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Senior Communications Systems Engineer

Impulse Space

Marketing & Communications, Software Engineering

USD 150k-180k / year + Equity

Posted on Jan 8, 2026

As a Senior Communications Systems Engineer, you will lead the design of the modem and digital signal processing (DSP) for our laser communication system. You will architect the end-to-end digital communication system, including error correction codes, synchronization, and encryption as needed, implementing these in an FPGA, ASIC, or embedded processor. This is a crucial role that sits at the intersection of hardware and software: you’ll work with the photonics lead to define electrical/optical interfaces, and with the spacecraft systems team to interface a FSO terminal with the onboard data systems. As the Modem/DSP lead, you will have wide-ranging responsibilities and freedom to innovate - from simulation and waveform design to hands-on FPGA coding and lab testing.

This on-site position offers the chance to be the technical owner of an advanced optical modem, with potential to grow a team around you as we expand our communications capabilities.

Department: Avionics
Employment Type: Full Time
Location: Redondo Beach
Workplace type: Onsite
Compensation: $150,000 - $180,000 / year
Reporting To: Bryce Wilson

Responsibilities

Modem Architecture & Waveform Design: Define the overall architecture of the FSO modem, including choosing the modulation format and forward error correction (FEC) scheme to meet the link requirements. Conduct trade studies of various waveforms (e.g., BPSK, QPSK, 16-QAM or advanced modulation) and error-correction codes (LDPC, Turbo, or Polar codes) to optimize data rate versus link margin.
DSP Algorithm Development: Develop and implement the digital signal processing algorithms required for transmit and receive. On the receiver side, this includes clock recovery, carrier recovery, frame synchronization, channel equalization, and demodulation algorithms. On the transmit side, generate pulses or I/Q signals with precise shaping (pulse shaping filters) and manage pre-emphasis or other compensation for the optical channel.
FPGA/Hardware Implementation: Implement the modem design on suitable hardware, primarily FPGA or SoC platforms for on-orbit deployment. Write RTL code (VHDL/Verilog) for the high-speed logic, ensuring timing closure at the required clock.
Testing and Verification: Develop test plans and verification infrastructure for the modem. This includes creating testbench simulations for the FPGA code and building automated test setups for the real hardware. Use tools like logic analyzers, high-speed oscilloscopes, and bit-error-rate testers to evaluate the end-to-end system. Perform lab tests with pseudo-random bit streams and channel emulators to ensure the modem achieves expected performance (throughput, BER) under various conditions (e.g. low OSNR, phase noise, dropout events). Validate that acquisition and re-acquisition times meet requirements.
Integration with Photonics & Systems: Work closely with the Photonics engineer to interface the modem with the optical front-end. Define the analog electrical outputs (drive signals for modulators or input ranges for ADCs from photodetectors) and ensure the FPGA/ADC/DAC selection supports the bandwidth and resolution needed..
Prototype and Evolve: In early stages, develop a “scrappy” modem prototype – possibly using software-defined radio (SDR) platforms or a PC-based testbed – to demonstrate basic communication over a laser link in the lab. Then iterate towards the final flight design, increasing sophistication of the DSP and moving to dedicated hardware. Support field demonstrations of the FSO link (e.g., a ground-to-ground test or a pilot on a high-altitude platform) by configuring your modem and analyzing performance data to drive improvements.

Minimum Qualifications

Bachelor’s or Master’s in Electrical Engineering, Telecommunications, Computer Engineering or a related field.
5+ years of experience in digital communications or signal processing design, developing modems, wireless communication systems, or high-speed data links.
Solid understanding of communication system fundamentals such as digital modulation schemes, demodulation, error-control coding, information theory, and link budget analysis. Should be comfortable with concepts like constellations, eye diagrams, BER vs SNR, etc.
Experience developing DSP algorithms for communications. This includes working with algorithms for timing recovery, carrier recovery, equalization, and FEC decoding.
Familiarity with modern FEC techniques (LDPC, BCH, Reed-Solomon, Turbo codes) and modulation formats used in optical/RF communication.
Strong skills in HDL programming (VHDL/Verilog) and experience implementing designs on FPGAs or ASIC.
Proficiency with FPGA development toolchains (e.g., Xilinx Vivado or Intel Quartus) and simulation tools (ModelSim or similar). Able to create testbenches and perform thorough verification of RTL designs.
Proficiency in simulation and modeling tools such as MATLAB/Simulink Python and/or C/C++ for developing and testing communication algorithms. Ability to translate high-level simulations into fixed-point implementations suitable for hardware.
Hands-on experience testing communication systems or high-speed digital systems in the lab. Familiarity with using oscilloscopes, logic analyzers, spectrum analyzers, or BERTs to debug and characterize digital communication links.
Able to systematically troubleshoot issues (timing glitches, noise, coding errors) at the interface of hardware and software.

Preferred Skills and Experience

Experience specifically with high data-rate modems for optical or RF communications. For example, working on optical fiber transponder development, free-space FSO modems, or advanced satellite communication systems. Understanding of the challenges unique to FSO (atmospheric fading, phase noise from lasers, etc.) and techniques to mitigate them.
Deep knowledge of advanced DSP techniques and communication theory. For instance, familiarity with adaptive equalization, carrier phase estimation for QPSK/16QAM, trellis decoding, and the ability to optimize these for implementation.
Experience with system-on-chip and high-performance FPGAs (e.g., Xilinx Ultrascale+/Versal, Microchip RTG4, etc.). Knowledge of high-speed interfaces on FPGAs (multi-gigabit SERDES, ADC/DAC interfaces) and constraint-driven design for high clock rates.
Experience with SDR platforms and tools (GNU Radio, Ettus USRPs, etc.).
Understanding of networking/protocol aspects that surround the modem. For instance, experience integrating a modem with packet routing, QoS, or encryption systems. Knowledge of CCSDS or other space communication protocols.
Proven ability to drive a complex project with minimal supervision. Prior experience as a technical lead or architect for a communication system is a strong plus. Comfortable making design decisions and justifying them, and capable of mentoring junior engineers or collaborating with academia/partners on advanced concepts.

Additional Information:

Compensation bands are determined by role, level, location, and alignment with market data. Individual level and base pay is determined on a case-by-case basis and may vary based on job-related skills, education, experience, technical capabilities and internal equity. In addition to base salary, for full-time hires, you may also be eligible for long-term incentives, in the form of stock options, and access to medical, vision & dental coverage as well as access to a 401(k) retirement plan.

Impulse Space’s spacecraft manufacturing business is subject to U.S. export regulations including the International Traffic in Arms Regulations (ITAR) and Export Administration Regulations (EAR). This position requires applicants to be either U.S. Persons (i.e., U.S. citizen, U.S. national, lawful permanent U.S. resident (green card holder), an individual granted asylum in the U.S., or an individual admitted in U.S. refugee status) or persons eligible to obtain an export license from the U.S. Departments of State, Commerce, or other applicable U.S. government agencies. Learn more about the ITAR here.

Impulse Space is an Equal Opportunity Employer; employment with Impulse Space is governed on the basis of merit, competence and qualifications and will not be influenced in any manner by race, color, religion, gender, national origin/ethnicity, veteran status, disability status, age, sexual orientation, gender identity, marital status, mental or physical disability or any other legally protected status.

About Impulse Space

Impulse Space, the in-space transportation company founded by Tom Mueller, is opening access beyond Low Earth Orbit (LEO) with its fleet of in-space transportation vehicles. The high-energy Helios vehicle unlocks orbits beyond LEO with its powerful Deneb engine, dropping off payloads in MEO, GEO, heliocentric, lunar, and other planetary orbits. The flight-proven Mira vehicle uses a nontoxic, high-impulse chemical propulsion system to offer orbital transport, constellation deployment, and precision reentry services to customers throughout LEO. Led by a team that delivered the most reliable rockets in history, Impulse provides economical and efficient in-space transportation by reliably and rapidly getting customers where they want to go.

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