01/2004
AWT6201
GSM850/GSM900/DCS/PCS
Quad Band PowerPlexer
TM
with Integrated Power Control
Advanced Product Information - Rev 0.7
FEATURES
ANADIGICS developed technologies
(InGaP HBT/pHEMT/IPP)
Proven high volume low cost laminate/
overmold technology
Integrated Power Control (CMOS)
Integrated PA/SW/LPF
High Gain InGaP HBT PAs
Low loss receive paths
High isolation switch (TX to RX, RX on/off)
Fully compliant GSM harmonic performance
ESD protected antenna port (12kV)
Small footprint (10.5mm x 11.0mm x 1.55mm)
GPRS capable (class 12)
Power control range >50dB
APPLICATIONS
Quad band handsets and PDAs
Configurable for Tri Band/UMTS handsets
PRODUCT DESCRIPTION
The AWT6201 is the second generation GSM
PowerPlexer
TM
. It has been developed to minimize
time to market for GSM handset/PDA designers.
The module requires only the most basic RF
decoupling, all the RF ports are 50
,
and interfaces
directly with the baseband power control DAC. The
solution includes integrated power control, two dual
band power amplifiers to support GSM850/900/DCS/
PCS, harmonic filtering and RX/TX switching.
The power amplifiers support class 12 GPRS, 4 TX
slots at 50% duty cycle, using three stage InGaP HBT
PAs. The pHEMT switches support 4 RX ports to in-
terface with external RX SAW filters and the filtering
is achieved using integrated passives technology.
The integrated power control scheme reduces the
number of external components associated with a
power control function, and facilitates fast and easy
production calibration. The power control range is
typically 55dB.
Figure 1: Functional Block Diagram
Logic/P ower
C ontroller
VR AMP
C NTL_1
C NTL_2
C NTL_3
VR E G
DC S /P C S _IN
G S M_IN
G S M850/900
DC S /P C S
G S M850_R X
G S M900_R X
ANT
DC S _R X
P C S _R X
VB ATT
2
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
AWT6201
ELECTRICAL CHARACTERISTICS
Table 1: Absolute Minimum and Maximum Ratings
R
E
T
E
M
A
R
A
P
N
I
M
X
A
M
T
I
N
U
(
e
g
a
t
l
o
V
y
l
p
p
u
S
V
C
C
)
7
+
V
(
r
e
w
o
P
t
u
p
n
I
F
R
N
I
)
1
1
+
m
B
d
V
(
e
g
a
t
l
o
V
l
o
r
t
n
o
C
r
e
w
o
P
P
M
A
R
)
8
.
1
V
(
e
r
u
t
a
r
e
p
m
e
T
e
g
a
r
o
t
S
T
G
T
S
)
5
5
-
0
5
1
C
e
r
u
t
a
r
e
p
m
e
T
w
o
l
f
e
R
m
u
m
i
x
a
M
0
4
2
C
Exceeding the absolute maximum ratings can cause permanent
damage to the device. These are absolute stress ratings only.
Functional operation of the device is not implied at these or any other conditions in
excess of those given in the operations sections of this data sheet. Exposure to
maximum ratings for extended periods can adversely affect device reliability.
R
E
T
E
M
A
R
A
P
D
O
H
T
E
M
G
N
I
T
A
R
T
I
N
U
)
t
r
o
P
a
n
n
e
t
n
A
(
e
g
a
t
l
o
V
d
l
o
h
s
e
r
h
T
D
S
E
M
B
H
2
1
V
k
)
s
t
u
p
n
I
l
o
r
t
n
o
C
(
e
g
a
t
l
o
V
d
l
o
h
s
e
r
h
T
D
S
E
M
B
H
1
V
k
)
s
t
u
p
n
I
F
R
(
e
g
a
t
l
o
V
d
l
o
h
s
e
r
h
T
D
S
E
M
B
H
0
5
2
V
)
s
t
r
o
P
X
R
(
e
g
a
t
l
o
V
d
l
o
h
s
e
r
h
T
D
S
E
M
B
H
0
0
3
V
Table 2: ESD Ratings
Although protection circuitry has been designed into this device, proper
precautions should be taken to avoid exposure to electrostatic discharge (ESD)
during handling and mounting. Human body model HBM employed is resistance =
1500
, capacitance = 100pF.
Table 3: Logic Level Definitions
Test Conditions: V
CC
= 3.0 to 4.8V, T
C
= 25
3C
L
A
N
G
I
S
N
I
M
P
Y
T
X
A
M
T
I
N
U
h
g
i
H
c
i
g
o
L
7
.
1
3
V
w
o
L
c
i
g
o
L
0
5
.
0
V
t
n
e
r
r
u
c
s
a
i
b
t
u
p
n
I
0
1
A
3
AWT6201
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
Table 5: Receiver Specification
Test Conditions: Mode = RX (see control table), V
BATT
= 3.5V, Z
IN
= Z
OUT
= 50
,
T
C
= 25
3C
Table 4: Operating Conditions and Supply Currents
Parametric performance is guaranteed under specified operating conditions.
R
E
T
E
M
A
R
A
P
N
I
M
P
Y
T
X
A
M
T
I
N
U
S
T
N
E
M
M
O
C
(
e
g
a
tl
o
V
y
l
p
p
u
S
V
T
T
A
B
)
0
.
3
5
.
3
8
.
4
V
V
(
e
g
a
tl
o
V
d
e
t
a
l
u
g
e
R
G
E
R
)
7
.
2
5
8
.
2
0
.
3
V
I
(
t
n
e
r
r
u
C
d
e
t
a
l
u
g
e
R
)
G
E
R
7
0
1
A
m
d
e
l
b
a
n
e
e
d
o
m
X
T
I
(
t
n
e
r
r
u
C
d
e
t
a
l
u
g
e
R
)
G
E
R
0
1
0
3
A
d
e
l
b
a
n
e
e
d
o
m
X
R
t
n
e
r
r
u
C
n
w
o
D
r
e
w
o
P
(
V
T
T
A
B
)
V
8
.
4
=
0
0
1
A
V
(
t
n
e
r
r
u
C
X
R
T
T
A
B
)
V
8
.
4
=
0
0
3
A
V
(
e
g
a
tl
o
V
l
o
r
t
n
o
C
P
M
A
R
)
2
.
0
6
.
1
V
P
m
u
m
i
n
i
m
r
o
f
e
g
a
tl
o
V
l
o
t
n
o
C
T
U
O
V
(
N
I
M
_
P
M
A
R
)
2
.
0
5
2
.
0
V
V
P
M
A
R
e
c
n
a
t
i
c
a
p
a
c
t
u
p
n
i
5
1
0
2
F
p
y
c
n
e
i
c
if
f
e
e
l
u
d
o
m
0
0
9
/
0
5
8
M
S
G
V
(
P
M
A
R
V
,
V
6
.
1
=
T
T
A
B
P
,
V
5
.
3
=
N
I
)
m
B
d
2
=
0
4
%
)
r
e
tl
i
F
+
h
c
t
i
w
S
+
A
P
(
y
c
n
e
i
c
if
f
e
e
l
u
d
o
m
S
C
P
/
S
C
D
V
(
P
M
A
R
V
,
V
6
.
1
=
T
T
A
B
P
,
V
5
.
3
=
N
I
)
m
B
d
2
=
4
3
%
)
r
e
tl
i
F
+
h
c
t
i
w
S
+
A
P
(
T
(
e
r
u
t
a
r
e
p
m
e
T
e
s
a
C
C
)
0
2
-
5
8
C
e
l
c
y
C
y
t
u
D
0
5
%
R
E
T
E
M
A
R
A
P
N
I
M
P
Y
T
X
A
M
T
I
N
U
s
t
n
e
m
m
o
C
0
0
9
/
0
5
8
M
S
G
s
s
o
l
n
o
it
r
e
s
n
I
3
.
1
5
.
1
B
d
F
N
I
V
,
z
H
M
0
6
9
o
t
9
6
8
=
T
T
A
B
o
t
0
.
3
=
T
,
V
8
.
4
C
C
5
8
+
o
t
0
2
-
=
S
C
P
/
S
C
D
s
s
o
l
n
o
it
r
e
s
n
I
2
.
1
5
.
1
B
d
F
N
I
V
,
z
H
M
0
9
9
1
o
t
5
0
8
1
=
T
T
A
B
0
.
3
=
T
,
V
8
.
4
o
t
C
C
5
8
+
o
t
0
2
-
=
s
s
o
l
n
r
u
t
e
R
r
e
v
i
e
c
e
R
5
1
B
d
F
N
I
z
H
M
0
6
9
o
t
9
6
8
=
5
1
B
d
F
N
I
z
H
M
0
9
9
1
o
t
5
0
8
1
=
n
o
it
a
l
o
s
I
r
e
v
i
e
c
e
R
F
F
O
_
X
R
o
t
T
N
A
5
2
B
d
F
N
I
z
H
M
0
6
9
o
t
9
6
8
=
5
2
B
d
F
N
I
z
H
M
0
9
9
1
o
t
5
0
8
1
=
s
t
r
o
p
X
R
t
a
r
e
w
o
P
X
T
6
8
m
B
d
F
N
I
P
,
z
H
M
5
1
9
=
T
U
O
m
B
d
2
.
3
3
=
3
5
m
B
d
F
N
I
P
,
z
H
M
0
1
9
1
=
T
U
O
m
B
d
4
.
0
3
=
4
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
AWT6201
R
E
T
E
M
A
R
A
P
N
I
M
P
Y
T
X
A
M
S
T
I
N
U
S
T
N
E
M
M
O
C
F
(
y
c
n
e
u
q
e
r
F
N
I
)
4
2
8
0
8
8
9
4
8
5
1
9
z
H
M
z
H
M
P
(
r
e
w
o
P
t
u
p
n
I
N
I
)
0
2
4
m
B
d
P
(
r
e
w
o
P
t
u
p
t
u
O
T
U
O
)
2
.
3
3
8
.
3
3
m
B
d
V
P
M
A
R
V
6
.
1
=
r
e
w
o
P
t
u
p
t
u
O
d
e
d
a
r
g
e
D
7
.
0
3
7
.
1
3
m
B
d
V
T
T
A
B
V
,
V
0
.
3
=
P
M
A
R
,
V
6
.
1
=
P
N
I
T
,
m
B
d
0
=
C
C
5
8
=
)
1
(
n
o
i
t
a
l
o
s
I
d
r
a
w
r
o
F
5
5
-
1
5
-
m
B
d
P
N
I
V
,
m
B
d
4
=
T
T
A
B
V
8
.
4
o
t
3
=
r
o
N
E
_
X
R
_
0
0
9
M
S
G
=
e
d
o
M
l
o
r
t
n
o
c
e
e
s
,
N
E
_
X
R
_
0
5
8
M
S
G
e
l
b
a
t
)
2
(
n
o
i
t
a
l
o
s
I
d
r
a
w
r
o
F
5
2
-
0
1
-
m
B
d
V
P
M
A
R
P
,
V
2
.
0
=
N
I
,
m
B
d
4
=
V
T
T
A
B
V
8
.
4
o
t
3
=
e
e
s
,
N
E
_
X
T
_
M
S
G
=
e
d
o
M
e
l
b
a
t
l
o
r
t
n
o
c
c
i
n
o
m
r
a
H
2
d
n
f
3
O
z
H
G
5
7
.
2
1
o
t
8
3
-
7
3
-
4
3
-
3
3
-
m
B
d
m
B
d
V
T
T
A
B
,
V
8
.
4
o
t
3
=
P
T
U
O
m
B
d
2
.
3
3
o
t
5
=
:
y
t
il
i
b
a
t
S
z
H
G
1
<
z
H
G
1
>
6
3
-
0
3
-
m
B
d
m
B
d
s
e
l
g
n
a
ll
A
1
:
0
1
=
R
W
S
V
V
T
T
A
B
,
V
8
.
4
o
t
3
=
P
T
U
O
,
m
B
d
2
.
3
3
o
t
5
=
T
C
C
5
8
o
t
0
2
-
=
s
s
e
n
d
e
g
g
u
R
1
:
0
1
R
W
S
V
P
N
I
,
m
B
d
4
=
V
T
T
A
B
,
V
8
.
4
=
P
T
U
O
,
m
B
d
2
.
3
3
o
t
5
=
d
a
o
l
f
o
s
e
s
a
h
p
ll
A
e
s
i
o
N
d
n
a
B
X
R
8
8
-
4
8
-
m
B
d
F
N
I
z
H
M
9
4
8
=
F
T
U
O
z
H
M
4
9
8
o
t
9
6
8
=
,
z
H
k
0
0
1
=
W
B
V
=
W
B
R
P
T
U
O
m
B
d
2
.
3
3
o
t
5
=
1
8
-
8
7
-
m
B
d
F
N
I
z
H
M
5
1
9
=
F
T
U
O
z
H
M
5
3
9
o
t
5
2
9
=
,
z
H
k
0
0
1
=
W
B
V
=
W
B
R
P
T
U
O
m
B
d
2
.
3
3
o
t
5
=
9
8
-
6
8
-
m
B
d
F
N
I
z
H
M
5
1
9
=
F
T
U
O
z
H
M
0
6
9
o
t
5
3
9
=
,
z
H
k
0
0
1
=
W
B
V
=
W
B
R
P
T
U
O
m
B
d
2
.
3
3
o
t
5
=
R
W
S
V
t
u
p
n
I
1
:
5
.
2
s
l
e
v
e
l
r
e
w
o
p
ll
A
Table 6: GSM850/900 Electrical Specification
Test Conditions: Mode = GSM_TX_EN, V
BATT
= 3.5V, Z
IN
= Z
OUT
= 50
, T
C
= 25
3C, P
IN
= 2dBm,
P
WIDTH
= 1154
s, Duty Cycle = 25%
5
AWT6201
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
Table 7: DCS/PCS Electrical Specification
Test Conditions: Mode = DCS_PCS_TX_EN, V
BATT
= 3.5V, Z
IN
= Z
OUT
= 50
, T
C
= 25
3C, P
IN
= 2dBm,
P
WIDTH
= 1154
s, Duty Cycle = 25%
R
E
T
E
M
A
R
A
P
N
I
M
P
Y
T
X
A
M
S
T
I
N
U
S
T
N
E
M
M
O
C
F
(
y
c
n
e
u
q
e
r
F
N
I
)
0
1
7
1
0
5
8
1
5
8
7
1
0
1
9
1
z
H
M
z
H
M
(
r
e
w
o
P
t
u
p
n
I
P
N
I
)
0
2
4
m
B
d
(
S
C
P
/
S
C
D
r
e
w
o
P
t
u
p
t
u
O
P
T
U
O
)
5
.
0
3
5
.
1
3
m
B
d
V
P
M
A
R
V
6
.
1
=
r
e
w
o
P
t
u
p
t
u
O
d
e
d
a
r
g
e
D
7
.
7
2
7
.
8
2
m
B
d
V
T
T
A
B
V
,
V
0
.
3
=
P
M
A
R
,
V
6
.
1
=
P
N
I
T
,
m
B
d
0
=
C
C
5
8
=
n
o
it
a
l
o
s
I
d
r
a
w
r
o
F
5
5
-
1
5
-
m
B
d
P
N
I
V
,
m
B
d
4
=
T
T
A
B
V
8
.
4
o
t
3
=
r
o
N
E
_
X
R
_
S
C
D
=
e
d
o
M
l
o
r
t
n
o
c
e
e
s
,
N
E
_
X
R
_
S
C
P
e
l
b
a
t
)
2
(
n
o
it
a
l
o
s
I
d
r
a
w
r
o
F
5
2
-
0
1
-
m
B
d
V
P
M
A
R
=
P
,
V
2
.
0
N
I
,
m
B
d
4
=
V
T
T
A
B
V
8
.
4
o
t
3
=
,
N
E
_
X
T
_
S
C
P
_
S
C
D
=
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d
o
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e
l
b
a
t
l
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r
t
n
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c
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s
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r
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H
z
H
G
5
7
.
2
1
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t
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f
2
7
3
-
3
3
-
m
B
d
V
T
T
A
B
,
V
8
.
4
o
t
3
=
P
T
U
O
m
B
d
4
.
0
3
o
t
0
=
:
y
t
il
i
b
a
t
S
z
H
G
1
<
z
H
G
1
>
6
3
-
0
3
-
m
B
d
m
B
d
s
e
l
g
n
a
ll
A
1
:
0
1
=
R
W
S
V
V
T
T
A
B
,
V
8
.
4
o
t
3
=
P
T
U
O
,
m
B
d
4
.
0
3
o
t
0
=
C
5
8
o
t
0
2
-
=
C
T
:
s
s
e
n
d
e
g
g
u
R
1
:
0
1
R
W
S
V
P
N
I
V
,
m
B
d
2
=
T
T
A
B
,
V
8
.
4
=
P
T
U
O
,
m
B
d
4
.
0
3
o
t
0
=
d
a
o
l
f
o
s
e
s
a
h
p
ll
A
e
s
i
o
N
d
n
a
B
X
R
8
8
-
4
8
-
m
B
d
F
N
I
,
z
H
M
0
1
9
1
r
o
5
8
7
1
=
F
T
U
O
r
o
,
z
H
M
0
8
8
1
o
t
5
0
8
1
=
z
H
M
0
9
9
1
o
t
0
3
9
1
P
T
U
O
,
m
B
d
4
.
0
3
o
t
0
=
z
H
k
0
0
1
=
W
B
V
=
W
B
R
R
W
S
V
t
u
p
n
I
1
:
5
.
2
s
l
e
v
e
l
r
e
w
o
p
ll
A
6
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
AWT6201
Table 8: Logic Control Table
Table 9: Control Timing
E
D
O
M
1
L
T
N
C
2
L
T
N
C
3
L
T
N
C
n
o
i
t
p
i
r
c
s
e
D
N
W
O
D
T
U
H
S
0
0
0
s
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e
l
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d
o
m
e
r
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w
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t
a
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t
n
e
r
r
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c
w
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L
.
d
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l
b
a
s
i
d
N
E
_
X
R
_
0
0
9
M
S
G
N
E
_
X
R
_
S
C
P
0
0
1
h
t
a
p
s
s
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a
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b
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n
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e
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m
s
i
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T
X
R
_
0
0
9
M
S
G
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t
a
n
n
e
t
n
a
e
h
t
m
o
r
f
X
R
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C
P
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t
a
n
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m
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8
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G
N
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D
0
1
0
s
s
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w
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d
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n
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s
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A
P
0
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9
/
0
5
8
M
S
G
N
E
_
X
T
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S
C
P
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S
C
D
1
1
0
d
n
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M
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A
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M
P
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T
X
A
M
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T
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U
S
T
N
E
M
M
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d
o
M
X
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t
X
R
m
o
r
f
y
a
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d
g
n
i
h
c
ti
w
S
2
ms
e
d
o
M
X
R
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t
X
T
m
o
r
f
y
a
l
e
d
g
n
i
h
c
ti
w
S
2
ms
P
OUT
e
m
it
e
s
ir
2
ms
o
t
a
n
n
e
t
n
a
t
a
r
e
w
o
p
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f
e
m
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T
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t
m
B
d
0
1
-
m
o
r
f
e
s
ir
.r
e
w
o
p
t
u
p
t
u
o
m
u
m
i
x
a
m
P
OUT
e
m
it
ll
a
f
2
ms
o
t
a
n
n
e
t
n
a
t
a
r
e
w
o
p
r
o
f
e
m
i
T
t
u
p
t
u
o
m
u
m
i
x
a
m
m
o
r
f
ll
a
f
.
m
B
d
0
1
-
o
t
r
e
w
o
p
7
AWT6201
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
N
I
P
E
M
A
N
N
O
I
T
C
N
U
F
N
I
P
E
M
A
N
N
O
I
T
C
N
U
F
1
N
I
_
S
C
P
/
S
C
D
t
u
p
n
I
F
R
S
C
P
/
S
C
D
1
2
D
N
G
d
n
u
o
r
G
2
D
N
G
d
n
u
o
r
G
2
2
X
R
_
0
0
9
M
S
G
t
r
o
p
e
v
i
e
c
e
r
0
0
9
M
S
G
3
1
L
T
N
C
t
u
p
n
i
c
i
g
o
l
l
o
r
t
n
o
C
3
2
D
N
G
d
n
u
o
r
G
4
2
L
T
N
C
t
u
p
n
i
c
i
g
o
l
l
o
r
t
n
o
C
4
2
D
N
G
d
n
u
o
r
G
5
3
L
T
N
C
t
u
p
n
i
c
i
g
o
l
l
o
r
t
n
o
C
5
2
D
N
G
d
n
u
o
r
G
6
T
T
A
B
V
n
o
i
t
c
e
n
n
o
c
y
l
p
p
u
s
y
r
e
t
t
a
B
6
2
D
N
G
d
n
u
o
r
G
7
G
E
R
V
n
o
i
t
c
e
n
n
o
c
y
l
p
p
u
s
d
e
t
a
l
u
g
e
R
7
2
T
N
A
t
r
o
p
a
n
n
e
t
n
A
8
P
M
A
R
V
l
o
r
t
n
o
c
r
e
w
o
p
r
o
f
t
u
p
n
i
g
o
l
a
n
A
8
2
D
N
G
d
n
u
o
r
G
9
D
N
G
d
n
u
o
r
G
9
2
D
N
G
d
n
u
o
r
G
0
1
D
N
G
d
n
u
o
r
G
0
3
X
R
_
S
C
P
t
r
o
p
e
v
i
e
c
e
r
S
C
P
1
1
N
I
_
M
S
G
t
u
p
n
I
F
R
0
0
9
/
0
5
8
M
S
G
1
3
D
N
G
d
n
u
o
r
G
2
1
D
N
G
d
n
u
o
r
G
2
3
X
R
_
S
C
D
t
r
o
p
e
v
i
e
c
e
r
S
C
D
3
1
D
N
G
d
n
u
o
r
G
3
3
D
N
G
d
n
u
o
r
G
4
1
D
N
G
d
n
u
o
r
G
4
3
D
N
G
d
n
u
o
r
G
5
1
D
N
G
d
n
u
o
r
G
5
3
D
N
G
d
n
u
o
r
G
6
1
D
N
G
d
n
u
o
r
G
6
3
D
N
G
d
n
u
o
r
G
7
1
D
N
G
d
n
u
o
r
G
7
3
D
N
G
d
n
u
o
r
G
8
1
D
N
G
d
n
u
o
r
G
8
3
D
N
G
d
n
u
o
r
G
9
1
D
N
G
d
n
u
o
r
G
9
3
D
N
G
d
n
u
o
r
G
0
2
X
R
_
0
5
8
M
S
G
t
r
o
p
e
v
i
e
c
e
r
0
5
8
M
S
G
0
4
D
N
G
d
n
u
o
r
G
Figure 2: Pinout (X-Ray View)
Table 10: Pinout Description
Note: unassigned pins
are ground pads
4
1
2
3
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
8
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
AWT6201
PACKAGE OUTLINE DRAWING
9
AWT6201
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
PACKAGE OUTLINE DRAWING
7
1
1
1
1
9
1
10
4
4
3
3
1
1
2
2
1
1
8
1
1
2
2
6
5
2
2
10
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
AWT6201
NOTES
11
AWT6201
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
NOTES
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.
IMPORTANT NOTICE
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: Mktg@anadigics.com
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.
ADVANCED PRODUCT INFORMATION - Rev 0.7
01/2004
12
AWT6201
R
E
B
M
U
N
R
E
D
R
O
E
R
U
T
A
R
E
P
M
E
T
E
G
N
A
R
E
G
A
K
C
A
P
N
O
I
T
P
I
R
C
S
E
D
G
N
I
G
A
K
C
A
P
T
N
E
N
O
P
M
O
C
1
0
2
6
T
W
A
ORDERING INFORMATION
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