ANADIGICS EVA6254RS35 2.4 ghz 802.11b/g/n wlan pa, lna, and rf switch Datasheet

AWL6254
2.4 GHz 802.11b/g/n
WLAN PA, LNA, and RF Switch
Data Sheet - Rev 2.0
FEATURES
•
3.3 % EVM @ POUT = +16 dBm with IEEE 802.11g
64 QAM OFDM at 54 Mbps
•
75 mA Transmit Path Current Consumption at
POUT = +16 dBm
•
SP3T RF Switch to Enable Bluetooth Path
•
Single +3.6 V Supply
•
Transmit Path Linear Power Gain of 28 dB
•
Temperature-Compensated Linear Power Detector
with Positive Slope
•
Receive Path In-Band Gain of 13 dB
•
Receive Path Noise Figure of 2.3 dB
•
3 mm x 3 mm x 0.55 mm ULPCC Package
AW
L6
254
APPLICATIONS
S35 Package
16 Pin 3 mm x 3 mm x 0.55 mm
Surface Mount ULPCC
• 802.11b/g WLAN in Cell Phone Designs
• 802.11n in WLAN MIMO Systems
• 2.4 GHz Cordless Phone Handsets/Basestations
02/2008
Rx RFOUT
VCC
Output
Match
Antenna
WLAN Rx
Enable
Control
Logic
BLUETOOTH
Enable
WLAN Tx
Enable
Tx RFIN
Input
Match
Output
Match
Bias Network
Power
Detector
DET_OUT
The positive slope power detector is temperaturecompensated on the chip, enabling a single-ended
output voltage with excellent accuracy over a wide
range of operating temperatures. The AWL6254 is
biased by a single +3.6 V supply and consumes ultralow current in the OFF mode.
Bias Network
VCC
The antenna port is switched between WLAN transmit,
WLAN receive, and Bluetooth paths with a low-loss
single-pole triple-throw RF switch. The transmit
path PA exhibits unparalleled linearity for both IEEE
802.11b/g/n WLAN systems under the toughest signal
configurations within these standards. The WLAN
receive path from the antenna port to receiver output
port provides a low noise, high-gain path to the system
receiver chain.
BLUETOOTH
The AWL6254 is manufactured using advanced InGaP
HBT technology that offers state-of-the-art reliability,
temperature stability and ruggedness. It is provided in
a 3 mm x 3 mm x 0.55 mm ULPCC package optimized
for a 50  system.
GND
The ANADIGICS AWL6254 is a high performance
InGaP HBT power amplifier, low-noise amplifier, and
RF switch integrated on a single IC. It is particularly
applicable to cell phone designs that integrate
802.11b/g WLAN in the 2.4 - 2.5 GHz band. Matched
to 50  on all RF ports, the part requires no additional
RF matching components off-chip. GND
PRODUCT DESCRIPTION
Figure 1: Block Diagram and Pinout
AWL6254
Table 1: Pin Description
PIN
1
2
NAME
DESCRIPTION
BLUETOOTH Bluetooth RF Port
2
GND
Ground
3
RX_RF
4
GND
5
LNA_EN
6
BT_EN
Bluetooth Enable. On/Off control for the Bluetooth path
7
PA_EN
Power Amplifier Enable. On/Off control for the Tx path power amplfier
8
GND
Ground
9
PA_IN
Power Amplfier Input
10
GND
Ground
11
NC
No Connection
12
VCC
Power Supply. Bias for the transistors in the part
13
DET_OUT
14
GND
Ground
15
ANT
Antenna Port. Common connection for the PA, LNA, and Bluetooth paths
16
GND
Ground
Receive RF Port
Ground
LNA Enable. On/Off control for the Rx path low noise amplifier
Power Detector Output. DC coupled power detector output. An emitter follower BJT
supplies the output for this pin.
Data Sheet - Rev 2.0
02/2008
AWL6254
ELECTRICAL CHARACTERISTICS
Table 2: Absolute Minimum and Maximum Ratings
PARAMETER
MIN
MAX
UNIT
COMMENTS
DC Power Supply Voltage (VCC)
-
+5.0
V
No RF Signal Applied
DC Power Control Voltage (VPA_EN)
-
+5.0
V
No RF Signal Applied
DC Power Control Voltage (VLNA_EN)
-
+5.0
V
No RF Signal Applied
DC Power Control Voltage (VBT_EN)
-
+5.0
V
No RF Signal Applied
DC Current Consumption
-
300
mA
Tx RF Input Level (RFIN)
-
0
dBm
Ant RF Input Level (RFIN)
-
-3
dBm
Bluetooth RF Input Level (RFIN)
-
23
dBm
Storage Case Temperature
-55
+150
°C
Operating Case Temperature
-40
+85
°C
ESD Tolerance
500
-
VDC
MSL Rating
-
MSL-2
Reflow Temperature
-
260
All pins, forward and reverse voltage.
Human Body Model (HBM)
°C
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
Operating Frequency (f)
2400
-
2500
MHz
DC Power Supply Voltage (VCC)
+3.3
+3.6
+4.2
V
Control Voltage (VPA_EN, VLNA_EN, VBT_EN)
+2.0
0
+3.3
-
+4.2
+0.4
V
Case Temperature (TC)
-40
-
+85
°C
-
720
-
k
Control Pin Impedance (VPA_EN, VLNA_EN,
VBT_EN)
COMMENTS
PA "ON"
PA "SHUTDOWN"
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
02/2008
3
AWL6254
Table 4: DC Electrical Specifications - Tx Path Continuous Wave
(TC = +25 °C, VCC = +3.6 V, VPA_EN = +3.3 V, VLNA_EN = 0 V , VBT_EN = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
P1dB
20
22
-
dBm
Current at P1dB
140
175
210
mA
Shutdown Current
-
25
75
A
Shutdown Mode
Quiescent Current
18
26
34
mA
VCC = +3.6 V, VPA_EN = +3.3 V, VLNA_EN = 0 V,
VBT_EN = 0 V, RF = off
-
-48
-68
-40
-60
dBc
POUT=+18 dBm (1)
Input Return Loss, Tx
RFIN
-
-7
-3
dB
Output Return Loss,
Antenna Port, Switch
in Transmit Mode
-
-9
-4
dB
Switch in Tx Position
Reverse Isolation
(Antenna Port to Tx
Input Port)
30
40
-
dB
Switch in Tx Position, signal injected into
Antenna port and measured at Tx input port,
PA = "ON"
Stability (Spurious)
-
-60
-50
dBc
6:1 VSWR, POUT = +18 dBm(1), -40 OC
TON Settling Time
-
1.0
2.0
s
Harmonics
2fo
3fo
COMMENTS
10% to 90% of maximum RF power.
POUT = +16 dBm(1)
Note:
(1) Power as measured at Antenna port of AWL6254.
4
Data Sheet - Rev 2.0
02/2008
AWL6254
Table 5: Electrical Specifications - Tx Path 802.11g
(TC = +25 °C, VCC = +3.6 V, VPA_EN = +3.3 V, VLNA_EN = 0 V , VBT_EN = 0 V, 64 QAM OFDM 54 Mbps)
PARAMETER
MIN
TYP
MAX
UNIT
Operating Frequency
2400
-
2500
MHz
Power Gain
25
28
32
dB
Gain Ripple
-
1.5
2.0
dB
Across 100 MHz band
Error Vector Magnitude (EVM)
-
3.3
-29.6
5.0
-26
%
dB
POUT = +16 dBm (1), (2)
Pass
-
-
N/A
POUT = +16 dBm (2)
Current Consumption
60
75
95
mA
POUT = +16 dBm (2)
Power Detector Voltage
650
780
900
mV
POUT = +16 dBm (2)
Power Detector Sensitivity
50
68
85
Tx Spectrum Mask
COMMENTS
mV/dB 10 dBm < POUT < +17 dBm (2)
Note:
(1) EVM includes system noise floor of 1% (-40 dB).
(2) Power as measured at Antenna port of AWL6254
Table 6: Electrical Specifications - Tx Path 802.11b
(TC = +25 °C, VCC = +3.6 V, VPA_EN = +3.3 V, VLNA_EN = 0 V , VBT_EN = 0 V,
1 Mbps, Gaussian Filtering, bT=0.50)
PARAMETER
MIN
TYP
MAX
UNIT
Operating Frequency
2400
-
2500
MHz
Power Gain
25
28
32
dB
Gain Ripple
-
1.5
2.0
dB
Across 100 MHz band
Adjacent Channel Power (ACPR)
1st Sidelobe (11 - 22 MHz Offset)
-
-33
-30
dBr
POUT = +18 dBm (1)
Adjacent Channel Power (ACPR)
2nd Sidelobe (>22 MHz Offset)
-
-53
-50
dBr
POUT = +18 dBm (1)
Pass
-
-
N/A
POUT = +18 dBm (1)
Current Consumption
75
100
125
mA
POUT = +18 dBm (1)
Power Detector Voltage
810
970
1115
mV
POUT = +18 dBm (1)
Power Detector Sensitivity
60
78
95
Tx Spectrum Mask
COMMENTS
mV/dB 10 dBm < POUT < +20 dBm (1)
Note:
(1) Power as measured at Antenna port of AWL6254
Data Sheet - Rev 2.0
02/2008
5
AWL6254
Table 7: DC Electrical Specifications - Rx Path Continuous Wave
(TC = +25 °C, VCC = +3.6 V, VPA_EN = 0 V, VLNA_EN = +3.3 V , VBT_EN = 0 V)
PARAMETER
MIN
TYP
MAX
UNIT
Power Gain
10
13
16
dB
Gain Ripple
-
0.5
1.0
dB
P1dB
4
6
-
dBm
Current at P1dB
9
13
17
mA
Quiescent Current
9
13
17
mA
Noise Figure
-
2.3
3.9
dB
Includes RF switch and LNA
Return Loss, Rx RF
Port
-
-12
-8
dB
Switch in Rx position, Antenna port
terminated in 50  load
Return Loss, Antenna
Port, Switch in
Receive Mode
-
-7
-3
dB
Switch in Rx position, with 50  Rx port load
Isolation (Antenna
Port to Rx Port)
22
29
-
dB
Switch in Tx position, signal injected into
Antenna port and measured at Rx port, PA =
"ON"
S21 Performance
(@ 1.9 GHz)
-
-6
0
dB
Stability
-
-60
-50
dBc
6
COMMENTS
Across 100 MHz Band
Data Sheet - Rev 2.0
02/2008
AWL6254
Table 8: DC Electrical Specifications - Bluetooth Path Continuous Wave
(TC = +25 °C, VCC = +3.6 V, VPA_EN = 0 V, VLNA_EN = 0 V , VBT_EN = +3.3 V)
PARAMETER
MIN
TYP
MAX
UNIT
Insertion Loss
-
0.8
1.5
dB
Quiescent Current
-
60
125
A
20
25
-
dBm
Return Loss,
Bluetooth RF Port
-
-10
-8
dB
Switch in Bluetooth position, Antenna port
terminated in 50  load
Return Loss, Antenna
Port, Switch in
Bluetooth Mode
-
-10
-8
dB
Switch in Bluetooth position, Bluetooth port
terminated in 50  load
30
38
-
dB
Switch in Bluetooth position, signal injected
into Antenna port and measured at Rx port
P1dB
Isolation (Antenna
Port to Rx Port)
COMMENTS
2.4 GHz to 2.5 GHz
Table 9: Control Logic Truth Table
PA ENABLE
BLUETOOTH
ENABLE
LNA
ENABLE
PA STATUS
LNA
STATUS
Shutdown
0
0
0
Off
Off
Not
Connected
WLAN Rx
0
0
1
Off
On
WLAN Rx
Bluetooth
0
1
0
Off
Off
Bluetooth
WLAN Tx
1
0
0
On
Off
WLAN Tx
FEIC MODE
SWITCH
STATUS
Note:
1. Logic State 0 = 0 - 0.4 V; Logic State 1 = 2.0 - 4.2 V
Table 10: Control Voltages and Timing
(TC = +25 °C, VCC = +3.6 V, Other Voltages Defined by Logic Below)
PARAMETER
MIN
TYP
MAX
UNIT
LNA Enable Pin
Control Voltage
+2.0
-
-
+0.4
V
LNA = 1
LNA = 0
Bluetooth Enable Pin
Control Voltage
+2.0
-
-
+0.4
V
Switch = 1
Switch = 0
PA Enable Pin
Control Voltage
+2.0
-
-
+0.4
V
PA = 1
PA = 0
COMMENTS
Note:
1. Logic State 0 = 0 - 0.4 V; Logic State 1 = 2.0 - 4.2 V
Data Sheet - Rev 2.0
02/2008
7
AWL6254
PERFORMANCE DATA
32
320
34
340
30
300
32
320
28
280
30
300
26
260
Gain
24
28
Gain 2.50 GHz
200
18
Current 2.40 GHz
Current 2.45 GHz
Current 2.50 GHz
180
Gain -40C
Gain +25C
Gain +85C
200
18
Current -40C
Current +25C
Current +85C
180
160
14
140
12
120
10
100
8
80
8
6
60
6
40
4
20
2
0
0
Current
2
0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
220
20
16
4
16
160
14
140
12
120
10
100
80
60
20
0
0
20
1
2
3
4
5
6
7
32
320
30
300
28
220
Icc 4.2V
200
180
16
160
14
140
12
120
10
100
8
80
6
60
Current
4
20
0
0
2
3
4
5
6
7
8
9
10
11
16
17
18
19
12
13
14
15
16
17
18
19
5
4
3
2
1
0
20
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Output Power (dBm)
Figure 6: Tx Path EVM vs. Output Power Across
Temp (Freq = 2.45 GHz, VCC = +3.6 V)
802.11g 54 Mbps OFDM
Figure 7: Tx Path EVM vs. Output Power Across
Power
Supply Voltage (Freq = 2.45 GHz,
Figure 7: Tx Path EVM vs. Output Power Across Power Supply Voltage
= 2.45 GHz, T54
= +25Mbps
C
802.11g
OFDM
TA = +25oC)Freq
802.11g 54 Mbps OFDM
10
10
9
9
EVM -40C
8
7
EVM 3.3V
8
EVM +25C
EVM 3.6V
EVM 4.2V
7
EVM +85C
EVM (%)
6
EVM (%)
15
EVM 2.50 GHz
Output Power (dBm)
5
6
5
4
4
3
3
2
2
1
1
0
0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
0
1
Output Power (dBm)
8
14
6
40
2
1
13
EVM 2.45 GHz
7
EVM (%)
Gain 4.2V
18
0
12
EVM 2.40 GHz
8
Current (mA)
Gain (dB)
Icc 3.6V
11
9
240
Icc 3.3V
10
10
260
24
Gain 3.6V
9
Figure 5: Tx Path EVM vs. Output Power Across
o
5: Tx
EVM vs.
Across
FreqFigure
(VCC
=Path
+3.6
V,Output
TA =Power
+25
C)Frequency
802.11g
Vcc = +3.6 V, T = +25 C
54802.11g
Mbps
OFDM
54 Mbps OFDM
280
Gain
26
Gain 3.3V
8
Output Power (dBm)
Figure 4: Tx Path Gain and ICC vs. Output Power
Across
Voltage
(Freq
= 2.45
Figure 4:Power
Tx Path Gain Supply
and Icc vs. Output
Power Across
Power Supply
Voltage GHz,
Freq = 2.45 GHz, T = +25 C
TA = +25oC)802.11g
802.11g
54 Mbps OFDM
54 Mbps OFDM
20
40
Current
Output Power (dBm)
22
240
22
Gain (dB)
Gain 2.45 GHz
Current (mA)
Gain 2.40 GHz
260
Gain
24
220
20
280
26
240
22
Gain (dB)
Figure 3: Path Gain and ICC vs. Output Power
Across
Temp (Freq = 2.45 GHz, VCC = +3.6 V)
Figure 3: Tx Path Gain and Icc vs. Output Power Across Temperature
Frequency = 54
2.45 GHz,
Voltage OFDM
= +3.6 V
802.11g
Mbps
802.11g 54 Mbps OFDM
Current (mA)
Figure 2: Tx Path Gain and Icc vs. Output Power
= Output
+3.6Power
V, Across
TA =Frequency
+25oC)
Across
Figure 2: TxFreq
Path Gain(V
andCC
Icc vs.
Vcc = +3.6 V, T = +25 C
802.11g
5454 Mbps
802.11g
Mbps OFDMOFDM
Data Sheet - Rev 2.0
02/2008
2
3
4
5
6
7
8
9
10
11
12
Output Power (dBm)
13
14
15
16
17
18
19
20
AWL6254
Figure 8: Tx Path Detector Voltage vs. Output
o
Power
Across
Freq
A = +25
C, VFrequency
CC = +3.6 V)
Figure 8: Tx
Path Detector
Voltage (T
vs. Output
Power Across
Vcc = +3.6 V, T = +25 C
802.11g
54
Mbps
OFDM
802.11g 54 Mbps OFDM
Figure 9: Tx Path Detector Voltage vs. Output
Power
Across Temp (Freq = 2.45 GHz, VCC = +3.6 V)
Figure 9: Tx Path Detector Voltage vs. Output Power Across Temperature
Frequency
= 2.45 GHz,
= +3.6OFDM
V
802.11g
54Voltage
Mbps
802.11g 54 Mbps OFDM
1.2
1.2
1.1
1.0
Det. Volt. 2.40GHz
1.0
0.9
Det. Volt. 2.45GHz
0.9
0.8
Det. Volt. 2.50GHz
0.8
Detector Voltage (V)
0.7
0.6
0.5
0.4
Det. Volt. -40C
Det. Volt. +25C
Det. Volt.+85C
0.7
0.6
0.5
0.4
0.3
0.3
0.2
0.2
0.1
0.1
0.0
0.0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
0
20
1
2
3
4
5
6
7
8
Figure 10: Tx Path Detector Voltage vs. Output
Power Across Supply
Voltage (Freq = 2.45 GHz,
Voltage
= 2.45 GHz, T = +25 C
TA = +25OFreq
C)
802.11g 54 Mbps OFDM
802.11g 54 Mbps OFDM
10
11
12
13
14
15
16
17
18
1.1
32
320
30
300
28
1.0
0.8
Det. Volt. 4.2V
260
Gain
24
240
22
Gain (dB)
Det. Volt. 3.6V
280
26
Det. Volt. 3.3V
0.9
0.7
0.6
0.5
220
20
Gain 2.40 GHz
Gain 2.45 GHz
Gain 2.50 GHz
200
18
Current 2.40 GHz
Current 2.45 GHz
Current 2.50 GHz
180
16
160
14
140
12
120
10
0.4
100
8
80
6
0.3
60
Current
4
0.2
40
2
0.1
20
0
0
0
1
2
3
4
5
6
7
0.0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
19
Figure 11: Tx Path and ICC vs. Output Power
o
Across
Freq
(TIcc
A =
C ,V
CC Frequency
= +3.6 V)
Figure 11: Tx Path
Gain and
vs. +25
Output Power
Across
Vcc = +3.6 V, T = +25 C
802.11b Gaussian
(bT=0.5),
1 Mbps
802.11b Gaussian Filtering
Filtering (bT = 0.5),
1 Mbps
1.2
Detector Voltage (V)
9
Output Power (dBm)
Output Power (dBm)
Current (mA)
Detector Voltage (V)
1.1
8
9
10
11
12
13
14
15
16
17
18
19
20
Output Power (dBm)
20
Output Power (dBm)
Figure 13: Tx Path Gain and Icc vs. Output Power
Figure 12: Tx Path Gain and ICC vs. Output Power
Across
Supply Voltage (Freq=2.45 GHz, TA = +25oC)
Across Temp
(Freq
=
2.45
GHz,
V
CC
=
+3.6
V)
802.11b
Figure 13: Tx Path Gain and Icc vs. Output Power Across Power Supply Voltage
Figure 12: Tx Path Gain and Icc vs. Output Power Across Temperature
Frequency = 2.45 GHz, Voltage = +3.6 V
Freq = 2.45 GHz,
T = +25 C
802.11b802.11b
Gaussian
Filtering
(bT=0.5), 1 Mbps
Gaussian
Filtering (bT=0.5), 1 Mbps
802.11b Gaussian Filtering (bT = 0.5), 1 Mbps
Gaussian Filtering (bT = 0.5), 1 Mbps
32
320
30
30
300
28
28
280
26
26
260
24
240
22
Gain
Gain (dB)
24
22
220
20
200
18
Gain -40C
Gain +25C
Gain +85C
180
16
Current -40C
Current +25C
Current +85C
160
14
140
12
120
10
100
8
80
6
60
Current
4
2
0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
Gain (dB)
340
32
Current (mA)
34
320
300
280
Gain
260
240
220
20
Gain 3.3V
Gain 3.6V
Gain 4.2V
200
18
Icc 3.3V
Icc 3.6V
Icc 4.2V
180
16
160
14
140
12
120
10
100
8
80
6
40
4
20
2
0
0
60
Current
40
20
0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Output Power (dBm)
Output Power (dBm)
Data Sheet - Rev 2.0
02/2008
9
AWL6254
-22
-22
-26
-26
-30
-30
-34
-34
-38
ACPR Sidelobe (dBr)
ACPR Sidelobe (dBr)
Figure 14: Tx Path ACPR Sidelobes 1 & 2 vs.
Figure 15: Tx Path ACPR Sidelobes 1 & 2 vs. Output
Figure 14: Tx Path ACPR 1st & 2nd Sidelobes vs. Output Power Across
Output
Power Across
Freq (Vcc = +3.6 V, TA =
Power Across Temp Temperature
(Freq = 2.45 GHz, VCC = +3.6 V)
Frequency
Frequency = 2.45 GHz, Voltage = +3.6 V
Vcc = +3.6 V, T = +25 C
+25oC) 802.11b
Gaussian
Filtering (bT=0.5), 1 Mbps
802.11b Gaussian
Filtering
1 Mbps
802.11b Gaussian Filtering
(bT = 0.5), (bT=0.5),
1 Mbps
802.11b Gaussian Filtering (bT = 0.5), 1 Mbps
1st Sidelobe 2.40GHz
1st Sidelobe 2.45GHz
1st Sidelobe 2.50GHz
2nd Sidelobe 2.40GHz
2nd Sidelobe 2.45GHz
2nd Sidelobe 2.50GHz
-42
-46
-50
-38
1st Sidelobe +25C
-58
-58
-62
-62
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
2nd Sidelobe -40C
-50
-54
0
1st Sidelobe +85C
-46
-54
-66
1st Sidelobe -40C
-42
2nd Sidelobe +25C
2nd Sidelobe +85C
-66
0
1
2
3
4
5
6
7
8
Figure 16: Tx Path ACPR Sidelobes 1 & 2 vs. Output
Power Across Supply Voltage
(Freq = 2.45 GHz, TA =
Voltage
Freq = 2.45 GHz, T = +25 C
Gaussian
Filtering
(bT=0.5), 1 Mbps
+25oC) 802.11b802.11b
Gaussian Filtering (bT = 0.5), 1 Mbps
1.2
-26
1.1
Detector Voltage (V)
ACPR Sidelobe (dBr)
-34
-38
1st Sidelobe 3.30V
1st Sidelobe 3.60V
1st Sidelobe 4.20V
2nd Sidelobe 3.30V
2nd Sidelobe 3.60V
2nd Sidelobe 4.20V
-54
14
15
16
17
18
19
Det. Volt. 2.50GHz
0.8
0.7
0.6
0.5
0.4
0.2
-62
0.1
-66
0.0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
0
1
2
3
4
5
6
7
Output Power (dBm)
8
9
10
11
12
13
14
15
16
17
18
19
20
Output Power (dBm)
Figure 18: Tx Path Detector Voltage vs. Output
= +3.6 V)
Across
(Freq
=vs.2.45
VCC
Figure 18: Temp
Tx Path Detector
Voltage
Output GHz,
Power Across
Temperature
Frequency = 2.45 GHz, Voltage = +3.6 V
802.11b Gaussian
Filtering (bT=0.5), 1 Mbps
802.11b Gaussian Filtering (bT = 0.5), 1 Mbps
Figure 19: Tx Path Detector Voltage vs. Output
Across Supply Voltage
Voltage (Freq = 2.45 GHz, TA=
Freq = 2.45 GHz, T = +25 C
+25oC) 802.11b
Gaussian
Filtering
(bT=0.5), 1 Mbps
802.11b
Gaussian Filtering
(bT = 0.5), 1 Mbps
1.2
1.2
1.1
1.1
Det. Volt. -40C
1.0
Det. Volt. +25C
0.9
Det. Volt.+85C
0.8
Detector Voltage (V)
Detector Voltage (V)
13
0.3
-58
0.7
0.6
0.5
0.4
0.3
1.0
Det. Volt. 3.3V
0.9
Det. Volt. 3.6V
0.8
Det. Volt. 4.2V
0.7
0.6
0.5
0.4
0.3
0.2
0.2
0.1
0.1
0.0
0
1
2
3
4
5
6
7
8
9
10
11
Output Power (dBm)
10
12
Det. Volt. 2.45GHz
0.9
-50
11
Det. Volt. 2.40GHz
1.0
-30
-46
10
Figure 17: Tx Path Detector Voltage vs. Output
o
Across
(VCC
= vs.
+3.6
TAAcross
= +25
C)
Figure 17: Tx Freq
Path Detector
Voltage
OutputV,
Power
Frequency
Vcc = +3.6 V, T = +25 C
802.11b Gaussian
Filtering
(bT=0.5),
1
Mbps
802.11b Gaussian Filtering (bT = 0.5), 1 Mbps
-22
-42
9
Output Power (dBm)
Output Power (dBm)
12
13
14
15
16
17
18
19
0.0
0
1
2
3
4
5
6
7
8
9
10
11
12
Output Power (dBm)
Data Sheet - Rev 2.0
02/2008
13
14
15
16
17
18
19
20
AWL6254
Figure 20: Tx Path
S-Parameters S21 Response
Figure 20: Tx Path S-Parameters
S21 V,
Response
(VCC = +3.6
TA = +25oC)
Vcc = +3.6 V, T = +25 C
35
0
30
-2
25
-4
20
-6
15
-8
10
-10
5
-12
S11/S22 (dB)
S21 Mag (dB)
0
S21 (dB)
Figure 21: Tx Figure
Path
S-Parameters S11 & S22
21: Tx Path S-Parameters
S11 & S22 Response
Response (VVcc
CC = +3.6 V, TA = +25oC)
= +3.6 V, T = +25 C
-5
-10
-15
-20
-14
-16
S11 Mag (dB)
-18
S22 Mag (dB)
-20
-25
-22
-30
-24
-35
-26
-40
-28
-45
-30
-50
-32
-55
-34
-60
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
0.0
15
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
Frequency (GHz)
Frequency (GHz)
Figure 23: Receive Path Output P1dB Across
Figure
P1dBV, TA = +25oC)
Freq (VCC = +3.6
V,23:VReceive
LNA_Path
ENOutput
=+3.3
Figure 22: Receive Path Noise Figure Across
Figure 22: Receive Path Noise Figure
_EN
=+3.3
V, TA = +25oC)
Supply Voltage
(V
=+3.3
V, T=+25
C
V LNA
LNA_EN
2.5
Vcc=+3.6 V, VLNA_EN=+3.3 V, T=+25 C
15
2.4GHz
2.45
2.45GHz
2.50GHz
+3.3V Noise Figure
2.4
14
+3.6V Noise Figure
OP1dB Points
2.35
13
Gain (dB)
Noise Figure (dB)
+4.2V Noise Figure
2.3
2.25
12
2.2
11
2.15
2.1
2.4
2.41
2.42
2.43
2.44
2.45
2.46
2.47
2.48
2.49
2.5
10
-11
Frequency (GHz)
-9
-8
-7
-6
-5
-4
-3
-2
-1
0
1
2
3
4
5
6
7
8
Output Power (dBm)
Figure 24: Receive Path Output P1dB Across
Supply Voltage (Freq =2.45 GHz, VLNA_EN=+3.3 V,
Figure 24: Receive Path Output P1dB
o
=+3.3 V, T=+25 C
Frequency =T
2.45
GHz,
V
A =
+25
C)
LNA_EN
15
-10
Figure 25: Rx Path
S-Parameters S21 Response
Figure 25: Rx Path S-Parameters
S21 V,
Response
(VCC = +3.6
TA = +25oC)
Vcc = +3.6 V, T = +25 C
20
15
+3.3 V
10
+3.6 V
14
5
+4.2 V
0
OP1dB Points
-5
-10
Gain (dB)
S21 (dB)
13
-15
-20
-25
-30
12
-35
S21 Mag (dB)
-40
-45
11
-50
-55
-60
0
10
-11
-10
-9
-8
-7
-6
-5
-4
-3
-2
-1
0
1
2
3
4
5
6
7
1
8
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Frequency (GHz)
Output Power (dBm)
Data Sheet - Rev 2.0
02/2008
11
AWL6254
Figure 26: Rx Path S-Parameters S21 & S22
26: Rx Path S-Parameters
ResponseFigure
(VS11
CC&=
+3.6 V, TA = +25oC)
S22 Response
Figure 27: Bluetooth S-Parameters S21
Figure 27: Bluetooth S-Parameters
Response (VCCS21=Response
+3.6 V, TA = +25oC)
Vcc = +3.6 V, T = +25 C
4
2.5
0
2.0
-2
1.5
-4
1.0
-6
S21 Mag (dB)
0.5
-8
0.0
-10
S21 (dB)
S11/S22 (dB)
Vcc = +3.6 V, T = +25 C
3.0
2
-12
-14
-16
S11 Mag (dB)
-18
-1.0
-1.5
-2.0
S22 Mag (dB)
-20
-0.5
-2.5
-22
-3.0
-24
-3.5
-26
-28
-4.0
-30
-4.5
-32
-5.0
0.0
-34
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
0.5
5.0
Frequency (GHz)
Figure 28:Bluetooth
S-Parameters
S11 & S22
Figure 28: Bluetooth
S-Parameters
S11 & S22 Response
CC
= +3.6 V, TA = +25oC)
Response (VVcc
= +3.6 V, T = +25 C
0
-1
-2
-3
S11 Mag (dB)
-4
S22 Mag (dB)
-5
S11/S22 (dB)
-6
-7
-8
-9
-10
-11
-12
-13
-14
-15
-16
-17
-18
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
Frequency (GHz)
12
Data Sheet - Rev 2.0
02/2008
1.0
1.5
2.0
2.5
3.0
3.5
Frequency (GHz)
4.0
4.5
5.0
5.5
6.0
AWL6254
APPLICATION INFORMATION
CONNECT TO
ANTENNA
13
DET_OUT
14
GND
VCC
VCC
NC
GND
12
11
C1
0.1 F
16 V
20 %
10
9
8
GND
PA_IN
PA_EN
GND
7
4
RX_RF
BT_EN
3
AWL6254
5
CONNECT
TO RX
GND
6
2
BLUETOOTH
LNA_EN
1
ANT
GND
16
CONNECT TO
BLUETOOTH
15
DETECTOR
OUTPUT
3-BIT
CONTROL
**NOTES**
RF traces should be 18 mils wide
with 20 mils of clearance.
DC traces should be 8 mils wide
with 8 mils of clearance.
CONNECT
TO TX
Figure 29: Application Circuit
Data Sheet - Rev 2.0
02/2008
13
AWL6254
PACKAGE OUTLINE
C
4
A
D
I
G
Pin 1
16
1
H
B
Index
Area
F
E
Top
View
Side
View
Bottom
View
MILLIMETERS
DIMENSION
A
B
C
D
E
F
G
H
I
MIN
2.90
2.90
0.50
0.00
1.55
TYP MAX
3.00 3.10
3.00 3.10
0.55 0.60
0.02 0.05
1.70 1.85
1.50 BSC.
0.18 0.25 0.30
0.50 BSC.
0.20 0.30 0.40
1. All dimensions are in millimeters, angles in degrees.
2. The terminal #1 identifier and pad numbering convention
shall
conform to JESD 95-1 SPP-012
.
3. Lead coplanarity: 0.05 max.
4. Dimension applies to metalized pad and is measured between
0.25 and 0.30 MM from pad tip.
Figure 30: S35 Package Outline - 16 Pin 3 mm x 3 mm x 0.55 mm ULPCC
Figure 31: Branding Specification
14
Data Sheet - Rev 2.0
02/2008
AWL6254
Figure 32: Recommended PCB Layout (all units are in mils)
Data Sheet - Rev 2.0
02/2008
15
AWL6254
ORDERING INFORMATION
ORDER NUMBER
TEMPERATURE
RANGE
PACKAGE
DESCRIPTION
COMPONENT PACKAGING
AWL6254RS35P8
-40 °C to +85 °C
RoHS-compliant 16 Pin
3 mm x 3 mm x 0.55 mm
Surface Mount IC
2,500 piece Tape and Reel
EVA6254RS35
-40 °C to +85 °C
RoHS-compliant 16 Pin
3 mm x 3 mm x 0.55 mm
Surface Mount IC
1 piece 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
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.
16
Data Sheet - Rev 2.0
02/2008
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