PS21767 - Powerex
... 1) Input drive is active-high type. There is a 2.5k7(min.) pull-down resistor integrated in the IC input circuit. To prevent malfunction, the wiring of each input should be as short as possible. When using RC coupling circuit, make sure the input signal level meets the turn-on and turn-off threshold ...
... 1) Input drive is active-high type. There is a 2.5k7(min.) pull-down resistor integrated in the IC input circuit. To prevent malfunction, the wiring of each input should be as short as possible. When using RC coupling circuit, make sure the input signal level meets the turn-on and turn-off threshold ...
OSM_Al_2 Series Recloser
... www.tavrida.com/tena Document code: SMDoc_Brochure_PB(EN_Rec25-Al2-SEL) ...
... www.tavrida.com/tena Document code: SMDoc_Brochure_PB(EN_Rec25-Al2-SEL) ...
What do resistors do?
... This formula can be extended to work for more than two resistors in parallel, but lends itself less easily to mental arithmetic. Both formulae are correct. What is the total resistance in this circuit? ...
... This formula can be extended to work for more than two resistors in parallel, but lends itself less easily to mental arithmetic. Both formulae are correct. What is the total resistance in this circuit? ...
How to Select an Appropriate ESD Device
... As integrated circuit chipsets become more sensitive to damaging electrostatic discharge (ESD) and other transient voltage surges, the choice of circuit protection device becomes all the more important. Surge protection devices suppress voltage transients and divert excessive current away from sensi ...
... As integrated circuit chipsets become more sensitive to damaging electrostatic discharge (ESD) and other transient voltage surges, the choice of circuit protection device becomes all the more important. Surge protection devices suppress voltage transients and divert excessive current away from sensi ...
PSS30S92F6-AG
... (1) It is recommended to insert 5kΩ (5.1kΩ is recommended) pull down resistor for getting linear output characteristics at low temperature below room temperature. When the pull down resistor is inserted between VOT and VNC(control GND), the extra circuit current, which is calculated approximately by ...
... (1) It is recommended to insert 5kΩ (5.1kΩ is recommended) pull down resistor for getting linear output characteristics at low temperature below room temperature. When the pull down resistor is inserted between VOT and VNC(control GND), the extra circuit current, which is calculated approximately by ...
KENWOOD TL-922 (TL-922A, TL922) MODIFICATIONS
... The old mounting strip was used for the new relay circuitry, which appears further down this article. The MosFet of this system is seen as a little black square in the left-hand top of the photo. To compensate for the removed voltage divider C40 a C41, a 12 pf was added. ...
... The old mounting strip was used for the new relay circuitry, which appears further down this article. The MosFet of this system is seen as a little black square in the left-hand top of the photo. To compensate for the removed voltage divider C40 a C41, a 12 pf was added. ...
Lecture10 MOS Transistor Circuit Analysis
... I DQ id (t ) K VGSQ Vt 0 2K VGSQ Vt 0 v gs t Kv gs (t ) ...
... I DQ id (t ) K VGSQ Vt 0 2K VGSQ Vt 0 v gs t Kv gs (t ) ...
Waveform Conversion, Part I - Sine to Square
... for the job. The input stages are typically differential amplifiers offering fairly high input impedance and good speed. Some line receivers have built-in voltage dividers allowing the inputs to handle voltages far beyond the power supply rails and some have built-in voltage references for biasing t ...
... for the job. The input stages are typically differential amplifiers offering fairly high input impedance and good speed. Some line receivers have built-in voltage dividers allowing the inputs to handle voltages far beyond the power supply rails and some have built-in voltage references for biasing t ...
Low-Level Output Voltage vs. Sinking Current of
... TI assumes no liability for applications assistance or the design of Buyers’ products. Buyers are responsible for their products and applications using TI components. To minimize the risks associated with Buyers’ products and applications, Buyers should provide adequate design and operating safeguar ...
... TI assumes no liability for applications assistance or the design of Buyers’ products. Buyers are responsible for their products and applications using TI components. To minimize the risks associated with Buyers’ products and applications, Buyers should provide adequate design and operating safeguar ...
BSPS2255TN(R) / BSPS2255TT(R)
... * N-PE Surge arrester for location between neutral conductor and protective conductor in TT systems. ** See Cooper Bussmann SPD Limited Warranty Statement (3A1502) for details at www.cooperbussmann.com/surge. ...
... * N-PE Surge arrester for location between neutral conductor and protective conductor in TT systems. ** See Cooper Bussmann SPD Limited Warranty Statement (3A1502) for details at www.cooperbussmann.com/surge. ...
International Electrical Engineering Journal (IEEJ) Vol. 6 (2015) No.9, pp. 1988-1993
... UVTG control for a 3P4W distribution system utilizing UPQC has been proposed in this paper. This proposed topology would be very useful to expand the existing 3P3W system to 3P4W system where UPQC is installed to compensate the different power quality problems. The MATLAB/Simulink-based simulation r ...
... UVTG control for a 3P4W distribution system utilizing UPQC has been proposed in this paper. This proposed topology would be very useful to expand the existing 3P3W system to 3P4W system where UPQC is installed to compensate the different power quality problems. The MATLAB/Simulink-based simulation r ...
Superposition
... 1. Superposition only works with linear circuits. (Linear circuits contain only sources, resistors, capacitors, inductors, linear amplifiers, etc.) Most electronic devices (diodes and transistors) are non-linear, so superposition will not be applicable. 2. Because the method relies on linearity, you ...
... 1. Superposition only works with linear circuits. (Linear circuits contain only sources, resistors, capacitors, inductors, linear amplifiers, etc.) Most electronic devices (diodes and transistors) are non-linear, so superposition will not be applicable. 2. Because the method relies on linearity, you ...
AN4363 Application note Introduction
... capability (VDRM,VRRM or VDSM,VRSM parameters according to the technology). Two solutions are used to implement an overvoltage protection. The most common is to add a metal-oxide varistor (MOV) in parallel to the AC switch terminals (for example, A1 and A2 for a Triac). ...
... capability (VDRM,VRRM or VDSM,VRSM parameters according to the technology). Two solutions are used to implement an overvoltage protection. The most common is to add a metal-oxide varistor (MOV) in parallel to the AC switch terminals (for example, A1 and A2 for a Triac). ...
BD6360GUL
... power source line increases by the regenerative current an exceeds the absolute maximum rating of this product and the peripheral circuits. Therefore, be sure to take physical safety measures suc h as putting a zener diode for a voltage clamp between the power source an the ground. For this IC with ...
... power source line increases by the regenerative current an exceeds the absolute maximum rating of this product and the peripheral circuits. Therefore, be sure to take physical safety measures suc h as putting a zener diode for a voltage clamp between the power source an the ground. For this IC with ...
3B SCIENTIFIC® PHYSICS
... The deflection of rays can be achieved electrostatically by means of a built-in plate capacitor formed by the pair of deflection plates or magnetically with the help of the Helmholtz coils D (U191051) magnetically. The cathode rays are intercepted by a flat mica sheet, one side of which is coated w ...
... The deflection of rays can be achieved electrostatically by means of a built-in plate capacitor formed by the pair of deflection plates or magnetically with the help of the Helmholtz coils D (U191051) magnetically. The cathode rays are intercepted by a flat mica sheet, one side of which is coated w ...
Lecture 24 Chapter 31 Induction and Inductance
... • Induced emf only depends on rate of change of current, not its magnitude • Determine direction of EL using Lenz’s law • Self-induced VL across inductor ...
... • Induced emf only depends on rate of change of current, not its magnitude • Determine direction of EL using Lenz’s law • Self-induced VL across inductor ...
Series 119 - High Voltage Micro SIL Reed Relays
... The life of a reed relay depends upon the switch load and end of life criteria. For example, for an ‘end of life’ contact resistance specification of 1 Ω, switching low loads (10 V at 10 mA resistive) or when ‘cold’ switching, typical life is approx 1 x 108 ops. At the maximum load (resistive), typi ...
... The life of a reed relay depends upon the switch load and end of life criteria. For example, for an ‘end of life’ contact resistance specification of 1 Ω, switching low loads (10 V at 10 mA resistive) or when ‘cold’ switching, typical life is approx 1 x 108 ops. At the maximum load (resistive), typi ...
High Efficiency Power Sources for Pentium Processors
... is a little over 4A with a 5V input and 2.6A for a 12V input. The capacitors are rated at slightly over 1A each at 85°C. If the input can be switched on very rapidly, the input capacitor voltage rating should be at least two times the supply voltage to prevent dV/dt failures. By running the operatin ...
... is a little over 4A with a 5V input and 2.6A for a 12V input. The capacitors are rated at slightly over 1A each at 85°C. If the input can be switched on very rapidly, the input capacitor voltage rating should be at least two times the supply voltage to prevent dV/dt failures. By running the operatin ...
BDTIC www.BDTIC.com/infineon Power Management & Multimarket
... Output Current versus Rext Iout = f(Rext), VS = 10 V, VS - Vout = 1.4 V, TA = Parameter . . . . . . . . . . 13 Output Current versus TS Iout = f(TS), VS = 10 V, VS - Vout = 1.4 V, Rext = Parameter . . . . . . . . . . . 14 Reference Voltage Vdrop versus Iout Vdrop = f(Iout), Iout = 10 µA to 10 mA . . ...
... Output Current versus Rext Iout = f(Rext), VS = 10 V, VS - Vout = 1.4 V, TA = Parameter . . . . . . . . . . 13 Output Current versus TS Iout = f(TS), VS = 10 V, VS - Vout = 1.4 V, Rext = Parameter . . . . . . . . . . . 14 Reference Voltage Vdrop versus Iout Vdrop = f(Iout), Iout = 10 µA to 10 mA . . ...