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10007290-P0200CULF Amphenol FCi Interconnection Device, LEAD FREE
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capacitor,+1.2+microfarad

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: resistors of nominally equal value and a .01 microfarad decoupling capacitor. The MDRC-1641 is designed for ECL Line Termination to a - 2.0 volt buss. The .01 microfarad decoupling capacitor is for bypassing transients between supply voltages. The MDRC-1642 circuit contains 12 resistors of 510 ohm each and a .01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The .01 microfarad decoupling capacitor is for bypassing voltage transients on the voltage buss. MDRC -
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0.1 microfarad capacitor voltage rating 100PPM/ MDRC-1643 MDRC-1641-500G
Abstract: nominally equal value and a .01 microfarad decoupling capacitor. The MDRC-1641 is designed for ECL Line Termination to a - 2.0 volt buss. The .01 microfarad decoupling capacitor is for bypassing transients between supply voltages. MDRC-1642 Schematic The MDRC-1642 circuit contains 12 resistors of 510 ohm each and a .01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The .01 microfarad decoupling capacitor is for bypassing voltage transients on the voltage buss -
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1000 microfarad capacitor CAPACITOR 1000 MICROFARAD capacitor, 1000 microfarad
Abstract: right, a 10-microfarad capacitor esr chart is shown for different case sizes. One thing we notice here is as we go towards a higher case size capacitor, 10 microfarad, the ESR is lower. Again, what happens if you keep the same case size and keep increasing the capacitance? For example, 10 microfarad in 2012 case size, has a higher esr compared to a 100-microfarad capacitor. The ESR is lower for the , number of paralleled terminations affect ESL. The figure on the right, what is seen here is the same 10-microfarad National Semiconductor
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capacitor 10 microfarad 1 microhenry inductor 1000 microfarad 25v capacitor capacitor, 1000 microfarad 16v ELLVGG inductor 15 microhenry
Abstract: equal value and a .01 microfarad decoupling capacitor. The MDRC-1641 is designed for ECL Line Termination to a - 2.0 volt buss. The .01 microfarad decoupling capacitor is for bypassing transients between supply voltages. MDRC-1642 Schematic The MDRC-1642 circuit contains 12 resistors of 510 ohm each and a .01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The .01 microfarad decoupling capacitor is for bypassing voltage transients on the voltage buss -
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MIL-STD-202
Abstract: microfarad decoupling capacitor is for bypassing transients between supply voltages. The MDRC-1642 circuit contains 12 resistors of 510H each and a .01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a -5 .2 volt buss. The .01 microfarad decoupling capacitor is for bypassing , ATIC The MDRC-1641 circuit contains 11 resistors of nominally equal value and a .01 microfarad , ) providing a Thevenin equivalent voltage of -2 .0 volts. A .01 microfarad decoupling capacitor bypasses the -
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C-1641
Abstract: -1642 circuit contains 12 resistors of 510 ohm each and a .01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The .01 microfarad decoupling capacitor is for bypassing , -1641 circuit contains 11 resistors of nominally equal value and a .01 microfarad decoupling capacitor. The MDRC-1641 is designed for ECL Line Termination to a - 2.0 volt buss. The .01 microfarad decoupling , ) providing a Thevenin equivalent voltage of - 2.0 volts. A .01 microfarad decoupling capacitor bypasses the -
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0.1 MICROFARAD microfarad capacitor 100 microfarad capacitor, .01 microfarad capacitor 1 microfarad capacitor 30 microfarad
Abstract: microfarad decoupling capacitor. The MDRC-1641 is designed for ECL Line Termination to a - 2.0 volt buss. The .01 microfarad decoupling capacitor is for bypassing transients between supply voltages. MDRC-1642 Schematic 16 9 1 8 The MDRC-1642 circuit contains 12 resistors of 510 ohm each and a .01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The .01 microfarad decoupling capacitor is for bypassing voltage transients on the voltage buss. MDRC Vishay Dale
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of 1000 microfarad capacitor 1000 microfarad capacitor 25 volt capacitor, 1000 microfarad and 25 volts datasheet of 1000 microfarad capacitor of 1000 microfarad for capacitor, 1000 microfarad
Abstract: microfarad decoupling capacitor is for bypassing transients between supply voltages. MDRC1642 Schematic 16 1 The MDRC1642 circuit contains 12 resistors of 510 ohm each and a .01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The .01 microfarad , 1 8 The MDRC1641 circuit contains 11 resistors of nominally equal value and a .01 microfarad , 5.2 volt) providing a Thevenin equivalent voltage of - 2.0 volts. A .01 microfarad decoupling Vishay Dale
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Dale Resistor free capacitor 208E 4 microfarad capacitor MDRC1641500GD04 MDRC1641500G MDRC1643
Abstract: a .01 microfarad decoupling capacitor. The MDRC-1641 is designed for ECL Line Termination to a - 2.0 volt buss. The .01 microfarad decoupling capacitor is for bypassing transients between supply voltages. The MDRC1642 circuit contains 12 resistors of 510 ohm each and a .01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The .01 microfarad decoupling , volts. A .01 microfarad decoupling capacitor bypasses the VEE buss. 1 VCC VEE VCC VEE VEE Vishay Dale
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Abstract: circuit contains 12 resistors of 510 ohm each and a 0.01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The 0.01 microfarad decoupling capacitor is for , resistors of nominally equal value and a 0.01 microfarad decoupling capacitor. The MDRC-1641 is designed for ECL Line Termination to a - 2.0 volt buss. The 0.01 microfarad decoupling capacitor is for , Thevenin equivalent voltage of - 2.0 volts. A 0.01 microfarad decoupling capacitor bypasses the VEE buss Vishay Dale
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Vishay Dale 130 ohm resistors Resistor 511 Ohm vishay capacitor, .001 microfarad
Abstract: circuit contains 12 resistors of 510 ohm each and a 0.01 microfarad decoupling capacitor. The MDRC-1642 is designed for ECL Pull-down to a - 5.2 volt buss. The 0.01 microfarad decoupling capacitor is for , resistors of nominally equal value and a 0.01 microfarad decoupling capacitor. The MDRC-1641 is designed for ECL Line Termination to a - 2.0 volt buss. The 0.01 microfarad decoupling capacitor is for , Thevenin equivalent voltage of - 2.0 volts. A 0.01 microfarad decoupling capacitor bypasses the VEE buss Vishay Dale
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Abstract: Hall Input B Hall Input A E/ASIG GND 20 19 18 17 16 15 14 13 12 11 Power+ CØ BØ AØ , . A 10 microfarad capacitor should be connected as close to this pin as possible and returned to GND along with a 0.22 microfarad monolithic ceramic capacitor. CAP+, CAP- Are pins for connecting external capacitance for the charge pump inverter circuit. A 10 microfarad capacitor must be connected as close to , output available for external uses. Up to 20 mA is available at this pin. A 10 microfarad capacitor MS Kennedy
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100 microfarad 20v capacitor of 0.22 microfarad 50 Amp 100 volt mosfet 10 microfarad capacitor 8023 mosfet 120 volts 10 amp mosfet MIL-PRF-38534 MSK4359
Abstract: 2F 2G 3A 3B 3C 3D 3E 3F 3G 4AB BP (201 (5) (4) (31 12) (8) (61 (71 (12) (11) (10) (9 , 3E 3F 3G 4AB BP (20) (5) (4) 13) (2) (8) (7) (12) (11) (10) (9) (14) (13) (25) (23 , nominal value for Cx is 0.047 microfarad; for one readout update per second (16-kilohertz clockl, the , . The size of the auto-zero capacitor, Cz, affects the system noise. On the 200-millivolt scale, a 0.32-microfarad capacitor is recommended. On the 2-volt scale, a 0.033-microfarad capacitor decreases the recovery time from -
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TLC7126 ICL7106 TSC7106 ICL7126 TSC7126A TSC7126 capacitor.01 microfarad Teledyne TSC7106 7 segmant D2748
Abstract: following paragraphs with the aid of Figures 1 through 12. Switching power converters are natural , required rejection is 12 dB or less. Only high quality low ESR ceramic capacitors are recommended. They , graph and equations of Figure 12 can be used to complete the DM output filter design. Assume a value , microfarad tantalum. C3 = C5 = 0.27 microfarad or > ceramic cap. C5 & C6 are for optional diff. input , microfarad or > ceramic cap. C2 = 0.033 microfarad or > ceramic cap. T1 +VIN + C5 + Interpoint
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MSA2815D J-40601-TC J-41003-TC magnetic core ferroxcube 3E2A ferrite cores 3E2A Toroid 3E2A Toroid 3E2A or equivalent capacitor, 10000 microfarad 5-3E27 28AWG 2-3E27
Abstract: +VCC VOUT VOUT -IN +IN -VCC 8 9 10 11 12 13 14 -VCC -VCC VOUT VOUT +VCC +VCC VSC CASE=ISOLATED 1 , 1.2°C/W typically for the TO-3 package 5.) RCS = 0.15°C/W for most thermal greases 6.) Rearrange , effective decoupling scheme consists of a 0.1 microfarad ceramic capacitor in parallel with a 4.7 microfarad , op-amps, such as the MSK 136, to place a 30-50 microfarad nonelectrolytic capacitor with a low effective MS Kennedy
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MSK136 MSK136H MSK136G MSK136HG
Abstract: Generator Pin 3, the AGC amplifier phase correction point should be decoupled to ground by a 1 microfarad , fast-acting AGC. The AGC output (Pin 4) will drive at least two SL610/11/ 12 amplifiers. The SL623AGC output , 0.01 microfarad capacitor. The output impedance of the detector is 3 kilohm and the terminal is at a , SL623C to the SL621C via a 2 kilohm resistor in series with a 0.5 microfarad capacitor. Input Conditions GEC Plessey Semiconductors
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am ssb receiver AM deMODULATOR SL623C 0.01 microfarad capacitor am ssb receiver operation am detector am "IF Amplifiers" sl623 SL623 SL610C SL611C SL612C 120MH
Abstract: . 15 13.6 14.25 -15.75 3.0 -13.5 1.9 1.8 -25 -50 0.475 0.45 -12 -12 3.0 Typ. 16 22 2 2 0 0 0.5 0.5 3 1.8 400 0.8 1.6 86 2 Max. 17 18.4 15.75 -14.25 250 0.8 +13.5 1.5 2.1 2.2 25 50 0.525 0.55 +12 +12 1.92 750 1.6 0.8 3.1 Min. 15 14.25 -15.75 3.0 -13.5 1.8 -50 0.45 -12 -12 3.0 - MSK 4360 2 Typ. 16 2 0 , 1 DISABLE VIL 1 VIN 1 Input Current 1 +13.5 VOLTS mA 1.5 A/V 2.2 A/V mA 50 mA V/A 0.55 V/A +12 VOLTS +12 1.92 750 1.6 0.8 3.1 VOLTS V/Sec MHz V/mV VOLTS VOLTS A VOLTS nSec Sec VOLTS VOLTS mA NOTES MS Kennedy
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MSK4360
Abstract: 500 400 300 200 100 -12 0 % CAPACITANCE CHANGE % CAPACITANCE CHANGE 40 , 1 microfarad 100.000 ESR (ohms) 1,000.000 3333B105M501N X7R 1 microfarad 10.000 1.000 , D a t a S h e e t Rev. 2006-A Q versus Frequency 10000 ST3640R105K801P-5 R2D 1 microfarad 3333B105M501N X7R 1 microfarad Q 1000 100 10 1 10 100 1000 Frequency (KHz) R2D DF Novacap
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1500 microfarad capacitor 100 micro farad capacitor 0.001 micro farad capacitor 1 microfarad capacitor capacitor, 100 microfarad and 35 volts 100 micro farad capacitor datasheet 1500VDC 3333B823M202Y 3040R883P152P
Abstract: MICRO-FARAD PICO-FARAD NANO-FARAD 1R5 1.5 .0015 2R2 2.2 .0022 3R3 3.3 .0033 4R7 4.7 .0047 6R8 6.8 .0068 100 10 , 680 68 .068 750 75 .075 820 82 .082 .1 101 .00010 100 121 .00012 120 .12 151 .00015 150 .15 181 .00018 , 472 562 682 822 103 123 153 183 223 (MF) (PF! MICROFARAD PICO-FARAD .00039 390 .00040 400 .00047 470 , 1.0 1.2 1.5 2.0 2.2 2.5 2.7 3.0 3.3 3.9 4.7 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 EIA CODE 273 333 393 , ) (PF) (MF) MICRO-FARAD PICO-FARAD NANO-FARAD 27.0 .027 27000 33.0 33000 .033 39.0 39000 .039 47.0 .047 -
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2200 microfarad electrolytic capacitor capacitor 220 microfarad capacitor 470 microfarad 100 microfarad electrolytic capacitor 2700 microfarad capacitor 0.1 microfarad electrolytic capacitor
Abstract: ) EIA C O D E MICRO-FARAD PICO-FARAD NANO-FARAD 1.5 .0015 1R5 2R2 2.2 .0022 3R3 3.3 .0033 4.7 .0047 4R7 , 500 .050 560 56 .056 680 68 .068 750 75 .075 82 .082 820 .1 101 .00010 100 121 120 .12 .00012 150 151 , 272 302 332 392 472 562 682 822 103 123 153 183 223 , .68 .75 .82 1.0 1.2 1.5 2.0 2.2 2.5 2.7 3.0 3.3 3.9 4.7 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 EIA CODE , 505 106 (MF) (PF) (NF) MICRO-FARAD PICO-FARAD NANO-FARAD .02727.0 27000 33.0 .033 33000 39000 39.0 -
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4700 microfarad 25 V 1000 microfarad 35 v 15000 microfarad capacitor 101 Ceramic Disc Capacitors 10 nanofarad capacitor 6800 microfarad capacitor
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