RFMD RF2103P

RF2103P
2
MEDIUM POWER LINEAR AMPLIFIER
Typical Applications
• Digital Communication Systems
• Portable Battery-Powered Equipment
• Spread-Spectrum Communication Systems • Commercial and Consumer Systems
2
POWER AMPLIFIERS
• Driver for Higher Power Linear Applications • Base Station Equipment
Product Description
The RF2103P is a medium power 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 linear RF amplifier in
UHF radio transmitters operating between 450MHz and
1000MHz. It may also be used as a driver amplifier in
higher power applications. The device is self-contained
with the exception of the output matching network, power
supply feed line, and bypass capacitors, and it produces
an output power level of 750mW (CW). The device can
be used in 3 cell battery applications. The maximum CW
output at 3.6V is 175mW. The unit has a total gain of
31dB, depending upon the output matching network.
0.156
0.148
Si Bi-CMOS
ü
GaAs HBT
GaAs MESFET
SiGe HBT
Si CMOS
0.010
0.004
0.347
0.339
0.050
0.252
0.236
0.059
0.057
8° MAX
0° MIN
0.0500
0.0164
Optimum Technology Matching® Applied
Si BJT
.018
.014
0.010
0.007
Package Style: SOIC-14
Features
• 450MHz to 1000MHz Operation
• Up to 750mW CW Output Power
14 RF OUT
• 31dB Small Signal Gain
GND 2
13 RF OUT
• Single 2.7V to 7.5V Supply
GND 3
12 GND
RF IN 1
PRE
AMP
FPA
• 47% Efficiency
• Digitally Controlled Power Down Mode
PD 4
BIAS
CIRCUITS
11 GND
VCC1 5
10 GND
VCC2 6
9 RF OUT
PRE AMP PWR 7
8 RF OUT
Functional Block Diagram
Rev B1 010720
Ordering Information
RF2103P
RF2103P PCBA
Medium Power Linear Amplifier
Fully Assembled Evaluation Board
RF Micro Devices, Inc.
7628 Thorndike Road
Greensboro, NC 27409, USA
Tel (336) 664 1233
Fax (336) 664 0454
http://www.rfmd.com
2-1
RF2103P
Absolute Maximum Ratings
Parameter
POWER AMPLIFIERS
2
Rating
Unit
Supply Voltage
Power Down Voltage (VPD)
DC Supply Current
Input RF Power
Output Load VSWR
-0.5 to +7.5
-0.5 to +5
350
+12
10:1
VDC
V
mA
dBm
Operating Case Temperature
Operating Ambient Temperature
Storage Temperature
-40 to +100
-40 to +85
-40 to +150
°C
°C
°C
Parameter
Specification
Min.
Typ.
Max.
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
T=25 °C, VCC =5.8V, VPD =5.0V,
ZLOAD =18Ω, PIN =0dBm, Freq=915MHz
Overall
Frequency Range
Maximum Output Power
Maximum Output Power
Second Harmonic
Third Harmonic
Output Noise Power
Input Impedance
450 to 1000
+28.8
+26.5
-24
-30
<-125
50
Input VSWR
MHz
dBm
dBm
dBc
dBc
dBm/Hz
Ω
<2:1
Output Impedance
18+j0
Ω
31
+26.5
-40
-45
175
<3.5
47
26
dB
dBm
dBc
dBc
mA
mA
%
%
Nominal 5.8V
Configuration
Linear Power Gain
Saturated CW Output Power
IM3
IM5
Collector Current, ICC
VPD Current
CW Total Efficiency
Two Tone Total Efficiency
Condition
24
-25
-30
250
VCC =7.5V
VCC =5.8V
Without external second harmonic trap
With external matching network; see application schematic
With external matching network; see application schematic
Load Impedance for Optimal Match
VCC =5.8V, VPD =4.0V, ZLOAD =18Ω,
PIN =0dBm, Freq=830MHz
POUT =+18.5dBm/tone
POUT =+18.5dBm/tone
Total of pins 7 and 8
Into pin 4
POUT =+18.5dBm/tone
Power Supply
Power Supply Voltage
Power Supply Idle Current
Total "OFF" Current Drain
Turn-on Time
2-2
2.7 to 7.5
45
1
<100
80
10
V
mA
µA
ns
VPD <0.1VDC
VPD =0 to VPD =+4VDC
Rev B1 010720
RF2103P
Function
RF IN
2
GND
3
4
GND
PD
5
VCC1
6
7
VCC2
PREAMP
PWR
8
9
10
11
12
13
RF OUT
RF OUT
GND
GND
GND
RF OUT
Rev B1 010720
Description
Interface Schematic
RF input pin. There is an internal blocking capacitor between this pin
and the preamp input, but not between the pin and an internal 2kΩ
resistor to ground.
Ground connection. For best performance, keep traces physically short
and connect immediately to ground plane.
Same as pin 2.
2
Power down control voltage. When this pin is at 0V, the device will be in
power down mode, dissipating minimum DC power. When this pin is at
VCC (3V to 6.5V), the device will be in full power mode delivering maximum available gain and output power capability. This pin may also be
used to perform some degree of gain control or power control when set
to voltages between 0V and VCC. It is not optimized for this function so
the transfer function is not linear over a wide range as with other
devices specifically designed for analog gain control; however, it may
be usable for coarse adjustment or in some closed loop AGC systems.
This pin should not, in any circumstance, be higher in voltage than VCC.
This pin should also have an external bypassing capacitor.
Positive supply for the active bias circuits. This pin can be externally
combined with pin 6 (VCC2) and the pair bypassed with a single capacitor, placed as close as possible to the package. Additional bypassing
of 1 µF is also recommended, but proximity to the package is not as critical. In most applications, pins 5, 6, and 7 can share a single 1 µF
bypass capacitor.
Same as pin 5.
POWER AMPLIFIERS
Pin
1
Positive supply for the pre-amplifier. This is an unmatched transistor
collector output. This pin should see an inductive path to AC ground
(VCC with bypass capacitor). This inductance can be achieved with a
short, thin microstrip line or with a low value chip inductor (approximately 1.8nH). At lower frequencies, the inductance value should be
larger (longer microstrip line) and VCC should be bypassed with a
larger bypass capacitor. This inductance forms a matching network
with the internal series capacitor between the two amplifier stages, setting the amplifier’s frequency of maximum gain. An additional 1µF
bypass capacitor in parallel with the 100pF bypass capacitor is also
recommended, but placement of this component is not as critical. In
most applications, pins 5, 6, and 7 can share a single 1µF bypass
capacitor.
Same as pin 14.
Same as pin 14.
Same as pin 2.
Same as pin 2.
Same as pin 2.
Same as pin 14.
2-3
RF2103P
Pin
14
POWER AMPLIFIERS
2
Function
RF OUT
Description
Interface Schematic
Amplifier RF output. This is an unmatched collector output of the final
amplifier transistor. It is internally connected to pins 8, 9, 13 and 14 to
provide low series inductance and flexibility in output matching. Bias for
the final power amplifier output transistor must also be provided
through two of these four pins. Typically, pins 8 and 9 are connected to
a network that provides the DC bias and also creates a second harmonic trap. For 915MHz operation, this harmonic trap network is simply
a single 2pF capacitor from both pins to ground. This capacitor series
resonates with internal bond wires at two times the operating frequency, effectively shorting out the second harmonic. Shorting out this
harmonic serves to increase the amplifier’s maximum output power and
efficiency, as well as to lower the level of the second harmonic output.
Typically, pins 13 and 14 are externally connected very close to the
package and used as the RF output with a matching network that presents the optimum load impedance to the PA for maximum power and
efficiency, as well as providing DC blocking at the output. Shunt protection diodes are included to clip peak voltage excursions above approximately 15V to prevent voltage breakdown in worst case conditions.
Application Schematic
6.8 nH
22 Ω
RF IN
1
PRE AMP
12 nH
VB
1
µF
C1
2
13
3
12
4
11
L1
For lower frequency
operation: Cut trace
on board and insert
inductor L3
100 pF
VCC
For lower frequency
operation: Cut trace
on board and insert
inductor L4
RF OUT
14
FPA
100
pF
BIAS
CIRCUITS
5
10
6
9
7
8
VCC
L2
100 pF
.01" x .2"
(PCB material: FR-4,
Thickness:0.031")
FREQUENCY (MHz) L1 (nH)
2-4
C2
L2 (nH)
L3 (nH)
L4 (nH)
C1 (pF)
275
20
15
10
20
20
10
480
915
12
6.8
6.8
3.3
4.7
18
12
4
6.8
2
330 pF
C2 (pF)
Rev B1 010720
RF2103P
Evaluation Board Schematic
915MHz Operation
(Download Bill of Materials from www.rfmd.com.)
P1-1
C8
1 nF
P1-3
2
P1
1
VCC
2
GND
3
VB
POWER AMPLIFIERS
C6
1 nF
2103400 Rev C
SMA
J1 50 Ω µ strip
L4
6.8 nH
R1
22 Ω
RF IN
L3
12 nH
C1
100 pF
P1-3
P1-1
P1-1
Rev B1 010720
50 Ω Matching Network
1
C9
100 pF
C3
100 pF
C10
0.01" x 0.2"
100 pF (PCB mat'l: FR-4,
Thickness: 0.031")
FPA
14
50 Ω µ strip
2
13
3
12
4
C2
100 pF
PRE
AMP
BIAS
CIRCUITS
C4
4 pF
RF OUT
J2
L1
6.8 nH
11
5
10
6
9
7
8
L2
3.3 nH
C7
2 pF
C5
330 pF
P1-1
2-5
RF2103P
Evaluation Board Layout
1.4” x 1.4”
POWER AMPLIFIERS
2
2-6
Rev B1 010720
RF2103P
Gain and Pout vs. Pin
Vcc=Vb=3.6 V, 915 MHz
Efficiency and Icc vs. Pout
Vcc=Vb=3.6 V, 915 MHz
35
75
260
30
Eff (+25°C)
Eff (-40°C)
Eff (+85°C)
Icc (+25°C)
Icc (-40°C)
Icc (+85°C)
60
210
45
160
30
110
15
60
15
2
10
5
Pout (+25°C)
Gain (+25°C)
Pout (-40°C)
Gain (-40°C)
Pout (+85°C)
Gain (+85°C)
0
0
-25
-20
-15
-10
-5
0
5
10
0
5
10
Pin (dBm)
15
20
25
30
Pout (dBm)
Gain and Pout vs. Pin
Vcc=Vb=4.8 V, 915 MHz
Efficiency and Icc vs. Pout
Vcc=Vb=3.6 V, 915 MHz
75
35
260
30
Eff (+25°C)
Eff (-40°C)
Eff (+85°C)
Icc (+25°C)
Icc (-40°C)
Icc (+85°C)
60
210
45
160
30
110
15
60
20
15
Icc (mA)
Efficiency (%)
Gain (dB), Pout (dBm)
25
10
5
Pout (+25°C)
Gain (+25°C)
Pout (-40°C)
Gain (-40°C)
Pout (+85°C)
Gain (+85°C)
0
0
-25
-20
-15
-10
-5
0
10
0
5
5
10
Pin (dBm)
15
20
25
30
Pout (dBm)
Gain and Pout vs. Pin
Vcc=6.0 V, Vb=5.0 V, 915 MHz
Efficiency and Icc vs. Pout
Vcc=6.0 V, Vb=5.0 V, 915 MHz
75
35
260
30
Eff (+25°C)
Eff (-40°C)
Eff (+85°C)
Icc (+25°C)
Icc (-40°C)
Icc (+85°C)
60
210
45
160
30
110
15
60
20
15
Icc (mA)
Efficiency (%)
Gain (dB), Pout (dBm)
25
10
5
Pout (+25°C)
Gain (+25°C)
Pout (-40°C)
Gain (-40°C)
Pout (+85°C)
Gain (+85°C)
0
0
-25
-20
-15
-10
Pin (dBm)
Rev B1 010720
-5
0
5
10
0
5
10
15
20
25
30
Pout (dBm)
2-7
POWER AMPLIFIERS
20
Icc (mA)
Efficiency (%)
Gain (dB), Pout (dBm)
25
RF2103P
IM3, IM5, and IM2 vs. Pout
Vcc=Vb=3.6 V, 915 MHz
Harmonics vs. Pout
Vcc=Vb=3.6 V, 915 MHz
0
0
IM3
IM5
2Fo
3Fo
4Fo
5Fo
6Fo
7Fo
-10
Harmonic Level (dBc)
IM2
-20
-30
-40
-50
-20
-30
-40
-50
-60
-60
-15
-10
-5
0
5
10
15
20
25
5
10
Pout per Tone (dBm)
15
20
25
30
25
30
25
30
Fundamental Pout (dBm)
IM3, IM5, and IM2 vs. Pout
Vcc=Vb=4.8 V, 915 MHz
Harmonics vs. Pout
Vcc=Vb=4.8 V, 915 MHz
0
0
IM3
IM5
2Fo
3Fo
4Fo
5Fo
6Fo
7Fo
-10
IM2
Harmonic Level (dBc)
Intermodulation Products (dBc)
-10
-20
-30
-40
-50
-20
-30
-40
-50
-60
-60
-15
-10
-5
0
5
10
15
20
25
5
10
Pout per Tone (dBm)
15
20
Fundamental Pout (dBm)
IM3, IM5, and IM2 vs. Pout
Vcc=6.0 V, Vb=5.0 V, 915 MHz
Harmonics vs. Pout
Vcc=6.0 V,Vb=5.0 V, 915 MHz
0
0
IM3
IM5
-10
3Fo
4Fo
5Fo
6Fo
7Fo
IM2
-20
-30
-40
-50
-20
-30
-40
-50
-60
-60
-15
-10
-5
0
5
10
Pout per Tone (dBm)
2-8
2Fo
-10
Harmonic Level (dBc)
Intermodulation Products (dBc)
POWER AMPLIFIERS
2
Intermodulation Products (dBc)
-10
15
20
25
5
10
15
20
Fundamental Pout (dBm)
Rev B1 010720
RF2103P
Pout vs. Vb
Vcc=3.6 V, Pin=0 dBm, 915 MHz
Efficiency vs. Vb
Vcc=3.6 V, Pin=0 dBm, 915 MHz
75
30
+25°C
20
+25°C
-40°C
-40°C
60
+85°C
+85°C
2
0
45
POWER AMPLIFIERS
Efficiency (%)
Pout (dBm)
10
30
-10
15
-20
-30
0
0.0
1.0
2.0
3.0
4.0
0.0
5.0
1.0
2.0
Vb (Volts)
3.0
4.0
5.0
4.0
5.0
4.0
5.0
Vb (Volts)
Pout vs. Vb
Vcc=4.8 V, Pin=0 dBm, 915 MHz
Efficiency vs. Vb
Vcc=4.8 V, Pin=0 dBm, 915 MHz
75
30
+25°C
20
+25°C
-40°C
-40°C
60
+85°C
+85°C
Efficiency (%)
Pout (dBm)
10
0
45
30
-10
15
-20
-30
0
0.0
1.0
2.0
3.0
4.0
0.0
5.0
1.0
2.0
Vb (Volts)
3.0
Vb (Volts)
Pout vs. Vb
Vcc=6.0 V, Pin=0 dBm, 915 MHz
Efficiency vs. Vb
Vcc=6.0 V, Pin=0 dBm, 915 MHz
75
30
+25°C
20
+25°C
-40°C
-40°C
60
+85°C
+85°C
Efficiency (%)
Pout (dBm)
10
0
45
30
-10
15
-20
-30
0
0.0
1.0
2.0
3.0
Vb (Volts)
Rev B1 010720
4.0
5.0
0.0
1.0
2.0
3.0
Vb (Volts)
2-9
RF2103P
Psat vs. Vcc
Vb=Vcc; Vb≤
≤ 5.0 V, 915 MHz
30
Two Tone Pout vs. Pin,
915 MHz
35
30
25
Psat (dBm)
15
10
20
15
10
Vcc=Vb=3.6V
5
5
Vcc=Vb=4.8V
Vcc=6.0V, Vb=5.0V
0
0
3.0
4.0
5.0
6.0
7.0
-25
8.0
-15
-10
-5
0
Pin, per Tone (dBm)
Vb Required to Achieve Specific Pout
(Vb<5.0 V, 915 MHz)
Two Tone Efficiency and Icc vs. Pout,
915 MHz
5
5
100
260
Eff (Vcc=Vb=3.6V)
27dBm
Eff (Vcc=Vb=4.8V)
24dBm
4
Eff (Vcc=6.0V, Vb=5.0V)
80
21dBm
210
Icc (Vcc=Vb=3.6V)
Two Tone Efficiency (%)
18dBm
15dBm
3
2
1
0
Icc (Vcc=Vb=4.8V)
Icc (Vcc=6.0V, Vb=5.0V)
60
160
40
110
20
60
0
2.0
3.0
4.0
5.0
Vcc (Volts)
2-10
-20
Vcc (Volts)
6.0
7.0
8.0
Two Tone Icc (mA)
2.0
Vb (Volts)
POWER AMPLIFIERS
2
Pout, per Tone (dBm)
25
20
10
0
5
10
15
20
25
30
Pout, per Tone (dBm)
Rev B1 010720