InF1:

Heating circuit 1

 

InF2:

Heating circuit 2

 

 

 

 

 

InF3:

Heating circuit 3

 

Error

InF4:

DHW heating

 

InF5:

Primary control circuit

 

 

InF7:

LON communication

 

InF8:

Error status register

 

 

 

bIn-E

InF9:

Communication

 

PU:

Pump/manual level

 

 

 

PU

bIn-E:

Binary inputs and outputs

 

Error:

Error indication

 

 

PA1:

Heating circuit 1

 

PA2:

Heating circuit 2

 

PA3:

Heating circuit 3

 

PA4:

DHW heating

 

PA5:

Capacity/flow rate limitation

 

PA7:

LON communication

 

PA9:

Communication

 

 

 

Co9

 

 

 

Anl:

System

 

 

 

 

 

Co8

Co1:

Heating circuit 1

 

 

Co2:

Heating circuit 2

 

Co7

Co3:

Heating circuit 3

 

 

Co4:

DHW heating

 

Co6

Co5:

Separate functions

 

 

 

Co6:

Sensor initialization

 

Co5

Co7:

LON communication

 

 

 

Co8:

Error initialization

 

Co4

Co9:

Communication

 

 

 

 

 

Co3

Co2

Co1

Fig. 10 · Level structure

00:00

or

Operating level

(see section 1 for operation)

or Configuration and parameter level

(see section 2 for start-up)

Anl

InF1

InF2

InF3

InF4

InF5

InF7

InF8

InF9

PA1

PA2

PA3

PA4

PA5

PA7

PA9

EB 5179 EN 141

Page 141
Image 141
Samson 5179, 5100 operating instructions PA1 PA2 PA3 PA4 PA5 PA7 PA9

5179, 5100 specifications

The Samson 5179 and 5100 series are renowned for their innovative design and robust performance in various industrial applications. These models are particularly known for their precision control and reliability in managing fluid flow systems.

One of the main features of the Samson 5179 is its advanced control valve technology, which allows for seamless operation across different pressures and flow rates. The valve is designed with a compact and lightweight construction, making it easy to install and maintain. Enhanced sealing mechanisms ensure minimal leakage and increased durability, even under harsh operating conditions.

The Samson 5100, on the other hand, is distinguished by its adaptive control technologies. This model incorporates state-of-the-art automation capabilities, allowing for remote monitoring and adjustments. With its integrated sensors, operators can receive real-time data on pressure, temperature, and flow rates, leading to more informed decision-making.

Both series utilize high-quality materials, ensuring longevity and resistance to corrosion and wear. This characteristic is crucial for applications in industries such as water treatment, chemicals, and pharmaceuticals. The valves are designed to withstand significant pressure differences, enhancing their versatility in various settings.

Another key technology featured in both the 5179 and 5100 series is the user-friendly interface. This interface simplifies configuration and management, enabling operators to program performance parameters quickly. The intuitive design minimizes the learning curve, allowing teams to leverage the system’s capabilities effectively.

Additionally, both models are compliant with international standards, making them suitable for global applications. This compliance not only ensures safety but also enhances market acceptance across various regions.

Energy efficiency is another important characteristic of the Samson 5179 and 5100 series. With optimized flow dynamics, these valves minimize energy consumption while maintaining high performance, making them a sustainable choice for companies aiming to reduce their environmental footprint.

In summary, the Samson 5179 and 5100 series stand out due to their innovative features, robust construction, and advanced technologies. With a focus on precision, reliability, and efficiency, these models are poised to meet the evolving demands of modern industrial applications. Their adaptability and user-friendly interfaces make them ideal for operators seeking streamlined operations and enhanced productivity.