Freelance Project: Advanced High-Voltage Control Motherboard for Imaging System (KiCad / Altium / Proteus) We are seeking a highly experienced Computer/Electronics Engineer with a strong background in high-voltage power systems, embedded control, and PCB

Project Overview The goal is to design and deliver a single-board motherboard (Gerber-ready) powered from a 22V battery source, charging internal and external board integrating: * Multi-rail power management * Digital control system * High-voltage generation architecture (conceptual + control side) * Touchscreen UI interface * Precision timing and current control For HV use different board DIODE & Capacitor multiplier until 100 KV stages The system will be controlled via a microcontroller (STM32H743VIT6 + ADC eksternal ADS127L11 / AD7768 / ADS131M08 or FPGA ARTIX 7, there is analog from Photo Multiplier Tube , amplified with low noise and then to noise pass filter then integer before to high speed adc minimum 16 bit ) and all graphic connected to a Windows 11-based mini computer for UI processing. Your task only give rawa output from microcontroller related voltage, current and exposure time precision. Otherwise windows software will be done from our side ⸻ Core System Requirements (High-Level) 1. Power Management Subsystem * Input: 22V battery (approx. 3500 mAh) * Regulated outputs: * 3.3V (MCU & logic) * 5V (peripherals) * 3 V for filamentxray tube * 12V (drivers to power up ) into step up HV anode and cathode , every 3 months in microcontoller will be step 5 stages the voltage gradually until 5 minutes, intended to maintenance the xray tube from crack and aging * 15V (analog/control stages) * 24 Volt * Efficient DC-DC topology (buck/isolated as required) * Protection: OVP, OCP, thermal considerations ⸻ 2. Digital Control System * STM32H743VIT6 + ADC eksternal ADS127L11 / AD7768 / ADS131M08 (or equivalent high-performance MCU) or FPGA XILINX ARTIX 7 * * PWM-based control interface for high-voltage driver stage * Adjustable parameters via UI: * Voltage control (scaled control domain) * Current control (low-current precision range) * Timing control (millisecond-level precision) * GPIO-controlled step switching / modulation ⸻ 3. High-Voltage Driver Interface (Control Side Only) * PWM-controlled drive stage (0–12V control signal domain) * Interface to external HV generation stages (flyback + multiplier) * Signal isolation and noise protection critical * Feedback-ready design (voltage/current sensing interface) ⸻ 4. Pre-Heat Control Subsystem (Phase 2) * Controlled warm-up sequence: * Duration: ~ 180 seconds * 5-step gradual ramp profile * Output target: * ~3V regulated output * Up to ~2.7A current capability * Stable current regulation (closed-loop preferred) ⸻ 5. UI & System Integration * External mini PC (Windows 11) for touchscreen interface * Communication with MCU (UART / USB / SPI preferred) * Real-time parameter adjustment: * Voltage scaling * Current limiting * Exposure timing * Clean API/protocol between UI and control board ⸻ Required Expertise We are looking for candidates with proven experience in: * High-voltage system design (industrial / imaging / similar domains) * Advanced PCB design (multi-layer, noise-sensitive layouts) * Power electronics (DC-DC, PWM control, current regulation) * Embedded systems ( STM32 H7 or FPGA preferred) * Mixed-signal design (analog + digital integration) * EMI/EMC-aware layout practices ⸻ Tools & Deliverables Preferred Tools: * KiCad / Altium Designer / Proteus Deliverables: * Complete schematic design * PCB layout (production-ready) * Gerber files (ready for fabrication) * BOM (with recommended components) * Basic firmware structure ( STM 32H7 control logic) * Documentation (block diagram, design notes) ⸻ Nice to Have * Experience in imaging systems or similar high-voltage applications and xray portable * Knowledge of safety compliance and isolation design * Experience integrating MCU with Windows-based UI systems * Ability to simulate (Proteus / SPICE) ⸻ Engagement Details * Remote freelance project * Milestone-based delivery * Long-term collaboration opportunity for Phase 2 & system expansion ⸻ How to Apply Please include: * Portfolio of similar projects (especially high-voltage / power systems) * Tools you use (KiCad / Altium / others) * Estimated timeline * Your approach to system architecture ⸻ If you are a serious engineer with real-world experience in advanced power electronics, we want to work with you.