AD829 Data Sheet
... Unity gain stability requires a compensation capacitance of 68 pF (Pin 5 to ground) which will yield a small signal bandwidth of 66 MHz and slew rate of 16 V/µs. The slew rate and gain bandwidth product will vary inversely with compensation capacitance. Table I and the graph of Figure 28 show the op ...
... Unity gain stability requires a compensation capacitance of 68 pF (Pin 5 to ground) which will yield a small signal bandwidth of 66 MHz and slew rate of 16 V/µs. The slew rate and gain bandwidth product will vary inversely with compensation capacitance. Table I and the graph of Figure 28 show the op ...
AN-793 APPLICATION NOTE
... Analog Devices iCoupler products offer an alternative isolation solution to optocouplers with superior integration, performance, and power consumption characteristics. An iCoupler isolation channel consists of CMOS input and output circuits and a chip scale transformer (see Figure 1). Because the iC ...
... Analog Devices iCoupler products offer an alternative isolation solution to optocouplers with superior integration, performance, and power consumption characteristics. An iCoupler isolation channel consists of CMOS input and output circuits and a chip scale transformer (see Figure 1). Because the iC ...
2.5 A bipolar stepper motor drive module
... sequence by skipping alternate states. This is achieved by forcing the step clock to bypass the first stage of the 3 bit counter. The least significant bit of this counter is not affected and therefore the generated sequence depends on the state of the counter when full step mode is selected by forc ...
... sequence by skipping alternate states. This is achieved by forcing the step clock to bypass the first stage of the 3 bit counter. The least significant bit of this counter is not affected and therefore the generated sequence depends on the state of the counter when full step mode is selected by forc ...
ekt314/4 - UniMAP Portal
... An amplifier that can produce a constant DC output signal. Not necessary produce a zero DC output when input is zero. This error known as offset voltage and it is depends on the input signal not the amplifier gain. This offset voltage also varies with time and temperature. The presence of finite DC ...
... An amplifier that can produce a constant DC output signal. Not necessary produce a zero DC output when input is zero. This error known as offset voltage and it is depends on the input signal not the amplifier gain. This offset voltage also varies with time and temperature. The presence of finite DC ...
The Intelligent Light Bulb: A Negative Feedback Experiment
... The Intelligent Light Bulb: A Negative Feedback Experiment 1. Measure the resistance of your new device (a photocell) both when it is exposed to light and when it is in the dark. Describe what you observe. 2. A Manual Feedback Circuit: Before connecting any circuitry, wire your Triple Output DC Powe ...
... The Intelligent Light Bulb: A Negative Feedback Experiment 1. Measure the resistance of your new device (a photocell) both when it is exposed to light and when it is in the dark. Describe what you observe. 2. A Manual Feedback Circuit: Before connecting any circuitry, wire your Triple Output DC Powe ...
AD7720 数据手册DataSheet下载
... the analog input signal into a high speed 1-bit data stream. The part operates from a +5 V supply and accepts a differential input range of 0 V to +2.5 V or ± 1.25 V centered about a commonmode bias. The analog input is continuously sampled by the analog modulator, eliminating the need for external ...
... the analog input signal into a high speed 1-bit data stream. The part operates from a +5 V supply and accepts a differential input range of 0 V to +2.5 V or ± 1.25 V centered about a commonmode bias. The analog input is continuously sampled by the analog modulator, eliminating the need for external ...
FillFactory`s High Fill Factor N-Well Pixel® (US Patent 6,225,670
... with fixed pitch, QE and Fill Factor. A design with a high capacitance then yields a lower charge-to-voltage sensitivity compared to a design with a lower capacitance. For instance, using equally sized n+ diodes or NWELL diodes will result in different sensitivity due to a.o. the difference in capac ...
... with fixed pitch, QE and Fill Factor. A design with a high capacitance then yields a lower charge-to-voltage sensitivity compared to a design with a lower capacitance. For instance, using equally sized n+ diodes or NWELL diodes will result in different sensitivity due to a.o. the difference in capac ...
PPT Slides
... • This is the max current draw your motor might have - usually happens when it runs up against the wall or something. This better not exceed the 1A your motor driver chip can supply or you'll burn it! • [Show technique to measure stall current] • On my robot, the stall current does not go below one ...
... • This is the max current draw your motor might have - usually happens when it runs up against the wall or something. This better not exceed the 1A your motor driver chip can supply or you'll burn it! • [Show technique to measure stall current] • On my robot, the stall current does not go below one ...
MAX4376/MAX4377/MAX4378 Single/Dual/Quad, High-Side Current-Sense Amplifiers with Internal Gain General Description
... gain-setting resistors and are ideal for today’s notebook computers, cell phones, and other systems where current monitoring is critical. These precision devices are offered in three fixed-gain versions of 20, 50, and 100: GAIN SUFFIX ...
... gain-setting resistors and are ideal for today’s notebook computers, cell phones, and other systems where current monitoring is critical. These precision devices are offered in three fixed-gain versions of 20, 50, and 100: GAIN SUFFIX ...
Lecture 9
... reactive and real power will not affect frequency and voltage Result: no reasonable action on the part of one generator will cause an observable change in system overall Imperative that frequency of connected devices be higher than system frequency when connecting ...
... reactive and real power will not affect frequency and voltage Result: no reasonable action on the part of one generator will cause an observable change in system overall Imperative that frequency of connected devices be higher than system frequency when connecting ...
ppt - HEP, Imperial
... • 20 analog voltage references MAX, precision not really known, working out multiple possibilities while waiting • linear power supplies, in order to avoid noise off switching power supplies Now it does not seem that relaxed regarding mechanical constraints, quite a lot of external components migh ...
... • 20 analog voltage references MAX, precision not really known, working out multiple possibilities while waiting • linear power supplies, in order to avoid noise off switching power supplies Now it does not seem that relaxed regarding mechanical constraints, quite a lot of external components migh ...
PPT - LSU Physics & Astronomy
... Electric potential, work and potential energy: work to bring a charge somewhere is W = –qV (signs!). Potential energy of a system = negative work done to build it. Conductors: field and potential inside conductors, and on the surface. Shell theorem: systems with spherical symmetry can be thought of ...
... Electric potential, work and potential energy: work to bring a charge somewhere is W = –qV (signs!). Potential energy of a system = negative work done to build it. Conductors: field and potential inside conductors, and on the surface. Shell theorem: systems with spherical symmetry can be thought of ...
LM2675 SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator
... 260 kHz, thus allowing smaller sized filter components than what would be needed with lower frequency switching regulators. Because of its very high efficiency ( > 90%), the copper traces on the printed circuit board are the only heat sinking needed. A family of standard inductors for use with the L ...
... 260 kHz, thus allowing smaller sized filter components than what would be needed with lower frequency switching regulators. Because of its very high efficiency ( > 90%), the copper traces on the printed circuit board are the only heat sinking needed. A family of standard inductors for use with the L ...
DC Circuits - Electrical and Computer Engineering
... Now calculate I1 and I2 from the power supply voltage and the resistance values. Add these to calculate the current I12. Comment on the agreement between these calculations and your ammeter measurements. What is the equivalent resistance of R1 and R2 together calculated from the formula for parallel ...
... Now calculate I1 and I2 from the power supply voltage and the resistance values. Add these to calculate the current I12. Comment on the agreement between these calculations and your ammeter measurements. What is the equivalent resistance of R1 and R2 together calculated from the formula for parallel ...
Module 4
... amplitude and create a similar version of it with a much greater amplitude, so that it is less corruptible by noise that naturally occurs within any communications system. In the last Unit we studied the bipolar junction transistor (BJT) and the metal-oxide-semiconductor field-effect transistor (MOS ...
... amplitude and create a similar version of it with a much greater amplitude, so that it is less corruptible by noise that naturally occurs within any communications system. In the last Unit we studied the bipolar junction transistor (BJT) and the metal-oxide-semiconductor field-effect transistor (MOS ...
Opto-isolator
In electronics, an opto-isolator, also called an optocoupler, photocoupler, or optical isolator, is a component that transfers electrical signals between two isolated circuits by using light. Opto-isolators prevent high voltages from affecting the system receiving the signal. Commercially available opto-isolators withstand input-to-output voltages up to 10 kV and voltage transients with speeds up to 10 kV/μs.A common type of opto-isolator consists of an LED and a phototransistor in the same opaque package. Other types of source-sensor combinations include LED-photodiode, LED-LASCR, and lamp-photoresistor pairs. Usually opto-isolators transfer digital (on-off) signals, but some techniques allow them to be used with analog signals.