Lectures:
Basic circuit devices. Basic terms.
Pasive devices identification. Pasive devices models.
Active devices identification. Active devoces models.
Properties of devices materials. Inertial properties of circuit devices.
The changes of the circuit functions caused by physical phenomenon.
The methods of the circuit tolerance parameter calculation.
Possibilities of the decreasing the influence of the parameter tolerances.
The methods of the sensitive devices search.
The tolerance theory apply for circuit design.
The proper circuit selection and tolerance theory.
The modification possibilities of the circuit structure.
The effective circuit design.
The statistical methods modelling of the tolerance parameter influence to the circuit.
Ambient properties long term influence to the device parameters.
Exercises:
Secure work instruction.
Laboratory measurement. Constant current source.
Laboratory measurement. AC voltage amplifier.
Laboratory measurement. Low frequency oscillator.
Laboratory measurement. Frequency filters.
Laboratory measurement. General impedance convertor.
Test 1. PC exercise. Used software.
PC exercise. RC and LC twoterms design.
PC exercise. AC amplifier design.
PC exercise. Pasive filter design.
PC exercise. Active filter design.
PC exercise. General impedance convertor use.
Test 2. PC exercise. Statistical methods of the circuit design.
Semester theses delivery. Acreditation.
Laboratories:
During the 5 laboratory tasks are student changed in closed cycle. Every of ones measure each laboratory task. The instructionns for tasks are on URL.
Computer labs:
Use of personal computer for effective circuit design.
Basic circuit devices. Basic terms.
Pasive devices identification. Pasive devices models.
Active devices identification. Active devoces models.
Properties of devices materials. Inertial properties of circuit devices.
The changes of the circuit functions caused by physical phenomenon.
The methods of the circuit tolerance parameter calculation.
Possibilities of the decreasing the influence of the parameter tolerances.
The methods of the sensitive devices search.
The tolerance theory apply for circuit design.
The proper circuit selection and tolerance theory.
The modification possibilities of the circuit structure.
The effective circuit design.
The statistical methods modelling of the tolerance parameter influence to the circuit.
Ambient properties long term influence to the device parameters.
Exercises:
Secure work instruction.
Laboratory measurement. Constant current source.
Laboratory measurement. AC voltage amplifier.
Laboratory measurement. Low frequency oscillator.
Laboratory measurement. Frequency filters.
Laboratory measurement. General impedance convertor.
Test 1. PC exercise. Used software.
PC exercise. RC and LC twoterms design.
PC exercise. AC amplifier design.
PC exercise. Pasive filter design.
PC exercise. Active filter design.
PC exercise. General impedance convertor use.
Test 2. PC exercise. Statistical methods of the circuit design.
Semester theses delivery. Acreditation.
Laboratories:
During the 5 laboratory tasks are student changed in closed cycle. Every of ones measure each laboratory task. The instructionns for tasks are on URL.
Computer labs:
Use of personal computer for effective circuit design.