TRIQUINT TQP2420B

TQP2420B
PRELIMINARY DATASHEET
WLAN PRODUCTS
Vcc1
N/C
N/C
12
11
10
RF In
1
9
RF Out / Vc2
N/C
2
8
RF Out / Vc2
Vref
Features
Bias Controller
3
2.4GHz ISM Band InGaP
HBT Power Amplifier
7
4
5
6
Vcc
N/C
GND
High-Efficiency, 2.4 GHz ISM Band
PA for 802.11b WLAN Systems
Vdet
Integrated Output Power Detector
Leadless 3.0 x 3.0 mm SMT
Package
Product Description:
The TQP2420B is a linear, high performance, medium-power amplifier designed
for 802.11b WLAN and other applications in the 2.4GHz ISM band. The device
exhibits
industry-leading
Package
Pin-out: power added efficiency under 802.11b CCK modulation
while meeting ACP requirements. The power amplifier is manufactured using
TriQuint’s InGaP HBT process and is packaged in an industry standard 3mm x
3mm VQFN-12 package.
Temperature Compensated Bias
Network with Bias Shutdown Mode
+23 dBm Linear Output Power
Applications
Selected Electrical Specifications:
802.11b WLAN
Parameter
min
typ
max
units
2.4GHz ISM Band Applications
Frequency Range
2400
-
2500
MHz
Cordless Phones
22
23
dBm
Broadband Systems
28
28.8
Linear Output Power (guaranteed
ACP under 802.11b modulation)
Power Gain (Pin = -6 dBm)
31
dB
Power Added Efficiency
35
%
802.11b ACP; +22.0 dBm Output;
-35
dBc
-56
dBc
1st
Side Lobe
802.11b ACP; +22.0 dBm Output;
2nd Side Lobe
Test Conditions: Ta=25°C; Vref= 2.95V; Vcc=Vc1=Vc2=3.3V; 802.11b modulation
For further information please visit www.triquint.com
Datasheet rev 1.1; August 26, 2003.
.
1
TQP2420B
Preliminary Datasheet
Absolute Maximum Ratings
Parameter
Symbol
Value
min
Unit
max
Power Supply Voltage (no RF applied)
Vc1, Vc2,Vcc
6.0
V
Power Supply Voltage (RF applied)
Vc1, Vc2, Vcc
5.0
V
Reference Voltage
Vref
3.0
Power Dissipation
Pdiss
Case Temperature, Survival
Storage Temperature
Operating Temperature Range
RF Input Power
V
W
Tc
-40
100
Ta
-40
150
°C
Toper
-40
85
°C
+5dBm
dBm
Pin
°C
General Electrical Characteristics1,2
Parameter
Frequency Range
min
typ
max
Unit
2400
-
2500
Mhz
Output Power @ 1dB Gain Compression
24
dBm
Linear Output Power (guaranteed ACP under 802.11b
modulation)
22
23
dBm
Power Gain (Pin=-6dBm)
28
28.8
31
dB
Gain Variation vs. Frequency
0.4
dB p-p
Power Added Efficiency
35
%
802.11b Adjacent Channel Power @ +22.0 dBm Output power
st
– 1 Side Lobe
-35
dBc
802.11b Adjacent Channel Power @+22.0 dBm Output power
nd
– 2 Side Lobe
-56
dBc
Input VSW R with external matching)
1
2
2:1
Test Conditions: Ta=25oC, Vref=2.95V, Vcc=Vc1=Vc2=3.3V 802.11b modulation
AC performance is guaranteed at 25 Deg-C, Vcc=Vc1=Vc2=3.3V, Vref=2.95V
DC Electrical Performance*At Vref=2.95V typical
Parameter,
min
typ
max
Unit
Operating Voltage Supply Range
3.0
3.3
3.6
V
Supply Current: Ta = 25°C, Vcc=Vref=2.95 Vc1=Vc2= 3.3V
Linear Output Power = 22dBm, with 802.11b CCK modulation
Vref
160
2.85
Ivref
2.95
mA
3.0
2
mA
Shutdown Mode Current
<1
uA
Quiescent current*
60
mA
2
For further information please visit www.triquint.com
Datasheet rev1.1; August 26, 2003.
TQP2420B
Preliminary Datasheet
Schematic
TL13
TL6
TL11
TL3
TL1
TL 5
3.5 Deg
23.8 Deg
2.8 Deg
2.8 Deg
14.0 Deg
18.2 Deg
Vc1
Vc2
Port
VC1
C
C6
C=0.033 uF
C
C9
C=4.7 uF
C
C7
C=4.7 uF
Port
VC2
NC
RFin
Port
RFin
C
C1
C=2.2 pF
12
C
C0
MLIN
C=1.3 pF TL6
L=22.1deg
MLIN
TL13
L=2.7deg
1
NC
NC
C
C10
C=22 pF
11
9
C
C4
C=2.4 pF
8
2
3
RFout
10
TQP
2420B
4
5
7
6
NC
TQP2420B
X1
C
C8
C=10.0 pF
C
C5
C=1.5 pF
Port
RFout
R
R1
R=10 kOhm
Detector Out
C
C2
C=.033 uF
Port
Det_out
Port
Vref
Port
Vcc
C
C3
C=.033 uF
VRef Vcc
Pin Assignments
Pin
Symbol
Description
1
RFin
RF Input
2
N/C
3
Vref
Bias Reference voltage
4
Vcc*
Bias circuit supply voltage,
5
N/C
6
GND
Ground
7
Vdet
Power detector output voltage
8
RFout, Vcc2
RF Output and 2 stage collector supply voltage
9
RFout, Vcc2
RF Output and 2 stage collector supply voltage
10
N/C
nd
nd
11
N/C
12
Vcc1
1 stage collector supply voltage
GND
Backside Paddle
st
*Vcc may be connected directly to Vc1 or Vc2 on DC side of RF Choke
For further information please visit www.triquint.com
Datasheet rev 1.1; August 26, 2003.
.
3
TQP2420B
Preliminary Datasheet
Evaluation Board-WLAN PA; 242x Evaluation board
Vcc2
Vcc1
Layer/Descriptions
Dielectric: FR4: Er=4.6
Top: 1 oz. Plated Copper
Dielectric 1 : 6 mils
Mid 1: 1 oz. Copper
Dielectric 2: 28 mils
Mid 2: 1 oz. Copper
Dielectric 3: 6 mils
Bottom: 1 oz. Plated Copper
C9
+
C7
+
L1
C10
C6
Pin 1
C1
C5
L2
Q1
C0
C2
C4
C3
Vref Vcc
C8
R1
R2
Det
Bill of Materials
Evaluation Board
Integrated Circuit ID
Part #
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
Quantity Component ID
1
1
1
2
1
2
1
1
1
1
1
2
1
2
2
1
4
C0
C5
C1
C3,C6
C4
C7,C9
C10
R1
R2
L1
L2
C8,C2
Q1
J1,J2
J3,J4
PCB
Size
242X
TQP2420
Value
0402
1.3
0402
1.5
0402
2.2
0402
0.033
0402
2.40
.130x.070
4.70
0402
22.00
0402
10000.00
0402
0.00
0402
9.10
0402
6.20
0402
10.00
MLF
Units
Manufacturer
pF
pF
pF
uF
pF
uF
pF
ohms
ohms
nH
nH
pF
N/A
AVX
AVX
AVX
Murata
AVX
AVX
Murata
Rhom
Rhom
Murata
Murata
Murata
Triquint
Johnson
P/N
Comments
04023J1R3BBW
04023J1R5BBW
04023J2R2BBWTR
GRP155R71A333KA01B
04023J2R4BBW
TRJR475M016R
GRP1555C1H220JZ01B
MCR01J133
LQW15AN9N1H
LQW15AN6N2C
GRP1555C1H100JZ01B
TQP2420B
142-0711-881
242X
DC Connector
Printed circuit board
For further information please visit www.triquint.com
Datasheet rev1.1; August 26, 2003.
TQP2420B
Preliminary Datasheet
TQP2420B measured performance; in TriQuint WLAN242X Evaluation Board
Measurement conditions Ta = 25°C, Vref=2.95 Vcc=Vc1=Vc2= 3.3V, Sample size 9 Units
Input Return Loss (dB) versus Frequency
Gain(dB) versusFrequency
0
30
29
28
27
26
25
24
23
22
21
20
-5
-10
-15
-20
-25
2
2.2
2.4
2.6
2.8
3
-30
2
2.2
Frequency(GHz)
2.6
2.8
3
ReverseIsolation(dB) versusFrequency
Output ReturnLoss(dB) versusFrequency
0
0
-5
-10
-20
-10
-30
-15
-40
-20
-50
-25
-60
-30
-70
2
2.2
2.4
2.6
2.8
Frequency(GHz)
For further information please visit www.triquint.com
Datasheet rev 1.1; August 26, 2003.
.
2.4
Frequency (GHz)
3
2
2.2
2.4
2.6
2.8
Frequency(GHz)
5
3
TQP2420B
Preliminary Datasheet
TQP2420B measured performance; in TriQuint WLAN242X Evaluation Board
Measurement conditions Ta = 25°C, Vref=2.95, Vcc=Vc1=Vc2= 3.3V, 802.11b Modulation
Transmit Spectral Mask-Typical performance
Current vs Output power
Vc1=Vc2=3.3V
temp=25 deg C
f=2450 MHz
250
ACP vs Output power
Vc1=Vc2=3.3V
temp=25 degC
f=2450MHz
-20
ACP, 1st or second sidelobe (dBc)
Collector Current (mA)
200
150
Itot
100
Ic2
Ic1
50
0
0
5
10
15
Output power (dBm)
6
20
25
30
-25
-30
-35
-40
-45
-50
-55
-60
-65
-70
20
21
22
23
24
25
Output power (dBm)
For further information please visit www.triquint.com
Datasheet rev1.1; August 26, 2003.
TQP2420B
Preliminary Datasheet
TQP2420B measured performance; in TriQuint WLAN242X Evaluation Board- Continued
Measurement conditions Ta = 25°C, Vref=2.9, Vcc=Vc1=Vc2= 3.3V
Gain vs Input Power as a function of Temperature
f=2450 MHz
Output Power vs Input Poweras a function of
Temperature; f=2450 MHz
30
30
+25 deg-C
29.5
Output power(dBm) or Gain (dB)
+85 deg-C
29
-40 deg C
28.5
Gain (dB)
30
28
27.5
27
26.5
26
+25 deg-C
25
25
+85 deg-C
-40 deg-C
20
20
15
15
10
10
5
5
25.5
0
25
-25
-20
-15
-10
-5
0
-25
0
-20
Detector Voltage vs Output Power
as a Function of Frequency; Vc1=Vc2=3.3V
01.00
Detector Voltage (V)
2400 MHz
Detector voltage (V)
0
01.20
01.00
2450 MHz
2500 MHz
00.60
00.40
00.80
0 deg-C
25 deg-C
85 deg-C
00.60
00.40
00.20
00.20
00.00
05.00
10.00
15.00
20.00
25.00
Output pow er (dBm)
For further information please visit www.triquint.com
Datasheet rev 1.1; August 26, 2003.
.
-5
Detector Voltage vs. Output Power as a
Function of Temperature; Vcc=3.3V; f=2450 MHz
01.20
00.00
00.00
-10
Input power (dBm)
Input power (dBm)
00.80
-15
30.00
00.00
05.00
10.00
15.00
20.00
25.00
Output power (dBm)
7
30.00
TQP2420B
Preliminary Datasheet
Application Data
Source
External matching
m1
freq= 2.480GHz
S(2,2)=0.750 / 177.603
impedance = Z0 * (0.143 + j0.020)
•The impedance shown can be achieved
by a number of topologies. The preferred
topology selected for Triquint 242x
evaluation board is shown in the
schematic.
S(2,2)
S(1,1)
•The 50 Ohm match of the input and
output ports of the TQP2420B is
completed by the addition of a small
number of external components. The
optimum impedance presented to the
respective ports is described in the Smith
Chart plot at the right.
Load
m2
freq= 2.480GHz
S(1,1)=0.739 / -168.987
impedance = Z0 * (0.151 - j0.094)
m1
m2
freq (30.00MHz to 6.000GHz)
Source
freq
30.00MHz
230.0MHz
430.0MHz
630.0MHz
830.0MHz
1.030GHz
1.230GHz
1.430GHz
1.630GHz
1.830GHz
2.030GHz
2.230GHz
2.430GHz
2.630GHz
2.830GHz
3.030GHz
3.230GHz
3.430GHz
3.630GHz
3.830GHz
4.030GHz
4.230GHz
4.430GHz
4.630GHz
4.830GHz
5.030GHz
5.230GHz
5.430GHz
5.630GHz
5.830GHz
6.000GHz
8
Load
S(1,1)
0.999 / -3.957
0.967 / -29.806
0.903 / -53.507
0.829 / -74.166
0.761 / -91.703
0.706 / -106.400
0.666 / -118.632
0.640 / -128.809
0.630 / -137.406
0.635 / -144.982
0.654 / -152.132
0.687 / -159.368
0.728 / -167.002
0.773 / -175.121
0.819 / 176.361
0.860 / 167.614
0.896 / 158.820
0.925 / 150.128
0.948 / 141.643
0.964 / 133.423
0.975 / 125.491
0.981 / 117.850
0.982 / 110.485
0.980 / 103.380
0.973 / 96.518
0.963 / 89.892
0.948 / 83.512
0.929 / 77.411
0.905 / 71.655
0.877 / 66.344
0.852 / 62.271
freq
30.00MHz
230.0MHz
430.0MHz
630.0MHz
830.0MHz
1.030GHz
1.230GHz
1.430GHz
1.630GHz
1.830GHz
2.030GHz
2.230GHz
2.430GHz
2.630GHz
2.830GHz
3.030GHz
3.230GHz
3.430GHz
3.630GHz
3.830GHz
4.030GHz
4.230GHz
4.430GHz
4.630GHz
4.830GHz
5.030GHz
5.230GHz
5.430GHz
5.630GHz
5.830GHz
6.000GHz
S(2,2)
0.981 / 176.647
0.972 / 155.219
0.950 / 127.187
0.844 / 82.634
0.601 / 10.089
0.509 / -68.802
0.556 / -114.349
0.598 / -138.063
0.627 / -152.220
0.651 / -161.741
0.678 / -168.936
0.708 / -175.101
0.741 / 179.055
0.774 / 173.238
0.804 / 167.397
0.830 / 161.580
0.852 / 155.844
0.870 / 150.230
0.884 / 144.755
0.895 / 139.422
0.905 / 134.221
0.912 / 129.140
0.919 / 124.164
0.924 / 119.274
0.929 / 114.457
0.933 / 109.694
0.937 / 104.969
0.941 / 100.267
0.944 / 95.573
0.948 / 90.874
0.951 / 86.866
For further information please visit www.triquint.com
Datasheet rev1.1; August 26, 2003.
TQP2420B
Preliminary Datasheet
Device Junction Temperature
Junction Temperature vs Output power
TQP2420B
Package Baseplate =85 deg-C
•The plot is an estimate of the first and
second stage transistor temperatures for
an amplifier biased at a collector voltage
of 3.3V and Vref= 2.95V. The paddle
temperature is +85 deg-C. The actual
temperature will vary dependent on the
method used to attach the package to the
final assembly board.
180
Junction Temperature (deg-C)
170
160
150
Stage 1
140
130
120
Stage 2
110
100
-20
-10
0
10
20
MMIC Output power (dBm)
Package Outline
DD
Deta il X
D
D2
CC
BB
e
E
AA
E2
Detail X
L
A
b
JE D E C DE S IG NA TIO N
D E S CR IP TIO N
M E TR IC
E N G LIS H
N O TE
A
O V E RA LL HE IG HT
0.90 +/-.10 m m
.035 +/-.004 in
1
b
TE R M INA L W IDTH
0.23 +/-.07 m m
.009 +/-.003 in
1
D
P A CK A G E LE N G TH
3.00 m m B S C
.118 in
1
E XP O S E D P A D LE NG TH
1.45 +/-.10 m m
.057 +/-.004 in
1
e
TE R M INA L P ITC H
0.50 m m B S C
.020 in
1
E
P A CK A G E W IDTH
3.00 m m B S C
.118 in
1
E XP O S E D P A D W IDTH
1.45 +/-.10 m m
.057 +/-.004 in
1
TE R M INA L LE N G TH
0.40 +/-.10 m m
.016 +/-.004 in
1
AA
P IN 1 ID LE N G TH
0.43 m m B S C
.017 in
1
BB
P IN 1 ID W ID TH
0.43 m m B S C
.017 in
1
CC
P IN 1 ID TO E DG E
0.18 m m B S C
.007 in
1
DD
P IN 1 ID TO E DG E
0.18 m m B S C
.007 in
1
D2
E2
L
N otes:
1. P RIM A RY DIM E NS IO NS A RE IN M E TRIC M ILLIM E TE RS . TH E E NG LIS H E Q UIV A LE N TS A R E CA LCU LA TE D
A ND S U B JE C T TO RO UN DIN G E R RO R.
For further information please visit www.triquint.com
Datasheet rev 1.1; August 26, 2003.
.
9
TQP2420B
Preliminary Datasheet
Package Marking
Pin 1
2420
XXXX
YYWW
Line 1: 2420
Line 2: XXXX TriQuint Assembly Lot Number
Line 3: Manufacturing year and work week
Caution: Electrostatic discharge sensitive. Observe handling Precautions!
Part Ordering Information
Type
Marking
Ordering code
(tape and reel)
Package
TQP2420B
2420
TBD
VQFN12 3x3mm
12 Lead
Additional Information
For latest specifications, additional product information, worldwide sales and distribution locations, and information about TriQuint:
Web: www.triquint.com
Email: [email protected]
Tel: (503) 615-9000
Fax: (503) 615-8902
For technical questions and additional information on specific applications:
Email: [email protected]
The information provided herein is believed to be reliable; TriQuint assumes no liability for inaccuracies or omissions. TriQuint assumes no responsibility for the use of
this information, and all such information shall be entirely at the user's own risk. Prices and specifications are subject to change without notice. No patent rights or
licenses to any of the circuits described herein are implied or granted to any third party.
TriQuint does not authorize or warrant any TriQuint product for use in life-support devices and/or systems.
Copyright © 2003 TriQuint Semiconductor, Inc. All rights reserved.
Revision 1.1, August 26, 2003
10
For additional information and latest specifications, see our website: www.triquint.com