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XP1031-QK

MA-COM
Part Number XP1031-QK
Manufacturer MA-COM
Description Power Amplifier
Published Apr 19, 2016
Detailed Description XP1031-QK Power Amplifier 37.0-40.0 GHz Rev. V1 Features  Linear Power Amplifier  Output Power Adjust  25.0 dB Sma...
Datasheet PDF File XP1031-QK PDF File

XP1031-QK
XP1031-QK

Overview
XP1031-QK Power Amplifier 37.
0-40.
0 GHz Rev.
V1 Features  Linear Power Amplifier  Output Power Adjust  25.
0 dB Small Signal Gain  +25.
0 dBm P1dB Compression Point  +35.
5 dBm OIP3  RoHS* Compliant and 260°C Reflow Compatible Functional Block Diagram/Board Layout Description M/A-COM Tech’s four stage 37.
0-40.
0 GHz SMD GaAs MMIC power amplifier has a small signal gain of 25.
0 dB with a +35.
5 dBm Output Third Order Intercept.
This MMIC uses M/A-COM Tech’s GaAs PHEMT device model technology, and is based upon electron beam lithography to ensure high repeatability and uniformity.
The device comes in a RoHS compliant 7x7mm QFN Surface Mount Package offering excellent RF and thermal properties.
This device is well suited for Millimeterwave Point-to-Point Radio, LMDS, SATCOM and VSAT applications.
Pin Configuration Pin No.
Function 3 Ground 4 RF Input 5 Ground 13 Gate bias for Stage 1-4 17 Ground Pin No.
18 19 23 All other pins Function RF Output Ground Drain bias for Stage 1-4 Not Connected Ordering Information Absolute Maximum Ratings 1,2 Part Number XP1031-QK-0N00 XP1031-QK-0N0T XP1031-QK-EV1 Package bulk quantity tape and reel XP1031-QK evaluation board Parameter Absolute Max.
Supply Voltage (Vd) +4.
3V Supply Current (Id) 800 mA Gate Bias Voltage (Vg) 1.
5V < Vg < 0V Input Power (Pin) +10 dBm Abs.
Max Junction/Channel Temp Max.
Operating Junction/Channel Temp Continuous Power Dissipation (Pdiss) at 85 °C MTTF Graph 1 175 °C 2.
80 W Thermal Resistance (Tchannel=150 °C) 23 °C/W Operating Temperature (Ta) -40 °C to +85 °C Storage Temperature (Tstg) Mounting Temperature ESD Min.
- Machine Model (MM) -65 °C to +150 °C See solder reflow profile Class A ESD Min.
- Human Body Model (HBM) Class 1A MSL Level MSL3 (1) Channel temperature directly affects a device's MTTF.
Channel temperature should be kept as low as possible to maximize lifetime.
(2) For saturated performance it is recommended that the sum of (2*Vdd + abs(Vgg)) <9V 1 ADVAN...


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