Global Connect Technologies
Mechanical Test Engineer
Global Connect Technologies, Palo Alto, California, United States, 94306
Direct message the job poster from Global Connect Technologies
Role Overview We need three hands‑on, mechanically oriented Test Engineers who thrive in our test lab. This role balances:
Logistics layer – coordinating with design counterparts, collecting samples, creating JIRA tickets for technicians, and managing test sample logistics.
Hands‑on test engineering – designing, building, and iterating on test setups.
Ownership mindset – treating each setup as if it were their own business, balancing speed, safety, and standardization in a fast‑paced environment.
Key Responsibilities & Skills Design & Build of Test Fixtures
Architect, model, and assemble frames (e.g., 80/20, steel, aluminum, composites) to house power systems, control electronics, and devices under test.
Design and build custom control boxes (e.g., microcontroller / relay / switching boards) to actuate and monitor test logic (for example, cycling chargeport latches).
Create harnessing from control box to devices (wiring, connectors, cable management).
Select and integrate components: power supplies, pumps, sensors, relays, data acquisition modules.
Rapid CAD design (SolidWorks or equivalent) of parts, assemblies, and fixtures.
Develop control scripts (Python preferred) for device actuation, chamber/chiller coordination, power cycling, data logging, error handling, interlock logic.
Decompose build and inspection tasks into JIRA (or equivalent) tickets, assign to technicians, and supervise execution and QA.
Mechanical Systems & Thermal / Structural Design
Choose pumps, heat exchangers, motors, actuators (servo, stepper, etc.) appropriate for the thermal, flow, mechanical load of the DUT.
Design structural supports, fixtures, mounting surfaces, force‑transmitting links, and vibration isolation, considering stiffness, thermal expansion, alignment tolerances, and safety margins.
Apply GD&T (Geometric Dimensioning & Tolerancing) to ensure fixture elements match tolerances and reduce mismatch / rework.
Fabricate custom parts (machining, cutting, bending, welding) or coordinate with external machine shops when needed.
Understand mechanical stresses, thermal expansion, material selection (e.g., aluminum vs. steel, coefficient of expansion) to preserve alignment under extreme conditions.
Recommend and integrate mechanical stress/load elements (e.g., clamping, thermal cycling effects, flexures) for realistic loading of bus bars, junction boxes, chargeports.
Electrical, Instrumentation & Signal Integrity
Interpret datasheets and performance specs of HV components (contactors, shunts, relays, power converters).
Size wiring harnesses (gauge, insulation, derating), design noise mitigation (shielding, twisted pairs, grounding), and design simple circuits (e.g., resistor dummy loads, balancing circuits) to support test logic.
Integrate measurement hardware: NI DAQ systems, thermocouples, RTDs, pressure sensors, accelerometers, current & voltage sensors.
Incorporate HV safety features: interlocks, watchdogs, fault detection, safe sequencing, insulation monitoring, and emergency shutdown paths.
Ensure signal timing, synchronization, sample rate, and data integrity across instrumentation channels.
Equipment & Test Facility Integration
Work with environmental chambers: plan safe ramp‑down sequences (e.g., humidity first), account for thermal soak and enclosure constraints.
Interface with chillers / cooling systems to integrate temperature setpoints into test profiles and manage coolant circulation.
Use advanced / bi‑directional power supplies (grid simulators, programmable sources) with SCPI, CAN, GPIB, Ethernet, LXI or RS‑232 protocols.
Manage rack systems: power supplies, controllers, cabling, cooling, harness routing, cable length constraints.
Configure and validate test stands to maintain safety clearance, mechanical access, serviceability, and reliability over long test durations.
Reliability & Environmental Testing Expertise
Understand and design for reliability test methods common in EV and power component space:
PTCE (Powered Thermal Cycling Endurance)
HTOE (High Temperature Operating Endurance)
HTHE (High Temperature Humidity Endurance)
IP (Ingress Protection / environmental sealing tests)
Develop or adapt fixtures and setups for these tests (thermal cycling, humidity, load cycling) and interpret resulting data for degradation / failure modes.
Use test data and models to accelerate test times (e.g., using real‑world load profiles) while maintaining statistical confidence.
Understand aging, fatigue, electromigration, thermal cycling cracks, insulation breakdown, corrosion or humidity‑related degradation patterns as inputs to design feedback.
Validation, Calibration & Fixture Quality Assurance
Validate fixtures: check alignment, clearance, actuation, contact integrity, wiring, and signal continuity.
Perform fixture checkout and verification prior to production test runs (probe hits, wire verification, interlock tests).
Maintain calibration schedules for sensors and instrumentation to ensure accuracy over long‑term usage.
Monitor fixture drift, failure modes, and redundancy in critical paths (spare sensors, fallback mechanisms).
Design with safety in mind: include grounding kits, proper shielding, and ensure human safety in presence of HV.
Target Industries for Candidates
Automotive (EVs, Tier‑1 suppliers in power electronics, HV systems)
Aerospace/defense (environmental test, reliability)
Industrial power systems (HV equipment, grid simulation, power distribution)
Electronics testing labs with fixture design/validation experience
Pre‑Screening Questions (with examples of good answers)
Can you describe a time you designed and built a custom test fixture from scratch?
Follow‑up: How did you choose pumps, power supplies, sensors, and framing?
Follow‑up: How did CAD and scripting factor into your solution?
Good answer: Candidate explains building a fixture using 80/20 framing, a relay‑controlled PSU with Arduino, custom harnessing, and Python scripting for cycling and logging data.
In an 85°C/85%RH environmental test, what do you ramp down first before opening the chamber?
Good answer: Humidity first, otherwise condensation risks damaging the samples.
How would you reduce electrical noise in a setup with HV and LV wiring running together?
Good answer: Separate HV and LV harnesses, use twisted pairs, shielding, and proper grounding.
How do you decide what pump, heat exchanger, or motor to use in a thermal or mechanical test setup?
Good answer: Candidate refers to flow/pressure/heat load calculations, safety margins, and equipment specs matched to test needs.
Tell us about your experience with instrumentation (DAQs, thermocouples, accelerometers).
Good answer: Candidate describes specific examples of DAQ integration, sensor calibration, and how they analyzed and communicated results.
Quick Checklist for Recruiters Must‑Have
Hands‑on, comfortable designing AND building test setups
Mechanical + electrical fundamentals (framing, pumps, heat exchangers, wiring)
CAD (SolidWorks preferred)
Python scripting (or similar)
HV safety awareness
Preferred
Experience with NI DAQs, thermocouples, accelerometers
GD&T knowledge/certification
Familiarity with environmental chambers and liquid cooling
Knowledge of power supply communication protocols (CAN, GPIB, SCPI, etc.)
Reliability testing knowledge: IP, PTCE, HTOE, HTHE
Mindset
Comfortable balancing speed, safety, and standardization
Thrives in a fast‑paced, dynamic lab environment
Seniority level Mid‑Senior level
Employment type Full‑time
Job function Consulting and Engineering
Industries Motor Vehicle Manufacturing
Referrals increase your chances of interviewing at Global Connect Technologies by 2x
Get notified about new Test Engineer jobs in
Palo Alto, CA .
Mountain View, CA $122,000 - $174,000 1 week ago
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Role Overview We need three hands‑on, mechanically oriented Test Engineers who thrive in our test lab. This role balances:
Logistics layer – coordinating with design counterparts, collecting samples, creating JIRA tickets for technicians, and managing test sample logistics.
Hands‑on test engineering – designing, building, and iterating on test setups.
Ownership mindset – treating each setup as if it were their own business, balancing speed, safety, and standardization in a fast‑paced environment.
Key Responsibilities & Skills Design & Build of Test Fixtures
Architect, model, and assemble frames (e.g., 80/20, steel, aluminum, composites) to house power systems, control electronics, and devices under test.
Design and build custom control boxes (e.g., microcontroller / relay / switching boards) to actuate and monitor test logic (for example, cycling chargeport latches).
Create harnessing from control box to devices (wiring, connectors, cable management).
Select and integrate components: power supplies, pumps, sensors, relays, data acquisition modules.
Rapid CAD design (SolidWorks or equivalent) of parts, assemblies, and fixtures.
Develop control scripts (Python preferred) for device actuation, chamber/chiller coordination, power cycling, data logging, error handling, interlock logic.
Decompose build and inspection tasks into JIRA (or equivalent) tickets, assign to technicians, and supervise execution and QA.
Mechanical Systems & Thermal / Structural Design
Choose pumps, heat exchangers, motors, actuators (servo, stepper, etc.) appropriate for the thermal, flow, mechanical load of the DUT.
Design structural supports, fixtures, mounting surfaces, force‑transmitting links, and vibration isolation, considering stiffness, thermal expansion, alignment tolerances, and safety margins.
Apply GD&T (Geometric Dimensioning & Tolerancing) to ensure fixture elements match tolerances and reduce mismatch / rework.
Fabricate custom parts (machining, cutting, bending, welding) or coordinate with external machine shops when needed.
Understand mechanical stresses, thermal expansion, material selection (e.g., aluminum vs. steel, coefficient of expansion) to preserve alignment under extreme conditions.
Recommend and integrate mechanical stress/load elements (e.g., clamping, thermal cycling effects, flexures) for realistic loading of bus bars, junction boxes, chargeports.
Electrical, Instrumentation & Signal Integrity
Interpret datasheets and performance specs of HV components (contactors, shunts, relays, power converters).
Size wiring harnesses (gauge, insulation, derating), design noise mitigation (shielding, twisted pairs, grounding), and design simple circuits (e.g., resistor dummy loads, balancing circuits) to support test logic.
Integrate measurement hardware: NI DAQ systems, thermocouples, RTDs, pressure sensors, accelerometers, current & voltage sensors.
Incorporate HV safety features: interlocks, watchdogs, fault detection, safe sequencing, insulation monitoring, and emergency shutdown paths.
Ensure signal timing, synchronization, sample rate, and data integrity across instrumentation channels.
Equipment & Test Facility Integration
Work with environmental chambers: plan safe ramp‑down sequences (e.g., humidity first), account for thermal soak and enclosure constraints.
Interface with chillers / cooling systems to integrate temperature setpoints into test profiles and manage coolant circulation.
Use advanced / bi‑directional power supplies (grid simulators, programmable sources) with SCPI, CAN, GPIB, Ethernet, LXI or RS‑232 protocols.
Manage rack systems: power supplies, controllers, cabling, cooling, harness routing, cable length constraints.
Configure and validate test stands to maintain safety clearance, mechanical access, serviceability, and reliability over long test durations.
Reliability & Environmental Testing Expertise
Understand and design for reliability test methods common in EV and power component space:
PTCE (Powered Thermal Cycling Endurance)
HTOE (High Temperature Operating Endurance)
HTHE (High Temperature Humidity Endurance)
IP (Ingress Protection / environmental sealing tests)
Develop or adapt fixtures and setups for these tests (thermal cycling, humidity, load cycling) and interpret resulting data for degradation / failure modes.
Use test data and models to accelerate test times (e.g., using real‑world load profiles) while maintaining statistical confidence.
Understand aging, fatigue, electromigration, thermal cycling cracks, insulation breakdown, corrosion or humidity‑related degradation patterns as inputs to design feedback.
Validation, Calibration & Fixture Quality Assurance
Validate fixtures: check alignment, clearance, actuation, contact integrity, wiring, and signal continuity.
Perform fixture checkout and verification prior to production test runs (probe hits, wire verification, interlock tests).
Maintain calibration schedules for sensors and instrumentation to ensure accuracy over long‑term usage.
Monitor fixture drift, failure modes, and redundancy in critical paths (spare sensors, fallback mechanisms).
Design with safety in mind: include grounding kits, proper shielding, and ensure human safety in presence of HV.
Target Industries for Candidates
Automotive (EVs, Tier‑1 suppliers in power electronics, HV systems)
Aerospace/defense (environmental test, reliability)
Industrial power systems (HV equipment, grid simulation, power distribution)
Electronics testing labs with fixture design/validation experience
Pre‑Screening Questions (with examples of good answers)
Can you describe a time you designed and built a custom test fixture from scratch?
Follow‑up: How did you choose pumps, power supplies, sensors, and framing?
Follow‑up: How did CAD and scripting factor into your solution?
Good answer: Candidate explains building a fixture using 80/20 framing, a relay‑controlled PSU with Arduino, custom harnessing, and Python scripting for cycling and logging data.
In an 85°C/85%RH environmental test, what do you ramp down first before opening the chamber?
Good answer: Humidity first, otherwise condensation risks damaging the samples.
How would you reduce electrical noise in a setup with HV and LV wiring running together?
Good answer: Separate HV and LV harnesses, use twisted pairs, shielding, and proper grounding.
How do you decide what pump, heat exchanger, or motor to use in a thermal or mechanical test setup?
Good answer: Candidate refers to flow/pressure/heat load calculations, safety margins, and equipment specs matched to test needs.
Tell us about your experience with instrumentation (DAQs, thermocouples, accelerometers).
Good answer: Candidate describes specific examples of DAQ integration, sensor calibration, and how they analyzed and communicated results.
Quick Checklist for Recruiters Must‑Have
Hands‑on, comfortable designing AND building test setups
Mechanical + electrical fundamentals (framing, pumps, heat exchangers, wiring)
CAD (SolidWorks preferred)
Python scripting (or similar)
HV safety awareness
Preferred
Experience with NI DAQs, thermocouples, accelerometers
GD&T knowledge/certification
Familiarity with environmental chambers and liquid cooling
Knowledge of power supply communication protocols (CAN, GPIB, SCPI, etc.)
Reliability testing knowledge: IP, PTCE, HTOE, HTHE
Mindset
Comfortable balancing speed, safety, and standardization
Thrives in a fast‑paced, dynamic lab environment
Seniority level Mid‑Senior level
Employment type Full‑time
Job function Consulting and Engineering
Industries Motor Vehicle Manufacturing
Referrals increase your chances of interviewing at Global Connect Technologies by 2x
Get notified about new Test Engineer jobs in
Palo Alto, CA .
Mountain View, CA $122,000 - $174,000 1 week ago
San Jose, CA $92,900.00 - $183,800.00 7 hours ago
Santa Clara, CA $175,000.00 - $350,000.00 4 days ago
Palo Alto, CA $140,000.00 - $185,000.00 2 weeks ago
Redwood City, CA $120,000.00 - $170,000.00 2 weeks ago
#J-18808-Ljbffr