MAX1725/MAX1726 12V, Ultra-Low I , Low-Dropout Linear Regulators
... noise rejection and transient response. A higher-value input capacitor (10µF) may be necessary if large, fast transients are anticipated and the device is located several inches from the power source. For stable operation ...
... noise rejection and transient response. A higher-value input capacitor (10µF) may be necessary if large, fast transients are anticipated and the device is located several inches from the power source. For stable operation ...
AMS317 数据手册DataSheet 下载
... not need to be electrically connected to the tab of the device. The PC material can be very effective at transmitting heat between the pad area, attached to the pad of the device, and a ground plane layer either inside or on the opposite side of the board. Although the actual thermal resistance of t ...
... not need to be electrically connected to the tab of the device. The PC material can be very effective at transmitting heat between the pad area, attached to the pad of the device, and a ground plane layer either inside or on the opposite side of the board. Although the actual thermal resistance of t ...
modified_version_3
... In Fig.1, a DC voltage with certain amplitude will be obtained by a regulator and a full-bridge rectifying circuit to charge C0. When IGBT is turned on, the primary energy storage capacitor C0 will charge the secondary energy storage capacitor C1 by L. Right now, the magnetic switch MS1 is not satur ...
... In Fig.1, a DC voltage with certain amplitude will be obtained by a regulator and a full-bridge rectifying circuit to charge C0. When IGBT is turned on, the primary energy storage capacitor C0 will charge the secondary energy storage capacitor C1 by L. Right now, the magnetic switch MS1 is not satur ...
5-Components1-24 June 2014.cwk (DR).
... different impurities ( about one part in ten millions ) called Dopants added. There are two types of Doped Semiconductor material, called P-type ( Positive ) and N-type ( Negative ) which refer to the type of Charge Carriers in the material. The Dopants usually used are Boron to produce P-type Semic ...
... different impurities ( about one part in ten millions ) called Dopants added. There are two types of Doped Semiconductor material, called P-type ( Positive ) and N-type ( Negative ) which refer to the type of Charge Carriers in the material. The Dopants usually used are Boron to produce P-type Semic ...
Data Line Voltage Troubleshooting and Bias Switches
... • Remove communicating wires from outdoor board and thermostat and check voltage at the indoor board. • DC voltage from C to data 1 should read approximately 1.9vdc or 2.8vdc for ...
... • Remove communicating wires from outdoor board and thermostat and check voltage at the indoor board. • DC voltage from C to data 1 should read approximately 1.9vdc or 2.8vdc for ...
PDF version - Tube CAD Journal
... But it will take some rethinking to imagine this great tube in a non-audio role. It is sort of like trying to imagine Arnold Schwarzenegger playing Goethe: sure he has the accent, but are the biceps really necessary or even desirable? The pluses the 300B brings to a voltage regulator is its ability ...
... But it will take some rethinking to imagine this great tube in a non-audio role. It is sort of like trying to imagine Arnold Schwarzenegger playing Goethe: sure he has the accent, but are the biceps really necessary or even desirable? The pluses the 300B brings to a voltage regulator is its ability ...
Chapter 5 - Parallel Circuits
... Summary • A parallel circuit is a current divider, so called because the total current entering a node divides up into each of the branches connected to the node • If all of the branches of a parallel circuit have equal resistance, the current through all of the branches are equal • The total power ...
... Summary • A parallel circuit is a current divider, so called because the total current entering a node divides up into each of the branches connected to the node • If all of the branches of a parallel circuit have equal resistance, the current through all of the branches are equal • The total power ...
IEEE Memphis Protection-Basics
... equipment cost by using 3 breakers for each 2 circuits. For load transfer and operation is simple, but relaying is complex as middle breaker is responsible to both circuits ...
... equipment cost by using 3 breakers for each 2 circuits. For load transfer and operation is simple, but relaying is complex as middle breaker is responsible to both circuits ...
Lab6
... A transducer is an electronic circuit which converts a physical parameter such as temperature into an electrical signal so that it can be measured by conventional techniques. In this virtual experiment, a thermistor is used to convert temperature into a waveform whose off-time is directly proportion ...
... A transducer is an electronic circuit which converts a physical parameter such as temperature into an electrical signal so that it can be measured by conventional techniques. In this virtual experiment, a thermistor is used to convert temperature into a waveform whose off-time is directly proportion ...
+ R
... Summary • A parallel circuit is a current divider, so called because the total current entering a node divides up into each of the branches connected to the node • If all of the branches of a parallel circuit have equal resistance, the current through all of the branches are equal • The total power ...
... Summary • A parallel circuit is a current divider, so called because the total current entering a node divides up into each of the branches connected to the node • If all of the branches of a parallel circuit have equal resistance, the current through all of the branches are equal • The total power ...
Q No - Air University
... where F is the magnitude of force. We wish to find an expression for P in terms of the magnitude B of the magnetic field and the characteristics of the loop-namely, its resistance R to current and its dimension L. As we move the loop to the right in Fig.4, the portion of its area within the magnetic ...
... where F is the magnitude of force. We wish to find an expression for P in terms of the magnitude B of the magnetic field and the characteristics of the loop-namely, its resistance R to current and its dimension L. As we move the loop to the right in Fig.4, the portion of its area within the magnetic ...
Instructions for muon lifetime experiment - CASE
... the decay of 11C. The NaI detectors are a pair of Bicron 2" diameter, 2" long cylindrical crystals with a special thin window. The crystals are viewed by photomultiplier tubes (PM) using bases which were built in the Department of Physics and Astronomy electronics shop. They distribute the high volt ...
... the decay of 11C. The NaI detectors are a pair of Bicron 2" diameter, 2" long cylindrical crystals with a special thin window. The crystals are viewed by photomultiplier tubes (PM) using bases which were built in the Department of Physics and Astronomy electronics shop. They distribute the high volt ...
SGM8955/6 1.8V, Micro-Power CMOS Zero
... provide low offset voltage and very low drift over time and temperature. For lowest offset voltage and precision performance, circuit layout and mechanical conditions should be optimized. Avoid temperature gradients that create thermoelectric (Seebeck) effects in the thermocouple junctions formed fr ...
... provide low offset voltage and very low drift over time and temperature. For lowest offset voltage and precision performance, circuit layout and mechanical conditions should be optimized. Avoid temperature gradients that create thermoelectric (Seebeck) effects in the thermocouple junctions formed fr ...
Type & Properties of Electroceramics – Technical Ceramics EBB 443
... Applications such as temperature measurement, temperature control, temperature compensation and over-temperature protection. The second group includes applications such as over-current protection, liquid level detection and time delay. ...
... Applications such as temperature measurement, temperature control, temperature compensation and over-temperature protection. The second group includes applications such as over-current protection, liquid level detection and time delay. ...
Electricity Ch. 18 Sect. 3
... The Electromagnetic Force 〉How are electricity and magnetism related? 〉Electricity and magnetism are two aspects of a single force, the electromagnetic force. • The energy that results from these two forces is called electromagnetic (EM) energy. • Light is a form of electromagnetic energy. • EM wave ...
... The Electromagnetic Force 〉How are electricity and magnetism related? 〉Electricity and magnetism are two aspects of a single force, the electromagnetic force. • The energy that results from these two forces is called electromagnetic (EM) energy. • Light is a form of electromagnetic energy. • EM wave ...
electromagnetic induction
... The Electromagnetic Force 〉How are electricity and magnetism related? 〉Electricity and magnetism are two aspects of a single force, the electromagnetic force. • The energy that results from these two forces is called electromagnetic (EM) energy. • Light is a form of electromagnetic energy. • EM wave ...
... The Electromagnetic Force 〉How are electricity and magnetism related? 〉Electricity and magnetism are two aspects of a single force, the electromagnetic force. • The energy that results from these two forces is called electromagnetic (EM) energy. • Light is a form of electromagnetic energy. • EM wave ...
News
... 2. Determination of self inductance of a coil by Rayliegh’s method. 3. Mutual inductance for varying distance between two coils. 4. Determination of absolute capacitance of a condenser using a ballastic galvanometer. 5. Determination of platinum resistance thermometer co-efficients. 6. To investigat ...
... 2. Determination of self inductance of a coil by Rayliegh’s method. 3. Mutual inductance for varying distance between two coils. 4. Determination of absolute capacitance of a condenser using a ballastic galvanometer. 5. Determination of platinum resistance thermometer co-efficients. 6. To investigat ...
gf-03 : ground-fault misconceptions
... systems. Many of the problems associated with ungrounded and solidly grounded systems are overcome with resistance grounding. Resistance grounding limits point-of-fault damage, eliminates transient overvoltages, and provides adequate tripping levels for selective ground-fault detection and coordinat ...
... systems. Many of the problems associated with ungrounded and solidly grounded systems are overcome with resistance grounding. Resistance grounding limits point-of-fault damage, eliminates transient overvoltages, and provides adequate tripping levels for selective ground-fault detection and coordinat ...
LM747 Dual Operational Amplifier
... Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant ...
... Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant ...
V. Caliskan, D.J. Perreault, T.M. Jahns, and J.G. Kassakian, “Analysis of Three-Phase Rectifiers with Constant-Voltage Loads,” IEEE Transactions on Circuits and Systems – I , Vol. 50, No. 9, Sept. 2003, pp. 1220-1226.
... Section II also considers the case where the ac-side impedance includes a resistive component Rs . For values of Rs much less than the effective resistance R posed by the rectifier, the limit (34) does not change much. Continuous ac-side conduction can also occur for larger values of source resistan ...
... Section II also considers the case where the ac-side impedance includes a resistive component Rs . For values of Rs much less than the effective resistance R posed by the rectifier, the limit (34) does not change much. Continuous ac-side conduction can also occur for larger values of source resistan ...
sppcx7450-rev3Current 6-20-08b.pub
... current pulses variable from 20A to 150A, pulse widths variable from 15µS to 5mS, with rise times and fall times of 5µS to 1mS, and pulse repetition frequencies variable from single shot to 5 KHz with duty cycles limited by total power dissipation. A microprocessor-controlled front-panel and RS-232 ...
... current pulses variable from 20A to 150A, pulse widths variable from 15µS to 5mS, with rise times and fall times of 5µS to 1mS, and pulse repetition frequencies variable from single shot to 5 KHz with duty cycles limited by total power dissipation. A microprocessor-controlled front-panel and RS-232 ...
Slides
... •This same thing has happened to me on 3 different insulators now, at almost exactly the same voltage. On the last insulator, we went to extreme lengths to clean the electrodes and keep them dust free during installation – this was quite successful as the processing went quickly up to 445kV. •The p ...
... •This same thing has happened to me on 3 different insulators now, at almost exactly the same voltage. On the last insulator, we went to extreme lengths to clean the electrodes and keep them dust free during installation – this was quite successful as the processing went quickly up to 445kV. •The p ...