Water specialist Ws1cc Guide

Water Specialist

1” Control Valve Series Model: WS1CC

1.25” Control Valve Series Model: WS1.25CC

Operation and Instruction Manual for OEM Only.

Please Note: This operation and instruction manual is for the training of the

OEM and for the OEM to use to train their customers. This document is not

to be used as the complete system manual.

WS1CC & WS1.25CC Manual Page 3

Introduction................................................................................................................................................................................ 4

General Warnings (Must appear in OEM’s manual) ........................................................................................................... 4

Speciﬁcations which must be included in OEM’s Manual.................................................................................................. 5

Quick Reference Speciﬁcations........................................................................................................................................... 5

Control Valve Function and Cycles of Operation...................................................................................................................... 6

Drive Assembly ................................................................................................................................................................... 8

Drive Cap Assembly, Main Piston and Regenerant Piston.................................................................................................. 8

Spacer Stack Assembly........................................................................................................................................................ 8

Injector Cap, Screen, Injector Plug and Injector ................................................................................................................. 9

Reﬁll Flow Control Assembly or Reﬁll Port Plug............................................................................................................... 9

Drain Line Flow Control and Fitting Assembly................................................................................................................ 10

Water Meter or Meter Plug................................................................................................................................................ 11

Mixing Valve ..................................................................................................................................................................... 11

Installation Fitting Assemblies .......................................................................................................................................... 11

Bypass Valve...................................................................................................................................................................... 12

OEM General Instructions....................................................................................................................................................... 14

OEM Cycle Sequence........................................................................................................................................................ 14

OEM Softener System Setup ............................................................................................................................................ 16

OEM Filter System Setup ................................................................................................................................................. 19

Installer Display Settings................................................................................................................................................... 21

User Display Settings........................................................................................................................................................ 22

Salt Remaining or Adding Salt.......................................................................................................................................... 24

Diagnostics........................................................................................................................................................................ 25

Valve History..................................................................................................................................................................... 26

Installation................................................................................................................................................................................ 27

Drawings and Part Numbers.................................................................................................................................................... 29

Front Cover and Drive Assembly...................................................................................................................................... 30

WS1CC Drive Cap Assembly, Downﬂow Piston, Upﬂow Piston, Regenerant Piston and Spacer Stack Assembly ........ 31

WS1.25CC Drive Cap Assembly, Downﬂow Piston, Regenerant Piston and Spacer Stack Assembly ............................ 32

Injector Cap, Injector Screen, Injector, Plug and O-ring................................................................................................... 33

Reﬁll Flow Control Assembly and Reﬁll Port Plug .......................................................................................................... 34

Drain Line – 3/4”............................................................................................................................................................... 35

Drain Line – 1”.................................................................................................................................................................. 36

Water Meter, Meter Plug and Mixing Valve...................................................................................................................... 37

Installation Fitting Assemblies .......................................................................................................................................... 38

Bypass Valve...................................................................................................................................................................... 40

Flow Diagrams – Service and Backwash.......................................................................................................................... 41

Flow Diagrams – Downﬂow and Upﬂow.......................................................................................................................... 42

Flow Diagrams – Rinse and Fill........................................................................................................................................ 43

WS1 Wrench ..................................................................................................................................................................... 44

Service Instructions.................................................................................................................................................................. 45

Troubleshooting ....................................................................................................................................................................... 50

WS1CC & WS1.25CC Identiﬁcation ..................................................................................................................................... 52

Injector Graphs US Units: Injector Draw, Slow Rinse and Total Flow Rates......................................................................... 53

Injector Graphs Metric Units: Injector Draw, Slow Rinse and Total Flow Rates.................................................................... 55

Limited Warranty..................................................................................................................................................................... 60

Table of Contents

Page 4 WS1CC & WS1.25CC Manual

Introduction

This manual is about a control valve to be used on water softeners or water ﬁlters. The manual is designed to aid water treatment

equipment manufacturers in the selection of the various control valve options. Information in this manual is different than what is

needed for installation and servicing of a particular water treatment system. This manual is not intended to be used as a manual for

a complete water softener or ﬁlter. Certain parts of the manual will serve as aids to manufacturers in the writing and layout of the

manuals for installers and service personnel.

General Warnings (Must appear in OEM’s manual)

The following general warnings and the speciﬁcations in Table 1 must appear in the OEM’s System Manual.

The control valve, ﬁttings and/or bypass are designed to accommodate minor plumbing misalignments but are not designed to

support the weight of a system or the plumbing.

Do not use Vaseline, oils, other hydrocarbon lubricants or spray silicone anywhere.A silicone lubricant may be used on black

o-rings but is not necessary. Avoid any type of lubricants, including silicone, on the clear lip seals.

The nuts and caps are designed to be unscrewed or tightened by hand or with the special plastic wrench. If necessary a pliers can be

used to unscrew the nut or cap. Do not use a pipe wrench to tighten or loosen nuts or caps. Do not place a screwdriver in the slots on

caps and/or tap with a hammer.

Do not use pipe dope or other sealants on threads. Use Teﬂon tape on the threaded inlet, outlet and drain ﬁttings. Teﬂon tape is not

necessary on the nut connection or caps because of o-ring seals.

After completing any valve maintenance involving the drive assembly or the drive cap assembly and pistons, press and hold NEXT

and REGEN buttons for 3 seconds or unplug power source jack from the printed circuit board (black wire) and plug back in. This

resets the electronics and establishes the service piston position. The display should ﬂash all wording, then ﬂash the software version

(e.g. 216) and then reset the valve to the service position.

All plumbing should be done in accordance with local plumbing codes. The pipe size for the drain line should be a minimum of ½”.

Backwash ﬂow rates in excess of 7 gpm or length in excess of 20’require ¾”drain line.

Solder joints near the drain must be done prior to connecting the drain line ﬂow control ﬁtting. Leave at least 6”between the drain

line control ﬁtting and solder joints when soldering pipes that are connected on the drain line control ﬁtting. Failure to do this could

cause interior damage to the drain line ﬂow control ﬁtting.

When assembling the installation ﬁtting package (inlet and outlet), connect the ﬁtting to the plumbing system ﬁrst and then attach

the nut, split ring and o-ring. Heat from soldering or solvent cements may damage the nut, split ring or o-ring. Solder joints should

be cool and solvent cements should be set before installing the nut, split ring and o-ring. Avoid getting primer and solvent cement on

any part of the o-rings, split rings, bypass valve or control valve.

Plug into an electrical outlet. Note: All electrical connections must be connected according to local codes. (Be certain the outlet is

uninterrupted.)

Install grounding strap on metal pipes.

WS1CC & WS1.25CC Manual Page 5

Table 2 contains a summary of speciﬁcations for the control valve and bypass valve.

Table 1

Speciﬁcations which must be included in OEM’s Manual

Table 2

Quick Reference Speciﬁcations

Minimum/Maximum Operating Pressures 20 psi (138 kPa) -125 psi (862 kPa)

Minimum/Maximum Operating Temperatures 40°F (4°C) - 110°F (43°C)

AC Adapter:

Supply Voltage

Supply Frequency

Output Voltage

Output Current

U.S. International

120 VAC 230VAC

60 Hz 50 Hz

12 VAC 12 VAC

500 mA 500 mA

No user serviceable parts are on the PC board, the motor, or the AC adapter. The means of

disconnection from the main power supply is by unplugging the AC adapter from the wall.

Service ﬂow rate 1" (includes bypass and meter) 27 gpm (102.2 lpm) @15 psig (103 kPa) drop

Backwash ﬂow rate 1" (includes bypass) 27 gpm (102.2 lpm) @25 psig (172 kPa) drop

Service ﬂow rate 1.25" (includes meter) 34 gpm (128.7 lpm) @15 psig (103 kPa) drop

Service ﬂow rate 1.25" (includes bypass and meter) 32 gpm (121.1 lpm) @15 psig (103 kPa) drop

Backwash ﬂow rate 1.25" 32 gpm (121.1 lpm) @25 psig (172 kPa) drop

Backwash ﬂow rate 1.25" (includes bypass) 30 gpm (113.5 lpm) @25 psig (172 kPa) drop

Minimum/Maximum Operating Pressures 20 psi (138 kPa) -125 psi (862 kPa)

Minimum/Maximum Operating Temperatures 40°F (4°C) - 110°F (43°C)

AC Adapter:

Supply Voltage

Supply Frequency

Output Voltage

Output Current

U.S. International

120 VAC 230VAC

60 Hz 50 Hz

12 VAC 12 VAC

500 mA 500 mA

Regenerant Reﬁll Rate 0.5 gpm (1.9 lpm)

Injectors See Injector Graphs

Drain Line Flow Controls See Table 7

Inlet / Outlet Fitting Options - 1” NPT elbow which has a unique drill out feature to allow a

¼” NPT connection to the inlet and/or outlet

- ¾” & 1” PVC solvent weld ﬁtting

- ¾” or 1” straight brass sweat ﬁttings

- 1” or 1 ¼”plastic male NPT ﬁttings

- 1” or 1 ¼” plastic male BSPT ﬁttings

- 1¼” & 1½” brass sweat ﬁtting

- 1¼” & 1½” PVC solvent ﬁtting

- ¾” or 1” PEX ﬁttings

Distributor Tube Opening WS1CC Valve 1.05” outside diameter (¾” NPS)

Distributor Tube Opening WS1.25CC Valve 1.32” outside diameter (1” NPS)

32 mm outside diameter

Tank Thread 2½” - 8 NPSM

Control Valve Weight 4.5 lbs. 2.0 kg

PC Board Memory Nonvolatile EEPROM

(electrically erasable programmable read only memory)

Compatible with regenerants/chemicals Sodium chloride, potassium chloride, potassium

permanganate, sodium bisulﬁte, chlorine and chloramines

Page 6 WS1CC & WS1.25CC Manual

Control Valve Function and Cycles of Operation

This glass ﬁlled Noryl1(or equivalent) fully automatic control valve is designed as the primary control center to direct and regulate

all cycles of a water softener or ﬁlter. When the WS1CC control valve is manufactured as a softener, the control valve can be

ordered to perform downﬂow or upﬂow regeneration. The WS1.25CC control valve is only available in downﬂow regeneration.

When the WS1CC or WS1.25CC control valve is set up as a ﬁlter, the control valve can be set to perform downﬂow regeneration or

simply backwash. The control valve can be set to regenerate on demand (consumption of a predetermined amount of water) and/or

as a time clock (passage of a particular number of days). The control valve can be set so that a softener can meet the Water Quality

Association (WQA) Standard S100 or NSF/ANSI Standard 44 efﬁciency rating.

It is not recommended to change control valves from downﬂow to upﬂow brining or vice versa in the ﬁeld. The valve bodies

for downﬂow and upﬂow are unique to the regeneration type and and should not be interchanged. A mismatch of valve body

and regeneration piston will result in hard water bypass during service.

The control valve is compatible with a variety of regenerants and resin cleaners. The control valve is capable of routing the ﬂow

of water in the necessary paths to regenerate or backwash water treatment systems. The injector regulates the ﬂow of brine or

other regenerants. The control valve regulates the ﬂow rates for backwashing, rinsing, and the replenishing of treated water into a

regenerant tank, when applicable.

The control valve uses no traditional fasteners (e.g. screws); instead clips, threaded caps and nuts and snap type latches are used.

Caps and nuts only need to be ﬁrmly hand tightened because radial seals are used. Tools required to service the valve include one

small blade screw driver, one large blade screw driver, pliers and a pair of hands. A plastic wrench is available which eliminates the

need for screwdrivers and pliers. Disassembly for servicing takes much less time than comparable products currently on the market.

Control valve installation is made easy because the distributor tube can be cut ½”above to ½”below the top of tank thread. The

distributor tube is held in place by an o-ring seal and the control valve also has a bayonet lock feature for upper distributor baskets.

The AC adapter power pack comes with a 15 foot power cord and is designed for use with the control valve. The AC adapter power

pack is for dry location use only. The control valve remembers all settings for up to 24 hours if the power goes out and the battery

is not depleted. After 24 hours, the only item that needs to be reset is the time of day; other values are permanently stored in the

nonvolatile memory. If a power loss lasts less than 24 hours and the time of day ﬂashes on and off, the time of day should be reset

and the non rechargeable battery should be replaced.

The control valve’s unique design and electronics allow the OEM to select the regeneration cycle sequence, as well as the cycle

times. The regeneration cycles available are:

• Backwash

• Rinse

• Downﬂow Brine

• Upﬂow Brine (WS1CC only)

• Fill/Regenerant Reﬁll (this cycle can be set for either pre- or post-regeneration)

• Softening/Filtering (this cycle is utilized when regenerant is added just prior to the control valves scheduled regeneration). The

cycle time entered should be long enough to dissolve the regenerant being used. Note: The control valve is in service during this

cycle.

• End (will complete regeneration process and return control valve to service position)

Tables 3 and 4 show examples when the valve is set up as a softener or ﬁlter.

1Noryl is a trademark of General Electric.

WS1CC & WS1.25CC

Downﬂow Regenerant

Reﬁll After Rinse

WS1CC & WS1.25CC

Downﬂow Regenerant

Preﬁll

WS1CC only

Upﬂow Regenerant

Reﬁll After Rinse

WS1CC only

Upﬂow Regenerant

Preﬁll

1st Cycle: Backwash

2nd Cycle: dn Brine

3rd Cycle: Backwash

4th Cycle: Rinse

5th Cycle: Fill

6th Cycle: End

1st Cycle: Fill

2nd Cycle: Softening

3rd Cycle: Backwash

4th Cycle: dn Brine

5th Cycle: Backwash

6th Cycle: Rinse

7th Cycle: End

1st Cycle: UP Brine

2nd Cycle: Backwash

3rd Cycle: Rinse

4th Cycle: Fill

5th Cycle: End

1st Cycle: Fill

2nd Cycle: Softening

3rd Cycle: UP Brine

4th Cycle: Backwash

5th Cycle: Rinse

6th Cycle: End

Table 3

Regeneration Cycles Softening

WS1CC & WS1.25CC Manual Page 7

For DIR Softeners, there are two options for setting the Gallons Capacity. The Gallons Capacity is automatically calculated if set to AUTO.

Reserve Capacity is automatically estimated based on water usage if AUTO is used. The other option is to set the Gallons Capacity to a speciﬁc

number. If a speciﬁc number is set, reserve capacity is zero, unless the value is manually set (i.e. the manufacturer intentionally sets the gallon

capacity number below the calculated capacity of the system).

The control valve can also be set to regenerate immediately or at the next regeneration time by changing the Regeneration Time Option. There

are three choices for settings:

1. “NORMAL” means regeneration will occur at the preset regeneration time.

2. “on 0” means regeneration will occur when the gallons capacity reaches zero.

3. “NORMAL” and “on 0” means the regeneration will occur at the preset regeneration time unless the gallons capacity reaches zero. If the

gallons capacity reaches zero the regeneration will begin 10 minutes after no water usage.

The user can initiate manual regeneration. The user has the option to request the manual regeneration at the delayed regeneration time or to have

the regeneration occur immediately:

1. Pressing and releasing the REGEN button. “Regen Today” will ﬂash on the display and the regeneration will occur at the delayed

regeneration time. The user can cancel the request by pressing and releasing the REGEN button. This method of manually initiating

regeneration is not allowed when the system is set to “on 0”, i.e. to immediately regenerate when the gallon capacity reaches zero.

2. Pressing and holding the REGEN button for approximately 3 seconds will immediately start the regeneration. The user cannot cancel this

request, except by resetting the control by pressing NEXT and REGEN buttons simultaneously for 3 seconds.

The WS1CC & WS1.25CC control valves consist of the following components:

1. Drive Assembly 6. Drain Line Flow Control and Fitting Assembly

2. Drive Cap Assembly, Main Piston and Regenerant Piston 7. Water Meter or Meter Plug

3. Spacer Stack Assembly 8. Mixing Valve (optional)

4. Injector Cap, Screen, Injector Plug and Injector 9. Installation Fitting Assemblies

5. Reﬁll Flow Control Assembly or Reﬁll Port Plug 10. Bypass Valve (optional)

Note: The WS1CC & WS1.25CC share many of the same components. Refer to Figure 6 for control valve identiﬁcation.

2 See Installer Display Settings, OEM Softener System Setup and OEM Filter System Setup for explanations of Day Override and

Gallon Capacity.

3 Day Override and Gallon Capacity can not both be set to “oFF” at the same time.

The control valve with a water meter can be set for Demand Initiated Regeneration (DIR) only, Time Clock operation only or DIR

and Time Clock which ever comes ﬁrst, depending upon what settings are selected for Day Override and Gallon Capacity.2See

Table 5.

If a control valve does not contain a meter, the valve can only act as a time clock, and day override should be set to any number and

gallon capacity should be set to off.

WS1CC & WS1.25CC

Downﬂow Regenerant

Reﬁll After Rinse

WS1CC & WS1.25CC

Downﬂow

Regenerant Preﬁll

WS1CC & WS1.25CC

No Regenerant

1st Cycle: Backwash

2nd Cycle: dn Brine

3rd Cycle: Backwash

4th Cycle: Rinse

5th Cycle: Fill

6th Cycle: End

1st Cycle: Fill

2nd Cycle: Filtering

3rd Cycle: Backwash

4th Cycle: dn Brine

5th Cycle: Backwash

6th Cycle: Rinse

7th Cycle: End

1st Cycle: Backwash

2nd Cycle: Rinse

3rd Cycle: Backwash

4th Cycle: Rinse

5th Cycle: End

Table 4

Regeneration Cycles Filtering

Table 5

DIR/Time Clock Options

DIR Time

Clock Reserve Capacity Softener Filter Settings3

Regenerant Backwash Day Gallon

Yes Automatically calculated Yes Off Auto

Yes If desired enter a value less

than estimated capacity Yes Yes Yes Off Any

Number

Yes Yes Automatically calculated Yes Any Number Auto

Yes Yes If desired enter a value less

than estimated capacity Yes Yes Yes Any Number Any

number

Yes None Yes Yes Yes Any Number Off

Page 8 WS1CC & WS1.25CC Manual

Drive Assembly

The drive assembly consists of the following parts:

• Drive Bracket

• Printed Circuit (PC) Board

• Motor

• Drive Gears

• Drive Gear Cover

The drive bracket holds the PC board, the motor, the drive gears and the drive gear cover in place.

The PC board receives and retains information, displays the information, determines when to regenerate and initiates regeneration.

The display shows different types of information in the initial system set up (for softeners or ﬁlters), installer display settings,

diagnostics, valve history or user display settings.

The PC board powers the motor. The PC board’s two-prong jack connects wires to the direct current (DC) motor. The motor is held

in place on the drive bracket by a spring-loaded clip and a small bulge in the plastic, which ﬁts in one of the slots on the motor

housing. The motor turns drive gears that drive the piston to cycle positions for backwashing, regeneration, rinsing, reﬁll or service.

The motor is fully reversible (turns both ways) and changes direction of rotation to change the direction of piston motion. The motor

is easily replaced if necessary.

There are three drive gears held in place by the drive gear cover. All three drive gears are the same size. A reﬂective coating is

applied to the gears. As the center drive gear turns a light shines on the coating and a light sensing diode determines if a light pulse

was returned. The PC board counts the pulses and determines when to stop driving the motor.

Drive Cap Assembly, Main Piston and Regenerant Piston

The drive gears turn the main gear of the drive cap assembly, which moves the piston. The screw-driven, horizontally moving

piston stops at speciﬁc positions to direct the ﬂow of water to backwash, regenerate, rinse or reﬁll. The PC board determines the

position of the piston by counting pulses produced when the piston is moved. An optical sensor looking at one of the reduction

drive gears generates these pulses. Each cycle position is deﬁned by a number of pulses. The counter is zeroed each time the valve

goes to the service position. The PC board ﬁnds the service position by noting the increase in current delivered to the motor when

the mechanical stop at the service position is reached. This method of controlling piston position allows for greater ﬂexibility and

requires no switches or cams (U.S. Patent 6444127).

One of three main pistons is always used:

1. A 1.25" diameter downﬂow piston is used when the WS1CC control valve is used as a downﬂow softener, regenerating ﬁlter or

non-regenerating ﬁlter.

2. A 1.25" diameter upﬂow piston is used when the WS1CC control valve is used as an upﬂow softener.

3. A 1.5" diameter downﬂow piston is used when the WS1.25CC control valve is used as a downﬂow softener, regenerating ﬁlter

or non-regenerating ﬁlter. An upﬂow piston is not available for the WS1.25CC control valve.

If the control valve is used as a softener or a regenerating ﬁlter, a regenerant piston must be attached to the main piston. If the

control valve is to be used on a system that does not require a regenerant to be added, the regenerant piston must be removed.

Spacer Stack Assembly

The spacer stack assembly provides the necessary ﬂow passage for water during the different cycles. The all-plastic spacer stack

assembly (U.S. Patent 6402944) is a one-piece design which allows the stack to be removed using your ﬁngers.

The exterior of the stack is sealed against the body bore with self lubricating EPDM o-rings, while the interior surface is sealed

against the piston using slippery self cleaning directional (one-way) silicone lip seals. The lip seals are clear in color and have a

special slippery coating so that the piston does not need to be lubricated.

WS1CC & WS1.25CC Manual Page 9

Injector Cap, Screen, Injector Plug and Injector

The screen, injector and/or injector plug(s) are installed under the injector cap in an easy to access location on top of the valve. The

injector cap contains four slots so no water accumulates in the cap. The injector cap is designed to be hand tightened.

Under the injector cap there is an easy to clean removable screen to prevent fouling of the injector. There are two holes under the

injector cap labeled “DN” and “UP”. The holes will be ﬁlled with a plug or an injector.

The plug (Order # V3010-1Z) prevents water from traveling a certain pathway. The injector lets water pass through the pathway.

The self-priming injector increases the velocity of the water, creating a zone of negative pressure that draws in the concentrated

liquid regenerant, such as sodium chloride (brine), potassium permanganate, etc. The regenerant blends with the stream of water,

which passes through the media to regenerate the bed.

The injector provides a consistent regenerant/water mixture ratio over the entire operating pressure range of the control valve. The

injector provides good performance in a variety of applications, which may involve elevated drain lines and long regenerant draw

lengths. Injectors are chosen by knowing the type, amount, and regenerant ﬂow rate for a particular type of media. Guidelines can

be found in the media manufacturer’s literature. The color coded injectors give different regenerant draw, slow rinse and total ﬂow

rates over the pressure range. See Table 6 for color codings, and injector graphs for total, slow rinse and draw ﬂow rates.

The control valve has been manufactured to be one of the following:

• regeneration downﬂow WS1CC & WS1.25CC (for softeners or regenerating ﬁlters install injector in DN location, plug in UP

location)

• regeneration upﬂow WS1CC only (upﬂow option is for softeners only, install injector in UP location, plug in other hole

location)

• no regenerant WS1CC & WS1.25CC (both the DN and UP holes have injector plugs installed) and plug installed for the reﬁll

elbow

NOTE: It is not recommended to ﬁeld convert valves from upﬂow to downﬂow and vice versa. Separate areas in the valve supply

water to the injector for upﬂow and downﬂow valves.

Reﬁll Flow ControlAssembly or Reﬁll Port Plug

The reﬁll ﬂow control assembly consists of a reﬁll ﬂow elbow, reﬁll ﬂow control retainer assembly, reﬁll ﬂow control, polytube

insert and nut assembly. The reﬁll ﬂow control retainer ﬁts in the reﬁll elbow. The reﬁll ﬂow control retainer houses the reﬁll ﬂow

control which controls the ﬂow rate when the regenerant tank is being reﬁlled. The reﬁll ﬂow control is a ﬂexible washer-like

part with a small oriﬁce and a precision molded contour that delivers a steady 0.5 gpm regenerant tank reﬁll rate at varying inlet

pressures. Reﬁll is accomplished with treated water.

4Actual tank size used may vary depending on the design and application of the system. Tank diameter is an approximation for the following:

1. downﬂow softener using standard mesh synthetic cation exchange media regenerating with sodium chloride.

2. upﬂow softener using standard mesh synthetic cation exchange media regenerating with sodium chloride, an inlet water pressure

of 3 to 50 psi and water temperature of 60°F water or warmer. Higher pressures or lower temperatures would need smaller injectors to avoid lifting

the bed.

Table 6

Injector Order Information

Typical Tank Diameter4

Injector Order Number Injector Color Down

WS1CC & WS1.25CC Up

WS1CC Only

V3010-1A Black 6" 8"

V3010-1B Brown 7" 9"

V3010-1C Violet 8" 10"

V3010-1D Red 9" 12"

V3010-1E White 10" 13"

V3010-1F Blue 12" 14"

V3010-1G Yellow 13" 16"

V3010-1H Green 14" 18"

V3010-1I Orange 16" 22"

V3010-1J Light Blue 18"

V3010-1K Light Green 22"

Page 10 WS1CC & WS1.25CC Manual

The reﬁll ﬂow control assembly is installed in an easy to access reﬁll elbow located on top of the control valve. The reﬁll ﬂow

control assembly is attached to the control valve with a locking clip. The locking clip allows the elbow to rotate 270 degrees so the

outlet can be orientated towards the regenerant tank.

The control valve has a standard reﬁll elbow to which a 3/8”ﬂexible tube can be connected. An optional elbow can be ordered

which accommodates a ½”ﬂexible tube for a high regenerant draw rate situation (G injectors and larger). Both elbows use the same

reﬁll ﬂow control and retainer.

If the control valve is to be used as a non-regenerant ﬁlter control valve, the reﬁll elbow is removed and replaced with a reﬁll port

plug P/N V3195-01.

Drain Line Flow Control and FittingAssembly

The drain line ﬂow control assembly includes a drain line ﬂow control and a ﬁtting. The drain line ﬂow control allows proper media

bed expansion by regulating the ﬂow rate to the drain. The drain line ﬂow control is a ﬂexible washer-like part with an oriﬁce and

a precision molded contour. The ﬂow rates are within ±10% over the pressure range of 20 psi to 125 psi. See Table 7 for ﬂow rate

information.

The drain line ﬂow control and ﬁtting are located on top of the control valve and replaceable without the use of special tools.

The drain line ﬂow control can be installed in the standard ¾”drain line elbow, which accommodates 5/8”polytube or ¾”NPT drain

line connections. The optional nut and polytube insert for the ¾” drain line elbow is designed for use with ﬂexible polytube only.

The ¾”drain line elbow can be rotated 180 degrees so the outlet can be orientated to the nearest drain. The same retainer is used for

all drain line ﬂow controls for the ¾”ﬁtting. Drain line ﬂow controls designed for the 3/4” ﬁtting are available for ﬂow rates ranging

from 0.7 to 10 gpm.

An optional 1”straight drain line ﬁtting is available to accommodate drain line ﬂow rates ranging from 9 to 25 gpm. This ﬁtting is

straight but still connects to the control valve using the same locking clip. The drain line ﬂow control is located between two ﬁtted

parts (i.e. the ﬁtting acts as the retainer). The nut is unscrewed to access the drain line ﬂow control.

Table 7

Drain Line Flow Control and FittingAssembly Information

Drain Line

Fitting Drain Line Flow

Control Order No. Number on Drain

Line Flow Control Backwash Flow Rate

(gpm) Backwash Flow Rate

(lpm)

¾” V3162-007 007 0.7 2.6

¾” V3162-010 010 1.0 3.8

¾” V3162-013 013 1.3 4.9

¾” V3162-017 017 1.7 6.4

¾” V3162-022 022 2.2 8.3

¾” V3162-027 027 2.7 10.2

¾” V3162-032 032 3.2 12.1

¾” V3162-042 042 4.2 15.9

¾” V3162-053 053 5.3 20.1

¾” V3162-065 065 6.5 24.6

¾” V3162-075 075 7.5 28.4

¾” V3162-090 090 9.0 34.1

¾” V3162-100 100 10.0 37.9

1” V3190-090 090 9.0 34.1

1” V3190-100 100 10.0 37.9

1” V3190-110 110 11 41.6

1” V3190-130 130 13 49.2

1” V3190-150 150 15 56.8

1” V3190-170 170 17 64.3

1” V3190-200 200 20 75.7

1” V3190-250 250 25 94.6

WS1CC & WS1.25CC Manual Page 11

5 Some semiconductor materials exhibit a phenomenon in the presence of a magnetic ﬁeld that is adaptable to sensing devices. When a current is passed through one

pair of wires attached to a semiconductor, another pair of wires properly attached and oriented with respect to the semiconductor will develop a voltage proportional

to the magnetic ﬁeld present and the current in the other pair of wires. Holding the exciting current constant and moving a permanent magnet near the semiconductor

produces a voltage output proportional to the movement of the magnet. Hall effect devices provide a high speed response, excellent temperature stability, and no

physical contact.

6 Has not been tested for compliance with California Proposition 65, so this ﬁtting should not be installed in California.

Water Meter or Meter Plug

The water meter is installed on the outlet side of the control valve. The water meter uses a turbine to measure gallons of treated water. The turbine

rotates with the ﬂow of water and reports its rate of rotation through Hall effect5 circuitry to the printed circuit (PC) board. This rotation permits

the PC board to record the total volume of treated water and the ﬂow rate. The small centrally located magnet is shielded from water, which

substantially reduces iron-fouling problems with the turbine.

THIS WATER METER SHOULD NOT BE USEDAS THE PRIMARY MONITORING DEVICE FOR CRITICAL HEALTH EFFECT

APPLICATIONS.

The turbine is accurate to within ± 5% over a wide operating ﬂow rate range (0.25 gpm up to control valve maximums) and has a very low pressure

drop. Water used for regeneration is not metered. If the control valve is set to preﬁll the regenerant, water used between the preﬁll cycle up to the

start of the regeneration cycle is metered. If the control valve is in regeneration mode (e.g. a backwash cycle) and there is a water demand, that

water usage is not metered.

When facing the front of the control valve, the water meter is positioned on the left-hand side of the control valve. Allow sufﬁcient clearance to

clean and repair the water meter without disconnecting the plumbing or disassembling any other parts of the control valve.

Control valves can be ordered with a meter plug (i.e. no electronics or turbine) rather than a water meter if desired. Control valves without meters

should only be set up for time clock operation (i.e. no water meter, no demand-initiated regeneration). Control valves with water meters provide a

wider variety of useful information (see OEM General Instructions for list of information).

A unique feature of this control valve is the ability to display actual water usage for the last 63 days. The values are initially stored as “----”. This

means the value is unknown. As days pass values are stored as “0” for no ﬂow or the actual number of gallons. The counting of the gallons starts at

the regeneration time. If no regeneration time can be set (i.e. when the valve is set for immediate regeneration) the counting of gallons starts at 12

a.m. Day 1 is yesterday, day 2 the day before yesterday, etc. As new values are added the oldest history disappears.

Another unique feature is that the valve automatically calculates a reserve capacity when set up as a softener with “Gallons Capacity” set to

“AUTO” and the “Regeneration Time Option” set to “Normal” or “Normal + on 0”. The actual reserve capacity is compared to the gallons capacity

remaining immediately prior to the preset regeneration time. A regeneration will occur if the actual reserve capacity is less than the gallons capacity

remaining. The actual reserve capacity is calculated by using the estimated reserve capacity and adjusting it up or down for actual usage.

The estimated reserve capacity for a given day of the week is the maximum value stored for the last three non-trivial water usages (i.e. more than

20 gallons/day) in seven day intervals.

Mixing Valve

The mixing valve is installed on the outlet side of the control valve. The mixing valve is used to blend raw water with treated water.

To adjust the blended water, close the mixing valve. Open a water faucet to the desired ﬂow rate. Open the mixing valve until the desired hardness

is reached. Close the faucet.

Installation Fitting Assemblies

The installation ﬁttings are used to connect the optional bypass or the control valve to the plumbing system. These are the installation ﬁtting

assemblies available:

• 1” NPT PVC elbow ﬁtting assembly

• ¾” & 1” PVC solvent weld elbow ﬁtting assembly

• ¾” or 1” straight brass sweat ﬁtting assemblies6

• 1” or 1 ¼” plastic male NPT ﬁtting assemblies

• 1” or 1 ¼” plastic male BSPT ﬁtting assemblies

• 1¼” & 1½” brass sweat ﬁtting assembly6

• 1¼” & 1½” PVC solvent ﬁtting assembly

• ¾” or 1” PEX ﬁtting assemblies6

The installation ﬁtting assemblies are sold in pairs and consist of two ﬁttings, two nuts, two split rings and two o-rings. The installation ﬁtting

assemblies and the bypass valve are sold separately from the control valve.

Both elbow ﬁttings have a unique drill out feature to allow a ¼” NPT connection to the inlet and/or outlet which can be used for a RO feed,

test ports, pressure tap ports, etc.

Page 12 WS1CC & WS1.25CC Manual

Bypass Valve

The bypass valve is typically used to isolate the control valve from the plumbing system’s water pressure in order to perform control

valve repairs or maintenance. The WS1 bypass valve is particularly unique in the water treatment industry due to its versatility

and state of the art design features. The 1” full ﬂow bypass valve incorporates four positions, including a diagnostic position that

allows service personal to work on a pressurized system while still providing untreated bypass water to the facility or residence. Its

completely non-metallic, all-plastic design allows for easy access and serviceability without the need for tools.

The bypass body and rotors are glass ﬁlled Noryl7(or equivalent) and the nuts and caps are glass ﬁlled polypropylene. All seals are

self-lubricating EPDM to help prevent valve seizing after long periods of non-use. Internal o-rings can easily be replaced if service

is required.

The bypass consists of two interchangeable plug valves that are operated independently by red arrow-shaped handles. The handles

identify the ﬂow direction of the water. The plug valves enable the bypass valve to operate in four positions.

1. Normal Operation Position: The inlet and outlet handles point in the direction of ﬂow indicated by the engraved arrows

on the control valve. Water ﬂows through the control valve during normal operation and this position also allows the

control valve to isolate the media bed during the regeneration cycle. (See Figure 1)

2. Bypass Position: The inlet and outlet handles point to the center of the bypass, the control valve is isolated from the water

pressure contained in the plumbing system. Untreated water is supplied to the plumbing system. (See Figure 2)

3. Diagnostic Position: The inlet handle points in the direction of ﬂow and the outlet handle points to the center of bypass

valve, system water pressure is allowed to the control valve and the plumbing system while not allowing water to exit from

the control valve to the plumbing. (See Figure 3)

4. Shut Off Position: The inlet handle points to the center of the bypass valve and the outlet handle points in the direction of

ﬂow, the water is shut off to the plumbing system . If water is available on the outlet side of the softener it is an indication

of water bypass around the system (i.e. a plumbing connection somewhere in the building bypasses the system). (See

Figure 4)

7Noryl is a trademark of General Electric.

WS1CC & WS1.25CC Manual Page 13

Figure 3 Figure 4

Figure 1 Figure 2

Page 14 WS1CC & WS1.25CC Manual

OEM General Instructions

The control valve offers multiple procedures that allow the valve to be modiﬁed to suit the needs of the installation. These

procedures are:

• OEM Cycle Sequence

• OEM Softener System Setup

• OEM Filter System Setup

• Installer Display Settings

• User Display Settings

• Diagnostics

• Valve History

Once the OEM Cycle Sequence has been set, the other procedures can be accessed in any order. Details on each of the procedures

are provided on the following pages.

At the discretion of the manufacturer, the ﬁeld technician can access all settings. To “lock out” access to diagnostic and valve

history displays and modiﬁcations to settings except hardness, day override, time of regeneration and time of day by anyone but

the manufacturer, press ▼, NEXT, ▲, and SET CLOCK in sequence after settings are made. To “unlock”, so other displays can be

viewed and changes can be made, press ▼, NEXT, ▲, and SET CLOCK in sequence.

When in operation normal user displays such as time of day, gallons remaining before regeneration, days remaining before

regeneration or lbs. salt remaining before regeneration are shown. When stepping through a procedure, if no buttons are pressed

within ﬁve minutes, the display returns to a normal user display. Any changes made prior to the ﬁve minute time out are

incorporated. The one exception is current ﬂow rate display under the diagnostic procedure. The current ﬂow rate display has a 30

minute time out feature.

To quickly exit OEM Softener Setup, OEM Filter Setup, Installer Display Settings, Diagnostics or Valve History press SET

CLOCK. Any changes made prior to the exit are incorporated.

When desired, all information in Diagnostics may be reset to zero when the valve is installed in a new location. To reset

to zero, press NEXT and ▼buttons simultaneously to go to the Service/OEM 1 screen, and release. Press ▲and ▼

simultaneously to reset diagnostic values to zero. Screen will return to User Display.

Sometimes it is desirable to have the valve initiate and complete two regenerations within 24 hours and then return to the preset

regeneration procedure. It is possible to do a double regeneration if the control valve is set to “NORMAL” or “NORMAL + on 0” in

OEM Softener System Setup or OEM Filter System Setup. To do a double regeneration:

1. Press the “REGEN” button once. REGEN TODAY will ﬂash on the display.

2. Press and hold the “REGEN” button for three seconds until the valve regeneration initiates.

Once the valve has completed the immediate regeneration, the valve will regenerate one more time at the preset regeneration time.

OEM Cycle Sequence

OEM Cycle Sequence instructions allows the OEM to set the order of

the cycle. The OEM Softener System Setup or the OEM Filter System

Setup allow the OEM to set how long cycles will last. The OEM may

choose up to 9 cycles in any order.

END must be used as the last cycle option. The SERVICE cycle

should only be used in brine preﬁll applications. See Tables 3 and 4 for

examples of typical softener or ﬁlter cycle sequences.

Prior to selecting dn brine or uP brine or not selecting a regenerant ﬂow cycle, verify the correct valve body, main piston, regenerant

piston, and stack are being used, and that the injector or injector plug(s) are in the correct locations. See Compliance Table in

Service Instructions under Injector Cap, Screen, Injector Plug and Injector section and Figure 6.

The up ﬂow cycle may not be used in the WS1.25CC control valve because the V3407 piston is designed for down ﬂow use

only.

The following is an example of how to set a valve so that when regeneration is initiated BACKWASH occurs ﬁrst, dn BRINE occurs

second, RINSE occurs third, and FILL occurs fourth.

Cycle Options

BACKWASH DN BRINE FILL END

RINSE UP BRINE

(WS1CC Only) SOFTENING

OR FILTERING

WS1CC & WS1.25CC Manual Page 15

STEP 1CS

STEP 2CS

STEP 3CS

➟ ➟ ➟

Step 3CS – Allows selection of one of the following:

• an outside signal to initiate a regeneration; or

• the Control Valve to act as an alternator.

Selecting the use of an outside signal to initiate a regeneration:

Selection only matters if a connection is made to the two pin connector labeled DP SWITCH located on

the printed circuit board. Following is an explanation of the options:

dPon0 - If the dP switch is closed for an accumulative time of 2 minutes a regeneration will occur im-

mediately.

dPdEL - If the dP switch is closed for an accumulative time of 2 minutes a regeneration will occur at the

scheduled regeneration time.

HoLd - If the dP switch is closed a regeneration will be prevented from occurring.

Selecting the Control Valve to act as an alternator:

Note: Also must do one of the following:

• If set up for a softener in Step 8S set Volume Capacity in GALLONS, in Step 9S select Regenera-

tion Time Option “on 0” and in Step 3I select Day Override “oFF”.

• If set up for a ﬁlter, in Step 7F set Volume Capacity in GALLONS, in Step 8F select Regeneration

Time Option “on 0” and in Step 3I select Day Override “oFF”.

Select ALTA for the control valve that has the two pin connector labeled DRIVE connected to the alter-

nator valve motor.

Select ALTb for the control valve that will not be connected to the alternator valve motor.

Conﬁguring the Control Valve for No Hard Water Bypass Operation:

nHbP - Selection requires that a connection to a Clack Two Way Motorized Valve or a Clack Motorized

Alternator Valve (MAV) is made to the two pin connector labeled ALTERNATOR DRIVE located on

the printed circuit board. The Clack Two Way Motorized Valve can be connected to the valve outlet in

either direction. The B port of the MAV must be plugged and the valve outlet connected to the A port.

The Clack Two Way Motorized Valve or a Clack MotorizedAlternator Valve will be driven closed

before the ﬁrst regeneration cycle that is not FILL or SOFTENING or FILTERING, and be driven open

after the last regeneration cycle that is not FILL.

Press NEXT to go to Step 4CS. Press REGEN to return to previous step.

➟

Step 1CS – Press NEXT and ▼simultaneously for 3 seconds and release. Then press NEXT and ▼

simultaneously for 3 seconds and release. If screen in Step 2CS does not appear in 5 seconds the lock on

the valve is activated. To unlock press ▼, NEXT, ▲, and SET CLOCK in sequence, then press NEXT

and ▼simultaneously for 3 seconds and release. Then press NEXT and ▼simultaneously for 3 seconds

and release.

Step 2CS – Press the ▼or ▲buttons to select 1.0 for WS1.25CC or 1.25 for WS1.25CC valves. Press

NEXT to go to Step 3CS. Press REGEN to exit OEM Cycle Sequence.

STEP 4CS

➟

Step 4CS – Press the ▼or ▲buttons until BACKWASH appears. Press NEXT to go to Step 5CS.

Press REGEN to return to previous step.

STEP 5CS

➟

Step 5CS - Press the ▼or ▲buttons until dn BRINE appears. Press NEXT to go to Step 6CS.

Press REGEN to return to previous step.

Do not use UP BRINE on a WS1.25CC.

Page 16 WS1CC & WS1.25CC Manual

➟

STEP 6CS

➟

RETURN TO NORMAL MODE

STEP 8CS

➟

STEP 7CS

Step 6CS - Press the ▼or ▲buttons until RINSE appears. Press NEXT to go to Step 7CS.

Press REGEN to return to previous step.

Step 7CS - Press the ▼or ▲buttons until FILL appears. Press NEXT to go to Step 8CS.

Press REGEN to return to previous step.

Step 8CS - Press the ▼or ▲buttons until END appears. Press NEXT to exit OEM Cycle Sequence.

Press REGEN to return to previous step.

Cycle Options Units Lower/Upper Limit

Backwash Minutes 1 to 120

Rinse (fast) Minutes 1 to 120

dn Brine (combination of brining and slow rinse) Minutes 1 to 180

UP Brine (combination of brining and slow rinse)

Do not use on WS1.25CC Minutes 1 to 180

Fill LBS 0.1 to 200.0

Service Minutes 1 to 480

STEP 1S

➟

Step 1S – Press NEXT and ▼simultaneously for 3 seconds and release. If screen in Step 2S does not

appear in 5 seconds the lock on the valve is activated. To unlock press ▼, NEXT, ▲, and SET CLOCK

in sequence, then press NEXT and ▼simultaneously for 3 seconds and release.

Note: Fill is in pounds of salt.

Since no time is associated with the END cycle, the END cycle will not appear in the OEM Softener System Setup sequence.

OEM Softener System Setup

In OEM Softener System Setup the OEM chooses the time for the cycles selected in OEM Cycle Sequence and speciﬁes other

operating parameters for the system. The upper and lower limits of the allowable values for the cycles are as follows:

STEP 2S

➟

Step 2S – Choose SOFTENING using the ▼or ▲button. Press NEXT to go to Step 3S. Press REGEN

to exit OEM Softener System Setup.

STEP 3S

➟

Step 3S – Select the time for the ﬁrst cycle (which in this example is BACKWASH) using the ▼or ▲

button. Press NEXT to go to Step 4S. Press REGEN to return to previous step.

WS1CC & WS1.25CC Manual Page 17

STEP 4S

STEP 5S

STEP 6S

➟➟ ➟

STEP 7S

➟

STEP 10S

➟

RETURN TO

NORMAL MODE

STEP 9S

➟

STEP 8S

➟

Step 4S – Select the time for the second cycle (which in this example is dn BRINE) using the ▼or ▲

button. Press NEXT to go to Step 5S. Press REGEN to return to previous step.

NOTE: The display will ﬂash between cycle number and time, and brine direction (dn or UP).

Do not use UP BRINE on a WS1.25CC valve.

Step 5S – Select the time for the third cycle (which in this example is RINSE) using the ▼or ▲button.

Press NEXT to go to Step 6S. Press REGEN to return to previous step.

Step 6S – Select the LBS for the fourth cycle (which in this example is FILL) using the ▼or ▲button.

Press NEXT to go to Step 7S. Press REGEN to return to previous step.

Step 7S – Set Grains Capacity using the ▼or ▲button. The ion exchange capacity is in grains of

hardness as calcium carbonate for the system based on the pounds of salt that will be used. Calculate

the pounds of salt using the ﬁll time previously selected. Grains capacity is affected by the ﬁll time. The

grains capacity for the selected ﬁll time should be conﬁrmed by OEM testing. The capacity and hardness

levels entered are used to automatically calculate reserve capacity when gallon capacity is set to AUTO.

Press NEXT to go to Step 8S. Press REGEN to return to previous step.

Step 8S – Set Volume Capacity using the ▼or ▲button. If value is set to:

• “AUTO” gallon capacity will be automatically calculated and reserve capacity will be automatically

estimated;

• “oFF” regeneration will be based solely on the day override set (see Installer Display/Settings Step 3I);

• as a number regeneration initiation will be based on the value speciﬁed.

If “oFF” or a number is used, hardness display will not be allowed to be set in Installer Display Settings

Step 2I. See Table 8 for more detail. Press NEXT to go to Step 9S. Press REGEN to return to previous

step.

Step 9S – Set Regeneration Time Options using the ▼or ▲button. If value is set to:

• “NORMAL” means regeneration will occur at the preset time;

• “on 0” means regeneration will occur immediately when the gallons capacity reaches 0 (zero); or

• “NORMAL + on 0” means regeneration will occur at one of the following:

— the preset time when the gallons capacity falls below the reserve or the speciﬁed number of days

between regenerations is reached whichever comes ﬁrst; or

— after 10 minutes of no water usage when the gallon capacity reaches 0 (zero).

See Table 8 for more detail. Press NEXT to go to Step 10S. Press REGEN to return to previous step.

Step 10S – Set Low Salt Warning using the ▼or ▲button. If value is set to:

• “oFF” no low salt level warning will appear for the user; or

• a speciﬁc value “FILL SALT” will ﬂash on the display when the

calculated remaining pounds of salt falls below that level. Allowable

values range form 10 to 400 pounds in 10 pound increments.

Press NEXT to exit OEM Softener System Setup. Press REGEN to

return to previous step.

Page 18 WS1CC & WS1.25CC Manual

8Reserve capacity estimate is based on history of water usage.

Table 8

Softener Setting Options

Gallons

Capacity Regeneration

Time Option Day

Override Result8

AUTO NORMAL oFF Reserve capacity automatically estimated.

Regeneration occurs when gallons capacity falls below the reserve

capacity at the next Regen Set Time.

AUTO NORMAL Any

number

Reserve capacity automatically estimated.

Regeneration occurs at the next Regen Set Time when gallons capacity

falls below the reserve capacity or the speciﬁed number of days between

regenerations is reached.

Any

number NORMAL oFF Reserve capacity not automatically estimated.

Regeneration occurs at the next Regen Set Time when gallons capacity

reaches 0.

oFF NORMAL Any

number

Reserve capacity not automatically estimated.

Regeneration occurs at the next Regen Set Time when the speciﬁed

number of days between regenerations is reached.

Any

number NORMAL Any

number

Reserve capacity not automatically estimated.

Regeneration occurs at the next Regen Set Time when gallons capacity

reaches 0 or the speciﬁed number of days between regenerations is

reached.

AUTO On O oFF

Reserve capacity not automatically estimated.

Regeneration occurs immediately when gallons capacity reaches 0.

Time of regeneration will not be allowed to be set because regeneration

will always occur when gallons capacity reaches 0.

Any

number On O oFF

Reserve capacity not automatically estimated.

Regeneration occurs immediately when gallons capacity reaches 0.

Time of regeneration will not be allowed to be set because regeneration

will always occur on 0.

AUTO NORMAL on 0 oFF

Reserve capacity automatically estimated.

Regeneration occurs when gallons capacity falls below the reserve

capacity at the next Regen Set Time or regeneration occurs immediately

after 10 minutes of no water usage when gallon capacity reaches 0.

AUTO NORMAL on 0 Any

number

Reserve capacity automatically estimated.

Regeneration occurs at the next Regen Set Time when gallons capacity

falls below the reserve capacity or the speciﬁed number of days between

regenerations is reached or regeneration occurs immediately after 10

minutes of no water usage when gallon capacity reaches 0.

Any

number NORMAL on 0 Any

number

Reserve capacity not automatically estimated.

Regeneration occurs at the next Regen Set Time when the speciﬁed

number of days between regenerations is reached or regeneration occurs

immediately after 10 minutes of no water usage when gallon capacity

reaches 0.

WS1CC & WS1.25CC Manual Page 19

NOTE: Fill is in gallons.

OEM Filter System Setup

In OEM Filter System Setup the OEM chooses the time for the cycles selected in OEM Cycle Sequence and speciﬁes other

operating parameters for the system. The upper and lower limits of the allowable values for the cycles are as follows:

Cycle Options Units Lower/Upper Limit

Backwash Minutes 1 to 120

Rinse (fast) Minutes 1 to 120

dn Brine (combination of regenerant and slow rinse) Minutes 1 to 180

UP Brine (combination of regenerant and slow rinse)

Do not use on WS1.25CC Minutes 1 to 180

Fill Gallons 0.05 to 20.00

Service Minutes 1 to 480

Since no time is associated with the END cycle, the END cycle will not appear in the OEM Filter System Setup sequence.

STEP 1F

➟

STEP 2F

➟

STEP 3F

➟

STEP 4F

STEP 5F

STEP 6F

➟➟➟

Step 1F – Press NEXT and ▼simultaneously for 3 seconds and release. If screen in Step 2F does not

appear in 5 seconds the lock on the valve is activated. To unlock press ▼, NEXT, ▲, and SET CLOCK in

sequence, then press NEXT and ▼simultaneously for 3 seconds and release.

Step 2F – Choose FILTERING using the ▼or ▲buttons. Press NEXT to go to Step 3F. Press REGEN to

exit OEM Filter System Setup.

Step 3F – Select the time for the ﬁrst cycle (which in this example is BACKWASH) using the ▼or ▲

button. Press NEXT to go to Step 4F. Press REGEN to return to previous step.

Step 4F – Select the time for the second cycle (which in this example is dn BRINE) using the ▼or ▲

button. Press NEXT to go to Step 5F. Press REGEN to return to previous step.

NOTE: The display will ﬂash between cycle number and time, and brine direction (dn or UP).

Step 5F – Select the time for the third cycle (which in this example is RINSE) using the ▼or ▲button.

Press NEXT to go to Step 6F. Press REGEN to return to previous step.

Step 6F – Select the gallons for the fourth cycle (which in this example is FILL) using the ▼or ▲

button. Press NEXT to go to Step 7F. Press REGEN to return to previous step.

Page 20 WS1CC & WS1.25CC Manual

STEP 7F

STEP 8F

➟➟

RETURN TO

NORMAL MODE

Step 7F – Set Gallons Capacity using the ▼or ▲button. If value is set to:

• “oFF” regeneration will be based solely on the day override set (see Installer Display/Settings Step

3I); or

• as a number regeneration initiation will be based on the value speciﬁed.

See Table 9 for more detail. Press NEXT to go to Step 8F. Press REGEN to return to previous step.

Step 8F – Set Regeneration Time Options using the ▼or ▲button. If value is set to:

• “NORMAL” means regeneration will occur at the preset time;

• “on 0” means regeneration will occur immediately when the gallons capacity reaches 0 (zero); or

• “NORMAL + on 0” means regeneration will occur at one of the following:

— the preset time when the gallons capacity falls below the reserve or the speciﬁed number of days

between regenerations is reached whichever comes ﬁrst;

— after 10 minutes of no water usage when the gallon capacity reaches 0 (zero).

See Table 9 for more detail. Press NEXT to exit OEM Filter System Setup. Press REGEN to return

to previous step.

Table 9

Filter Setting Options

Gallons

Capacity Regeneration

Time Option Day

Override Result

oFF NORMAL Any

number

Reserve capacity not automatically estimated.

Regeneration occurs at the next Regen Set Time when the speciﬁed

number of days between regenerations is reached.

Any

number NORMAL oFF Reserve capacity not automatically estimated.

Regeneration occurs at the next Regen Set Time when gallons capacity

reaches 0.

Any

number NORMAL Any

number

Reserve capacity not automatically estimated.

Regeneration occurs at the next Regen Set Time when gallons capacity

reaches 0 or the speciﬁed number of days between regenerations is

reached.

Any

number On O oFF

Reserve capacity not automatically estimated.

Regeneration occurs immediately when gallons capacity reaches 0.

Time of regeneration will not be allowed to be set because regeneration

will always occur on 0.

Any

number NORMAL on 0 Any

number

Reserve capacity not automatically estimated.

Regeneration occurs at the next Regen Set Time when the speciﬁed

number of days between regenerations is reached or regeneration occurs

immediately after 10 minutes of no water usage when gallon capacity

reaches 0.

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