NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: voltmeter.5 Note that all circuit power is furnished by batteries, precluding ground loops from corrupting , Stability for Various Output and Bypass (CBYP) Capacitor Characteristics 0 2 4 8 6 10 12 DC , a suitably band passed input at the voltmeter under test.3 DC OUTPUT CALIBRATED TO RMS OF AC , measurement. Failure to do so may cause highly misleading "results." Thermal Voltmeter Circuit It is sometimes desirable to construct, rather than purchase, a thermal voltmeter. Figure C6's circuit is ... | Original |
20 pages, |
LT1764 LT1763 LT1963 LT1762 HP3468B hp3400a f11b FLUKE AC regulator FLUKE 1965 manual HP-3403C HP3403C HP403B piezoelectric film sensor FLUKE 87 1390B F-100 F-100 abstract |
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| Abstract: Solutions 14 b) 4 Applications 14 Appendix A Circuit Diagrams 15 Appendix B Factory , : 8-way single-in-line socket, 0.1" (2.54mm) pitch connection of 4 column by 4 row keypad DC Power , 4 Keypad to MDM-DEV-1 b) Power Supply The MDM-DEV-1 circuit requires a regulated 5V d.c. supply , the front). 1. 3. 4. 5. DTR Tx Ground Rx See Appendix A - circuit 9 for a , Appendix A - circuit 4 for a detailed schematic diagram of the Port RD section. 9 PORT RE 3x GREEN LED ... | Original |
16 pages, |
keypad connect with pic16f877 temperature sensor using pic 16f877 principle operation of pic16f877 PIC16F877 LED POTENTIOMETER ADC KEYPAD secme 4x3 keypad led display voltmeter pic16f877 PIC16F LED matrix KEYPAD 4X3 pic 16f877 ic pin details pt100 pic datasheet abstract |
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| Abstract: , for reasons of measurement economy, only DC measurements (figure 4) are to be made, then the , , Current to Voltage Converter, Short Circuit Mode (4) V O = Â I sc Ã- R 400 VO = ÂR Ã- e Ã- s , 1 k 6 4 50 2 Fig. 24 - AC-Coupled Amplifier Circuit VO e Ã- s ( ) Ã- R3 Ã- [ 1 + R1 / R2 , statically using the circuit shown in figure 1. A specified forward current (from a constant current source , voltmeter. For most devices, VR is specified at 10 uA reverse current. In this case either a high ... | Original |
9 pages, |
bpw20 BPW41 IR DATA BPW41 remote control sensor BPW34 application note phototransistor sensitive to red light BPW20RF BPW21R far uv photodiode BPW34 application BPW34 photodiode application luxmeter BPW21 BPW41N datasheet abstract |
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| Abstract: Reflector Figure 3. If, for reasons of measurement economy, only dc measurements (figure 4) are to be , circuit shown in figure 6. A high-impedance voltmeter, which draws only an insignificant fraction of , (GaAs) Forward voltage, VF, is measured either on a curve tracer or statically using the circuit shown , and voltage developed across it is measured on a high-impedance voltmeter. VS = 5V I = 50mA 100mA , developed across is measured on a voltmeter of high input impedance ( 10 M). VS = 80V ( > VR max ) I = ... | Original |
10 pages, |
BPW41N IR DATA BPW34-family BPW46 photodiode phototransistor application lux meter TESP5700 BPW24 bpw filter BPW20RF application BPW24R BPW21R osram luxmeter detector BPW34 BPW21R datasheet abstract |
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| Abstract: VIN J1 0.22uF 1 SW W-6238 4 T3 GEN/DC SHDN FB T4 R5 10k 3 R3 1k , 5.5V Observe the value of ILED measured by the current meter and VFB using a voltmeter. Figure 4 , information before placing orders. Circuit diagrams illustrate typical semiconductor applications and may not , board. The evaluation board contains a W-6238 DC-DC boost converter in a typical application circuit. As configured, the board circuit is set to drive up to 10 white LEDs in series. The user can chose ... | Original |
7 pages, |
Variable resistor 200K ohm TSOT23 Pot bourns mil bourns 10K ohm pot 6238 make strip Led light schematic nidec 59 W-6238TD-G dc voltmeter circuit diagrams 4 way out Nidec 10-LED 10-LED abstract |
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| Abstract: voltmeter of high input impedance ( 10MW). w VS = 80 V ( > VR max ) D Dark measurements D Light , the circuit shown in figure 20. A specified forward current (from a constant current source) is , voltmeter. V Ri > 10 M 94 8206 Figure 21. For most devices, VR is specified at 10 mA reverse current. In this case either a high impedance voltmeter has to be used, or the current consumption of the , attached to an integrating sphere. A constant dc or pulsating forward current of specified magnitude is ... | Original |
11 pages, |
BPV10NF large area quadrant photodiode phototransistor K-T Photoconductive Cell OSRAM Infrared Emitters chip BPW34 application note BPW34 osram BPW 23 nf solar cell transistor infrared photo voltaic cell Vishay Telefunken Phototransistor pin diodes radiation detector datasheet abstract |
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| Abstract: statically using the circuit shown in figure 110. A high-impedance voltmeter, which draws only an , same circuit used in the dark measurement can be used to carry out light reverse current, Ira , is measured on a voltmeter of high input impedance (w10MW). VS = 80V ( > VR max ) D Dark , or statically using the circuit shown in figure 105. A specified forward current (from a constant , high-impedance voltmeter. 94 8206 Figure 106. For most devices, VR is specified at 10 mA reverse ... | Original |
11 pages, |
BPW20R BPW21R BPW34 BPW34 application BPW 10 nf BPW46 BPW97 calibration of phototransistor circuit infrared phototransistor for tv BPV22NF BPV10NF photodiode application luxmeter S153P bpw uv photodiode datasheet abstract |
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| Abstract: to dc. The dc voltmeter measures both dc signals and calculates the ratio in% of the two signals. , / Video High Integration IC (Channel 3 and 4 80 dBuV RF Level) SO16 Package Ordering Information , reel, add R@ suffix. Contents List This modulator circuit is for use in VCRs, set top boxes, and similar devices. 1 2 3 4 5 6 Figure 1 shows the pin connections. Features . . . . . . . . . . . . . 2 Device Overview . . . . . . 3 Maximum Ratings . . . . . 4 Thermal Rating . . . . . . . ... | Original |
20 pages, |
SO16NB hi gain all channel tv antenna MC44BC375U MC44BC375UA MC44BC375UAD RF pcb antenna 125khz IC 567 internal structure 32 band audio spectrum analyzer SCHEMATIC SOUND BOARD MOTOROLA LOT MARKINGS 7 band audio spectrum analyzer ic MC44BC375UA/D MC44BC375UA/D MC44BC375UA MC44BC375UA/D abstract |
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| Abstract: Circuit Schematics 14 14 MC44BC375U MC44BC375U Application Schematic 15 15 Markings and Case Diagrams 16 , (See Note1) 2nd harmonic 3rd harmonic Out Band (picture carrier) Spurious 1/2*Fo - 1/4*Fo - 3 , the residual noise + distortion to dc. The dc Video Black Level voltmeter measures both dc signals , NOTE: For tape and reel, add R2 suffix. Contents List 1 2 3 4 5 6 Features . . . . . . . . . . . . . 2 Device Overview . . . . . . 3 Maximum Ratings . . . . . 4 Thermal Rating . . . . . . ... | Original |
20 pages, |
VHF audio/video demodulator HP8903A MC44BC375 MC44BC375J MC44BC375JD MC44BC375T MC44BC375TD mc44bc375u MC44BC375UD SO16NB 12MRH00360A MOTOROLA LOT MARKINGS hi gain all channel tv antenna MC44BC375/D MC44BC375/U/J/T MC44BC375/D abstract |
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| Abstract: Schematic 15 15 Markings and Case Diagrams 16 This modulator circuit is for use in VCRs, set top , harmonic Out Band (picture carrier) Spurious 1/2*Fo - 1/4*Fo - 3/2*Fo - 3/4*Fo In band spurious , to dc. The dc Video Black Level voltmeter measures both dc signals and calculates the ratio in% of , Contents List 1 2 3 4 5 6 Features . . . . . . . . . . . . . 2 Device Overview . . . . . . 3 Maximum Ratings . . . . . 4 Thermal Rating . . . . . . . 4 Electrostatic Discharge 4 Electrical ... | Original |
20 pages, |
SO16NB MC44BC375UD MC44BC375U MC44BC375TD MC44BC375T MC44BC375JD MC44BC375J MC44BC375/D MC44BC375/U/J/T MC44BC375/D abstract |
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| 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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| you remove the short circuit and monitor the capacitor terminals with a high-impedance voltmeter, you . Fig 4 - More precise than Fig 2's equivalent circuit, a capacitor model employing several time capacitor. Fig 4's circuit approximates this capacitor characteristic, which you can observe on -coupled amplifiers. In Fig 6's circuit, C 1 can be a Mylar or tantalum unit because it always has 0V dc on it -cancellation circuit such as one of the form shown in Fig 8 , in which a capacitor of the type modeled in Fig 4 www.datasheetarchive.com/files/national/htm/nsc03075-v3.htm |
National | 13/08/1999 | 23.47 Kb | HTM | nsc03075-v3.htm |
| discharge times. This model approximates a Mylar capacitor. Fig 4's circuit approximates this errors in analog applications such as those employing S/H circuits, integrating ADCs and active filters . V eteran circuit designers often got a shocking introduction to dielectric absorption when supposedly discharged high-voltage oil-filled paper capacitors reached out and bit them. Indeed, the old oil 're more likely to notice the effects of dielectric absorption in some more subtle way, perhaps in the www.datasheetarchive.com/files/national/htm/nsc04793-v1.htm |
National | 28/06/2001 | 24.78 Kb | HTM | nsc04793-v1.htm |
| you remove the short circuit and monitor the capacitor terminals with a high-impedance voltmeter, you . Fig 4 - More precise than Fig 2's equivalent circuit, a capacitor model employing several time capacitor. Fig 4's circuit approximates this capacitor characteristic, which you can observe on -coupled amplifiers. In Fig 6's circuit, C 1 can be a Mylar or tantalum unit because it always has 0V dc on it -cancellation circuit such as one of the form shown in Fig 8 , in which a capacitor of the type modeled in Fig 4 www.datasheetarchive.com/files/national/htm/nsc03475-v2.htm |
National | 14/09/2000 | 23.95 Kb | HTM | nsc03475-v2.htm |
| discharge times. This model approximates a Mylar capacitor. Fig 4's circuit approximates this errors in analog applications such as those employing S/H circuits, integrating ADCs and active filters . V eteran circuit designers often got a shocking introduction to dielectric absorption when supposedly discharged high-voltage oil-filled paper capacitors reached out and bit them. Indeed, the old oil 're more likely to notice the effects of dielectric absorption in some more subtle way, perhaps in the www.datasheetarchive.com/files/national/htm/nsc03883.htm |
National | 16/08/2002 | 24.75 Kb | HTM | nsc03883.htm |
| . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 I.4 PROTECTION CIRCUITS - Protection Circuits I.4.1 - MOS protection Four zener diodes DZ (1-4) are connected between gate and source I CO = 16 m A 4 R p R e V REF 7 9 C 6 VIDEO PROC. R m V C I C.O. R f V IN(BLK) V OUT(BLK) 5101A-06 stabilization" (pin 18), the schematic diagram is the following : The DC bias is 12 x 82 120 + 82 = 5V The quasi and calculation are straightforward : - V OUT (AVG) = V OUT (DC) - V OUT (RMS) = V OUT ( peak to peak www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1615-v2.htm |
STMicroelectronics | 14/06/1999 | 49.93 Kb | HTM | 1615-v2.htm |
| between AC and DC coupling) and V OUT (RMS) can be measured by connecting an RMS voltmeter to the . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 I.4 PROTECTION CIRCUITS videoprocessor. I.4 - Protection Circuits I.4.1 - MOS protection Four zener diodes DZ (1-4) are ) which requires a DC biased input "Black current stabilization" (pin 18), the schematic diagram is power. The best way consists of measuring the power in different configurations of the circuit www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1615-v3.htm |
STMicroelectronics | 25/05/2000 | 51.8 Kb | HTM | 1615-v3.htm |
| . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 I.4 PROTECTION CIRCUITS - Protection Circuits I.4.1 - MOS protection Four zener diodes DZ (1-4) are connected between gate and source I CO = 16 m A 4 R p R e V REF 7 9 C 6 VIDEO PROC. R m V C I C.O. R f V IN(BLK) V OUT(BLK) 5101A-06 stabilization" (pin 18), the schematic diagram is the following : The DC bias is 12 x 82 120 + 82 = 5V The quasi and calculation are straightforward : - V OUT (AVG) = V OUT (DC) - V OUT (RMS) = V OUT ( peak to peak www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1615-v1.htm |
STMicroelectronics | 02/04/1999 | 49.97 Kb | HTM | 1615-v1.htm |
| . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 I.4 PROTECTION CIRCUITS monitored by the videoprocessor. I.4 - Protection Circuits I.4.1 - MOS protection Four zener diodes DZ resistor R p R p must be chosen in such a way that the black level output voltage V OUT(BLK) is C.O. R f V IN(BLK) V OUT(BLK) 5101A-06.EPS Figure 4 TEA5101A TEA5101A TEA5101A TEA5101A APPLICATION NOTE 7/21 6 7 schematic diagram is the following : The DC bias is 12 x 82 120 + 82 = 5V The quasi cutoff current www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1615.htm |
STMicroelectronics | 20/10/2000 | 55 Kb | HTM | 1615.htm |
| imposed to the 13V d.c. out, the formula is as follows: Vin a.c.= 3*Vout a.c./Vout d.c.=3*600/13 ª GREEN R1 2.2K C1 10nF TPA 4 19 OUT LNBB R2 2.2K DL2 GREEN C6 10nF C7 4.7 m F 14 20 PROBE OUT 15 C8 10nF DL2 GREEN R2 2.2K GND-F GND-S 8 10 C7 4.7 m F + 13 OVERLOAD DL3 /interfacing satellite LNB modules. It gives good performances in a simple and economical way, with a signals sent by the receiver; 3. The coaxial cable joins the LNB to the receiver and carries out 3 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/7238.htm |
STMicroelectronics | 20/10/2000 | 28.12 Kb | HTM | 7238.htm |
| signal band; c) to carry the DC voltage to supply the LNB. 4. The receiver converts the first of 600mV p.p. must be imposed to the 13V d.c. out, the formula is as follows: Vin a.c.= 3*Vout BYV10-40 BYV10-40 BYV10-40 BYV10-40 TPA OUT LNBA DL1 GREEN R1 2.2K C1 10nF TPA 4 19 OUT LNBB R2 2 economical way, with a minimum use of external components. It is comprised of functions that receiver and carries out 3 functions: a) to transfer the first conversion signal from the LNB to the www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/7238-v1.htm |
STMicroelectronics | 16/11/2000 | 26.95 Kb | HTM | 7238-v1.htm |