REFERENCES
- Moschytz (GS) and Thelen (W). Design of hybrid integrated filter building blocks. IEEE J. Solid-State Circuits. 5, 1970; 99–107.
- Shenoi (BA). A new technique for twin-T RC network synthesis. IEEE Trans. CAS-11, 1964; 435–436.
- Moschytz (GS), a. FEN filter design using tantalum and silicon integrated circuits. Proc. IEEE. 58, 1970; 550–566.
- Moschytz (GS). b. A general approach to twin-T design and its application to hybrid integrated linear active networks. BSTJ. 49, 1970; 1105–1149.
- Moschytz (GS). A universal low-Q filter building block suitable for hybrid integrated circuit implementation. IEEE Trans. CAS-20, 1973; 37–47.
- Kerwin (WJ). In Active filters. 1970. McGraw Hill. New York.
- Sedra (AS). A class of stable active filters using unity-gain voltage amplifiers. IEEE J. Solid-State Circuits. 7, 1972; 311–315.
- Lyman (J). A new twin-T notch filter. Electron. Design. 17, 1969; 127–128.
- Soliman (AM). New active RC configuration for realizing a medium-selectivity notch filter. Electron. Letters. 8, 1972; 522–524.
- Mitra (SK). Analysis and synthesis of linear active networks. 1969. John Wiley and Sons, New York.
- Kerwin (WJ) and Shaffer (CF). 11th Midwest Symposium on Circuit Theory. Notre Dame. 1968.
- Temes (GC) and Mitra (SK). Modern filter theory and design. 1973. John Wiley and Sons. New York.
- Shanta Pai (BH). M. S. Thesis University of California at Davis. 1971.