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TDK-Lambda Corporation
VS50B3 Power Supply; AC-DC; 33W33W85132VAC3V; 10A VS50B3 ECAD Model
Distributors Part Package Stock Lead Time Min Order Qty 1 10 100 1,000 10,000
Allied Electronics & Automation VS50B3 Bulk 0 1 $56.59 $54.06 $51.01 $51.01 $51.01 More Info

VS50B-3 datasheet (2)

Part ECAD Model Manufacturer Description Type PDF
VS50B-3 VS50B-3 ECAD Model Densei-Lambda Single output 10W - 150W Original PDF
VS50B-3 VS50B-3 ECAD Model Lambda Electronics Over 600 obsolete distributor catalogs now available on the Datasheet Archive - 100/150 VAC LOW COST POWER SUPPLY, 3.3V OUPUT, 33W Scan PDF

VS50B-3 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
a148 diode

Abstract: VS50B-12 VS50B-15 VS50B-24 VS50B-3 VS50B-5 B200G
Text: VS50B-3 (*1) (*1) (*2) (* 3 ) (*2) (*4) (*4,5) (*4,6) (*4,7) (*8) (*9) (*2) (*10) V , DENSEI-LAMBDA VS50B SPECIFICATIONS A148-01-01E 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 MODEL ITEMS Nominal Output Voltage Minimum Output Current Average , 10sec. (Duty=0.35) *2. At 100VAC and Average Output Power, Ta=25°C. * 3 . For cases where conformance , -9131 DENSEI-LAMBDA VS50B OUTPUT DERATING A148-01-02A ( 3 , 5, 12, 15V ) LOAD ( % ) Ta (°C) -10 - +25 45 50


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PDF VS50B A148-01-01E VS50B-3 a148 diode VS50B-12 VS50B-15 VS50B-24 VS50B-3 VS50B-5 B200G
VS100B-12

Abstract: VS15C-12 P-209 VS30C-5 VS150B VS50B-24 p209
Text: Max, output correo! Max. peak output correot II Max, peak output power UL CSA EN VS50B VS50B-3 , ±10% 3 . Cooling Convection cooling : ' ■' ' 1 '. V ' 4. Operating ambient temperature (Standard , current Max, output power UL CSA EN VS10C VS10C- 3 3.3V 2.OA 6.6W O o c VS10C:5 5V • 2.OA io:ow: o o , VS15C VS15C- 3 3.3V 3.0A 9.9W o o o VS15C-5 5V 3 .OA 15.0W o o o VS15C-12 12V 1.3A 15.6W o o o VS15C-15 15V 1 .OA 15.0W 0 o o VS15C-24 24V 0.7A 16.8W 0 o o VS30C VS30C- 3 3.3V 6.0A 19.8W o o 0 VS30C-5 5


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PDF 100B-24 100VAC -132VAC 175VDC VS10C-VS10QB -10oC~ VS100B VS150B MAW-1205-22 VS100B-12 VS15C-12 P-209 VS30C-5 VS150B VS50B-24 p209
Not Available

Abstract: No abstract text available
Text: Model Adjust Voltage Range V V VS10C- 3 VS15C- 3 VS30C- 3 VS50B-3 VS75B- 3 VS100B- 3 VS150B- 3 , Temperature ( 3 ) Storage Temperature Humidity (non condensing) Cooling (4) Withstand Voltage Isolation , (cold start) (2) Avoid prolonged operartion in overload ( 3 ) VS50B24 -10°C to +60°C, derate linearly , mV Line Reg mV 2 3 6 10 15 20 30 2 3 6 10 15 20 30 0.9 1.3 2.5 4.3 6.3 8.5 12.5 0.7 1 2 3.5 5 7 10 0.5 0.7 1.3 2.5 2.5 3.2 3.2 4.3 4.3 6.3 6.3 0.9 2.1 3 4.2


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PDF 115VAC VS10C 100VAC) 100VAC SCS120
VS100B

Abstract: VS150B VS50P VS150B-48 VS100P24
Text: V VS10C- 3 VS15C- 3 VS30C- 3 VS50B-3 VS75B- 3 VS100B- 3 VS150B- 3 VS10C-5 VS15C-5 VS30C , Sense Operating Temperature ( 3 ) Storage Temperature Humidity (non condensing) Cooling (4 , Notes: (1) 25°C ambient (cold start) (2) Avoid prolonged operartion in overload ( 3 ) VS50B24 -10°C to , Curr. A Peak Curr. A Load Line Ripple Reg Reg Noise Eff. mV mV mV % 2 3 6 10 15 20 30 2 3 6 10 15 20 30 0.9 1.3 2.5 4.3 6.3 8.5 12.5 0.7 1 2 3.5 5 7 10 0.5 0.7


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PDF 115VAC SCS120 1-800-LAMBDA-4 VS100B VS150B VS50P VS150B-48 VS100P24
VS100B

Abstract: VS150B VS50P VS150B-48
Text: Voltage Adjust Range V VS10C- 3 VS15C- 3 VS30C- 3 VS50B-3 VS75B- 3 VS100B- 3 VS150B- 3 VS10C , Sense Operating Temperature ( 3 ) Storage Temperature Humidity (non condensing) Cooling (4 , 2 years Notes: (1) 25°C ambient (cold start) (2) Avoid prolonged operartion in overload ( 3 , 2 3 6 10 15 20 30 2 3 6 10 15 20 30 0.9 1.3 2.5 4.3 6.3 8.5 12.5 0.7 1 2 3.5 5 7 10 0.5 0.7 1.3 2.5 2.5 3.2 3.2 4.3 4.3 6.3 6.3 0.9 2.1 3 4.2 0.7 1.6 2.2


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PDF 115VAC 1-800-LAMBDA-4 VS100B VS150B VS50P VS150B-48
RSEL-2003w

Abstract: RSEL-2002 RSEL-2001 VS100
Text: LEADS .118 ( 3 ) MAX K VS10C- 3 VS15C- 3 VS30C- 3 VS50B-3 VS75B- 3 VS100B- 3 VS150B- 3 VS10C-5 VS15C-5 VS30C , Operating Temperature ( 3 ) Storage Temperature Humidity (non condensing) Cooling (4) Withstand Voltage , Notes: (1) 25°C ambient (cold start) (2) Avoid prolonged operartion in overload ( 3 ) VS50B24 -10°C to , 32.4-39.6 32.4-39.6 32.4-39.6 32.4-39.6 43.2-52.8 43.2-52.8 43.2-52.8 43.2-52.8 2 3 6 10 15 20 30 2 3 6 , 6.3 0.9 2.1 3 4.2 0.7 1.6 2.2 3.2 12 18 24 36 12 18 24 36 5.16 7.56 10.2 15 4.2 6.0 8.4 12 3.0 4.2


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PDF 115VAC SCS120 RSEL-2003w RSEL-2002 RSEL-2001 VS100
p209

Abstract: VS100B VS150B VS30C-15 printer power supply 24V 5V VS150B-24
Text: air cooling. VS150B VS50B-3 VS50B-5 VS50B-12 VS50B-15 VS50B-24 VS75B- 3 VS75B-5 VS75B-12 VS75B-15 VS75B-24 VS75B-36 VS75B-48 VS100B- 3 VS100B-5 VS100B-12 VS100B-15 VS100B-24 VS100B , Specifications 1. Input voltage range 2. Output voltage range 3 . Cooling 4. Operating ambient temperature , , Over current protection Product lineup Model name VS10C VS15C VS30C VS10C- 3 VS10C-5 VS10C-12 VS10C-15 VS10C-24 VS15C- 3 VS15C-5 VS15C-12 VS15C-15 VS15C-24 VS30C- 3 VS30C-5 VS30C


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PDF 100B-24 VS150B VS100B VS75B VS50B VS30C VS15C VS10C 100VAC 132VAC) p209 VS100B VS150B VS30C-15 printer power supply 24V 5V VS150B-24
VS10B-12

Abstract: VS150B-24 VS30C-5 VS150B VS50B-24 VS150B-48
Text: output current Max. output power Max. peak outpul pdwer UL CSA EN VS50B VS50B-3 3.3V 10.0A 12.0A 33.0W , ; 2. Output voltage range ±10% 3 . Cooling Convection cooling 4. Operating ambient temperature , name Nominal output voltage Max. output current Max. output power UL CSA EN VS10C VS10C- 3 3.3V 2:0A , o o o VS10C-24 24V 0.5A 12.0W : ■0- o 0 VS15C VS15C- 3 3.3V 3 .OA 9.9W o o o VS15C-5 5V 3 , o 0 VS30C VS30C- 3 3.3V 6.OA 19.8W o 0 -0 VS30C-5 5V 6.0A 30.0W o "O o VS30C-12 12V 2.5A 30.0W 0


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PDF 100b-24 100VAC 132VAC) 132VAC 440Hz) 175VDC VS10C-VS100B VS50B-24 VS150B VS10B VS10B-12 VS150B-24 VS30C-5 VS150B-48
Not Available

Abstract: No abstract text available
Text: LEADS .118 ( 3 ) MAX K VS10C- 3 VS15C- 3 VS30C- 3 VS50B-3 VS75B- 3 VS100B- 3 VS150B- 3 VS10C-5 VS15C-5 VS30C , Hold Up Time (Typ) at 100VAC ms Remote Sense Operating Temperature ( 3 ) Storage Temperature Humidity , ) (2) Avoid prolonged operartion in overload ( 3 ) VS50B24 -10°C to +60°C, derate linearly to 62% load , Load Curr. Curr. Reg A A mV 2 3 6 10 15 20 30 2 3 6 10 15 20 30 0.9 1.3 2.5 4.3 6.3 8.5 12.5 0.7 1 2 3.5 5 7 10 0.5 0.7 1.3 2.5 2.5 3.2 3.2 4.3 4.3 6.3 6.3 0.9 2.1 3 4.2 0.7 1.6 2.2 3.2 12 18 24 36 12 18


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PDF 115VAC 100VAC) 100VAC VS50B VS75B VS1021 SCS120
Not Available

Abstract: No abstract text available
Text: 0.90 1.75 2.20 3.00 3.80 1.50 2.10 2.50 1.10 1.50 1.90 VS10B- 3 VS15B- 3 VS30B- 3 VS50B-3 VS75B- 3 VS100B- 3 VS150B- 3 VS10B-5 VS15B-5 VS30B-5 VS50B-5 VS75B-5 VS100B-5 VS150B-5 VS10B-12 VS15B-12 VS30B


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PDF 100/115VAC VCCI-11 132VAC, 48VDC. and36)
VS10B-5

Abstract: Lambda LR VS150B VS10B24 vs10b-12
Text: AT SO" 80° MODEL 6.6 2.00 2.00 1.40 VS10B- 3 9.9 3.00 3.00 2.10 VS15B- 3 19.8 6.00 6.00 4.20 VS30B- 3 33.0 10.00 10.00 7.00 VS50B-3 49.5 15.00 15.00 10.50 VS75B- 3 66.0 20.00 20.00 14.00 VS100B- 3 99.0 27.00 24.00 18.00 VS150B- 3 10.0 2.00 2.00 1.40 VS10B-5 15.0 3.00 3.00 2.10 VS15B-5 30.0 6.00 6.00


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PDF VCCI-11 132VAC, 48VDC. JI95L VS100 VS150 VS10B-5 Lambda LR VS150B VS10B24 vs10b-12
VS15C-12

Abstract: No abstract text available
Text: VS10C- 3 6.6 2.00 2.00 1.40 3.70 ¥1.93 ¥0.67 22.00 21.00 No. Type L ¥W 40° 50° ¥ 60° H (In.) 1-4 5-24 831-2506 VS15C- 3 9.9 3.00 3.00 2.10 4.53 ¥1.97 ¥0.67 33.00 29.00 831-2511 VS30C- 3 19.8 6.00 6.00 4.20 5.22 ¥1.97 ¥0.98 38.00 35.00 831-5045 ZWS30- 3 19.8 6.00 6.00 4.20 5.24 ¥2.170 ¥1.020 57.65 56.03 831-2515 VS50B-3 33.0 10.00 10.00 7.00 7.68 ¥1.97 ¥0.98 62.09 60.34 831-3015 ZWS50- 3 33.0 10.00 10.00 7.00 7.68 ¥2.170 ¥1.020 72.43 70.39 831-2525 VS100B- 3 66.0 20.00 20.00 14.00 8.74 ¥2.44 ¥1.26 119.74 116.37


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PDF KWS5-12 KWS10-12 KWS15-12 KWS5-15 ZWS30-48 ZWS50-48 ZWS75PF-48 VS75B-48 ZWS100PF-48 VS100B-48 VS15C-12
2003 - VS50B

Abstract: data book electronique Capteur Sensors electronique capteur de tension ABB
Text: No file text available


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PDF 1SBT160050R0001 VS50B FPTC404304 VS50B data book electronique Capteur Sensors electronique capteur de tension ABB
SE5002

Abstract: LWQ-80-5222 LOS-X-12 LWQ-80-5224 lms 8040 SVPQ200 LFQ-27 L-6A-OV-12 L-12A-OV-15 HSB24-1
Text: : 5 PC. Min. RP0750- 3 54 AD10-1515-5 Obsolete 2 x PP 74 AS3-15-48 Obsolete 213XX1L BTO: 5 PC. Min. PFD0750- 3 94 AD6-0505-12 Obsolete 2 x PP 74 AS3 , -5-5 Obsolete BTO: 5 PC. Min. RP0750- 3 54 AD6-1205-24 Obsolete 2 x PP 74 AS6-12-12 Obsolete PP3-5-5 PP6-12-12 74 233XX1A 233XX1L BTO: 5 PC. Min. PFD0750- 3 94 AD6 , -24-15 74 283XX1A BTO: 5 PC. Min. RP0750- 3 54 AD6-1212-5 Obsolete PPD6-5-1212 74


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PDF 213XX1A RP0750-3 AD10-1515-5 AS3-15-48 213XX1L PFD0750-3 AD6-0505-12 AS3-15-5 214XX1A RP0750-4 SE5002 LWQ-80-5222 LOS-X-12 LWQ-80-5224 lms 8040 SVPQ200 LFQ-27 L-6A-OV-12 L-12A-OV-15 HSB24-1
UL1015 14 AWG wire

Abstract: UL1015 14 AWG yellow wire Densei-Lambda PH50S UL1015 wire SVH-21T-P1.1 connector lambda power supply SVH-21T-P1.1 drawing K331M EWS150 Densei-Lambda
Text: / Tv- Material =AI umi nu m (t=1.6mm) A-12 MS-10 2A/ 3 -M 3 Mounting Ho las 120^ 200 , 127±a: 3 -M 3 Mounting Holes 3-¿3.5 K331M ^r 4 104.5 y Stamp (Height 6mm) 160*" 171 Materiali , direction »4.2 12 127±0-2 6- 4 3-5 (2) -22_ 3 - 3.5 Fl \ Stamp (Height 6miriy 104.5 , (t=1.6mm) L-10 JWS75 Pandi I ng tfrectlon_ 3 - 3-¿4.5 (1.5) (1.5) Welding at corner y (on both


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PDF EWS25 L6007 L6014 EWS15Ã EWS30Ã EWS60Ã EWS3000 EWS50Ã UL1015 14 AWG wire UL1015 14 AWG yellow wire Densei-Lambda PH50S UL1015 wire SVH-21T-P1.1 connector lambda power supply SVH-21T-P1.1 drawing K331M EWS150 Densei-Lambda
RP0500

Abstract: LZS-250
Text: b i l i t y , cal l 1- 8 0 0 - L A M B D A - 4 (1 - 8 0 0 - 5 2 6 - 2 3 2 4 ) A C 4 i i l , Auto 11 5 85-265 PFC 5, 1 2 , 1 5 5, 1 2 , 1 5 5, 1 2 , 1 5 , 2 4 3 . 3 , 5, 1 2 , 1 5 , 2 4 5, 1 2 , 1 5 5, 1 2 , 15, 2 4 3 . 3 , 5, 1 2 , 15, 2 4 5, 12, 15, 24, 4 8 5. 12, 15, 24. 2 8 0 to 7 0 to 7 5, 12, 15, 2 4 , 2 8 5, 1 2, 1 5, 24, 4 8 5, 1 2 , 1 5 , 2 4 , 4 8 3 . 3 , 5, 1 2 , 15, 2 4 , 3 6 , 4 8 5. 12, 15, 2 4 , 2 8 5, 12, 15, 2 4 , 2 8 3 . 3 . 5, 12, 15, 24. 4 8 5, 1 2 , 1 5 , 2 4 , 4 8 3 . 3 , 5


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PDF 545x2 12x5x2 03x8x2 PFD0750 PFD1000 RP0500 LZS-250
LAMBDA alpha 400w service MANUAL

Abstract: 48V DC to 12v dc 40 amp converter circuit diagram 1000W SMD D3S jws600-24 Lambda instruction manual vega kit 528 LAMBDA Alpha 600W circuit 12 to 220 1000w inverter atx 450w scheme tdk lambda alpha 400w LWD30
Text: % per °C 5% - 95% Non-condensing 3 ,000m operating Internal fan provides forced-air cooling. Airflow , Ground 500VDC 100kHz on PFC, 200kHz on forward converter. 1.5G, 10 - 200Hz 3 ,000 bumps, 10G, 16ms , . 3055 Del Sol Blvd · San Diego, CA 92154 · 1-800-LAMBDA-4 5 Alpha 1000 1 Case Codes 3 Option , 16( 3 ) 33 16 5 8 15 25( 3 ) 10( 3 ) 8( 3 ) 5 5( 3 ) V2 Adjust V2 Amps 5.0 - 16.0 5.0 - 16.0 18.0 - 32.0 Slot(s)(1) 8( 3 ) 8( 3 ) 5( 3 ) 1 2 1 2 1 2 1 2 2 1 1 2 1 1 1 2 2 2


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PDF 1-800-LAMBDA-4 LAMBDA alpha 400w service MANUAL 48V DC to 12v dc 40 amp converter circuit diagram 1000W SMD D3S jws600-24 Lambda instruction manual vega kit 528 LAMBDA Alpha 600W circuit 12 to 220 1000w inverter atx 450w scheme tdk lambda alpha 400w LWD30
EL50P1

Abstract: ES1000C ES300C Hall Effect Current Sensors ABB ES2000C MP25P1 VD1500-48 EL25P1 1SBT172000R9944 EL55P2
Text: . These products conform to ecological, security and strict quality standards. 3 Three , Technologies asuring current Three technologies for measuring current 3 Sensor Power supply + , ±24 Molex 3 pins HE 14 ES100C 100 100 ±12 . ±24 3 wires 200 mm ES100F ES300C 300 150 ±12 . ±24 Molex 3 pins HE 14 ES300C ES300S 300 150 ±12 . ±24 JST 3 pins ES300S ES300F 1SBC7 8982 4F0302 Secondary current at IPN (mA) ES100F


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PDF F-69685 C0202 EL50P1 ES1000C ES300C Hall Effect Current Sensors ABB ES2000C MP25P1 VD1500-48 EL25P1 1SBT172000R9944 EL55P2
LAMBDA alpha 400w service MANUAL

Abstract: LAMBDA Alpha ii 650W circuit SDA 1000W inverter circuit diagram tdk lambda alpha 400w atx - 500w power supply output diagram 2000W inverter circuit diagram 48vdc to 230vac inverters circuit diagram LAMBDA Alpha 600W circuit LAMBDA Alpha 600W circuit diagram sda 5222
Text: % Non-condensing 3 ,000m operating Internal fan provides forced-air cooling. Airflow intake on I/P end, exhaust on , PFC, 200kHz on forward converter. 1.5G, 10 - 200Hz 3 ,000 bumps, 10G, 16ms half-sine pulses. UL, EN , Diego, CA 92154 · 1-800-LAMBDA-4 5 Alpha 1000 1 Case Codes 3 Option Codes If required the , 48.0 5.0 - 16.0 18.0 - 29.0 18.0 - 32.0 25 60 25 60 25 60 25 60 85 8 16( 3 ) 33 16 5 8 15 25( 3 ) 10( 3 ) 8( 3 ) 5 5( 3 ) V2 Adjust V2 Amps 5.0 - 16.0 5.0 - 16.0 18.0 - 32.0 Slot


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PDF 1-800-LAMBDA-4 LAMBDA alpha 400w service MANUAL LAMBDA Alpha ii 650W circuit SDA 1000W inverter circuit diagram tdk lambda alpha 400w atx - 500w power supply output diagram 2000W inverter circuit diagram 48vdc to 230vac inverters circuit diagram LAMBDA Alpha 600W circuit LAMBDA Alpha 600W circuit diagram sda 5222
2013 - LT3973-3.3

Abstract: L6283-1.3 TH3140.3 TH2067.3 SMOOTH+L6283-1.3 NXP+dirana+3 AS1084R-3.3 CJP1117T-3.3 CX9162B-3.3 CX91628-3.3
Text: ) BRCLK CBRCLK (1) (4) GND ( 3 , 5, 13) Figure 1. Functional block diagram Vectron International â , option)1, 2, 3 APR Supply Voltage 2, 3 Current (No Load) 3 VCC ICC 2.97 LVCMOS Input 2, 3 Input High Voltage Input Low Voltage VIH VIL Typical Maximum Units 850 850 MHz MHz 1, 2, 3 ±32, ±50, or ±100 Lock Detect Output Output High Voltage Logic Low Voltage VOH VOL Outputs Mid Level - LVPECL 2, 3 Single Ended Swing - LVPECL 2, 3 Differential


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PDF FX-702 FX-730 FX-702 FX-702â 1-88-VECTRON-1 15Feb2013 LT3973-3.3 L6283-1.3 TH3140.3 TH2067.3 SMOOTH+L6283-1.3 NXP+dirana+3 AS1084R-3.3 CJP1117T-3.3 CX9162B-3.3 CX91628-3.3
LT3973-3.3

Abstract: L6283-1.3 TT8112-3.3 lm394ois-3.3 LMS1117-3.3 CJP1117T-3.3 LM1585AIT-3.3 TH2067.3 LM3674MF-3.3 UTC1117T-3.3
Text:  3BAA!"3 39#36$ 3 12%&'3(#) 3 *#+ 3 , 3 , 3 -+3#+37# 3 -+ 3  3 . 3 "/#), 3FD%#!3 3 7 3 7 1 2CFE5794AFA79E4231 23451 1 67589A1 3 3 3 3 3  3 4356-73 835-73 63) 3 63 33 3 0132/ 3 39# 3 -32/ 3 38) 3 8)36! 3 #)39336! 3 B8C9AD341EF5D51 F3C1 B%A3 C% 3 % 3 19A3:3C%3 BA3:3FA3 31 !" 3 !03 83 393 393 ; 1 1 3 3 3 3 224E49C71C5


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PDF 43567189ABCDEF3 1234567892A36B5CA46D89EA1 12342556423789ABC56 2D59EF65 FEC4257 CFE57 9E423 67589A1 B8C9AD341EF 24E49C71C5 LT3973-3.3 L6283-1.3 TT8112-3.3 lm394ois-3.3 LMS1117-3.3 CJP1117T-3.3 LM1585AIT-3.3 TH2067.3 LM3674MF-3.3 UTC1117T-3.3
LT3973-3.3

Abstract: L6283-1.3 AP2408ES5-3.3 CJP1117T-3.3 LT3971-3.3 TT8112-3.3 AZ1085S-3.3 TH3147.3 L1117T-3.3 TH3140.3
Text: 43567189ABCDEB3F3 CA2BA2CD3 3 123456789A5B7C23D51 1 EC1F 1 1 1 1 2123456273 54BF2C$F27FA3 3331231455631789ABCD12E1 1  3  3 !"#$% 3 &AD#'1 39#36( 3 23D)*3+#$3,#- 3 %3%3.-3#-37# 3 .-1 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 5#3/''13 3 3 3 ; 3 3 3 3 3 3 3 3 3 3 3 3 3 3 1 2897AB542CD3EF5C34F73 F61 61 33/60CD19123 3 435"639# 3  3 1661 


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PDF 43567189ABCDEB3F3 123456789A5B7C23D51 1231455631789ABCD12E1 2897AB542CD3EF 0CD19123 LT3973-3.3 L6283-1.3 AP2408ES5-3.3 CJP1117T-3.3 LT3971-3.3 TT8112-3.3 AZ1085S-3.3 TH3147.3 L1117T-3.3 TH3140.3
LT3973-3.3

Abstract: L6283-1.3 CJP1117T-3.3 JZ509-3.3 L1117T-3.3 LT3971-3.3 TH3140.3 TH3147.3
Text: 123456789A97BC 1234567839AB2CD3 73 73 73 73 73 ./!+%""73C"+%",77" 395#73 05631(3%"#31( 3 2$(+ 3 #)*# 3 .%"57,5"#3B6$ ,+$"( 3 392439%&$'32875'7", 3 E1223 1453 B5 3 D7 3!5"#$ $5" 3 E1223 BC3D345EA3F735EA33  3 E1 3 BC3D345EA3F735EA323D33133  3 A78F873 43 B88F3  3 B3D345EA33 4 3 ! 3 13 B3D345EA"3#$ 3%&F'3 $(F& 3 )*3BC33 ! 3 F3  3  3 1453 313 1  3 E23  3 1 E


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PDF 123456789A97BC 1234567839AB2CD3 E1223 BC3D345EA3F73 3D345EA33 3D345EA LT3973-3.3 L6283-1.3 CJP1117T-3.3 JZ509-3.3 L1117T-3.3 LT3971-3.3 TH3140.3 TH3147.3
LT3973-3.3

Abstract: L6283-1.3 TH2067.3 L1117LG-3.3 TH3140.3 L1117T-3.3 LT3971-3.3 LT1432-3.3
Text: 123456789A79BC 1234567839AB2CD3 F=A&88#3K8&8'8F37% 3 @7$3D?38%3?3 4?&3%5,%F3 F8778%32$F&8?3 54H3A''3IJ8) 3 E1223 1453 B5 3 D7 3!5"#$ $5" 3 E1223 BC3D345EA3F735EA33  3 E1 3 BC3D345EA3F735EA323D33133  3 A78F873 43 B88F3  3 B3D345EA33 43 B3D345EA!3"# 3$%F&3 #'F% 3 ()3BC33 *43 3   3 B3D345EA33 43 3 C  3 B3D345EA33  3 'C3 3 #)*# 33 +2323+1!3%


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PDF 123456789A79BC 1234567839AB2CD3 E1223 BC3D345EA3F73 3D345EA33 3D345EA LT3973-3.3 L6283-1.3 TH2067.3 L1117LG-3.3 TH3140.3 L1117T-3.3 LT3971-3.3 LT1432-3.3
1998 - LT3973-3.3

Abstract: L6283-1.3 D5032 AP2408ES5-3.3 LT3971-3.3 L1117T-3.3 smbj2k3.3 SIPT425TA3 bv99-0.3 LT1432-3.3
Text: ?( @!A?('( #?)337?99666-3)* · /,)*,*0- 5-+4, ,.2- ,* ). 3 -+,< -*203+*, · D 88+,/ B-6+3)+,4 - 3 +*,C · + 3 ! 8* *03703 7*4.+2+3/ · , )+7 7*6 4*5 80, 3 +*, · -+4,5 8* ,32 ,3+0 22 ;0+, 3 · E D 8* 2+,. - 3 +*, · F D 8, .1.+2.2 · '( ( G D ( '( G D ) *+,- . -/,)*,*0- 1*23.4 *5 *, 3 *22 6+3) 36* 2*65*7*03 2+,. 402.3*7*1+5+,4 *- 3 *8 3 ) +0+3/ ,-./ 3 * +72, 3 3 ) 9 *,13- 8* 7*6+,4 .51.,5 +*7*-*- -0) .- ,3+0 ) -6+3)+,4 - 3 +*, 8.30- ., +,34.35


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