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Part Manufacturer Description Datasheet BUY
B67345B1X27 TDK Epcos FERRITE CORE U N27 1PC visit Digikey Buy
B67345B3X87 TDK Epcos FERRITE CORE U N87 1PC visit Digikey Buy
B67370A2X197 TDK Epcos FERRITE CORE U N97 1PC visit Digikey Buy
B67370A2X187 TDK Epcos FERRITE CORE U N87 1PC visit Digikey Buy
B67345B1X97 TDK Epcos FERRITE CORE U N97 1PC visit Digikey Buy
B67374GX187 TDK Epcos FERRITE CORE U N87 1PC visit Digikey Buy

ferrite core U

Catalog Datasheet MFG & Type PDF Document Tags

smd code r17

Abstract: SMC1007 2.54± 0.30 2.30± 0.20 G 2.79 Ref. 4.32 Ref. 3. SCHEMATIC : 4. MATERIALS : a) Core : Ferrite Core U e b) Core : Ferrite Core I b d c) Clip : Tinned Copper c d) Adhesive : Epoxy
Superworld Electronics
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Abstract: . 4.32 Ref. 3. SCHEMATIC : 4. MATERIALS : a) Core : Ferrite Core U b) Core : Ferrite Core I c Superworld Electronics
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Abstract: ) Core : Ferrite Core U e b) Core : Ferrite Core I b d c) Clip : CAR0120801P200 c d) Adhesive Superworld Electronics
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SMC1208R23MAF KAA1176005 6030H SMC1208

ferrite core U

Abstract: U2231 > Ferrite Core L2 : OSC 100MHz 100 Coil 0.7mmj4 2jT (Japan Band) SUMIDA 0295-056 30 pF (ext.) o o r x Ferrite Core U : AM ANT 796 kHz (D-© 200 ®-@ 100 T L=600^H (D-© 17 T Wire : 4/0.07mm UATC Core : 10mm , (lim) â'" 36 42 dB^ Detection Output Voltage Vod VIN = 80dB,u 22 31 44 mVrms Signal to Noise Ratio S , Vis 2.9 2.9 V 19 AM MIX OUT V|9 2.9 2.9 V 20 AM RF IN V20 2.9 2.9 V â  TEST CIRCUIT 30Ã1 V* =3V N*u , (dB//) Q S? 120 V0D, THD vs. V' U 5 Z -60 Vod (dB) S/N (dB) Vod, S/N, V0D,S/N,THD-Vâ
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NJM2237 NJM2236 NJM2237D ferrite core U U2231 C014 NJM2236AL D1P20 100MH

sumida IFT 10.7MHz

Abstract: sumida 10.7mhz coil COIL NO. Fo Qo TURNS Co Li : RF Coil lOOMHi 100 0.7mm* 2jT 4 SUMIDA 0295-057 22 pF (ext.) Ferrite Core u â â  OSC 100 MHz 100 Coil 0.7mm* 2jT SUMIDA 0295-056 30 pF (ext.) T oX Ferrite Core L3 : AM ANT 796 kHz ®-(D 200 ®-(D loo t L=600/iH (D-® 17T Wire : 4/0.07mm UATC Core ; 10 mm* X 80 mm MITUMI YIâ'"7160â'"1 nn U) © 0 © GND V.C. V* 24 pin c (i) © © J o o © BOTTOM VIEW L. : AM OSC 796 kHz 125 ®-@ 15 t
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NJM2241 NJM2241M sumida IFT 10.7MHz sumida 10.7mhz coil sumida ift coil bpw bpw b5 DMP24

CQM1H-CPU51 DIP SWITCH setting omron

Abstract: CQM1H-CPU51 DIP SWITCH configuration VCMP TGON REF POWER NC413 RUN ERROR SENS DATA X Y Z U MACHINE No. CN1 CN2 , detection Relay drive L1C U V W CHARGE R L1 U V W I/O CPU Control I/O RS , CN2 E Interface Voltage detection â¼ M N2 N1 L1C U V W U V W , N Relay drive L1C AC Servomotor U V W U V W + S T P E Interface
OMRON
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CQM1H-CPU51 DIP SWITCH setting omron CQM1H-CPU51 DIP SWITCH configuration I533-E1-04 I533-E1 XW2B80J7-1A XW2Z-100J-B10 XW2Z-200J-B10 XW2Z-100J-B12

R7D-AP08H

Abstract: R7D-AP04H VCMP TGON REF POWER NC413 RUN ERROR SENS DATA X Y Z U MACHINE No. CN1 CN2 , L2C + - CN2 E Interface Voltage detection M N2 N1 L1C U V W U V W CHARGE R ±5 V +16.5 V +5 V ±15 V + - DC/DC conversion ASIC PWM , detection M N N Relay drive L1C AC Servomotor U V W U V W CHARGE + S
OMRON
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R7D-AP08H R7D-AP04H R7M-A40030-S1 OMRON CQM1H-CPU51 INSTALLATION MANUAL CQM1-CPU43-V1 R7DAP04H I533-E1-01 24VIN OUT01 ERB44-02 559-77-9181/F
Abstract: Core/lron Sleeve Iron Core/lron Sleeve Iron Core/lron Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite Core/Ferrite Sleeve Ferrite -
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SMRF5025S-100K SMRF5025S-120K SMRF5025S-150K SMRF5025S-180K SMRF5025S-220K SMRF5025S-270K

TDK Ferrite Core PC40

Abstract: ups transformer winding formula PRECAUTIONS WHEN USING FERRITE CORE · When selecting the material/form of the ferrite core, while , close to that of the ferrite as possible. · When laying out the case, bobbin, coil and the ferrite core , Please handle with care, since a ferrite core is susceptible to shock. · The outward appearance is , . · Do not reprocess the ferrite core as it can cause problems, such as injury. · All , Large Size Ferrite Cores for High Power Summary Issue date: November 2007 · All
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TDK Ferrite Core PC40 ups transformer winding formula tdk ferrite pc40 tdk ferrite pe22 PC40 ferrite FERRITE core TRANSFORMER 2002/95/EC EE320
Abstract: MnZn ferrite core,MnZn power core,transformer core,EER cores,RM cores,U cores,EPC core,EP cores Page 1 print version MnZn Ferrite Core Introduction MnZn power ferrite core are used mainly for compact transformers and MnZn high-permeability ferrite core for digital communication pulse transformers , MnZn ferrite cores manufacturing , and produce and supply various (MnZn power magnets)Mnzn power core , MnZn Ferrite Core We produce MnZn power by a ferrite small in magnetic loss and power loss, the Yuxiang Magnetic Materials
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IEC 60205

Abstract: ferrite TRANSFORMER calculation . 2.3 Apparent permeability µapp L inductance with core µ app = - = , , the inductance of a slim-line ring core coil is defined as: A L = µ r µ 0 N 2 -l Due to their , losses. 5.1 Core losses PV The losses of a ferrite core or core set PV is proportional to the area , the initial permeability is dependent on the stress state of the core. With 1 µ i , relationship between B and H : B = µ0 µr ( H ) H µ 0 = Magnetic field constant Vs µ 0 = 1.257 10 ­6
EPCOS
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IEC 60205 ferrite TRANSFORMER calculation ferrite eddy current hysteresis loss soft ferrites Vickers ferrite n48

IEC 60205

Abstract: Epcos N87 Br µapp L inductance with core µ app = - = , arrangement. 2.4 Complex permeability µ To enable a better comparison of ferrite materials and their , be calculated: Z = j µ L0 where L0 represents the inductance of a core of permeability µr = 1, but , , the inductance of a slim-line ring core coil is defined as: A L = µ r µ 0 N 2 -l Due to their , section 2.4), the loss factor of the core in conjunction with the complex permeability µ is defined as Rs
EPCOS
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Epcos N87 Br IEC 60205 calculation transformer hv15 am 1 N87 material data Epcos N87 ferrite

ferrite core transformer calculation formula

Abstract: TDK Ferrite Core PC40 : µ app = L L0 where, L = inductance of test coil with core(H) L0 = inductance of test coil , factor refers to the loss coefficient of a coil complete with a ferrite core, and is the reciprocal of , Qe Q0 where, Qe = coil with core Qo = coil without core µi = µ i2 ­µ i1 1 · µ i1 T2 , coefficient of a practical core, the following formula is used. µ= F× µ e 4.3 CURIE TEMPERATURE Tc The , . INTRODUCTION 1.1 CORES WITHOUT AIR GAP TDK manufactures various ferrite core shapes, such as Pot cores, RM
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ferrite core transformer calculation formula ferrite core tdk h5c2 TDK H5C2 material TDK Ferrite Core PC44 TDK Ferrite Core PC40 ei SC12N

siemens r10 core

Abstract: IEC 60205 ring core coil is defined as: A L = µ r µ 0 N 2 -l Due to their geometry, soft magnetic ferrite , inductance with core µ app = - = -L0 , arrangement. 2.4 Complex permeability µ To enable a better comparison of ferrite materials and their , be calculated: Z = j µ L0 where L0 represents the inductance of a core of permeability µr = 1, but , section 2.4), the loss factor of the core in conjunction with the complex permeability µ is defined as µs
Siemens
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siemens r10 core ferrite core transformer siemens matsua siemens R10 K1 IEC60205

Using Magnetic Cores at High Temperatures

Abstract: nickel bh curve . 4 MAGNETICS · BUTLER, PA FERRITE CORE TEMPERATURE PROPERTIES MAGNETICS produces a complete , testing of a bare wound core. Coatings Ferrite toroids are available in three standard coatings, X, Z , losses, but high enough to use a suitably small core. If a good power ferrite is used, the resulting B , in a ferrite inductor, saturation with bias must be considered differently than with a powder core , distributed air gap in a powder core, the inductance shift with temperature change is relatively small
Magnetics
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Using Magnetic Cores at High Temperatures nickel bh curve baking insulating varnish Mn-Zn Ferrites supermendur MAGNESIL - N CG-06
Abstract: 93 90 87 85 79 76 72 69 68 66 62 58 57 56 54 53 CORE M A TE R IA L Ferrite , Ferrite Core Core Core Core Core Core Core Core Core Core Core Core Core Core Core Core , -272K 10 Unshielded RF Inductors IN D U C T A N C E HH .10 ±1 0 % .11 ± 5 % .1 2 + 1 0 % .13 , 274 269 269 264 255 251 248 244 240 CORE M A TE R IA L Phenolic Core Phenolic Core Phenolic Core Phenolic Core Phenolic Core Phenolic Core Phenolic Core Phenolic Core Phenolic Core -
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SMRF301 SMRF3013-100K SMRF3013-110J SMRF3013-120K SMRF3013-130J SMHF3013-150K

tdk ferrite H5A

Abstract: ferrite core tdk h5c2 Oe 3 Definitions and explanations Ferrite Materials 3. Core lo ss 3.1 Lo ss factor, tan , effective quality factor refers to the loss coefficient of a coil complete with a ferrite core, and is the , Temperature (#C) 12 Ferrite Materials S ta tic m ag n etizatio n c u rv e s H5A 600 600 500 400 , Ferrite Materials INTRODUCTION Ferrite is a polycrystal, sintered material with high electrical resistivity. The high resistance of ferrite makes eddy current losses extremely low at high frequencies
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tdk ferrite H5A h5a transformer TDK H5C2 CORE MATERIAL FERRITE TOROIDAL CORE DATA pc40 core LOSS DATA ferrite core h5c2

copper permittivity

Abstract: airgap Vs Al Value in Ferrite Core reflected in the overall cost. FINISHING After sintering, the ferrite core has the required magnetic , permeability - µ incremental permeability - resistivity m (l/A) core factor (C1 , ferrite core avoids a large difference between Ae and Amin. Narrow parts of the core could saturate or , be: le -µ × Ae The value is calculated using the core factor and the effective , between B and H in the ferrite core of a transformer. Consequently the induced output voltage, which is
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copper permittivity airgap Vs Al Value in Ferrite Core relative permittivity of nickel Magnetic Products, Soft Ferrites, Data Handbook M relative permittivity copper Mg-Zn Ferrites

ntc 0806 varistor

Abstract: piezo disc transducer , (4V), 0201, 0805 case sizes Capacitor, ceramic, tubular, "Cerachip", (12V) Ferrite Bead, multi-layer, high impedance,0402/0603/0805 Ferrite Bead Array, 0804,1206 case sizes Ferrite Core, flat cable,oblong , ), 0805/1206 case size Ferrite Core,round cable,rectangular type Ferrite Core, flat cable, rectangular , Core, cup type Ferrite Core, pot type Ferrite Core, balun type Ferrite Core, multi-hole type Ferrite Core, bead type Ferrite Core, toroidal type, Ni-Zn Ferrite Core, threaded type Ferrite Core, drum type
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BP53RD ntc 0806 varistor piezo disc transducer piezo DMT-1206-I 472 varistor varistor 472 N LEM 543 AMK063 BU05MC BU08RA CM03MS CM04RC
Abstract: IC RN RC IC Cable IC Circuit Board Size of ferrite core (30ø - 20ø - 6) yyyyy ; ; yyyy ; yyyyy ; yyyy ; yyyyy ; yyyy Pattern IC IC Plate Ferrite Core Plate Ferrite Core , Noise Suppression Products/EMI Suppression Filters > Ferrite Cores for EMI Suppression > Plate Cores Reference Data 1 Ferrite Cores for EMI Suppression FSSA Series I Impedance Frequency , Material Ferrite-RT 1000 1000 µ" Permeability Permeability µ" 100 100 µ' µ' 10 10 muRata
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