Analog Electronics and Communication lab
... 1. State maximum power transfer theorem. Maximum power is delivered from a source to a load when the load resistance is equal to the source resistance, assuming that the load resistance is a variable. 2. Define Resonance Resonance is defined as a phenomenon in an AC circuit where applied voltage and ...
... 1. State maximum power transfer theorem. Maximum power is delivered from a source to a load when the load resistance is equal to the source resistance, assuming that the load resistance is a variable. 2. Define Resonance Resonance is defined as a phenomenon in an AC circuit where applied voltage and ...
LSP5523 - Lite-On Semiconductor Corp.
... The input capacitor needs to be carefully selected to maintain sufficiently low ripple at the supply input of the converter. A low ESR Electrolytic (EC) capacitor is highly recommended. Since large current flows in and out of this capacitor during switching, its ESR also affects efficiency. When EC ...
... The input capacitor needs to be carefully selected to maintain sufficiently low ripple at the supply input of the converter. A low ESR Electrolytic (EC) capacitor is highly recommended. Since large current flows in and out of this capacitor during switching, its ESR also affects efficiency. When EC ...
LA6585FA - ON Semiconductor
... ON Semiconductor and the ON logo are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of SCILLC’s product/patent coverage may be accessed at www ...
... ON Semiconductor and the ON logo are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of SCILLC’s product/patent coverage may be accessed at www ...
Texas Instruments Integrated Power Conference
... Make Switching Decisions Accordingly Take advantage of all information available and ...
... Make Switching Decisions Accordingly Take advantage of all information available and ...
Charging System Fundamentals
... One way check valve- allows current to flow in one direction but not in reverse This is how the negative voltage that is produced in the alternator is not allows to the battery. Sets are usually placed in a heat sink- they get extremely hot– the sink can dissipate this heat ...
... One way check valve- allows current to flow in one direction but not in reverse This is how the negative voltage that is produced in the alternator is not allows to the battery. Sets are usually placed in a heat sink- they get extremely hot– the sink can dissipate this heat ...
High-voltage power supply, 25 kV
... laboratory use according to DIN EN 61010 part 1 and is constructed so as to fulfill the requirements of protection class II. It is intended for operation in dry rooms which are suitable for electrical operating equipment or installations. the high voltage power supply supplies a non-hazardous contac ...
... laboratory use according to DIN EN 61010 part 1 and is constructed so as to fulfill the requirements of protection class II. It is intended for operation in dry rooms which are suitable for electrical operating equipment or installations. the high voltage power supply supplies a non-hazardous contac ...
MAX8653 首款降压型DC-DC转换器,集成MOSFET, REFIN用于跟踪和DDR端接使能、POK可用于排序控制
... MOSFET switches for ease of layout and achieving small footprints. Each output delivers up to 5A. The output voltage is adjustable down to 0.6V and operates from a 9V to 14V input voltage. The MAX8653 uses a proprietary high-bandwidth, constant-frequency, peak-voltage-mode control architecture and o ...
... MOSFET switches for ease of layout and achieving small footprints. Each output delivers up to 5A. The output voltage is adjustable down to 0.6V and operates from a 9V to 14V input voltage. The MAX8653 uses a proprietary high-bandwidth, constant-frequency, peak-voltage-mode control architecture and o ...
Sc9 - D 1.2 (teacher notes)
... charged particles is equal to the voltage, times the total charge of the electrons. Voltage units are volts (V) You use a VOLTMETER to measure volts. When using the VOLTMETER, always put the RED with the +, and the BLACK with the -. (Same as ...
... charged particles is equal to the voltage, times the total charge of the electrons. Voltage units are volts (V) You use a VOLTMETER to measure volts. When using the VOLTMETER, always put the RED with the +, and the BLACK with the -. (Same as ...
Test Procedure for the NCP2823BGEVB Evaluation Board
... A power supply set to 3.6 V and current limit set to at least 1.5 A must be connected to J15 connector to powering the NCP2823EVB/D. Also to compensate for parasitic inductance of wires between the power supply and the evaluation board it is highly recommended to connect a 470 µF electrolytic capaci ...
... A power supply set to 3.6 V and current limit set to at least 1.5 A must be connected to J15 connector to powering the NCP2823EVB/D. Also to compensate for parasitic inductance of wires between the power supply and the evaluation board it is highly recommended to connect a 470 µF electrolytic capaci ...
THREE-PHASE AC RMS VOLTAGE TRANSDUCER 3VTR- OSI
... ACCURACY ......................................±0.25% F.S. @60Hz (Includes effects of linearity and setpoint from 10-100% of range. ±0.5% F.S. typical over frequency range.) Output Ripple ...................................................... <1.0% F.S. ...
... ACCURACY ......................................±0.25% F.S. @60Hz (Includes effects of linearity and setpoint from 10-100% of range. ±0.5% F.S. typical over frequency range.) Output Ripple ...................................................... <1.0% F.S. ...
design_review - ECE Senior Design
... The LTC1065 will benefit from having a digital potentiometer in place of the input resistance, Rin. This will allow Phonon to generate different sample rates of the Bessel filter based on a table in the LTC’s datasheet X9111 Potentiometer 1024 resistance taps 10-bit resolution Maximum resistance of ...
... The LTC1065 will benefit from having a digital potentiometer in place of the input resistance, Rin. This will allow Phonon to generate different sample rates of the Bessel filter based on a table in the LTC’s datasheet X9111 Potentiometer 1024 resistance taps 10-bit resolution Maximum resistance of ...
EVL6564-50WFLB
... The topology of this power supply is a typical flyback converter using a transformer to provide the required insulation between the primary and secondary side. The converter is connected after the mains rectifier and the capacitor filter that, in this case, is very small so as not to damage the shap ...
... The topology of this power supply is a typical flyback converter using a transformer to provide the required insulation between the primary and secondary side. The converter is connected after the mains rectifier and the capacitor filter that, in this case, is very small so as not to damage the shap ...
Homework Set 2
... The following figure shows a three phase power system with two loads. The connected generator is producing a line voltage of 480 V, and the line impedance is 0.09+j0.16 . Load 1 is Y connected with a phase impedance of 2.536.87 o . Load 2 is connected with a phase impedance of 5 20o . ...
... The following figure shows a three phase power system with two loads. The connected generator is producing a line voltage of 480 V, and the line impedance is 0.09+j0.16 . Load 1 is Y connected with a phase impedance of 2.536.87 o . Load 2 is connected with a phase impedance of 5 20o . ...
Buck converter
A buck converter is a voltage step down and current step up converter.The simplest way to reduce the voltage of a DC supply is to use a linear regulator (such as a 7805), but linear regulators waste energy as they operate by dissipating excess power as heat. Buck converters, on the other hand, can be remarkably efficient (95% or higher for integrated circuits), making them useful for tasks such as converting the main voltage in a computer (12V in a desktop, 12-24V in a laptop) down to the 0.8-1.8V needed by the processor.