NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: And when DYN is digital "1" level, a 0.47 mF capacitor should be connected between them. 5/25 ¡ Semiconductor MSM7557 MSM7557 (Continued) Name CMPI Description Compressor circuit input. A 0.47 mF , "1" level, a 0.47 mF capacitor should be connected between them. Receive side amplifier input (RAI , 0.47 20 - - mF - C14 bit/sec pF 10/25 ¡ Semiconductor MSM7557 MSM7557 , dBV - TAT2 DYN = "1", C6 = 0.47 mF - 3.5 - TRE1 DYN = "0", C6 = 0.22 mF ... | Original |
25 pages, |
MSM7557GS-2K MSM7557 gt 2399 FR25 compandor .1 mF capacitor 0.47 MF CAPACITOR E2A0046-16-X1 E2A0046-16-X1 abstract |
|
|||
| Abstract: detection time. When a 0.47 mF capacitor is connected between CT and GND Lockup detection time :approx. , DIAGRAM CT Thermal protection circuit 0.47 to 1F FG Discharge pulse Vcc HALL IN+ IN- , CIRCUIT C2 Vcc H IN - FG IN+ OUT1 HB OUT2 ST CT C1 0.47 to 1F GND , SYMBOL Current drain ICC Lockup detection Capacitor charge current Capacitor discharge current Capacitor charge/discharge current ratio CT charge voltage CT discharge voltage Output Low level voltage ... | Original |
8 pages, |
MSOP-10 LB1962 0.47 MF CAPACITOR LB1962 abstract |
|
|||
| Abstract: capacitance alters the lockup detection time. When a 0.47 mF capacitor is connected between CT and GND , , VCC=5V) PARAMETER Current Drain SYMBOL ICC Lockup Detection Capacitor Charge Current Capacitor discharge current Capacitor Charge/Discharge Current Ratio CT Charge Voltage CT Discharge Voltage , This pin serves timing capacitor connecting pin between CT and GND. The capacitor determines timing of ... | Original |
9 pages, |
MSOP-10 0.47 MF CAPACITOR F1962 F1962 abstract |
|
|||
| Abstract: Vitramon 8 1 C13 0.47 mF Capacitor 805 VJ0805474KXXAT VJ0805474KXXAT Vishay Vitramon 9 5 C17, C18, C19 2200 mF Capacitor, 2200 mF/10 V Radial-Lead EKE00FI422C00 EKE00FI422C00 Vishay , C1, C2, C3, C15, C16 1000 mF Capacitor, 1000 mF/10 V Radial-Lead EKE00DD410C00 EKE00DD410C00 Vishay , C5, C9, C11, C14, C22 0.1 mF Capacitor 805 VJ0805104KXXAT VJ0805104KXXAT Vishay Vitramon 4 3 C6, C12, C23 4.7 mF Capacitor 1206 GRM42-2X5R475K16 GRM42-2X5R475K16 Murata 5 1 C7 27 pF ... | Original |
6 pages, |
SUD50N03-10 2N7002 470 pf capacitor capacitor 1000 MF 0.47 MF CAPACITOR dale resistor code DIFS4 EKE00DD410C00 MF CAPACITOR Si9143 Si9143DB CRCW08053002FRT1 Dale Resistor Si9143DB abstract |
|
|||
| Abstract: competition. Its patented design requires only a 0.47 mF output capacitor for stability. This device is , circuit to be stable with just a small 0.47 mF capacitor on the output. Additional advantages of the , (anyCAP). A capacitor as low as 0.47 mF is all that is needed for stability; larger capacitors can be , , respectively. The output capacitor can be adjusted to minimize the overshoot. Values in the 0.47 mF to 1.0 mF , FB 6 L9B IN ERR SD Output of the Regulator. Bypass to ground with a 0.47 mF or ... | Original |
12 pages, |
MJE253 ADP3331ART ADP3331 0.47 MF CAPACITOR MO178AB ADP3331 abstract |
|
|||
| Abstract: AD input Notes ¾ Connect 0.47-mF capacitor and 20-W resistor. ¾ ¾ Analog power supply AD input Connect 0.47-mF capacitor and 20-W resistor. ¾ Ground to AVSS (pin 14) via 0.1-mF , 0.47-mF capacitor and 20-W resistor. ¾ Ground to AVSS (pin 69) via 0.1-mF capacitor. AD reference , AD) Ground to AVSS (pin 6) via 0.1-mF capacitor. 2 VRM_I O AD reference voltage , AD reference voltage (top) Ground to AVSS (pin 6) via 0.1-mF capacitor. 8 DACOUT O ... | Original |
36 pages, |
TC90A58F MF CAPACITOR ITU-R601 CR232 Cr03-2 TC90A58F abstract |
|
|||
| Abstract: 0.47 mF capacitor if unused 1.65 V reference voltage; connect a 1 mF capacitor to ground Left speaker , through 0.47 mF capacitor if unused Charge pump flying capacitor positive terminal; connect positive side , supply Channel 1 right input (SE-In mode); Left input (Diff-In mode); connect to ground through 0.47 mF , Channel 2 left input (SE-In mode); Right+ input (Diff-In mode); connect to ground through 0.47 mF , ) 1-mF ceramic capacitor (typically) placed as close as possible to the device PVDD (L, R) lead works ... | Original |
30 pages, |
TPA2054D4A SLOS666 TPA2054D4A abstract |
|
|||
| Abstract: detection time. When a 0.47 mF capacitor is connected between CT and GND Lockup detection time : approx. , circuit 0.47 to 1uF RD (LB1862M LB1862M) FG (LB1962M LB1962M) Discharge pulse VCC HALL IN+ Delay , 5.0 6.0 7.0 ICT1 capacitor charge current Capacitor discharge current ICT2 Capacitor charge/discharge RCT RCT = ICT1/ICT2 current ratio CT charge voltage VCT1 2.55 , capacitor between CT and GND. The capacitor determines the characteristics of the built-in lockup ... | Original |
8 pages, |
MFP10S LB1962M LB1862M EN5657C EN5657C abstract |
|
|||
| Abstract: capacitance alters the lockup detection time. When a 0.47 mF capacitor is connected between CT and GND , / Discharge circuit 0.47 to 1uF RD Discharge pulse VCC HALL IN+ Delay circuit IN- , 7.0 ICT1 capacitor charge current Capacitor discharge current ICT2 Capacitor charge , serves for connecting a capacitor between CT and GND. The capacitor determines the characteristics of , RD 10 2 IN+ OUT1 4 9 HB LB1862 LB1862 OUT2 6 8 ST 3 CT C1=0.47 to 1uF GND 5 (1) D1 ... | Original |
6 pages, |
LB1862 EN6208B EN6208B abstract |
|
|||
| Abstract: detection time. When a 0.47 mF capacitor is connected between CT and GND Lockup detection time : approx. , circuit 0.47 to 1F RD (LB1862M LB1862M) FG (LB1962M LB1962M) Discharge pulse VCC HALL IN+ Delay , 5.0 6.0 7.0 ICT1 capacitor charge current Capacitor discharge current ICT2 Capacitor charge/discharge RCT RCT = ICT1/ICT2 current ratio CT charge voltage VCT1 2.55 , capacitor between CT and GND. The capacitor determines the characteristics of the built-in lockup ... | Original |
7 pages, |
MFP10S MFP10 LB1962M LB1862M EN5657D EN5657D abstract |
|
|||
| 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. |
|||||
| Capacitor Voltage Converter SOIC NARROW 8 Full production 1K+ $0.47 3-4 weeks 10000 MAX660MX MAX660MX MAX660MX MAX660MX Switched Capacitor Voltage Converter SOIC NARROW 8 Full production 1K+ $0.47 LMH LMS LMV LMX LP MA MC MF MM NS PC www.datasheetarchive.com/files/national/master_ma.html |
National | 25/09/2003 | 6.77 Kb | HTML | master_ma.html |
| -2, B2-2, A3-2, B3-2 0.31 0.39 0.47 V B1-2 DC applied 1B O O Pin 3 - 0.47 - 0.39 - 0.31 V A2-2 DC applied 2A O O Pin 16 0.31 0.39 0.47 V B2-2 DC applied 2B O O Pin 20 - 0.47 - 0.39 - 0.31 V A3-2 DC applied 3A O O Pin 23 0.31 0.39 0.47 V B3-2 DC applied 3B O O Pin 27 - 0.47 - 0.39 - 0.31 V V1-1 Amplitude GND2 GND3 1B GND GND GND INY Co-axial cable -5V 0.1 mF 150 W 75 W 1.6Vp-p 0.6Vp-p 0.6Vp-p 0.1 mF 0.1 mF distortion at the input pins is directly trans- ferred to the output waveform. BIAS GEN 0.1 mF 150 W 75 W 0 www.datasheetarchive.com/files/stmicroelectronics/books/ascii/docs/1154.htm |
STMicroelectronics | 25/05/2000 | 12.66 Kb | HTM | 1154.htm |
| -2, B3-2 0.31 0.39 0.47 V B1-2 DC applied 1B O O Pin 3 - 0.47 - 0.39 - 0.31 V A2-2 DC applied 2A O O Pin 16 0.31 0.39 0.47 V B2-2 DC applied 2B O O Pin 20 - 0.47 - 0.39 - 0.31 V A3-2 DC applied 3A O O Pin 23 0.31 0.39 0.47 V B3-2 DC applied 3B O O Pin 27 - 0.47 - 0.39 - 0.31 V V1-1 Amplitude 1A + 1B Calculation (V1-1) = (A1-2) - (B1 GND GND INY Co-axial cable -5V 0.1 mF 150 W 75 W 1.6Vp-p 0.6Vp-p 0.6Vp-p 0.1 mF www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1154-v1.htm |
STMicroelectronics | 25/05/2000 | 11.8 Kb | HTM | 1154-v1.htm |
| -2, B2-2, A3-2, B3-2 0.31 0.39 0.47 V B1-2 DC applied 1B O O Pin 3 - 0.47 - 0.39 - 0.31 V A2-2 DC applied 2A O O Pin 16 0.31 0.39 0.47 V B2-2 DC applied 2B O O Pin 20 - 0.47 - 0.39 - 0.31 V A3-2 DC applied 3A O O Pin 23 0.31 0.39 0.47 V B3-2 DC applied 3B O O Pin 27 - 0.47 - 0.39 - 0.31 V V1-1 Amplitude GND3 1B GND GND GND INY Co-axial cable -5V 0.1 mF 150 W 75 W 1.6Vp-p 0.6Vp-p 0.6Vp-p 0.1 mF 0.1 mF N distortion at the input pins is directly trans- ferred to the output waveform. BIAS GEN 0.1 mF 150 W 75 W 0 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1154-v2.htm |
STMicroelectronics | 14/06/1999 | 9.99 Kb | HTM | 1154-v2.htm |
| -2, B2-2, A3-2, B3-2 0.31 0.39 0.47 V B1-2 DC applied 1B O O Pin 3 - 0.47 - 0.39 - 0.31 V A2-2 DC applied 2A O O Pin 16 0.31 0.39 0.47 V B2-2 DC applied 2B O O Pin 20 - 0.47 - 0.39 - 0.31 V A3-2 DC applied 3A O O Pin 23 0.31 0.39 0.47 V B3-2 DC applied 3B O O Pin 27 - 0.47 - 0.39 - 0.31 V V1-1 Amplitude GND3 1B GND GND GND INY Co-axial cable -5V 0.1 mF 150 W 75 W 1.6Vp-p 0.6Vp-p 0.6Vp-p 0.1 mF 0.1 mF N distortion at the input pins is directly trans- ferred to the output waveform. BIAS GEN 0.1 mF 150 W 75 W 0 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1154.htm |
STMicroelectronics | 02/04/1999 | 10.03 Kb | HTM | 1154.htm |
| decoupling . 3a. Increase the bootstrap capacitor (Cb) value to above 0.47mF using at least one low-ESR capacitor. This will reduce overcharging from severe V S undershoot. 3b. Use a second low-ESR capacitor from V CC to COM. As this capacitor supports both the low-side output buffer and bootstrap recharge, we recommend a value at least ten times higher than Cb. 3c. Connect decoupling capacitors www.datasheetarchive.com/files/international-rectifier/docs/wcd00009/wcd00999.htm |
International Rectifier | 06/10/1998 | 8.06 Kb | HTM | wcd00999.htm |
| .35 DTMF A -0.47 DTMF 1 -0.3 DTMF B -0.47 DTMF 2 -0.35 DTMF C -0.47 DTMF 3 -0.4 DTMF D -0.47 DTMF 4 -0 ) power supplies are connected together. The capacitors used for the power supply ( DV DD , AV DD ) decoupling are installed as close as possible to the power pins. The capacitors used for the voltage refence RESET +5V +5V R8 470 W R7 10k W +5V * * * C20 10mF C12 10nF C13 10nF C14 10nF +5V INTEL mode MOTOROLA 232 * C8 100nF * C9 100nF C11 10mF C10 10mF VCM RXA1 TXA2 TXA1 C4 100nF * C5 10mF +5VA +5V C3 10nF C1 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1782-v2.htm |
STMicroelectronics | 14/06/1999 | 14.39 Kb | HTM | 1782-v2.htm |
| (dBm on 600 W ) Tones Level (dBm on 600 W ) DTMF 0 -0.35 DTMF A -0.47 DTMF 1 -0.3 DTMF B -0.47 DTMF 2 -0.35 DTMF C -0.47 DTMF 3 -0.4 DTMF D -0.47 DTMF 4 -0.35 DTMF * -0.3 DTMF 5 -0.35 DTMF # -0 supplies are connected together. The capacitors used for the power supply ( DV DD , AV DD ) decoupling are installed as close as possible to the power pins. The capacitors used for the voltage * * * C20 10mF C12 10nF C13 10nF C14 10nF +5V INTEL mode MOTOROLA mode (select one of the www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1782.htm |
STMicroelectronics | 20/10/2000 | 17.05 Kb | HTM | 1782.htm |
| .35 DTMF A -0.47 DTMF 1 -0.3 DTMF B -0.47 DTMF 2 -0.35 DTMF C -0.47 DTMF 3 -0.4 DTMF D -0.47 DTMF 4 -0 ) power supplies are connected together. The capacitors used for the power supply ( DV DD , AV DD ) decoupling are installed as close as possible to the power pins. The capacitors used for the voltage refence RESET +5V +5V R8 470 W R7 10k W +5V * * * C20 10mF C12 10nF C13 10nF C14 10nF +5V INTEL mode MOTOROLA 232 * C8 100nF * C9 100nF C11 10mF C10 10mF VCM RXA1 TXA2 TXA1 C4 100nF * C5 10mF +5VA +5V C3 10nF C1 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1782-v1.htm |
STMicroelectronics | 02/04/1999 | 14.43 Kb | HTM | 1782-v1.htm |
| 600 W ) Tones Level (dBm on 600 W ) DTMF 0 -0.35 DTMF A -0.47 DTMF 1 -0.3 DTMF B -0.47 DTMF 2 -0.35 DTMF C -0.47 DTMF 3 -0.4 DTMF D -0.47 DTMF 4 -0.35 DTMF * -0.3 DTMF 5 -0.35 DTMF ( AV DD ) and digital ( DV DD ) power supplies are connected together. The capacitors used to the power pins. The capacitors used for the voltage refence (be- tween V REFP /VCM and V W R7 10k W +5V * * * C20 10mF C12 10nF C13 10nF C14 10nF +5V INTEL www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1782-v3.htm |
STMicroelectronics | 25/05/2000 | 16.24 Kb | HTM | 1782-v3.htm |