Yazar "Koca, Mutlu" seçeneğine göre listele
Listeleniyor 1 - 4 / 4
Sayfa Başına Sonuç
Sıralama seçenekleri
Öğe LNA-ESD-PCB Codesign for Robust Operation of IR-UWB Non-coherent Receiver(IEEE, 2017) Batur, Okan Zafer; Dundar, Gunhan; Koca, MutluIn this paper, we present a radio frequency (RF) front-end design for increasing robustness of non-coherent energy detection based impulse radio (IR) ultra-wideband (UWB) receivers in impulsive noise environment. Robustness against impulsive noise is achieved by on chip LNA-bandpass filter (BPF) circuit, which also works as a clipper for high energy impulsive noise bursts. The electrostatic discharge (ESD), wirebond, pad capacitance, and the chip package model are co-designed with wideband cascode LNA structure. These unwanted capacitive and inductive elements are designed as a part of input BPF. The LNA output stage includes an inductor that is coupling with the input capacitance of the VGA block results in additional filtering. In the post-layout simulations, 45 dB impulsive noise compression has been achieved. It has been shown that the RF front-end and LNA output stage reduces the impulsive noise and increases the noise performance of the IR-UWB receiver, hence becoming robust against the impulsive noise.Öğe MATLAB & VHDL-AMS Co-Simulation Environment for IR-UWB Transceiver Design(IEEE, 2016) Batur, Okan Zafer; Dundar, Gunhan; Koca, MutluThis paper presents a MATLAB-VHDL-AMS computer aided design automation flow for the design of an IR-UWB transceiver. The co-simulation environment helps the user to create the transceiver system in a top-down design methodology. The constructed CAD flow enables the user to analyze the performance of the system with the aid of BER vs LB/No figures. The effect of system and circuit level parameters on the system performance can be analyzed and these parameters can be determined from the model. The transceiver system model is based on circuit parameters such as gain, linearity, and reflection coefficient. The individual system blocks can be interchanged with actual circuit designs. Therefore, the performance of these individual blocks in a transceiver system can also be studied.Öğe Synchronisation free non-coherent on-off keying demodulation techniques(Inst Engineering Technology-Iet, 2019) Batur, Okan Zafer; Pekcokguler, Naci; Dundar, Gunhan; Koca, MutluDigital envelope detection, self-correlation and high frequency sampling techniques are proposed for high data rate demodulation of on-off keying signals that are widely used in impulse radio ultra-wideband receivers. The proposed designs eliminate the requirement of complex synchronisation circuit architectures and algorithms. The presented circuits are all digital and can be utilised in the baseband synchronisation. The digital envelope detection and self-correlation methods are implemented in 130 nm complementary metal oxide semiconductor (CMOS) technology and concepts are verified with measurement results. Post-layout simulation results are given for the high frequency sampling technique. Measurements show that the digital envelope detector demonstrates successful operation up to 600 Mbps data rate with 2.1 mW power consumption. The self-correlator consumes 10 mW with 100 Mbps data rate in the measurements. The post-layout simulations results show that the high frequency sampler can operate at 2 mW with 500 Mbps data rate.Öğe An ultra-low power configurable IR-UWB transmitter in 130nm CMOS(Springer, 2019) Batur, Okan Zafer; Dundar, Gunhan; Koca, MutluIn this paper, an ultra-low power and configurable IR-UWB transmitter is presented. The center frequency can be tuned from 500MHz to 4.1GHz. The configurability is achieved by the digitally programmable shunt capacitor delay elements. Shift registers are used to configure the delay lines and to minimize the number of pins used. The transmitter is capable of achieving 600MHz pulse repetition frequency (PRF) with a 9.6 pJ/pulse performance at 4GHz center frequency in the 3.1-5GHz band. The standby power consumption is 1.8 mu W.