LTC1046 - Inductorless 5V to -5V Converter
... are necessary to minimize voltage losses at high currents. For CIN the effect of the ESR of the capacitor will be multiplied by four, due to the fact that switch currents are approximately two times higher than output current, and losses will occur on both the charge and discharge cycle. This means ...
... are necessary to minimize voltage losses at high currents. For CIN the effect of the ESR of the capacitor will be multiplied by four, due to the fact that switch currents are approximately two times higher than output current, and losses will occur on both the charge and discharge cycle. This means ...
MAX8515 - Maxim Integrated
... 0.5% at +25°C and 1% from -40°C to +85°C and provides the output voltage regulation function for isolated DC-toDC converters. The MAX8515 features initial output accuracy of 1% at +25°C and 1.8% from -40°C to +85°C and can provide an output OVP function for isolated DCto-DC converters. High open-loo ...
... 0.5% at +25°C and 1% from -40°C to +85°C and provides the output voltage regulation function for isolated DC-toDC converters. The MAX8515 features initial output accuracy of 1% at +25°C and 1.8% from -40°C to +85°C and can provide an output OVP function for isolated DCto-DC converters. High open-loo ...
02_ELC4345_Fall2013_Diode_Bridge_Rectifier
... Important note on safety: There are two hazards if you connect a variac directly to a DBR. First, and most important, is because when using a variac it is very easy to accidentally apply more than 35Vac to the DBR, which when rectified exceeds the 50V rating of the capacitor. If you accidentally app ...
... Important note on safety: There are two hazards if you connect a variac directly to a DBR. First, and most important, is because when using a variac it is very easy to accidentally apply more than 35Vac to the DBR, which when rectified exceeds the 50V rating of the capacitor. If you accidentally app ...
Voltage, Current, Resistance, and Ohm`s Law
... understanding the basics of voltage, current, and resistance. These are the three basic building blocks required to manipulate and utilize electricity. At first, these concepts can be difficult to understand because we cannot “see” them. One cannot see with the naked eye the energy flowing through a ...
... understanding the basics of voltage, current, and resistance. These are the three basic building blocks required to manipulate and utilize electricity. At first, these concepts can be difficult to understand because we cannot “see” them. One cannot see with the naked eye the energy flowing through a ...
5164 - SK Engineering Academy
... The elements which can deliver energy are called active elements. E.g.: Voltage source and current source. The elements which consume energy either by absorbing or storing are called passive elements. E.g. Resistor, Inductor and Capacitor 2. How much energy does a 100W electric bulb consume in two h ...
... The elements which can deliver energy are called active elements. E.g.: Voltage source and current source. The elements which consume energy either by absorbing or storing are called passive elements. E.g. Resistor, Inductor and Capacitor 2. How much energy does a 100W electric bulb consume in two h ...
Series and Parallel Circuits
... Alternating current (AC) refers to the zero-mean time-varying voltage or current values, i.e., current or voltage signals whose magnitude vary with time around zero. AC is the form in which electric power is delivered to businesses and residences. The usual waveform of alternating current in most el ...
... Alternating current (AC) refers to the zero-mean time-varying voltage or current values, i.e., current or voltage signals whose magnitude vary with time around zero. AC is the form in which electric power is delivered to businesses and residences. The usual waveform of alternating current in most el ...
Using Oscilloscope
... create the graticule. Each vertical and horizontal line constitutes a major division. The graticule is usually laid out in an 8-by-10 division pattern. Labeling on the oscilloscope controls (such as volts/div and sec/div) always refers to major divisions. The tick marks on the center horizontal and ...
... create the graticule. Each vertical and horizontal line constitutes a major division. The graticule is usually laid out in an 8-by-10 division pattern. Labeling on the oscilloscope controls (such as volts/div and sec/div) always refers to major divisions. The tick marks on the center horizontal and ...
Introduction: Before describing the Ohmmapper, it is worthwhile to
... conductor. If we alternate applying the charge and removing it, an equal charge will flow in and out of the other conductor. Therefore, an AC (alternating current) voltage applied to one conductor of a capacitor will appear on the other conductor. This ability to cause a charge to move in and out of ...
... conductor. If we alternate applying the charge and removing it, an equal charge will flow in and out of the other conductor. Therefore, an AC (alternating current) voltage applied to one conductor of a capacitor will appear on the other conductor. This ability to cause a charge to move in and out of ...
Notational Conventions Independent Sources Dependent Sources
... Solution. The Thévenin voltage is the open-circuit output voltage vOC . The Norton current is the short-circuit output current iSC . The output resistance is the ratio of the open-circuit output voltage to the short-circuit output current. First, we solve for the open-circuit output voltage. By supe ...
... Solution. The Thévenin voltage is the open-circuit output voltage vOC . The Norton current is the short-circuit output current iSC . The output resistance is the ratio of the open-circuit output voltage to the short-circuit output current. First, we solve for the open-circuit output voltage. By supe ...
MAX846A Cost-Saving Multichemistry Battery-Charger System _______________General Description
... chemistries (Li-Ion, NiMH or NiCd cells) to be charged using one circuit. In its simplest application, the MAX846A is a standalone, current-limited float voltage source that charges Li-Ion cells. It can also be paired up with a low-cost microcontroller (µC) to build a universal charger capable of ch ...
... chemistries (Li-Ion, NiMH or NiCd cells) to be charged using one circuit. In its simplest application, the MAX846A is a standalone, current-limited float voltage source that charges Li-Ion cells. It can also be paired up with a low-cost microcontroller (µC) to build a universal charger capable of ch ...
Alternative assignment for furlough day – Analog Galvanometer
... procedure is slightly different between this question and the lab manual. Use the V = IR relationship, and the idea of equivalent resistance.) 20. In measuring a voltage, a voltmeter must use some current from the circuit. Consequently, the voltage measured is only an approximation to the voltage pr ...
... procedure is slightly different between this question and the lab manual. Use the V = IR relationship, and the idea of equivalent resistance.) 20. In measuring a voltage, a voltmeter must use some current from the circuit. Consequently, the voltage measured is only an approximation to the voltage pr ...
INA117: High Common-Mode Voltage Difference Amplifier (Rev. A)
... Common-mode rejection (CMR) of the INA117 is dependent on the input resistor network, which is laser-trimmed for accurate ratio matching. To maintain high CMR, it is important to have low source impedances driving the two inputs. A 75Ω resistance in series with pin 2 or 3 will decrease CMR from 86dB ...
... Common-mode rejection (CMR) of the INA117 is dependent on the input resistor network, which is laser-trimmed for accurate ratio matching. To maintain high CMR, it is important to have low source impedances driving the two inputs. A 75Ω resistance in series with pin 2 or 3 will decrease CMR from 86dB ...
INTEGRATED RESISTORS
... They have smaller parasitic components which makes their high frequency behaviour good. ...
... They have smaller parasitic components which makes their high frequency behaviour good. ...
pat2505254_mesner.pdf
... element 16. Let it be assumed that potentiomIt is Preferred to choose the magnitude O f Ri SO eter slider 16 is rctated in an arc in sliding conthat it is COmparatiVelY large with relation to the tact with the resistor R. In such case the indicator or pointer 25 would be mechanically coupled load re ...
... element 16. Let it be assumed that potentiomIt is Preferred to choose the magnitude O f Ri SO eter slider 16 is rctated in an arc in sliding conthat it is COmparatiVelY large with relation to the tact with the resistor R. In such case the indicator or pointer 25 would be mechanically coupled load re ...
or Long Scale DMMs
... • Accuracy commonly limited to 100 ppm • Best performance limited to specific voltage/frequency combinations points • Not easy to use and can be very slow • Modern DMMs • Needs only a single measurement • Accuracy commonly made to 60 ppm accuracies • Performance improves with spot frequency capabili ...
... • Accuracy commonly limited to 100 ppm • Best performance limited to specific voltage/frequency combinations points • Not easy to use and can be very slow • Modern DMMs • Needs only a single measurement • Accuracy commonly made to 60 ppm accuracies • Performance improves with spot frequency capabili ...
3J-3 Reciprocal Operation of Ultrasonic Transducers
... product of on resistance and parallel capacitance. Otherwise the variations in the R-C time constant caused by the voltage and temperature dependence of the on resistance of the switch may degrade the delay stability significantly. For the same reason, the amplifier must have a high and/or very stab ...
... product of on resistance and parallel capacitance. Otherwise the variations in the R-C time constant caused by the voltage and temperature dependence of the on resistance of the switch may degrade the delay stability significantly. For the same reason, the amplifier must have a high and/or very stab ...
Series Circuits
... voltage across a resistor in a series circuit is equal to the value of the resistor times the total impressed voltage across the series elements divided by the total resistance of the series elements. The rule can be extended to voltage across two or more series elements if the resistance includes ...
... voltage across a resistor in a series circuit is equal to the value of the resistor times the total impressed voltage across the series elements divided by the total resistance of the series elements. The rule can be extended to voltage across two or more series elements if the resistance includes ...
Test probe
A test probe (test lead, test prod, or scope probe) is a physical device used to connect electronic test equipment to a device under test (DUT). They range from very simple, robust devices to complex probes that are sophisticated, expensive, and fragile.