The Datasheet Archive

LTC1502CMS8-3 datasheet (4)

Part Manufacturer Description Type PDF
LTC1502CMS8-3.3 Linear Technology Single Cell to 3.3V Regulated Charge Pump DC/DC Converter Original PDF
LTC1502CMS8-3.3#PBF Linear Technology Single Cell to 3.3V Regulated Charge Pump DC/DC Converter Original PDF
LTC1502CMS8-3.3#TR Linear Technology Single Cell to 3.3V Regulated Charge Pump DC/DC Converter Original PDF
LTC1502CMS8-3.3#TRPBF Linear Technology Single Cell to 3.3V Regulated Charge Pump DC/DC Converter Original PDF

LTC1502CMS8-3 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1999 - 1206ZG106ZAT1A

Abstract:
Text: -LEAD PLASTIC MSOP J3 VIN CIN 10µF 8 7 6 5 1 2 3 4 LTC1502CMS8-3.3 J4 SHDN DC239 , + C1 LTC1502-3.3 1µF 3 6 C1­/SHDN C3 ­ 4 5 GND VIN JP1 ON C3 1µF TOP VIEW J2 , 3 1206ZG106ZAT1A 10µF 10V Y5V Capacitor AVX (843) 946-0362 JP1 1 2802S-03G2 3 -Pin, 2mm Jumper Comm Con (626) 301-4200 J1, J2, J3, J4 4 2501-2 0.090 Turret , C2 C1 C3 SHUTDOWN C1­/SHDN 3 2 C1+ C3­ C2 1 6 7 C3+ VIN CP1


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PDF DC239 LTC1502-3 DC239 dc239f 1206ZG106ZAT1A
1999 - marking LTHL

Abstract:
Text: . ­ 40°C to 85°C U W U PACKAGE/ORDER INFORMATION TOP VIEW C2 C1+ C1 ­/SHDN GND 1 2 3 4 8 7 6 5 VOUT C3 + C3 ­ VIN ORDER PART NUMBER LTC1502CMS8-3.3 LTC1502IMS8-3.3 MS8 PART MARKING LTEC LTHL C2 1 C1+ 2 C1­/SHDN 3 GND 4 MS8 PACKAGE 8-LEAD PLASTIC MSOP TJMAX = 125°C, JA = 250°C/ W Consult


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PDF LTC1502-3 LTC1502CMS8-3 LTC1502IMS8-3 LTC1502CS8-3 LTC1502IS8-3 15023I sn15023 marking LTHL ltec LTHL marking LTEC SN1502 top marking c3
1999 - motorola e6 charging jumper diagram

Abstract:
Text: -LEAD PLASTIC MSOP J3 VIN CIN 10µF 8 7 6 5 1 2 3 4 LTC1502CMS8-3.3 J4 SHDN DC239 , + C1 LTC1502-3.3 1µF 3 6 C1­/SHDN C3 ­ 4 5 GND VIN JP1 ON C3 1µF TOP VIEW J2 , 3 1206ZG106ZAT1A 10µF 10V Y5V Capacitor AVX (843) 946-0362 JP1 1 2802S-03G2 3 -Pin, 2mm Jumper Comm Con (626) 301-4200 J1, J2, J3, J4 4 2501-2 0.090 Turret , C2 C1 C3 SHUTDOWN C1­/SHDN 3 2 C1+ C3­ C2 1 6 7 C3+ VIN CP1


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PDF DC239 LTC1502-3 DC239 1500pF 100uF MBRD835L 1N914 LT1506CS8 08055C152MAT2S GRM235Y5V106Z motorola e6 charging jumper diagram marcon capacitor ce PAD092 marcon capacitor marcon CE capacitor 1206ZG106ZAT1A 2802S-03G2 capacitor Marcon
1999 - marking LTHL

Abstract:
Text: . ­ 40°C to 85°C U W U PACKAGE/ORDER INFORMATION TOP VIEW C2 C1+ C1 ­/SHDN GND 1 2 3 4 8 7 6 5 VOUT C3 + C3 ­ VIN ORDER PART NUMBER LTC1502CMS8-3.3 LTC1502IMS8-3.3 MS8 PART MARKING LTEC LTHL C2 1 C1+ 2 C1­/SHDN 3 GND 4 MS8 PACKAGE 8-LEAD PLASTIC MSOP TJMAX = 125°C, JA = 250°C/ W Consult


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PDF LTC1502-3 LTC1502CMS8-3 LTC1502IMS8-3 LTC1502CS8-3 LTC1502IS8-3 15023I sn15023a marking LTHL LTHL SN1502
1999 - ltec capacitor

Abstract:
Text: + C3 + LTC1502-3.3 6 3 C1­/SHDN C3 ­ 4 5 GND VIN 10µF 3.4 1µF 10µF TA = 25 , PACKAGE/ORDER INFORMATION ORDER PART NUMBER TOP VIEW C2 C1+ ­ C1 /SHDN GND 1 2 3 4 8 7 , ORDER PART NUMBER TOP VIEW C2 1 8 VOUT C1+ 2 7 C3 + C1­/SHDN 3 6 C3 ­ , ­/SHDN Shutdown Input Current C1­/SHDN = 0V (Note 3 ) q ­ 0.5 ­ 2.5 ­8 VOUT Turn-On Time , impaired. Note 2: Start-up testing is done with a 100k equivalent load on VOUT. Note 3 : Currents flowing


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PDF LTC1502-3 125in2. 100mW LT1610 LT1611 150mA, OT-23 LT1613 200mA ltec capacitor LT1521-3 MARKING S8
1999 - Not Available

Abstract:
Text: 2 1µF 7 C1+ C3 + LTC1502-3.3 6 3 C1–/SHDN C3 – 4 5 GND VIN 10µF 3.4 , /ORDER INFORMATION ORDER PART NUMBER TOP VIEW C2 C1+ – C1 /SHDN GND 1 2 3 4 8 7 6 , ORDER PART NUMBER TOP VIEW C2 1 8 VOUT C1+ 2 7 C3 + C1–/SHDN 3 6 C3 â , State q 0.20 0.55 0.85 C1–/SHDN Shutdown Input Current C1–/SHDN = 0V (Note 3 ) q , 100kΩ equivalent load on VOUT. Note 3 : Currents flowing into the device are positive polarity


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PDF LTC1502-3 125in2. 100mW LT1610 LT1611 150mA, OT-23 LT1613 200mA
1999 - BAT54

Abstract:
Text: Voltage vs Input Voltage 3.5 100 2 C2 VOUT 8 7 C3 + C1+ 1µF LTC1502-3.3 6 3 C1 , 3 4 8 7 6 5 VOUT C3 + C3 ­ VIN MS8 PACKAGE 8-LEAD PLASTIC MSOP TJMAX = 125°C, JA = 250°C/ W ORDER PART NUMBER TOP VIEW C2 1 8 VOUT C1+ 2 7 C3 + C1­/SHDN 3 6 , Current C1­/SHDN = 0V (Note 3 ) q ­ 0.5 ­ 2.5 ­8 µA VOUT Turn-On Time VIN = 1V , Note 2: Start-up testing is done with a 100k equivalent load on VOUT. Note 3 : Currents flowing into


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PDF LTC1502-3 125in2. LT1307/LT1307B 600kHz LT1308 300mA LTC1517-3 LTC1558/LTC1559 BAT54 LT1308 ltec capacitor marking LTEC TA03 Voltage quadrupler AC to DC 5 V
ltec capacitor

Abstract:
Text: VIEW NUMBER TOP VIEW NUMBER C2 1 C C1+ 2 E C17SHDN 3 E GND 4 E o □ 8 Vout □ 7 C3 + □ 6 C3~ â , C17SHDN Shutdown Input Current C17SHDN = 0V (Note 3 ) • -0.5 -2.5 -8 MA Vout Turn-On Time Vin = 1V, Iout , testing is done with a 10Okii equivalent load on Vout-Note 3 : Currents flowing into the device are , = z, OL •ol LOAD CURRENT (mA) INPUT CURRENT (pA) ' SS Ef 3 . o fi) a. cs c CD O fi9 CS c CD BATTERY LIFE (HOURS) EFFICIENCY (%) m 3D TI O 3D 3 n m INPUT CURRENT (jiA) 3 > 3 > CS c


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PDF 125in2 LTC1558/LTC1559 100mW LT1610 30jaA LT1611 150mA, OT-23 LT1613 200mA ltec capacitor C17S LTC1682 SOT23 EAB
2000 - lt941

Abstract:
Text: introduction of four power surface mount packages by LTC : the 3 -lead SOT-223, the DD package available in 3 -, 5- and 7-lead versions, the SOT-23 package available in 3 -, 5- and 6-lead versions and the 4 , Figure 1. Recommended Solder Pads 13-42 0.0197 TYP SMP 33 SURFACE MOUNT PRODUCTS M Package 3 , Package 3 -Lead SOT-223 0.129 MAX 0.045 ±0.005 0.245 MIN SW Package Wide (0.300) SO-16, SO , 0.050 TYP NOTE: ALL DIMENSIONS ARE IN INCHES S3 Package 3 -Lead SOT-23 0.754 0.754 0.764


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PDF dev50I 1550L 1550LI 1555I 1579I 1579I3 1579I5 1620I 1621I 1643H lt941 1174H5 1460d5 121i3 117450 ltc 1172 LT1682CMS8 ltbw ltc947 1507I3
1998 - LT1460BCS3-10

Abstract:
Text: - - H H H H J K G - T TV, TW, VS 3 - or 4-Lead TO-39 Metal Can H H H H J K G - T TV, TW, VS 2-, 3 - or 4-Lead Standard TO-46 Metal Can , ) JW - Q T L 2-Lead TO- 3 Metal Can K K Steel - - K - K KQ 4-Lead TO- 3 Metal Can K K - - - KJ K KS 20-Pin Leadless Chip Carrier , 36- and 44-Lead Plastic SSOP (Wide 0.300) 3 -Lead TO-52 Metal Can METAL CAN GN 8- or 10


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PDF 20-Lead 20-Lead 28-Lead LT1613CS5 LT1615CS5 LT1615CS5-1 LT1617CS5 LT1617CS5-1 LT1761ES5-1 LT1761ES5-2 LT1460BCS3-10 marking code LTGG LTGF marking code sot 23 MARK LTGG LTKD MARKING CODE ltbw LM 3937 LT1521CS8-3 LT1460BCS3-2 LTHS
117450

Abstract:
Text: H H H J K G - T TV, TW, VS 3 - or 4-Lead TO-39 Metal Can H H H H J K G - T TV, TW, VS 2-, 3 - or 4-Lead Standard TO-46 Metal Can or in Thermal , T L K K Steel - - K - K KQ 4-Lead TO- 3 Metal Can K K - , Small Outline 16-, 20-, 28- and 36-Lead Plastic Plastic SSOP (5.3mm) 2-Lead TO- 3 Metal Can , -Lead SSOP (Narrow 0.150) 3 -Lead TO-52 Metal Can METAL CAN FW 8- or 10-Lead TO-5 Metal Can


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PDF 20-Lead 20-Lead O-220 117450 TO253 lt941 ltc947 LT 129i5 1624i sm 2178a LT1510CGN sot23 1303 ltbw 83
lm 7803 3V Positive Voltage Regulator

Abstract:
Text: Narrow SSOP; SSOPW = Wide SSOP; SOW = Wide SO 3 Reference Material Space, Military, Harsh , 25°C (MHz) Slew Rate Typ 25°C (V/µs) 0.6 0.9 1.3 0.6 1.5 2 3 15 35 0.1 250000 , 1 1 1 0.8 0.3 0.3 50 3 0.3 13 Typ 13 Typ 16 Typ 8 Typ 2 Typ 20 Typ 6 Typ 12 Typ 10 , NUMERIC ORDER Part Number 35 Typ 1.5 3 1.5 3 2.5 5 100 125 160 200 500 600 3 3 3 3 8 Typ 8 Typ 8 Typ 70 70 70 70 300 300 300 7 Typ 7 Typ 7 Typ 10 Typ 9 Typ 6 Typ


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PDF D-59387 D-73230 1-800-4-LINEAR lm 7803 3V Positive Voltage Regulator ic 4440 40w amplifier 12v mt 1389 de ltsx e3 w10 mic package bridge rectifier LM 4440 AUDIO AMPLIFIER CIRCUIT PF08109B smd code marking 162 sot23-5 ul 1741 grid te inverter datasheet ltqt e3
SMD LTYN

Abstract:
Text: Reference Material MS-8, MS-10 = MSOP; SSOPN = Narrow SSOP; SSOPW = Wide SSOP; SOW = Wide SO 3 , 25°C (nA) GBW Typ 25°C (MHz) Slew Rate Typ 25°C (V/s) 0.6 0.9 1.3 0.6 1.5 2 3 , 1.1 8.5 Typ 18 1 1 1 1 0.8 0.3 0.3 50 3 0.3 13 Typ 13 Typ 16 Typ 8 Typ 2 Typ 20 Typ , AmplifIers NUMERIC ORDER Part Number 35 Typ 1.5 3 1.5 3 2.5 5 100 125 160 200 500 600 3 3 3 3 8 Typ 8 Typ 8 Typ 70 70 70 70 300 300 300 7 Typ 7 Typ 7 Typ 10 Typ 9 Typ


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PDF D-59387 D-73230 1-800-4-LINEAR SMD LTYN ic 4440 40w amplifier 12v ltls e3 Weston 2281 thermometer LT3060ITS8 Transistor SR 6863 TO-126 LTC3855EUH-1 5Dx diode SMD LTPG e3 LTABA
mosfet 4800

Abstract:
Text: Micropower Page 59 Application Specific High Frequency Page 60 Reference Material 3 Sec 1_OpAmps_0415-08.indd 3 4/15/08 5:44:27 PM AMPLIFIERS NUMERIC ORDER Reference Material High Frequency , 1.3 0.6 1.5 2 3 15 35 0.1 250000 0.1 20 20 0.05 0.12 90 35 0.05 0.05 0.05 0.05 9 , 1.8 1.2 2 8 0.5 1.5 1.1 8.5 Typ 18 1 1 1 1 0.8 0.3 0.3 50 3 0.3 13 Typ 13 Typ 16 , SSOP; SOW = Wide SO 4/15/08 5:44:27 PM AMPLIFIERS NUMERIC ORDER 35 Typ 1.5 3 1.5 3 2.5


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PDF D-59387 D-73230 1-800-4-LINEAR mosfet 4800 schematic diagram inverter 12v to 24v 30a schematic diagram inverter 500w USING MOSFET 4606 MOSFET INVERTER ltsx e3 mosfet driver ic aot 110 optocoupler mt 1389 de 4558 opamp schematic ic 4440 40w amplifier 12v LTPG e3
2000 - 220v AC voltage stabilizer schematic diagram

Abstract:
Text: SMT I S C 6E 3 . ELUMTM Pushbuttons & Industrial Control Switch Modules . . . . . , 218-681-6674 · Fax: 218-681-3380 (B092) 3 PRODUCT INDEX Items listed as digikey.com do not appear


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PDF AD9272 P462-ND LNG295LFCP2U P463-ND LNG395MFTP5U 220v AC voltage stabilizer schematic diagram LG color tv Circuit Diagram tda 9370 1000w inverter PURE SINE WAVE schematic diagram schematic diagram atx Power supply 500w TV SHARP IC TDA 9381 PS circuit diagram wireless spy camera 9744 mini mainboard v1.2 sony 279-87 transistor E 13005-2 superpro lx
2013 - LT3973-3.3

Abstract:
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 CJP1117T-3.3 AS1084R-3.3 CX91628-3.3 LM3674MF-3.3
LT3973-3.3

Abstract:
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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 TH2067.3 LM3674MF-3.3 LM1585AIT-3.3 LP2950DT-3.3
LT3973-3.3

Abstract:
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 L1117T-3.3 AZ1085S-3.3 LT3971-3.3 UTC1117T-3.3 TH3140.3 TH3147.3
LT3973-3.3

Abstract:
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:
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 L1117T-3.3 LT1432-3.3 LT3971-3.3 TH3140.3
1998 - LT3973-3.3

Abstract:
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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PDF
LT3973-3.3

Abstract:
Text: 8 4 5 6 6 -5 0 3 5 09462K07 8 4 5 6 6 -5 0 4 1 09566M 07 8 4 5 6 6 -0 0 6 5 07264M 07 8 4 5 8 1 -0 0 0 0 09357K07 8 4 5 6 6 -5 0 3 6 09462M 07 8 4 5 6 6 -0 0 4 1 09567K07 8 4 5 6 6 -5 0 6 6 07362M 07 8 4 5 8 1 -0 0 0 3 09358K07 8 4 5 6 6 -5 0 3 7 09463K07 , 8 4 5 6 6 -5 0 3 8 09463M 07 8 4 5 6 6 -0 0 4 2 09568K07 8 4 5 6 6 -5 0 6 7 07382M 27 8 4 5 8 3 -0 0 0 2 09360K07 8 4 5 6 6 -5 0 3 9 09464K07 8 4 5 6 6 -5 0 4 3 09568M 07


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PDF 07262M 09356K07 09462K07 09566M 07264M 09357K07 09462M 09567K07 07362M 09358K07 LT3973-3.3 L1117T-3.3 LI-CAM-IMX136-1.8 LM3670MFX-0.8 LT1432-3.3 LT3971-3.3 SFH7781-1/2/3
LT3973-3.3

Abstract:
Text: 123456753859AB 1234567839AB2CD3 F 3 ?7%3D> 3 8&3> 3 3 >'3&5.&F3 F8778&32%F'8> 3 -&$3873A$3A"31"3M3K3!##$F783 E1223 D7 3 5 !""5  3 E1223 BC3D345EA3F735EA33 43 E1 3 BC3D345EA3F735EA323D33133 43 A78F873 43 B88F3  3 B3D345EA33 5  3 B3D345EA"3#$ 3%&F'3 $(F& 3 )*3BC33 + 3 ! 3 ! 3 B3D345EA33 +  3 ! 3 C! 3 B3D345EA33 , 53 (C3 3 !'(!33 -2323-1"3&.&F3233


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PDF 123456753859AB 1234567839AB2CD3 E1223 BC3D345EA3F73 3D345EA33 3D345EA LT3973-3.3 AP2408ES5-3.3 as1117l-3,3 SIPT425TA3 LT3971-3.3 LT1432-3.3 L1117T-3.3 KIA1085-3.3 TT8112-3.3
LT3973-3.3

Abstract:
Text: .0 8 mm / 0 .2 in Pin spacing 7.5/7.62 mm / 0 . 3 in Pin spacing 10/10.16 mm / 0.4 in 2 x 0.25 - 0.75 mm1V 2 x AWG 2 4 - 1 8 'so l.” 250 V /4 k V / 3 ,10 A 500 V /4 k V / 2 ,10 A 2 x0 .2 5 -0 .7 5 mmJ"s" 2x AWG 2 4 - 1 8 "sol.” 400 V /6 k V / 3 ,10 A 800 V /6 k V / 2 ,10 A 2 xO.25 - 0.75 m rn 'Y 2x AWG 500 V /8 k V / 3 ,10 A 1000 V /8 k V / 2 ,10 A h A _ l — 1 9 - 1 0 mm / 0.d7 in A No. of poles Item-No. L- 3 9 - 10 mm / 0.37 in No. of poles


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2005 - LT3973-3.3

Abstract:
Text: 1.5 0.4 5 2 2.6 25 18 0.042 13×7 20±2 1.5 0.55 6 2 13×8 48 0.058 22 3 20±2 1.5 0.55 6 2 26 0.042 19 , 7.3 0.6 10.5 20±2 1.5 3 40 0.035 18 21×11 9 10.2 0.8 20±2 1.5 3 72 0.042 20 21×11 9 10.8 0.8 20±2 1.5 3 0.8 110 0.052 26 21×12 11.8 10 20±2 1.5 5 64 0.032 32 25×12 15.8 1.0 11 20±2 1.5 5 100 0.040 34 , Dimensions D H Soldered [mm] Impedance vs. Frequency SN3-200 1M 100K 6 3 1 6 3 1 6 3 1 6 3 1 6 3 1 6 3 1 6 3 SN5-300 1M 100K 6 3 1 6 3 1 6 3 1 6 3 1 6 3 1 6 3 1 6 3 Impedance () 1K 100


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PDF SN3-200 SN5-300 SN5-400 SN8S-300 SN8S-400 SN8S-500 SN8D-300 SN8D-400 SN8D-500 SN10-300 LT3973-3.3 LTC4098-3.6 MM1117-3.3 SN12-400 KC547 L1117T-3.3 LT1432-3.3 LT3971-3.3
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