RFMD RF2128P

RF2128P
• Commercial and Consumer Systems
• 2.5GHz ISM Band Applications
• Portable Battery Powered Equipment
2
• Wireless LANs
The RF2128P is a medium-power, high-efficiency, linear
amplifier IC. The device is manufactured on an advanced
Gallium Arsenide Heterojunction Bipolar Transistor (HBT)
process, and has been designed for use as the final RF
amplifier in 2.45GHz ISM applications such as WLAN
and POS terminals. The part also will function as the final
stage in digital PCS phone transmitters requiring linear
amplification operating between 1900MHz and
2200MHz, with over 100mW transmitted power, or as the
driver stage for the RF2125 high power amplifier. A simple power down function is included for TDD operation.
The part is packaged in a low-cost plastic package with a
metal backside.
.157
.150
1
Si Bi-CMOS
GaAs HBT
GaAs MESFET
SiGe HBT
Si CMOS
EXPOSED
HEATSINK
.003
.001
.196
.189
.123
.107
.050
.244
.230
.061
.055
.087
.071
8°MAX
0°MIN
.035
.016
.010
.007
Refer to “Handling of PSOP and PSSOP Products” on page 16-15
for special handling information.
Si BJT
.019
.014
!
• Single 3.0V to 6.5V Supply
• 100mW Linear Output Power
• 28dB Small Signal Gain
• 33% Efficiency
VCC2 1
BIAS
CIRCUITS
8 VCC1
• Digitally Controlled Power Down Mode
• 1900MHz to 2500MHz Operation
GND1 2
7 RF OUT
PD 3
6 RF OUT
RF IN 4
5 GND 2
PACKAGE BASE
RF2128P
RF2128P PCBA
Medium Power Linear Amplifier
Fully Assembled Evaluation Board
GND
Rev A4 990216
RF Micro Devices, Inc.
7625 Thorndike Road
Greensboro, NC 27409, USA
Tel (336) 664 1233
Fax (336) 664 0454
http://www.rfmd.com
2-89
POWER AMPLIFIERS
• PCS Communication Systems
RF2128P
Absolute Maximum Ratings
Parameter
POWER AMPLIFIERS
2
Supply Voltage (VCC)
Power Down Voltage (VPD)
DC Supply Current
Input RF Power
Output Load
Operating Ambient Temperature
Storage Temperature
Parameter
Rating
Unit
-0.5 to +7.5
-0.5 to +5.5
125
+12
20:1
-40 to +85
-40 to +150
VDC
V
mA
dBm
°C
°C
Specification
Min.
Typ.
Max.
Refer to “Handling of PSOP and PSSOP Products”
on page 16-15 for special handling information.
Caution! ESD sensitive device.
RF Micro Devices believes the furnished information is correct and accurate
at the time of this printing. However, RF Micro Devices reserves the right to
make changes to its products without notice. RF Micro Devices does not
assume responsibility for the use of the described product(s).
Unit
Condition
T=25 °C, VCC =5V, VPD =5.0V,
Freq=2400MHz
Overall
Frequency Range
Maximum Output Power
1dB Compression Output Power
Total CW Efficiency
Small-signal Gain
Second Harmonic
Third Harmonic
Isolation
Input VSWR
Input Impedance
Noise Figure
1900 to 2500
+22
>+24
+21
33
28
-23
-19
15
2:1
50
7
MHz
dBm
dBm
dBm
%
dB
dBc
dBc
dB
+17
-27
-40
-44
30
dBm
dBc
dBc
dBc
%
VCC
V
Voltage supplied to the input; device is “on”
1.2
V
Voltage supplied to the input; device is “off”
65
V
V
mA
mA
µA
VCC =5.0V, VPD =5.0V, PIN =-3.0dBm
VCC =6.0V, VPD =5.5V, PIN =0dBm
Maximum output
VPC =0.2V
Ω
dB
Two-tone Specification
Average Two-Tone Power
IM3
IM5
IM7
Two-Tone Power-Added
Efficiency
PEP-3dB
POUT =+14dBm for each tone
POUT =+14dBm for each tone
POUT =+14dBm for each tone
Power Down Control
Power Down “ON”
Power Down “OFF”
0
Power Supply
Voltage
Current
Current
2-90
5
3.0 to 6.5
50
85
10
Specifications
Operating
Operating Idle
At maximum output power
Power Down
Rev A4 990216
RF2128P
Function
VCC2
2
GND1
3
PD
4
RF IN
5
GND2
6
RF OUT
7
8
RF OUT
VCC1
Pkg
Base
GND
Description
Interface Schematic
Power supply for the driver stage and interstage matching. External
matching on this pin is required to optimize the gain. The matching on
this port also greatly affects the input impedance. A decoupling capacitor of 330pF is required, together with a series RC for tuning for maximum gain at the desired frequency. See the application information for
details.
Ground connection for the driver stage. Keep traces physically short
and connect immediately to the ground plane for best performance.
Power Down control. When this pin is "low", all circuits are shut off. A
"low" is typical 1.2V or less at room temperature. When this pin is
"high", all circuits are operating normally. A "high" is VCC. If PD is below
VCC output power and performance will be degraded. This could be
used to obtain some gain control, but results are not guaranteed.
RF Input. This is a 50Ω input, but the actual impedance depends on the
matching provided on pin 1. An external DC blocking capacitor is
required if this port is connected to a DC path to ground.
Ground connection for the output stage. Keep traces physically short
and connect immediately to the ground plane for best performance.
RF Output and power supply for the output stage. Bias for the output
stage needs to be provided on this pin. This can be done through a
quarter-wave microstrip that is RF grounded on the other end. For
matching to 50Ω, an external series microstrip line is required.
Same as pin 6.
2
POWER AMPLIFIERS
Pin
1
Power supply for the bias circuits. An external RF bypass capacitor of
22pF is required. Keep the traces to the capacitor as short as possible,
and connect the capacitor immediately to the ground plane.
Ground connection. The backside of the package should be connected
to the ground plane through a short path, i.e., vias under the device
may be required.
VCC
(PCB mat'l: FR-4,
Thickness: 0.031")
330 pF
22 pF
50 Ω µstrip
L=100 mil
L=100 mil,
W=20 mil
1
22 pF
BIAS
CIRCUITS
8
2
7
3
6
L=220 mil,
W=10 mil
33 pF
VPD
RF IN
8 pF
100 Ω, 200 mil
4
67 Ω, 0.20"
RF OUT
2 pF
5
PACKAGE BASE
GND
Rev A4 990216
2-91
RF2128P
(Download Bill of Materials from www.rfmd.com.)
2128401 Rev C
P1
POWER AMPLIFIERS
2
VCC
P1-1
C5
1 µF
C4
330 pF
C3
22 pF
50 Ω µstrip
L=100 mil
L=100 mil,
W=20 mil
1
C2
33 pF
PD
RF IN
J1
C6
22 pF
BIAS
CIRCUITS
C1
8 pF
100 Ω, 200 mil
VCC
2
GND
3
PD
8
2
7
3
6
4
5
L=220 mil,
W=10 mil
67 Ω, 0.20"
PACKAGE BASE
50 Ω µstrip
P1-3
1
GND
C7
2 pF
50 Ω µstrip
RF OUT
J2
(PCB mat'l: FR-4,
Thickness: 0.031")
!"# "
2-92
Rev A4 990216