AWL9966 - Anadigics

AWL9966
802.11a/b/g/n
WLAN/Bluetooth FEIC
PRELIMINARY DATA SHEET - Rev 1.2
FEATURES
• 3% Dynamic EVM @ POUT = +17 dBm with IEEE
802.11a 64 QAM OFDM at 54 Mbps
• 3% Dynamic EVM @ POUT = +20 dBm with IEEE
802.11g 64 QAM OFDM at 54 Mbps
• -30 dBc 1st Sidelobe / -50 dBc 2nd Sidelobe
at +22.5 dBm w/ IEEE 802.11b, 1 Mbps CCK/
DSSS
AW
L9
966
• 31 dB of Linear Power Gain in 2 GHz and 5 GHz
Transmit Paths
• 2.6 dB Noise Figure in 2 GHz Receive Path and
2.5 dB in 5 GHz Receive Path
• Single +3.3 V Nominal Supply
• SP3T RF Switch w/Bluetooth and 2 GHz Tx/Rx
• SP2T RF Switch for 5 GHz Tx/Rx Function
S36 Package
24 Pin 4 mm x 4 mm x 0.55 mm
QFN
• Independent Switch Control for BT, 2 GHz, and
5 GHz Tx/Rx Paths
• 12 dB Gain in 2 GHz Receive Path and 14 dB in
5 GHz Receive Path
• LNA Bypass Mode in 2 GHz and 5 GHz Receive
Paths
• 50 V - Matched RF Ports
and efficiency for IEEE 802.11g, 802.11b, 802.11a and
802.11n WLAN systems under the toughest signal
configurations within these standards. A single temperature-compensated power detector
is used in the FEIC to serve both WLAN bands. The
detector provides a single-ended output voltage with
excellent accuracy over a wide range of operating
temperatures. All circuits are biased by a single
+3.3V supply and consume ultra-low current in the
OFF mode.
• Leadfree Package
• Materials set consistent with RoHS Directive
• 4.0 x 4.0 x 0.55 mm QFN Package
APPLICATIONS
• 802.11a/b/g/n WLAN for Fixed, Mobile, and
Handheld applications
PRODUCT DESCRIPTION
The ANADIGICS AWL9966 is a high performance
FEIC that incorporates dual band power amplifiers,
low-noise amplifiers, RF switches, and filters. The
FEIC is designed for WLAN transmit and receive
applications in the 2.412-2.484 GHz and 5.15-5.85
GHz bands. Matched to 50 Ohms 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 PAs exhibit unparalleled linearity
Figure 1: Block Diagram and Pinout
05/2011
23
22
21 20
19
VTX2
2GANT
GND
VDET
VCC
4
LNAON2
5
PAON2
6
RX5
17
VCC
16
GND
15
PAON5
14
LNAON5
13
AWL9966
7
8
9
10
11 12
TX5
GND
3
VTX5
TX2
BT
18
GND
2
VRX5
RX2
VBT2
GND
1
5GANT
24
VRX2
AWL9966
Figure 2: Pinout Diagram
Table 1: Pin Description
PIN
NAME
DESCRIPTION
1
VBT2
2
BT
3
VCC
4
2
PIN
NAME
DESCRIPTION
Bluetoothenable.On/Offcontrolfor
theBluetoothRFpath.
13
LNAON5
5GHzLNAEnable.On/Off
controlforthe5GHzreceive
pathlownoiseamplifier.
BluetoothRFport.
14
PAON5
5GHzPAEnable.On/Off
controlforthe5GHztransmit
pathpoweramplifier.
PowerSupply.Biasfortransistors.
15
GND
Ground.
2GHzLNAEnable.On/Offcontrol
LNAON2 forthe2GHzreceivepathlow
noiseamplifier.
16
VCC
PowerSupply.Biasfor
transistors.
2GHzPAEnable.On/Offcontrolfor
the2GHztransmitpathpower
amplifier.
17
VTX5
Switchcontrolfor5GHz
transmitpath.
5
PAON2
6
RX5
5GHzRFreceiveoutputport.
18
VRX5
Switchcontrolfor5GHzreceive
path.
7
GND
Ground.
19
VDET
PowerDetectorOutput.DC
coupledpowerdetectoroutput
8
RX2
2GHzRFreceiveoutputport.
20
5GANT
5GHzAntennaPort.
9
GND
Ground.
21
GND
10
TX2
2GHzRFtransmitinputport.
22
2GANT
11
GND
Ground.
23
VTX2
Switchcontrolfor2GHz
transmitpath.
12
TX5
5GHzRFtransmitinputport.
24
VRX2
Switchcontrolfor2GHzreceive
path.
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
Ground.
2GHzAntennaPort.
AWL9966
ELECTRICAL CHARACTERISTICS
Table 2: Absolute Minimum and Maximum Ratings
Operating Conditions: TC=+25 °C, VCC=+3.3 V, Vcontrols=+3.3 V
PARAMETER
MIN
MAX
UNIT
DCPowerSupplyVoltages(VCC)
-
+6.0
V
RFInputLevel,2.4GHzPA,5GHzPA
-
+5
AmbientTemperature
-40
+85
C
StorageTemperature
-55
+85
C
-
60
%
400
25
-
V
-
MSL-2
-
StorageHumidity
ESDTolerance
MSLRating
COMMENTS
dBm Modulated
HumanBodyModel(HBM),allpins
MachineModel(MM),allpins
Notes:
1. 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
OperatingFrequencyRanges
2412
5150
-
2484
5850
MHz
DCPowerSupplyVoltage(VCC)
+3.0
+3.3
+3.6
V
WithRFapplied
ControlPinVoltage(PAON2,LNAON2,
PAON5,LNAON5,VBT2,VRX2,VTX2,
VRX5,VTX5)
+2.8
0
+3.3
0
+3.6
+0.5
V
LogicHigh/On
LogicLow/Off
AmbientTemperature
-40
-
+85
8C
802.11b/g
802.11a
Notes:
The device may be operated safely over these conditions; however, parametric performance is guaranteed only over
the conditions defined in the electrical specifications.
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
3
AWL9966
Table 4: Electrical Specifications - 802.11b/g Transmit Path
(TC = +25 °C, VCC = +3.3 V, PAON2 = +3.3 V, VTX2 = +3.3 V, VRX2 = VBT2 = 0 V)
Static Mode 64 QAM OFDM 54 Mbps
PARAMETER
MIN
TYP
MAX
UNIT
OperatingFrequency
2412
-
2484
MHz
27
31
36
dB
-
+/-1.0
+/-0.5
-
dB
Acrossfullband
Acrossany40MHzband
-
-30
190
-
dB
mA
POUT=20dBm,DynMode,54Mbps
Avgcurrentduringpacket
-
-33
175
-28.5
195
dB
mA
POUT=18dBm,DynMode,54Mbps
Avgcurrentduringpacket
-
-36
140
-
dB
mA
POUT=16dBm,DynMode,54Mbps
Avgcurrentduringpacket
-
-40
95
-
dB
mA
POUT=5dBm,DynMode,54Mbps
Avgcurrentduringpacket
ACPRSidelobe1
21
22.6
-
dBm
ACPR1=-30dBc,CCK1Mbps,root
cosinefiltering=0.45
ACPRSidelobe2
21
22.6
-
dBm
ACPR2=-50dBc,CCK1Mbps,root
cosinefiltering=0.45
Pass
-
-
dBm
POUT=22.5dBmCCKallrates
POUT=20dBmOFDMallrates,
PANoiseFigure
-
5
-
dB
PAOutofBandNoise
Power
-
-150
-
dBm/Hz
PSAT
-
26
-
dBm
GroupDelay
-
2.5
-
nS
GroupDelayVariation
-
0.5
-
nS
Forany20MHzchannel
ReturnLoss,Input
12
17
-
dB
50V
ReturnLoss,Output
6
10
-
dB
50V
TXOutputSpuriousLevels
2fo
3fo
4fo
-
-29
-48
-55
-
TXOutputSpuriousLevels
Non-Harmonics
-
-60
StabilityandLoad
MismatchSusceptibility
-
SettlingTime
PowerGain
GainFlatness
ErrorVectorMagnitude
(EVM)(1)
TransmitMask
COMMENTS
WCDMARXBand
(2.11to2.17GHz)
dBm/MHz
Forpowerlevelsupto23dBm,
CCKat1Mbps
-
dBm/MHz
Forpowerlevelsupto23dBm,
CCKat1Mbps
-60
-
dBc
-
0.5
1.0
s
QuiescentCurrent
-
95
115
mA
ShutdownCurrent
-
12
25
A
Unconditionallystableandnodamage,
5:1VSWR,uptoPOUT=20dBm,
OFDMat54Mbps
Within1.0dBoffinalvalue
VCC=3.3V,allothercontrols=0V
Note:
(1) EVM includes system noise floor of 1% (-40 dB).
4
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
AWL9966
Table 5: Electrical Specification - 2 GHz Receive Path - LNA Mode
(TC = +25 8C, VCC = +3.3 V, LNAON2 = +3.3 V, VRX2 = +3.3 V, VTX2 = VBT2 = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
OperatingFrequency
2412
-
2484
MHz
10
12
14
dB
GainFlatness
-
+/-0.5
+/-0.25
-
dB
NoiseFigure
-
2.6
3.9
dB
ReverseIsolation
-
17
-
dB
GroupDelay
-
1.0
-
nS
GroupDelayVariation
-
0.5
-
nS
Forany20MHzchannel
InputReturnLoss
-
4
-
dB
50V
OutputReturnLoss
-
7
-
dB
50V
IIP3
-
-1
-
dBm
IP1dB
-
-10
-
dBm
SettlingTime
-
0.5
1.0
s
IccQuiescentCurrent
-
10
14
mA
PowerGain
COMMENTS
Acrossfullband
Acrossany40MHzband
Within1.0dBoffinalvalue
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
5
AWL9966
Table 6: Electrical Specification - 2 GHz Receive Path - Bypass Mode
(TC = +25 8C, VCC = +3.3 V, LNAON2 = 0 V, VRX2 = +3.3 V, VTX2 = VBT2 = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
COMMENTS
OperatingFrequency
2412
-
2484
MHz
InsertionLoss
-
3.5
4.5
dB
GainFlatness
-
+/-0.5
+/-0.25
-
dB
Acrossfullband
Acrossany40MHzband
InputReturnLoss
-
7
-
dB
50V
OutputReturnLoss
-
6
-
dB
50V
IIP3
-
27
-
dBm
IP1dB
-
24
-
dBm
SettlingTime
-
0.5
1.0
s
QuiescentCurrent
-
12
25
A
Within1.0dBoffinalvalue
Table 7: Electrical Specification - Bluetooth TX/RX
(TC = +25 8C, VCC = 0 V, LNAON2 = 0 V, VRX2 = 0 V, VBT2 = +3.3 V, VTX2 = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
OperatingFrequency
2402
-
2480
MHz
InsertionLoss
-
1.4
2.5
dB
GainFlatness
-
+/-0.25
-
dB
Acrossany40MHzband
InputReturnLoss
-
10
-
dB
50V
OutputReturnLoss
-
10
-
dB
50V
BT-RXIsolation
-
20
-
dB
BT-TXIsolation
-
40
-
dB
SettlingTime
-
0.5
1.0
s
QuiescentCurrent
-
12
25
A
6
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
COMMENTS
Within1.0dBoffinalvalue
AWL9966
Table 8: Electrical Specification - 802.11a Transmit Path
(TC = +25 8C, VCC = +3.3 V, PAON5 = +3.3 V, VTX5 = +3.3 V, VRX5 = 0 V,
Static Mode 64 QAM OFDM 54 Mbps)
PARAMETER
MIN
TYP
MAX
UNIT
OperatingFrequency
5150
-
5850
MHz
27
31
36
dB
-
+/-2.0
+/-0.5
-
dB
Acrossfullband
Acrossany40MHzband
-
-30
160
-28
185
dB
mA
POUT=17dBm,DynMode,54Mbps
Avgcurrentduringpacket
-
-33
130
-
dB
mA
POUT=15dBm,DynMode,54Mbps
Avgcurrentduringpacket
-
-40
90
-
dB
mA
POUT=5dBm,DynMode,54Mbps
Avgcurrentduringpacket
Pass
-
-
N/A
OFDM,Allrates,POUT=18dBm
PANoiseFigure
-
6
-
dB
GroupDelay
-
1.5
-
nS
GroupDelayVariation
-
0.5
-
nS
InputReturnLoss
7
11
-
dB
OutputReturnLoss
10
14
-
dB
-
-26
-42
-60
-
dBm/
MHz
Forpowerlevelsupto18dBm,
OFDM54Mbps
TXOutputSpuriousLevels
Non-Harmonics
-
-52
-
dBm/
MHz
Forpowerlevelsupto18dBm,
OFDM54Mbps
StabilityandLoadMismatch
Susceptibility
-
-60
-
dBc
0.8
2.0
s
PowerGain
GainFlatness
ErrorVectorMagnitude(EVM)(1)
TransmitMask
TXOutputSpuriousLevels
2fo
3fo
4fo
SettlingTime
QuiescentCurrent
-
95
115
mA
ShutdownCurrent
-
12
25
A
COMMENTS
Forany20MHzchannel
Unconditionallystableandno
damage,5:1VSWR,upto
POUT =18dBm,[email protected]
Within1.0dBoffinalvalue
VCC=3.3V,allothercontrols=0V
Note:
(1) EVM includes system noise floor of 1% (-40 dB).
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
7
AWL9966
Table 9: Electrical Specification - 5 GHz Receive Path - LNA Mode
(TC = +25 8C, VCC = +3.3 V, LNAON5 = +3.3 V, VRX5 = +3.3 V, VTX5 = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
OperatingFrequency
5150
-
5850
MHz
10
14
18
dB
GainFlatness
-
+/-1.0
+/-0.25
-
dB
NoiseFigure
-
2.5
3.9
dB
ReverseIsolation
-
21
-
dB
GroupDelay
-
1.5
-
nS
GroupDelayVariation
-
0.5
-
nS
Forany20MHzchannel
InputReturnLoss
-
4
-
dB
50V
OutputReturnLoss
-
6
-
dB
50V
IIP3
-
-12
-
dBm
IP1dB
-
-18
-
dBm
SettlingTime
-
0.5
1.0
s
QuiescentCurrent
-
12
16
mA
PowerGain
8
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
COMMENTS
Acrossfullband
Acrossany40MHzband
Within1.0dBoffinalvalue
AWL9966
Table 10: Electrical Specification - 5 GHz Receive Path - Bypass Mode
(TC = +25 8C, VCC = +3.3 V, LNAON5 = 0 V, VRX5 = +3.3 V, VTX5 = 0 V)
PARAMETER
MIN
OperatingFrequency
5150
TYP
MAX
UNIT
5850
MHz
COMMENTS
InsertionLoss
-
5.25
6.5
dB
GainFlatness
-
+/-1.0
+/-0.25
-
dB
Acrossfullband
Acrossany40MHzband
InputReturnLoss
-
13
-
dB
50V
OutputReturnLoss
-
10
-
dB
50V
IIP3
-
30
-
dBm
IP1dB
-
20
-
dBm
SettlingTime
-
0.5
1.0
s
QuiescentCurrent
-
12
25
A
Within1.0dBoffinalvalue
Table 11: Electrical Specification - Power Detector
(TC = +25 8C, VCC = +3.3 V, PAON2/5 = +3.3 V, VTX2/5 = +3.3 V)
PARAMETER
MIN
TYP
MAX
UNIT
VoltageRange
200
-
800
mV
TotalInternalLoadImpedance
-
5
-
kV
DynamicRange
-
20
-
dB
Resolution
-
15
-
VideoBandwidth
-
15
-
COMMENTS
+1dBm<POUT <+21dBmCW,
2GHzand5GHz
mV/dB POUT>+7dBm
MHz
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
AdjustablewithexternalRCLoad
9
AWL9966
Table 12: Electrical Specification - Switch and Control Lines
(TC = +25 8C, VCC = +3.3 V, Vcontrol pins High = +3.3 V, Vcontrol pins Low = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
ControlPinSteadyStateInputCurrent
(PAON2,LNAON2,PAON5,LNAON5)
-
200
0.5
-
A
LogicHigh/On
LogicLow/Off
ControlPinSteadyStateInputCurrent
(VBT2,VRX2,VTX2,VRX5,VTX5)
-
5
0.5
-
A
LogicHigh/On
LogicLow/Off
ControlPinInputImpedance
-
16.5
-
kV
LogicHigh/On
TX2-RX2Isolation
-
30
-
dB
TX5-RX5Isolation
-
25
-
dB
10
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
COMMENTS
AWL9966
PERFORMANCE DATA PLOTS:
2 GHz Tx Performance
Figure 3: Tx Path Gain vs. Output Power Across
Figure
Figure3:
3: Tx
TxPath
PathGain
Gainvs.
vs.Output
OutputPower
PowerAcross
AcrossFrequency
Frequency
Frequency (Vcc
VCC
= +3.3
V, TC = +25 °C,
==+3.3V,
Temp
Vcc
+3.3V,
Temp==+25C
+25C
802.11g,
802.11g,54
54Mbps
MbpsOFDM
OFDM
802.11g, 54 Mbps OFDM)
40
40
39
39
Figure 4: Tx Path Gain vs. Output Power Across
Figure
4:4:Tx
vs.
Power
Voltage
Figure(Freq
TxPath
PathGain
vs.Output
Output
PowerAcross
Voltage
=Gain
2.45
GHz,
TAcross
C = Voltage
+25 °C,
Freq
Freq==2.45
2.45GHz,
GHz,Temp
Temp==+25C
+25C
802.11g,
54
Mbps
OFDM
802.11g,
54 54Mbps
OFDM)
802.11g,
Mbps OFDM
40
40
Gain2.40GHz
38
38
Gain2.45GHz
37
37
Gain2.50GHz
36
36
39
39
Gain3.0V
38
38
Gain3.3V
37
37
Gain3.6V
36
36
35
35
35
35
34
34
Gain (dB)
Gain (dB)
Gain (dB)
(dB)
Gain
34
34
33
33
33
33
32
32
32
32
31
31
31
31
30
30
30
30
29
29
29
29
28
28
28
28
27
27
27
27
26
26
26
26
25
25
55
66
77
88
99
10
10
11
11
12
12
13
13
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
22
22
23
23
24
24
25
25
5
25
25
Output
OutputPower
Power(dBm)
(dBm)
Figure 5: Tx Path Gain vs. Output Power Across
Figure
Figure5:
5: Tx
TxPath
PathGain
Gainvs.
vs.Output
OutputPower
PowerAcross
AcrossTemperature
Temperature
2.45Temperature
GHz,
Freq
GHz,
+3.3V
Freq==2.45
2.45(Freq
GHz,Vcc
Vcc===
+3.3V
802.11g,
802.11g,54
54Mbps
MbpsOFDM
OFDM
VCC = +3.3 V, 802.11g, 54 Mbps OFDM)
Gain-40C
38
38
Gain+25C
37
37
Gain+85C
500500
475475
8
7
9
8
10
10
9
11
11
12
12
13
13
14
14
15
15
16
16
17
17
Output Power (dBm)
Output Power (dBm)
18
18
19
19
20
20
21
21
22
22
23
23
24
24
25
25
Icc2.40GHz
450450
425425
Icc2.45GHz
400400
375375
36
36
Icc2.50GHz
350350
325325
35
35
34
34
Icc (mA)
Icc (mA)
Gain (dB)
(dB)
Gain
300300
275275
33
33
250250
225225
32
32
31
31
200200
175175
30
30
150150
125125
29
29
28
28
100100
75 75
27
27
50 50
26
26
25 25
25
25
55
66
77
88
99
10
10
11
11
12
12
13
13
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
22
22
23
23
24
24
0 0
5 5
25
25
Output
OutputPower
Power(dBm)
(dBm)
Figure 7: Tx Path Icc vs. Output Power Across
Figure
7: Tx7:Path
Icc2.45
vs.
Power
Across
Voltage
(Freq
TCAcross
=Voltage
+25
°C,
Figure
Tx=
Path
IccOutput
vs. GHz,
Output
Power
Voltage
FreqFreq
= 2.45
TempTemp
= +25C
= GHz,
2.45 GHz,
= +25C
802.11g,
54
Mbps
OFDM
802.11g,
54
Mbps
OFDM)
802.11g, 54 Mbps OFDM
500
475
450
425
Icc3.6V
400
375
250
225
200
175
275300
250
250275
225
225250
200
200225
175200
150175
125
100
125150
100
75
100125
75
50
75100
50
25
50 75
25
0
5
0
Icc+85C
300325
275
150
125
Icc+25C
325350
300
175
150
Icc-40C
425450
Current (mA)
Current (mA)
Current (mA)
275
Output
Power
(dBm)
Output
Power
(dBm)
350375
325
300
450475
375400
350
325
9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25
802.11g, 54 Mbps OFDM
400425
375
350
8 8
475500
Icc3.3V
425
400
7 7
500
Icc3.0V
450
6 6
Figure 8: Tx Path Icc vs. Output Power Across
Temperature
(Freq
2.45
GHz,
Figure
8: Tx Path Icc vs. Output
Power=
Across
Temperature
8: Tx Path
vs. GHz,
Output
Power
Across Temperature
FreqIcc
= 2.45
Vcc
= +3.3V
VCC Figure
= +3.3
V,
802.11g,
54
Mbps
OFDM)
Freq = 2.45
= +3.3V
802.11g,
54 GHz,
MbpsVcc
OFDM
500
475
Current (mA)
7
6
Figure 6: Tx Path Icc vs. Output Power Across
Figure
6:6:TxTx
Path
vs.
Power
Frequency
Figure
Icc
vs.
Output
Power
Across
Frequency
Frequency
(Path
VIccCC
=Output
+3.3
V,Across
TC =
+25 °C,
Vcc
= +3.3V,
Temp
==
+25C
Vcc
= +3.3V,
Temp
+25C
802.11g,
Mbps
OFDM
802.11g,
Mbps
OFDM
802.11g,
545454
Mbps
OFDM)
40
40
39
39
6
5
25 50
65
76
87
98
109
11
10
12
11
13
12
14
13
15
14
16
15
17
16
18
17
Output
PowerPower
(dBm)(dBm)
Output
19
18
20
19
21
20
22
21
23
22
24
23
25
24
25
0 25
50
6
5
7
6
8
7
9
8
10
9
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
11
10
12
11
13
12
14
15
16
17
13
14
15 (dBm)
16
17
Output
Power
Output Power (dBm)
18
19
18
20
19
21
20
22
21
23
22
24
23
25
24
11
25
AWL9966
Figure 10: Tx Path Dynamic EVM vs. Output
Power
Across
Voltage
(Freq
= 2.45Voltage
GHz,
Figure
Figure10:
10: Tx
TxPath
PathDynamic
DynamicEVM
EVMvs.
vs.Output
OutputPower
PowerAcross
Across Voltage
==2.45
+25C
Freq
2.45GHz,
GHz,Temp
Temp
+25C
TC = +25 °C,Freq
802.11g,
54==Mbps
OFDM)
802.11g, 54 Mbps OFDM
Figure 9: Tx Path Dynamic EVM vs. Output
Figure 9:
9: Tx
Tx Path
Path Dynamic
Dynamic EVM
EVMvs.
vs. Output
OutputPower
PowerAcross
Across Frequency
Frequency
Figure
Power
Across
VccFrequency
+3.3V, Temp
Temp== +25C
+25C( VCC = +3.3 V,
Vcc
== +3.3V,
802.11g,54
54 Mbps
Mbps OFDM
OFDM
802.11g,
TC = +25 °C, 802.11g, 54 Mbps OFDM)
10
10
EVM2.50GHz
EVM3.6V
7
7
EVM(%)
(%)
EVM
66
EVM
EVM (%)
(%)
EVM3.3V
8
8
77
55
44
33
6
6
5
5
4
4
3
3
22
2
2
11
00
EVM3.0V
9
9
EVM2.45GHz
88
802.11g, 54 Mbps OFDM
10
10
EVM2.40GHz
99
1
1
55
66
77
88
99
10
10
11
11
12
12
13
13
14
14
15
15
16
16
17
17
Output Power
Power(dBm)
(dBm)
Output
18
18
19
19
20
20
21
21
22
22
23
23
24
24
0
0
25
25
Figure 11: Tx Path Dynamic EVM vs. Output
Figure 11:
11: Tx
Tx Path
Path Dynamic
Dynamic EVM
EVM vs.
vs. Output
Output Power
PowerAcross
Across Temperature
Temperature
Figure
Power
Across
Temperature
= 2.45
GHz,
Freq == 2.45
2.45 GHz,
GHz, Vcc
Vcc == (Freq
+3.3V
Freq
+3.3V
802.11g, 54
54 Mbps
Mbps
OFDM
802.11g,
OFDM
40
VCC = +3.3 V, 802.11g,
54
Mbps OFDM)
5
5
6
6
7
7
8
8
9
9
10
10
11
11
12
12
13
13
14
14
15
15
16
16
17
17
Output
OutputPower
Power(dBm)
(dBm)
18
18
19
19
20
20
21
21
22
22
23
23
24
24
25
25
Figure
12:Figure
2TxGHz
Tx
Path
S21 Response
Figure
12: 2GHz
Path
S21
12: 2GHz
TxResponse
Path
S21 Response
Vcc = +3.3v,
C
Vcc =(T
+3.3v,
=°C
+25Temp
C = Temp
+25
VCCC==+25+3.3
V)
40
10
10
30
EVM-40C
99
88
20
EVM+85C
20
77
66
10
10
S21 (dB)
EVM
EVM(%)
(%)
S21Mag(dB)
30
EVM+25C
S21 (dB)
55
44
33
0
-10
0
-20
-10
-30
22
00
-40
-20
11
55
66
77
88
99
10
10
11
11
12
12
Figure 13:
0
13
13
14
14
15
15
16
16
17
17
Output
Power
(dBm)
Output
2GHz
TxPower
Path(dBm)
S11 &
18
18
19
19
20
20
-30
21
21
-50
22
22
S22 Return Loss
Vcc = +3.3v, Temp = +25 C
-40
23
23
24
24
0
25
25
-2
Figure
13: 2Figure
GHz
Tx Tx
Path
S11
& S22
13: 2GHz
Path S11
& S22 Return
Loss Return Loss
-50
-4
Vcc = +3.3v,
= +25
(TC = +25
°C,Temp
VCC
=C +3.3 V)
0
1
2
-6
0
1
2
3
4
3
4
5
6
7
-6
-12
-8
-14
-16
-12
-18
-14
-16
-20
S11/S22 (dB)
S11/S22 (dB)
-10
-18
-22
-20
-24
-22
-26
-24
-28
-26
-28
-30
-30
-32
-32
-34
S11Mag(dB)
-36
-38
-38
-40
-40
00
12
S22Mag(dB)
11
22
3 3
4
4 5
56
87
98
10 9 11 10 12
67
Frequency
(GHz) (GHz)
Frequency
1113
14
12
1513
7
8
Frequency (GHz)
-10-4
-36
6
8
9
10
11
12
13
14
15
Frequency (GHz)
-8-2
-34
5
14
15
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
9
10
11
12
13
14
15
AWL9966
5 GHz Tx Performance
Figure 14: Tx Path Gain vs. Output Power Across
14: Tx
TxPath
PathGain
Gainvs.
vs.Output
OutputPower
PowerAcross
Across
Frequency
Figure 14:
Frequency
Frequency
(T
C==+3.3V,
=+3.3V,
+25
°C,
Vcc
Temp
==+25C
Vcc
Temp
+25CVCC = +3.3 V,
802.11a,
Mbps
802.11a,
MbpsOFDM
OFDM
802.11a,
545454Mbps
OFDM)
40
39
39
Gain5.15GHz
39
Gain3.0V
38
38
Gain5.50GHz
38
Gain3.3V
37
37
Gain5.85GHz
37
Gain3.6V
36
36
36
35
35
35
34
34
34
Gain (dB)
Gain
Gain(dB)
(dB)
40
40
Figure 15: Tx Path Gain vs. Output Power Across
Figure 15: Tx Path Gain vs. Output Power Across Voltage
Voltage
(TC Freq
= +25
°C, Freq = 5.5 GHz,
= 5.5 GHz, Temp = +25C
802.11a,
Mbps OFDM
802.11a,
5454Mbps
OFDM)
33
33
32
32
31
31
30
30
29
29
28
28
27
27
26
26
25
25 5
5
33
32
31
30
29
28
27
26
25
6
6
7
7
8
8
9
9
10
10
11
11
12
12
5
13
14
15
16
17
18
19
20
21
22
23
24
13
14
15(dBm)
16
17
18
19
20
21
22
23
24
Output
Power
6
7
8
9
10
11
12
13
39
39
Gain-40C
38
38
Gain+25C
37
37
Gain+85C
500
500
475
475
450
450
425
425
400
400
375
375
350
350
325
325
300
300
275
275
250
250
225
225
200
200
175
175
150
150
125
125
100
100
75
75
50
50
25
25
0
0
5
36
36
16
17
18
19
20
21
22
23
24
34
34
Icc5.15GHz
Icc5.50GHz
Icc5.85GHz
Icc (mA)
Icc (mA)
Gain
Gain (dB)
(dB)
35
35
33
33
32
32
31
31
30
30
29
29
28
28
27
27
26
26
25
25
15
Figure 17: Tx Path ICC vs. Output Power
Figure
17:
Icc
Power
Across
Frequency
Figure
17:TxTxPath
Path
Iccvs.
vs.Output
Output
Power
Across
Frequency
Across Frequency
(TC
=Temp
+25
°C,
VCC
= +3.3 V,
Vcc
==
+3.3V,
= =+25C
Vcc
+3.3V,
Temp
+25C
802.11a,
Mbps
OFDM
802.11a,
54
Mbps
OFDM
802.11a,
5454Mbps
OFDM)
Figure 16: Tx Path Gain vs. Output Power
Figure16:
16: Tx
TxPath
PathGain
Gainvs.
vs.Output
OutputPower
PowerAcross
AcrossTemperature
Temperature
Figure
Across
Temperature
Freq== 5.5
5.5GHz,
GHz,Vcc
Vcc(Freq
+3.3V = 5.5 GHz,
Freq
== +3.3V
802.11a,54
54Mbps
MbpsOFDM
OFDM
VCC = +3.3 V,802.11a,
802.11a,
54 Mbps OFDM)
40
40
14
Output Power (dBm)
Output Power (dBm)
55
66
77
88
99
10
10
11
11
12
12
13
13
14
14
15
15
16
16
OutputPower
Power(dBm)
(dBm)
Output
17
17
18
18
19
19
20
20
21
21
22
22
23
23
24
24
Figure 18: Tx Path ICC vs. Output Power Across
Figure
Path
Icc
Output
Voltage
Figure18:
18:Tx
Path
Iccvs.
vs.°C,
OutputPower
PowerAcross
Across
Voltage
Voltage
(T
CTxFreq
=
+25
Freq
= 5.5
GHz,
Freq==5.5
5.5GHz,
GHz,Temp
Temp==+25C
+25C
802.11a,
Mbps
802.11a,
MbpsOFDM
OFDM
802.11a,
545454Mbps
OFDM)
Icc3.0V
6
6
Icc3.6V
7
7
8
8
9
9
10
10
11
11
12
12
13
13
14
14
15
15
16
16
17
Output
Power
(dBm)
Output
Power
(dBm)
17
18
18
19
19
20
20
21
21
22
22
23
23
24
24
Figure 19: Tx Path ICC vs. Output Power Across
Figure
19:
Path
IccIcc
vs.vs.
Output
Power
Across
Temperature
Temperature
(Freq
=Output
5.5
GHz,
V
CC = +3.3 V,
Figure
19:TxTx
Path
Power
Across
Temperature
Freq
= 5.5
GHz,
Vcc
= +3.3V
Freq
= 5.5
GHz,
Vcc
= +3.3V
802.11a,
Mbps
OFDM
802.11a,
545454
Mbps
OFDM)
802.11a,
Mbps
OFDM
500500
475475
Icc-40C
450450
425425
Icc3.3V
Icc+25C
Icc+85C
400400
375375
350350
325325
Current (mA)
Current (mA)
500
500
475
475
450
450
425
425
400
400
375
375
350
350
325
325
300
300
275
275
250
250
225
225
200
200
175
175
150
150
125
125
100
100
75
75
50
50
25
25
0
0
5
5
Current (mA)
Current (mA)
300300
275275
250250
225225
200200
175175
150150
125125
100100
75 75
50 50
25 25
5
6
6
7
7
8
8
9
9
10
10
11
11
12
12
13
13
14
14
15
15
16
16
Output
OutputPower
Power(dBm)
(dBm)
17
17
18
18
19
19
20
20
21
21
22
22
23
23
24
24
0 0
5 5
6 6
7 7
8 8
9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
Output
Power
(dBm)
Output
Power
(dBm)
13
AWL9966
Figure 20: Tx Path Dynamic EVM vs. Output
Figure
Tx
EVM
Frequency
Figure 20:
20: Across
Tx Path
Path Dynamic
Dynamic
EVM vs.
vs. Output
OutputPower
Power
Across
Frequency
Power
Frequency
(TCAcross
= +25
°C,
Vcc
Vcc == +3.3V,
+3.3V, Temp
Temp == +25C
+25C
802.11a,
OFDM
802.11a,54
54 Mbps
Mbps54
OFDM
VCC = +3.3 V, 802.11a,
Mbps OFDM)
10
10
802.11a, 54 Mbps OFDM
10
10
EVM5.15GHz
99
Figure 21: Tx Path Dynamic EVM vs. Output
Figure
21: TxAcross
Path DynamicVoltage
EVM vs. Output(T
Power
Power
C =Across
+25Voltage
°C,
Freq
= 5.5 GHz,
Temp
= +25CPower Across Voltage
Figure 21: Tx Path
Dynamic
EVM
vs. Output
802.11a,
54GHz,
MbpsTemp
OFDM
Freq
= 5.5
= +25C
Freq = 5.5 GHz,
802.11a,
54
Mbps OFDM)
9
EVM3.0V
9
EVM5.50GHz
88
EVM3.3V
8
EVM5.85GHz
8
EVM3.6V
7
77
7
6
EVM (%)
6
44
EVM (%)
EVM (%)
66
33
3
22
2
11
1
55
5
5
4
4
3
2
1
0
00
55
66
77
88
99
10
10
11
11
12
12
13
13
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
22
22
23
23
50
24
24
EVM+85C
20
20
66
10
10
55
44
33
-6
16
17
18
17
19
18
20
19
21
20
22
21
23
22
24
23
24
0
0
-10
-10
-40
-40
66
77
88
99
1010
1111
1212
1313
1414
1515
1616
Output
(dBm)
OutputPower
Power
(dBm)
1717
1818
1919
2020
2121
2222
2323
2424
-50
-50
0
0
1
1
2
2
3
3
-4
-6
S11/S22 (dB)
S11/S22 (dB)
14
15
S21Mag(dB)
-2
-8
-8
-10
-10
-12
-12
-14
-14
-16
-16
-18
-18
-20
-20
-22
-22
-24
-24
-26
-26
-28
-28
-30
-30
-32
-32
-34
-34
-36
-36
-38
-38
-40
-40
0
0
14
Vcc = +3.3v, Temp = +25 C
Figure 24: Figure
5Figure
GHz
TxTxPath
& S22
24: 5GHz
Path S11S11
& S22 Return
Loss Return Loss
24: 5GHz Tx Path S11 & S22 Return Loss
Vcc = +3.3v, Temp = +25 C
= +3.3v,
TempV
= +25
(
T
C =Vcc
+25
°C,
CCC= +3.3 V)
0
0
13
Output
12
13 Power
14 (dBm)
15
16
-30
-30
11
-4
12
11
-20
-20
22
-2
11
10
30
30
S21(dB)
(dB)
S21
EVM (%)
EVM (%)
10
9
40
40
EVM+25C
77
00
55
9
8
50
50
EVM-40C
88
8
7
Figure 23: 5 GHz Tx Path S21 Response
23:
Tx
S21
Figure
23: 5GHz
5GHz
TxPath
Path
S21Response
Response
( TCFigure
= +25
°C,
VCC
=
Vcc = +3.3v,
Temp
= +25
C +3.3 V)
802.11a,
802.11a,5454Mbps
MbpsOFDM
OFDM
99
7
6
Output Power (dBm)
Figure 22: Tx Path Dyanmic EVM vs. Output
Power Across Temperature (Freq = 5.5 GHz,
Figure 22:
22:Tx
TxPath
PathDynamic
DynamicEVM
EVMvs.
vs.Output
OutputPower
PowerAcross
AcrossTemperature
Temperature
= =5.5
= =+3.3V
VFigure
CC = +3.3 V,Freq
802.11a,
54
Mbps
OFDM)
Freq
5.5GHz,
GHz,Vcc
Vcc
+3.3V
1010
6
5
Output
Output Power
Power(dBm)
(dBm)
S11Mag(dB)
S22Mag(dB)
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
Frequency (GHz)
Frequency (GHz)
9
10
10
11
11
12
12
13
13
14
14
15
15
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
4
4
5
5
6
6
7
7
8
8
Frequency (GHz)
Frequency (GHz)
9
9
10
10
11
11
12
12
13
13
14
14
15
15
AWL9966
2 GHz Rx Performance
Figure25:
2GHzRxRxPath
Path
Noise
Figure Noise
Figure 25:
225:2GHz
GHz
Rx
Path
Figure
Noise
Figure
T=25C
T=25C
(TC = +25 °C)
33
Figure 26:Figure
2 GHz
Rx Path S21 Response
26: 2GHz Rx Path S21 Response
= +3.3V,
(VCC
= Vcc
+3.3
VTemp
,TC= +25
= C+25 °C)
Figure 26: 2GHz Rx Path S21 Response
20
2.92.9
Vcc = +3.3V, Temp = +25 C
20
10
2.82.8
S21Mag(dB)
10
0
2.72.7
0
Noise Figure (dB)
Noise Figure (dB)
2.62.6
S21 (dB)
S21 (dB)
-10
2.52.5
2.32.3
-20
-30
2.22.2
-30
NoiseFigure3.0V
-40
NoiseFigure3.3V
2.12.1
NoiseFigure3.6V
-40
-50
22
2.42.4
2.41
2.41
2.42
2.42
2.43
2.43
2.44
2.44
2.45
2.45
2.46
2.46
2.47
2.47
2.48
2.48
2.49
2.49
2.52.5
Frequency(GHz)
(GHz)
Frequency
0
-10
-20
2.42.4
0
-50
1
0
2
1
3
2
4
3
6
5
7
6
8
9
Frequency (GHz)
7
8
10
9
10
11
11
12
12
13
13
14
14
15
15
Frequency (GHz)
Figure
27: 2GHz
RxPath
Path S21 Return
Loss
Figure 27:Figure
2
GHz
Rx
S21Loss
Return Loss
27: 2GHz
Rx Path
S21 Return
Vcc = +3.3V, Temp = +25 C
= +3.3V,VTemp
(VCC =Vcc
+3.3
,TC= +25
= C+25 °C)
S11/S22 (dB)
S11/S22 (dB)
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
-32
-32
-34
-34
-36
-36
-38
-38
-40
-40
0
0
5
4
S11Mag(dB)
S22Mag(dB)
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
Frequency (GHz)
Frequency (GHz)
9
9
10
10
11
11
12
12
13
13
14
14
15
15
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
15
AWL9966
5 GHz Rx Performance
3
Figure 29: 5 GHz Rx Path S21 Response
Figure29:
29:5GHz
5GHzRx
RxPath
PathS21
S21Response
Response
Figure
( VCC = Vcc
+3.3
V,Temp
TC==+25
=+25+25
°C)
Vcc==+3.3V,
+3.3V,
Temp
CC
Figure 28: 5GHz Rx Path Noise Figure
28: 5GHz
Rx
Path
Noise Figure
Figure 28: 5Figure
GHz
Rx
Path
Noise Figure
T=25C
T=25C
( TC = +25 °C)
3
2020
2.9
2.9
S21Mag(dB)
1010
2.8
2.8
2.7
2.7
00
Noise Figure (dB)
Noise Figure (dB)
2.6
2.6
S21 (dB)
S21 (dB)
-10
-10
2.5
2.5
-20
-20
2.4
2.4
2.3
2.3
-30
-30
2.2
2.2
NoiseFigure3.0V
2
-40
-40
NoiseFigure3.3V
2.1
2.1
NoiseFigure3.6V
2
5
5
5.1
5.1
5.2
5.2
5.3
5.3
5.4
5.4
5.5
5.6
5.5
5.6
Frequency (GHz)
Frequency (GHz)
5.7
5.7
5.8
5.8
5.9
5.9
6
6
-50
-50
00
11
22
33
Figure 30: 5 GHz Rx Path S11 & S22 Return Loss
Rx Path S11 & S22 Return Loss
(Figure
VCC30:=5GHz
+3.3
V, TC = +25 °C)
Vcc = +3.3V, Temp = +25 C
00
-2
-2
-4
-4
-6
-6
-8
-8
-10
-10
-12
-12
S11/S22 (dB)
-14
-14
-16
-16
-18
-18
-20
-20
-22
-22
-24
-24
-26
-26
-28
-28
-30
-30
-32
-32
-34
-34
S11Mag(dB)
-36
-36
-38
-38
S22Mag(dB)
-40
-40
00
11
22
33
44
55
66
77
88
99
10
10
11
11
12
12
13
13
14
14
15
15
Frequency (GHz)
(GHz)
Frequency
16
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
44
55
66
77
88
Frequency(GHz)
(GHz)
Frequency
99
1010
1111
1212
1313
1414
1515
AWL9966
2 GHz and 5 GHz Rx Bypass Mode Performance
Figure 31: 2 GHz Rx Bypass Mode S21 Response
2GHz
Rx
Mode
Response
Figure
31:=
2GHz
Rx Bypass
BypassT
Mode
S21
Response
(Figure
VCC31:
+3.3
=S21
Vcc
= +3.3V,V,
Temp =C+25
C+25 °C)
Figure 32: 2 GHz Rx Bypass Mode S11 & S22
Figure
Bypass Mode
Figure 32:
32: 2GHz
2GHz Rx
Mode S11
S11 &
& S22
S22 Return
Return Loss
Loss
Return
Loss
(RxV==Bypass
CC
+3.3
Vcc
+3.3V,
== +25
C
Vcc
+3.3V,=Temp
Temp
+25V,
C TC = +25 °C)
Vcc = +3.3V, Temp = +25 C
0
0
00
-2
-2
-4
-4
S21Mag(dB)
-6
-6
-8
-8
-10
-10
-12
-12
-20
-20
S11/S22 (dB)
(dB)
S11/S22
S21(dB)
(dB)
S21
-10
-10
-30
-30
-14
-14
-16
-16
-18
-18
-20
-20
-22
-22
-24
-24
-26
-26
-28
-28
-30
-30
-32
-32
-40
-40
-34
-34
-36
-36
-50
-50
0
0
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
Frequency
Frequency(GHz)
(GHz)
9
9
10
10
11
11
12
12
13
13
14
14
15
15
Figure 33: 5 GHz Rx Bypass Mode S21 Response
Figure
33: 5GHz
RxBypass
Bypass
Mode
Response
( VCC
=5GHz
+3.3
V, Mode
T
C S21
=S21+25
°C)
Figure
33:
Rx
Response
Vcc==+3.3V,
+3.3V,Temp
Temp==+25
+25CC
Vcc
00
-38
-38
-40
-40
S11Mag(dB)
S22Mag(dB)
00
11
22
33
44
55
66
77
88
Frequency
Frequency (GHz)
(GHz)
99
10
10
11
11
12
12
13
13
14
14
15
15
Figure 34: 5 GHz Rx Bypass Mode S21 Response
Figure
34:34:
RxRx
Bypass
Mode
S21
Response
5GHz
Bypass
S21
Response
( Figure
VCC
=5GHz
+3.3
V,
T=Mode
C =
+25
°C)
Vcc
= +3.3V,
Temp
+25
CC
Vcc
= +3.3V,
Temp
= +25
0 0
-2 -2
-4 -4
S21Mag(dB)
-6 -6
-8 -8
-10
-10
-10 -10
-12 -12
-14 -14
-16 -16
S11/S22 (dB)
S11/S22 (dB)
-20
-20
S21
S21(dB)
(dB)
-18 -18
-20 -20
-22 -22
-24 -24
-30
-30
-26 -26
-28 -28
-30 -30
-32 -32
-40
-40
-34 -34
S11Mag(dB)
-36 -36
S22Mag(dB)
-38 -38
-50
-50
00
11
22
33
44
55
66
77
88
Frequency(GHz)
(GHz)
Frequency
99
10
10
11
11
12
12
13
13
14
14
15
15
-40 -40
0 0
1 1
2 2
3 3
4 4
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
5 5
6 6
7 7
8 8
9 9
10 10 11 11 12 12 13 13 14 14 15 15
Frequency
(GHz)
Frequency
(GHz)
17
AWL9966
Bluetooth Performance
0
0
-2
S21Mag(dB)
-2
-4
-6
-4
-8
-10
-6
-12
-14
S11/S22 (dB)
S21 (dB)
-8
-10
-12
-16
-18
-20
-22
-24
-26
-14
-28
-30
-16
-32
-34
-18
S11Mag(dB)
-36
S22Mag(dB)
-38
-20
0
1
2
3
4
5
6
7
Frequency (GHz)
18
Figure 36: Bluetooth Path S11 &
S22 Return Loss
Figure 36: Bluetooth Path S11 & S22 Return Loss
= +3.3V,
+25+25
C
( VCC = Vcc
+3.3
V,Temp
TC= =
°C)
Figure 35:Figure
Bluetooth
Path S21 Response
35: Bluetooth Path S21 Response
= +3.3V,V,
Temp
( VCC =Vcc+3.3
T=C+25=C+25 °C)
8
9
10
11
12
-40
0
1
2
3
4
5
6
7
Frequency (GHz)
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
8
9
10
11
12
AWL9966
Figure 37: S36 Package Outline - 24 Pin 4 mm x 4 mm x 0.55 mm QFN
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
19
AWL9966
Figure 38: S36 Package Footprint - 24 Pin 4 mm x 4 mm x 0.55 mm QFN
Pin 1 Identifier
Date Code
YY=Year; WW=Work week
Part Number
Lot Number
Wafer Number
Figure 39: Branding Specification - S36 Package
20
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
AWL9966
APPLICATION INFORMATION
2GHzTX
Vtx2
2GHzANT
5GHzANT
2GHzRX
Vrx2
PAON2GHz
4
5
6
VDET
GND
5GANT
VRX5
VTX5
VCC
VCC
AWL9966
LNAON2
GND
PAON2
PAON5
LNAON5
RX5
7
8
9
10
TX5
LNAON2GHz
19
BT
GND
3
VCC
VBT2
21 20
TX2
2
VTX2
VRX2
1
GND
Bluetooth OUT
22
GND
2GHzBT
Vbt2
23
RX2
C1
4.7uF
+/-10%
24
2GANT
U1
R1
10KOhm
+/-10%
GND
18
17
16
C3
1000pF
+/-10%
DETOUT
5GHzRX
Vrx5
5GHzTX
Vtx5
C2
4.7uF
+/-10%
VCC5GHzPA
15
14
PAON5GHz
13
LNAON5GHz
40
11 12
5GHzRXOUT
2GHzRXOUT
2GHzTXIN
5GHzTXIN
Figure 40: Application Circuit
Table 13: Switch Modes of Operation
MODES OF
OPERATION
PAON2
PAON5
LNAON2
LNAON5
TX2GHz
HIGH
LOW
LOW
LOW
LOW
LOW
HIGH
LOW
LOW
RX2GHz
LOW
LOW
HIGH
LOW
LOW
HIGH
LOW
LOW
LOW
2GHZRXBypass
LOW
LOW
LOW
LOW
LOW
HIGH
LOW
LOW
LOW
BT2GHz
LOW
LOW
LOW
LOW
HIGH
LOW
LOW
LOW
LOW
BT&Bypass2GHz
LOW
LOW
LOW
LOW
HIGH
HIGH
LOW
LOW
LOW
BT&Rx2GHz
LOW
LOW
HIGH
LOW
HIGH
HIGH
LOW
LOW
LOW
TX5GHz
LOW
HIGH
LOW
LOW
LOW
LOW
LOW
LOW
HIGH
RX5GHz
LOW
LOW
LOW
HIGH
LOW
LOW
LOW
HIGH
LOW
5GHzRXBypass
LOW
LOW
LOW
LOW
LOW
LOW
LOW
HIGH
LOW
PowerHighReset
LOW
LOW
LOW
LOW
LOW
LOW
LOW
LOW
LOW
VBT2
VRX2
VTX2
VRX5
VTX5
Notes:
VCC = +3.0 V to +3.6 V; Logic State LOW = 0 V to +0.5 V; Logic State HIGH = +3.0 V to +3.6 V
PRELIMINARY DATA SHEET - Rev 1.2
05/2011
21
AWL9966
ORDERING INFORMATION
ORDER NUMBER
TEMPERATURE
RANGE
PACKAGE
DESCRIPTION
COMPONENT PACKAGING
AWL9966RS36P8
-40°Cto+85°C
RoHS-Compliant24Pin
4mmx4mmx0.55mm
SurfaceMountIC
2,500pieceTapeandReel
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
E-mail: [email protected]
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.
22
PRELIMINARY DATA SHEET - Rev 1.2
05/2011