Servend

M-90 - Ice Maker Servend - Free user manual and instructions

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Product TypeIce Maker
BrandServend
ModelM-90
Ice TypeCubelet
Ice Production Capacity (24h)90 lbs (41 kg)
Ice Storage Bin Capacity33 lbs (15 kg)
Refrigerant TypeR-404A
Power Supply115 V / 60 Hz / 1 Ph
Current Draw6.8 A
Water Connection1/4" Flare, 20-80 psi
Dimensions (W x D x H)22" x 24" x 32" (56 x 61 x 81 cm)
Weight (Net)95 lbs (43 kg)
Noise Level55 dB
Cleaning CycleAutomatic with cleaning solution
Safety FeaturesCondenser fan guard, high-temp cutoff, water overflow protection
Parts AvailabilityServend authorized parts network
Warranty1 year parts and labor
Ice Cube Size AdjustmentVia front panel control
Installation TypeUndercounter or freestanding
Energy Usage~350 kWh/year

Frequently Asked Questions - M-90 Servend

How do I install the Servend M-90 ice maker?
Place the machine on a level surface with proper clearance for air circulation. Connect to a cold water supply (1/4" flare, 20-80 psi) and a dedicated 115V outlet. Ensure the drain line is properly routed. Refer to the manual for detailed installation instructions.
How do I clean the M-90 ice maker?
Press the clean button to initiate the automatic cleaning cycle. Use an approved ice machine cleaner and follow the steps in the manual. Rinse thoroughly after cleaning. Clean the condenser coils every 6 months for optimal performance.
What type of water filter is recommended?
A standard 10" sediment and carbon filter (1/4" quick-connect) is recommended to reduce scale and improve taste. Servend suggests using a water filtration system to extend the life of the machine.
Why is my ice maker not producing ice?
Check that the water supply is on and the appliance is plugged in. Verify the room temperature is above 50°F (10°C) and the condenser is clean. An error code on the display will indicate specific issues; refer to the troubleshooting section of the manual.
How often should I clean the condenser?
Clean the condenser coils every 6 months or more frequently in dusty environments. A dirty condenser reduces efficiency and can cause the compressor to overheat. Use a soft brush or vacuum to remove dust.
What water pressure is required?
The M-90 requires a water pressure of 20-80 psi (138-552 kPa). If pressure is too low, ice production may decrease; if too high, use a pressure regulator. A water pressure gauge can help verify proper levels.
How do I adjust the ice cube size?
Ice cube size is adjustable via the front panel control. Press and hold the arrow buttons to enter the adjustment mode. The setting controls the freeze time; longer times produce larger cubes. Consult the manual for recommended settings.
Can I use this ice maker outdoors?
No, the M-90 is designed for indoor use only. Operating it outdoors exposes it to weather elements, which may cause electrical hazards and void the warranty. Install in a temperature-controlled environment.
How do I troubleshoot error codes?
Error codes are displayed as E1, E2, etc. Each code corresponds to a specific issue (e.g., E1 = water inlet failure, E2 = bin full sensor). See the error code table in the manual for detailed troubleshooting steps.
Where can I find replacement parts?
Replacement parts are available through Servend authorized dealers or online retailers. Use the model number M-90 and part number from the manual. Genuine parts ensure proper fit and performance.

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USER MANUAL M-90 Servend

natural_image Exterior view of a modern stainless steel coffee maker with multiple side payers (no visible text or symbols)

Servend Ice & Beverage Dispensing Units

Technician's Handbook

This manual is updated as new information and models are released. Visit our website for the latest manual. www.manitowocfsg.com

Leader in Ice & Beverage Dispensers

Part Number STH14 9/10

Safety Notices

As you work on Manitowoc equipment, be sure to pay close attention to the safety notices in this handbook. Disregarding the notices may lead to serious injury and/or damage to the equipment.

Throughout this handbook, you will see the following types of safety notices:

Servend M-90 - Safety Notices - 1

Warning

Text in a Warning box alerts you to a potential personal injury situation. Be sure to read the Warning statement before proceeding, and work carefully.

Servend M-90 - Warning - 1

Caution

Text in a Caution box alerts you to a situation in which you could damage the equipment. Be sure to read the Caution statement before proceeding, and work carefully.

Procedural Notices

As you work on Manitowoc equipment, be sure to read the procedural notices in this handbook. These notices supply helpful information which may assist you as you work.

Throughout this handbook, you will see the following types of procedural notices:

Important

Text in an Important box provides you with information that may help you perform a procedure more efficiently. Disregarding this information will not cause damage or injury, but it may slow you down as you work.

NOTE: Text set off as a Note provides you with simple, but useful, extra information about the procedure you are performing.

Read These Before Proceeding:

Caution

Proper installation, care and maintenance are essential for maximum performance and trouble-free operation of your Manitowoc equipment. If you encounter problems not covered by this handbook, do not proceed, contact Manitowoc Foodservice Group. We will be happy to provide assistance.

Important

Routine adjustments and maintenance procedures outlined in this handbook are not covered by the warranty.

Warning

PERSONAL INJURY POTENTIAL

Do not operate equipment that has been misused, abused, neglected, damaged, or altered/modified from that of original manufactured specifications.

We reserve the right to make product improvements at any time. Specifications and design are subject to change without notice.

Table of Contents

General Information

Model Numbers 9

How to Read a Model Number ..... 9

Dispensing Basics 10

Accessories 13

Serial Number Location 15

Warranty Information .....15

Installation

General 17

Dimensions 18

Pre-installation Checklist .....31

Location 33

Drains 34

Water Supply 38

Setting Pressures 39

Component Identification

Typical Systems 43

System Components 46

Ice/Beverage and Counter Electric

Dispensers 53

Maintenance

Cleaning 55

Disassembly 59

Replacement 79

Sanitizing 82

Shipping, Storage and Relocation .....87

Operation

Blade Tower Brixing 89

CEV Electronic Ice & Carbonation Control 90

Flavor Magic Programming .....93

Flav'R-Pic External Programming ..... 97

Flav'R-Pic (FRP-250) Programming ....100

Flav'R-Pic (FRP-250) Brixing Procedure 105

FlexTower Programming Modes .....115

Adjustments 120

Agitation Timer 124

Troubleshooting

Checklist 125

Liquid Level Control 137

Diagnosing a Defective Carbonator .... 138

Component Specifications

Electrical Requirements 139

Minimum Circuit Ampacity ..... 139

Grounding Instructions ..... 141

Pump Deck Wiring 143

Water Supply 144

Charts

Flavor Magic Logic Matrix ..... 147

Flav'R-Pic (FRP-250) Logic Matrix ..... 150

Diagrams

Blade Tower Plumbing 153

CEV-30i & CEV-30e Plumbing ..... 156

CEV-40i & CEV-40e Plumbing ..... 158

CT-6 Plumbing and Wiring 160

CT-8 Plumbing and Wiring 161

CF-1522 Plumbing 162

DI-1522 Post-mix Plumbing 164

DI-1522 Pre-mix Plumbing 164

DI/DIL-2323 6 Valve Post-mix Plumbing 165

DI/DIL-2323 8 Valve Post-mix Plumbing &

Variety Valve 166

DI/DIL-2323 10 Valve Post-mix Plumbing 167

DI/DIL-2323 6 Valve Pre-mix Plumbing . 168

Flavor Magic Plumbing 169

FRP-250 Plumbing Diagram ..... 170

FRP-250 & FRP-250SCI Tubing Layout . 171

FT-8 Plumbing 172

FT-12 Plumbing 172

FlexTower Water Recirculation Pump Flow

173

FlexTower Water Chiller Flow ..... 173

MDH-302 12 Valve Plumbing ..... 174

MDH-402 16 Valve Plumbing ..... 175

MDH-402 20 Valve Plumbing .....176

S/SV150 6 Valve Diagram .....177

S/SV175 8 Valve Diagram .....177

S/SV200/250/SV-250QD 8 Valve Diagram 178

S/SV200/250 10 Valve Diagram .....178

Flex Manifold Diagrams .....180

CEV Wiring 181

CF Drop-In Series Wiring .....187

Drop-in Wiring 188

Flavor Magic Wiring 192

Flav'R-Pic (FRP-250) Wiring 193

FlexTower Wiring 195

MDH-302 & MDH-402 Wiring .....199

NGF-250 Wiring 201

quickdraw Wiring 202

S/SV/SVi Wiring 203

Selectable Ice Wiring .....205

This Page Intentionally Left Blank

General Information

Model Numbers

This manual covers the following models:

CEV-30j CEV-30e CEV-30i
CEV-40e CEV-40i CT-6
CT-8 DI-1522 DI-2323
DIL-2323 FRP-250 FRP-250SCI
FT-8 FT-12 FT-16
M-15 M-45 M-90
MDH-302 MDH-402 MDH-302CI
MDH-302SCI MDH-402CI MDH-402SCI
NGF-250NGF-250QD S-150
S-200 S-250 SV-150
SV-175SV-200 SV-250
SV-150iSV-175i SV-200i
SV-250iSV-250QD SV-200SCI
SV-250SCIBLADE TOWER FLAVOR MAGIC

How to Read a Model Number
Servend M-90 - Model Numbers - 1

flowchart
graph TD
    A["Model Base"] --> B["SV-250-i"]
    C["Model Prefix"] --> B
    D["Model Suffix"] --> B
    E["S - Ice Dispenser\nSV - Ice/Beverage\nDispenser"] --> B
    F["i - Internal Carb\nQD - Quickdraw"] --> B
    G["Ice Capacity"] --> B

Manitowoc Foodservice developed this manual as a reference guide for the service agent and installer of fountain equipment.

Fountain dispensing is the serving of a beverage (soft drink, tea, or juice, etc.) from a dispenser that will chill the product to an acceptable serving temperature for the consumer.

The beverage, delivery system and dispenser can be postmix or premix. The system may be an elaborate system with most of the components in the back of the store and the dispenser in the front. Fountain systems could be a simple system with the complete system under the counter where the dispenser is located.

Our goal is that this manual will remove some of the confusion, and mystery of beverage dispensing equipment while providing a general overview of service to the equipment.

Dispensing Basics

WHAT IS CARBONATION

Carbonation is the process of mixing carbon dioxide gas into a liquid (water). The resulting liquid is called soda water or carbonated water. The carbon dioxide gas is the bubbles you see when a carbonated beverage (like soda) is dispensed.

Most cola, lemon-lime products, etc. are carbonated. Normally teas, juices, etc. are noncarbonated.

Some beverage technicians refer to noncarbonated water as sweet water.

WATER CHARACTERISTICS

Water makes up over 80% of the typical finished beverage. The quality of this primary ingredient is of utmost importance. You should use regular cold tap water, not water that has been through a water softener, conditioner, etc. Any off taste or color should be treated by proper water filtration.

WATER FILTERS

It is recommended that proper water filters treat the water supply for the beverages. There are two basic filters commonly in use.

  1. Pre-filter, or sand filter. This filter removes any foreign matter from the water down to 25 microns in size.
  2. Carbon or activated charcoal filter is also used. This filter will reduce chlorine and other chemicals, off-taste and odor. Some of the higher quality filters may reduce organic compounds (bacteria) in the water.

Do not use a filter containing any type of phosphate on the beverage system. Phosphate as used for scale reduction will cause the beverage to lose its carbonation and become “flat” quickly.

WATER PRESSURES

Dynamic (flowing) water pressures to most carbonators should be a minimum of 40 PSI (1.38 bar). Water pressure to dispensers for noncarbonated beverages should be a minimum of 50 pounds (22.7 kg). These pressures are minimum operating pressures, not static pressure.

SYRUP BASICS

Your concentrated syrup containers should be stored in a cool dry location that is easily accessible. Any extremes in temperature can wreak havoc with the quality of the product. For best results, the syrup should be maintained in an environment between 40° and 90°F (4.4° and 32.2°C).

PREMIX

Premix fountain dispensing consists of a container of beverage ready for dispensing, beverage delivery system, carbon dioxide ( CO_2 ) propellant, beverage cooling system, and dispenser. We shall discuss each component of this type of system within the context of this manual.

The major advantage of a premix system over most other types is its flexibility. This flexibility is the ability to go anywhere. Many premix systems will operate without electric power or separate water supply.

POSTMIX

Postmix fountain dispensing consists of either a tank (called a Figal) or a box (called a Bag-in-Box) of beverage syrup. The postmix system will also include the carbonator, fresh water supply, carbon dioxide (CO_2) supply, syrup delivery system, beverage cooling system, and dispenser. We shall discuss each component of this type of system within the context of this manual.

The major advantage of the postmix system over most other systems is the very low cost of delivering a high quality, fresh beverage to the consumer utilizing less floor and storage space for the quantity of beverages served.

PIPING

The fountain system is connected together by a series of tubing or hoses. This tubing is called beverage tube and is commonly available in 1/4" (0.64 cm), 3/8" (0.95 cm), and 1/2" (1.27 cm) inside diameters. Beverage tubing is a flexible, high-pressure tubing. This tubing is capable of withstanding system pressures in excess of 100 PSI (6.9 bar). The beverage tubing may be an individual line or assembled with many lines of tubing bundled together.

The beverage tubing is attached to the various components of the system with barbed stems, nuts, tees, etc. The tubing is held onto the fittings with small tube clamps called stepless (Oetiker®) clamps. When attaching the tubing and fitting to a “flared” fitting, the use of a flare washer is required.

Several different types of tubing are available for the beverage industry. If there is any possibility of the tubing laying in a damp environment, the use of non-permeable tubing should be used. Tubing is also available as a single tube or bundled together. Single tube is available as non-permeable plastic or stainless steel. Bundled tube is available as plastic only.

Accessories

BAFFLE FOR MANITOWOC® ICE MACHINES

When installing a Manitowoc Ice Machine on a dispenser, a baffle kit is required for proper installation. The baffle kit is designed to prevent ice from lying against the front of the ice machine, and melting down the front of the dispenser. There are two different baffle kits available for "S" series ice machines, one kit is for the 30" (76.2 cm) wide machine, and the other kit is for the 22" (55.9 cm) wide machine. There is also a kit for "Q" series ice machines.

Kits are available through your local distributor. List prices may be subject to change without notification. Please call your local parts distributor for current pricing before ordering.

NOTE: For full information about ice machine installation, including plumbing lines connections and electrical requirements, see the ice machine installation manual.

MANUAL FILL LID FOR DISPENSERS WITH AN ICE MACHINE

If you are top mounting your dispenser with an ice machine, you will require a lid for the manual fill area at the top, front of the dispenser.

If you ordered a dispenser and an ice machine at the same time, the manual fill lid may be included with the unit. The manual fill lid can be ordered from your local distributor.

LEGS

Legs are optional equipment with most MBE dispensers. Standard legs are 4" (10.2 cm) tall stainless steel legs. We do not recommend using legs

when an ice machine is mounted on the dispenser. The combined weight of the dispenser, ice and ice machine is more evenly distributed when the base area of the dispenser is in contact with the countertop.

Serial Number Location

This number is required when requesting information from your local distributor. The serial number is listed on the SERIAL NUMBER DECAL affixed to the dispenser.

Label

Serial Number Location

Warranty Information

Consult your local MBE Distributor for terms and conditions of your warranty. Your warranty specifically excludes all beverage valve brixing, general adjustments, cleaning, accessories and related servicing.

Your warranty card must be returned to MBE to activate the warranty on this equipment. If a warranty card is not returned, the warranty period can begin when the equipment leaves the MBE factory.

No equipment may be returned to MBE without a written Return Materials Authorization (RMA).

Equipment returned without an RMA will be refused at MBE's dock and returned to the sender at the sender's expense.

Please contact your local MBE distributor for return procedures.

This Page Intentionally Left Blank

Installation

General

These instructions are provided to assist the qualified installer. Contact your Manitowoc Beverage Equipment Service Agent or call Manitowoc Beverage Equipment for information regarding start-up services.

Important

Failure to follow these installation guidelines may affect warranty coverage.

Dimensions

ICE/BEVERAGE & COUNTER ELECTRIC DISPENSER DIMENSIONS
A B

C D E F G

Servend M-90 - Dimensions - 3

natural_image Technical line drawing of a mechanical device with dimension labels H and l (no text or symbols present)

Note: Graphic above is for illustration purposes only, and may not look like your unit.

MODEL AB C* D E F G H I
CEV-30 2988"(75.9 cm)20.50"(52.7 cm)11.76"(29.8 cm)4.44"(11.3 cm)N/A N/A25.75"(65.4 cm)17.00"(43.1 cm)17.50"(44.4 cm)
CEV-40 2988"(75.9 cm)26.00"(66.0 cm)11.76"(29.8 cm)4.44"(11.3 cm)N/A N/A25.75"(65.4 cm)17.00"(43.1 cm)23.00"(58.4 cm)
M-45 24.255"(61.6 cm)15.00"(38.10 cm)9.75"(24.8 cm)4.44"(11.3 cm)17.88"(45.4 cm)26.37"(67.0 cm)28.00"(71.1 cm)19.37"(49.2cm)12.75"(32.4 cm)
M-90 32.000"(81.30 cm) 15.00"(38.10 cm)9.75"(24.8 cm)4.44"(11.3 cm)18.00"(45.7 cm)26.37"(67.0 cm)28.00"(71.1 cm)19.37"(49.2cm)12.75"(32.4 cm)
MDH-302(SCI)33.00" / 44.00" w/EMerch(83.8 cm / 111.7 cm)42.75"(108.5 cm)9.94"(17.6 cm)4.44"(11.3 cm)22.50"(57.2 cm)28.00"(71.1 cm)30.50"(77.4 cm)20.50"(52.0 cm)38.75"(98.4 cm)
MDH-402(SCI)32.00" / 44.00" w/EMerch1 /54.00" w/EMerch2(81.2 cm / 111.7 cm 137.1 cm)60.00"(152.4 cm)9.94"(17.6 cm)4.44"(11.3 cm)22.50"(57.2 cm)28.00"(71.1 cm)30.50"(77.4 cm)21.25"(54.0 cm)56.50"(143.6 cm)
S/SV-150 24.81"(63.0 cm)23.00"(58.4 cm)9.94"(17.6 cm)4.44"(11.3 cm)22.63"(57.5 cm)28.00"(71.1 cm)31.13"(79.1 cm)20.00"(50.8 cm)20.44"(51.9 cm)
S/SV-175 24.81"(63.0 cm)23.00"(58.4 cm)9.94"(17.6 cm)4.44"(11.3 cm)22.63"(57.5 cm)28.00"(71.1 cm)31.13"(79.1 cm)20.00"(57.0 cm)22.44"(57.0 cm)
S/SV-200 34.81"(88.4 cm)30.00"(76.2 cm)9.94"(17.6 cm)4.44"(11.3 cm)22.63"(57.5 cm)28.00"(71.1 cm)31.13"(79.1 cm)20.00"(50.8 cm)27.44"(69.7 cm)
S/SV/FRP/NGF-250(QD & SCI)39.81"(101.1 cm)30.00"(76.2 cm)9.94"(17.6 cm)4.44"(11.3 cm)22.63"(57.5 cm)28.00"(71.1 cm)31.13"(79.1 cm)20.00"(50.8 cm)27.44"(67.9 cm)

* C = Valve height using Flomatic Valves.

DROP-IN & CT DIMENSIONS
A B D E G

C F H

MODEL ABC*DEFGH
CT-6 N/AN/A9.50"(24.2 cm)14.25"(36.2 cm)17.00"(43.2 cm)16.38"(42.8 cm)
CT-8 N/AN/A9.50"(24.2 cm)15.50"(39.8 cm)25.00"(63.5 cm)23.75"(60.4 cm)
DI-152244.38"(112.8 cm)38.38"(97.5 cm)9.50"(24.2 cm)15.00"(38.2 cm)22.38"(56.9 cm)16.38"(42.8 cm)22.00"(55.9 cm)
DI/DIL-232356.75"(144.2 cm)46.75"(118.8 cm)9.50"(24.2 cm)23.00"(58.5 cm)33.75"(85.8 cm)23.75"(60.4 cm)23.00"(58.5 cm)

FLEXTOWER DIMENSIONS
Servend M-90 - Dimensions - 6

natural_image Line drawing of a mobile phone control panel with labeled dimensions (B) and buttons, no text or symbols present.

A C

MODEL A B C
FT-8/12/16 36.00"(91.5 cm)14.00"(35.6 cm)9.50"(24.2 cm)

BLADE TOWER DIMENSIONS
B D E MOTELK HED A C F

H G

MODEL A B C D
BLADETOWER17.30"(44.0 cm)11.86"(30.2 cm)10.75"(27.3 cm)9.68"(24.6 cm)
EFGH
3.29"(8.4 cm)4.88"(12.4 cm)7.39"(18.8 cm)5.00"(12.7 cm)

ICE/BEVERAGE & COUNTER ELECTRIC DISPENSER FOOTPRINTS

A C Minimum Area for Cutout B D Maximum Area for Cutout

NOTE: Footprint above is for illustration purposes only, and may not look like the bottom of your unit.

MODELMaximum MinimumCD
AB
CEV-30 14.50"(36.8 cm)12.50"(31.7 cm)8.00"(20.3 cm)8.00"(20.3 cm)
CEV-40 20.00"(50.8 cm)12.50"(31.7 cm)8.00"(20.3 cm)8.00"(20.3 cm)
M-45 8.00"(20.3 cm)12.00"(30.5 cm)8.00"(20.3 cm)12.00"(30.5 cm)
M-90 8.00"(20.3 cm)12.00"(30.5 cm)8.00"(20.3 cm)12.00"(30.5 cm)
MDH-302* 36.75"(93.3 cm)20.50"(52.1 cm)8.00"(20.3 cm)12.00"(30.5 cm)
MDH-402* 38.75"(98.4 cm)20.50"(52.1 cm)8.00"(20.3 cm)12.00"(30.5 cm)
S/SV-150 19.00"(48.3 cm)17.81"(45.2 cm)8.00"(20.3 cm)8.00"(20.3 cm)
S/SV-175 21.00"(53.3 cm)17.81"(45.2 cm)8.00"(20.3 cm)8.00"(20.3 cm)
S/SV-200& 250**26.00"(66.0 cm)17.81"(45.2 cm)8.00"(20.3 cm)8.00"(20.3 cm)

* Includes models ending in SCI
** Includes NGF, FRP, and models ending in QD or SCI

Warning

Cutting the countertop may decrease its strength. Counter must be braced to support the dispenser countertop weight plus ice storage capacity and weight of ice machine, if applicable.

DROP-IN & CT FOOTPRINTS

DI/DIL-1522 & 2323

DI 1522 cut out width 15.25" (38.7 cm) DI/DIL 2323 cut out width 23.25" (59.1 cm) DI 1522 cut out depth 22.25" (56.5 cm) DI/DIL 2323 cut out depth 23.25" (59.1 cm)

CT-6
A B C D Perimeter of CT-6 Base K J I H G F Cut Pattern in Counter Top

ABCDE
12.375"(31.43 cm)4.625"(11.75 cm)0.313"(0.80 cm)1.625"(4.13 cm)10.50"(26.67 cm)
FGHIJ
1.50"(3.81 cm)1.50"(3.81 cm)3.625"(9.21 cm)0.25"(0.64 cm)1.938"(4.92 cm)
KLM
1.188"(3.02 cm)1.625"(4.13 cm)0.313"(0.80 cm)

CT-8
A B C D E F G H J P O N M L K Perimeter of CT-8 Base Cut Pattern in Counter Top

ABCD
23.25"(59.1 cm)20.25"(51.44 cm)15.25"(38.74 cm)11.25"(28.58 cm)
EFGH
4.75"(12.07 cm)1.75"(4.45 cm)1.56"(3.96 cm)0.75"(1.91 cm)
IJKL
1.50"(3.81 cm)3.25"(8.26 cm)2.50"(6.35 cm)22.50"(57.15 cm)
MNOP
8.00"(20.32 cm)1.47"(3.73 cm)2.25"(5.72 cm)1.56"(3.96 cm)

FLEXTOWER FOOTPRINT
A B G F C Supply Line Opening Through Bottom Front of Unit (Drainpan) E D

ABCD
(2X) 3.407"(8.65 cm)(2X) 5.75"(14.61 cm)(2X) 11.265"(28.61 cm)(2X) 5.265"(13.37 cm)
EFG
(4X) ∅ 0.25"(0.64 cm)7.701"(19.56 cm)13.627"(34.61 cm)

NOTE: The FlexTower must be secured to the countertop using the four holes provided in the base of the unit and using the hardware provided. Follow customer guidelines for placement of the unit or approximately 10 inches (25.4 cm) from the edge of the counter. A mounting template is provided which is printed on the shipping carton. NOTE: DO NOT DISCARD SHIPPING CARTON UNTIL MOUNTING TEMPLATE IS REMOVED.

ABCDE
4.50"(11.43 cm)4.00"(10.16 cm)0.25"(0.64 cm)2.43"(6.17 cm)∅ 0.218"(0.55 cm)(4 places)
FGHI
2.50"(6.35 cm)4.00"(10.16 cm)1.00"(2.54 cm)7.55"(19.18 cm)15.13"(38.43 cm)
KLM
4.82"(12.24 cm)5.38"(13.67 cm)6.38"(16.21 cm)

Pre-installation Checklist

TOP MOUNTED ICE MACHINE INSTALLATIONS

☐ Location — Avoid placing the dispenser and/or ice machine near heat sources such as radiators, ovens, and direct sunlight.

Clearances — Six inch (15.2 cm) clearance on all sides of the icemaker is needed.

Front of icemaker to be flush with front of dispenser — The front of the icemaker must be flush with the front of the dispenser. When the icemaker is flush with the front of the dispenser, some icemakers may overhang at the back of the dispenser.

Drains — A separate drain line is required for the ice machine, in addition to a drain line for the ice/beverage dispenser.

☐ Dispensers may require an adapter kit to install some top-mounted icemakers. Contact your local distributor for the correct adapter kit.

A B C D E

ABCDE
6"(15.2 cm)6"(15.2 cm)6"(15.2 cm)6"(15.2 cm)6"(15.2 cm)

For full information about icemaker installation, including plumbing lines connections and electrical requirements, see the icemaker installation manual.

Location

The location selected for the beverage dispenser must meet the following criteria. If any of these criteria are not met, select another location.

  • The air temperature must be at least 50^ (10°C), but must not exceed 95^ (35°C).
  • The location must not be near heat-generating equipment or in direct sunlight and must be protected from weather.
  • The countertop must be level. Verify that the countertop can support the weight of the dispenser, or the dispenser/ice machine combination plus the weight of the stored ice.
  • Water lines, drains and power outlet must be within 6' (1.8 m) of location.

Servend M-90 - Location - 1

Warning

Carbon Dioxide (CO 2 ) displaces oxygen. Exposure to a high concentration of CO 2 gas causes tremors, which are followed rapidly by loss of consciousness and suffocation. If a CO 2 gas leak is suspected, particularly in a small area, immediately ventilate the area before repairing the leak. CO 2 lines and pumps must not be installed in an enclosed space. An enclosed space can be a cooler or small room or closet. This may include convenience stores with glass door self serve coolers. If you suspect CO 2 may build up in an area, venting of the B-I-B pumps and/or CO 2 monitors must be utilized.

Drains

ICE & ICE/BEVERAGE DISPENSER DRAINS Drainage Through Bottom
Servend M-90 - Drains - 1

natural_image Technical line drawing of a mechanical assembly with no visible text or symbols

90^ Elbow Fitting
Radiator Clamp
Flexible Tubing

Drainage Through Back
Servend M-90 - Drains - 2

natural_image Technical line drawing of a mechanical assembly with no visible text or symbols

Straight Fitting
Radiator Clamp
Flexible Tubing

Rear View
Servend M-90 - Drains - 3

natural_image Technical line drawing of a rectangular frame with a base and top, showing internal structure and an arrow pointing to the bottom (no text or symbols)

Rear Access for Drain Hose and Beverage Lines

FLEXTOWER DRAIN Drainage Through Bottom
90° Elbow Fitting Radiator Clamp Flexible Tubing

Drainage Through Back
Straight Fitting Radiator Clamp Flexible Tubing

Rear View

Rear Access for Drain Hose and Beverage Lines

BLADE TOWER DRAIN
Servend M-90 - Rear View - 2

natural_image Technical line drawings of a roof drain, a rectangular basin, and a coiled hose (no text or symbols)

Flush Mount Drain — 020001388

Servend M-90 - Rear View - 3

natural_image Technical line drawing of a mechanical device with a circular base and mounting base (no text or symbols)

NOTE: The Blade Tower can be set up to use an existing drain or an optional drain can be ordered for use with the tower. The illustration above shows the optional flush mount drain setup (Part Number 020001388). If using the optional flush mount drain, be sure to plumb according to local codes.

Water Supply

The plumbing diagram is printed on a white vinyl label, located above the inlet tubes for syrup and water. The plumbing diagram label can be accessed by removing the splash panel of the dispenser. The plumbing diagram label explains which inlet coldplate fittings supply which dispenser valves and water manifolds.

The water supply must first be connected to the carbonator pump (not shown) before plumbing to connection “A” shown on the plumbing diagram. The carbonator pump deck must be within six feet (1.8 m) of the dispenser for optimum performance. See the B-I-B installation diagram for system pressure settings.

Important

When installing cold carbonated (Internal Carb) equipment, never put a tee for the plain water connection in the line from the pump deck to the cold plate. Putting a tee in the line will create service problems and bad drink quality.

NOTE: Valves are read from right to left.

A check valve must be installed in the water supply line 3 feet (0.9 m) from the noncarbonated water connection “PW”. Contact factory if not installed.

Important

When installing a CEV unit the lowest recommended TDS reading for the water bath is 100 PPM.

Setting Pressures

PRE-MIX PRESSURES

Normal pre-mix pressure regulators must be set at 60 psi (4.14 bar). Diet pre-mix pressure regulators must be set at 40 psi (2.76 bar). If you are experiencing high foaming, decreasing the pressures may correct the problem. Spitting and popping usually requires slightly increasing the pressures. Pre-mix beverage valve pressures vary by type and manufacturer. Please consult the manufacturer of the valves you are using for specific instructions regarding operation of the valve.

COLD CARB AND AMBIENT SYSTEM PRESSURES

  1. Incoming tap water — must be at a minimum dynamic pressure of 40 psi (2.76 bar) and maximum static pressure of 65 psi (4.48 bar) (measured at inlet to pump).

Important

If incoming water pressure is under 40 psi (2.76 bar), a water booster is recommended. If incoming water pressure is over 65 psi (4.48 bar), a water regulating valve is required.

  1. B-I-B pressure gauge must be set for a minimum of 60 psi (4.14 bar) or according to your line run.

  2. Carbonator Pressure gauge (Use Preset Regulator):

- Cold Carbonation set for 75 psi (5.17 bar).

- Ambient systems must be set at 90 psi to 105 psi (6.20 bar to 7.24 bar).

Warning

Personal Injury Hazardous Moving Parts

Do not adjust regulator valve above 50 psig (3.45 bar).

Recommended operating parameters are 40 - 50 psig (2.76 - 3.45 bar).

NOTE: The Quickdraw unit requires a supply of CO_2 . The pressure requirement for the CO_2 supply is 75 psig (5.17 bar). The adjustable Ice Dispense CO_2 regulator in the electric box must be set at 40 to 45 psi (2.76 to 3.10 bar). The Ice Dispense CO_2 Regulator must never be set above 45 psi (3.10 bar).

Turn CO_2 supply on to the dispenser. Each cold carb pump deck is furnished with a fixed regulator set at 75 psi (5.17 bar). Ambient units need to be set between 90 and 105 psi (6.24 and 6.90 bar).

Important

The ice portion sizes must be adjusted to customer requirements at the time of installation. (See the Quickdraw Ice Portion Adjustments section for more information.)

BACK ROOM PACKAGE

Incoming tap water — Must be at a minimum dynamic pressure of 40 psi (2.76 bar) and maximum static pressure of 65 psi (4.48 bar). If pressure can not be attained, a water booster may be needed.

Carbonator Water pump motor — Powers the water pump. The water pump motor is part of the carbonator pump deck.

Carbonator Water pump — Pumps tap water into the carbonator tank. The water pump is part of the carbonator. The incoming water for the carbonator must be first run through the pump before connecting to the proper cold plate inlet.

Internal/External Carbonator tank — Combines CO_2 gas and tap water to form carbonated water. The “carbonator” is the carbonator tank, water pump and water pump motor.

CO 2 cylinder — Holds highly pressurized carbon dioxide (CO 2 ). The CO 2 cylinder is a steel or aluminum cylinder tank. CO 2 gas flows through the primary pressure regulator.

Bag-In-Box (B-I-B) pressure gauge — Set for 60 - 80 psi (4.14 - 5.51 bar). Indicates CO₂ pressure going to B-I-B pumps.

Primary pressure regulator – Lowers the CO_2 gas pressure, to 100 psi (6.90 bar), so the CO_2 gas will be at the proper pressure to enter the carbonator regulator.

Lowered outgoing pressure — Set for 75 psi (5.17 bar). Gauge indicates lowered outgoing pressure from the CO_2 cylinder after being routed through the primary pressure regulator at 90 psi to 105 psi (6.20 bar to 7.24 bar).

Secondary pressure regulator — Lowers the CO_2 gas pressure before the CO_2 gas flows to the syrup pump. CO_2 pressure activates the syrup pump. 30 psi (2.07 bar) on Flavor Magic and FRP-250 units with flavor shots.

Syrup pump — Draws syrup out of the bag-in-box syrup package. Syrup flows through the syrup lines to the dispenser for chilling, then dispensing. There is a syrup pump for each bag-in-box syrup system.

Bag-In-Box (B-I-B) syrup cartons — Box which contains a plastic bag, filled with syrup.

This Page Intentionally Left Blank

Typical Systems

TYPICAL INTERNAL CARBONATION (IC) ICE/BEVERAGE DISPENSING SYSTEM
Dispenser Carbonator Tank Carbonate, Non-carbonate Beverage Manifold Countertop Tap Water Tap Water CO₂ CO₂ Cylinder Syrup B-I-B Syrup Pump CO₂ CO₂ CO₂ Bag-In-Box Syrup Carton

TYPICAL EXTERNAL CARBONATION (AMBIENT) ICE/BEVERAGE DISPENSING SYSTEM
Servend M-90 - Typical Systems - 2

flowchart
graph TD
    A["Dispenser"] --> B["w/Coldplate"]
    B --> C["Countertop"]
    C --> D["Bag-in-box Syrup Carton"]
    D --> E["Syrup"]
    E --> F["B-I-B Syrup Pump"]
    F --> G["Syrup"]
    G --> H["Carbonated Water CO2 Cylinder"]
    H --> I["Tap Water"]
    I --> J["Non-carbonated Water"]
    J --> K["Tap Water"]
    K --> L["Carbonator Tank"]
    L --> M["CO2 Cylinder"]
    M --> N["Syrup"]
    N --> O["Syrup"]
    O --> P["CO2"]
    P --> Q["Syrup"]
    Q --> R["CO2"]
    R --> S["Syrup"]
    S --> T["CO2"]
    T --> U["Syrup"]
    U --> V["CO2"]
    V --> W["Syrup"]
    W --> X["Syrup"]
    X --> Y["Syrup"]
    Y --> Z["Syrup"]
    Z --> AA["Syrup"]
    AA --> AB["Syrup"]

TYPICAL INTERNAL CARBONATION (IC) CEV DISPENSING SYSTEM
Servend M-90 - Typical Systems - 3

flowchart
graph TD
    A["1/3 hp Motor 125 gph Pump"] --> B["Carbonator Tank"]
    B --> C["Post Chill Coil"]
    C --> D["Evaporator Coil (Ice Bank) Dispenser"]
    D --> E["Countertop B-I-B Syrup Pump"]
    E --> F["Syrup"]
    F --> G["CO2 Cylinder"]
    G --> H["CO2"]
    H --> I["To Carb Tank"]
    I --> J["Tap Water (50 psi [3.4 bar"])]
    J --> K["Non-Carb To Carbonator Pump"]
    K --> L["Tap Water (50 psi [3.4 bar"])]
    L --> M["CO2"]
    M --> N["CO2 Cylinder"]
    N --> O["Syrup"]
    O --> P["B-Box Setup"]

NOTE: This is a simplified schematic to show the basic operation of the beverage system.

TYPICAL EXTERNAL CARBONATION (AMBIENT) CEV DISPENSING SYSTEM
Servend M-90 - Typical Systems - 4

flowchart
graph TD
    A["Evaporator Coil (Ice Bank)"] --> B["Post Chill Coil"]
    B --> C["Dispenser"]
    C --> D["Countertop"]
    D --> E["Syrup"]
    E --> F["B-I-B Syrup Pump"]
    F --> G["CO2 Cylinder"]
    G --> H["Carbonated Water"]
    H --> I["Carbonator Tank"]
    I --> J["Tap Water"]
    J --> K["Non-carbonated Water"]
    K --> L["Tap Water"]
    L --> M["Carbonated Water"]
    M --> N["CO2 Cylinder"]
    N --> O["Syrup"]
    O --> P["B-I-B Syrup Pump"]
    P --> Q["Countertop"]

NOTE: This is a simplified schematic to show the basic operation of the beverage system.

CEV ELECTRONIC ICE & CARBONATION CONTROL
Power On Carbonator Off Off Compressor Off Power in Transformer Agilator Light Kit Fan Compressor Ice Control Common High Ice Low Ice Carbonator Ground Line Line 1.035" (2.63 cm) Voltage Selection Switch

System Components

BLADE TOWER

Stainless Steel Cabinet Dispensing Valve Drain

Flow Control Base Latch Pin Water Shut-off Syrup Shut-off Water Flow Rate Adjustment Syrup Flow Rate Adjustment Mixer Block Latch Pin

DROP-IN
Merchandiser Valves Splash Panel Drainpan Grid Tower Key Switch Model/Serial Name Plate Drain Pan Ice Chest Cold Plate Lid Model/Serial Name Plate Flex Manifold Plumbing Diagram Soda/Syrup Inlet Lines Carbonator Pump Deck

FLAVOR MAGIC MODULE
Exploded view diagram of a vehicle's internal components with numbered parts for identification

Item NumberPart NumberDescription
1 501-25 NOZZLESOFTPOUR BLK
2 00850350 FLATWASHER 0.218ID X
3 0905403 CLIP PLLAS WIRE & CORD
4 5012790 SCR 10-32X3/8 KNURL UNSLT
5 5029806 RIVNUT10-32 .020-.130
6 5030446 TUBING1/4IN OD X 4FT
7 5031193 KEYPAD4 BUTTON 5 PIN FM
8 5031453 RETAINERQUAD TUBE FM
9 020000473 CVRFRONT FM ICEPIC
10 020000493CVR REAR FM ICEPIC
11020000846BRKT MNTG CENTER
12 020001033PAD LED FM
13 020001034 LABBEL LOGO SERVEND HORZ
14 020001035LABEL FM GRAPHIC
1520001153BRKT WELDED FM

FLEXTOWER
Cosmetic Nozzle Splash Shield Grid Drain Pan Removable Rivet

Program Button Control Board LED Water Valve Syrup Injection Shroud Touchpad Selection Areas

FLAV'R-PIC (FRP-250 & FRP-250SCI)
Selectable Ice Touch Pad Lower Merchandiser and Beverage Selection Touch Pads Nozzles Splash Panel FLAVR-PIC Merchandiser Nozzles Key Switch Ice Chute Drainpan Grid Drainpan

INTERNAL CARBONATORS Vertical Carbonator
Level Probe Water Inlet CO₂ Inlet Carb Water Outlet Pressure Relief Valve

Horizontal Carbonator
Water Inlet CO₂ Inlet Pressure Relief Valve Carbonated Water Outlet Electronic Probes

BAG-IN-BOX (B-I-B) SYSTEM
Water Regulator 40-55 psi (2.8-3.8 bar) Filter Booster System (If Required) From Water Supply B-I-B To CO₂ Manifold (B-I-B Pumps) From CO₂ Supply 60 psi (4.1 bar) To Syrup Inlet Barbs on Unit To B-I-B Pumps From B-I-B To B-I-B Pump To B-I-B Pump Water to Carbonator Pump To Non-carbonated Water Inlet Barb

Ice/Beverage and Counter Electric Dispensers

Ice Bin on Ice Dispensing Units Merchandiser Soda Valves Key Switch Carb/Non-Carb Water Manifold and Syrup/Soda Inlet (Behind Splash Panel) Drainpan Grid Drainpan Splash Panel Counter

MDH-402 (CI & SCI) INTERNAL CARBONATION DISPENSING SYSTEM
Servend M-90 - Ice/Beverage and Counter Electric Dispensers - 2

flowchart
graph TD
    A["Raw Material"] --> B["Plain Water to Manifold (non-insulated)"]
    A --> C["Non-carbonated water to water inlets on Unit (Non-insulated) from carbonator pump"]
    B --> D["Plain Water to Manifold (non-insulated)"]
    C --> E["Non-carbonated water to water inlets on Unit (Non-insulated) from carbonator pump"]
    D --> F["Carbonated Water to Manifold (Insulated)"]
    E --> G["Carbonated Water to Carbonator Tank (Insulated)"]
    F --> H["Carbonated Water to Mainifold (Insulated)"]
    G --> I["Carbonated Water to Mainifold (Insulated)"]
    H --> J["Water from Booster to Pump Inlet"]
    I --> K["Water from Booster to Pump Inlet"]
    J --> L["Cold Carbonation Deck"]
    K --> M["Cold Carbonation Deck"]
    L --> N["CO2 Supply 100 psi (6.9 bar) Min."]
    M --> N
    N --> O["CO2 Regulator Fixed at 75 psi (5.2 bar)"]
    O --> P["Regulator 50-55 psi (3.4-3.8 bar)"]
    P --> Q["For tank pressures, refer to manual for specifications"]
    Q --> R["Filtration System"]
    R --> S["Municipal Water Supply"]
    S --> T["Cut-in 70 psi (4.8 bar), Cut-out 100 psi (6.9 bar)"]

NOTE:

  • Cold carbonator deck must be within 10 ft (3.05 m) of unit to function properly.
  • Cold carbonation deck must be placed on a level surface.
  • Cold carbonation deck requires booster system if supply water pressure is below 40 psi (2.8 bar), or if two units are installed on the same water line.
  • filtration system may be placed before booster pump (per customer specifications).
  • Items have been removed for clarity.
  • 16 valve unit is shown.

Cleaning

ICE/BEVERAGE & COUNTER ELECTRIC DAILY CLEANING

All cleaning must meet your local health department regulations. The following cleaning instructions are provided as a guide.

Servend M-90 - ICE/BEVERAGE & COUNTER ELECTRIC DAILY CLEANING - 1

Caution

Use only warm soapy water to clean the exterior of the tower. Do not use solvents or other cleaning agents. Do not pour hot coffee into the drain pan. Pouring hot coffee down the drain pan can eventually crack the drain pan, especially if the drain pan is cold or still contains ice.

Servend M-90 - Caution - 1

Warning

Electric Shock Hazard

Unplug unit before servicing or cleaning.

Servend M-90 - Electric Shock Hazard - 1

Warning

When using cleaning fluids or chemicals, rubber gloves and eye protection must be worn.

Clean the exterior and drain pan:

  1. Turn off the key switch located on either right or left side of the unit.
  2. Lift the grid and remove it from the drain pan.
  3. Using mild soap, warm water and a clean cloth, wipe the drain pan and splash panel. Then, rinse with clean, warm water. Allow plenty of warm (not hot) water to run down the drain of the drain pan, to remove syrup residue that can clog the drain opening.

  4. Wash the grid, then rinse with clean water. Place the grid back in the drain pan.

  5. Wash all exterior surfaces of the unit with warm water and a clean cloth. Wipe again with a clean, dry cloth.

Clean the dispensing valves:

  1. Remove nozzles and diffusers from beverage valves.

Servend M-90 - Clean the dispensing valves: - 1

natural_image Close-up of a hand holding three identical mechanical components, with a black arrow pointing to one component (no text or symbols visible)

Servend M-90 - Clean the dispensing valves: - 2

natural_image Close-up of a hand pressing a button on a metallic device (no visible text or symbols)

Nozzle Removal

NOTE: The Flav'R-Pic (FRP-250 and FRP-250SCI) model have different dispensing nozzles. Remove nozzles from each dispense point by (a) grasping it firmly and turning it clockwise about 1/4" (0.64 cm) then (b) pulling down.

Servend M-90 - Nozzle Removal - 1

natural_image Close-up of a hand holding a device with an arrow indicating rotation or movement (no visible text or symbols)

Servend M-90 - Nozzle Removal - 2

natural_image Close-up of a hand holding a black plastic object with a downward arrow, no visible text or symbols
  1. Rinse nozzle and/or diffuser with warm, clean water.

  2. Clean nozzles and diffusers with soapy water and a soft bristle brush.

  3. Clean the underside of the beverage valves with warm, soapy water. Rinse with clean damp towel.
  4. Replace nozzles and diffusers on valves.
  5. Turn on the key switch.

ICE/BEVERAGE AND COUNTER ELECTRIC MONTHLY CLEANING

Servend M-90 - ICE/BEVERAGE AND COUNTER ELECTRIC MONTHLY CLEANING - 1

Warning

Unplug unit before servicing or cleaning ice bin. Ice bin contains parts that can move at any time and will cause injury if hands are in the way.

Servend M-90 - Warning - 1

Warning

When using cleaning fluids or chemicals, rubber gloves and eye protection must be worn.

Clean and sanitize the ice bin:

  1. Unplug unit and remove all ice from the ice bin.
  2. Mix a solution of mild detergent to clean the dispenser bin and components.
  3. Wash the ice bin using a sponge and the mild detergent solution.
  4. Using the mild detergent solution and a soft bristle brush or clean cloth, clean the following dispenser parts:
  5. Entire bin
  6. Paddle wheel (Ice Dispensing Units)
  7. Paddle wheel area (Ice Dispensing Units)
  8. Agitator (Ice Dispensing Units)
  9. Paddle wheel pin (Ice Dispensing Units)
  10. Ice chute (Ice Dispensing Units)
  11. Rear bushing (Ice Dispensing Units)

  12. Motor shaft (Ice Dispensing Units)

  13. Strip lids (where applicable)

  14. Rinse all the parts in clean, running water.

  15. Prepare 2 gallons (7.6 l) of sanitizing solution by mixing 1/2 ounce (14.2 g) of household bleach (that contains 5.25% sodium hypochlorite) with 2 gallons (7.6 l) of 120°F (48.9°C) water. The mixture must not exceed 100 PPM of chlorine. Or mix a solution of any approved sanitizer, following the directions for mixing and applying the sanitizer.
  16. Sanitize the ice bin and cold plate with the sanitizing solution for at least 10 seconds.
  17. Allow to air dry. Do not rinse.

Re-assembling the dispenser parts:

  1. Re-assemble parts in the following order:

  2. Bin liner (Ice Dispensing Units)

  3. Paddle wheel (Ice Dispensing Units)
  4. Agitator (Ice Dispensing Units)
  5. Paddle wheel pin (Ice Dispensing Units)
  6. Ice chute (Ice Dispensing Units)
  7. Merchandiser

  8. Hand tighten all knurled fasteners.

  9. Pour in fresh, sanitary ice and replace the plastic lid on the top of the dispenser.
  10. Plug in the unit's electrical cord.
  11. Check for proper ice dispensing.

CLEANING CHECKLIST

- C h e₂ supply. If CO₂ Supply is low, an arrow on the primary regulator gauge will point to a shaded area that reads “Low CO₂” or “Change CO₂ Cylinder.”

  • Check syrup supply.
  • Clean drain pan, grid, and splash panel.
  • Clean the valve nozzles and diffusers.

CEV WATER BATH

It is recommended that the water bath be drained at least twice a year. Turn off the refrigeration.

Completely melt the ice bank. Refill the water bath with fresh water until water runs out the overflow tube. Turn on the refrigeration.

Disassembly

DISASSEMBLY FOR CLEANING AND MAINTENANCE (ICE/BEVERAGE DISPENSERS)

NOTE: Sanitize the ice dispenser at Initial Start-up in addition to monthly sanitizing. You will need a slotted screwdriver in order to disassemble.

Disassemble parts in the following order:

A. Merchandiser
B. Ice chute
C. Paddle wheel or agitator pins
D. Agitator
E. Paddle wheel
F. Bin liner
G. Paddle wheel area

Technical diagram of a refrigerator internal components with labeled parts A through G

Beverage/Ice Dispenser

Accessing a Dispenser Bin Top Mounted with a Manitowoc Ice Machine:

  1. Remove the front panel of the ice machine.
  2. Remove the ice deflection baffle. This will give you access to the dispenser bin.
  3. If the Manitowoc ice machine is operating, wait for the sheet of ice to fall into the dispenser bin.

When the ice sheet falls into the dispenser bin, immediately place toggle switch of the ice machine to the OFF position. If the Manitowoc ice machine is NOT operating, place the toggle switch of the ice machine to the OFF position.

  1. On models without a top mounted ice machine, remove the plastic lid from the top of the dispenser.

  2. Remove all ice from the dispenser.

  3. Disconnect electrical power to the dispenser.

  4. Remove agitator arm and paddlewheel pin.

Non-front Serviceable Motor

a. Rotate the agitator arm so the paddle wheel pin handle is pointing up, toward the ceiling.

b. Prepare agitator pin for removal by removing the stainless steel split ring.

c. Then remove the paddle wheel pin from the hole in the agitator.

d. Push the agitator bar toward the back of the unit until the agitator is free of the paddle wheel hub.

Front Serviceable Motor

a. With agitator arm in any position remove hitch clip pin from the mushroom bushing on the rear of the ice bin.

b. Push the agitator bar toward the bushing to remove it from the paddle wheel hub.

NOTE: If a top mount ice machine is installed, sliding the ice machine to one side will make bin component removal easier. If the ice machine is hard plumbed it will need to be disconnected.

Servend M-90 - Front Serviceable Motor - 1

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Non-front Serviceable

Servend M-90 - Front Serviceable Motor - 2

natural_image Technical line drawing of a mechanical assembly with directional arrows and a central circular component (no text or symbols)

Front Serviceable

  1. Remove paddle wheel, bin liner and paddle wheel area.

  2. Move the front of the agitator to one side and slide the agitator forward until the rear of the agitator shaft is clear of the bushing.

  3. Remove the agitator from the bin area.

  4. Slide the paddle wheel from its shaft.

  5. Loosen the four knurled fasteners that hold the bin liner in place.

  6. Remove the bin liner.

  7. Remove the paddle wheel area from the bin.

  8. Discard the remaining ice in the bin.

DISASSEMBLE THE ROCKING CHUTE

NOTE: For all Quickdraw units, refer to the Quickdraw Components section for ice chute information.

  1. Loosen the two knurled fasteners that hold the merchandiser in place.
  2. Remove the merchandiser.
  3. Remove outer bracket.
  4. Remove door lock.
  5. Remove door.
  6. Remove ice chute.

Servend M-90 - DISASSEMBLE THE ROCKING CHUTE - 1

flowchart
graph TD
    A["1: Component 1"] --> B["2: Component 2"]
    B --> C["3: Component 3"]
    C --> D["4: Component 4"]
    D --> E["5: Component 5"]
    E --> F["6: Final Product"]

Ice Chute Removal

BLADE TOWER

How to Disassemble Tower Components

NOTE: This tower consists of two (2) valves combined as one (1) with a mixer block, mixer tube, and mixer. One pre-mix valve (CMBECKER) and one (1) Flomatic 424 flow control base.

Tower and Valve Disassembly:

  1. Remove tower housing cover by removing the thumb screw on the side.
  2. Turn OFF both shut-off valves on the flow control base and remove pressure by pulling the dispense handle to the ON position.
  3. Remove the latch pin on the mixer block by pulling straight up.
  4. Unscrew the inside flange nut on the pre-mix valve.
  5. Remove the pre-mix valve and mixer tube out the front of the tower.
  6. Remove the 424 flow control base by lifting up on its latch pin.

To reassemble follow these steps in reverse order.

Maintenance Schedule

Every dayDispensing ValvesFor the pre-mix dispensing valve, run carbonated water ONLY through the valve and dispense nozzle for 10 seconds. Turn syrup shut OFF, and block the dispense nozzle base with a clean new napkin. Dispense carbonated water only for a few seconds to fully fill the dispense nozzle. Then unblock the dispense nozzle and flow carbonated water for 10 seconds. Wipe external nozzle surfaces with carbonated water, then turn syrup shut off, ON. Clean other nearby surfaces with carbonated water or cleaning solution.
Every dayDrip pan and drain hoseWash with mild detergent. Rinse with clean water.
Every dayQuick disconnectsWash with mild detergent. Rinse with potable water.
Weekly Outside, dispenser cabinetWash with clean water and mild detergent. Wipe dry.
Every 3 monthsSyrup circuitsSanitize each syrup circuit. See “Cleaning and Sanitizing Procedure”.
Every 3 monthsWater bath DDrain, melt ice and clean using detergent and brush; rinse with potable water. Do not use water over 140°F (60°C).
Every 6 monthsCondenser VVacuum fins or use soft bristle brush (scrub brush).
Every 6 monthsAir purifier filter (if equipped)Replace.

Nightly Shutdown Procedure

It is recommended that the following steps are followed to keep your Blade Tower clean and running properly;

  1. Remove tower top piece to gain access to the valves.
  2. Turn the syrup shut off valve to the OFF position on all valves (2 valves per tower).
  3. Dispense carbonated water for 10 seconds from all valves.
  4. Leave valves off overnight and turn back on in the morning for use.

FLEXTOWER DAILY CLEANING

Cleaning the grid, splash shield and drain pan:

  1. Turn off the on/off rocker switch located on left side of the unit.

Switch Splash Shield

  1. Lift the grid and splash shield to remove them from the drain pan.

  2. Using mild soap, warm water and a clean cloth, wipe the drain pan. Then, rinse with clean, warm water. Allow plenty of warm (not hot) water to run down the drain of the drain pan, to remove syrup residue that can clog the drain opening.

  3. Wash the grid and splash shield, then rinse with clean water. Place the grid and splash shield back in the drain pan.

  4. Wash all exterior surfaces of the unit with warm water and a clean cloth. Wipe again with a clean, dry cloth.

Cleaning the water valve nozzle and diffuser, cosmetic nozzle and syrup injection shroud assembly:

  1. Remove the cosmetic nozzle, and then remove nozzle-diffuser assembly from water valve.

Servend M-90 - FLEXTOWER DAILY CLEANING - 2

natural_image Close-up of a hand pressing down on a device with directional arrows indicating motion (no text or symbols visible)
  1. Rinse the cosmetic nozzle and water valve nozzle-diffuser assembly with warm, clean water.

  2. Clean water valve nozzle-diffuser assembly with soapy water and a soft bristle brush.

  3. Clean the cosmetic nozzle, underside of the water valve and the inside of the syrup injection shroud assembly with warm, soapy water. Rinse with clean warm towel.

  4. Replace water valve nozzle-diffuser assembly and cosmetic nozzle.

  5. Turn on the on/off rocker switch located on left side.

QUICKDRAW COMPONENTS

  1. Turn the beverage valve switch on the front left side to the off position.

Ice Dispense Switch Beverage Valve Switch

  1. Place a receptacle (bucket or large cup) under the ice dispense chute.
  2. Place the ice dispense switch to MANUAL mode. The door will open and ice will fall into the bucket or cup.
  3. Remove the ice chute cover:

A. Grab the tabs on the back of chute and spread, pulling tabs off of pins.

Servend M-90 - QUICKDRAW COMPONENTS - 2

natural_image Close-up of hands operating a medical or laboratory device with two white arrows pointing to the sides (no visible text or symbols)

B. Push the bottom of chute to rear until it stops.

Servend M-90 - QUICKDRAW COMPONENTS - 3

natural_image Close-up of hands installing or adjusting a mechanical component with a white arrow pointing to a detail (no visible text or symbols)

C. Rock top of the chute forward until top of chute clears unit.

Servend M-90 - QUICKDRAW COMPONENTS - 4

natural_image Close-up of hands operating a mechanical device with a white arrow pointing to a component (no visible text or symbols)
  1. Remove ice wheel:

A. Pull cotter pin from the ice wheel axle.

Servend M-90 - QUICKDRAW COMPONENTS - 5

natural_image Close-up of a mechanical component with a white arrow pointing upward, no visible text or symbols

B. Grasp handle of the pin on the right side, pulling until the ice wheel is loose.

WATER

  1. Mix a solution of mild detergent to clean the Quickdraw components. Using the detergent solution and a soft bristle brush or clean cloth, clean the following components:

  2. Ice wheel

  3. Cup locator
  4. Quickdraw chamber
  5. D o o r
  6. Ice chute cover

  7. Rinse all parts in clean running water.

  8. Mix a sanitizing solution of 1/4 ounce (7.4 ml) liquid, unscented bleach (5.25% CL NaO concentration) for each gallon of water. The mixture must provide 100 PPM available chlorine.

  9. Using the sanitizing solution, a soft bristle brush, or a clean cloth, sanitize the components listed in Step 6. The ice chamber must be sanitized with a soft bristle brush to adequately clean the metering wheel slot and drainage area.

  10. Reverse the procedure to reassemble the Quickdraw mechanism.

NOTE: When inserting the pin through the ice wheel, you will have to align the pin with the pattern of the wheel hole.

Servend M-90 - QUICKDRAW COMPONENTS - 7

natural_image Close-up of a hand adjusting a transparent mechanical component with six blades (no text or symbols visible)
  1. Place the ice dispense switch to the AUTO position, and place the beverage valve switch to the ON position.

  2. Check for proper operation.

SELECTABLE ICE CRUSHER DISASSEMBLY

Before servicing or cleaning any part of the Selectable Ice unit be sure to unplug it from its power source. In order to access the module and crusher you must first remove the merchandiser by taking out the two screws located at the top of the merchandiser. Once the screws are removed, rotate the top of the merchandiser towards you and then lift the merchandiser up to remove from unit.

Housing Door Crusher Housing Hub Blade Assembly Drip Pan Decorative Chute Sanitary Lever

  1. Unplug unit before cleaning or servicing the Crusher Assembly.

  2. Remove the merchandiser by taking out the two screws located at the top of the merchandiser. Once the screws are removed rotate the top of the merchandiser towards you and then lift the merchandiser up to remove from unit.

NOTE: When the Merchandiser is removed an electrical safety switch disconnects power to the Ice Crusher assembly.

  1. Remove the ice chute by pulling the cotter pin out on the right side of the chute rod and pulling the chute rod toward the left side of the dispenser.

Cotter Pin Chute Rod Decorative Chute

  1. Remove the crushed ice and cube ice doors from the dispenser by lifting the solenoid arms up and pushing the doors back to disengage the door from the solenoid arm.

Solenoid Arm Housing Door Motor Mount Housing Mount Drip Pan

74 Part Number STH14 9/10

  1. Remove the crusher drip pan by pulling it forward.

  2. Remove the ice crusher blade assembly from the crusher housing.

A. Unlock the crusher hub/blade assembly from the crusher housing by pushing locking tab in, and rotating the hub/blade assembly clockwise.

Crusher Housing Locking Tab Hub/Blade Assembly Pull Out 1/2" (1.27 cm)

B. Pull the hub/blade assembly out of the housing approximately 1/2" (1.27 cm) to disengage the crusher axle from the motor shaft.

Crusher Housing Hub/Blade Assembly Axle Knob

C. Rotate the knob on the crusher axle so it is in a vertical position. (This will ensure the rotating blades will not interfere with pulling the hub/blade assembly from the housing.)
D. Now the hub/blade assembly will be free from the housing and you will be able to completely remove the hub/blade assembly from unit.

REASSEMBLE THE ICE CRUSHER ASSEMBLY

Crusher Housing Stationary Blades Axle Knob Hub/Blade Assembly

  1. Insert the hub/blade assembly into the ice crusher housing. When inserting the hub/blade assembly you must align the stationary blades with the locating slots in the ice crusher housing.
  2. When inserting the hub/blade assembly into the ice crusher housing you must also make sure the axle knob is in a vertical position. This will align the rotating blades with the housing to ensure a quick and easy installation.

Crusher Housing Locking Tab Hub/Blade Assembly

  1. Once all blades are in the crusher housing you will need to align the crusher axle with the motor shaft. You can do this by turning the axle knob and pushing the blade assembly toward the motor until the hub/blade assembly is flush with the end of the crusher housing.

  2. To lock the hub/blade assembly into the housing, rotate the crusher hub/blade assembly counterclockwise until the locking tab snaps into place and the crusher hub/blade assembly is secure.

  3. Replace the crusher drip pan.

Cotter Pin Chute Rod Decorative Chute

  1. Reattach the decorative ice chute by inserting the chute rod through the decorative chute, housing mount, and motor mount. Secure the chute rod by inserting the cotter pin through the rod on the right side of the chute.

  2. Ensure the extension at the top of the decorative chute is behind the arm of the activation switch.

Replacement

NON-FRONT SERVICEABLE GEAR MOTOR REMOVAL

These instructions are provided as a guide for the removal of the gear motor. Depending on the model number of your dispenser, these instructions may vary slightly.

  1. Disconnect power from the electric receptacle.
  2. Remove all ice from the ice storage bin of the dispenser.
  3. Remove the paddle wheel pin from the paddle wheel/agitator assembly inside the dispenser bin.
  4. Remove the agitator assembly from the dispenser bin by pushing the agitator to the back of the bin. Angle the front of the agitator to the side. Pull the agitator forward then out of the dispenser.
  5. Remove the paddle wheel from the dispenser by pulling the hub of the paddle wheel to the back of the bin and off the gear motor shaft.
  6. Remove the splash panel from the dispenser and expose the gear motor.
  7. Disconnect the electric connector from the gear motor wire leads.
  8. Remove the pin in front of the gear motor.
  9. You must be able to remove the gear motor from the dispenser.

To install a replacement gear motor, reverse this procedure.

FRONT SERVICEABLE GEAR MOTOR REMOVAL

These instructions are provided as a guide for the removal of the gear motor. Depending on the model number of your dispenser, these instructions may vary slightly.

  1. Unplug the dispenser.
  2. Unplug the motor.
  3. Remove motor mount pins.

IMPORTANT OPERATING PRESSURES FL. BLUTT PRESSURE: 0 PFS FLD BLUTT PRESSURE: 0 PFS/800 FLD BLUTT PRESSURE: 0 PFS/1000 NOTE: LBD OF A KAMPER REGULATION SLI RESOURCES OF SUPPLY WATER PRESSURE: IS OBSERVED PFS LBD OF AN ADDITIONAL SURFACE BOOT PLANE IS PRECURRED UP WATER PRESSURE IS BELOW 40 PFS FOR FLUTTER SETN & CONTACT YOUR BEANS REPROVINCATOR

  1. Slide motor towards you.
  2. Notice alignment of the chamfered edge of drive shaft.

Servend M-90 - FRONT SERVICEABLE GEAR MOTOR REMOVAL - 2

natural_image Close-up of industrial machinery components with visible wiring and mechanical parts (no text or symbols)
  1. New motor must have the same alignment (within 15 degrees).

  2. To get correct alignment you can do one of two things:

a. Turn drive shaft with an adjustable wrench, being careful not to damage the drive shaft.

b. Plug in the unit, plug in the motor and use the ice dispense switch to move the drive shaft into correct alignment.

  1. If you plugged in the unit to help with alignment of drive shaft now unplug the unit.

  2. Slide motor up into housing, making sure that the tabs fit on the bracket.

Servend M-90 - FRONT SERVICEABLE GEAR MOTOR REMOVAL - 3

natural_image Close-up of a metallic mechanical component with bolts and a central shaft (no visible text or symbols)
  1. Install motor mount pins.

  2. Plug in motor.

  3. Test unit.

Sanitizing

BEVERAGE SYSTEM CLEANING

Servend M-90 - BEVERAGE SYSTEM CLEANING - 1

Warning

Flush sanitizing solution from syrup system.

Residual sanitizing solution left in system could create a health hazard.

Servend M-90 - Warning - 1

Warning

When using cleaning fluids or chemicals, rubber gloves and eye protection must be worn.

Sanitize the beverage system at initial start-up as well as regularly scheduled cleaning. The drain pan must be in place under soda valves, to carry away detergent and sanitizing agents that will be flushed through valves.

BAG-IN-BOX SYSTEM SANITATION

The procedure below is for the sanitation of one syrup circuit at a time. Repeat to sanitize additional circuits.

You will need the following items to clean and sanitize the Bag-in-Box (B-I-B) beverage system:

  • Three (3) clean buckets
  • Plastic brush or soft cloth
  • Mild detergent
  • Unscented bleach (5% Na CL O) or Commercial sanitizer
  • Bag-In-Box bag connector

  • Prepare the following in the buckets:

  • Bucket 1 — warm to hot tap water for rinsing.

  • Bucket 2 — mild detergent and warm to hot water.

- Bucket 3 — mix a solution of unscented bleach (5% Na CL O) or commercial sanitizer and warm to hot water. Mixture must supply 100 PPM available chlorine (1/4 oz. [7.1 g] bleach to 1 gallon [3.8 l] water).

  1. Disconnect the "syrup-line side" of the bag-in-box connector.

Servend M-90 - The procedure below is for the sanitation of one syrup circuit at a time. Repeat to sanitize additional circuits. - 1

natural_image Close-up of a hand operating a mechanical component with a valve and screw (no visible text or symbols)
  1. Rinse connector with warm tap water.

  2. Connect syrup connector to B-I-B connector and immerse both into Bucket 1. A "bag-side" connector can be created by cutting the connector from an empty disposable syrup bag.

Bag side connector

Servend M-90 - The procedure below is for the sanitation of one syrup circuit at a time. Repeat to sanitize additional circuits. - 3

natural_image Close-up of hands operating a mechanical component with no visible text or symbols
  1. Draw rinse water through system until clean water is dispensed. Most beverage valves allow the syrup side to be manually activated by depressing the syrup pallet.

  2. Connect Bucket 2 to system.

  3. Draw detergent solution through system until solution is dispensed.

  4. Repeat steps 2-7 until all syrup circuits contain detergent solution.

  5. Allow detergent solution to remain in the system for 5 minutes.

  6. Connect Bucket 3 to system.

  7. Draw sanitizing solution through system until solution is dispensed.

  8. Repeat step 11 until all syrup circuits contain sanitizer solution.

  9. Allow sanitizer solution to remain in system for 15 minutes.

  10. Remove nozzles and diffusers from beverage valves.

  11. Scrub nozzles, diffusers and all removable valve parts (except electrical parts) with a plastic brush or a soft cloth and the detergent solution.

  12. Soak nozzles, diffusers and removable valve parts (except electrical parts) in sanitizer for 15 minutes.

  13. Replace nozzles, diffusers and valve parts.

  14. Connect Bucket 1 to system.
  15. Draw rinse water through system until no presence of sanitizer is detected.
  16. Attach syrup connectors to B-I-Bs.
  17. Draw syrup through system until only syrup is dispensed.
  18. Discard first 2 drinks.
  1. Prepare the following in three clean Figal tanks:

  2. Rinse tank - fill with room temperature tap water.

  3. Detergent tank - mix approved beverage system cleaner with warm water as directed.
  4. Sanitizing tank - mix a solution of unscented bleach (5% Na CL O) or commercial sanitizer and warm to hot water. Mixture must supply 100 PPM available chlorine (1/4 oz. [7.1 g] bleach to 1 gallon [3.8 l] water).

  5. Disconnect all product and water lines from product tanks and remove carbonator.

  6. Locate the Figal syrup tank for the circuit to be sanitized. Remove both quick disconnects from the Figal syrup tank. Rinse quick disconnects in tap water.
  7. Connect rinse tank to the syrup line. Draw clean rinse water through the valve until syrup is flushed from the system.
  8. Connect detergent tank to the syrup line and draw detergent through the valve for two minutes. Then, allow remaining detergent to stay in the system for five minutes.
  9. Connect rinse tank to the syrup line. Draw clean rinse water through the valve until detergent is flushed from the system.

  10. Remove valve nozzle and diffuser as shown in Daily Cleaning instructions. Using a plastic brush or a soft cloth and warm water, scrub the nozzle, diffuser, bottom of the dispensing valve and cup lever, if applicable.

  11. Place removable valve parts (EXCEPT solenoids) in sanitizing solution for 15 minutes.
  12. Replace valve diffuser and nozzle on the beverage valve.
  13. Connect sanitizer tank to the syrup line and draw sanitizer through the valve for two minutes. Allow sanitizer to remain in the system for a minimum of 15 minutes.
  14. Reconnect syrup and carbonated water lines.
  15. Draw syrup through the lines to rinse the system. Discard drinks until at least two cups of satisfactory tasting beverage are dispensed through the valve.

Shipping, Storage and Relocation

Servend M-90 - Shipping, Storage and Relocation - 1

Caution

Before shipping, storing, or relocating this unit, syrup systems must be sanitized. After sanitizing, all liquids (sanitizing solution and water) must be purged from the unit. A freezing environment causes residual sanitizing solution or water remaining inside the unit to freeze, resulting in damage to internal components.

This Page Intentionally Left Blank

Operation

Blade Tower Brixing

NOTE: Each tower consists of two valves combined as one with a mixer block, mixer tube and mixer. One Pre-ME valve (CMBEGKER) and one Flomatic 424 Flow Control Base

Set water flow rate first:

  1. Turn off syrup shut-off at post-mix (424) valve block.
  2. Use stop watch to time the dispense of soda water only.
  3. Dispense for 5 seconds.
  4. Record volume in a volume cup or ratio cup.
  5. Adjust the water flow rate as needed until 10 ounces (283.5 g) of water is measured in a 5 second (2 oz [56.7 g]/sec) dispense.

Set the syrup flow rate:

  1. Adjust the ratio (brix) of water to syrup (4.75:1) or 12.3 to 12.7 brix)
  2. Turn on syrup shut-off and turn off the water shut-off.
  3. Use a stop watch to time the dispense of syrup only.
  4. Dispense for 5 seconds.
  5. Record volume in a volume cup or ratio cup.
  6. Adjust syrup flow rate as needed until 2 ounces (56.7 g) of syrup is measured in a 5 second dispense.
  7. Use a refractometer if possible to get final brix ratio of 12.3 to 12.7. You will have to rely on volume adjustment above for diet products.

CEV Electronic Ice & Carbonation Control

Element Function
Voltage Selection Switch(Red Side Switch)Servend M-90 - Set the syrup flow rate: - 1 = 115 Volt PositionServend M-90 - Set the syrup flow rate: - 2 = 230 Volt Position·Switch is used to select voltage,115 Volt or 230 Volt option.·When switch is in 115 Volt position the operating voltages are 100 Volts 50 Hertz and 120 Volts 60 Hertz.·When switch is in 230 Volt position the operating voltages are 220-240 Volts 50 Hertz and 208-230 Volts 60 Hertz.
On-Off Switch · Switch supplies power to all control functions.·When switch is in “on” position the agitation motor, transformer,merchandiser bulb and green power LED will be energized.(The green power LED will flash once per second for 5 seconds then stay on continuously.)
Default Modes – LED/Default (RED)·RED Carbonator LED = Default·RED Compressor LED = Default·If the carbonator motor run time exceeds the preset fill times,which are (3) minutes or (7)minutes. The default mode will shut power off to carbonator pump motor for (15) minutes. It will then activate for one minute and if the motor does not shut down within the one-minute time frame the (15) minute off time and (1) minute on time default mode will repeat. The process will occur a total of (4) times and then the unit will shut down, requiring service or a manual reset.Disconnecting the power supply from unit or positioning carbonator switch to the “off” position and then returning switch to “on” position will reset control to normal operation (only applies to Internal Carb. units)·If the ice bank probe does not detect water in the CEV tub, the refrigeration will shut down and the compressor LED turns RED.
Carbonator Switch(Switch in OFF position for External Carb. and Juice units, which turns off green carbonator LED.)Switch supplies power to the carbonator float switch and green Carbonator LED only.
Green Carbonator LED(Turned off on External Carb. and Juice Units)The green carbonator LED illuminates when carbonator switch is in the ON position (only applies to Internal Carb. units).The green carbonator LED will flash rapidly when the carbonator motor is running.
Carbonator Fill Timing Jumper(Not used on External Carb. or Juice Units)Carbonator tank fill timing provides pump failure protection in the event of water loss to carbonator pump (only applies to Internal Carb. units).A jumper clip within the control box sets the three optional time settings. Units are shipped with the jumper in (7) minute position (only applies to Internal Carb. units).J1 J1 J1Servend M-90 - Set the syrup flow rate: - 33 Minute 7 Minute UnlimitedNOTE: Time tolerance is ±20%.NOTE: See default mode functions
Green Compressor LED • IIuminates when the compressor switch is in the ON position.Flashes once per second when the compressor and condenser fan are energized.
Refrigeration Compressor Output·There are three wires from the ice bank probe to the control box. The white wire connects to the low ice bank probe pin (probe pin nearest evaporator coil). All three probe pins must be immersed in water to initiate the refrigeration cycle. The refrigeration system will operate until the low ice bank probe pin and center ice bank probe pin (black wire to the control box) is covered by ice. The third ice bank probe pin (probe pin farthest from evaporator coil) is the common or ground pin. The common or ground ice bank probe pin (green wire to the control box) should always be immersed in water and never in ice of ice bank.·Note: A delay circuit is built into compressor and fan motor circuit. Delay is (4) minutes ( ± 20% ) and will prevent compressor start-up if there is a power loss to the unit or the compressor switch is in OFF position and then placed in ON position. Delay will also apply if refrigeration cycle is stopped on full ice bank and ice bank probe sends a faulty signal to restart refrigeration system within the (4) minute delay time.

Flavor Magic Programming

To exit the program mode at any time hold the program button for >3 seconds and the controller will switch to the dispense mode. The program mode can only be accessed by pressing the program button during the first five seconds of initial power up.

Program Button 8.8.8.8. LED Display

PROGRAM DISPENSE TIME

  1. The program mode is used to adjust the dispense time. To access the Program Mode, disconnect power to the control board, wait ten seconds and reconnect power.
  2. Press the program button one time on the control board during the first five seconds after power is applied.
  3. The LED display will show "P r o". To check the current dispense time, press the corresponding flavor button on the touchpad and the time will be displayed on the LED (Example "1.0"). a. To increase the time (+) by two-tenths second increments press flavor button 1 (far left button). b. To decrease the time (-) by two-tenths second increments press flavor button 3 (far right button). The default setting is one second.

PURGE/SANITIZE

Purge/Sanitize mode allows the user to purge air from the syrup lines during initial start-up. The second function of this mode is to energize the valves to move sanitizer through all syrup lines automatically.

Enter the Purge/Sanitize Mode by press the program button until "P – S" is displayed.

Pressing flavor button 1 (far left button) will activate a sequenced four second dispense that starts with flavor 1 then to flavor 2 etc. The valves will continue to cycle for 15 minutes or until the program button is pressed once.

DISPENSING MODES

Normal Dispense

With power applied to the control board, it will automatically start in dispense mode after a five second delay. The LED display will count down from four to zero and then show “- - - -” while in dispense mode. Simply pressing the desired flavor on the touchpad dispenses Flavor Magic.

Flavor Counter

The flavor counter tracks the number of flavor shots dispensed per flavor. To access Flavor Counter Mode, press the program button on the control board once for at least three seconds. The LED display will show "C n t". In the count mode the Flavor Magic module will not dispense. Check the number of dispenses for any flavor by pressing the corresponding touchpad button. To check another flavor press the program button once and then the corresponding flavor button on the touchpad. To return to dispense mode press the program button until the LED display shows "----".

CHANGING NUMBER OF ACTIVE FLAVORS

Flavor. Magic 1 4 3 2

To line up flavors with valves, note that valve outlets number from left to right 1...2...3...4. Touch pad flavor tab is numbered as shown below. Connect vinyl tube from outlet 1 and dispense with flavor tab 1, etc.

The current Flavor Magic control board is set up in the 4 flavor default mode. This mode will handle all dispensing situations whether 3 or 4 flavors are used. Some early boards were set up as default in the 3 flavor mode. If the customer desires to add another flavor for a total of 4, proceed as follows:

  1. Power down the circuit board by disconnecting the 24 volt connector in the lower left hand side of the board. "24VAC" is imprinted on the board next to the pin connection.

  2. Wait a minimum of 10 seconds.

  3. Power up the board by connecting the 24 volt connector.

  4. IMMEDIATELY (within 5 seconds) press and hold the "PROG" button down.

  5. After a few seconds, the number "4" will appear on the display.

  6. Release the "PROG" button. The board will cycle the display from "Pro" to "4.....3.....2.....1.....0" and then to "----".

  7. The circuit board is now enabled to dispense the 4th flavor. The 4th flavor button is the top middle button.

  8. A flavor tab for the 4th flavor will have to be added to the touch pad. To do this, obtain one (1) P/N 5030780 20 flavor decal pad. Remove the P/N 5031579 decal overlay and add the 4th flavor tab as well as replace any flavor tabs which came off when removing the decal overlay. Note position of 4th flavor on the touch pad in the picture and placed tab where indicated. Obtain a new P/N 5031579 decal overlay and place over the tabs.

If the customer decides to go back to 3 flavors, it will not be necessary to change the board back to 3 flavors. However, it can be done by following steps 1 through 6 above. The number “3” will appear on the display. Then disconnect the number “4” syrup from the system, remove the 5031579 decal overlay, remove the flavor tab “4” and replace the 5031579 decal overlay. It would be a good idea to have an additional P/N 5030780 in case flavor tabs are damaged in the process.

The blue LED on the touch pad can be set to one of two display modes:

  1. Steady illumination. This is the default mode and the LED will remain on steady until dispense is activated. The light will flash only when product is being dispensed. In this mode, the control board display will read "Off".
  2. Flash mode. The LED will turn on for 1/2 second and off for 1/2 second.

Enter the Flash mode by pressing the program button until a flashing “- - - -” is displayed. Pressing flavor button 1 (far left button) will switch from “Off” (default) to “On”. The LED will now flash. To change back to the default simply press flavor button 1 again and the display should read “Off”. Press program button to exit to the next program function.

TIME DELAY AFTER DISPENSE

A time delay can be programmed into the control board which will prevent the system from dispensing another flavor for a period of from 0 to 10 seconds following a dispense. The default is 0 seconds.

Enter the Time Delay mode by pressing the program button until “d L A Y” is displayed. To check the current delay time press any flavor button one time and the current value will be displayed. To increase the time (+) by 1.0 second increments press flavor button 1 (far left button). To decrease the time (-) by 1.0 second increments press flavor button 3 (far right button).

Flav'R-Pic External Programming HOW TO CHECK FRP BRIX EXTERNALLY

If your FRP-250 has a control board with the external brix check ability you will be able to put the unit into brix mode by doing the following:

  1. Turn the keyswitch to the "OFF" position.
  2. With the keyswitch still in the "OFF" position, press and hold the F1 touch pad button for the left side or F5 for the right while turning the keyswitch back to the "ON" position.

- F1 = Left Side Brix Check

- F5 = Right Side Brix Check

Servend M-90 - Flav'R-Pic External Programming HOW TO CHECK FRP BRIX EXTERNALLY - 1

flowchart
graph TD
    A1["S1 S3"] --> B1["N1"]
    A2["S2 S4"] --> B2["N2"]
    B1 --> C1["Left Flavor Shots"]
    B2 --> C2["Left Carb/Non-Carb"]
    C1 --> D1["S5 S7"]
    C2 --> D2["S6 S8"]
    D1 --> E1["S12 S10"]
    D2 --> E2["S11 S9"]
    E1 --> F1["F5 F7"]
    E2 --> F2["F6 F8"]
    F1 --> G1["S16 S14"]
    F2 --> G2["S15 S13"]
    G1 --> H1["N4 N6"]
    G2 --> H2["N5"]
    style A1 fill:#f9f,stroke:#333
    style A2 fill:#f9f,stroke:#333
    style B1 fill:#ccf,stroke:#333
    style C1 fill:#cfc,stroke:#333
    style D1 fill:#fcc,stroke:#333
    style E1 fill:#cff,stroke:#333
    style F1 fill:#ffc,stroke:#333
    style G1 fill:#cfc,stroke:#333
    style H1 fill:#fcc,stroke:#333
    style I1 fill:#ffc,stroke:#333
    style J1 fill:#cfc,stroke:#333
    style K1 fill:#fcc,stroke:#333
    style L1 fill:#cfc,stroke:#333
    style M1 fill:#fcc,stroke:#333

FRP-250 with Flavor Shots

Servend M-90 - Flav'R-Pic External Programming HOW TO CHECK FRP BRIX EXTERNALLY - 2

flowchart
graph TD
    subgraph_Left_Hidden_Touchpad_Button["Left Hidden Touchpad Button"]
        S1["S1"] --> N1["N1"]
        S3["S3"] --> N1
        S2["S2"] --> N1
        S4["S4"] --> N1
        F1["F1"] --> N3["N3"]
        F3["F3"] --> N3
        F2["F2"] --> N3
        F4["F4"] --> N3
    end
    subgraph_Right_Hidden_Touchpad_Button["Right Hidden Touchpad Button"]
        S5["S5"] --> N4["N4"]
        S7["S7"] --> N4
        S6["S6"] --> N4
        S8["S8"] --> N4
        F5["F5"] --> N6["N6"]
        F7["F7"] --> N6
        F6["F6"] --> N6
        F8["F8"] --> N6
    end

FRP-250 with out Flavor Shots

NOTE: The buttons for FRP units without flavor shots are located in the same area, but are hidden.

  1. You can now stop pressing on the F1 or F5 button and the 4 LEDs around the touch pad area should now be illuminated. If not illuminated you did not successfully go into external brix mode and need to try again, or the FRP unit is not equipped with this program mode.

In this setting when a corresponding touch pad is pressed water or syrup will be dispensed for a fixed duration in order to check your ratios using a standard brix cup.

  1. In this mode you can now check the brix for any water or syrup valve that corresponds to the board. Use the illustration in Installation/Brixing or the Control board, Valve, Touch Pad Matrix to identify the valves and which board they correspond to. Brixing information can also be found on the unit, on the right hand side of the control board cover label. By using this label in combination with the plumbing label located on the foam front you will be able to identify each valve, water, and/or syrup combination.

  2. When finished checking the brix return the unit to dispense mode by turning the keyswitch to the "OFF" position, waiting till the touch pad LEDs are not illuminated, then turn the keyswitch back to the "ON" position.

Important

If left in external brix mode for longer than 5 minutes it will automatically time out and return to dispense mode.

If brix adjustments are needed you will have to remove the merchandiser to make the mechanical adjustments. Please see PROGRAM MODE 2 in this section for internal brixing instructions using the control board and the Brixing Procedure for detailed instructions on brixing the FRP-250.

CRUSHED OR CUBED DEFAULT

This selectable ice option will allow the unit to always default to either cube or crushed ice or remain at the last selection. This only applies to control boards 020000875 Rev 7 and up.

How to set default ice dispense setting

CUBE DEFAULT

  1. Power on the unit by plugging in receptacle and holding the cube button at the same time, cube will flash 2 times. Unit will now change to cube 10 seconds after crush is selected.

CRUSH DEFAULT

  1. Power on the unit by plugging in receptacle and holding the crushed button at the same time, crush will flash 2 times. Unit will now change to crush 10 seconds after cube is selected.

LAST SELECTION DEFAULT

  1. Power on the unit by plugging in receptacle and holding cube and crush at the same time, cube and crush will flash 2 times. Unit will now remain in selection of last request.

NOTE: If power is lost to the unit and then powered up again the unit will retain the last setting and not return to factory settings.

Flav'R-Pic (FRP-250) Programming

PROGRAM MODE 1

Carb/Non-Carb & Flavor Shot Duration Settings

FLAVR-PIC CONTROL LOGIC ENTER OR IOT PROVAN MODE: PRESS BUTTON FOR 2x SEE PLUMBING LABEL FOR CROSS-REFERENCID WHILE IN PROGRAM MODE LED DISPLAY: 3 LED SEQUENCE MODE LEFT SIDE LED Flash Outside to Center : 31 LED Flash Center to Outside : 62 LED Flash All : 63 LED Conductor : 64 LED Chaser Left to Right : 86 LED Chaser Right to Left : 86 LED OFF All : 87 LED SEQUENCE MODE RIGHT SIDE 1. LED Flash Outside to Center : 88 2. LED Flash Center to Outside : 89 3. LED Flash All : 90 4. LED Conductor : 91 5. LED Chaser Left to Right : 83 6. LED Chaser Right to Left : 82 7. LED OFF All : 86 LED SEQUENCE MODE RIGHT SIDE 1. LED Flash Outside to Center : 88 2. LED Flash Center to Outside : 89 3. LED Flash All : 90 4. LED Conductor : 91 5. LED Chaser Left to Right : 83 6. LED Chaser Right to Left : 82 7. LED OFF All : 86 LED SEQUENCE MODE RIGHT SIDE 1. LSD Flash Outside to Center : 88 2. LSD Flash Center to Outside : 89 3. LSD Flash All : 90 4. LSD Conductor : 91 5. LSD Chaser Left to Right : 83 6. LSD Chaser Right to Left : 82 7. LSD OFF All : 86 LED SEQUENCE MODE RIGHT SIDE 1. LSD Flash Outside to Center : 88 2. LSD Flash Center to Outside : 89 3. LSD Flash All : 90 4. LSD Conductor : 91 5. LSD Chaser Left to Right : 83 6. LSD Chaser Right to Left : 82 7. LSD OFF All : 90 LED SEQUENCE MODE RIGHT SIDE 1. LSD Flash Outside to Center : 88 2. LSD Flash Center to Outside : 89 3. LSD Flash All : 90 4. LSD Conductor : 91 5. LSD Chaser Left to Right : 83 6. LSD Chaser Right to Left : 82 7. LSD OFF All : 86 LED SEQUENCE Mode RIGHT SIDE 1. LSD Flash Outside to Center : 88 2. LSD Flash Center to Outside : 89 3. LSD Flash All : 90 4. LSD Conductor : 91 5. LSD Chaser Left to Right : 83 6. LSD Chaser Right to Left : 82 7. LSD OFF All : 86 LED SEQUENCE MODE RIGHT SIDE PROD DISPENSE X T RATIO MASTER STRIP P1 * C1 #1 * SYRLP 1 P2 * C2 #2 * STRIP 2 P3 * HCC * P5 * D4 * P6 * D5 * P7 * HCS * CROAHC3 BIO/3B/3B/3B/3B Mode 1 Carb/ non-Carb and Flavor Shot Durations Left Side Program Button Right Side Program Button Brixing Info

Mode 1 displayed above, allows you to select your carb/non-carb settings for dispense points N3 (Nozzle 3) through the left control board and/or N4 (Nozzle 4) with the right control board. Only nozzles N3 and N4 have the option to be a non-carb drink, N1 and N6 are carbonated only. Mode 1 is also used to set a 1 or 2 second dispense duration for flavor shots on N2 and N5 using their corresponding control board.

N3 & N4 Carbonated or Non-Carbonated Drinks
Servend M-90 - Carb/Non-Carb & Flavor Shot Duration Settings - 2

flowchart
graph TD
    A["Left Flavor Shots"] --> B["N1"]
    B --> C["S1 S3"]
    B --> D["S2 S4"]
    B --> E["F1 F3"]
    B --> F["F2 F4"]
    B --> G["N2"]
    G --> H["N3"]
    H --> I["S5 S7"]
    H --> J["S6 S8"]
    H --> K["N3"]
    K --> L["N4 N6"]
    L --> M["S12 S10"]
    L --> N["S11 S9"]
    L --> O["N5"]
    O --> P["S16 S14"]
    O --> Q["S15 S13"]
    L --> R["Right Carb/Non-Carb"]
    R --> S["N4 N6"]
    S --> T["Right Flavor Shots"]

FRP-250 with Flavor Shots

Servend M-90 - Carb/Non-Carb & Flavor Shot Duration Settings - 3

flowchart
graph TD
    subgraph_Left_Hidden_Touchpad_Button["Left Hidden Touchpad Button"]
        S1["S1"] --> N1["N1"]
        S3["S3"] --> N1
        S2["S2"] --> N1
        S4["S4"] --> N1
        F1["F1"] --> N3["N3"]
        F3["F3"] --> N3
        F4["F4"] --> N3
        S5["S5"] --> N3
        S7["S7"] --> N3
        S6["S6"] --> N3
        S8["S8"] --> N3
    end
    subgraph_Right_Hidden_Touchpad_Button["Right Hidden Touchpad Button"]
        S12["S12"] --> N4["N4"]
        S10["S10"] --> N4
        S11["S11"] --> N4
        S9["S9"] --> N4
        F5["F5"] --> N4
        F7["F7"] --> N4
        F6["F6"] --> N4
        F8["F8"] --> N4
        S16["S16"] --> N6["N6"]
        S14["S14"] --> N6
        S15["S15"] --> N6
        S13["S13"] --> N6
    end

FRP-250 with out Flavor Shots

  1. Choose a control board. If programming N3 (Nozzle 3) use the left control board, if programming N4 use the right control board. Beverage dispense points are designated by a black nozzle.
  2. Press the program button and hold for 3 seconds or until the LED displays 1.
  3. To set a carbonated drink for N3 (Nozzle 3) touch one of the following touch pads; S5, S6, S7, or S8 until the LEDs around the touch pad are constant.
  4. To set a non-carbonated drink for N3 (Nozzle 3) touch one of the following touch pads; S5, S6, S7, or S8 until the LEDs around the touch pad are blinking.

- Constant LEDs = Carbonated

- Blinking LEDs = Non-Carbonated

  1. Follow the same instructions for N4 (Nozzle 4) using the right control board and touch pads S9, S10, S11, or S12.

  2. When you are finished, press the program button to go to a different mode or save your settings and return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0.

Flavor Shot Dispense Duration

  1. Choose a control board. If programing flavor shots for N2 (Nozzle 2) use the left control board, if programming shots for N5 use the right control board. Flavor shot dispense points are designated by a blue nozzle.

  2. Press the program button and hold for 3 seconds or until the LED displays 1.

  3. To set a 1 second shot for N2 (Nozzle 2) touch one of the following touch pads; F1, F2, F3, or F4 until the LEDs around the touch pad are constant.

  4. To set a 2 second shot for N2 (Nozzle 2) touch one of the following touch pads; F1, F2, F3, or F4 until the LEDs around the touch pad are blinking.

- Constant LEDs = 1 second shot

- Blinking LEDs = 2 second shot

  1. Follow the same instructions for N5 (Nozzle 5) using the right control board and touch pads F5, F6, F7, or F8.

  2. When you are finished, press the program button to go to a different mode or save your settings and return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0.

PROGRAM MODE 2

Brixing

Mode 2 displayed above, puts your Flav'R-Pic into brix mode. In this setting when a corresponding touch pad is pressed, water or syrup will be dispensed for a fixed duration in order to set your ratios using a standard brix cup and making adjustments to the mechanical valves. Follow the steps below to put a board into brix mode.

  1. Choose a control board. If brixing drinks for N1 (Nozzle 1) or N3 use the left control board, if brixing drinks for N3 or N6 use the right control board. Beverage dispense points are designated by a black nozzle.
  2. Press the program button and hold for 3 seconds or until the LED displays 1. Press the program button again until 2 is displayed on the control board LED display.

NOTE: Programming one board at a time will make it easier for you to identify the corresponding valves and dispense points.

  1. With the a board in Mode 2, you can now brix any water or syrup valve that corresponds to the board. Use the illustration in Installation/Brixing or the Control board, Valve, Touch Pad Matrix to identify the valves and which board they correspond to. Brixing information can also be found on the unit, on the right hand side of the control board cover label. By using this label in combination with the plumbing label located on the foam front you will be able to identify each valve, water, and/or syrup combination.

  2. Replace the nozzle when done then move on to another nozzle or, if you are finished brixing, return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0.

A brixing break down for each nozzle is available in the Brixing Procedure section of this manual.

PROGRAM MODE 3

Light Sequences

Mode 3 displayed above, allows you to set the light sequence for the touch pad LEDs. Follow the steps below to place the board into this mode and set sequences.

  1. Choose a control board. If setting the light sequence for the touch pad area on the left use the left control board, or if you are setting them for the right, use the right control board.
  2. Press the program button and hold for 3 seconds or until the LED displays 1. Press the program button again until 3 is displayed on the control board LED display.
  3. With the left control board in mode 3 you can now choose one of the seven touch pad LED lighting sequences by pressing one of the following touch pad areas:

S1 = Flash outside to center

S2 = Flash center to outside

S3 = Flash all

S4 = Continuously on all

S5 = Chaser left to right

S6 = Chaser right to left

S7 = Off all

S8 = Flash outside to center, Flavor Shot Off

NOTE: It is recommended that both boards be set to the same lighting sequence. If not, the boards will not be able to sync and lighting behavior may become erratic.

  1. With the right control board in mode 3 you can now choose one of the seven touch pad LED lighting sequences by pressing one of the following touch pad areas:

S16 = Flash outside to center

S15 = Flash center to outside

S14 = Flash all

S13 = Continuously on all

S12 = Chaser left to right

S11 = Chaser right to left

S10 = Off all

S9 = Flash outside to center, Flavor Shot Off

Important

When installed on a FRP without flavor shots the lighting sequence S8 & S9 should be used. All other units are set to S1 & S16 by default.

  1. When done move on to another programming mode or, if you are finished, return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0.

CONTROL BOARD TIME OUT

Important

If a control board is left in any program mode for longer than 5 minutes it will automatically time out and return to dispense mode 0. In order to enter back into a program mode you will need to press the program button and hold for 3 seconds or until the LED displays 1 again.

Flav'R-Pic (FRP-250) Brixing Procedure

NOTE: This procedure is for flavors requiring 5:1 water to syrup ratio.

FLAVR-PIC CONTROL LOGIC ENTER or IDT PROGRAM MODE PRESS BUTTON FOR <3e SIZE PLUMBING LABEL FOR CROSS-REFERENCIAL WHILE IN PROGRAM MODE LED DISPLAY: 1 BRAND CASH/MON/CARD MODE Cost LED Correlated Rash LED - Pin Meter FLAVOR SUPPERE TIME MODE Cost LED - In Disperse Rash LED - 2x Disperse PI-F4 04-52-99-99 Left Side Program Button CPC2/AC2 01-52-58-57 LED SEQUENCE MODE LEFT SIDS 1. LED Push Outside to Counter - 01 2. LED Push Center to Outside - 02 3. LED Push All - 03 4. LED Conductor - 04 5. LED Chaser Left to Right - 05 6. LED Chaser Right to Left - 06 7. LED OFF All - 07 LED SEQUENCE MODE RIGHT SIDS 1. LED Push Double up Counter - 08 2. LED Push Cusque to Supply - 09 3. LED Push All - 10 4. LED Conductor - 11 5. LED Chaser Left to Right - 12 6. LED Chaser Right to Left - 13 7. LED OFF All - 14 PG-PB 50-50 LED SEQUENCE MODE RIGHT SIDS 1. LED Push Double up Counter - 08 2. LED Push Cusque to Supply - 09 3. LED Push All - 10 4. LED Conductor - 11 5. LED Chaser Left to Right - 12 6. LED Chaser Right to Left - 13 7. LED OFF All - 14 LED SEQUENCE MODE RIGHT SIDS 1. LED Push Double up Counter - 08 2. LED Push Cusque to Supply - 09 3. LED Push All - 10 4. LED Conductor - 11 5. LED Chaser Left to Right - 12 6. LED Chaser Right to Left - 13 7. LED OFF All - 14 LED SEQUENCE MODE RIGHT SIDES 1. LED Push Double up Counter - 08 2. LED Push Cusque to Supply - 09 3. LED Push All - 10 4. LED Conductor - 11 5. LED Chaser Left to Right - 12 6. LED Chaser Right to Left - 13 7. LED OFF All - 14 LED SEQUENCE MODE RIGHT SIDES 1. LED Push Double up Counter - 2. LED Push Cusque to Supply - 3. LED Push All - 10 4. LED Conductor - 11 5. LED Chaser Left to Right - 6. LED Chaser Right to Left - 7. LED OFF All - 14 LED SEQUENCE MODE RIGHT SIDES 1. LED Push Double up Counter - 2. LED Push Cusque to Supply - 3. LED Push All - 10 4. LED Conductor - 11 5. LED Chaser Left to Right - 6. LED Chaser Right to Left - 7. LED OFF All - 14 LED SEQUENCE MODE RIGHT SIDES 1. LED Push Double Up Counter - 2. LED Push Cusque to Supply - 3. LED Push All - 10 4. LED Conductor - 11 5. LED Chaser Left to Right - 6. LED Chaser Right to Left - 7. LED OFF All - 14 LED SEQUENCE MODE RIGHT SIDES 1. LED Push Double up Counter - 2. LED Push Cusque to Supply - 3. LED Push All - 10 4. Laser Cusque - 11 5. Laser Cusque - 12 6. Laser Cusque - 13 7. Laser Cusque - 14

Control Board Label

PLACING A CONTROL BOARD INTO BRIX MODE

NOTE: See Program Mode 2 for Program Mode Operations.

  1. Prior to brixing be sure all water and syrup lines are connected to the system and purged. Ensure that syrup and water are available.
  2. If the merchandiser and splash panel are on the front of the unit, remove them. Merchandiser removal will give you access to the syrup and water valves. Splash panel removal will give you access to the plumbing label located on the foam front and/or see the Diagrams section of this manual. This label will be needed to identify valve and touch pad locations.

CC Q2 225 6 200 7 175 6 150 1:3 125 5 100 4 75 3 50 2 50 1 5:1 18.10 CZ CO 45 40 35 1 30 25 20 15 11.1 10 5.1 R-1.0

5:1 Brix Cup

  1. Use a standard brix cup with a 5:1 ratio for the procedure. An example is illustrated above. Use of a funnel between the cup and nozzle may aid in the capture of the syrup during syrup brixing.
Left Board Right Board
Dispense Type and Valve NumberC1 - Valve 8 C3 -Valve 4
C2 - Valve 11 C4 -Valve 1
NC2 - Valve 11 NC3 -Valve 4
S1 - Valve 8 S9 -Valve 15
S2 - Valve 9 S10 -Valve 3
S3 - Valve 9 S11 -Valve 3
S4 - Valve 14 S12 -Valve 7
S5 - Valve 14 S13 -Valve 7
S6 - Valve 10 S14 -Valve 2
S7 - Valve 10 S15 -Valve 2
S8 - Valve 15 S16 -Valve 1
F1 - Valve 13 F5 -Valve 6
F2 - Valve 13 F6 -Valve 6
F3 - Valve 12 F7 -Valve 5
F4 - Valve 12 F8 -Valve 5
C = Carb NC = Non-Carb S = Syrup F = Flavor Shot
  1. Locate the control board that corresponds with the valve(s) and/or dispense point you want to brix.
  2. Press the program button and hold for 3 seconds or until the LED displays 1. Press the program button again until 2 is displayed on the control board LED display.

NOTE: Programming one board at a time will make it easier for you to identify the corresponding valves and dispense points. See Flav'R-Pic External Programming in this manual for more detail on all programming modes.

  1. With a board in Mode 2 you can now brix any water or syrup valve that corresponds to the board. Use the chart above to identify the valves and which board they correspond to. See the illustration that follows for more assistance. Brixing information can also be found on the right hand side of the control board cover label. By using this label in combination with the plumbing label you will be able to identify each valve, water, and/or syrup combination.

Servend M-90 - PLACING A CONTROL BOARD INTO BRIX MODE - 2

flowchart
graph TD
    A["LEFT SIDE CONTROL BOARD\nValve Controls: C1, C2, NC2, S1-S8, F1-F4"] --> B["Left Side Control Board\nValve Controls: C3, C4, NC3, S9-S16, F5-F8"]
    A --> C["Right Side Control Board\nValve Controls: C3, C4, NC3, S9-S16, F5-F8"]
    D["Valve 14 Valve 15\nS4"] --> E["S5"]
    D --> F["S9"]
    D --> G["S8"]
    H["Valve 13 Valve 12\nF1"] --> I["F2"]
    H --> J["F3"]
    H --> K["F4"]
    L["Valve 8 Valve 9 Valve 10 Valve 11\nC1 S1"] --> M["S2"]
    L --> N["S3"]
    L --> O["S6 S7"]
    P["Valve 4 Valve 3 Valve 2\nC3 NC3"] --> Q["S11 S10"]
    P --> R["S15 S14"]
    S["Valve 1"] --> T["C4 S16"]
    U["N1 N3"] --> V["S1 S3, S2 S4, C1"]
    U --> W["N2"]
    X["S5 S7"] --> Y["S6 S6"]
    Z["S12 S10"] --> AA["S11 S9"]
    Z --> AB["N4 N6"]
    AC["S16 S14"] --> AD["S15 S3"]
    AE["S9, S11, S10, S12, C3, NC3"] --> AF["S9, S11, S10, S12, C3, NC3"]
    AG["F5, F7, F6, F8"] --> AH["S13, S15, S14, S16, C4"]
    AI["Volume 7\nS12"] --> AJ["F6\nValve 6 Valve 6\nF5"]
    AK["Volume 6\nF7"] --> AL["F7\nValve 6 Valve 6\nF5"]
    AM["Volume 5\nF6"] --> AN["F6"]
    AO["Volume 4\nC4\nS15"] --> AP["S15"]
    AQ["Volume 3\nC3"] --> AR["S14"]
    AS["Volume 2\nS11"] --> AT["S10"]
    AU["Volume 1"] --> AV["C4"]
    AW["Volume 0\nS13"] --> AX["S15"]
    AY["Volume 0\nS2"] --> AZ["S2"]
    BA["Volume 0\nS4"] --> BB["S4"]
    BC["Volume 0\nS6"] --> BD["S6"]
    BE["Volume 0\nS8"] --> BF["S8"]
    BG["Volume 0\nC2"] --> BH["S2, NC2"]

S9 (Syrup 9) on Valve 15 is the only syrup that does not correspond to the side it is mounted to. Both visually and functionally all other valves, touch pads, and dispense points correspond with the board on the same side to which they are attached.

GENERAL BRIXING PROCESS

  1. With the corresponding control board set to brix mode and displaying a 2 you may brix a beverage nozzle (NI, N3, N4, or N6). If brixing a syrup, the use of a funnel between the cup and nozzle may aid in the capture of the syrup. (See nozzle order below.)

Servend M-90 - GENERAL BRIXING PROCESS - 1

flowchart
graph TD
    subgraph Left Side Control Board
        A["S5"] --> B["Valve 14 Valve 15"]
        C["S9"] --> D["Valve 13 Valve 12"]
        E["F2"] --> F["Valve 13 Valve 12"]
        G["F3"] --> H["Valve 13 Valve 12"]
        I["S4"] --> J["Valve 13 Valve 12"]
        K["S8"] --> L["Valve 13 Valve 12"]
    end

    subgraph Right Side Control Board
        M["S13"] --> N["Valve 7"]
        O["S12"] --> P["Valve 6 Valve 5"]
        Q["S3"] --> R["Valve 6 Valve 5"]
        S["C4"] --> T["Valve 6 Valve 5"]
        U["F7"] --> V["Valve 6 Valve 5"]
        W["F8"] --> X["Valve 6 Valve 5"]
    end

    subgraph Bottom Section
        Y["S1"] --> Z["S2"] --> AA["S3"] --> AB["S6"] --> AC["S7"] --> AD["C2"] --> AE["NC2"]
        AF["S3"] --> AG["S4"] --> AH["S5"] --> AI["S6"] --> AJ["S8"]
        AK["S1"] --> AL["S2"] --> AM["S3"] --> AN["S6"] --> AO["S7"] --> AP["C2"] --> AQ["NC2"]
        AR["S3"] --> AS["S4"] --> AT["S5"] --> AU["S6"] --> AV["S8"]
        AW["S1"] --> AX["S3"] --> AY["F1"] --> AZ["F2"] --> BA["F4"] --> BB["S5"] --> BC["S7"] --> BD["S6"] --> BE["S8"] --> BF["C2"] --> BG["NC2"]
    end

    style Left Side Control Board fill:#f9f,stroke:#333
    style Right Side Control Board fill:#f9f,stroke:#333

Nozzles from left to right: N1, N2, N3, N4, N5, N6

  1. To brix carbonated or non-carbonated water for a dispense point, leave the nozzle in place and hold the brix cup with the water side of the cup under the nozzle area. Non-carbonated water is only available at N3 (Nozzle 3) and N4.
  2. By referencing the control box label and plumbing diagram, press the flavor shot touch pad that corresponds with the water you wish to brix. If brixing the left side, it will be one of the following; F1 (Flavor Shot 1), F2, or F3. When brixing the right side, F5, F6, or F7 will be used. On non-flavor shot units, the touch pads are located behind the merchandiser on the foam front.

  3. The correct volume should be 5 oz. (147.86 cc) during the fixed dispense in Mode 2. If adjustment is needed to attain this volume, make adjustments to the left side of valve 8 (C1) adjustment screw as needed until flow rate is satisfactory.

NOTE: The touch pad mount can be tilted forward in order to give you better access to the valves.

  1. For syrup brixing place the brix cup with the syrup side of the cup under the nozzle area and press any brand touch pad area associated with that nozzle dispense point. For example S1 (Syrup 1), S2, S3, and S4 touch pad areas will be used to brix N1 (Nozzle 1).

  2. Syrup will dispense for a fixed duration and should be even with the 5 oz. (147.86 cc) water mark on the cup, or 1 oz (29.57cc) just below the 30cc mark on the syrup side of the brix cup.

  3. Check each syrup position and adjust syrup on the corresponding valve as necessary. A plumbing label is located on the foam front of the unit showing the position of each valve and syrup port. See the plumbing diagram.

  4. When finished, move on to another nozzle or, if your brixing is complete, return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0. Replace the splash panel and merchandiser.

Nozzle 1 (N1) Water & Syrup Brixing

  1. With the left control board set to brix mode and displaying a 2 you can now brix the carbonated water for N1 (Nozzle 1) located at the far left hand side of the unit.
  2. To brix the carbonated water for this dispense point leave the nozzle in place, hold the brix cup with the water side of the cup under N1 (Nozzle 1), and press the F1 (Flavor Shot 1) button. Water will dispense for a fixed duration.
  3. The correct volume should be 5 oz. (147.86 cc). If adjustment is needed to attain this volume, make adjustments to the left side of valve 8 (C1) adjustment screw as needed until flow rate is satisfactory.
  4. For syrup brixing place the brix cup with the syrup side of the cup under the N1 and press the touch pad area for S1 (Syrup 1), S2, S3, or S4, and the corresponding syrup will dispense for a fixed duration.
  5. Syrup should be even with the 5 oz. (147.86 cc) water mark on the cup, or 1 oz (29.57cc) just below the 30cc mark on the syrup side of the brix cup.
  6. Check each syrup position and adjust syrup on the corresponding valve as necessary. A plumbing label is located on the foam front of the unit showing the position of each valve and syrup port. See the plumbing diagram.
  7. Move to another nozzle or, if you are finished brixing, return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0. Replace the splash panel and merchandiser.

Nozzle 2 (N2) Water & Syrup Brixing

This is a flavor shot dispense point, designated so by its blue nozzle, no brixing is needed. Either a 1 or 2 second dispense duration can be selected in program Mode 1 from the left side control board. (See Flav'R-Pic External Programming for more information.)

Nozzle 3 (N3) Carb/Non-Carb Water & Syrup Brixing

  1. With the left control board set to brix mode and displaying a 2 you can now brix carbonated or non-carbonated water for N3 (Nozzle 3). (See Program Mode 1 to designate carb/non-carb.)
  2. To brix the carbonated water for this dispense point, leave the nozzle in place, hold the brix cup with the water side of the cup under N3 (Nozzle 3), and press the F2 (Flavor Shot 2) button. Carbonated water will dispense for a fixed duration.
  3. To brix the non-carbonated water for this dispense point leave the nozzle in place, hold the brix cup with the water side of the cup under N3 (Nozzle 3), and press the F3 (Flavor Shot 3) button. Water will dispense for a fixed duration.
  4. The correct carb and non-carb volume should be 5 oz. (147.86 cc). If adjustment is needed to attain this volume, make adjustments to the left side of valve 11 (C2) adjustment screw for carbonated water and the right side of valve 11 (NC2) adjustment screw for non-carbonated water as needed until flow rate is satisfactory.
  5. For syrup brixing place the brix cup with the syrup side of the cup under the N3 (Nozzle 3) and press the touch pad area for S5 (Syrup 5), S6, S7, or S8 and the corresponding syrup will dispense for a fixed duration.
  6. Syrup should be even with the 5 oz. (147.86 ml) water mark on the cup, or 1 oz (29.57cc) just below the 30cc mark on the syrup side of the brix cup.

  7. Check each syrup position and adjust syrup on the corresponding valve as necessary. A plumbing label is located on the foam front of the unit showing the position of each valve and syrup port. See the plumbing diagram.

  8. Move to another nozzle or, if you are finished brixing, return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0. Replace the splash panel and merchandiser.

Nozzle 4 (N4) Carb/Non-Carb Water & Syrup Brixing

  1. With the right control board set to brix mode and displaying a 2, you can now brix carbonated or non-carbonated water for Nozzle 4 (N4). (See Program Mode 1 to designate carb/non-carb.)
  2. To brix the carbonated water for this dispense point, leave the nozzle in place, hold the brix cup with the water side of the cup under N4 (Nozzle 4), and press the F6 (Flavor Shot 6) button. Water will dispense for a fixed duration.
  3. To brix the non-carbonated water for this dispense point, leave the nozzle in place, hold the brix cup with the water side of the cup under N4 (Nozzle 4), and press the F7 (Flavor Shot 7) button. Water will dispense for a fixed duration.
  4. The correct carb and non-carb volume should be 5 oz. (147.86 ml). If adjustment is needed to attain this volume, make adjustments to the left side of valve 11 (C3) adjustment screw for carbonated water and the right side of valve 4 (NC3) adjustment screw for non-carbonated water as needed until flow rate is satisfactory.
  5. For syrup brixing place the brix cup with the syrup side of the cup under the N4 (Nozzle 4) and press the touch pad area for S9 (Syrup 9), S10, S11, or S12 and the corresponding syrup will dispense for a fixed duration.
  6. Syrup should be even with the 5 oz. (147.86 cc) water mark on the cup, or 1 oz (29.57cc) just below the 30cc mark on the syrup side of the brix cup.

  7. Check each syrup position and adjust syrup on the corresponding valve as necessary. A plumbing label is located on the foam front of the unit showing the position of each valve and syrup port. See the plumbing diagram.

  8. Move to another nozzle or, if you are finished brixing, return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0. Replace the splash panel and merchandiser.

Nozzle 5 (N5) Water & Syrup Brixing

This is a flavor shot dispense point, designated so by its blue nozzle, no brixing is needed. Either a 1 or 2 second dispense duration can be selected in program Mode 1 from the right side control board. (See Flav'R-Pic External Programming for more information.)

Nozzle 6 (N6) Water & Syrup Brixing

  1. With the right control board set to brix mode and displaying a 2 you can now brix the carbonated water for N6 (Nozzle 1) located at the far right hand side of the unit).
  2. To brix the carbonated water for this dispense point, leave the nozzle in place, hold the brix cup with the water side of the cup under N6 (Nozzle 6), and press the F5 (Flavor Shot 5) button. Water will dispense for a fixed duration.
  3. The correct volume should be 5 oz. (147.86 cc). If adjustment is needed to attain this volume, make adjustments to the left side of valve 1 (C4) adjustment screw as needed until flow rate is satisfactory.
  4. For syrup brixing place the brix cup with the syrup side of the cup under the N6 (Nozzle 6) and press the touch pad area for S13 (Syrup 13), S14, S15, or S16, and the corresponding syrup will dispense for a fixed duration.
  5. Syrup should be even with the 5 oz. (147.86 cc) water mark on the cup, or 1 oz (29.57cc) just below the 30cc mark on the syrup side of the brix cup.

  6. Check each syrup position and adjust syrup on the corresponding valve as necessary. A plumbing label is located on the foam front of the unit showing the position of each valve and syrup port. See the plumbing diagram.

  7. Move to another nozzle or, if you are finished brixing, return the control board to the dispense mode by pressing the program button and holding for 3 seconds or until the LED displays 0. Replace the splash panel and merchandiser.

FlexTower Programming Modes
S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 S12 S13 S14 S15 S16 Program Button LED Display

CONTROL BOARD RUN OR DISPENSE MODE

(Control Board LED Displays 0)

For finished drink, press and hold any labeled finished drink touchpad area to manually dispense a finished noncarbonated drink (all touchpad areas are defaulted from factor to manual dispense mode). For flavor adder, press any labeled flavor adder touchpad area and a one shot stored timed dispense will occur (dispense time of flavor adder can be changed in program mode 2).

THE 6 PROGRAMMING MODES ON FLEXTOWER CONTROL BOARD

Program Mode 1= Manual Dispense Mode

Program Mode 2= Timed Dispense Mode or Flavor Adder Mode

Program Mode 3= Water Calibration Mode

Program Mode 4= Syrup Calibration Mode

Program Mode 5= Touchpad Configuration Mode

Program Mode 6= Touchpad LED Light Sequencing Mode

To Access Programming Modes

To enter programming modes, press and hold the control board program button for a minimum of 3 seconds. Control board LED displays a number (1) for manual dispense mode. To select another programming mode, press and release the control board program button once to enter the next programming mode. Repeat pressing and releasing the control board program button until desired program mode is entered.

To Exit Programming Modes

To exit programming modes and to save programming mode changes, press and hold control board program button for a minimum of 3 seconds. Control board LED displays (0) for run or dispense mode.

Manual Dispense Mode

(Finished Noncarbonated Drink Dispensed)

Once in program mode (1), the control board LED displays (1). Press any touchpad selection area two times in less than three seconds and selection area LED lights will blink twice to indicate the touchpad area has been programmed for manual dispense. The procedure can be repeated for other touchpad selection areas needing programmed for manual dispense. After all designated touchpad areas have been programmed for manual dispense either enter another program mode or exit the programming modes, which will save programming mode changes.

Timed Dispense Mode (Flavor Adder Dispensed)

Once in program mode (2), the control board LED displays (2). Press any touchpad selection area three times in less than three seconds and selection area LED lights will blink three times to indicate the touchpad area has been programmed for timed dispense. Then the first and last touchpad selection areas will illuminate, which will allow increasing the timed dispense cycle by .2 seconds each press of the last illuminated touchpad selection area or decreasing the timed dispense cycle by .2 seconds each press of the first illuminated touchpad selection area. To program another touchpad area for timed dispense, press and release the control board program button to reset the timed dispense programming mode, first and last touchpad areas are no longer illuminated. Repeat procedures for programming timed dispense for other designated touchpad selection areas. After all designated touchpad areas have been programmed for timed dispense, either enter another program mode or exit the programming modes, which will save programming mode changes.

Water Calibration Mode

Once in program mode (3), the control board LED displays (3). Press any touchpad selection area and the noncarbonated water valve will dispense for three seconds in order to brix the valve. The procedure can be repeated as many times as necessary in order to brix the noncarbonated water valve. After the water valve has been brixed, either enter another program mode or exit the programming modes, which will save programming mode changes.

Syrup Calibration Mode

Once in program mode (4), the control board LED displays (4). Press any touchpad selection area and the associated syrup valve circuit will dispense for three seconds in order to brix the syrup valve circuit. The procedure can be repeated as many times as necessary in order to brix all syrup valve circuits. After all syrup valve circuits have been brixed, either enter another program mode or exit the programming modes, which will save programming mode changes.

Touchpad Configuration Mode

① ⑤ ⑦ ⑥ ③ ⑦ ④ ⑤ ① ② ③ ④

8 Selection Area 4 Selection Area

Once in program mode (5), the control board LED displays (5). Press the first and last touchpad selection areas on both touchpads. The touchpad LED lights sequence through all the touchpad selection areas indicating the touchpad has been configured. After configuring both touchpads, either enter another program mode or exit the programming modes, which will save programming mode changes.

Touchpad LED Light Sequencing Mode (8 Selection Area Touchpad)

Once in program mode (6), the control board LED displays (6). Press the first touchpad selection areas on either touchpad for clockwise LED light sequencing. The touchpad LED lights sequence clockwise through all the touchpad selection areas indicating the touchpad has been configured for clockwise LED light sequencing. Or press the second touchpad selection areas on either touchpad for counterclockwise LED light sequencing. The touchpad LED lights sequence counterclockwise through all the touchpad selection areas indicating the touchpad has been configured for counterclockwise LED light sequencing. Or press the third touchpad selection area on either touchpad to turn off LED light sequencing. The third touchpad area LED lights illuminate for 3 seconds then turn off indicating the

touchpad has been configured for LED light sequencing off mode. After configuring the LED light sequencing for touchpads, either enter another program mode or exit the programming modes, which will save programming mode changes.

Touchpad LED Light Sequencing Mode (4 Selection Area Touchpad)

Once in program mode (6), the control board LED displays (6). Press the first touchpad selection areas on either touchpad for upward LED light sequencing. The touchpad LED lights sequence upward through all the touchpad selection areas indicating the touchpad has been configured for upward LED light sequencing. Or press the second touchpad selection areas on either touchpad for downward LED light sequencing. The touchpad LED lights sequence downward through all the touchpad selection areas indicating the touchpad has been configured for downward LED light sequencing. Or press the third touchpad selection area on either touchpad to turn off LED light sequencing. The third touchpad area LED lights illuminate for 3 seconds then turn off indicating the touchpad has been configured for LED light sequencing off mode. After configuring the LED light sequencing for touchpads, either enter another program mode or exit the programming modes, which will save programming mode changes.

Adjustments

QUICKDRAW ICE PORTION ADJUSTMENTS

The Quickdraw ice dispensing system has adjustable ice portion sizes. Follow the directions below to set the ice portion size. Each portion size must be checked according to customer specification at the time of installation.

Servend M-90 - QUICKDRAW ICE PORTION ADJUSTMENTS - 1

flowchart
graph LR
    A["LARGEST SIZE / INCREASE BUTTON"] --> B["SMALLEST SIZE / DECREASE BUTTON"]
    C["ICE DISPENSE MODE SWITCH"] --> D["MANUAL PUSH FOR ICE SWITCH"]
    E["ICE DISPENSE POWER SWITCH"] --> F["DISPLAY HIDDEN PROGRAM SWITCH"]
    G["AUTO MANUAL"] --> D
    G --> F
  1. To set the ice portion sizes, press the program switch 1 time in 3 seconds. The display will read "0001".

  2. Press the ice portion size that is to be adjusted. Once the portion size that is to be adjusted is pressed, the display will show the present pulse setting for that size.

  3. To increase the portion size, press the largest size button. To decrease the portion size, press the smallest size button.

NOTE: The pulse count will increase, or decrease, by 1 with each press of the smallest or largest size buttons.

  1. Press the program button 1 time to exit program mode and save settings.

  2. Repeat steps 1 through 4 for each cup size as necessary.

NOTE: For Data Display Mode, and Test Mode instructions please refer to the Quickdraw Portion Control Program flow chart in this manual.

Free movement of the metering wheel is essential for consistent ice portion sizes.

Servend M-90 - QUICKDRAW ICE PORTION ADJUSTMENTS - 2

natural_image Close-up of a mechanical assembly with transparent components and wiring (no visible text or symbols)

One Adjustment Screw on Each Side of QD Assembly

The Quickdraw assembly is adjustable to assure the wheel will always move freely. The assembly has two adjustment screws that can be adjusted in or out to align where the ice wheel axle goes through the sensor board and the ice chute.

ROCKING CHUTE ICE DELIVERY SWITCH ADJUSTMENT

To properly adjust the switch, first unplug the power cord to the unit then remove the merchandiser. This will give you access to the ice delivery switch located on the left side of the rocking chute.

Ice Delivery Switch Door Stops Door Lock Door

Begin by observing the chute by slowly pushing against the rocking chute. When the ice delivery switch clicks, measure the distance from the door stops on the rocking chute bracket to the door. The distance between the two must be no more than 1/4" (0.64 cm), but no less than 1/16" (0.16 cm).

Door Stops Door Door Lock 1/16" to 1/4"

The left side of the rocking chute has a tab that pushes up on the ice delivery switch. To adjust it, use needle nose pliers and bend the arm of the switch up or down in order to change the point where the tab makes contact with the switch arm.

Switch Arm Tab

Agitation Timer

The timer is non-adjustable and is set to agitate the ice for 3 seconds every 3.5 hours. Activating the dispenser will reset the timer. After 3.5 hours of non-use, the timer will energize the dispenser motor.

The LED tells the technician in which mode the timer is operating. Rather than a jumper pin, this timer has a female spade connector that must be connected to terminal number 6.

When this jumper is in place, the LED will blink at one-second intervals, this is the run mode.

When the jumper is open, the LED will flash every 0.4 second. This is the test mode and the timer will cycle every 55 seconds in test mode. If the timer is left in test mode, it will automatically reset to run mode.

1 COM NC 5 4 NO RED 6 3 2

Agitation Timer

Troubleshooting

This Troubleshooting section has been developed to assist you in determining what the probable cause for any particular problem you may experience with your ice/beverage system could be. It then advises of the proper corrective action to be taken to remedy that problem.

Because of the ever present danger from electrical shock, and the existence of high pressure water and gas on the system, it is strongly recommended that only qualified service personnel perform actual repairs.

Checklist

If a problem arises during operation of your dispenser, follow the checklist below. Routine adjustments and maintenance procedures are not covered by the warranty.

Problem Possible Cause To Correct
Dispenser will not dispense ice (and NO SOUNDS are heard when machine is activated)No power Checkelectrical connection.
Loose wire in electrical systemThoroughly check all wire connections.
Dispenser overloaded with iceRemove ice from dispenser until unit will operate.
Motor not working Check thermally protected motor. Replace motor or capacitor if necessary.
Dispenser will not dispense ice (motor runs but no ice movement is heard in bin)No ice in bin Fill dispenser with ice.
Door not opening Check rocking chute mechanism or electric solenoid operation.
Paddle wheel pin slipped from the paddle wheelReplace paddle wheel pin.
Excessive clustering or bridging of iceLoaded ice not broken up. (Caution: Super cooled ice is not covered by the warranty.)Break ice clusters before manually filling the dispenser. (See ice recommendations.)
Excessive water spilling from the ice machineAdjust ice machine to eliminate water spillage.
Poorly adjusted ice machineAdjust ice machine to eliminate large waffle shapes.
Extremely low usage of the dispenserLower the ice level in the bin.
Ice dispenses continuouslyMisaligned microswitchAdjust microswitch.
Agitation timer set incorrectlyTest agitation timer.
Thumping noise or irregular sound at a particular area of the dispenserShaved ice clusters in the binRemove clusters, discover why ice is shaving, and then repair.
Dispensing crushed ice or reduced dispensing speedWater spillage from ice machine into dispenser binAdjust ice machine.
Agitation timer (FRP-250)Test agitation timer.
Bridge of ice sheet is too thickAdjust ice machine.
Paddle wheel area broken or crackedReplace paddle wheel area.
Ice clusters in bin Break up or remove clusters.
Door not fully open Adjust door.
Door will not close Ice jammed in chute Adjust bridge in ice machine or, when manually filling, break up clusters.
Mounting brackets for rocking chute have spread too far apartStretched during removal for cleaning or maintenanceBend parts into shape.

DRINKS

Condition Investigation Check Correction
Warm drinks Is the compressor running? NoPower switch off or Compressor switch offMove switch to ON position.
Ice bank control (CEV)Check / replace control box.
Compressor overloadCheck / replace overload.
Start relay Check / replace relay.
Compressor Check / replace compressor.
Note A: It is important to remember that any time the refrigeration system is opened the refrigerant should be recovered, a new drier installed and the proper charge of refrigerant weighed into the refrigeration system.
No water, syrup or gas dispensingIs there power to the unit?No power Plug in unit or reset breaker.
Is power coming through the key switch?Power to control boxReplace fuse or control box.
Is there power to the key switch?Key switch OFF Turn switch ON.
Key switch defectiveReplace key switch.
No power through the transformerReset/replace transformer.
Water only dispensingNo pressure Regulator(s) out of adjustmentCheck/adjust regulator(s).
Install fresh tank.
Check/repair/replace regulator(s).
Check/repair/replace CO2 line.
Syrup and CO2 only dispensingCarbonator No power Check power supplyPlug in carbonator or reset breaker.
Syrup and plain water only dispensingNo pressure Outof CO2Install fresh tank.
HP regulator out of adjustmentAdjust HP regulator to the proper setting.
Defective HP regulatorCheck/repair/replace HP regulator.
CO2 line pinched, kinked or obstructedCheck/repair/replace CO2 line.
One valve will not dispense anythingIs there power to the valve?Broken wire or loose connectionReplace/repair wire or connector.
Bad microswitchReplace microswitch.
Beverage dispensed is too sweetIs the ratio (brix) of the drink correct?Flow control out of adjustmentAdjust the flow control.
Insufficient soda flow due to low carbonator pressureAdjust CO2 pressure or change the tank.
Low CO2 pressure due to leaksRepair CO2 leaks.
Obstruction in the water or soda lineClean out the lines.
Beverage is not sweet enoughIs the ratio (brix) of the drink correct?Flow control out of adjustmentAdjust the flow control.
Soda flow too highReset CO2 pressure or replace regulator if necessary.
Obstruction in syrup lineClean out the syrup line.
Drinks are foamingAre system pressures correct?Over carbonationCheck CO2supply. Reset pressure or replace regulator if necessary.
Dirty lines/ valvesClean/sanitize entire system.

PUMP

Problem Possible Cause Correction
Pump motor does not pumpBlack and/or red probe shortedRemove probes and bend straight or replace with new probe(s).
Problem with motor or motor wiringCheck line voltage first. Check AC voltage across load terminals on Liquid Level Control. If voltage is 120 plus or minus 10%, replace motor or motor wiring.
Problem with Liquid Level Control BoardCheck line voltage first. If AC voltage across load terminals is not 120 plus or minus 10%, replace the Liquid Level Control Board.
Water pressure from water source is not high enoughVerify water pressure leading into pump inlet is 40 psi minimum with pump running.
Pump will not run but tank appears to be always fullCommon Lead (Green) shorted out to Red wire (High Probe)Verify Green and Red wires are not touching.
Pump will not run but tank level appears to be below start levelCommon Lead (Green) shorted out to Black wire (Low Probe)Verify Green and Black wires are not touching.
Pump motor does not shut offProblem with Liquid Level Control BoardShort the “H & L” terminals on the Liquid Level Control Board. If motor does not shut off, replace Liquid Level Control Board.
Probe Harness Connection may be openVerify connections are good or replace the wiring harness.
Water may not be reaching top probe in carb tankVerify tank is not filled with CO2 or air by pulling relief valve up and letting air escape until water begins coming out.
High Lead (Red) open or not connectedVerify Red lead wire is connected from tank to unit.
Common lead (Green) open or not connectedVerify Green lead wire is connected from tank to unit.
Pump motor intermittentProblem with probe or probe harnessCheck motor and motor wires by removing red and black wires from the Liquid Level Control Board. If okay, short “H & L” terminal on Liquid Level Control Board. If motor stays off, verify probes and bend straight or replace. Verify with meter.
Problem with motor or motor wiringMeasure AC voltage across load terminals on Liquid Level Control Board. If line voltage is 120 plus or minus 10% replace motor or motor wiring.
Pump motor intermittentProblem with Liquid Level Control BoardCheck line voltage first. If AC voltage across load terminals on Liquid Level Control Board is not 120 plus or minus 10%, replace the Liquid Level Control board.
Pump motor starts and stops, short cycles, as soon as water level drops below Red (High) probeBlack (Low) Lead wire is open or disconnectedVerify connections and continuity of black wire from Liquid Level Control Board to Probes on Carb Tank.
Pump motor starts and stops, short cycles, as soon as water level drops below Black (Low) probeRed and Black Leads are switched with each otherVerify Red Lead is going to Red probe and Black Lead is going to Black probe.
Pump short cycles from below high probe to just above high probe - Low probe has no effectRed and Green Leads are switched with each otherVerify Red Lead is going to Red Probe and Green Lead is going to Ground Screw on tank
Black and Green Leads are switched with each otherVerify Black Lead is going to Black Probe and Green Lead is going to Ground Screw on tank.

BLADE TOWER

Condition Investigation Check Correction
Water Only DispensingNo Pressure BNB Fittings Clogged Tank Fittings Clogged No PowerClean and Sanitize. Clean and Sanitize. Check Power Supply.
Syrup and CO2 only DispensingCarbonator Check Liquid Level Control Board For CloggingReplace Control.
One Valve will not dispense anythingPre-Mix Valve (CMBecker) Post-Mix Valve (Flomatic 424)For Mechanical For Clogging For MechanicalClean and Sanitize. Replace if Necessary. Clean and Sanitize.
Beverage Dispense is too sweet or Drinks are FoamingAre system pressures correctSyrup Push PressureReplace parts or entire valve if necessary.
Drink Stratification too greatVisually verify Soda, Water and Syrup flowing at the same time in mixer block, when initially dispensingCheck Valves in Water and Product Lines. If soda water check valve is bad, Syrup will overcome soda water when first dispensing product. If syrup check valve is bad, soda water will overcome syrup flow when first dispensing product.Adjust to 30-40 PSI per Tower Manual. Lower equals less foaming. Too low will limit flow volume. Replace check valve(s).

FLEXTOWER

Condition Investigation Check Correction
No power at unitElectrical circuit ON/OFF switch Switch to ON position/replace defective switch.
Control board inoperativeCheck/replace control board.
Board/ bracket lights inoperativeLight modules Inoperative light modulesReplace modules.
Control board Control board programmingCheck and program/ reprogram.
Water only dispensing (one or more flavors)--Syrup circuit Syrup supply depletedReplenish syrup supply.
Adjust syrup pressure to 40 PSI (2.75 BAR).
B-I-B connector off Reattach B-I-B connector.
B-I-B connector plugged Clean B-I-B connector.
Syrup line restricted Check line from B-I-B pump to MFT-16.
Syrup outlet plugged at valve Clean syrup outlet.
Syrup port plugged at injection shroud Clean port.
Outlet syrup line off valve Replace syrup line.
Syrup solenoid inoperative Check power to solenoid. Check/replace solenoid. Check connection to control board.
Control board inoperative Check/replace control board.
Syrup only dispensingWater circuit Nowater pressure Checksource water supply.
Water pressure too lowHave location check plumbing and/or install water booster unit.
Water line restrictedCheck water line from water source.
Water lines off water pumpReattach water lines.
Water lines off heat exchangerReattach water lines.
Water lines off tee connection in unitReattach water lines.
Water valve solenoid inoperativeCheck power to solenoid.Check/replace solenoid.Check connection to control board.Check/replace control board.
Noisy syrup/water valve solenoidSyrup/water valvesDefective solenoidReplace solenoid.
Finished drink taste too sweet/not sweet enoughFinished drink brix incorrectCheck brix ratio as specified by syrup manufacturerBrix finished drink.
Syrup/water leaksSyrup and water circuitsCheck water/syrup connections and componentsTighten connections.Replace leaking components.
Problem Possible Cause CorrectiveAction
Flavor shot syrup does not dispense when flavor button is pressedSyrup supply depletedReplace syrup.
CO_2 supply depletedReplace CO_2 .
B-I-B disconnect loose or packed with dried syrup residueTighten and/ or clean B-I-B disconnect.
CO_2 Regulator set to lowCheck CO_2 regulator for proper setting — 30 PSI (1 Bar) or according to line run.
Kinked CO_2 or syrup lineCheck lines for kinks.
B-I-B pump inoperativeCheck pumps, replace if needed.
Valve solenoid inoperativeCheck wiring to valve, replace solenoid.
Vinyl tubing off at nozzle or at solenoidReconnect tubing.
Vinyl tubing plugged with syrup at nozzle or at solenoidClean tubing and nozzle.
Board not in dispense modePlace control board into dispense mode “0”.
No power to control boardDisconnected or loose wiresCheck connector to transformer and corresponding control board.
No power to transformerCheck power supply at transformer — 24 VAC.
Flavor syrup does not shut offCheck for stuck solenoidReplace solenoid if it continues to stick.

SELECTABLE ICE

Problem Possible Cause To Correct
DISPENSER DOES NOT DISPENSE CRUSHED ICE Nothing is heardNo power Checkpower source and power cord.
Loose wire in electrical systemCheck wiring.
Dispense switch faultyReplace switch.
Crusher Motor FaultyReplace Motor/Gear Box.
Dispenser Safety Switch OpenAssure Merchandiser is installed correctly with the safety switch in the closed position.
Crusher motor hums but does not turnBlades obstructed Check for obstructions in ice crusher housing.
Motor faulty Replace motor.
Faulty start relay/ capacitorCheck relay/capacitor and replace if bad.
Crusher dispense door does not openDoor solenoid faulty Replace solenoid.
Loose wiring to solenoidCheck wiring.
Gear box on motor GGear box on motor faultyReplace Ice Crusher Motor Assembly.
Crusher Axle broken Replace Crusher Axle.
Crusher Motor turns but Gear Motor for Paddle wheel/ Agitator Bar does not turnAgitator Gear Motor faultyReplace Agitator Gear Motor.
Loose wiring Check wiring.
Obstruction in Ice bin stopping motorCheck for obstruction.
Nothing on dispenser worksNo power to dispenserCheck power source.
Dispenser Safety Switch opensAssure Merchandiser is installed correctly with the safety switch in the closed position.
Loose wiring Check wiring.
Difficulty inserting Blade/Hub Assembly into Crusher housingStationary Blades not aligned with locating slots at top and bottom of crusher housingSee Disassembly in this manual.
Rotating Blades not in vertical position
Ice in Crusher Housing
Crushed Ice dispenses continuously, or by itselfIce Dispense Switch FaultyAdjust bridge in ice machine or, when manually filling, break up clusters.
No flashing lights on keypad, Fluorescent light was on, crusher and whole ice dispenser will not function, transformer breaker blown.Water shorted out wiring harness on valves onlyClean up water and reset transformer.

MDH-302 AND 402 ICE PIC

Condition Investigation Check Correction
Dispenser does not dispense crushed iceNothing is heard NoNo power to dispenserCheck power source and power cord.
Loose wiring CheckWiring.
Dispense switch faultyReplace switch.
Crusher Motor faultyReplace Motor/Gear Box.
Dispenser Kill Switch openEnsure Merchandiser is installed correctly and translight is in place, holding switch in the closed position.
Crusher motor hums but does not turnBlades obstructed Check for obstructions in ice crusher housing.
Motor faulty Replace Motor.
Faulty start relay/capacitorCheck relay/capacitor and replace if bad.
Crusher dispense door does not openDoor solenoid faultyReplace Solenoid.
Loose wiring to solenoidCheck wiring.
Motor turns, but blades do not turnGear box on motor FaultyReplace Ice Crusher Motor/Gear Box.
Crusher Axle brokenReplace Crusher Axle.
Crusher Motor turns but Gear Motor for Paddlewheel/ Agitator Bar does not turnAgitator Gear Motor faultyReplace Agitator Gear Motor.
Loose wiring CheckWiring.
Obstruction in Ice bin stopping motorCheck for obstruction.
Nothing on dispenser worksNo power to dispenserClose Dispenser Kill Switch.
Dispenser Kill Switch openEnsure Merchandiser is installed correctly and translight is in place, holding switch in the closed position.
Loose wiring CheckWiring.
Difficulty inserting Blade/Hub Assembly into Crusher housingStationary Blades not aligned with locating slots at top and bottom of crusher housingSee "Cleaning the Ice Crusher Assembly" in the Maintenance section of this manual.
Rotating Blades not in vertical position
Check for ice in Crusher Housing
Crushed Ice dispenses continuously, or by itselfIce Dispense Switch FaultyReplace the Ice dispense switch.
Micro switch adjustmentAdjust properly.

Liquid Level Control
Servend M-90 - Checklist - 1

flowchart
graph TD
    A["START"] --> B{Does Pump motor come on?}
    B -->|No| C["Remove red and black wires from LLC."]
    B -->|Yes| D{Is pump motor operation intermittent?}
    D -->|Yes| E["Short &quot;H&quot; and &quot;C&quot; terminals on LLC."]
    D -->|No| F["Check probe harness, harness connections and water supply."]
    C --> G{Does pump motor come on?}
    G -->|No| H["Measure AC voltage across load terminals on LLC."]
    G -->|Yes| I["Black and/or red probe shorted. Remove proves, straighten or replace if necessary."]
    H --> J{Is line voltage (±10%) present?}
    J -->|No| K["Replace LLC."]
    J -->|Yes| L["Check pump motor and wiring."]
    K --> M["END"]
    L --> M

Diagnosing a Defective Carbonator

Go to the dispensing faucet (valve.)

  1. Blowing gas is a carbonator problem.

A. Unplugged
B. Pump
C. Motor
D. Switching device
E. Water off — Noisy pump
F. Filters clogged — Noisy pump

  1. Syrup mixing w/plain water is a pressure problem.

A. CO 2 pressure is too low
B. CO
2 cylinder is empty
C. Water pressure is too high
D. CO _2 inlet check valve is clogged

  1. The valve is dispensing a thin trickle of syrup with no water or gas

A. Carbonated water is frozen
B. Valve is defective

Servend M-90 - Diagnosing a Defective Carbonator - 1

Warning

All wiring must conform to local, state and national codes.

Electrical Requirements

Refer to Ice Machine Model/Serial Plate for voltage/amperage specifications.

VOLTAGE

The standard voltage for S/SV/SVI/NGF/FRP Series dispensers is 120VAC-60Hz. A power cord is provided with 120VAC-60Hz models only. S/SV/SVI/NGF Series dispensers use a 1/7 hp gearmotor.

Minimum Circuit Ampacity

The minimum circuit ampacity is used to help select the wire size of the electrical supply. (Minimum circuit ampacity is not the beverage/ice machine's running amp load.) The wire size (or gauge) is also dependent upon location, materials used, length of run, etc., so it must be determined by a qualified electrician.

Minimum Circuit Amperage Chart

Important

Due to continuous improvements, this information is for reference only. Please refer to the dispenser serial number tag to verify electrical data. Serial tag information overrides information listed on this page.

Dispenser Voltage/CycleMinimum Circuit Amps
CEV-30, CEV-40 120/60 8.2
208-230/60, 220-240/50Hz
DI-1522, CT-6 120/60 2.4
220/50
DI/DIL2323, CT-8 120/60 3.2
220/50
Flavor Magic 24VAC, powered by existing valve transformer on dispenser0.5
FlexTower 120/60 2.5
FRP-250 120/60 3.0
MDH-302, MDH-402 120/60 3.5
MDH-302SCI, MDH-402SCI120/60 5.4
S-150, S-200, S-250, SV-150, SV-175, SV-200, SV-250, SV-150i, SV-175i, SV-200i, SV-250i, SV-250QD, NGF-250, NGF-250QD115/60 2.8
220/50, 220/60, 240/50, 240/601.5
220-240/50 5(with carb deck)

NOTE: For FlexTower applications — A dedicated 120 VAC, 15 ampere circuit is required to provide power to the power supply's transformer with an output of 24 VAC for the electric valves, 120 VAC, 8 ampere circuit, and to power a cold water recirculation pump. The power supply has a 120 VAC outlet to provide power for the cold water recirculation pump.

Grounding Instructions

Servend M-90 - Grounding Instructions - 1

Warning

The beverage/ice machine must be grounded in accordance with national and local electrical codes.

This appliance must be grounded. In the event of malfunction or breakdown, grounding provides a path of least resistance for electric current to reduce the risk of electric shock. This appliance is equipped with a cord having an equipment-grounding conductor and a grounding plug. The plug must be plugged into an appropriate outlet that is properly installed and grounded in accordance with all local codes and ordinances.

Servend M-90 - Warning - 1

Warning

Improper connection of the equipment-grounding conductor can result in a risk of electric shock. The conductor with insulation having an outer surface that is green with or without yellow stripes is the equipment grounding conductor. If repair or replacement of the cord or plug is necessary, do not connect the equipment-grounding conductor to a live terminal. Check with a qualified electrician or serviceman if the grounding instructions are not completely understood, or if in doubt as to whether the appliance is properly grounded. Do not modify the plug provided with the appliance — if it will not fit the outlet, have a proper outlet installed by a qualified electrician.

Servend M-90 - Warning - 1

Warning

When using electric appliances, basic precautions must always be followed, including the following:

a. Read all the instructions before using the appliance.
b. To reduce the risk of injury, close supervision is necessary when an appliance is used near children.
c. Do not contact moving parts.
d. Only use attachments recommended or sold by the manufacturer.
e. Do not use outdoors.

f. For a cord-connected appliance, the following shall be included:

- Do not unplug by pulling on cord. To unplug, grasp the plug, not the cord.

- Unplug from outlet when not in use and before servicing or cleaning.

- Do not operate any appliance with a damaged cord or plug, or after the appliance malfunctions or is dropped or damaged in any manner. Contact the nearest authorized service facility for examination, repair, or electrical or mechanical adjustment.

g. For a permanently connected appliance — Turn the power switch to the off position when the appliance is not in use and before servicing or cleaning.

h. For an appliance with a replaceable lamp — Always unplug before replacing the lamp. Replace the bulb with the same type.

i. For a grounded appliance — Connect to a properly grounded outlet only. See Grounding Instructions.

Pump Deck Wiring

The supply cord is equipped with a three prong 5-15P. When a Ground Fault Circuit Interrupter (GFCI) is required by code, a breaker type protector must be used. We do not recommend GFIC outlets as they are known for more intermittent nuisance trips than panel breakers. To ensure both the safety and proper operation of this equipment, be certain that the electrical receptacle is a proper design so as to accept this plug, ensuring that the carbonator assembly is properly grounded.

If the pump deck is to be installed in an area or community whose local codes require permanent wiring, the following procedure must be followed.

  1. The three wires (white, black and green) must be fed through the cable connector and brought into the wiring compartment. The cable must be secured into the connector.
  2. The green wire from the cable must be connected to the green screw that attaches to the inside panel of the wiring compartment. Be sure to use a ring torque terminal for connecting the wire to the screw.
  3. The white wire from the cable must be joined to the N terminal of the liquid level control board by a suitable U.L. listed insulated cable connector.

The black wire from the cable must be joined to the L1 terminal of the liquid level control board by a suitable U.L. listed insulated cable connector.

Water Supply

The plumbing diagram is printed on a white vinyl label, normally located above the inlet tubes for syrup and water. The plumbing diagram label can be accessed by removing the splash panel of the dispenser. The plumbing diagram label explains which inlet coldplate fittings supply which dispenser valves and water manifolds.

The water supply must first be connected to the carbonator pump (not shown) before plumbing to connection “A” shown on plumbing diagram. The carbonator pump deck must be within six feet (1.8 m) of the dispenser for optimum performance. See B-I-B installation diagram for system pressure settings.

NOTE: Valves are read from right to left.

A check valve must be installed in the water supply line 3 feet (0.9 m) from the noncarbonated water connection “PW”. Contact factory if not installed.

PRESSURE SPECIFICATIONS

Min. Max.
Incoming Water Pressure40 psi(2.75 bar)70 psi static(4.83 bar)
Plain Water Pressure to Carb Tank55 psi(3.79 bar)65 psi static(4.48 bar)
Ambient Temperature40°F(4°C)105°F(41°C)
CO2Pressure (Primary)90 psi(6.21 bar)100 psi(6.90 bar)
Pre-mix Pressure
Normal60 psi*(4.14 bar)
Diet40 psi*(2.75 bar)
B-I-B (Secondary)75 psi (5.17 bar) or according to line run
Flavor Shot30 psi (2.07 bar) or according to line run
Quickdraw CO2Supply75 psig(5.17 bar)
Quickdraw Regulator Valve40 psig(2.75 bar)50 psig(3.45 bar)
Quickdraw Carbonation
Cold75 psi(5.17 bar)
Ambient90 psi(6.21 bar)100 psi(6.90 bar)

* This is the optimal pressure. When the foam is too high, decrease the pressure; when spitting/popping is an issue, increase the pressure.

Important

When installing cold carbonated (Intelli carb) equipment, never put a tee for the plain water connection in the line from the pump deck to the cold plate. Putting a tee in the line will create service problems and bad drink quality.

NOTE: For FlexTower applications, a plain water supply capable of delivering 100 GPH (378.5 liters/hr) with a minimum dynamic water pressure of 40 psi (2.75 bar) and a maximum static water pressure of 80 psi (5.5 bar) is required to provide water for the non carbonated beverages. Water treatment is highly recommended to assure a quality finished beverage.

CAPACITIES

Dispenser Valves Ice Storage
CEV-30 6 N/A
CEV-40 8 N/A
CT-6 6 N/A
CT-8 8 N/A
DI-1522 6 65 lbs (29.5 kg)
DI2323 8 77 lbs (34.9 kg)
DIL2323 8 97 lbs (44 kg)
Flavor Magic 3-4 Flavors N/A
FlexTower8-16 FlavorsN/A
FRP-25016 Flavors,8 Flavor Shots250 lbs (113 kg)
S/SV-1506150 lbs (68 kg)
SV-175 8175 lbs (79.4 kg)
S/SV-200 (SCI)8-10200 lbs (90.7 kg)
S/SV/NGF-250(SCI/QD)8-10250 lbs (113 kg)
MDH-302 (SCI)10 or 12300 lbs (136 kg)
MDH-402 (SCI)16 or 20400 lbs (181 kg)

Charts

Flavor Magic Logic Matrix
Servend M-90 - Charts - 1

flowchart
graph TD
    A["System power on"] --> B{Prog button pressed?}
    B -->|y| C{Prog button pressed 3s?}
    C -->|y| D["Change active flavors to 3 or 4 (Default value 3)"]
    D --> E["Display shows active (-3- or -4-)"]
    E --> F{3s reached?}
    F -->|y| G["Prog & cal mode can only be accessed during first 5s after power up to protect data from accidental change"]
    G --> H["Count down 4,3,2,1,0"]
    H --> I{n}
    I --> J{5s reached?}
    J -->|y| K["Display shows active (-3- or -4-)"]
    K --> L["Display shows Cnt"]
    L --> M{Prog button pressed?}
    M -->|y| N["Flavor pressed?"]
    M -->|n| O["Display shows Cnt"]
    N --> P{Flavor pressed?}
    P -->|y| Q["Turn on flavor solenoid"]
    Q --> R["Display shows (1---or -1---or ---1)"]
    R --> S["Flavor counter+1"]
    S --> T["Display shows Cnt"]
    T --> U{Prog button pressed?}
    U -->|y| V["Display shows Cnt"]
    U -->|n| W["Show flavor counter"]
    W --> X{Flavor pressed for 3s?}
    X -->|y| Y["Clear the counter"]
    X -->|n| Z["Display shows Cnt"]
    Y --> AA["Display shows Cnt"]
    Z --> AB["Display shows Cnt"]

Programming Loop
Servend M-90 - Charts - 2

flowchart
graph TD
    A["Display shows Pro"] --> B{Flavor pressed?}
    B -->|y| C["Display current value of time delay 3.0 (Default value 1s) Range 0-10s"]
    B -->|n| D{Prog button pressed?}
    D -->|y| E["Display shows 3.2"]
    D -->|n| F["Display shows 2.8"]
    C --> G{Flavor 1 pressed inc delay .2s}
    G -->|y| H["Display shows 3.2"]
    G -->|n| I{Prog button pressed?}
    I -->|y| J{Prog button pressed 3s?}
    J -->|y| K["Display shows P-S"]
    J -->|n| L["Display shows P-S"]
    K --> M{Flavor 1 pressed?}
    M -->|y| N["Purge/Sanitize Cycle\nFlavor 1 on 4s,\nFlavor 2 on 4s,\nFlavor 3 on 4s,\n(Flavor 4 on 4s)"]
    M -->|n| O{Prog button pressed?}
    O -->|y| P{Prog button pressed 3s?}
    P -->|n| Q["900s reached?"]
    P -->|n| R["Prog button pressed?"]
    Q --> S{Prog button pressed?}
    S -->|n| T["Prog button pressed 3s?"]
    S -->|y| U["Prog button pressed 3s?"]
    T --> V["Prog button pressed 3s?"]
    U --> V
    V --> W["Prog button pressed 3s?"]
    W --> X["Display shows P-S"]

Programming Loop (continued on next page)

Programming Loop (continued from previous page)
Servend M-90 - Charts - 3

flowchart
graph TD
    A["Prog button pressed 3s?"] -->|y| B{Flavor 3 pressed dec delay 1s}
    A -->|y| C{Display shows 0.0}
    A -->|y| D{Display shows 2.0}
    B --> E["Display current value of time delay 1.0 (Default value 0s) Range 0-10s"]
    C --> F{Flavor 2 pressed inc delay 1s}
    D --> G{Display shows dLAY}
    E --> H{Prog button pressed?}
    F --> I{Flavor pressed?}
    G --> J{Prog button pressed?}
    H --> K{Prog button pressed?}
    I --> L{Prog button pressed?}
    J --> M{Prog button pressed?}
    K --> N{Prog button pressed?}
    L --> O{Prog button pressed?}
    M --> P{Prog button pressed?}
    N --> Q["Display shows FLSH"]
    O --> R["Display shows dLAY"]
    P --> S["Display shows dLAY"]
    Q --> T["Display shows dLAY"]
    R --> U["Display shows dLAY"]
    S --> V["Display shows dLAY"]
    T --> W["Display shows dLAY"]
    U --> X["Display shows dLAY"]
    V --> Y["Display shows dLAY"]
    W --> Z["Display shows dLAY"]

Flav'R-Pic (FRP-250) Logic Matrix
Servend M-90 - Charts - 4

flowchart
graph TD
    A["System power on (24V from transformer)"] --> B["Energize Touchpad (active) Touchpad LEDs (sync w/other touchpad)"]
    B --> C{Program Mode? Prog button pressed >3s?}
    C -->|y| D["LCD display = 1"]
    D --> E{Brand or Flavor?}
    E -->|n| F["Carb/Non-carb Mode (Brand only) Cont. LED - carbonated Flash LED (0.5s on/off) - plain Tap touchpad to switch"]
    E -->|n| G["Dispense Time Mode (Flavor only) Cont. LED - 1s dispense Flash LED (0.5s on/off) - 1s dispense Tap touchpad to switch"]
    C --> H["LCD Display = 2"]
    H --> I{n}
    I -->|n| J{Prog button pressed >3s or 300s elapsed?}
    J -->|n| K["LCD Display = 3"]
    J -->|n| L["LCD Display = 0"]
    K --> M["LED Sequence Mode Touch brand button location shown below to change"]
    L --> M
    M --> N{Prog button pressed >3s or 300s elapsed?}
    N -->|y| O["Normal Dispense Mode Brand - ON MODE - Water on then Syrup on 60 ms later. OFF MODE - Syrup off then Water off 60 ms later. Flavor shot - 1s or 2 s (release and press - no delay between dispenses)"]
    N -->|y| O

FLAV'R-PIC (FRP-250) CONTROL BOARD, VALVE, TOUCH PAD MATRIX
Servend M-90 - Charts - 5

flowchart
graph TD
    A["PCB Disperse"] --> B["Valve Controls - C1, C2, NC2"]
    A --> C["Valve Controls - S1-S8, F1-F4"]
    A --> D["Valve 7"]
    A --> E["Valve 6"]
    A --> F["Valve 5"]
    A --> G["Valve 4"]
    A --> H["Valve 3"]
    A --> I["Valve 2"]
    A --> J["Valve 1"]
    A --> K["Valve 15Valve 14"]
    A --> L["Valve 13 Valve 12"]
    A --> M["Valve 8 Valve 9 Valve 10 Valve 11"]
    A --> N["Valve 6"]
    A --> O["Valve 5"]
    A --> P["Valve 4"]
    A --> Q["Valve 3"]
    A --> R["Valve 2"]
    A --> S["Valve 1"]
    A --> T["Valve 9"]
    A --> U["Valve 8"]
    A --> V["Valve 7"]
    A --> W["Valve 6"]
    A --> X["Valve 5"]
    A --> Y["Valve 4"]
    A --> Z["Valve 3"]
    A --> AA["Valve 2"]
    A --> AB["Valve 15S"]
    A --> AC["Valve 9S"]
    A --> AD["Valve 8S"]
    A --> AE["Valve 7S"]
    A --> AF["Valve 6S"]
    A --> AG["Valve 5S"]
    A --> AH["Valve 4S"]
    A --> AI["Valve 3S"]
    A --> AJ["Valve 2S"]
    A --> AK["Valve 1S"]
    A --> AL["Valve 9S"]
    A --> AM["Valve 8S"]
    A --> AN["Valve 7S"]
    A --> AO["Valve 6S"]
    A --> AP["Valve 5S"]
    A --> AQ["Valve 4S"]
    A --> AR["Valve 3S"]
    A --> AS["Valve 2S"]
    A --> AT["Valve 1S"]
    A --> AU["Valve 9S"]
    A --> AV["Valve 8S"]
    A --> AW["Valve 7S"]
    A --> AX["Valve 6S"]
    A --> AY["Valve 5S"]
    A --> AZ["Valve 4S"]
    A --> BA["Valve 3S"]
    A --> BB["Valve 2S"]
    A --> BC["Valve 1S"]
    A --> BD["Valve 9S"]
    A --> BE["Valve 8S"]
    A --> BF["Valve 7S"]
    A --> BG["Valve 6S"]
    A --> BH["Valve 5S"]
    A --> BI["Valve 4S"]
    A --> BJ["Valve 3S"]
    A --> BK["Valve 2S"]
    A --> BL["Valve 1S"]
    A --> BM["VALE & OUTPERFORM ENGLISH CONNECTIONS"]
    B --> BN["PCB Disperse Control Structure"]
    B --> BO["Transformer Controller"]
    B --> BP["PCB Crusher OPTIONAL Controller"]
    B --> BQ["PCB Disperse Control Structure"]
    BQ --> BR[S9 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S6 S5 S3 S2 S1 S0 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S6 S5 S3 S2 S1 S0 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S6 S5 S3 S2 S1 S0 S8 S7 S6 S5 S4 S3 S2 S1 S0 S8 S7 S4 S3 S2 S1

This Page Intentionally Left Blank

Diagrams

Blade Tower Plumbing

SINGLE TOWER

Servend M-90 - SINGLE TOWER - 1

flowchart
graph TD
    A["Pressurized Filtered Water Supply"] --> B["Installation Kit (020001441)"]
    B --> C["Carb Tank"]
    C --> D["Circ Pump"]
    D --> E["Primary Carb Pump"]
    E --> F["Carb Tank"]
    F --> G["020001403"]
    G --> H["00861302"]
    H --> I["020001441"]

TWO TOWER
Servend M-90 - SINGLE TOWER - 2

flowchart
graph TD
    A["Installation Kit (020001441)"] --> B["Tee Kit (020001411)"]
    C["020001403"] --> B
    D["00861302"] --> B
    E["Primary Carb Pump"] --> F["Circ Pump"]
    G["Carb Tank"] --> F
    H["Pressurized Filtered Water Supply"] --> F
    style A fill:#f9f,stroke:#333
    style C fill:#f9f,stroke:#333
    style D fill:#f9f,stroke:#333
    style E fill:#f9f,stroke:#333
    style F fill:#ccf,stroke:#333
    style G fill:#ccf,stroke:#333
    style H fill:#ccf,stroke:#333

THREE TOWER
Servend M-90 - SINGLE TOWER - 3

flowchart
graph TD
    A["Installation Kit (020001441)"] --> B["Tee Kit (020001411)"]
    C["020001403"] --> B
    D["00861302"] --> B
    E["Tee Kit (020001411)"] --> B
    F["Primary Carb Pump"] --> G["Pressurized Filtered Water Supply"]
    H["Carb Tank"] --> G
    I["Circ Pump"] --> G
    G --> B
    style A fill:#f9f,stroke:#333
    style C fill:#f9f,stroke:#333
    style D fill:#f9f,stroke:#333
    style E fill:#f9f,stroke:#333
    style F fill:#f9f,stroke:#333
    style G fill:#ccf,stroke:#333
    style H fill:#ccf,stroke:#333
    style I fill:#ccf,stroke:#333

CEV-30i & CEV-30e Plumbing

SERVEND RECOMMENDED PLUMBING ALL INLETS ARE 3/8" BARBED FITTINGS EXCEPT CO₂ INLET FOR ASSISTANCE CALL (812)-246-7000 CEV-30i & CEV-30e 1 2 3 4 5 Syrup 1 Syrup 2 Syrup 3 Syrup 4 Syrup 5 CO₂ inlet Non-carb Water Inlet Internal Carbonation Check valve (flow arrow points into water line) See Installation Manual for Further Details 1 2 3 4 5 Syrup 1 Syrup 2 Syrup 3 Syrup 4 Syrup 5 Non-carb Water Inlet External Carbonation 5027794

NOTE:

  1. All valves are carbonated water as shipped from factory.
  2. Check valve supplied with unit is installed in the non-carbonated water line inlet. The flow direction arrow should point into the stainless steel line.

SERVEND RECOMMENDED PLUMBING ALL INLETS ARE 3/8" BARBED FITTINGS EXCEPT CO₂ INLET FOR ASSISTANCE CALL (812)-246-7000 CEV-30i & CEV-30e 1 2 3 4 5 6 Syrup 1 Syrup 2 Syrup 3 Syrup 4 Syrup 5 CO₂ inlet Plain Water Inlet Syrup 6 Non-carb Water Inlet Internal Carbonation Check valve (flow arrow points into water line) See Installation Manual for Further Details External Carbonation 1 2 3 4 5 6 Syrup 1 Syrup 2 Syrup 3 Syrup 4 Syrup 5 Carb Water Inlet Syrup 6 5012519

NOTE:

  1. All valves are carbonated water as shipped from factory.
  2. Check valve supplied with unit is installed in the non-carbonated water line inlet. The flow direction arrow should point into the stainless steel line.

CEV-40i & CEV-40e Plumbing

SERVEND RECOMMENDED PLUMBING ALL INLETS ARE 3/8" BARBED FITTINGS EXCEPT CO₂ INLET FOR ASSISTANCE CALL (812)-246-7000 CEV-40i & CEV-40e 1 2 3 4 5 6 7 8 Non-carb Water Inlet Internal Carbonation Check valve (flow arrow points into water line) See Installation Manual for Further Details 1 2 3 4 5 6 7 8 Non-carb Water Inlet External Carbonation 5013361

NOTE:

  1. All valves are carbonated water as shipped from factory.
  2. Check valve supplied with unit is installed in the non-carbonated water line inlet. The flow direction arrow should point into the stainless steel line.

CEV-30j Plumbing

SERVEND RECOMMENDED PLUMBING ALL INLETS ARE 3/8" BARBED FITTINGS FOR ASSISTANCE CALL (812)-246-7000 CEV-30] 1 2 3 4 5 6 Syrp 1 Syrp 2 Syrp 3 Syrp 4 Plain Water Inlet Syrp 5 Syrp 6 6 Valve Inlet 5 Valve Inlet 1 2 3 4 5 Syrp 1 Syrp 2 Syrp 3 Syrp 4 Plain Water Inlet Syrp 5 Plain Water Inlet Syrp 6 Plain Water Inlet Syrp 7 Plain Water Inlet Syrp 8 Plain Water Inlet Syrp 9 Plain Water Inlet Syrp 10 Plain Water Inlet Syrp 11 Plain Water Inlet Syrp 12 Plain Water Inlet Syrp 13 Plain Water Inlet Syrp 14 Plain Water Inlet Syrp 15 Plain Water Inlet Syrp 16 Plain Water Inlet Syrp 17 Plain Water Inlet Syrp 18 Plain Water Inlet Syrp 19 Plain Water Inlet Syrp 20 Plain Water Inlet Syrp 21 Plain Water Inlet Syrp 22 Plain Water Inlet Syrp 23 Plain Water Inlet Syrp 24 Plain Water Inlet Syrp 25 Plain Water Inlet Syrp 26 Plain Water Inlet Syrp 27 Plain Water Inlet Syrp 28 Plain Water Inlet Syrp 29 Plain Water Inlet Syrp 30 Plain Water Inlet Syrp 31 Plain Water Inlet Syrp 32 Plain Water Inlet Syrp 33 Plain Water Inlet Syrp 34 5013734

NOTE:

  1. Minimum water pressure of 40 psi is needed to attain a 1-1/2 oz/sec flow rate.
  2. Minimum water pressure of 55 psi is needed to attain a 2-1/2 oz/sec flow rate.
  3. If water pressure varies by ±20 psi the valve brix will not be maintained.
  4. See service manual for further details.

CT-6 Plumbing and Wiring

CAUTION Electrical Shock Hazard Disconnect power before servicing.[CT-6 Wiring Diagram]Servend M-90 - CT-6 Plumbing and Wiring - 1Servend M-90 - CT-6 Plumbing and Wiring - 2
CT-6 Recommended Plumbing 2-1-1-2 Plumbing ConfigurationServend M-90 - CT-6 Plumbing and Wiring - 3Servend M-90 - CT-6 Plumbing and Wiring - 4
5029318-0

CT-8 Plumbing and Wiring

CAUTION Electrical Shock Hazard Disconnect power before servicing.Servend M-90 - CT-8 Plumbing and Wiring - 1Valve Jumper Harness Electrical Box Lighted Merch. Power Cord Power Cord
CT-8 Wiring Diagram
Servend M-90 - CT-8 Plumbing and Wiring - 2
SYrup 1 Syrp 2 Syrp 3 Syrp 4 Unit Drain Syrp 5 Syrp 6 Syrp 7 Syrp 8

CF-1522 Plumbing

CF-1522 4 Valve Plumbing

SERVEND RECOMMENDED PLUMBING L15224 FOR ASSISTANCE CALL (812) 246-7000

Conversion for non-carbonated flavor

  1. De-pressurize system.
  2. Remove drain grid, splash panel and drainpan to access insulated lines.
  3. Cut carb water line (in tower) to valve to be converted and cap.
  4. Disconnect syrup line to valve being converted.
  5. Plumb syrup circuit in coldplate to water side of valve (flush syrup line first).
  6. Plumb dedicated plain water line from water source to coldplate inlet (syrup circuit converted for chilling water).
  7. Run ambient syrup line into drop-in tower to syrup side of valve.
  8. Replace drainpan, splash panel and drain grid.
  9. Pressurize system and verify system operation.

Cut / cap carb water line Re-plumb syrup line to water side of valve Ambient syrup line into unit and to valve

NOTE: Tapping into existing water line too close to the pump deck can result in starving the valve when the carbonator cycles. If a dedicated water line is not possible, tee into the existing water line as close to the source as possible.

DI-1522 Post-mix Plumbing

2-1-1-2 Right to Left

Detail A Detail A Ambient Carbon Jumper tube between coldplate and post- S1 S2 S3 Plain Water Carb Water S4 S5 S6 FLEX MANIFOL Manifold: Change Non-carbonated 1. Rotate plunger 2. Pull plunger up 3. Push plunger c 4. Turn plunger b PW PW From Pump

NOTE 1:

A. Plain water to the carbonator
B. Carb water to coldplate post-chill

NOTE 2:

For 5(4) vale unit:

  • Inlet syrup number 6(6.5) isn't used
  • Valve number 6(6.5) isn't used

Ambient Carbonation

Jumper tube between pre-chill

coldplate and post-chill in coldplate

6 VLV UNIT W6-5 W4 W3 W2-1 5 VLV UNIT W5 W4 W3 W2 W1 4 VLV UNIT W4 W3 W2 W1 FLEX MANIFOLD

Manifold: Change to Carbonated or

Non-carbonated water

  1. Rotate plunger 180° using a 5/32" allen wrench.
  2. Pull plunger up to get non-carbonated water.
  3. Push plunger down to get carb. water.
  4. Turn plunger back 180° to lock.

For Assistance Call

812-246-7000

5029044-

DI-1522 Pre-mix Plumbing

SERVEND RECOMMENDED PLUMBING: DI-1522 PREMIX
6 5 4 3 2 1 Valve Locations Line 6 Line 5 Line 4 Line 3 Line 2 Line 1 3/4" NPT Drainpan Drain 3/4" NPT Coldplate Drain Bottom View For 5 valve unit: Line 6 is not used For 4 valve unit: Lines 1 & 6 are not used Inlet Line Locations 654321 For Assistance Call 812-246-7000 5009449-

DI/DIL-2323 6 Valve Post-mix Plumbing

SERVEND RECOMMENDED PLUMBING: DI-1522 PREMIX 1-1-1-1-2 Flex Left to Right For 6 Valve Units Valve Locations "Plugged" "Plugged" Waler #6 #6 Syrup Waler #5 #5 Syrup Waler #4 #4 Syrup Waler #3 #3 Syrup Water #2 #2 Syrup "Plugged" "Plugged" Water #1 #1 Syrup Carbonabor Relief Valve CO₂ to Carbonabor Bottom View Ambient Carbonation A = Carbonated water B = Plain water Internal Carbonation A = Plain water to carbonator from pump B = Plain water (40-55 psi) to manifold C = Carbonated water from carbonator to manifold Items within bold boxes are for internal carbonation only. A B #6 Syrup #5 Syrup #4 Syrup #3 Syrup #2 Syrup #1 Syrup Water #6 Water #5 Water #4 Water #3 Water #1 & #2 CO⁺ IN For Assistance Call 812-246-7000 5010088-1

Operation: Manifold to Change to Carbonated or Non-carbonated Water 1. Rotate plunger 180° using a 5/32" allen wrench. 2. Pull plunger up to get non-carb water. Push plunger down to get carb. water. 3. Turn plunger back 180° to lock. Valves 5,6 4 3 1,2 Carb Water Plain Water

DI/DIL-2323 8 Valve Post-mix Plumbing & Variety Valve

SERVEND RECOMMENDED PLUMBING: DI/DIL-2323
Optional Dual Flavor Valve* 8A Ambient 8B Thru Coldplate Optional Variety Valve 8 A 7 2 3 5 4 3 2 1 Water #8 Water #7 Water #6 Water #5 Water #4 Water #3 Water #2 Water #1 Water #0 Water #0 Water #0 Water #0 Water #0 Relief Valve CO2 to Carbonabor Carbonabor Internally carbonated units only Carbonated Water Circuit (A) Plain Water Circuit (B) #8 Syrup (B) #7 Syrup #6 Syrup #5 Syrup #4 Syrup #3 Syrup #2 Syrup #1 Syrup Water #7 & #8 Water #6 Water #5 Water #4 Water #1, #2 & #3 CO2 IN #8 Syrup (A) *Optional* Variety Valve On Valve 6 1 - Water (Thru Coldplate) 2 - Syrup (Ambient) 3 - Syrup (Ambient) 4 - Syrup (Thru Coldplate) 3/4" NPT Drainpan Drain 3/4" NPT Coldplate Drain Bottom View Ambient Carbonation A = Carbonated water B = Plain water Internal Carbonation A = Plain water to carbonator from pump B = Plain water (40-55 psi) to manifold C = Carbonated water from carbonator to manifold For Assistance Call 812-246-7000 020001191-1

Operation: Manifold to Change to Carbonated or Non-carbonated water 1. Rotate plunger 180° using a 5/32" allen wrench. 2. Pull plunger up to get non-carb water. Push plunger down to get carb. water. 3. Turn plunger back 180° to lock. Valves 7,8 6 5 4 1 Water/Soda ↑ IN ↓ OUT

DI/DIL-2323 10 Valve Post-mix Plumbing

SERVEND RECOMMENDED PLUMBING: DI/DL-2323 4-2-1-1-2 Flex Right to Left 1 0 9 8 7 6 5 4 3 2 1 Water #10 #10 Syrup Water #9 #3 Syrup #3 Syrup #8 Syrup Water #7 #7 Syrup Water #5 & #5 #6 Syrup #5 Syrup #4 Syrup Water #5 & #4 Water #3 Syrup Water #2 Syrup Water #1 Syrup Water #1 Syrup Soil Plumb Water #9 & #10 Water #8 Water #7 Water #5 & #6 Water #1, #2, #3 & #4 Carbonated Water Plain Water #3 Syrup #3 Syrup #3 Syrup #6 Syrup #3 Syrup #2 Syrup #1 Syrup #5 Syrup #4 Syrup Water #9 & #10 Water #8 Water #7 Water #5 & #6 Water #1, #2, #3 & #4 3/4" NPT Drainpan Drain 3/4" NPT Coldplate Drain Bottom View For Assistance Call 812-246-7000 5011511-0

Operation: Manifold to Change to Carbonated or Non-carbonated water 1. Rotate plunger 180° using a 5/32" allen wrench. 2. Pull plunger up to get non-carb water. Push plunger down to get carb. water. 3. Turn plunger back 180° to lock. Valves 8,9,10 7 5,6 4 1,2,3 Carb Water Plain Water

DI/DIL-2323 6 Valve Pre-mix Plumbing

SERVEND RECOMMENDED PLUMBING: DI/DL-2323
Valve Locations #1 Syrup #2 Syrup #3 Syrup #4 Syrup #5 Syrup #6 Syrup 3/4" NPT Drainpan Drain 3/4" NPT Coldplate Drain Bottom View For 5 Valve Unit: Inlet 6 is Not Used Valve 6 is Not Used Inlet Line Locations For Assistance Call 812-246-7000 5009394-0

Flavor Magic Plumbing
Servend M-90 - DI/DIL-2323 6 Valve Pre-mix Plumbing - 2

flowchart
graph TD
    A["B-I-B Rack Configuration"] --> B["1 x 3 B-I-B"]
    A --> C["2 x 3 B-I-B Rack"]
    A --> D["2 x 4 B-I-B Rack"]
    B --> E["Flavor 1"]
    B --> F["Flavor 2"]
    B --> G["Flavor 3"]
    C --> H["Flavor 1"]
    C --> I["Flavor 4"]
    C --> J["Flavor 2"]
    C --> K["Flavor 5"]
    C --> L["Flavor 3"]
    C --> M["Flavor 6"]
    D --> N["Flavor 1"]
    D --> O["Flavor 5"]
    D --> P["Flavor 2"]
    D --> Q["Flavor 6"]
    D --> R["Flavor 3"]
    D --> S["Flavor 7"]
    D --> T["Flavor 4"]
    D --> U["Flavor 8"]

Servend M-90 - DI/DIL-2323 6 Valve Pre-mix Plumbing - 3

flowchart
graph TD
    A["CO2 Supply"] --> B["Set Regulator 20 to 30 psi"]
    B --> C["Pump 1"]
    B --> D["Pump 2"]
    B --> E["Pump 3"]
    B --> F["Pump 4"]
    C --> G["Flavor 1"]
    C --> H["Flavor 2"]
    C --> I["Flavor 3"]
    C --> J["Flavor 4"]
    D --> K["Flavor Magic Module"]
    E --> K
    F --> K
    K --> L["Output"]
    style A fill:#fff,stroke:#000
    style B fill:#fff,stroke:#000
    style C fill:#fff,stroke:#000
    style D fill:#fff,stroke:#000
    style E fill:#fff,stroke:#000
    style F fill:#fff,stroke:#000
    style G fill:#fff,stroke:#000
    style H fill:#fff,stroke:#000
    style I fill:#fff,stroke:#000
    style J fill:#fff,stroke:#000
    style K fill:#fff,stroke:#000

FRP-250 Plumbing Diagram

Servend M-90 - FRP-250 Plumbing Diagram - 1

□ = WATER ◯ = SYRUP ◯ = FLAVOR SHOT

FRP-250 & FRP-250SCI Tubing Layout
Servend M-90 - FRP-250 Plumbing Diagram - 3

FT-8 Plumbing

FT-8
Recommended Plumbing
Servend M-90 - FT-8 Plumbing - 1

flowchart
graph TD
    A["Syrup 1"] --> B["Syrup 2"]
    B --> C["Syrup 3"]
    C --> D["Syrup 4"]
    D --> E["Syrup 5"]
    E --> F["Syrup 6"]
    F --> G["Syrup 7"]
    G --> H["Syrup 8"]
    H --> I["Water Valve"]
    I --> J["Plain Water Recirculation Connections"]
    K["Syrup Valves"] --> L["Syrup Injection Shroud Assembly"]
    M["Syrup 1"] --> N["Syrup 2"]
    O["Syrup 3"] --> P["Syrup 4"]
    Q["Syrup 4"] --> R["Syrup 5"]
    S["Syrup 5"] --> T["Syrup 6"]
    U["Syrup 6"] --> V["Syrup 7"]
    W["Syrup 7"] --> X["Syrup 8"]

Part No. 020000893 Revision No. 0

FT-12 Plumbing

Syrup 5 Syrup 6 Syrup 7 Syrup 8 Plain Water Recirculation Connections Syrup 4 Syrup 3 Syrup 2 Syrup 1 Syrup Valves Syrup Injection Shroud Assembly Syrup 9 Syrup 10 Syrup 11 Syrup 12 Water Valve Part No. 020000893 Revision No. 0

Servend M-90 - FT-12 Plumbing - 2

flowchart
graph TD
    A["Compressor"] --> B["Syrup 1"]
    A --> C["Syrup 2"]
    A --> D["Syrup 3"]
    A --> E["Syrup 4"]
    A --> F["Syrup 5"]
    A --> G["Syrup 6"]
    A --> H["Syrup 7"]
    A --> I["Syrup 8"]
    A --> J["Water Valve"]
    A --> K["Plain Water Recirculation Connections"]
    A --> L["Syrup Injection Shroud Assembly"]
    A --> M["Part No. 020000893 Revision No. 0"]

FlexTower Water Recirculation Pump Flow
Servend M-90 - FT-12 Plumbing - 3

flowchart
graph TD
    A["Inlet Potable Water Supply"] --> B["Pump"]
    B --> C["Non Carb MFT"]
    C --> D["Ice Drink Dispenser"]
    D --> E["Output"]
    B --> F["Feedback Loop"]
    F --> A

FlexTower Water Chiller Flow
Servend M-90 - FT-12 Plumbing - 4

flowchart
graph TD
    A["Inlet Potable Water Supply"] --> B["Pump"]
    B --> C["Non Carb MFT"]
    D["Refrigerated Cooler"] --> E["Plain Water Cooling Coil"]
    E --> B
    B --> F["Outlet"]

MDH-302 12 Valve Plumbing

Servend M-90 - MDH-302 12 Valve Plumbing - 1

flowchart
graph TD
    A["MDH-302 Left Hand Side Servend Recommended Plumbing"] --> B["Post-chill"]
    B --> C["Pre-chill"]
    C --> D["For Assistance (812) 246-7000"]
    D --> E["Carb Water (A) (See Note)"]

    F["MDH-302 Right Hand Side Servend Recommended Plumbing"] --> G["Post-chill"]
    G --> H["Pre-chill"]

    I["Inlet Lines"] --> J["Carb Water (A) (See Note)"]

    K["Note: Internally carbonated units - From carbonator pump to carbonator located on unit Externally carbonated units - From external carbonator to manifold."] --> L["Inlet Lines"]
    L --> M["Carb Water (A) (See Note)"]

    N["Note: Internally carbonated units - From carbonator pump to carbonator located on unit Externally carbonated units - From external carbonator to manifold."] --> O["Inlet Lines"]
    O --> P["Carb Water (A) (See Note)"]

    Q["Note: Inlet Lines"] --> R["Carb Water (A) (See Note)"]

    S["Internal Carbonated Units"] --> T["A = Plain Water to Carbonator"]
    S --> U["B = Carb Water from Internal Carbonator to Flex Manifold"]
    S --> V["C = Plain Water to Flex Manifold"]

    W["External Carbonated Units"] --> X["A = Plain Water to Remote Carbonator"]
    W --> Y["B = Carb Water from Remote Carbonator"]
    W --> Z["Pump Deck Tank (In)"]
    W --> AA["Pump Deck Tank (Out)"]
    W --> AB["C = Plain Water to Flex-Manifold"]

    AC["*Externally Carbonated Units* Carbonator Tank is Replace by By-pass Tube"] --> AD["A = Plain Water to Remote Carbonator"]
    AE["Externally Carbonated Units"] --> AF["A = Plain Water to Remote Carbonator"]
    AG["Externally Carbonated Units"] --> AH["A = Plain Water to Flex Manifold"]

    AI["Note: Syrup lines not shown."] --> AJ["Pre-chill"]
    AJ --> AK["Post-chill"]

    AL["Note: Syrup lines not shown."] --> AM["Post-chill"]

    AN["Note: Syrup lines not shown."] --> AO["Post-chill"]

    AP["Note: Syrup lines not shown."] --> AQ["Post-chill"]

    AR["Note: Syrup lines not shown."] --> AS["Post-chill"]

    AT["Note: Syrup lines not shown."] --> AU["Post-chill"]

    AV["Note: Syrup lines not shown."] --> AW["Post-chill"]

    AX["Note: Syrup lines not shown."] --> AY["Post-chill"]

    AZ["Note: Syrup lines not shown."] --> BA["Post-chill"]

    BB["Note: Syrup lines not shown."] --> BC["Post-chill"]

    BD["Note: Syrup lines not shown."] --> BE["Post-chill"]

    BF["Note: Syrup lines not shown."] --> BG["Post-chill"]

    BH["Note: Syrup lines not shown."] --> BI["Post-chill"]

    BJ["Note: Syrup lines not shown."] --> BK["Post-chill"]

    BL["Note: Syrup lines not shown."] --> BLA["Post-chill"]

    BM["Note: Syrup lines not shown."] --> BN["Post-chill"]

    BO["Note: Syrup lines not shown."] --> BP["Post-chill"]

    BQ["Note: Syrup lines not shown."] --> BR["Post-chill"]

    BS["Note: Syrup lines not shown."] --> BT["Post-chill"]

    BU["Note: Syrup lines not shown."] --> BV["Post-chill"]

    BW["Note: Syrup lines not shown."] --> BX["Post-chill"]

    BY["Note: Syrup lines not shown."] --> BZ["Post-chill"]

    CA["Note: Syrup lines not shown."] --> CB["Post-chill"]

    CC["Note: Syrup lines not shown."] --> CD["Post-chill"]

    CE["Note: Syrup lines not shown."] --> CF["Post-chill"]

    DG["Note: Syrup lines not shown."] --> DH["Post-chill"]

    DI["Note: Syrup lines not shown."] --> DJ["Post-chill"]

    DK["Note: Syrup lines not shown."] --> DL["Post-chill"]

    DV["Note: Syrup lines not shown."] --> DVAB["Post-chill"]

    DW["Note: Syrup lines not shown."] --> DWBC["Post-chill"]

    DX["Note: Syrup lines not shown."] --> DXAB["Post-chill"]

    DB["Note: Syrup lines not shown."] --> DBAB["Post-chill"]

    DCY["Note: Syrup lines not shown."] --> DZX["Post-chill"]

    DBZ["Note: Syrup lines not shown."] --> DBZAB["Post-chill"]

    DBY["Note: Syrup lines not shown."] --> DBYZ

MDH-402 16 Valve Plumbing

Servend M-90 - MDH-402 16 Valve Plumbing - 1

flowchart
graph TD
    A["Cold Carb MDH-402 16 Valve Servend Recommended Plumbing"] --> B["Manifold"]
    B --> C["Carbonator"]
    C --> D["Coldplate"]
    D --> E["For Assistance (812) 246-7000"]
    B --> F["Main"]
    C --> G["Main"]
    D --> H["Main"]
    style A fill:#f9f,stroke:#333
    style B fill:#ccf,stroke:#333
    style C fill:#cfc,stroke:#333
    style D fill:#fcc,stroke:#333
    style E fill:#ffc,stroke:#333

Servend M-90 - MDH-402 16 Valve Plumbing - 2

flowchart
graph TD
    A["Cold Carb MDH-402 16 Valve Servemd Recommended Plumbing"] --> B["Manifold"]
    B --> C["Coldplate"]
    C --> D["Carbonator"]
    style A fill:#f9f,stroke:#333
    style B fill:#ccf,stroke:#333
    style C fill:#cfc,stroke:#333
    style D fill:#fcc,stroke:#333

MDH-402 20 Valve Plumbing

Servend M-90 - MDH-402 20 Valve Plumbing - 1

flowchart
graph TD
    A["Cold Carb MDH-402 20 Valve Servend Recommended Plumbing"] --> B["Manifold"]
    B --> C["Carbonator"]
    B --> D["Coldplate"]
    D --> E["3-1-2-1-3 Flex Left to Right"]
    D --> F["For Assistance (812) 246-7000"]
    B --> G["A = Plain Water to Carbonator\nB = Plain Water to Manifold\nC = Carb Water to Manifold"]
    D --> H["Note: Syrup lines not shown."]

Servend M-90 - MDH-402 20 Valve Plumbing - 2

flowchart
graph TD
    A["Cold Carb MDH-402 20 Valve Servend Recommended Plumbing"] --> B["Manifold"]
    B --> C["Carbonator"]
    B --> D["Coldplate"]
    D --> E["3-1-2-1-3 Flex Left to Right"]
    D --> F["For Assistance (812) 246-7000"]
    B --> G["A = Plain Water to Carbonator\nB = Plain Water to Manifold\nC = Carb Water to Manifold"]
    D --> H["Note: Syrup lines not shown."]

S/SV150 6 Valve Diagram

PLUMBING: 2-1-1-2 MANIFOLDING
Servend M-90 - S/SV150 6 Valve Diagram - 1

flowchart
graph TD
    A["INTERNAL CARBONATOR TANK"] --> B["VALVES &quot;SYRUP LINES NOT SHOWN&quot;"]
    B --> C["VALVES CIRCUITS"]
    C --> D["PRE-CHILL OUT TO CARBONATOR"]
    C --> E["CARBONATOR OUT TO POST-CHILL"]
    D --> F["CO2"]
    E --> G["CO2"]
    F --> H["6"]
    F --> I["5"]
    F --> J["4"]
    F --> K["2 3 4"]
    F --> L["2"]
    F --> M["1"]
    G --> N["2"]
    G --> O["1"]
    G --> P["1"]
    G --> Q["2"]
    H --> R["Manifold: Change to carbonated or non-carbonated water."]
    I --> R
    J --> R
    K --> R
    L --> R
    M --> R
    N --> S["1,2 3 4 5,6"]
    O --> S
    P --> S
    Q --> S
    R --> T["1 - WATER (THRU COLDPLATE)"]
    R --> U["2 - SYRUP (AMBIENT)"]
    R --> V["3 - SYRUP (AMBIENT)"]
    R --> W["4 - SYRUP (THRU COLDPLATE)"]
    S --> X["Syrup Lines #1 #2 #3 #4 #5 #6"]
    T --> Y["Plain Water (Plain Water Supply)"]
    U --> Y
    V --> Y
    W --> Y
    X --> Z["COLD PLATE"]
    Y --> AA["Plain Water (From Pump to Carbonator)"]

* EXTERNALLY CARBONATED UNITS: CARBONATOR IS REPLACED BY BY-PASS TUBE FOR ASSISTANCE CALL (812) 246-7000

S/SV175 8 Valve Diagram

PLUMBING: 3-1-1-1-2 MANIFOLDING
Servend M-90 - S/SV175 8 Valve Diagram - 1

flowchart
graph TD
    A["INTERNAL CARBONATOR TANK (Optional)"] --> B["VALVES &quot;SYRUP LINES NOT SHOWN&quot;"]
    B --> C["8"]
    B --> D["7"]
    B --> E["6"]
    B --> F["5"]
    B --> G["2 4 3 1 4"]
    B --> H["3"]
    B --> I["2"]
    B --> J["1"]
    K["CARBONATOR OUT TO POST-CHILL"] --> L["CARBONATOR OUT TO POST-CHILL"]
    L --> M["VALVES 7,8 6 7 4"]
    L --> N["CIRCUITS 2"]
    L --> O["Manifold: Change to carbonated or non-carbonated water."]
    O --> P["1. Rotate plunger 180° using a 5/32&quot; Hex Key wrench."]
    O --> Q["2. Pull plunger up to get non-carbonated water."]
    O --> R["3. Push plunger down to get carbonated water."]
    O --> S["4. Turn plunger back 180° to lock."]
    O --> T["5. Port 5 is not used."]
    U["COLD PLATE"] --> V["Syrup Lines #1 #2 #3 #4 #5 #6"]
    U --> W["#7 #8"]
    X["“OPTIONAL” VARIETY VALVE ON #4"] --> Y["1 - WATER (THRU COLDPLATE)"]
    X --> Z["2 - SYRUP (AMBIENT)"]
    X --> AA["3 - SYRUP (AMBIENT)"]
    X --> AB["4 - SYRUP (THRU COLDPLATE)"]

* EXTERNALLY CARBONATED UNITS: CARBONATOR IS REPLACED BY BY-PASS TUBE FOR ASSISTANCE CALL (812) 246-7000

S/SV200/250/SV-250QD 8 Valve Diagram

PLUMBING: 3-1-1-1-2 MANIFOLDING
Servend M-90 - S/SV200/250/SV-250QD 8 Valve Diagram - 1

flowchart
graph TD
    A["VALVES"] --> B["8"]
    A --> C["7"]
    A --> D["6"]
    A --> E["5"]
    A --> F["4"]
    A --> G["3"]
    A --> H["2"]
    A --> I["1"]
    J["CARBONATOR OUT TO POST-CHILL"] --> K["CO2"]
    K --> L["PRE-CHILL OUT TO CARBONATOR"]
    L --> M["INTERNAL CARBONATOR TANK (Optional)"]
    M --> N["Syrup Lines #1 #2 #3 #4 #5 #6 #7 #8"]
    N --> O["COLD PLATE"]
    P["VALVES 1,2,3 4 5 6"] --> Q["Manifold: Change to carbonated or non-carbonated water."]
    Q --> R["1. Rotate plunger 180° using a 5/32&quot; Hex Key wrench."]
    Q --> S["2. Pull plunger up to get non-carbonated water."]
    Q --> T["3. Push plunger down to get carbonated water."]
    Q --> U["4. Turn plunger back 180° to lock."]
    Q --> V["5. Port 5 is not used."]
    W["Plain Water (Plain Water Supply)"] --> X["Plain Water (From Pump to Carbonator)"]
    Y["*OPTIONAL* VARIETY VALVE ON #4"] --> Z["1 - WATER (THRU COLDPLATE)"]
    Y --> AA["2 - SYRUP (AMBIENT)"]
    Y --> AB["3 - SYRUP (AMBIENT)"]
    Y --> AC["4 - SYRUP (THRU COLDPLATE)"]

S/SV200/250 10 Valve Diagram

PLUMBING: 3-1-2-1-3 MANIFOLDING
Servend M-90 - S/SV200/250 10 Valve Diagram - 1

flowchart
graph TD
    A["VALVES 10"] --> B["CIRCUITS 3"]
    C["VALVES 9"] --> B
    D["VALVES 8"] --> B
    E["VALVES 7"] --> F["CIRCUITS 1"]
    G["VALVES 6"] --> H["CIRCUITS 2"]
    I["VALVES 5"] --> J["CIRCUITS 1"]
    K["VALVES 4"] --> L["CIRCUITS 3"]
    M["VALVES 3"] --> N["CIRCUITS 2"]
    O["VALVES 2"] --> P["CIRCUITS 1"]
    Q["VALVES 1"] --> R["CIRCUITS 3"]
    S["VALVES 1"] --> T["CIRCUITS 1"]
    U["VALVES 1"] --> V["CIRCUITS 3"]
    W["VALVES 1"] --> X["CIRCUITS 1"]
    Y["VALVES 1"] --> Z["CIRCUITS 3"]
    AA["VALVES 1"] --> AB["CIRCUITS 1"]
    AC["VALVES 1"] --> AD["CIRCUITS 3"]
    AE["VALVES 1"] --> AF["CIRCUITS 1"]
    AG["VALVES 1"] --> AH["CIRCUITS 3"]
    AI["VALVES 1"] --> AJ["CIRCUITS 1"]
    AK["VALVES 1"] --> AL["CIRCUITS 3"]
    AM["VALVES 1"] --> AN["CIRCUITS 1"]
    AO["VALVES 1"] --> AP["CIRCUITS 3"]
    AQ["VALVES 1"] --> AR["CIRCUITS 1"]
    AS["VALVES 1"] --> AT["CIRCUITS 3"]
    AU["VALVES 1"] --> AV["CIRCUITS 1"]
    AW["VALVES 1"] --> AX["CIRCUITS 3"]
    AY["VALVES 1"] --> AZ["CIRCUITS 1"]
    BA["VALVES 1"] --> BB["CIRCUITS 3"]
    BC["VALVES 1"] --> BD["CIRCUITS 1"]
    BE["VALVES 1"] --> BF["CIRCUITS 3"]
    BG["VALVES 1"] --> BH["CIRCUITS 1"]
    BI["VALVES 1"] --> BJ["CIRCUITS 3"]
    BK["VALVES 1"] --> BL["CIRCUITS 1"]
    BM["VALVES 1"] --> BN["CIRCUITS 3"]
    BO["VALVES 1"] --> BP["CIRCUITS 1"]
    BQ["VALVES 1"] --> BR["CIRCUITS 3"]
    BS["VALVES 1"] --> BT["CIRCUITS 1"]
    BU["VALVES 1"] --> BV["CIRCUITS 3"]
    BW["VALVES 1"] --> BX["CIRCUITS 1"]
    BY["VALVES 1"] --> BZ["CIRCUITS 3"]
    CA["VALVES 1"] --> CB["CIRCUITS 1"]
    CC["VALVES 1"] --> CD["CIRCUITS 3"]
    DE["VALVES 1"] --> DF["CIRCUITS 1"]
    DG["VALVES 1"] --> DH["CIRCUITS 3"]
    DI["VALVES 1"] --> DJ["CIRCUITS 1"]
    DK["VALVES 1"] --> DL["CIRCUITS 3"]
    DM["VALVES 1"] --> DN["CIRCUITS 1"]
    DO["VALVES 1"] --> DOB["CIRCUITS 3"]
    DP["VALVES 1"] --> DR["CIRCUITS 1"]
    DS["VALVES 1"] --> DSB["CIRCUITS 3"]
    DSQ["VALVES 1"] --> DSQB["CIRCUITS 1"]
    DSR["VALVES 1"] --> DSRQ["CIRCUITS 3"]

NGF-250 & NGF-250QD 8 Valve Diagram

w/1 Variety Vlv Standard No Variety Vlv Valves Variety Valve Keypad Variety Valve Block W-Water 3-Flavor 2-Flavor 1-Flavor CO₂ Internal Carbonator Tank (Temporary) CO2 Circuit 1 1 1 1 1 1 Synp #12 Synp #11 Synp #10 Synp #9 Synp #8 Synp #7 Synp #6 Synp #5 Synp #4 Synp #3 Synp #2 Plain Water to Carbonator Plain Water to Carbonator w/2 Variety Vlvs w/3 Variety Vlvs w/1 w/2 w/3 *A & *B are ambient syrup lines added for the 3rd variety valve. Line to be plug when not in use. Syrup line (5#)Carb only line (C)Manifold line (WC) * Externally carbonated units: carbonator tank is replaced by by-pass tube For assistance call (512) 246 7000 020002170 REV. B

Flex Manifold Diagrams

FLEX MANIFOLD — 6 VALVE

Operation: Manifold to Change to Carbonated or Non-carbonated water 1. Rotate plunger 180° using a 5/32" allen wrench. 2. Pull plunger up to get non-carb water. Push plunger down to get carb. water. 3. Turn plunger back 180° to lock. Valves 5,6 4 3 1,2 Carb Water Plain Water PN#: 5010331-2

NOTE: 12 valve 302 units use 1 per side.

FLEX MANIFOLD — 8 VALVE

Operation: Manifold to Change to Carbonated or Non-carbonated water 1. Rotate plunger 180° using a 5/32" allen wrench. 2. Pull plunger up to get non-carb water. Push plunger down to get carb. water. 3. Turn plunger back 180° to lock. Valves 7,8 6 5 4 1 Carb Water Plain Water PN#: 5010131-2

NOTE: 16 valve 402 units use 1 per side.

FLEX MANIFOLD — 10 VALVE

Operation: Manifold to Change to Carbonated or Non-carbonated water 1. Rotate plunger 180° using a 5/32" allen wrench. 2. Pull plunger up to get non-carb water. Push plunger down to get carb. water. 3. Turn plunger back 180° to lock. Valves 8,9,10 7 5,6 4 1,2, 3 ↑ Carb Water ↓ Plain Water PN#: 5010676-

NOTE: 20 valve 402 units use 1 per side.

CEV Wiring

CEV-30i & 40i 115V 60HZ

Servend M-90 - CEV-30i &amp; 40i 115V 60HZ - 1

flowchart
graph TD
    A["CEV-30 & CEV-40 Internal Carbonation 115 Volt 60 Hz Wiring Diagram"] --> B["Lamp Starter"]
    B --> C["Merchandiser Lamp"]
    C --> D["Optional Light Kit"]
    D --> E["Ice Bank Probe"]
    E --> F["Carb Tank"]
    F --> G["Carb Pump Motor"]
    G --> H["O.L. Protector"]
    H --> I["Compressor"]
    I --> J["Key Switch"]
    J --> K["Agitation Motor"]
    K --> L["Transformer"]
    L --> M["Line Transformer"]
    M --> N["Line"]
    N --> O["Line"]
    O --> P["Line"]
    P --> Q["Line"]
    Q --> R["Line"]
    R --> S["Line"]
    S --> T["Line"]
    T --> U["Line"]
    U --> V["Line"]
    V --> W["Line"]
    W --> X["Line"]
    X --> Y["Line"]
    Y --> Z["Line"]
    Z --> AA["Line"]
    AA --> AB["Line"]
    AB --> AC["Line"]
    AC --> AD["Line"]
    AD --> AE["Line"]
    AE --> AF["Line"]
    AF --> AG["Line"]
    AG --> AH["Line"]
    AH --> AI["Line"]
    AI --> AJ["Line"]
    AJ --> AK["Line"]
    AK --> AL["Line"]
    AL --> AM["Line"]
    AM --> AN["Line"]
    AN --> AO["Line"]
    AO --> AP["Line"]
    AP --> AQ["Line"]
    AQ --> AR["Line"]
    AR --> AS["Line"]
    AS --> AT["Line"]
    AT --> AU["Line"]
    AU --> AV["Line"]

Servend M-90 - CEV-30i &amp; 40i 115V 60HZ - 2

flowchart
graph TD
    A["CEV-30 & CEV-40 External Carbonation & Non-carbonated 115 Volt 60 Hz Wiring Diagram"] --> B["Lamp Starter"]
    B --> C["Merchandiser Lamp"]
    C --> D["Optional Light Kit"]
    D --> E["Ice Bank Probe"]
    E --> F["White Black Green"]
    F --> G["Black Black"]
    G --> H["Transformer Light Kit"]
    H --> I["Fan Motor"]
    I --> J["O.L. Protector"]
    J --> K["Current Relay"]
    K --> L["Compressor"]
    L --> M["Key Switch"]
    M --> N["Agitation Motor"]
    N --> O["Line Transformer"]
    O --> P["Line"]
    P --> Q["Caution: Electrical Shock Hazard Disconnect Power Before Servicing"]
    Q --> R["Beverage Valves Beverage Valves"]
    style A fill:#f9f,stroke:#333
    style B fill:#ccf,stroke:#333
    style C fill:#cfc,stroke:#333
    style D fill:#fcc,stroke:#333
    style E fill:#cff,stroke:#333
    style F fill:#ffc,stroke:#333
    style G fill:#cfc,stroke:#333
    style H fill:#fcc,stroke:#333
    style I fill:#ffc,stroke:#333
    style J fill:#cfc,stroke:#333
    style K fill:#fcc,stroke:#333
    style L fill:#ffc,stroke:#333
    style M fill:#cfc,stroke:#333
    style N fill:#fcc,stroke:#333
    style O fill:#ffc,stroke:#333
    style P fill:#cfc,stroke:#333
    style Q fill:#fcc,stroke:#333
    style R fill:#cfc,stroke:#333

Servend M-90 - CEV-30i &amp; 40i 115V 60HZ - 3

flowchart
graph TD
    A["208/230 Volts 60 Hz"] --> B["Power Line"]
    B --> C["Switch (On) (Off)"]
    C --> D["Lamp Starter"]
    D --> E["Merchandiser Lamp"]
    E --> F["Optional Light Kit"]
    F --> G["Ice Bank Probe"]
    G --> H["Carb Tank Probe"]
    H --> I["Carb Pump Motor"]
    I --> J["O.L. Protector"]
    J --> K["Compressor"]
    K --> L["Start Capacitor"]
    L --> M["Current Relay"]
    M --> N["Black"]
    N --> O["Agitation Motor"]
    O --> P["Transformer"]
    P --> Q["Key Switch"]
    Q --> R["Beverage Valves"]
    R --> S["(Ground)"]
    T["Caution"] --> U["Electrical Shock Hazard Disconnect Power Before Servicing"]
    V["Blue"] --> W["Line"]
    W --> X["Load"]
    X --> Y["Yellow"]
    Y --> Z["Blue"]
    AA["Brown"] --> AB["Bus"]
    AC["Green/Yellow"] --> AD["Power Line"]
    AE["Black"] --> AF["Black"]
    AG["White"] --> AH["White"]
    AI["Carbonator"] --> AJ["Carbonator"]
    AK["(On) (Off)"] --> AL["(On) (Off)"]
    AM["(On) (Off)"] --> AN["(On) (Off)"]
    AO["(On) (Off)"] --> AP["(On) (Off)"]
    AQ["(On) (Off)"] --> AR["(On) (Off)"]
    AS["Compressor"] --> AT["Transformer Light Kit Fan Compressor"]
    AU["(Carbonator)"] --> AV["Carbonator"]
    AW["(Block"] --> AX["Black"]
    AY["White"] --> AZ["Black"]
    BA["Green"] --> BB["Green"]
    BC["Ice Control"] --> BD["White"]
    BE["Bone"] --> BF["Black"]
    BG["Bone"] --> BH["Black"]

CEV-30 & CEV-40 External Carbonation & Non-carbonation 208/230 Volt 60 Hz Wiring Diagram
Servend M-90 - CEV-30i &amp; 40i 115V 60HZ - 4

flowchart
graph TD
    A["Merchandiser Lamp"] --> B["Lamp Starter"]
    B --> C["Power Line"]
    C --> D["Transformer"]
    D --> E["Agitation Motor"]
    E --> F["Transformer"]
    F --> G["Key Switch"]
    G --> H["Beverage Valves"]
    H --> I["Compressor"]
    I --> J["O.L. Protector"]
    J --> K["Start Capacitor"]
    K --> L["Current Relay"]
    L --> M["Black Black"]
    M --> N["Fan Motor"]
    N --> O["Carbonator (Not Used)"]
    O --> P["Ice Control"]
    P --> Q["White"]
    Q --> R["Green"]
    R --> S["Black"]
    S --> T["White"]
    T --> U["Blue"]
    U --> V["Power Line"]
    V --> W["Switch"]
    W --> X["Color/Red"]
    X --> Y["Black"]
    Y --> Z["White"]
    Z --> AA["Blue"]
    AA --> AB["Power Line"]
    AB --> AC["Transformer"]
    AC --> AD["Agitation Motor"]
    AD --> AE["Carbonator (Not Used)"]
    AE --> AF["Ice Bank Probe"]
    AF --> AG["White"]
    AG --> AH["Green"]
    AH --> AI["Black"]
    AI --> AJ["White"]
    AJ --> AK["Blue"]
    AK --> AL["Power Line"]
    AL --> AM["Switch"]
    AM --> AN["Color/Red"]
    AN --> AO["Black"]
    AO --> AP["White"]
    AP --> AQ["Blue"]
    AQ --> AR["Power Line"]
    AR --> AS["Transformer"]
    AS --> AT["Agitation Motor"]
    AT --> AU["Carbonator (Not Used)"]
    AU --> AV["Ice Control"]
    AV --> AW["White"]
    AW --> AX["Green"]
    AX --> AY["Black"]
    AY --> AZ["White"]
    AZ --> BA["Blue"]
    BA --> BB["Power Line"]

Servend M-90 - CEV-30i &amp; 40i 115V 60HZ - 5

flowchart
graph TD
    A["220/240 Volts 50 Hz"] --> B["Power Line"]
    B --> C["Switch (On) (Off)"]
    C --> D["Compressor (On) (Off)"]
    D --> E["Transformer (Light Kit Fan Compressor)"]
    E --> F["Carbonator (Not Used)"]
    F --> G["Ice Control"]
    G --> H["Carb Tank"]
    H --> I["Carb Pump Motor"]
    I --> J["O.L. Protector"]
    J --> K["Current Relay"]
    K --> L["Start Capacitor"]
    L --> M["Compressor"]
    M --> N["Key Switch"]
    N --> O["Beverage Valves Beverage Valves"]
    P["Line"] --> Q["Load"]
    Q --> R["Transformer"]
    R --> S["Agitation Motor"]
    S --> T["Black Black Fan Motor"]
    T --> U["Carbonator"]
    U --> V["Ice Bank Probe"]
    V --> W["Water"]
    X["Electrician Shock Hazard Disconnect Power Before Servicing"] --> Y["Caution"]
    style A fill:#f9f,stroke:#333
    style P fill:#ccf,stroke:#333
    style N fill:#cfc,stroke:#333
    style O fill:#fcc,stroke:#333
    style Y fill:#ffc,stroke:#333

CEV-30 & CEV-40 External Carbonation & Non-carbonation 220/240 Volt 50 Hz Wiring Diagram
Servend M-90 - CEV-30i &amp; 40i 115V 60HZ - 6

flowchart
graph TD
    A["Merchandiser Lamp"] --> B["Lamp Starter"]
    B --> C["Power Line"]
    C --> D["Transformer"]
    D --> E["Agitation Motor"]
    E --> F["Transformer"]
    F --> G["Key Switch"]
    G --> H["Beverage Valves"]
    H --> I["Compressor"]
    I --> J["O.L. Protector"]
    J --> K["Current Relay"]
    K --> L["Start Capacitor"]
    L --> M["Compressor"]
    M --> N["Ice Bank Probe"]
    N --> O["White Black Green"]
    O --> P["Ice Control"]
    P --> Q["Carbonator (Not Used)"]
    Q --> R["Light Kit"]
    R --> S["Compressor"]
    S --> T["Carbonator (Not Used)"]
    T --> U["Transformer"]
    U --> V["Agitation Motor"]
    V --> W["Agitation Motor"]
    W --> X["Line Load"]
    X --> Y["Brown Blue Yellow"]
    Y --> Z["Brown White"]
    Z --> AA["Brown Blue"]
    AA --> AB["Brown Yellow"]
    AB --> AC["Brown Blue"]
    AC --> AD["Brown Yellow"]
    AD --> AE["Brown Blue"]
    AE --> AF["Brown Yellow"]
    AF --> AG["Brown Blue"]
    AG --> AH["Brown Yellow"]
    AH --> AI["Brown Blue"]
    AI --> AJ["Brown Yellow"]
    AJ --> AK["Brown Blue"]
    AK --> AL["Brown Yellow"]
    AL --> AM["Brown Blue"]
    AM --> AN["Brown Yellow"]
    AN --> AO["Brown Blue"]
    AO --> AP["Brown Yellow"]
    AP --> AQ["Brown Blue"]
    AQ --> AR["Brown Yellow"]
    AR --> AS["Brown Blue"]
    AS --> AT["Brown Yellow"]
    AT --> AU["Brown Blue"]
    AU --> AV["Brown Yellow"]
    AV --> AW["Brown Blue"]
    AW --> AX["Brown Yellow"]
    AX --> AY["Brown Blue"]
    AY --> AZ["Brown Yellow"]
    AZ --> BA["Brown Blue"]
    BA --> BB["Brown Yellow"]
    BB --> BC["Brown Blue"]
    BC --> BD["Brown Yellow"]
    BD --> BE["Brown Blue"]
    BE --> BF["Brown Yellow"]
    BF --> BG["Brown Blue"]
    BG --> BH["Brown Yellow"]
    BH --> BI["Brown Blue"]
    BI --> BJ["Brown Yellow"]
    BJ --> BK["Brown Blue"]
    BK --> BL["Brown Yellow"]
    BL --> BM["Brown Blue"]
    BM --> BN["Brown Yellow"]
    BN --> BO["Brown Blue"]
    BO --> BP["Brown Yellow"]
    BP --> BQ["Brown Blue"]
    BQ --> BR["Brown Yellow"]
    BR --> BS["Brown Blue"]
    BS --> BT["Brown Yellow"]
    BT --> BU["Brown Blue"]
    BU --> BV["Brown Yellow"]
    BV --> BW["Brown Blue"]
    BW --> BX["Brown Yellow"]
    BX --> BY["Brown Blue"]
    BY --> BZ["Brown Yellow"]
    BZ --> CA["Brown Blue"]
    CA --> CB["Brown Yellow"]
    CB --> CC["Brown Blue"]
    CC --> CD["Brown Yellow"]
    CD --> CE["Brown Blue"]
    CE --> CF["Brown Yellow"]
    CF --> CG["Brown Blue"]
    CG --> CH["Brown Yellow"]
    CH --> CI["Brown Blue"]
    CI --> CJ["Brown Yellow"]
    CJ --> CK["Brown Blue"]
    CK --> CL["Brown Yellow"]
    CL --> CM["Brown Blue"]
    CM --> CN["Brown Yellow"]
    CN --> COB["Brown Blue"]
    COB --> CPB["Brown Yellow"]
    CPB --> CCB["Brown Blue"]
    CCB --> CDB["Brown Yellow"]
    CDB --> CEB["Brown Blue"]
    CEB --> CFB["Brown Yellow"]

CF Drop-In Series Wiring

CF-1522 115V

VALVE CONNECTION 3.5V ON 1000 W/N TRANSFORMER RESET BREAKER (N/A ON 100+) TAI TRANSFORMER CAUTION: MAXIMUM RECEPTACLE LOAD IS 2 AMPS. TO RESET TRANSFORMER: (116 VOLT UNITS ONLY) 1. DISOCONNECT POWER SUPPLY, 2. REMOVE ELECTRICAL BOX COVER, 3. PRESS RESET BREAKER SWITCH ON TRANSFORMER, 4. REPLACE ELECTRICAL BOX COVER, 5. REOCONNECT POWER SUPPLY. GROUND 116V POWER SUPPLY DI-SERIES 020002471

Drop-in Wiring

DI-SERIES IC 110V

Valve Connection Ground to Unit Key Switch Black White Green Carbonator Pump Motor Optional CO2 Alarm White Black CO2 Sensor Black Green White Black Soxet Plug 115V Outlet Optional Light Kit Starter Base Barlast Run Down PVC Pipe Light Socket (Typ. 2) 75VA Transformer Transformer Reset Breaker (N/A on 100V) Green Black White 115V Power Supply To Reset Transformer (115 Volt Unit Only) 1. Disconnect power supply. 2. Remove electrical box cover. 3. Press reset breaker switch on transformer. 4. Replace electrical box cover. 5. Reconnect power supply. Caution Maximum Receptacle Load Is 10 amps.

DI-SERIES IC 220-230V

Ground to Unit Valve Connection Key Switch Black White Black Green Back Carbonator Pump Motor 220V Outlet Optional CO₂ Alarm White Black CO₂ Sensor Back Green White Black Socket Plug Clear Yellow Yellow Green/Yellow Blue Blue Light Socket (Typ. 2) Starter Base Ballast Run Down PVC Pipe Cord Restraint Transformer Reset Breaker (N/A on 100V) 75VA Transformer Terminal Block Brown Blue Green/ Yellow 220/240V Power Supply (Cord Not Included) To Reset Transformer (115 Volt Unit Only) 1. Disconnect power supply. 2. Remove electrical box cover. 3. Press reset breaker switch on transformer. 4. Replace electrical box cover. 5. Reconnect power supply. Caution Maximum Receptacle Load Is 10 amps.

DI-SERIES AMBIENT 110V

Valve Connection Ground to Unit Key Switch Black Black Green Optional Door Switch Run Down PVC Pipe Run Down PVC Pipe Ballast Optional Light Kit Starter Base Light Socket (Typ. 2) 110V Outlet Caution Maximum Receptacle Load Is 10 amps. Transformer Reset Breaker (N/A on 100V) 75VA Transformer White Black Yellow Green Green White Black To Reset Transformer (115 Volt Unit Only) 1. Disconnect power supply. 2. Remove electrical box cover. 3. Press reset breaker switch on transformer. 4. Replace electrical box cover. 5. Reconnect power supply.

DI-SERIES AMBIENT 220-230V

CO₂ Alarm Light (Optional) Valve Connection CO₂ Sensor (Optional) Rik Bik Cir-Yel Key Switch Run Down PVC Pipe Ballast Light Socket (Typ. 2) Starter Base Optional Light Kit Cord Supplied by Customer Ground White Black White Yellow White White Black Power Supply Terminal Strip Transformer Reset Breaker (N/A on 100V) 75VA Transformer 75VA Cord Restraint

Flavor Magic Wiring
Servend M-90 - DI-SERIES AMBIENT 220-230V - 2

flowchart
graph TD
    A["Keypad 4 Button 5 Pin FM"] --> B["Harness Control Brd Pol FM"]
    B --> C["Prog Button"]
    C --> D["1234 LED Display"]
    E["115V Primary Transformer Secondary 24V"] --> F["Harness Power 24V FM"]
    F --> G["Harness 24LV FM"]
    G --> H["Dual Solenoid Valve Assembly"]
    G --> I["Dual Solenoid Valve Assembly"]

Flav'R-Pic (FRP-250) Wiring

FRP-250 (NON-CRUSHER) WIRING DIAGRAM

CAUTION ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING PN# 020002260-0 115 VOLT BLACK LIGHT RCD WOLET STARTER/ STR BASE RED WHITE BALLAST AQTARON THER YELLOW BLACK WHITE WHITE ACRYATOR SWITCH CON NO NO BLUE WHITE BLACK WHITE POWER CORD AGRIATOR MOTOR WHIPLOWER LINE LOAD BLACK WHITE WHITE SYNC 24VAC CONTROL BOARD LEFT SIDE SYNC 24VAC CONTROL BOARD RIGHT SIDE K(Y)SWITCH-1 WHITE CAPPED BLACK Blue 15mF 50 V BLACK GREEN EMPTY LIGHT (OP PIONAL) TO RESET TRANSFORMER: 1. DISCONNECT POWER SUPPLY. 2. PRESS RESET BREAKER SWITCH ON BOTTOM OF TRANSFORMER. 3. RECONNECT POWER SUPPLY.

FRP-250SCI WIRING DIAGRAM

Caution Electrical Shock Hazard Disconnect Power Before Servicing PN# 020001892-1 115 Volt Black Violet Red White Violet Red White Red Black Red Light Starter/Str Base Black White Black Black White Black Control Board Agitation Motor Jed (Cubed) Red (Crushed) Crusher Motor Transformer Line Load Black Black White White White White White Power Cord White White Blue White Blue White Blue Capped Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black White Reelay 3 cubed crushed Yellow BROWN Keypad Activation Switch Safety Switch Blue Blue Blue Blue Blue Cycapitor White Crusher Motor Capped Agitator Motor 33mF 50V White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White White white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white white black Ballast Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red Black Red

FlexTower Wiring

FT-8 WIRING DIAGRAM

FT - 8 24 Volts 60/50 Hz Wiring Diagram Quick Disconnect Syrup Valve (4) Total On/Off Switch (6nd) 24 Volt Supply Cord External Power Supply 120 Volt Power Supply Cord Circuit Board S1 - S2 Valve Connection S3 - S4 Valve Connection Not Used S9 - S10 Valve Connection S11 - S12 Valve Connection Not Used Water Valve Connection Water Valve Connection Left Touchpad Activation Connection Left Touchpad LED Connection Right Touchpad Activation Connection Right Touchpad LED Connection High Intensity LED Lights Connection Circuit Board Detail Part No. 020000895 Revision No. 0

FT-12 WIRING DIAGRAM

FT - 12 24 Volts 60/50 Hz Wiring Diagram Quick Disconnect On/Off Switch (Grid) External Power Supply 120 Volt Power Supply Cord Circuit Board Water Valve Touchpad (Left) Touchpad (Right) High Intensity LED Lights Syrup Valve (6) Total S1 - S2 Valve Connection S3 - S4 Valve Connection S5 - S6 Valve Connection S7 - S8 Valve Connection S9 - S10 Valve Connection S11 - S12 Valve Connection Connection Not Used Water Valve Connection S12 - S13 Valve Connection S14 - S15 Valve Connection S16 - S17 Valve Connection S18 - S19 Valve Connection S20 - S21 Valve Connection S22 - S23 Valve Connection S24 - S25 Valve Connection S26 - S27 Valve Connection S28 - S28 Valve Connection S30 - S29 Valve Connection S32 - S30 Valve Connection S34 - S31 Valve Connection S36 - S32 Valve Connection S38 - S33 Valve Connection S40 - S41 Valve Connection S42 - S42 Valve Connection S44 - S43 Valve Connection S46 - S44 Valve Connection S48 - S45 Valve Connection S50 - S46 Valve Connection S52 - S47 Valve Connection S54 - S48 Valve Connection S56 - S49 Valve Connection S58 - S50 Valve Connection S60 - S51 Valve Connection S62 - S52 Valve Connection S64 - S53 Valve Connection S66 - S54 Valve Connection S68 - S55 Valve Connection S70 - S56 Valve Connection S72 - S57 Valve Connection S74 - S58 Valve Connection S76 - S59 Valve Connection S78 - S60 Valve Connection S80 - S61 Valve Connection S82 - S62 Valve Connection S84 - S63 Valve Connection S86 - S64 Valve Connection S88 - S65 Valve Connection S90 - S66 Valve Connection S92 - S67 Valve Connection S94 - S68 Valve Connection S96 - S69 Valve Connection S98 - S70 Valve Connection S100 - S71 Valve Connection S102 - S72 Valve Connection S104 - S73 Valve Connection S106 - S74 Valve Connection S108 - S75 Valve Connection S110 - S76 Valve Connection S112 - S77 Valve Connection S114 - S78 Valve Connection S116 - S79 Valve Connection S118 - S80 Valve Connection S120 - S81 Valve Connection Circuit Board Detail Part No. 020000894 Revision No. 0

FT-16 WIRING DIAGRAM

MFT - 16 24 Volts 60/50 Hz Wiring Diagram Quick Disconnect Syrup Valve (8) Total On/Off Switch Rout Vine (Gand) 24 Volt Supply Cord External Power Supply 120 Volt Power Supply Cord Circuit Board White Red White Water Valve Touchpad (Left) Touchpad (Right) High Intensity LED Lights S1 - S2 Valve Connection S3 - S4 Valve Connection S5 - S6 Valve Connection S7 - S8 Valve Connection S9 - S10 Valve Connection S11 - S12 Valve Connection S13 - S14 Valve Connection S15 - S16 Valve Connection 24 Volt Inlet Power Connection Water Valve Connection Left Touchpad Activation Connection High Intensity LED Lights Connection Left Touchpad LED Connection Right Touchpad Activation Connection Right Touchpad LED Connection Circuit Board Detail Part No. 020000726 Revision No. 0

FLEXTOWER POWER SUPPLY

120 Volt Duplex Receptacle Transformer Line Black Load Yellow Load Yellow Line White Black White Green 120 Volt Connection Receptacle Green Yellow Yellow White Black Green 120 Volt AC Power Supply Caution: Maximum Receptacle Load is 8 amps PST - SERIES 020000571 - 6

MDH-302 & MDH-402 Wiring

MDH 302 115V WIRING DIAGRAM

Servend M-90 - MDH 302 115V WIRING DIAGRAM - 1

flowchart
graph TD
    subgraph MDH-302-CI/SCI 115 Volt Routing
        direction TB
        A["Capacitor"] --> B["Ice Crusher Motor"]
        B --> C["Red"]
        B --> D["White"]
        E["Black"] --> F["White"]
        G["White"] --> H["White"]
        I["Red"] --> J["White"]
        K["White"] --> L["White"]
        M["Blue"] --> N["Black"]
        O["Blue"] --> P["Black"]
        Q["Blue"] --> R["Black"]
        S["Blue"] --> T["Black"]
        U["Blue"] --> V["Black"]
        W["Blue"] --> X["Black"]
        Y["Blue"] --> Z["Black"]
        AA["White"] --> AB["White"]
        AC["White"] --> AD["White"]
        AE["White"] --> AF["White"]
        AG["White"] --> AH["White"]
        AI["White"] --> AJ["White"]
        AK["White"] --> AL["White"]
        AM["White"] --> AN["White"]
        AO["White"] --> AP["White"]
        AQ["White"] --> AR["White"]
        AS["White"] --> AT["White"]
        AU["White"] --> AV["White"]
        AW["White"] --> AX["White"]
        AY["Capacitor"] --> AZ["Ice Crusher Motor"]
        BA["Blood"] --> BB["Ice Crusher Motor"]
        BC["Blood"] --> BD["Ice Crusher Motor"]
        BE["Blood"] --> BF["Ice Crusher Motor"]
        BG["Blood"] --> BH["Ice Crusher Motor"]
        BI["Blood"] --> BJ["Ice Crusher Motor"]
        BK["Blood"] --> BL["Ice Crusher Motor"]
        BM["Blood"] --> BN["Ice Crusher Motor"]
        BO["Blood"] --> BP["Ice Crusher Motor"]
        BQ["Blood"] --> BR["Ice Crusher Motor"]
        BS["Blood"] --> BT["Ice Crusher Motor"]
        BU["Blood"] --> BV["Ice Crusher Motor"]
        BW["Blood"] --> BX["Ice Crusher Motor"]
        BY["Blood"] --> BZ["Ice Crusher Motor"]
        CA["Blood"] --> CB["Ice Crusher Motor"]
        CC["Blood"] --> CD["Ice Crusher Motor"]
        DD["Blood"] --> DE["Ice Crusher Motor"]
        FD["Blood"] --> FDZ["Ice Crusher Motor"]
        DG["Blood"] --> DGZ["Ice Crusher Motor"]
        DH["Blood"] --> DHZ["Ice Crusher Motor"]
        DI["Blood"] --> DJ["Ice Crusher Motor"]
        DK["Blood"] --> DKZ["Ice Crusher Motor"]
        DL["Blood"] --> DLZ["Ice Crusher Motor"]
        DN["Blood"] --> DNZ["Ice Crusher Motor"]
        DOB["Blood"] --> DOC["Ice Crusher Motor"]
        DZ["Blood"] --> DZZ["Ice Crusher Motor"]
        DBB["Blood"] --> DBC["Ice Crusher Motor"]
        DBX["Blood"] --> DBY["Ice Crusher Motor"]
        DBZ["Blood"] --> DBZZ["Ice Crusher Motor"]
        DBY["Blood"] --> DBYZ["Ice Crusher Motor"]
        DBZ["Blood"] --> DBYZZ["Ice Crusher Motor"]
        DBYZ["Blood"] --> DBYZA["Ice Crusher Motor"]
    end

    subgraph Optional Merchandising Lamp
        direction TB
        F1["Red"] --> G1["Black"]
        F2["Purple"] --> G2["Purple"]
        G1["Purple"] --> H1["Purple"]
        G2["Purple"] --> H2["Purple"]
        H1["Purple"] --> I1["Purple"]
        H2["Purple"] --> I2["Purple"]
        H1["Purple"] --> J1["Purple"]
        H2["Purple"] --> J2["Purple"]
        J1["Purple"] --> K1["Purple"]
        J2["Purple"] --> K2["Purple"]
        K1["Purple"] --> L1["Purple"]
        K2["Purple"] --> L2["Purple"]
        L1["Purple"] --> M1["Magenta Box"]
        L2["Purple"] --> M2["Magenta Box"]
        M1["Magenta Box"] --> N1["Negative Electrical Box"]
    end

    subgraph Right Side Electrical Box
        direction TB
        O1["Red"] --> P1["Purple"]
        O2["Purple"] --> P2["Purple"]
        P1["Purple"] --> Q1["Black Black"]
        P2["Purple"] --> Q2["Black Black"]
        Q1["Purple"] --> R1["Black White"]
        Q2["Purple"] --> R2["Black White"]
        R1["Purple"] --> S1["Black White"]
    end

    subgraph Right Motor
            O3["Blue"] --> P3["Yellow"]
            P4["Blue"] --> P5["Black Common"]
            P6["Blue"] --> P7["Black Common"]
            P8["Blue"] --> P9["Blue Common"]
            P10["Blue"] --> P11["Blue Common"]
            P12["Blue"] --> P13["Blue Common"]
            P14["Blue"] --> P15["Blue Common"]
            P16["Blue"] --> P17["Blue Common"]
            P18["Blue"] --> P19["Blue Common"]
            P20["Blue"] --> P21["Blue Common"]
            P22["Blue"] --> P23["Blue Common"]
            P24["Blue"] --> P25["Blue Common"]
            P26["Blue"] --> P27["Blue Common"]
            P28["Blue"] --> P29["Blue Common"]
            P30["Blue"] --> P31["Blue Common"]
            P32["Blue"] --> P33["Blue Common"]
            P34["Blue"] --> P35["Blue Common"]
            P36["Blue"] --> P37["Blue Common"]
            P38["Blue"] --> P39["Blue Common"]
            P40["Blue"] --> P41["Blue Common"]
            P42["Blue"] --> P43["Blue Common"]
            P44["Blue"] --> P45["Blue Common"]
            P46["Blue"] --> P47["Blue Common"]
            P48["Blue"] --> P49["Blue Common"]
            P50["Blue"] --> P51["Blue Common"]
            P52["Blue"] --> P53["Blue Common"]
            P54["Blue"] --> P55["Blue Common"]
            P56["Blue"] --> P57["Blue Common"]
            P58["Blue"] --> P59["Blue Common"]
            P60["Blue"] --> P61["Blue Common"]
            P62["Blue"] --> P63["Blue Common"]
            P64["Blue"] --> P65["Blue Common"]
            P66["Blue"] --> P67["Blue Common"]
            P68["Blue"] --> P69["Blue Common"]
            P70["Blue"] --> P71["Blue Common"]
            P72["Blue"] --> P73["Blue Common"]
            P74["Blue"] --> P75["Blue Common"]
            P76["Blue"] --> P77["Blue Common"]
            P78["Blue"] --> P79["Blue Common"]
            P80["Blue"] --> P81["Blue Common"]
            P82["Blue"] --> P83["Blue Common"]
            P84["Blue"] --> P85["Blue Common"]
            P86["Blue"] --> P87["Blue Common"]
            P88["Blue"] --> P89["Blue Common"]
            P90["Blue"] --> P91["Blue Common"]
            P92["Blue"] --> P93["Blue Common"]
            P94["Blue"] --> P95["Blue Common"]
            P96["Blue"] --> P97["Blue Common"]
            P98["Blue"] --> P99["Blue Common"]

    subgraph Beverage Valves All Remaining Valves Are Wired in Parallel
    direction TB
    A
    B
    C
    D
    E
    F
    G
    H
    I
    J
    K
    L
    M
    N
    O
    P
    Q
    R
    S
    T
    U
    V
    W
    X
    Y
    Z
    AA
    AB
    AC
    AD
    AE
    AF
    AG
    AH
    AI
    AJ
    AK
    AL
    AM
    AN
    AO
    AP
    AQ
    AR
    AS
    AT
    AU
    AV
    AW
    AX
    AY
    AZ
    BA
    BB
    BC
    BD
    BE
    BF
    BG
    BH
    BI
    BJ
    BK
    BL
    BM
    BN
    BO
    BP
    BQ
    CA
    CB
    CC
    DC
    ED
    EF
    GA
    AH
    AI
    AJ
    AK
    AL
    AM
    AN
    AO
    AP
    AQ
    AR
    AS
    AT
    AU
    AV
    AW
    AX
    AY
    AZ
    BA
    BB
    BC
    BD
    BE
    BF
    BG
    BH
    BI
    AJ
    AK
    AL
    AM
    AN
    AO
    AP
    AQ
    AR
    AS
    AT
    AU
    AV
    AW
    AX
    AY
    AZ
    BA
    BB
    BC
    BD
    BE
    BF
    BG
    BH
    BI
    AJ
    AK
    AL
    AM
    AN
    AO
    Ap
    AQ
    AR
    AS
    AT
    AU
    AV
    AW
   AX
    AY
    AZ
    BA
    BB
    BC
   BD
    BE
    BF
    BG
    BH
    BI
    AJ
    AK
    AL
    AM
    AN
    AO
    Ap
    AQ

Servend M-90 - MDH 302 115V WIRING DIAGRAM - 2

flowchart
```mermaid
graph TD
    subgraph MDH-402-CI/SCI 115 Volt Routing
        A["Capacitor"] --> B["Ice Crusher Motor"]
        B --> C["Black"]
        C --> D["White"]
        D --> E["White"]
        E --> F["Agitation Timer"]
        F --> G["Yellow"]
        G --> H["Blue"]
        H --> I["Power Cord"]
        I --> J["Black Common"]
        J --> K["Kill Switch"]
        K --> L["Crushed Ice Switch"]
        L --> M["Blue"]
        M --> N["White"]
        N --> O["Black"]
        O --> P["White"]
        P --> Q["White"]
        Q --> R["Black"]
        R --> S["White"]
        S --> T["White"]
        T --> U["White"]
        U --> V["White"]
        V --> W["White"]
        W --> X["White"]
        X --> Y["White"]
        Y --> Z["White"]
        Z --> AA["White"]
        AA --> AB["White"]
        AB --> AC["White"]
        AC --> AD["White"]
        AD --> AE["White"]
    end

    subgraph Optional Merchandising Lamp
        AF["Transformer"] --> AG["Ballast"]
        AG --> AH["Bus"]
        AH --> AI["Black White"]
        AI --> AJ["Red Purple"]
        AJ --> AK["White White"]
        AK --> AL["Black White"]
        AL --> AM["Ballast"]
        AM --> AN["Black White"]
        AN --> AO["White White"]
        AO --> AP["Bus"]
        AP --> AQ["Black White"]
        AQ --> AR["White White"]
        AR --> AS["White White"]
        AS --> AT["White White"]
        AT --> AU["Bus"]
        AU --> AV["Black White"]
        AV --> AW["White White"]
        AW --> AX["White White"]
        AX --> AY["Bus"]
        AY --> AZ["Black White"]
        AZ --> BA["White White"]
        BA --> BB["Bus"]
        BB --> BC["Black White"]
        BC --> BD["White White"]
        BD --> BE["Bus"]
        BE --> BF["Black White"]
        BF --> BG["White White"]
        BG --> BH["Bus"]
        BH --> BI["Black White"]
        BI --> BJ["White White"]
        BJ --> BK["Bus"]
        BK --> BL["Black White"]
        BL --> BM["White White"]
        BM --> BN["Bus"]
        BN --> BO["Black White"]
        BO --> BP["White White"]
        BP --> BQ["Bus"]
        BQ --> BR["Black White"]
        BR --> BS["White White"]
        BS --> BT["Bus"]
        BT --> BU["Black White"]
        BU --> BV["White White"]
        BV --> BW["Bus"]
    end

    subgraph Optional Merchandising Lamp
        CA["Agitator Timer"] --> CB["Bus"]
        CB --> CC["Purple Purple"]
        CC --> CD["Ballast"]
        CD --> CE["Black White"]
        CE --> CF["White White"]
        CF --> CG["Bus"]
        CG --> CH["Purple White"]
        CH --> CI["Ballast"]
        CI --> CJ["Black White"]
        CJ --> CK["Purple White"]
        CK --> CL["Ballast"]
        CL --> CM["Purple White"]
        CM --> CN["Bus"]
        CN --> CO["Purple White"]
        CO --> CP["Ballast"]
    end

    subgraph Beverage Valves
            CR1["All Remaining Valves Are Wired in Parallel"] & RE1["Right Side Electrical Box"] & RE2["Right Side Electrical Box"] & RE3["Right Side Electrical Box"] & RE4["Right Side Electrical Box"] & RE5["Right Side Electrical Box"] & RE6["Right Side Electrical Box"] & RE7["Right Side Electrical Box"] & RE8["Right Side Electrical Box"] & RE9["Right Side Electrical Box"] & RE10["Right Side Electrical Box"] & RE11["Right Side Electrical Box"] & RE12["Right Side Electrical Box"] & RE13["Right Side Electrical Box"] & RE14["Right Side Electrical Box"] & RE15["Right Side Electrical Box"] & RE16["Right Side Electrical Box"] & RE17["Right Side Electrical Box"] & RE18["Right Side Electrical Box"] & RE19["Right Side Electrical Box"] & RE20["Right Side Electrical Box"] & RE21["Right Side Electrical Box"] & RE22["Right Side Electrical Box"] & RE23["Right Side Electrical Box"] & RE24["Right Side Electrical Box"] & RE25["Right Side Electrical Box"] & RE26["Right Side Electrical Box"] & RE27["Right Side Electrical Box"] & RE28["Right Side Electrical Box"] & RE29["Right Side Electrical Box"] & RE30["Right Side Electrical Box"] & RE31["Right Side Electrical Box"] & RE32["Right Side Electrical Box"] & RE33["Right Side Electrical Box"] & RE34["Right Side Electrical Box"] & RE35["Right Side Electrical Box"] & RE36["Right Side Electrical Box"] & RE37["Right Side Electrical Box"] & RE38["Right Side Electrical Box"] & RE39["Right Side Electrical Box"] & RE40["Right Side Electrical Box"] & RE41["Right Side Electrical Box"] & RE42["Right Side Electrical Box"] & RE43["Right Side Electrical Box"] & RE44["Right Side Electrical Box"] & RE45["Right Side Electrical Box"] & RE46["Right Side Electrical Box"] & RE47["Right Side Electrical Box"] & RE48["Right Side Electrical Box"] & RE49["Right Side Electrical Box"] & RE50["Right Side Electrical Box"] & RE51["Right Side Electrical Box"] & RE52["Right Side Electrical Box"] & RE53["Right Side Electrical Box"] & RE54["Right Side Electrical Box"] & RE55["Right Side Electrical Box"] & RE56["Right Side Electrical Box"] & RE57["Right Side Electrical Box"] & RE58["Right Side Electrical Box"] & RE59["Right Side Electrical Box"] & RE60["Right Side Electrical Box"] & RE61["Right Side Electrical Box"] & RE62["Right Side Electrical Box"] & RE63["Right Side Electrical Box"] & RE64["Right Side Electrical Box"] & RE65["Right Side Electrical Box"] & RE66["Right Side Electrical Box"] & RE67["Right Side Electrical Box"] & RE68["Right Side Electrical Box"] & RE69["Right Side Electrical Box"] & RE70["Right Side Electrical Box"] & RE71["Right Side Electrical Box"] & RE72["Right Side Electrical Box"] & RE73["Right Side Electrical Box"] & RE74["Right Side Electrical Box"] & RE75["Right Side Electrical Box"] & RE76["Right Side Electrical Box"] & RE77["Right Side Electrical Box"] & RE78["Right Side Electrical Box"] & RE79["Right Side Electrical Box"] & RE80["Right Side Electrical Box"] & RE81["Right Side Electrical Box"] & RE82["Right Side Electrical Box"] & RE83["Right Side Electrical Box"] & RE84["Right Side Electrical Box"] & RE85["Right Side Electrical Box"] & RE86["Right Side Electrical Box"] & RE87["Right Side Electrical Box"] & RE88["Right Side Electrical Box"] & RE89["Right Side Electrical Box"] & RE90["Right Side Electrical Box"] & RE91["Right Side Electrical Box"] & RE92["Right Side Electrical Box"] & RE93["Right Side Electrical Box"] & RE94["Right Side Electrical Box"] & RE95["Right Side Electrical Box"] & RE96["Right Side Electrical Box"] & RE97["Right Side Electrical Box"] & RE98["Right Side Electrical Box"] & RE99["Right Side Electrical Box"] & RE100["Right Side Electrical Box"] & RE101["Right Side Electrical Box"] & RE102["Right Side Electrical Box"] & RE103["Right Side Electrical Box"] & RE104["Right Side Electrical Box"] & RE105["Right Side Electrical Box"] & RE106["Right Side Electrical Box"] & RE107["Right Side Electrical Box"] & RE108["Right Side Electrical Box"] & RE109["Right Side Electrical Box"] & RE110["Right Side Electrical Box"] & RE111["Right Side Electrical Box"] & RE112["Right Side Electrical Box"] & RE113["Right Side Electrical Box"] & RE114["Right Side Electrical Box"] & RE115["Right Side Electrical Box"] & RE116["Right Side Electrical Box"] & RE117["Right Side Electrical Box"] & RE118["Right Side Electrical Box"] & RE119["Right Side Electrical Box"] & RE120["Right Side Electrical Box"] & RE121["Right Side Electrical Box"] & RE122["Right Side Electrical Box"] & RE123["Right Side Electrical Box"] & RE124["Right Side Electrical Box"] & RE125["Right Side Electrical Box"] & RE126["Right Side Electrical Box"] & RE127["Right Side Electrical Box"] & RE128["Right Side Electrical Box"] & RE129["Right Side Electrical Box"] & RE130["Right Side Electrical Box"] & RE131["Right Side Electrical Box"] & RE132["Right Side Electrical Box"] & RE133["Right Side Electrical Box"] & RE134["Right Side Electrical Box"] & RE135["Right Side Electrical Box"] & RE136["Right Side Electrical Box"] & RE137["Right Side Electrical Box"] & RE138["Right Side Electrical Box"] & RE139["Right Side Electrical Box"] & RE140["Right Side Electrical Box"] & RE141["Right Side Electrical Box"] & RE142[Purple Light Blue Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black Black |

NGF-250 Wiring

NGF-250 115V WIRING DIAGRAM

CAUTION ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING TO RESET TRANSFORMER: (115 VOLT UNITS ONLY) 1. DISCONNECT POWER SUPPLY. 2. PRESS RESET BREAKER SWITCH ON TRANSFORMER 3. REPLACE MERCHANDISER (FRONT ENCLOSURE). 4. RECONNECT POWER SUPPLY. 115 VOLT RED ASD WHITE PURPLE MERCHANTISING LAMP (OPTIONAL) BLACK BRALLAST BLACK WHITE GREEN BLACK AGITATION TIMER (OPTIONAL) YELLOW WHITE BLUE WHITE YELLOW TRANSFORMER (OPTIONAL) BLUE NO COM YELLOW ICE DISPENSE SWITCH BLUE 11µF 50 V BLUE BROWN RED BLACK EMPTY LIGHT (OPTIONAL) POWER CORD VALVE KEYSWITCH (OPTIONAL) GAINB BLACK WHITE MOTOR BLUE WHITE BEVERAGE VALVES (OPTIONAL) (ALL REMAINING VALVES ARE WIRED IN PARALLEL) 5012483-4

quickdraw Wiring

NFG-250 QD & SV-250 QD 115V WIRING DIAGRAM

CAUTION ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING TO RESET TRANSFORMER: 1 DISCONNECT POWER SUPPLY 2 PRESS RESET BREAKER SWITCH ON TRANSFORMER, 3 RECONNECT POWER SUPPLY. BLACK SOLENOID VALVE P1 P2 P3 P4 P5 P6 DISPLAY P1 P2 P3 P4 P5 P6 BLACK WHITE WHITE GREEN GROUND SIZE KEYS CONNECTOR SIDE PUSH BUTTON MANUAL SWITCH ON/OFF SWITCH NOTE: ALL SWITCHES ARE SHOWN IN AUTO-PORTION MODE BLUE WHITE RED BLACK GREEN GROUND BLACK ALL REMAINING VALVES ARE Wired IN PARALLEL REVERAGE VALVE BLACK WHITE REVERAGE VALVE UNIT: SV-250-00 Parts: 5029761-3

S/SV/SVi Wiring

S-SV-SVI-150/175/200/250 115V 60HZ

CAUTION ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING TO RESET TRANSFORMER: (VE VOLT WHITE ONLY) 1. DISCONNECT POWER SUPPLY 2. PRESS RESET BREAKER SWITCH ON TRANSFORMER 3. REPLACE MERCHANDISER (PROUNT ENCLOSURE) 4. RECONNECT POWER SUPPLY. 115 VOLT RED WHITE PURPLE MERCHANTISING LAMP (OPTIONAL) RED BLACK BALLAST WHITE GREEN WHITE BLACK ALUTATION TIMER (OPTIONAL) YELLOW WHITE WHITE YELLOW WHITE LINE LOAD LOAD LINE TRANSFORMER (OPTIONAL) BLUE ICE COMP YELLOW ICE DISPENSE SWITCH 33.5F 50 V BLUE AMOUNT EMPTY LIGHT (OPTIONAL) POWER CORD VALVE KEYSWITCH (OPTIONAL) BEVERAGE VALVES (OPTIONAL) (ALL REMAINING VALVES ARE WIRED IN PARALLEL) 5012483-4

S-SV-SVI-150/175/200/250 100/220-240V 50-60HZ

CAUTION ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING TO RESET TRANSFORMER: 1. DISCONNECT POWER SUPPLY 2. PRESS RESET BREAKER SWITCH ON TRANSFORMER 3. REPLACE MERCHANDISER (FRONT ENCLOSURE) 4. RECONNECT POWER SUPPLY. 100 VOLT 220-240 VOLT 50-60 Hz RED WHITE PURPLE AMOUNTED BLUE AGITATION TIMER (OPTIONAL) YELLOW WHITE BLUE YELLOW MOTOR BEVERAGE VALVES (OPTIONAL) (ALL REMAINING VALVES ARE WIRED IN PARALLEL) BLUE WHITE AMOUNTED BURGER AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTED AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTES AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNTS AMOUNT SOUTHERNERS (OPTIONAL) BRANCHINER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP (OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BlackER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(OPTIONAL) BLACKER LAMP(LABRIC)RECOCONUT RENTAGE

S-SV-SVI-150/175/200/250 220-240V 50HZ C.E.
CAUTION ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING TO RESET TRANSFORMER: 1. DISCONNECT POWER SUPPLY 2. PRESS RESET SREAMER SWITCH ON TRANSFORMER 3. REPLACE MERCHANDISER (FRONT) (ENCLOSURE) 4. RCONNECT POWER SUPPLY. 220-240 VOLT 50Hz C.E. MERCHANDISING LAMP (OPTIONAL) RED BLACK BALLAST BLACK BLUE NO COM YELLOW ICE DISPENSE SWITCH GREEN AGITATION TIMER (SV200/750 ONLY) YELLOW WHITE WHITE LINC LINC TELLON WHITE MOTOR BLUE WHITE BLACK BLUE WHITE BEVERAGE VALVES (OPTIONAL) (ALL REMAINING VALVES ARE WIRED IN PARALLEL) 020001540-0

Selectable Ice Wiring

SV-200SCI & SV-250SCI 115V 60HZ

CAUTION ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING PN# 020001025-0 115 VOLT RECHANCING LAMP RED VOLT1 WHITE BLACK GREEN BLUE WHITE BRIDGE RECOVER WHITE WHITE BLACK YELLOW GREEN BLUE WHITE BRIDGE RECOVER WHITE WHITE BLACK WHITE BRIDGE SOLEND (CUBED ICE) ROTARY SOLEND (CRUSHED ICE) NO NC C SAFETY SWITCH CAPAC FOR ICE CRUSHER MOTOR AQTATOR MOTOR TO RESET TRANSFORMER: 1. DISCONNECT POWER SUPPLY. 2. PRESS RESET BREAKER SWITCH ON TRANSFORMER. 3. REPLACE MERCHANDISER. (FRONT ENCLOSURE) 4. RECONNECT POWER SUPPLY. TRANSFORMER LINE LOAD PULLY YELLOW BLACK BLUE WHITE BRIDGE RECOVER WHITE WHITE BLACK WHITE BRIDGE SOLEND (CUBED ICE) ROTARY SOLEND (CRUSHED ICE) NO NC C SAFETY SWITCH AQTATOR MOTOR POWER CORD BLACK WHITE SUPED ENPPED REVERAGE VALVE (ALL REMAINING VALVES ARE WIRED IN PARALLEL)

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Manitowoc

Servend

Manitowoc Foodservice

2100 Future Drive

Sellersburg, IN 47172, USA

Ph: 812-246-7000 Fax: 812-246-7024

Visit us online at:

www.manitowocfsg.com

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Product information

Brand : Servend

Model : M-90

Category : Ice Maker