Theoretical basics of radio engineering. TOR-SK
834 060 RUB
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TOR-SK
Theoretical basics of radio engineering. Stand design with computer
Delivery time is 12 weeks
Commisioning is required
Theoretical basics of radio engineering. Stand design with computer
Delivery time is 12 weeks
Commisioning is required
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Description
The laboratory stand provides laboratory and practical work in the following sections: "Radio materials and radio components", "Electronics", "Fundamentals of circuit theory", "Metrology and radio measurements", "Radio circuits and signals", "Circuitry of analog electronic devices", "Devices receiving and processing signals "," Devices for generating and generating signals "," Sources of electrical power radio systems "," Microprocessor systems”.
Radio Materials and Radio Components
- Study of radio components made of different semiconductors.
- Study of static and dynamic characteristics of stabilitron with avalanche break-down, and thermocompensation.
- Thermal study of radio components.
- Experimental determination of the parameters of capacitors in DC and AC circuits.
- Experimental determination of the parameters of capacitors in DC and AC circuits.
- Study of static characteristics of rectifier diodes, Schottky diode and stabilitrons.
- Study of frequency characteristics of different types of diodes.
- Study of effect of temperature on the static characteristics of diodes.
- Study of bipolar transistor.
- Study of amplifier stage on a bipolar transistor.
- Study of operation of bipolar transistor in a key mode at various types of load.
- Research of a field-effect transistor.
- Study of amplifier stage on the field-effect transistor.
- Study of operation of a field-effect transistor in a key mode at various types of load.
- Study of photoresistance.
- Study of optodiode.
- Study of optical transistor.
- Study of optosimistor.
- Study of static and dynamic characteristics of electric lamp.
- Study of single-stage tube amplifier.
- Study of tube generator of harmonic signals based on the Wien bridge and a nonlinear element.
- Study of logical element 2AND-NO.
- Study of RS-trigger with inverse control.
- Study of simplest linear DC electric circuits.
- Branched nonlinear electric circuit of direct current.
- DC electric circuit with two power supplies.
- Study of a linear circuit under harmonic action.
- Study of linear electrical circuit of non-sinusoidal periodical current.
- AC circuit and elements connected in series.
- AC circuit and elements connected in parallel.
- Study of a linear circuit under harmonic action.
- Transient phenomena in R-L and R-C circuit.
- Capacitor discharge operated on R-L circuit.
- Integrating four-terminal circuits.
- Study of transient processes in frequency-dependent circuits with a step input action.
- Study of transient processes in frequency-dependent circuits with a linearly increasing and harmonic input action.
- Research of schemes for constructing passive filters of the first and second orders.
- Study of transients in passive filters of first and second orders.
- Study of frequency characteristics of passive filters of the first and second orders.
- Distributed-parameter circuit.
- Line as a device of data transmission.
- Study of typical dynamic elements.
- Serial connection of elements.
- According-parallel connection of elements.
- Counter-parallel connection of links.
- Consequent correction of automated control systems.
- Anti-parallel correction for automated control systems.
- One-direction parallel correction of automated control systems.
- Study of model of simple electrical mechanical system.
- Study of static and dynamic characteristics of impulse devices.
- Study of stability of closed impulse system.
- Transient processes in closed pulse system.
- Study of electrical signals with the help of digital oscillograph.
- Study of spectral characteristics of a signal with the help of digital oscillograph.
- DC current and voltage measurements.
- Measurement of voltage in AC circuits.
- Measurements of time parameters of signals and characteristics of the measuring generator.
- Measurement of parameters of elements of typical radio engineering circuits with lumped parameters.
- Statistical processing of measurement results.
- Automation of the experiment.
- Measurement of current and voltage in DC circuits.
- Measurement of rms values of current and voltage in alternating current circuits.
- Measurement of instantaneous values of current and voltage in alternating current circuits;
- Measurement of frequency, phase, power (active, reactive and apparent) in alternating current circuits.
- Study of signal spectrum.
- Direct and inverse Fourier transform for different types of signals.
- Sequences of rectangular pulses.
- Sequences of triangular pulses.
- Sequences of cosine pulses.
- Study of modulated radio signals: АМ, PМ, FМ.
- Study of linear stationary circuits in the time domain.
- Study of the passage of deterministic signals (video pulses, radio pulses (AM, FM, FM)) through linear circuits, analysis of the effect of filter characteristics on the signal passing through it.
- Investigation of the passage of random processes through linear, time-invariant chains, analysis of the influence of the filter characteristics on the characteristics of the process passing through it.
- Study of nonlinear resonant amplifier.
- Study of frequency multiplier.
- Study of the amplitude modulator.
- Study of the amplitude detector.
- Study of LC auto-oscillator of harmonic oscillations.
- Study of RC oscillator of harmonic oscillations.
- Study of frequency converter.
- Study of synchronous detector.
- Study of matched filters.
- Study of main characteristics of DC amplifiers.
- Study of frequency characteristics of amplifiers.
- Methods for correcting the frequency characteristics of amplifiers.
- Study ofinfluence of negative feedback on the characteristics of amplifiers.
- Transistor power amplifiers.
- Power amplifier on the operational amplifier.
- Study of distortions of the output signal of amplifier at different frequencies and at different levels of input signal.
- Research of the inverting amplifier.
- Study of non-inverting amplifier.
- Study of the summing amplifier.
- Study of integrator.
- Study of differential amplifier.
- Study of single-input comparator.
- Study of a two-input comparator.
- Study of regenerative comparator with positive feedback (Schmidt trigger).
- Study of multivibrator.
- Study of self-oscillating multivibrator with an unbalanced output signal.
- Study of one-shot (waiting multivibrator).
- Study of rectifier implemented on an operational amplifier.
- Study of phase-sensitive rectifier.
- Study of peak detector.
- Study of fetch-storage device.
- Study of generator of triangular voltage.
- Study of sawtooth voltage generator.
- Study of generator of sinusoidal voltage.
- Study of the active low-pass filter of the 2nd order.
- Study of the active high-pass filter.
- Study of a band-pass active filter.
- Study of filters with critical attenuation, Bessel and Butterworth.
- Study of input circuit of the radio-received rectifier.
- Study of full-wave uncontrolled rectifier.
- Study of half-wave controlled rectifier.
- Study of single-phase bridge rectification circuit.
- Study of effect of the RLC junkie.
- Study of transistor radio frequency amplifier.
- Research of frequency converters.
- Study of the amplitude detector.
- Study of the frequency detector.
- Study of control circuits of the receiver parameters:
- Study of automatic gain control.
- Study of the phase-locked loop..
- Study of value of noise at the output of the frequency-selective amplifying path.
- Study of generator with external excitation on a bipolar transistor.
- Amplitude modulation in a generator with external excitation.
- Study of a broadband power amplifier.
- Study of self-oscillator on a bipolar transistor.
- Single sideband modulation.
- Study of a half-wave uncontrolled rectifier.
- Study of a full-wave uncontrolled rectifier.
- Study of half-wave controlled rectifier.
- Study of single-phase bridge rectification circuit.
- Study of effect of RLC filters.
- Study of parametric voltage stabilizer.
- Study of compensation voltage regulator.
- Study of integrated voltage regulator.
- I/O ports Microcontroller.
- Special-purpose register SREG.
- Stack. Program delay implementation.
- Study of 8-bit timers of microcontroller.
- Control of seven segment indicator with microcontroller.
- Timers T0 and T2 in time intervals calculation mode.
- Analog-digital convertor of microcontroller.
- Таймеры T0 и T2. Режим широтно-импульсной модуляции.
- 16-bit timer T1. Time intervals calculation mode.
- 16-bit timer T1. Pulse-width modulation mode.
- Dynamical indication of symbols.
- External interrupts.
- Study of principles for matrix key board operation.
- Study of principle for operation of LED-matrix.
- Study of principle for operation of graphical indicator and.
- Monoblock «Radioautomatics - linear continuous and pulse systems».
- Modules of: embedded microprocessor systems; Power; Functional generator; power meter; I/O; multimeters; long line; milliampermeter module; temperature characteristics; transistor; operational amplifier; rectifiers and stabilizers; electric-vacuum devices; active filters; signal generator; signal detectors; linear circuits;radio frequency amplifying devices; broad-band power amplifying device; self-oscillators; frequency converter and synchro detector; input circuit; autogain control; phase-lock-loop frequency control; matched filtering; single-band modulation; linear power supply and noise generator; radio automation: linear continuous and impulse systems monoblock.
- Patch board and measuring instruments.
- Set of minimodules.
- Laboratory table (3 pcs).
- Desk for PC.
- PC.
- Software (CD).
- Set of power cables and connection cables.
- Technical description.
- Methodology instructions on how to perform the laboratory works.
- Digital two-channel Oscillograph.
- Voltmeter.
- Frequency counter.
- Generator.
- The cost of the kit - 120 120 rubles.
Specifications
Design style | stand design |
Type of control | with computer |
Dimensions, mm | 3270х1800х650 |
Weight, kg | 350 |
Voltage, V | 1х220 |
Power consumption, VA | 500 |