AP513 TriQuint, AP513 Datasheet
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AP513
Specifications of AP513
Related parts for AP513
AP513 Summary of contents
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... MTTF. All devices are 100% RF and DC tested. The AP513 is targeted for use as a driver or final stage amplifier in wireless infrastructure where high linearity and high power is required. This combination makes the device an excellent candidate for next generation multi-carrier 3G base stations or repeaters using the DCS1800 frequency band ...
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... Class AB Configuration (AP513-PCB) The AP513-PCB and AP513 module is configured for Class AB by default. The resistor – R7 – which sets the current draw for the amplifier is set at 0 Ω in this configuration. Increasing that value will decrease the quiescent and operating current of the amplifier module, as described on the next page ...
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... AP513 DCS-band 8W HBT Amplifier Module Performance Graphs (AP513-PCB) Gain +25 °C, 12Vcc, Icq=1. 1800 1820 1840 1860 1880 Frequency (MHz) ACPR vs. Output Power vs. Temperature CDMA2000 SR1, 7fa , fc=1840 MHz, Δf=±885 kHz, Vcc=12V, Icq=1.7A -45 -40 °C +25 °C -50 +85 °C -55 -60 -65 - Average Output Power (dBm) Output Power / Gain vs. Input Power 1840 MHz, +25 ° ...
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... AP513 DCS-band 8W HBT Amplifier Module The MTTF of the AP513 can be calculated by first determining how much power is being dissipated by the amplifier module. Because the device’s intended application power amplifier pre-driver or final stage output amplifier, the output RF power of the amplifier will help lower the overall power dissipation ...
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... Outline Drawing The device will be marked with an “AP513” designator with an alphanumeric lot code on the top surface of the package noted as “ABCD” on the drawing. manufacturing date will also be printed as “XXYY”, where the “XX” represents the week number from 1 – 52. ...