Add to ORKGAbstract-This paper presents a low power clock and data recovery (CDR) circuit for a wireless body sensor node. The proposed circuit interfaces the RF receiver output with the digital processing. It consumes 50nW at 100kbps. It uses a delay locked loop (DLL) that is calibrated in one-shot fashion to save power, locking over 18X faster than prior art. The proposed circuit is fabricated in a 0.13µm CMOS technology. It recovers data with an input jitter of up to 2.4µs with>2X less power and>2X less area than prior work. The proposed circuit is a synthesizable all digital implementation
This paper presents an all-digital low-power oscillator for reference clocks in wireless body area n...
With the great increases in data transmission rate requirements, analog-to-digital converter (ADC)-b...
© 2019 IEEE. A fault tolerant, radiation hardened Clock and Data Recovery (CDR) architecture is pres...
A 4Gb/s power and area efficient clock/data recovery (CDR) circuit is proposed. Fully-differential d...
A delay-locked loop (DLL) based clock and data recovery (CDR) circuit with a half-rate clock is prop...
This paper describes the design and fabrication of a clock and data recovery circuit (CDR). We propo...
This paper presents a true all-digital referenceless mixed FLL/DLL quarter-rate clock and data recov...
A wide range delay-locked loop (DLL) based clock and data recovery (CDR) circuit including coarse an...
Clock and data recovery (CDR) circuit and frequency synthesizer are two essential timing circuits in...
As semiconductor fabrication technology develops, the demand for higher transmission data rates cons...
A 2.5-GHz clock recovery (CR) unit is proposed within an efficient 2.5-Gbps ultra-wideband (UWB) tra...
In this paper, we present a low-power, high-speed and large jitter tolerance wideband signaling (WBS...
A low-power, fully-integrated 40nm-CMOS timing and receiver circuit for wireless sensor networks is ...
A fault tolerant, radiation hardened Clock and Data Recovery (CDR) architecture is presented for hig...
A low-power, fully-integrated 40nm-CMOS timing and receiver circuit for wireless sensor networks is ...
This paper presents an all-digital low-power oscillator for reference clocks in wireless body area n...
With the great increases in data transmission rate requirements, analog-to-digital converter (ADC)-b...
© 2019 IEEE. A fault tolerant, radiation hardened Clock and Data Recovery (CDR) architecture is pres...
A 4Gb/s power and area efficient clock/data recovery (CDR) circuit is proposed. Fully-differential d...
A delay-locked loop (DLL) based clock and data recovery (CDR) circuit with a half-rate clock is prop...
This paper describes the design and fabrication of a clock and data recovery circuit (CDR). We propo...
This paper presents a true all-digital referenceless mixed FLL/DLL quarter-rate clock and data recov...
A wide range delay-locked loop (DLL) based clock and data recovery (CDR) circuit including coarse an...
Clock and data recovery (CDR) circuit and frequency synthesizer are two essential timing circuits in...
As semiconductor fabrication technology develops, the demand for higher transmission data rates cons...
A 2.5-GHz clock recovery (CR) unit is proposed within an efficient 2.5-Gbps ultra-wideband (UWB) tra...
In this paper, we present a low-power, high-speed and large jitter tolerance wideband signaling (WBS...
A low-power, fully-integrated 40nm-CMOS timing and receiver circuit for wireless sensor networks is ...
A fault tolerant, radiation hardened Clock and Data Recovery (CDR) architecture is presented for hig...
A low-power, fully-integrated 40nm-CMOS timing and receiver circuit for wireless sensor networks is ...
This paper presents an all-digital low-power oscillator for reference clocks in wireless body area n...
With the great increases in data transmission rate requirements, analog-to-digital converter (ADC)-b...
© 2019 IEEE. A fault tolerant, radiation hardened Clock and Data Recovery (CDR) architecture is pres...