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RF and Protect ion Devices
BGA777N7
Appl icat ion Note AN370 Revision: Rev. 1.0
2014-03-27
Single-Band UMTS LNA
Single-Band UMTS LNA BGA777N7 Support ing LTE Band-41 (2496-2690 MHz)
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Application Note AN370, Rev. 1.0 2014-03-27 2 / 29
Application Note AN370
Revision History: 2014-03-27
Previous Revision:
Page Subjects (major changes since last revision)
Trademarks of Infineon Technologies AG
AURIX™, C166™, CanPAK™, CIPOS™, CIPURSE™, EconoPACK™, CoolMOS™, CoolSET™, CORECONTROL™, CROSSAVE™, DAVE™, DI-POL™, EasyPIM™, EconoBRIDGE™, EconoDUAL™, EconoPIM™, EconoPACK™, EiceDRIVER™, eupec™, FCOS™, HITFET™, HybridPACK™, I²RF™, ISOFACE™, IsoPACK™, MIPAQ™, ModSTACK™, my-d™, NovalithIC™, OptiMOS™, ORIGA™, POWERCODE™, PRIMARION™, PrimePACK™, PrimeSTACK™, PRO-SIL™, PROFET™, RASIC™, ReverSave™, SatRIC™, SIEGET™, SINDRION™, SIPMOS™, SmartLEWIS™, SOLID FLASH™, TEMPFET™, thinQ!™, TRENCHSTOP™, TriCore™.
Other Trademarks
Advance Design System™ (ADS) of Agilent Technologies, AMBA™, ARM™, MULTI-ICE™, KEIL™, PRIMECELL™, REALVIEW™, THUMB™, µVision™ of ARM Limited, UK. AUTOSAR™ is licensed by AUTOSAR development partnership. Bluetooth™ of Bluetooth SIG Inc. CAT-iq™ of DECT Forum. COLOSSUS™, FirstGPS™ of Trimble Navigation Ltd. EMV™ of EMVCo, LLC (Visa Holdings Inc.). EPCOS™ of Epcos AG. FLEXGO™ of Microsoft Corporation. FlexRay™ is licensed by FlexRay Consortium. HYPERTERMINAL™ of Hilgraeve Incorporated. IEC™ of Commission Electrotechnique Internationale. IrDA™ of Infrared Data Association Corporation. ISO™ of INTERNATIONAL ORGANIZATION FOR STANDARDIZATION. MATLAB™ of MathWorks, Inc. MAXIM™ of Maxim Integrated Products, Inc. MICROTEC™, NUCLEUS™ of Mentor Graphics Corporation. MIPI™ of MIPI Alliance, Inc. MIPS™ of MIPS Technologies, Inc., USA. muRata™ of MURATA MANUFACTURING CO., MICROWAVE OFFICE™ (MWO) of Applied Wave Research Inc., OmniVision™ of OmniVision Technologies, Inc. Openwave™ Openwave Systems Inc. RED HAT™ Red Hat, Inc. RFMD™ RF Micro Devices, Inc. SIRIUS™ of Sirius Satellite Radio Inc. SOLARIS™ of Sun Microsystems, Inc. SPANSION™ of Spansion LLC Ltd. Symbian™ of Symbian Software Limited. TAIYO YUDEN™ of Taiyo Yuden Co. TEAKLITE™ of CEVA, Inc. TEKTRONIX™ of Tektronix Inc. TOKO™ of TOKO KABUSHIKI KAISHA TA. UNIX™ of X/Open Company Limited. VERILOG™, PALLADIUM™ of Cadence Design Systems, Inc. VLYNQ™ of Texas Instruments Incorporated. VXWORKS™, WIND RIVER™ of WIND RIVER SYSTEMS, INC. ZETEX™ of Diodes Zetex Limited.
Last Trademarks Update 2011-11-11
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Introduction
Application Note AN370, Rev. 1.0 2014-03-27 3 / 29
Table of Content
1 Introduction ........................................................................................................................................ 5 1.1 Introduction About 3G and 4G ............................................................................................................. 5 1.2 Applications .......................................................................................................................................... 7 1.3 Infineon LNAs for 3G, 4G LTE and LTE-A Applications ...................................................................... 8
2 BGA777N7 Overview ........................................................................................................................ 11 2.1 Features ............................................................................................................................................. 11 2.2 Description ......................................................................................................................................... 11
3 Application Circuit and Performance Overview ............................................................................ 14 3.1 Schematics and Bill-of-Materials ........................................................................................................ 14 3.2 Comparison between Application Circuit 1 and Circuit 2 ................................................................... 15 3.3 Summary of Measurement Results of Application Circuit 1 ............................................................... 16 3.4 Summary of Measurement Results of Application Circuit 2 ............................................................... 17 3.5 BGA777N7 LNA for LTE Band-41 (2496-2690 MHz) for Circuit 1 ..................................................... 18
4 Measurement Graphs for Circuit 1 ................................................................................................. 19
5 Evaluation Board and Layout Information .................................................................................... 27
6 Authors .............................................................................................................................................. 28
7 Remark .............................................................................................................................................. 28
List of Figures
Figure 1 Example of Application Diagram of RF Front-End for 3G and 4G Systems. ....................................... 7 Figure 2 BGA777N7 in TSNP-7-1 .................................................................................................................... 11 Figure 3 Equivalent Circuit of BGA777N7 ........................................................................................................ 12 Figure 4 Package and Pin Connections of BGA777N7 .................................................................................... 12 Figure 5 Footprint Recommendation 1 for the BGA777N7 Package ............................................................... 13 Figure 6 Footprint Recommendation 2 for the BGA777N7 Package ............................................................... 13 Figure 7 Schematics of the BGA777N7 Application Circuit 1 .......................................................................... 14 Figure 8 Schematics of the BGA777N7 Application Circuit 2 .......................................................................... 15 Figure 9 Insertion Power Gain (Narrowband) of the BGA777N7 for Band-41 Applications ............................. 19 Figure 10 Insertion Power Gain (Wideband) of the BGA777N7 for Band-41 Applications ................................ 19 Figure 11 Noise Figure of the BGA777N7 for Band-41 Applications (High Gain Mode) ................................... 20 Figure 12 Input Matching of the BGA777N7 for Band-41 Applications .............................................................. 20 Figure 13 Input Matching (Smith Chart) of the BGA777N7 for Band-41 Applications ....................................... 21 Figure 14 Output Matching of the BGA777N7 for Band-41 Applications ........................................................... 21 Figure 15 Output Matching (Smith Chart) of the BGA777N7 for Band-41 Applications .................................... 22 Figure 16 Reverse Isolation of the BGA777N7 for Band-41 Applications .......................................................... 22 Figure 17 Stability K-factor of the BGA777N7 for Band-41 Applications ........................................................... 23 Figure 18 Stability Mu1-factor of the BGA777N7 for Band-41 Applications ....................................................... 23 Figure 19 Stability Mu2-factor of the BGA777N7 for Band-41 Applications ....................................................... 24 Figure 20 Input 1dB Compression Point of the BGA777N7 for Band-41 Applications (High Gain Mode) ......... 24 Figure 21 Input 1dB Compression Point of the BGA777N7 for Band-41 Applications (Low Gain Mode) .......... 25 Figure 22 Input 3
rd Intercept Point of the BGA777N7 for Band-41 Applications (High Gain Mode) ................... 25
Figure 23 Input 3rd
Intercept Point of the BGA777N7 for Band-41 Applications (Low Gain Mode) .................... 26 Figure 24 Picture of Evaluation Board (Overview) of BGA777N7 V1.0 ............................................................. 27 Figure 25 Picture of Evaluation Board (Detailed View) of BGA777N7 V1.0 ...................................................... 27 Figure 26 PCB Layer Stack ................................................................................................................................ 27
List of Tables Table 1 LTE Band Assignment ......................................................................................................................... 5 Table 2 Infineon Product Portfolio of LNAs for 4G LTE and LTE-A Applications ............................................. 9 Table 3 Infineon Product Portfolio of LNAs for 3G and 4G Applications ........................................................ 10 Table 4 Pin Assignment of BGA777N7 ........................................................................................................... 13 Table 5 Bill-of-Materials of Application Circuit 1 ............................................................................................. 14
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Introduction
Application Note AN370, Rev. 1.0 2014-03-27 4 / 29
Table 6 Bill-of-Materials of Application Circuit 2 ............................................................................................. 15 Table 7 Comparision Between Application circuit 1 and circuit 2 for Band-41 VCC = 2.8 V, TA = 25 °C ......... 15 Table 8 Electrical Characteristics of BGA777N7 at High Gain Mode for Band-41 ......................................... 16 Table 9 Electrical Characteristics of BGA777N7 at Low Gain Mode for Band-41 .......................................... 16 Table 10 Electrical Characteristics of BGA777N7 at High Gain Mode for Band-41 ......................................... 17 Table 11 Electrical Characteristics of BGA777N7 at Low Gain Mode for Band-41 .......................................... 17
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Introduction
Application Note AN370, Rev. 1.0 2014-03-27 5 / 29
1 Introduction
1.1 Introduction About 3G and 4G
The mobile technologies for smartphones have seen tremendous growth in recent years. The
data rate required from mobile devices has increased significantly over the evolution modern
mobile technologies starting from the first 3G/3.5G technologies (UMTS & WCDMA, HSPA &
HSPA+) to the recently 4G LTE-Advanced (LTE-A, LTE-B, LTE-C, … ). LTE-Advanced can
support download data rates of up to 1 Gbps and upload data rates up to 500 Mbps.
Advanced technologies such as diversity Multiple Input Multiple Output (MIMO) and Carrier
Aggregation (CA) are adopted to achieve such higher data rate requirements. MIMO
technology, commonly referred as the diversity path in smartphones, has attracted attention
for the significant increasement in data throughput and link range without additional
bandwidth or increased transmit power. The technology supports scalable channel bandwidth
from 1.4 to 20 MHz. The ability of 4G LTE to support bandwidths up to 20 MHz and to have
more spectral efficiency by using high order modulation methods like QAM-64 is of particular
importance as the demand for higher wireless data rates continues to grow fast. Carrier
aggregation used in LTE-Advanced combines up to 5 carriers and widens bandwidths up to
100 MHz to increase the user rates, across FDD and TDD.
Countries all over the world have released various frequencies bands for the 4G
applications.Table 1 shows the band assignment for the LTE bands worldwide.
Table 1 LTE Band Assignment
Band No. Uplink Frequency Range Downlink Frequency Range Comment
1 1920-1980 MHz 2110-2170 MHz FDD
2 1850-1910 MHz 1930-1990 MHz FDD
3 1710-1785 MHz 1805-1880 MHz FDD
4 1710-1755 MHz 2110-2155 MHz FDD
5 824-849 MHz 869-894 MHz FDD
6 830-840 MHz 875-885 MHz FDD
7 2500-2570 MHz 2620-2690 MHz FDD
8 880-915 MHz 925-960 MHz FDD
9 1749.9-1784.9 MHz 1844.9-1879.9 MHz FDD
10 1710-1770 MHz 2110-2170 MHz FDD
11 1427.9-1452.9 MHz 1475.9-1500.9 MHz FDD
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Introduction
Application Note AN370, Rev. 1.0 2014-03-27 6 / 29
Table 1 LTE Band Assignment
Band No. Uplink Frequency Range Downlink Frequency Range Comment
12 698-716 MHz 728-746 MHz FDD
13 777-787 MHz 746-756 MHz FDD
14 788-798 MHz 758-768 MHz FDD
17 704-716 MHz 734-746 MHz FDD
18 815-830 MHz 860-875 MHz FDD
19 830-845 MHz 875-890 MHz FDD
20 832-862 MHz 791-821 MHz FDD
21 1447.9-1462.9 MHz 1495.9-1510.9 MHz FDD
22 3410-3500 MHz 3510-3600 MHz FDD
23 2000-2020 MHz 2180-2200 MHz FDD
24 1626.5-1660.5 MHz 1525-1559 MHz FDD
25 1850-1915 MHz 1930-1995 MHz FDD
26 814-849 MHz 859-894 MHz FDD
27 807-824 MHz 852-869 MHz FDD
28 703-748 MHz 758-803 MHz FDD
29 N/A 716-728 MHz FDD
33 1900-1920 MHz TDD
34 2010-2025 MHz TDD
35 1850-1910 MHz TDD
36 1930-1990 MHz TDD
37 1910-1930 MHz TDD
38 2570-2620 MHz TDD
39 1880-1920 MHz TDD
40 2300-2400 MHz TDD
41 2496-2690 MHz TDD
42 3400-3600 MHz TDD
43 3600-3800 MHz TDD
44 703-803 MHz TDD
In order to cover all the bands from different countries in a unique device, mobile phones and
data cards are usually equipped with sevaral bands. Some typical examples are quad-band
FDD systems are the following band combinations: 1/2/5/8, 1/3/5/7 and 3/7/5/17. Besides
these FDD-LTE frequency bands, several TD-LTE bands are available around the world.
Some of these bands are band-42 in Australia and UK, band-38 in the US and China, and
band-40 in India and Australia.
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Introduction
Application Note AN370, Rev. 1.0 2014-03-27 7 / 29
1.2 Applications
Figure 1 shows an example of the simplified block diagram of the RF front-end of a 3G and
4G system. A SPnT switch connects one side the antenna and several duplexers for different
4G bands on the other side. Every duplexer is connected to the transmitting (TX) and
receiving (RX) paths of each band. The external LNA, here for example Infineon single-band
LNA BGA777N7, is placed on the RX path between the duplex and the bandpass SAW filter.
The output of the SAW filter is connected to the receiver input of the transceiver IC.
Depending on the number of bands designed in a device, various numbers of LNAs are
required in a system. Recently, even mobile devices with 5 modes 13 bands are under
discussion. Not only for the main pathes, but also for the diversity pathes, the external LNAs
are widely used to boost end user experience while using mobile devices for video and audio
streaming.
Besides low noise amplifiers, Infineon Technologies also offers solutions for high power
highly linear antenna switches, band switches as well as power detection diodes for power
amplifiers.
Figure 1 Example of Application Diagram of RF Front-End for 3G and 4G Systems.
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Introduction
Application Note AN370, Rev. 1.0 2014-03-27 8 / 29
1.3 Infineon LNAs for 3G, 4G LTE and LTE-A Applications
With the increasing wireless data speed and with the extended link distance of mobile
phones and 4G data cards, the requirements on the sensitivity are much higher. Infineon
offers different kind of low noise amplifiers (LNAs) to support the customers for mobile
phones and data cards of 4G LTE and LTE-A to improve their system performance to meet
the requirements coming from the networks/service providers.
The benefits to use external LNAs in equipment for 4G LTE and LTE-A applications are:
- Flexible design to place the front-end components: due to the size constraint, the modem
antenna and the front-end can not be always put close to the transceiver IC. The path loss
in front of the integrated LNA on the transceiver IC increases the system noise figure
noticeably. An external LNA physically close to the antenna can help to eliminate the path
loss and reduce the system noise figure. Therefore the sensitivity can be improved by
several dB.
- Support RX carrier aggregation where two LNAs can be tuned on at the same time.
- Boost the sensitivity by reducing the system noise figure: external LNA has lower noise
figure than the integrated LNA on the transceiver IC.
- Bug fix to help the transceiver ICs to fulfill the system requirements.
- Increase the dynamic range of the power handling.
Infineon Technologies is the leading company with broad product portfolio to offer high
performance SiGe:C bipolar transistor LNAs and MMIC LNAs for various wireless
applications by using the industrial standard silicon process. The MMIC LNA portfolio
includes:
- New generation single band LTE LNAs like BGA7H1N6 for high-band (HB, 2300-2700
MHz), BGA7M1N6 for mid-band (MB, 1805-2200 MHz) and BGA7L1N6 for low-band (LB,
728-960 MHz) are available.
- New generation LTE LNA Banks are quad-band. Currently there are six different types of
these new LTE LNA Banks which are shown in Table 2. Each LNA bank combines four
various bands LNA from the high-band (HB, 2300-2700 MHz), mid-band (MB, 1805-2200
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Introduction
Application Note AN370, Rev. 1.0 2014-03-27 9 / 29
MHz) and low-band (LB, 728-960 MHz). Two of the four LNAs in one LNA bank can be
turned on at the same time to support carrier aggregassion.
The broad product portfolio with highest integration and best features in noise figure and
flexible band selection helps designers to design mobile phones and data cards with
outstanding performance. Therefore Infineon LNAs and LNA banks are widely used by
mobile phone vendors.
Table 2 Infineon Product Portfolio of LNAs for 4G LTE and LTE-A Applications
Frequency Range 728-960 MHz 1805MHz-2200MHz 2300 MHz-2690 MHz Comment
Single-Band LNA
BGA7L1N6 1X
BGA7M1N6 1X
BGA7L1N6 1X
Quad-Band LNA bank
BGM7MLLH4L12 1X 2X 1X
BGM7LMHM4L12 1X 2X 1X
BGM7HHMH4L12 1X 3X
BGM7MLLM4L12 2X 2X
BGM7LLHM4L12 2X 1X 1X
BGM7LLMM4L12 2X 2X
In addition, the older generation of LTE and 3G LNAs are featured with gain switching
functions which is often helpful for the cases that string or weak signal environment could
happen in the field. Table 3 shows the abailable band combinations:
- Single-band LNAs like BGA777L7 / BGA777N7 for high-band (2300-2700 MHz), BGA711L7
/ BGA711N7 for mid-band (MB, 1700-2300 MHz) and BGA751L7 / BGA751N7,
BGA728L7/BGA728N7, BGA713L7/BGA713N7 for low-band (LB, 700-1000 MHz) are
available.
- Dual-band LNA BGA771L16 supports 1x mid-band (MB, 1700-2300 MHz) and 1x low-band
(LB, 700-1000 MHz).
- Triple-band LNAs BGA734N16, BGA735N16 and BGA736N16 are available to cover the
most bands. All of the three triple-band LNAs can support designs covering 2x high-bands
and 1x low-band.
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Application Note AN370, Rev. 1.0 2014-03-27 10 / 29
- Both BGA748N16 and BGA749N16 are quad-band LNAs. BGA748N16 can cover 2x high-
and 2x low-bands and BGA749N16 can cover 1x high-band and 3x low-bands.
Table 3 Infineon Product Portfolio of LNAs for 3G and 4G Applications
Frequency Range 700-1000 MHz 1700-2200 MHz 2100-2700 MHz Comment
Single-Band LNA
BGA711N7/L7 1X
BGA751N7/L7 1X
BGA777N7/L7 1X
BGA728L7/N7 1X
BGA713L7/N7 1X
Dual-Band LNA
BGA771L16 1X 1X
Triple-Band LNA
BGA734L16 1X 1X 1X
BGA735N16 1X 1X 1X
BGA736N16 1X 1X 1X
Quad-Band LNA
BGA748N16 2X 1X 1X
BGA749N16 3X 1X
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
BGA777N7 Overview
Application Note AN370, Rev. 1.0 2014-03-27 11 / 29
2 BGA777N7 Overview
2.1 Features
Main features:
• Gain: 16.4 / -6.8 dB in high / low gain mode
• Noise figure: 1.12 dB in high gain mode
• Supply current: 4.5 / 0.5 mA in high / low gain mode
• Standby mode (< 2 μA typ.)
• Output internally matched to 50 Ω
• Inputs pre-matched to 50 Ω
• 2 kV HBM ESD protection
• Low external component count
• Small leadless TSNP-7-1 package
(2.0 x 1.3 x 0.39 mm3)
• Pb-free (RoHS compliant) package
Figure 2 BGA777N7 in TSNP-7-1
2.2 Description
The BGA777N7 is a low current single-band low noise amplifier MMIC for UMTS bands 7, 38
40 and 41. The LNA is based upon Infineon’s proprietary and cost-effective SiGe:C
technology and comes in a low profile TSNP-7-1 leadless green package. This document
specifies electrical parameters, pinout, application circuit and packaging of the chip. The
device features dynamic gain control, temperature stabilization, standby mode and 2 kV ESD
protection on-chip as well as matching off chip.
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
BGA777N7 Overview
Application Note AN370, Rev. 1.0 2014-03-27 12 / 29
Figure 3 Equivalent Circuit of BGA777N7
Figure 4 Package and Pin Connections of BGA777N7
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
BGA777N7 Overview
Application Note AN370, Rev. 1.0 2014-03-27 13 / 29
Figure 5 Footprint Recommendation 1 for the BGA777N7 Package
Figure 6 Footprint Recommendation 2 for the BGA777N7 Package
Table 4 Pin Assignment of BGA777N7
Pin No. Symbol Function
1 RFIN LNA input
2 VEN Band select control
3 VGS Gain step control
4 VCC Supply voltage
5 RRef Bias current reference resistor (high gain mode)
6 RFOUT LNA output
7 GND Package paddle; ground connection and control circuitry
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Application Circuit and Performance Overview
Application Note AN370, Rev. 1.0 2014-03-27 14 / 29
3 Application Circuit and Performance Overview
Device: BGA777N7
Application: Single-Band UMTS LNA BGA777N7 Supporting LTE Band-41 (2496-2690 MHz)
PCB Marking: BGA7xxL7 V1.0
3.1 Schematics and Bill-of-Materials
Figure 7 Schematics of the BGA777N7 Application Circuit 1
Table 5 Bill-of-Materials of Application Circuit 1
Symbol Value Unit Size Manufacturer Comment
C1 2.4 pF 0402 Various DC block & input matching
C2 1.2 pF 0402 Various Output matching
L1 4.1 nH 0402 Murata LQW series Input matching
L2 4.1 nH 0402 Murata LQW series Input matching
L3 3.9 nH 0402 Murata LQW series Onput matching
N1 BGA777N7 TSNP-7-1 Infineon SiGe LNA
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Application Circuit and Performance Overview
Application Note AN370, Rev. 1.0 2014-03-27 15 / 29
Figure 8 Schematics of the BGA777N7 Application Circuit 2
Table 6 Bill-of-Materials of Application Circuit 2
Symbol Value Unit Size Manufacturer Comment
C1 1 nF 0402 Various DC block & input matching
C2 1.2 pF 0402 Various Output matching
L1 2.5 nH 0402 Murata LQW series Input matching
L2 4.1 nH 0402 Murata LQW series Input matching
L3 3.9 nH 0402 Murata LQW series Onput matching
N1 BGA777N7 TSNP-7-1 Infineon SiGe LNA
3.2 Comparison between Application Circuit 1 and Circuit 2
Table 7 Comparision Between Application circuit 1 and circuit 2 for Band-41 VCC = 2.8 V, TA = 25 °C
Parameter Symbol Value
Unit Comment/Test Condition
Circuit 1 Circuit 2
Frequency Freq 2593 2593 MHz
HG LG HG LG
Gain G 16.6 -6.8 16.6 -7.3 dB
Noise Figure NF 1.18 6.8 1.23 7.3 dB Loss of SMA and line of 0.11 dB is substracted
Input Return Loss RLin 15.2 12.1 13.2 7.2 dB
Output Return Loss
RLout 19.1 10.7 25.3 11.3 dB
Output P1dB OP1dB 4.9 -8.8 4.7 -8.4 dBm
Output IP3 OIP3 13.9 -1.6 16.8 -2 dBm Power @ Input: -30 dBm
f1=2593 MHz, f2=2594 MHz
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Application Circuit and Performance Overview
Application Note AN370, Rev. 1.0 2014-03-27 16 / 29
3.3 Summary of Measurement Results of Application Circuit 1
Table 8 Electrical Characteristics of BGA777N7 at High Gain Mode for Band-41
VCC = 2.8 V, VEN = 2.8 V, VGS = 2.8 V, TA = 25 °C
Parameter Symbol Value Unit Comment/Test Condition
DC Voltage Vcc 2.8 V
DC Current Icc 4.4 mA
Frequency Range Freq 2496 2593 2690 MHz
Gain G 16.4 16.6 15.8 dB
Noise Figure NF 1.18 1.18 1.20 dB Loss of SMA and line of 0.11
dB is substracted
Input Return Loss RLin 10.4 15.2 19.8 dB
Output Return Loss RLout 10.7 19.1 10.8 dB
Reverse Isolation IRev 34.9 34.1 34.1 dB
Input P1dB IP1dB -9.1 -10.7 -12.4 dBm
Output P1dB OP1dB 6.3 4.9 2.4 dBm
Input IP3 IIP3 -2.7 dBm Power @ Input: -30 dBm
f1=2593 MHz, f2=2594 MHz
Output IP3 OIP3 13.9 dBm
Stability k >1 -- Measured up to 10 GHz
Table 9 Electrical Characteristics of BGA777N7 at Low Gain Mode for Band-41
VCC = 2.8 V, VEN = 2.8 V, VGS = 0 V, TA = 25 °C
Parameter Symbol Value Unit Comment/Test Condition
DC Voltage Vcc 2.8 V
DC Current Icc 0.5 mA
Frequency Range Freq 2496 2593 2690 MHz
Gain G -6.9 -6.8 -7.3 dB
Noise Figure NF 6.9 6.8 7.3 dB Loss of SMA and line of 0.11
dB is substracted
Input Return Loss RLin 10.5 12.1 10.8 dB
Output Return Loss RLout 12.2 10.7 7.6 dB
Reverse Isolation IRev 6.9 6.8 7.3 dB
Input P1dB IP1dB -1.1 -1.0 -1.4 dBm
Output P1dB OP1dB -9.0 -8.8 -9.7 dBm
Input IP3 IIP3 5.2 dBm Power @ Input: -30 dBm
f1=2593MHz, f2=2594 MHz
Output IP3 OIP3 -1.6 dBm
Stability k >1 -- Measured up to 10 GHz
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Application Circuit and Performance Overview
Application Note AN370, Rev. 1.0 2014-03-27 17 / 29
3.4 Summary of Measurement Results of Application Circuit 2
Table 10 Electrical Characteristics of BGA777N7 at High Gain Mode for Band-41
VCC = 2.8 V, VEN = 2.8 V, VGS = 2.8 V, TA = 25 °C
Parameter Symbol Value Unit Comment/Test Condition
DC Voltage Vcc 2.8 2.8 2.8
DC Current Icc 4.4 4.4 4.4
Frequency Range Freq 2496 2593 2690 MHz
Gain G 16.9 16.6 15.7 dB
Noise Figure NF 1.17 1.23 1.31 dB Loss of SMA and line of 0.11
dB is substracted
Input Return Loss RLin 15.8 13.2 11.8 dB
Output Return Loss RLout 12.5 25.3 11.2 dB
Reverse Isolation IRev 34.3 34.0 34.4 dB
Input P1dB IP1dB -9.5 -10.9 -12.5 dBm
Output P1dB OP1dB 6.4 4.7 2.2 dBm
Input IP3 IIP3 0.2 dBm Power @ Input: -30 dBm
f1=2593MHz, f2=2594 MHz
Output IP3 OIP3 16.8 dBm
Stability k >1 -- Measured up to 10 GHz
Table 11 Electrical Characteristics of BGA777N7 at Low Gain Mode for Band-41
VCC = 2.8 V, VEN = 2.8 V, VGS = 0 V, TA = 25 °C
Parameter Symbol Value Unit Comment/Test Condition
DC Voltage Vcc 2.8 2.8 2.8
DC Current Icc 0.5 0.5 0.5
Frequency Range Freq 2496 2593 2690 MHz
Gain G -6.8 -7.3 -8.4 dB
Noise Figure NF 6.8 7.3 8.4 dB Loss of SMA and line of 0.11
dB is substracted
Input Return Loss RLin 9.5 7.2 5.3 dB
Output Return Loss RLout 16.8 11.3 6.7 dB
Reverse Isolation IRev 6.8 7.3 8.4 dB
Input P1dB IP1dB -0.8 -0.1 -0.3 dBm
Output P1dB OP1dB -8.6 -8.4 -9.7 dBm
Input IP3 IIP3 5.3 dBm Power @ Input: -30 dBm
f1=2593MHz, f2=2594 MHz
Output IP3 OIP3 -2 dBm
Stability k >1 -- Measured up to 10 GHz
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Application Circuit and Performance Overview
Application Note AN370, Rev. 1.0 2014-03-27 18 / 29
3.5 BGA777N7 LNA for LTE Band-41 (2496-2690 MHz) for Circuit 1
This application note focuses on the Infineon’s Single-band UMTS LNA, BGA777N7 tuned for the
LTE band-41. It presents the performance of BGA777N7 with 2.8V voltage for both high and low
gain mode. This application circuit requires seven 0402 passive components. The components
values are fine tuned for optimal noise figure, gain, input and output matching.
In high gain mode, it has an in-band gain of 16.6 dB. The circuit achieves input return loss better
than 10.4 dB, as well as the output return loss better than 10.7 dB. At room temperature the
noise figure is 1.18 dB (SMA and PCB losses are subtracted). Furthermore, the circuit is
measured unconditionally stable till 10 GHz. At Band-41, using two tones spacing of 1 MHz, the
output third order intercept point, OIP3 reaches 13.9 16.9 dBm. Input P1dB of the BGA777N7
LNA is about –9 dBm at 2496 MHz.
In low gain mode, it has an attenuation of 6.9 dB. The circuit achieves input return loss better
than 10.5 dB, as well as the output return loss better than 8 dB. Moreover, the circuit is also
unconditionally stable till 10 GHz. At Band-41, using two tones spacing of 1 MHz, the input third
order intercept point, IIP3 reaches 8.3 dBm. Input P1dB of the BGA777N7 LNA is about -1.1 dBm
at 2496 MHz. All the measurements are done with the standard evaluation board presented at
the end of this application note.
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Measurement Graphs for Circuit 1
Application Note AN370, Rev. 1.0 2014-03-27 19 / 29
4 Measurement Graphs for Circuit 1
Figure 9 Insertion Power Gain (Narrowband) of the BGA777N7 for Band-41 Applications
Figure 10 Insertion Power Gain (Wideband) of the BGA777N7 for Band-41 Applications
2300 2400 2500 2600 2700 2800 2900
Frequency (MHz)
Insertion Power Gain (Narrowband)
-15
-5
5
15
25
2593 MHz-6.783 dB
2496 MHz-6.899 dB
2496 MHz16.42 dB
2690 MHz-7.304 dB
2690 MHz15.79 dB
2593 MHz16.56 dB
High Gain
Low Gain
0 2000 4000 6000 8000
Frequency (MHz)
Insertion Power Gain (Wideband)
-40
-30
-20
-10
0
10
20
30
2690 MHz-7.304 dB
2496 MHz-6.899 dB
2593 MHz-6.783 dB
2496 MHz16.42 dB
2690 MHz15.79 dB
2593 MHz16.56 dB
High Gain
Low Gain
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Measurement Graphs for Circuit 1
Application Note AN370, Rev. 1.0 2014-03-27 20 / 29
Figure 11 Noise Figure of the BGA777N7 for Band-41 Applications (High Gain Mode)
Figure 12 Input Matching of the BGA777N7 for Band-41 Applications
2450 2500 2550 2600 2650 2700 2750
Frequency (MHz)
Noise Figure (High Gain Mode)
1.05
1.1
1.15
1.2
1.25
1.3
2496 MHz1.1653
2593 MHz1.1777
2690 MHz1.19
2300 2400 2500 2600 2700 2800 2900
Frequency (MHz)
Input Return Loss
-30
-25
-20
-15
-10
-5
0
2496 MHz-10.52 dB
2496 MHz-10.44 dB
2593 MHz-15.16 dB 2690 MHz
-19.82 dB
2690 MHz-10.82 dB
2593 MHz-12.05 dB
High Gain
Low Gain
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Measurement Graphs for Circuit 1
Application Note AN370, Rev. 1.0 2014-03-27 21 / 29
Figure 13 Input Matching (Smith Chart) of the BGA777N7 for Band-41 Applications
Figure 14 Output Matching of the BGA777N7 for Band-41 Applications
0 1.0
1.0
-1.0
10.0
10.0
-10.0
5.0
5.0
-5.0
2.0
2.0
-2.0
3.0
3.0
-3.0
4.0
4.0
-4.0
0.2
0.2
-0.2
0.4
0.4
-0.4
0.6
0.6
-0.6
0.8
0.8
-0.8
Input Matching Smith ChartSwp Max
2900MHz
Swp Min
2300MHz
2496 MHzr 1.53414x -0.569365
2593 MHzr 1.31507x -0.257287
2690 MHzr 1.22708x 0.00798212
2690 MHzr 0.55813x -0.0786556
2593 MHzr 0.755438x -0.375669
2496 MHzr 1.04731x -0.637057
High Gain
Low Gain
2300 2400 2500 2600 2700 2800 2900
Frequency (MHz)
Output Return Loss
-30
-25
-20
-15
-10
-5
0
2496 MHz-12.22 dB
2496 MHz-10.67 dB
2690 MHz-10.81 dB
2593 MHz-19.09 dB
2690 MHz-7.621 dB2593 MHz
-10.73 dB
High Gain
Low Gain
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Measurement Graphs for Circuit 1
Application Note AN370, Rev. 1.0 2014-03-27 22 / 29
Figure 15 Output Matching (Smith Chart) of the BGA777N7 for Band-41 Applications
Figure 16 Reverse Isolation of the BGA777N7 for Band-41 Applications
0 1.0
1.0
-1.0
10.0
10.0
-10.0
5.0
5.0
-5.0
2.0
2.0
-2.0
3.0
3.0
-3.0
4.0
4.0
-4.0
0.2
0.2
-0.2
0.4
0.4
-0.4
0.6
0.6
-0.6
0.8
0.8
-0.8
Output Matching Smith ChatSwp Max
2900MHz
Swp Min
2300MHz
2690 MHzr 1.52348x -1.00026
2593 MHzr 1.35205x -0.612963
2496 MHzr 1.14933x -0.520368
2593 MHzr 0.882477x 0.173287
2690 MHzr 1.76082x 0.242221
2496 MHzr 0.559306x -0.124905
High Gain
Low Gain
2300 2500 2700 2900
Frequency (MHz)
Reverse Isolation
-40
-30
-20
-10
0
2690 MHz-34.06 dB
2593 MHz-34.05 dB
2496 MHz-34.94 dB
2690 MHz-7.315 dB
2593 MHz-6.791 dB
2496 MHz-6.91 dB
High Gain
Low Gain
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Measurement Graphs for Circuit 1
Application Note AN370, Rev. 1.0 2014-03-27 23 / 29
Figure 17 Stability K-factor of the BGA777N7 for Band-41 Applications
Figure 18 Stability Mu1-factor of the BGA777N7 for Band-41 Applications
0 2000 4000 6000 8000
Frequency (MHz)
Stability K Factor
0
1
2
3
4
5
6
7
8
9
10
High Gain
Low Gain
0 2000 4000 6000 8000
Frequency (MHz)
Stability mu1 Factor
0
1
2
3
4
5High Gain
Low Gain
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Measurement Graphs for Circuit 1
Application Note AN370, Rev. 1.0 2014-03-27 24 / 29
Figure 19 Stability Mu2-factor of the BGA777N7 for Band-41 Applications
Figure 20 Input 1dB Compression Point of the BGA777N7 for Band-41 Applications (High Gain Mode)
0 2000 4000 6000 8000
Frequency (MHz)
Stability mu2 Factor
0
1
2
3
4
5
6
7
8
High Gain
Low Gain
-30 -25 -20 -15 -10 -5 0
Power (dBm)
Input 1dB Compression Point (High Gain)
10
12
14
16
18
-12.35 dBm14.879
-29.98 dBm15.879
-9.145 dBm15.477-30 dBm
16.477
-30 dBm16.627 -10.7 dBm
15.627
2496 MHz
2593 MHz
2690 MHz
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Measurement Graphs for Circuit 1
Application Note AN370, Rev. 1.0 2014-03-27 25 / 29
Figure 21 Input 1dB Compression Point of the BGA777N7 for Band-41 Applications (Low Gain Mode)
Figure 22 Input 3rd
Intercept Point of the BGA777N7 for Band-41 Applications (High Gain Mode)
-30 -25 -20 -15 -10 -5 0
Power (dBm)
Input 1dB Compression Point (Low Gain)
-10
-8
-6
-4
-2
0
-30 dBm-6.881
-1.373 dBm-8.253
-30 dBm-7.253
-1.069 dBm-7.437
-1.031 dBm-7.778
-30 dBm-6.751
2496 MHz
2593 MHz
2690 MHz
2591 2592 2593 2594 2595 2596
Frequency (MHz)
Input 3rd order Intercept point (High Gain)
-115
-95
-75
-55
-35
-15
02593 MHz-13.25
2594 MHz-13.26
2592 MHz-67.47
2595 MHz-67.3
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Measurement Graphs for Circuit 1
Application Note AN370, Rev. 1.0 2014-03-27 26 / 29
Figure 23 Input 3rd
Intercept Point of the BGA777N7 for Band-41 Applications (Low Gain Mode)
2591 2593 2595 2596
Frequency (MHz)
Input 3rd order Intercept point (Low Gain)
-130
-110
-90
-70
-50
-302593 MHz-37
2594 MHz-37.02
2592 MHz-113.9
2595 MHz-107.9
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Evaluation Board and Layout Information
Application Note AN370, Rev. 1.0 2014-03-27 27 / 29
5 Evaluation Board and Layout Information
In this application note, the following PCB is used:
PCB Marking: BGA7xxL7 V1.0
PCB material: FR4
r of PCB material: 4.3
Figure 24 Picture of Evaluation Board (Overview) of BGA777N7 V1.0
Figure 25 Picture of Evaluation Board (Detailed View) of BGA777N7 V1.0
Figure 26 PCB Layer Stack
Copper
35µm
FR4, 0.2mm
FR4, 0.8mm
Vias
BGA777N7 Single-Band UMTS LNA for LTE Band-41 (2496-2690 MHz)
Authors
Application Note AN370, Rev. 1.0 2014-03-27 28 / 29
6 Authors
Xufeng Du, Internship Student of Business Unit “RF and Protection Devices”
Moakhkhrul Islam, RF Application Engineer of Business Unit “RF and Protection Devices”
7 Remark
The graphs are generated with the simulation software AWR Microwave Office®.
w w w . i n f i n e o n . c o m
Published by Infineon Technologies AG AN370