ALL NEWS in ONE

Ministry of Education

Kazan State Technical University. AN Tupolev

Summary

by discipline:

?Basic radio systems?

On the topic:

?Phase and frequency methods of measuring range ?

Finished Art. gr.5531

MA Lukyanov

checked

RV Mnekin

Kazan 2002

content

I. Introduction ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ...

II. Measurement range

1.Chastotny method radiodalnometrii ... ... ... ...

essence of the method ... ... ... ... ... ... ... ... ... ... ... ... ..

Implementation frequency range-finding method ...

2. Phase methods ranging ... ... ... ... ... ... ..

Background ... ... ... ... .

Physical-topological modeling structure elements BIS

Physical and topological modeling structure elements BIS is an integral part of modern CAD system LSI. At the design stage modeling element base allows us to solve issues related to the optimization of structural and topological solutions of the integral elements of the structures of LSI to achieve maximum density of layout, maximum performance and minimal power consumption. Methods of analysis and the corresponding applied mathematical software are the main tool for developing contemporary LSI and

VLSI. Physical and topological modeling based on the use of mathematical models, numerical methods for solving differential equations taking into account the results of calculation and experimental data. Physico-mathema

Russia Ministry of Communications and Information

Siberian State University of Telecommunications and Informatics

VL Savinykh

PHYSICAL BASIS

ELECTRONICS

Manual for specialties 071 700, 200 700,

200 800 200 900 201 000 , 201, 100, 201, 200, 201 400

Novosibirsk

2003

UDC 621.385

considered device, physical processes, characteristics,parameters and the simplest scheme of application of semiconductor electronicdevices.

Ph.D., Assoc. VL Savinykh,

For full-time students and part-time forms of training specialties 071700,

200700, 200800, 200900, 201000, 201100, 201200, 201400.

Department of Technical Electronics .

Il. 8, tables. 11, a list of lit

Kabardino-Balkar State University. B.M Berbekova

Coursework at the rate of vacuum and plasma physics

On the topic:

Formation of electron beams.

magnetic focusing lens .

Completed: Mostny AS

Student 3 course FMiKT

TTE Group 2

Check: Akkizov YA

Nalchik

1.1

Classification electron devices

electron devices called vacuum tube, the effectwhich is based on the formation and management of the intensity and positionone more electron beams. Despite the great diversityelectron-beam devices, both on the device, and by appointment, betweenthey have much in common. Thus, electron-beam device always containscylinder three major elements: electron gun, which formselectron beam, or be

Ministry of General and Vocational Education

Russia

Saratov State University. NG Chernyshevskogo

Department of Physics

Semiconductor

photodiode in

optoelectronics

Coursework

Student 1 year of the Physics Department

Mashkova Dmitry Alexandrovich

Supervisor

Professor

________ Rokach AG

/ signature /

Head. Department

Prof. Dr.

_________ BN Klimov

/ signature /

Saratov - 1999. < p> The work plan

1. Introduction and problem statement
2. Physical basis of the internal photoeffect
3. The principle of the photodiode
4. The practical part (study of the characteristics of the photodiode)

?? ? ?

? ?

?? Faculty

Department ??

Koursova robot

s rate "Entering the Solid State" on the topic: "Photoresistor"

Vikonavets: student gr.

?:

Dnipropetrovsk - 1998

Summary

Coursework framed by 14 pages of typewrittencontains 10 drawings, 6 sources used literature and application.

content

| | Introduction | |
| 1. | Literary Review | 3 |
| 1.1. | Optical and photoelectric phenomena in semiconductors | 3 |
| 1.2. | Photoconductivity. Photoresistive effect | 3 |
| | | |
| 2. | Most | 5 |
| 2.1. | Photoresistors | 5 |
| 2.1.1. | Design scheme and the inclusion photoresistor. Dark and | |
| | Light current | 5 |
| |

Photoresistor (from the photo ... and resistor), is a neprovolochny semiconductor resistor, the ohmic resistance is determined by the degree of illumination. The principle of the photoconductors is the phenomenon of photoconductivity of semiconductors. Photoconductivity-increasing electrical conductivity of the semiconductor under the action of light. Reason photoconductivity - increasing the concentration of charge carriers - electrons in the conduction band and holes in the valence band. PID controller in a semiconductor material such resistors placed between two conductive electrodes. Under the influence of flux electrical resistance of the layer varies several times (some types photoresistors it decreases by two to three orders of magnitude). Depending on the applied layer of semic

Contents

| | Introduction | 2 |
| 1. | Literary Review | 2 |
| 1.1. | Optical and photoelectric phenomena in semiconductors | 2 |
| 1.2. | Photoconductivity. Photoresistive effect | 2 |
| | | |
| 2. | Most | 4 |
| 2.1. | Photoresistors | 4 |
| 2.1.1. | Design scheme and the inclusion photoresistor. Dark and | 4 |
| | Light current | |
| | Features photoconductors | 5 |
| 2.1.2. | Options photoconductors | 5 |
| | Manufacturing photoconductors | 7 |
| 2.1.3. | Applications photoconductors | 7 |
| | Registration optical radiation | 7 |
| 2.2. | Semiconductor photodetector | 7 |
| 2.3. | | |
| 2.3.1. | Conclusion | 8 |
| | Literature | 9 |
| 2.3.2. | Applications | 10 |
| | | |
| | | | <

Ministry of Education

Russia

Tomsk University SYSTEMS

Control Systems and Radioelectronics

(TUSUR)

Department of Electronic and Information Security (RZI)

amplifier modulator system CD recording.

Explanatory note to the course project for the discipline:

?Circuit analog electronic devices ?

Finished studentgr.149-3

________ Radishevskaya
EV

checked teacher chair. RZI

________ Titov AA

2002

ABSTRACT

Coursework 36s., 12 fig., 1 table., 10 sources, 1application.

amplifier stage, transistors, Gain, Frequency
DISTORTION, FREQUENCY, voltage, power, thermal stabilization,
CORRECTING CIRCUIT, UNIDIRECTIONAL MODEL.

Ministry of Education

Tomsk University SYSTEMS

Control Systems and Radioelectronics

(TUSUR)

Department of Electronic and Information Protection ( RZI)

Power Amplifier 1.5 Channel TV

Explanatory note to the course project for the discipline "Circuit of analog electronic devices?

Finished student gr.148-3

______Galimov MR

checked teacher chair. RZI

______Titov AA

2001

ABSTRACT

Coursework 32s., 12ris., 5 sources, 1 application.

amplifiers, transistors, frequency response, passband ripple, Gain,
Frequency Band, temperature stabilization, power, CORRECTING CIRCUIT,
Normalized.

In this term paper the main task is to calculate the t

Ministry of Education

Tomsk University SYSTEMS

Control Systems and Radioelectronics

(TUSUR)

Department of Electronic and Information Protection ( RZI)

power amplifier for the 1.12 channel TV

Explanatory note to the course project for the discipline "Circuit of analog electronic devices?

Finished student gr.148 - 3

______Dalmatov VN

checked teacher chair. RZI

______Titov AA

2001

content

1.Vvedenie
.................................................. ..........................< br>.............. 3
2.Tehnicheskoe job
.................................................. .................... 4
3.Raschetnaya part
... ..........................

Introduction

electronic amplifiers of low frequency (ULF) is designed to enhanceAC signals whose frequencies lie in the range from lowholder FH frequency to a frequency fv. They are used in a variety ofpurpose, technical devices, differing by a strip of workersfrequencies, the nature of the load, under the terms of use.

Features ULF, the requirements for their performance largely determinednature of the load and conditions of use. Load in the vastmost cases is complex, as the electromagneticor electrostatic device. Terms of ULF determinerange of temperature change of the environment in which the amplifier mustmaintain full availability, type of mechanical influencesrequirements for weight and power.

circle requirements for ULF with a fairly wide band of op

Ministry of Education

Tomsk University SYSTEMS

Control Systems and Radioelectronics

(TUSUR)

Department of Electronic and Information Protection ( RZI)

power amplifier nonlinearities search engine

Explanatory note to the course project for the discipline

"Circuit of analog electronic devices"

Finished student gr.148-3

___________Baranovsky SV

checked teacher chair. RZI

________________ Titov AA

2001

Summary

Coursework 30 sec., 16 Fig., 1 table. , 13 sources, 2 adj.,

amplifiers, transistors, CASCADE, frequency distortion is corrected
CIRCUIT enhancement ratio

This course examines the work of a broadband power amplifi

Ministry of Education

Tomsk State University of Control Systems and radioelekroniki

(TUSUR)

Department of Radio Electronics and Information Security (RZI)

power amplifier broadband locator

Explanatory note to the course work on discipline "Circuit analog devices"

Student gr.148-3

Utkin, AN

Leader

Associate chair. RZI

Titov AA

Tomsk 2001

Summary

Coursework 39 pp., 13 fig., 2 tables., 7 sources.

power amplifier, the output correction circuit, interstagecorrecting circuit, the operating point, the choice of transistor circuitsthermal stabilization, the method of Fano, unidirectional model of the transistor,Giacoletto equivalent circuit, load

RGRTA

Department KPRA

Coursework for the course: "The technological processes of microelectronics"

on the topic: "intermediate frequency amplifier" < p> Finished Art. gr. 952

checked:

Ryazan 2002

content

Department KPRA 1
Ryazan 2001 1
Contents 2

Baselines: 3
Introduction 4
Analysis of the technical tasks 5
Development topology 6
Resistors. 6
Capacitors 11
Conclusion ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... .16
References 17

Background:

The denominations

R1, R10 - Resistor 12.0 kOhm 2pcs; C1, C4 -
Capacit

Ministry of Education

Russia

Tomsk University SYSTEMS

Control Systems and Radioelectronics

(TUSUR)

Department of Electronic and Information Security (RZI)

amplifier systems for the control of radio stations

Explanatory note to the course project for the discipline "Circuit of analog electronic devices?

Finished student gr.148-3

______Yamschikov AY

checked teacher chair. RZI

______Titov AA

2001

ABSTRACT

Coursework 32s., 13 fig., 1 tab., 6 sources, 2application.

amplifier stage, transistors, Gain, Frequency
DISTORTION, FREQUENCY, voltage, power, thermal stabilization,
CORRECTING CIRCUIT, UNIDIRECTIONAL MODEL.

object

1 OVERVIEW OF THE METHODS OF CONSTRUCTION METER RELATIONS

1.1 Analysis of the requirements specification

In this paper we want to develop a microprocessor-based meterrelationship stress, mainly intended for use inas precision measurement tools in the study of the parameters of microwavenodes. Device under development is intended to replace the widely used for thesepurpose devices B8-6, B8-7, which are now obsolete and theircharacteristics do not provide modern standards. Besidesdeveloped device can find wide application in other areasassociated with control of the relative changes in various parametersobjects, as well as the control parameters of technological processes.

Devices B8-6 and V8-7 on its principle of providingconsistent measurement relationship

Ministry of Education

Ural State Technical University - UPI

Department "VCHSRT"

Summary of course

?Technical Electrodynamics ?

Teacher: Knyazev ST

Student: Cherepanov, KA

Group: R-307

Ekaterinburg

2002

content

1 Agreed loads for transmission lines 2

2 jet ELEMENTS 4

2.1 Pistons 4

2.2 Diaphragms 5

2.3 Nails 7

3 connectors and joints in the duct microwave 8

3.1 Connectors waveguide channels of 8

4 TURNS transmission lines 10

5 conversions between the lines for various types of 11

Bibliographic list of 16

agreed loads for transmission lines

One of the most common

Terms of Reference.

Appointment Broadcasting

range of received frequencies, MHz

3,95 - 15,8
Sensitivity, mV

200
Reducing mirror / adjacent channel

12/34
Reducing noise at intermediate frequency

30
Output power, W

0,5
Bandwidth, kHz

9,5
Effectiveness AGC dB (Uin / Uout)

26/12

program of work.

1. Introduction ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... 3
2. Analysis of technical tasks ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... 3
3. Development of the block diagram of the receiver ... ... ... ... ... ... ... ... ... ... ... ... ... 4
4. Desig

1.General PART.

1. Block diagram of the dynamic display device.

The diagram provides a dynamic indication 5x decimalnumbers on the seven-segment semiconductor indicators. Entering Informationis parallel to the binary - decimal code (notebooks: unittens, hundreds, thousands) (Figure 1). Switch U1 provides alternateconnect the input information. Converter U2 binary decimal
(2-10) converts the code into the code seven-segment numeric display. Schechik
V3 continuously calculates the input pulse fed from the generator GT,Conversion factor counter N = 5. Each state counter U3deciphered decoder Y4, connecting the appropriate indicator.

2 Full PART.
2.1 Development of concept switch U1

and compile multiplexer switching n = 5 Informationinputs

State Committee of Russia

Khabarovsk College of Communication and Informatics

Coursework

on

device dynamic indication

Khabarovsk

1998

Contents.

| Introduction | |
| 1.Sravnitelnaya characteristic species indicating | |
| 2.Sintez switch and the choice of IC | |
| 3.Vybor IMS counter | |
| 4.Vybor IC decoder digits | |
| 5.Sintez converter package and the choice of IC | |
| 5.1Vybor Type Indicator | |
| 6.Tehnicheskoe description of the device | |
| Conclusion | |
| Literature | |

Introduction

acceleration of scientific and technological progress in all areas requiredintensive development of such areas of science and technology, automation,Robotics, Mi

PETERSBURG STATE

Marine Technical University

FACULTY OF MARINE PRBOROSTROENIYA

Department ? 50

Course project

DEVICE BAN TELEPHONY

ON preset number

(p.5 and p.6 false)

MEET:

STUDENT GROUPS 34RK1

Sukharev RM

Checked: Prof. Dr.

FILIMONOV AK

PETERSBURG

2000

CONTENTS

1. Introduction 3

2. Terms of Reference 9

3. Devices passive and active technical protection 10

3.1. Ways of obtaining information about connections 10

3.2. The combined indicator of connection and termination telephone line 12

3.3. Indicator light with auto shutoff 12

3.4. Call timer 13

3.5. Device f

Financial Academy under the Government of Russia

Department of Economic Informatics

ABSTRACT

on the topic:

device and principle of the CD drives -ROM

Finished:

Student 1 year Mishakov Andrew

Moscow 2001

INTRODUCTION 3
Disk drives CD-ROM 4
Device CD-ROM drive 4
The device is compact - disc 6
Algorithm of the CD-ROM drive 7
DATA CD-ROM drive 8
Access time (access time) 8
Data transfer rate (dats-transfer rate) 9
The size of the data block (data block size) 10
Buffer size 10
Playback support for audio CDs 11
Format Support CD-ROM/XA 11
Mechanism: 12
Reading CD-RW 13
Dust 13
Automatic cleaning of lenses 14
External and internal drives 14
Interf

ST.PETERSBURG ENGINEERING SCHOOL OF ELECTRONICS

Course project

Explanatory note:

Subject: SELECTIVE CONTROL DEVICE PERFORMANCE

seven-segment INDEKATORA

CP 2201

453K

Teacher

A. Schweich G.

student Blyakhman ES

APPROVED subject Commission

?? __________________________ 2004.

President _______________________

W A D A N I E

for course design at the rate of computer and MP

student Blyakhman ES IV Course 453-K group

SPISHE College

(name of secondary specialschool)

(name,name, middle name)

Subject assignment device for selective management of the seven-segmentindicator

Course project on thi

W A D A N I E for course design

THEME: device synchronization signals
Requirements:
- Supply voltage 5V + - 5%
- Power consumption: less than 80 mW
- Time between failure of at least 500,000 hours
- Frequency of clock pulses 1 mc.

Operating conditions:
- Working temperature range from -300 C to +400 C;
- Handling up to 5g;
- Single shocks with acceleration up to 10g a duration of 0.1-1 microseconds;
- Vibration with a frequency of 10 - 500 Hz and a maximum acceleration of 10g.

lifetime of 15 years, the mean time during the operation to 85 thousand hours.

Additional requirements.
Introduce measures to control the manufacture and maintenance

contents of the explanatory note.
1. Analysis specific

Ministry of Education

State University of Aerospace Instrumentation

Department ? 41

Course project

protected with the evaluation:

Instructor: Zharinov OO

device formation

pulse-time code group

Explanatory note to the course project for the discipline of "Electronics" < p> 41.EU.2201.01.KP

project is completed

Tseyko PV student gr. 4841

St. Petersburg

2000

content

Introduction ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... 5
1. Development and selection of functional circuitsdevice forming IVKG ... .. ... ... ... ... ... ... ... ... ... ... ... ... ... .6
1.1. The diagr

Baltic State Technical Universitythem. Ustinov ( "Voenmech") | |
| Department I4 |
| Executive summary |
| a course project for the discipline |
| Designing electronic devices |
| |
| "The device is a digital voice recording |
| (digital recorder) "|
| | | |
| | Group | I-4 |
| | Student | C |
| | Check | P |
| |
| St. Petersburg |
| 200 |

CONTENTS

Assignment 3
List of symbols 4
Introduction 5
Analysis of baseline data 6
Choosing the structure of the device 8
Select items 10
Principle of action 14
Schematic devices 18

Conclusion 41

References 42

jobs Coursework

"The device is a digital voice recording,"

p

MINISTRY OF EDUCATION Federation.

Kemerovo Vocational and Technical College.

record on educational practice.

Finished:

Student groups: TVF-41,

Belyanin Sergei.

checked:

Sinchinov AV

KEMEROVO 2004.

Contents:

1. Introduction ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... .3 p.
2. Work accomplished in practice.

1. Work tool ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... .. 3str.

2. Elementary base ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ...

Triggers

1. General
device having two stable states, called triggers. He hastwo exits, one of them is called directly, and another - inverted. Potentialsthey are mutually inverted: log. 1 for one output corresponds to the log. 0on the other. With the advent of switching (trigger) signals the transition triggerfrom one state to another is an avalanche, and the potentials forthe outputs are reversed.
In the interval between the switching signals of the state of the flip-flop does not changeie the flip-flop "remembers" the flow of signals, reflecting the magnitude of thispotential output. This makes it possible to use it as an elementmemory.
When avalanche switching at the output of the flip-flop formedrectangular pulses with steep fronts. This allow

1. Construction and principle of action

order to increase the possibility of controlling the flow of electrons,emitted. cathode, thereby expanding the scope of electronicla.mp were created three-electrode lamps - triodes. In triode (Fig. 1) betweenA and the anode and cathode K, put another electrode - control grid CSS.
Grid is designed as either a spiral or a grid ofinterwoven wires, and is made of tungsten, nickel ormolybdenum wire. Conditional image of the transistor in the circuit is given in Figure 2.
As in the diode, a transistor has a chain pitch for heating the cathode and the chainanode for accelerating field for electrons. The main difference between the transistorof the diode in that the transistor has more controlanode current by changing the voltage betwee

the Ministry of Education

Belacountryn STATE UNIVERSITY

INFORMATICS AND RADIOELEKTRONNIKI

Department of Chemistry

Faculty of computer-aided design

Coursework

the course: "Physico-chemical basis of microelectronics technology and the RECs and

EMU on the topic:

? Tunneling in microelectronics "< / p>

Finished:

Adopted:student gr. 910204

Zabelina IA
Shpakovsky VA

Minsk in 2001

CONTENTS

page
1. Tunnel effect ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... 3
2. EXPRESSION IN heterogeneous structure, use in the device
MICROELECTRONICS
2.1 contact metal-metal ...

Ministry of Education.

Tomsk State University of Management and

RADIO (TUCSR)

Department of Radio Electronics and Information Security (RZI)

AMPLIFIER GENERATOR

capacitively OUTPUT

Explanatory note to the course project on the subject "ETA Circuit?

Student gr. 148-3

_______D.A. Dubovenko

12.05.01

Leader

Associate Professor Department RZI

________

_______A. A. Titov

2001

Summary

Coursework 35 pp., 15 fig., 1 table., 4 sources.

AMPLIFIER, TRANSISTOR, CASCADE, frequency distortion, BAND OF WORKING
Frequencies CORRECTING CIRCUIT, Gain

In this term paper calculated broadband high -power generator with a c

Ministry of Education

TOMSK STATE UNIVERSITY

CONTROL SYSTEMS RADIO (TUCSR)

Department of Radio Electronics and Information Security (RZI) < p> AMPLIFIER FOSTER

BLOCK WIDEBAND LOCATOR

Explanatory note to the course project for the discipline

Circuitry and ETA

Student gr. 148-3

__________Vorontsov SA

24.04.2001

Leader

Associate Professor Department RZI

_____________Titov AA

_____________

2001

Summary

Course project 18 pp., 11 fig., 1 table. < / p>

gain (Ku), AMPLITUDNOCHASTOTNYE characteristic (AFC),
Thermal stabilization, coupling capacitor, chokes, COMBINED
FEEDBACK.

object of design is the design of t

Ministry of Education

TOMSK STATE UNIVERSITY

CONTROL SYSTEMS RADIO (TUCSR)

Department of Radio Electronics and Information Security (RZI) < p> AMPLIFIER radio relay communication line

Explanatory note to the course project for the discipline

ETA Circuit

Student gr. 148-3

__________Valteev VV

4.05.2001g.

Leader

Associate Professor Department RZI

___________Titov AA

_____________

2001

Summary

Course project 18 pp., 11 fig., 1 table.

gain (Ku), the amplitude-frequency characteristic (AFC),
Thermal stabilization, coupling capacitor, chokes, CROSS CHECK
COMMUNICATION, negative feedback (CCA), common emitter (FE).

Introduction

functional electronics devices - a device thatwork on different physical phenomena, the work associated with the usedynamical heterogeneities (temporary defects in a homogeneous solid
). Their operation is described by the equations of mathematical physics.

Any EMU consists of the element base: IP device functionalElectronics and electroradioelements.

electroradioelements are old and are divided into:

V active (H / V devices and Electrovacuum);

V passive:

V of general application (resistors, capacitors, etc.)

V microwave devices (elements, whose dimensions are comparable with the wavelength of the signal being processed).

connectors and switching device

Connectors - a device desig

ALMATINISKY INSTITUTE OF ENERGY AND COMMUNICATION

Department of Industrial Electronics

conversion equipment

AND

Microminiaturization source of secondary < p> ELEKTROPTANIYA

Methodological guidelines for laboratory work in specialties

Automatic telecommunications, multichannel telecommunications,

Industrial Electronics

ALMATY 1999

Introduction

purpose of laboratory work. Students perform laboratorywork on schedule, after mastering the relevant theoreticalmaterial.

They verify the correctness of mastering the basic theoretical positivezheny learn practical activities for the Exploration of schemesconversion devices.

In preparation for the experiment and in the pro

Ministry of General and Vocational Education

Tomsk Polytechnic University

Coursework in Electronics

?Universal power supply?

Completed: student gr.V8701

Vilipp KA

Adopted: teacher

Belozerov NL

Tomsk 2001

Introduction

The device converts alternating current into a single direction is calledrectifier. DC used to power the radio eequipment, transport, production of pure metals, covering someother metals, the decomposition of water into hydrogen and oxygen.
In the case of DC consumers with a variety of voltage:
4,5, 9, 12B. And each time it was necessary to acquire the corresponding numberbatteries, or items. But not always on sale is the appropriate sourcesnutritio

Moscow Order of Lenin and Order of the October Revolution Air
Institute named after Sergo Ordzhonikidze

(Technical University)

Department 402

"radio control and information"

Course project

on

| Office RPV through repeater |
| |
| |

| Finished: | student groups |
| | 04-519 |
| | Kushtalov Jura |
| Check: | Teacher |
| | The Big OA |

Moscow in 2004

content

Assignment 3

Domestic and foreign unmanned UAV 4

Operational UAV BEE -1 4
high-altitude reconnaissance UAV RQ-4 Global Hawk 6

digital radio link with the signal KIM-10 World Cup

main highway radio 11
Synchronization System 12

at 15

Ministry of General and Professional Education FEDERATION

Moscow State Technological University "STANKIN?

RECORD

TO

laboratory work number 1, 2

ON TRACK

MANAGEMENT Cycle

AUTOMATION

Finished Art. gr. COP-9-8:

Kopychev EA

Moscow 2000

Lab ? 1

problem number 1

Write administering the program, which would be used onebutton, when clicked, directs the lamp lights.

problem number 2

Construct scheme RS - the trigger.

Lab ? 2

Target ? 1

There is a robot. He switched on and off button with a fixation. Yrobot has sensors. Sensor emulates any button. Sensor monitorsso that in the working space of the robot was not hu

Ministry of Education of Russia

South Russia State Technical University (NPI)

INSTITUTE IITU

_

CHAIR A and T

_

SPECIALTY __ Industrial elektronika__

Explanatory note:

to the course project

on discipline "Electronic Industry device ?

on" Managed microcontroller Rectifier ?

Finished student IV year, group 1b Yevchenko S.

E

Took Shkarupin AY

NOVOCHERKASSK 2002

task for course project

To design for a three-phase controlled rectifier bridge circuit andcontrolled by the microcontroller with the following parameters:

. Field adjustable voltage 10 - 250;

. Maximum rectified current 75 A;

. Scheme strai