A Design-for-Sensitivity Strategy for Charge-Pump-Based Receivers

Tim Schumacher; Patrick Fath; Stefan Schmickl; Thomas Faseth; Philip Hetterle; Robert Weigel; Harald Pretl

A Design-for-Sensitivity Strategy for Charge-Pump-Based Receivers

Tim Schumacher (Editor), Patrick Fath, Stefan Schmickl, Thomas Faseth, Philip Hetterle, Robert Weigel, Harald Pretl

Department of Energy-Efficient Analog Circuits

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

This work presents the theoretical fundamentals of designing charge-pump-based receivers for maximum open-circuit voltage sensitivity (OCVS). From a classical Dickson charge pump with sub-zero-Vth transistors, various models are derived to extract correlation between specific parameters (e.g. number of stages, transistor widths and capacitor sizes) and the output voltage, maximum data rate and input impedance. This approach enabled us to develop an easily applied design strategy for this type of low-power receivers, which we demonstrate here for the 868MHz and 915MHz short-range-devices bands. It also considers an external matching network, our design strategy provides flexibility in layout generation and allows fast designing of receivers. Our strategy focuses on a rapid design flow rather than accurate representation, and is demonstrated using the example of a receiver design. In addition, the limitations of the derivations are discussed, and further optimizations are suggested.

Original language	English
Title of host publication	Proceedings 2020 Austrochip Workshop on Microelectronics
Number of pages	8
Publication status	Published - Oct 2020

Fields of science

102 Computer Sciences
202 Electrical Engineering, Electronics, Information Engineering

JKU Focus areas

Digital Transformation

Cite this

@inproceedings{ea2a5aacb8954fb181e07f9f64e64a12,

title = "A Design-for-Sensitivity Strategy for Charge-Pump-Based Receivers",

abstract = "This work presents the theoretical fundamentals of designing charge-pump-based receivers for maximum open-circuit voltage sensitivity (OCVS). From a classical Dickson charge pump with sub-zero-Vth transistors, various models are derived to extract correlation between specific parameters (e.g. number of stages, transistor widths and capacitor sizes) and the output voltage, maximum data rate and input impedance. This approach enabled us to develop an easily applied design strategy for this type of low-power receivers, which we demonstrate here for the 868MHz and 915MHz short-range-devices bands. It also considers an external matching network, our design strategy provides flexibility in layout generation and allows fast designing of receivers. Our strategy focuses on a rapid design flow rather than accurate representation, and is demonstrated using the example of a receiver design. In addition, the limitations of the derivations are discussed, and further optimizations are suggested.",

author = "Tim Schumacher and Patrick Fath and Stefan Schmickl and Thomas Faseth and Philip Hetterle and Robert Weigel and Harald Pretl",

year = "2020",

month = oct,

language = "English",

booktitle = "Proceedings 2020 Austrochip Workshop on Microelectronics",

}

TY - GEN

T1 - A Design-for-Sensitivity Strategy for Charge-Pump-Based Receivers

AU - Fath, Patrick

AU - Schmickl, Stefan

AU - Faseth, Thomas

AU - Hetterle, Philip

AU - Weigel, Robert

AU - Pretl, Harald

A2 - Schumacher, Tim

PY - 2020/10

Y1 - 2020/10

N2 - This work presents the theoretical fundamentals of designing charge-pump-based receivers for maximum open-circuit voltage sensitivity (OCVS). From a classical Dickson charge pump with sub-zero-Vth transistors, various models are derived to extract correlation between specific parameters (e.g. number of stages, transistor widths and capacitor sizes) and the output voltage, maximum data rate and input impedance. This approach enabled us to develop an easily applied design strategy for this type of low-power receivers, which we demonstrate here for the 868MHz and 915MHz short-range-devices bands. It also considers an external matching network, our design strategy provides flexibility in layout generation and allows fast designing of receivers. Our strategy focuses on a rapid design flow rather than accurate representation, and is demonstrated using the example of a receiver design. In addition, the limitations of the derivations are discussed, and further optimizations are suggested.

AB - This work presents the theoretical fundamentals of designing charge-pump-based receivers for maximum open-circuit voltage sensitivity (OCVS). From a classical Dickson charge pump with sub-zero-Vth transistors, various models are derived to extract correlation between specific parameters (e.g. number of stages, transistor widths and capacitor sizes) and the output voltage, maximum data rate and input impedance. This approach enabled us to develop an easily applied design strategy for this type of low-power receivers, which we demonstrate here for the 868MHz and 915MHz short-range-devices bands. It also considers an external matching network, our design strategy provides flexibility in layout generation and allows fast designing of receivers. Our strategy focuses on a rapid design flow rather than accurate representation, and is demonstrated using the example of a receiver design. In addition, the limitations of the derivations are discussed, and further optimizations are suggested.

M3 - Conference proceedings

BT - Proceedings 2020 Austrochip Workshop on Microelectronics

ER -