RF2878
0
RoHS Compliant & Pb-Free Product Typical Applications • TDMA/CDMA/FM Cellular PCS LNA • Low Noise Transmit Driver Amplifier • General Purpose Amplification • Commercial and Consumer Systems
3V LOW NOISE AMPLIFIER/ 3V PA DRIVER AMPLIFIER
Product Description
The RF2878 is a low noise amplifier with a very high dynamic range designed for digital cellular applications. The device functions as an outstanding front end low noise amplifier or power amplifier driver amplifier in the transmit chain of digital subscriber units where low transmit noise power is a concern. When used as an LNA, the bias current can be set externally. When used as a PA driver, the IC can operate directly from a single cell Li-ion battery and includes a power down feature that can be used to completely turn off the device. The IC is featured in a standard SOT 5-lead plastic package. NOTE: The RF2878 is a Pb-free product. If a non-Pb-free product with the same functionality and package is desired, please see the RF2361. Optimum Technology Matching® Applied
Si BJT Si Bi-CMOS InGaP/HBT GaAs HBT SiGe HBT GaN HEMT GaAs MESFET Si CMOS SiGe Bi-CMOS
1.60 + 0.01 0.400
1
0.15 0.05
2.90 + 0.10
0.950
2.80 + 0.20 3° MAX 0° MIN 0.45 + 0.10 0.127
1.44 1.04
Dimensions in mm.
Package Style: SOT 5-Lead
Features • Low Noise and High Intercept Point • Adjustable Bias Current • Power Down Control • Single 2.5V to 6.0V Power Supply • 150MHz to 2500MHz Operation • Extremely Small SOT 5-Lead Package
RF IN
1
5
GND2
GND1
2
VPD
3
4
RF OUT
Ordering Information
RF2878 3V Low Noise Amplifier/ 3V PA Driver Amplifier RF2878 PCBA-D Fully Assembled Evaluation Board (Driver) RF2878 PCBA-L Fully Assembled Evaluation Board (LNA) RF Micro Devices, Inc. 7628 Thorndike Road Greensboro, NC 27409, USA Tel (336) 664 1233 Fax (336) 664 0454 http://www.rfmd.com
Functional Block Diagram
Rev A0 060206
4-331
RF2878
Absolute Maximum Ratings Parameter
Supply Voltage, VCC Power Down Voltage, VPD Input RF Level Operating Ambient Temperature Storage Temperature
Rating
-0.5 to +8.0 < VCC +10 -40 to +85 -40 to +150
Unit
VDC VDC dBm °C °C
Caution! ESD sensitive device.
RF Micro Devices believes the furnished information is correct and accurate at the time of this printing. RoHS marking based on EUDirective2002/95/EC (at 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).
Parameter
Overall
RF Frequency Range
Specification Min. Typ. Max.
150 to 2500
Unit
MHz
Condition
Low Noise Amplifier 881MHz Performance
Gain Noise Figure Input IP3 19.5 19.5 20 20 1.4 1.4 +6.0 +5.5 dB dB dB dB dBm dBm
1.6 1.6
Low Noise Amplifier 1950MHz Performance
Gain Noise Figure Input IP3 12.5 12.5 13 13 1.3 1.3 +16.5 +16.0 dB dB dB dB dBm dBm
1.5 1.5
Driver Amplifier 836MHz Performance
Gain 19.5 19.5 19.5 25 20.5 20.5 20.5 +32.0 +29.0 +27.8 1.9 1.85 1.8 25 25 25 1.8:1 1.25:1 14.4 12.5 11.5 21.5 21.5 21.5 35 dB dB dB dBm dBm dBm dB dB dB dB dB dB
Schematic per LNA Application; T=25°C, RF=881MHz, VPD =2.8V, R1=1k Ω VCC =3.0V, ICC =7.6mA VCC =2.7V, ICC =7.5mA VCC =3.0V, ICC =7.6mA VCC =2.7V, ICC =7.5mA VCC =3.0V, ICC =7.6mA VCC =2.7V, ICC =7.5mA Schematic per LNA Application; T=25°C, RF=1950MHz, VPD =2.8V, R1=1k Ω VCC =3.0V, ICC =6.4mA VCC =2.7V, ICC =6.3mA VCC =3.0V, ICC =6.4mA VCC =2.7V, ICC =6.3mA VCC =3.0V, ICC =6.4mA VCC =2.7V, ICC =6.3mA Schematic per Driver Amplifier Application; T=25°C, RF=836MHz, VPD =2.8V VCC =3.5V VCC =3.0V VCC =2.7V VCC =3.5V VCC =3.0V VCC =2.7V VCC =3.5V VCC =3.0V VCC =2.7V VCC =3.5V VCC =3.0V VCC =2.7V Using External LC network used on evaluation board. VCC =3.5V VCC =3.0V VCC =2.7V
Output IP3
Noise Figure
2.0 2.0 2.0
Reverse Isolation
Input VSWR Output VSWR P1dB 13 12 10.5
2.0:1 2.0:1 dBm dBm dBm
4-332
Rev A0 060206
RF2878
Parameter
Power Supply
Voltage (VCC) Voltage (VPD) Current Consumption Driver Amplifier 2.7 12.5 2.5 to 6.0 2.8 21.5 2.9 27 V V mA
Min.
Specification Typ. Max.
Unit
T = 25 °C
Condition
18 19 Power Down
20 23
22 29 10
mA mA μA
Driver Amplifier 1880MHz Performance
Gain 13.0 13.0 13.0 27 14.0 14.0 14.0 +35.0 +31.0 +28.8 1.85 1.8 1.75 19 19 19 1.6:1 1.6:1 15.6 14.1 13.1 2.5 to 6.0 2.8 19.5 14.5 14.5 14.5 38 dB dB dB dBm dBm dBm dB dB dB dB dB dB
VCC =3.5V; VPD =2.8V; VPD +VCC - Current Consumption from VPD is 2.0mA Typ. @ VPD =2.8V and 3.0mA Max @ VPD =2.9 V VCC =3.5V; VPD =2.7V; VPD + VCC VCC =3.5V; VPD =2.9V; VPD + VCC VCC =3.5V; VPD ≤ 0.9 V Schematic per Driver Amplifier Application; T=25°C, RF=1880MHz, VPD =2.8V VCC =3.5V VCC =3.0V VCC =2.7V VCC =3.5V VCC =3.0V VCC =2.7V VCC =3.5V VCC =3.0V VCC =2.7V VCC =3.5V VCC =3.0V VCC =2.7V Using External LC network used on evaluation board. VCC =3.5V VCC =3.0V VCC =2.7V T = 25 °C
Output IP3
Noise Figure
2.0 2.0 2.0
Reverse Isolation
Input VSWR Output VSWR P1dB 14 13 12
2.0:1 2.0:1 dBm dBm dBm V V mA
Power Supply
Voltage (VCC) Voltage (VPD) Current Consumption Driver Amplifier 2.7 11.5 2.9 25.5
16 18 Power Down
18 20.5
20 27 10
mA mA μA
VCC =3.5V; VPD =2.8V; VPD +VCC - Current Consumption from VPD is 2.0mA Typ.@ VPD =2.8V and 3.0mA Max @ VPD =2.9 V VCC =3.5V; VPD =2.7V; VPD + VCC VCC =3.5V; VPD =2.9V; VPD + VCC VCC =3.5V; VPD ≤ 0.9 V
Rev A0 060206
4-333
RF2878
Pin 1 Function RF IN Description
RF input pin. This pin is DC coupled and matched to 50 Ω at 836 MHz.
Interface Schematic
To Bias Circuit RF OUT RF IN
2 3
GND1 VPD
Ground connection. For best performance, keep traces physically short and connect immediately to ground plane. For low noise amplifier applications, this pin is used to control the bias current. See plots for bias current settings. An external resistor (R1) can be used to set the bias current for any VPD voltage. For driver amplifier applications, this is the Power Down pin for the IC. VPD =2.8V +/- 0.1V is required for proper operation. VPD< 0.9V turns off the Part. External RF bypassing is required. The trace length between the pin and the bypass capacitors should be minimized. The ground side of the bypass capacitors should connect immediately to ground plane. Nominal current required for VPD =2.8V is 2.0mA typical and 3.0mA Max (@ VPD =2.9V).
PD
4
RF OUT
5
GND2
Amplifier Output pin. This pin is an open-collector output. It must be biased to either VCC or pin 4 through a choke or matching inductor. This pin is typically matched to 50 Ω with a shunt bias/matching inductor and series blocking/matching capacitor. Refer to application schematics. Ground connection. For best performance, keep traces physically short and connect immediately to ground plane.
4-334
Rev A0 060206
RF2878
Application Schematic: Low Noise Amplifier ~881MHz Operation
J1 RF IN 22 nF 1 5
2 1k Ω VPD 10 nF 100 pF 3 4 12 nH VCC 100 pF 10 nF 2 pF
J2 RF OUT
Application Schematic: Low Noise Amplifier ~1950MHz Operation
J1 RF IN 22 nF 1 5
2 1k Ω VPD 10 nF 100 pF 3 4 3.3 nH VCC 100 pF 10 nF 1 pF
J2 RF OUT
Rev A0 060206
4-335
RF2878
Application Schematic: Driver Amplifier ~836MHz Operation
J1 RF IN 22 nF 1 5
2 0Ω VPD 10 nF 100 pF 3 4 12 nH VCC 100 pF 10 nF 2 pF
J2 RF OUT
Application Schematic: Driver Amplifier ~1880MHz Operation
J1 RF IN 22 nF 1 5
2 0Ω VPD 10 nF 100 pF 3 4 3.3 nH VCC 100 pF 10 nF 1 pF
J2 RF OUT
4-336
Rev A0 060206
RF2878
Evaluation Board Schematic: Low Noise Amplifier ~881MHz Operation
P1 P1-1 1 2 P1-3 C7 4.7 μF 3 VPD GND VCC
J1 RF IN
50 Ω μstrip
C3 22 nF 1 5
2 R1 0Ω VPD C1 10 nF C2 220 pF
2878401 r-
C4 2 pF 3 4 L1 12 nH
50 Ω μstrip
J2 RF OUT
VCC C5 220 pF C6 10 nF
Evaluation Board Schematic: Driver Amplifier ~836MHz Operation
P1 P1-1 1 2 P1-3 C7 4.7 μF 3 VPD GND VCC
J1 RF IN
50 Ω μstrip
C3 22 nF 1 5
2 R1 0Ω VPD C1 10 nF C2 220 pF
2878400 r1
C4 2 pF 3 4 L1 12 nH
50 Ω μstrip
J2 RF OUT
VCC C5 220 pF C6 10 nF
Rev A0 060206
4-337
RF2878
Evaluation Board Layout - 900MHz Driver Board Size 0.948” x 1.063”
Board Thickness 0.031”; Board Material FR-4
Evaluation Board Layout - 900MHz LNA
4-338
Rev A0 060206
RF2878
26.0 25.5 25.0 24.5 24.0 23.5
Driver Amp 836 MHz ICC versus VPD
2.7V Icc (mA) 3.0V Icc (mA) 3.3V Icc (mA) 3.6V Icc (mA)
20.92 20.90 20.88 20.86 20.84 20.82 20.80 20.78 20.76 20.74 20.72 2.70
Driver Amp 836 MHz Gain versus VPD
2.7V Gain (dB) 3.0V Gain (dB) 3.3V Gain (dB) 3.6V Gain (dB)
ICC (mA)
23.0 22.5 22.0 21.5 21.0 20.5 20.0 19.5 19.0 2.7 2.8 2.9 3.0
Gain (dB)
2.80
2.90
3.00
VPD
VPD
33.0
Driver Amp 836 MHz OIP3 versus VPD
2.7V OIP3 (dBm) 3.0V OIP3 (dBm) 3.3V OIP3 (dBm) 3.6V OIP3 (dBm)
15.0
Driver Amp 836 MHz POUT 1dB versus VPD
14.5 2.7V P 1dB (dBm) 3.0V P 1dB (dBm) 3.3V P 1dB (dBm) 3.6V P 1dB (dBm)
32.0
14.0 31.0
POUT 1dB (dBm)
13.5
OIP3 (dBm)
30.0
13.0
12.5
29.0 12.0 28.0 11.5
27.0 2.7 2.8 2.9 3.0
11.0 2.7 2.8 2.9 3.0
VPD
VPD
2.05
Driver Amp 836 MHz Noise Figure versus VPD
2.7V NF (dB) 3.0V NF (dB) 3.3V NF (dB) 3.6V NF (dB)
2.00
1.95
NF (dB)
1.90
1.85
1.80
1.75
1.70 2.70
2.80
2.90
3.00
VPD
Rev A0 060206
4-339
RF2878
19.95
Low Noise Amplifier 881 MHz Gain versus ICC
2.7V Gain (dB) 3.0V Gain (dB) 3.3V Gain (dB) 3.6V Gain (dB)
29.0 28.5 28.0 27.5
Low Noise Amplifier 881 MHz OIP3 versus ICC
2.7V OIP3 (dBm) 3.0V OIP3 (dBm) 3.3V OIP3 (dBm) 3.6V OIP3 (dBm)
19.90
19.85
19.80
19.75
OIP3 (dBm)
6.50 7.00 7.50 8.00 8.50 9.00 9.50 10.00
Gain (dB)
27.0 26.5 26.0 25.5
19.70
19.65 25.0 19.60 24.5 24.0 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5 10.0
19.55 6.00
ICC
ICC (mA)
9.0 8.5 8.0 7.5
Low Noise Amplifier 881 MHz IIP3 versus ICC
2.7V IIP3 (dBm) 3.0V IIP3 (dBm) 3.3V IIP3 (dBm) 3.6V IIP3 (dBm)
13.5
Low Noise Amplifier 881 MHz POUT 1dB versus ICC
2.7V Pout 1dB (dBm) 3.0V Pout 1dB (dBm) 3.3V Pout 1dB (dBm) 3.6V Pout 1dB (dBm)
13.0
12.5
POUT 1dB (dBm)
IIP3 (dBm)
7.0 6.5 6.0 5.5
12.0
11.5
11.0
10.5 5.0 4.5 4.0 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5 10.0 10.0
9.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5 10.0
ICC (mA)
ICC (mA)
1.42 1.41 1.40 1.39
Low Noise Amplifier 881 MHz Noise Figure versus ICC
2.7V NF (dB) 3.0V NF (dB) 3.3V NF (dB) 3.6V NF (dB)
NF (dB)
1.38 1.37 1.36 1.35 1.34 1.33 6.00
6.50
7.00
7.50
8.00
8.50
9.00
9.50
10.00
ICC
4-340
Rev A0 060206
RF2878
PCB Design Requirements
PCB Surface Finish The PCB surface finish used for RFMD's qualification process is electroless nickel, immersion gold. Typical thickness is 3 μinch to 8 μinch gold over 180 μinch nickel. PCB Land Pattern Recommendation PCB land patterns for RFMD components are based on IPC-7351 standards and RFMD empirical data. The pad pattern shown has been developed and tested for optimized assembly at RFMD. The PCB land pattern has been developed to accommodate lead and package tolerances. Since surface mount processes vary from company to company, careful process development is recommended. PCB Metal Land Pattern
A = 0.70 x 1.00 (mm) Typ.
Dimensions in mm.
Pin 1
Pin 5
A 0.95 Typ. A
A
1.90 Typ.
A
A
2.60
Figure 1. PCB Metal Land Pattern (Top View)
Rev A0 060206
4-341
RF2878
PCB Solder Mask Pattern Liquid Photo-Imageable (LPI) solder mask is recommended. The solder mask footprint will match what is shown for the PCB metal land pattern with a 2mil to 3mil expansion to accommodate solder mask registration clearance around all pads. The center-grounding pad shall also have a solder mask clearance. Expansion of the pads to create solder mask clearance can be provided in the master data or requested from the PCB fabrication supplier.
A = 0.90 x 1.20 (mm) Typ.
Dimensions in mm.
Pin 1
Pin 5
A 0.95 Typ. A
A
1.90 Typ.
A
A
2.60
Figure 2. PCB Solder Mask (Top View)
4-342
Rev A0 060206
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