An Integrated LC Oscillator with Self Compensation for Frequency Drift and PVT Corners Variations

Zangpo, Jigme; Póvoa, Ricardo; Guilherme, Jorge; Horta, Nuno

doi:10.1109/icecs.2018.8618027

Cited by 3 publications

(2 citation statements)

References 7 publications

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“…A wide-bandwidth amplifier without high-impedance nodes is designed to achieve RF-level bandwidth. The fully differential form of dual-in-dual-out (DIDO) is used to suppress low-frequency common-mode signals effectively [19]. For low-frequency inputs, the single-side circuit can be equated to a common-source pole amplifier circuit with a PMOS diode connection as the load, and the gain can be calculated by Equation (1).…”

Section: Receivermentioning

confidence: 99%

A 25 Mbps 15 ns Propagation Delay 150 kV/μs CMTI Configurable Dual-Channel Capacitive Digital Isolation Driver

Zhao,

Wang,

Chen

et al. 2024

Micromachines

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Electrical isolation devices are essential components for safeguarding the reliability of electronic systems under harsh conditions. Digital isolators are widely used in low-power circuits due to their high immunity to disturbances. In this paper, a capacitive digital isolator for high-efficiency power supply scenarios is proposed with a high common-mode transient immunity (CMTI) and high data transmission rate. The on–off keying (OOK) modulation technique is used to ensure a high speed and accurate signal transmission. A fully integrated high-voltage level-shift driver with an ns-scale delay is proposed for increasing the drive capacity. Post-simulation results in Cadence IC 6.1.7 with the standard 0.18 μm CMOS process show that the proposed architecture achieves a 25 Mbps data transmission rate and 15 ns typical propagation delay with output peak currents of 2 A/4 A, respectively. Meanwhile, a CMTI of more than 150 kV/μs is realized.

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Section: Receivermentioning

confidence: 99%

A 25 Mbps 15 ns Propagation Delay 150 kV/μs CMTI Configurable Dual-Channel Capacitive Digital Isolation Driver

Zhao,

Wang,

Chen

et al. 2024

Micromachines

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“…The oscillators reported in [14] are designed to be highly stable, with a frequency drift of less than 1 ppm/°C. The oscillators are also designed to be low power, with less than 1 mW of power usage.…”

Section: Lc Oscillatormentioning

confidence: 99%

A PVT tolerant voltage-controlled oscillator for automotive applications

Chen¹

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This thesis focusses on the development of an integrated oscillator for automotive applications. The oscillator operates based on the Barkhausen criterion, which is a mathematical requirement used in electronics to predict whether a linear electronic circuit will oscillate. In this thesis, a voltage-controlled oscillator is designed for increased performance under various process, voltage and temperature (PVT) conditions. By applying a voltage reference block, the output frequency of 0.5MHz, 0.75MHz, 1MHz or 1.25MHz can be obtained. In order to compensate for the variations at PVT corners, the trimming technology is applied to increase the accuracy. The supply voltage is considered to be varying between 2.1V and 5.5V while the temperature range is -40oC -125oC.

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Voltage Reference and Zero Current Detector Monolithically Integrated on p-GaN Technology Designed for Process Corners Compensation

Bau,

Gavira-Duque,

Rothan

et al. 2023

2023 IEEE Applied Power Electronics Conference and Exposition (APEC)

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An Integrated LC Oscillator with Self Compensation for Frequency Drift and PVT Corners Variations

Cited by 3 publications

References 7 publications

A 25 Mbps 15 ns Propagation Delay 150 kV/μs CMTI Configurable Dual-Channel Capacitive Digital Isolation Driver

A 25 Mbps 15 ns Propagation Delay 150 kV/μs CMTI Configurable Dual-Channel Capacitive Digital Isolation Driver

A PVT tolerant voltage-controlled oscillator for automotive applications

Voltage Reference and Zero Current Detector Monolithically Integrated on p-GaN Technology Designed for Process Corners Compensation

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