An Integrated Dual-Mode Precise Bias Circuit and a Low-Noise and Wideband AFE for Fly Height Sensors in Hard Disk Drives

IF 5.2 1区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Mojtaba Mohammadi Abdevand;Dario Livornesi;Alessio Emanuelle Vergani;Francesco Piscitelli;Enrico Mammei;Edoardo Bonizzoni;Piero Malcovati;Paolo Pulici
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Abstract

This paper presents the system-level discussion, simulation design, and fabrication results of a novel analog ASIC - fabricated in 130nm BiCMOS technology - for interfacing resistive thermal sensors known as Fly Height Sensors (FHSs). FHSs are attached to the magnetic recording heads in modern hard disk drives (HDDs) to monitor the head-disk distance known as “fly height” by measuring the FHS resistance variation. The magnitude of the sensor signal serves as a measure of the proximity between the head and the disk surface which must accurately be controlled to minimize the fly height, thereby increasing the storage capacity of HDDs. The proposed interface includes two parts: 1) a dual-mode precise bias circuit that accurately provides a differential bias with a programmable common-mode voltage to the FHS in both voltage (V) and current (I) modes without requiring any calibrations, as well as featuring fast and smooth transient response, 2) front-end gain stages that create two separate signal paths with low- and high-frequency responses, called LF and HF blocks, utilized for controlling the fly height and mapping the roughness of the disk surface, respectively. The proposed bias circuit demonstrates high-impedance loading behavior on the sensor terminals in both V- and I- modes to have a unity signal gain at the sensor port and deliver it to the front-end amplifiers, resulting in an improvement of the overall noise performance of the interface. In addition, the bias noise power at the output of the LF block is suppressed to the extent of one order of magnitude thanks to deploying a noise cancellation technique. A low-noise and wide-bandwidth front-end is implemented for the HF block that eliminates the need for configuring the bias loop for having a low cutoff frequency, resulting in a reliable design with reduced complexity. Additionally, degenerated differential pairs with resistive loads, split tail currents, and Caprio’s quad offering low gain variation over the temperature and process are implemented as the front-end gain stages. The fabricated chip features an active area of 1.28 mm2with power consumption in the range of 110 to $172~mW$ for the V-mode and 78 to $107~mW$ for the I-mode, considering typical supply voltages of $+3.3\; V$ and $-2.6 \;V$ , and the sensor resistance ( $R_{SNS} = 75\; \Omega $ ) and the sensor current ( $I_{SNS}$ ) from 0.5 to $6\;mA$ .
用于硬盘驱动器飞高传感器的集成式双模精确偏置电路和低噪声宽带 AFE
本文介绍了一种新型模拟 ASIC(采用 130nm BiCMOS 技术制造)的系统级讨论、仿真设计和制造结果,该 ASIC 用于连接称为 "飞行高度传感器"(FHS)的电阻式热传感器。FHS 安装在现代硬盘驱动器 (HDD) 的磁头上,通过测量 FHS 电阻的变化来监控磁头与磁盘之间的距离,即 "飞行高度"。传感器信号的大小是磁头与磁盘表面之间距离的测量值,必须对其进行精确控制,以尽量减小飞溅高度,从而提高硬盘的存储容量。拟议的接口包括两部分:1)双模精确偏置电路,可在电压 (V) 和电流 (I) 模式下为 FHS 精确提供具有可编程共模电压的差分偏置,无需任何校准,同时具有快速、平滑的瞬态响应;2)前端增益级,可创建具有低频和高频响应的两个独立信号路径,称为低频和高频块,分别用于控制磁头高度和映射磁盘表面的粗糙度。所提出的偏置电路在 V- 和 I- 模式下对传感器终端都具有高阻抗加载行为,从而在传感器端口实现了信号增益的统一,并将其传输到前端放大器,从而改善了接口的整体噪声性能。此外,由于采用了噪声消除技术,低频模块输出端的偏置噪声功率被抑制了一个数量级。高频块采用了低噪声、宽带宽前端,无需为低截止频率配置偏置环路,从而实现了可靠的设计,降低了复杂性。此外,前端增益级还采用了带电阻负载的退化差分对、分流尾电流和 Caprio's quad,可在温度和工艺条件下实现低增益变化。考虑到典型电源电压为 $+3.3\; V$ 和 $-2.6\;V$,传感器电阻($R_{SNS} = 75\;\Omega$)和传感器电流($I_{SNS}$)为 0.5 至 $6\;mA$ ,该芯片的有效面积为 1.28 mm2,V 模式功耗范围为 110 至 $172~mW$ ,I 模式功耗范围为 78 至 $107~mW$ 。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
IEEE Transactions on Circuits and Systems I: Regular Papers
IEEE Transactions on Circuits and Systems I: Regular Papers 工程技术-工程:电子与电气
CiteScore
9.80
自引率
11.80%
发文量
441
审稿时长
2 months
期刊介绍: TCAS I publishes regular papers in the field specified by the theory, analysis, design, and practical implementations of circuits, and the application of circuit techniques to systems and to signal processing. Included is the whole spectrum from basic scientific theory to industrial applications. The field of interest covered includes: - Circuits: Analog, Digital and Mixed Signal Circuits and Systems - Nonlinear Circuits and Systems, Integrated Sensors, MEMS and Systems on Chip, Nanoscale Circuits and Systems, Optoelectronic - Circuits and Systems, Power Electronics and Systems - Software for Analog-and-Logic Circuits and Systems - Control aspects of Circuits and Systems.
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