Hardware & Board Design
From a blank schematic to a board coming off the line: we design the electronics at the heart of products that have to work — measurement chains that stay quiet, power that stays cool, radios that pass certification. One team owns the board from concept to production.
Analog & mixed-signal
Precision sensing front-ends
Instrumentation amplifiers, bridge interfaces, sub-µV chains for load cells, thermocouples, RTDs and MEMS.
Data conversion
High-resolution ADC/DAC selection and layout — up to 24-bit sigma-delta, simultaneous-sampling systems.
Low-noise design
Grounding strategy, guarding, shielding and filtering that protect millivolt signals on noisy machines.
Signal conditioning
Active filters, isolation amplifiers, 4–20 mA / ±10 V industrial interfaces.
Processors & digital
Microcontroller systems
STM32, PIC, ESP32, nRF52/53 and friends — selected for the job, not the habit.
Embedded Linux hardware
SOM and custom carrier boards, DDR routing, eMMC, display and camera interfaces.
High-speed digital
Controlled impedance, length matching, USB, Ethernet, LVDS/MIPI lanes that pass compliance.
FPGA / CPLD glue
When a protocol or timing problem needs hardware-speed logic next to the CPU.
Power electronics
Switch-mode supplies
Buck, boost, flyback — multi-rail trees with sequencing, ripple budgets and thermal margins.
Battery systems
Chargers, fuel gauging, protection and BMS for single-cell wearables up to multi-cell packs.
Motor power stages
Three-phase inverters, gate drive, current sensing (shunt/Hall), regenerative braking.
Protection & robustness
Hot-swap, reverse polarity, load-dump, transient and ESD protection that survives the field.
Wireless & connectivity
Short-range radio
WiFi, Bluetooth/BLE, Zigbee, proprietary 2.4 GHz — antenna placement, matching, coexistence.
Long-range & cellular
LoRa/LoRaWAN, LTE-M/NB-IoT and global cellular modules with SIM and antenna strategy.
Wired industrial buses
RS-485/Modbus, CAN/CANopen, Ethernet/EtherCAT, IO-Link — isolated and protected.
Positioning
Multi-constellation GNSS (GPS, Galileo, GLONASS, BeiDou) integration and antenna design.
From design to production
Schematic & multi-layer layout
2–12+ layers with signal- and power-integrity discipline, DFM rules from the start.
EMC & certification readiness
Pre-compliance thinking for CE/FCC; layouts and filters designed to pass, not to retrofit.
Thermal design
Copper pours, vias, heatsinking and airflow planning validated against real dissipation.
Bring-up, test & jigs
Board bring-up plans, bed-of-nails/functional test fixtures, production programming.
BOM & lifecycle
Component availability, second sources and cost engineering before they become crises.
Specification
We turn the product idea into an electrical spec: interfaces, budgets, standards, BOM targets.
Design & review
Schematic, simulation where it matters, layout — with design reviews you're part of.
Bring-up & verification
First articles on our bench: power trees, clocks, interfaces, firmware hand-in-hand.
Production handoff
DFM-clean fabrication data, test procedures and support through the first batches.
Can you take over an existing design?
Yes — we regularly inherit boards mid-life: we audit the schematic and layout, fix what blocks you (EMC, stability, obsolete parts) and continue development from there.
Do you handle manufacturing too?
We prepare full production packages and work directly with fabrication and assembly houses in Israel and abroad, including test fixtures and the first production batches.
What about certifications (CE, FCC, medical)?
We design for compliance from day one and accompany the product through pre-compliance and certification labs. Several of our boards run inside certified medical devices.
Who owns the design files?
You do. Full source files — schematics, layout, firmware — are delivered as part of the project.
Have a hard engineering problem?
- Email —
- rotem@segevtech.com
- Tel —
- +972-52-6444408
- Studio —
- Tel Aviv, Israel