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smd E6

Abstract: diode smd E6 CBW004 CBW166 CBW167 E54705 33mm2
Text: Philips Components Product specification E cores and accessories E6. 3 /2.9/2 CORE SETS , 0 -0.1 0 -0.1 CBW004 Dimensions in mm. Fig.1 E6. 3 /2.9/2 core half. Core halves for , (µm) 3F3 360 ±25% 1050 0 E6. 3 /2.9/2-3F3 3F4 225 ±25% 660 0 E6. 3 /2.9 , density B 0.1 mT AL (nH) µe AIR GAP (µm) 3E1 700 ±25% 2060 0 E6. 3 /2.9/2-3E1 3E5 1700 +40/-30% 5000 0 E6. 3 /2.9/2-3E5 3E6 2100 +40/-30% 6180 0 E6. 3 /2.9


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PDF CBW004 CBW167 smd E6 diode smd E6 CBW004 CBW166 CBW167 E54705 33mm2
diode smd E6

Abstract: cphs 3C96 CBW004 CBW166 CBW167 E54705 ferroxcube E 40 core
Text: FERROXCUBE DATA SHEET E6. 3 /2.9/2 E cores and accessories Supersedes data of September 2004 2008 Sep 01 Ferroxcube E cores and accessories E6. 3 /2.9/2 CORE SETS SYMBOL PARAMETER , Dimensions in mm. Fig.1 E6. 3 /2.9/2 core half. Core halves for general purpose transformers and power , 1110 3F3 360 ±25% 1050 0 E6. 3 /2.9/2-3F3 3F35 300 ±25% 875 0 E6. 3 /2.9/2-3F35 3F4 225 ±25% 660 0 E6. 3 /2.9/2-3F4 3C96 2008 Sep 01 0 TYPE NUMBER


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PDF CBW004 diode smd E6 cphs 3C96 CBW004 CBW166 CBW167 E54705 ferroxcube E 40 core
1998 - SMD Coil Formers and Cores

Abstract: philips EFD core EFD10 EFD15-3F3-A63S CPHS-EFD15-1S-8P Indiana general ferrite core 3f3 ferrite power EFD10 philips 95025 indiana general ferrites philips ferrite core rm4
Text: SMD Coil Formers and Cores Contents Introduction 3 Ferrite Material Properties 6 Range Overview 7 E5. 3 /2.7/2 8 E6. 3 /2.9/2 10 EFD10 12 EFD12 14 EFD15 16 EFD20 , . > 0.1 mm Fig.1 The "gull-wing" design. 3 Philips Magnetic Products Advantages of the U-pin , Type 3F3 3F4 Core materials 3E4 E5. 3 /2.7/2 E6. 3 /2.9/2 EFD10 EFD12 EFD15 EFD20 EP7 ER9 , coil former E5. 3 /2.7/2 3.6 ± 0.1 1.2 2.3 ± 0.1 1.5+0.1 0 1.6 0 3.7 -0,15 0.5


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PDF EFD10 EFD12 EFD15 EFD20 SMD Coil Formers and Cores philips EFD core EFD10 EFD15-3F3-A63S CPHS-EFD15-1S-8P Indiana general ferrite core 3f3 ferrite power EFD10 philips 95025 indiana general ferrites philips ferrite core rm4
E71/33/32-3C90

Abstract: 43120203664 philips rm8 3C85 a250 P14/8-3H1-A315/N 4330-030-3779 EC35-3c8 3C80 philips ETD29-3C85 ETD34 3C80 P22/13-3B7
Text: 43220213871 PREF BD6.4/ 3 /25-4S2 43300304369 DES ADJ-RM4/RM5-GREY 43220213879 PREF BD7 , PREF BD8/2/10-4S2 43300303323 OBS ADJ-RM6-GREY 43220213869 PREF BD8/ 3 /4-4S2 43300303318 PREF ADJ-RM6-RED 43220213862 PREF BD8/ 3 /10-4S2 43300303320 PREF , PREF BDS3/1.8/5.3-4S2 43300303682 DES BC13/4.8/16-3C85 43300303894 SUP BDS3/ 3 , NUMBER Type number to 11NC 11NC CPS TYPE NUMBER 11NC CPS BDS3/ 3 /4.6-4S2


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PDF P26/16-3H1-A630/N E55/28/21-3F3 RM6R-3H1-A160 P30/19-3H1-E250 RM6R-3H1-A250 P30/19-3H1-E315 RM6R-3H1-A315 RM6R-3H1-A400 RM6R-3H1-A630 RM8-3H1-E250 E71/33/32-3C90 43120203664 philips rm8 3C85 a250 P14/8-3H1-A315/N 4330-030-3779 EC35-3c8 3C80 philips ETD29-3C85 ETD34 3C80 P22/13-3B7
3H1 ferroxcube

Abstract: ferroxcube 3E2 4322-020-34420 43220203440 4330-030-34220 432202034400 4313-020-15170 4322-020-97160 4322-021-33850 4322-021-30
Text: ) 2) 3 ) Shape Size - width, length, thickness Material 3 3 = MnZn (Manganese Zinc) 4 = NiZn , High permeability with a 3 prefix A = High permeability with a 4 prefix Pcl_fpl\dept\Ferrite\csg\ 12nc , /40-3C6-DL TUB4.9/ 3 /36-3C6-DL TUB5/1.3/26-3C6-DL MHB2-14/8.6/8-4C65-F CPH-U10/8/3-1S-4P ROD4.9/ÖO-3C6-DL Il 5/ 3 /3-3C6 TUB3.1/1.3/19-3B1 -DL TUB11/6.7/20-4A4-L ROD1.6/4-1 P06-D ROD5/30-3C6-DL ROD1.6/4-4D2 , .6/6-3B1 -D ROD2. 3 /1Û-3B1-D ROD1.6/9-3B1 -D ROD5/24-3B1 -P ROD4/25-3C6-D ROD2.2/16-4B1 ROD2.5/20-4B1-B ROD3


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PDF PT23/11/I-3F3-A315 PT23/11/I-3F3-A400 PTS23/11/I-3C81 PTS23/11/I-3C81-A100 PTS23/11/I-3C81-A160 PTS23/11/I-3C81-A250 PTS23/11/I-3C81-A315 PTS23/11/I-3C81-A400 PTS23/11/I-3C85 PTS23/11 3H1 ferroxcube ferroxcube 3E2 4322-020-34420 43220203440 4330-030-34220 432202034400 4313-020-15170 4322-020-97160 4322-021-33850 4322-021-30
PHILIPS toroidal core 2P80

Abstract: PHILIPS toroidal core 3c90 push-pull converter design philips 3e1 ferrite material Philips Components, Soft Ferrites 3C11 PHILIPS toroidal core 4a11 ETD29-3C90 smd marking 330 e71 ETD59-3F3 philips 4b1 ferrite rod
Text: (µi) and saturation induction levels (Bs) and are suitable up to 3 MHz. For some products, for , permeability is then called the reversible permeability (µrev). ( 3 ) Since there are several versions of , , causing a phase shift, which can be represented by a series or parallel resistance as shown in Figs 3 , lower. Fig. 3 Series representation. Effective permeability is dependent on the initial , . Eddy current losses 3 . Residual losses. This gives the formula: tan m = tan h + tan f +


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PDF CBW204 TN33/20/11 TN33/20/11-2P40 TN33/20/11-2P50 TN33/20/11-2P65 TN33/20/11-2P80 TN33/20/11-2P90 PHILIPS toroidal core 2P80 PHILIPS toroidal core 3c90 push-pull converter design philips 3e1 ferrite material Philips Components, Soft Ferrites 3C11 PHILIPS toroidal core 4a11 ETD29-3C90 smd marking 330 e71 ETD59-3F3 philips 4b1 ferrite rod
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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PDF
LT3973-3.3

Abstract: L1117T-3.3 LI-CAM-IMX136-1.8 SFH7781-1/2/3 LM3670MFX-0.8 LT3971-3.3 LT1432-3.3
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 SFH7781-1/2/3 LM3670MFX-0.8 LT3971-3.3 LT1432-3.3
LT3973-3.3

Abstract: AP2408ES5-3.3 as1117l-3,3 KIA1085-3.3 L1117T-3.3 LT1432-3.3 LT3971-3.3 SIPT425TA3 TT8112-3.3
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 KIA1085-3.3 L1117T-3.3 LT1432-3.3 LT3971-3.3 SIPT425TA3 TT8112-3.3
LT3973-3.3

Abstract: KIA1085-3.3 L1117T-3.3 LT1432-3.3 LT3971-3.3
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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PDF
2005 - LT3973-3.3

Abstract: MM1117-3.3 LTC4098-3.6 SN12-400 KC547 L1117T-3.3 LT3971-3.3 LT1432-3.3
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 MM1117-3.3 LTC4098-3.6 SN12-400 KC547 L1117T-3.3 LT3971-3.3 LT1432-3.3
2006 - LT3973-3.3

Abstract: LTC4098-3.6 tokin 108 L1117T-3.3 LT3971-3.3 LT1432-3.3
Text: 15 8.5×5.5 20±2 1.5 0.045 0.4 5 2 25 2.6 0.042 18 13×7 20±2 1.5 0.55 6 2 13×8 48 0.058 22 3 20±2 1.5 , 2 125 0.100 27 17×13 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 3 110 0.052 26 21×12 11.8 0.8 10 20±2 1.5 5 64 0.032 32 25×12 15.8 1.0 11 20±2 , 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 10 1 Impedance () 3 6 1 3 6 1 3 6 1 3 6 1 3 10K 10K 1K 100 10 1 0.1 1K


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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 tokin 108 L1117T-3.3 LT3971-3.3 LT1432-3.3
2001 - LT3973-3.3

Abstract: CDR01-CDR06 C1206 KEMET packaging PEF55801VV1.3 CDR05BX823BKW CDR31-CDR35 MIL-PRF-55681 kemet 31G-4 CDR33 CDR03
Text: NUMBER REFERENCE BP BX BX BP BX BX 100 Volt - C0805 SIZE (MILITARY CDR01) 10 J,K C0805P100( 3 )1G(4)C CDR01BP100B( 3 )W(4) 12 J C0805P120J1G(4)C CDR01BP120BJW(4) 15 J,K C0805P150( 3 )1G(4)C CDR01BP150B( 3 )W(4) 18 J C0805P180J1G(4)C CDR01BP180BJW(4) 22 J,K C0805P220( 3 )1G(4)C CDR01BP220B( 3 )W(4) 27 J C0805P270J1G(4)C CDR01BP270BJW(4) 33 J,K C0805P330( 3 )1G(4)C CDR01BP330B( 3 )W(4) 39 J C0805P390J1G(4)C CDR01BP390BJW(4) 47 J,K C0805P470( 3 )1G(4)C CDR01BP470B( 3 )W(4) 56 J C0805P560J1G(4)C


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PDF CHIP/MIL-PRF-55681 CDR01 CDR02 CDR03 CDR04 C0805 C1805 C1808 C1812 CDR05 LT3973-3.3 CDR01-CDR06 C1206 KEMET packaging PEF55801VV1.3 CDR05BX823BKW CDR31-CDR35 MIL-PRF-55681 kemet 31G-4 CDR33 CDR03
LT3973-3.3

Abstract: L1117T-3.3 LT3971-3.3 LT1432-3.3
Text: RIPPLE V O LTAG E (P-P) 25% 20% 5% 3 % AB D Ïf A B D Ï F in air at room temperature. l% .5% 0 POWER FACTOR vs TEMPERATURE (°C) @ 6 0 Hz 0 20 - 4 3 /4 2 3 /4 6 5 3 /8 * 4 3 6 5 2 3 /4 3 /4 A B D E f TEST VOLTAGE is 1 5 0 % of nameplate voltage for two minutes 2 3 /4 13/4 4 3 5/16 * ~ - 6 4 8 7 3 6 5 8 7 4 3 /4 3 /4 10 7 12 11 6 3 /4 3 /4 3 /4 3 /4 3 /8 1/4 A - 10 3.4 B - 6 3 /4 D - 12 1 - 1 1 5/16 F - 5 1/4


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PDF LJ500-502 LJ500-203 LJ500-503 LJ500-104 LJ500-124 LJ500-154 LJ500-204 LJ500-254 LJ500-304 LJ800-502 LT3973-3.3 L1117T-3.3 LT3971-3.3 LT1432-3.3
2010 - LT3973-3.3

Abstract: PLT1SM plb4s-c LT3971-3.3 L1117T-3.3 PLT12EH-Q CBR2M-M UV18 sst1m-m BT1M-XMR
Text: Panduit Suffix 3 0 00 1 2 3 4Y 5 6 7 8 10 14 20 30 Material Heat Stabilized Nylon 6.6 Nylon 6.6 Nylon , Panduit Suffix 39 53 54 55 59 60 69 71 76 86 100 109 120 300 702Y 3 Denotes Panduit Natural Nylon 6.6 , 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 Material/Color Suffix 0 0 0 0, 14 0 0 0 0 3 , 4Y 0 0, 4Y 0 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 Material/Color Suffix 0, 30 0, 30 0 0, 20, 30 0 0, 30 0, 30 0, 30 0, 2, 3 , 4Y, 6, 10, 69 0, 2, 3 , 4Y, 5, 6, 10 3 0, 1, 2, 3 , 4Y, 5, 6, 7, 8, 10, 69 0, 4Y, 6 0, 2, 3


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PDF HLM-15R HLS-15R HLS-75R TTS-20R TTS-35RX TTS-35R3 LT3973-3.3 PLT1SM plb4s-c LT3971-3.3 L1117T-3.3 PLT12EH-Q CBR2M-M UV18 sst1m-m BT1M-XMR
1999 - LT3973-3.3

Abstract: a933 transistor A933 BA7626 BA7626F L1117T-3.3 LT3971-3.3 LT1432-3.3
Text: ·Features/ 3 -output switches. 1) 5-input 3 ) Built-in 6dB amplifiers. 4) 5V supply voltage. 2) 20k , 1 16 IN1 GND 2 15 CTL A IN5 3 14 VCC GND 4 13 VCC IN4 , Standard voltage (no input signal) 5V) Equivalent input / output circuit IN VCC 3 5 7 12 , 40k QN5 10 14 VOUT2 VOUT1 100 200µA QN20 2.0V D VOUT 600µA QN QN15 3 , -P CTM - ­ 35 ­ 25 dB f = 4.43MHz, VIN = 1VP-P ­ 3 0 3 dB 10MHz / 1MHz, VIN


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PDF BA7626 BA7626F BA7626F BA7626 DIP16 51Min. LT3973-3.3 a933 transistor A933 L1117T-3.3 LT3971-3.3 LT1432-3.3
LT3973-3.3

Abstract: L1117T-3.3 LT3971-3.3
Text: (5) 25 (8) 1 @ 150(8) 3 3 3 3 3 1NU88A 1N1189 1N1189A 1N1190 IN I190A 1.1 ( 3 ) 1.5(7) 1.1 © 1.5(7) 1.1 © 1.5(7) 1.1 ( 3 1.5(7) 1.5 @ 25 (9) 1 < 150(8) ® .002 (2) 25 (8) .002 (S 25 (8) > .002 (2) 25 (8) .002 @ 25 (8) 3 3 3 3 3 25 (9) .002 @ 25 (8) 2.5(24) 0.4 ( , 1N1192A 1N1193 1N1193A 50 100 100 150 150 18 < 140 3 18 < 140 3 22 @ 150 18 < 140 3 22 < 150 3 1.3 © 50 1.3 © 50 1.2 ( 3 60 1.3 < 50 3 1.2 < 60 3 10 © 10 © 2.5 ( 3 10 Â


OCR Scan
PDF 1NU88A 1N1189 1N1189A 1N1190 I190A LT3973-3.3 L1117T-3.3 LT3971-3.3
2005 - LT3973-3.3

Abstract: L1117T-3.3 LT3971-3.3
Text: – less than 3 % or 0.25 pF, whichever is higher X7R – ±20% of initial value Dissipation Factor , ,500 1,800 2,200 2,200 2,700 3 ,300 3 ,300 3 ,900 4,700 4,700 10 20 10 10 20 10 10 20 , 2,200,000 3 ,300,000 3 ,300,000 10 20 10 20 KEMET PART NUMBER MIL-C-11015/20 MIL-PRF , 10 10 20 1,200 1,500 1,500 1,800 2,200 2,200 2,700 3 ,300 3 ,300 3 ,900 4,700 4,700 5 , ) C05(4)(1)100K2X5C(2) CK05BX100K CKR05BX100K(2)( 3 ) 1201( 3 ) CK05BX100M CKR05BX100M(2)( 3 ) 1202( 3


Original
PDF EIA-198 LT3973-3.3 L1117T-3.3 LT3971-3.3
2001 - LT3973-3.3

Abstract: MARKING C114 ceramic capacitor 103 kck MARKING C124 C114 C062k105 kck capacitor M390 1553 ckr06 ceramic capacitor M39014 2- 1415 J50V 105K
Text: 3 % or 0.25 pF, whichever is higher X7R ­ ±20% of initial value Dissipation Factor: C0G ­ .25% , 330 330 390 470 470 560 680 680 820 1,000 1,000 1,200 1,500 1,500 1,800 2,200 2,200 2,700 3 ,300 3 ,300 3 ,900 4,700 4,700 5,600 6,800 6,800 8,200 10,000 10,000 5,600 6,800 6,800 8,200 10,000 10,000 12,000 , ,000 680,000 680,000 1,000,000 1,000,000 2,200,000 2,200,000 3 ,300,000 3 ,300,000 10 10 20 10 10 20 , ,200 2,700 3 ,300 3 ,300 3 ,900 4,700 4,700 5,600 6,800 6,800 8,200 10,000 10,000 12,000 15,000 15,000 18


Original
PDF MIL-C-11015; MIL-PRF-39014. MIL-C-11015) MIL-PRF-39014) MIL-C-11015 MIL-PRF-39014 LT3973-3.3 MARKING C114 ceramic capacitor 103 kck MARKING C124 C114 C062k105 kck capacitor M390 1553 ckr06 ceramic capacitor M39014 2- 1415 J50V 105K
LT3973-3.3

Abstract: AT3552E oryx AT24C08A AT35000 L1117T-3.3 LT3971-3.3
Text: Tester @ 25C and 125C Stress Test Temperature: 25C Quantity Tested: 3 /Lot/Voltage Device: AT3552E Human Body Model Testing ­ Mil Std 883, Method 3015 Lot Number: 3h6489 3 Positive & 3 Negative Pulses , Function Tested As Qty/Fail Voltage 500V 2000V Name 1000V 4000V Vcc Power Vcc 3 /0 3 /0 3 /0 3 / 3 3 /0 2000 Gnd Ground Gnd 3 /0 3 /0 3 /0 3 / 3 3 /0 2000 A0 Address Input/Output 3 /0 3 /0 3 /0 3 / 3 3 /0 2000 A1 Address Input/Output 3 /0 3 /0 3 /0 3 / 3 3 /0 2000 A2 Address Input/Output


Original
PDF AT24C08A AT3552E) AT24C08A AT35000 142AX AT3552E LT3973-3.3 AT3552E oryx L1117T-3.3 LT3971-3.3
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