一种抑制温漂的电流饿振荡器设计OA
Design of a Current-starved Oscillator with Temperature Drift Suppression
为提升振荡器的频率稳定性、温度适应性并防止振荡器锁死,文章设计了一款基于 0.18 μm BCD 工艺的抑制温漂振荡器电路.该电路采用新型反馈控制系统,将振荡输出频率转化为电压信号,并与预设基准电压实时比较,实现对振荡频率的精确调节,显著增强频率稳定性;创新性引入正温度系数(PTAT)电流至环形振荡器中,利用其温度特性动态调节电流,有效补偿高温环境下振荡频率的下降,确保全温域频率一致性;设计了独特的防锁死机制,在振荡器默认工作状态下预置大电流注入路径,起机瞬间灌注大电流以快速激活振荡器,提升了系统整体的可靠性.
To improve frequency stability,temperature adaptability,and prevent oscillator lockout,this paper designs a temperature drift suppression oscillator circuit based on 0.18 μm BCD process.This circuit employs a novel feedback control system to convert the oscillation output frequency into a voltage signal and compare it with a preset reference voltage in real time,achieving precise adjustment of the oscillation frequency and significantly enhancing frequency stability.A Proportional to Absolute Temperature(PTAT)current is innovatively introduced into the ring oscillator,utilizing its temperature characteristics to dynamically adjust the current,effectively compensating for the decline of oscillation frequency in high-temperature environments and ensuring frequency consistency across the full temperature range.A unique anti-lockup mechanism is designed to preset a large current injection path in the default working state of the oscillator,injecting a large current at the moment of startup to quickly activate the oscillator,which improves the overall reliability of the system.
陶亮
涟花智砚(广州)有限公司,广东 广州 510663
信息技术与安全科学
振荡器频率-电压转换控制辅助温度补偿防锁死-唤醒
oscillatorfrequency-to-voltage conversion controlauxiliary temperature compensationanti-lock-wake-up
《现代信息科技》 2026 (7)
20-24,5
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