FIREYEFlame Detectors and Probes:UL-BR130138X, UA1A12, MBPF-200S and EP380 

FIREYE Integrated Flame Detectors and Probes:UL-BR130138X, UA1A12, MBPF-200S and EP380 Explained

Introduction

Reliable flame detection is a cornerstone of industrial combustion safety. In industries where burners, boilers, and furnaces operate continuously, flame monitoring systems must deliver fast response, high accuracy, and long-term stability. FIREYE has long been recognized as a global leader in flame detection and burner management technology, offering a wide portfolio of integrated flame detectors, UV scanners, probes, and programmers.

This article provides an in-depth overview of several widely used FIREYE products, including the UL-BR130138X integrated flame detector, UA1A12 probe, PN:78195-05 probe, MBPF-200S flame scanner, MBPF-200S combined with UV7A4, and the EP380 programmer. Together, these components form a flexible and reliable flame monitoring solution suitable for a wide range of industrial applications.

Overview of FIREYE Flame Detection Solutions

FIREYE flame detection systems are designed to verify the presence and stability of combustion flames in real time. These systems typically consist of:

• Integrated flame detectors

• UV or flame scanner probes

• Signal processors or programmers

• Interfaces to burner management systems

The combination of detectors such as UL-BR130138X, probes like UA1A12, and control components like EP380 programmer allows engineers to tailor flame monitoring systems to specific process requirements while maintaining compliance with international safety standards.

FIREYE UL-BR130138X Integrated Flame Detector

The UL-BR130138X is a compact, integrated flame detector engineered for continuous industrial flame supervision. It combines sensing elements and signal processing into a single, robust unit.

Key characteristics:

• Integrated design for simplified installation

• Fast flame detection and flame failure response

• Industrial-grade construction for harsh environments

• Stable operation in high-temperature combustion zones

The UL-BR130138X is commonly used in burner management systems where space efficiency and reliability are critical. Its integrated architecture reduces wiring complexity and improves system stability, making it suitable for both new installations and system upgrades.

FIREYE UA1A12 Flame Probe

The UA1A12 is a dedicated flame probe designed to work with FIREYE flame safeguard controls. It is widely used for flame sensing in gas and oil-fired combustion systems.

Key features include:

• High sensitivity to flame presence

• Durable probe construction for industrial use

• Reliable signal transmission to control modules

• Compatibility with multiple FIREYE controllers

The UA1A12 probe is often selected for applications requiring precise flame sensing in confined or high-temperature burner areas.

FIREYE Flame Probe PN:78195-05

The PN:78195-05 flame probe is a specialized sensing component used in FIREYE flame monitoring assemblies. It is designed to provide consistent and accurate flame detection under demanding operating conditions.

Advantages of PN:78195-05:

• Stable flame signal output

• Resistance to vibration and thermal stress

• Long service life with minimal maintenance

• Proven compatibility with FIREYE detection systems

This probe is frequently installed in industrial furnaces and boilers where long-term reliability is essential.

FIREYE MBPF-200S Flame Scanner

The MBPF-200S is a well-known FIREYE flame scanner platform used for monitoring combustion flames in industrial burners.

Core attributes:

• Reliable flame sensing technology

• Flexible mounting options

• Designed for continuous-duty operation

• Suitable for a wide range of fuels

The MBPF-200S scanner is widely used in power generation, petrochemical processing, and manufacturing industries where flame stability directly affects process safety and efficiency.

MBPF-200S with UV7A4 Flame Detector Combination

When paired with the UV7A4 ultraviolet flame detector, the MBPF-200S + UV7A4 configuration provides enhanced flame detection capability.

Benefits of this combination include:

• Rapid UV-based flame detection

• Improved immunity to background radiation

• High sensitivity to hydrocarbon flames

• Reliable performance in harsh industrial environments

This configuration is particularly effective in applications where fast flame response and high detection accuracy are required, such as refinery heaters and high-capacity industrial boilers.

FIREYE EP380 Programmer

The EP380 programmer is a critical control component used in FIREYE flame safeguard systems. It manages flame detection logic, sequencing, and safety interlocks.

Key functions of the EP380 programmer:

• Processes flame signals from probes and detectors

• Controls burner start-up and shutdown sequences

• Ensures compliance with safety timing requirements

• Provides diagnostic and status information

By integrating with detectors like UL-BR130138X and scanners such as MBPF-200S, the EP380 programmer helps create a complete and reliable flame monitoring and control solution.

Typical Industrial Applications

FIREYE flame detectors, probes, and programmers are widely used across multiple industries:

Power Generation
Ensuring safe and stable combustion in boilers and auxiliary burners.

Oil & Gas and Petrochemical
Monitoring flames in refineries, cracking units, and process heaters.

Chemical Processing
Providing reliable flame detection in hazardous environments with strict safety requirements.

Manufacturing and Thermal Processing
Supporting furnaces, kilns, and heat treatment systems where flame stability is critical.

Installation Considerations

To achieve optimal performance, FIREYE flame detection components should be installed with attention to:

• Proper probe alignment with the flame root

• Clear line of sight for UV detectors

• Secure mounting to minimize vibration

• Correct grounding and shielding

Correct installation not only improves detection accuracy but also extends equipment lifespan.

Maintenance and Operational Best Practices

Routine maintenance helps maintain reliable flame detection:

• Periodic inspection of probes and detectors

• Cleaning sensor surfaces to remove deposits

• Verification of flame signal strength

• Replacement of worn components as part of preventive maintenance

FIREYE components are designed for durability, but proactive maintenance ensures consistent performance.

Advantages of Using FIREYE Flame Detection Systems

Across products such as UL-BR130138X, UA1A12, PN:78195-05, MBPF-200S, UV7A4, and EP380 programmer, FIREYE offers:

• Proven combustion safety technology

• Fast response and high reliability

• Modular system architecture

• Compatibility with global safety standards

• Long-term operational stability

These advantages make FIREYE a preferred choice for safety-critical combustion applications worldwide.

Conclusion

FIREYE integrated flame detectors, probes, and programmers form a comprehensive solution for industrial flame monitoring. Whether using an integrated detector like UL-BR130138X, flame probes such as UA1A12 and PN:78195-05, or advanced control components like the EP380 programmer, users benefit from reliable performance, fast response, and proven safety.

Combined solutions such as MBPF-200S with UV7A4 further enhance detection accuracy in demanding environments. By selecting the appropriate FIREYE components and following best installation and maintenance practices, industrial facilities can significantly improve combustion safety, reduce downtime, and ensure regulatory compliance.