Raypak Hot Water Energy Management Control Screen code and description, in sequence of appearance

Page 15

Screen code and description, in sequence of appearance

See page

 

 

 

FM

PRODUCT IDENTIFICATION - Model, type, and version

17

SE

SENSORS - Displays temperature of each standard sensor

17

OS

OPTIONAL SENSORS - Displays other sensors

17

RT

RELAY TEST - On/Off relay status and manual override

17

ST

SENSOR TEST - Simulates sensor temperatures

23

RM

RUN TIME METERS - Total on-time for each heater or stage

 

 

 

 

DL

DETAIL LOG - Shows history values for seven days

 

TL

TREND LOG - Shows history values for one year

 

CK

CLOCK - Display and set time and date

17

TS

TIME SCHEDULE - Seven day, 20 schedule, time clock

19

ER

ERASE/RESET - Selective clear or restart

18

MC

MODEM TEST - Terminate call or test modem or fax

28

 

 

 

PD

PERFORMANCE DATA - Savings Analysis

24

 

 

 

DN

TEXT - Company Name

26

PN

TEXT - Property Name

26

SL

TEXT - Site Location

26

FN

TEXT - Disk File Name

26

 

 

 

MS

TEXT - Modem Setup

26

SH

TEXT - Modem Disconnect

26

AD

TEXT - Pager Dial-Out

26

FD

TEXT - Fax Dial-Out

27

PW

TEXT - Security Password

18

PM

TEXT - Front Panel Menu

18

RL

TEXT - Relay Logic (1-12)

23

 

 

 

T1

SELECT - Supply Sensor Offset

25

T8

Not used for this model

 

 

 

 

C0

SELECT - Maximum Supply Temperature

19

C1

SELECT - Minimum Supply Temperature

19

C2

SELECT - Outside Temperature for Maximum Supply

19

C3

SELECT - Outside Temperature for Minimum Supply

19

C4

SELECT - Night Setback at Maximum Supply

19

C5

SELECT - Night Setback at Minimum Supply

19

C6

SELECT - Morning Boost at Maximum Supply

20

C7

SELECT - Morning Boost at Minimum Supply

20

 

 

 

Screen codes in Boldface are described in detail on the pages listed.

15

Image 15
Contents RayTemp Hot Water Energy Management Control SERVICE/RETURN Authorization Procedure BIG Picture Getting StartedManual Attaching the Temperature SensorsProcedure for Connecting Temperature Sensors to Pipes What Comes with the ControlProcedure for Installing Supply Sensor in Tank Providing 24 VAC Power to the ControlInstallation Layout Make all adjustments with ALL power off DIP Switch Settings on Circuit BoardConnecting the Optional Elsa Brand Modem RT-Relay Status Using the Front Panel to Check Sensors and RelaysGreen = Building or Buying Interface CablesDescription Red =Back Installing PTT Software on Your PCSimulated Front Panel Display SpaceReading Logged Data Using Your PC, PTT and Modem to Call a ControlPage Quick Reference Front Panel Laptop Screen SelectedOr PC Key See Screen code and description, in sequence of appearanceScreen Code and Description Time and Date First Screen AT POWER-UPManual Override View Sensors and RelaysErase Memory / Reset Program Security PasswordFront Panel Menu / Lock Time Schedule Supply TemperaturePage NO. Default is YES Return TemperatureSQ Select Branch Temperature not UsedB0 Select # of Branch Sensors Installed Not used Relay SequencingSensor Override Test Savings Test Results Savings Test SetupSensor Calibration Data Modem Setup Location TextLapTop Value Transmit Day Graphs FAX Modem Setup and TestStatus Description Option Transmit Function PagesSERVICE/RETURN Authorization Procedure Warranty

Hot Water Energy Management Control specifications

Raypak, a leading name in the hydronic heating and hot water markets, has developed an innovative solution for energy management with its Hot Water Energy Management Control system. This advanced control technology is designed to optimize the performance and efficiency of heating systems, making it an ideal choice for commercial and residential applications.

One of the standout features of the Raypak Hot Water Energy Management Control is its ability to integrate with various heating systems, including boilers and water heaters. This flexibility ensures a seamless connection that maximizes energy efficiency across different types of equipment. The system employs advanced algorithms to analyze real-time data, enabling it to adjust operations based on current demand and environmental conditions.

A key characteristic of Raypak’s control system is its user-friendly interface. This interface allows operators to easily monitor and adjust system settings, ensuring that hot water is delivered at the desired temperature without wasting energy. With remote access capabilities, users can manage their systems from anywhere, enhancing convenience and operational oversight.

The technology behind the Hot Water Energy Management Control emphasizes sustainability. By actively managing water temperature and flow rates, the system minimizes energy consumption while maintaining user comfort. Smart scheduling features allow for operation based on peak and off-peak energy rates, reducing operational costs and environmental impact.

Moreover, Raypak’s commitment to reliability and durability is evident in this control system. Built with robust components, the control unit is designed to withstand challenging environments while maintaining consistent performance. This not only extends the lifespan of the system but also ensures that the hot water supply remains uninterrupted.

Another notable aspect of the Raypak energy management system is its compatibility with smart building technologies. As the trend towards smart automation in building management systems continues to grow, Raypak has equipped its control with features that allow it to communicate with other automated systems. This integration facilitates a holistic approach to energy management, optimizing all aspects of facility operation.

In addition to efficiency and integration, Raypak provides comprehensive support and training for its Hot Water Energy Management Control system. This commitment to customer service ensures that users can take full advantage of the system’s capabilities, enhancing both performance and satisfaction.

In conclusion, the Raypak Hot Water Energy Management Control system offers a technologically advanced solution for optimizing hot water heating. With its range of features, emphasis on sustainability, and compatibility with smart technologies, it stands out as a pivotal component for effective energy management in today’s demand-driven environment.