NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Part | Manufacturer | Description | Samples | Ordering |
| 150-02L | Coilcraft Inc | Variable Inductor, VARIABLE INDUCTOR | 
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| 150-06L | Coilcraft Inc | Variable Inductor, VARIABLE INDUCTOR |
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| 150-05L | Coilcraft Inc | Variable Inductor, VARIABLE INDUCTOR |
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| 150-03L | Coilcraft Inc | Variable Inductor, VARIABLE INDUCTOR |
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| 150-04L | Coilcraft Inc | Variable Inductor, VARIABLE INDUCTOR |
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| Catalog Datasheet Results | Type | Document Tags |
| Abstract: READINGS TAKEN ON AGILENT/8558-A AGILENT/8558-A METER. MI DRG. NÛ. J_CXXEYYYTRSMD JLCXXEYYYTRSM REV. VARIABLE INDUCTOR COIL (NONMAGNETIC) FILE AI ROUT NOTES. 1. a. DIMENSIONS mm b. DIMENSIONS' (inches) FOR ... | OCR Scan |
1 pages, |
variable inductor JLC02E050TRSM JLC03E04 JLC02E050TRSM abstract |
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| Abstract: Circuit NOTES: 1.0.1 pJH Variable Shielded Inductor: Coilcraft part # M1283-A M1283-A or equivalent. 2.10.7 MHz , p.H Variable Shielded Inductor: Coilcraft part # 143-18J12S 143-18J12S. 6.0.146 Variable Inductor: Coilcraft part , crystal. To provide sufficient output loading at the collector, a high Q variable inductor is used that is , circuit formed by the variable inductor and the tap capacitors and parasitic capacitances of the on-chip transistor and PC board. The variable inductor specified in the schematic could be replaced with a high ... | OCR Scan |
20 pages, |
44.545 MHZ crystal MC13156FB MC13156DW KD 2107 6 PIN SFE10 J380 SFE10.7MHY-A J340 FRP tank v18-o MMBR901 input impedance MC13156 NAD 751 overtone butler oscillator MC13156/D MC13156 MC13156/D abstract |
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| Abstract: MC13156 MC13156 Figure 17. MC13156DW MC13156DW Application Circuit NOTES: 1.0.1 jiH Variable Shielded Inductor: Collerait , # SFE10 SFE10.7MHY-A. 3.1.5 jiH Variable Shielded Inductor: Toko part #292SNS-T1373 292SNS-T1373. 4.3rd Overtone, Series Resonant, 25 PPM Crystal at 44.585 MHz. 5.0.814 |iH Variable Shielded Inductor: Collcraft part* 143-18J12S 143-18J12S. 6.0.146 |iH Variable Inductor: Collcraft part # 146-04J08 146-04J08. MOTOROLA RF/IF DEVICE DATA This , collector, a high Q variable inductor is used that is tuned to self resonate at the 3rd harmonic of the ... | OCR Scan |
20 pages, |
variable inductor J340 MC13156 MC13156 dw FM MC13156 FM MC13156DW MC13156FB overtone butler oscillator RF Transistor Selection SFE10 sfe10.7mhy 751E MC13156 VHF MC13156/D MC13156/D MC13156 MC13156/D abstract |
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| Abstract: variable inductor is used that is tuned to self resonate at the 3rd harmonic of the ovefione crystal , frequency is ensured by the parallel resonant circuit formed by the variable inductor and the tap capacitors and parasitic capacitances of the on-chip transistor and PC board. The variable inductor , mount component if the other components have good tolerances. A variable inductor provides an , 93.300 MHz. 4,0.135 yH Variable Shielded Inductor Coilcrafi part # 146-05J08S 146-05J08S or equivalent. MOTOROLA ... | Original |
20 pages, |
vhf gmsk receiver MC13156 MC13156DW MC13156FB Murata SF 455 D toko 455khz if transformer TOKO 455KHz transformer circuit schematic for ev 100 m mixer 44.545 MHZ crystal Bandpass Ceramic Filters datasheet abstract |
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| Abstract: inductor. Many radios use a fixed inductor (also called a coil) and a variable capacitor: as you turn the , capacitance. Another option is to use a fixed capacitor and a variable inductor: usually you screw an iron rod , your self-wound coil into a variable inductor by attaching only one end of the coil to the radio and , using a variable inductor to tune, repeated twisting of the iron core often causes the inductor to fail , at the transmitter and if a variable resistor on the back end is tuned to match the receiver. The ... | Original |
4 pages, |
1N34A old radio diagram long wave RADIO Crystal Radio applications galena equivalent components of diode 1N34A variable inductor Antenna Coil germanium point contact diode ferrite rod ANTENNA metal detector plans schematic ferrite antenna datasheet abstract |
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| Abstract: frequency is ensured by the parallel resonant circuit formed by the variable inductor and the tap capacitor and parasitic capacitances of the onchip transistor and PC board. The variable inductor specified , component if the other components have tight enough tolerances. A variable inductor provides an adjustment , inductor which forms the resonant tank with the tap capacitors is tuned "off " the crystal resonant , occur as the inductor is tuned. In order to eliminate this behavior an inductor, Lo, is placed in ... | Original |
23 pages, |
variable inductor LANSDALE SEMICONDUCTOR MC13158 MC13158FTB ML13158 ML13158-8P MRF941 murata crystal filter 10.7 "if amplifier" siemens BETA-100 SIEMENS saw filter ML13158 abstract |
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| Abstract: frequency is ensured by the parallel resonant circuit formed by the variable inductor and the tap capacitor and parasitic capacitances of the onchip transistor and PC board. The variable inductor specified , component if the other components have tight enough tolerances. A variable inductor provides an adjustment , inductor which forms the resonant tank with the tap capacitors is tuned "off " the crystal resonant , occur as the inductor is tuned. In order to eliminate this behavior an inductor, Lo, is placed in ... | Original |
23 pages, |
MRF941 ML13158-8P ML13158 MC13158FTB MC13158 LC resonant CIRCUIT OPERATION SIEMENS saw filter ML13158 abstract |
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| Abstract: 1.5 uH variable shielded inductor: Toko Part # 292SNS 292SNST1373 T1373 or Equivalent. MOTOROLA WIRELESS , (3) 1.5 u VCC 1.0 u NOTES: 1. 0.1 uH Variable Shielded Inductor: Coilcraft part # M1283 M1283A , SFE10 SFE10.7MHYA. 3. 1.5 uH Variable Shielded Inductor: Toko part # 292SNS 292SNST1373 T1373. 4. 3rd Overtone, Series Resonant, 25 PPM Crystal at 44.585 MHz. 5. 0.814 uH Variable Shielded Inductor: Coilcraft part # 14318J12S 18J12S. 6. 0.146 uH Variable Inductor: Coilcraft part # 14604J08 04J08. 10 MOTOROLA WIRELESS SEMICONDUCTOR ... | Original |
20 pages, |
J340 digital AC clamp meter schematic 7MC-8128Z 751E 44.545 MHz MMBR5179 T1373 murata crystal filter 10.7 Wavetek 164 murata transformer IF 455 khz SFE10 Wavetek 145 Wavetek 395 MC13156/D MC13156 MC13156/D abstract |
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| Abstract: variable shielded inductor: Toko Part # 292SNS 292SNST1373 T1373 or Equivalent. Page 3 of 21 www.lansdale.com , 10 k (3) 1.5 u VCC 1.0 u NOTES: 1. 0.1 uH Variable Shielded Inductor: Coilcraft part # , SFE10 SFE10.7MHYA. 3. 1.5 uH Variable Shielded Inductor: Toko part # 292SNS 292SNST1373 T1373. 4. 3rd Overtone, Series Resonant, 25 PPM Crystal at 44.585 MHz. 5. 0.814 uH Variable Shielded Inductor: Coilcraft part # 14318J12S 18J12S. 6. 0.146 uH Variable Inductor: Coilcraft part # 14604J08 04J08. Page 10 of 21 www.lansdale.com ... | Original |
21 pages, |
751E 44.545 MHz 44.545 crystal ML13156 ML13156-6P ML13156-8P UHF power TRANSISTOR PNP TO-39 toko variable coils passive vhf mixer 292SNS-T1373 murata crystal filter 10.7 TOKO rlc variable INDUCTANCE carrier detect phase shift ML13156 abstract |
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| Abstract: transformer. 2. VCC is DC Ground. 3. 1.5 uH variable shielded inductor: Toko Part # 292SNS 292SNST1373 T1373 or , NOTES: 1. 0.1 uH Variable Shielded Inductor: Coilcraft part # M1283 M1283A or equivalent. 2. 10.7 MHz , MHz. 5. 0.814 uH Variable Shielded Inductor: Coilcraft part # 14318J12S 18J12S. 6. 0.146 uH Variable , loading at the collector, a high Q variable inductor is used that is tuned to self resonate at the 3rd , variable inductor specified in the schematic could be replaced with a high tolerance, high Q ceramic or ... | Original |
20 pages, |
Wavetek 395 751E HP8640B J340 MC13156 MC13156DW MC13156FB MMBR5179 455 khz if transformer murata transformer IF 455 khz SFE10 TOKO rlc variable INDUCTANCE TOKO 7mc8128z toko transformer IF 455 khz MC13156/D MC13156 MC13156/D abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
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| , otherwise a slug-tuned variable inductor can be used. It seems archaic to have to adjust LC circuits in 4451 in figure 2 is a variable-gain amplifier. It has two inputs: REF, which has a low-distortion gain of 1 to the output; and Vin, which is a variable-gain input con- trolled by the Gain inputs. A very difficult to make this cir- cuit provide widely variable output frequency, but it can easily be so as not to load and de-tune it. Either the inductor or the capacitor can be adjusted; if the www.datasheetarchive.com/download/8391130-383070ZC/distort.doc |
Metcomp | 13/01/1998 | 878.5 Kb | DOC | distort.doc |
| SCALE DRAWING TECHNOLOGY 1630 McCarthy Blvd. Milpitas, CA 95035 SHDN SHDN INDUCTOR IRON_2.Normal INDUCTOR IRON_2.Normal VALUE MOSFET N-SO8_0.Normal INDUCTOR IRON_0.Normal DIFFOUT EAIN PGND SGND UVADJ .Normal INDUCTOR IRON.Normal INDUCTOR IRON_1.Normal MOSFET N.Normal MOSFET N_1.Normal MOSFET N_4.Normal MOSFET N_4.Normal EGND MOSFET N_3 MOSFET N_4 MOSFET N_4 MOSFET N_4.Normal DIODE SCHOTTKY DIODE SCHOTTKY INDUCTOR IRON_0 INDUCTOR IRON_1 INDUCTOR IRON_2 INDUCTOR IRON_2 INDUCTOR IRON_2.Normal INDUCTOR IRON MOSFET N www.datasheetarchive.com/download/97386777-365198ZC/558a.zip (558A-4.DSN) |
Linear | 22/09/2009 | 1968.44 Kb | ZIP | 558a.zip |
| -categories. Documentation Design Note DN275 DN275 DN275 DN275 Single Inductor, Tiny Buck-Boost Converter Provides 95% Efficiency in Highest Efficiency Using a Single Inductor DN413 DN413 DN413 DN413 - Wide Input Voltage Range Buck-Boost Converter Simplifies Design of Variable Input Supplies DN424 DN424 DN424 DN424 - Buck-Boost Controller Simplifies Design of DC Easier to Convert Lithium-Ion Battery Voltage to 3.3V with this Efficient Single Inductor Synchronous www.datasheetarchive.com/files/linear/products/1116.html |
Linear | 17/09/2010 | 6.81 Kb | HTML | 1116.html |
| below the output, a 1:1 coupled-inductor (Flyback or SEPIC) is used in place of the single inductor applications where at light loads variable frequency mode is acceptable, the IC can be programmed to power levels, the IC enters a variable frequency mode (PFM). PFM can be disabled by the user. Other High Efficiency at Very Low Power with Programmable Variable Frequency Mode Pulse by Pulse Current www.datasheetarchive.com/files/texas-instruments/data/wwwti~1.com/sc/docs/products/analog/uc3694~1.htm |
Texas Instruments | 28/01/2000 | 14.61 Kb | HTM | uc3694~1.htm |
| below the output, a 1:1 coupled-inductor (Flyback or SEPIC) is used in place of the single inductor applications where at light loads variable frequency mode is acceptable, the IC can be programmed to power levels, the IC enters a variable frequency mode (PFM). PFM can be disabled by the user. Other High Efficiency at Very Low Power with Programmable Variable Frequency Mode Pulse by Pulse Current www.datasheetarchive.com/files/texas-instruments/data/www.ti.com/sc/docs/products/analog/ucc39421.html |
Texas Instruments | 29/01/2000 | 14.61 Kb | HTML | ucc39421.html |
| below the output, a 1:1 coupled-inductor (Flyback or SEPIC) is used in place of the single inductor applications where at light loads variable frequency mode is acceptable, the IC can be programmed to power levels, the IC enters a variable frequency mode (PFM). PFM can be disabled by the user. Other High Efficiency at Very Low Power with Programmable Variable Frequency Mode Pulse by Pulse Current www.datasheetarchive.com/files/texas-instruments/data/www.ti.com/sc/docs/products/analog/ucc39422.html |
Texas Instruments | 29/01/2000 | 14.61 Kb | HTML | ucc39422.html |
| below the output, a 1:1 coupled-inductor (Flyback or SEPIC) is used in place of the single inductor applications where at light loads variable frequency mode is acceptable, the IC can be programmed to power levels, the IC enters a variable frequency mode (PFM). PFM can be disabled by the user. Other High Efficiency at Very Low Power with Programmable Variable Frequency Mode Pulse by Pulse Current www.datasheetarchive.com/files/texas-instruments/data/www.ti.com/sc/docs/products/analog/ucc29422.html |
Texas Instruments | 29/01/2000 | 14.61 Kb | HTML | ucc29422.html |
| below the output, a 1:1 coupled-inductor (Flyback or SEPIC) is used in place of the single inductor applications where at light loads variable frequency mode is acceptable, the IC can be programmed to power levels, the IC enters a variable frequency mode (PFM). PFM can be disabled by the user. Other High Efficiency at Very Low Power with Programmable Variable Frequency Mode Pulse by Pulse Current www.datasheetarchive.com/files/texas-instruments/data/wwwti~1.com/sc/docs/products/analog/uc3615~1.htm |
Texas Instruments | 28/01/2000 | 14.61 Kb | HTM | uc3615~1.htm |
| below the output, a 1:1 coupled-inductor (Flyback or SEPIC) is used in place of the single inductor applications where at light loads variable frequency mode is acceptable, the IC can be programmed to power levels, the IC enters a variable frequency mode (PFM). PFM can be disabled by the user. Other High Efficiency at Very Low Power with Programmable Variable Frequency Mode Pulse by Pulse Current www.datasheetarchive.com/files/texas-instruments/data/wwwti~1.com/sc/docs/products/analog/uc369e~1.htm |
Texas Instruments | 28/01/2000 | 14.61 Kb | HTM | uc369e~1.htm |
| National P/N LM2706 LM2706 LM2706 LM2706 - Miniature, Variable, Step-Down DC-DC Converter with Bypass for RF Power , Variable, Step-Down DC-DC Converter with Bypass for RF Power Amplifiers Generic P/N 2706 Note: This Receive via Email LM2706 LM2706 LM2706 LM2706 Miniature, Variable, Step-Down DC-DC Converter with Bypass for RF Power used in many other applications. It steps down an input voltage from 2.7V to 5.5V to a variable output surface-mount components. Only three small external surface-mount components, an inductor and two ceramic www.datasheetarchive.com/files/national/pf/lm2706.html |
National | 17/02/2005 | 5.23 Kb | HTML | lm2706.html |