4

5

6

7

Optional Features

16

Pilot Test Mode Sequence

16

Air Switch Input Hold

16

Remote Display & Power Supply

16

Status Lights & Push-buttons

17

Interlocks Closed

17

Air Failure

17

System Error

17

Burner On

17

Flame Failure

17

Low Fire

17

High Fire

17

Auto

17

Test/Reset

17

System Installation

18

Introduction

18

Interlocks and Limit Switch Input

18

Combustion Air Switch Input

18

Ignition Wiring

18

Low Fire Input

19

Main Valve Closed switch

19

High Fire Input

19

Remote Reset

19

Remote Display & Power Supply

19

Purge and No Purge Wiring Diagram (Figure 5.1)

20

Modulation Wiring Diagram (Figure 5.2)

20

Typical Connections for all Models (Figure 5.3)

21

Sensor Installation

24

Introduction

24

Sensor Wiring

24

Flame Rods

25

Scanners

25

Scanner Sighting Considerations

25

Test Procedures

26

Introduction

26

Flame Signal Strength

26

Minimum Pilot Test

26

Pilot Flame Failure Test

27

Main Flame Failure Test

27

Spark Sighting Test

27

Limits & Interlock Tests

27

Eclipse Veri-Flame Instruction Manual 818 -2/02

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Eclipse Combustion 5600, VeriFlame Single Burner Monitoring System instruction manual

5600, VeriFlame Single Burner Monitoring System specifications

The Eclipse Combustion VeriFlame Single Burner Monitoring System, model 5600, represents a significant advancement in the field of combustion management technology. Designed to provide enhanced monitoring and control of burner operations, the VeriFlame system is equipped with state-of-the-art features that ensure optimal efficiency, safety, and performance in a variety of industrial applications.

One of the main features of the VeriFlame 5600 is its advanced flame detection technology, which employs efficient optical sensors to monitor flame presence and stability continuously. This feature enables the system to provide real-time feedback, ensuring that burners operate within specified parameters and respond swiftly to any fluctuations. The system’s intelligent analytics can easily discern between normal operational conditions and potential hazards, enhancing safety and reducing the risk of unsafe operation.

The VeriFlame system is also known for its versatile communication capabilities, featuring multiple connectivity options. The unit can integrate seamlessly with existing plant control systems using industry-standard protocols such as Modbus or Profibus. This interoperability allows for comprehensive data sharing and centralized control of multiple burner systems from a single interface, streamlining operations and improving operator efficiency.

Another notable characteristic of the Eclipse Combustion VeriFlame is its user-friendly interface. The system comes with an intuitive graphical display that provides operators with critical operational data, including flame quality, burner status, and diagnostic information. This straightforward interface facilitates quick decision-making and troubleshooting, minimizing downtime and enhancing the overall operational efficiency of the burner system.

The 5600 model also offers robust diagnostic capabilities, allowing for proactive maintenance and reduced unexpected failures. It features built-in self-check routines and historical data logging, which provide valuable insights into system performance over time. These diagnostic tools empower operators to identify and address potential issues before they escalate, thereby reducing maintenance costs and enhancing the longevity of the burner components.

Moreover, the VeriFlame system is designed with flexibility in mind, accommodating various burner types and fuel sources. This adaptability makes it suitable for use in a wide range of industries, including oil and gas, power generation, and manufacturing.

In conclusion, the Eclipse Combustion VeriFlame Single Burner Monitoring System 5600 stands out due to its advanced flame detection, versatile communication options, user-friendly interface, robust diagnostics, and flexibility. Together, these features make it an essential tool for optimizing combustion processes, enhancing safety, and improving overall operational efficiency in industrial environments.