数字辅助断续传导模式5V/100MHz和10V/45MHz DC-DC升压转换器集成肖特基二极管在标准0.13µm CMOS

Pengfei Li, Lin Xue, Deepak Bhatia, R. Bashirullah
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引用次数: 20

摘要

片上或封装集成升压DC-DC转换器在一个低电压过程中可以吸引更小和更轻的便携式设备由单电池供电(即,镍氢,燃料电池)。为了减小片外元件的尺寸,已经提出了高频(10到100兆赫兹)[1,2]和不连续导通模式(DCM)开关[3]。然而,当开关和整流级所需的阻塞电压高于标准器件的击穿电压时,DCM转换器的集成是具有挑战性的。这是在二极管连接MOS或CMOS控制整流器的DCM升压转换器[3]的情况下。此外,为了实现DCM的高效运行,还需要自适应死区时间控制器。在本文中,我们报告了两种高频DCM升压转换器拓扑结构,其中集成了肖特基势垒二极管(SBD)和一个标准0.13 μ m CMOS工艺中的高压同步开关。sdd的制造无需额外的处理步骤,以维持高压操作的~ 10V反向电压,从而消除了对死区时间控制器和耗电高侧驱动器的需求。第一个DC-DC转换器是一个100MHz数字辅助4相升压转换器,从1.2V电源输出240mW,输出电压范围为3至5V;第二个是45MHz混合升压转换器,从1.2V电源输出6到10v输出20mW。
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Digitally assisted discontinuous conduction mode 5V/100MHz and 10V/45MHz DC-DC boost converters with integrated Schottky diodes in standard 0.13µm CMOS
On-chip or on-package integration of step-up DC-DC converters in a low-voltage process can be attractive for smaller and lighter portable devices powered from single-cell batteries (i.e., NiMH, Fuel cells). To reduce the size of the off-chip components both high frequency (10 to 100s of MHz) [1, 2] and discontinuous-conduction-mode (DCM) switching have been proposed [3]. However, integration of DCM converters is challenging when the required blocking voltages across the switch and rectification stage is higher than the breakdown voltage of the standard devices. This is the case in both diode-connected MOS or CMOS controlled rectifiers for DCM boost converters [3]. Moreover, adaptive dead-time controllers are required for high-efficiency DCM operation. In this paper, we report two high-frequency DCM boost converter topologies with integrated Schottky Barrier Diodes (SBD) and a high voltage synchronous switch in a standard 0.13µm CMOS process. The SBDs are fabricated without additional processing steps to sustain ˜10V reverse voltage for high voltage operation, eliminating the need for dead-time controllers and power hungry high side drivers. The first DC-DC converter is a 100MHz digitally assisted 4-phase boost converter that delivers 240mW from a 1.2V supply with an output voltage range of 3 to 5V; and the second is a 45MHz hybrid boost converter delivering 20mW at 6-to-10V output from a 1.2V supply.
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