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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
CRG1206F4R7 (1623528-1) TE Connectivity (1623528-1) CRG1206 1% 4R7
CRG0603J4R7 (1623078-1) TE Connectivity (1623078-1) CRG0603 5% 4R7
CRG0603F4R7 (1622961-2) TE Connectivity (1622961-2) CRG0603 1% 4R7
THS754R7J (1879363-4) TE Connectivity (1879363-4) THS75 4R7 5%
CRG0805J4R7 (1623380-1) TE Connectivity (1623380-1) CRG0805 5% 4R7
FSQ5W4R7J (1630880-5) TE Connectivity (1630880-5) FSQ5 4R7 5%

SMDFSR1008PS-4R7 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2008 - Not Available

Abstract: No abstract text available
Text: SMDFSR1008PS -1R8 SMDFSR1008PS -2R7 SMDFSR1008PS -3R9 SMDFSR1008PS - 4R7 SMDFSR1008PS -5R6 SMDFSR1008PS -6R8


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PDF 1008PS 1008PS 50kHz 100mV
2011 - Not Available

Abstract: No abstract text available
Text: SMDFSR1008PS -1R8 SMDFSR1008PS -2R7 SMDFSR1008PS -3R9 SMDFSR1008PS - 4R7 SMDFSR1008PS -5R6 SMDFSR1008PS -6R8


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PDF 1008PS 50kHz SMDFSR1008PS 100mV
2013 - Not Available

Abstract: No abstract text available
Text: 0.1&1 172 0.29 1.20 SMDFSR1008PS-4R7□ 4.7 10, 20 30 0.1&1 157 0.35


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PDF SMDFSR1008PS 1008PS 50kHz SMDFSR1008PS-330â SMDFSR1008PS-390â SMDFSR1008PS-470â SMDFSR1008PS-680â SMDFSR1008PS-820â
2009 - Not Available

Abstract: No abstract text available
Text: V 3) 150 V 200 V 50R … 5K 5k … 33K 10R … 205K 49R9 … 3k0 49R9 … 12k0 4R7 … 150k 4R7 … 1M 2R … 1M 25R … 15k 25R … 100k 4R7 … 332k 4R7 … 332k 4R7 … 500k 4R7 … 1M 1R0 … 1M 25R … 30k 25R … 200k 4R7 … 1M 4R7 … 1M 4R7 … 2M5 1R … 2M5 4R7 … 1M 25R … 50k 25R … 500k 4R7 … 1M 4R7 … 1M 4R7 … 2M5 1R … 2M5 4R7 … 1M 25R … 50k 25R … 500k 4R7 … 1M 4R7 … 1M 4R7 … 3M 1R … 3M 4R7 … 1M 25R … 100k


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PDF D-90556
LVS303015

Abstract: LVS252010 LVS201610 LVS404018 LVS404018-3R3 LVS303012 LVS606045 LVS505020 LVS252010-2R2 LVS252012L
Text: 1200 C LVS201610-3R3-N 3.3 1 20, 30 0.51 820 900 D LVS201610- 4R7 -N 4.7 , 4R7 3R3 2R2 5 1R5 1R0 0 0 200 400 600 800 1000 1200 1400 1600 1800 2000 , 220 100 6R8 5R6 4R7 2R2 1R5 3R3 1R0 0 300 600 900 1200 DC , 1220 1340 D LVS252010- 4R7 -N 4.7 1 20, 30 0.421 1040 1020 E LVS252010 , ( ) 20 L(uH) 220 15 10 100 6R8 5R6 4R7 3R3 2R2 5 300 600 900 1200 1500


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PDF LVS505040 LVS606020 LVS606028 LVS606045 LVS808040 LVS303015 LVS252010 LVS201610 LVS404018 LVS404018-3R3 LVS303012 LVS606045 LVS505020 LVS252010-2R2 LVS252012L
2013 - Not Available

Abstract: No abstract text available
Text: Standard Specification 5 0603 62.5 50 V 100 V 24R9 … 15k 24R9…15k 25 4R7 … 332k 4R7…332k 50 100 100 V 200 V 10 / 15 24R9…200k 4R7 … 511k 4R7…511k 4R7 … 1M 5 125 150 V 300 V 10 / 15 24R9…499k 4R7 … 1M 4R7 … 1M 4R7…2M49 5 250 150 V 300 V 10 / 15 24R9…499k 4R7 … 1M 4R7 … 1M 4R7…2M49 5 250 150 V 300 V 10 / 15 24R9…499k 4R7 … 1M 4R7 … 1M 4R7 … 3M 5


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PDF D-90556
AEC-Q200-REV

Abstract: 2R2 choke PIC0515H 4R7 COIL SMD
Text: : 4R7 = 4.70uH 2. CONFIGURATION & DIMENSIONS : C A D E B 4R7 YYWW F Date code , P Bo W 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 F 4.0 1.75 10-2 Tape Dimension Ko Ao


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PDF PIC0515H PIC0515H-4R7MF 100KHz/1Vrabililty AEC-Q200-REV 2R2 choke 4R7 COIL SMD
HP4284

Abstract: 16334A tablet hp 1100 HP marking codes smd marking 6R8 SMD 1R5 inductor 2r2 spia3010-1r5-n marking SMD CODES 4r7. 8
Text: SPIA3010-2R2-N 2.2 SPIA3010-3R3-N SPIA3010- 4R7 -N SPIA3010-6R8-N 6.8 20,30 100 0.530 , vs. DC Current Temperature Change vs. DC Current 70 25 220 150 6R8 100 4R7 60 220 , 20 6R8 4R7 3R3 2R2 1R5 10 1R0 0 0 0 0.5 1 DC Current(A) 1.5 0 , 30 SPIA3015-2R2-N 2.2 SPIA3015-3R3-N SPIA3015- 4R7 -N SPIA3015-6R8-N 6.8 20,30 100 , 4R7 3R3 2R2 1R5 1R0 40 15 T( ) L (u H ) 20 150 10 100 5 30


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PDF SPIA3010 SPIA3015 SPIA3020 SPIA4012 SPIA4016 SPIA4020 HP4284 16334A tablet hp 1100 HP marking codes smd marking 6R8 SMD 1R5 inductor 2r2 spia3010-1r5-n marking SMD CODES 4r7. 8
E9625

Abstract: 49R9 CPF0201 e50c
Text: : Climatic Category (°C): Insulation Resistance Dry Min: Stability: 15 D 25 50 E C 4R7 332K 0.1 B 15 D 50V 100V -55 to +155°C 55/125/55 1000M 0.5% 4R7 1M0 0.063W 4R7 332K 0.5 D E24 & E96 25 50 E C 15 D 25 50 E C 15 D 25 50 E C 2R0 1M0 4R7 332K 1 F 2R0 1M0 4R3 511K 0.1 B 15 D 4R7 2M0 0805 0.1W 4R3 511K 0.5 , : 15 D 25 50 E C 4R7 1M0 0.1 B 15 D 4R7 2M5 0.125W 4R7 1M0 0.5 D E24 & E96 25 50 E 150V 300V -55 to +155°C 55/125/55 1000M 0.5% C 15 D 25 E 50 C 15 D E 1R0 2M5 4R7 1M0 1 F 1R0 2M5 4R7 1M0 0.1 B E24 & E96


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PDF 15ppm, 25ppm 50ppm 15ppm/ E9625 49R9 CPF0201 e50c
2011 - CIG22HR47MAE

Abstract: CIG10F2R2MNC CIG22H4R7 inductor 2r2 CIG22H1R5MAE CIG21 CIG21LR47M CIG22H1R2MAE CIG21W2R2MNE CIG22L
Text: 0.3~0.8 0.3~0.8 0.3~0.8 Part Numbering CI (1) G (2) 22 (3) L (4) 4R7 (5) M (6) N (7) E (8) (1 , Low Profile Type) (5) Inductance (R47: 0.47uH, 2R2: 2.2uH, 4R7 : 4.7uH) (6) Tolerance (M: 20%) (7 , 0.95 0.80 0.75 0.70 0.62 DC BIAS CHARACTERISTIC 10 4R7 3R3 2R2 4R7 10 Inductance (uH , 0.30 20 % Rated Current. Idc (A) T = 40 1.05 0.96 0.81 0.73 0.65 INDUCTANCE 10 4R7 3R3 2R2 1 1R5 1R0 10 DC BIAS CHARACTERISTIC Inductance (uH) Inductance (uH) 4R7 3R3 2R2 1 1R5 1R0


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PDF CIG10F CIG10W CIG21F CIG21W CIG21L CIG21C CIG22L CIG22H CIG22B CIG22HR47MAE CIG10F2R2MNC CIG22H4R7 inductor 2r2 CIG22H1R5MAE CIG21 CIG21LR47M CIG22H1R2MAE CIG21W2R2MNE
4R7 COIL CHIP

Abstract: AEC-Q200-REV 4r7 COIL 4R7 COIL SMD smd 4r7 2R2 choke EIA-481-C-2003
Text: : 4R7 = 4.70uH 2. CONFIGURATION & DIMENSIONS : C A D E B 4R7 YYWW F Date code , P Bo W 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 4R7 F 4.0 1.75 10-2 Tape Dimension Ko Ao


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PDF PIC0518H PIC0518H-4R7MF 4R7 COIL CHIP AEC-Q200-REV 4r7 COIL 4R7 COIL SMD smd 4r7 2R2 choke EIA-481-C-2003
49R9

Abstract: E9625 e50c
Text: : Operating Temp. Range: Climatic Category (°C): Insulation Resistance Dry Min: Stability: 15 D 25 E 50 C 4R7 332K 0.1 B 15 D 4R7 1M0 0.063W 4R7 332K 0.5 D E24 & E96 25 E 50V 100V -55 to +155°C 55/125/55 1000M 0.5% 50 C 15 D 25 E 50 C 15 D 25 E 50 C 2R0 1M0 4R7 332K 1 F 2R0 1M0 4R3 511K 0.1 B 15 D 4R7 2M0 0805 , Resistance Dry Min: Stability: 15 D 25 E 50 C 4R7 1M0 0.1 B 15 D 4R7 2M5 0.125W 4R7 1M0 0.5 D E24 & E96 25 E 150V 300V -55 to +155°C 55/125/55 1000M 0.5% 50 C 15 D 25 E 50 C 15 D 25 E 50 C 1R0 2M5 4R7 1M0 1 F 1R0


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PDF 15ppm, 25ppm 50ppm 49R9 E9625 e50c
2012 - 2R2A

Abstract: No abstract text available
Text: 50 20 4R7 4.0 1R5 1R0 60 14.0 12.0 4R7 220 150 100 18.0 1R0 R47 , 60 220 △ T( ℃ ) L(uH) 220 50 15 150 10 100 R50 1R5 4R7 6R8 1R0 2R2 40 30 100 20 6R8 5 5R6 4R7 3R3 2R2 10 1R5 1R0 R50 0 0 0 0.5 , ) 4R7 LVF303010-6R8□-N 6.8 1 20, 30 0.310 0.87(0.78) 0.85(0.76) 6R8 , 1R5 6R8 2R2 4R7 △ T( ℃ ) L(uH) 50 15 150 10 100 30 20 6R8 5


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PDF LVF201B12 LVF404018 LVF404026 LVF505020 LVF606020 LVF606028 LVF808040 2R2A
2012 - HP16334A

Abstract: No abstract text available
Text: 30 10 1R5 2.0 50 20 4R7 4.0 1R5 1R0 60 14.0 12.0 4R7 220 150 100 , 4R7 6R8 1R0 2R2 40 30 100 20 6R8 5 5R6 4R7 3R3 2R2 10 1R5 1R0 , 1.00(0.90) 0.95(0.85) 4R7 LVF303010-6R8□-N 6.8 1 20, 30 0.310 0.87(0.78 , 60 20 220 220 150 100 1R5 6R8 2R2 4R7 △ T( ℃ ) L(uH) 50 15 150 10 100 30 20 6R8 5 40 4R7 10 2R2 1R5 0 0 0 0.2 0.4 0.6


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PDF LVF201B12 LVF404018 LVF404026 LVF505020 LVF606020 LVF606028 LVF808040 HP16334A
2012 - Not Available

Abstract: No abstract text available
Text: 2.0 50 20 4R7 4.0 1R5 1R0 60 14.0 12.0 4R7 220 150 100 18.0 1R0 , 60 220 △ T( ℃ ) L(uH) 220 50 15 150 10 100 R50 1R5 4R7 6R8 1R0 2R2 40 30 100 20 6R8 5 5R6 4R7 3R3 2R2 10 1R5 1R0 R50 0 0 0 0.5 , ) 4R7 LVF303010-6R8□-N 6.8 1 20, 30 0.310 0.87(0.78) 0.85(0.76) 6R8 , 100 0.8 1 1R5 6R8 2R2 4R7 △ T( ℃ ) L(uH) 50 15 150 10 100 30


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PDF LVF201B12 LVF404018 LVF404026 LVF505020 LVF606020 LVF606028 LVF808040
CXFU0524

Abstract: CXTU0420-220 CXLP120-150 CXLP100 CXLP120 CXTU0420-150 CXZ1350 maruwa CXLP120-100 CXLD120Z
Text: CXMD150 CXMD120- 4R7 CXMD120-6R8 CXMD120-100 CXMD120-150 CXMD120-220 CXMD150- 4R7 CXMD150 , CXMD0512- 4R7 4.7±20% 0.205 1.30/1.05 CXMD0512-6R8 6.8±20% 0.277 1.10/0.95 CXMD0512 , 2.6 2.8 1 1.1 2.65 ±0.2 0.4 1.1 2 1 2.8 DC 12 1R1 2R2 10 3R3 4R7 , -1R1 0.11 CXFU0208-2R2 2.2±30% 0.185 CXFU0208-3R3 3.3±30% 0.28 065/0.7 CXFU0208- 4R7 , 1.1 1.1 2.8 1 2.65 ±0.2 2 0.4 2.65 ±0.2 1 2.8 2.16 DC 100 2R2 3R3 4R7


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PDF CXLD120Z 45max) CXLD140Z CXLD180Z 1000H 10000H CXMD120 CXMD150 CXMD0512 CXMD0612 CXFU0524 CXTU0420-220 CXLP120-150 CXLP100 CXLP120 CXTU0420-150 CXZ1350 maruwa CXLP120-100 CXLD120Z
2012 - Not Available

Abstract: No abstract text available
Text: 200 400 600 6R8 5R6 4R7 2R2 1R5 3R3 60 1R0 50 40 30 20 1R0 800 , ) 220 15 10 3R3 1R5 2R2 1R0 50 40 30 100 6R8 5R6 4R7 3R3 2R2 5 6R8 100 5R6 4R7 20 1R5 10 1R0 0 0 0 300 600 900 1200 1500 1800 2100 2400 2700 DC , 220 15 10 △ T( ℃ ) L(uH) 60 100 6R8 5R6 4R7 3R3 5 5R6 6R8 4R7 3R3 , LVS303010-4R7□-N 4.7 1 20, 30 0.186 650(585) 1300(1170) 4R7 LVS303010


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PDF LVS505040 LVS606020 LVS606028 LVS606045 LVS808040
Not Available

Abstract: No abstract text available
Text: Resistance Dry Min: Stability: 15 D 25 50 E C 4R7 1M0 0.1 B 15 D 4R7 2M5 0.125W 4R7 1M0 0.5 D E24 & E96 25 50 E 150V 300V -55 to +155°C 55/125/55 1000M 0.5% C 15 D 25 E 50 C 15 D E 1R0 2M5 4R7 1M0 1 F 1R0 2M5 4R7 1M0 0.1 B E24 & E96 25 50 C 15 D 25 50 E 150V 300V -55 to +155°C 55/125/55 1000M 0.5% C 15 D 25 E 50 C 4R7 2M5 4R7 1M0 0.5 D 1210 0.2W 1R0 2M5 4R7 1M0 1 F 1R0 2M5 2010 Rated Power @ 70 , (°C): Insulation Resistance Dry Min: Stability: 15 D 25 50 E C 4R7 1M0 0.1 B 15 D 4R7 3M0 4R7 1M0 0.5


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PDF 1000M
2012 - MHCI06030-R10M

Abstract: No abstract text available
Text: perature Change v.s DC Current Inductance vs DC Current 140 5 2R2 4.5 120 4R7 4 R47 R22 R68 100 3.5 4R7 3 △ T(℃ ) L(uH) 1R0 2.5 2 2R2 1.5 80 60 , perature Change v.s DC Current Inductance vs DC Current 5 140 4.5 4R7 3R3 4 3.5 1R5 1R0 100 4R7 3 2.5 △T(℃) L(uH) 2R2 120 3R3 80 60 2 2R2 1.5 40 , 10 120 9 100 8 6R8 4 4R7 3 1 2 4 60 20 R22 R10 0 0


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PDF
2012 - Not Available

Abstract: No abstract text available
Text: 3R 2R 1R 3 5 5 0 0 200 400 600 6R8 5R6 4R7 2R2 1R5 3R3 60 1R0 , 100 6R8 5R6 4R7 3R3 2R2 5 6R8 100 5R6 4R7 20 1R5 10 1R0 0 0 0 300 600 , 25 80 70 220 20 220 15 10 △ T( ℃ ) L(uH) 60 100 6R8 5R6 4R7 3R3 5 5R6 6R8 4R7 3R3 100 2R2 1R5 1R0 50 40 30 20 2R2 1R5 1R0 0 10 , (1170) 4R7 LVS303010-6R8□-N 6.8 1 20, 30 0.253 560(504) 1000(900) 6R8


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PDF LVS505040 LVS606020 LVS606028 LVS606045 LVS808040
2012 - Not Available

Abstract: No abstract text available
Text: 3R 2R 1R 3 5 5 0 0 200 400 600 6R8 5R6 4R7 2R2 1R5 3R3 60 1R0 , 100 6R8 5R6 4R7 3R3 2R2 5 6R8 100 5R6 4R7 20 1R5 10 1R0 0 0 0 300 600 , 25 80 70 220 20 220 15 10 △ T( ℃ ) L(uH) 60 100 6R8 5R6 4R7 3R3 5 5R6 6R8 4R7 3R3 100 2R2 1R5 1R0 50 40 30 20 2R2 1R5 1R0 0 10 , (1170) 4R7 LVS303010-6R8□-N 6.8 1 20, 30 0.253 560(504) 1000(900) 6R8


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PDF LVS505040 LVS606020 LVS606028 LVS606045 LVS808040
2012 - 4R7 inductor

Abstract: 4r7 COIL smd 4r7 4R7 COIL SMD
Text: × × 4R7 1.0 Max. 2 . 0 ± 6 . 1 Environmental Data · Operating temperature range: -30 , -1R0, C201610WB-1R5, 4R7 2.0±0.15 1.0 Max. 0.45±0.2 Applications · Ideally used in DC/DC converters for Smart , pattern and Schematics - [mm] C201610LDS-1R0 2.5 1.3 4R7 C201610LDB-1R0, C201610WB-1R5, 4R7 2.0 , Electrical Characteristics Part No. C201610LDS-1R0 C201610LDS-1R5 C201610LDS-2R2 C201610LDS-3R3 C201610LDS- 4R7 C201610LDB-1R0 C201610WB-1R5 C201610WB- 4R7 H) ±L( 20% 1 1.0 1.5 2.2 3.3 4.7 1.0 1.5 4.7 D.C.R. (m 25


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PDF C201610/DS C201610LDS-1R0 C201610LDB-1R0, C201610WB-1R5, porta6-3266 29-Feb-12 4R7 inductor 4r7 COIL smd 4r7 4R7 COIL SMD
2012 - 4R7 inductor

Abstract: No abstract text available
Text: × × 4R7 1.0 Max. 2 . 0 ± 6 . 1 Environmental Data · Operating temperature range: -30 +85 , -1R5, 4R7 2.0±0.15 1.0 Max. 0.45±0.2 Applications · Ideally used in DC/DC converters for Smart phones , pattern and Schematics - [mm] C201610LDS-1R0 2.5 1.3 4R7 C201610LDB-1R0, C201610WB-1R5, 4R7 2.0 , Electrical Characteristics Part No. C201610LDS-1R0 C201610LDS-1R5 C201610LDS-2R2 C201610LDS-3R3 C201610LDS- 4R7 C201610LDB-1R0 C201610WB-1R5 C201610WB- 4R7 H) ±L( 20% 1 1.0 1.5 2.2 3.3 4.7 1.0 1.5 4.7 D.C.R. (m 25


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PDF C201610/DS C201610LDS-1R0 C201610LDB-1R0, C201610WB-1R5, portabl6-3266 19-Mar-12 4R7 inductor
2012 - Not Available

Abstract: No abstract text available
Text: 2.0 50 20 4R7 4.0 1R5 1R0 60 14.0 12.0 4R7 220 150 100 18.0 1R0 , 60 220 △ T( ℃ ) L(uH) 220 50 15 150 10 100 R50 1R5 4R7 6R8 1R0 2R2 40 30 100 20 6R8 5 5R6 4R7 3R3 2R2 10 1R5 1R0 R50 0 0 0 0.5 , ) 4R7 LVF303010-6R8□-N 6.8 1 20, 30 0.310 0.87(0.78) 0.85(0.76) 6R8 , 100 0.8 1 1R5 6R8 2R2 4R7 △ T( ℃ ) L(uH) 50 15 150 10 100 30


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PDF LVF201B12 LVF404018 LVF404026 LVF505020 LVF606020 LVF606028 LVF808040
2012 - Not Available

Abstract: No abstract text available
Text: 4R7 4.0 1R5 1R0 60 14.0 12.0 4R7 220 150 100 18.0 1R0 R47 0.0 0 0 , ( ℃ ) L(uH) 220 50 15 150 10 100 R50 1R5 4R7 6R8 1R0 2R2 40 30 100 20 6R8 5 5R6 4R7 3R3 2R2 10 1R5 1R0 R50 0 0 0 0.5 1 1.5 2 , LVF303010-4R7□-N 4.7 1 20, 30 0.205 1.00(0.90) 0.95(0.85) 4R7 LVF303010 , 4R7 △ T( ℃ ) L(uH) 50 15 150 10 100 30 20 6R8 5 40 4R7 10


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PDF LVF404018 LVF404026 LVF505020 LVF606020 LVF606028 LVF808040
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