TECHNICAL SPECIFICATIONS
... Note: : C2 through C5 and C6 through C9 can be 0.01μ F to o.1μ F. Select the voltage rating to meet input-to-output isolation requirements. C1 should be the recommended value indicated in the power module datasheet. ...
... Note: : C2 through C5 and C6 through C9 can be 0.01μ F to o.1μ F. Select the voltage rating to meet input-to-output isolation requirements. C1 should be the recommended value indicated in the power module datasheet. ...
Zero Voltage Transition
... additional voltage or current stress on the main switch. Converters that have soft switching but reduce or eliminate this stress are more highly desirable. So zero voltage transition (ZVT) converter are preferred. In ZVT technique, a capacitor is placed in parallel with the main switch to provide so ...
... additional voltage or current stress on the main switch. Converters that have soft switching but reduce or eliminate this stress are more highly desirable. So zero voltage transition (ZVT) converter are preferred. In ZVT technique, a capacitor is placed in parallel with the main switch to provide so ...
IE_F10_lecture8
... Clamping or DC-Restoring Circuit After the initial transient lasting less than one cycle in both circuits, output waveform is an undistorted replica of input. Both waveforms are clamped to zero. Their dc levels are said to be restored by the clamping circuit. Clamping level can also be shifted away ...
... Clamping or DC-Restoring Circuit After the initial transient lasting less than one cycle in both circuits, output waveform is an undistorted replica of input. Both waveforms are clamped to zero. Their dc levels are said to be restored by the clamping circuit. Clamping level can also be shifted away ...
Jun 1999 Micropower LDO Has the Lowest Noise and Quiescent Current in SOT-23
... a few nanoamperes at room temperature, stays below 1µA over the operating temperature range. Competing devices may be able to match the shutdown quiescent current, but operating quiescent current is improved by a factor of four. The LT1761 has a number of protection features to safeguard itself and ...
... a few nanoamperes at room temperature, stays below 1µA over the operating temperature range. Competing devices may be able to match the shutdown quiescent current, but operating quiescent current is improved by a factor of four. The LT1761 has a number of protection features to safeguard itself and ...
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 ...
With a basic understanding of schematics, a schematic can be used
... diagram uses AC voltage, so the meter should be set to VAC or V~. When using a meter, polarity does not matter. Also, do not check to ground, it will not provide an accurate reading (DC voltage is checked to ground). The first step is to check if the operator is getting properly powered. Place one l ...
... diagram uses AC voltage, so the meter should be set to VAC or V~. When using a meter, polarity does not matter. Also, do not check to ground, it will not provide an accurate reading (DC voltage is checked to ground). The first step is to check if the operator is getting properly powered. Place one l ...
Technical Means of Automation
... allows continuous measurement in real time voltage and current probes frequency of sampling (e.g. 100Mhz) number of channels (2CH, 4CH) logic signal analyzer (decoding) built-in features ...
... allows continuous measurement in real time voltage and current probes frequency of sampling (e.g. 100Mhz) number of channels (2CH, 4CH) logic signal analyzer (decoding) built-in features ...
Capacitor Self
... control signal, determining the angular displacement of the servomotor armature, and is therefore a low current signal. In fact, an ideal control signal input would not require any current at all. On the other hand, the servomotor power source provides the power that physically moves the servomotor ...
... control signal, determining the angular displacement of the servomotor armature, and is therefore a low current signal. In fact, an ideal control signal input would not require any current at all. On the other hand, the servomotor power source provides the power that physically moves the servomotor ...
Evaluates: MAX8563/MAX8564 MAX8564 Evaluation Kit General Description Features
... still greater than 60% of its nominal voltage for more than 50ms, the MAX8564 shuts down that particular regulator output by pulling DRV_ to GND. Note that there is an additional inherent delay in turning off the MOSFET. The delay is a function of the compensation capacitor and the MOSFET. If the ou ...
... still greater than 60% of its nominal voltage for more than 50ms, the MAX8564 shuts down that particular regulator output by pulling DRV_ to GND. Note that there is an additional inherent delay in turning off the MOSFET. The delay is a function of the compensation capacitor and the MOSFET. If the ou ...
Excitation and Ionization Energies of Helium and Mercury
... The DAQ device in the control unit reads a voltage at the picoamplifier output that is directly proportional to the detector current. Connect the amplifier output to the control unit inputs as shown. The reference potential of the picoamplifier (REF) must be allowed to float with respect to c ...
... The DAQ device in the control unit reads a voltage at the picoamplifier output that is directly proportional to the detector current. Connect the amplifier output to the control unit inputs as shown. The reference potential of the picoamplifier (REF) must be allowed to float with respect to c ...
Subject: Experiment No - Department of Electrical Engineering
... During the second week a PSPICE EXAM on the dc power supply circuit will be conducted. PSPICE will be used to simulate the half-wave rectifier dc power supply circuit and to determine values for all the voltages and currents measured. The 50 F capacitor was connected in parallel with the 200 F. Ho ...
... During the second week a PSPICE EXAM on the dc power supply circuit will be conducted. PSPICE will be used to simulate the half-wave rectifier dc power supply circuit and to determine values for all the voltages and currents measured. The 50 F capacitor was connected in parallel with the 200 F. Ho ...
How to Measure the Loop Transfer Function of Power Supplies Introduction
... In order to take a full bode plot, the signal generator frequency is swept and at different points the gain as the amplitude relationship between the two channels and the phase shift are measured. Depending on the oscilloscope used for the measurement and the gain of the loop, it might be very diffi ...
... In order to take a full bode plot, the signal generator frequency is swept and at different points the gain as the amplitude relationship between the two channels and the phase shift are measured. Depending on the oscilloscope used for the measurement and the gain of the loop, it might be very diffi ...
STD845DN40
... Dual NPN high voltage transistors in a single package Datasheet — production data ...
... Dual NPN high voltage transistors in a single package Datasheet — production data ...
F. Y. B. Sc Electronic Science
... Circuit symbols, working principle, classification according to construction, specifications, and applications of passive components - resistor, capacitor, inductor, transformer, switches, fuses, cables, connectors, batteries, relays and PCBs. ...
... Circuit symbols, working principle, classification according to construction, specifications, and applications of passive components - resistor, capacitor, inductor, transformer, switches, fuses, cables, connectors, batteries, relays and PCBs. ...
bme 211 circuit theory
... The switches on the meter should be selected correctly. (A button for current) There are usually two divisions for current measurements: one for small currents and one for large currents. You should work with the big scale if the current you are trying to measure can be bigger than the value of the ...
... The switches on the meter should be selected correctly. (A button for current) There are usually two divisions for current measurements: one for small currents and one for large currents. You should work with the big scale if the current you are trying to measure can be bigger than the value of the ...
Features:
... Switch Header. The two pins must be shorted to provide power to the board. Using a standard jumper will work, but a cable with a SPDT switch is recommended. The cable and switch must be able to continuously carry 2 amps. When the power is plugged in correctly, the power LED will turn on. The ATmega1 ...
... Switch Header. The two pins must be shorted to provide power to the board. Using a standard jumper will work, but a cable with a SPDT switch is recommended. The cable and switch must be able to continuously carry 2 amps. When the power is plugged in correctly, the power LED will turn on. The ATmega1 ...
Measure resistance with a microcontroller
... Next, define the scale measurement or digital value within the microcontroller. The nominal value of the DUT (device under test) should be close to half of the scale selected. Thus, you should set the full-range scale from 0 Ω to 100 Ω. If you use a microcontroller that contains a 10-bit ADC, it wil ...
... Next, define the scale measurement or digital value within the microcontroller. The nominal value of the DUT (device under test) should be close to half of the scale selected. Thus, you should set the full-range scale from 0 Ω to 100 Ω. If you use a microcontroller that contains a 10-bit ADC, it wil ...
AN-9758 - Open-Load Detection in Smart Switches
... driven in a high-side configuration without additional external components. This application note explains the features of the high-side family, helps the designer select components, and provides suggestions on how to detect open-load in both OFF and ON state in automotive systems. The open-load det ...
... driven in a high-side configuration without additional external components. This application note explains the features of the high-side family, helps the designer select components, and provides suggestions on how to detect open-load in both OFF and ON state in automotive systems. The open-load det ...
the WS-G5487-C Datasheet
... The DFB driver accept differential input data and provide bias and modulation currents for driving a laser. An automatic power-control (APC) feedback loop is incorporated to maintain a constant average optical power. 1550 nm DFB in an eye safe optical subassembly (OSA) mates to the fiber cable. TX_D ...
... The DFB driver accept differential input data and provide bias and modulation currents for driving a laser. An automatic power-control (APC) feedback loop is incorporated to maintain a constant average optical power. 1550 nm DFB in an eye safe optical subassembly (OSA) mates to the fiber cable. TX_D ...
Digital Generation of LFO`s for Modulating Effects
... In A. an increasing control voltage (Vc) makes the NPN transistor turn on more. For small voltages at its collector and small base currents, this acts like a variable resistor. This is the variable resistor technique actually used in effects like the Seamoon Funk Machine, EH Dr. Q, and the EH Pulsar ...
... In A. an increasing control voltage (Vc) makes the NPN transistor turn on more. For small voltages at its collector and small base currents, this acts like a variable resistor. This is the variable resistor technique actually used in effects like the Seamoon Funk Machine, EH Dr. Q, and the EH Pulsar ...
I COM V - madalina
... Topology of electrical circuits In practice, the electrical components are interconnected with wires, conductors, tracks on PCB etc. The circuit elements from equivalent circuits are interconnected with nodes. Nodes can be simple (when only 2 elements are interconnected) or multiple (when more ...
... Topology of electrical circuits In practice, the electrical components are interconnected with wires, conductors, tracks on PCB etc. The circuit elements from equivalent circuits are interconnected with nodes. Nodes can be simple (when only 2 elements are interconnected) or multiple (when more ...
Power electronics
Power electronics is the application of solid-state electronics to the control and conversion of electric power. It also refers to a subject of research in electronic and electrical engineering which deals with the design, control, computation and integration of nonlinear, time-varying energy-processing electronic systems with fast dynamics.The first high power electronic devices were mercury-arc valves. In modern systems the conversion is performed with semiconductor switching devices such as diodes, thyristors and transistors, pioneered by R. D. Middlebrook and others beginning in the 1950s. In contrast to electronic systems concerned with transmission and processing of signals and data, in power electronics substantial amounts of electrical energy are processed. An AC/DC converter (rectifier) is the most typical power electronics device found in many consumer electronic devices, e.g. television sets, personal computers, battery chargers, etc. The power range is typically from tens of watts to several hundred watts. In industry a common application is the variable speed drive (VSD) that is used to control an induction motor. The power range of VSDs start from a few hundred watts and end at tens of megawatts.The power conversion systems can be classified according to the type of the input and output power AC to DC (rectifier) DC to AC (inverter) DC to DC (DC-to-DC converter) AC to AC (AC-to-AC converter)