CURRENT (A) IOUT = 5A 85 IOUT = 0.5A 80 FCB = 0V VIN = 15V FIGURE 1 1735 G04 RSENSE = 0.005 VOUT = 5V ­ 5% DROP 400 ­ 0.1 ­0.2 ­0.3 ­0.4 30 30


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PDF LTC1735 LTC1735F LTC1435 LTC1773 550kHz LTC1778 LTC1876 LTC1878 1735fas ir2910 NPN RF Amplifier Marcon electrolytic T2D DIODE EEFUEOG181R FDS6680A LRF2010-01-R005J LTC1735 LTC1735CGN
1998 - Not Available

Abstract: No abstract text available
Text: : PANASONIC EEFUEOG181R CIN: MARCON THCR70E1H226ZT L1: PANASONIC ETQP6F2R0HFA RSENSE: IRC LRF2010- 01 , V 0.001 0.02 %/V 0.1 – 0.1 0.3 – 0.3 % % Main Control Loop IVOSENSE , RS = 0.01Ω fO = 300kHz 30 20 0.001 EXTVCC = 5V FIGURE 1 0.1 0.01 1 LOAD CURRENT (A) Efficiency vs Input Voltage 100 95 VIN = 5V 80 VIN = 24V 70 60 50 0.1 1 LOAD CURRENT (A , FCB = 0V VIN = 15V FIGURE 1 RSENSE = 0.005Ω VOUT = 5V – 5% DROP 400 – 0.1 â


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PDF LTC1735 SSOP-36 TSSOP-20 LTC3832 LTC4008 1735fc
1998 - Marcon DF

Abstract: 1735E
Text: RSENSE: IRC LRF2010- 01 -R005J + 4.7µF M2 FDS6680A D1 MBRS340T3 Figure 1. High Efficiency , TYP ­4 MAX ­ 25 0.808 0.02 0.3 ­ 0.3 UNITS nA V %/V % % % mmho 0.792 0.8 0.001 0.1 ­ 0.1 , 3.3V RS = 0.01 fO = 300kHz 0.1 0.01 1 LOAD CURRENT (A) 10 1735 G01 EFFICIENCY (%) SYNC , NORMALIZED VOUT (%) ­ 0.1 EFFICIENCY (%) VIN ­ VOUT (mV) 70 0 5 10 15 20 INPUT VOLTAGE (V , FIGURE 1 IOUT = 5A 85 IOUT = 0.5A 80 75 70 0.1 1 LOAD CURRENT (A) 10 1735 G02 0 5 10


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PDF LTC1735 500kHz) sn1735fb 1735fbs Si4410DY 10SL100M TPSD107M010R0065 DO3316P-152 LR2010-01-R010-F Marcon DF 1735E
2008 - Chip Resistor r025

Abstract: r025 LR1206 resistor 2512 LR2010 LR2512 R005 2512 resistor
Text: No file text available


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PDF LR1206 LR2010 LR2512 0R010 0R003 LRF2512 R01GW IEC62 Chip Resistor r025 r025 LR1206 resistor 2512 LR2010 LR2512 R005 2512 resistor
2003 - POWERPAK SO8

Abstract: Res 2512 3a step down dc to dc regulator so8 DPAK-TO252AA SUD50N03-07 c13 sot23-5 shunt R010 TLC555CD 06035A470KAT1A CR16-1332FM
Text: -4993FM AAC CR16-152JM BI, 22AR50K AAC CR16-153JM AAC CR16-202JM IRC LRF2512- 01 -R010-J AAC CR16


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PDF LTC3731CG 3731CG. DC438 LTC3731CG LT1761 us25-0R8NC-U CMD4D08-100 CLS62-100 6328-TO64) POWERPAK SO8 Res 2512 3a step down dc to dc regulator so8 DPAK-TO252AA SUD50N03-07 c13 sot23-5 shunt R010 TLC555CD 06035A470KAT1A CR16-1332FM
2013 - Lr2512

Abstract: LR1206 0R003 LRC1206
Text: R% 0.5 R% 1 R% 0.5 R% 0.25 R% 0.5 R% 0.25 R% 0.5 R% 0.5 0.1 0.2 0.2 0.5 0.05 0.1 0.2 0.1 Power


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PDF AEC-Q200 IEC62 3000/reel 1800/reel 1000/reel Lr2512 LR1206 0R003 LRC1206
2004 - 35MV150WXV

Abstract: LTM4602HV
Text: IRC LRF2512- 01 -R010-J 18 0 R13 RES, 0603 OPTION OPTION 19 1 R14 RES, 0603


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PDF DC1084A-B LTM4602HV DC1084A-B 4602HV, LTM4602HV DC1084A-B. dc1084a-bf 35MV150WXV
2011 - 04802

Abstract: AEC-Q200 Resistor LR2512 LR2512 23 R005 LR1206 ed 7aa 0R005 LRC1206 w0w5
Text: Method JA-104 R% 0.25 R% 0.5 R% 0.5 R% 1 R% 0.5 R% 0.25 R% 0.5 R% 0.25 R% 0.5 R% 0.5 0.1 0.2 0.2 0.5 0.05 0.1 0.2 0.1 Power Rating ref 3 AEC-Q200 Table 7 Method Test High Temp. Exposure


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PDF AEC-Q200 IEC62 3000/reel 1800/reel 1000/reel 04802 AEC-Q200 Resistor LR2512 LR2512 23 R005 LR1206 ed 7aa 0R005 LRC1206 w0w5
2004 - LTM4602

Abstract: No abstract text available
Text: AAC CR16-105JM 17 1 R11 RES, 2512 0.01Ω 5% 1W IRC LRF2512- 01 -R010-J 18 0 R13


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PDF DC1084A-A LTM4602 DC1084A-A LTM4602 DC1084A-A. dc1084a-af
2014 - LR1206

Abstract: JESD22 Method JA-104
Text: -202 Method 106 TT Moisture 7 Biased Humidity MIL-STD-202 Method 103 R% 0.25 0.1 R% 0.5 , ) 4 Temperature Cycling R% 0.25 0.1 6 Moisture Resistance MIL-STD-202 Method 106 R , Terminal Strength AEC-Q200-006 R% 0.25 0.1 Short Term Overload 6.25 x Pr for 2s R% 0.5 , °C 150 (°C) Ambient temperature 0.1 18 90s minimum 22 J-STD-002 40 0 R% 0.25 , Standard USA (IRC) Part Number: LRC-LRF1206LF- 01 -R020-F (1206, 20 milliohms ±1%, Pb-free) L R C L R F


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PDF down2010 Resistance2512, 3000/reel 1800/reel 100ppm/Â LR1206 LR2010 LR2512 LR1206 JESD22 Method JA-104
2014 - Not Available

Abstract: No abstract text available
Text: -104 R% 0.25 0.1 6 Moisture Resistance MIL-STD-202 Method 106 R% 0.5 0.2 7 Biased , Cycling R% 0.25 0.1 6 Moisture Resistance MIL-STD-202 Method 106 R% 0.5 0.2 7 , J-STD-002 40 20 0 R% 0.25 0.05 Thermal Shock MIL-STD-202 Method 107 60 70 25 0.1 , AEC-Q200-006 R% 0.25 150 (°C) Ambient temperature >95% coverage 0.1 6.25 x Pr for 2s R , Standard USA (IRC) Part Number: LRC-LRF1206LF- 01 -R020-F (1206, 20 milliohms ±1%, Pb-free) L R C L R F


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PDF Standard2512, 003solder-plated 3000/reel 1800/reel 100ppm/Â LR1206 LR2010 LR2512
2004 - SANYO POSCAP

Abstract: GMK325F106 design ideas 6TPA47M EEFUE0G181R FDS6680A LMK432BJ226MM LRF2512-01-R003-J LTC1735 LTC1736
Text: : PANASONIC ETQP6F1R0SA Q1­Q3: FAIRCHILD FDS6680A (207) 775-4502 R6: IRC LRF2512- 01 -R003-J (512


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PDF LTC1735/ LTC1736 LTC1702/LTC17hods LTC1703 SANYO POSCAP GMK325F106 design ideas 6TPA47M EEFUE0G181R FDS6680A LMK432BJ226MM LRF2512-01-R003-J LTC1735
1999 - LTC1735IS

Abstract: T2D DIODE panasonic t2d 76 diode value THCR70E1H226ZT t2d 04 panasonic T2D 68 zener diode Circuit Diagram alternator dc 24v T2D DIODE 2N7002 FDS6680A
Text: : PANASONIC EEFUE06181R L1: PANASONIC ETQP6RZ1R20HFA RSENSE: IRC CRF2010- 01-R004J CIN 22µF 50V CERAMIC , 0.808 V 0.02 %/V 0.1 ­ 0.1 q q Transconductance Amplifier gm VOVL 0.792 0.8 , fO = 300kHz 30 95 0.1 0.01 1 LOAD CURRENT (A) 80 VIN = 24V 70 VIN = 15V 60 , 100 1735-1 G04 200 RSENSE = 0.005 VOUT = 5V ­ 5% DROP ­ 0.1 ­0.4 30 30 VIN ­


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PDF LTC1735-1 LTC1735 16-Pin LTC1736 24-Pin LTC1772 OT-23 550kHz, OT-23, 17351f LTC1735IS T2D DIODE panasonic t2d 76 diode value THCR70E1H226ZT t2d 04 panasonic T2D 68 zener diode Circuit Diagram alternator dc 24v T2D DIODE 2N7002 FDS6680A
1999 - T2D DIODE panasonic

Abstract: t2d 04 panasonic T2D 68 zener diode LTC1735IS T2D DIODE 2N7002 FDS6680A LTC1735-1 LTC1735C-1 LTC1735I-1
Text: : PANASONIC EEFUE06181R L1: PANASONIC ETQP6RZ1R20HFA RSENSE: IRC CRF2010- 01-R004J CIN 22µF 50V CERAMIC , Positive VRUN/SS In Dropout 98 0.808 V 0.02 %/V 0.1 ­ 0.1 q q , ) SYNC CONT 60 50 40 VIN = 10V VOUT = 3.3V RS = 0.01 fO = 300kHz 30 95 0.1 0.01 1 , = 5V ­ 5% DROP ­ 0.1 ­0.4 30 30 VIN ­ VOUT Dropout Voltage vs Load Current 75


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PDF LTC1735-1 LTC1735 16-Pin LTC1736 24-Pin LTC1772 OT-23 550kHz, OT-23, sn17351 T2D DIODE panasonic t2d 04 panasonic T2D 68 zener diode LTC1735IS T2D DIODE 2N7002 FDS6680A LTC1735-1 LTC1735C-1 LTC1735I-1
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