Byung-Do Yang scite author profile

The analog front end (AFE) of a radio frequency identification transponder using the ISO 14443 type A standard with a 100% amplitude shift keying (ASK) modulation is proposed in this paper and verified by circuit simulations and measurements. This AFE circuit, using a 13.56 MHz carrier frequency, consists of a rectifier, a modulator, a demodulator, a regulator, a power on reset, and a dynamically enabled digital phase locked loop (DPLL). The DPLL, with a charge pump enable circuit, was used to recover the clock of a 100% modulated ASK signal during the pause period. A high voltage lateral double diffused metal-oxide semiconductor transistor was used to protect the rectifier and the clock recovery circuit from high voltages. The proposed AFE was fabricated using the 0.18 µm standard CMOS process, with an AFE core size of 350 µm × 230 µm. The measurement results show that the DPLL, using a demodulator output signal, generates a constant 1.695 MHz clock during the pause period of the 100% ASK signal.

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A Small Areal Dual-Output Switched Capacitor DC-DC Converter with a Improved Range of Input Voltage

Hwang¹,

Kim²,

Woo³

et al. 2016

Journal of the Korea Institute of Information and Communication

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In this paper, a small areal dual-output SC(switched capacitor) DC-DC converter with a improved range of an input voltage is presented. The conventional SC DC-DC converter has an advantage of low cost and small chip area. But, it has a narrow input voltage range to convert efficiently. Also, it has a lager chip area and a lower power efficiency from multiple outputs. The proposed SC DC-DC converter improves the power efficiency by using the capacitor array structure which efficiently converts the voltage according to the input voltage. By sharing two switch array, it reduces the number of switches and capacitors from 32 to 25. The proposed SC DC-DC converter was manufactured in a 0.18µm CMOS process. In the simulation, the range of the input voltage is 0.7~ 1.8V, the max. power efficiency is 90%, and the chip area is 0.255mm 2 .

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An area-efficient coarse-fine resistor-string D/A converter

Yang

Shin

Ryu

et al. 2010

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EEPROM Charge Sensors

Lee¹,

Yang²,

Kim³

et al. 2010

Journal of the Korean Institute of Electrical and Electronic Ma

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The devices based on electrically erasable programmable read-only memory (EEPROM) structure are proposed for the detection of external electric charges. A large size charge contact window (CCW) extended from the floating gate is employed to immobilize external charges, and a control gate with stacked metal-insulator-metal (MIM) capacitor is adapted for a standard single polysilicon CMOS process. When positive voltage is applied to the capacitor of CCW of an n-channel EEPROM, the drain current increases due to the negative shift of its threshold voltage. Also when a pre-charged external capacitor is directly connected to the floating gate metal of CCW, the positive charges of the external capacitor make the drain current increase for n-channel, whereas the negative charges cause it to decrease. For an p-channel, however, the opposite behaviors are observed by the external voltage and charges. With the attachment of external charges to the CCW of EEPROM inverter, the characteristic inverter voltage behavior shifts from the reference curve dependent on external charge polarity. Therefore, we have demonstrated that the EEPROM inverter is capable of detecting external immobilized charges on the floating gate. and these devices are applicable to sensing the pH's or biomolecular reactions.

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Byung-Do Yang

5nm CMOS Production Technology Platform featuring full-fledged EUV, and High Mobility Channel FinFETs with densest 0.021µm² SRAM cells for Mobile SoC and High Performance Computing Applications

A 13.56 MHz Radio Frequency Identification Transponder Analog Front End Using a Dynamically Enabled Digital Phase Locked Loop

A Small Areal Dual-Output Switched Capacitor DC-DC Converter with a Improved Range of Input Voltage

An area-efficient coarse-fine resistor-string D/A converter

EEPROM Charge Sensors

Contact Info

Product

Resources

About

Byung-Do Yang

5nm CMOS Production Technology Platform featuring full-fledged EUV, and High Mobility Channel FinFETs with densest 0.021µm2 SRAM cells for Mobile SoC and High Performance Computing Applications

A 13.56 MHz Radio Frequency Identification Transponder Analog Front End Using a Dynamically Enabled Digital Phase Locked Loop

A Small Areal Dual-Output Switched Capacitor DC-DC Converter with a Improved Range of Input Voltage

An area-efficient coarse-fine resistor-string D/A converter

EEPROM Charge Sensors

Contact Info

Product

Resources

About

5nm CMOS Production Technology Platform featuring full-fledged EUV, and High Mobility Channel FinFETs with densest 0.021µm² SRAM cells for Mobile SoC and High Performance Computing Applications