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DESIGN EQUIVALENT CIRCUIT HIGH-PASS FILTER FOR CIRCUIT BROADBAND CMOS FREQUENCY TRIPLE USING MENTOR GRAPHICS Veronica Ernita Kristianti Outlines • • • • • • Background Problem Definitions Research Methods Result and Analysis Conclusion Future Work 2 Background • Currently, Complementary Metal Oxide System (CMOS) technology are widely used in many kinds of applications, – e.g. "A Broadband CMOS Frequency Tripler Using a Third-Harmonic Enhanced Technique" [18]. • Implementation of Broadband CMOS Frequency Tripler: Figure 1.1: Block Diagram Implementation Circuit that uses CMOS Technology 3 Background • High-pass filter used in the previous series is LC filter. In designing the filter, the use of inductor (L) are sometimes avoided: – the size is huge – the production cost is high • So, it is important to have equivalent circuit design of high-pass filter LC. 4 Problem Definitions • What does the equivalent circuits high-pass filter LC look like? • What is the result of circuit simulation after the LC high-pass filter series is substituted with the similar LC high-pass filter using software Mentor Graphics? • Is there any differences between the circuit simulation results before and after the LC high-pass filter series are substituted with the similar sequences? 5 Research Methods 6 Research Methods • Study of literature: to investigate the suitable values of nMOS and pMOS in establishing CMOS. • investigate value of parameters of other component such as capacitor, inductor, and resistor. • Design: – Input Stage, – Nonlinear Combiner, – High-pass Filter, – output Buffer, combining series that has been designed. • For each design, I always perform simulation using Mentor Graphics so that the output of each design can be checked its validity. 7 Result and Analysis Original Circuit Broadband CMOS Frequency Tripler [18] 8 Output Original Circuit Broadband CMOS Frequency Tripler (a) the input fundamental waveform V1, (b) the inverted waveform V2, and (c) the nonlinear combination of the input waveform and the inverted waveform.[18] (a) Simulated/measured input waveform. (b) Simulated output waveform. (c) Measured output waveform. [18] 9 Circuit Broadband CMOS Frequency Tripler Using High-pass Filter LC in Mentor Graphic 10 Voltage Output Current Output 11 Analysis • High-pass filter LC gave the same voltage output and current output as expected: – Using L = 15 nH and C2 = C3 = C = 10 pF, with NMOS and PMOS to Ln = Lp = 0.35 μm, Wn = Wp = 0.4 μm. • For other parameters, the results are less appropriate. 12 Circuit Broadband CMOS Frequency Tripler Using High-pass Filter LC (L is replaced by Spiral Inductor) 13 Voltage Output Current Output 14 Analysis • If L is replaced by spiral inductor gave the same voltage output and current output as expected: – Using C2 = C3 = 10 pF, with NMOS and PMOS to Ln = Lp = 0.35 μm, Wn = Wp = 0.4 μm. 15 Circuit Broadband CMOS Frequency Tripler Using High-pass Filter RC 16 Voltage output Current output 17 Analysis • By replacing high-pass filter LC with RC: resulted voltage output and current output are the same. • Using C1 = C2 = C3 = C4 = 1 uF and R1 = R2 = R3 = 4.3 ohm, with NMOS and PMOS to Ln = Lp = 0.35 μm, Wn = 0.69 μm, Wp = 2.97 μm • Inverter 2 should be equal to 4 times of inverter 1. (Other combination values of inverter 1 and 2 will give unexpected results). 18 Conclusion (1) • Because of its size, the use of inductor is often avoided on filter designs. On the other hand, inductors are very important in obtaining noiseless current and voltage. Therefore, it is very important to find substitute for such inductors. A series of Highpass filter RC (without inductor) is one candidate of a substitute for a series of High-pass filter LC (with inductor). 19 Conclusion (2) • Experiment results show that a series of Highpass filter RC can be used as a substitute for a series of High-pass filter LC. – Because the size of RC is much smaller than LC, RC will need less cost than LC. Thus, the cost of production can be pressed. 20 Conclusion (3) • However, the experiment results also show that, output quality of high-pass filter LC (either as inductor active or as spiral inductor) is still better than RC . 21 Future Work Designing a better High-pass filter RC, with a better quality of output 22 Thank You 23