Wiring Diagram — 208V/230V Single-Phase — Analog Models

USE COPPER CONDUCTORS ONLY

USE 75 ° C 600 V WIRE

TORQUE SCREWS : 40 LB - IN

COIL [CONTACTOR,FAN RELAY]

LED

TER. STRIP

CAPACTIOR

LPS

HPS

M

R

T

WPS

LEGEND

LOW PRESURE SWITCH

 

L E D'S

 

 

 

 

HIGH PRESURE SWITCH

A

POWER

AMBER

 

B

HEAT

GREEN

COMPRESSOR

C

WATER

GREEN

CONTACTOR

D

COMPRESSOR

AMBER

FAN RELAY

E

DEFROST

RED

 

 

 

T-STAT

F

L/P SWITCH

RED

 

 

 

WATER PRESURE SWITCH

 

 

 

R

C

COMPRESSOR S Y

R BL

PR

FAN BK

MOTOR

BR

GR

M

BK

R

R

BK

240V 208V

3.

POWER SUPPLY 208/230 V - 1 PHASE - 60 HZ

SPA / REMOTE / POOL

TRANSFORMER

BK

24 V

SWITCH

 

SHOWN IN POOL POSITION

BL

 

1

A

2

3

 

4

 

 

2 amp

 

 

FUSE

 

 

BK/W

5

R

1

A

BK

 

 

W

W

C

5

B

6

 

7

 

T SPA

BK BK BK

2.

8

C

9

 

10

D

11

12

R

 

 

BK

14 10 11

1

2

3

HPS

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

F

 

 

 

 

 

2.

BK

 

BK

 

 

T

 

POOL

 

 

 

 

 

 

 

 

 

1

2

3

 

 

 

8

 

 

 

9

 

 

 

 

13

BL

LPS

 

 

BK/BL

 

 

12

 

 

 

 

 

 

 

BK

 

 

 

 

 

 

GY/BK

BK

 

 

 

 

 

 

 

GY

 

 

 

 

 

 

 

POT 1

 

VAC24

HOT

 

 

 

POT 2

 

 

 

 

GY

 

 

 

 

 

 

 

TEMP. CONTROL

N.O.

 

 

 

 

BOARD

 

 

 

 

C

 

 

24 VAC

COM

 

 

 

SEN

SEN

N.C.

WATER SENSOR

1.

4

BK

WPS

BL

O W

W

BK BK

BK/R

7

B

5

 

O/R

W

REMOTE CONTROL FIELD CONNECTIONS

21

T

GY

 

 

22

C

R

 

 

23

S

R/BL

 

 

R/BL

24

P

 

 

 

16

 

BK/R

 

 

24 Volts AC

W

15

 

 

 

E

BK BK

2

DEFROST

BK/GY SWITCH

3 T

2

1

D

 

W

BK

BK

 

Delay Timer

 

3

6

 

T/BK

P

P/BK

 

W

 

 

M

BK/GY

 

W

 

 

R

 

 

W

NOTES:

SENSOR RATED @

1.

75º 10.5K

 

 

 

 

 

 

 

 

 

 

77º 10K

 

 

 

 

 

84º 8.50K

 

 

 

 

2.

T-STAT RATED @

WIRE COLOR CODE

75º 4.73K

 

BK

BLACK

P

PINK

 

77º 4.25

 

BL

BLUE

PR

PURPLE

 

84º 2.44K

 

BR BROWN

R

RED

3.

TRANSFORMER WIRED FOR 240V,

G

GREEN

T

TAN

MOVE RED WIRE TO 208 TER. FOR

GY GRAY

W

WHITE

 

 

208V

O

ORANGE Y

YELLOW

WIRING INFORMATION USE COPPER CONDUCTORS ONLY

LINE VOLTAGE

 

 

USE 75 ° C 600 V WIRE

FACTORY STANDARD

 

 

 

 

 

 

FIELD INSTALLED

 

 

 

LOW VOLTAGE

 

 

 

FACTORY STANDARD

 

 

 

 

 

 

FACTORY OPTION

 

 

 

USE TERMINALS 21 & 22 TO ATTACH 2 WIRE CONTROL SYSTEMS THAT HAVE THIER OWN SENSORS FOR TEMPERATURE CONTROL.

USE TERMINALS 22 , 23 & 24 TO ATTACH 3 WIRE CONTROL SYSTEM THAT UTILIZE OUR TEMPERATURE SENSOR FOR TEMPERATURE CONTROL.

TO ENGAGE AN EXTERNAL CONTROL SYSTEM PUT THE

POOL-REMOTE-SPA SWITCH IN THE REMOTE POSITION

HAVE A QUESTION ?

CALL 800-375-7378

RAYPAK

POOL HEAT PUMP 5310, 6310, 8320

DWG NUMBER

REV

082708

00-11029

 

18

Page 18
Image 18
Energy Tech Laboratories 8320, 6310, 5310 operating instructions Wiring Diagram 208V/230V Single-Phase Analog Models, Switch

5310, 6310, 8320 specifications

Energy Tech Laboratories has made significant strides in the energy sector with its innovative range of products, particularly the models 8320, 5310, and 6310. These energy solutions are designed to meet the increasing demand for efficient, sustainable power generation and management.

The Energy Tech Laboratories 8320 is renowned for its robust performance in renewable energy applications. This model features advanced photovoltaic technology that maximizes energy capture from sunlight, making it ideal for solar power systems. Its integrated smart inverter allows for seamless grid connectivity while ensuring optimal energy conversion. Additionally, the 8320 includes state-of-the-art monitoring capabilities, enabling users to track energy production and consumption in real time. Its compact design and lightweight materials make it suitable for residential rooftops, as well as commercial installations.

Moving on to the 5310 model, this powerhouse focuses on energy storage solutions. Equipped with high-capacity lithium-ion batteries, the 5310 is engineered to store excess energy generated during peak production times for later use. This feature is particularly beneficial for users seeking to maximize their energy efficiency by utilizing stored power during peak demand periods. The 5310 also boasts a user-friendly interface that simplifies the monitoring and management of energy consumption, offering insights that help users make informed energy decisions.

Lastly, the Energy Tech Laboratories 6310 model stands out for its innovative energy management system. This model employs artificial intelligence and machine learning algorithms to optimize energy distribution and usage across various applications. Its decentralized architecture allows for improved energy resilience, making it an excellent choice for large-scale industrial operations and smart grid implementations. With real-time analytics, the 6310 can adapt to changing energy demands, reducing waste and enhancing overall efficiency.

In summary, Energy Tech Laboratories has established itself as a leader in the energy tech sector with its 8320, 5310, and 6310 models. Each product features cutting-edge technologies and characteristics that cater to distinct aspects of energy generation, storage, and management. By harnessing the power of innovation, Energy Tech Laboratories is paving the way for a more sustainable future.