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Ferrite Siemens r4

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Abstract: lists the various passive components available from Siemens Matsushita for half-bridge series resonant , : 10 to 47 uF/400 V Axial-lead wiring (not for ESL) T1: EF 16/ferrite material N27 for ESL EF 20/ferrite material N27 EF 25/ferrite material N27 EF 25S/ferrite material N27 T2: Ring core R 10/N30 10/N30 or R , electrolytic capacitor Ferrite cores PTC thermistor Table 1 Passive components for half-bridge series , C1118 C1118 ° t Q1 D1 J2 D2 C2 D5 R4 Q2 C3 D7 Z12V Fig. 1 Half-bridge series resonant ... Siemens Matsushita Components
Original
datasheet

4 pages,
154 Kb

40 w electronic tube light choke ferrite material n27 EF25 n27 Half-bridge series resonant ballast resonant MOSFET ELECTRONIC BALLAST diac dc controller B64290K38X830 B64290-K44-X830 B59119 electronic ballast for tube light 36 transistor Electronic ballast S10k 275 varistor Siemens Ferrite n27 thermistor th1 fluorescent dc choke circuit DIAC EQUIVALENT circuit siemens b43588 electronic choke for tube light electronic 40 w tube light choke TEXT
datasheet frame
Abstract: lists the various passive components available from Siemens Matsushita for half-bridge series resonant , : 10 to 47 uF/400 V Axial-lead wiring (not for ESL) T1: EF 16/ferrite material N27 for ESL EF 20/ferrite material N27 EF 25/ferrite material N27 EF 25S/ferrite material N27 T2: Ring core R 10/N30 10/N30 or R , electrolytic capacitor Ferrite cores PTC thermistor Table 1 Passive components for half-bridge series , C1118 C1118 ° t Q1 D1 J2 D2 C2 D5 R4 Q2 C3 D7 Z12V Fig. 1 Half-bridge series resonant ... Siemens Matsushita Components
Original
datasheet

5 pages,
146.73 Kb

electronic ballast with known component electronic 40 w tube light choke B66317-G-X127 thermistor s10k DIAC EQUIVALENT circuit S10k 25 varistor resonant MOSFET ELECTRONIC BALLAST S10K150 B64290-K38-X830 electronic choke for tube light electronic tube light choke electronic ballast for tube light 36 S10k 275 varistor fluorescent dc choke circuit 40 w electronic tube light choke EF25 n27 B64290-K44-X830 ferrite material n27 siemens b43588 Siemens Ferrite n27 TEXT
datasheet frame
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
datasheet

4 pages,
107.53 Kb

ferrite Ring Core matsua ferrite core geometry ferrite Ring Core matsushita b64290a Ferrite Siemens r4 B64290-K B64290K TEXT
datasheet frame
Abstract: SIEMENS 2.1 Magneto Resistors Fundamentals Magneto resistors are magnetically influenced , represented qualitatively in Fig. 2: Semiconductor Group 23 SIEMENS Magneto Resistors OHAX01 OHAX01 2 , . Semiconductor Group 24 SIEMENS 2.2 Concepts and general data 2.2.1 Magneto Resistors Basic , Semiconductor Group 25 SIEMENS Magneto Resistors example shows the reduction of the resistance , SIEMENS 0 0.5 Magneto Resistors 1.0 Tesla 1.5 - - B B Fig. 6a Fig. 6b ... OCR Scan
datasheet

28 pages,
628.52 Kb

TEXT
datasheet frame
Abstract: ) 2) 3) 4) Cores made of NiZn ferrite may exceed the specified dimensions by up to 5 %. In , code for coated version: 862152-P 862152-P. Siemens Matsushita Components of the coating is approx , to the top edge of the ring. It touches the ferrite ring at the edges (see diagram). The test , Coated with parylene; thickness of coating approx. 10 to 15 um, standard coating for small cores (5 R4 , request Siemens Matsushita Components B64290-K B64290-K. B64290-P B64290-P. B64290-L B64290-L. Ring Cores General ... Original
datasheet

5 pages,
425.12 Kb

siferrit N30 B62152-A4-X30 B62152-A7-X30 B62152-A8-X1 B62152A8X17 B64290-A ferrite N30 siferrit B62152-A7-X17 B64290-K B62152-A8-X30 siemens siferrit al 400 parylene P Ferrite Siemens B62152 B62152A7X17 B62152 b621 B62152 B62152-A8-X17 B62152 B64290K B62152 Ferrite Siemens r4 B62152 B62152 B62152 TEXT
datasheet frame
Abstract: capacitors, chokes and transformers. Innovative passive components of high quality from Siemens Matsushita , controlled by a Siemens IC, the TDA 4605-3. When the power is applied for the first time, IC1 is in the idle , R4 2.2k OPTO1 CNY17-2 CNY17-2 Q2 TL431 TL431 C 10 R5 30k R2 5k Q6 BC639 BC639 C17 1uF/16V R3 120k 0.47uF/50V R27 1k 0,5 , fixed by R4. The regulating voltage at pin 1 is increased proportionally. This in turn pulls down the , Siemens Matsushita Components. Sealed in plastic cases filled with flame-retardant epoxy resin, they ... Siemens
Original
datasheet

7 pages,
174.46 Kb

11DF2 330UF 400V 4215-A B57153-S479-M B57235 B57235S509M B57236-S509-M B57236S259M B57236S509M varistor S10K275 TV flyback ferrite siemens CNY17-2 1N4148 ic 7805 TV 10K275 FERRITES N67 TDA tda 7805 450 watt smps Design B82724-J2182-N21 BUZ90 equivalent TEXT
datasheet frame
Abstract: da-ringk Seite 2 Mittwoch, März 26, 1997 9:53 AM Ring cores with the new blue epoxy coating from Siemens , . For further information contact the Siemens office near you or write us at Siemens Matsushita , ://www.siemens.de/pr/index.htm Siemens Matsushita Components 3.97 3 da-ringk Seite 4 Mittwoch, März 26 , 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 Core ... Siemens Matsushita Components
Original
datasheet

14 pages,
294.33 Kb

N67 ferrite -K38-X33 -K37-X38 siferrit b64290 k38-x38 -K37-X830 ferrite n67 B64290-k k618 B64290K -A22-X830 Siemens Ferrite n27 siemens b64290 FERRITES N67 b64290a Ferrite Siemens r4 A638 Siemens Ferrite B64290 Siemens Ferrite n67 Hp 4619 TEXT
datasheet frame
Abstract: capacitors, chokes and transformers. Innovative passive components of high quality from Siemens Matsushita , controlled by a Siemens IC, the TDA 4605-3. When the power is applied for the first time, IC1 is in the idle , R4 2.2k OPTO1 CNY17-2 CNY17-2 Q2 TL431 TL431 C 10 R5 30k R2 5k Q6 BC639 BC639 C17 1uF/16V R3 120k 0.47uF/50V R27 1k 0,5 , fixed by R4. The regulating voltage at pin 1 is increased proportionally. This in turn pulls down the , Siemens Matsushita Components. Sealed in plastic cases filled with flame-retardant epoxy resin, they ... Siemens
Original
datasheet

8 pages,
160.36 Kb

11DF2 B57235 varistor s14 EPCOS B57235S509M B57236-S509-M B57236S259M B57236S509M B57238 B82724-J2222-N21 Epcos n67 Ferrite TDA tda 7805 7805 voltage regulator metal type siemens capacitor 1UF 630V BUZ90 B82724J2182 BUZ90 equivalent 35L DIODE SIEMENS epcos regulator Epcos n67 material TEXT
datasheet frame
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
datasheet

6 pages,
26.65 Kb

ferrite n67 -K40-X830 B64290 K37-X38 N492 -K45-X830 -A37-X830 -K674-X67 -K36-X830 -K618-X35 -K618-X830 Siemens Ferrite n67 Ferrite Siemens r4 -K37-X830 -A36-X1 B64290 -K37-X38 B64290 B64290 B64290 siemens ring core b64290 siemens b64290 -A22-X830 Siemens Ferrite B64290 TEXT
datasheet frame
Abstract: C4 R4 C9 ry a in lim re P P8 J4 CLKIN V2N C3 J5 D1 Y1 P7 K6 , 248.9mV R14 J5 J10 R9 R4 C4 R13 J4 J9 R8 R12 J3 J8 R7 R5 + R6 + .+ R15 + R16 >> R4 R11 J2 J7 R6 f-3dB 1/(2.R4.C4) R10 J1 J6 R5 , figure 2 the -3dB frequency of this network is determined by R4 and C4. Even with all the jumpers closed the resistance of R15 (330k) and R16 (330k) is still much greater than R4 (1k). Hence varying ... Analog Devices
Original
datasheet

25 pages,
1420.91 Kb

20kv solid relay AD780 AN559 electricity meters error curve IEC1000-4-2 national semiconductor catalog IEC1039 KSS100-85TG kwh meter IC NEC IEC1036 varistor MOV1 matsushita AD7755 AN-559 AN-559 100nF 63V polyester capacitor kwh meter 7805 5A EXCELSA391 Single Phase KWh Meter ansi C12.16 TEXT
datasheet frame

Archived Files

Abstract Saved from Date Saved File Size Type Download
SIEMENS : T26, N27 PHILIPS : 3C8 TDK : H7C1, H5B2, H7A A cheap Ferrite solution consists of Radial Lead 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 suggest a switching frequency between 110 -150 Khz. The resistance R4 (pin 9 DIP20 DIP20, pin 6MW15 6MW15) set the switching frequency of the internal multi vibrator. The relation is : F sw = Bf R4 (Bf =1.4E9 Hz Ohm
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5694-v1.htm
STMicroelectronics 02/04/1999 26.74 Kb HTM 5694-v1.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) = 330pF R4 (pin 9 DIP20 DIP20, pin 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 APPLICATION NOTE 7/13 (i.e. : for R4 =12K W distortion problems. The shapes of the coil we suggest are E cores, RM and PM. The Ferrite material to use
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5694.htm
STMicroelectronics 20/10/2000 29.42 Kb HTM 5694.htm
SIEMENS : T26, N27 PHILIPS : 3C8 TDK : H7C1, H5B2, H7A A cheap Ferrite solution consists of Radial Lead 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 suggest a switching frequency between 110 -150 Khz. The resistance R4 (pin 9 DIP20 DIP20, pin 6MW15 6MW15) set the switching frequency of the internal multi vibrator. The relation is : F sw = Bf R4 (Bf =1.4E9 Hz Ohm
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5694-v2.htm
STMicroelectronics 14/06/1999 26.7 Kb HTM 5694-v2.htm
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, pin 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
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5694-v3.htm
STMicroelectronics 25/05/2000 28.56 Kb HTM 5694-v3.htm
number of turns, air gap length, ferrite core geometry, size and type for the speci - fied power level. core chosen for this design is an ETD ge - ometry ferrite core set with the following charac - Effective core area = 211 mm 2 Ferrite material is 3C85 or equivalent Np = 59T Ns = 5T The ETD geometry Philips, Siemens, Thomson, Magnetics, etc. 3. Increased winding area 4. The center leg area is equal to 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
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4046-v2.htm
STMicroelectronics 14/06/1999 39.65 Kb HTM 4046-v2.htm
number of turns, air gap length, ferrite core geometry, size and type for the speci - fied power level. core chosen for this design is an ETD ge - ometry ferrite core set with the following charac - Effective core area = 211 mm 2 Ferrite material is 3C85 or equivalent Np = 59T Ns = 5T The ETD geometry Philips, Siemens, Thomson, Magnetics, etc. 3. Increased winding area 4. The center leg area is equal to 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
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4046-v1.htm
STMicroelectronics 02/04/1999 39.69 Kb HTM 4046-v1.htm
step is to define the number of turns, air gap length, ferrite core geometry, size and type for the ometry ferrite core set with the following charac - teristics: Core type ETD4916A ETD4916A Effective core Ferrite material is 3C85 or equivalent Np = 59T Ns = 5T The ETD geometry has the following advantages: 1. Round center post for ease of winding 2. Commercially available from Philips, Siemens, Thomson 13 Hz to reduce the gain to -80dB at 100 Hz. V rmspin7 = T Y U R3 R3 + R4 + R5 + R6
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4046-v3.htm
STMicroelectronics 25/05/2000 41.66 Kb HTM 4046-v3.htm
number of turns, air gap length, ferrite core geometry, size and type for the speci - fied power level. core chosen for this design is an ETD ge - ometry ferrite core set with the following charac - Effective core area = 211 mm 2 Ferrite material is 3C85 or equivalent Np = 59T Ns = 5T The ETD geometry Philips, Siemens, Thomson, Magnetics, etc. 3. Increased winding area 4. The center leg area is equal to 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
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4046.htm
STMicroelectronics 20/10/2000 44.33 Kb HTM 4046.htm
No abstract text available
/download/52872592-996090ZC/ug019.zip ()
Xilinx 08/10/2003 3632 Kb ZIP ug019.zip
No abstract text available
/download/16621423-847737ZC/rf11sch-v1.zip ()
STMicroelectronics 16/12/1998 267.11 Kb ZIP rf11sch-v1.zip