A Systematic Design of Electronically Tunable Ladder Filters Employing DO-OTAs
... input bias current can be as low as nano-ampere range while the maximum input bias current can be as high as milliampere range. III. FILTER DESIGN METHODOLOGY A current-mode fifth-order low-pass RLC ladder filter shown in Fig. 6 is adopted as an example. It comprises the minimum requirement of DO-OT ...
... input bias current can be as low as nano-ampere range while the maximum input bias current can be as high as milliampere range. III. FILTER DESIGN METHODOLOGY A current-mode fifth-order low-pass RLC ladder filter shown in Fig. 6 is adopted as an example. It comprises the minimum requirement of DO-OT ...
MAX9937 Automotive Current-Sense Amplifier with Reverse-Battery Protection General Description
... 2.7V to 5.5V). The MAX9937 monitors the current through a current-sense resistor by converting the sense voltage to a current output (OUT). Gain is set by the ratio of an output resistor (ROUT) and an input resistor (RRSP). Highside current monitoring with the MAX9937 does not interfere with the gro ...
... 2.7V to 5.5V). The MAX9937 monitors the current through a current-sense resistor by converting the sense voltage to a current output (OUT). Gain is set by the ratio of an output resistor (ROUT) and an input resistor (RRSP). Highside current monitoring with the MAX9937 does not interfere with the gro ...
UNIT-III COMBINATIONAL AND SEQUENTIAL CIRCUIT DESIGN 1
... 25. What is NP DOMINO? The hi-skew inverting static gates are replaced with precharged dynamic gates using pMOS logic. In a footed dynamic p-logic NOR gate when Ф is 0, the 1st and 3rd stages precharge high while the 2nd stage pre-discharges low. When Ф irises, all stages evaluate. This design styl ...
... 25. What is NP DOMINO? The hi-skew inverting static gates are replaced with precharged dynamic gates using pMOS logic. In a footed dynamic p-logic NOR gate when Ф is 0, the 1st and 3rd stages precharge high while the 2nd stage pre-discharges low. When Ф irises, all stages evaluate. This design styl ...
Lab6- Thermistor - Department of Applied Engineering
... The ability to use Thermistor equations the ability to derive linear equation for a Wheatstone bridge interpret data and design a digital thermometer using GUI ...
... The ability to use Thermistor equations the ability to derive linear equation for a Wheatstone bridge interpret data and design a digital thermometer using GUI ...
THS3201-EP
... The THS3201 is a wide-band, high-speed current-feedback amplifier, designed to operate over a wide supply range of ±3.3 V to ±7.5 V for today's high-performance applications. The wide supply range, combined with low distortion and high slew rate, makes the THS3201 ideally suited for arbitrary wavefo ...
... The THS3201 is a wide-band, high-speed current-feedback amplifier, designed to operate over a wide supply range of ±3.3 V to ±7.5 V for today's high-performance applications. The wide supply range, combined with low distortion and high slew rate, makes the THS3201 ideally suited for arbitrary wavefo ...
S and C Band over 100W GaN HEMT 1-Chip High
... loops are formed nearby the chip. When these oscillation loops satisfy the oscillation conditions, spurious signals appear and prevent stable operations of the amplifiers. It should also be noted that GaN HEMTs are considered to tend to suffer from this kind of oscillations more likely than GaAs dev ...
... loops are formed nearby the chip. When these oscillation loops satisfy the oscillation conditions, spurious signals appear and prevent stable operations of the amplifiers. It should also be noted that GaN HEMTs are considered to tend to suffer from this kind of oscillations more likely than GaAs dev ...
Simple DC Circuits (open): Materials that have a large supply of free
... without space. Be careful about upper-case and lower-case letters (especially m and M.) 1mW is a milliwatt, or one-thousandth of a watt, but 1MW is a megawatt (one million watts.) The unit name is only capitalized when it is abbreviated. For example, in describing cycles-per-second we use hertz and ...
... without space. Be careful about upper-case and lower-case letters (especially m and M.) 1mW is a milliwatt, or one-thousandth of a watt, but 1MW is a megawatt (one million watts.) The unit name is only capitalized when it is abbreviated. For example, in describing cycles-per-second we use hertz and ...
ICOM R71A - WorldwideDX Radio Forum
... The current through the diode being only a few hundred micro amps is insufficient to turn it on fully, causing the forward dynamic `resistance to be modulated with the audio, causing distortion. Modification 1. On the main board, replace R202, (100k) to 15k, and replace R128 (1K) with a jumper. This ...
... The current through the diode being only a few hundred micro amps is insufficient to turn it on fully, causing the forward dynamic `resistance to be modulated with the audio, causing distortion. Modification 1. On the main board, replace R202, (100k) to 15k, and replace R128 (1K) with a jumper. This ...
PHYSICS II: Kirchhoff`s Rules
... Sum of the EMF's = Sum of the IR losses or Sum of potential gains - Sum of potential losses = 0 For the top rectangular loop, starting clockwise at point a: ...
... Sum of the EMF's = Sum of the IR losses or Sum of potential gains - Sum of potential losses = 0 For the top rectangular loop, starting clockwise at point a: ...
AN1316 Frequency Output Conversion for MPX2000 Series
... For best performance, R3 and R13 should be chosen to provide 1 mA of drive current at the full-scale voltage produced at pin 3 of the AD654 (U3). The input stage of the AD654 is an op-amp; thus, it will work to make the voltage at pin 3 of U3 equal to the voltage seen at pin 4 of U3 (pins 3 and 4 ar ...
... For best performance, R3 and R13 should be chosen to provide 1 mA of drive current at the full-scale voltage produced at pin 3 of the AD654 (U3). The input stage of the AD654 is an op-amp; thus, it will work to make the voltage at pin 3 of U3 equal to the voltage seen at pin 4 of U3 (pins 3 and 4 ar ...
IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) e-ISSN: 2278-1676,p-ISSN: 2320-3331,
... Design And Simulation of A Fuel Cell Based IBC with Low Switching Losses and Improved CR Conversely, DCM operation significantly increases the conduction losses due to the increased current stress through circuit components. As a result, this leads to one disadvantage of the DCM operation, which li ...
... Design And Simulation of A Fuel Cell Based IBC with Low Switching Losses and Improved CR Conversely, DCM operation significantly increases the conduction losses due to the increased current stress through circuit components. As a result, this leads to one disadvantage of the DCM operation, which li ...
OhmÕs Law
... For ohmic resistances, V versus I is a linear relationship, and they have a constant resistance. Resistance can be calculated using, R = V/I. The slope of the V versus I, line will also give the resistance, R. For non-ohmic resistances, I versus V is a non-linear relationship, and they have a varyin ...
... For ohmic resistances, V versus I is a linear relationship, and they have a constant resistance. Resistance can be calculated using, R = V/I. The slope of the V versus I, line will also give the resistance, R. For non-ohmic resistances, I versus V is a non-linear relationship, and they have a varyin ...
January 23, 2013
... 1.5V to 12V, resulting in complementary output voltages of -1.5V to -12V. Only two non-critical external capacitors are needed, for the charge pump and charge reservoir functions. The ICL7660S and ICL7660A can be connected to function as a voltage doubler and will generate up to 22.8V with a 12V inp ...
... 1.5V to 12V, resulting in complementary output voltages of -1.5V to -12V. Only two non-critical external capacitors are needed, for the charge pump and charge reservoir functions. The ICL7660S and ICL7660A can be connected to function as a voltage doubler and will generate up to 22.8V with a 12V inp ...
Evaluates: MAX8545/MAX8546/MAX8548 MAX8546 Evaluation Kit General Description Features
... MAX8546 is internally set at 300kHz. The circuit uses two feedback resistors, R1 and R2, to set the output voltage. C10, C11, and R4 provide a compensation network for the MAX8546. D2 limits the initial peak inductor current during overload and short-circuit conditions. The evaluation circuit is des ...
... MAX8546 is internally set at 300kHz. The circuit uses two feedback resistors, R1 and R2, to set the output voltage. C10, C11, and R4 provide a compensation network for the MAX8546. D2 limits the initial peak inductor current during overload and short-circuit conditions. The evaluation circuit is des ...
Thevenin`s and Norton`s Theorems
... two resistance-less conductors, labeled terminals A and B. (Note: If either network contains a dependant source, its control variable must be in the same network.) If one of the networks is linear it can be replaced by this Norton equivalent network: The only thing left to do is find the values of R ...
... two resistance-less conductors, labeled terminals A and B. (Note: If either network contains a dependant source, its control variable must be in the same network.) If one of the networks is linear it can be replaced by this Norton equivalent network: The only thing left to do is find the values of R ...
Valve RF amplifier
A valve RF amplifier (UK and Aus.) or tube amplifier (U.S.), is a device for electrically amplifying the power of an electrical radio frequency signal.Low to medium power valve amplifiers for frequencies below the microwaves were largely replaced by solid state amplifiers during the 1960s and 1970s, initially for receivers and low power stages of transmitters, transmitter output stages switching to transistors somewhat later. Specially constructed valves are still in use for very high power transmitters, although rarely in new designs.