References
- Apex Microtechnology. (2012, March). PB50 power booster amplifier: Typical application (p. 1).
- Assi, A., Sawan, M., & Zhu, J. (1998). An offset compensated and high-gain CMOS current-feedback op-amp. IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 45(1), 85–90. doi:10.1109/81.660763
- Austin, J. (2000, November). Current feedback amplifiers: Review, stability, analysis and applications. Burr Brown Products Application Bulletin (SBOA081). Texas Instruments.
- Budak, A., Wullink, G., & Geiger, R. L. (1980). Active filters with zero transfer function sensitivity with respect to the time constants of operational amplifiers. IEEE Transactions on Circuits and Systems, CAS-27, 849–854.
- Franco, S. (2002). Design with operational amplifiers and analog integrated circuits (3rd ed.). Boston, MA: McGraw Hill.
- Geiger, R. (1977, September). Amplifiers with maximum bandwidth. IEEE Transactions on Circuits and Systems, CAS-24(9), 510–512.
- Geiger, R. L., & Budak, A. (1979). Active filters with zero amplifier sensitivity. IEEE Transactions on Circuits and Systems, CAS-26, 277–288. doi:10.1109/TCS.1979.1084631
- Gerstenhaber, M., & Tran, C. (2002, February 4). Composite instrumentation amp extends CMRR frequency range 10 times. Electronic Design online.
- Gift, S. J. G., & Maundy, B. (2005). Improving the bandwidth gain-independence and accuracy of the current feedback amplifier. IEEE Transactions on Circuits and Systems II: Express Briefs, 52(3), 136–139.
- Graeme, J. (1993). Phase compensation perks up composite amplifiers. Electronic Design, 41, 64–66.
- Ismail, A. M., & Soliman, A. M. (2000). Novel CMOS current feedback op-amp realization suitable for high frequency applications. IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 47(6), 918–921. doi:10.1109/81.852946
- Kaltoff, T., Wang, T., & Mark Stitt, R. (1991, March). Classical op amp or current-feedback op amp? This composite op amp gives you the best of both worlds. Burr-Brown Application Bulletin (SBOA002). Burr-Brown Corporation.
- Maundy, B., Gift, S., & Westwick, D. (2009). A practical near constant bandwidth amplifier. International Journal of Circuit Theory and Applications, 38(6), 577–590.
- Maundy, B. J., Sarkar, A. R., & Gift, S. J. (2006). A new design topology for low-voltage CMOS current feedback amplifiers. IEEE Transactions on Circuits and Systems II: Express Briefs, 53(1), 34–38.
- Mikhael, W., & Michael, S. (1987). Composite operational amplifiers: Generation and finite-gain applications. IEEE Transactions on Circuits and Systems, CAS-34(5), 449–460. doi:10.1109/TCS.1987.1086160
- OA-07 current feedback op amp applications guide, non-inverting composite amplifier (Report #SNOA365C) (p. 4). (2002). Dallas: Texas Instruments, National Semiconductor Corporation.
- Redmayne, D. (2002, March). A composite amplifier topology wrings more performance out of the LTC1597 16-bit current output DAC. Linear Technology Magazine.
- Schmid, R. (1994). Composite amplifier improves noise. Electronic Design, 39, 71–72.
- Stofka, M. (2008, June 12). Composite instrumentation amplifier challenges single-chip design for bandwidth, offset and noise. EDN online.
- Williams, J. (1986, July). Composite amplifiers. Linear Technology Application Note 21.
- Wojtyna, R. (1992). Composite-amplifier Wien-bridge oscillator with improved limit-cycle stability. Electronics Letters, 28(25), 2285–2286.
- Wong, J. (1987). Active feedback improves amplifier phase accuracy. Electronic Design, 32, 179–186.