Course detail
Electronic Filters
FEKT-BPC-ELFAcad. year: 2019/2020
Analog filters are still inseparable parts of complex electronic devices. Thus, its analysis and design process belongs to the basic application-oriented bachelor capabilities. This course covers passive and active filtering structures with traditional and unconventional functional blocks (synthetic inductors, elements known as FDNR, super-niductors), filters which utilize special physical principles (SAW, crystal filters) as well as filters based on switching mechanism (switched capacitors). From the viewpoint of practical applications we are speaking about electronic systems with accumulation elelemts which are able to process signals with frequencies up to 100MHz in real time. In computer exercises students learn how to solve problems of computer-aided analysis and design of the typical filter topologies by using available software (Orcad Pspice, Snap, NAF, Matlab, Mathcad) including filter optimization from different aspects.
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Department
Learning outcomes of the course unit
1. understand fundamental properties of lumped electronic filters and filtering in time and frequency domain
2. can interpret arbitrary transfer function and derive corresponding frequency characteristics
3. is able to design passive as well as active filter for particular application including calculation of numerical values of all circuit elements
4. describe function of crystal and SAW filters and structures with switched capacitors
5. completely analyze and design filtering networks by using computer
Prerequisites
Co-requisites
Planned learning activities and teaching methods
Assesment methods and criteria linked to learning outcomes
Course curriculum
2. Transfer functions of bilinear filtering sections
3. Transfer functions of biquadratic filtering sections
4. Passive RC and RLC filters
5. Design of passive ladder filters based on prescribed tolerance field
6. Active elements used in filtering networks, basic concepts of active filters
7. Gm-C topologies of filters, multifunctional filters
8. Electronically reconfigurable filters, theory and practice
9. All-pass filters, properties and different structures
10. Imittance converters and inverters, synthetic functional blocks, application examples
11. Filters with switched capacitors, properties and practical applications
12. Crystal-based filters, SAW filters and electromechanical conceptions
13. Filters with spread parameters, lecture organized in cooperation with VVU Brno company
Work placements
Aims
Specification of controlled education, way of implementation and compensation for absences
Recommended optional programme components
Prerequisites and corequisites
Basic literature
Recommended reading
Elearning
Classification of course in study plans
- Programme BPC-AUD Bachelor's
specialization AUDB-TECH , 2 year of study, summer semester, compulsory-optional
- Programme BPC-ECT Bachelor's 2 year of study, summer semester, compulsory-optional
- Programme BPC-MET Bachelor's 3 year of study, summer semester, compulsory-optional
- Programme BPC-TLI Bachelor's 3 year of study, summer semester, compulsory-optional
- Programme BPC-AMT Bachelor's 0 year of study, summer semester, elective
- Programme BPC-IBE Bachelor's 0 year of study, summer semester, elective
- Programme BPC-SEE Bachelor's 0 year of study, summer semester, elective
- Programme EEKR-CZV lifelong learning
branch EE-FLE , 1 year of study, summer semester, compulsory-optional
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
2. Biquadratic RLC filters. Passive filters RC.
3. High-order RLC filters and design tools of them.
4. Active elements and functional blocks in filters, modeling of them.
5. Single-amplifier biquads (LP, BP, HP).
6. Multiple-amplifier biquads.
7. Elliptic ARC biquads and band-reject ARC filters.
8. Design of the high-order ARC filters, cascade synthesis.
9. ARC filters with functional blocks and synthetic elements.
10. All-pass filters and correctors.
11. Switched-capacitor electric filtering networks.
12. Electro-mechanic, piezoelectric and PAW filters.
13. Optimization of designed filters. Tuning and controlling of the filter parameters.
Exercise in computer lab
Teacher / Lecturer
Syllabus
2. Design of the high-order passive filters. Software NAF.
3. Analysis of selected active filter.
4. Optimization of the designed filters.
5. Comparing of sensitivity of active and passive filters.
6. Hierarchical modeling of active elements and functional blocks.
7. Single-amplifier and multiple-amplifier biquads, studying parasitic influences at HF.
8. Tuning and controlling of filter parameters, improving the value of Q.
Laboratory exercise
Teacher / Lecturer
Syllabus
2. RLC passive ladder filtering structures of higher-orders.
3. Sallen-Key active low-pass filter with operational amplifier.
4. Synthetic elements in filtering applications with independent adjusting of parameters.
5. Kerwin-Huelsman-Newcomb filter with transadmittance amplifiers.
6. Universal fourth-order filter with multiple-loop integrator structure.
7. Biquadratic filter working in current mode.
8. Circuits with switched capacitors - universal integrated SC filter.
Elearning