NPI ENGINEER-(ANTENNA APPLICATION)- (ELECTROMAGNETIC SPECTRUM OPERATION)-AEROSPACE AND DEFENSE:
Bullisher is a data-centric fintech solution provider in the aerospace and defense industry for institutional level investors, looking to disrupt and revolutionize a $3 trillion dollar industry. We spearhead an industry-leading Blackbox to facilitate and administer trade agreements pioneered by a vehicle, driven by our new generation benchmark delivering solutions through innovation with uncompromising agility. Predicts trends in the aerospace and government defense entities, predicts trends in political shifts and the ability to influence actual effect changes in government policies through innovation.
JOB DESCRIPTION:
The oversight requires collaboration of multi-disciplinary teams to design, simulate, and implement high-speed serial channels, parallel buses, and complete power delivery systems in modern high-speed electronic devices to integrated electromagnetic (EM) networks and circuit simulation tools that predict (SMART CARRIERS), power integrity, signal integrity, thermal & mechanical integrity, and optimized system performance prior to the build-and-test process. Design power supplies and data channels operating simultaneously. New design technologies always demand improved performance simulation to meet these requirements. Areas to cover will include: Integrating into workflows, reducing the duration of the design cycle, and the cost associated with developing new antenna systems. Start from the chip level all the way to the system level to sign-off. Simulate the power distribution networks and meet emission compliance requirements. Model power delivery networks and noise propagation. Optimize decoupling capacitors and placement on the PCB to ensure that the capacitor placement can meet an impedance profile specification. Identify location and frequency of natural cavity resonance that exists between planes. Automate decoupling capacitor selection, placement, and optimization. Evaluate power delivery networks, signal net routing, connectors, and via breakouts with design concepts, including influences of manufacturing. Design and secure SoC. Model temperature sensitivity in system performance. As data rates increase, compliance and standard requirements will become more challenging to achieve, especially crosstalk and high-density designs. Many different lines will be communicating, requiring detection of any major crosstalk issues and adherence to various standards of compliance. Our overarching goals are that the networking hardware will have to work with next-generation signal rates, necessitating analysis of more complex geometries. This will require data lanes to be modeled using a full system model holistic approach. Such as object connectors, complicated antennas, development methodology, mutual interaction from chip to system level, provide sign-off and other objects. Our perceived approach is to create a culture of rapid innovation, design, build, test, and deployment of capabilities that can work autonomously with upgrading embedded device support to improve and accelerate our program capture. We are a startup enhancing the formation to the early stages of a product development project.
PHYSICAL DEMANDS: This position requires the ability to communicate and exchange information, utilize equipment necessary to perform the job.
ENVIRONMENT: This position will operate in the following areas of the organization: [ROCKET FUEL] MISSION INTELLIGENCE DIVISION. Innovation, powering speed and space exploration in science systems.
Employees must be legally authorized to work in the UK. Verification of employment eligibility will be required at the time of hire. Visa sponsorship is not available for this position.
QUALIFICATIONS, KEY REQUIREMENTS AND SKILLS SET:
* MSc in Comms Engineering - proficient in FPGA or equivalent in Physics or Electronics Design Engineering, or a relevant field.
* 10+ years proven experience in aerospace or telecommunications satellite design and manufacturing.
* Extensive experience with optical communications and laser communications.
* 10+ years experience in analogue, digital design & antenna application.
* Professional simulation engineering certification is essential & FPGA’s.
* Proven success in implementing 5G.
* Experience in high-speed design & RF applications, RF antenna systems, and awareness of phase array antennas and solid knowledge of GPS and its vulnerabilities.
* Hands-on within hardware design, hardware testing, firmware & leadership skills are essential.
* Proficiency in C++ experience in an embedded environment is essential.
* Extensive experience in computer-aided design CAD and computer-aided engineering CAE is essential.
* Certified Information Systems Security Professional (CISSP)
* Certified Cloud Security Professional (CCSP)
* Information assurance system architecture and engineer (IASAE)
* Information Systems Security Engineering Professional (ISSEP)
* Information Systems Security Architecture Professional (ISSAP) is essential.
* It’s a prerequisite to be certified in one of the listed DoD 8570 Certifications.
INTERVIEW PROCESS:
* STAGE 1: COGNITIVE ABILITY TEST
* STAGE 2: COGNITIVE ASSESSMENT SCREENING: WITH A 30+ YEAR EXPERIENCE PSYCHOLOGIST:
* STAGE 3: PRE-SCREENING (verification checks & DV security clearance)
* STAGE 4: INTERVIEW WITH THE: CEO, CTO, CHIEF ENGINEER, & CHIEF MANUFACTURING OFFICER
#J-18808-Ljbffr