Realization of low-voltage modified CBTA and design of cascadable current-mode all-pass filter
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KünyeAyten, U. E., Sağbaş, M., & MinaeiI, S. (2014). Realization of low-voltage modified CBTA and design of cascadable current-mode all-pass filter. Radioengineering, 23(1), 523-531.
In this paper, a low voltage modified current backward transconductance amplifier (MCBTA) and a novel first-order current-mode (CM) all-pass filter are presented. The MCBTA can operate with +/- 0.9 V supply voltage and the total power consumption of MCBTA is 1.27 mW. The presented all-pass filter employs single MCBTA, a grounded resistor and a grounded capacitor. The circuit possesses low input and high output impedances which make it ideal for current-mode systems. The presented all-pass filter circuit can be made electronically tunable due to the bias current of the MCBTA. Non-ideal study along with simulation results are given for validation purpose. Further, an nth-order cascadable all-pass filter is also presented. It uses n MCBTAs, n grounded resistors and n grounded capacitors. The performance of the proposed circuits is demonstrated by using PSPICE simulations based on the 0.18 mu m TSMC level-7 CMOS technology parameters.