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A pp li c at i on N ot e , R ev . 1. 2 , S e pt e m be r 2 00 7 A p p li c a t i o n N o t e N o . 1 2 0 1.8 V Low Noise Amplifier for 1575 MHz GPS A p pl i c a t i o n s u s i n g th e S i G e :C B F P 7 4 0 F T r a n s i s t o r R F & P r o t e c ti o n D e v i c e s Edition 2007-09-03 Published by Infineon Technologies AG 81726 München, Germany © Infineon Technologies AG 2009. All Rights Reserved. LEGAL DISCLAIMER THE INFORMATION GIVEN IN THIS APPLICATION NOTE IS GIVEN AS A HINT FOR THE IMPLEMENTATION OF THE INFINEON TECHNOLOGIES COMPONENT ONLY AND SHALL NOT BE REGARDED AS ANY DESCRIPTION OR WARRANTY OF A CERTAIN FUNCTIONALITY, CONDITION OR QUALITY OF THE INFINEON TECHNOLOGIES COMPONENT. THE RECIPIENT OF THIS APPLICATION NOTE MUST VERIFY ANY FUNCTION DESCRIBED HEREIN IN THE REAL APPLICATION. INFINEON TECHNOLOGIES HEREBY DISCLAIMS ANY AND ALL WARRANTIES AND LIABILITIES OF ANY KIND (INCLUDING WITHOUT LIMITATION WARRANTIES OF NON-INFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS OF ANY THIRD PARTY) WITH RESPECT TO ANY AND ALL INFORMATION GIVEN IN THIS APPLICATION NOTE. Information For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies Office (www.infineon.com). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered. Application Note No. 120 Application Note No. 120 Revision History: 2007-09-03, Rev. 1.2 Previous Version: 2005-08-10, Rev. 1.1 Page Subjects (major changes since last revision) All Document layout change Application Note 3 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C 1 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C BFP740F Tranistor Applications • 1575.42 MHz GPS Overview • • • • BFP740F in TSFP-4 package is evaluated for a GPS LNA application. Note TSFP-4 package is only 1.4 x 1.2 x 0.55 mm high. Design Goals: Gain = 20 dB min, Noise Figure = 0.8 dB max, Input / Output Return Loss 10 dB or better, current < 10 mA from a 1.8 V power supply Printed Circuit Board used is Infineon Part Number 740F-080404 Rev A. Standard FR4 material is used in a three-layer PCB. Please refer to cross-sectional diagram below. Low-cost, standard "0402" case-size SMT passive components are used throughout. Please refer to schematic and Bill Of Material. The LNA is unconditionally stable from 5 MHz to 8 GHz. Total PCB area used for the single LNA stage is 40 mm². Total Parts count, including the BFP740F transistor, is 11. Summary of Results T = 25 °C, Network Analyzer Source Power ≈ -30 dBm Table 1 Summary of Data Frequency MHz dB[s11]² dB[s21]² dB[s12]² dB[s22]² NF * dB IIP3 OIP3 IP1dB OP1dB dBm dBm dBm dBm 1575.42 10.8 +0.2 +19.9 -17.3 +1.4 19.7 27.1 12.8 0.76 PCB loss is not extracted, e.g. reference plane of measurement is at PCB input RF SMA connector. If PCB loss were extracted, noise figure result would improve by 0.1-0.2 dB, e.g. NF result would be lower / better. PCB Cross - Section Diagram 723/$<(55)0,&52675,375$&(6$&7,9('(9,&( LQFKPP ,17(51$/*5281'3/$1( LQFKPP" /$<(5)250(&+$1,&$/5,*,',7<2)3&% 7+,&.1(66+(5(127&5,7,&$/$6 /21*$6727$/3&%7+,&.1(66'2(6127(;&((',1&+PP 63(&,),&$7,21)25727$/3&%7+,&.1(66,1&+ PPPP %27720/$<(5 $1B3&%YVG Figure 1 PCB - Cross Sectional Diagram Application Note 4 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C TSFP-4 package details (dimensions in millimeters) Note maximum package height is 0.59 mm / 0.023 inch 0.2 ±0.05 1 3 1.2 ±0.05 0.2 ±0.05 4 0.55 ±0.04 2 0.2 ±0.05 10˚ MAX. 0.8 ±0.05 1.4 ±0.05 0.15 ±0.05 0.5 ±0.05 0.5 ±0.05 Figure 2 GPX01010 TSFP-4 package details Recommended Soldering Footprint for TSFP-4 given below (dimensions in millimeters). Device package is to be oriented as shown in above drawing (e.g. orient long package dimension horizontally on this footprint). 0.9 0.45 0.35 0.5 0.5 HLGF1011 Figure 3 TSFP-4 package - Soldering Footprint Application Note 5 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Bill of Material Table 2 Bill of Material Reference Designator Value Manufacturer Case Size Function C1 0.1 µF Various 0402 DC blocking, input. Also, using cap above selfresonant frequency makes it slightly inductive, slightly improving input match. C2 2.7 pF Various 0402 DC block, output. Also influences output and input impedance match. C3 0.1 µF Various 0402 Decoupling, low frequency. Also improves ThirdOrder Intercept. C4 3.3 pF Various 0402 Decoupling at collector; also influence on stability and output match. C5 0.1 µF Various 0402 Low frequency decoupling, slightly improves Third Order Intercept. L1 9.1 nH Murata LQP15M series chip inductor 0402 RF choke at input, also influences input impedance match L2 4.7 nH Murata LQP15M series chip inductor 0402 RF choke + impedance match at output R1 10 Ω Various 0402 Improves low frequency stability e.g. K > 1 R2 22 kΩ Various 0402 Brings bias current / voltage into base of transistor. R3 30 Ω Various 0402 Provides some negative feedback for DC bias / DC operating point to compensate for variations in transistor DC current gain, temperature variations, etc. Q1 - Infineon Technologies TSFP-4 BFP740F B7HFe SiGe:C Ultra-Low Noise HBT Transistor J1, J2 - Johnson 142-0701-841 - RF input / output connectors J3 - Amp 5 pin header MTA-100 series 640456-5 (standard pin plating) or 641215-5 (gold plated pins) - DC connector Pins 1, 5 = Ground Pin 3 = VCC Pins 2, 4 = no connection Application Note 6 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Schematic Diagram for 1575 MHz GPS LNA 9FF  9 - '& &RQQHFWRU 7RWDO FRPSRQHQW FRXQW ,  !  LQGXFWRUV !  UHVLVWRUV !  FDSDFLWRUV !  WUDQVLVWRU %)3) 5  RKPV 5 . & X) 6ROLG EODFN UHFWDQJOHV DUH  RKP PLFURVWULS WUDFNV - 5) ,1387  P$ & X) 5  RKPV / Q+ / 4 Q+ %)3) 6L*H 7UDQVLVWRU 76)3  RKP PLFURVWULS & S) & S) - 5) 287387  RKP PLFURVWULS 3&% ) 5HY$ 3& %RDUG 0DWHULDO 6WDQGDUG )5 & X) ,QGXFWLYH (PLWWHU 'HJHQHUDWLRQ 0LFURVWULS IRU ,3 LPSURYHPHQW 5) PDWFKLQJ :LGWK  LQFK   PP /HQJWK  LQFK   PP  %)3) 9FH 9 $1B6FKHPDWLFYVG Figure 4 Schematic Diagram Application Note 7 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Noise Figure, Plot, Center of Plot (x-axis) is 1575 MHz. 5RKGH 6FKZDU])6(. $XJ 1RLVH)LJXUH (871DPH 0DQXIDFWXUHU 2SHUDWLQJ&RQGLWLRQV 2SHUDWRU1DPH 7HVW6SHFLILFDWLRQ &RPPHQW %)3)*36/0+] /RZ1RLVH$PSOLILHU ,QILQHRQ7HFKQRORJLHV$* 9FF 9, P$9FH 9 *HUDUG:HYHUV /:56'/1$3 2Q3&%)5HY$ $XJXVW $QDO\]HU 5)$WW 5HI/YO G% G%P 5%: 9%: 0+] +] 5DQJH G% 5HI/YODXWR 21 0RGH 'LUHFW (15 +3$(15 0HDVXUHPHQW QGVWDJHFRUU 21 1RLVH)LJXUHG%            0+] 0+]',9 0+] $1BSORWBQIYVG Figure 5 Noise Figure Application Note 8 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Noise Figure, Tabular Data From Rhode & Schwarz FSEK3 + FSEM30 + System Preamplifier Table 3 Noise Figure Frequency Noise Figure 1075 MHz 0.93 dB 1125 MHz 0.89 dB 1175 MHz 0.87 dB 1225 MHz 0.84 dB 1275 MHz 0.81 dB 1325 MHz 0.82 dB 1375 MHz 0.80 dB 1425 MHz 0.80 dB 1475 MHz 0.78 dB 1525 MHz 0.76 dB 1575 MHz 0.76 dB 1625 MHz 0.74 dB 1675 MHz 0.75 dB 1725 MHz 0.77 dB 1775 MHz 0.77 dB 1825 MHz 0.78 dB 1875 MHz 0.78 dB 1925 MHz 0.80 dB 1975 MHz 0.83 dB 2025 MHz 0.83 dB 2075 MHz 0.81 dB Application Note 9 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Scanned Image of PC Board Figure 6 Image of PC Board Application Note 10 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Scanned Image of PC Board, Close-In Shot Total PCB area used is approximately 40 mm² Figure 7 Image of PC Board, Close-In Shot Application Note 11 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Amplifier Stability T = 25 °C, VCC = 1.8 V, VCE = 1.4 V, I = 9.6 mA Stability Factor "K" is shown below from "screen shot" taken from Rohde and Schwarz ZVC network analyzer. ZVC Vector Network Analyzer calculates and plots K in real time, from measured S parameters.Note that minimum K value is 0.974 at 1.1 GHz, which is ≈ 1, for practical purposes; the amplifier is unconditionally stable over 5 MHz to 8 GHz range. &+ .  8 /,1 5H  8 5()  8   P8   *+]   * + ]  *+]   8  *+] &$/ 2)6  8 &3/ ),/ N    8 602   8 67$57  0+] 'DWH Figure 8 $8*  *+]  6723  *+] $1BSORWBVWDELOLW\B.YVG Plot of Stability K(f) Application Note 12 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Gain Compression at 1575 MHz T = 25 °C, VCC = 1.8 V, VCE = 1.4 V, I = 9.6 mA Amplifier is checked for 1 dB compression point. An Aglient power meter was used to ensure accurate power levels are measured (as opposed to using Vector Network Analyzer in “Power Sweep” mode). Output P1dB ≅ +1.4 dBm; Input P1dB = +1.4 dBm - (Gain - 1 dB) = +1.4 dBm - 18.7 dB = -17.3 dBm Table 4 Gain Compression (1575 MHz) POUT, dBm Gain, dBm -10.0 19.7 -9.0 19.7 -8.0 19.7 -7.0 19.6 -6.0 19.6 -5.0 19.6 -4.0 19.6 -3.0 19.5 -2.0 19.4 -1.0 19.3 0.0 19.2 +1.0 18.9 +2.0 18.5 +3.0 17.6 *DLQ&RPSUHVVLRQ9P$&    G%  *DLQ           3RXW G%P Figure 9     $1BSORWBJDLQBFRPSYVG Plot of Gain Compression @ 1575 MHz Application Note 13 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Please Note - all plots are taken from Rhode and Schwarz ZVC Network Analyzer, T = 25 °C, source power ≈ -30 dBm Input Return Loss, Log Mag 5 MHz to 8 GHz Sweep &+ 6  G% G% 0$*  G% 5()  G%   G%    *+]   * + ]  *+] &$/  G% 2)6  G%  &3/ ),/ N 602   G% 67$57  0+] 'DWH Figure 10 $8*  *+] 6723  *+] $1BSORWBLQSXWBUHWXUQBORVVYVG  Plot of Input Return Loss Application Note 14 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Input Return Loss, Smith Chart Reference Plane = Input SMA Connector on PC Board 5 MHz to 8 GHz Sweep &+ 6   8  M  *+]     &$/ 2)6        &3/   ),/ N 602     67$57  0+] 'DWH Figure 11 $8* 6723  *+] $1BVPLWKBLQSXWBUHWXUQBORVVYVG  Smith Chart of Input Return Loss Application Note 15 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Forward Gain 5 MHz to 8 GHz Sweep &+ 6  G% G% 0$*  G% 5()  G%   G%    *+]   * + ]  *+]  &$/  G% 2)6  G% &3/ ),/ N 602   G% 67$57  0+] 'DWH Figure 12 $8*  *+] 6723  *+] $1BSORWBIZBJDLQYVG  Plot of Forward Gain Application Note 16 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Reverse Isolation 5 MHz to 8 GHz &+ 6  G% G% 0$*  G% 5()  G%   G%    *+]   * + ]  *+]  G% &$/ 2)6  G%  &3/ ),/ N 602   G% 67$57  0+] 'DWH Figure 13 $8*  *+] 6723  *+] $1BSORWBUHYHUVHBLVRODWLRQYVG  Plot of Reverse Isolation Application Note 17 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Output Return Loss, Log Mag 5 MHz to 8 GHz &+ 6  G% G% 0$*  G% 5()  G%   G%    *+]   * + ]  *+] &$/  G% 2)6  G% &3/  ),/ N 602   G% 67$57  0+] 'DWH Figure 14 $8*  *+] 6723  *+] $1BSORWBRXWSXWBUHWXUQBORVVYVG  Plot of Output Return Loss Application Note 18 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C Output Return Loss, Smith Chart Reference Plane = Output SMA Connector on PC Board 5 MHz to 8 GHz Sweep &+ 6   8  M  *+]     &$/ 2)6         &3/  ),/ N 602     67$57  0+] 'DWH Figure 15 $8* 6723  *+] $1BVPLWKBRXWSXWBUHWXUQBORVVYVG  Smith Chart of Output Return Loss Application Note 19 Rev. 1.2, 2007-09-03 Application Note No. 120 1.8 V Low Noise Amplifier for 1575 MHz GPS Applications using the SiGe:C LNA Response to Two-Tone Test Input Stimulus: f1 = 1574 MHz, f2 = 1575 MHz, -25 dBm each tone. Input IP3 = -25 + (50.3/2) = +0.2 dBm Output IP3 = +0.2 dBm + 19.7 dB gain = +19.9 dBm  $1BSORWBWZRBWRQHB/1$BUHVSRQVHYVG Figure 16 Tow-Tone Test, LNA Response (1575 MHz) Application Note 20 Rev. 1.2, 2007-09-03