Skip to main content
Fachgebiete
Automobil + Motoren Bauwesen + Immobilien Business IT + Informatik Elektrotechnik + Elektronik Energie + Nachhaltigkeit Finance + Banking Management + Führung Marketing + Vertrieb Maschinenbau + Werkstoffe Versicherung + Risiko
DE
EN
Bücher
Zeitschriften
Themenseiten
Organisationspsychologie Projektmanagement Marketing Smart Manufacturing
Weitere Formate
Podcasts Webinare Technik Webinare Wirtschaft Kongresse Veranstaltungskalender Awards
Jetzt Einzelzugang starten
Zugang für Unternehmen
Referenzkunden
SLX-Digitalkonferenz: Zukunftswerkstatt 2024

Mehr Umsatz mit Top-Kontakten

Am 7. Mai erfahren Sie, wie Vertriebsteams Leadgenerierung, Leadnurturing und Leadstrategien effizient steuern können.
Erweiterte Suche
Anmelden
nach oben
Erschienen in:
The Evolution and the History of Current Conveyors Kapitel lesen Erstes Kapitel lesen

2015 | OriginalPaper | Buchkapitel

11. Other Building Blocks Having MTC or CC at Front-end and Their Applications

verfasst von : Raj Senani, D. R. Bhaskar, A. K. Singh

Erschienen in: Current Conveyors

Verlag: Springer International Publishing

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config
loading …

Abstract

There have been a number of disclosures of new building blocks which have either the mixed-translinear-cell (MTC) or the CC at the front-end and more often than not have more than three terminals thereby providing additional flexibility and versatility in devising various functional circuits. This chapter presents a number of such building blocks. In each case, typical hardware implementation of such building blocks, along with their most significant applications, have also been highlighted.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Jetzt informieren
Vorheriges Kapitel Varieties of Current Conveyors
Nächstes Kapitel Analog Filter Design Revisited: Circuit Configurations Using Newer Varieties of CCs
Fußnoten
1
An exhaustive review of various existing analog circuit building blocks as well as several new possible building blocks was presented in: Biolek et al. [1].
 
2
For an interesting article demonstrating how the basic CCII+ (AD844) can be used to realize a variety of CCs and other related building blocks, see [2].
 
Literatur
1.
Biolek D, Senani R, Biolkova V, Kolka Z (2008) Active elements for analog signal processing: classification, review and new proposals. Radioengineering 17:15–32
2.
Erkan Y, Minaei S, (2007) Realization of various active devices using commercially available AD844s and external resistors. Electron World 113:46–49
3.
Siripruchyanun C, Silapan J (2008) BiCMOS current-controlled current feedback amplifier (CC-CFA) and its applications. WSEAS Trans Electron 6:203–219
4.
Huijsing JH, Korte D (1977) Monolithic nullor-a universal active network element. IEEE J Solid State Circ 21:59–64CrossRef
5.
Huijsing JH (1990) Operational floating amplifier. IEE Proc 137:131–136
6.
Nordholt EH (1982) Extending op-amp capabilities by using a current- source power supply. IEEE Trans Circ Syst 29:411–414CrossRef
7.
Senani R (1987) A novel application of four terminal floating nullor. Proc IEEE 75:1544–1546CrossRef
8.
Stevenson JK (1984) Two-way circuits with inverse transmission properties. Electron Lett 20:965–967CrossRef
9.
Hou CL, Yean R, Chang CK (1996) Single-element controlled oscillators using single FTFN. Electron Lett 32:2032–2033CrossRef
10.
Liu SI (1997) Single-resistance-controlled sinusoidal oscillator using two FTFNs. Electron Lett 33:1185–1186CrossRef
11.
Wang HY, Lee CT (1998) Realization of R-L and C-D immittances using single FTFN. Electron Lett 34:502–503CrossRef
12.
Abuelma’atti MT, Al-Zaher HA (1999) Current mode quadrature sinusoidal oscillators using two FTFNs. Frequenz 53:27–30
13.
Abuelma’atti MT, Al-Zaher HA (1999) Current-mode sinusoidal oscillators using single FTFN. IEEE Trans Circ Syst-II 46:69–74CrossRef
14.
Cam U, Cicekoglu O, Kuntman H (2000) Universal series and parallel immittances simulators using four terminal floating nullors. Analog Integr Circ Sig Process 25:59–66CrossRef
15.
Cam U, Toker A, Cicekoglu O, Kuntman H (2000) Current-mode high output impedance sinusoidal oscillator configuration employing single FTFN. Analog Integ Circ Sig Process 24:231–238CrossRef
16.
Cam U, Cicekoglu O, Kuntman H (2001) Novel lossless floating immittance simulator employing only two FTFNs. Analog Integ Circ Sig Process 29:233–235CrossRef
17.
Lee CT, Wang H-Y (2001) Minimum realization for FTFN-based SRCO. Electron Lett 37:1207–1208CrossRef
18.
Shah NA, Malik MA (2005) High impedance voltage-and current-mode multifunction filters. Int J Electron Commun (AEU) 59:262–266CrossRef
19.
Malik MA (2010) Current/voltage-mode universal filter using FTFNs. J Franklin Inst 347:523–532CrossRefMATH
20.
Fakhfakh M, Pierzchala M, Rodanski B (2012) On the design of active inductors with current-controlled voltage sources. Analog Integ Circ Sig Process 73:89–98CrossRef
21.
Kumar P, Senani R (2002) Bibliography on nullors and their applications in circuit analysis, synthesis and design. Analog Integr Circ Sig Process 33:65–76CrossRef
22.
Senani R, Singh AK, Kumar P, Sharma RK (2013) Nullors, their bipolar and CMOS implementations and applications in Analog circuit synthesis and design. Integr Circ Analog Sig Process: 31–59
23.
Lo YK, Chien HC, Chiu HJ (2008) Switch-controllable OTRA-based bistable multivibrators. IET Circ Devices Syst 2:373–382CrossRef
24.
Chen JJ, Tsao HW, Liu SI, Chiu W (1995) Parasitic-capacitance-insensitive current-mode filters using operational transresistance amplifiers. IEE Proc Circ Devices Syst 142:186–192CrossRef
25.
Cam U, Kacar F, Cicekoglu O, Kuntman H, Kuntman A (2004) Novel Two OTRA-based grounded immittance simulator topologies. Analog Integ Circ Sig Process 39:169–175CrossRef
26.
Lo YK, Chien HC, Chiu HJ (2010) Current-input OTRA Schmitt trigger with dual hysteresis modes. Int J Circ Theor Appl 38:739–746CrossRefMATH
27.
Acar C, Ozoguz S (1999) A new versatile building block: current differencing buffered amplifier suitable for analog signal processing filters. Microelectron J 30:157–160CrossRef
28.
Jaikla W, Siripruchyanun M (2006) Novel current-mode four –quadrant multiplier/divider based on current controlled CDBAs (CCCDBAs). In: ECTI-CON 2006 international conference, Ubon Ratchathani, Thailand, pp 509–512
29.
Silapan P, Jaikla W, Siripruchyanun M (2007) High-performance Bi-CMOS current controlled CDBA and applications. (ISCIT-2007):40–43
30.
Jaikla W, Siripruchyanun M (2006) Current controlled CDBAs based-novel floating and grounded negative inductance simulators. In: The 21st international technical conference on circuits and systems, computer and communication, Chiangmai, Thailand, pp III701–704
31.
Lahiri A, Chowdhury A (2011) Four quadrant analog multiplier using dual-current-controlled current differencing buffered amplifier. J Circ Syst Comput 20:223–231CrossRef
32.
Koksal M, Sagbas M (2007) General synthesis procedure for nth-order current transfer function using CDBA. Frequenz 61:94–101CrossRef
33.
Tangsrirat W, Surakampontorn W (2009) Electronically tunable quadrature oscillator using current-controlled current differencing buffered amplifiers. J Active Passiv Electron Devices 4:163–174
34.
Tangsrirat W, Prasertsom D, Surakampontorn W (2008) Low-voltage digitally controlled current differencing buffered amplifier and its application. Int J Electron Commun (AEU) 63:249–258CrossRef
35.
Biolek D, Bajer J, Biolkova V, Kolka Z, Kubicek M (2011) Z copy-controlled gain-current differencing buffered amplifier and its applications. Int J Circ Theor Appl 39:257–274CrossRef
36.
Metin B, Pal K, Cicekoglu O (2011) CMOS-controlled inverting CDBA with a new all-pass filter application. Int J Circ Theor Appl 39:417–425CrossRef
37.
Khateb F, Jaikla W, Kubanek D, Khatib N (2013) Electronically tunable voltage-mode quadrature oscillator based on high performance CCCDBA. Analog Integ Circ Sig Process 74:499–505CrossRef
38.
Biolek D, Lahiri A, Jaikla W, Siripruchyanun BB (2013) Realizations of electronically tunable voltage-mode/current-mode quadrature Sinusoidal oscillator using ZC-CG-CDBA. Microelectron J 42:1116–1123CrossRef
39.
Bashir SA, Shah NA (2012) Voltage-mode universal filter using current differencing copy current controlled current differencing buffered amplifier. Int J Electron Electr Eng 2:229–234
40.
Dabbous SBA, Alsibai Z (2014) Ultra low voltage low power bulk driven Z copy current controlled current differencing buffered amplifier. Int J Electron Elect Eng 2:229–234CrossRef
41.
Biolek D (2003) CDTA-building block for current-mode analog signal processing. In: Proceedings of ECCTD 03, Krakow, Poland, pp 397–400
42.
Siripruchyanun M, Jaikla W (2008) A current-mode analog multiplier/divider based on CCCDTA. Int J Electron Commun 62:223–227CrossRef
43.
Sakul C, Jaikla W, Dejhan K (2011) New resistorless current-mode quadrature oscillators using 2 CCCDTAs and grounded capacitors. Radioengineering 20:594–599
44.
Li Y (2012) A new single MCCCDTA based Wien-bridge oscillator with AGC. Int J Electron Commun(AEU) 66:153–156CrossRef
45.
Silapan P, Siripruchyanun M (2011) Fully and electronically controllable current-mode Schmitt trigger employing only single MO-CCCDTA and their applications. Analog Integr Circ Sig Process 68:111–128CrossRef
46.
Jaikla W, Lahiri A (2012) Resistor-less current-mode four-phase quadrature oscillator using CCCDTAs and grounded capacitors. Int J Electron Commun (AEU) 66:214–218CrossRef
47.
Jaikla W, Siripruchyanun M (2009) High output impedance current-mode universal biquadratic filter using CCCDTAs. J KMUTNB 19:136–143
48.
Siripruchyanun M, Jaikla W (2009) Current-controlled current differencing transconductance amplifier and applications in continuous-time signal processing circuits. Analog Integr Circ Sig Process 61:247–257CrossRef
49.
Siripruchyanun M, Jaikla W (2008) Electronically controllable current-mode universal biquad filter using single DO-CCCDTA. Circ Syst Sig Process 27:113–122CrossRef
50.
Siripruchyanun M, Jaikla W (2008) CMOS current-controlled current differencing transconductance amplifier and applications of analog signal processing. Int J Electron Commun 62:277–287CrossRef
51.
Silapan P, Srisakul T, Jaikla W, Siripruchyanun M (2007) CCCDTA-based filtillator. EECON-30:909–912
52.
Siripruchyanun M, Jaikla W (2007) Implementation of CMOS current controlled current differencing transconductance amplifier and its applications. IEEE CAS Society Thailand: 3–7
53.
Siripruchyanun M, Jaikla W (2007) Realization of current controlled current differencing transconductance amplifier (CCCDTA) and its applications. ECTI Trans Electr Eng Electron Commun 5:41–50
54.
Jaikla W, Siripruchyanun M (2006) Current controlled current differencing transconductance amplifier (CCCDTA): a new building block and its applications. In: The 2006 ECTI international conference, Ubon Ratchathani, Thailand, pp 348–351
55.
Jaikla W, Siripruchyanun M (2006) A versatile quadrature oscillator and universal biquad filter using dual-output current controlled current differencing transconductance amplifier. ISCIT 2006:1072–1075
56.
Jaikla W, Siripruchyanun M (2007) 3 Input/2 Output current-mode universal biquad filter using single DO-CCCDTA. ECTI-CON: 69–72
57.
Jaikla W, Prommee P (2011) Electronically tunable current-mode multiphase sinusoidal oscillator employing CCCDTA-based all pass filters with only grounded passive elements. Radioengineering 20:594–599
58.
Xu J, Wang C, Jin J, Xia Z (2014) Low-voltage high-linearity wideband current differencing transconductance amplifier and its application on current-mode active filter. Radioengineering 23:512–522
59.
Pandey N, Pandey R (2013) Current mode full-wave rectifier based on a single MZC-CDTA. Active Passive Electron Comp 2013:1–5
60.
Khateb F, Vavra J, Biolek D (2010) A novel current-mode full-wave rectifier based on one CDTA and two diodes. Radioengineering 19:437–445
61.
Li Y (2012) A novel current-mode multiphase sinusoidal oscillator using MO-CDTAs. Int J Electron 99:477–489CrossRef
62.
Jin J, Wang CH (2014) Current-mode universal filter and quadrature oscillator using CDTAs. Turk J Electr Eng Comp Sci 22:276–286CrossRef
63.
Jin J (2013) Current-mode resistorless SIMO universal filter and four-phase quadrature oscillator. Int J Electr Electron Sci Eng 7:96–101
64.
Jin J, Wang C (2012) Single CDTA-based current-mode quadrature oscillator. Int J Electron Commun 66:933–936CrossRef
65.
Jin J, Wang C (2014) CDTA-based electronically tunable current-mode quadrature oscillator. Int J Electron 101:1086–1095CrossRef
66.
Tangsrirat W, Pukkalanun T, Mongkolwai P, Surakampontorn W (2011) Simple current-mode analog multiplier, divider, square-rooter and squarer based on CDTAs. Int J Electron Commun 65:198–203CrossRef
67.
Tangsrirat W, Tanjaroen W, Pukkalanun T (2009) Current-mode multiphase sinusoidal oscillator using CDTA-based all pass sections. Int J Electron 63:616–622CrossRef
68.
Prasad D, Bhaskar DR, Singh AK (2008) Realization of single resistance controlled sinusoidal oscillator: a new application of CDTA. WSEAS Trans Electron 5:257–259
69.
Biolek D, Hancioglu E, Keskin AU (2008) High performance current differencing transconductance amplifier and its application in precision current mode rectification. Int Electron Commun 62:92–96CrossRef
70.
Lahiri A, Chowdhary A (2009) A novel first-order current mode all pass filter using CDTA. Radioengineering 18:300–305
71.
Tuntrakool A, Supavarsuwat P, Jaikla W (2012) Current-tunable current-mode first order all pass section with gain controllability using CCCDTAs. Recent Adv Commun Circ Technology Innovation, Paris, France: 208–212
72.
Chien HC, Wang JM (2013) Dual mode resistorless sinusoidal oscillator using single CCCDTA. Microelectron J 44:216–224CrossRef
73.
Jaikla W, Khateb F, Siripongdee S, Supavarasuwat P (2013) Electronically tunable current mode biquad filter employing CCCDTA and grounded capacitors with low input and high output impedance. Int J Electron J Commun 67:1005–1009CrossRef
74.
Siripruchyanun M, Jaikla W (2008) Current controlled current conveyor transconductance amplifier (CCCCTA): a building block for analog signal processing. Electr Eng 90:443–453CrossRef
75.
Siripruchyanun M, Silapan P, Jaikla W (2009) Realization of CMOS current controlled current conveyor transconductance amplifier (CCCCTA) and its applications. J Active Passiv Electron Devices 4:35–53
76.
Siripruchyanun M, Phattanasak M, Silapan P, Jaikla W (2007) Design of CMOS current controlled current conveyor transconductance amplifier (CCCCTA) and its application. J KMITNB 17:2
77.
Silapan P, Tanaphatsiri C, Siripruchyanun M (2008) Current controlled CCTA based-novel grounded capacitance multiplier with temperature compensation. In: Proceedings of IEEE Asia-Pacific conference on circuits and systems, Uttaradit Rajabhat University, Uttaradit, pp 1490–1493
78.
Maheshwari S, Singh SV, Chauhan DS (2011) Electronically tunable low-voltage mixed-mode universal biquad filter. IET Circ Devices Syst 5:149–158CrossRef
79.
Mangkalakeeree S, Duangmalai D, Siripruchyanun M (2009) Current-mode KHN filter using single CC-CCTA. In: The 7th PSU engineering conference, Songkla, Thailand, pp 306–309
80.
Jaikla W, Siripruchyanun M (2008) Voltage-mode universal filter based on single CCCCTA. In: The 6th PSU engineering conference, Songkla, Thailand, 242–245
81.
Jaikla W, Siripongdee S, Suwanjan P (2012) MISO current-mode biquad filter with independent control of pole frequency and quality factor. Radioengineering 21:886–891
82.
Jaikla W, Noppakarn A, Lawanwisut S (2012) New gain controllable resistor-less current-mode first order-all pass filter and its application. Radioengineering 21:312–316
83.
Singh SV, Maheshwari S (2012) Current-processing current-controlled universal biquad filter. Radioengineering 21:317–323
84.
Lawanwisut S, Siripruchyanun M, Jaikla W (2013) An active only temperature-insensitive current-mode biquad filter based on differentiator structures employing CCCCTAs. Circ Syst 4:280–286CrossRef
85.
Tomar RS, Singh SV, Chauhan DS (2013) Current processing current tunable universal biquad filter employing two CCTAs and two grounded capacitors. Circ Syst 4:443–450CrossRef
86.
Sotner R, Jerabek J, Prokop R, Vrba K (2011) Current gain controlled CCTA and its application in quadrature oscillator and direct frequency modulator. Radioengineering 20:317–326
87.
Herencsar N, Koton J, Vrba K (2010) Realization of current-mode KHN equivalent biquad using current follower transconductance amplifiers (CFTAs). IEICE Trans Fundam 93-A:1816–1819CrossRef
88.
Herencsar N, Koton J, Vrba K, Misurec J (2009) A novel current-mode SIMO type universal filter using CFTAs. Contemp Eng Sci 2:59–66
89.
Herencsar N, Koton J, Vrba K, Lahiri A, Cicekoglu O (2010) Current-controlled CFTA based current-mode SITO universal filter and quadrature oscillator. In: International conference on applied electron, University of West Bohemia, Pilsen
90.
Tangsrirat W (2014) SFG synthesis of general high-order all-pass and all-pole current transfer functions using CFTAs. Sci World J 2014:Article ID 271926,8p
91.
Herencsar N, Vrba K, Koton J, Lahiri A (2010) Realization of single resistance controlled quadrature oscillators using a generalized current follower transconductance amplifier and a unity gain voltage follower. Int J Electron 97:897–906CrossRef
92.
Li Y (2012) A series of new circuits based in CFTAs. Int J Electron Commun 66:587–592CrossRef
93.
Nie X, Pan Z (2013) Multiple-input single output and high output impedance current mode biquadratic filter employing five modified CFTAs and two grounded capacitors. Microelectron J 44:802–806CrossRef
94.
Li Y (2014) Electronically tunable current biquadratic filter and four phase quadrature oscillator. Microelectron J 45:330–335CrossRef
95.
Pandey N, Kumar P, Choudhary J (2013) Current controlled differential difference current conveyor transconductance amplifier and its application as wave active filter. Hindawi Publishing Corporation, NY, USA
96.
Channumsin O, Pukkalanun T, Tangsrirat W (2012) Voltage-mode universal filter with one input and five outputs using DDCCTAs and all-grounded passive components. Microelectron J 43:555–561CrossRef
97.
Herencsar N, Lahiri A, Koton J, Vrba K, Metin B (2012) Realization of resistorless lossless positive and negative grounded inductor simulators using single ZC-CCCITA. Radioengineering 21:264–272
98.
Jaikla W, Siripruchyanun M, Lahiri A (2011) Resistorless dual-mode quadrature sinusoidal oscillator using a single active building block. Microelectron J 42:135–140CrossRef
99.
Channumsin O, Tangsrirat W (2013) Single-input four-output voltage-mode universal filter using single DDCCTA. Microelectron J 44:1084–1091CrossRef
100.
Pandey N, Arora S, Takkar R, Pandey R (2012) DVCCCTA-based implementation of mutually coupled circuit. ISRN Electronics Article ID 303191, 6p
101.
Pandey N, Kumar P (2011) Realization of resistorless wave active filter using differential voltage current controlled conveyor transconductance amplifier. Radioengineering 20:911–916
102.
Chien HC, Chen YC (2014) CMOS realization of single resistance controlled and variable frequency dual mode sinusoidal oscillators employing a single DVCCTA with all grounded passive components. Microelectron J 45:226–238CrossRef
103.
Tangsrirat W, Channumsin O, Pukkalanun T (2013) Resistorless realization of electronically tunable voltage-mode SIFO type universal filter. Microelectron J 44:210–215CrossRef
104.
Laoudias C, and Psychalinos C (2013) Comparative study of resistor less filters using ifferential voltage current controlled current feedback operational amplifiers and differential voltage current controlled current conveyors. ISRN Electron 2013, Article ID 910170, 7p
105.
Ayten UE, Sagbas M, Sedef H (2012) Electronically tunable sinusoidal oscillator circuit with current and voltage output. Int J Electron 99:1133–1144CrossRef
106.
Ayten UE, Sagbas M, Sedef H (2010) Current mode leapfrog ladder filters using a new active building block. Int J Electron Commun 64:503–511CrossRef
107.
Pisutthipong N, Siripruchyanun M (2009) A novel simple current-mode multiplier/divider employing only single multiple-output current controlled CTTA. In: Proceedings of TENCON IEEE region 10th annual international conference, University of Technology, Khonkaen
Metadaten
Titel
Other Building Blocks Having MTC or CC at Front-end and Their Applications
verfasst von
Raj Senani
D. R. Bhaskar
A. K. Singh
Copyright-Jahr
2015
Buch
Current Conveyors

Print ISBN: 978-3-319-08683-5

Electronic ISBN: 978-3-319-08684-2

Copyright-Jahr: 2015

DOI
https://doi.org/10.1007/978-3-319-08684-2_11

Neuer Inhalt

    Bildnachweise