KEY applications for SAS Multimarket Products - nxp.com Tuning (Legacy) Focus Smartphones ......
Transcript of KEY applications for SAS Multimarket Products - nxp.com Tuning (Legacy) Focus Smartphones ......
PUBLIC 1
Scope
BL SAS Introduction
QUBIC Technology and value proposition
SAS Products for Multimarket
Wide band transistors (WBT)
PIN Diodes
General purpose MMIC
Key Applications
WLAN AP/Router
Automotive
DVB, LNB, STB
IoT
PUBLIC 2
Focus Markets and Applications
GPS LNA
LTE LNA
WLAN LNA
WLAN FEIC
WLAN LNA-Switch
Cellular Base Stations
Set-Top-Box (DOCSIS)
Satellite DBS/VSAT
Access Point/Routers
Multimarket
Industrial/ISM
Broadband (Legacy)
Aerospace & Defence
Basestation LNA
Small Cells MPA
STB/DOCSIS LNA
Satellite LNA/MPA
Satellite RFIC (MO)
Car-2-x LNA/MPA
Mobile Internet
Everywhere
Multimarket &
Legacy
RF Discretes
ISM LNA
TV Tuning (Legacy)
Smartphones
Tablets
Wearables
Focus
Applications
BL SAS
Products and
Solutions
LNA = Low Noise Amplifier
MPA = Medium Power Amplifier
FEIC = Front End IC (LNA+Power Amplifier+Switch)
ISM = Industrial, Scientific and Medical
Market
Segment
PUBLIC 3
The BL Smart Antenna Solution Advantage A Technology Driven Component Play through Full Vertical Integration
• High Performance RF
Amplifiers
• End-to-End Solution
optimization
• Global RF Competence
Centers
• Local Applications and
Engineering Support
• Specialist RF Sales Team
• World Class
Manufacturing Capability
• Own Dual Sourced 8” fabs
• RF optimized assembly
and test
• Advanced RF packaging
• Scale and Quality, giving
tightest performance
distribution
• Leading Edge QUBIC SiGe:C
BiCMOS technology
• Low noise, RF switching and
high power capability uniquely
available in a single process
(monolithic die)
• In-house technology
development and optimization
Manufacturing Solutions Technology
Complete vertical integration leveraging >60B pcs annual production scale offers
the highest performance and quality with lowest cost of ownership
PUBLIC 4
NXP has >15 years of strong experience in QUBiC SiGe process, device
and circuit engineering
High performance “QUBIC” SiGe(C) process that replaces GaAs in targeted
applications
Allows higher integration level (e.g. VGA interfaces, features like bias
setting, on/off) Analog and Digital circuits
Improved thermal performance (smaller footprint, size, reliability)
Most robust/reliable (Active ESD protection)
Inherently superior reliability & manufacturability
At high level of monolithic integration, smallest footprint for RF front-ends
can be achieved at high performance
PA, LNA, Switch, digital control..
Next generation technologies will further leverage improved power handling
capability to enable high efficiency wideband PA solutions
NXP QUBiC® SiGe BiCMOS Technology
Best in class QUBiC technology combining benefits of bipolar SiGe and CMOS
10 5 60 30 2
RF-SOI
CMOS
QUBiC
Gen 8
QUBiC
Gen 10
RF-SOI
QUBiC
Gen 9
Frequency [GHz]
Perf
orm
an
ce
Low
M
ediu
m
Hig
h
Very
Hig
h
LTE-RX WLAN- FEIC
GSM PA: LTE-HB
Ku satcom
Ka satcom
5Gmmwave
IoT radar
BST LNA
GaAs
LDMOS GaN
GaAs (PA)
PUBLIC 6
Wide Band Transistors (WBT) BFU5xx Series Wide Band Transistors
Broadband amplifiers up to 2 GHz
AEC-Q101 qualified
Broad range of package options
Application
ISM applications (LNA’s, Oscillators, Drivers) in the consumer, industrial.
Automotive: RKE, TPMS, FM, DAB+
IoT: Home product, e-metering
Other application: Optical modules, Walkie-Talkie, CATV, DVB-T
BFU6xx & BFU7xx Series & BFU910F Wide Band Transistors
Broadband amplifiers up to 18GHz
High gain, low noise
Application
Satellite LNB: LNA, mixer, DRO
WLAN, Zigbee, Bluetooth
Automotive: GPS, SDARS, RKE
Mobile TV (CMMB, ISBD-Tmm)
IoT: e-metering, security (radar, sensor)
PUBLIC 7
Wide Band Transistor Overview Portfolio and application Function LNAs, mixers, frequency
multipliers, buffers
High-linearity, high-output
amplifiers and drivers
Oscillators
Frequency
range
<2GHz <6GHz 6-10GHz 10-18GHz <2GHz <6GHz 6-10GHz 10-18GHz <2GHz <6GHz 6-10GHz 10-18GHz
Band type ISM433,
ISM866
L,S,C X, Ku low Ku high,
Ka
ISM433,
ISM866
L,S,C X, Ku low Ku high,
Ka
ISM433,
ISM866
L,S,C X, Ku low Ku high,
Ka
BFU520* ● ●
BFU530* ● ●
BFU550* ● ●
BFU580* ●
BFU590* ●
BFU610F ● ● ●
BFU630F ● ● ● ● ●
BFU660F ● ● ● ● ●
BFU690F ● ● ● ● ●
BFU710F ● ● ●
BFU730F ● ● ● ● ● ● ● ●
BFU760F ● ● ● ● ● ●
BFU790F ● ● ●
BFU910F ●
• Multiple package types available Red = application note available on NXP.com
PUBLIC 8
BFU5xx Series WBT Selection Guide
BFU5xx board:
BFU5xx Emitter
Degeneration
board
USB-stick : 3322
355 79931
USB-stick content
files
Loose SMA-connectors
BFU520/30/50 A&W
loose samples : 12
nc: available.
Package Transistor Types EVB Type nr.
Icc 30mA 40mA 50mA 60mA 200mA
SOT323 BFU520W BFU530W BFU550W OM7960
SOT23 BFU520A BFU530A BFU550A OM7961
SOT143 BFU520 BFU530 BFU550 OM7962
SOT143X BFU520X BFU530X BFU550X OM7963
SOT143XR BFU520XR BFU530XR BFU550XR OM7964
SOP89 BFU580Q BFU590Q OM7965
SOT223 BFU580G BFU590G
SOT363 BFU520Y
BFU5xx Series overview by package
and power consumption
PUBLIC 9
BFU6xx & BFU7xx Series RF WBT Selection Guide Type
Package Ft Vceo_{max} Ic_{max}
Application Unit GHz V mA
BFU610F SOT343
40 5.0
10
BFU630F SOT343 30
BFU660F SOT343 70 GPS, STB, LNB, EOC
BFU690F SOT343 100 Auto, AMR, SDARS, EOC
BFU710F SOT343
70 2.8
10 LNB
BFU725F SOT343 40 WLAN, LNB
BFU730F SOT343 30 WLAN, LNB, SDARS
BFU760F SOT343 70 WLAN, GPS, STB
BFU790F SOT343 100 AMR, EOC
BFU910F SOT343 90 2.0 15 LNB
BFU730L
X SOT883 53 3.0 30 WLAN
PUBLIC 10
PIN Diodes Overview Portfolio and application
PIN diodes are widely used as variable resister in gain control functions and as RF switch where low
forward resistance and low internal loss are required.
All diodes will be automotive qualified according AEC-Q101
Typical application
Car Radio applications, especially together with NXP car radio IC’s. Car & mobile radio
manufacturers.
Mobile, diversity antenna tuner, TX/RX switch for IoT applications
A long tail of customers in the industrial market where need switch or attenuator.
SINGLE SERIES COMMON CATHODE COMMON ANODE ANTIPARALLEL QUAD
SOD323 SOD523 SOD882D SOT23 SOT323 SOT23 SOT323 SOT23 SOT323 SOT363 SOT753
BAP55LX
BAP50-03 BAP50-02 BAP50LX BAP50-04 BAP50-04W BAP50-05 BAP50-05W
BAP51-03 BAP51-02 BAP51LX BAP51-04W BAP51-05W BAP51-06W
BAP64-03 BAP64-02 BAP64LX BAP64-04 BAP64-04W BAP64-05 BAP64-05W BAP64-06 BAP64-06W BAP64Q
BAP65-03 BAP65-02 BAP65LX BAP65-05 BAP65-05W
BAP70-03 BAP70-02 BAP70-04W BAP70-05 BAP70AM BAP70Q
BA591 BA891
PUBLIC 11
PIN Diodes Value Proposition
Broad Portflio
Unrivalled performance
Short lead time
Low Series inductance
Low insertion loss
Low capacitance
PUBLIC 12
MMIC for Multimarket
General Purpose Wide Band Gain Block BGA28xx
General Purpose LNA MMIC BGU610x
BGU7003
WLAN LNA MMIC BGU7224
BGU7258
STB LNA MMIC BGU703x
BGU704x
GPS LNA MMIC BGU7004
BGU7008
General Purpose PA MMIC BGA6130
BGA7130
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WLAN LNA in AP/Router
BGU7224, BGU7258
By-pass function
Interference immunity
Reliability: Lower spread, ESD protection
Easy Design: lower components count
BFU730F, BFU768F, BFU730LX
Lower NF
Higher gain
Flexible design
Lower cost
MMIC WBT
PUBLIC 15
NXP WLAN LNA on Qualcomm Platforms
Platform SoC Ref
Design
2.4Ghz 5Ghz
SW LNA PA SW LNA PA
Beeliner
Cascade
QCA9980
QCA9982
QCA9984
CUS260 S**13*** BGU7224 S**2***
CUS239 S**13*** BGU7258 S**13***
Peregrine QCA9880
QCA9882 KUS223 S**13*** BFU768 S**50***
Dakota
IPQ4018
IPQ4019
IPQ4028
IPQ4029
DK04 S**13*** BGU7224 S**2*** S**13*** BGU7258 R**5***
Honeybee QCA9531 AP147 S**13*** BFU768 S**2***
SoC
PA
SW
LNA
ANT
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Bias
RF out RF In
BYP EN Vcc
Spec
BGU7224
(2.4 GHz)
BGU7258
(5-6 GHz)
Vcc 3.3 3.3 V
Icc 13 13 mA
Std Icc 2 1 µA
RF 2.4-2.5 4.9-5.925 GHz
Gain 15 13 dB
Gain
Byp.
-5.5 -7 dB
NF 1.0 1.6 dB
IP1dB -3 -4 dBm
IIP3 5.5 8 dBm
RL
(in/out)
<-10 <-10 dB
802.11b/g/n and a/n/ac compliant
Integrated:
Smallest total solution footprint [1.6*1.6*0.5 DFN]
Operating supply voltage: 3 – 3.6V
Active Bias/Shutdown
Full 50 ohm match
Bypass
Built-in jammer immunity for concurrent 2.4/5.8 GHz operation
WLAN LNA MMIC: BGU7224 & BGU7258
PUBLIC 17
Examples of 2.4GHz WLAN LNA Application Circuits
New application circuits can be generated upon request
Product BFU730F BFU768F BFU730LX BGU7224
Application Note AN11448 AN11006 AN11147 AN11185 AN11223 AN11390
Gain (dB) 20 21 18 15 17 15
NF (dB) 0.9 0.8 1.1 1.05 0.8 1.0
IP1dB (dBm) -12 -16 -12 -11 -9 -3
IIP3 (dBm) -5 2 -2 -1 3 6
Current (mA) 15 10 11 11 12.5 13
Bypass No No No No No Yes
Inductors 1 4 1 1 1 0
Capacitors 4 6 5 4 4 1
Resistors 3 4 4 4 5 0
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Examples of 5GHz WLAN LNA Application Circuits
New application circuits can be generated upon request
Product BFU730F BFU768F BFU730LX BGU7258
Application Note AN11007 AN11140 AN11454 AN11114 AN11184 AN11224 AN11453
Gain (dB) 14-16 14-15 16 11(21) 11 11 14
NF (dB) 1.3 1.1 1.3 1.2(0.7) 1.15 1.2 1.6
P1dB (dBm) -7.5 -8 -7 -8(-13) -5 0 -4
IIP3 (dBm) 10 6 8 4(-4) 15 8 8
Current (mA) 10 11 15 12 12.5 11 13
Bypass No No No No No No Yes
Dual Band No No No Yes No No No
Inductors 4 1 3 4 3 1 0
Capacitors 7 4 4 4 5 4 1
Resistors 4 3 3 4 3 3 0
PUBLIC 20
Overview of NXP MMIC & WBT Application in Automotive
Application Band Config. NXP type
RKE LNA
315, 434,868, 900MHz
one stage LNA BFU5xx:
BFU520W RKE Oscillator Single oscillator
RKE PA PA +
NXP chip Mantra BGA6130
Car FM radio active ANT 65MHz ~ 162.5MHz one stage LNA
BFU5xx:
BFU520
BFU580Q, BFU580G
GPS active ANT 1.575Ghz 2-stages LNAs BGU7004/BGU7008
BFU760F+BFU660F
SDARS active ANT 2.320Ghz~2.345Ghz 2~3-stages LNAs BFU6xx/BFU7xx:
BFU730F+BFU690F
Car to Car
Car to X ()
Hotspot in Car
WLAN
+
LTE
IEEE802.11
Wifi FE
Wifi RX-FE
Wifi LNA
BGF8458
BGS83xx
BGU72xx
LTE LTE LNA BGS8X2
BGU610x
GNSS
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RKE Oscillator, LNA, PA
PCB = 520W-150701 Rev A
PC Board Material = Standard FR4
Q1 (SOT323)BFU520W
AEC-Q101
RF Wideband
Transistor
VCE ~ 3.2 Volts
J1
RF INPUT
C1390pF
(0402)
I = 4.8 mA
R375K
(0402)
C4390pF
(0402)
R1
75
ohms
(0402)
C5
0.1uF
(0402)
Vcc
= 5.0V
J3DC Connector
J2
RF OUTPUT
C2
390pF
(0402)
R4750 ohms
(0402)
C3390pF
(0402)
R2
300 ohms
(0402)
BFU520W Wideband RKE LNA
5 volt implementation
9 ‘external’ components
5 x ‘C’; 4 x ‘R’; no inductors used
50 ohm trace
50 ohm trace
433MHz Oscillator
With BFU520W
433MHz LNA
with BFU520W RKE PA with BGA6130
Trend: Multi-function of RKE
Limited by the printed antenna
high performance RF FE
PUBLIC 22 22
FM LNA Using BFU5xx
Frequency Measurement BFU520 BFU580* Units
Power
Supply
Vcc 3.0 5.0 V
Current 5 25 mA
RF Spec at
98MHz
Gain 21.2 22 dB
NF 1.5 1.6 dB
RL_{in} 9.4 15 dB
RL_{out} 11.4 11 dB
OIP3 15 dBm
The Application Circuits of FM LNA using BFU580Q and
BFU580G are introduced in AN11499 and AN11500
respectively
PUBLIC 23
Automotive Qualified GPS LNA MMIC: BGU7004 & BGU7008
Type Package
Vcc Icc Gain NF P1dB_{in} IIP3*
Unit V mA dB dB dBm dBm
BGU7004 SOT886 1.5-2.85 4.5 17.5 0.9 -8 12
BGU7008 SOT886 1.5-2.85 4.8 19.5 0.9 -11 5
* Measured by two tones at f1=1713MHz and f2=1851MHz
AEC-Q100 qualified
Covers full GNSS L1 band, from 1559 MHz to 1610 MHz
Requires only one input matching inductor and one supply decoupling capacitor
Can be also tuned for L2(1215-1240MHz) band and L5(1164-1189MHz) band by adding
two external components
Power-down mode current consumption < 1 uA
Input and output DC decoupled
ESD protection on all pins (HBM > 2 kV)
Integrated temperature stabilized bias for easy design
Small 6-pin leadless package 1 mm *1.45 mm *0.5 mm
PUBLIC 24
WBT GPS LNA Solution
Parameters 1-Stage 2-Stage 2-Stage Unit
BFU760F BFU760F+BFU660F BFU730F+BFU690F
Vcc 3.0 3.0 3.3 V
Ic 12 19.5 62 mA
Gain 17.7 33 35.4 dB
RL_in 9.6 17 13 dB
RL_out 12.6 17 11.7 dB
NF 0.7 0.78 0.7 dB
P1dB_out 4.9 2.6 13.7 dBm
PUBLIC 25
SDARS LNA Using BFU730F+BFU690F
Measurement Value Units
Vcc 3.3 V
Current 33 mA
Gain 34 dB
NF 0.8 dB
RLin 9.8 dB
RLout 14 dB
IP1dB > -20 dBm
SDARS 1st Stage LNA: BFU730F SDARS 2nd Stage LNA: BFU690F
NF= 0.69dB
Gain= 18.4dB
S11< -9.8dB
S22< -17.9dB
Iso > 30dB
K > 1.1(DC~5G)
ICE= 8.4mA
NF= 1.56dB
Gain= 15.2dB
S11< -13dB
S22< -14dB
Iso > 23dB
K > 1(DC~3.5G)
ICE= 25mA
AN11006 AN11024
PUBLIC 27
DVB-S Introduction
Satellite Low power
Area: (sub) continents
Ku band: 10.7~12.75 GHz
LNB for
converting
Ku band
Into L band
Dish for
concentrating
Signals
“antenna gain”
Terrestrial antenna
For FM radio and
analog TV
2 signals can travel through a
medium without
Interference: “ortogonal”.
Depending on the region this
is linear (vertical/horizontal)
or circular (left hand/right
hand circular polarized)
0 0.95 1.95 2.15 10.7 11.7 1.1
10.6 Low High RF low 12.75 12.75
RF high 9.75 TV+FM
0.04 0.86
PUBLIC 28
Complete portfolio for all architectures Integrated and discrete offering in Ku Band LNB
Port 1
Port 2
Port 3
Port 4
10.6
BPF
BPF
BPF
BPF
9.75 V
H
HL
VL
HH
VH
HL
VL
HH
VH
Ku Band LNA 1st IF Gain Block DRO Switch PIN diode 2nd IF Gain Block
10.7-12.7GHz 950-2150MHz 9.75/10.6 GHz
10.75 GHz
950-2150MHz 950-2150MHz
BFU910F BGA28xx BFU660F BAP64
BAP51
BAP50
BGA28xx
TFF101x
FIMOD IC
Universal Single & TWIN LNB
TFF102x VSAT, Echostar, Direct TV
TFF1044 Universal Quad LNB
Bias
PUBLIC 29
DVB-S STB LNA Solutions (WBT &. MMIC)
Vcc Type #
Vs (V)
Is (mA) Gp (dB) P1dB (dBm) NF (dB)
250MHz 750MHz 250MHz 750MHz 750MHz
2.5V BGA2870 2.5 15.6 31.0 30.8 4.0 4.0 3.5 BGA2874 2.5 16.0 31.2 31.0 7.0 6.0 3.7
950MHz 2150MH
z 950MHz
2150MH
z 2200MHz
3.3V
BGA2800 3.3 10.1 20.5 20.6 -1.0 -2.0 3.6 BGA2802 3.3 12.5 25.8 25.5 1.0 -3.0 3.6 BGA2803 3.0 5.8 23.4 23.0 -6.0 -8.0 3.4 BGA2801 3.3 14.3 22.4 23.0 2.0 0.0 3.9 BGA2815 3.3 18.2 25.3 25.2 5.0 1.0 3.7 BGA2817 3.3 19.8 23.5 24.0 7.5 6.0 4.3 BGA2818 3.3 18.0 30.0 31.0 6.0 5.0 3.2
5V
BGA2851 5.0 7.0 24.7 25.2 -4.0 -5.0 3.0 BGA2866 5.0 17.4 23.9 24.3 4.0 3.0 3.9 BGA2867 5.0 21.7 27.2 27.2 6.5 4.9 3.7 BGA2869 5.0 22.0 31.0 32.5 8.8 8.0 3.5
NXP BFU760F
950MHz 1550MHz 2150MHz unit
Gain 14.5 13.9 12.2 dB
NF 2.1 2.0 2.0 dB
Rl_{in} 8.0 15.2 11.4 dB
Rl_{out} 14.9 28.5 14.6 dB
P1dB 13.9 13.5 10.9 dBm
OIP3 28.4 26.9 25.2 dBm
K factor >1 up to 18GHz
Components 15 pcs
PUBLIC 31
IoT RF Application Application Band NXP type
LNA Sub-GHz
BFU5xx
BFU520*, BFU530*, BFU550*
BFU6xx
BGU610x
PA Sub-GHz BFU690F
BGA6130
Switch Switch BAP64-02
2.4GHz LNA 2.4GHz BGU7224
BGU8053