2011
DOI: 10.1109/jssc.2011.2166434
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A 0.24-nJ/bit Super-Regenerative Pulsed UWB Receiver in 0.18-$\mu$m CMOS

Abstract: Abstract-This paper describes a receiver system design for impulse-radio ultra-wideband (IR-UWB) that operates at two carrier frequencies-3.494 and 3.993 GHz-with a 10-Mbps data rate. To reduce the power consumption of the front-end amplifiers, a super-regenerative architecture is used. An integrated circuit, implemented in a CMOS 0.18-m technology and operating with a 1.5-V power supply, exhibits energy consumption of 0.24 nJ/bit with a measured sensitivity of 66 and 61 dBm at 3.494 and 3.993 GHz, respectivel… Show more

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Cited by 19 publications
(21 citation statements)
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“…The main reason for this is their reduced complexity, which is easily translated into low cost and low power consumption. Since its introduction in 1922 [1], this receiver has been successively refined with bitsynchronous designs [2], [3], applications to direct-sequence spread-spectrum [4], and several integrated implementations, such as [3], [5]- [9], have been recently reported.…”
Section: Introductionmentioning
confidence: 99%
“…The main reason for this is their reduced complexity, which is easily translated into low cost and low power consumption. Since its introduction in 1922 [1], this receiver has been successively refined with bitsynchronous designs [2], [3], applications to direct-sequence spread-spectrum [4], and several integrated implementations, such as [3], [5]- [9], have been recently reported.…”
Section: Introductionmentioning
confidence: 99%
“…Table II shows the performance comparison with state of the art receivers/transceivers. [4], [11] and our proposed transceiver are suitable for implementation in UWB systems. The operating frequency of this receiver is the widest compared to all recent super-regenerative works, covering the lower band (3-5 GHz) of the UWB spectrum.…”
Section: Gating Circuitrymentioning
confidence: 99%
“…The operating frequency of this receiver is the widest compared to all recent super-regenerative works, covering the lower band (3-5 GHz) of the UWB spectrum. Its performance in terms of frequency, energy efficiency and sensitivity is comparable to the super-regenerative receiver in [4] and [11] when normalized to the same data rate, whereas the proposed architecture is simplest as both [4] and [11] require a quench signal since the super-regeneration is based on conventional oscillator technique. Furthermore, the circuit can be optimized more thoroughly to achieve even better energy efficiency for ultra-low power short-range sensor network application.…”
Section: Gating Circuitrymentioning
confidence: 99%
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“…First, the superregenerative receiver architecture [4], [19], [20] includes an oscillator which is turned on and off periodically by a quench signal between the front-end amplifier and the envelope detector to provide extraordinary front-end gain with simplicity and low power consumption, but the start-up time detection principle invariably requires a resonant oscillator, such as an LC oscillator, which leads to a power consumption of a few hundred microwatts ( Fig. 1(c)).…”
Section: Introductionmentioning
confidence: 99%