Dexian Tang scite author profile

This paper presents a Bluetooth low-energy (BLE) transceiver (TRX) achieving ultra-low-power operation for Internet-of-Things (IoT) applications. The proposed TRX utilizes a wide-bandwidth low-power fractional-N digital phase-locked loop (DPLL) as a central component to perform multiple roles: a direct frequency modulator for the transmitter (TX), an analogto-digital converter (ADC) for the receiver (RX), a local oscillator for RX, and a frequency and phase synchronizer for the RX. The DPLL-based single-path downconversion method is adapted to halve the analog baseband circuit to further reduce the power consumption while maintaining a high interference rejection. A DPLL-based ADC with a digital-to-analog converter feedback greatly improves the ADC dynamic range, which improves the RX sensitivity and interference tolerance. By maximally reducing the required radio frequency and analog front-end components in RX, an RX power consumption of 2.3 mW is achieved with a −94 dBm sensitivity. The RX also satisfied all interference requirements with a certain margin. A 5.0-mW TX is achieved when delivering an output power of 0 dBm with a frequency-shift keying error of only 1.89%.

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An ADPLL-centric bluetooth low-energy transceiver with 2.3mW interference-tolerant hybrid-loop receiver and 2.9mW single-point polar transmitter in 65nm CMOS

Liu

Sun

Tang

et al. 2018

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A 60-GHz 3.0-Gb/s Spectrum Efficient BPOOK Transceiver for Low-Power Short-Range Wireless in 65-nm CMOS

Wang

Liu

et al. 2019

IEEE J. Solid-State Circuits

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A 0.85mm² BLE Transceiver Using an On-Chip Harmonic-Suppressed RFIO Circuitry With T/R Switch

Sun

Liu

Huang

et al. 2021

IEEE Trans. Circuits Syst. I

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Dexian Tang

A 0.98mW fractional-N ADPLL using 10b isolated constant-slope DTC with FOM of −246dB for IoT applications in 65nm CMOS

A DPLL-Centric Bluetooth Low-Energy Transceiver With a 2.3-mW Interference-Tolerant Hybrid-Loop Receiver in 65-nm CMOS

An ADPLL-centric bluetooth low-energy transceiver with 2.3mW interference-tolerant hybrid-loop receiver and 2.9mW single-point polar transmitter in 65nm CMOS

A 60-GHz 3.0-Gb/s Spectrum Efficient BPOOK Transceiver for Low-Power Short-Range Wireless in 65-nm CMOS

A 0.85mm² BLE Transceiver Using an On-Chip Harmonic-Suppressed RFIO Circuitry With T/R Switch

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Dexian Tang

A 0.98mW fractional-N ADPLL using 10b isolated constant-slope DTC with FOM of −246dB for IoT applications in 65nm CMOS

A DPLL-Centric Bluetooth Low-Energy Transceiver With a 2.3-mW Interference-Tolerant Hybrid-Loop Receiver in 65-nm CMOS

An ADPLL-centric bluetooth low-energy transceiver with 2.3mW interference-tolerant hybrid-loop receiver and 2.9mW single-point polar transmitter in 65nm CMOS

A 60-GHz 3.0-Gb/s Spectrum Efficient BPOOK Transceiver for Low-Power Short-Range Wireless in 65-nm CMOS

A 0.85mm2 BLE Transceiver Using an On-Chip Harmonic-Suppressed RFIO Circuitry With T/R Switch

Contact Info

Product

Resources

About

A 0.85mm² BLE Transceiver Using an On-Chip Harmonic-Suppressed RFIO Circuitry With T/R Switch