MAX5186/MAX5189 Dual, 8-Bit, 40MHz, Current/Voltage, Simultaneous-Output DACs General Description
... The MAX5186/MAX5189 are designed to provide a high level of signal integrity for the least amount of power dissipation. Both DACs operate from a single supply voltage of 2.7V to 3.3V. Additionally, these DACs have three modes of operation: normal, low-power standby, and complete shutdown, which prov ...
... The MAX5186/MAX5189 are designed to provide a high level of signal integrity for the least amount of power dissipation. Both DACs operate from a single supply voltage of 2.7V to 3.3V. Additionally, these DACs have three modes of operation: normal, low-power standby, and complete shutdown, which prov ...
Journal of Power Electronics Vol
... energy in the inductor and capacitor, is proposed in this paper. Unlike the conventional energy-based controls mentioned above, the proposed control method directly modifies the energy storage in the circuit. The order of its corresponding Lyapunov energy function is higher as well. Actually, the re ...
... energy in the inductor and capacitor, is proposed in this paper. Unlike the conventional energy-based controls mentioned above, the proposed control method directly modifies the energy storage in the circuit. The order of its corresponding Lyapunov energy function is higher as well. Actually, the re ...
Atmel LED Driver-MSL3082
... How Many LEDs and Drivers? The MSL3082 drives eight strings of series-connected LEDs using external N-channel MOSFETs and current sense resistors. The LED drive capability (maximum number of LEDs per string) is limited only by the MOSFETs and the LED string power supply, not by the MSL3082. Up to 16 ...
... How Many LEDs and Drivers? The MSL3082 drives eight strings of series-connected LEDs using external N-channel MOSFETs and current sense resistors. The LED drive capability (maximum number of LEDs per string) is limited only by the MOSFETs and the LED string power supply, not by the MSL3082. Up to 16 ...
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... d is the diameter of the superconducting wire of the winding; W is the total number of turns in the superconducting winding; n1, n2 is the number of layers in the superconducting winding along its width and height respectively; a is the radial spacing between the superconducting windings. The curren ...
... d is the diameter of the superconducting wire of the winding; W is the total number of turns in the superconducting winding; n1, n2 is the number of layers in the superconducting winding along its width and height respectively; a is the radial spacing between the superconducting windings. The curren ...
Chapter 8 Electrical Power 8.1 Introduction
... The 345 kV switchyard for Fermi 3 receives two sources of AC auxiliary power from the 6.9 kV Plant Investment Protection (PIP) buses for the normal preferred switchyard power center and alternate preferred switchyard power center, as shown on DCD Figure 8.1-1. The switchyard auxiliary power system i ...
... The 345 kV switchyard for Fermi 3 receives two sources of AC auxiliary power from the 6.9 kV Plant Investment Protection (PIP) buses for the normal preferred switchyard power center and alternate preferred switchyard power center, as shown on DCD Figure 8.1-1. The switchyard auxiliary power system i ...
Understanding Frequency Variation
... then higher frequency harmonics would be in band and possibly interfere. Most modern power supplies do not use an actual oscillator to set their switching frequency, as in traditional voltage- or current-mode control. Instead, either the on-time or off-time is controlled, which then provides a relat ...
... then higher frequency harmonics would be in band and possibly interfere. Most modern power supplies do not use an actual oscillator to set their switching frequency, as in traditional voltage- or current-mode control. Instead, either the on-time or off-time is controlled, which then provides a relat ...
Application Note AN4107 Design of Power Factor Correction Using FAN7527 1. Introduction
... other input is internally driven by a DC voltage which is the difference between error amplifier output (Pin 2) and reference voltage, Vref. The multiplier is designed to have an extremely linear transfer curve over a wide dynamic range, 0V to 3.8V for Pin 3, and 2.25V to 6V for error amplifier outp ...
... other input is internally driven by a DC voltage which is the difference between error amplifier output (Pin 2) and reference voltage, Vref. The multiplier is designed to have an extremely linear transfer curve over a wide dynamic range, 0V to 3.8V for Pin 3, and 2.25V to 6V for error amplifier outp ...
The RF Line
... the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters ...
... the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters ...
ESB Networks Farm Well Farm Safely
... Farm safely and you will farm well Electricity has contributed significantly to improving the lives and well being of farmers and their families over the years.The availability of electricity to power the services essential on a modern farm has contributed to prosperity and to greater efficiency in ...
... Farm safely and you will farm well Electricity has contributed significantly to improving the lives and well being of farmers and their families over the years.The availability of electricity to power the services essential on a modern farm has contributed to prosperity and to greater efficiency in ...
Motor Protection Principles
... • To limit the level of the ground fault current connect an impedance between the supplies neutral and ground. This impedance can be in the form of a resistor or grounding transformer sized to ensure maximum ground fault current is limited. ...
... • To limit the level of the ground fault current connect an impedance between the supplies neutral and ground. This impedance can be in the form of a resistor or grounding transformer sized to ensure maximum ground fault current is limited. ...
ESB Networks Farm Well Farm Safely
... Farm safely and you will farm well Electricity has contributed significantly to improving the lives and well being of farmers and their families over the years.The availability of electricity to power the services essential on a modern farm has contributed to prosperity and to greater efficiency in ...
... Farm safely and you will farm well Electricity has contributed significantly to improving the lives and well being of farmers and their families over the years.The availability of electricity to power the services essential on a modern farm has contributed to prosperity and to greater efficiency in ...
NCV97311 - Automotive Battery-Connected
... battery−connected 3 A, 2 MHz non−synchronous switcher and two low−voltage 1.5 A, 2 MHz synchronous switchers; all using integrated power transistors. The high−voltage switcher is capable of converting a 4.1 V to 18 V battery input to a 5 V or 3.3 V output at a constant 2 MHz switching frequency, del ...
... battery−connected 3 A, 2 MHz non−synchronous switcher and two low−voltage 1.5 A, 2 MHz synchronous switchers; all using integrated power transistors. The high−voltage switcher is capable of converting a 4.1 V to 18 V battery input to a 5 V or 3.3 V output at a constant 2 MHz switching frequency, del ...
955 Brik Series Linear Position Sensor
... on the lower part of the extrusion and clamp down when tightened. It is recommended to use one mounting bracket on each end and every three feet between. ...
... on the lower part of the extrusion and clamp down when tightened. It is recommended to use one mounting bracket on each end and every three feet between. ...
Distance Protection for Half Wavelength Transmission Lines
... Nowadays, these huge bulk power systems are made by high-voltage direct current transmission lines (HVDC), but an alternating current (AC link) option with some particular characteristics might be the most economical one, having much less dependence on the Power Electronics technology. In the 1960s ...
... Nowadays, these huge bulk power systems are made by high-voltage direct current transmission lines (HVDC), but an alternating current (AC link) option with some particular characteristics might be the most economical one, having much less dependence on the Power Electronics technology. In the 1960s ...
High Power Density Marine Propulsion Motors with Double
... and ten Kate [8] the voltage and current produced by a particular flux pump connected to an inductive load is related to the total flux in the normal region(s), velocity of the normal region across the flux gate, and their effective self inductance and resistance. The use of several normal regions i ...
... and ten Kate [8] the voltage and current produced by a particular flux pump connected to an inductive load is related to the total flux in the normal region(s), velocity of the normal region across the flux gate, and their effective self inductance and resistance. The use of several normal regions i ...
PoE Auxiliary Supply Applications
... sourcing device on the cable. The auxiliary supply support can be implemented in three ways. Dependant where the auxiliary supply is injected the configurations are called front, rear and direct auxiliary supply. ...
... sourcing device on the cable. The auxiliary supply support can be implemented in three ways. Dependant where the auxiliary supply is injected the configurations are called front, rear and direct auxiliary supply. ...
Extend the Wide Output Voltage Capability of
... voltage. Initially, the value for R2 was chosen to be 25 kΩ, but this value resulted in R1 and R2 being close to 1 MΩ. Therefore, the R2 value was decreased and the R1 value was recalculated. A value near 18.2 kΩ for R2 also would have been acceptable. A zero frequency of 2 kHz then was chosen to de ...
... voltage. Initially, the value for R2 was chosen to be 25 kΩ, but this value resulted in R1 and R2 being close to 1 MΩ. Therefore, the R2 value was decreased and the R1 value was recalculated. A value near 18.2 kΩ for R2 also would have been acceptable. A zero frequency of 2 kHz then was chosen to de ...
LT6236/LT6237 - Rail-to-Rail Output 215MHz, 1.1nV/√Hz Op Amp/SAR ADC Driver
... voltage density and draw only 3.5mA of supply current per amplifier. These amplifiers combine very low noise and supply current with a 215MHz gain bandwidth product and a 70V/μs slew rate. Low noise, fast settling time and low offset voltage make this amplifier optimal to drive low noise, high speed ...
... voltage density and draw only 3.5mA of supply current per amplifier. These amplifiers combine very low noise and supply current with a 215MHz gain bandwidth product and a 70V/μs slew rate. Low noise, fast settling time and low offset voltage make this amplifier optimal to drive low noise, high speed ...
ML15.121 - PULS Power Supply
... - Do not use the power supply without proper grounding (Protective Earth). Use the terminal on the input block for earth connection and not one of the screws on the housing. - Turn power off before working on the device. Protect against inadvertent re-powering. - Make sure that the wiring is correct ...
... - Do not use the power supply without proper grounding (Protective Earth). Use the terminal on the input block for earth connection and not one of the screws on the housing. - Turn power off before working on the device. Protect against inadvertent re-powering. - Make sure that the wiring is correct ...
Three-phase electric power
Three-phase electric power is a common method of alternating-current electric power generation, transmission, and distribution. It is a type of polyphase system and is the most common method used by electrical grids worldwide to transfer power. It is also used to power large motors and other heavy loads. A three-phase system is usually more economical than an equivalent single-phase or two-phase system at the same line to ground voltage because it uses less conductor material to transmit electrical power.The three-phase system was independently invented by Galileo Ferraris, Mikhail Dolivo-Dobrovolsky, Jonas Wenström and Nikola Tesla in the late 1880s.