The Transistor
... Complementary MOS Use both n-type and p-type MOS transistors p-type Attached to + voltage Pulls output voltage UP when input is zero n-type Attached to GND Pulls output voltage DOWN when input is one For all inputs, make sure that output is either connected to GND or to +, but not both!! ...
... Complementary MOS Use both n-type and p-type MOS transistors p-type Attached to + voltage Pulls output voltage UP when input is zero n-type Attached to GND Pulls output voltage DOWN when input is one For all inputs, make sure that output is either connected to GND or to +, but not both!! ...
Lab 8: Series RC Circuit
... resistor at the bottom of the branch in which the current measurement is desired. The value of the resistor chosen should be at least a factor of 10 times smaller than the other resistors in the branch. ...
... resistor at the bottom of the branch in which the current measurement is desired. The value of the resistor chosen should be at least a factor of 10 times smaller than the other resistors in the branch. ...
CMOS compatible Ion Sensitive Field Effect Measurement System
... Abstract- Two main parts are necessary to implement a prototype of pH measurement system: pH sensor and interface unit. The pH sensors, based on Ion Sensitive Field Effect Transistor (ISFET), are designed and then fabricated used 6-inch silicon wafers by conventional CMOS process. As ion sensitive m ...
... Abstract- Two main parts are necessary to implement a prototype of pH measurement system: pH sensor and interface unit. The pH sensors, based on Ion Sensitive Field Effect Transistor (ISFET), are designed and then fabricated used 6-inch silicon wafers by conventional CMOS process. As ion sensitive m ...
Physics 517/617 Experiment 5 Operational Amplifiers
... Physics 517 do one of the following: Physics 617 do both of the following: a) Build a circuit to perform integration of a 1 kHz square wave, sine wave, and triangular wave. Capture using the PC's WAVESTAR program the input and output waveforms and compare with what is expected for the integrals of e ...
... Physics 517 do one of the following: Physics 617 do both of the following: a) Build a circuit to perform integration of a 1 kHz square wave, sine wave, and triangular wave. Capture using the PC's WAVESTAR program the input and output waveforms and compare with what is expected for the integrals of e ...
Experiment 10: Inverting Amplifier
... Inverting Amplifier Circuit Schematic Since the power supplied to the op amp to make it function are the same magnitude, but opposite sign (V+ = - V-), they may also be labeled as Vcc and –Vcc, where V+ = Vcc and V- = -Vcc. The labels Vcc and –Vcc are t.ransferred from labels used in TTL (transisto ...
... Inverting Amplifier Circuit Schematic Since the power supplied to the op amp to make it function are the same magnitude, but opposite sign (V+ = - V-), they may also be labeled as Vcc and –Vcc, where V+ = Vcc and V- = -Vcc. The labels Vcc and –Vcc are t.ransferred from labels used in TTL (transisto ...
INTRODUCTION TO OHM`S LAW
... 1. the higher the voltage, the larger the current 2.the higher the resistance the lower the current ...
... 1. the higher the voltage, the larger the current 2.the higher the resistance the lower the current ...
Current, Voltage and resistance
... Voltage is measured as a difference in potential between two points. Thus a voltmeter must be connected in parallel and used to measure the difference in potential across a device. If a cell supplies 23 coulombs of charge with 776 J of energy, what is its voltage? ...
... Voltage is measured as a difference in potential between two points. Thus a voltmeter must be connected in parallel and used to measure the difference in potential across a device. If a cell supplies 23 coulombs of charge with 776 J of energy, what is its voltage? ...
Find the Thévenin equivalent circuit at terminals G, H - Rose
... Then find the short-circuit current, Isc. Finally, Rt will be Voc / Isc. This method requires at least one independent source of energy. As usual, Voc will be the same as Vt. First we’ll find Voc. Note that we have 0 current flowing out of terminal G and H. So we have 0 current through any of the el ...
... Then find the short-circuit current, Isc. Finally, Rt will be Voc / Isc. This method requires at least one independent source of energy. As usual, Voc will be the same as Vt. First we’ll find Voc. Note that we have 0 current flowing out of terminal G and H. So we have 0 current through any of the el ...
Transformer Equivalent Circuit -- Lab Review Sheet
... The open circuit test gives Rc and Xc. This test is performed by applying rated voltage to the low voltage side and leaving the high voltage side open. Either side may be used but the voltage is applied to the low voltage side for safety reasons. With the output side left open in the previous figure ...
... The open circuit test gives Rc and Xc. This test is performed by applying rated voltage to the low voltage side and leaving the high voltage side open. Either side may be used but the voltage is applied to the low voltage side for safety reasons. With the output side left open in the previous figure ...
Arduino Week 2 Lab
... and signals from the outside world. It primarily functions as a device that digitizes incoming analog signals so that a computer can interpret them. The three key components of a DAQ device used for measuring a signal are the signal conditioning circuitry, analog-to-digital converter (ADC), and comp ...
... and signals from the outside world. It primarily functions as a device that digitizes incoming analog signals so that a computer can interpret them. The three key components of a DAQ device used for measuring a signal are the signal conditioning circuitry, analog-to-digital converter (ADC), and comp ...
Fairchild Semiconductors
... SEMICONDUCTOR CORPORATION. As used herein: 2. A critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. ...
... SEMICONDUCTOR CORPORATION. As used herein: 2. A critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. ...
EC203 Solid State Devices
... To provide an insight into the basic semiconductor concepts To provide a sound understanding of current semiconductor devices and technology to appreciate its applications to electronics circuits and systems Syllabus: Elemental and compound semiconductors, Fermi-Dirac distribution, Equilibrium a ...
... To provide an insight into the basic semiconductor concepts To provide a sound understanding of current semiconductor devices and technology to appreciate its applications to electronics circuits and systems Syllabus: Elemental and compound semiconductors, Fermi-Dirac distribution, Equilibrium a ...
Sensing for Robotics and Control
... sensors and Inductive sensors, that can be used in areas that are near to but not directly contacting an object to be sensed Like all sensors they use structured signal sources, receive changes of state in their energy (sensing) fields and interpret these changes with signal changes to the “outside” ...
... sensors and Inductive sensors, that can be used in areas that are near to but not directly contacting an object to be sensed Like all sensors they use structured signal sources, receive changes of state in their energy (sensing) fields and interpret these changes with signal changes to the “outside” ...
Measurement Techniques
... be measured with a sensitive DVM. A knowledge of radiant intensity, Ie, produced by an IR emitter enables customers to assess the range of IR light barriers. The measurement procedure for this is more or less the same as the one used for measuring radiant power. The only difference is that in this c ...
... be measured with a sensitive DVM. A knowledge of radiant intensity, Ie, produced by an IR emitter enables customers to assess the range of IR light barriers. The measurement procedure for this is more or less the same as the one used for measuring radiant power. The only difference is that in this c ...
Diodes
... is required to turn it on. This voltage is like the voltage required to power some electrical device. It is used up turning the device on so the voltages at the two ends of the diode will differ. • The voltage required to turn on a diode is typically around 0.6-0.8 volt for a standard silicon diode ...
... is required to turn it on. This voltage is like the voltage required to power some electrical device. It is used up turning the device on so the voltages at the two ends of the diode will differ. • The voltage required to turn on a diode is typically around 0.6-0.8 volt for a standard silicon diode ...
NTE823 Integrated Circuit Low Voltage Audio
... To make the NTE823 a more versatile amplifier, two pins (Pin1 and Pin8) are provided for gain control. With Pin1 and Pin8 open the 1.35kΩ resistor sets the gain at 20 (26dB). If a capacitor is put from Pin1 to Pin8, bypassing the 1.35kΩ resistor, the gain will go up to 200 (46dB). If a resistor is p ...
... To make the NTE823 a more versatile amplifier, two pins (Pin1 and Pin8) are provided for gain control. With Pin1 and Pin8 open the 1.35kΩ resistor sets the gain at 20 (26dB). If a capacitor is put from Pin1 to Pin8, bypassing the 1.35kΩ resistor, the gain will go up to 200 (46dB). If a resistor is p ...
Slide 1 - Wake Forest University
... JFETs Junction Field Effect Transistors Rick Matthews Department of Physics Wake Forest University ...
... JFETs Junction Field Effect Transistors Rick Matthews Department of Physics Wake Forest University ...
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.