The FIDA Compact Medio Series Ignition Transformers are engineered to deliver efficient and reliable ignition for industrial combustion systems. Designed with compact dimensions and robust construction, these transformers provide stable high-voltage output for dependable flame ignition in gas burners, oil burners, hot air generators, boilers, and process heating equipment.
The Compact Medio Series is available in both Midpoint Ground Connected (CM) and One Pole Ground Connected (PM) configurations, offering flexibility for various burner ignition systems.
Operating on 230V or 400V power supplies depending on the model, the series delivers ignition outputs ranging from 4 kV to 8 kV with currents from 10 mA to 30 mA. Models are available for continuous operation as well as intermittent-duty applications.
Designed to comply with EN 61558-2-3 standards and RoHS requirements, the Compact Medio Series ensures long service life, safe operation, and reliable ignition performance.
Key Features
Compact ignition transformer for gas and oil burners
Reliable high-voltage spark generation
Available in midpoint ground and one-pole ground versions
Output voltage up to 8 kV
Output current up to 30 mA
Continuous and intermittent-duty models available
230V and 400V supply options
IP44 protection rating
CE certified
RoHS compliant
Compact and durable construction
Maintenance-free operation
Applications
Industrial Gas Burners
Industrial Oil Burners
Commercial Burners
Steam Boilers
Hot Air Generators
Industrial Furnaces
Process Heating Systems
Drying Equipment
Thermal Oil Heaters
Combustion Systems
OEM Burner Manufacturing
Burner Retrofit & Replacement Projects
Why Choose FIDA Compact Medio Ignition Transformers?
Reliable burner ignition performance
Multiple voltage and current options
Suitable for gas and oil burner applications
Compact design for easy installation
Available in different grounding configurations
Long operational life
CE certified and RoHS compliant
Trusted FIDA ignition technology
Technical Description
The FIDA Compact Medio Series converts standard mains voltage into high-voltage ignition energy required for burner ignition systems. Available in midpoint ground connected (CM) and one-pole ground connected (PM) versions, the series provides flexible installation options for industrial combustion equipment.
Output voltages range from 2 × 4 kV to 2 × 6 kV for CM models and from 1 × 5 kV to 1 × 8 kV for PM models. Output currents range from 10 mA to 30 mA depending on the model.
The transformers provide reliable spark generation for burner ignition while maintaining compact dimensions and robust industrial performance.
Technical Specifications
Specification | Details |
|---|---|
Brand | FIDA |
Series | Compact Medio |
Product Type | Ignition Transformer |
Input Voltage | 230V AC / 400V AC |
Frequency | 50Hz |
Output Voltage | 4 kV to 8 kV |
Output Current | 10 mA to 30 mA |
Duty Cycle | Continuous & Intermittent |
Protection Class | IP44 |
Compliance | CE, EN 61558-2-3, RoHS |
Configuration | CM / PM |
Application | Gas & Oil Burners |
Available Models – CM (Midpoint Ground Connected)
Model | Input Voltage | Output Voltage | Current |
|---|---|---|---|
8/10 CM | 230V | 2 × 4 kV | 10 mA |
8/10 CM | 400V | 2 × 4 kV | 10 mA |
8/14 CM | 230V | 1 × 8 kV | 14 mA |
8/20 CM | 230V | 2 × 4 kV | 20 mA |
10/20 CM | 230V | 2 × 5 kV | 20 mA |
10/20 CM | 230V | 2 × 5 kV | 20 mA |
12/20 CM | 230V | 2 × 6 kV | 20 mA |
10/30 CM | 230V | 2 × 5 kV | 30 mA |
Available Models – PM (One Pole Ground Connected)
Model | Input Voltage | Output Voltage | Current |
|---|---|---|---|
5/18 PM | 230V | 1 × 5 kV | 18 mA |
6/25 PM | 230V | 1 × 6 kV | 25 mA |
8/20 PM | 230V | 1 × 8 kV | 20 mA |
8/30 PM | 230V | 1 × 8 kV | 30 mA |
Configuration Types
CM – Midpoint Ground Connected
Provides a grounded midpoint between the secondary windings and is suitable for burner systems requiring center-ground ignition circuits.
PM – One Pole Ground Connected
Provides a single grounded pole output configuration suitable for burner systems requiring a grounded ignition electrode arrangement.