| Abstract: | Conventionally, a high accuracy operational amplifier (OPA)‐based current sensor is used for sensing current message under a full load range, which increases the cost characteristic. Instead of a high accuracy OPA‐based current sensor, this paper describes using a switching inductor quasi‐V2 hysteretic control boost dc–dc regulator with a proposed current‐sensing technique named emulated‐ramp feedback (ERF), which can improve transfer efficiency under a full load range. Two control systems are presented in this paper. The first system, a hysteretic voltage control switching boost converter with ERF, achieves the hysteretic voltage control in a boost regulator and lowers the cost characteristic without using compensator. The second system, a quasi‐V2 hysteretic voltage control switching boost converter with ERF, demonstrates the compatibility of ERF technique in rippled‐based control boost converters. The regulator was implemented with TSMC 0.25‐µm HV CMOS process. Experimental results show the second system can work under the specification of 5–12 V with a 0 to 300‐mA load range. Additionally, this system attained a recovery time is 27/95 µs for step‐up/step‐down in a 100 to 300‐mA continuous conduction mode load current, and a peak efficiency of 92.1% with a chip area of only 1.014 mm2. Copyright © 2016 John Wiley & Sons, Ltd. |
