MAX16128/MAX16129 Load-Dump/Reverse-Voltage Protection Circuits General Description Features
... In overvoltage-limiter mode, the output voltage is regulated at the overvoltage-threshold voltage and continues to supply power to downstream devices. In this mode, the device operates like a voltage regulator. During normal operation, GATE is enhanced 9V above SRC. The output voltage is monitored t ...
... In overvoltage-limiter mode, the output voltage is regulated at the overvoltage-threshold voltage and continues to supply power to downstream devices. In this mode, the device operates like a voltage regulator. During normal operation, GATE is enhanced 9V above SRC. The output voltage is monitored t ...
A Low-Power Wideband Polar Transmitter for 3G
... predictable, and more importantly, should be self-calibrated. All-digital PLL-based transmitters for GSM/EDGE are based on this method [4], but they are sensitive to the oscillator gain and their output is usually cluttered by spurious tones. Also, extensive calibration and signal processing make th ...
... predictable, and more importantly, should be self-calibrated. All-digital PLL-based transmitters for GSM/EDGE are based on this method [4], but they are sensitive to the oscillator gain and their output is usually cluttered by spurious tones. Also, extensive calibration and signal processing make th ...
PDF
... modulation waves in Sinusoidal Pulse Width Modulation Scheme (SPWM) in order to balance the neutral point voltage [22]. This requires separate measuring circuit for measurement of power factors and phase angle of load voltages and currents. To balance the voltage of dc link series capacitors, severa ...
... modulation waves in Sinusoidal Pulse Width Modulation Scheme (SPWM) in order to balance the neutral point voltage [22]. This requires separate measuring circuit for measurement of power factors and phase angle of load voltages and currents. To balance the voltage of dc link series capacitors, severa ...
Linear Type (Exclusively Used to Detect the Angle of Vehicle
... 2. The temperatures given above are the maximum temperatures at the terminals of the sensor when employing a hot air reflow method. The temperature of the PC board and the surface temperature of the sensor may vary greatly depending on the PC board material, its size and thickness. Ensure that th ...
... 2. The temperatures given above are the maximum temperatures at the terminals of the sensor when employing a hot air reflow method. The temperature of the PC board and the surface temperature of the sensor may vary greatly depending on the PC board material, its size and thickness. Ensure that th ...
MX341 AUTOMATIC VOLTAGE REGULATOR (AVR)
... The AVR includes a stability or damping circuit to provide good steady state and transient performance of the generator. ...
... The AVR includes a stability or damping circuit to provide good steady state and transient performance of the generator. ...
Lecture slides set 2: Charge, Current, Voltage and Electrical Circuits
... – The battery voltage is the potential energy given to electrons as a result of this pump. • The voltage of the battery depends on chemicals – Generally either 1.5 V, or multiples – Or around 3.5 V (lithium) ...
... – The battery voltage is the potential energy given to electrons as a result of this pump. • The voltage of the battery depends on chemicals – Generally either 1.5 V, or multiples – Or around 3.5 V (lithium) ...
PPT
... scientist Nikola Tesla (born 1856, died1943). It is a high voltage, high frequency, power generator, primarily built for conducting experiments and to observe phenomenon associated with alternating electricity. With this coil, Tesla was able to generate voltages of such magnitude, they would shoot o ...
... scientist Nikola Tesla (born 1856, died1943). It is a high voltage, high frequency, power generator, primarily built for conducting experiments and to observe phenomenon associated with alternating electricity. With this coil, Tesla was able to generate voltages of such magnitude, they would shoot o ...
modeling of photovolatic system and unified power flow controller
... On the basis of traditional PI control, DC load current is directly used as feed-forward control in the control system of capacitor voltage. It is not only easy to get feedback, but also conducive to design and operate the series controller and the parallel controller independently. Finally, this pa ...
... On the basis of traditional PI control, DC load current is directly used as feed-forward control in the control system of capacitor voltage. It is not only easy to get feedback, but also conducive to design and operate the series controller and the parallel controller independently. Finally, this pa ...
what is a tesla coil
... scientist Nikola Tesla (born 1856, died1943). It is a high voltage, high frequency, power generator, primarily built for conducting experiments and to observe phenomenon associated with alternating electricity. With this coil, Tesla was able to generate voltages of such magnitude, they would shoot o ...
... scientist Nikola Tesla (born 1856, died1943). It is a high voltage, high frequency, power generator, primarily built for conducting experiments and to observe phenomenon associated with alternating electricity. With this coil, Tesla was able to generate voltages of such magnitude, they would shoot o ...
A Proto Type FPGA Based Reduced Switch Three Phase Inverter
... A standard three-phase voltage source inverter utilizes three legs [six-switch three-phase voltage source inverter (SSTPI)], with a pair of complementary power switches per phase. A reduced switch count voltage source inverter [four switch three-phase voltage source inverter (FSTPI)] uses only two l ...
... A standard three-phase voltage source inverter utilizes three legs [six-switch three-phase voltage source inverter (SSTPI)], with a pair of complementary power switches per phase. A reduced switch count voltage source inverter [four switch three-phase voltage source inverter (FSTPI)] uses only two l ...
LT1513
... The LT1513 is an IC battery charger chip specifically optimized to use the SEPIC converter topology. A complete charger schematic is shown in Figure 1. The SEPIC topology has unique advantages for battery charging. It will operate with input voltages above, equal to or below the battery voltage, has ...
... The LT1513 is an IC battery charger chip specifically optimized to use the SEPIC converter topology. A complete charger schematic is shown in Figure 1. The SEPIC topology has unique advantages for battery charging. It will operate with input voltages above, equal to or below the battery voltage, has ...
The Test, Usage and Maintenance of Power Switching Subsystems Kevin Paton
... enough so that using a DC power supply is impractical, in some cases reaching 80% error. To overcome this problem an initial measurement is made by setting the DC power supply to the test voltage that will be used in the relay test which in this case is 12 volts. In an ideal set up this would result ...
... enough so that using a DC power supply is impractical, in some cases reaching 80% error. To overcome this problem an initial measurement is made by setting the DC power supply to the test voltage that will be used in the relay test which in this case is 12 volts. In an ideal set up this would result ...
Aalborg Universitet Integrated Magnetics
... used [1]. However, an extra control efforts are required to balance the dc-link capacitor voltage [2]. Moreover, the semiconductor loss distribution is unequal [3] and this may lead to the de-rating of the Voltage Source Converter (VSC) [4]. On the other hand, the two-level VSC is used extensively i ...
... used [1]. However, an extra control efforts are required to balance the dc-link capacitor voltage [2]. Moreover, the semiconductor loss distribution is unequal [3] and this may lead to the de-rating of the Voltage Source Converter (VSC) [4]. On the other hand, the two-level VSC is used extensively i ...
Buck converter
A buck converter is a voltage step down and current step up converter.The simplest way to reduce the voltage of a DC supply is to use a linear regulator (such as a 7805), but linear regulators waste energy as they operate by dissipating excess power as heat. Buck converters, on the other hand, can be remarkably efficient (95% or higher for integrated circuits), making them useful for tasks such as converting the main voltage in a computer (12V in a desktop, 12-24V in a laptop) down to the 0.8-1.8V needed by the processor.