MAX8643A 3A, 2MHz Step-Down Regulator with Integrated Switches General Description
... The MAX8643A high-efficiency, voltage-mode switching regulator is capable of delivering up to 3A of output current. The MAX8643A provides output voltages from 0.6V to (0.9 x VIN) from 2.35V to 3.6V input supplies, making it ideal for on-board point-of-load applications. The output voltage accuracy i ...
... The MAX8643A high-efficiency, voltage-mode switching regulator is capable of delivering up to 3A of output current. The MAX8643A provides output voltages from 0.6V to (0.9 x VIN) from 2.35V to 3.6V input supplies, making it ideal for on-board point-of-load applications. The output voltage accuracy i ...
PowerElectronics
... Power MOSFETs are marketed by different manufacturers with differences in internal geometry and with different names such as MegaMOS, HEXFET, SIPMOS, and TMOS. They have unique features that make them potentially attractive for switching applications. They are essentially voltage-driven rather than ...
... Power MOSFETs are marketed by different manufacturers with differences in internal geometry and with different names such as MegaMOS, HEXFET, SIPMOS, and TMOS. They have unique features that make them potentially attractive for switching applications. They are essentially voltage-driven rather than ...
VCA810 数据资料 dataSheet 下载
... Operating from ±5V supplies, the gain control voltage for the VCA810 will adjust the gain from –40dB at 0V input to +40dB at –2V input. Increasing the control voltage above ground will attenuate the signal path to greater than 80dB. Signal bandwidth and slew rate remain constant over the entire gain ...
... Operating from ±5V supplies, the gain control voltage for the VCA810 will adjust the gain from –40dB at 0V input to +40dB at –2V input. Increasing the control voltage above ground will attenuate the signal path to greater than 80dB. Signal bandwidth and slew rate remain constant over the entire gain ...
Approximate Hybrid Equivalent Circuits
... Following points will help in understanding the rules of binary addition. 1. When ‘nothing’ is combined with ‘nothing’, we get nothing. Binary representation of the above statement is: 0 + 0 = 0 2. When nothing is combined with •, we get •. In binary language 0 + 1 = 1 3. Combining • with nothing, g ...
... Following points will help in understanding the rules of binary addition. 1. When ‘nothing’ is combined with ‘nothing’, we get nothing. Binary representation of the above statement is: 0 + 0 = 0 2. When nothing is combined with •, we get •. In binary language 0 + 1 = 1 3. Combining • with nothing, g ...
What is a meter
... suited for the measurement of alternating current (AC). A polarity-sensitive movement would just vibrate back and forth uselessly if connected to a source of AC. While most mechanical meter movements are based on electromagnetism (electron flow through a conductor creating a perpendicular magnetic f ...
... suited for the measurement of alternating current (AC). A polarity-sensitive movement would just vibrate back and forth uselessly if connected to a source of AC. While most mechanical meter movements are based on electromagnetism (electron flow through a conductor creating a perpendicular magnetic f ...
OPA3832
... provides an output swing to within 30mV of ground and 60mV of the positive supply. The high output drive current and low differential gain and phase errors also make it ideal for single-supply consumer video products. Low distortion operation is ensured by high bandwidth (80MHz) and slew rate (350V/ ...
... provides an output swing to within 30mV of ground and 60mV of the positive supply. The high output drive current and low differential gain and phase errors also make it ideal for single-supply consumer video products. Low distortion operation is ensured by high bandwidth (80MHz) and slew rate (350V/ ...
Aalborg Universitet
... LLCL-filter capacitors and inductors with different feedback transfer functions are considered and compared in the continuous Laplace domain. The results show how the various feedback signals need to be fed back in order to achieve resonance damping. Based on the available choices of feedback variab ...
... LLCL-filter capacitors and inductors with different feedback transfer functions are considered and compared in the continuous Laplace domain. The results show how the various feedback signals need to be fed back in order to achieve resonance damping. Based on the available choices of feedback variab ...
8EM RC Circuits
... discharges. We will observe the output of the power amplifier and use voltage sensors to measure the voltage across the resistor and capacitor as the capacitor charges and discharges. We will use a graphical display of these voltages (i.e. E, VR and VC) to investigate the behavior of the RCcircuit w ...
... discharges. We will observe the output of the power amplifier and use voltage sensors to measure the voltage across the resistor and capacitor as the capacitor charges and discharges. We will use a graphical display of these voltages (i.e. E, VR and VC) to investigate the behavior of the RCcircuit w ...
Digital Power Monitor with Convert Pin and ALERTB Output ADM1191
... Input Pin. The voltage driven onto this pin is compared with the output of the internal current sense amplifier. The lower the voltage on the SETV, the lower the current level that causes the ALERTB output to assert. I2C Clock Pin. Open-drain input; requires an external resistive pull-up. I2C Data I ...
... Input Pin. The voltage driven onto this pin is compared with the output of the internal current sense amplifier. The lower the voltage on the SETV, the lower the current level that causes the ALERTB output to assert. I2C Clock Pin. Open-drain input; requires an external resistive pull-up. I2C Data I ...
OPA2677 Dual, Wideband, High Output Current Operational Amplifier FEATURES
... NOTES: (1) Junction temperature = ambient for +25°C specifications. (2) Junction temperature = ambient at low temperature limit; junction temperature = ambient +23°C at high temperature limit for over temperature specifications. (3) Test levels: (A) 100% tested at +25°C. Over temperature limits by c ...
... NOTES: (1) Junction temperature = ambient for +25°C specifications. (2) Junction temperature = ambient at low temperature limit; junction temperature = ambient +23°C at high temperature limit for over temperature specifications. (3) Test levels: (A) 100% tested at +25°C. Over temperature limits by c ...
4 - Binus Repository
... The superposition principle applies to phasor responses only if all of the independent sources driving the circuit have the same frequency. That is , when the input sources have the same frequency, we can find the phasor response due to each source acting alone and obtain the total response by addin ...
... The superposition principle applies to phasor responses only if all of the independent sources driving the circuit have the same frequency. That is , when the input sources have the same frequency, we can find the phasor response due to each source acting alone and obtain the total response by addin ...
LMV321/358/324 Single/Dual/Quad Gen Purpose, Low V, R-to
... SNOS012J – AUGUST 2000 – REVISED DECEMBER 2014 ...
... SNOS012J – AUGUST 2000 – REVISED DECEMBER 2014 ...
MAX16836 High-Voltage, 350mA, High-Brightness LED Driver with PWM Dimming and 5V Regulator
... The MAX16836 is a high-current regulator capable of providing up to a total of 350mA of current to one or more strings of HB LEDs. A wide operating input voltage range of +6.5V to +40V makes the MAX16836 ideal for automotive applications. A +5V regulated output provides up to 4mA of current to power ...
... The MAX16836 is a high-current regulator capable of providing up to a total of 350mA of current to one or more strings of HB LEDs. A wide operating input voltage range of +6.5V to +40V makes the MAX16836 ideal for automotive applications. A +5V regulated output provides up to 4mA of current to power ...
Basic Direct Current Theory and Circuits
... another. Before we can precisely define what a "volt" is, we must understand how to measure this quantity we call "potential energy." The general metric unit for energy of any kind is the joule, equal to the amount of work performed by a force of 1 newton exerted through a motion of 1 meter (in the ...
... another. Before we can precisely define what a "volt" is, we must understand how to measure this quantity we call "potential energy." The general metric unit for energy of any kind is the joule, equal to the amount of work performed by a force of 1 newton exerted through a motion of 1 meter (in the ...
Document
... What are the standards applicable to medical equipment? The answers become obvious when we consider the features of such equipment. Firstly, whenever an electrode or probe applied part is connected directly to a body, the resistance must be minimized as much as possible, as is obvious when you consi ...
... What are the standards applicable to medical equipment? The answers become obvious when we consider the features of such equipment. Firstly, whenever an electrode or probe applied part is connected directly to a body, the resistance must be minimized as much as possible, as is obvious when you consi ...
Lab E4: Capacitors and the RC Circuit
... 4. Does the capacitance C of a capacitor depend on its charge Q? Explain. 5. In part I of this lab, you are to plot C vs. 1/d for a parallel plate capacitor. What should this graph look like? No numbers — just a qualitative sketch! If this graph was a plot of data from a capacitor with a pure air ga ...
... 4. Does the capacitance C of a capacitor depend on its charge Q? Explain. 5. In part I of this lab, you are to plot C vs. 1/d for a parallel plate capacitor. What should this graph look like? No numbers — just a qualitative sketch! If this graph was a plot of data from a capacitor with a pure air ga ...
IOSR Journal of Electrical And Electronics Engineering (IOSRJEEE)
... From (8), the displacement angle depends on three parameters: the L and C values of the input filter and the fundamental input current amplitude Is, which depends on the output load conditions of the MC. In order to minimize this displacement angle, small LC values are used in the practical MC syste ...
... From (8), the displacement angle depends on three parameters: the L and C values of the input filter and the fundamental input current amplitude Is, which depends on the output load conditions of the MC. In order to minimize this displacement angle, small LC values are used in the practical MC syste ...
Transistor Characteristics
... Although individual transistors have been replaced in many applications, transistors are still used in power gain applications. They can be found in driver circuits where the signal from an input or a process is not powerful enough to drive the output device. There are many different types of transi ...
... Although individual transistors have been replaced in many applications, transistors are still used in power gain applications. They can be found in driver circuits where the signal from an input or a process is not powerful enough to drive the output device. There are many different types of transi ...
First Order And Second Order Response Of RL And RC Circuit
... 1. Identify the variable of interest for the circuit. For RC circuits, it is most convenient to choose the capacitive voltage, for RL circuits, it is best to choose the inductive current. 2. Determine the initial value of the variable, which is its value at t0. 3. Calculate the final value of the va ...
... 1. Identify the variable of interest for the circuit. For RC circuits, it is most convenient to choose the capacitive voltage, for RL circuits, it is best to choose the inductive current. 2. Determine the initial value of the variable, which is its value at t0. 3. Calculate the final value of the va ...
Josephson voltage standard
A Josephson voltage standard is a complex system that uses a superconductive integrated circuit chip operating at 4 K to generate stable voltages that depend only on an applied frequency and fundamental constants. It is an intrinsic standard in the sense that it does not depend on any physical artifact. It is the most accurate method to generate or measure voltage and, by international agreement, is the basis for voltage standards around the World.