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APPLICATIONS OF 8038

Abstract: MAX 8038 28389 8038 APPLICATIONS ML-8041 Raytheon Company
Text: . 1.19 MAX. 0IA. FILAMENT TERMINALS GRID TERMINAL ANODE ED- 2B387 / R2 8.63 MAX.OIA. ALL DIMENSIONS IN


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PDF ML-8038, ML-8040 ML-8041 ML-8038 125kV. ED-2B387/R2 ML-8038 APPLICATIONS OF 8038 MAX 8038 28389 8038 APPLICATIONS Raytheon Company
2008 - Not Available

Abstract: No abstract text available
Text: 425 29,1 S232523 2B385. 3 450 34,0 T232524 2B386. 3 500 42,0 V232525 2B387 . 3 630 42,0


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PDF 500VAC 201and K232493 2B613. L232494 2B619. M232495 2B623. N232496 2B631.
2004 - NH00AM50V160

Abstract: N232519 M227987 NH1AM50V160 J227869 F232512 S232500 L232517 B232508 Z232506
Text: 2B387 . 3 630 42,0 M227987 2B389. with screw contact 4 400 26,0 *) P233555 8004.400505 4 500 38,0


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PDF 636/VDE GPEU28 NH00AM50V160 N232519 M227987 NH1AM50V160 J227869 F232512 S232500 L232517 B232508 Z232506
1999 - gs816

Abstract: GS8162Z72C-200 GS8162Z72C-166I GS8162Z72C-166 GS8162Z72C-150I GS8162Z72C-150 GS8162Z72C-133 GS8162Z72C GS8162Z72 GS8162Z72C-200I
Text: No file text available


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PDF GS8162Z72C 209-bump GS8162Z72C 18Mbit 8162Z18 x18/x36 gs816 GS8162Z72C-200 GS8162Z72C-166I GS8162Z72C-166 GS8162Z72C-150I GS8162Z72C-150 GS8162Z72C-133 GS8162Z72 GS8162Z72C-200I
1999 - GS816272

Abstract: GS816272C-200I GS816272C-200 GS816272C-166I GS816272C-166 GS816272C-150I GS816272C-150 GS816272C-133 GS816272C M/5KE13A-E3/1GI-ND
Text: No file text available


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PDF GS816272C 209-Bump GS816272C x18/x36 GS816272 GS816272C-200I GS816272C-200 GS816272C-166I GS816272C-166 GS816272C-150I GS816272C-150 GS816272C-133 M/5KE13A-E3/1GI-ND
LINDNER fuses

Abstract: 500765 lindner IEC 60947-3 ac-22b switch disconnector fuse 250A 690V NT NH LINDNER fuses nh00gg50v125 P218766 1b769 C2237
Text: . 2B287. 2B379. 2B381. 2B383. 2B385. 2B386. 2B387 . 2B389. 8004.400505 8004.500505 8004.630505


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PDF 38103-FER Full-rNH3AM69V355-1 NH3AM69V400-1 NH3AM69V425-1 NH3AM69V450-1 NH3AM69V500-1 NH000AM69V2-1 NH000AM69V4-1 NH000AM69V6-1 LINDNER fuses 500765 lindner IEC 60947-3 ac-22b switch disconnector fuse 250A 690V NT NH LINDNER fuses nh00gg50v125 P218766 1b769 C2237
2007 - MA2821

Abstract: MM1631 mm1631a b10ph R813 ADR21
Text: ROUT3 LOUT3 ROUT2 28 29 30 31 32 33 34 35 36 LOUT2 ROUT1 LOUT1 VCC VCC L1 R1 L2 R2 1 2 3 4 5 6 7 8 9 , ROUT1 30 LOUT1 L8 11 L9 13 L10 15 L11 17 R1 34 R2 36 R3 R4 R5 R6 2 4 6 8 du c Pr o O ut Ph as ed , LOUT3 26 10µ 10µ 10µ 10µ 10µ 10µ 2k 1µ L3 R3 L4 R1 34 2k 1µ R2 36 L2 35 2k 1µ 600 600 600 2k , power-on. ) b07 b06 O b05 ut b04 DATA condition b01 b00 L1, R2 line select b16 b15 (OUT2) b14 (OUT2) ts A A P L1, R2 line select b11 b10 L3, R3 line select DATA2 (00H) Power


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PDF 11-Input MM1631 MM1630 MA2821 MM1631 mm1631a b10ph R813 ADR21
2001 - MHW6181

Abstract: MRF455 APPLICATION NOTES MRF151G MRF9135LS MRF171A MRF374A MRF21180 MRF247 MRF428 amplifier mrf247
Text: LNAs (18) Tape and Reel Packaging Option Available by adding suffix: a) R1 = 500 units; b) R2 = 2,500 units; c) T1 = 3,000 units; d) T3 = 10,000 units; e) R2 = 1,500 units; f) T1 = 1,000 units; g) R2 = 4,000 units; h) R1 = 1,000 units; i) R3 = 250 units; j) T1 = 500 units; k) R2 = 450 units; l) T1 = , Tape and Reel Packaging Option Available by adding suffix: a) R1 = 500 units; b) R2 = 2,500 units; c) T1 = 3,000 units; d) T3 = 10,000 units; e) R2 = 1,500 units; f) T1 = 1,000 units; g) R2 = 4,000


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PDF SPSSG1009/D MBC13720, MBC13916 MRF1535T1, MRF1550T1 MRF373A, MRF373AS, MRF374A, MRF372 MRF9002R1, MHW6181 MRF455 APPLICATION NOTES MRF151G MRF9135LS MRF171A MRF374A MRF21180 MRF247 MRF428 amplifier mrf247
2B32

Abstract: D40Z L505 LS06 R515 R51D
Text: SW1 SW2 SW3 RO 2 R3 I R4- f R1 I R5 2 R6 £ R2 2 R7 | RB DOS D1Y D2Y D3 Y D4Y D5Y D6¿ D7¿ D8 , L505 GREEN. IS L505 BLUE. BICOLOR 9V 1 SW1 SW2 RO > R1 > R2 > R3 > R4 > R5 > RB > R7 : DOS DI Y , CIRCUITS 9V SW RO > RI > R2 > R3 > R4 > R5 > R6 > R7 S R8 > R9 : USBYUPGYSUGY SYY SOY SI Y DRY G Y Y Y I T NOTESr 1. RÖ=R 1=270Ür R2-R9=3300. WHITE SW RO 5 R1 $ R2 : Doi D1YD2? NOTES: 1. RO=R1 = R2 =270Ü. Z. DO IS 2332. D1 G 0603. D2 IS L12Û9. RIGHT ANGLE 9V SW RO 5 R1 S R2 > R3 : Doi D1YD2Y D33


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PDF 3S-TR11 L120S DECL05URE 2B32 D40Z L505 LS06 R515 R51D
thermistor 10 SP

Abstract: 275-217 12 volt relay Diode 1N40 SPDT relay 12 Volt 1N4001 RELAY 47K variable resistor Q1 2N3904 2N3904 276-007
Text: K1 5 NORM 4 1 2 D1 1N40 LY P SUP RM NO YS LA R2 K 47 001 , D1 1 400 1N C1 R2 47K MON COM -14 t R1 K 47 U1A OP E OW RT1 , 3 R8 t T R4ELEC S OR 2 eg MIST 1 1M R2 K 47 RT1 THER R8 , R1 47K t UP RS REL 01 1N40 3 1 DT AY SP IVE R2 47K NORM OPE N , MISTO THER 3 POS 3 R2 47K t Q1 OP-14 4 R8 R1 47K 1 - 4 8


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PDF 2N3904 2N3904. LM741CN. thermistor 10 SP 275-217 12 volt relay Diode 1N40 SPDT relay 12 Volt 1N4001 RELAY 47K variable resistor Q1 2N3904 276-007
2009 - 4 channel dvr schematic diagram

Abstract: dvr schematic diagram sck c54 STEVAL-IFP007V1 MLW20G ED13 IEC61131-2 ED12 ED11 spi_master
Text: R1 R18 R1 R20 R2 R21 R2 R13 R1 R14 R1 R15 R1 R16 R1 R8 R10 R1 R11 R1 R12 R1 , 1k0 R22 R2 VCS VC R44 R4 120k SGND SGN VCC 1M5 R43 R4 GND GN SGND , 51k R2 GND GN IN1 N12 IN1 N13 N14 IN1 N15 IN1 IN8 IN9 IN1 N10 IN1 N11 GND , R7 L ED14 L ED12 L ED10 L ED8 ED L ED15 L ED13 L ED11 L ED ED9 R24 R2


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PDF STEVAL-IFP007V1 16-bit chip/STEVAL-IFP007V1 IEC61131-2 STEVAL-IFP07V1 4 channel dvr schematic diagram dvr schematic diagram sck c54 STEVAL-IFP007V1 MLW20G ED13 ED12 ED11 spi_master
2006 - Not Available

Abstract: No abstract text available
Text: 36 37 38 39 40 41 42 VCC VCC L1 R1 L2 R2 L3 O ut Applications Pr o du c ts , L4 2 L5 4 L6 6 L7 8 L8 10 L9 12 L10 14 L11 16 L12 18 L13 20 R1 39 R2 41 R3 1 R4 3 R5 5 R6 7 R7 9 R8 , 2k 1µ 1µ 1µ R2 41 2k 1µ L3 42 2 3 4 5 6 7 8 9 R7 10 L8 11 R8 12 L9 13 R9 14 L10 15 R10 16 L11 17 R11 , * * P b01 b00 L1, R1 LINE SELECT b11 b10 L3, R3 LINE SELECT L2, R2 LINE SELECT b17 L4, R4 LINE , b03 b02 b01 b00 L1, R1OUT 0 0 0 0 Mute 0 0 0 1 L1, R1 0 0 1 0 L2, R2 0 0 1 1 L3, R3 0 1 0 0 L4, R4 0 1


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PDF 13-Input MM1699XJ 0dB/12dB) SSOP-42A
2009 - Not Available

Abstract: No abstract text available
Text: =330, VHYS1=VDET1-VREL1 V-=0V, R1=330 V-=OPEN, R1=330 VDD=3V, R2 =2.2k VDD=3V, R2 =2.2k VDD=3V VDD=3.6V 4.4V VDD=4.4V 3.6V , -=0V, R1=330 V-=OPEN, R1=330 VDD=3V, R2 =2.2k VDD=3V, R2 =2.2k VDD=3V VDD=3.6V 4.4V VDD=4.4V 3.6V VDD , -=0V, R1=330 VDD=3V, R2 =2.2k VDD=3V, R2 =2.2k VDD=3V VDD=3.6V 4.4V VDD=4.4V 3.6V VDD=3.6V 2.2V Min. Typ. Max , DOUT COUT C3 0.1µ Pr o ts VR2 2.2k R1 and R2 resistors are current limit resistance if a , connected. R1 and R2 may cause a power consumption will be over rating of power dissipation, therefore the


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PDF MM3090 OT-26A 128ms
2008 - 471A

Abstract: ONSEMI MARKING EC
Text: /A RTN PGOOD VOUT FB Q2 GND D1 T 5 6 7 R1 R2 8 D0 R3 R4 , FO T R R EC N O EW M M D EN ES D IG ED N TON VLX VFB FB Threshold 0.75V VOUT FB + COUT R2 , new frequency is approximated by the following equation: FREQ (kHz) = FREQNOM · (1 + R1/ R2 ) VCC VLX L ESR + COUT 1nF R1 Power Output VOUT R2 pin 10 (VOUT) VLX L ESR COUT It is also possible to , (kHz) = FREQNOM·(R1 + R2 ) / (R1 + R2·VCC/VOUT) © 2008 Semtech Corp. N O FO T R R EC N O EW M M D


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PDF SC471/A 471A ONSEMI MARKING EC
Not Available

Abstract: No abstract text available
Text: 1 .6001 r2 .6841 22.45 r2 .6001 40.64 66.04 r . 6 8 41 9.75 r.eool [â , ] 35.56 [•784] 4.67 NONE NONE r2 .6001 17 . 7 8 66.04 [•784] 17 . 3 7 NONE O , 1 .6841 r2 .6841 O 4 ,8 ,1 2 40.64 24.99 5 NONE O 4 2.77 A


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PDF 21JAN11 31MAR2000
2007 - Not Available

Abstract: No abstract text available
Text: above state, detection voltage is as follows. Detection voltage: (R1 + R2 + R3) / ( R2 + R3) VREF (2) VDD , is as follows. Release voltage = (R1 + R2 ) / ( R2 ) VREF (3) Hysteresis voltage = (release voltage) - , characteristics. 2) The high resistance process is used for resistors R1, R2 and R3 to achieve low consumption


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PDF PST31XX OT-25A PST31XX, PST32XX) SC-82ABA, SC-82ABB PST33XX, PST34XX) PST3428
Not Available

Abstract: No abstract text available
Text: 09551667833.741 Part number PL Thread 260° d u rin g 10 seconds D o t. EC 02316 3 0 A p r2 , 6 Index desiqnation ED S to o d . 0 2 A p r2 0 0 7 ED 25Jan2007 ED ED In


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PDF 11Jan2010 11Jan2010 30Aug2010 25Jan2007 22Aug2007 ov2009
2009 - Not Available

Abstract: No abstract text available
Text: tVREL2 tVDET3 tVREL3 tVDET4 tVREL4 tSHORT Measurement conditions R1=330 V-=0V, R1=330 VDD=3V, R2 =2.2k VDD=3V, R2 =2.2k VDD=3V VDD=3.6V 4.4V VDD=4.4V 3.6V VDD=3.6V 2.2V VDD=3V, V-=3V 0V VDD=3V, V-=0V 1V VDD=3V, V , =3V, R2 =2.2k VDD=3V, R2 =2.2k VDD=3V VDD=3.6V 4.4V VDD=4.4V 3.6V VDD=3.6V 2.2V VDD=3V, V-=3V 0V VDD=3V, V , Measurement conditions R1=330 V-=0V, R1=330 VDD=3V, R2 =2.2k VDD=3V, R2 =2.2k VDD=3V VDD=3.6V 4.4V VDD=4.4V 3.6V , VD3 Discharging Overcurrent ApplicAtion hints R1 and R2 resistors are current limit resistance


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PDF MM3099
2000 - LX8818-01CDT

Abstract: LX8818-02CLM MO229 MO-229 Capacitor Fixed Electrolytic 10uF 100V tm1a
Text: GND GND R2 1150 R1 *V1 = VREF1+ + I ADJR1 R2 LX8818 LX8818 PACKAGE ORDER , * (1+ (R1/ R2 ) + (IADJ * R1) where R1 is the resistor connected between VOUT and ADJ, and R2 is the , ADJ R2 1.25V V REF BLOCK DIAGRAM BLOCK DIAGRAM R1 VOUT = VREF × 1 + + IADJ × R1// R2 R2 GND Note: Application circuit above using ceramic capacitors. Figure 2 ­ Adjustable Output (R1/ R2 can be selected to satisfy the minimum load requirements) Copyright © 2000 Rev. 1.0a


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PDF LX8818 LX8818 LX8818-01CDT LX8818-02CLM MO229 MO-229 Capacitor Fixed Electrolytic 10uF 100V tm1a
potenciometro 10 K

Abstract: potenciometro potenciometro 500 TERMOPAR potenciometro con interruptor potenciometro 5 K TERMOPAR e potenciometro 50 k TERMOPAR j potentiometre
Text: Potentiometer zum Einstellen des Schwellwertes R1 Potentiometer zum Einstellen des Schwellwertes R2 J HG , der Hysterese R2 Einstellbereich Hysterese: 5-50 % D E F U: LED grün - Anzeige der Versorgungsspannung R1: LED gelb - Ausgangsrelais 1 erregt 1SVC 110 000 F0033 R2 : LED gelb - Ausgangsrelais 2 , Bemessungsversorgungsspannung und Schaltbild dem seitlichen Typenschild am Gerät entnehmen. hysteresis K-M value R2 , ) Relais R2 (Wechsler) Untertemperatur SW 1.1 - 1.3, 1.6 = ON 3 I Front view with operating


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potenciometro

Abstract: PT100-Simulator PT100 ABB datasheet potenciometro 100 K relais schema potenciometro 10 K potentiometre potenciometro Datasheet PT100 temperature sensor of temperatur PT100 table
Text: 5 1 6 8 7 Potentiometer zum Einstellen des Schwellwertes R2 J HG Potentiometer zum Einstellen der Hysterese R2 Einstellbereich Hysterese: 5-50 % D E F U: LED grün - Anzeige der Versorgungsspannung R1: LED gelb - Ausgangsrelais 1 erregt 1SVC 110 000 F0031 R2 : LED gelb - Ausgangsrelais 2 , Hysterese R1 Einstellbereich Hysterese: 5-50 % J R1 threshold hysteresis R2 H , Schaltbild dem seitlichen Typenschild am Gerät entnehmen. K-M Versorgungsspannung value R2 K M


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PDF PT100 potenciometro PT100-Simulator PT100 ABB datasheet potenciometro 100 K relais schema potenciometro 10 K potentiometre potenciometro Datasheet PT100 temperature sensor of temperatur PT100 table
potenciometro

Abstract: potenciometro 10 K potenciometro Datasheet F0027 resistencias STROM RELAIS potentiometre M5000 F0217 relais schema
Text: 7 Potentiometer zum Einstellen des Schwellwertes R2 J HG Potentiometer zum Einstellen der Hysterese R1 Einstellbereich Hysterese: 5-50 % Potentiometer zum Einstellen der Hysterese R2 , Ausgangsrelais 1 erregt 1SVC 110 000 F0027 R2 : LED gelb - Ausgangsrelais 2 erregt A BC II II , seitlichen Typenschild am Gerät entnehmen. threshold hysteresis K-M Versorgungsspannung value R2 , (11-12/14) Relais R1 (Wechsler) Überspannung/-strom A - B - C (21-22/24) Relais R2 (Wechsler


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2006 - Not Available

Abstract: No abstract text available
Text: R3 R2 R1 © 2006 Semtech Corp. 2 www.semtech.com NOT RECOMMENDED FOR NEW DESIGN , Threshold 0.75V VOUT FB + COUT R2 Immediately after the DH on-time, the DL output drives high to energize , output. The new frequency is approximated by the following equation: FREQ (kHz) = 325 (1 + R1/ R2 ) VCC VLX L ESR + COUT 1nF R1 Power Output VOUT R2 pin 10 (VOUT) VLX L ESR COUT It is also possible , by the equation: FREQ (kHz) = 325 (R1 + R2 ) / (R1 + R2 VCC/VOUT) © 2006 Semtech Corp. N O


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PDF SC475A
Not Available

Abstract: No abstract text available
Text: INFORMATION 1. Stereo application 8 + CH1 11 - 9 R2 RF + C1 i ) F i xed vol t ag e g ai n ( P i n 9 c on n ec t ed t o G N D d i r ec t l y) G v= 2 0 l og R1 R2 (dB) i i ) V , INTEGRATED CIRCUIT 2. Bridge application INPUT 8 + CH1 R1 9 R2 RF 5 + CH2 - 4 R3 , gai n (Pi n 9 connected t o G ND di rect l y) G v = 20 l og R 1 R2 + 6(dB) i i ) Vari abl e v ol t age gai n RF and C1 connect ed wi t h pi n 9) R1 G v = 20 l og + 6(dB) R2 + RF APPLICATION


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PDF QW-R107-018
1999 - TR TL431 12v

Abstract: LTL431 et TL431 TL431 TR TL431 TL431AIPK TO-89 TL431B TL431C pin out TL431 application note
Text: R2 PACKAGE ORDER INFO DM Plastic SOIC 8-Pin LP Plastic TO-92 3-Pin PK Plastic , Tolerance NO TA (°C) T OB R R2 Note: All surface mount packages are available in Tape & , Input IK R1 FO O R DU NE C W T DE IREF R2 VREF Figure 8 ­ Test Circuit for VKA = , = 5V C V KA = 10V D V KA = 15V 90 80 B* 150 CL R2 OB R 10 T C* 20 , device to oscillate. For curves B, C, and D, R2 and V+ were adjusted to establish the initial VKA and


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PDF TL431 TL431A TL431B TL431B) 100mA TL431B 30ppm/ TL1431 TR TL431 12v LTL431 et TL431 TR TL431 TL431AIPK TO-89 TL431C pin out TL431 application note
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