JPRS ID: 10338 USSR REPORT ELECTRONICS AND ELECTRICAL ENGINEERING

APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 FOR OFFICIAL USE ONLY JPRS L/ 10338 19 February 1982 - USSR Report ELECTRONICS AND ELECTRICAL ENGINEERING (FOUO 2/82) FBIS FOREIGN BROADCAST INFORMATION SERVICE FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R044500030047-2 NOTE JPRS publications contain information nrimarily from foreign newspapers, periodicals and books, but also from news agency transmissions and broadcasts. Materials from foreign-language sources are translated; those from English-language sources are transcribed or reprinted, with the original phrasing and other characteristics retained. Headlines, editorial reports, and material enclosed in brackets are supplied by JPFS. Processing indicators such as [Text] or [Excerpt] in the first line of each item, or following the last line of a brief, indicate how the original information was processed. Where no processing indicator is given, the infor- mation was summarized or extracted. Unfamiliar names rendered phonetically or transliterated are enclosed in parentheses. Words or names preceded by a ques- tion mark and enclosed in parentheses were not clear in the original but have been supplied as appropriate in context. Other unattributed parenthetical notes within the body of an item originate with the source. TimPS within items are as given by source. The contents of this publication in no way represent the poli- cies, views or attitudes of the U.S. Government. - COPYRIGHT LAWS AND REGUL.ATIONS GOVERNING OWNERSHIP OF MATERIALS REPRODUCED HERcIN REQUIRE THAT DISSEMINAiION OF THIS PUBLICATION BE RESTRICTED FOR OFFICIAL USE ONL,Y. APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2047/02/09: CIA-RDP82-00850R400504030047-2 FOR OFF[CIAL USE ONLY JPRS L/10338 19 February 1982 USSR REPORT ELECTRONICS AND ELECTRICAL ENGINEERING (FOUO 2; $ 2 ) CONTENTS AERUSPACE & ELECTRONIC SYSTEMS Radic+ Relay and Satellite Transmission Line Reliability............ 1 _ Electric Navigation Instruments ................e................... 4 ANTF.NNAS & PROPAGATION Abstracts From Collection 'NONCOHERENT SCATTERING OF RADIO WAVES' 11 High Latitude Propagation of Decameter Radio Waves 18 ~ Short- and Ultrashort-Wave Propagation 23 Antenna Arrays: Trial Classi''ication 27 BROADCASTING, CONSUMER ELECTRONICS Semiconductor Convezters in the Charge Systems of Reservoir Capacitors 37 Sensitivity of Solid-State Radio Receiving Devices 40 Unit for Rotating TV Camera Raster 43 CIRCUITS & SYST-VMS Linear Gating Device Unit 47 Infralow-Fr.equency Triangular Current Pulae Generators 51 Commutator Controlled by Signal Frequency 57 - a- [III - USSR - 21E S&T FOUO] FOR OFFiCIAL LJSE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2047/02/09: CIA-RDP82-00850R400504030047-2 MUK Vi'MlI.IAL UJL' VIVLY Subnanosecond-Range High-Power Semiconductor Peakeacs 61 System �or Controlling Closing of Spark Gaps by Fi.eld - Di4*_ortion Method 65 High-Voltage Pulse Generator for Low-Resistance Load u9 Control Circuit for Seven-Segment Electroluminescent Indicators... 73 Frequency Dividers With Variable Division Factor 76 Wideband Direct-Current Amplifier 81 High-Speed Pulse Phase Discriminator 84 COMMUNICATIONS Laboratory Projects on Communica[ion Line Structuries 90 COMPUTERS Signal Processing Unit Based on 'Elektronika B3-18' Microcalculator 92 Multifunction Generator 96 Computer-Assisted Radar Operator Trainers 99 Tunable Function Generator Utilizing Microcircuits 102 ELECTRON DEVICES Analog Multiplexer in the CAMAC Standard 106 INSTRUMENTATION & MEASUREMENTS Millimeter and Submillimeter Band Pulsed Spectrometer 108 High-Speed Tracking Frequency Meter 114 Auger Electron Spectrometer 120 MICROWAVE THEORY & TECHNIQUES Microwave Electronic Devices 121 - b - FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/49: CIA-RDP82-00850R440500030047-2 FOR OFFICIAL USE ONLY POWER ENGINEEFiING Stazistical Processing of Operational InformatiQn in Electric Power Systems 130 - Air Circuit-Breakers for Power Transmission Applications.......... 140 QUANTUM ELECTRONICS, ELECTRO-OPTICS Gas Laser Discharge Current Stabilizer 144 Powerful Power Supply for Pulsed Lasers Employing Vapors of Metals 148 SOLID STATE CIRCUITS Calculation of Semiconductor Power Devices 152 Tests of Semiconductor Power Devtces 156 NEW ACTIVITIES, MISCELLANEOUS Abstracts From Collection 'RADIO ENGINEERING..................... 159 Abstracts of Articles in Collection on Radio Engineering.......... 166 - c - FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007102/09: CIA-RDP82-00850R044500030047-2 FUR OH'FIC'IA1. USE ONLY AEROSPACE & ELECTRONIC SYSTEMS RADIO RELAY AND SATELLITE TRANSMISSION LINE RELIABILITY . UDC 621.396.96 Moscow NADF:ZHNOST' RADIORELEYNYKH I SPUTNIKOVYKH LINIY PEREDACFiI in Russian 1981 (signed to press 2 Jul 81) pp 2-3, 160 [Annotation, foreword and table of contents from book "Radio Relay and Satellite Transmission Line Reliability", by Ariy Izrailevich Rakov, Izdatel'stvo "Radio i svyaz 5800 copies, 160 pages] [Text] The reliability of radio relaq and satellire transmission lines (RR and STL) is investigated: mathematical and physical models are analyzed, as are the _ interdependence among reliability indicators and the laws for distribution of failures and down-time duration. Ways to improve RR and STL reliability are examined and recommendations are made for the sequence in which they should be realized, taking technical efficiency into consideration. Methods are proposed _ for optimization of RR and STL structure based nn reliability and cost criteria. Examples of calculations are given. For engineering and technicai workers specializing in radio relay and satellite communications. Reviewer: G. V. Vodop'yanov Foreword The high reliability which is created in our country by the United Automated Communications Network (YeASS) can be provided if Lhe necessary level of reli- ability is achieved in each of its individual links. The role of radio relay and satellite transmission lines as the moat important components of YeASS in- creases annually. However, not all of the questions associated with providing _ radio relay and satellite transmission line reliability have been adequately covered in the literature. In the book offered to the reader, the theoretical bases for studying radio relay and satellite tr.ansmiasion line reliabil{.ty are systematized, the experience of operating these lines is analyzed and recommenda- tions for improving reliability are made. Methods have been developed far the optimal synthesis of radio relay and satellite transmissioh lines and their componer.ta which insure that the prescribed level of reliability is achieved at minimal cost. 1 FOR OFFIC[AL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00854R004500030047-2 FOR OFFICIAL USE ONI.Y The n.umerical evaluations of reliability indicators which are presented in the book are conditional and can be usee only for instructional designing. The author is deeply grateful to Prof. Dr. of Tech. Sci. S. V. Borodich and Cand. of Tech. Sci. G. V. Vodop'yanov for their valuable comments, which were taken into consideration while working on the manuscript. The author is extremely thankful to Prof. Dr. of Tech. Sci. B. R. Levin, docents Cand. of Econ. Sci. Ye. D. Pankratov, Cand. Phys.-Math. Sci. M. A. Pankratova and Cand. of Tech. Sci. V. K. Ashirov for their discussion of certain of the book's positions, as well as to engineer L. V. Borisova for help in preparing the manuscript for publication. CONTENTS page - Foreword 3 Introduction 4 Chapter 1. Theoretical bases for studying radio relay and satellite transmission line reliability 6 1.1 Mathematical models for reliability studies 6 1.2 Reliability indicators 21 1.3 Interdependence among reliability indicators 29 Chapter 2. Reliability of line-of-sight radio relay transmission lines 36 - 2.1 Collection and initial processing of data on down time of trunks and their components 36 2.2 Regularities in the distribution of failures and down- time duration for trunks 43 2.3 Changing reliability indicators for active radio relay transmission line trunks 47 Chapter 3. Ways to improve reliability of linerof-sight radio relay transm:Lssion lines 52 3.1 Improving station power supply syatem rel:Lability 52 3.2 Improving stabiiity of communicationa at intervals and reliability of radio equipment 58 3.3 Improving technical operation 72 = Chapter 4. Calculating the desired reliability of radio relay transmission lines of a given structure 74 4.1 Improving the reliability of initial data for calculating desired reliability 74 4.2 Method for determining desired trunk reliability _ indicators 79 4.3 Evaluation of the effect of trunk reliability on actual carrying capacity 87 2 FOR OFFICIAL USE O1VLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R044500030047-2 FOR OFFICIAL USE ONLY - Chapter 5. Optimal design of line--of-sight radio relay transmission lines 91 5.1 Variants for assigning reliability requirements 91 5.2 Structural diagram of a transmission line whereby a prescribed reliability is provided 98 5.3 Optimal construction of radio relay transmission lines 102 Chapter 6. Providing reliability of tropospheric radio relay transmission lines 112 Chaprer 7. Reliability of satellite transmission lines 116 7.1 Peculiarities of satellite transmission line construction 116 7.2 Reliability indicators for a circular trunk 123 7.3 Reliability of the common and individual components of circular trunks 126 Chapter 8. Ways of improving satellite transmission line reliability 130 8.1 Trends in work to improve reliability of common and individual components of circular trunks 130 8.2 Technical effectiveness of ineasures to improve reliability of a circular trunk 133 8.3 Devices for automatic reserving of the equipment of receiving earth stations 135 Chapter 9. Optimal design of satellite transmission line components 139 9.1 Structural diagram of a receiving earth station, whereby a prescribed reliability is provided 139 9.2 Optimal structure of earth station components, whereby a prescribed reliability is provided at minimal cost 142 Conclusion 149 Appendix. Algorithm III 152 - List of Literature 156 COPYRIGHT: Izdatel'stvo "Radio i svyaz 1981 9194 CSO: 1860/117 3 FOR OFFIC[AL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2047/02/09: CIA-RDP82-00850R400504030047-2 MOh OM'M'ICIAI. USE UNLY UDC 629.3.002.72.002,54(075.8) ELECTRIC NAVIGATION INSTRUMENPS Moscow ELEKTRQNAVIGATSIONNYYE PRIBORY in Russian 1980 (signed to press 9 Dec 80) pp 2-4, 444-447 [Annotation, foreword, introduction (excerpt) and table of contents from book "Elec- tric Navigation Instruments", by Igor' Aleksandrovich Blinov, Aleksandr Vasil'yevich Zheriakov, Vladimir Konstantinovich Perfil'yev, Yevgeniy Leonidovich Smirnov and Andrey Andreyevich Yakushenkov, reviewed by Ye. F. Ludchenko, 4th edition, revised and supplemented, Izdatel'stvo "Transport", 12,000 copies, 448 pages] [Text] The fourth edition of this textbook is written in accordance with the new program of the course "Technical Maritime Navigation Aids" for students of higher marine engineering schools specializing in maritime navigation. It presents the theory of modern gyroscopic and hydroacoustic instruments, logs and autopilots, and examines the prospects of the development and practical uses of these instruments on vessels of the marine fleet. In preparing the new edition of this textbook, the material of the preceding edition (1973) was revised considerably and supplemented with new data reflecting the im- provement of electric navigation instruments in recsnt years, as well as sugges- tions af instructors of maritime vuzes, shipping lines land and sPagoing personnels. This book can be used by students of higher maritime educational institutions spe- cializing in radio engineering and hydrography as a textbook for the appropriate section of their program. It will certainly be useful for navigators of the mari- time fleet, particularly in the part of the descriptions of new electric navigation instruments which are being introduced on seagoing vessels. Figures 241, tables 6, bibliography 28 items, Introduction Resolutions of CPSU Congresses and five-year plans for the development of the na- iLonal economy of the USSR envisaged further development of sea transportation and replenishing of the fleet with faster large^capacity vessels of new types. The most important role in achieving the highest economic effect in the operation of each vessel and th2 fleet as a whole, as well as navigation safety, is played by electric navigation inst7uments (ENP) which are used to determine the course and speed of the vessel, the depth of the sea, and to control the vessel automatically. 4 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 FOR OFFICIAL USE ONLY For the convenience of studying, all electric navigation instrumenta are divided by the principle of operation and by the value they measure. By the principle of operation, electric navigation instruments are subdivided into gyroscopic, hydroacoustic, hydrodynamic and electrodynamic (induction). The following division is accepted with respect to measured values: meridian plane indicators; azimuth indicators; horizon plane indicators; meters of angular veloci- ties and acceleration of vessel movement; vessel steering angle meters; met6rs of position coordinates; meters of linear speed and acceleration of the vessel; sea depth meters. Depending on their purnoses, E:dP have the following names: - hydroscopic compasses meridian plane indicators; directional gyroscopes(azimuth gyroscopes) azimuth indicators; gyro-magnetic compasses magnetic meridian plane indicators; vertical gyroscopes (gyro horizons) horizon plane indicators; gyrostabilizers commanded position indicators; gyrotachometers (differentiating gyroscopes) meters of angular speed of mov- ing objects; gyrotachoaccelerometers meters of angular speed and angular acceleration of the vessel; accelerometers meters of linear accelerations of the vessels; integrating gyroscopes steering angle meters; inertial navigation systems meters of distance traveled; hydrodynamic logs meters of relative speed of the vessel; electrodynamic (induction logs meters of relative speed of the vessel; hydroacoustic logs meters of absolute (in relation to ground) speed of the vessel; echo depth sounders sea depth meters. Electric nagivation instruments can work in the indicator mode, when the information - obtained from them is used only for navigational orientation, and in the control mode, when information is delivered to the automatic movement control systems of the vessel. Such automatic control systems using information of ENP are control systems of the vessel's movement at a fixed course and along a prescribed trajectory and vessel stabilization systems used in rough seas. This book consists of two parts. The first part presents the theory of electric navigation inseruments, and the second part describes their designs. The sequence of chapters is determined by the interrelation among various instruments. Much attention in the book is given to the theory and the design principles of mo- dern electric navigation instruments. Errors of instrument5, causes of their ap- pearance, and methods of rheir compensation are discussed in detail. Considering rhe tendency in rhe development of electric navigation instruments of the maritime Fleet, considerahle attention is given to new promising instruments and sys- tems. S FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 rvn Vrra'k.ana. arcoc Contents Page - Introduction 3 Part 1. Theory of Electric Navigation Instruments Section 1. Applied Theory of the Gyroscope 7 Chapter I. Properties of the Gyroscope and Equations of Motion 7 1.1. Definition of the Concept of "Gyroscope" 7 1.2. Suspensions Used in Gyroscopes 8 1.3. Main Properties of the Gyroscope 13 - 1.4. Kinetic Moment Theorem 14 1.5. Applications of the Kinetic Moment Theorem 18 1.6. Gyroscopic Moment 21 1.7. Setting up Equations of Motion of Gyroscopes and Gyroscopic Devices by Professor B. I. Kudrevich's Method 25 1,8. Motion of the Gyroscope Under the Effect of a Steady Moment of External Forces and Shocks 27 ' 1.9. Processional Motion Equation of the Gyroscope 32 Chapter II. Free Gyroscope on the Earth. Methods of Converting a Free Gyroscope into a Gyrocompass and into a Vertical Gyroscope 33 1.10. Diurnal Rotation of the Earth 33 1,11, Apparent Motion of a F ree Gyroscope in Relation to the Meridian and Horizon Planes 34 1.12. Rotatiori of the Horizontal System of Coordinates Due to the Motion of the Vessel 36 1.13. Methods of Converting a FreQ Gyroscope into a Gyrocompass 37 1.14. Methods of Converting a Free Gyroscope into a Vertical Gyroscope 42 Section 2. Theory of Gyroscopic Compasses 45 Chapter II I. Theory of a Two-Gyroscope Compass 45 2.1. Sensitive Element of the Gyrocompass and Setting up Equations of Its Motion 45 2,2. Sustained Oscillations of the Gyrosphere in the Azimuth and Along the Height on a Motionless Vessel 52 _ 2.3, Decaying Oscillations of the Gyrosphere in the Azimuth and Along the Height on a Motionless Vessel 56 2.4. Effect of Vessel Movement at a Steady Speed and on a Fixed Course on the Gyrocompass 64 2.5. Effect of the Maneuvering of the Vessel on the Indication Accuracy of the Gyrocompass 75 2.6. Gyro-Horizon-Compass 104 2.7. Effect of :tocking on the Indication Accuracy of aTao-Gyro- scope Compass 108 Chaprer IV. Theory of Correctible Gyroscopic Compasses 114 2.8. Basic Diagram of a Gyrocompass with Indirect Control 114 2.9. Basic Diagram of Gyro-Azimuth-Compass "Vega" 119 6 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2047102109: CIA-RDP82-00850R400504030047-2 FOR OFFICIAL USE ONLY 2.10. Setting up Dif.ferential Equations of Motion of GyrQ- Azimuth-Compass "Vega" 121 2.11Instrument Operation in the Gyrostabilizer Mode 125 2.12. Instrument Operation in the Mode of a Gyrocompass with Indirect Control (without correction) 127 2.13. Instrument Operation in the Correctible Gyrocompass Mode 134 2.14. Operation of a Gyro-Azimuth-Compass in the Gyro-Azimuth Mode 143 - Sect'Lon 3. Theory of Gyroscopic Devices of Stabilization Systems and Vessel Movement Control Systems 146 Chapter V. Theory of Vert?ca? Gyroscopes 146 3.1. Fundamentals of the Theory of Pendulous Vertical Gyroscopes 146 3.2. Fundamentals of the Theory of the Vertical Gyroscope with Radial Correction 152 3.3. Fundamentals of the Theory of the Inertial Vertical Gyroscope 158 Chapter VI, Theory of Gyrotachometers 165 3.4. Operating Principle and Fundamentals of the Theory of the ~ Single-Gyroscope Gyrotachometer 165 3.5. Fundamentals of the Theory of the Two-Gyroscope Gyrotaci,o- meter 177 3,6, Uses of Gyrotachometers in the Marine F'leet 179 Section 4. Automatic Systems of Vessel Movement Control 183 Chapter VII, Vessel as an Object of Automatic Control 183 4.1, Main Tasks of the Automation of Vessel Control 183 4.2. Setting up and Analyzing Equations of Vessel Movement 185 Chapter VIII, Operating Principle and Fundamental_s of the Theory of - Autopilots 197 4.3, Automatic Control of Vessel Movement in Relation to the Prescribed Course 197 4.4. Automatic Control of Vessel Movement in Relation to the Prescr.ibed Trajectory 214 Section 5. Applied Theory of Hydroacoustics and Hydroacoustic Instruments 221 Cliapter IX. Sound Propagation in a Homogeneous Liquid 221 5.1, Physical Nature of Sound 221 5.2. Derivation of the Wave Equation 224 5.3. Plane Waves 229 5.4. Concept of Spherical Waves 235 5.5. Reflection and Refraction of Sound Waves 235 5.6. Interference of Sound Waves 240 5.7. Passage of Sound Through a Thin Partition 242 5.8. Diffraction of Sound Waves 243 5.9. Sound Propagation in a Moving Liquid 244 7 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/42/09: CIA-RDP82-40854R040500030047-2 h'uK uMelIUwL ubr. UnLr Chapter X. Sound Propagation in the Sea 245 5.10, Speed of Sound 245 5.11. Refraction of Sound Beams 247 5.12, Reverberaeion 250 Chapter XI . Sound Sources and Receivers 251 5.13, Oscillating Systems of Vibrators 251 5,14. Piezoelectric and Magnetostrictive 'iransducers 253 - 5.15. Directional Effect of Vibrators 257 5.16. Sound Radiation 264 5.17. Reception of Sound Oscillations 266 Chapter XI I. Acoustic Method of Depth Measurements 268 5.18. Fundamentals of the Theory of Echo Depth Sounders 268 5.19. Block Diagram of an Echo Depth Sounder 274 Chapter XI II. Fundamentals of Hydrolocation 278 - 5.20, Substantiation of the Principles of Hydrolocation Measurements 278 Section 6. Applied Theory of Logs 284 - Chapter XIV. Hydroacoustic Absolute Doppler Log 284 6.1. F undamentals of the Doppler-Log Theory 284 6.2. Block Diagram of the Hydroacoustic Doppler Log 288 Chapter XV. Hydroacoustic Absolute Correlation Log 290 6.3. Fundamentals of the Coxrelation Log Theory 290 - 6,4. Block Diagram of the Hydroacoustic Correlation Log 291 Chapter XVI, Induction Log 292 6.5. F undamentals of the Indiction Log Theory 292 - 6,6. Block Diagram of the Induction Log 295 Chapter XVII. Hydraulic Log 297 6.7. Fundamentals of the Hydraulic Log Theory 297 6.8. Block Diagram of the Hydraulic Log 299 Part 2. Designs of Electric Navigation Instruments Section 7. Gyrocompasses and Autopilots 300 Chapter XVIII. Gyrocompass "Kurs-4" 300 7.1. Basic Specifications 300 7.2. Systems and Components of a Gyrocompass with a Sensitive Element Working on Alternating Current of 120V, 330 Hz 301 7.3. Primary Instrument (Instrument 1M) 302 7,4. A�lxiliary Systems and Instruments 310 7.5. ljystems and Components of a Gyrocompass with a Sensitive Element Working on Alternating Current of 127 V, 400 Hz 332 7.6. Primary InsCrument (Instrument 1KM) 332 7,7, Speed Deviation Correction Unit 334 8 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500034047-2 FOR OFFTCIAL L15E ONLY Chapter XIX. Aperiodic Gyrocompass "Kurs-5" 7,8. Basic Specifications _ 7.9. Systems and Components of the Gyrocompass 7.10. Primary Instrument (Instrument 1P) 7.11. Auxiliary Systems and Instruments Chapter XX. Gyrocompass "Amur-2" 7,12. Systems and C omponents of the Gyrocompass 7,13, Primary Instrument (Instrument lA) 7.14. Instruments of the Supply Unit Chapter XXI. Gyro-Azimuth-Compass "Vega" - 7,15. Basic Specification of the Gyro-Azimuth-Compass 7,16. Systems and Components of the Gyro-Azimuth-Compass 7.17, Primary Instrument (Instrument VG-lA) 7,18. Auxiliary Systems and Instruments Chapter XXII. Autopilot AR 7,19, Block Diagram of the Vessel Course SAU [Automatic Control System] 7.20. Components of Autopilots AR 7.21. Control Panel 7.22. Ordinary Control Panel 7,23. External Control Panel 7.24. Rudder Sensor and Rectifier Station 7.25. Amplidyne 7.26. Block Diagram of the Autopilot AR Chapter X: 7.27. 7.28. 7.29. 7.30. 7,31. 7.32. 7.33, 7.34. 7,35. KIII. Autopilots ATR and "Aist" Basic Specifications of the Autopilot ATR Components of the Autopilot ATR Control Panel Follow-Up Control Panel (PSU) Hydraulic Amplifier Pump Actuator Block Diagram of the Autopilot ATR Basic Specifications of the Autopilot "Aist" Section 8. Echo Depth Sounders and Logs Chapter XXIV, Navigational Echo Depth Sounders 8.1. Echo Depth Sounder NEL-5 8.2. Echo Depth Sounder NEL-10 9 FOR OFFICIAL USE ONLY 336 336 337 337 339 355 355 356 358 3 58 358 359 360 366 376 376 378 378 389 389 390 390 391 395 395 395 395 398 398 399 400 400 403 404 404 404 411 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 HOR UM'610AI. USE UNLY Chapter XXV. Logs 8.3. Log MGL-25M 8.4. Log IEL 2 - Supplement. ?-aternational Requirements for the Accuracy of Marine Gyrocompasses Bibliography Subject Index COPYRIGAT: Izdatel'stvo "Transport", 1980. 10,233 CSO: 1860/103 10 - FOR OFFICIAL USE ONLY 418 418 428 437 438 439 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 FOR OFFICIAL USE ONLY ANTENNAS & PROPAGATION - ABSTRACTS FROM COLLECTION I NONCOHERENT SCATTERING OF RADIO WAVES' Apatity NEKOGERENTNOYE RASSEYANIYE RADIOVOLN in Russian 1980 (signed to press 19 Dec 80) pp 2, 161-167 [Annotation and abstracts of articles in collection "Noncoherent Scattering of Radio f,)aves", edited by B. Ye. Bryunelli, doctor of physical and mathematical sciences, et al., b'.ol'skiy filial A1 SSSR, 400 conies, 167 paQes] [Text] Various aspects of the method of noncoherent scattering of radio waves are discussed in the collection, a nei highly ir.formative method of studying the ionosphere. Theory of the method, questions of the effect of collisions on the spectrum, the effect of continuous magnetic and electrical fields, and possible occurrence of nonlinear effects durinq measurements using the method of noncoherent scattering are dis- cussed. Methods and techniques of conducting experiments are examined, as are questions of enhancing their informativeness. A brief description of tr,e Noncoherent Scattering Research Complex of Kharkav Polytechnical - Institute and the type of results obtained there are given. Information resources of the method are analyzed in terms of literary sources. UDC 533.951+550.388 - THE KINETIC THEORY OF RADIO WAVE SCATTERING IN A HETEROGENEOUS PLASMA [Abstract of article by V. V. Belyy, Yu. L. Klimontovich, V. A. Puchkov and A. S. Sidorenko] (Text] The theory of kinetic plasma fluctuations is presented as it pertains to problems of noncoherent scattering of electromagnetic waves. - The effect of colliding particles on spectra of noncoherent scattering is studied within model integrals of BGK collision. A discussion is conducted based on parametric instabilities which may be generated by the field of a powerful probe signal. 11 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 FOR OFFICIAL USE ONLY UDC 533.932 FLUCTUATIONS OF CHARGEU PARTICLE DENSITY OF COLLISION PLASMA IN CROSSED ELECTRIC AND MAGNETIC FIFLDS [Abstract of article by V. D. Tereshchenko and Ye. D. Tereshchenko] [Text] Based on kinetic theory, the spectrum of dEnsity fluctuations of charged particles is calculated for a collision plasma located in an external crossed electrical and magnetic fields. A model integral of BGK collisions is used for to describe the collision effects in an kine- tic equiaton. It is shown that the colliding member of BGK can be used to evaluate the effect of collision of electrons and ions on the spec- trum of noncoherently scattered emission. UDC 550.388.2 ELECTRON PORTION OF SPECTRUM OF NONCOHERENTLY SCATTERED FMISSION [Abstract of article by V. D. Tereshchenko and Ye. D. Tereshchenko] [TextJ The effect of a small addition of epithermal electrons on total intensity of electron lines of the spectrum of noncoherently scattered radio emission is studi2d. The influence of collision on intensity of scattering in plasma oscillations is analyzed. General results and conclusions are applied to calculation of the altitude profile of the total cross section of plasma line in the polar ionosphere. UDC 551.510.535 STATISTICAL CHARACTERISTICS OF NONCOHERENTLY SCATTERED SIGNAL [Abstract of article by E. G. Mizer] [Text] The statistical characteristics of ionic and electronic com- ponents of the spectrum of noncaherently scattered signals in iono- spheric plasma are considered. The process of formation of a scattered signal is considered; distributive laws, space and time correlation functions of the signal are derived. Physical processes of shaping of a _ signal scattered on longitudinal plasma waves is examined. Methods are recommended for receiving the signal of a plasma line permitting im- provement of the signal-to-noise ratio with respect to power. UDC 550.388.2 EFFECT OF MAGNETIC FIELD IN QUASIEQUILIBRIUM PLASMA ON IONIC PORTION OF SPECTRUM OF A NONCOHERENTLY SCATTERED SIGNAL [Abstract of article by A. D. Tereshchenko] [Text] The effect of a magnetic field on the process of noncoherent scattering of radio waves in a quasiequilibrium plasma is studied. The spectrum of radio wave scattering in the meter range is deterrnined by longitudinal (with respect to magnetic field bearing) temperature com- ponent and longitudinal component of electron directional velocity. 12 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000500030047-2 APPROVED FOR RELEASE: 2007102109: CIA-RDP82-00854R004500030047-2 FOR OFFICIAL USE ONLY UDC 551.510.535 ROLE OF NONLINEAR EFFECTS IN THE NONCOHERENT SCATTERING METHOD _ [Abstract of article by V. A. Misyura, S. I. Martynenko and L. F. Chernogor] [Text] For the case of the heating mechanism of nonlinear effects, "engineering" formulas are derived which enable us to assess the minimum effective output at which perturbation of the medium due to sensing pulses becomes noticeable. Perturbations