Passive Electronic Components and Circuits Laboratory 5 Kirchhoff’s voltage and current laws Objective: o Kirchhoff’s voltage law (KVL)‚ o Kirchhoff’s current law (KCL)‚ o Verify Kirchhoff’s voltage and current laws using a given circuit. Equipment: o Digilent Electronics Explorer Board‚ o Digital Multi-Meter‚ o Assorted resistors. Theoretical support: o Laboratory 3‚ o Laboratory 4‚ o Lecture 4 (Microsoft Power Point Support): Kirchhoff’s laws‚ Applying Kirchhoff’s laws.
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Test EEPB463‚ Semester 1 2012/2013 COLLEGE OF ENGINEERING PUTRAJAYA CAMPUS TEST SEMESTER 1 2012 / 2013 PROGRAMME : B. Eng Electrical Power (Honours) SUBJECT CODE : EEPB463 SUBJECT : High Voltage Technology DATE : 11 July 2012 TIME : 12.15 pm – 1.15 pm (1 hour) Name: Q1 Q2 ID No.: Q3 Section: Total INSTRUCTIONS TO CANDIDATES: 1. This paper contains THREE (3) questions in SEVEN (7) pages. 2. Answer all questions. 3. Write all answers
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School for Electronic and Computer Engineering Faculty of Engineering School of Electrical‚ Electronic & Computer Engineering EERI 213 VOLTAGE DIVIDER CIRCUIT Completed by: Mr I Coetzee 22678778 Submitted to: Dr P. van Vuuren 19 FEBRUARY 2013 1 School for Electronic and Computer Engineering DECLARATION I‚ Iwan Coetzee‚ declare this report is of my own work. Whenever contributions of others are involved‚ every effort was made to indicate this clearly‚ with due reference
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HIGH-VOLTAGE NEURAL STIMULATOR COMBINED WITH A LOW-VOLTAGE RECORDER Ulrich Bihr‚ Jens Anders‚ Joachim Becker and Maurits Ortmanns Institute of Microelectronics‚ University of Ulm‚ Ulm‚ Germany Ulrich.Bihr@uni-ulm.de Abstract: This paper presents a high-voltage (HV) neural stimulator combined with a low-voltage (LV) neural recorder. In many bidirectional neural implementations with a high voltage compliance for the stimulation is it not possible to have a high density due to the high power
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regulate the voltage supply‚ given to electronic circuits. This project‚ namely VARIABLE VOLTAGE REGULATOR‚ aims at fulfilling such small goals‚ using the 3-terminal voltage regulator LM317. The circuit consists of an IC LM317 and a set of resistors and capacitors‚ in addition to the transformer and the rectifying element. The AC voltage‚ from the mains supply is initially stepped down to the desired voltage‚ which is then rectified to be applied to the input terminal of the voltage regulator
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The Greenlee Non-Contact Voltage Detector capabilities a chronic self-check feature‚ assessing the tester’s entire functionality. It detects voltage in the range of 50V-1000V and alerts you to the presence of voltage with vivid LEDs and audible alarm. For an adjustable voltage tester with a five to a thousand volt variety check out the Greenlee GT-sixteen Adjustable Non-Contact Voltage Detector. Features For over a century and a half‚ Greenlee‚ a Textron agency‚ has been a purveyor of high fine
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ANALOG CIRCUIT DESIGN VOLTAGE REGULATOR USING OP-AMP PROJECT REPORT By T.SAI KUMAR (12BEC0116) S.GIRISH(12BEC0253) K.VISHWANATH(12BEC0459) V.KARTHIK(12BEC0440) VOLTAGE REGULATOR USING OP-AMP ABSTRACT In real life situations‚ we come across many scenario where we require a constant output voltage even though the input voltage is varying randomly .Voltage regulator is the device which produces constant output voltage for varying input. Generally in many of the household appliances
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Research about LM317 Positive Adjustable Linear Voltage Regulator: The LM317T is a 3-terminal integrated circuit which can supply a load current of up to 1.5 Amps with an output voltage of between 1.2V and 37 Volts. It accepts an input voltage of between 3 and 40 volts. It can be used to regulate either current or voltage in situations where a fixed current or fixed voltage is required. The level of current or voltage required can be adjusted by connecting the chip in series with a fixed resistor
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Low-dropout regulator From Wikipedia‚ the free encyclopedia Schematic of a low-dropout regulator A low-dropout or LDO regulator is a DC linear voltage regulator which can operate with a very small input–output differentialvoltage.[1] The advantages of a low dropout voltage include a lower minimum operating voltage‚ higher efficiency operation and lower heat dissipation.[2] The main components are a power FET and a differential amplifier (error amplifier). One input of the differential amplifier
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Approved by: Alan Broadbent‚ Networks Manager Issue Date: June 2009 Review Date: June 2014 1. General 1.1 This is an Approved Procedure which has been prepared in support of the Company Operational Safety Rules‚ particularly Sections 4.4‚ 4.5 and Appendix D‚ and should be read in conjunction with them. 1.2 Entry to live open busbar substations is restricted to persons who have been trained‚ assessed and authorised in writing. These persons are responsible for maintaining the security of the premises
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