NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: , 1/16W 1/16W 4.7k � 5 %, 1/16W 1/16W Variable Resistor 1M � 33V Sneer Diode, NEC RD47S RD47S 7.5V Zener Diode, NEC , X 14=17.78 + 0.2 (Unit in mm) (Note) Product name description is given below: NEC : Maker name , , L-16.3 -1- 23rd March 2001 Preliminary - Contents - 1. Product , -2- 23rd March 2001 Preliminary 1. Product number Specifications SONET OC-48 OC-48 LR-1, LR-2 , LR-3 ITU-T G.957 L-16.1, L-16.2 , L-16.3 Product number OD-J7991-HA01 OD-J7991-HA01 Pigtail fiber code ... | Original |
17 pages, |
STM-16 PRBS223-1 OD-S524-SCFPC-SM OD-S524-FCFPC-SM OD-J7991-HA01 NEC Zener diode product List lqh4c CE-0925 variable resistor 1M OC-48 OD-J7991-HA01 abstract |
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| Abstract: for a specific application. The recommended applications of an NEC Electronics product depend on its , means any product developed or manufactured by or for NEC Electronics (as defined above). , Photocoupler Photocoupler Zener diode AC 250 V 2 A line filter AC 250 V 2 A line filter Buzzer Ceramic , pin IC IC IC IC Volume dial Oscillator Zener diode Zener diode Manufacturer KOA , Microcontroller ZBB-CE-09-0011-E ZBB-CE-09-0011-E Data Published March 2009 © NEC Electronics Corporation 1/25 The ... | Original |
25 pages, |
CN101 sato fuse C517 transistor RK73Z2ATTD rohm 4.7V zener diode 2SC2412KR diode 107 10K 521 inverter tokin nec Alps Tact Switch RK73B2ATTD103G GP1UX511QS diode zd201 EZ-0008 78K0/IB2 78K0/IB2 78K0/IB2 abstract |
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| Abstract: , 1/16W 1/16W 4.7k � 5 %, 1/16W 1/16W Variable Resistor 1M � 33V Sneer Diode, NEC RD47S RD47S 7.5V Zener Diode, NEC , (6.5) 1.27 X 14=17.78 + 0.2 (Unit in mm) (Note) Product name description is given below: NEC , , L-16.3 -1- 23rd March 2001 rev.1 - Contents - 1. Product , -2- 23rd March 2001 rev.1 1. Product number Specifications SONET OC-48 OC-48 LR-1, LR-2 , LR-3 ITU-T G.957 L-16.1, L-16.2 , L-16.3 Product number OD-J7991-0A01 OD-J7991-0A01 Pigtail fiber code is not ... | Original |
20 pages, |
STM-16 PRBS223-1 OD-S524-SCFPC-SM OD-S524-FCFPC-SM OD-J7991-0A01 zener Diode Specifications 1550nm variable resistor 1M sneer diode OC-48 OD-J7991-0A01 abstract |
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| Abstract: diode mixers. Unlike passive mixers, which have conversion loss and require high LO drive level, the , 570.1MHz, P3 is the largest 3rd order product at either 569.7MHz or 570.3MHz, and Gc is conversion gain. , for Mixer Two-Tone Measurements. 3 of 11 4 of 11 5 of 11 APPROVED VENDOR LIST VENDOR , RESISTORS DATA DISPLAY PRODUCT (800) 421-6815 LEDS DIODES INC. (805) 446-4800 DIODES , RF DEVICES NEC/TOKIN (510) 324-4110 INDUCTORS/HI C/V CAPS NICHIA (408) 573-0933 ... | Original |
11 pages, |
Marcon electrolytic 10 mf capacitor 400v opto 1230 res carbon con sockets 605 RF2138 smd potentiometers RF2140 smd 2661 power combiner toroid tocos potentiometer NEC Tokin cap marcon capacitor DC503A DC503A DC503A abstract |
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| Abstract: ) dissipation inside the IC. It is recommended that a CMHZ5236B CMHZ5236B zener diode is used in D4 when VOUT = 12V and , , 100V, SOD123 D4 DIODE ZENER, SMA-DIODE E1-E6 TP, TURRET, .094" L1 IND, SMT, 33uH, L-COIL-UP3B OR , output voltage to be customized. For output voltages below 3V, the boost diode should be moved from D2 , applications where the boost diode is placed in D2. However, the boost capacitor must have a voltage rating greater than the input voltage whenever the boost diode is placed in position D3. D4 is an optional ... | Original |
13 pages, |
SMD zener diode 203 8020 SMA Allen Bradley POTENTIOMETERS CHEMICON marcon cap CMHZ5236B LT3430 MMSD914 NEC schottky diode product List RAYCHEM TPS SMA-DIODE C5750X7R1H475K 7343 electrolytic cap NEC Zener diode product List 200KHZ LT3430 200KHZ abstract |
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| Abstract: Quick Start Guide 3 of 9 DC 420 Demo Board Quick Start Guide 4 of 9 APPROVED VENDOR LIST , DALE (see Vishay) DALE (see Vishay) DATA DISPLAY PRODUCT DIODES INC. ELECTRONIC CONCEPTS EPSON , MIDCOM MILL-MAX MINICIRCUITS MOTOROLA MURATA ELECTRONICS MURATA ELECTRONICS MURATA ELECTRONICS NEC , TAIYO YUDEN TEKTRONIX TEMIC THERMALLOY THIN FILM TECHNOLOGY TOCOS TOKIN (NEC) TOKO TOSHIBA , , SHUNTS INDUCTORS INDUCTORS CHIP CAPS / RES. CRG (CUST. RESPONSE) SCOPE PROBE SOCKETS IR PHOTO DIODE ... | Original |
9 pages, |
tokin transformers 8020 SMA Allen Bradley POTENTIOMETERS BH Electronics BH film CAPACITORS ic 6116 LTC4400-1 LTC4401-1 631 opto sprague 716 smd 2661 RF2140 RF2138 DC420A-B DC420A-B DC420A-B abstract |
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| Abstract: 4 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 515 CCFL POWER SUPPLY APPROVED VENDOR LIST , DALE (see Vishay) DALE (see Vishay) DATA DISPLAY PRODUCT DIODES INC. ELECTRONIC CONCEPTS EPSON , MINICIRCUITS MOTOROLA MURATA ELECTRONICS MURATA ELECTRONICS MURATA ELECTRONICS NEC/TOKIN NICHIA NICHICON , FILM TECHNOLOGY TOCOS TOKIN (NEC) TOKO TOSHIBA TOSHIBA UNITED CHEMICON VISHAY VISHAY VITRAMON , INDUCTORS CHIP CAPS / RES. CRG (CUST. RESPONSE) SCOPE PROBE SOCKETS IR PHOTO DIODE HEAT SINKS THIN ... | Original |
10 pages, |
Philips Electrolytic Capacitor 400v RF2138 Royer converter ccfl circuit ALLEN BRADLEY DIPS tocos potentiometer marcon capacitor inverter nec tokin BERG Electronics DIODE e5 SMD royer inverter inverter ccfl toshiba LT1373 LT1373 LT1373 abstract |
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| Abstract: Quick Start Guide 3of 9 DC 420 Demo Board Quick Start Guide 4of 9 APPROVED VENDOR LIST , DALE (see Vishay) DALE (see Vishay) DATA DISPLAY PRODUCT DIODES INC. ELECTRONIC CONCEPTS EPSON , MINICIRCUITS MOTOROLA MURATA ELECTRONICS MURATA ELECTRONICS MURATA ELECTRONICS NEC/TOKIN NICHIA NICHICON , TEKTRONIX TEMIC THERMALLOY THIN FILM TECHNOLOGY TOCOS TOKIN (NEC) TOKO TOSHIBA TOSHIBA UNITED , SOCKETS IR PHOTO DIODE HEAT SINKS THIN FILM CHIP RESISTORS SMD POTENTIOMETERS CAPS, INDUCTORS, RF ... | Original |
9 pages, |
RF2140 RF2138 LTC4400-1 Allen Bradley POTENTIOMETERS 8020 SMA marcon capacitor ALLEN BRADLEY DIPS DC420A-A DC420A-A abstract |
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| Abstract: Voltage regulation is achieved with a zener diode D6 directly driving the optocoupler. The resistor R3 , Phase Bridge Rectifier D2 Diode BAV103 BAV103 MINIMELF D5 Diode SMBY01-200 SMBY01-200 SMA D6 Diode Zener , . . . . . . . . . . 15 Component list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , . . . . . . . . . . . . . . . . . . . 17 AN1484 AN1484 List of figures List of figures Figure 1. , Start-up phase VIPer12A-E, as any product of the VIPer family, has an integrated high voltage current ... | Original |
18 pages, |
tsm101 TYOHM vip*12a VIPER flyback 5W VIPER12 BAV103 temic BAV103 AN1484 Samwha cap power transformer tank calculation samwha capacitor FB 10uf 63v capacitor samwha Nippon Chemi-Con VZ capacitor viper12 design AN1484 abstract |
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| Abstract: STPS1H100A STPS1H100A Zener Diode, 20V, 3W Diode, Transient Voltage Suppressor, 400W, 100V Diode, LED, Green, 20-mA, 0.9-mcd Diode, Zener Diode, Switching, 58-V, 400W Diode, Zener,12-V, 1W, 400W Diode, Schottky, 1A, 100V , . List of Figures 1 2 Screen Shot of TPS2384 TPS2384 GUI Enable Auto Read Selected Screen Shot of the GUI Port Function Pulldown Selected List of Tables 1 2 Output RJ-45 RJ-45 Connectors , :// . Click on the word Zip beneath Product ... | Original |
14 pages, |
SMD cf5 LCR-LRF2512-01-R010-F TTDLF-2500 SLVU126D TPS2384 HPA109 SLVU126D abstract |
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| 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. |
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| PRODUCT#7;(800) 421-6815#7;LEDS#7;#7;#7;DIODES INC.#7;(805) 446-4800#7;DIODES#7;#7;#7;ELECTRONIC CONCEPTS#7;(908) 542-7880#7;400V passive diode mixers. Unlike passive mixers, which have conversion loss and require high LO drive level desired output tones at either 569.9MHz or 570.1MHz, P3 is the largest 3rd order product at either 569 B.) #8; #8; #8; #8; #8; #8; #8;#8; #8;#8;#8;#8;#8;#8; #8;#8;#8; #8;#8; #8;#8; #8;#8;#8; #8; #8;#8; #8; #8; #8; #11;APPROVED VENDOR LIST VENDOR#7;PHONE NUMBER#7;PART TYPE#7;WEBSITE ADDRESS#7;#7;#7;#7;#7;#7;#7;AAC (was TAD)#7;(800) 508-1521#7;CHIP #7;#7;#7;FUKUSHIMA#7;(818) 765-8300#7;MPC RESISTORS#7;#7;#7;FUJI#7;(201) 712-0555#7;SCHOTTKY DIODES#7;#7;#7;GENERAL SEMICONDUCTOR#7;(516) 847 www.datasheetarchive.com/download/4234845-365175ZC/503a.zip (DC503A_QSG.doc) |
Linear | 22/09/2009 | 2740.14 Kb | ZIP | 503a.zip |
| RESISTORS DATA DISPLAY PRODUCT (800) 421-6815 LEDS DIODES INC. (805) 446-4800 DIODES ELECTRONIC -9301 ZENER/SM. SIGNAL DIODES VISHAY (605) 665-9301 INDUCTORS, SENSE Rs VITRAMON (203) 268-6261 CERAMIC -linearity alternative to passive diode mixers. Unlike passive mixers, which have conversion loss and require high LO product at either 569.7MHz or 570.3MHz, and Gc is conversion gain. P1 and P3 are in units of dBm, and Gc 6 of 11 APPROVED VENDOR LIST VENDOR PHONE NUMBER PART TYPE WEBSITE ADDRESS AAC (was TAD www.datasheetarchive.com/download/4234845-365175ZC/503a.zip (DC503A_QSG.pdf) |
Linear | 22/09/2009 | 2740.14 Kb | ZIP | 503a.zip |
| to be absorbed by a protection zener di- ode. Depending on the maximum energy to with- stand, a standard 0.5W Zener diode (e.g. BZX55C BZX55C BZX55C BZX55C) may have to be replaced by a 1.3W (BZX85C BZX85C BZX85C BZX85C) or 2W (BZV47C BZV47C BZV47C BZV47C) Zener diode (Figure 15). Additional filtering with serial resistance or in- ductance can be included to /D converter, allowing additional supply voltage monitoring to be achieved using an external Zener diode the input protection diodes. The decoupling of the board can be done with electrolytic capacitors www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/2488-v3.htm |
STMicroelectronics | 25/05/2000 | 33.91 Kb | HTM | 2488-v3.htm |
| voltage spike occurs. The corresponding short circuit cur- rent has to be absorbed by a protection zener di- ode. Depending on the maximum energy to with- stand, a standard 0.5W Zener diode (e.g. BZX55C BZX55C BZX55C BZX55C) may have to be replaced by a 1.3W (BZX85C BZX85C BZX85C BZX85C) or 2W (BZV47C BZV47C BZV47C BZV47C) Zener diode (Figure 15). Additional monitoring to be achieved using an external Zener diode (Figure 14). The circuit consumption is slightly diodes. The decoupling of the board can be done with electrolytic capacitors (typ. 10mF to 100mF) since www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/2488-v4.htm |
STMicroelectronics | 16/01/2001 | 34.67 Kb | HTM | 2488-v4.htm |
| protection zener di- ode. Depending on the maximum energy to with- stand, a standard 0.5W Zener diode (e.g. BZX55C BZX55C BZX55C BZX55C) may have to be replaced by a 1.3W (BZX85C BZX85C BZX85C BZX85C) or 2W (BZV47C BZV47C BZV47C BZV47C) Zener diode (Figure 15). Additional Zener diode (Figure 14). The circuit consumption is slightly increased due to the polarization of the currents coming from the MCU via the input protection diodes. The decoupling of the board can be done with input pin, clamping protection with diodes has to be included in the cir- cuit connected to the pin to www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/2488-v2.htm |
STMicroelectronics | 14/06/1999 | 32.14 Kb | HTM | 2488-v2.htm |
| protection zener di- ode. Depending on the maximum energy to with- stand, a standard 0.5W Zener diode (e.g. BZX55C BZX55C BZX55C BZX55C) may have to be replaced by a 1.3W (BZX85C BZX85C BZX85C BZX85C) or 2W (BZV47C BZV47C BZV47C BZV47C) Zener diode (Figure 15). Additional Zener diode (Figure 14). The circuit consumption is slightly increased due to the polarization of the currents coming from the MCU via the input protection diodes. The decoupling of the board can be done with input pin, clamping protection with diodes has to be included in the cir- cuit connected to the pin to www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/2488.htm |
STMicroelectronics | 02/04/1999 | 32.18 Kb | HTM | 2488.htm |
| circuit cur- rent has to be absorbed by a protection zener di- ode. Depending on the maximum energy to with- stand, a standard 0.5W Zener diode (e.g. BZX55C BZX55C BZX55C BZX55C) may have to be replaced by a 1.3W (BZX85C BZX85C BZX85C BZX85C) or 2W (BZV47C BZV47C BZV47C BZV47C) Zener diode (Figure 15). Additional filtering with serial resistance or in- ductance can be Zener diode (Figure 14). The circuit consumption is slightly increased due to the polarization of the voltage increase, para- sitic currents coming from the MCU via the input protection diodes. The decoupling www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/an/2488.htm |
STMicroelectronics | 17/09/1999 | 34.04 Kb | HTM | 2488.htm |
| voltage spike occurs. The corresponding short circuit cur- rent has to be absorbed by a protection zener di- ode. Depending on the maximum energy to with- stand, a standard 0.5W Zener diode (e.g. BZX55C BZX55C BZX55C BZX55C) may have to be replaced by a 1.3W (BZX85C BZX85C BZX85C BZX85C) or 2W (BZV47C BZV47C BZV47C BZV47C) Zener diode (Figure 15). Additional monitoring to be achieved using an external Zener diode (Figure 14). The circuit consumption is slightly diodes. The decoupling of the board can be done with electrolytic capacitors (typ. 10mF to 100mF) since www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/2488-v1.htm |
STMicroelectronics | 20/10/2000 | 34.81 Kb | HTM | 2488-v1.htm |
| is ON and -V F ( with V F the forward voltage across the D diode as indicated) when Q1 is OFF. During practically the volt - age across the recirculation diode), where the power saturation and the forward V F drop across the diode era taken into account. The ON and OFF times are established by the fol - lowing phenomena due to the catch diode, that we consider as dynamically ideal, are neglected. Fig. 4c shows the current circulating in the recircula - tion diode. The sum of the currents circulating in the power and in www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1711-v1.htm |
STMicroelectronics | 02/04/1999 | 77.25 Kb | HTM | 1711-v1.htm |
| is ON and -V F ( with V F the forward voltage across the D diode as indicated) when Q1 is OFF. During practically the volt - age across the recirculation diode), where the power saturation and the forward V F drop across the diode era taken into account. The ON and OFF times are established by the fol - lowing phenomena due to the catch diode, that we consider as dynamically ideal, are neglected. Fig. 4c shows the current circulating in the recircula - tion diode. The sum of the currents circulating in the power and in www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1711-v2.htm |
STMicroelectronics | 14/06/1999 | 77.21 Kb | HTM | 1711-v2.htm |