Ahmed Ejaz Nadeem scite author profile

Ahmed Ejaz Nadeem

3Publications

32Citation Statements Received

46Citation Statements Given

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Novel Microstrip Hairpinline Narrowband Bandpass Filter Using via Ground Holes

Hasan¹,

Nadeem²

2008

PIER

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Abstract-In this paper, we present a novel improved hairpinline microstrip narrowband bandpass filter with via ground holes. The new filter design methodology is derived from conventional hairpinline filter design. This design methodology incorporates use of λ/8 resonators, thereby reducing the size of the filter by 35% as compared to the conventional design. An analysis is presented to show the effects of tap point height and microstrip width on fundamental parameters of filter and subsequent relationships are developed. Through use of via ground holes and a wider microstrip line for resonators, 3 dB Fractional Bandwidth (FBW) less than 2%, Insertion Loss (IL) less than 1.6 dB and Return Loss (RL) better than 40 dB is achieved with midband center frequency 1 GHz. Spurious response suppression is achieved till 3f 0 . Robustness of this design approach is demonstrated by designing filters on two more substrates having ε r 2.17 and 9.2. As low as 0.48% FBW was achieved by using different substrates. The design approach is successfully tested for center frequency upto 2 GHz beyond which folding the resonator becomes practically difficult. Finally, a bandpass filter is designed with this design methodology and fabricated using FR4 substrate. S-parameter measurements show a good agreement with the simulated results. 394Hasan and Nadeem

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Improved microstrip hairpinline bandpass filter using via ground holes and capacitive gap

Hasan¹,

Hannan²,

Nadeem³

2015

Analog Integr Circ Sig Process

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A Low Cost Rf Oscillator Incorporating a Folded Parallel Coupled Resonator

Butt¹,

Nadeem²,

Hasan³

2009

PIER C

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Abstract-In this paper, we present a low cost RF oscillator design incorporating a folded parallel coupled resonator. The oscillator is designed on FR4 substrate to achieve low cost. FR4 is a low cost substrate but has a poorly controlled dielectric constant and high loss tangent thereby challenging the design of higher performance circuits. This oscillator operates in 900 MHz band, delivers an output of −3.13 dBm and has phase noise 101.8 dBc/Hz at 10 kHz offset. The size of the folded parallel coupled resonator is 16% smaller than the conventional parallel coupled resonator, thereby making the overall circuit more compact. The power output and phase noise results are better than the oscillator designed with conventional resonator. Open loop analysis method has been adopted for the oscillator design and analysis. The measured data shows good agreement with the simulated results. The performance parameters of this oscillator make it suitable for use in low cost wireless communication solutions in 900 MHz band.

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