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RF5117
3V, 1.8GHz TO 2.8GHz LINEAR POWER AMPLIFIER
RoHS Compliant & Pb-Free Product Package Style: QFN, 16-Pin, 3 x 3
VCC 14
Features
Single 3.3V Power Supply +30dBm Saturated Output Power 26dB Small Signal Gain High Linearity 1800MHz to 2800MHz Frequency Range +17dBm PO, 11G, <3% EVM
PWR REF 4 RF IN 1 BIAS GND1 2 PWR SEN 3
16
15
13 12 RF OUT 11 RF OUT 10 RF OUT
Bias 5 VREG1 6 VREG2 7 BIAS GND 2 8 NC
VCC 9 NC
NC
Applications
IEEE802.11B WLAN Applications IEEE802.11G WLAN Applications 2.5GHz ISM Band Applications Commercial and Consumer Systems Portable Battery-Powered Equipment Spread-Spectrum and MMDS Systems
Functional Block Diagram
Product Description
The RF5117 is a linear, medium-power, high-efficiency amplifier IC designed specifically for battery-powered WLAN applications such as PC cards, mini PCI, and compact flash applications. 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 2.5GHz WLAN and other spread-spectrum transmitters. The device is provided in a 3mmx3mm, 16-pin, leadless chip carrier with a backside ground. The RF5117 is designed to maintain linearity over a wide range of supply voltage and power output.
Ordering Information
RF5117 RF5117PCBA-41X 3V, 1.8GHz to 2.8GHz Linear Power Amplifier Fully Assembled Evaluation Board
Optimum Technology Matching(R) Applied
GaAs HBT GaAs MESFET InGaP HBT SiGe BiCMOS Si BiCMOS SiGe HBT GaAs pHEMT Si CMOS Si BJT GaN HEMT
RF MICRO DEVICES(R), RFMD(R), Optimum Technology Matching(R), Enabling Wireless ConnectivityTM, PowerStar(R), POLARISTM TOTAL RADIOTM and UltimateBlueTM are trademarks of RFMD, LLC. BLUETOOTH is a trademark owned by Bluetooth SIG, Inc., U.S.A. and licensed for use by RFMD. All other trade names, trademarks and registered trademarks are the property of their respective owners. (c)2006, RF Micro Devices, Inc.
Rev A13 DS071018
7628 Thorndike Road, Greensboro, NC 27409-9421 * For sales or technical support, contact RFMD at (+1) 336-678-5570 or sales-support@rfmd.com.
NC
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RF5117
Absolute Maximum Ratings Parameter
Supply Voltage Power Control Voltage (VREG) DC Supply Current Input RF Power Operating Ambient Temperature Storage Temperature Moisture Sensitivity
Rating
-0.5 to +6.0 -0.5 to 3.5 600 +10 -40 to +85 -40 to +150 JEDEC Level 2
Unit
VDC V mA dBm C C
Caution! ESD sensitive device.
Exceeding any one or a combination of the Absolute Maximum Rating conditions may cause permanent damage to the device. Extended application of Absolute Maximum Rating conditions to the device may reduce device reliability. Specified typical performance or functional operation of the device under Absolute Maximum Rating conditions is not implied. RoHS status based on EUDirective2002/95/EC (at time of this document revision). The information in this publication is believed to be accurate and reliable. However, no responsibility is assumed by RF Micro Devices, Inc. ("RFMD") for its use, nor for any infringement of patents, or other rights of third parties, resulting from its use. No license is granted by implication or otherwise under any patent or patent rights of RFMD. RFMD reserves the right to change component circuitry, recommended application circuitry and specifications at any time without prior notice.
Parameter
Overall
Frequency Range Maximum Linear Output Power VCC=3.0V VCC=5.0V Linear Efficiency Error Vector Magnitude (EVM) Small Signal Gain Reverse Isolation Second Harmonic 802.11B Adjacent Channel Power Alternate Channel Power Isolation Input Impedance Input VSWR
Min.
Specification Typ.
Max.
Unit
Condition
T=25 C, VCC =3.0V, VREG =2.7V, Freq=2450MHz, circuit per evaluation board schematic.
1800 to 2800
MHz With 802.11B modulation (11Mbit/s) and meeting 802.11B spectral mask.
22 27 25 2.5 24 30 -35 -38 -56 35 45 50 2:1 2.1 2.7 0 3.0 0.5 -32 -52 26 28.5
dBm dBm % % dB dB dBc dBc dBc dB POUT =21dBm, VCC =3.0V POUT =21dBm, VCC =3.0V In "OFF" state, PIN =-5.0dBm With external matching With external matching V V Voltage supplied to control input; device is "ON" Voltage supplied to control input; device is "OFF" PO =17dBm, EVM increases over 11g, 54MBPS signal input PIN =-7dBm
Power Down
VREG "ON" VREG "OFF"
Power Supply
Operating Voltage Current Consumption 3.0 to 5.0 500 200 110 VREG Current (Total) 5 10 10 15 220 V mA mA mA mA mA At max output power POUT =21dBm, VCC =3.0V Idle current, VCC =3.0V, VREG =2.7V VCC =3.0V VCC =5.0V
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Rev A13 DS071018
RF5117
Pin 1 Function RF IN Description
RF input. Matching network with DC block required, see evaluation board schematic for details.
Interface Schematic
VCC
Bond Wire Inductance RF IN BIAS
2 3
BIAS GND1 PWR SEN
Ground for first stage bias circuit. Not connected. The PWR SEN and PWR REF pins can be used in conjunction with an external feedback path to provide an RF power control function for the RF5117. The power control function is based on sampling the RF drive to the final stage of the RF5117.
See pin 5.
RF OUT
PWR SEN
PWR REF BIAS
4 5
PWR REF VREG1
Same as pin 3. This pin requires a regulated supply to maintain nominal bias current.
See pin 3.
VREG1 BIAS VREG2
BIAS GND1
BIAS GND2
6 7 8 9 10
VREG2 BIAS GND2 NC NC RF OUT
Same as pin 5. Ground for second stage bias circuit. For best performance connect to ground with a 10nH inductor. Not connected. Not connected. RF output and bias for the output stage. The power supply for the output transistor needs to be supplied to this pin. This can be done through a quarter-wave length microstrip line that is RF grounded at the other end, or through an RF inductor that supports the required DC currents. Same as pin 10. Same as pin 10.
See pin 5. See pin 5.
RF OUT
BIAS
11 12 13
RF OUT RF OUT VCC
See pin 10. See pin 10.
14 15 16 Pkg Base
VCC NC NC GND
Interstage match and bias for first stage output. Connect interstage match- See pin 1. ing capacitor to this pad with a short trace. Connect low-frequency bypass capacitors to this pin with a long trace. See evaluation board layout for details. Same as pin 13. See pin 1. Not connected. Not connected. Ground connection. The backside of the package should be connected to the ground plane through a short path, i.e., vias under the device will be required.
Rev A13 DS071018
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RF5117
Package Drawing
2 PLCS 0.10 C A
-A-
3.00 1.50 TYP 2 PLCS 0.10 C B 0.70 0.65
0.05 C 0.90 0.85 0.05 0.00
2
3.00 0.10 C B 2 PLCS 2.75 SQ 0.10 C A 2 PLCS 0.60 0.24 TYP 0.10 M C A B 0.30 0.18 PIN 1 ID R.20 1.45 SQ. 1.15 0.50 0.30 0.50
12 MAX
-C-
1.37 TYP
-B-
SEATING PLANE
Dimensions in mm. NOTES: 1. Shaded pin is lead 1. 2 Pin 1 identifier must exist on top surface of package by identification mark or feature on the package body. Exact shape and size is optional.
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Rev A13 DS071018
RF5117
Theory of Operation and Application Information
The RF5117 is a two-stage device with a nominal gain of 26dB in the 2.4GHz to 2.5GHz ISM band. The RF5117 is designed primarily for IEEE802.11B/11G WLAN applications where the available supply voltage and current are limited. This amplifier will operate to (and below) the lowest expected voltage made available by a typical PCMCIA slot in a laptop PC, and will maintain required linearity at decreased supply voltages. The RF5117 requires only a single positive supply of 3.0V nominal (or greater) to operate to full specifications. Power control is provided through two bias control input pins (VREG1 and VREG2), but in most applications these are tied together and used as a single control input. There is some external matching on the input and output of the part, thus allowing the part to be used in other applications outside the 2.4GHz to 2.5GHz ISM band (such as MMDS). Both the input and the output of the device need a series DC-blocking capacitor. In some cases, a capacitor used as a matching component can also serve as the blocking cap. The circuit used on the evaluation board is optimized for 3.0V nominal applications. For best results, the PA circuit layout from the evaluation board should be copied as closely as possible, particularly the ground layout and ground vias. Other configurations may also work, but the design process is much easier and quicker if the layout is copied from the RF5117 evaluation board. Gerber files of our designs can be provided upon request. The RF5117 is not a difficult part to implement, but care in circuit layout and component selection is always advisable when designing circuits to operate at 2.5GHz. The most critical passive components in the circuit are the input, interstage and output matching components (C1, C5, and C11). In these cases, high-Q capacitors suitable for RF applications are used on our evaluation board (a BOM is available on request). High-Q parts are not required in every design, but it is very strongly recommended that the original design be implemented with the same or similar parts used on our evaluation board. Then, less costly components can be substituted in their place, making it easy to test the impact of cheaper components on performance. General RFMD experience has indicated that the slightly higher cost of better quality passive components is more than offset by the significant improvements in production yields in large-volume manufacturing. Using less costly components will typically result in a 1 to 2dB degradation in gain. The interstage matching capacitor, C11, along with the combined inductance of the internal bond wire, the short length of circuit board trace, and the parasitic inductance of this capacitor, tunes the peak of the small-signal gain response. The trace length between C11 and pins 13 and 14 should be kept as short as possible. In practice, VCC and the supply for the output stage bias will be tied to the same supply. It is important to isolate C11 from other RF and low-frequency bypass capacitors on this supply line. This can be accomplished using a suitably long transmission line which is RF shorted on the other end. Ideally the length of this line will be a quarter wavelength, but it only needs to be long enough so that the effects of other supply bypass capacitors on the interstage match are minimized. If board space is a concern, this isolation can also be accomplished with an RF choke inductor or ferrite bead. Additionally, a higher-value capacitor than shown on the application schematic can be used if bypass capacitors must be closer. A Smith Chart can be used to provide initial guidance for value selection and parts placement. Be aware of the self-resonant frequency (SRF) of higher-valued capacitors. The SRF must be above the frequency of operation. The output matching capacitor is C5, located 130mils from the IC (this distance should be duplicated as closely as possible). Due to variations in FR-4 characteristics and PCB manufacturer process variations, some benefit will be obtained from small adjustments to these transmission line lengths when the evaluation board layout is duplicated on another design. Prior to full rate manufacturing, the board layout of early prototypes should include some additional exposed ground areas around C5 to optimize this part of the circuit. A Smith Chart can help determine the desired value and transmission line length, which can be similarly adjusted on the board prior to production.
Rev A13 DS071018
7628 Thorndike Road, Greensboro, NC 27409-9421 * For sales or technical support, contact RFMD at (+1) 336-678-5570 or sales-support@rfmd.com.
5 of 12
RF5117
The RF5117 can be used with an IEEE802.11g modulation with a few modifications. Pin 2 should not be connected to ground and a 4.7k resistor should be placed on the VREG1 line. This is done on the evaluation board by cutting the VREG1 trace and placing the resistor on the open line. All other components should not be modified and the IEEE802.11g schematic should be followed as closely as possible. Power sensing is implemented with the PWR SEN and PWR REF lines. The outputs of these pins are transistor collectors and need to be pulled up to the supply through a resistor. PWR REF provides an output current proportional to the output stage bias current, and PWR SEN provides an output current proportional to the total (RF and bias) current of the output stage. The pullup resistors convert these currents to voltages, and the voltage difference between these two pins is proportional to the RF current. See the graph, "VREF -VSENSE versus POUT", for the response of this signal. This difference signal can be fed to a power control circuit elsewhere in the end product, or it can be processed at the PA with additional circuitry and used to adjust the VREG voltage(s) to implement automatic level control. Contact RFMD Sales or Applications Engineering for additional data and guidance in using this feature. The RF5117 has primarily been characterized with a voltage on VREG1 and VREG2 of 2.7VDC. However, the RF5117 will operate from a wide range of control voltages. If you prefer to use a control voltage that is significantly different than 2.7VDC, contact RFMD Sales or Applications Engineering for additional data and guidance.
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Rev A13 DS071018
RF5117
Evaluation Board Schematic - IEEE802.11b 2400MHz to 2483MHz
VCC C23 1 F
C14 1 nF C12 1 nF
*2
Part is Backside Grounded.
C22 10 F
+
C11 6.8 pF
JOH
C10 1 nF C9 10 pF
J1 RF IN
50 strip R2 390 R1 390 C2 1 nF C15 1 nF
C1 10 pF
L3 1.2 nH
Murata
16 1
15
14
13 12 11 10 TL1 C5 2.7 pF
JOH
L1 12 nH
C17 2.7 pF
JOH
TL1 = 130 mil (50 )
2 3 4 5 Bias 6 7 8
C8 10 pF
*1
50 strip
J2 RF OUT
9
5117400B
PWR SENSE
C16 1 nF
C3 1 nF
C13 1 nF
L2 10 nH P1-1 P1-2
P1 1 2 3 PS REF PWR SENSE GND VREG1 VREG2 P3-1 P2-3
P2 1 2 3 CON3 P3 1 CON1 P4 1 CON1 GND VCC GND GND VCC
PS REF VREG1 Notes: 1. C7 - 130 mils from chip. 2. Place C11 as close to chip as possible. VREG2 P1-4 P1-5
4 5 CON5
Rev A13 DS071018
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RF5117
Evaluation Board Schematic - IEEE802.11g 2400MHz to 2483MHz
C23 1 F VCC
C14 1 nF C12 1 nF
*3
Part is Backside Grounded.
Place C11 as close to chip as possible
C22 10 F
+
C11 6.8 pF
JOH
C10 1 nF C9 10 pF
J1 RF IN
50 strip R2 390 R1 390 C2 1 nF C15 1 nF
C1 10 pF
L3 1.2 nH
Murata
16 1
15
14
13 12 TL1
L1 12 nH
C17 2.7 pF
JOH
TL1 = 130 mil (50 )
*2
2 3 4 5 Bias 6 7 8
11 10 9 C5 2.7 pF
JOH
C8 10 pF
*1
50 strip
J2 RF OUT
5117400B
PWR SENSE
C16 1 nF
C3 1 nF R3 4.3 k
C13 1 nF
L2 10 nH P1-1 P1-2
P1 1 2 3 P1-4 4 5 CON5 PS REF PWR SENSE GND VREG1 VREG2 P3-1 P2-3
P2 1 2 3 CON3 P3 1 CON1 P4 1 CON1 GND VCC GND GND VCC
PS REF Notes: 1. C7 - 130 mils from chip. 2. Pin 2 cut from ground. 3. C11 must be placed as close to chip as possible. 4. The VREG trace is cut and a 4.7 k resistor is placed on the trace.
*4
VREG1
VREG2 P1-5
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Rev A13 DS071018
RF5117
Evaluation Board Layout Board Size 1.5" x 2.0"
Board Thickness 0.031", Board Material FR-4, Multi-Layer
Rev A13 DS071018
7628 Thorndike Road, Greensboro, NC 27409-9421 * For sales or technical support, contact RFMD at (+1) 336-678-5570 or sales-support@rfmd.com.
9 of 12
RF5117
ICQ, ICC, POUT versus VREG (Typical)
200.0 180.0 160.0 140.0
IREG, POUT versus VREG (Typical)
25.0 20.0 15.0 10.0 10.0 9.0 8.0 7.0
VCC = 3.0, PIN = -5.0 dBm
VCC = 3.0, PIN = -5.0 dBm
25.0 20.0 15.0 10.0
ICC, ICQ (mA)
POUT (dBm)
100.0 80.0 60.0 40.0 Icq 20.0 0.0 1.0 1.5 2.0 2.5 3.0 Icc Pout
0.0 -5.0 -10.0 -15.0 -20.0 -25.0
5.0 4.0 3.0 2.0 Icq 1.0 Pout 0.0 1.0 1.5 2.0 2.5 3.0
0.0 -5.0 -10.0 -15.0 -20.0 -25.0
VREG1 , VREG2 (VDC)
802.11B, 5117 proto Ref
30 20 * RBW 100 kHz * VBW 30 kHz
VREG1 , VREG2 (VDC)
Marker 1 [T1] 22.01 dBm 2.441839744 GHz Delta 2 [T1] -40.55 11.723076923 Delta 3 [T1] -56.56 -23.900000000 dB MHz dB MHz
LVL
802.11B, 5117 proto Ref 30 dBm 18.8 dB 1 Att 40 dB
30 dBm Offset 18.8 dB 1
SWT 35 ms
* RBW 100 kHz * VBW 30 kHz SWT 35 ms
Marker 1 [T1] 2.441839744 GHz Delta 2 [T1] -42.31 11.723076923 Delta 3 [T1] -58.92 -23.900000000 dB MHz dB MHz LVL
30 Offset
A
IFOVL 1 RM * AVG
10
IFOVL 1 RM * AVG
20
10
0
0
-10 PRN
-10 PRN -20 2 SWP -30 3 -40 20 of 20
2
-20
SWP
-30
20 of
20
3
-40
-50
-50
-60
-60
-70
Center
2.442 GHz
5 MHz/
Span 50 MHz
-70 Center 2.442 G H z 5 MHz/ Span 50 MHz
Comment A: 8 MHz int LPF's, Vcc=3.0 Vreg= 2.7, 200 mA Date: 26.SEP.2001 01:10:29
Comment A: 8 MHz int LPF's, Vcc=Vreg= 2.7, 150 mA Date: 26.SEP.2001 01:11:53
Spectral Plot: VCC =3.0V, VREG1 =VREG2 =2.7V POUT =22.05dBm, PIN =-4.1dBm, ICC ~200mA
Spectral Plot: VCC =2.7V, VREG1 =VREG2 =2.7V POUT =19.05dBm, PIN =-6.8dBm, ICC ~150mA
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Rev A13 DS071018
POUT (dBm)
120.0
5.0
IREG (Total) (mA)
6.0
5.0
RF5117
VREF-VSENSE versus POUT
0.5
0.0
log10 (VREF-VSENSE)
-0.5
-1.0
-1.5
-2.0
-2.5 -15.0 -10.0 -5.0 0.0 5.0 10.0 15.0 20.0 25.0 30.0
POUT
Rev A13 DS071018
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11 of 12
RF5117
EVM versus POUT (11g Tuned PA)
140
EVM versus POUT (11g Tuned PA)
7.0 140.0
VCC = 3.0V, Gain = 23dB
VCC = 3.3V, Gain = 23dB
7.0
120
6.0
120.0
6.0
100
5.0
100.0
5.0
EVM% (added by PA)
ICC (mA)
60
3.0
ICC (mA)
80
Icc(mA)2.4Vreg Icc(mA)2.5Vreg Icc(mA)2.6Vreg Icc(mA)2.7Vreg EVM%2.4Vreg EVM%2.5Vreg EVM%2.6Vreg EVM%2.7Vreg
4.0
80.0
4.0
60.0
3.0
40
2.0
40.0
20
1.0
20.0
Icc(mA)2.4Vreg Icc(mA)2.5Vreg Icc(mA)2.6Vreg Icc(mA)2.7Vreg EVM%2.4Vreg EVM%2.5Vreg EVM%2.6Vreg EVM%2.7Vreg 16.0 16.5 17.0 17.5 18.0 18.5
2.0
1.0
0 14 14.5 15 15.5 16 16.5 17 17.5 18
0.0
0.0 15.5
0.0 19.0
POUT (dBm)
POUT (dBm)
25 24.5 24 23.5 23 22.5 22 21.5 21 20.5 20 2.2 2.4
ICC and Gain for 11b Waveform in 11g Tuned PA
250 240 230 220 210 200 190 180
Gain (3V, Po=22.5dBm) Gain (3.3V, Po=23dBm) Icc (3V, Po=22.5dBm) Icc (3.3V, Po=23dBm) 2.6 2.8 3 3.2 3.4
170 160 150
VREG (V)
Evaluation Board with 11g Tuning
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Total ICC (mA)
Gain (dB)
Rev A13 DS071018
EVM% (added by PA)

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