RFMD RF2117PCBA

RF2117
Preliminary
• 400MHz Industrial Radios
• Analog Communication Systems
• Portable Battery Powered Equipment
2
POWER AMPLIFIERS
• 3.6V Analog Handsets
The RF2117 is a high power 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 analog cellular phone transmitters between 400MHz and 500MHz or
ISM applications operating at 433MHz. The device is
packaged in a low cost 16-lead plastic package with a
metal backside. The device is self-contained with the
exception of the output matching network and power supply feed line.
.244
.230
1
EXPOSED
HEATSINK
.004
.000
.021
.015
.050
.393
.386
.287
.271
.065
.055
.158
.152
.087
.071
8°MAX
5°MIN
.035
.016
.0098
.0075
Package Weight
typically 0.22 grams
Si BJT
Si Bi-CMOS
GaAs HBT
GaAs MESFET
SiGe HBT
Si CMOS
!"
• Single 3V to 5.5V Supply
VREG 1
VCC1 2
Bias
Circuits
16 NC
• Up to 2W CW Output Power
15 NC
• 33dB Small Signal Gain
LTUNE 3
14 RFOUT
Q1C 4
13 RFOUT
GND 5
12 RFOUT
RFIN 6
11 NC
NC 7
10 NC
VPD 8
9 NC
• >50% Efficiency
• 400MHz to 500MHz Operation
Rev A0 991201
RF2117
RF2117 PCBA
High Efficiency 400MHz Amplifier
Fully Assembled Evaluation Board
RF Micro Devices, Inc.
7625 Thorndike Road
Greensboro, NC 27409, USA
Tel (336) 664 1233
Fax (336) 664 0454
http://www.rfmd.com
2-47
RF2117
Preliminary
Absolute Maximum Ratings
Parameter
POWER AMPLIFIERS
2
Supply Voltage (VCC)
Power Down Voltage (VPD)
DC Supply Current
Input RF Power
Output Load
Operating Case Temperature
Operating Ambient Temperature
Storage Temperature
Parameter
Rating
Unit
-0.5 to +6.0
-0.5 to +3.0
1300
+10
7:1
-40 to +100
-40 to +85
-55 to +150
VDC
V
mA
dBm
°C
°C
°C
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 =3.6V, VPD =2.2V,
ZLOAD =2.7Ω, PIN =4dBm, Freq=450MHz
Overall
Frequency Range
Maximum CW Output Power
Total CW Efficiency
Small-signal Gain
Harmonics
400 to 500
+33
+32.5
+31.5
52
-30
Intermodulation Conversion at
TX Freq. - 10MHz
Power Down Isolation
+2
MHz
dBm
dBm
dBm
%
%
dB
dBc
55
45
33
-40
All Other Spurious
Input VSWR
Input Power
Input Impedance
Noise Power in Rx Band
Condition
<2:1
+4
50
-70
dBc
+6
dBm
Ω
dBm
-80dBm
12
dB
45
dB
VCC =3.2 to 4.5V Tamb=-25 to +85 °C
VCC =3.0 to 3.2V and 4.5 to 5.5V
Vcc=3.0V Pout=+32.5 dBm
Vcc=3.6V Pout=+32.5 dBm
Vcc=3.0 to 5.5V
Tamb= -25 to +85 °C
Load VSWR≤6:1 all phase angles, Zs=50 Ω,
Vcc=3.0V to 5.5V, Tamb= -30 to +85° C
Pout=+32.5 dBm, Freq.= 410 to 485 MHz,
Tamb= -30 to +85°C VSWR ≤ 6:1 all phase
angles.
Pout=+15dBm to +32.5 dBm
VPD grounded through 1kΩ resistor
Pin=+6dBm
Power Control
Control Voltage VPD
Control Current
0
Gain Control
35
2.4
6
V
mA
dB
Power Supply
Power Supply Voltage
Power Supply Current
Regulated Voltage VREG
Current from VREG
2-48
3.0
2.7
3.6
1100
2.8
5.3
2.9
12
V
mA
V
mA
DC Current at POUT,MAX
Rev A0 991201
RF2117
Preliminary
Function
VREG
2
VCC1
3
LTUNE
4
Q1C
5
GND
6
RF IN
7
8
NC
VPD
9
10
11
12
NC
NC
NC
RF OUT
13
14
RF OUT
RF OUT
15
16
Pkg
Base
NC
NC
GND
Rev A0 991201
Description
Interface Schematic
Regulated Supply for bias circuit. This pin should be connected to the
regulated supply with a ferrite of 240 ohms and should have a UHF
decoupling capacitor (100pF) to ground at the supply end of the ferrite.
An additional capacitor of 1nF can be added with the 100 pF but it’s
placement is not as critical.
Positive supply for the active bias circuits. Bypassing should be accomplished with a single UHF decoupling capacitor, placed close to the Pin.
Additional bypassing of 1nF is also recommended, but proximity to the
package is not as critical.
The Inter-stage matching point of the amplifiers. Matching should be
performed with a small value inductor connected from the pin to
ground.
Positive Supply to the first stage collector. The supply should be fed
through a parallel LC network, resonant at the centre of the band of
interest. A UHF decoupling capacitor should be placed from the supply
end of the LC to ground. A 1nF capacitor can also be used but it’s
placement it not as critical.
Ground Contact for the driver stage. Keep traces physically short and
connect immediately to the ground plane for best performance. It is
important for stability that this pin has it’s own via to the groundplane, to
minimize any common inductance.
Amplifier RF input. This is a 50Ω RF input port to the amplifier. It does
not contain internal DC blocking and therefore should be externally DC
blocked before connecting to any device which has DC present or
which contains a DC path to ground. A series UHF capacitor is recommended for the DC blocking.
Not internally connected.
2
POWER AMPLIFIERS
Pin
1
Power Down control. When this pin is “low” all circuits are off. A low is
typically less than 0.5V at room temperature. This pin affords a measure of power control, however this response is not linear across much
of the range. It is recommended that the pin be used in closed loop
power control systems if it is to be used across a range of voltages and
temperatures for power control.
Not internally connected.
Not internally connected.
Not internally connected.
Amplifier RF output. This is an unmatched collector output of the final
amplifier transistor. It is internally connected to pins 12, 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 three pins. Typically, these pins 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. An additional network of a bias inductor (or λ/4 line) provides DC bias and helps to protect the output from high voltage swings
due to severe load mismatches.
Amplifier RF output, same as pin 12
Amplifier RF output, same as pin 12. Do not feed the supply to this pin
alone. If this pin is used as the supply pin it must be connected in parallel with pin 12 and/or 13.
Not internally connected.
Not internally connected.
This contact is the main ground contact for the entire device. Care
should be taken to ensure that this contact is well soldered in order to
prevent performance from being degraded from that indicated in the
specifications.
2-49
RF2117
Preliminary
VREG
1µF
VCC
3.3µF
POWER AMPLIFIERS
2
1nF
1nF
100pF
100pF
1
240 Ω
Ferrite
1nF
100pF
2
16
Bias
Circuits
15
3
14
2.7nH
4
13
47pF
5
12
6
11
7
10
8
9
2.2nH
1nF
4.7nH
100pF
100pF
100pF
VPD
50 Ω
µstrip
22 Ω
Ferrite
30pF
13pF
240 Ω
Ferrite
100pF
2-50
Rev A0 991201
RF2117
Preliminary
VR EG
C19
1 uF
2
+
R2
0
POWER AMPLIFIERS
C13
1 nF
V CC
+
L4
F errite
(220 ohm )
C5
1 nF
C7
100 pF
1
C6
100 pF
2
C9
3.3 uF
C10
1 nF
C11
100 pF
16
Bias
C ircu its
15
120 nH
C4
100 pF
L5
20 nH
3
14
4
13
L2
F errite
(220 ohm )
5
12
6
11
L1
0 Ω R es is tor
7
10
8
9
50 Ω µs trip
J1
R F IN
50 Ω µs trip
C1
100 pF
L3
F errite
(220 ohm )
C17
100 pF
C18
1 nF
50 Ω µs trip
J3
RFOU T
C15
27 pF
C 1 5 0.3 8 8 " fro m
edge of RF2117
C 1 4 0.2 3 4 " fro m
edge of RF2117
VC C
C16
330 pF
50 Ω µs trip
C14
82 pF
VR EG
N o te:
VC C = 3.6 V
VP C = 2.7 V
VR EG = 2.2 V
PO U T = 31 d Bm
F req = 220 M H z
Pin = 3 d Bm
Efficienc y = 44%
L6
6.8 nH
P1
P2
1
1
2
2
3
CON 3
VC C
P3
1
VP D
2
3
3
CON 3
CON 3
VP D
Rev A0 991201
2-51
RF2117
Preliminary
(Download Bill of Materials from www.rfmd.com.)
2
VR EG
+
POWER AMPLIFIERS
C19
1 uF
R2
0
C13
1 nF
V CC
+
L4
F errite
(220 ohm )
C5
1 nF
C7
100 pF
1
C6
100 pF
2
C9
3.3 uF
C10
1 nF
C11
100 pF
16
Bias
C ircu its
15
50 Ω µs trip
C4
100 pF
L5
2.2 nH
3
14
4
13
5
12
50 Ω µs trip
L2
F errite
(220 ohm )
J1
R F IN
50 Ω µs trip
C1
100 pF
L1
F errite
(22 ohm )
L3
F errite
(220 ohm )
C17
100 pF
6
11
7
10
8
9
VR EG
P2
1
1
2
2
CON 3
VC C
50 Ω µs trip
J3
RFOU T
C15
13 pF
P1
3
C16
100 pF
50 Ω µs trip
C14
27 pF
VC C
C18
1 nF
L6
4.7 nH
P3
1
VP D
2
3
3
CON 3
CON 3
VP D
2-52
Rev A0 991201
RF2117
Preliminary
POWER AMPLIFIERS
2
Rev A0 991201
2-53
RF2117
Preliminary
POWER AMPLIFIERS
2
2-54
Rev A0 991201