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Review of Wide Bandwidth Low Power Low NOISE Amplifier for Modern Wireless Communication

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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Year of Publication: 2016
Authors:
Bhavna Prajapati, Swapnil Jain, Braj Bihari Soni
10.5120/ijca2016908980

Bhavna Prajapati, Swapnil Jain and Braj Bihari Soni. Article: Review of Wide Bandwidth Low Power Low NOISE Amplifier for Modern Wireless Communication. International Journal of Computer Applications 137(14):28-32, March 2016. Published by Foundation of Computer Science (FCS), NY, USA. BibTeX

@article{key:article,
	author = {Bhavna Prajapati and Swapnil Jain and Braj Bihari Soni},
	title = {Article: Review of Wide Bandwidth Low Power Low NOISE Amplifier for Modern Wireless Communication},
	journal = {International Journal of Computer Applications},
	year = {2016},
	volume = {137},
	number = {14},
	pages = {28-32},
	month = {March},
	note = {Published by Foundation of Computer Science (FCS), NY, USA}
}

Abstract

Recently, Low noise amplifier versatile used in modern wireless communication like Wi-Max, WLAN, GSM, Bluetooth and satellite communication. Low Noise amplifier have important feature like amplify the signal with rejection of noise. Low noise amplifier in modern communication used as filter with amplifier. In recent scenario low noise amplifier available in wide band, single band, multi-band frequency of application. In present days low noise amplifier the also reduces the reflection of signal exist by elements and connecting interface inside the amplifier. Low noise amplifier available with high gain, noise rejection and with less power consumption. In this paper review the work of past decades done in low noise amplifier. Low Noise Amplifier (LNA) is versatile used as a broadband mixer, low noise amplifier, power amplifier and Darlington amplifier, active balunes, multiband amplifier. Today technology required high speed of transmission efficiency with small power consumption and less utilization of elements in proposed amplifier, Low Noise Amplifier (LNA) products full fill all requirement of modern wireless communications, so that review and discussion, future requirement of technology is needed to discuss. In this paper discusses issues of low noise amplifier, its application, issues and recent trends. In this paper review some techniques of Low Noise Amplifier (LNA) to improve perform and surveyed almost all the Possible Work of Past Decades.

References

  1. Gao, W.,et.al A Highly Linear  Low  Noise  Amplifier  With Wide Range Derivative Superposition Method”  Microwave and Wireless Components Letters, IEEE Year: 2015, Volume: 25, Issue: 12,Pages: 817 - 819, 
  2. K. W. Kobayashi, Member, “A DC-10 GHz High Gain-Low Noise GaAs HBT Direct-Coupled Amplifier” IEEE Microwave And Guided Wave Letters, Vol. 5, No. 9, September 1995
  3. Yueh-Hua Yu, Student Member, IEEE, Wei-Hong Hsu, and Yi-Jan Emery Chen, Senior Member, IEEE” A Ka-Band Low Noise Amplifier Using Forward Combining Technique” IEEE Microwave And Wireless Components Letters, Vol. 20, No. 12, December 2010
  4. Chao Fang, Student Member, IEEE, “A 3.1–10.6 GHz Ultra-Wideband Low Noise Amplifier With 13-dB Gain, 3.4-dB Noise Figure ,and Consumes Only 12.9 mW of DC Power”  IEEE Microwave And Wireless Components Letters, Vol. 17, No. 4, April 2007 295
  5. Chun-Chieh Huang, “Low-Power, High-Gain V-Band CMOS Low Noise Amplifier for Microwave Radiometer Applications.
  6. Xiaohua Yu, Student Member, ‘Analysis and Design of a Reconfigurable Multimode Low-Noise Amplifier Utilizing a Multitap Transformer IEEE Transactions On Microwave Theory And Techniques, Vol. 61, No. 3, March 2013
  7. Austin Ying-Kuang Chen, “A Low-Power Linear SiGe BiCMOS Low-Noise Amplifier for Millimeter-Wave Active Imaging’ IEEE Microwave And Wireless Components Letters, Vol. 20, No. 2, February 2010 103
  8. J. Jin and S. Hsu, “A 0.18-nm CMOS balanced amplifier for 24-GHz applications,” IEEE J. Solid-State Circuits, vol. 43, no. 2, pp. 440–445,Feb. 2008.
  9. S. Shin, M. Tsai, R. Liu, K. Lin, and H. Wang, “A 24-GHz 3.9-dB NF low-noise amplifier using 0.18 nm CMOS technology,” IEEE Microw.Wireless Compon. Lett., vol. 15, no. 7, pp. 448–450, Jul. 2005.
  10. M. A. T. Sanduleanu, “31–34 GHz low noise amplifier with on-chip microstrip lines and inter-stage matching in 90-nm baseline CMOS,” in Proc. IEEE RFIC Symp., 2006, pp.143–145.
  11. E. Adabi, B. Heydari, , “30 GHz CMOS low noise amplifier,” in Proc. IEEE RFIC Symp., 2007, pp.625–628.
  12. A. Sayag et al., “A 25 GHz 3.3 dB NF low noise amplifier based upon slow wave transmission lines and the 0.18 nm CMOS technology,” in Proc. IEEE RFIC Symp., 2008, pp. 373–376.
  13. Y. Wei, S. Hsu, and J. Jin, “A low-power low-noise amplifier for K-band applications,” IEEE Microw. Wireless Compon. Lett., vol. 19,no. 2, pp. 116–118, Feb. 2009.

Keywords

Ultra-wideband (UWB), Differential mode of application, cross coupled feedback, Direct –Coupled amplifier.