Hayward W3SP3206VSP TriStar VS 950 - Owners Manual - Page 15

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5.2. Hayward Automation Control Wiring (Optional, for remote control of pump speed) Note: For software compatible Hayward controls only. Existing user interface wiring connection (if present) should be unplugged and second terminal block connector should be used to make wiring connections shown below. Figure 5.2-1 This pump can communicate with and be controlled by Hayward pool controls such as OmniLogic™, ProLogic®, ECommand® 4, and OnCommand®. Minimum software revision requirements: OmniLogic R1.0.0, ProLogic 3.00, OnCommand 1.00, E-Command 2.65, E-Command 4 2.80, AquaLogic 2.65, and AquaPlus 2.65. To determine Hayward control software revision, consult the appropriate Hayward pool control installation manual or visit our website at www.haywardpool.com. Connection wire must be rated for a minimum of 300V, and may be up to 500 feet in length. Use removable 4-position terminal block connector for wiring connection to motor drive PCB, taking care to note the wire colors and corresponding numbers next to the connectors. Terminal block must be installed with screws facing up to ensure proper connection. ATTENTION - THIS PUMP CAN ALSO BE SET SO THAT IT WILL CONTINUE RUNNING IN THE EVENT OF COMMUNICATION LOSS. When inputs are activated via wire jumpers, the pump will respond to a communication loss (after a 4 minute delay) as follows: 1. No inputs connected: pump remains stopped 2. INP1 connected: pump runs 3450 rpm for 8 minutes, then 1725 rpm 3. INP2 connected: pump runs 3450 rpm for 8 minutes, then 2600 rpm 4. INP3 connected: pump runs 3450 rpm See section 5.4 for details regarding input connections (relays would not be used when connecting inputs to set comm loss behavior; use short jumpers in this case). Note: Prior to drive comm revision 10.10, pump response was as follows: no inputs connected - pump runs 3450 rpm for 8 minutes then 1725 rpm; INP1 connected - pump runs 3450 rpm for 8 minutes then 2600 rpm; INP2 connected - pump runs 3450; INP3 connected - pump remains stopped. Jumpers, if used to set desired behavior in the event of communication loss, need to be installed at initial pump installation. When communicating with OmniLogic, the HUA (Hayward Unique Address) is used for communication. For all Hayward controls other than OmniLogic, the pump address must be set using the DIP switches on the drive PCB. To determine which address should be used, consult the appropriate Hayward pool control installation manual, or visit our website at www.haywardpool.com. Pump addresses are set according to the table on the following page. Page 15 of 36 USE ONLY HAYWARD GENUINE REPLACEMENT PARTS 2.70 THP VS Pump Family IS3206VSP3 Rev-B

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USE ONLY HAYWARD GENUINE REPLACEMENT PARTS
Page 15 of 36
2.70 THP VS Pump Family
IS3206VSP3
Rev-B
5.2.
Hayward Automation Control Wiring (Optional, for remote control of pump speed)
Note:
For software compatible Hayward controls only. Existing user interface wiring connection (if present) should be
unplugged and second terminal block connector should be used to make wiring connections shown below.
Figure 5.2-1
This pump can communicate with and be controlled by Hayward pool controls such as OmniLogic™, ProLogic®, E-
Command® 4, and OnCommand®. Minimum software revision requirements: OmniLogic R1.0.0, ProLogic 3.00,
OnCommand 1.00, E-Command 2.65, E-Command 4 2.80, AquaLogic 2.65, and AquaPlus 2.65. To determine Hayward
control software revision, consult the appropriate Hayward pool control installation manual or visit our website at
www.haywardpool.com. Connection wire must be rated for a minimum of 300V, and may be up to 500 feet in length.
Use removable 4-position terminal block connector for wiring connection to motor drive PCB, taking care to note the
wire colors and corresponding numbers next to the connectors.
Terminal block must be installed with screws facing
up to ensure proper connection.
ATTENTION
– THIS PUMP CAN ALSO BE SET SO THAT IT WILL CONTINUE RUNNING IN THE EVENT OF
COMMUNICATION LOSS.
When inputs are activated via wire jumpers, the pump will respond to a communication
loss (after a 4 minute delay) as follows:
1.
No inputs connected:
pump remains stopped
2.
INP1 connected:
pump runs 3450 rpm for 8 minutes, then 1725 rpm
3.
INP2 connected:
pump runs 3450 rpm for 8 minutes, then 2600 rpm
4.
INP3 connected:
pump runs 3450 rpm
See section 5.4 for details regarding input connections (relays would not be used when connecting inputs to set
comm loss behavior; use short jumpers in this case).
Note:
Prior to drive comm revision 10.10, pump response
was as follows: no inputs connected – pump runs 3450 rpm for 8 minutes then 1725 rpm; INP1 connected – pump
runs 3450 rpm for 8 minutes then 2600 rpm; INP2 connected – pump runs 3450; INP3 connected – pump remains
stopped.
Jumpers, if used to set desired behavior in the event of communication loss, need to be installed at
initial pump installation.
When communicating with OmniLogic, the HUA (Hayward Unique Address) is used for communication. For all Hayward
controls other than OmniLogic, the pump address must be set using the DIP switches on the drive PCB. To determine
which address should be used, consult the appropriate Hayward pool control installation manual, or visit our website
at www.haywardpool.com. Pump addresses are set according to the table on the following page.