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| RF3376 0 Pb-Free Product Typical Applications * Basestation Applications * Broadband, Low-Noise Gain Blocks * IF or RF Buffer Amplifiers Product Description The RF3376 is a general purpose, low-cost RF amplifier IC. The device is manufactured on an advanced Gallium Arsenide Heterojunction Bipolar Transistor (HBT) process, and has been designed for use as an easily-cascadable 50 gain block. Applications include IF and RF amplification in wireless voice and data communication products operating in frequency bands up to 6000MHz. The device is self-contained with 50 input and output impedances and requires only two external DC-biasing elements to operate as specified. 1.04 0.80 0.50 0.30 1.60 1.40 GENERAL PURPOSE AMPLIFIER * Driver Stage for Power Amplifiers * Final PA for Low-Power Applications * High Reliability Applications 3.10 2.90 0.48 0.36 2 PL 4.60 4.40 2.60 2.40 Shaded lead is pin 1. Dimensions in mm. 1.80 1.45 1.75 1.40 0.43 0.38 0.53 0.41 Optimum Technology Matching(R) Applied Si BJT Si Bi-CMOS InGaP/HBT GaAs HBT SiGe HBT GaN HEMT GaAs MESFET Si CMOS SiGe Bi-CMOS Package Style: SOT89 Features * DC to >6000MHz Operation * Internally Matched Input and Output * 22dB Small Signal Gain * +2.0dB Noise Figure * +11dBm Output P1dB 1 RF IN GND 4 2 GND 3 RF OUT Ordering Information RF3376 General Purpose Amplifier RF3376PCBA-410 Fully Assembled Evaluation Board Functional Block Diagram RF Micro Devices, Inc. 7628 Thorndike Road Greensboro, NC 27409, USA Tel (336) 664 1233 Fax (336) 664 0454 http://www.rfmd.com Rev A5 050310 4-599 RF3376 Absolute Maximum Ratings Parameter Input RF Power Operating Ambient Temperature Storage Temperature ICC Rating +3 -40 to +85 -60 to +150 40 Unit dBm C C mA 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). Parameter Overall Frequency Range 3dB Bandwidth Gain Specification Min. Typ. Max. DC to >6000 2 23.5 22.5 19.8 18.0 16.0 12.8 2.0 <2:1 <2:1 +24.4 +23.4 +11.5 +11.5 22.5 216 109 Unit MHz GHz dB dB dB dB Condition T=25 C, ICC =35mA (See Note 1.) 22.0 21.0 18.0 Noise Figure Input VSWR Output VSWR Output IP3 Output P1dB Reverse Isolation dB +22.0 +21.5 +9.5 +9.5 dBm dBm dBm dBm dB C/W C Thermal ThetaJC Maximum Measured Junction Temperature at DC Bias Conditions Mean Time To Failures Freq=500MHz Freq=1000MHz Freq=2000MHz Freq=3000MHz Freq=4000MHz Freq=6000MHz Freq=2000MHz In a 50 system, DC to 4500MHz In a 50 system, DC to 6000MHz Freq=1000MHz Freq=2000MHz Freq=1000MHz Freq=2000MHz Freq=2000MHz ICC =35mA, PDISS =110mW. (See Note 3.) TCASE =+85C TCASE =+85C With 22 bias resistor Device Operating Voltage 3.4 3.5 V At pin 8 with ICC =35mA 4.2 4.5 v At evaluation board connector, ICC =35mA Operating Current 35 40 mA See Note 2. Note 1: All specification and characterization data has been gathered on standard FR-4 evaluation boards. These evaluation boards are not optimized for frequencies above 2.5GHz. Performance above 2.5GHz may improve if a high performance PCB is used. Note 2: The RF3376 must be operated at or below 40mA in order to achieve the thermal performance listed above. While the RF3376 may be operated at higher bias currents, 35mA is the recommended bias to ensure the highest possible reliability and electrical performance. Note 3: Because of process variations from part to part, the current resulting from a fixed bias voltage will vary. As a result, caution should be used in designing fixed voltage bias circuits to ensure the worst case bias current does not exceed 40mA over all intended operating conditions. 35000 years Power Supply 4-600 Rev A5 050310 RF3376 Pin 1 Function RF IN Description RF input pin. This pin is NOT internally DC blocked. A DC blocking capacitor, suitable for the frequency of operation, should be used in most applications. DC coupling of the input is not allowed, because this will override the internal feedback loop and cause temperature instability. Ground connection. RF output and bias pin. Biasing is accomplished with an external series resistor and choke inductor to VCC. The resistor is selected to set the DC current into this pin to a desired level. The resistor value is determined by the following equation: Interface Schematic 2 3 GND RF OUT ( V SUPPLY - V DEVICE ) R = -----------------------------------------------------I CC Care should also be taken in the resistor selection to ensure that the current into the part never exceeds 40mA over the planned operating temperature. This means that a resistor between the supply and this pin is always required, even if a supply near 3.4V is available, to provide DC feedback to prevent thermal runaway. Because DC is present on this pin, a DC blocking capacitor, suitable for the frequency of operation, should be used in most applications. The supply side of the bias network should also be well bypassed. Ground connection. RF OUT RF IN 4 GND Rev A5 050310 4-601 RF3376 Application Schematic VCC 4 22 100 pF + 1 F 100 pF RF IN 1 2 3 100 nH RF OUT 100 pF Evaluation Board Schematic (Download Bill of Materials from www.rfmd.com.) P1 P1-1 1 2 3 CON3 R1 22 L1 100 nH C2 100 pF C3 100 pF + C4 1 F VCC1 GND 4 VCC J1 RF IN 50 strip C1 100 pF 1 2 3 50 strip J2 RF OUT 337x410, r.1 4-602 Rev A5 050310 RF3376 Evaluation Board Layout Board Size 1.195" x 1.000" Board Thickness 0.033", Board Material FR-4 Rev A5 050310 4-603 RF3376 Gain versus Frequency Across Temperature 25.0 Output P1dB versus Frequency Across Temperature 16.0 (ICC=35mA) (ICC=35mA) 14.0 20.0 Output Power (dBm) 12.0 Gain (dB) 15.0 10.0 8.0 10.0 6.0 -40C 25C 85C 5.0 0.0 1000.0 2000.0 3000.0 4000.0 5000.0 6000.0 7000.0 4.0 0.0 1000.0 2000.0 3000.0 4000.0 5000.0 6000.0 7000.0 -40C 25C 85C Frequency (MHz) Frequency (MHz) Output IP3 versus Frequency Across Temperature 30.0 Noise Figure versus Frequency Across Temperature 3.5 (ICC=35mA) (ICC=35mA) 25.0 3.0 2.5 Noise Figure (dB) 20.0 OIP3 (dBm) 2.0 15.0 1.5 10.0 1.0 5.0 -40C 25C 85C 0.0 0.0 1000.0 2000.0 3000.0 4000.0 5000.0 6000.0 7000.0 0.5 -40C 25C 85C 0.0 500.0 1000.0 1500.0 2000.0 2500.0 3000.0 3500.0 0.0 Frequency (MHz) Frequency (MHz) Input VSWR versus Frequency Across Temperature 4.0 Output VSWR versus Frequency Across Temperature 2.5 (ICC=35mA) (ICC=35mA) 3.5 3.0 2.0 VSWR 2.5 VSWR 1.5 2.0 1.5 -40C 25C 85C 1.0 0.0 1000.0 2000.0 3000.0 4000.0 5000.0 6000.0 7000.0 1.0 0.0 1000.0 2000.0 3000.0 4000.0 5000.0 6000.0 7000.0 -40C 25C 85C Frequency (MHz) Frequency (MHz) 4-604 Rev A5 050310 RF3376 -10.0 Reverse Isolation versus Frequency Across Temperature (ICC=35mA) Junction Temperature versus Power Dissipated 140.00 (TAMBIENT=85C) 130.00 -15.0 Junction Temperature (C) -40C 25C 85C 0.0 1000.0 2000.0 3000.0 4000.0 5000.0 6000.0 7000.0 Reverse Isolation (dB) 120.00 110.00 -20.0 100.00 90.00 -25.0 80.00 -30.0 70.00 0.07 0.08 0.09 0.10 0.11 0.12 0.13 Frequency (MHz) Power Dissipation versus Device Voltage Across Temperature (TAMBIENT=+85C) 0.20 0.18 50.0 0.16 0.14 40.0 0.12 0.10 0.08 20.0 0.06 0.04 10.0 0.02 0.00 3.10 3.12 3.14 3.16 3.18 3.20 3.22 3.24 3.26 3.28 3.30 0.0 3.2 3.4 3.6 60.0 Power Dissipated (Watts) Bias Current versus Supply Voltage Across Temperature (At evaluation board connector, RBIAS=22) Power Dissipated (W) ICC (mA) 30.0 -40C 25C 85C 3.8 4.0 4.2 4.4 4.6 4.8 VPIN (V) Bias Current versus Devices Voltage Across Temperature (At Pin 3 of the RF3376) 60.0 55.0 50.0 45.0 40.0 VCC (V) ICC (mA) 35.0 30.0 25.0 20.0 -40C 15.0 10.0 3.0 3.2 3.4 3.6 3.8 25C 85C VPIN (V) Rev A5 050310 4-605 RF3376 4-606 Rev A5 050310 |
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