CMOS ring oscillator delay cell performance: a comparative study

Hadi, D. Abd; Jidin, Auzani; Wahab, Norfariza Ab; Madiha, Z; Mutalib, Nurliyana Abd; Johari, Siti Halma; Ahmad, Suziana; Nuzaimah, M.

doi:10.11591/ijece.v9i3.pp1757-1764

Cited by 3 publications

(3 citation statements)

References 32 publications

(51 reference statements)

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“…These oscillators can be used in many applications such as clock generation for digital electronics, switching waveform for switch mode power supply. Wien bridge oscillator is mostly used for about 1 MHz range [8]. LC oscillator can be used for high frequency in most applications of electronic and communication circuits and systems [9,10].…”

Section: Introductionmentioning

confidence: 99%

“…By sub (8). in(6) 48 I B -0.163 x 10 -3 -39 I B = I B 48 I B -39 I B -IB = 0.163 mA 8 I B = 0.163 mA I B = 0.0204 mA, I B = 20.4 µA I b1 = 48 I B = 48 x 20.4 µA = 0.0979 mA Ic = β I B = 156 x 20.4 µA 3.2 mA By applying KVL on base circuit of Figure 2 so that: kΩ Applying KVL on collector circuit of Figure 1 so that: VCE = Vcc -Ic (Rc + R E ) VCE = 3.5 v 3.5 = 12 -βI B (Rc + R E ) βI B (Rc + R E ) = 12-3.5 156 x 0.0204 x 10 -3 (Rc + 1 kΩ) = 12 -3.5 3.1824 + 3.1824 Rc x 10 -3 = 8.5 3.1824 Rc x 10 -3 = 8.5 -3.1824 = 5.3176 Rc = = 1.6709 kΩFinally, the complete circuit of proposal design is clear inFigure 3.…”

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confidence: 99%

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Design and simulation of high frequency colpitts oscillator based on BJT amplifier

Humood¹,

Imran²,

Taha³

2020

IJECE

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Frequency oscillator is one of the basic devices that can be used in most electrical, electronics and communications circuits and systems. There are many types of oscillators depending on frequency range used in an application such as audio, radio and microwave. The needed was appeared to use high and very high frequencies to make the rapid development of advanced technology Colpitts oscillator is one of the most common types of oscillator, it can be used for radio frequency (RF), that its output signal is often utilized at the basic of a wireless communication system in most application. In this research, a Colpitts oscillator is comprised from a bipolar junction transistor (BJT) amplifier with <strong>LC</strong> tank. This design is carrying out with a known Barkhausen criterion for oscillation. Firstly, is carried out using theoretical calculation. The secondary is carried out using simulation (Multisim 13). All the obtained result from the above two approaches are 10 MHz and 9.745 MHz respectively. This result is seen to be very encouraging.

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Section: Introductionmentioning

confidence: 99%

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confidence: 99%

Design and simulation of high frequency colpitts oscillator based on BJT amplifier

Humood¹,

Imran²,

Taha³

2020

IJECE

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“…So, large-signal analysis is needed for accurate calculations of the steady-state behavior of the oscillator (Oukaira et al, 2017). So delay calculations are the most important part of ring oscillator analysis (Zafarkhah et al, 2017;Suman et al, 2016;Qiu et al, 2017;Hadi et al, 2019;. The frequency oscillation value is determined only by delay times of inverters and a number of stages.…”

Section: Introductionmentioning

confidence: 99%

High-performance combined ring oscillators

Soltani

Khatib

Chabok

2020

COMPEL

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Purpose The purpose of this paper is to investigate a more robust ring oscillator. Less sensitivity to power supply variations is a target. This is important since low-quality ring oscillators could be exploited in numerous systems to reduce die costs. Design/methodology/approach The method in this work is large signal analysis. Delay time as the large signal parameter is calculated symbolically to explore dependency on a power supply voltage. Then simulations are performed to make a comparison. In this work, mathematical justifications are verified via HSPICE circuit simulator outputs, while 0.18 µm TSMC CMOS technology is exploited. Findings At least two combined configurations are presented with higher robustness. These circuits are more appropriate in noisy conditions. Both theoretical calculations and simulation results verify less sensitive oscillation against supply voltage ripples and temperature variations. Originality/value Introducing a band-switched inverter in combined configurations is contribution. In this way, three structures are presented which both show higher stability in oscillation frequency. The band switched delay time calculations are quite new and also the validity of the symbolical delay time approach is verified by circuit simulations.

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