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Part Manufacturer Description Datasheet Download Buy Part
PQ40/40-3F36 Ferroxcube International Holding BV FERRITE CORE
PLT64/50/5-3C95 Ferroxcube International Holding BV FERRITE CORE
B65807PR97 TDK Epcos FERRITE CORE
B66367G3000X127 TDK Epcos FERRITE CORE
B66341GX27 TDK Epcos FERRITE CORES
E38/8/25-3F4 Ferroxcube International Holding BV FERRITE CORE

ferrite beat Datasheets Context Search

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2010 - schematic diagram bluetooth headset

Abstract: schematic diagram bluetooth headset TI ferrite beat cable sattelite MIPI omnivision digital 5.1 audio amplifier diagram schematic AN229 Murata varistor F112 C166
Text: . 6 Frequency response of the entire audio segment, using BGF112 + EMI ferrite beat , "right" audio connecred to external audio jack. The BGF112 is assisted in most cases by a ferrite beat , ferrite beat provides an high impedance for all RF signals. The improved RF rejection is mainly caused by the EMI ferrite beat in combination with the low source- and low load impedances of Rsource=1 Ohm , ferrite beat Headset Ear-phone right Audio Amp. NO-DC_offset Time Headset con. e.g. 3.5mm


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PDF AN229, BGF112 AN229 schematic diagram bluetooth headset schematic diagram bluetooth headset TI ferrite beat cable sattelite MIPI omnivision digital 5.1 audio amplifier diagram schematic AN229 Murata varistor F112 C166
philips rf choke ferrite

Abstract: No abstract text available
Text: wound enamelled Cu wire (0.4 mm), int. diameter 3 mm, with ferrite beat (cat. no. 4330 030 32221) over


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PDF BLT93/SL OT122D) 7Z24076 7Z24078 philips rf choke ferrite
ferrite beat

Abstract: ferrite 4312 Scans-004952 MLAP GG267
Text: (0.4 mm), int. diameter 3 mm, with ferrite beat (cat. no. 4330 030 32221) over the coldside lead L8 =


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PDF GG267Ã BLT93/SL OT122D) ferrite beat ferrite 4312 Scans-004952 MLAP GG267
Not Available

Abstract: No abstract text available
Text: FERRITE BEAT — TTIP Q MRING R16 MTIP 270 -T R A N S F O R M E R # PULSE ENGINEERING , 65967 IN SURFACE MOUNT BPV V D D A V D D D j — FERRITE B E A D # FAIR RITE 2643000101 PE 65966 Q FERRITE BEAT Figure 10. Evaluation System Schematic X XR-T7296 I I


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PDF XR-T7296 XR-T7296 XR-T7295 XR-T7295E
Not Available

Abstract: No abstract text available
Text: (0.4 mm), int. dia; 3 mm, with ferrite beat (cat. no. 4330 830 32221) over the coldside lead = 1 turn


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PDF DQ28761 BLT92/SL OT122D)
philips rf choke ferrite

Abstract: ferrite beat ferrite 4312 of transistor sl 100 International Power Sources mml 600 philips choke ferrite SL 100 NPN Transistor
Text: Cu wire (0.4 mm), int. dia; 3 mm, with ferrite beat (cat. no. 4330 830 32221) over the coldside lead


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PDF 711002b 00bSb7Ã BLT92/SL OT122D) philips rf choke ferrite ferrite beat ferrite 4312 of transistor sl 100 International Power Sources mml 600 philips choke ferrite SL 100 NPN Transistor
ferrite 4312

Abstract: ferrite beat philips rf choke ferrite CF-800 lb533
Text: mm x 2.4 mm) L7 = 4 turns closely wound enamelled Cu wire (0.4 mm), int. dia; 3 mm, with ferrite beat (cat. no. 4330 830 32221) over the coldside lead L8 = 1 turn Cu wire (1.0 mm); int. dia. 5.5


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PDF BLT92/SL OT122D) ferrite 4312 ferrite beat philips rf choke ferrite CF-800 lb533
1998 - SL 100 NPN Transistor base emitter collector

Abstract: mda301 BLT92 MDA300 SL 100 NPN Transistor SL 100 power transistor
Text: ) L7 = 4 turns closely wound enamelled Cu wire (0.4 mm), int. dia;. 3 mm, with ferrite beat (cat


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PDF BLT92/SL SL 100 NPN Transistor base emitter collector mda301 BLT92 MDA300 SL 100 NPN Transistor SL 100 power transistor
2010 - "ESD Protection"

Abstract: AN192 ESD protection symbian C166 ESD5V3S1B-02LS TVS 0201 Diode latest gadgets smd 02l
Text: Figure 2 Charge Pump Low loss EMI ferrite beat ESD-strike Headset cable ESD-strike


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PDF ESD5v3s1b-02ls AN192, AN192 "ESD Protection" AN192 ESD protection symbian C166 TVS 0201 Diode latest gadgets smd 02l
2004 - RJ45 1000M PHY

Abstract: 88E1000 AMD79C901 49fct3807 88E3081 CRS15 rmii trace layout guidelines
Text: digital power input with ferrite beat filter components. The digital signal noise may be filter out before


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PDF ZLAN-86 RJ45 1000M PHY 88E1000 AMD79C901 49fct3807 88E3081 CRS15 rmii trace layout guidelines
1998 - TMS320C24X

Abstract: space-vector PWM SPACE VECTOR MODULATION theory sine wave inverter using pic space vector PWM "space vector" tms320 space-vector PWM by using dsp ASM 117 asymmetrical igbt Texas Instruments Electromagnetic
Text: achieved by adding an inductive coil Lh ( ferrite beat ) between the blocking capacitor and the power supply


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PDF SPRA501 TMS320C24x space-vector PWM SPACE VECTOR MODULATION theory sine wave inverter using pic space vector PWM "space vector" tms320 space-vector PWM by using dsp ASM 117 asymmetrical igbt Texas Instruments Electromagnetic
c2026

Abstract: 30458 transistor C2026 1N2907A smd ag2 4914B c2026 transistor data motorola transistor 2N2907A j6a ANALOG DEVICE C2026 TRANSISTOR
Text: all power supplies and observe the 61 kHz sinewave at the scope (64 points/period). Refer to Beat , AGND and DGND are split. The AGND and DGND are tied to each other through a ferrite bead as close to , of grounds. AGND and DGND must be tied together through a ferrite bead or an inductor as close to , (1 x 0.2) / 64 = 3.125 mV Beat Frequency Technique The beat frequency technique is highly , output BNC. Three parameters must be properly selected for the beat frequency technique to work: For


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PDF AN7610 SPT7610 EB7610 c2026 30458 transistor C2026 1N2907A smd ag2 4914B c2026 transistor data motorola transistor 2N2907A j6a ANALOG DEVICE C2026 TRANSISTOR
2002 - c2026

Abstract: c2026 transistor data AN7610 transistor c2026 1N2907A C2026 TRANSISTOR EL34 circuit 4914B ICL8069CCZQ mfr-25fbf
Text: and observe the 61 kHz sinewave at the scope (64 points/period). Refer to Beat Frequency Technique , DGND are split. The AGND and DGND are tied to each other through a ferrite bead as close to the , circuitry, including isolation of grounds. AGND and DGND must be tied together through a ferrite bead or an , the P1 connector and the DAC output. Tj = V / allowable V = (1 x 0.2) / 64 = 3.125 mV Beat Frequency Technique The beat frequency technique is highly recommended when characterizing the SPT7610


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PDF AN7610 SPT7610 EB7610 c2026 c2026 transistor data AN7610 transistor c2026 1N2907A C2026 TRANSISTOR EL34 circuit 4914B ICL8069CCZQ mfr-25fbf
2002 - 1206R103K9B20D

Abstract: binary to gray code converter using PCB design ferrite n41 148ps 100E137 SPT7750AIK SPT7755AIK SPT7760AIK diode S6 SMA 1206R103
Text: AGND and DGND are tied to each other through a ferrite bead as close to the converter as possible , VOS AGND D2V DGND VIN HP8644A EB7750/55/60 Refer to Beat Frequency Technique section , including isolation of grounds. AGND and DGND must be tied together through an inductor or ferrite bead as , used in the stub. Table VIII shows signal propagation rates for several conductor types. Beat Frequency Technique The beat frequency technique is highly recommended when characterizing the SPT7750/55


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PDF AN7750/55/60 SPT7750, SPT7755 SPT7760 SPT7750/55/60 EB7750/55/60 1206R103K9B20D binary to gray code converter using PCB design ferrite n41 148ps 100E137 SPT7750AIK SPT7755AIK SPT7760AIK diode S6 SMA 1206R103
breadboard binary and decimal counter

Abstract: LM337 E1577 binary to gray code converter using PCB design binary to gray code converter 10s35 37-pin pinout 1431 T DPDT 6 terminal switch internal diagram 4 bit gray to binary converter circuit
Text: where the AGND and DGND are split. The AGND and DGND are tied to each other through a ferrite bead as , Beat Frequency Technique section for more detail. REFERENCE CIRCUIT Referring to Figure 9, D3 = , through an inductor or ferrite bead as closely to the A/D as possible. 7. Ensure adequate decoupling of , the P3 connector and the DAC output. Beat Frequency Technique The beat frequency technique is highly , DAC output BNC. Three parameters must be properly selected for the beat frequency technique to work


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PDF AN7750/55/60 SPT7750, SPT7755 SPT7760 SPT7750/55/60 EB7750/55/60 breadboard binary and decimal counter LM337 E1577 binary to gray code converter using PCB design binary to gray code converter 10s35 37-pin pinout 1431 T DPDT 6 terminal switch internal diagram 4 bit gray to binary converter circuit
2009 - TAT7467H-SC8

Abstract: TAT7467 TC1-33-75G2 TAT7467H TAT7467B CRCW040210K0JNED Replacement for TAT7469 TAT7468 MMBT2907A
Text: , R90503 Page 4 Bill of Materials REFERENCE DESIGNATOR B1 B2 VALUE / DESCRIPTION Ferrite Bead Ferrite Bead MFG MuRata MuRata MFG PN BLM15EG221SN1 BLM15HG102SN1 C1,2,3,4 C5,6,7,8,9,10,11 , TAT7467B) Triple Beat Distortion Measurements Distortion Test Set Up Spectrum Analyzer 3 tones @ , sum of power In 5 tones) (1/3 sum of power In 7 tones) 7467B Triple Beat Distortion +60 dBmV


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PDF TAT7467H TAT7467 350-380mA. -40oC -60oC 150oC R90503 TAT7467H-SC8) TAT7467H-SC8 TC1-33-75G2 TAT7467H TAT7467B CRCW040210K0JNED Replacement for TAT7469 TAT7468 MMBT2907A
1999 - tuner uhf Ghz

Abstract: 1T363 IT363 silicon di for microwave diode mixer uPC2743
Text: modulation distortion 4 (UHF (H) CM4 fdes = 800 MHzNote 1 90 80 dBµ 6-channel beat S/I , be tuned to approximately 45 MHz. Actually, as shown in Figure 5, a 1.2 µH coil with a ferrite core , Figures 16 and 17 show the input/output characteristic and 6-channel beat characteristic of the µPC2743GS , characteristic as tuners. Figure 16. Pin-Pout and 6-Channel Beat Figure 17. Pin-Pout and 6-Channel Beat Characteristics of µPC2743GS Characteristics of µPC2744GS µ PC2743GS 6-CHANNEL BEAT AND OUTPUT POWER vs


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PDF PC2743GS PC2744GS P11066EJ2V0AN00 par88-6130 tuner uhf Ghz 1T363 IT363 silicon di for microwave diode mixer uPC2743
2005 - ACM4532

Abstract: max9759ete Power IC btl class BKP1608 MAX9759EVKIT MAX9759 D53LC C1608C0G1H101J C1005C0G1H101J BKP1608HS101
Text: , L2 0 Not installed, inductors TOKO D53LC series L3, L4 2 100 ±25%, 1.7A ferrite beads (0603) Taiyo Yuden BKP1608HS101 L5 1 Ferrite bead, 100 at 100MHz, 50m DCR, 3A (0603) TDK , ensures that no beat frequencies within the audio spectrum occur on the power-supply rails. This stereo , 1µF C17* 100pF L4* FERRITE IN+ LCR FILTER ADDED TO EASE EVALUATION. C1 1µF C3 0.1µF L3* FERRITE * ADDED FOR ADDITIONAL EMI SUPPRESSION. 7 3 2 4 1 U1 G2 15 VDD


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PDF MAX9759 ACM4532 max9759ete Power IC btl class BKP1608 MAX9759EVKIT D53LC C1608C0G1H101J C1005C0G1H101J BKP1608HS101
Not Available

Abstract: No abstract text available
Text: problem by placing ferrite beads between the insulators of a dual body connector. We not only solved the , unresponsive supplier. Based on his quantity, Crane was able to beat the other supplier's price with no


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8al46

Abstract: BY147 SP1078B
Text: approaches DC compared to th e sampling frequency - in so-called "coarse quantization"). The beat frequency , very small tim e steps. The frequency is picked to produce one full cycle o f this beat frequency in , isolated by ferrite beads and a small series resistor into an "A nalog" and a "D igital" supply, w ith , . SP1078 Integral Linearity Error at Fin = 48.82 kHz, Fs = 20 MHz Graph 4. SP1078 Beat Frequency Test at , by tw e n ty Ohms in series w ith a 20 MHz ferrite bead. Note th a t 20 Ohms is near the practical


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PDF SP1078 SP1078 8al46 BY147 SP1078B
2001 - SRW35EC

Abstract: ferrite core transformer calculation formula srw19epc how to calculate ferrite core transformer SRW42EC SRW28EC SRW16ES TV flyback transformer SRW28LEC SRW13ES
Text: TRANSFORMER® The SRW series transformer for switching power supplies utilizes ferrite materials, which makes , By using high efficiency ferrite cores suitable for power conversion with very low power loss and , circuit topologies. · Special ferrite materials produced for power transformers with large magnetic flux density are used in the ferrite core, so that temperature rise of transformer is within 45°C in standard , not withstand heat well. · A beat sound noise may be generated even under normal operation (no


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2001 - SRW42EC

Abstract: ferrite core transformer calculation formula how to calculate ferrite core transformer SRW13EPC srw13ep SRW16ES4-H SRW16ES srw19epc SRW19ES SRW13ES
Text: transformer for switching power supplies utilizes ferrite materials, which makes it possible to achieve an incredibly high efficiency in the required frequency range. FEATURES · By using high efficiency ferrite , operating at 50kHz. There may be differences depending upon the circuit topologies. · Special ferrite materials produced for power transformers with large magnetic flux density are used in the ferrite core, so , distance from parts such as electrolytic capacitors, which do not withstand heat well. · A beat sound


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2005 - ferrite core transformer calculation formula

Abstract: tdk SRW TDK flyback transformer srw srw13ep SRW28EC SRW42EC SRW13EPC diode p25 SRW28LEC SRW35EC
Text: ® The SRW series transformer for switching power supplies utilizes ferrite materials, which makes it , efficiency ferrite cores suitable for power conversion with very low power loss and large magnetic flux , ferrite materials produced for power transformers with large magnetic flux density are used in the ferrite , mounting distance from parts such as electrolytic capacitors, which do not withstand heat well. · A beat , ferrite materials and standard bobbins, which are not listed. · All specifications are subject to


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2001 - SRW42EC

Abstract: ferrite core transformer calculation formula srw13ep SRW16ES SRW13EPC srw19epc SRW42 how to calculate ferrite core transformer SRW28EC SRW35EC
Text: TRANSFORMER® The SRW series transformer for switching power supplies utilizes ferrite materials, which makes , By using high efficiency ferrite cores suitable for power conversion with very low power loss and , circuit topologies. · Special ferrite materials produced for power transformers with large magnetic flux density are used in the ferrite core, so that temperature rise of transformer is within 45°C in standard , not withstand heat well. · A beat sound noise may be generated even under normal operation (no


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Not Available

Abstract: No abstract text available
Text: frequency (through the sampling process) to produce a 1st order beat product at 30 MHz. Likewise, the 2nd and 3rd harmonics of the input signal (generated via distortion in the T/H) beat with the 4th and 6th harmonics of the sampling frequency respectively to produce 2nd and 3rd order beat products at 60 MHz and , high frequency beat product methods to measure linearity for a wide range of clock and signal , maintaining all beat products within the 4 dB bandwidth of the SINx/x function, where the envelope response


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PDF HMC760LC4B HMC760LC4B
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