RFIC Design Engineer

The wireless RFIC team architects, designs, and validates radio transceivers integrated into wireless SoCs. Our wireless organization is responsible for all aspects of wireless silicon development that transform the user experience at the product level, all of which is driven by an outstanding vertically integrated engineering team spanning RF/Analog architecture and design, Systems/PHY/MAC architecture and design, VLSI/RTL design and integration, Emulation, Design Verification, Test and Validation and FW/SW engineering! As an RFIC Design Engineer within the Wireless Radio team, you will be at the center of a wireless SoC design group, giving to Apple’s groundbreaking wireless connectivity solutions into hundreds of millions of products. Minimum Qualifications BS and 3 + years of relevant industry experience. Understanding of analog design concepts such as noise analysis, linearity, mismatch, stability, and other analog impairments. Experienced in Cadence Virtuoso, Spectre RF, Matlab, EM simulation (EMX, HFSS), and similar tools. Expertise in analog, mixed-signal, and RF circuit design. This includes the design of LNAs, PAs, PLL/VCO/DCO/LOGEN blocks, mixers, baseband filters and amplifiers, data converters, and calibration methods associated with such high-performance wireless systems. Experienced in Silicon characterization and debugging. Preferred Qualifications MSEE and PhD plus relevant industry experience. Deep experience in crafting and bringing wireless transceivers into mass production is a plus. Familiarity with various RF transceiver architectures and their trade-offs and system specifications, and ability to work with system architects to translate system requirements into circuit requirements at the IC level. Understanding of the impact of modulation type on radio architecture and requirements. Proven capability to work with digital design groups for an optimum partition between digital and analog domains. Familiarity with mixed-signal mode verification methodology (SystemVerilog, AMS, Nanotime).