Avalanche ruggedness of 800V Lateral IGBTs in bulk Si
... Due to their high current density, low power losses and reduced device area, high voltage LIGBTs have recently attracted lot of attention in high voltage, low power applications [1-2]. Off-line flyback converter is one of the most common Switch Mode Power Supply (SMPS) topologies for these kinds of ...
... Due to their high current density, low power losses and reduced device area, high voltage LIGBTs have recently attracted lot of attention in high voltage, low power applications [1-2]. Off-line flyback converter is one of the most common Switch Mode Power Supply (SMPS) topologies for these kinds of ...
transistor models - Department of Electrical Engineering and
... Capable of performing transient, steady state and frequency domain analysis ...
... Capable of performing transient, steady state and frequency domain analysis ...
The Basics of Noise Filtering
... Normal mode noise can cause some harm to equipment power supplies, but is generally not disruptive or destructive to sensitive electronic components beyond the power supply. Common mode noise poses a greater threat to sensitive electronic equipment because it is present on the ground plane. High fre ...
... Normal mode noise can cause some harm to equipment power supplies, but is generally not disruptive or destructive to sensitive electronic components beyond the power supply. Common mode noise poses a greater threat to sensitive electronic equipment because it is present on the ground plane. High fre ...
ADP3303 - Analog Devices
... out from the conventional LDOs with a different architecture, an enhanced process, and a different package. Its patented design requires only a 0.47 µF output capacitor for stability. This device is insensitive to capacitor Equivalent Series Resistance (ESR) and is stable with any good quality capac ...
... out from the conventional LDOs with a different architecture, an enhanced process, and a different package. Its patented design requires only a 0.47 µF output capacitor for stability. This device is insensitive to capacitor Equivalent Series Resistance (ESR) and is stable with any good quality capac ...
A Nested Optimization Problem for Analysis of Market Bidding
... By integrating GIC calculations directly within power analysis software (like power flow) power engineers can readily see the impact of GICs on their systems, and consider mitigation options GIC calculations use many of the existing model parameters such as line resistance. But some nonstandard valu ...
... By integrating GIC calculations directly within power analysis software (like power flow) power engineers can readily see the impact of GICs on their systems, and consider mitigation options GIC calculations use many of the existing model parameters such as line resistance. But some nonstandard valu ...
MP020-5 - Monolithic Power System
... converts the duty signal to a DC voltage (VCP) that changes as the load current varies. VCP can be converted to a current signal drawn from the FB pin. The voltage drop on RUP helps the output cable compensation. When the system operates in maximum load, the CP pin voltage reaches a maximum of 2V. ...
... converts the duty signal to a DC voltage (VCP) that changes as the load current varies. VCP can be converted to a current signal drawn from the FB pin. The voltage drop on RUP helps the output cable compensation. When the system operates in maximum load, the CP pin voltage reaches a maximum of 2V. ...
Aalborg Universitet Droop-Controlled Microgrid
... control functionalities. In fact, the main role of the DG inverter is to adjust output voltage phase angle and amplitude in order to control the active and reactive power injection. However, compensation of power quality problems can also be achieved through proper control strategies. Amongst variou ...
... control functionalities. In fact, the main role of the DG inverter is to adjust output voltage phase angle and amplitude in order to control the active and reactive power injection. However, compensation of power quality problems can also be achieved through proper control strategies. Amongst variou ...
RF2174 0
... any RF device. High currents lead to high channel temperatures and may force early failures. The RF2174 includes temperature compensation circuits in the bias network to stabilize the RF transistors, thus limiting the current through the amplifier and protecting the devices from damage. The same mec ...
... any RF device. High currents lead to high channel temperatures and may force early failures. The RF2174 includes temperature compensation circuits in the bias network to stabilize the RF transistors, thus limiting the current through the amplifier and protecting the devices from damage. The same mec ...
MAX5932EVKIT
... programmable output-voltage slew rate through an external n-channel MOSFET. The MAX5932 is pin and function compatible with the LT1641-1. This EV kit can be used to evaluate either part. The EV kit provides a power-good output signal that indicates the status of the output voltage. The MAX5932 EV ki ...
... programmable output-voltage slew rate through an external n-channel MOSFET. The MAX5932 is pin and function compatible with the LT1641-1. This EV kit can be used to evaluate either part. The EV kit provides a power-good output signal that indicates the status of the output voltage. The MAX5932 EV ki ...
CS5124DEMO/D Demonstration Note for CS5124 48 V to 5.0 V,
... low frequency roll-off of U2. R6 sets the maximum current through U2’s photodiode and adjusts gain. C3 provides phase boost near the crossover frequency. C8 is primarily for high frequency noise reduction. DESIGN INFORMATION Flyback Transformer The transformer was designed to operate in continuous a ...
... low frequency roll-off of U2. R6 sets the maximum current through U2’s photodiode and adjusts gain. C3 provides phase boost near the crossover frequency. C8 is primarily for high frequency noise reduction. DESIGN INFORMATION Flyback Transformer The transformer was designed to operate in continuous a ...
MAX1638 High-Speed Step-Down Controller with Synchronous Rectification for CPU Power General Description
... The MAX1638 is an ultra-high-performance, step-down DC-DC controller for CPU power in high-end computer systems. Designed for demanding applications in which output voltage precision and good transient response are critical for proper operation, it delivers over 35A from 1.3V to 3.5V with ±1% total ...
... The MAX1638 is an ultra-high-performance, step-down DC-DC controller for CPU power in high-end computer systems. Designed for demanding applications in which output voltage precision and good transient response are critical for proper operation, it delivers over 35A from 1.3V to 3.5V with ±1% total ...
Control of Parallel Connected Three-Phase PWM Converters
... parallel-connected three-phase boost rectifiers [15] to control the flow of ZSCCs. In this strategy, the line current symmetrical components are calculated for all of the converters. The zero and negative sequence currents are then eliminated by using simple PI controllers, while the positive sequen ...
... parallel-connected three-phase boost rectifiers [15] to control the flow of ZSCCs. In this strategy, the line current symmetrical components are calculated for all of the converters. The zero and negative sequence currents are then eliminated by using simple PI controllers, while the positive sequen ...
a 750 MHz, 3.8 mA 10 ns Switching Multiplexers AD8180/AD8182*
... The AD8180 and AD8182 video multiplexers are designed for fast-switching (10 ns) and wide bandwidth (> 750 MHz). This performance is attained with low power dissipation (3.8 mA per active channel) through the use of proprietary circuit techniques and a dielectrically-isolated complementary bipolar p ...
... The AD8180 and AD8182 video multiplexers are designed for fast-switching (10 ns) and wide bandwidth (> 750 MHz). This performance is attained with low power dissipation (3.8 mA per active channel) through the use of proprietary circuit techniques and a dielectrically-isolated complementary bipolar p ...
Experiment no. 2 NO LOAD AND LOAD TEST ON A DC SHUNT
... forward direction. This is so because iron has residual magnetism (retentivity) and although we are interested in Hysteresis one should first increase It to the limit and then decrease it back to ‘0’, local increase & decrease will give rise to unwanted local hysteresis loop. It is interesting to no ...
... forward direction. This is so because iron has residual magnetism (retentivity) and although we are interested in Hysteresis one should first increase It to the limit and then decrease it back to ‘0’, local increase & decrease will give rise to unwanted local hysteresis loop. It is interesting to no ...
300V Power Supply - Labnet International
... This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment ge ...
... This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment ge ...
320lxf czone manual
... The battery switch moves from a state of “Auto Off” to “Auto On” when either the wireless remote button 1 is pressed or the button at the DC panel is pressed. During the time that the battery switch is in “Auto On” mode, the “Auto On” LED is illuminated. Auto operation of the Battery Switch is not p ...
... The battery switch moves from a state of “Auto Off” to “Auto On” when either the wireless remote button 1 is pressed or the button at the DC panel is pressed. During the time that the battery switch is in “Auto On” mode, the “Auto On” LED is illuminated. Auto operation of the Battery Switch is not p ...
1MHz, 6A Integrated Switch Synchronous Buck Regulator
... more than 90% efficiency, while still switching at 1MHz over a broad load range with only 1µH inductor and down to 47µF output capacitor. The ultra-high-speed control loop keeps the output voltage within regulation even under extreme transient load swings commonly found in FPGAs and low voltage ASIC ...
... more than 90% efficiency, while still switching at 1MHz over a broad load range with only 1µH inductor and down to 47µF output capacitor. The ultra-high-speed control loop keeps the output voltage within regulation even under extreme transient load swings commonly found in FPGAs and low voltage ASIC ...
MAX44299 Current and Voltage Sense with Power Measurement
... signals to the ADC eliminates any errors caused by voltage drops across the parasitic resistance of PCB, which can be significant for high-current systems. To allow full-system calibration, the CAL bump provides a way to calibrate gain and offset for the ADC. The device measures load current by usin ...
... signals to the ADC eliminates any errors caused by voltage drops across the parasitic resistance of PCB, which can be significant for high-current systems. To allow full-system calibration, the CAL bump provides a way to calibrate gain and offset for the ADC. The device measures load current by usin ...
Power inverter
A power inverter, or inverter, is an electronic device or circuitry that changes direct current (DC) to alternating current (AC).The input voltage, output voltage and frequency, and overall power handling depend on the design of the specific device or circuitry. The inverter does not produce any power; the power is provided by the DC source.A power inverter can be entirely electronic or may be a combination of mechanical effects (such as a rotary apparatus) and electronic circuitry.Static inverters do not use moving parts in the conversion process.