Pharos Science & Applications DL 40, EL 40 manual Manual Quattrostat, Manual Triostat Plus

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Control Units for Pharo® Shower Temples® and Shower Panels®

Manual (Quattrostat)

1

2

3

4

5

6

Shower Panel Prestige ML 20

1

Scald protection: for temperatures

Features:

 

above 38° press button and turn

- Thermostatic mixer with scald

 

knob

protection

2

Thermostatic mixer ½”

- Stop-/diverter valve

3

Body shower

- Adjustable flow rate

4

Overhead shower

- Combination of two showers possible

5

Hand shower

 

6

Stop-/diverter valve

Products:

 

 

- Shower Panel Helis ML 20

 

 

- Shower Panel Prestige ML/M 20

 

 

- Shower Panel Lift M 20

Manual (Triostat Plus)

1

2

3

1

MTC Thermostatic mixer ½”

Features:

2

Scald protection: for temperatures

- Thermostatic mixer with scald

 

above 38° press button and turn

protection

 

knob

- Stop-/diverter valve

3

Stop-/diverter valve

- Adjustable flow rate

 

 

- Combination of two showers possible

Products:

- Shower Panel Comfort Plus M 20

(Triostat Plus Version)

- Shower Panel Comfort Plus M 20

(for bathtub)

Shower Panel Comfort Plus (Thermostat Version)

Subject to alteration in the interest of

4

technical advancement

 

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Contents Features Semielectronic Steam Version K4 Sensotronic SteamProducts Light/-programme/-timing Standard for Shower TempleSemielectronic K4 Sensotronic Manual MTC Ecostat with additional stop valveManual MTC Ecostat Manual VariothermManual Quattrostat Manual Triostat PlusManual single lever mixer with diverter Operational Functions

EL 40, DL 40 specifications

Pharos Science & Applications has made a remarkable contribution to the field of optical systems with its innovative range of products, prominently including the EL 40 and DL 40 models. These systems are designed to meet the rigorous demands of modern applications such as microscopy, astronomy, and industrial inspection.

The Pharos EL 40 is known for its exceptional light output and precision optics. At the core of its design are advanced LED technologies that offer both brightness and energy efficiency, making it an ideal choice for environments where illumination is crucial. The EL 40 is equipped with a customizable intensity control allowing users to achieve the desired lighting conditions for various applications. Its compact design enhances portability, while its robust construction ensures durability in demanding settings.

On the other hand, the Pharos DL 40 stands out with its dual-light technology. This unique feature allows users to utilize both visible and infrared light, broadening the spectrum of applications. The DL 40 excels in fields such as material science and biological research, where different wavelengths can yield critical insights. Its user-friendly interface simplifies operation, enabling researchers and technicians to focus more on their tasks rather than adjusting complex settings.

Both models feature advanced thermal management systems, which prevent overheating and prolong the lifespan of the LED components. This is particularly beneficial in long-term experiments where consistent performance is essential. Moreover, they are equipped with sophisticated cooling mechanisms that ensure optimal working conditions, further enhancing their reliability.

Integration is another key characteristic of the EL 40 and DL 40. These systems come with versatile connectivity options, allowing easy integration into existing laboratory setups. They support various control interfaces, including computer software and manual operation, ensuring that users can effortlessly switch between different control methods depending on their specific needs.

In summary, the Pharos EL 40 and DL 40 represent a significant advancement in optical system technology. Their combination of high-performance output, flexible lighting options, and user-friendly design positions them as preferred solutions for professionals across a range of scientific and industrial applications. Whether illuminating a microscopic sample or analyzing the properties of materials, these models deliver the precision and reliability that modern research demands, making them invaluable tools in the scientific community.