ANADIGICS AWL9565HS41P9 802.11a/n power amplifier & switch with 802.11 b/g/n rx/tx/ bluetooth switch Datasheet

AWL9565
802.11a/n Power Amplifier & Switch
with 802.11 b/g/n RX/TX/ Bluetooth Switch
Data Sheet - Rev 2.0
FEATURES
•
•
•
•
•
•
•
•
•
•
•
•
•
3% Dynamic EVM @ Pout = +18 dBm with
IEEE 802.11a 64 QAM OFDM at 54 Mbps
30 dB of Linear Power Gain
Single +3.3 V Nominal Supply
SP3T RF Switch w/Bluetooth and 2 GHz Band
Tx/Rx
1.0 dB 2 GHz Band RF Switch Tx Path
Insertion Loss
1.6 dB 2 GHz Band RF Switch BT & Rx Path
Insertion Loss
SP2T RF Switch for 5 GHz Band Tx/Rx
Function
2.7 dB 5 GHz Band RF Switch Rx Path
Insertion Loss
5 GHz Band TX Power Detector
1.8 V CMOS Logic Level Control
50 V-Matched RF Ports
Leadfree and RoHS Compliant
3 x 3 x 0.55 mm QFN Package
AW
L9
565
3 mm x 3 mm x 0.55 mm
Surface Mount Front End IC
APPLICATIONS
•
The AWL9565 is manufactured using advanced InGaP
HBT technology that offers state-of-the-art reliability,
temperature stability and ruggedness.
802.11a/b/g/n WLAN +Bluetooth for Fixed,
Mobile, and Handheld applications.
PRODUCT DESCRIPTION
The ANADIGICS AWL9565 is a high performance
InGaP HBT FEIC that incorporates a 5 GHz power
amplifier, 5 GHz SP2T RF Switch and 2 GHz SP3T
RF switch. The FEIC is designed for WLAN transmit
and receive applications in the 2.412-2.484 and
5.15-5.85 GHz bands. Matched to 50 Ohms and DC
blocked at all RF inputs and outputs, the part requires
no additional RF matching components off-chip. The
antenna ports are switched between WLAN transmit,
WLAN receive, Bluetooth, and simultaneous WLAN
and Bluetooth paths with low loss RF switches. The
PA exhibits unparalleled linearity and efficiency for
IEEE 802.11a/n WLAN systems under the toughest
signal configurations within the standard.
An on-chip power detector is incorporated in 5 GHz
transmit path of the FEIC. All control circuits operate
with +1.8 V CMOS logic and consume ultra-low current
in the OFF mode.
5G RX
BT
Vbt
Vrx2
Vtx2
2G
RX
SP3T
T/R SW
SP2T
T/R SW
5G
TX
BT
A
RX N
T
TX
RX
TX
PA 5G
A
N
T
05/2011
5G
ANT
Detector
Vdet
2G
TX
PAon
2G
ANT
Vcc
Figure 1: Block Diagram
Vtx5
Vrx5
3
VBT
4
BT
VDET
VRX2
16
5GANT
2
18 17
GND
VTX2
19
GND
1
20
2G ANT
AWL9565
VRX5
15
VTX5
14
AWL9565
VCC 13
GND 12
PAON 5 11
RXout2
G ND
TXin5
G ND
TXin2
5 RXout5
6
7
8
9
10
Figure 2: Pinout Diagram
Table 1: Pin Description Table
2
PIN
NAME
DESCRIPTION
Switch control 2 GHz transmit
path
11
PAON5
5 GHz PA enable. On /Off control 5
GHz transmit path power amplifier
VRX2
Switch control for 2 GHz receive
path
12
GND
Ground
3
VBT
Switch control for Bluetooth path
13
VCC
Power Supply. Bias for transistors
4
BT
Bluetooth RF port
14
VTX5
Switch control for 5 GHz transmit
path
5
RXOUT5
5 GHz RF receive output port
15
VRX5
Switch control 5 GHz receive path
6
RXOUT2
2 GHz RF receive output port
16
VDET
Power detector output. DC coupled
7
GND
Ground
17
5GANT 5 GHz antenna port
8
TXIN5
5 GHz RF transmit input port
18
GND
Ground
9
GND
Ground
19
GND
Ground
10
TXIN2
2 GHz RF transmit input port
20
PIN
NAME
DESCRIPTION
1
VTX2
2
2GANT 2 GHz antenna port
Data Sheet - Rev 2.0
05/2011
AWL9565
ELECTRICAL CHARACTERISTICS
Table 2: Absolute Minimum and Maximum Ratings
PARAMETER
MIN
MAX
UNIT
DC Power Supply
-
+6.0
V
RF Input Level, 5 GHz PA
-
+5
dBm
Operating Ambient Temperature
-40
+85
8C
Storage Temperature
-55
+85
8C
Storage Humidity
-
60
%
Junction Temperature
-
150
8C
400
-
V
-
MSL-2
ESD Tolerance
MSL Rating
COMMENTS
Modulated
Human body model (HBM)
Stresses in excess of the absolute ratings may cause permanent damage. Functional operation is not implied
under these conditions. Exposure to absolute ratings for extended periods of time may adversely affect
reliability.
Table 3: Operating Ranges
PARAMETER
MIN
TYP
MAX
UNIT
COMMENTS
Operating Frequency Ranges
2412
5150
-
2484
5850
MHz
DC Power Supply Voltage (VCC)
+2.8
+3.3
+4.8
V
With RF applied
Control Pin Voltage (PAON, Vbt, Vrx2,
Vtx2, Vrx5,Vtx5)
+1.4
0
+1.8
0
+VCC
+0.5
V
Logic High/On
Logic Low/Off
Operating Ambient Temperature
-40
-
+85
8C
802.11b/g/n
802.11a/n
The device may be operated safely over these conditions; however, parametric performance is guaranteed only
over the conditions defined in the electrical specifications.
Data Sheet - Rev 2.0
05/2011
3
AWL9565
Table 4: Electrical Specifications - 802.11a/n Transmit Path
(TC = +25 °C, VCC = +3.3 V, PAON = +1.8 V, Vtx5 = +1.8 V, Vrx5 = 0 V, Static Mode 64 QAM OFDM 54 Mbps)
PARAMETER
MIN
TYP
MAX
UNIT
Operating Frequency
5150
-
5850
MHz
27
30
33
dB
-
+/-1.5
-
dB
Across full band
-
+/-0.2
-
dB
Across any 40 MHz band
-
-32
135
-
dB
mA
POUT = 17 dBm, Dyn Mode,
54 Mbps Avg current during packet
-
-33
125
-29
150
dB
mA
POUT = 16 dBm, Dyn Mode,
54 Mbps Avg current during packet
-
-36
75
-
dB
mA
POUT = 5 dBm, Dyn Mode,
54 Mbps Avg current during packet
18.5
15.5
15.0
20.5
18.0
17.5
-
dBm
802.11a, 6 Mbps, OFDM
802.11n, 6.5 Mbps, HT, 20 MHz CH
802.11n, 6.5 Mbps, HT, 40 MHz CH
PA Noise Figure
-
6
-
dB
Psat
-
24.5
-
dBm
Group Delay
-
1.5
-
ns
Group Delay Variation
-
0.5
-
ns
Input Return Loss
5
8
-
dB
Output Return Loss
5
7
-
dB
-
-30
-37
-60
-25
-31
-50
dBm/MHz
For power levels up to 18 dBm,
OFDM @ 54 Mbps
Output Spurious Levels Non
Harmonics
-
-53
-
dBc
For power levels up to 18 dBm
OFDM @ 54 Mbps
Stability and Load Mismatch
Susceptibility
-
-45
-
dBc
Unconditionally stable and no
damage, 4:1 VSWR, up to
POUT = 18 dBm, OFDM 54 Mbps
Settling Time
-
3
4
s
53
65
77
mA
-
12
50
A
Power Gain
Gain Flatness
Error Vector Magnitude (EVM) (1)
Current Consumption
Transmit Mask
TX Output Spurious Levels
ICC Quiescent Current
Shutdown Current
2fo
3fo
4fo
Notes:
(1) EVM includes system noise floor of 1% (-40 dB).
4
Data Sheet - Rev 2.0
05/2011
COMMENTS
For any 20 MHz channel
Within 0.5 dB of final value
VCC = 3.3 V, all other controls = 0 V
AWL9565
Table 5: Electrical Specification - Power Detector
(TC = +25 8C, VCC = +3.3 V, PAON = +1.8 V, Vtx5 = +1.8 V, OFDM Signal, 54 Mbps)
PARAMETER
MIN
TYP
MAX
UNIT
Voltage Range
160
440
260
530
450
620
mV
Total Internal Load Impedance
-
5
-
kV
Dynamic Range
-
20
-
dB
Resolution
-
13
-
mV/dB
Video Bandwidth
-
5
-
MHz
COMMENTS
POUT = 0 dBm
POUT = 20 dBm
Adjustable with External
RC Load
Table 6: Electrical Specification - 802.11a Receive Path
(TC = +25 8C, VCC = +3.3 V, PAon = 0 V, Vrx5 = +1.8 V, Vtx5 = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
Operation Frequency
5150
-
5850
MHz
-
2.7
3.5
dB
-
+/-0.5
-
dB
Across full band
-
+/-0.25
-
dB
Across any 40 MHz band
Input Return Loss
8
11
-
dB
50 V
Output Return Loss
12
16
-
dB
50 V
Port to Port Isolation
20
-
-
dB
5G ANT to 5G Tx, Switch in
5G Rx Mode
IIP3
-
40
-
dBm
IP1dB
-
25
-
dBm
Settling Time
-
0.5
1.0
s
Quiescent Current
-
0.8
-
mA
Insertion Loss
Gain Flatness
Data Sheet - Rev 2.0
05/2011
COMMENTS
5
AWL9565
Table 7: Electrical Specifications - 802.11b/g TX
(TC = +25 8C, VCC = +3.3 V, Vtx2 = +1.8 V, Vrx2 = Vbt = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
Operation Frequency
2412
-
2484
MHz
Insertion Loss
-
1.0
1.5
dB
Gain Flatness
-
+/-0.25
-
dB
Across any 40 MHz band
Input Return Loss
9
12
-
dB
50 V
Output Return Loss
7
10
-
dB
50 V
IIP3
-
39
-
dBm
IP1dB
-
31
-
dBm
20
-
-
dB
Settling Time
-
0.5
1.0
s
Quiescent Current
-
1.3
-
mA
Port to Port Isolation
COMMENTS
2G Tx to 2G Rx, Switch in
2G Tx Mode
Table 8: Electrical Specifications - 802.11b/g RX
(TC = +25 8C, VCC = +3.3 V, Vrx2 = +1.8 V, Vbt = Vtx2 = 0 V)
COMMENTS
PARAMETER
MIN
TYP
MAX
UNIT
Operation Frequency
2412
-
2484
MHz
Insertion Loss
-
1.6
2.4
dB
Gain Flatness
-
+/-0.25
-
dB
Across any 40 MHz band
Input Return Loss
5
8
-
dB
50 V
Output Return Loss
6
10
-
dB
50 V
IIP3
-
33
-
dBm
IP1dB
-
26
-
dBm
20
-
-
dB
Settling Time
-
0.5
1.0
s
Quiescent Current
-
1.1
-
mA
Port to Port Isolation
6
Data Sheet - Rev 2.0
05/2011
2G ANT to 2G Tx, Switch in
2G Rx Mode
AWL9565
Table 9: Electrical Specifications - Bluetooth TX/RX
(TC = +25 8C, VCC = +3.3 V, Vbt = +1.8 V, Vrx2 = Vtx2 = 0 V)
COMMENTS
PARAMETER
MIN
TYP
MAX
UNIT
Operation Frequency
2402
-
2480
MHz
Insertion Loss
-
1.6
2.4
dB
Gain Flatness
-
+/-0.25
-
dB
Across any 40 MHz band
Input Return Loss
5
9
-
dB
50 V
Output Return Loss
7
12
-
dB
50 V
IIP3
-
34
-
dBm
IP1dB
-
26
-
dBm
20
-
-
dB
Settling Time
-
0.5
1.0
s
Quiescent Current
-
1.1
-
mA
Port to Port Isolation
2G ANT to 2G Tx, Switch in
2G Rx Mode
Table 10: Electrical Specifications - Switch and Control Pin
(TC = +25 8C, VCC = +3.3 V, VCONTROL pin High = +1.8 V, VCONTROL pin Low = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
Control Pin Steady State Input Current
( PAON5)
-
30
0.5
-
A
Logic Hi/On
Logic Low/Off
Control Pin Steady State Input Current
(Vbt, Vrx2, Vtx2, Vrx5, Vtx5)
-
30
0.5
-
A
Logic Hi/On
Logic Low/Off
Control Pin Input Impedance
-
>10
-
kV
Logic Hi/On
20
-
-
dB
TX - RX Isolation
Data Sheet - Rev 2.0
05/2011
COMMENTS
7
AWL9565
Table 11: Switch Modes of Operation
MODES OF
OPERATION
PAON
Vbt
Vrx2
Vtx2
Vrx5
Vtx5
TX 2.4 GHz
LOW
LOW
LOW
HIGH
LOW
LOW
RX 2.4 GHz
LOW
LOW
HIGH
LOW
LOW
LOW
BT 2.4 GHz
LOW
HIGH
LOW
LOW
LOW
LOW
BT & RX 2.4 GHz
LOW
HIGH
HIGH
LOW
LOW
LOW
TX 5 GHz
HIGH
LOW
LOW
LOW
LOW
HIGH
Rx 5 GHz
LOW
LOW
LOW
LOW
HIGH
LOW
Power on Reset
LOW
LOW
LOW
LOW
LOW
LOW
VCC = +2.8 V to +4.8 V; Logic State LOW = 0 V to +0.5 V; Logic State HIGH = +1.4 V to +4.8 V
8
Data Sheet - Rev 2.0
05/2011
AWL9565
Performance Data Plots:
Figure 3: Tx Path Gain vs. Output Power
Figure 3: Tx Path Gain vs. Output Power Across Frequency
3: Tx Path Gain vs. Output Power Across Frequency
Vcc(V
= +3.3V,
Temp
= +25C
AcrossFigure
Frequency
CC
= =+3.3
Vcc = +3.3V,
Temp
+25C V, Temp = 25 8C,
802.11a, 54 Mbps OFDM
802.11a, 54 Mbps OFDM
802.11a,
54 Mbps OFDM)
35
35
34
34
33
33
32
32
31
31
30
30
Gain (dB)
Gain (dB)
28
27
26
Gain
(dB)
Gain
(dB)
29
29
28
27
26
25
25
24
24
Gain 5.15 GHz
23
23
Gain 5.50 GHz
22
22
Gain 5.85 GHz
21
21
20
20
0
0
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
10
11
11
12
12
13
13
Output Power (dBm)
Output Power (dBm)
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
35
35
34
34
33
33
32
32
31
31
30
30
29
29
28
28
27
27
26
26
25
25
24
24
23
23
22
22
21
21
20
20 0
0
33
32
31
27
26
22
21
4
4
5
5
Icc 5.15 GHz
Icc 5.50 GHz
225
225
Icc 5.85 GHz
28
27
26
7
7
8
8
9
10
11
12
13
9
10
11 (dBm)
12
13
Output
Power
Output Power (dBm)
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
175
175
150
150
125
125
100
100
Gain -40C
75
75
22
Gain +25C
50
50
21
Gain +85C
25
25
20
20
0
0
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
10
11
12
9Output
10 Power
11
12
13
(dBm)
Output Power (dBm)
13
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
0
0
1
1
Icc 3.0V
250
250
Icc 3.3V
Icc 3.6V
225
225
Icc 4.2V
200
200
Icc 4.8V
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
10
11
11
12
12
Output Power (dBm)
Output Power (dBm)
13
13
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
Figure 8: Tx Path ICC vs. Output Power
Figure 8: Tx Path Icc vs. Output Power Across Temperature
Figure 8:Temperature
Tx Path
Icc
Power
Across=
Temperature
Across
(Freq
5.5 GHz,
Freq
= vs.
5.5 Output
GHz, Vcc
=
+3.3V
Freq = 5.554
GHz,
Vcc
= +3.3V
Mbps
OFDM
802.11a,
54 Mbps OFDM
VCC = +3.3 V,802.11a,
802.11a,
54 Mbps OFDM)
300
300
275
275
275
275
Icc -40C
250
250
Icc +25C
225
225
Icc +85C
Current (mA)
Current (mA)
200
200
Current (mA)
Current (mA)
175
175
175
175
150
150
150
150
125
125
125
125
100
100
100
100
75
75
75
75
50
50
50
50
25
25
0
0
0
0
21
Figure 7: Tx Path ICC vs. Output Power
Figure 7: Tx Path Icc vs. Output Power Across Voltage
Across
Voltage
(Freq
=Across
5.5Voltage
GHz,
Figure 7: Tx
Path= Icc
Output
Freq
5.5 vs.
GHz,
TempPower
= +25C
Freq = 5.554
GHz,
Temp
= +25C
Mbps
OFDM
802.11a,
54 Mbps OFDM
Temp = 25 8C,802.11a,
802.11a,
54 Mbps OFDM)
300
300
0
6
6
200
200
23
23
3
3
250
250
24
24
2
2
31
25
25
Gain 4.8V
1
1
275
275
Icc
(mA)
Icc
(mA)
Gain (dB)
Gain (dB)
28
Gain 4.2V
32
29
29
Gain 3.6V
33
30
30
Gain 3.3V
300
300
34
34
Gain 3.0V
Figure 6: Tx Path ICC vs. Output Power
Figure 6: Tx Path Icc vs. Output Power Across Frequency
Figure 6: Tx Path
Icc= vs.
Across
Across Frequency
(VOutput
CC
=Power
V,Frequency
Temp = 25 8C,
Vcc
+3.3V,
Temp
=+3.3
+25C
Vcc
= +3.3V,
TempOFDM
= +25C
802.11a,
54 Mbps
802.11a,
OFDMOFDM)
802.11a,
5454 Mbps
Mbps
Figure
5: Tx Path Gain vs. Output Power
Figure 5: Tx Path Gain vs. Output Power Across Temperature
Figure 5: Tx Path Gain
Output
Freqvs.
= 5.5
GHz,Power
Vcc = Across
+3.3V Temperature
Across
Temperature
= 5.5 GHz,
Freq802.11a,
= 5.5 GHz,
Vcc =(Freq
+3.3V
54 Mbps
OFDM
802.11a, 54 Mbps OFDM
VCC = +3.3 V, 802.11a, 54 Mbps OFDM)
35
35
1
Figure
4: Tx Path Gain vs. Output Power
Figure 4: Tx Path Gain vs. Output Power Across Voltage
Figure 4: Tx Path
Output
Power
FreqGain
= 5.5vs.
GHz,
Temp
= +25C
Across
Voltage
(Freq
=Across
5.5Voltage
GHz,
Freq
= 5.5 GHz,
Temp
= +25C
802.11a,
54 Mbps
OFDM
802.11a, 54 Mbps OFDM
Temp = 25 8C, 802.11a, 54 Mbps OFDM)
25
25
0
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
11
12
13
14
15
16
17
18
19
20
21
10
11
12
13
14
15
16
17
18
19
20
21
Output Power (dBm)
Output Power (dBm)
0
00
0
1
1
2
Data Sheet - Rev 2.0
05/2011
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
11
12
13
14
15
16
17
18
19
20
21
10
11
12
13
14
15
16
17
18
19
20
21
Output Power (dBm)
Output Power (dBm)
9
AWL9565
Figure 9: Tx Path Dynamic EVM vs. Output Power
FigureFrequency
9: Tx Path Dynamic EVM
vs.
Output
Power Across
Frequency
Across
(V
CC
+3.3
V,Across
Temp
= 25 8C,
Figure 9: Tx Path Dynamic
EVM
vs. =
Output
Power
Frequency
Vcc = +3.3V,
Temp
= +25C
Vcc = +3.3V,
Temp
= +25C
802.11a,
54 Mbps
OFDM
802.11a,
54
OFDM)
802.11a,
54Mbps
Mbps OFDM
EVM 5.15 GHz
EVM 5.50 GHz
EVM 5.85 GHz
0
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
10
11
11
12
13
12
Output Power (dBm)
Output Power (dBm)
13
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
Figure 11: Tx Path Dynamic EVM vs. Output
Figure
Tx
EVM
Across
Power
Across
Temperature
(Freq
= 5.5 GHz,
Figure11:
11:
TxPath
PathDynamic
Dynamic
EVMvs.
vs.Output
OutputPower
Power
AcrossTemperature
Temperature
Freq
Freq==5.5
5.5GHz,
GHz,Vcc
Vcc==+3.3V
+3.3V
802.11a,
54
VCC = +3.3 V,
802.11a,
54
Mbps OFDM)
802.11a,
54Mbps
MbpsOFDM
OFDM
EVM 3.0V
EVM 3.3V
EVM 3.6V
EVM 4.2V
EVM 4.8V
1
0
2
1
3
2
4
3
5
4
6
5
7
6
8
7
9
8
9
10
10
11
11
12
12
Output Power (dBm)
Output Power (dBm)
13
13
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
Figure 12: Voltage Detector vs. Output Power
12: Voltage Detector
Output
Power Across
Frequency = 25 8C,
AcrossFigure
Frequency
(Vvs.CC
= +3.3
V, Temp
Vcc = +3.3V, Temp = +25C
54
Mbps
OFDM
Figure 12:
Voltage802.11a,
Detector
vs.
Output
Power
Across Frequency
802.11a,
54
Mbps
OFDM)
Vcc = +3.3V, Temp = +25C
0.7
EVM -40C
802.11a, 54 Mbps OFDM
0.7
0.6
EVM +25C
Vdet 5.15 GHz
EVM +85C
0.6
0.5
Vdet 5.50 GHz
Detector Voltage (V)
Detector Voltage (V)
Vdet 5.85 GHz
0.5
0.4
EVM (dB)
EVM (dB)
-20
-20
-21
-21
-22
-22
-23
-23
-24
-24
-25
-25
-26
-26
-27
-27
-28
-28
-29
-29
-30
-30
-31
-31
-32
-32
-33
-33
-34
-34
-35
-35
-36
-36
-37
-37
-38
-38
-39
-39
-40
-40
-20
-20
-21
-21
-22
-22
-23
-23
-24
-24
-25
-25
-26
-26
-27
-27
-28
-28
-29
-29
-30
-30
-31
-31
-32
-32
-33
-33
-34
-34
-35
-35
-36
-36
-37
-37
-38
-38
-39
-39
-40
-400
EVM (dB)
EVM (dB)
EVM (dB)
EVM (dB)
-20
-20
-21
-21
-22
-22
-23
-23
-24
-24
-25
-25
-26
-26
-27
-27
-28
-28
-29
-29
-30
-30
-31
-31
-32
-32
-33
-33
-34
-34
-35
-35
-36
-36
-37
-37
-38
-38
-39
-39
-40
-40
0
Figure 10: Tx Path Dynamic EVM vs. Output
Power
Voltage
(Freq
= 5.5
GHz,
Figure 10:Across
Tx Path Dynamic
EVM vs. Output
Power Across
Voltage
Figure 10: Tx PathFreq
Dynamic
EVM vs.
Output
Power Across Voltage
= 5.5 GHz,
Temp
= +25C
Freq
= 5.5 54
GHz,
Temp
= +25C
802.11a,
Mbps
OFDM
Temp = 25 8C,
802.11a,
54
Mbps OFDM)
802.11a, 54 Mbps OFDM
0.4
0.3
0.3
0.2
0.2
0.1
0.1
0
0
0
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
10
11
11
12
12
Output Power (dBm)
Output Power (dBm)
13
13
14
14
15
15
16
16
17
17
18
18
19
19
20
20
0
21
21
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
Output Power (dBm)
0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
Output Power (dBm)
0.7
Figure 13:Voltage Detector vs. Output Power
Figure
13: Voltage
Detector vs. Output
Power
Across
Voltage
(Freq
= Across
5.5 Voltage
GHz,
Freq = 5.5 GHz, Temp = +25C
802.11a,
54 Mbps OFDM
Temp
=
25
8C,
802.11a,
54
Mbps
OFDM)
Figure 13: Voltage Detector vs. Output Power Across Voltage
Figure 14:Voltage Detector vs. Output Power
Across
Temperature
= 5.5
GHz,
Figure 14: Voltage
Detector vs. Output(Freq
Power Across
Temperature
Freq = 5.5 GHz, Vcc = +3.3V
VCCFigure
= +3.3
V,Detector
802.11a,
54
Mbps
OFDM)
802.11a,
54
OFDM
14: Voltage
vs.Mbps
Output
Power
Across Temperature
Freq = 5.5 GHz, Temp = +25C
802.11a, 54 Mbps OFDM
Freq = 5.5 GHz, Vcc = +3.3V
802.11a, 54 Mbps OFDM
0.7
0.7
0.6
0.7
0.6
Vdet 3.0V
Vdet -40C
Vdet 3.3V
0.6
0.5
0.6
0.5
Vdet +25C
Vdet +85C
Detector Voltage (V)
Detector Voltage (V)
Detector Voltage (V)
Detector Voltage (V)
Vdet 3.6V
Vdet 4.2V
0.5
0.4
Vdet 4.8V
0.5
0.4
0.4
0.3
0.4
0.3
0.3
0.2
0.3
0.2
0.2
0.1
0.2
0.1
0
1
2
3
4
5
6
7
8
9
10
11
12
13
0.1
0
1
2
3
4
5
6
7
8
9
10
11
12
Output Power (dBm)
10
14
15
16
17
18
19
20
21
Output Power (dBm)
13
14
15
16
17
18
19
20
21
0.1
0.0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
Output Power (dBm)
0.0
0
1
2
3
4
5
6
7
8
9
10
11
12
Output Power (dBm)
Data Sheet - Rev 2.0
05/2011
13
14
15
16
17
18
19
20
21
AWL9565
Figure 15: 5 GHz Tx Path S21 Response
Figure
Figure15:
15:5GHz
5GHzTx
TxPath
PathS21
S21Response
Response
= =+25
Vcc= =+3.3V,
+3.3V,
Temp
+25CC= +25 8C)
(VCC = Vcc
+3.3
V,Temp
Temp
4040
Figure 16: 5 GHz
Tx5GHz
Path
& Return
S22Loss
Return Loss
Figure 16:
Tx PathS11
S11 & S22
Figure 16: 5GHz
Tx =Path
S11Temp
& S22
Return
Vcc
= +25
C Loss
Vcc = +3.3V,
Temp
= +25 C
(VCC = +3.3
V,+3.3V,
Temp
= +25
8C)
3030
0
0
-2
-2
S21 Mag (dB)
-4
-4
-6
-6
2020
-8
-8
-10
00
-10
-10
-20
-20
S11/S22 (dB)
-10
S11/S22 (dB)
S21 (dB)
S21 (dB)
1010
-12
-14
-16
-18
-26
-26
-3
-3
-4
-4
-5
44
55
66
77
88
99
1010
Frequency
(GHz)
Frequency
(GHz)
1111
1212
1313
1414
1515
1616
1717
-6
-7
-7
-8
-8
-9
-9
S21 Mag (dB)
0
0
1
1
2
2
3
3
4
4
5
5
Frequency
(GHz)
Frequency
(GHz)
6
6
7
7
8
8
0
0
-2
-4
-4
00
2
3
3
4
4
5
5
6
6
7
7
8
9
10
8
9
10
11
Frequency
(GHz)
Frequency (GHz)
11
12
12
13
13
14
14
15
15
16
16
17
17
18
18
-6
-8
-8
-10
-10
-12
-12
-14
-16
-18
-14
-16
-18
-20
-20
-22
-22
-24
-24
-26
-26
-28
-28
-30
-30
0
Figure 19:Figure
2 GHz
Rx
Path
S21 Response
Figure19:
19: 2GHz
2GHzRx
RxPath
PathS21
S21Response
Response
Vcc==+3.3V,
+3.3V,
Temp==+25
+25C
C +25 8C)
Vcc
(VCC = +3.3
V, Temp
Temp
=
-1
-1
1
2
-2
-6
-10
-10
0
0
1
Figure 18: 5 GHzFigure
Rx18:Path
S11S11&& S22
Return Loss
5GHz
Rx&Path
Return Loss
Figure 18: 5GHz Rx
Path
S11
S22 ReturnS22
Loss
= +3.3V,
Temp
+25 C 8C)
Vcc = +3.3V,
= +25
C= =
(VCC = +3.3
V,VccTemp
Temp
+25
Figure 17: 5 GHz Rx Path S21 Response
Figure
17:
S21 Response
Figure 17:
5GHz
Rx5GHz
Path Rx
S21Path
Response
Vcc =
+3.3V,
Temp
(VCCVcc== +3.3V,
+3.3
V,= +25
Temp
Temp
C = +25 C= +25 8C)
-5
-6
-30
1818
S22 Mag (dB)
-30
S11/S22 (dB)
-2
33
S11/S22 (dB)
-2
S21 (dB)
0
-1
S11 Mag (dB)
S22 Mag (dB)
01
12
23
34
45
Frequency (GHz)
Frequency (GHz)
56
67
78
8
Figure 20: 2Figure
GHz
Rx
Path
S11
&Return
S22
Return Loss
Figure
20:2GHz
2GHz
Path
S11
S22
Loss
20:
RxRx
Path
S11
&&
S22
Return
Loss
Vcc
= +3.3V,
Temp
+25
Vcc
= +3.3V,
==
+25
C
(VCC = +3.3
V, Temp
Temp
=C +25 8C)
0 0
-2 -2
S21 Mag (dB)
-4 -4
-2
-2
-6 -6
-8 -8
-3
-3
-10-10
-4
-4
-12-12
S11/S22 (dB)
S11/S22 (dB)
S21
S21 (dB)
(dB)
S21 (dB)
0
-1
22
S11 Mag (dB)
-28
-28
11
-18
-24
-24
-50
-50
00
-16
-22
-22
-40
-40
-14
-20
-20
-30
-30
-12
-14-14
-5
-5
-16-16
-6
-6
-18-18
-20-20
-7
-7
-22-22
-8
-8
-24-24
-9
-9
-10
-10
00
11
22
33
44
Frequency(GHz)
(GHz)
Frequency
55
66
77
88
-26-26
S11 Mag (dB)
-28-28
S22 Mag (dB)
-30-30
0 0
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
Frequency
(GHz)
Frequency
(GHz)
Data Sheet - Rev 2.0
05/2011
11
AWL9565
0
0
-2
S21 (dB)
S21 (dB)
-3
-4
-5
-6
-7
-8
-9
-1
Figure 22: 2 Figure
GHz22:Tx
S11
S22
2GHzPath
Tx Path S11
& S22&
Return
LossReturn Loss
Figure 22: 2GHz
Path Temp
S11 &=S22
Loss
Vcc =Tx
+3.3V,
+25Return
C
Vcc = +3.3V,
Temp = +25 =
C +25 8C)
(VCC = +3.3
V, Temp
0
0
-2
-2
-4
-4
-6
-6
-8
-8
-10
-10
-12
-12
-14
-14
-16
-16
-18
-18
-20
-20
-22
-22
-24
-24
-26
-26
-28
-28
-30
-30 0
0
S21 Mag (dB)
-2
-3
S11/S22 (dB)
S11/S22 (dB)
-1
Figure 21: 2 GHz Tx Path Response
Figure 21: 2GHz Tx Path S21 Response
21:
2GHz
Path
S21
Response
Vcc
= +3.3V,
Temp
= +25
(VCCFigure
= +3.3
V,Tx Temp
=C +25 8C)
Vcc = +3.3V, Temp = +25 C
-4
-5
-6
-7
-8
-9
-10
-10 0
0
00
1
1
2
2
3
3
4
4
Frequency
(GHz)
Frequency (GHz)
5
5
6
6
7
7
8
8
Figure 23: Bluetooth Path S21 Response
Figure23:
23: Bluetooth
BluetoothPath
PathS21
S21Response
Response
Figure
Vcc==+3.3V,
+3.3V,
Temp==+25
+25=
Vcc
Temp
CC +25 8C)
(VCC = +3.3
V, Temp
S22 Mag (dB)
1
1
2
2
3
3
4
4
Frequency
(GHz)
Frequency (GHz)
5
5
6
6
7
7
8
8
Figure 24: Bluetooth
Path
S11Return
& S22 Return Loss
Figure
Figure24:
24: Bluetooth
BluetoothPath
PathS11
S11&&S22
S22 ReturnLoss
Loss
Vcc
==+25
Vcc==+3.3V,
+3.3V,
Temp
+25CC
(VCC = +3.3
V,Temp
Temp
= +25 8C)
00
-2
-2
S21 Mag (dB)
-1-1
S11 Mag (dB)
-4
-4
-2-2
-6
-6
-8
-8
-3-3
-10
-10
S11/S22 (dB)
(dB)
S11/S22
S21
S21 (dB)
(dB)
-4-4
-5-5
-6-6
-14
-14
-16
-16
-18
-18
-20
-20
-7-7
-22
-22
-8-8
-24
-24
-26
-26
-9-9
S11 Mag (dB)
-28
-28
-10
-10
00
11
22
33
44
Frequency(GHz)
(GHz)
Frequency
12
-12
-12
55
66
77
88
S22 Mag (dB)
-30
-30
00
11
22
33
44
Frequency
Frequency(GHz)
(GHz)
Data Sheet - Rev 2.0
05/2011
55
66
77
88
AWL9565
APPLICATION INFORMATION
Although not shown in the schematic, a large value capacitor (~ 10 uF) should be connected to the voltage
supply lines for low frequency decoupling.
5GHz ANT
DET OUT
2GHz ANT
5GHz RX OUT
4
5
VDET
5GANT
GND
GND
2GANT
VTX2
VRX5
VRX2
VTX5
AWL9565
VBT
VCC5G
BT
GND
RXout5
6
PAON5
7
8
9
C2
1000pF
+/-10%
15
5GHz RX Vrx5
14
5GHz TX Vtx5
13
12
11
VCC 5GHz PA
C1
4.7uF
+/-10%
PA ON 5GHz
TXin2
Bluetooth OUT
3
16
GND
2GHz BT Vbt2
2
17
TXin5
2GHz RX Vrx2
1
18
19
GND
2GHz TX Vtx2
20
RXout2
U1
R1
10KOhm
+/-10%
10
2GHz RX OUT
5GHz TX IN
2GHz TX IN
Figure 25: Application Circuit
Data Sheet - Rev 2.0
05/2011
13
AWL9565
Figure 26: Package Outline - 20 Pin, 3.0 x 3.0 x 0.55 mm QFN
14
Data Sheet - Rev 2.0
05/2011
AWL9565
Figure 27: Recommended PCB Layout
Data Sheet - Rev 2.0
05/2011
15
AWL9565
ORDERING INFORMATION
ORDER NUMBER
TEMPERATURE
RANGE
PACKAGE
DESCRIPTION
COMPONENT PACKAGING
AWL9565HS41P7
-40 8C to +85 8C
20 pin, 3 x 3 x 0.55 mm
Surface Mount Module
Bags
AWL9565HS41P9
-40 8C to +85 8C
20 pin, 3 x 3 x 0.55 mm
Surface Mount Module
Partial Reel
AWL9565HS41Q7
-40 8C to +85 8C
20 pin, 3 x 3 x 0.55 mm
Surface Mount Module
2500 piece T/R
EVA9565
-40 8C to +85 8C
Evaluation Board
Evaluation Board
ANADIGICS, Inc.
141 Mount Bethel Road
Warren, New Jersey 07059, U.S.A.
Tel: +1 (908) 668-5000
Fax: +1 (908) 668-5132
URL: http://www.anadigics.com
IMPORTANT NOTICE
ANADIGICS, Inc. reserves the right to make changes to its products or to discontinue any product at any time without notice.
The product specifications contained in Advanced Product Information sheets and Preliminary Data Sheets are subject to
change prior to a product’s formal introduction. Information in Data Sheets have been carefully checked and are assumed
to be reliable; however, ANADIGICS assumes no responsibilities for inaccuracies. ANADIGICS strongly urges customers
to verify that the information they are using is current before placing orders.
warning
ANADIGICS products are not intended for use in life support appliances, devices or systems. Use of an ANADIGICS product
in any such application without written consent is prohibited.
16
Data Sheet - Rev 2.0
05/2011
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