Final Presentation
... Photovoltaic (PV) solar arrays can be used to power mobile devices; however, solar array output power is non-constant and most mobile device chargers require a constant voltage and current source. Team dec1013 purposed building a MPS that would supply a constant voltage and current to mobile devices ...
... Photovoltaic (PV) solar arrays can be used to power mobile devices; however, solar array output power is non-constant and most mobile device chargers require a constant voltage and current source. Team dec1013 purposed building a MPS that would supply a constant voltage and current to mobile devices ...
US6T5
... Application circuit diagrams and circuit constants contained herein are shown as examples of standard use and operation. Please pay careful attention to the peripheral conditions when designing circuits and deciding upon circuit constants in the set. Any data, including, but not limited to applicati ...
... Application circuit diagrams and circuit constants contained herein are shown as examples of standard use and operation. Please pay careful attention to the peripheral conditions when designing circuits and deciding upon circuit constants in the set. Any data, including, but not limited to applicati ...
Video Transcript - Rose
... We’ve closed the loop and we set our equation equal to 0. That was our first equation, let’s get started on the second. Again I assign my voltage according to passive sign convention. That is, my current is entering the positive arrow, so I write down +j 62.8. The current entering the positive termi ...
... We’ve closed the loop and we set our equation equal to 0. That was our first equation, let’s get started on the second. Again I assign my voltage according to passive sign convention. That is, my current is entering the positive arrow, so I write down +j 62.8. The current entering the positive termi ...
Digital Multimeter
... The compact precision DMM with AutoTect™ and VolTect™ The ultimate shirt-pocket sized meter. Only 3/8” thick and less than 3 oz in weight with full functionality offering ac and dc voltage to 600 V, AC and DC current to 2000 μA, resistance to 6 Megohm, capacitance to 2000 μF, frequency to 30 kHz, di ...
... The compact precision DMM with AutoTect™ and VolTect™ The ultimate shirt-pocket sized meter. Only 3/8” thick and less than 3 oz in weight with full functionality offering ac and dc voltage to 600 V, AC and DC current to 2000 μA, resistance to 6 Megohm, capacitance to 2000 μF, frequency to 30 kHz, di ...
DN182 - The LT1167: Single Resistor Sets the Gain of the Best Instrumentation Amplifier
... Careful attention to circuit design and layout, combined with laser trimming, greatly enhances the CMRR, PSRR, gain error and nonlinearity, maximizing application versatility. The CMRR is guaranteed to be greater than 90dB when the LT1167’s gain is set at 1. Total input offset voltage (VOS) is less ...
... Careful attention to circuit design and layout, combined with laser trimming, greatly enhances the CMRR, PSRR, gain error and nonlinearity, maximizing application versatility. The CMRR is guaranteed to be greater than 90dB when the LT1167’s gain is set at 1. Total input offset voltage (VOS) is less ...
Non-linear magnetic circuit analysis of fluxgate current sensor
... given plausible simulation results. The results have been in good agreement with its measurements; hence, we can conclude that the latter simulator is plausible enough to be used for actual designs of flux-gate current sensors. ...
... given plausible simulation results. The results have been in good agreement with its measurements; hence, we can conclude that the latter simulator is plausible enough to be used for actual designs of flux-gate current sensors. ...
Electronic Conditioners
... When an electron absorbs energy, it moves to a higher energy level, or one farther from the nucleus. When an electron loses energy, it falls to a lower energy level. The flow of electricity through a material depends on the electrons in the outer energy level of the atoms. These electrons are called ...
... When an electron absorbs energy, it moves to a higher energy level, or one farther from the nucleus. When an electron loses energy, it falls to a lower energy level. The flow of electricity through a material depends on the electrons in the outer energy level of the atoms. These electrons are called ...
DC Voltage and Current Sources
... Intuitively, VREF is set by IREF and determines the output current of M2 I REF V REF = V Tn + ------------------------------ = V GS1 = V GS2 W ------ µ C 2L 1 n ox Substituting into the drain current of M2 (and neglecting (1 + λnVDS2) term) ...
... Intuitively, VREF is set by IREF and determines the output current of M2 I REF V REF = V Tn + ------------------------------ = V GS1 = V GS2 W ------ µ C 2L 1 n ox Substituting into the drain current of M2 (and neglecting (1 + λnVDS2) term) ...
Common Power Supply Topologies
... In the discontinuous state, there are three stages. 1. The transistor is on and the inductor current rises from zero to the peak current. The inductor stores energy during this stage (LI2/2) and the load is fed from the output capacitor. The diode isolates the load from the input. 2. As the transist ...
... In the discontinuous state, there are three stages. 1. The transistor is on and the inductor current rises from zero to the peak current. The inductor stores energy during this stage (LI2/2) and the load is fed from the output capacitor. The diode isolates the load from the input. 2. As the transist ...
PDF
... solenoid-spring operating mechanism. The recloser will be opened and closed by means of energy provided by a motor operating at 240 Vac, 60 Hz and stored in springs for both tripping and closing operations. Bushings will be of “wet” process porcelain and will have a standard creepage distance of 12" ...
... solenoid-spring operating mechanism. The recloser will be opened and closed by means of energy provided by a motor operating at 240 Vac, 60 Hz and stored in springs for both tripping and closing operations. Bushings will be of “wet” process porcelain and will have a standard creepage distance of 12" ...
led-series-resistor
... A typical LED can pass 30 –40 mA current without destroying the device. Normal current that gives sufficient brightness to a standard Red LED is 20 mA . But this may be 40 mA for Blue and White LEDs. Current limiting resistor R4 protect LED from excess current that is flowing through it. The value o ...
... A typical LED can pass 30 –40 mA current without destroying the device. Normal current that gives sufficient brightness to a standard Red LED is 20 mA . But this may be 40 mA for Blue and White LEDs. Current limiting resistor R4 protect LED from excess current that is flowing through it. The value o ...
G040198-00 - DCC
... – Filter for very high-frequency intensity noise ; pole at cavity half-width/half-max (25MHz) – Reduces beam jitter ...
... – Filter for very high-frequency intensity noise ; pole at cavity half-width/half-max (25MHz) – Reduces beam jitter ...
Physics PHYS 276 Experimental Physics Laboratory Alpha Particle Spectroscopy
... MCA, for the 210Po calibration energy spectrum, the 241Am spectrum and the natural uranium energy spectrum. C. List of any peaks found in the uranium spectrum. D. Identification of spectral peaks. V. Questions to ponder A. Are there alpha energies you expected to see but did not? If not, can you exp ...
... MCA, for the 210Po calibration energy spectrum, the 241Am spectrum and the natural uranium energy spectrum. C. List of any peaks found in the uranium spectrum. D. Identification of spectral peaks. V. Questions to ponder A. Are there alpha energies you expected to see but did not? If not, can you exp ...
TD62008APG,TD62008AFG - Toshiba America Electronic
... • Toshiba Corporation, and its subsidiaries and affiliates (collectively “TOSHIBA”), reserve the right to make changes to the information in this document, and related hardware, software and systems (collectively “Product”) without notice. • This document and any information herein may not be reprod ...
... • Toshiba Corporation, and its subsidiaries and affiliates (collectively “TOSHIBA”), reserve the right to make changes to the information in this document, and related hardware, software and systems (collectively “Product”) without notice. • This document and any information herein may not be reprod ...
Chapter 5 Problem Set
... 8. A hydrogen molecule consists of two hydrogen atoms whose nuclei are single protons. Find the force between the two protons in a hydrogen molecule whose distance apart is 7.42 X 10-11 m. (The two electrons in the molecule spend more time between the protons than outside them, which leads to attrac ...
... 8. A hydrogen molecule consists of two hydrogen atoms whose nuclei are single protons. Find the force between the two protons in a hydrogen molecule whose distance apart is 7.42 X 10-11 m. (The two electrons in the molecule spend more time between the protons than outside them, which leads to attrac ...
NCEA Level 3 Physics (91526) 2013 Assessment Schedule
... When the circuit is in resonance, the current is greatest because the reactance is zero and so the impedance is smallest. When the current is greatest the sound from the speaker is loudest. The current decreases rapidly either side of resonance because the reactance increases either side of resonanc ...
... When the circuit is in resonance, the current is greatest because the reactance is zero and so the impedance is smallest. When the current is greatest the sound from the speaker is loudest. The current decreases rapidly either side of resonance because the reactance increases either side of resonanc ...
Question - 24HourAnswers
... 3) The maximum input current for linear operation refers to the 1-dB compression of the amplifier. For small input current levels, the TIA will behave as a linear small-signal amplifier with a gain equal to the transimpedance gain. At higher input current levels, the gain will be lower than the smal ...
... 3) The maximum input current for linear operation refers to the 1-dB compression of the amplifier. For small input current levels, the TIA will behave as a linear small-signal amplifier with a gain equal to the transimpedance gain. At higher input current levels, the gain will be lower than the smal ...
P–n diode
This article provides a more detailed explanation of p–n diode behavior than that found in the articles p–n junction or diode.A p–n diode is a type of semiconductor diode based upon the p–n junction. The diode conducts current in only one direction, and it is made by joining a p-type semiconducting layer to an n-type semiconducting layer. Semiconductor diodes have multiple uses including rectification of alternating current to direct current, detection of radio signals, emitting light and detecting light.