NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: Stromkompensierte Ringkerndrosseln Common mode toroidal core chokes 6 Kompakte stromkompensierte SMD-Ringkerndrosseln Compact common mode toroidal core chokes (SMD assembly) 8 S0-Schnittstellenübertrager S0 , series of inductive components are required: - Common mode toroidal core chokes S0 interface , Anschlußschema pin connection Stromkompensierte Ringkerndrosseln für ISDN Common mode toroidal core chokes , extensive product range. We kindly await your detailed specific ené Compact common mode toroidal core ... | Original |
34 pages, |
kaschke transformer Transformer kaschke 097 NTBA TE-32 smd code nde katalog SMD bs 6301 THOMSON B2 ferrite material smd tabellen ftz 751 kaschke ferrite material mietec Transformer kaschke 4.0 datasheet abstract |
|
|||
| Abstract: , EP or toroidal cores are now widely used for transmission lines without remote power feeding, such , core concepts with distinct structures compete for HDSL applications. Their behavior is, however , contrast, the concept favored by Siemens Matsushita Components is based on the RMLP cores used in Europe , noise levels of the telephone signals. Their coils are developed by Siemens Matsushita Components in , between winding structure and core material. q The transformers included in the current product ... | Original |
2 pages, |
TC51 siemens toroidal core datasheet abstract |
|
|||
| Abstract: toroidal core offers high performance, low size and weight, and low cost. They are, however, slightly more , Core, 500nH/T2 Siemens B64290-K38-X38 B64290-K38-X38 Tor. Core, Magnetics 555130 Tor. Core, 53nH/T2 Stackpole , when using a low loss pot core or toroidal inductor such as the Dale TE3Q4TA series. Using a low cost , acceptable series resistance and core losses. Lmax - _ (Vin Ton)2 f Lmin : 2 Pout Vin T0n •max where , other types. Potted Toroidal Inductors A typical 1mH, 0.82 ohm potted toroidal inductor (Dale TE-3Q4TA ... | OCR Scan |
12 pages, |
BO 620 diode rectifier siemens IN58I7 INDUCTOR 500mH MAX4391 MAX634 MAX635 MAX636 MAX637 RC4193 RC4391 siemens LFL 1 635 siemens toroidal core te3-q4-ta MAX634 cross MAX634 abstract |
|
|||
| Abstract: wind coils onto the plastic bobbins. Toroidal Cores In volume production the toroidal core offers high , /T2 Siemens B64290-K38-X38 B64290-K38-X38 Tor. Core, Magnetics 555130 Tor. Core, 53nH/T2 Stackpole 57-3215 Pot Core , pot core or toroidal inductor such as the Dale TE3Q4TA series. Using a low cost molded inductor with , peak currents, and 3) have acceptable series resistance and core losses. Lmax - _ (Vin Ton)2 f Lmin : 2 , Toroidal Inductors A typical 1mH, 0.82 ohm potted toroidal inductor (Dale TE-3Q4TA) Is 0.685" in diameter ... | OCR Scan |
12 pages, |
MAX636 RC4391 RC4193 MAX637 MAX635 MAX634 MAX4391 ZN7000 MAX634 abstract |
|
|||
| Abstract: wind coils onto the plastic bobbins. Toroidal Cores In volume production the toroidal core offers high , /T2 Siemens B64290-K38-X38 B64290-K38-X38 Tor. Core, Magnetics 555130 Tor. Core, 53nH/T2 Stackpole 57-3215 Pot Core , pot core or toroidal inductor such as the Dale TE3Q4TA series. Using a low cost molded inductor with , peak currents, and 3) have acceptable series resistance and core losses. Lmax - _ (Vin Ton)2 f Lmin : 2 , Toroidal Inductors A typical 1mH, 0.82 ohm potted toroidal inductor (Dale TE-3Q4TA) Is 0.685" in diameter ... | OCR Scan |
12 pages, |
siemens toroidal core diode 1df inductor ouput converter MAX4391 MAX634 MAX635 MAX636 MAX637 RC4391 MAX634 abstract |
|
|||
| Abstract: toroidal core offers high performance, low size and weight, and low cost. They are, however, slightly more , Core, 500nH/T2 Siemens B64290-K38-X38 B64290-K38-X38 Tor. Core, Magnetics 555130 Tor. Core, 53nH/T2 Stackpole , when using a low loss pot core or toroidal inductor such as the Dale TE3Q4TA series. Using a low cost , acceptable series resistance and core losses. Lmax - _ (Vin Ton)2 f Lmin : 2 Pout Vin T0n •max where , other types. Potted Toroidal Inductors A typical 1mH, 0.82 ohm potted toroidal inductor (Dale TE-3Q4TA ... | OCR Scan |
12 pages, |
MAX636 toroid iron powder core reference table RC4391 bipolar power transistor data MAX637 MAX4391 MAX635 MAX634 toroid line filter mosfet cross reference inverter 1mh inductor coupling factor MAX634 abstract |
|
|||
| Abstract: toroidal core offers high performance, low size and weight, and low cost. They are, however, slightly more , Core, 500nH/T2 Siemens B64290-K38-X38 B64290-K38-X38 Tor. Core, Magnetics 555130 Tor. Core, 53nH/T2 Stackpole , when using a low loss pot core or toroidal inductor such as the Dale TE3Q4TA series. Using a low cost , acceptable series resistance and core losses. Lmax - _ (Vin Ton)2 f Lmin : 2 Pout Vin T0n •max where , other types. Potted Toroidal Inductors A typical 1mH, 0.82 ohm potted toroidal inductor (Dale TE-3Q4TA ... | OCR Scan |
12 pages, |
RC4391 MAX637 MAX636 MAX635 MAX634 MAX4391 siemens toroidal core MAX634 abstract |
|
|||
| Abstract: toroidal core offers high performance, low size and weight, and low cost. They are, however, slightly more , Core, 500nH/T2 Siemens B64290-K38-X38 B64290-K38-X38 Tor. Core, Magnetics 555130 Tor. Core, 53nH/T2 Stackpole , when using a low loss pot core or toroidal inductor such as the Dale TE3Q4TA series. Using a low cost , acceptable series resistance and core losses. Lmax - _ (Vin Ton)2 f Lmin : 2 Pout Vin T0n •max where , other types. Potted Toroidal Inductors A typical 1mH, 0.82 ohm potted toroidal inductor (Dale TE-3Q4TA ... | OCR Scan |
12 pages, |
Stackpole ferrite RC4391 MAX637 MAX636 MAX635 MAX634 MAX4391 FERRITE TOROIDAL CORE DATA MAX634 abstract |
|
|||
| Abstract: volume production the toroidal core offers high performance, low size and weight, and low cost. They are , TOROIDS Allen Bradley T0451S100A T0451S100A Tor. Core, 500nH/T2 Siemens B64290-K38-X38 B64290-K38-X38 Tor. Core, 4/iH/Ta , deliver 50mA at -5V. Efficiency is 85% when using a low loss pot core or toroidal inductor such as the , inductance, 2) be able to handle the peak currents, and 3) have acceptable series resistance and core losses. , other types. Potted Toroidal Inductors A typical 1 mH, 0.82 ohm potted toroidal inductor (Daie ... | OCR Scan |
12 pages, |
RC4391 12V DC-DC inverter application note FERRITE TOROIDAL CORE DATA MAX4391 MAX634 MAX635 MAX636 MAX637 "Inverting Switching Regulator" Caddell-Burns Caddell-Burns 6860 MAX634 abstract |
|
|||
| Abstract: inductor L2, switches Q1A/Q1B, boost diode D5 and the bulk capacitor C3. L2 is an iron powder toroidal core with a single layer of copper wire to keep stray capacitance small. Q1A/Q1B are CoolMOS , magnetic components 8.1 PFC choke Core: MAGNETICS Ringcore 77930 - A7; L = 490 uH (Pin1 - Pin8 , AN-CoolMOS-06 V1.2 200W SMPS Demonstration Board 8.2 Main transformer Core: EPCOS RM 14; N87 , filter choke Core: EPCOS RM 14; N41; total gap = 1mm; AL = 250 nH; L = 36 uH (Pin1 - Pin6); (20A · ... | Original |
25 pages, |
SMD TRANSISTOR R90 smd transistor A7 3525 SMPS IC Data transistor SMD DK smd transistor A7 s 52 11n60c2 EPCOS 5025 TDA 200W TDA 16888 N87-core str 6750 smps power supply circuit SMD MOSFET DRIVE DATASHEET 4450 8 PIN 200w power amplifier PCB layout datasheet abstract |
|
|||
| Abstract | Saved from | Date Saved | File Size | Type | Download |
| Over 1.1 million files (1986-2013): html articles, reference designs, gerber files, chemical content, spice models, programs, code, pricing, images, circuits, parametric data, RoHS data, cross references, pcns, military data, and more. Please note that due to their age, these files do not always format correctly in modern browsers. Disclaimer. |
|||||
| ) Core Type No Turns Wire Gauge (mmm) Air Gap (mm) Magnetics 58930 - A2MPP 43 1.0 - Thomson GUP 20 x 16 x 7 50 0.8 0.7 Siemens EC 35/17/10 (B6633 B6633 B6633 B6633& - G0500 G0500 G0500 G0500 - X127) 40 2 x 0.8 - VOGT 250 m H Toroidal Coil : A 100 m A 6d C7, C8 : EKR (ROE) L1 : L = 300 m H at 8 A R = 500 m W Core type : MAGNETICS 58930 - A2 , the inductor should be a toroidal type or wound on a Moly-Permalloy nucleus.Saturation must not occur www.datasheetarchive.com/files/stmicroelectronics/books/ascii/docs/1359.htm |
STMicroelectronics | 25/05/2000 | 17.59 Kb | HTM | 1359.htm |
| ) Core Type No Turns Wire Gauge (mmm) Air Gap (mm) Magnetics 58930 - A2MPP 43 1.0 - Thomson GUP 20 x 16 x 7 50 0.8 0.7 Siemens EC 35/17/10 (B6633 B6633 B6633 B6633& - G0500 G0500 G0500 G0500 - X127) 40 2 x 0.8 - VOGT 250 m H Toroidal Coil : A 100 m A 6d C7, C8 : EKR (ROE) L1 : L = 300 m H at 8 A R = 500 m W Core type : MAGNETICS 58930 - A2 , the inductor should be a toroidal type or wound on a Moly-Permalloy nucleus.Saturation must not occur www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1359-v2.htm |
STMicroelectronics | 14/06/1999 | 14.81 Kb | HTM | 1359-v2.htm |
| ) Core Type No Turns Wire Gauge (mmm) Air Gap (mm) Magnetics 58930 - A2MPP 43 1.0 - Thomson GUP 20 x 16 x 7 50 0.8 0.7 Siemens EC 35/17/10 (B6633 B6633 B6633 B6633& - G0500 G0500 G0500 G0500 - X127) 40 2 x 0.8 - VOGT 250 m H Toroidal Coil : A 100 m A 6d C7, C8 : EKR (ROE) L1 : L = 300 m H at 8 A R = 500 m W Core type : MAGNETICS 58930 - A2 , the inductor should be a toroidal type or wound on a Moly-Permalloy nucleus.Saturation must not occur www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1359.htm |
STMicroelectronics | 02/04/1999 | 14.84 Kb | HTM | 1359.htm |
| W Core type : MAGNETICS 58930 - A2 MPP N5 turns : 43 Wire Gauge : 1 mm (18 AWG) Figure 4 and low inductance at high current ripple. Preferably, the inductor should be a toroidal type or : Typical Application Circuit. SUGGESTED INDUCTOR (L1) Core Type No Turns Wire Gauge (mmm) Air Gap (mm) Magnetics 58930 - A2MPP 43 1.0 - Thomson GUP 20 x 16 x 7 50 0.8 0.7 Siemens EC 35/17/10 (B6633 B6633 B6633 B6633& - G0500 G0500 G0500 G0500 - X127) 40 2 x 0.8 - VOGT 250 m H Toroidal Coil, Part Number www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1359-v1.htm |
STMicroelectronics | 25/05/2000 | 16.62 Kb | HTM | 1359-v1.htm |
| (ROE) SUGGESTED INDUCTOR (L1) Core Type No Turns Wire Gauge Air Gap Magnetics 58930 - A2MPP 43 1.0 mm. Thomson GUP 20 x 16 x 7 65 0.8 mm. 1 mm. SUGGESTED INDUCTOR (L1) (continued) Core Type No Turns Wire Gauge Siemens EC 35/17/10 (B6633 B6633 B6633 B6633 & - G0500 G0500 G0500 G0500 - x 127) 40 2 x 0.8 mm. VOGT 250 m H Toroidal Coil, Part Number . Using toroidal cores, for instance of Magnetic 58930- A2 moly-permalloy kind, both the requirements of achieve high saturation with ferrite cores an air gap between the two core halves must be provided ; the www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4269-v2.htm |
STMicroelectronics | 14/06/1999 | 66.05 Kb | HTM | 4269-v2.htm |
| (ROE) SUGGESTED INDUCTOR (L1) Core Type No Turns Wire Gauge Air Gap Magnetics 58930 - A2MPP 43 1.0 mm. Thomson GUP 20 x 16 x 7 65 0.8 mm. 1 mm. SUGGESTED INDUCTOR (L1) (continued) Core Type No Turns Wire Gauge Siemens EC 35/17/10 (B6633 B6633 B6633 B6633 & - G0500 G0500 G0500 G0500 - x 127) 40 2 x 0.8 mm. VOGT 250 m H Toroidal Coil, Part Number . Using toroidal cores, for instance of Magnetic 58930- A2 moly-permalloy kind, both the requirements of achieve high saturation with ferrite cores an air gap between the two core halves must be provided ; the www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4269-v1.htm |
STMicroelectronics | 02/04/1999 | 66.09 Kb | HTM | 4269-v1.htm |
| ) Core Type No Turns Wire Gauge Siemens EC 35/17/10 (B6633 B6633 B6633 B6633 & - G0500 G0500 G0500 G0500 - x 127) 40 2 x 0.8 mm. VOGT 250 m H Toroidal Coil, Part Number 5730501800 APPLICATION NOTE 18/43 Figure 23 . Using toroidal cores, for instance of Magnetic 58930- A2 moly-permalloy kind, both the requirements of , C8 : EKR (ROE) SUGGESTED INDUCTOR (L1) Core Type No Turns Wire Gauge Air Gap Magnetics 58930 achieve high saturation with ferrite cores an air gap between the two core halves must be provided ; the www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4269.htm |
STMicroelectronics | 20/10/2000 | 70.97 Kb | HTM | 4269.htm |
| ) (continued) Core Type No Turns Wire Gauge Siemens EC 35/17/10 (B6633 B6633 B6633 B6633 & - G0500 G0500 G0500 G0500 - x 127) 40 2 x 0.8 mm. VOGT 250 m H Toroidal Coil, Part Number 5730501800 APPLICATION NOTE : EKR (ROE) SUGGESTED INDUCTOR (L1) Core Type No Turns Wire Gauge Air Gap Magnetics ferrite cores an air gap between the two core halves must be provided ; the air gap causes a leakage flux which is radiated in the surrounding space. To better limit this pheno - menon "pot cores" may www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4269-v3.htm |
STMicroelectronics | 25/05/2000 | 67.91 Kb | HTM | 4269-v3.htm |
| (ROE) L1 : L = 300 m H at 8 A Core type : MAGNETICS 58930 - A2 MPP N5 turns : 43 Wire Gauge : 1 mm (18 SUGGESTED INDUCTOR (L1) Core Type No Turns Wire Gauge Air Gap Magnetics 58930 - A2MPP 43 1.0 mm - Thomson GUP 20 x 16 x 7 65 0.8 mm 1 mm Siemens EC 35/17/10 (B6633 B6633 B6633 B6633& - G0500 G0500 G0500 G0500 - X127) 40 2 x 0.8 mm - VOGT 250 m H Toroidal Coil, Part Number 5730501800 Resistor Values for Standard Output Voltages V 0 R8 R7 12 V www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1333.htm |
STMicroelectronics | 02/04/1999 | 20.59 Kb | HTM | 1333.htm |
| (ROE) L1 : L = 300 m H at 8 A Core type : MAGNETICS 58930 - A2 MPP N5 turns : 43 Wire Gauge : 1 mm - MPP COGEMA 946044 ; GUP 20 COGEMA 946045 SUGGESTED INDUCTOR (L1) Core Type No Turns Wire Gauge Air Gap Magnetics 58930 - A2MPP 43 1.0 mm - Thomson GUP 20 x 16 x 7 65 0.8 mm 1 mm Siemens EC 35/17/10 (B6633 B6633 B6633 B6633& - G0500 G0500 G0500 G0500 - X127) 40 2 x 0.8 mm - VOGT 250 m H Toroidal Coil, Part Number 5730501800 Resistor www.datasheetarchive.com/files/stmicroelectronics/books/ascii/docs/1333.htm |
STMicroelectronics | 22/06/2000 | 24.19 Kb | HTM | 1333.htm |