500 MILLION PARTS FROM 12000 MANUFACTURERS

Datasheet Archive - Datasheet Search Engine

 

Direct from the Manufacturer

Part Manufacturer Description PDF Samples Ordering
LC-324 Texas Instruments LC-324 CCD camera, single board with lens pdf Buy
150-06L Coilcraft Inc VARIABLE INDUCTOR pdf Buy
150-03L Coilcraft Inc VARIABLE INDUCTOR pdf Buy

variable inductor

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: ACE716E ACE716E Max 38V, Variable Frequency Step-up DC/DC Converter Description The ACE716E ACE716E is a high , maximum rating conditions may affect device reliability. VER 1.2 1 ACE716E ACE716E Max 38V, Variable , Halogen - free Pb - free GM: SOT-23-6 PIN NAME DESCRIPTION 1 SW Inductor Connection. Connect an inductor Between SW and IN. 2 GND Ground Pin 3 FB Feedback Input for Current , VER 1.1 2 ACE716E ACE716E Max 38V, Variable Frequency Step-up DC/DC Converter BLOCK DIAGRAM ... ACE Technology
Original
datasheet

10 pages,
570.66 Kb

ACE716E TEXT
datasheet frame
Abstract: ACE716E ACE716E Max 40V, Variable Frequency Step-up DC/DC Converter Description The ACE716E ACE716E is a high , maximum rating conditions may affect device reliability. VER 1.1 1 ACE716E ACE716E Max 40V, Variable , Halogen - free Pb - free GM: SOT-23-6 PIN NAME DESCRIPTION 1 SW Inductor Connection. Connect an inductor Between SW and IN. 2 GND Ground Pin 3 FB Feedback Input for Current , ACE716E ACE716E Max 40V, Variable Frequency Step-up DC/DC Converter BLOCK DIAGRAM Electrical Characteristics ... ACE Technology
Original
datasheet

10 pages,
602.16 Kb

ACE716E TEXT
datasheet frame
Abstract: variable inductor: usually you screw an iron rod in or out of the coil to change the inductance. The , capacitor (220pfd) and turn your self-wound coil into a variable inductor by attaching only one end of the , coming out of your radio will simply stop. If you are using a variable inductor to tune, repeated , variable resistor on the back end is tuned to match the receiver. The most overlooked antenna type is the , is accomplished with an electrical circuit called an LC circuit, consisting of an inductor (L) and a ... Original
datasheet

4 pages,
83.69 Kb

1N34A equivalent 1N34A Crystal Radio applications galena equivalent components of diode 1N34A Antenna Coil germanium point contact diode variable inductor ferrite rod ANTENNA metal detector plans schematic ferrite antenna ferrite rod DIODE 1N34A air spaced VARIABLE CAPACITORS radios air variable capacitor schematic diagram electric drill Crystal Radio radio av receiver schematic diagram Diode Equivalent 1N34A TEXT
datasheet frame
Abstract: the boost inductor. The combination of integrated synchronous rectification, variable frequency , current of 0.5A. 95% Efficiency at 200mA Load Current Integrated peak current limit Variable Output Voltage determined by external resistors Variable On-time Pulse Frequency Modulation (PFM) Fully , around 1.25V. Boost inductor connection. An inductor is connected between this pin and VIN. When servicing the output supply, this pin pulls low, charging the inductor, then shuts off dumping the energy ... Fairchild Semiconductor
Original
datasheet

12 pages,
154.07 Kb

ML4854 LQ66 FAN4855 595D TEXT
datasheet frame
Abstract: Application Note Usage and Application of uPC8130TA uPC8130TA and uPC8131TA uPC8131TA Variable Gain Amplifier , impedance difference. (3) The choke inductor (such as a 100-nH inductor) must be attached between the VCC , parallel inductor is attached to the output pin and bias is applied to the output pin by connecting it to the VCC line via the choke inductor in the parallel inductor. (5) The DC cut capacitor must be , telephones have functions for hand-over between cells, so variable transmission power is needed. They also ... NEC
Original
datasheet

23 pages,
127.93 Kb

NEC AN ADJ 809 13-100000 1090-0000 NEC JAPAN MADE 282 185 01 PC8130TA PC8131TA TEXT
datasheet frame
Abstract: values as a variable. The parameter value of our inductor is "Inductance" 19. Go back to the main , current-mode.sch" given with your PSIM version The subcircuit we will create is going to replace the inductor , connection points for the subcircuit block. Connection ports 12. We can now delete the inductor and the , can draw an inductor and a capacitor on the subcircuit : 17. Go back to the subcircuit window , main circuit instead. For example, the inductance of the inductor can be specified as "Inductance" ... POWERSYS
Original
datasheet

12 pages,
240.54 Kb

PSIM 9 TEXT
datasheet frame
Abstract: Current Integrated peak current limit Variable Output Voltage determined by external resistors Variable , maintaining low peak currents in the boost inductor. The combination of integrated synchronous rectification, variable frequency operation, and low supply current make ML4854 ML4854 ideal for portable applications. · · , . Boost inductor connection. An inductor is connected between this pin and VIN. When servicing the output supply, this pin pulls low, charging the inductor, then shuts off dumping the energy through the ... Fairchild Semiconductor
Original
datasheet

13 pages,
397.22 Kb

ML4854 DT1608C-103 TEXT
datasheet frame
Abstract: HMC680LP4 HMC680LP4 / 680LP4E 680LP4E v03.0609 BiCMOS MMIC 5-BIT DIGITAL VARIABLE GAIN AMPLIFIER, 30 - 400 MHz , Functional Diagram The HMC680LP4 HMC680LP4(E) is a digitally controlled variable gain amplifier which operates from , compatible. VARIABLE GAIN AMPLIFIERS - DIGITAL - SMT 12 12 - 1 Electrical Specifications, TA = , -BIT DIGITAL VARIABLE GAIN AMPLIFIER, 30 - 400 MHz Normalized Attenuation (Only Major States are Shown , apps@hittite.com VARIABLE GAIN AMPLIFIERS - DIGITAL - SMT Input Return Loss 12 - 2 HMC680LP4 HMC680LP4 / 680LP4E 680LP4E ... Hittite Microwave
Original
datasheet

8 pages,
538.07 Kb

HMC680LP4 680LP4E TEXT
datasheet frame
Abstract: HMC680LP4 HMC680LP4 / 680LP4E 680LP4E v03.0609 BiCMOS MMIC 5-BIT DIGITAL VARIABLE GAIN AMPLIFIER, 30 - 400 MHz , Diagram The HMC680LP4 HMC680LP4(E) is a digitally controlled variable gain amplifier which operates from 30 to , compatible. Variable gain amplifiers - digital - SMT 12 12 - 1 Electrical Specifications, TA = , -BIT DIGITAL VARIABLE GAIN AMPLIFIER, 30 - 400 MHz Normalized Attenuation Maximum Gain vs. Frequency , apps@hittite.com variable gain amplifiers - digital - SMT GAIN (dB) 20 12 - 2 HMC680LP4 HMC680LP4 / 680LP4E 680LP4E ... Hittite Microwave
Original
datasheet

8 pages,
438.44 Kb

MC680L HMC680LP4E H680 ETC1-1-13 HMC680LP4 680LP4E TEXT
datasheet frame
Abstract: HMC680LP4 HMC680LP4 / 680LP4E 680LP4E v02.0209 BiCMOS MMIC 5-BIT DIGITAL VARIABLE GAIN AMPLIFIER, 30 - 400 MHz , Diagram The HMC680LP4 HMC680LP4(E) is a digitally controlled variable gain amplifier which operates from 30 to , compatible. VARIABLE GAIN AMPLIFIERS - DIGITAL - SMT 13 13 - 58 Electrical Specifi cations, TA = , HMC680LP4 HMC680LP4 / 680LP4E 680LP4E v02.0209 BiCMOS MMIC 5-BIT DIGITAL VARIABLE GAIN AMPLIFIER, 30 - 400 MHz , www.hittite.com 24 VARIABLE GAIN AMPLIFIERS - DIGITAL - SMT Input Return Loss 13 - 59 HMC680LP4 HMC680LP4 ... Hittite Microwave
Original
datasheet

8 pages,
337.78 Kb

variable capacitor H680 ETC1-1-13 10K variable resistor Variable resistor 10K ohm 39k ohm resistor HMC680LP4 680LP4E TEXT
datasheet frame

Archived Files

Abstract Saved from Date Saved File Size Type Download
No abstract text available
/download/8391130-383070ZC/distort.doc
Metcomp 13/01/1998 878.5 Kb DOC distort.doc
configuration operating in a continuous current mode (ie the value of the inductor at the input is calculated filter. Additionally, the boost inductor stores only a part of the transferred energy (because the mains still supplies energy during the inductor demagnetization) and so the inductor required is value of the input capacitor C i w the current ripple in boost inductor L b w the parasitic capacitances of the boost inductor and the power semiconductors, including those associated with the heatsink w
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/3727.htm
STMicroelectronics 20/10/2000 23.32 Kb HTM 3727.htm
, the boost configuration operating in a continuous current mode (ie the value of the inductor at the size and cost of the filter. Additionally, the boost inductor stores only a part of the transferred energy (because the mains still supplies energy during the inductor demagnetization) and so the inductor required is smaller in comparison with the other topologies. The boost topology thus inductor L b w the parasitic capacitances of the boost inductor and the power semiconductors, including
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/3727-v1.htm
STMicroelectronics 25/05/2000 22.69 Kb HTM 3727-v1.htm
Figure 2. The MAX2360 MAX2360 tank circuit Inductor L resonates with the total equivalent Figure 1). C coup provides DC block and couples the variable capacitance of the varactor diodes fine-tune resonance between inductor values. Resistors (R) provide reverse-bias voltage to the the variable tuning component in the tank. The capacitance of the varactor diode (C v ) is a couple the varactor to the tank C v = net variable capacitance of the varactor diode (including
/datasheets/files/maxim/0003/ansaq01.htm
Maxim 04/04/2001 107.39 Kb HTM ansaq01.htm
Figure 2. The MAX2310 MAX2310 tank circuit Inductor L resonates with the total equivalent Figure 1). C coup provides DC block and couples the variable capacitance of the varactor diodes resonance between inductor values. Resistors (R) provide reverse-bias voltage to the varactor variable tuning component in the tank. The capacitance of varactor diode (C v ) is a C coup = tank capacitor used to couple the varactor to the tank C v = net variable
/datasheets/files/maxim/0003/ansaq02.htm
Maxim 04/04/2001 154.67 Kb HTM ansaq02.htm
low-cost surface-mount inductor and varactor diode. The oscillator tank is a parallel-resonant circuit controlling the oscillation frequency; any change in the inductor or capacitor changes the oscillation frequency. The inductor and varactor can implement the variable resonance as frequencies where large-value varactors are impractical and the inductor value can be made larger. , however, finite variable capacitance imposes a fundamental limit on the frequency-tuning
/datasheets/files/maxim/0008/view_050.htm
Maxim 04/04/2001 26.78 Kb HTM view_050.htm
Single Inductor DN413 DN413 - Wide Input Voltage Range Buck-Boost Converter Simplifies Design of Variable DN275 DN275 Single Inductor, Tiny Buck-Boost Converter Provides 95% Efficiency in Lithium-Ion to 3.3V Lithium-Ion Battery Voltage to 3.3V with this Efficient Single Inductor Synchronous Buck-Boost Reg
/datasheets/files/linear/products/1116.html
Linear 17/09/2010 6.81 Kb HTML 1116.html
Surface Mount Ceramic Chip Capacitor C6 406 ARCO ST40 25 pF -115pF Miniature Variable Trimmer C9/C10 C9/C10 Semi-rigid Coaxial Cable O.D. 0.141[3.58] L=5.90[149.86] L1 83242 BELDEN Inductor l 1/4 Wave 50 Ohm O.D. OD 0.06", 5" Long C1 8.2 pF Ceramic Cap C2/C3 100 pF Chip Cap C4 2-18 pF Variable Cap C5 47 pF 6.8 V Zener Diode L1 20 nH Inductor L2 70 nH Inductor L3 30 nH Inductor L4 10 nH Inductor L5 15 nH Inductor SD2922 SD2922 9/13 85 90 95 100 105 110 55 58 61 64 67 70 FREQUENCY (MHz) EFFICIENCY (%) Vdd=50V
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4847.htm
STMicroelectronics 20/10/2000 14.81 Kb HTM 4847.htm
Surface Mount Ceramic Chip Capacitor C6 406 ARCO ST40 25 pF -115pF Miniature Variable Trimmer C9/C10 C9/C10 Semi-rigid Coaxial Cable O.D. 0.141[3.58] L=5.90[149.86] L1 83242 BELDEN Inductor l 1/4 Wave 50 Ohm O.D. OD 0.06", 5" Long C1 8.2 pF Ceramic Cap C2/C3 100 pF Chip Cap C4 2-18 pF Variable Cap C5 47 pF 6.8 V Zener Diode L1 20 nH Inductor L2 70 nH Inductor L3 30 nH Inductor L4 10 nH Inductor L5 15 nH Inductor SD2922 SD2922 9/13 85 90 95 100 105 110 55 58 61 64 67 70 FREQUENCY (MHz) EFFICIENCY (%) Vdd=50V
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4847-v2.htm
STMicroelectronics 14/06/1999 12.29 Kb HTM 4847-v2.htm
406 ARCO ST40 25 pF -115pF Miniature Variable Trimmer C9/C10 C9/C10 ATC100B470KP500X ATC100B470KP500X ATC 47 pF ATC 100B Coaxial Cable O.D. 0.141[3.58] L=5.90[149.86] L1 83242 BELDEN Inductor l 1/4 Wave 50 Ohm O.D. 100 pF Chip Cap C4 2-18 pF Variable Cap C5 47 pF Ceramic Cap C6 / C11 47 nF Ceramic Cap C7 56 pF Inductor L2 70 nH Inductor L3 30 nH Inductor L4 10 nH Inductor L5 15 nH Inductor SD2922 SD2922 9/13 85 90 / 1 W Resistor D1 6.8 V Zener Diode L1 10 nH Inductor L2 40 nH Inductor L3 70 nH Inductor SD2922 SD2922
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4847-v3.htm
STMicroelectronics 25/05/2000 14.05 Kb HTM 4847-v3.htm