Wide Tuning Range Gm-C Low-Pass Filter Optimization with 10 MHz Cut-off Frequency for Wireless Applications
Publish place: Signal Processing and Renewable Energy، Vol: 2، Issue: 3
Publish Year: 1397
Type: Journal paper
Language: English
View: 419
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Document National Code:
JR_SPRE-2-3_002
Index date: 14 July 2019
Wide Tuning Range Gm-C Low-Pass Filter Optimization with 10 MHz Cut-off Frequency for Wireless Applications abstract
Time continuous filters are suitable for use at medium speeds and low power consumption. One of these filters which is designed by MOSFET transistors based on CMOS technology, is the Gm-C filters that have been used in the industry for a long time. Such transistors are biased in the inverted area and creating a wide bandwidth to several hundred MHz. In this paper, we simulate the Gm-C low pass filter with a 10 MHz cut-off frequency for Bluetooth and CMOS applications with a power consumption of 110 VW for a single-volt source in wide tuning range. The use of the MOSFET and its bias in the downstream area is considered in this study in order to reduce the power consumption significantly. This operation will lead to the application of this method in wireless technology.
Wide Tuning Range Gm-C Low-Pass Filter Optimization with 10 MHz Cut-off Frequency for Wireless Applications Keywords:
Wide Tuning Range Gm-C Low-Pass Filter Optimization with 10 MHz Cut-off Frequency for Wireless Applications authors
Shima Tabakhi
Electronic , Faculty of Engineering , Islamic Azad University, South Tehran Branch , Tehran , IRAN
Farhad Razaghian
Electronic , Faculty of Engineering , Islamic Azad University, South Tehran Branch , Tehran , IRAN