Hayward TriStar XL HCP3000 Series Variable Speed Pump - Owners Manual - Page 6

Overview

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Overview Hayward's HCP3000 Series variable speed pump is the industry's most energy efficient commercial variable speed pump. The totally enclosed, permanent magnet motor combined with its advanced hydraulic design provides unparalleled energy savings. This pump is easily installed either as a programmable standalone pump or with a Hayward or third party controller and features an easy-to-use digital control interface that can be mounted in four different positions on the pump or removed and mounted on the wall for total user convenience. Primary Features • Totally enclosed, permanent magnet motor • Advanced hydraulic design • Fully programmable with a self-contained 24-hour clock and up to 8 custom speed and timer functions • For enhanced pool management, can be controlled by Hayward or third party pool and spa control platforms, without the need for additional accessories • Digital control interface that can be mounted in four different positions on the pump or removed and mounted on the wall • Extra large basket design ensures easy debris removal and extends time between cleanings • Motor drive includes built-in protection for high temperatures and voltage fluctuations. Drive is also designed to withstand temperatures below freezing without issue Product Dimensions Energy Efficiency Overview The energy consumed by a pool pump is measured in terms of Watts (W) or Kilowatts (kW). The 1.65 THP variable speed pump family displays power consumption in Watts. Given this information, you can determine the cost of operating the pump: Power consumption of pump X Cost of electricity = Cost of Pump Operation per Hour Example: Hayward variable speed pump operating at 300 W. Cost of electricity = $0.10 per kWh Convert Watts to Kilowatts: 300 W = 0.3 kW 0.3 kW X $0.10/kWh = $0.03 per hour Note the power consumption is greatly affected by the speed of the pump. Lowering the speed of the pump can drastically reduce the power that is consumed. On the following page are some of the major benefits of running the pump at lower speeds. 5 USE ONLY HAYWARD GENUINE REPLACEMENT PARTS

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USE ONLY HAYWARD GENUINE REPLACEMENT PARTS
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Overview
Hayward’s HCP3000 Series variable speed pump is the industry’s most energy efficient commercial variable speed pump. The totally enclosed, permanent
magnet motor combined with its advanced hydraulic design provides unparalleled energy savings. This pump is easily installed either as a programmable stand-
alone pump or with a Hayward or third party controller and features an easy-to-use digital control interface that can be mounted in four different positions on
the pump or removed and mounted on the wall for total user convenience.
Primary Features
Totally enclosed, permanent magnet motor
Advanced hydraulic design
Fully programmable with a self-contained 24-hour clock and up to 8 custom speed and timer functions
For enhanced pool management, can be controlled by Hayward or third party pool and spa control platforms, without the need for additional accessories
Digital control interface that can be mounted in four different positions on the pump or removed and mounted on the wall
Extra large basket design ensures easy debris removal and extends time between cleanings
Motor drive includes built-in protection for high temperatures and voltage fluctuations. Drive is also designed to withstand temperatures below freezing
without issue
Product Dimensions
Energy Efficiency Overview
The energy consumed by a pool pump is measured in terms of Watts (W) or Kilowatts (kW). The 1.65 THP variable speed pump family displays power consump-
tion in Watts. Given this information, you can determine the cost of operating the pump:
Power consumption of pump X Cost of electricity = Cost of Pump Operation per Hour
Example:
Hayward variable speed pump operating at 300 W. Cost of electricity = $0.10 per kWh
Convert Watts to Kilowatts: 300 W = 0.3 kW
0.3 kW X $0.10/kWh = $0.03 per hour
Note the power consumption is greatly affected by the speed of the pump. Lowering the speed of the pump can drastically reduce the power that is consumed.
On the following page are some of the major benefits of running the pump at lower speeds.