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BGU7007NXPN/a5000avaiSiGe:C LNA MMIC for GPS, GLONASS, Galileo and Compass


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BGU7007
SiGe:C LNA MMIC for GPS, GLONASS, Galileo and Compass
1. Product profile
1.1 General description

The BGU7007 is a Low Noise Amplifier (LNA) for GNSS receiver applications in a plastic
leadless 6-pin, extremely small SOT886 package. The BGU7007 requires only one
external matching inductor and one external decoupling capacitor.
The BGU7007 adapts itself to the changing environment resulting from co-habitation of
different radio systems in modern cellular handsets. It has been designed for low power
consumption and optimal performance when jamming signals from co-existing cellular
transmitters are present. At low jamming power levels it delivers 18.5 dB gain at a noise
figure of 0.85 dB. During high jamming power levels, resulting for example from a cellular
transmit burst, it temporarily increases its bias current to improve sensitivity.
1.2 Features and benefits
Covers full GNSS L1 band, from 1559 MHz to 1610 MHz Noise figure (NF) = 0.85 dB Gain 18.5 dB High input1 dB compression point Pi (1dB) of 12 dBm High out of band IP3i of 4 dBm Supply voltage 1.5 V to 3.1V Power-down mode current consumption < 1 A Optimized performance at low supply current of 4.8 mA Integrated temperature stabilized bias for easy design Requires only one input matching inductor and one supply decoupling capacitor Input and output DC decoupled ESD protection on all pins (HBM > 2 kV) Integrated matching for the output Small 6-pin leadless package 1 mm  1.45 mm  0.5 mm 110 GHz transit frequency - SiGe:C technology
BGU7007
SiGe:C Low Noise Amplifier MMIC for GPS, GLONASS, Galileo
and Compass
Rev. 3 — 29 March 2012 Product data sheet
NXP Semiconductors BGU7007
SiGe:C LNA MMIC for GPS, GLONASS, Galileo and Compass
1.3 Applications
LNA for GPS, GLONASS, Galileo and Compass (BeiDou) in smart phones, feature
phones, tablet PCs, Personal Navigation Devices, Digital Still Cameras, Digital Video
Cameras, RF Front End modules, complete GPS chipset modules and theft protection
(laptop, ATM)
1.4 Quick reference data

[1] PCB losses are subtracted.
[2] Including PCB losses.
[3] f1 = 1713 MHz; f2 = 1851 MHz; P1 =P2= 30 dBm.
2. Pinning information

Table 1. Quick reference data
= 1559 MHz to 1610 MHz; VCC = 1.8 V; Pi < 40 dBm; Tamb =25 C; input matched to 50  using
a 5.6 nH inductor; unless otherwise specified.
VCC supply voltage RF input AC coupled 1.5- 3.1 V
ICC supply current VENABLE  0.8 V
Pi < 40 dBm 3.4 4.8 6.1 mA
Pi = 20 dBm 8.9 12.8 15.9 mA power gain Pi < 40 dBm, no jammer 16.5 18.5 20.5 dB
Pi = 20 dBm 17.5 19.5 21.5 dB noise figure Pi < 40 dBm, no jammer [1]- 0.85 1.2 dB
Pi < 40 dBm, no jammer [2]- 0.90 1.3 dB
Pi = 20 dBm - 1.2 1.6 dB
Pi(1dB) input power at 1 dB
gain compression= 1559 MHz to 1610 MHz
VCC =1.5V 16 13- dBm
VCC =1.8V 15 12- dBm
VCC =2.85V 14 11- dBm
IP3i input third-order intercept point f= 1.575 GHz
VCC =1.5V [3] 14 - dBm
VCC =1.8V [3] 14 - dBm
VCC =2.85V [3] 25 - dBm
Table 2. Pinning
NXP Semiconductors BGU7007
SiGe:C LNA MMIC for GPS, GLONASS, Galileo and Compass
3. Ordering information

4. Marking

5. Limiting values

[1] Tsp is the temperature at the soldering point of the emitter lead.
[2] Warning: due to internal ESD diode proctection, the applied DC voltage should not exceed VCC+ 0.6 and
shall not exceed 5.0 V in order to avoid excess current.
[3] The RF input and RF output are AC coupled through internal DC blocking capacitors.
6. Thermal characteristics

Table 3. Ordering information

BGU7007 XSON6 plastic extremely thin small outline package; no leads;
6 terminals; body 1 1.45  0.5 mm
SOT886
Table 4. Marking codes

BGU7007 B6
Table 5. Limiting values

In accordance with the Absolute Maximum Rating System (IEC 60134).
VCC supply voltage RF input AC coupled 0.5 +5.0 V
VENABLE voltage on pin ENABLE VENABLE VRF_IN voltage on pin RF_IN DC; VRF_IN VRF_OUT voltage on pin RF_OUT DC; VRF_OUT Ptot total power dissipation Tsp  130 C [1] 55 mW
Tstg storage temperature 65 +150 C junction temperature - 150 C
VESD electrostatic discharge
voltage
Human Body Model (HBM);
According JEDEC standard
22-A114E kV
Charged
Device Model (CDM);
According JEDEC standard
22-C101B kV
Table 6. Thermal characteristics

Rth(j-sp) thermal resistance from junction to solder point 225 K/W
NXP Semiconductors BGU7007
SiGe:C LNA MMIC for GPS, GLONASS, Galileo and Compass
7. Characteristics
Table 7. Characteristics= 1559 MHz to 1610 MHz; VCC = 1.8 V; VENABLE >= 0.8 V; Pi < 40 dBm; Tamb =25 C; input matched to 50  using a
5.6 nH inductor; unless otherwise specified.
VCC supply voltage RF input AC coupled 1.5 - 3.1 V
ICC supply current VENABLE  0.8 V
Pi < 40 dBm 3.4 4.8 6.1 mA
Pi = 20 dBm 8.9 12.8 15.9 mA
VENABLE  0.35 V --1 A
Tamb ambient temperature 40 +25 +85 C power gain Tamb =25C
Pi < 40 dBm, no jammer 16.5 18.5 20.5 dB
Pi = 20 dBm, no jammer 17.5 19.5 21.5 dB
Pjam= 20 dBm; fjam= 850 MHz 17.5 19.5 21.5 dB
Pjam= 20 dBm; fjam= 1850 MHz 17.5 19.5 21.5 dB
40C Tamb +85C
Pi < 40 dBm, no jammer 16 - 21 dB
Pi = 20 dBm, no jammer 17 - 22 dB
Pjam= 20 dBm; fjam= 850 MHz 17 - 22 dB
Pjam= 20 dBm; fjam= 1850 MHz 17 - 22 dB
RLin input return loss Pi < 40 dBm 5 7 - dB
Pi = 20 dBm 7 10 - dB
RLout output return loss Pi < 40 dBm 1218- dB
Pi = 20 dBm 1524- dB
ISL isolation 22 24 - dB noise figure Tamb =25C
Pi < 40 dBm, no jammer [1]- 0.85 1.2 dB
Pi < 40 dBm, no jammer [2]- 0.90 1.3 dB
Pi = 20 dBm, no jammer - 1.2 1.6 dB
Pjam= 20 dBm; fjam= 850 MHz - 1.1 1.5 dB
Pjam= 20 dBm; fjam= 1850 MHz - 1.3 1.7 dB
40C Tamb +85C
Pi < 40 dBm, no jammer - - 1.7 dB
Pi = 20 dBm, no jammer - - 1.9 dB
Pjam= 20 dBm; fjam= 850 MHz - - 1.8 dB
Pjam= 20 dBm; fjam= 1850 MHz - - 2.0 dB
NXP Semiconductors BGU7007
SiGe:C LNA MMIC for GPS, GLONASS, Galileo and Compass

[1] PCB losses are subtracted.
[2] Including PCB losses.
[3] Out of band.
[4] f1 = 1713 MHz; f2 = 1851 MHz; P1 =P2= 30 dBm.
[5] Within 10 % of the final gain.
Pi(1dB) input power at 1 dB gain compressionf= 1559 MHzto 1610 MHz
VCC =1.5V 16 13- dBm
VCC =1.8V 15 12- dBm
VCC =2.85V 14 11- dBm= 806 MHzto 928 MHz
VCC =1.5V [3] 16 13- dBm
VCC =1.8V [3] 15 12- dBm
VCC =2.85V [3] 15 12- dBm= 1612 MHzto 1909 MHz
VCC =1.5V [3] 14 11- dBm
VCC =1.8V [3] 13 10- dBm
VCC =2.85V [3] 11 8- dBm
IP3i input third-order intercept point f= 1.575 GHz
VCC =1.5V [4] 14- dBm
VCC =1.8V [4] 14- dBm
VCC =2.85V [4] 25- dBm
ton turn-on time [5] --2 s
toff turn-off time [5] --1 s Rollett stability factor 1 - -
Table 7. Characteristics …continued
= 1559 MHz to 1610 MHz; VCC = 1.8 V; VENABLE >= 0.8 V; Pi < 40 dBm; Tamb =25 C; input matched to 50  using a
5.6 nH inductor; unless otherwise specified.
Table 8. ENABLE (pin 5)
40 C  Tamb  +85 C; 1.5 V  VCC  3.1 V
 0.35 OFF
 0.8 ON
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