Senior Electronics Engineer (Signal Integrity & Instrumentation)
hace 1 día
Barcelona
ppQilimanjaro is building full-stack superconducting quantum computers, from QPUs and cryogenic infrastructure to control electronics, racks, cabling, instrumentation and deployment software. Our Systems Engineering division is what turns a quantum processor into a complete, reliable, scalable machine. /p pWe are a small, hands‑on team. Every hire shapes what we become. /p h3Why this role exists /h3 pThe electronics layer of a quantum system (signal chains, grounding, shielding, filtering, low‑noise analog, power integrity, PCB design) is one of the main determinants of qubit performance and system reliability. As we scale toward 50‑qubit systems and beyond, this layer has to be bdesigned from first principles, not grown from lab habit. /b /p pToday our junior engineers are learning fast and carrying real work. What we are missing is a bseasoned electronics engineer who designs the signal chain right before it reaches the bench, /b who simulates signal integrity before a board is fabricated, architects grounding instead of guessing it, anticipates the scaling problem we haven't hit yet, and raises the technical floor of the whole team. /p pYou will become the btechnical authority for the electronics layer /b: the person the team turns to for "is this signal chain correct, quiet, and scalable?" and the person who makes sure the answer is documented, not tribal. You will set the standards and review others' designs, and directly mentor one to two junior engineers, with a clear path to lead the department as the team grows. /p ul libSignal‑chain architecture: /b Define and document how signals are generated, conditioned, filtered, routed and shielded from the electronics rack to the QPU, both the DC / flux‑bias path (DC to a few hundred MHz) and the RF / readout path (a few GHz). Architecture first, validation second. /li libGrounding and shielding by design: /b Define the grounding topology, return paths, chassis isolation and rack‑level shielding for each system, documented, justified and repeatable, not resolved ad hoc or outsourced to a consultant. /li libFiltering and low‑noise design: /b Specify and design filters from requirements (bandwidth, attenuation, impedance, thermal and noise constraints) and drive the electrical‑noise budget of the setup, supplies, references, line‑by‑line. /li libSimulation as a standard design step: /b Run signal‑integrity and power‑integrity simulations (LTspice / ADS / Sigrity / HyperLynx or equivalent) routinely, during design, before hardware is ordered, not after problems appear. /li libPCB design review: /b Work with our PCB engineer to catch signal‑integrity, power‑integrity and grounding problems in layout review, before fabrication. /li libInstrument integration validation: /b Integrate and validate commercial control electronics and lab instrumentation (Qblox, QDAC‑class sources, VNAs, spectrum analyzers, digitizers, RF sources, power supplies) and build the test plans that qualify a signal chain before it is handed to measurements. /li libTurning problems into design rules: /b When a hardware problem is found and fixed, convert the lesson into a design rule, acceptance criterion or validation procedure so it cannot recur in the next system. /li libMentoring: /b Be the senior technical reference for junior engineers on noise debugging, grounding, signal characterization and instrument validation. Explain the bwhy /b. Raise the team's ability to do this independently over time, without becoming a bottleneck. /li /ul pbWe're looking for an autonomous, results‑oriented profile who thrives in dynamic environments. We value the ability to make sound decisions, take ownership of one's own work, and adapt with agility to the company's shifting priorities. /b /p pYou will work alongside physicists and measurement specialists who operate the qubits; the physics will be explained to you. The qubit is, in the end, your most sensitive measuring instrument, but your job is to read what its behaviour tells you about the belectrical /b chain and fix the root cause there. The electronics principles we need are universal. The challenge is applying rigorous electronics engineering discipline to a domain where that discipline is not yet fully established. /p h3Who we are looking for /h3 pA seasoned analog / mixed‑signal electronics engineer who combines strong electronics intuition with structured engineering discipline, and who would rather build something that lasts than firefight what breaks. You have worked where design discipline is not optional, scientific or precision instrumentation, big‑science facilities (synchrotron, particle physics, space, radio‑astronomy), aerospace / defence, metrology, medical or other high‑reliability electronics, and where signal integrity is simulated before fabrication and grounding is architected, not guessed. You enjoy being the senior technical voice among motivated, less experienced engineers. You like making the next setup easier to build and validate than the last. /p ul li8+ years of hands‑on analog / mixed‑signal and/or high‑speed electronics design (we care more about depth and judgement than the exact number). /li liLow‑noise and signal‑integrity design from first principles: not catalogue‑part selection. /li liGrounding and shielding architecture: you can design a grounding topology and explain every return path. /li liFilter design from specification: derive a topology from bandwidth, attenuation and impedance requirements. /li liSI/PI simulation as a routine part of your workflow (LTspice, ADS, Sigrity, HyperLynx, or equivalent) — used on real designs, not as an occasional exercise. /li liPCB design‑review depth: you catch layout problems before fabrication. /li liStructured hardware diagnosis: you can systematically separate a grounding issue from a filter‑response issue from an instrument artifact from a software/configuration effect, and document it. /li liHands‑on by nature: comfortable at the bench (probing, soldering, measuring) and willing to travel to our lab site to debug real hardware. This is not a desk‑only architecture role. /li liFluent with bench instrumentation: oscilloscopes, VNAs, spectrum analyzers, signal generators, digitizers, power supplies — and structured test plans. /li liStrong communication in English (Spanish a plus, or a willingness to learn) /li liSuperconducting quantum, cryogenic or low‑temperature measurement experience. /li liFamiliarity with Qblox, Quantum Machines / QDAC, Zurich Instruments, Keysight, Rohde Schwarz, Signal Hound or similar. /li liLow‑noise DC biasing, microwave engineering, attenuators, filtering, twisted‑pair / coaxial signal delivery, cryogenic cabling. /li liDesigning analog front‑ends, custom instrumentation PCBs or test fixtures. /li liPython for measurement automation, data analysis and hardware validation. /li liDeep‑tech / hardware startup experience where priorities move fast but engineering standards still matter. /li /ul h3What success looks like after 6 months /h3 ul liThe signal‑chain and grounding architecture is documented, simulation‑backed and enforced as a design standard — not tribal knowledge held by one or two people. /li liSI/PI simulation happens before hardware is ordered, not after it fails. /li liMajor noise and grounding issues have a structured diagnosis path and are no longer ad hoc investigations. /li liNew instruments and custom PCBs pass a defined validation checklist before lab integration. /li liJunior engineers can run standard noise, grounding and signal‑chain validation independently. /li liThe number of hardware problems traced back to avoidable design decisions is visibly falling. /li /ul h3Growth path /h3 pThis is the founding senior role of our electronics function. As Systems Engineering splits into dedicated electronics and cryomechanics pillars, there is a clear path from technical authority to leading the department. /p h3Diversity and Inclusion /h3 pAt Qilimanjaro, inclusion and equal opportunities are part of our people‑centric value. We are committed to creating a workplace where everyone feels valued and empowered to contribute, learn, and belong. /p h3We offer /h3 ul liA technically demanding role with real scope from day one, you help define the system, you don't inherit a finished one. /li liDirect collaboration with physicists, cryogenic engineers, PCB engineers and software developers. /li liA small team where your decisions are visible and your influence is immediate. /li liCompetitive salary, discussed openly and based on experience. /li liCobee flexible compensation (transportation, meals, and childcare support) /li liFlexible working hours /li /ul h3You will /h3 ul liGet the opportunity to build something amazing and unique, something that hasn't been done before. /li liWork on ground‑breaking projects and possibly solve massive challenges on a global scale. /li liBe at the intersection of research and industry, where biggest innovations happen. /li liMake an enormous impact in a dynamic scale‑up rather than being a small cog in a big machine. /li liWork with super smart, knowledgeable and yet, very friendly people in Barcelona, one of the best cities in the world. /li liGet to be part of a start‑up where growth on a company and individual level is the default. /li /ul h3GDPR /h3 pDATA CONTROLLER: QILIMANJARO QUANTUM TECH S.L., B , Carrer de Veneçuela, 74, 08019 Barcelona (BARCELONA), Data Protection Officer: : Participation in recruitment processes and reference verification.LEGAL BASIS: Implementation of pre‑contractual measures.DISCLOSURES: None are anticipated.DATA RETENTION: For the duration of the selection process.RIGHTS: You may exercise your rights of access, rectification, erasure, restriction, and data portability with the data controller. In case of any disputes, you may contact the AEPD ( /p /p #J-18808-Ljbffr