Design of selective CIC filter functions
The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Stošić, Biljana P. [verfasserIn] |
|---|
| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2014transfer abstract |
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| Schlagwörter: |
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| Umfang: |
3 |
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| Übergeordnetes Werk: |
Enthalten in: Editorial Board - 2016, München |
|---|---|
| Übergeordnetes Werk: |
volume:68 ; year:2014 ; number:12 ; pages:1231-1233 ; extent:3 |
| Links: |
|---|
| DOI / URN: |
10.1016/j.aeue.2014.07.002 |
|---|
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ELV033668523 |
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| 520 | |a The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. | ||
| 520 | |a The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. | ||
| 650 | 7 | |a FIR filters |2 Elsevier | |
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10.1016/j.aeue.2014.07.002 doi GBVA2014003000011.pica (DE-627)ELV033668523 (ELSEVIER)S1434-8411(14)00179-4 DE-627 ger DE-627 rakwb eng 004 620 004 DE-600 620 DE-600 610 VZ 370 VZ Stošić, Biljana P. verfasserin aut Design of selective CIC filter functions 2014transfer abstract 3 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. FIR filters Elsevier CIC filters Elsevier selective filters Elsevier Linear phase Elsevier Pavlović, Vlastimir D. oth Enthalten in Elsevier Editorial Board 2016 München (DE-627)ELV019902425 volume:68 year:2014 number:12 pages:1231-1233 extent:3 https://doi.org/10.1016/j.aeue.2014.07.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U AR 68 2014 12 1231-1233 3 045F 004 |
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10.1016/j.aeue.2014.07.002 doi GBVA2014003000011.pica (DE-627)ELV033668523 (ELSEVIER)S1434-8411(14)00179-4 DE-627 ger DE-627 rakwb eng 004 620 004 DE-600 620 DE-600 610 VZ 370 VZ Stošić, Biljana P. verfasserin aut Design of selective CIC filter functions 2014transfer abstract 3 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. FIR filters Elsevier CIC filters Elsevier selective filters Elsevier Linear phase Elsevier Pavlović, Vlastimir D. oth Enthalten in Elsevier Editorial Board 2016 München (DE-627)ELV019902425 volume:68 year:2014 number:12 pages:1231-1233 extent:3 https://doi.org/10.1016/j.aeue.2014.07.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U AR 68 2014 12 1231-1233 3 045F 004 |
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10.1016/j.aeue.2014.07.002 doi GBVA2014003000011.pica (DE-627)ELV033668523 (ELSEVIER)S1434-8411(14)00179-4 DE-627 ger DE-627 rakwb eng 004 620 004 DE-600 620 DE-600 610 VZ 370 VZ Stošić, Biljana P. verfasserin aut Design of selective CIC filter functions 2014transfer abstract 3 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. FIR filters Elsevier CIC filters Elsevier selective filters Elsevier Linear phase Elsevier Pavlović, Vlastimir D. oth Enthalten in Elsevier Editorial Board 2016 München (DE-627)ELV019902425 volume:68 year:2014 number:12 pages:1231-1233 extent:3 https://doi.org/10.1016/j.aeue.2014.07.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U AR 68 2014 12 1231-1233 3 045F 004 |
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10.1016/j.aeue.2014.07.002 doi GBVA2014003000011.pica (DE-627)ELV033668523 (ELSEVIER)S1434-8411(14)00179-4 DE-627 ger DE-627 rakwb eng 004 620 004 DE-600 620 DE-600 610 VZ 370 VZ Stošić, Biljana P. verfasserin aut Design of selective CIC filter functions 2014transfer abstract 3 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. FIR filters Elsevier CIC filters Elsevier selective filters Elsevier Linear phase Elsevier Pavlović, Vlastimir D. oth Enthalten in Elsevier Editorial Board 2016 München (DE-627)ELV019902425 volume:68 year:2014 number:12 pages:1231-1233 extent:3 https://doi.org/10.1016/j.aeue.2014.07.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U AR 68 2014 12 1231-1233 3 045F 004 |
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10.1016/j.aeue.2014.07.002 doi GBVA2014003000011.pica (DE-627)ELV033668523 (ELSEVIER)S1434-8411(14)00179-4 DE-627 ger DE-627 rakwb eng 004 620 004 DE-600 620 DE-600 610 VZ 370 VZ Stošić, Biljana P. verfasserin aut Design of selective CIC filter functions 2014transfer abstract 3 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. FIR filters Elsevier CIC filters Elsevier selective filters Elsevier Linear phase Elsevier Pavlović, Vlastimir D. oth Enthalten in Elsevier Editorial Board 2016 München (DE-627)ELV019902425 volume:68 year:2014 number:12 pages:1231-1233 extent:3 https://doi.org/10.1016/j.aeue.2014.07.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U AR 68 2014 12 1231-1233 3 045F 004 |
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Elektronische Aufsätze |
| author-letter |
Stošić, Biljana P. |
| doi_str_mv |
10.1016/j.aeue.2014.07.002 |
| dewey-full |
004 620 610 370 |
| title_sort |
design of selective cic filter functions |
| title_auth |
Design of selective CIC filter functions |
| abstract |
The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. |
| abstractGer |
The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. |
| abstract_unstemmed |
The aim of this letter is to provide graphs which can be used to design a novel class of selective CIC (Cascaded-Integrator–Comb) filters given insertion loss specification. The goal is to choose the free integer filter parameters such that the filter function yields a desired frequency response. To determine the filter parameters needed to satisfy the desired specifications, one can use the graphs of normalized passband and stopband cut-off frequencies versus filter order N. Two graphs, one for maximum attenuation in the passband and one for minimum attenuation in the stopband, are given here. Achieved improvement of performances of the novel class of CIC filter functions over the classical CIC filters is also given. In case of N =7, the novel class of CIC filter functions gives improvements of 27.68dB, 47.29dB and 66.53dB for different values 1, 2 and 3 of free parameter L, respectively. |
| collection_details |
GBV_USEFLAG_U GBV_ELV SYSFLAG_U |
| container_issue |
12 |
| title_short |
Design of selective CIC filter functions |
| url |
https://doi.org/10.1016/j.aeue.2014.07.002 |
| remote_bool |
true |
| author2 |
Pavlović, Vlastimir D. |
| author2Str |
Pavlović, Vlastimir D. |
| ppnlink |
ELV019902425 |
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| doi_str |
10.1016/j.aeue.2014.07.002 |
| up_date |
2024-07-06T19:09:08.506Z |
| _version_ |
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7.400649 |