BGS16GA14
SP6T Diversity Antenna Switch with GPIO Interface
Data Sheet
Revision 3.0 - 2016-02-29
Edition 2016-02-29
Published by Infineon Technologies AG
81726 Munich, Germany
c
2016
Infineon Technologies AG
All Rights Reserved.
LEGAL DISCLAIMER
The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics.
With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding
the application of the device, 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.
Information
For further information on technology, delivery terms and conditions and prices, please contact the nearest Infineon
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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.
BGS16GA14
Revision History
Document No.: BGS16GA14__v3.0.pdf
Revision History: Rev. v3.0
Previous Version: 2.0
Page
Subjects (major changes since last revision)
12
Carrier tape drawing updated
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Data Sheet
3
Revision 3.0 - 2016-02-29
BGS16GA14
Contents
Contents
1 Features
5
2 Product Description
5
3 Maximum Ratings
6
4 Operation Ranges
7
5 RF Characteristics
8
6 GPIO Specification
9
7 Package related information
9
List of Figures
1
2
3
4
5
6
BGS16GA14 block diagram
Footprint, top view . . . . .
Package Outline Drawing .
Land Pattern Drawing . . .
Laser marking . . . . . . .
Carrier Tape . . . . . . . . .
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List of Tables
1
2
3
4
5
6
7
8
9
10
11
Ordering Information . . . .
Maximum Ratings, Table I .
Maximum Ratings, Table II .
Operation Ranges . . . . .
RF Input Power . . . . . . .
RF Characteristics . . . . .
IMD2 Testcases . . . . . .
IMD3 Testcases . . . . . .
GPIO Truth Table . . . . . .
Mechanical Data . . . . . .
Pin definition . . . . . . . .
Data Sheet
4
Revision 3.0 - 2016-02-29
BGS16GA14
BGS16GA14
1 Features
• 6 high-linearity, interchangeable RX ports
• Low insertion loss
• Low harmonic generation
• High port-to-port-isolation
• Suitable for Edge / C2K / LTE / WCDMA Applications
• 0.1 to 3.8 GHz coverage
• No decoupling capacitors required if no DC applied on RF lines
• On chip control logic including ESD protection
• General Purpose Input-Output (GPIO) Interface
• Small form factor 2.0 mm x 2.0 mm
• No power supply blocking required
• High EMI robustness
• RoHS and WEEE compliant package
2 Product Description
The BGS16GA14 is a Single Pole Eight Throw (SP8T) Diversity Switch Module optimized for wireless applications
up to 3.8 GHz. As part of a pin- and functional-compatible SP3T-SP8T product family it has been designed to meet
the requirements of chipset reference designs. The module comes in a miniature ATSLP package and comprises of
a high power CMOS SP8T switch with integrated GPIO interface. This RF switch is a perfect solution for multimode
handsets based on LTE and WCDMA. The switch device configuration is shown in Fig. 1.
The switch is controlled via a GPIO interface. It features DC-free RF ports and unlike GaAs technology, external DC
blocking capacitors at the RF ports are only required if DC voltage is applied externally.
Table 1: Ordering Information
Type
Package
Marking
BGS16GA14
ATSLP-14
G6
Data Sheet
5
Revision 3.0 - 2016-02-29
BGS16GA14
RX1
RX2
RX3
ANT
RX4
RX5
RX6
SP6T
VDD
V1
GPIO
Interface
V2
V3
GND
Figure 1: BGS16GA14 block diagram
3 Maximum Ratings
Table 2: Maximum Ratings, Table I at TA = 25 ◦C, unless otherwise specified
Parameter
Symbol
Values
Min.
Typ.
Max.
Unit
Note / Test Condition
Frequency Range
f
0.1
–
–
GHz
1)
Supply voltage
Vdd
-0.5
–
3.6
V
–
150
◦
C
–
C
–
Storage temperature range
TSTG
Junction temperature
RF input power at all Rx ports
-55
–
Tj
–
–
125
◦
PRF _Rx
–
–
32
dBm
CW
ESD capability, CDM
2)
VESDCDM
−500
–
+500
V
All pins
ESD capability, HBM
3)
VESDHBM
−1
–
+1
kV
Digital, digital versus RF
−1
–
+1
V
RF
−8
–
+8
kV
ANT versus system GND,
ESD capability, system level
4)
VESDANT
with 27 nH shunt inductor
1)
There is also a DC connection between switched paths. The DC voltage at RF ports VRFDC has to be 0V.
2) Field-Induced Charged-Device Model JESD22-C101. Simulates charging/discharging events that occur in production equipment and
processes. Potential for CDM ESD events occurs whenever there is metal-to-metal contact in manufacturing.
3) Human Body Model ANSI/ESDA/JEDEC JS-001-2012 (R = 1.5 kΩ, C = 100 pF).
4) IEC 61000-4-2 (R = 330 Ω, C = 150 pF), contact discharge.
Data Sheet
6
Revision 3.0 - 2016-02-29
BGS16GA14
Table 3: Maximum Ratings, Table II at TA = 25 ◦C, unless otherwise specified
Parameter
Symbol
Thermal resistance junction - solder-
Values
Unit
Note / Test Condition
–
K/W
–
–
0
V
No DC voltages allowed on
–
Vdd +0.7
V
–
Unit
Note / Test Condition
Min.
Typ.
Max.
RthJS
–
60
VRFDC
0
VCtrlx
-0.7
ing point
Maximum DC-voltage on RF-Ports
and RF-Ground
RF-Ports
GPIO control voltage levels
4 Operation Ranges
Table 4: Operation Ranges
Parameter
Symbol
Values
Min.
Typ.
Max.
Supply voltage
Vdd
2.4
3.0
3.4
V
–
Supply current
Idd
–
75
175
µA
–
GPIO control voltage high
VCtrl_H
1.35
–
Vdd
V
–
GPIO control voltage low
VCtrl_L
0
–
0.45
V
–
GPIO control input capaci-
CCtrl
–
–
2
pF
–
TA
-30
25
85
◦
–
tance
Ambient temperature
C
Table 5: RF Input Power
Parameter
Symbol
Rx ports (50 Ω)
PRF _Rx
Data Sheet
Values
Min.
Typ.
Max.
–
–
28
7
Unit
Note / Test Condition
dBm
–
Revision 3.0 - 2016-02-29
BGS16GA14
5 RF Characteristics
Table 6: RF Characteristics at TA = −30 ◦C...85 ◦C, PIN = 0 dBm, Supply Voltage Vdd = 2.4 V...3.4 V, unless
otherwise specified
Parameter
Symbol
Values
Unit
Note / Test Condition
Min.
Typ.
Max.
–
0.23
0.36
dB
698–960 MHz
–
0.36
0.56
dB
1428–1990 MHz
–
0.43
0.58
dB
1920–2170 MHz
–
0.47
0.62
dB
2170–2690 MHz
–
0.50
0.71
dB
3400–3600 MHz
–
0.50
0.74
dB
3600–3800 MHz
20
26
–
dB
698–960 MHz
14
19
–
dB
1428–1990 MHz
13
17
–
dB
1920–2170 MHz
12
15
–
dB
2170–2690 MHz
11
14
–
dB
3400–3600 MHz
11
14
–
dB
3600–3800 MHz
32
26
50
41
–
–
dB
dB
698–960 MHz
1428–1990 MHz
24
39
–
dB
1920–2170 MHz
22
37
–
dB
2170–2690 MHz
19
33
–
dB
3400–3600 MHz
19
32
–
dB
3600–3800 MHz
105
–
dBc
25 dBm, 50 Ω, CW mode
96
–
dBc
25 dBm, 50 Ω, CW mode
1)
Insertion Loss
All Rx Ports
Return Loss
IL
1)
All Rx Ports
RL
1)
Isolation
All Rx Ports
ISO
1)
Harmonic Generation (UMTS Band 1, Band 5)
2nd harmonic generation
rd
3
harmonic generation
PH2
92
PH3
88
1)
Intermodulation Distortion (UMTS Band 1, Band 5)
2nd order intermodulation
IMD2 low
–
-105
-100
dBm
IMT, US Cell (see Tab. 7)
order intermodulation
IMD3
–
-110
-105
dBm
IMT, US Cell (see Tab. 8)
order intermodulation
IMD2 high
–
-115
-110
dBm
IMT, US Cell (see Tab. 7)
RF Rise Time
tRT
–
–
2
µs
10 % to 90 % RF signal
Switching Time
tST
–
2
4
µs
Power Up Settling Time
tPup
–
10
25
µs
rd
nd
3
2
Switching Time
1) On
50 % Ctrl signal to 90 % RF
signal
After power down mode
application board without any matching components.
Data Sheet
8
Revision 3.0 - 2016-02-29
BGS16GA14
Table 7: IMD2 Testcases
Band
CW tone 1 (MHz)
CW tone 1 (dBm)
IMT
1950
20
US Cell
835
20
CW tone 2 (MHz)
CW tone 2 (dBm)
190 (IMD2 low)
-15
4090 (IMD2 high)
45 (IMD2 low)
-15
1715 (IMD2 high)
Table 8: IMD3 Testcases
Band
CW tone 1 (MHz)
CW tone 1 (dBm)
CW tone 2 (MHz)
CW tone 2 (dBm)
IMT
1950
20
1760
-15
US Cell
835
20
790
-15
6 GPIO Specification
Table 9: Modes of Operation (Truth Table)
Control Inputs
State
Mode
V1
V2
V3
1
RX1-ANT
0
0
0
2
RX2-ANT
0
0
1
3
RX3-ANT
0
1
0
4
RX4-ANT
0
1
1
5
RX5-ANT
1
0
0
6
RX6-ANT
1
0
1
7
RX3/RX5-ANT
1
1
0
8
Shutdown
1
1
1
7 Package related information
The switch has a package size of 2000 µm in x-dimension and 2000 µm in y-dimension with a maximum deviation
of ±50 µm in each dimension. Fig. 2 shows the footprint from top view. The definition of each pin can be found in
Tab. 11. In addition a recommendation for the land pattern is displayed in Fig. 4 followed by information regarding
laser marking (see Fig. 5).
Table 10: Mechanical Data
Parameter
Symbol
Value
Unit
Package X-Dimension
X
2000 ± 50
µm
Package Y-Dimension
Y
2000 ± 50
µm
Package Height
H
0.65 max
µm
Data Sheet
9
Revision 3.0 - 2016-02-29
BGS16GA14
NC
ANT
NC
14
13
12
RX5
1
11
RX6
RX3
2
10
RX4
Top View
RX1
3
9
RX2
VDD
4
8
NC
5
6
7
V3
V2
V1
Figure 2: Footprint, top view
Table 11: Pin Definition
No.
Name
Pin Type
Function
0
GND
GND
RF ground; die pad
1
RX5
I/O
RX port 5
2
RX3
I/O
RX port 3
3
RX1
I/O
RX port 1
4
VDD
PWR
VDD supply
5
V3
I
GPIO control pin
6
V2
I
GPIO control pin
7
V1
I
GPIO control pin
8
NC
9
RX2
I/O
RX port 2
10
RX4
I/O
RX port 4
11
RX6
I/O
RX port 6
12
NC
13
ANT
14
NC
Data Sheet
Not connected
Not connected
I/O
Antenna port
Not connected
10
Revision 3.0 - 2016-02-29
BGS16GA14
Bottom view
0.1 B
0.18 ±0.05
8x
8
9
10
11
0.1 A
0.2 ±0.05
8x
7
12
6
13
5
0.1 A
Pin 1 marking
3
2
1
0.45
0.1 A
14
4
B
1 ±0.05
0.2 ±0.05
6x
0.4
1 ±0.05
1.69
2 x 0.4 = 0.8
0.02 MAX.
STANDOFF
2 ±0.05
2 ±0.05
A
0.1 B
0.6 ±0.05
0.1 B
Top view
0.18 ±0.05
6x
3 x 0.45 = 1.35
1.69
Figure 3: Package Outline Drawing
14x 0.25
14x 0.25
0.45
0.4
0.845
0.85
0.845
1
0.4
14x 0.23
0.85
14x 0.23
1
0.45
0.845
0.845
Copper
0.225
0.225
Stencil apertures
Solder mask
Figure 4: Land Pattern Drawing
Data Sheet
11
Revision 3.0 - 2016-02-29
BGS16GA14
12
Type code
Date code
(YW)
Pin 1 marking
Figure 5: Laser marking
4
2.2
8
Pin 1
marking
0.75
2.2
Figure 6: Carrier Tape
Data Sheet
12
Revision 3.0 - 2016-02-29
w w w . i n f i n e o n . c o m
Published by Infineon Technologies AG