NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: ) 2) 3) 4) Cores made of NiZn ferrite may exceed the specified dimensions by up to 5 %. In , 15 ,um. Ordering code for coated version: 862152-P 862152-P. Siemens Matsushita Components of the , copper ring is pressed to the top edge of the ring. It touches the ferrite ring at the edges (see , for small cores (5 R4) 0 Coated with epoxy resin; thickness of coating approx. 0,15 to 0,3 mm, coating for large cores, on request Siemens Matsushita Components B64290-K B64290-K. B64290-P B64290-P. ... | Original |
5 pages, |
siferrit B62152-A4-X30 B62152-A7-X17 B62152-A7-X30 B62152-A8-X1 B62152-A8-X30 B62152A8X17 B62152 B62152A7X17 B64290-K P Ferrite Siemens B62152-A8-X17 Ferrite Siemens r4 B62152 abstract |
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| Abstract: to the top edge of the ring. It touches the ferrite ring at the edges (see diagram). The test duration is 2 seconds; the test voltages specified in the table are minimum values: Ferrite ring Urms , 10 to 15 um, standard coating for small cores ( R4) q Coated with epoxy resin; thickness of coating approx. 0,15 to 0,3 mm, B64290-L B64290-L. coating for large cores, on request Siemens , neither susceptible to electromagnetic interference, nor emit spurious radiation. Ferrite cores are ... | Original |
4 pages, |
Ferrite Siemens r4 b64290a B64290-K datasheet abstract |
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| Abstract: coated cores, ring cores made of NiZn ferrite may exceed the specified dimensions by up to 5 % Siemens , da-ringk Seite 2 Mittwoch, März 26, 1997 9:53 AM Ring cores with the new blue epoxy coating from Siemens , information contact the Siemens office near you or write us at Siemens Matsushita Components GmbH & Co. KG , Siemens Matsushita Components 3.97 3 da-ringk Seite 4 Mittwoch, März 26, 1997 9:53 AM Ring , ring. It touches the ferrite ring at the edges (see diagram). The test duration is 2 seconds; the test ... | Original |
14 pages, |
HP 2530 B64290K -A22-X830 k632 siemens N30 siemens ring core b64290 -K37-X830 B64290-k ferrite n67 Ferrite Siemens r4 k618 Siemens Ferrite n27 Siemens Ferrite B64290 FERRITES N67 datasheet abstract |
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| Abstract: NiZn ferrite may exceed the specified dimensions by up to 5 % Siemens Matsushita Components 583 , , ring cores made of NiZn ferrite may exceed the specified dimensions by up to 5 % 584 Siemens , cores made of NiZn ferrite may exceed the specified dimensions by up to 5 % Siemens Matsushita , 2200 3060 3060 R4 R 6,3 R 9,5 / 2 R 10 R 12,5 AL1min Power loss per core nH , Other cores on request. 2) Preliminary data 586 Siemens Matsushita Components Ring Cores ... | Original |
6 pages, |
-K45-X38 -A632-X35 -K37-X830 N492 K674 -K674-X67 -K37-X38 -K659-X830 B64290P35X830 ferrite n67 Ferrite Siemens r4 k659 -K36-X830 Siemens Ferrite n67 B64290 B64290 abstract |
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| Abstract: type and inductance factor (AL) from Epcos ferrite Databook or CD-ROM Passive Components. Selected , ,3T for ferrite cores depending on core Ae = 83 mm 2 AN = 108,5 mm material. lN = 64,4 mm weight , typ. R1 R4 R5 C1 C2 TL431 TL431 R2 Fig. 4 I FB max = I FB min = VRe f int RFB , - (V FD + V REF ) ) I F max I æ ö V FD + ç R3 FB min Gc è R4 I KA min (Eq 48) R3 , offices worldwide  partly represented by Siemens AG A F J RC Siemens AG Ã-sterreich ... | Original |
29 pages, |
siemens 3uf SIEMENS epcos CAPACITORS Siemens Ferrite n27 TDA16831 TDA1683X tda16833g35w TDA16834 TDA16833 epcos ferrite SFH617 siemens ferrite transformer siemens r10 core SFH617-3 AN-SMPS-1683X AN-SMPS-1683X abstract |
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| Abstract: type and inductance factor (AL) from Epcos ferrite Databook or CD-ROM Passive Components. Selected , ,3T for ferrite cores depending on core Ae = 83 mm 2 AN = 108,5 mm material. lN = 64,4 mm weight , ) Fig. 3 Vout Primary side: R3 R1 R4 R5 Feedback voltage: Values from TDA16831 TDA16831.34 , + ç R3 FB min Gc è R4 I KA min (12V - (1,2V + 2,5V ) ) = 0,83k 910R 10mA æ 0,2mA ö 1 , Infineon Technologies AG sales offices worldwide  partly represented by Siemens AG A F J RC ... | Original |
29 pages, |
epcos capacitor B43505 siemens ferrite transformer siemens r10 core flycal excel SWITCH MODE TRANSFORMER NUMBERING TDA16822 equivalent 12v transformer winding formula tda16833g TDA16833 SFH617 Siemens Ferrite n27 SMPS CIRCUIT DIAGRAM USING TRANSISTORS AN-SMPS-1683X AN-SMPS-1683X abstract |
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| Abstract: Hz Select core type and inductance factor (AL) from Epcos ferrite Databook or CD-ROM Passive , Ae = 83 mm Bmax 0,2T .0,3T for ferrite cores depending on core AN = 108,5 mm2 material. lN = , Vout Primary side: R3 R1 R4 R5 Feedback voltage: Values from TDA16831 TDA16831.34 datasheet , Gc R4 I KA min (12V - (1,2V + 2,5V ) ) = 0,83k 910R 10mA 0, 2mA 1,2V + 910 R 1 , Infineon Technologies AG sales offices worldwide  partly represented by Siemens AG A F J RC ... | Original |
29 pages, |
tda 16833 g TDA16822 equivalent TDA16833 smps transformers epcos TDA16822 datasheet siemens ferrite transformer CoolMOS power ic SMPS CIRCUIT DIAGRAM USING TRANSISTORS flycal B41826 250 uH flycal excel AN-SMPS-1683X AN-SMPS-1683X abstract |
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| Abstract: Siemens Components 2/86 - Page 59 to 62 - Author: Klaus Wetzel and Lothar Kuczynski More and more , is placed in ihe air gap of a ferrite core with windings through which the load eurrent flows 1/5 , factor 1 + R5/R4. In the lab test this circuit using a LF357N LF357N op-amp achieved good results. In this , signal amplifier circuit and The result is amplified by the factor (1 + R5/R4) to about 5 V. Thus , sheets and application notes. Send your inquiries to your nearest Infineon Technologies or Siemens ... | Original |
5 pages, |
hall effect sensor for measure above 10 Hall opamp 3 phase motor siemens induction motor Hall Effect Current Measurements Hall sensors Siemens siemens r10 core of induction type wattmeter KSY10 three phase pulse generator LF357N Hall Siemens ksy10 datasheet abstract |
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| Abstract: # DEVICES R1, R2,R3, R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15, R16 R17, R23 R18 R19, R20 R21 R22 C1, C2, C3, C4 C5, C13 , 1N4744ADICT-ND 1N4744ADICT-ND Ferrite bead cores axial-leaded (15mm x 3.8mm ) 0.6mm lead diameter Panasonic, EXCELSA391 EXCELSA391, Digi-Key P9818BK-ND P9818BK-ND Ferrite SMD Bead SMD 1806 Steward, LI 1806 E 151 R Digi-Key 240-1030-1-ND 240-1030-1-ND , AC 275V, 140Joules FARNELL No. 580-284, Siemens, S20K275 S20K275 0.1, 5%, ¼W, 200V SMD 1210 Resistor ... | Original |
23 pages, |
LM78L05ACM smd 1206 resistor Z3 SMD X079-ND ERJ resistor zener smd diode 16v 1w P9818BK 0402 resistor Z1 SMD 220uF 16V Electrolytic Capacitor smd LM78L05ACM-ND P9818BK-ND capacitor 100nf 50v smd polyester datasheet abstract |
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| Abstract: The resistors R1 and R2 represent the voltage divider for the reference diode TL431CLP TL431CLP (IC2). R4 , Material = N27 Epcos ,Ferrite Databook" or CD-ROM AL = 111 nH ,Passive Components". s = 0,75 mm Fix maximum flux density: Ae = 52 mm2 Bmax 0,2T .0,3T for ferrite cores depending on , limit) R1 R4 R3 Primary side: C1 Feedback voltage: C2 Values from ICE2AXXX , R3 FB min Gc R4 I KA min (Eq 58) (16V - (1,2V + 2,5V ) = 0,74k 0,75k 20mA 0,5mA ... | Original |
44 pages, |
smps 10w 12V ICE2A365 ICE2Axxx substitution ICE 2A365 siemens GR 60 rectifier Siemens Ferrite n27 SFH617-3 flycal excel ICE2Axxx 2A280 siemens VFD availability 2a180 AN-SMPS-ICE2AXXX-1 datasheet abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
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| high frequency input signal (max 20Khz), can be calculated with this relation: 1 2 V p V R4 V C8 = 40KHz [1] This means that C8 can be calculated as: C8 = 1 2 V p V R4 V 40KHz [ 2] For example if R4=12K W [ switching frequency ~ 120Khz] -> C8(max) = 330pF We between 110 -150 Khz. The resistance R4 (pin 9 DIP20 DIP20 DIP20 DIP20, pin 6MW15 6MW15 6MW15 6MW15) set the switching frequency of the internal multi vibrator. The relation is : F sw = Bf R4 (Bf =1.4E9 Hz Ohm) [11] AN1013 AN1013 AN1013 AN1013 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5694.htm |
STMicroelectronics | 20/10/2000 | 29.42 Kb | HTM | 5694.htm |
| relation: 1 2 V p V R4 V C8 = 40KHz [1] This means that C8 can be calculated as: C8 = 1 2 V p V R4 V 40KHz [ 2] For example if R4=12K W [ switching frequency ~ 120Khz] -> C8(max) = 330p suggest a switching frequency between 110 -150 Khz. The resistance R4 (pin 9 DIP20 DIP20 DIP20 DIP20, pin 6MW15 6MW15 6MW15 6MW15) set the switching frequency of the internal multi vibrator. The relation is : F sw = Bf R4 (Bf =1.4E9 Hz Ohm) [11] AN1013 AN1013 AN1013 AN1013 APPLICATION NOTE 7/13 (i.e. : for R4 =12K W -> Fswitching ~ 120Khz - The non linearity www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5694-v2.htm |
STMicroelectronics | 14/06/1999 | 26.7 Kb | HTM | 5694-v2.htm |
| with this relation: 1 2 V p V R4 V C8 = 40KHz [1] This means that C8 can be calculated as: C8 = 1 2 V p V R4 V 40KHz [ 2] For example if R4=12K switching frequency between 110 -150 Khz. The resistance R4 (pin 9 DIP20 DIP20 DIP20 DIP20, pin 6MW15 6MW15 6MW15 6MW15) set the switching frequency of the internal multi vibrator. The relation is : F sw = Bf R4 (Bf =1.4E9 Hz Ohm) [11] AN1013 AN1013 AN1013 AN1013 APPLICATION NOTE 7/13 (i.e. : for R4 =12K W -> Fswitching ~ 120Khz - The www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5694-v3.htm |
STMicroelectronics | 25/05/2000 | 28.56 Kb | HTM | 5694-v3.htm |
| relation: 1 2 V p V R4 V C8 = 40KHz [1] This means that C8 can be calculated as: C8 = 1 2 V p V R4 V 40KHz [ 2] For example if R4=12K W [ switching frequency ~ 120Khz] -> C8(max) = 330p suggest a switching frequency between 110 -150 Khz. The resistance R4 (pin 9 DIP20 DIP20 DIP20 DIP20, pin 6MW15 6MW15 6MW15 6MW15) set the switching frequency of the internal multi vibrator. The relation is : F sw = Bf R4 (Bf =1.4E9 Hz Ohm) [11] AN1013 AN1013 AN1013 AN1013 APPLICATION NOTE 7/13 (i.e. : for R4 =12K W -> Fswitching ~ 120Khz - The non linearity www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5694-v1.htm |
STMicroelectronics | 02/04/1999 | 26.74 Kb | HTM | 5694-v1.htm |
| ","Y","Philips","Resistor SMD" " SMD" "R0805 R0805 R0805 R0805","R5","R0805 R0805 R0805 R0805","1k SMD SIMID04-series" " SMD SIMID04-series" " SMD SIMID04-series" " SMD SIMID04-series" " SMD SIMID04-series" "6CWQ03FN 6CWQ03FN 6CWQ03FN 6CWQ03FN SMD","D3 www.datasheetarchive.com/download/52872592-996090ZC/ug019.zip (XlvdsBoardRev02Parts.csv) |
Xilinx | 08/10/2003 | 3632 Kb | ZIP | ug019.zip |
| gain to -80dB at 100 Hz. V rmspin7 = T Y U R3 R3 + R4 + R5 + R6 N M < V rmsline f pole1 = 1 ( R5 + R6 ) V C2 = 3.66Hz f pole2 = 1 R4 V C1 = 12.6Hz Where: R3 = 33k W , R4 = 360k W , R5 = R6 = 620k W , C1 = C2 = 220nF At 88 Vrms, Vpin7 = 1 . Description Vendor's Part # R4 Carbon Film Res., 360k, 1/4W, 5% Digi-Key #360KQBK-ND 360KQBK-ND 360KQBK-ND 360KQBK-ND R5 Carbon Film Res 806K 1% 4 IAC 2 R12 562 1% Vi (88 to 264V) IPK C1 220nF 100V R3 33K 5% R4 360K www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4046.htm |
STMicroelectronics | 20/10/2000 | 44.33 Kb | HTM | 4046.htm |
| - est pole near 13 Hz to reduce the gain to -80dB at 100 Hz. V rmspin7 = T Y U R3 R3 + R4 + R5 + R6 N M < V rmsline f pole1 = 1 ( R5 + R6 ) V C2 = 3.66Hz f pole2 = 1 R4 V C1 = 12.6Hz Where: R3 = 33k W , R4 = 360k W , R5 = R6 = 620k W , C1 = C2 = 220nF At 88 Vrms, Vpin7 = 1.78 Vrms At 264 Vrms -ND APPLICATION NOTE 9/16 Part Des. Description Vendor's Part # R4 Carbon Film Res., 360k, 1/4W, 5% Digi-Key #360 220nF 100V R3 33K 5% R4 360K 5% R5 620K 5% C2 220nF 100V R25 10K 5% R27 1.1M 5% R26 1.1M 5 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4046-v1.htm |
STMicroelectronics | 02/04/1999 | 39.69 Kb | HTM | 4046-v1.htm |
| - est pole near 13 Hz to reduce the gain to -80dB at 100 Hz. V rmspin7 = T Y U R3 R3 + R4 + R5 + R6 N M < V rmsline f pole1 = 1 ( R5 + R6 ) V C2 = 3.66Hz f pole2 = 1 R4 V C1 = 12.6Hz Where: R3 = 33k W , R4 = 360k W , R5 = R6 = 620k W , C1 = C2 = 220nF At 88 Vrms, Vpin7 = 1.78 Vrms At 264 Vrms -ND APPLICATION NOTE 9/16 Part Des. Description Vendor's Part # R4 Carbon Film Res., 360k, 1/4W, 5% Digi-Key #360 220nF 100V R3 33K 5% R4 360K 5% R5 620K 5% C2 220nF 100V R25 10K 5% R27 1.1M 5% R26 1.1M 5 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4046-v2.htm |
STMicroelectronics | 14/06/1999 | 39.65 Kb | HTM | 4046-v2.htm |
| near 13 Hz to reduce the gain to -80dB at 100 Hz. V rmspin7 = T Y U R3 R3 + R4 .66Hz f pole2 = 1 R4 V C1 = 12.6Hz Where: R3 = 33k W , R4 = 360k W , R5 . Description Vendor's Part # R4 Carbon Film Res., 360k, 1/4W, 5% Digi-Key #360KQBK-ND 360KQBK-ND 360KQBK-ND 360KQBK-ND R5 Carbon Film Res F 100V R3 33K 5% R4 360K 5% R5 620K 5% C2 220nF 100V R25 10K 5 . The next step is to define the number of turns, air gap length, ferrite core geometry, size and www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4046-v3.htm |
STMicroelectronics | 25/05/2000 | 41.66 Kb | HTM | 4046-v3.htm |
| 50 1 R4 1KOHMS ERJ2GEJ102X ERJ2GEJ102X ERJ2GEJ102X ERJ2GEJ102X RES 0402,5%/PANASONIC 2 1 CR3 DIODE BBY51-E6327 BBY51-E6327 BBY51-E6327 BBY51-E6327 SIEMENS DIODE 35 7 L1,L8,L12,L19,L21,L22, NCB1206B320TR NCB1206B320TR NCB1206B320TR NCB1206B320TR NIC IND,FERRITE BEAD www.datasheetarchive.com/download/43632519-124810ZC/wlan.zip (WLAND.BOM) |
Harris | 15/08/1997 | 132.27 Kb | ZIP | wlan.zip |