SEMICONDUCTOR DEVICES

Field plated 0.15 μm GaN HEMTs for millimeter-wave application

Chunjiang Ren, Zhonghui Li, Xuming Yu, Quanhui Wang, Wen Wang, Tangsheng Chen and Bin Zhang

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 Corresponding author: Ren Chunjiang, Email:rencj2010@tom.com

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Abstract: SiN dielectrically-defined 0.15 μm field plated GaN HEMTs for millimeter-wave application have been presented. The AlGaN/GaN hetero-structure epitaxial material for HEMTs fabrication was grown on a 3-inch SiC substrate with an Fe doped GaN buffer layer by metal-organic chemical deposition. Electron beam lithography was used to define both the gate footprint and the cap of the gate with an integrated field plate. Gate recessing was performed to control the threshold voltage of the devices. The fabricated GaN HEMTs exhibited a unit current gain cut-off frequency of 39 GHz and a maximum frequency of oscillation of 63 GHz. Load-pull measurements carried out at 35 GHz showed a power density of 4 W/mm with associated power gain and power added efficiency of 5.3 dB and 35%, respectively, for a 0.15 mm gate width device operated at a 24 V drain bias. The developed 0.15 μm gate length GaN HEMT technology is suitable for Ka band applications and is ready for millimeter-wave power MMICs development.

Key words: AlGaN/GaNHEMTOhmic contactICP etchingfield platemillimeter-wave application



[1]
Micovic M, Nguyen N X, Janke E, et al. GaN/AlGaN high electron mobility transistor with fT of 110 GHz. Electron Lett, 2000, 36(4):358 doi: 10.1049/el:20000296
[2]
Inoue T, Ando Y, Kasahara K, et al. Advanced RF characterization and delay-time analysis of short channel AlGaN/GaN heterojunction FETs. IEICE Trans Electron, 2003, Eg6-C(10):2065 http://ci.nii.ac.jp/naid/110003214508
[3]
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[4]
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[5]
Palacios T, Chakraborty A, Rajan S, et al. High-power AlGaN/GaN HEMTs for Ka-band applications. IEEE Electron Device Lett, 2005, 26(11):781 doi: 10.1109/LED.2005.857701
[6]
Wu Y F, Moor M, Abrahamsen A, et al. High-voltage millimeter-wave GaN HEMTs with 13.7 W/mm power density. IEEE Compound Semiconductor Integrated circuits Conference, 2007:405 http://ieeexplore.ieee.org/document/4418958/?arnumber=4418958
[7]
Kao M Y, Lee C, Hajji R, et al. AlGaN/GaN HEMTs with PAE of 53% at 35 GHz for HPA and multi-function MMIC applications. IEEE Compound Semiconductor Integrated circuits Conference, 2007:627 http://ieeexplore.ieee.org/document/4263894/?reload=true&arnumber=4263894
[8]
Moon J S, Wong D, Hu M, et al. 55% PAE and high power Ka-band GaN HEMTs with linearized transconductance via n+ GaN source contact ledge. IEEE Electron Device Lett, 2008, 29(8):834 doi: 10.1109/LED.2008.2000792
[9]
Takagi K, Matsushita K, Kashiwabara Y, et al. Developing GaN HEMTs for Ka-band with 20 W. IEEE Compound Semiconductor Integrated Circuits Conference, 2010 http://ieeexplore.ieee.org/document/5619660/keywords
[10]
Brown A, Brown K, Chen J, et al. W-band GaN power amplifier MMICs. IEEE MTT-S Digest, 2011 http://ieeexplore.ieee.org/document/5972571/
[11]
Campbell C F, Kao M Y, Nayak S. High efficiency Ka-band power amplifier MMICs fabricated with a 0.15μm GaN on SiC HEMT process. IEEE MTT-S Digest, 2012
[12]
Dumka D C, Kao M Y, Beam E, et al. Development of Ka-band GaAs PHEMTs with output power over 1 W/mm. IEEE Compound Semiconductor Integrated Circuits Conference, 2010 http://ieeexplore.ieee.org/document/5619628/?arnumber=5619628
[13]
Saunier, Lee P C, Balistreri A, et al. Progress in GaN performances and reliability. IEEE Compound Semiconductor Integrated Circuits Conference, 2010:35 http://ieeexplore.ieee.org/document/4373639/?arnumber=4373639&punumber%3D4373616
[14]
Heikman S, Keller S, DenBaars S P, et al. Growth of Fe doped semi-insulating GaN by metalorganic chemical vapor deposition. Appl Phys Lett, 2002, 81:439 doi: 10.1063/1.1490396
[15]
Micovic M, Hashimoto P, Hu M, et al. GaN double heterojunction field effect transistor for microwave and millimeterwave power applications. IEEE International Electron Device Meeting, 2004:807 http://ieeexplore.ieee.org/document/1419298/authors
[16]
Nomoto K, Tajima T, Mishima T, et al. Remarkable reduction of on-resistance by ion implantation in GaN/AlGaN/GaN HEMTs With low gate leakage current. IEEE Electron Device Lett, 2007, 28(11):939 doi: 10.1109/LED.2007.906930
[17]
Brown D F, Williams A, Shinohara K, et al. W-band power performance of AlGaN/GaN DHFETs with regrown n+ GaN ohmic contacts by MBE. IEEE International Electron Device Meeting, 2011:461 http://ieeexplore.ieee.org/document/6131584/
Fig. 1.  Schematic cross section of the developed GaN HEMTs.

Fig. 2.  Effect of Fe doping level on the buffer leakage.

Fig. 3.  Cross section for the etched 0.15 $\mu $m gate footprint.

Fig. 4.  Etching time dependence of the threshold voltage for 0.15 $\mu$m gate length GaN HEMTs.

Fig. 5.  Transfer characteristics for a 150 $\mu$m gate width GaN HEMT.

Fig. 6.  Short-circuit gain $\vert$$h_{21}$$\vert $ and maximum stable gain for a 150 $\mu $m gate width GaN HEMT.

Fig. 7.  Power density and PAE versus drain to source bias for a 150 $\mu $m gate width GaN HEMT at 35 GHz.

Fig. 8.  Microwave power performance of a 150 $\mu $m gate width GaN HEMT at 35 GHz.

[1]
Micovic M, Nguyen N X, Janke E, et al. GaN/AlGaN high electron mobility transistor with fT of 110 GHz. Electron Lett, 2000, 36(4):358 doi: 10.1049/el:20000296
[2]
Inoue T, Ando Y, Kasahara K, et al. Advanced RF characterization and delay-time analysis of short channel AlGaN/GaN heterojunction FETs. IEICE Trans Electron, 2003, Eg6-C(10):2065 http://ci.nii.ac.jp/naid/110003214508
[3]
Wu Y F, Moor M, Saxler A, et al. 3.5-Watt AlGaN/GaN HEMTs and amplifiers at 35 GHz. IEDM Technical Digest, 2003:579 http://ieeexplore.ieee.org/document/1269349/
[4]
Inoue T, Ando Y, Miyamoto H, et al. 30 GHz-band 5.8 W high-power AlGaN/GaN heterojunction-FET. IEEE MTT-S Digest, 2004:1649
[5]
Palacios T, Chakraborty A, Rajan S, et al. High-power AlGaN/GaN HEMTs for Ka-band applications. IEEE Electron Device Lett, 2005, 26(11):781 doi: 10.1109/LED.2005.857701
[6]
Wu Y F, Moor M, Abrahamsen A, et al. High-voltage millimeter-wave GaN HEMTs with 13.7 W/mm power density. IEEE Compound Semiconductor Integrated circuits Conference, 2007:405 http://ieeexplore.ieee.org/document/4418958/?arnumber=4418958
[7]
Kao M Y, Lee C, Hajji R, et al. AlGaN/GaN HEMTs with PAE of 53% at 35 GHz for HPA and multi-function MMIC applications. IEEE Compound Semiconductor Integrated circuits Conference, 2007:627 http://ieeexplore.ieee.org/document/4263894/?reload=true&arnumber=4263894
[8]
Moon J S, Wong D, Hu M, et al. 55% PAE and high power Ka-band GaN HEMTs with linearized transconductance via n+ GaN source contact ledge. IEEE Electron Device Lett, 2008, 29(8):834 doi: 10.1109/LED.2008.2000792
[9]
Takagi K, Matsushita K, Kashiwabara Y, et al. Developing GaN HEMTs for Ka-band with 20 W. IEEE Compound Semiconductor Integrated Circuits Conference, 2010 http://ieeexplore.ieee.org/document/5619660/keywords
[10]
Brown A, Brown K, Chen J, et al. W-band GaN power amplifier MMICs. IEEE MTT-S Digest, 2011 http://ieeexplore.ieee.org/document/5972571/
[11]
Campbell C F, Kao M Y, Nayak S. High efficiency Ka-band power amplifier MMICs fabricated with a 0.15μm GaN on SiC HEMT process. IEEE MTT-S Digest, 2012
[12]
Dumka D C, Kao M Y, Beam E, et al. Development of Ka-band GaAs PHEMTs with output power over 1 W/mm. IEEE Compound Semiconductor Integrated Circuits Conference, 2010 http://ieeexplore.ieee.org/document/5619628/?arnumber=5619628
[13]
Saunier, Lee P C, Balistreri A, et al. Progress in GaN performances and reliability. IEEE Compound Semiconductor Integrated Circuits Conference, 2010:35 http://ieeexplore.ieee.org/document/4373639/?arnumber=4373639&punumber%3D4373616
[14]
Heikman S, Keller S, DenBaars S P, et al. Growth of Fe doped semi-insulating GaN by metalorganic chemical vapor deposition. Appl Phys Lett, 2002, 81:439 doi: 10.1063/1.1490396
[15]
Micovic M, Hashimoto P, Hu M, et al. GaN double heterojunction field effect transistor for microwave and millimeterwave power applications. IEEE International Electron Device Meeting, 2004:807 http://ieeexplore.ieee.org/document/1419298/authors
[16]
Nomoto K, Tajima T, Mishima T, et al. Remarkable reduction of on-resistance by ion implantation in GaN/AlGaN/GaN HEMTs With low gate leakage current. IEEE Electron Device Lett, 2007, 28(11):939 doi: 10.1109/LED.2007.906930
[17]
Brown D F, Williams A, Shinohara K, et al. W-band power performance of AlGaN/GaN DHFETs with regrown n+ GaN ohmic contacts by MBE. IEEE International Electron Device Meeting, 2011:461 http://ieeexplore.ieee.org/document/6131584/
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    Received: 14 October 2012 Revised: 24 November 2012 Online: Published: 01 June 2013

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      Chunjiang Ren, Zhonghui Li, Xuming Yu, Quanhui Wang, Wen Wang, Tangsheng Chen, Bin Zhang. Field plated 0.15 μm GaN HEMTs for millimeter-wave application[J]. Journal of Semiconductors, 2013, 34(6): 064002. doi: 10.1088/1674-4926/34/6/064002 C J Ren, Z H Li, X M Yu, Q H Wang, W Wang, T S Chen, B Zhang. Field plated 0.15 μm GaN HEMTs for millimeter-wave application[J]. J. Semicond., 2013, 34(6): 064002. doi: 10.1088/1674-4926/34/6/064002.Export: BibTex EndNote
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      Chunjiang Ren, Zhonghui Li, Xuming Yu, Quanhui Wang, Wen Wang, Tangsheng Chen, Bin Zhang. Field plated 0.15 μm GaN HEMTs for millimeter-wave application[J]. Journal of Semiconductors, 2013, 34(6): 064002. doi: 10.1088/1674-4926/34/6/064002

      C J Ren, Z H Li, X M Yu, Q H Wang, W Wang, T S Chen, B Zhang. Field plated 0.15 μm GaN HEMTs for millimeter-wave application[J]. J. Semicond., 2013, 34(6): 064002. doi: 10.1088/1674-4926/34/6/064002.
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      Field plated 0.15 μm GaN HEMTs for millimeter-wave application

      doi: 10.1088/1674-4926/34/6/064002
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      • Corresponding author: Ren Chunjiang, Email:rencj2010@tom.com
      • Received Date: 2012-10-14
      • Revised Date: 2012-11-24
      • Published Date: 2013-06-01

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