This family of 2N and 2N epitaxial planar transistors are military qualified up to JEDEC registered 2N through 2N series. Manufacturer Part No: 2N Technical Datasheet: 2N Datasheet The 2N is a V Silicon PNP Epitaxial Planar High Voltage Transistor. 2N from MULTICOMP >> Specification: Bipolar (BJT) Single Transistor, PNP , V, 15 MHz, 10 W, 1 A, Technical Datasheet: 2N Datasheet.
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Documents Flashcards Grammar checker. This page intentionally left blank Hands-On Electronics Packed full of real circuits to build and test, Hands-On Electronics is a unique introduction to analog and digital electronics theory and practice.
Ideal both as a college textbook and for self-study, the friendly style, clear illustrations and construction details included in the book encourage rapid and effective learning of analog and digital circuit design theory. There are also chapters explaining how to use the equipment needed for the examples oscilloscope, multimeter and breadboardtogether with pinout diagrams for all the key components referred to in the book. Kaplan and Christopher G.
Subject to statutory exception and to the provision of relevant collective licensing agreements, no reproduction of any part may take place without the written permission of Cambridge University Press.
Illustration of the Tektronix TDS digital oscilloscope. Representation of an arbitrary, periodic datwsheet. Circuit demonstrating destructive power loading. Three schematics representing a resistive voltage divider. The voltage-divider concept for RC circuits. Representation of a junction between P-type and N-type semiconductor material. Diode circuit symbol and biasing. Typical current—voltage characteristics for germanium and silicon diodes.
Representation of physical diodes and symbols used in circuit diagrams. Measuring the forward characteristic of a diode. An example of how to insert a diode bridge into a breadboard. Characteristic curves for an NPN bipolar transistor. Transistor as back-to-back diodes; TO pinout. Emitter follower with optional load circuit for measurement of Z out. Driving loudspeaker with push—pull buffer.
2N 5415/ 5416
Construction and circuit symbols of JFETs. Schematic representation of JFET operation. Idealized common-source characteristic curves for a JFET.
Circuit for measuring the common-source characteristic curves. Self-biasing JFET current source. Source follower with current-source load. Open-loop op amp test circuit. Circuit for demonstrating summing junction. Op amp voltage follower and voltage follower as the input stage to an inverting-op-amp circuit. Op amp current source. Improved op amp differentiator.
Basic op amp integrator. Improved op amp integrator. Op amp follower with push—pull output-buffer power driver with two feedback arrangements.
Poor comparator and comparator. Schmitt trigger using comparator. RC relaxation oscillator using comparator. Block diagram for the timer IC. Logic levels for various family lines.
Labeling of series chips. Standard logic gates with truth tables. Circuits for measuring the channel resistance as a function of gate voltage. Pinout and power connections for the and input and output connections for testing the tri-state output.
Looking at contact bounce by driving a divide-by-four counter from a switch. Pinout of decade counter. Pinout of TIL hex display. Timing diagram for a gated clock signal. Substandard outputs resulting from gating clock signals. Pinout of to-1 multiplexer. Method for producing a DC-shifted waveform.
Control logic for 8-bit successive-approximation ADC. Right triangle to illustrate Eq. Color code for nonprecision resistors. Some typical dielectric materials used in capacitors. A sample of commercially available diodes.
A sample of commercially available bipolar transistors.
Common families within the series. Kaplan received his Ph. His thesis experiment discovered the b quark, and he has devoted much of his career to experimentation at the Fermi National Accelerator Laboratory on properties of particles containing heavy quarks. He has been interested in electronics since high school, during the junior year of which he designed a computer based on DTL integrated circuits. He datasheeg his Ph.
In either case, this datasheer of laboratory experiments has been designed to introduce you to the fundamentals of modern analog and digital electronics.
2N Datasheet(PDF) – STMicroelectronics
We use electronic equipment all the time in our work and recreation. Scientists and engineers need to know a bit of electronics, for example to modify or repair some piece 25415 equipment, or to interface two pieces of equipment that may not have been designed for that purpose. 2n5451 basic knowledge of electronics will 22n5415 help you to understand and appreciate the quirks and limitations of instruments you will be using in research, testing, development, or process-control settings.
We expect few datassheet you to have much familiarity with such physical theories as electromagnetism or quantum mechanics, so the thrust of this course will be from phenomena and instruments toward theory, not the other way round.
If your curiosity is aroused concerning theoretical explanations, so much the better, but unfamiliarity with physical theory should not prevent you from building or using electronic circuits and instruments.
Finally, we thank our wives and children for their support and patience. It is to them that we dedicate this book. Each experiment can be completed in about four hours datasheeet one or two additional hours of preparation. This book differs from existing books of its type in that it is faster paced and goes into a bit less depth, in order to accommodate the daatsheet of a onesemester course covering the elements of both analog and digital electronics.
The book is also suitable for self-study by a person who has access to the necessary equipment and wants a hands-on introduction to the subject. We feel strongly, and experience at IIT has borne out, that to someone who will be working with electronic instrumentation, a hands-on education in the techniques of electronics is much more valuable than a blackboardand-lecture approach.
Certainly it is a better learning process than simply reading a book and working through problems. The appendices suggest sources for equipment and supplies, provide tables of abbreviations and symbols, and list recommendations for further reading, which includes chapter-by-chapter correspondences to some popular electronics texts written at similar or somewhat deeper levels to ours: There is datadheet a glossary of terms and pinout diagrams for transistors and ICs used within.
The reader is presumed to be familiar with the rudiments of differential and integral calculus, as well as with elementary college physics including electricity, magnetism, and direct- and alternating-current circuits, although these topics are reviewed in the text. There are other texts that put integrated circuits, with their greater ease of use, before discrete devices; or digital circuits, with their simpler rules, before the complexities of analog devices.
We have tried these approaches on occasion in our teaching and dataheet them wanting. A course based on this book thus builds to a pinnacle of intellectual challenge towards the middle, with the three transistor chapters. The book includes step-by-step instructions and explanations for the following experiments: Multimeter, breadboard, and oscilloscope; 2. Diodes and dataheet supplies; 4. More op-amp applications; 9. Comparators and oscillators; Monostables, counters, multiplexers, and RAM; Finally, the standard system of units for electronics is the MKS system.
Although you may occasionally run across other unit systems, we adhere strictly to the MKS standard. Apparatus required One dual-trace oscilloscope, one powered breadboard, one digital multimeter, two 10X attenuating scope probes, red and black banana leads, two alligator clips. They allow measurement of voltage, current, and resistance.
2NS datasheet & applicatoin notes – Datasheet Archive
The input jacks are described in Table 1. Multimeters usually have a selector knob that allows you to select what is to be measured and to set the full-scale range of the display to handle inputs of various size. To avoid damaging the meter, be sure to read the safety warnings in its data sheet or instruction booklet.
Its origins go back to the days when electronics hobbyists built their circuits on wooden boards. The breadboards we use represent a great step forward in convenience, since they include not only sockets for plugging in components and connecting them together, but also power supplies, a function generator, switches, logic displays, etc.
If you do not have access to a PB, any suitable breadboard will do, provided you have a function generator and two variable power supplies. Additional components that you will need along the way that are built into the PB include a 1 k and a 10 k potentiometer, a small 8 speaker, two debounced push-button switches, several LED logic indicators, and several on—off switches.
For simplicity, some PB features that will be used in experiments in later chapters have been omitted.