806-B Truck Level Gauge

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Product Information

Specifications:

• Model: 806-B / 806-Bi

• Power: 12 volt

• Display: Weatherproof enclosure (806-B), Compact size for
  in-cab mounting (806-Bi)

• Sender Bar: Weatherproof, withstands steaming temperatures

• Units: Inches of level, barrels, gallons, or cubic meters of
  volume

• Alarm Outputs: Four alarm outputs for warning or shutdown

• Programming Tool: 817-USB Truck Gauge Programmer

Product Usage Instructions:

Chapter 1 – Overview:

The ANNIHILATORTM is designed for mobile applications and can
withstand vibration and shock. The 806-B has a weatherproof display
enclosure for external mounting on the truck, while the 806-Bi has
a compact display for in-cab mounting. Both models operate on
12-volt power and use a weatherproof sender bar in the tank.

The display can show readings in various units and has four
alarm outputs for safety alerts. The 817-USB Truck Gauge Programmer
is used to program calibration units and set alarm points, designed
for user-friendly operation.

Chapter 2 – New Features of the ANNIHILATOR:

The 806-B version offers upgrades over previous models,
including:

1. Multi-compartment display capability
2. Direct programming with 817-USB Truck Gauge Programmer
3. Automatic self-resetting high-level alarm
4. Retained settings even after power loss
5. Remote transmitter connection option
6. Adjustable LED brightness in 806-Bi model
7. Software upgrade for displaying tank numbers from 4 to 9

Chapter 3 – Gauge Description:

[Gauge description details go here]

FAQ:

Q: How do I change the units displayed on the gauge?

A: Use the 817-USB Truck Gauge Programmer to select the desired
units for display on the gauge.

Q: Can I use the ANNIHILATORTM in extreme temperature

conditions?

A: The sender bar is designed to withstand steaming
temperatures, making it suitable for various temperature
conditions.

Q: How many compartments can the display support?

A: The display can accept up to three sender bars, with the
number of compartments used programmable based on the
application.

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Tank Truck Level Gauge

MODEL 806-B / 806-Bi MANUAL
Includes version 2.03 software information

CANADA
Garnet Instruments Ltd. 286 Kaska Road Sherwood Park, AB T8A 4G7

USA
Garnet US Inc. 5360 Old Granbury Road Granbury, TX 76049

garnetinstruments.com 1-800-617-7384

GARNET
SEELEVEL ANNIHILATOR TM Tank Truck Level Gauge
MODEL 806-B / 806-Bi
Includes version 2.03 software information
Table of Contents
CHAPTER 1 – OVERVIEW…………………………………………………………………………………3 CHAPTER 2 – NEW FEATURES OF THE ANNIHILATOR……………………………….4 CHAPTER 3 – GAUGE DESCRIPTION ……………………………………………………………..5 CHAPTER 4 – UNIQUE FEATURES ………………………………………………………………….9 CHAPTER 5 – SENDER BAR LIMITS OF RESISTIVITY…………………………………. 10 CHAPTER 6 – INSTALLATION GUIDE…………………………………………………………… 13 CHAPTER 7 – DISPLAY PROGRAMMING INSTRUCTIONS ………………………. 20 CHAPTER 8 – TROUBLESHOOTING GUIDE………………………………………………… 27 CHAPTER 9 – SPECIFICATIONS ……………………………………………………………………. 29 CHAPTER 10 – SERVICE AND WARRANTY INFORMATION…………………….. 30

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806-B/806-Bi Manual_v2.9.3 – 05-May-2023 806-B/806-Bi Manual

CHAPTER 1 – OVERVIEW
Congratulations on purchasing the Garnet Instruments Model 806-B or 806-Bi SEELEVEL ANNIHILATOR TM Level Gauge for Tank Trucks. The ANNIHILATORTM is a highly advanced device for liquid level measurement in transport applications. It is designed for reliable, accurate level measurement of non flammable liquids such as water, sewage, sludge, and many chemicals. The liquid level is determined by sensing the position of a magnetic float using a series of reed switches arranged in a vertical sensing bar. This technology has no moving parts except for the float, and can operate over a range of product temperatures from -40 °C to +90 °C (-40 °F to +194 °F).
The ANNIHILATORTM has been designed to withstand the vibration and shock encountered in mobile applications. The 806-B has a weatherproof display enclosure for mounting outside of the cab of the truck, and the 806-Bi has a very compact sized display enclosure for mounting inside the truck cab. Both operate from 12 volt power, and use the same sender bar in the tank, which is weatherproof and able to withstand steaming temperatures.
The ANNIHILATORTM can display in any units, such as inches of level, barrels, gallons, or cubic metres of volume. The display has four alarm outputs which can be used to warn of impending overfills or to shut down loading of the truck in an overfill or empty tank situation.
The 817-USB Truck Gauge Programmer is used to program the Annihilator to read the desired calibration units, and to set the alarm points. It is designed to be easily operated by people unfamiliar with electronics or computers.

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CHAPTER 2 – NEW FEATURES OF THE ANNIHILATOR
The 806-B (Revision B) version of the Annihilator uses upgraded hardware and software to provide a number of enhancements over the earlier 806 and 806A series.
1. The display is multi-compartment, one display can accept up to three sender bars. The compartment number is displayed on the right hand LEDs and a push button is used to select the compartment. The number of compartments actually used in a given application can be programmed into the display so that only those compartments can be selected.
2. The display can be programmed directly with the 817-USB Truck Gauge Programmer, no adapter is needed.
3. One of the four alarms can function as an automatic self resetting alarm for high level warning. When the alarm is activated by a high level, it can be bypassed (silenced) by pressing the alarm button. When the tank is emptied, the alarm is re-activated for the next time the tank is filled. The status of the bypass is shown on the display.
4. The number of compartments, the current compartment number, the LED brightness (806-Bi) and the automatic alarm bypass reset status are retained even if power is removed, so the gauge will return to the same point of operation when power is restored.
5. A remote transmitter connection can be used to connect to a SeeLeveL Access.
6. The 806-Bi in-cab version has adjustable LED brightness for comfortable viewing in all lighting conditions.
7. Version 2.03 has upgraded software so that tank numbers from 4 to 9 can be displayed. This can be used in applications where there are more than 3 compartments being monitored by more than one display.

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806-B/806-Bi Manual

CHAPTER 3 – GAUGE DESCRIPTION
How the Gauge Works
The Annihilator gauge consists of a sender bar, a donut shaped float, interconnect wiring, and a display. The sender bar is mounted vertically in the tank with the float sliding up and down around it in accordance with the fluid level. The sender bar sends the fluid level information via two wires to the display, which shows the level in appropriate units and operates the alarms. One display can monitor up to three compartments.
The float contains magnets which activate reed switches inside the stainless steel sender bar to indicate the level of the fluid. The activated switches are detected by the microprocessor at the top of the bar. A pair of wires (one signal and one ground) carry power from the display to operate the sender bar, and also carry the level information signal from the bar to the display. The power level on the signal wire is very low, so there is no danger of sparking or shock from this wire, and short circuits will not cause any damage. The signal from the bar is coded so that it is not affected by most electrical noise, moisture, or corrosion. If the signal is too badly degraded due to poor wiring, the system shuts down rather than showing an incorrect reading.
The display converts the level information to volume according to the calibration programmed into it with the 817-USB Truck Gauge Programmer. The calibration can be in inches or volumetric units such as cubic metres or barrels. The display also contains alarms that can be programmed to operate at specific tank levels and can be used to operate external devices. The in-cab display is enclosed in a compact plastic box which can be easily mounted anywhere in the truck cab, and the outside display is durable enough to withstand weather and indirect road spray. The tank level and compartment number is shown on a large LED (Light Emitting Diode) display which gives good all around visibility. The entire gauge operates from 12 volt truck power, consuming about 1/8 of an amp.
Multi Compartment Operation
One display can have up to 3 sender bars connected (one bar per compartment), which is equivalent to 3 separate displays, except that you can only see one level and have one set of alarms at a time. This allows cost and space savings on the truck or trailer.

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The compartment number is shown on the right side of the display, for example, C2 indicates compartment number 2. If the display has been programmed for only one compartment, then the compartment number is not shown.
Each compartment has its own volume and alarm calibration, so the compartments can be completely different in size and shape. When the compartment is changed, the volume display and alarms will change according to the calibration and tank level for the new compartment. If the self resetting alarm has been bypassed, that information is retained for each compartment, even if the compartment is changed or power is turned off.
To change which compartment the display is showing, press the COMP button on the right side of the display. Each time the button is pressed, the display will show the next compartment number. The display can also be configured to display compartment 1 with a trailing zero. In this case, only single compartment operation is possible. If the power to the system is turned off, the display retains the compartment number, so that when the power is turned on again, the same compartment will be shown.
Version 2.03 allows the display to show compartments 4 to 9. For example, if an application has 7 compartments, then three displays would be used. The first display would show compartments 1, 2, and 3. The second display would show 4, 5, and 6. The third display would show 7. This makes it much easier for the operator to keep track of which compartment is being monitored.
Multi Calibration Operation
By connecting together 2 or 3 compartment wires on the display, it is possible to have different calibrations for the same tank, for example, gallons and barrels. In this case, instead of indicating compartments, the right display indicates which calibration is selected. Each calibration could have its own alarms as well.
Alarm Operation
Each compartment has 4 alarms which can be set with the 817-USB programmer to turn on or off at any point in the tank. Alarms 1 and 2 are general purpose alarms which can be used for high or low level warnings or for controlling pumps or valves. If Alarm 4 is not used, then Alarm 3 can also be used as a general purpose alarm. These alarms can be programmed to be off below the set point and on above it, or they can be on below the set point and off above it. This allows the devices being controlled to turn on or off as the tank level rises or falls.

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806-B/806-Bi Manual

Alarm 4 is a dedicated high level warning alarm that turns on when the tank level rises past the set point. Normally a warning light or horn is connected to this alarm output. When the alarm is on, pressing the ALARM BYPASS button on the left side of the display will turn off (bypass) the warning. When the alarm is bypassed, the decimal points on the compartment indicator digits will light up. Pressing the alarm button when the alarm is off has no effect. Once the alarm has been turned off (bypassed), it will remain off until the tank level drops below the Alarm 3 set point, then rises again above the Alarm 4 set point. Alarm 3 is normally set close to the bottom of the tank and is used to clear the bypass. This automatic system protects against the operator forgetting to turn the alarm back on for the next time the truck is loaded. The bypass indicator (compartment decimal points) serves to notify the operator that the alarm has been bypassed.

Each compartment has its own set of alarms and its own bypass memory. The bypass is retained for each compartment even if the compartment is changed or the gauge is turned off and on.

WARNING: The use of alarm points is entirely at the owner’s risk due to the nature of connecting external horns or lights, the reliability of external horns or lights, and the reliability of the power source and wiring required to operate them.

Display Brightness (806-Bi only)

The 806-Bi (in-cab model) has three brightness levels for the LED display to allow comfortable viewing in all lighting conditions. To increase the display brightness, press the BRIGHT button. Each time the button is pressed, the brightness is increased. When the maximum brightness has been reached, pressing the BRIGHT button has no effect. Similarly, to decrease display brightness, press the DIM button. The brightness level is retained in memory even if the gauge is turned off and on.

Installation Overview

Installation of the gauge consists of cutting a hole in the top of each tank compartment and welding in a 1 inch coupler, and welding an anchor assembly to the bottom of the tank. The sender bar is cut to length, the end is sealed, and it is inserted from the top of the tank and fastened at the top with a compression fitting. The display is mounted at a convenient point on the truck or in the cab, and the wiring is run between the bar and the display. 12 volt power is brought into the display, any alarms are wired up, and the display is programmed with volume and alarm information. The bar can be removed later for service by disconnecting the wires, unscrewing the compression fitting, and pulling it out.

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GENERAL MECHANICAL ASSEMBLY

HEAD (INSTALLED HEIGHT LESS THAN 5 INCHES ABOVE THE TOP OF THE TANK)

TWO-CONDUCTOR WIRE CONNECTING DISPLAY AND SENDER BAR
TWO-CONDUCTOR WIRE SUPPLIES
12 VDC FOR DISPLAY OPERATION
ALARM BYPASS BUTTON
LED DISPLAY
WEATHERPROOF DISPLAY ENCLOSURE

COMPRESSION FITTING

1″ COUPLER

TWO-CONDUCTOR WIRE CONNECTING DISPLAY AND SENDER BAR

TANK CUTAWAY
COMPARTMENT SELECTOR BUTTON
FLOAT TAPER ALLOWS
DEBRIS TO SLIDE OFF

STAINLESS STEEL SENDER BAR

ANCHOR SUPPORT

ALARM BYPASS

DIM / BRIGHTNESS CONTROL

SE ELE V EL A N N I H I L AT O R
ALARM BYPASS
MADE IN CANADA

TWO-CONDUCTOR WIRE SUPPLIES 12VDC FOR DISPLAY OPERATION IN-CAB MOUNTED ENCLOSURE
LED DISPLAY
COMPARTMENT SELECTOR BUTTON

806-B/806-Bi Manual

CHAPTER 4 – UNIQUE FEATURES
The Annihilator gauge has been designed for maximum ease of installation and servicing, and for best operational features. The anchor at the bottom of the tank provides a shock mount for the float, and holds the float in place if the sender bar is removed so no tank entry is required for bar replacement. If the new bar is cut to the same length as the old, no re-calibration is required.
The float is molded from polyethylene for high chemical resistance, good esthetic appearance, and high durability due to the “give” in the plastic. The light weight of the polyethylene allows the float size to be minimized while allowing it to float on the lowest density products.
The sender bar has no moving parts and is completely filled with potting material to enhance reliability. The use of a digital rather than analog sensing technique ensures high accuracy with no drift or degradation. To accommodate different tank sizes, the bar is simply cut to length with a hacksaw, and the cut end sealed with a cap to prevent moisture or product contamination. This way only one size needs to be stocked, and a perfect fit is ensured. The sender bar top is very low in profile to satisfy rollover requirements; the maximum height is less than 4 inches above the top of the tank so that it will not protrude above the spillway.
The outside (806-B) display enclosure is waterproof, and the internal circuitry is also protected against moisture by a coating. The small size of all of the display enclosures also makes it easy to find an appropriate mounting location.
The use of an on-site programmer eliminates downtime waiting for factory calibration parts, and allows easy reprogramming should the need arise. The entire display, including decimal point, is completely programmable to whatever units are desired. In addition to numbers, the letters F, U, L, and E can be programmed to provide displays such as FULL, E, etc.

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CHAPTER 5 – SENDER BAR LIMITS OF RESISTIVITY
The temperature of the product being transported should be limited to approximately +90°C (+194°F). Damage to the float and sender bar can occur if this value is exceeded.
The tube used in the manufacturing of the sender bar is seamed 302/304 stainless steel. Seamless 316 stainless steel is optionally available. It should be noted that certain corrosive products, as well as high concentrations of acid products, may attack the stainless steel and cause perforations to develop. It is the operator’s responsibility to determine the products compatibility with the sender bar.
WARNING: Perforation of the sender bar or heat damage is not warrantable.
The Loctite products used to secure the end cap can be attacked by certain chemicals as well. For reference, a chemical resistance chart from Loctite showing product compatibility with various chemicals can be found on the following pages.
The 680 retaining compound we specify is similar to Loctite #592, 567, 565, 569, 545, 580, 571, 242, 577, 572, 542, 565, 545, 243. If you require more information, please call the Loctite Corporation, in Canada, 1-800-263-5043, in USA, 1-800-562-8483.

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806-B/806-Bi Manual

FLUID COMPATIBILITY CHART for metal threaded fittings sealed with Loctite® Sealants
LIQUIDS, SOLUTIONS & SUSPENSIONS

LEGEND: All Loctite® Anaerobic Sealants are Compatible Including #24®2, 243, 542, 545, 565, 567, 569, 571, 572, 577, 580, 592
Use Loctite® #270, 271TM, 277, 554 Not Recommended <10% (same as ) >10% (same as)

• <5% (same as ) >5% (same as ) Use Loctite® #242® , 243, 290, 565
  Abrasive Coolant………………….. Acetaldehyde ……………………… Acetate Solvents …………………. Acetimide …………………………… Acetic Acid………………………….. Acetic Acid………………………….. Acetic Acid – glacial ……………… Acetic Anhydride …………………. Acetone ……………………………… Acetyl Chloride ……………………. Acetylene (Liquid Phase) ………. Acid Clay…………………………….. Acrylic Acid ………………………… Acrylonitrile ……………………….. Activated Alumina ……………….. Activated Carbon ………………… Activated Silica …………………… Alcohol-Allyl ………………………. Alcohol-Amyl ……………………… Alcohol-Benzyl ……………………. Alcohol-Butyl ……………………… Alcohol-Ethyl ……………………… Alcohol-Furfuryl ………………….. Alcohol-Hexyl …………………….. Alcohol-lsopropyl ……………….. Alcohol-Methyl …………………… Alcohol-Propyl ……………………. Alum-Ammonium ……………….. Alum-Chrome …………………….. Alum-Potassium …………………. Alum- Sodium …………………….. Alumina …………………………….. Aluminum Acetate ………………. Aluminum Bicarbonate …………. Aluminum Bifluoride…………….. Aluminum Chloride………………. Aluminum Sulfate ……………….. Ammonia Anhydrous ……………. Ammonia Solutions ……………… Ammonium Bisulfite …………….. Ammonium Borate……………….. Ammonium Bromide ……………. Ammonium Carbonate………….. Ammonium Chloride…………….. Ammonium Chromate ………….. Ammonium Fluoride …………….. Ammonium Fluorosilicate …….. Ammonium Formate…………….. Ammonium Hydroxide………….. Ammonium Hyposulfite ………… Ammonium Iodide ……………….. Ammonium Molybdate …………. Ammonium Nitrate ………………. Ammonium Oxalate ……………… Ammonium Persulfate ………….. Ammonium Phosphate …………. Ammonium Picrate………………. Ammonium Sulfate………………. Ammonium Sulfate Scrubber … Ammonium Sulfide………………. Ammonium Thiocyanate……….. Amyl Acetate ………………………. Amyl Amine ……………………….. Amyl Chloride …………………….. Aniline ……………………………….. Aniline Dyes ……………………….. Anodizing Bath ……………………. Antichlor Solution ……………….. Antimony Acid Salts ……………. Antimony Oxide ………………….. Antioxidant Gasoline ……………. Aqua Regia …………………………. Argon…………………………………. Armeen § ……………………………. Arochlor § ………………………….. Aromatic Gasoline ……………….. Aromatic Solvents ………………. Arsenic Acid ……………………….. Asbestos Slurry ………………….. Ash Slurry ………………………….. Asphalt Emulsions ………………. Asphalt Molten……………………..

Bagasse Fibers…………………….. Barium Acetate …………………… Barium Carbonate………………… Barium Chloride…………………… Barium Hydroxide………………… Barium Sulfate …………………….. Battery Acid ………………………… Battery Diffuser Juice …………… Bauxite (See Alumina) …………. Bentonite …………………………… Benzaldehyde ……………………… Benzene …………………………….. Benzene Hexachloride ………….. Benzene in Hydrochloric Acid .. Benzoic Acid ………………………. Benzotriazole ……………………… Beryllium Sulfate ………………… Bicarbonate Liquor ……………… Bilge Lines …………………………. Bleach Liquor ……………………… Bleached Pulps …………………… Borax § Liquors ………………….. Boric Acid ………………………….. Brake Fluids ……………………….. Brine Chlorinated ………………… Brine Cold ………………………….. Bromine Solution…………………. Butadiene……………………………. Butyl Acetate ………………………. Butyl Alcohol ……………………… Butyl Amine ……………………….. Butyl Cellosolve § ……………….. Butyl Chloride …………………….. Butyl Ether – Dry …………………. Butyl Lactate ………………………. Butyral Resin ……………………… Butyraldehyde …………………….. Butyric Acid …………………………
Cadmium Chloride ……………….. Cadmium Plating Bath …………. Cadmium Sulfate …………………. Calcium Acetate ………………….. Calcium Bisulfate ………………… Calcium Carbonate ………………. Calcium Chlorate ………………… Calcium Chloride …………………. Calcium Chloride Brine …………. Calcium Citrate …………………… Calcium Ferrocyanide …………… Calcium Formate …………………. Calcium Hydroxide……………….. Calcium Lactate ………………….. Calcium Nitrate …………………… Calcium Phosphate………………. Calcium Silicate ………………….. Calcium Sulfamate……………….. Calcium Sulfate …………………… Calcium Sulfite ……………………. Camphor ……………………………. Carbitol ……………………………… Carbolic Acid (phenol) ………….. Carbon Bisulfide ………………….. Carbon Black ……………………… Carbon Tetrachloride …………… Carbonic Acid ……………………… Carbowax §…………………………. Carboxymethyl Cellulose ……… Carnauba Wax ……………………. Casein ……………………………….. Casein Water Paint ……………… Celite………………………………….. Cellosolve § ……………………….. Cellulose Pulp …………………….. Cellulose Xanthate ……………….. Cement Dry/Air Blown ………….. Cement Grout …………………….. Cement Slurry …………………….. Ceramic Enamel ………………….. Ceric Oxide ………………………… Chalk …………………………………. Chemical Pulp …………………….. Chestnut Tanning ………………… China Clay…………………………… Chloral Alcoholate ……………….. Chloramine ………………………… Chlorinated Hydrocarbons ……. Chlorinated Paperstock ………… Chlorinated Solvents…………….. Chlorinated Sulphuric Acids ….. Chlorinated Wax …………………. Chlorine Dioxide ………………….. Chlorine Liquid …………………… Chlorine Dry ………………………. Chloroacetic Acid………………….

Chlorobenzene Dry ………………. Chloroform Dry……………………. Chloroformate Methyl…………… Chlorosulfonic Acid ……………… Chrome Acid Cleaning ………….. Chrome Liquor…………………….. Chrome Plating Bath…………….. Chromic Acid 10%……………….. Chromic Acid 50% (cold) ……… Chromic Acid 50% (hot) ………. Chromium Acetate ………………. Chromium Chloride ……………… Chromium Sulfate ……………….. Classifier ……………………………. Clay …………………………………… Coal Slurry …………………………. Coal Tar …………………………….. Cobalt Chloride …………………… Copper Ammonium Formate….. Copper Chloride ………………….. Copper Cyanide ………………….. Copper Liquor …………………….. Copper Naphthenate …………….. Copper Plating, Acid Process … Copper Plating, Alk. Process …. Copper Sulfate ……………………. Core Oil ……………………………… Corundum ………………………….. Creosote ……………………………. Creosote-Cresylic Acid………….. Cyanide Solution …………………. Cyanuric Chloride ……………….. Cyclohexane ………………………. Cylinder Oils ………………………..
De-Ionized Water …………………. De-Ionized Water Low Conductivity………………………. Detergents …………………………. Developer, photographic……….. Dextrin ………………………………. Diacetone Alcohol ……………….. Diammonium Phosphate ………. Diamylamine ………………………. Diatomaceaus Earth Slurry …… Diazo Acetate ……………………… Dibutyl Phthalate ………………… Dichlorophenol …………………… Dichloro Ethyl Ether……………… Dicyandamide …………………….. Dielectric Fluid ……………………. Diester Lubricants ………………. Diethyl Ether Dry ………………… Diethyl Sulfate ……………………. Diethylamine ………………………. Diethylene Glycol ………………… Diglycolic Acid ……………………. Dimethyl Formamide ……………. Dimethyl Sulfoxide……………….. Dioxane Dry ………………………. Dioxidene …………………………… Dipentene – Pinene ………………. Diphenyl ……………………………. Distilled Water (Industrial)…….. Dowtherm § ……………………….. Drying Oil ………………………….. Dust-Flue (Dry) …………………… Dye Liquors …………………………
Emery – Slurry ……………………. Emulsified Oils ……………………. Enamel Frit Slip……………………. Esters General ……………………. Ethyl Acetate ………………………. Ethyl Alcohol ………………………. Ethyl Amine ……………………….. Ethyl Bromide …………………….. Ethyl Cellosolve § ……………….. Ethyl Cellosolve Slurry §……….. Ethyl Formate ……………………… Ethyl Silicate ………………………. Ethylene Diamine ………………… Ethylene Dibromide ……………… Ethylene Dichloride………………. Ethylene Glycol …………………… Ethylenediamine Tetramine …….
Fatty Acids …………………………. Fatty Acids Amine ……………….. Fatty Alcohol……………………….. Ferric-Floc ………………………….. Ferric Chloride ……………………. Ferric Nitrate ………………………. Ferric Sulfate ………………………. Ferrocence-Oil Sol ……………….

Ferrous Chloride …………………. Ferrous Oxalate……………………. Ferrous Sulfate10% ……………… Ferrous Sulfate (Sat)…………….. Fertilizer Sol ……………………….. Flotation Concentrates ………….. Fluoride Salts ……………………… Fluorine, Gaseous or Liquid…… Fluorolube ………………………….. Fluosilic Acid ……………………… Flux Soldering …………………….. Fly Ash Dry ………………………… Foam Latex Mix ………………….. Foamite ……………………………… Formaldehyde (cold)…………….. Formaldehyde (hot) ……………… Formic Acid (Dil cold)…………… Formic Acid (Dil hot) ……………. Formic Acid (cold) ……………….. Formic Acid (hot)…………………. Freon § ………………………………. Fuel Oil……………………………….. Fuming Nitric Red………………… Fuming Sulfuric ………………….. Fuming Oleum ……………………. Furfural ……………………………….

• Gallic Acid …………………………..
  Gallium Sulfate ……………………. Gasoline-Acid Wash …………….. Gasoline-Alk. Wash ……………… Gasoline Aviation ………………… Gasoline Copper Chloride ……… Gasoline Ethyl …………………….. Gasoline Motor …………………… Gasoline Sour …………………….. Gasoline White ……………………. Gluconic Acid ……………………… Glue-Animal Gelatin …………….. Glue-Plywood …………………….. Glutamic Acid …………………….. Glycerine Lye-Brine………………. Glycerol …………………………….. Glycine ………………………………. Glycine Hydrochloride ………….. Glycol Amine ……………………… Glycolic Acid ………………………. Glyoxal……………………………….. Gold Chloride ……………………… Gold Cyanide ……………………… Granodine ………………………….. Grape Pomace Graphite………… Grease Lubricating……………….. Green Soap ………………………… Grinding Lubricant ………………. Grit Steel ……………………………. Gritty Water ……………………….. Groundwood Stock ……………… GRS Latex ………………………….. Gum Paste …………………………. Gum Turpentine ………………….. Gypsum ………………………………
  Halane Sol …………………………. Halogen Tin Plating………………. Halowax § ………………………….. Harvel-Trans 0il ………………….. Heptane …………………………….. Hexachlorobenzene………………. Hexadiene ………………………….. Hexamethylene Tetramine……… Hexane ………………………………. Hydrazine …………………………… Hydrazine Hydrate ………………. Hydrobromic Acid………………… Hydrochloric Acid ……………….. Hydrocyanic Acid…………………. Hydroflouric Acid…………………. Hydrogen Peroxide (dil)………… Hydrogen Peroxide (con) ……… Hydroponic Sol …………………… Hydroquinone …………………….. Hydroxyacetic Acid ………………. Hypo …………………………………. Hypochlorous Acid ……………….
  Ink …………………………………….. Ink in Solvent-Printing………….. Iodine in Alcohol …………………. Iodine-Potassium Iodide ………. Iodine Solutions…………………… Ion Exchange Service …………..

Ion Exclusion Glycol …………….. Irish Moss Slurry…………………. Iron Ore Taconite ………………… Iron Oxide ………………………….. Isobutyl Alcohol ………………….. Isobutyraldehyde ………………… Isooctane …………………………… Isopropyl Alcohol ………………… Isocyanate Resin ………………… Isopropyl Acetate ………………… Isopropyl Ether ……………………. Itaconic Acid ……………………….
Jet Fuels ……………………………. Jeweler’s Rouge …………………. Jig Table Slurry…………………….
Kaolin-China Clay §………………. Kelp Slurry …………………………. Kerosene ……………………………. Kerosene Chlorinated……………. Ketone ……………………………….
Lacquer Thinner ………………….. Lactic Acid …………………………. Lapping Compound ……………… Latex-Natural ……………………… Latex-Synthetic …………………… Latex Synthetic Raw …………….. Laundry Wash Water ……………. Laundry Bleach …………………… Laundry Blue ……………………… Laundry Soda …………………….. Lead Arsenate …………………….. Lead Oxide………………………….. Lead Sulfate ……………………….. Lignin Extract………………………. Lime Slaked ……………………….. Lime Sulfur Mix ………………….. Liquid Ion Exchange …………….. Lithium Chloride …………………. LOX (Liquid 02) ………………….. Ludox ………………………………… Lye……………………………………..
Machine Coating Color …………. Magnesite Slurry ………………… Magnesite …………………………… Magnesium Bisulfite …………….. Magneslum Carbonate………….. Magnesium Chloride…………….. Magnesium Hydroxide………….. Magnesium Sulfate………………. Maleic Acid ………………………… Maleic Anhydride ………………… Manganese Chloride …………….. Manganese Sulfate ………………. Melamine Resin ………………….. Menthol …………………………….. Mercaptans ………………………… Mercuric Chloride ……………….. Mercuric Nitrate ………………….. Mercury …………………………….. Mercury Dry ………………………. Methane …………………………….. Methyl Alcohol ……………………. Methyl Acetate ……………………. Methyl Bromide ………………….. Methyl Carbitol ……………………. Methyl Cellosolve §………………. Methyl Chloride ………………….. Methyl Ethyl Ketone……………… Methyl Isobutyl Ketone …………. Methyl Lactate ……………………. Methyl Orange ……………………. Methylamine ………………………. Methylene Chloride………………. Mineral Spirits ……………………. Mixed Acid, Nitric/Sulfuric …….. Monochloracetic Acid …………… Morpholine ………………………… Mud ……………………………………
Nalco Sol. …………………………… Naphtha …………………………….. Naphthalene ……………………….. Naval Stores Solvent…………….. Nematocide ………………………… Neoprene Emulsion ……………… Neoprene Latex …………………… Nickel Acetate …………………….. Nickel Ammonium Sulfate ……..

Nickel Chloride…………………….. Nickel Cyanide ……………………. Nickel Fluoborate ………………… Nickel Ore Fines ………………….. Nickel Plating Bright …………….. Nickel Sulfate ……………………… Nicotinic Acid………………………. Nitrate Sol…………………………… Nitration Acid(s) ………………….. Nitric Acid ………………………….. Nitric Acid10%…………………….. Nitric Acid 20%……………………. Nitric Acid Anhydrous…………… Nitric Acid Fuming ……………….. Nitro Aryl Sulfonic Acid ………… Nitrobenezene-Dry ………………. Nitrocellulose ……………………… Nitrofurane ………………………… Nitroguanidine ……………………. Nitroparaffins-Dry ……………….. Nitrosyl Chloride …………………. Norite Carbon ……………………… Nuchar ………………………………..
Oakite § Compound ……………… Oil, Creosote ………………………. Oil, Emulsified …………………….. Oil, Fuel ……………………………… Oil, Lubricating …………………… Oil, Soluble ………………………… Oleic Acid, hot ……………………. Oleic Acid, cold …………………… Ore Fines-Flotation……………….. Ore Pulp …………………………….. Organic Dyes ………………………. Oxalic Acid cold …………………… Ozone, wet…………………………..
Paint-Linseed Base ………………. Paint-Water Base ………………… Paint-Remover-Sol. Type ……… Paint-Vehicles ……………………… Palmitic Acid ………………………. Paper Board Mill Waste ………… Paper Coating Slurry ……………. Paper Pulp …………………………. Paper Pulp with Amun. …………. Paper Pulp with Dye ……………. Paper Pulp, bleached ……………. Paper Pulp, bleached-washed .. Paper Pulp Chlorinated …………. Paper Groundwood………………. Paper Rag ………………………….. Paper Stocks, fine ……………….. Paradichlorobenezene…………… Paraffin Molten …………………… Paraffin Oil …………………………. Paraformaldehyde ……………….. Pectin Solution Acid …………….. Pentachlorethane ………………… PentaerythritoI Sol. ……………… Perchlorethylene (Dry)………….. Perchloric Acid ……………………. Perchloromethyl Mercaptan ….. Permanganic Acid………………… Persulfuric Acid ………………….. Petroleum Ether ………………….. Petroleum Jelly …………………… Phenol Formaldehyde Resins .. Phenol Sulfonic Acid…………….. Phenolic Glue ……………………… Phloroglucinol ……………………. Phosphate Ester ………………….. Phosphatic Sand …………………. Phosphoric Acid 85% hot …….. Phosphoric Acid 85% cold …… Phosphoric Acid 50% hot……… Phosphoric Acid 50% cold …… Phosphoric Acid 10% cold …… Phosphoric Acid 10% hot …….. Phosphorous Molten ……………. Phosphotungstic Acid…………… Photographic Sol. ……………….. Phthalic Acid……………………….. Phytate ……………………………… Phytate Salts ………………………. Pickling Acid, Sulfuric…………… Picric Acid Solutions…………….. Pine Oil Finish ……………………..

Loctite product numbers in red are worldwide or application-specific products
(This is a list of chemical stability only. It does not constitute approval for use in the processing of food, drugs, cosmetics, pharmaceuticals, and ingestible chemicals.) Loctit®e sealants are not recommended for use in pure oxygen or chlorine environments or in conjunction with strong oxidizing agents, an explosive reaction can result.

806-B/806-Bi Manual

Page 11

FLUID COMPATIBILITY CHART for metal threaded fittings sealed with Loctite® Sealants

LIQUIDS, SOLUTIONS & SUSPENSIONS

GASES

LEGEND: All Loctite® Anaerobic Sealants are Compatible Including #24®2, 243, 542, 545, 565, 567, 569, 571, 572, 577, 580, 592
Use Loctite® #270, 271TM, 277, 554 Not Recommended <10% (same as ) >10% (same as)

• <5% (same as ) >5% (same as ) Use Loctite® #242® , 243, 290, 565
  Plating Sol. as follows: Brass Cyanide……………………. Bronze-Cyanide …………………. Chromium & Cadmium Cyanide ………………………….. Cobalt Acid ………………………. Copper Acid ……………………… Copper Alk. ………………………. Gold Cyanide ……………………. Iron-Acid ………………………….. Lead-Fluoro ……………………… Nickel Bright …………………….. Platinum ………………………….. Silver- Cyanide …………………… Tin-Acid …………………………… Tin Alk. Barrel …………………… Zinc Acid ………………………….. Zinc Alk. Cyanide ……………….. Polyacrylonitrile Slurry ………… Polypentek …………………………. Polysulfide Liquor ……………….. Polyvinyl Acetate Slurry ……….. Polyvinyl Chloride ……………….. Porcelain Frit ……………………… Potash ……………………………….. Potassium Acetate ……………….. Potassium Alum. Sulfate ………. Potassium Bromide ……………… Potassium Carbonate……………. Potassium Chlorate ……………… Potassium Chloride Sol ………… Potassium Chromate ……………. Potassium Cyanide Sol. ………… Potassium Dichromate …………. Potassium Ferricyanide ………… Potassium Hydroxide……………. Potassium Iodide…………………. Potassium Nitrate ……………….. Potassium Perchlorate………….. Potassium Permanganate……… Potassium Persulfate……………. Potassium Phosphate…………… Potassium Silicate ………………. Potassium Sulfate ……………….. Potassium Xanthate……………… Press Board Waste ………………. Propionic Acid ……………………. Propyl Alcohol ……………………. Propyl Bromide …………………… Propylene Glycol …………………. Pumice ……………………………… Pyranol ……………………………… Pyridine …………………………….. Pyrogallic Acid ……………………. Pyrogen Free Water ……………… Pyrole ……………………………….. Pyromellitic Acid…………………..
  Quebracho Tannin…………………
  Rag Stock Bleached……………… Rare Earth Salts ………………….. Rayon Acid Water ……………….. Rayon Spin Bath …………………. Rayon Spin Bath spent …………. Resorcinol ………………………….

River Water…………………………. Road Oil …………………………….. Roccal………………………………… Rosin-Wood ……………………….. Rosin in Alcohol …………………. Rosin Size ………………………….. Rubber Latex ……………………….
Safrol …………………………………. Salt Alkaline ……………………….. Salt Electrolytic …………………… Salt Refrg. ………………………….. Sand-Air Blown Slurry ………….. Sand-Air Phosphatic…………….. Sea Coal …………………………….. Sea Water ………………………….. Selenium Chloride ………………. Sequestrene ……………………….. Sewage ……………………………… Shellac ………………………………. Shower Water …………………….. Silica Gel ……………………………. Silica Ground ……………………… Silicone Tetrachloride …………… Silicone Fluids ……………………. Silver Cyanide …………………….. Silver Iodide-Aqu. ……………….. Silver Nitrate ………………………. Size Emulsion …………………….. Skelly Solve E, L …………………. Slate to 400 Mesh ……………….. Soap Lye…………………………….. Soap Solutions (Stearates) …… Soap Stone Air Blown…………… Soda Pulp ………………………….. Sodium Acetate ………………….. Sodium Acid Fluoride …………… Sodium Aluminate ………………. Sodium Arsenate ………………… Sodium Benzene Sulfonate …… Sodium Bichromate ……………… Sodium Bisulfite …………………. Sodium Bromide …………………. Sodium Carbonate ………………. Sodium Chlorate …………………. Sodium Chlorite ………………….. Sodium Cyanide ………………….. Sodium Ferricyanide…………….. Sodium Formate …………………. Sodium Glutamate ………………. Sodium Hydrogen Sulfate …….. Sodium Hydrosulfite…………….. Sodium Hydrosulfide ……………. Sodium Hydrochloride………….. Sodium Hydroxide ……………….. Sodium Hydro. 20% cold …….. Sodium Hydro. 20% hot ……….. Sodium Hydro. 50% cold ……… Sodium Hydro. 50% hot ……….. Sodium Hydro. 70% cold ……… Sodium Hydro. 70% hot ……….. Sodium Hypochlorite ……………. Sodium Lignosulfonate…………. Sodium Metasilicate …………….. Sodium Molten …………………… Sodium Nitrate ……………………. Sodium Nitrite-Nitrate…………… Sodium Perborate ……………….. Sodium Peroxide …………………. Sodium Persulfate ……………….. Sodium Phosphate-Mono …….. Sodium Phosphate-Tri ………….. Sodium Potassium Chloride ….. Sodium Salicylate ……………….. Sodium Sesquicarbonate ……… Sodium Silicate……………………. Sodium Silcofluoride ……………. Sodium Stannate …………………

Sodium Sulfate …………………… Sodium Sulfide …………………… Sodium Sulfite ……………………. Sodium Sulfhydrate ……………… Sodium Thiocyanate …………….. Sodium Thiosulfate………………. Sodium Tungstate ……………….. Sodium Xanthate ………………… Solox-Denat. Ethanol ……………. Soluble Oil …………………………. Solvent Naphthas ………………… Sorbic Acid ………………………… Sour Gasoline …………………….. Soybean Sludge-Acid……………. Spensol Solution ………………… Stannic Chloride …………………. Starch ……………………………….. Starch Base ……………………….. Stearic Acid ……………………….. Steep Water ……………………….. Sterilization Steam ………………. Stillage Distillers …………………. Stoddard Solvent ………………… Styrene ……………………………… Styrene Butadiene Latex ……….. Sulfamic Acid ……………………… Sulfan-Sulfuric Anhydride …….. Sulfathiazole ………………………. Sulfite Liquor ……………………… Sulfite Stock ………………………. Sulfonated Oils …………………… Sulfones ……………………………. Sulfonic Acids……………………… Sulfonyl Chloride ………………… Sulfur Slurry ………………………. Sulfur Solution…………………….. in Carbon Disulfide …………….. Sulphuric Acid 0-7%…………….. Sulphuric Acid 7-40%…………… Sulphuric Acid 40-75%…………. Sulphuric Acid 75-95%…………. Sulphuric Acid 95-100% ………. Sulphurous Acid ………………….. Sulfuryl Chloride………………….. Surfactants ………………………… Synthetic Latex …………………….
Taconite – Fines……………………. Talc – Slurry ……………………….. Tankage – Slurry …………………. Tannic Acid (cold)………………… Tamin…………………………………. Tar & Tar Oil………………………… Tartaric Acid ……………………….. Television Chemicals…………….. Tergitol § …………………………… Terpineol ……………………………. Tetraethyl Lead …………………… Tetrahydrofuran ………………….. Tetranitromethane ……………….. Textile Dyeing …………………….. Textile Finishing Oil………………. Textile Printing Oil ……………….. Thiocyanic Acid ………………….. Thioglycollic Acid ………………… Thionyl Chloride ………………….. Thiophosphoryl Chloride ……… Thiourea ……………………………. Thorium Nitrate ………………….. Thymol ……………………………… Tin Tetrachlorida ………………….. Tinning Sol. DuPont……………… Titania Paper Coating……………. Titanium Oxide Slurry …………… Titanium Oxy Sulfate…………….. Titanium Sulfate ………………….. Titanium Tetrachloride ………….. Toluol …………………………………

Toluene………………………………. p-Toluene Sulfonic Acid ………… Transil Oil……………………………. Trichloracetic Acid ………………. Trichlorethane 1,1,1……………… Trichlorethylene ………………….. Trichlorethylene-Dry …………….. Tricresyl Phosphate ……………… Triethanolamine ………………….. Triethylene Glycol ……………….. Trioxane …………………………….. Tungstic Acid ……………………… Turpentine……………………………
UCON § Lube ……………………… Udylite Bath-Nickel ………………. Undecylenic Acid ………………… Unichrome Sol. Alk………………. Uranium Salts …………………….. Uranyl Nitrate ……………………… Uranyl Sulfate …………………….. Urea Ammonia Liquor……………
Vacuum to 100 Micron …………. Vacuum below 100 Micr. ………. Vacuum Oil ………………………… Vanadium Pentoxide ……………. Slurry ………………………………… Varnish ……………………………… Varsol- Naphtha Solv. ……………. Versene § …………………………… Vinyl Acetate Dry or Chloride Monomer……………… VinyI Chloride Latex Emul……… Vinyl Resin Slurry………………… Viscose ……………………………… Vortex-Hydroclone………………..
Water-Acid – Below pH7………… Water pH7 to 8 …………………… Water Alkaline – Over pH8……… Water Mine Water ……………….. Water Potable ……………………… Water River ………………………… Water Sandy ………………………. Water “White” – low pH ………… Water “White” – high pH ……….. Wax ………………………………….. Wax Chlorinated …………………. Wax Emulsions …………………… Weed Killer Dibromide ………….. Weisberg Sulfate Plating ………. Wood ground pulp ………………. Wort Lines …………………………..
X-Ray Developing Bath …………. Xylene…………………………………
Zelan …………………………………. Zeolite Water ……………………… Zinc Acetate ……………………….. Zinc Bromide ………………………. Zinc Chloride ……………………… Zinc Cyanide-Alk. ………………… Zinc Fines Slurry …………………. Zinc Flux Paste …………………… Zinc Galvanizing…………………… Zinc Hydrosulfite …………………. Zinc Oxide in Water ……………… Zinc Oxide in Oil ………………….. Zinc Sulfate ………………………… Zincolate ……………………………. Zirconyl Nitrate …………………… Zirconyl Sulfate…………………….

Acetylene ……………………………. Acid & Alkali Vapours …………… Air……………………………………… Amine ………………………………… Ammonia …………………………….
Butane ………………………………. Butadiene Gas/Liquid …………… Butylene Gas/Liquid …………….. By-Product Gas (Dry) ……………
Carbon Dioxide …………………… Carbon Disulfide …………………. Carbon Monoxide ……………….. Chloride Dry ………………………. Chlorine Dry ……………………….. Chlorine Wet ………………………. Coke- oven Gas-cold……………… Coke-oven Gas-hot ………………. Cyanogen Chloride……………….. Cyanogen Gas………………………
Ethane ……………………………….. Ether-see Diethyl Ether ………… Ethylene …………………………….. Ethylene Oxide …………………….
Freon § (11-12-21-22)………….. Furnace Gas hot…………………… Furnace Gas cold …………………
Gas drip oil ………………………… Gas flue …………………………….. Gas manufacturing ………………. Gas natural …………………………
Helium ………………………………. Hydrogen Gas-cold………………. Hydrogen Chloride……………….. Hydrogen Cyanide ……………….. Hydrogen Sulfide wet & dry……
Isobutane……………………………. Methane …………………………….. Methyl Chloride …………………..
Natural gas dry …………………… Nitrogen gas ………………………. Nitrous Oxide ………………………
Oil-Solvent Vapor ………………… Oxygen ………………………………. Ozone ………………………………..
Producer Gas 50 PSI ……………. Propane …………………………….. Propylene …………………………..
Steam High Pressure ( 70 psi). Steam Low Pressure ( 70 psi) . Sulfur Dioxide …………………….. Sulfur Dioxide dry ……………….. Sulfur Trioxide Gas ………………. Sulfuric Acid Vapor……………….

NOTE: 1. The above information does not constitute a recommendation of sealant use. It is intended only as a guide for considerattiohne bpyurchaser with the expectation of favorable confirming test results. It is impossible to test sealant reaction with the multitude of chemicals in existence, therefore, compatihbailsitbyeen estimated based on a wide variety of customer experience.
2. With the stringent action of such chemicals as Freon, strong cold acids and caustics, thorough evaluation is suggested. Sgeaolfinhot corrosive chemicals is not recommended. 3. Contact Loctite Corporation for use with chemicals not covered by this information.
§Listing(s) may be Brand Name(s) or Trademarks for chemicals of Corporations other than Loctite.
Loctite product numbers in red are worldwide or application-specific products.
(This is a list of chemical stability only. It does not constitute approval for use in the processing of foods, drugs, cosmse, tpicharmaceuticals, and ingestible chemicals). Loctite® sealants are not recommended for use in pure oxygen or chlorine environments or in conjunction with strong oxidizing agneenxtps,loasive reaction can result.

The data contained herein are furnished for information only and are believed to be CORPORATION SPECIFICALLY DISCLAIMS ANY LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL

reliable. We cannot assume responsibility for the results obtained by others over whose DAMAGES OF ANY KIND, INCLUDING LOST PROFITS. The discussion herein of various processes

methods we have no control. It is the user’s responsibility to determine suitability for the or compositions is not to be interpreted as a representation that they are free from domination

user’s purpose of any production methods mentioned herein and to adopt such precautions of patents owned by others or as a license under any LOCTITE CORPORATION patents which

as may be advisable for the protection of property and of persons against any hazards may cover such processes or compositions. We recommend that each prospective user test the

that may be involved in the handling and use thereof.

proposed application to determine its suitability for the purposes intended prior to incorporation

In light of the foregoing, LOCTITE CORPORATION SPECIFICALLY DISCLAIMS ALL to determine its suitability for manufacturing process using this data as a guide. This product

WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE

may be covered by one or more United States or foreign patents or patent application.

ARISING FROM SALE OR USE OF LOCTITE CORPORATION’S PRODUCTS. LOCTITE

Loctite, 242, and 271 are trademarks of Loctite Corporation, U.S.A. © Copyright 2002. Loctite Corporation. All rights reserved. 335/LT-836B (3/02)

New-Line Hose & Fittings 2515 Eastbrook Parkway Burnaby, BC V5C 5W2 1-800-661-HOSE (4673) www.new-line.com

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806-B/806-Bi Manual

CHAPTER 6 – INSTALLATION GUIDE

1. Pick a spot in the tank for the sender bar(s) to be mounted. It should be as close to the middle of the tank compartment as possible. Make sure that the float will not contact any baffles or other obstructions in the tank. It is preferable if the float can be accessed from the hatch, to make any future service work easier. For this reason do not mount the float behind a baffle where it can’t be reached from the hatch.
2. Drill or cut a hole in the top of the tank to mount a 1″ NPT coupler (not provided). Weld the top coupler in place.
3. Slide the compression fitting over the sender bar, threads facing down, and insert the bar through the coupler and align it vertically in the tank. Determine how much material needs to be cut off the bottom of the bar. The bar should be mounted between 1″ and 1.5″ off the bottom of the tank to allow for tank expansion and contraction. Cut the bar with a hack saw and trim exposed circuit board with a sharp knife. Do not use a disk type cutoff saw since the heat generated will short circuit the internal circuit board.
4. Ensure that the compression fitting is on the bar and clean the end of the bar and the inside of the end cap with Loctite 7070 Cleaner. Spray Loctite T7471 Primer onto both the end of the bar and the inside of the end cap. Allow the primer to dry for a few minutes. Apply a bead of Loctite 680 Retaining Compound around the bottom of the tube and around the top of the end cap. Insert the cap onto the end of the tube with a turning motion. To remove entrapped air, place the end on the floor and rock the bar until excess air has escaped. Heat the end cap modestly with a butane torch or an electric heat gun until the end cap is quite hot to touch (but not over boiling). Keep the end cap in position by gently clamping the bar in a vise with the end against a solid object. Avoid setting the end cap against a cold floor, as this will slow the curing process. Reheat the end cap after 10 or 15 minutes with the cap restrained in position to allow curing to continue. The curing time should be about an hour. The Loctite must be set before the tank is put into service. Bar failure due to a leaking end cap is NOT covered by warranty. Note that a kit with all the required Loctite products is available from Garnet. For further details on the Loctite products see Technical Service Bulletin #17 on our web site.
5. Make up an anchor by cutting a 4″ X 16″ piece of 1/4″ thick material. Bend each end down at 90 degrees (see the diagram below), so the resulting flat piece is about 4″ X 10″ inches with

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Page 13

3″ sides. Drill a hole to insert a 2″ ID schedule 40 pipe in the center of the plate, weld tube to plate. Insert the bar into the tank and slide the anchor assembly over the sensor bar with the “U” facing down. Align the sensor bar vertically and weld the anchor in place to the bottom of the tank. Pull the sensor bar up a bit and slide the float (cone side up) over the bar. Lower the bar back into the anchor.
Top view
10.0″ 5.0″
2.0″

Side view

End view

2.0″ Schedule 40 pipe

1.5″
3.0″ 2.0″

Material is 1/4″ thick.

0.25″ 4.0″

6. Tighten the base of the compression fitting into the coupler. Lift the bar 2 inches off the bottom of the tank, and tighten down the compression fitting nut. Raise and lower the float a few inches to set the bottom reading.

FOR THE OUTSIDE (806-B) DISPLAY FOLLOW THESE STEPS:

7. Pick a spot for the display. It should be easy to see and out of direct road spray and protected from driving rain. Mount the display enclosure using the mounting flange holes, being certain to shim the enclosure away from the mounting surface with the spacers provided to allow water drainage. Broken display enclosures caused by water freezing behind the enclosure are NOT covered by warranty.
8. Route the sender bar wires together to the display, a cord is recommended, which will fit into a brass ¼” NPT fitting or a good strain relief that is water tight, you will install it in the bottom half of the Betts housing. Water leaks are a threat to the system, be sure to vent the Betts housing by drilling another hole in the bottom using one of two methods:

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806-B/806-Bi Manual

a. If the readout is being housed in a box for weather protection, you may simply drill a 1/8 inch hole beside the brass fitting as near vertical as possible.
b. If the readout is exposed to the elements, install another ¼” NPT brass fitting with a 3-4 inch piece of ¼” Synflex extending out of the fitting with a 45 degree slice at the termination point to prevent a sucking action in the airstream.
9. Inspect the head cap with the display circuitry for casting flash, and lightly sand or scrape off any casting protrusions. Make sure that there is grease on the rubber O-ring.
FOR THE inside (806-Bi) DISPLAY FOLLOW THESE STEPS:
10. Pick a spot for the display. Make sure that the display is visible from the driver’s seat and from the door. Make up a bracket to hold the box in position and mount the box, but leave the front panel off. The front panel is held on by the four small Phillips screws in the corners. DO NOT remove the two larger Robertson screws.
11. Route the sender bar wires together in a protective jacket to the display in the truck cab, drill an entry hole for the wires to enter the back of the box and connect as listed below in the chart.
12. When you are ready to fasten on the front panel with the four Phillips screws in the corners, remember that the screws are small so do not over tighten them. The screws are in soft plastic so they do not need to be really tight to keep from backing out.

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Page 15

FOR BOTH DISPLAY TYPES FOLLOW THESE STEPS:
At the display, use the terminal blocks to connect the wiring according to this table.

TERMINAL GND +12V COMP 1 COMP 2 COMP 3 ALARM 1 ALARM 2 ALARM 3 ALARM 4 REMOTE COMP BUT ALRM BUT

CONNECTION Truck ground and BLACK bar wire(s) 12 volt ignition power source (fused: see below) * YELLOW wire from comp #1 bar YELLOW wire – comp #2 bar (if used) YELLOW wire – comp #3 bar (if used) External device controlled by alarm 1 External device controlled by alarm 2 External device or reset point for Alarm 4 Warning light or horn For connecting to 828 Compartment button switch Alarm bypass button switch

*NOTE: Connect +12 Vdc power source via a minimum 1-amp fuse. **NOTE: Alarm 3 can behave the same way as Alarm 1 and 2, or Alarm 3 can be used as the reset point for Alarm 4.

For version 2.03

TERMINAL COMP 1 COMP 2 COMP 3

CONNECTION YELLOW wire from comp #1, #4, or #7 bar YELLOW wire from #2, #5, or

8 bar (if used) YELLOW wire from comp #3, #6, or #9 bar (if used)

13. You may want to put a switch in the power line to shut off the display if the light from the LED’s would be annoying at night. It is recommended that this switch be located in the dashboard.
14. Note that the alarms provide a circuit connection to ground when they turn on. If the alarm load is more than 1-amp, a relay should be used to prevent damage to the alarm outputs.

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806-B/806-Bi Manual

15. The other terminals on the Compartment button switch and the Alarm button switch should be connected to ground.
16. If the display is powered up before the sender bar is connected, it will read “no S” indicating that it is not receiving a signal from the sender bar. If the wiring to the bar is shorted to ground, the display will read “Shrt”.
17. Program the gauge as directed in the programming section. To determine the bottom reading of the gauge, measure from the bottom of the tank to the seam in the middle of the straight vertical part of the float. Make sure the float is resting on the anchor when this measurement is done. Do NOT set the gauge to read “0” at the bottom since this will not result in a correct reading when the float is actually floating on the product. In addition, if the gauge ever goes below “0” due to tank expansion, it will read some nonsensical value since this region has not been programmed.
18. From the inside, seal all wire entries into the display enclosure with RTV silicon rubber. Make sure that the RTV fully surrounds the wire where it goes though the fitting.
19. Close up the display by attaching the front panel. The 806-B will snap on while the 806-Bi cover needs to be screwed on.
20. Verify gauge operation by lifting the float.

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Page 18

806-B WIRING DIAGRAM-THREE COMPARTMENT WITH ALARM INDICATORS, ALARM HORN, AND REMOTE SERIAL INTERFACE CONNECTION
MINIMUM 1-AMP FUSE

806-B/806-Bi Manual

806-B/806-Bi Manual

806-B MULTI COMPARTMENT, MULTI DISPLAY WIRING EXAMPLE

+12V TRUCK POWER

MINIMUM 1-AMP FUSE

TRUCK GROUND

DISPLAY 1

+12V GND ALM 1 ALM 2 ALM 3 ALM 4 REM

CMP3 CMP2 CMP1

DISPLAY 2

+12V GND ALM 1 ALM 2 ALM 3 ALM 4 REM

CMP3 CMP2 CMP1

• ALARM HORN
  –

DISPLAY 3

+12V GND ALM 1 ALM 2 ALM 3 ALM 4 REM

CMP3 CMP2 CMP1

BLACK

YELLOW YELLOW
BLACK

YELLOW

BLACK

YELLOW YELLOW
BLACK

YELLOW

BLACK

YELLOW YELLOW BLACK

YELLOW

Page 19

SENDER BAR 1

SENDER BAR 2

SENDER BAR 3

SENDER BAR 4

SENDER BAR 5

SENDER BAR 6

SENDER BAR 7

SENDER BAR 8

SENDER BAR 9

THIS EXAMPLE SHOWS 9 COMPARTMENTS CONNECTED TO 3 OUTSIDE DISPLAYS. IT ALSO SHOWS ALARM 4 FROM ALL DISPLAYS CONNECTED TO A COMMON ALARM HORN.

CHAPTER 7 – DISPLAY PROGRAMMING INSTRUCTIONS
The 806 Annihilator provides a very interactive programming experience. When the programming plug is connected to the gauge, the gauge display will show “prog” within a second. Do not start programming the gauge until “prog” is shown. When the programming plug is removed, the display will show “donE” for a couple of seconds.
Notes: 1. 12 Vdc power must be applied to the gauge display in order
to program it.
2. The bar must be connected and operating in order to set the bottom reading on the gauge.
3. Each compartment must be programmed separately. To program a given compartment, use the COMPARTMENT button on the back of the 806-B display to select the compartment to be programmed, as shown on the right hand side of the display. Use the COMP button on the front of the 806-Bi display. The programmer must be unplugged from the display when changing compartments.
4. To make the 806-B display read in inches, press the INCH button on the back of the display. To make the 806-Bi display read in inches, press the DIM and BRIGHT buttons at the same time.
5. There are three compartment terminal blocks but four possible compartment modes. The COMP button switches through the four modes, C-1, C-2, C-3 and C-1 with a trailing zero.
6. Version 2.03 has 10 possible compartment modes, C-1 through C-9, and C-1 with a trailing zero.
Program the Annihilator for the number of compartments:
1. The display is capable of working with one, two, or three sender bars. It must be programmed for the number of sender bars used, otherwise it will attempt to show unused compartments, or will not show used compartments.
2. Version 2.03 must be programmed to reflect both the number of sender bars and the number of displays in the application.
3. The 817-USB programmer is not needed for this programming. No programming is possible or required for the sender bars.
4. Connect 12 volt power to the display, but do not connect any sender bars. The display should show “no S”.

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806-B/806-Bi Manual

5. Press and hold the INCH button (806-B) or the DIM and BRIGHT buttons (806-Bi). After about 5 seconds, the display will enter the “program number of compartments” mode by showing “P no. C1”, “P no. C2”, “P no. C3”, or “PTr0 C1” depending on what is currently programmed (1, 2, 3 compartments, or 1 with trailing zero). Release the button(s) at this point. Version 2.03 will show from “Pno C1” to “Pno C9”, or “PTro C1”
6. Press the COMPARTMENT button to change the right hand number to the correct number of compartments. Do this within 5 seconds or the display will exit the programming mode. For version 2.03, see the following table to select the correct number of compartments for a display.
7. When the display shows the correct number of compartments, do not press any button for 5 seconds. The display will then show “Stor C1”, “Stor C2”, “Stor C3”, or “Stor 0” indicating that 1, 2, 3 compartments or the trailing zero has been stored. The display will then return to normal operating mode. For version 2.03, the display will show “Stor C1” to “Stor C9” or “Stor 0”.
8. Test the display by repeatedly pressing the COMPARTMENT button. The compartment number should go 1-2-3-1-2-3 etc. for a three compartment system, 1-2-1-2 etc for a two compartment system. If only one compartment is used, then the compartment number is not shown or a “0” is shown for the trailing zero mode and the COMPARTMENT button has no effect.
9. For version 2.03, the compartment number will go 1-2-3-1-2-3 for display 1, 4-5-6-4-5-6 for display 2, or 7-8-9-7-8-9 for display 3. If only one compartment is used and the trailing zero mode is not selected, then the compartment number is not shown on display 1. However, if display 2 is programmed for one compartment, it will show “C4”, similarly, if display 3 is programmed for one compartment, it will show “C7”.
10. The number of compartments can be reprogrammed at any time if required. The display must show “no S” on the selected compartment to be able to enter the programming mode.

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806 Multi Compartment Display Programming and Wiring Guide

Number of

Display 1

Display 1

compartments programming wiring

Display 2

Display 2

programming wiring

Display 3

Display 3

programming wiring

1 with trailing zero
1

PTr0 C1 P no.C1

2

P no.C2

3

P no.C3

4

P no.C1

5

P no.C2

6

P no.C3

7

P no.C1

8

P no.C2

9

P no.C3

Sender bar 1 to COMP 1
Sender bar 1 to COMP 1
Sender bar 1 to COMP 1 Sender bar 2 to COMP 2
Sender bar 1 to COMP 1 Sender bar 2 to COMP 2 Sender bar 3 to COMP 3
Sender bar 1 to COMP 1
Sender bar 1 to COMP 1 Sender bar 2 to COMP 2
Sender bar 1 to COMP 1 Sender bar 2 to COMP 2 Sender bar 3 to COMP 3
Sender bar 1 to COMP 1
Sender bar 1 to COMP 1 Sender bar 2 to COMP 2
Sender bar 1 to COMP 1 Sender bar 2 to COMP 2 Sender bar 3 to COMP 3

Not Applicable Not Applicable Not Applicable

Not Applicable
Not Applicable
Not Applicable

Not Applicable Not Applicable

P no.C4 P no.C5 P no.C6
P no.C4 P no.C5 P no.C6

Sender bar 4 to COMP 1
Sender bar 4 to COMP 1 Sender bar 5 to COMP 2
Sender bar 4 to COMP 1 Sender bar 5 to COMP 2 Sender bar 6 to COMP 3
Sender bar 4 to COMP 1
Sender bar 4 to COMP 1 Sender bar 5 to COMP 2
Sender bar 4 to COMP 1 Sender bar 5 to COMP 2 Sender bar 6 to COMP 3

Not Applicable Not Applicable Not Applicable

Not Applicable
Not Applicable
Not Applicable

Not Applicable Not Applicable

Not Applicable Not Applicable

Not Applicable
Not Applicable

Not Applicable Not Applicable

P no.C7 P no.C8
P no.C9

Sender bar 7 to COMP 1
Sender bar 7 to COMP 1 Sender bar 8 to COMP 2
Sender bar 7 to COMP 1 Sender bar 8 to COMP 2 Sender bar 9 to COMP 3

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Program the Annihilator gauge display into inches:
1. Turn on the programmer.
2. Make sure the inch mode is correct.
3. Select a memory location with MEM LOC.
4. Press the INCH MEM (SHIFT ­ 1) button to put inches into the memory. If the inches are already in memory from a previous calibration, it is not necessary to do it again, but make sure that they are the correct inches (1/4″).
5. To program the alarm points, determine the level that they should be set at and whether they should be start up or shut down. The start up mode turns the alarm on as the tank level rises past the alarm point (i.e., the alarm is on at the top of the tank, and off at the bottom). The shut down mode turns the alarm off as the tank level rises past the alarm point (i.e., the alarm is on at the bottom of the tank, and off at the top).
6. If the automatic alarm is to be used, program Alarm 4 as shut down at the point where the horn is to come on, and program Alarm 3 as shut down a few inches above where the float will sit at the bottom of the tank. The automatic alarm is a special output so that even though Alarm 4 is programmed as shut down, the horn will be turned on when the level rises above the Alarm 4 point, and then will turn off when the alarm is silenced. When the fluid level goes below the Alarm 3 point, the alarm will be re-armed so it will sound the next time the level goes above Alarm 4.
7. To set Alarm 1, use the INCHES buttons to obtain the desired set point on the CALIBRATION display, then press the ALARM SHUT DN or SHIFT-ALARM ST UP button followed by the 1 button. When the operation is complete, repeat this procedure for the other alarms, pressing 2, 3, and then 4 after the ALARM button. If an alarm is not used it does not need to be programmed.
8. Make sure that the wires from the sender bar are connected to the gauge display, and plug the programmer plug into the gauge display. Press the BAR button. The INCHES display should show some inch reading, if it shows “no S” or “No FL” check the wiring.
9. Measure the distance from the bottom of the tank to the middle of the float, this is the bottom reading. Use the OFFSET buttons to obtain this reading on the CALIBRATION display. NOTE: The calibration offset is carried over when memory locations are changed.

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10. Press the PROG button to transfer the calibration to the gauge.
11. When the operation is complete, unplug the programmer from the gauge and verify gauge operation.
Copy one Annihilator gauge display to another:
1. Turn on the programmer.
2. Make sure the inch mode is correct (1/4″).
3. Select a memory location with MEM LOC.
4. Plug the programmer plug into the gauge display to be copied from. Press the COPY button to copy the gauge calibration into memory.
5. When the operation is complete, unplug the programmer plug from the first gauge and plug it into the gauge display to be copied to. Press the PROG button to transfer the calibration to the second gauge.
6. When the operation is complete, unplug the programmer from the gauge and verify gauge operation.
Program an Annihilator gauge display from a table of calibration values:
1. Obtain a table of inches versus volume
2. Turn on the programmer.
3. Make sure the inch mode is correct (1/4″).
4. Select a memory location with MEM LOC.
5. Press the CLEAR MEM button to erase any previous calibration.
6. Starting at the 0 inch value of volume calibration, use the 0 to 9, decimal, E, F, L, U, or BL buttons on the keypad to enter the calibration. Press the ENTER button to store the value in memory. When ENTER is pressed, the inches will go to the next value. If you make a mistake, use the BACK button to erase the entry, or if ENTER has already been pressed, use INCHES to go back to that inch value and re-enter the correct value. If more than 4 numbers are entered the previous ones will scroll off the left of the display. If ENTER is pressed before any numbers, nothing will happen.
7. After the table has been entered, use the INCHES buttons to review the table to make sure it is correct. If a calibration value is incorrect, simply re-enter it and press ENTER.

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806-B/806-Bi Manual

8. Continue with the same procedure as in Program the gauge display into inches from step 5. When setting the bottom reading, use the calibration table to look up the volume corresponding to the distance to the middle of the float. Use the OFFSET buttons to obtain this reading on the CALIBRATION display.
Program an Annihilator gauge display from a table stored in memory:
1. Turn on the programmer.
2. Make sure the inch mode is correct (1/4″).
3. Select the desired memory location with MEM LOC.
4. Continue with the same procedure as in Program the gauge display into inches from step 5. When setting the bottom reading, use the calibration table to look up the volume corresponding to the distance to the middle of the float. Use the OFFSET buttons to obtain this reading on the CALIBRATION display.
Programming the alarms to use the automatic self resetting alarm for high level warning:
1. To use this alarm, the warning device (light or horn) must be connected to Alarm 4.
2. Turn on the programmer. Make sure you have the correct volume calibration showing in the Calibration Display.
3. 3. For this application, alarm 4 is the warning point and alarm 3 is the tank empty point. Alarm 4 must be higher than alarm 3. Both of the alarms are programmed as shutdown. Note that even though Alarm 4 is programmed as shut down, the alarm will turn on as the tank level rises past the alarm set point.
4. Select the point in the tank where the warning should turn on. Use the INCHES buttons to obtain the desired set point on the CALIBRATION display.
5. Then press the ALARM SHUT DN button followed by the 4 button. This programs alarm 4 as a shutdown with the warning value.
6. Select a point in the tank which is a few inches off the bottom. The product level must go below this point when unloading, but once the tank has been even partially filled the product level should be above this point. Use the INCHES buttons to obtain this point on the Calibration Display.

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7. Then press the ALARM SHUT DN button followed by the 3 button. This programs alarm 3 as a shutdown with the tank empty value. When the product level drops below this point the warning bypass is reset.
8. This completes the alarm programming. Alarms 1 and 2 are not used for the automatic self resetting alarm for high level warning. Program the gauge according to the appropriate instructions above.

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806-B/806-Bi Manual

CHAPTER 8 – TROUBLESHOOTING GUIDE
There are only 4 serviceable components in the gauge: the float, the sender bar, the interconnecting wire, and the display.
If the float is sunk, the display will read the bottom tank reading all the time. If the float is partially sunk, the reading may rise and then fall as the tank is filled. If the float is lost from the bar, or if the float magnets are all damaged or lost, the bar will output a 0.0 inch signal which will be displayed as “FLot” indicating that the float is missing or not working.
If the wires are cut or the sender bar is dead, the display will read “no S” indicating that it is not receiving a signal from the sender bar. If the wiring to the sender bar is shorted to ground, it will show “Shrt”. In rare cases a shorted sender bar could cause a short circuit reading, disconnecting the yellow wire at the sender bar will change the display reading to “no S” in this case.
If the display reads erratically, check for water inside the display, and for a poor end cap seal. If the display is receiving a corrupted or inadequate signal it will show “Err” indicating an error in the bar signal.
If the display shows “Prob” at all times, it indicates an internal memory corruption of the number of compartments. Try reprogramming the number of compartments, if this fixes the problem then no further action is needed. If not, then the display will need to be serviced.
To test a sender bar:
1. Connect the bar to a display that is known to be operational. Program the display to inches, or hold down the inch button on the back of the display.
2. By running a float up and down the bar you should see the inch numbers on the display rise and fall. If it shows “no S” or “Err” or “Shrt” the bar needs to be replaced.
To test a display:
1. Connect the display to a bar that is known to be good. Run the float up and down on the bar to see if the display responds properly.

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2. If the display shows some strange reading it may need reprogramming. Copy the existing programming into an unused memory on the 817-USB (just in case) and then program the display in inches or a known good program. The display should show “prog” within a second of plugging in the 817 plug, if not it is bad. After the 817 plug is removed the display readings should match the readings on the 817 calibration display, if they do not then the display is bad.
3. If only the alarms do not work then copy the calibration into the 817-USB to check if the alarms are programmed. If they are programmed then connect the sender bar to the display. Connect the positive lead of an ohm meter to the alarm terminal, and the negative lead of the ohm meter to the ground terminal. Run the float up and down on the bar to test the alarms.
The software version can be displayed on an 806-B by pressing both the INCH button and COMPARTMENT button for 5 seconds when “No S” is shown. The software version can also be displayed on an 806-Bi by pressing the DIM button, BRIGHT button and COMPARTMENT button for 5 seconds when “No S” is displayed. The code revision number will be displayed until the buttons are released, for example “Cod2.02” or “Cod 2.03″.

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806-B/806-Bi Manual

CHAPTER 9 – SPECIFICATIONS

806-T SENDER BAR Resolution Accuracy Bar construction
Enclosure material Maximum tank height Product temperature range Power Alarm output range Input power Float material
Float size Float buoyancy
806-B DISPLAY Material Size Display type External power Ambient temperature range 806-Bi DISPLAY Material Size Display type External power Ambient temperature range SAFETY INFORMATION Compliance and Certifications

6 mm (1/4″) +/- 0.5 cm (+/-0.2″) 304 stainless steel tube, 25 mm (1″) dia 316 seamless stainless steel (optional upgrade) Fitting: 25 mm (1″) NPT male compression fitting Update (sample) rate: 56 mS (milliseconds) PBT plastic, Lid: polycarbonate
Tank height up to 221 cm (87″) -40°C to +90°C (-40°F to +194°F)
Powered by 12 Vdc truck power through the display
1 amp at 15 Vdc 10-15 Vdc, 180 mA max. (minimum 1-amp fuse) Medium density polyethylene. Stainless steel float available (optional upgrade). Cylindrical, 178 mm (7″) in diameter, 114 mm (41/2″) high. Sinks 25 mm (1″) in water.
Enclosure: PBT plastic, Lid: polycarbonate
Enclosure size: 152 mm (6″) in dia x 70 mm (2 ¾”) deep 0.56″ red LED, 4 volume digit, 2 compartment digits Powered by 12 Vdc truck power
-40°C to +60°C (-40°F to +140°F) ambient
Enclosure: ABS plastic 127 mm wide x 64 mm high (5″x 21/2″) x 43 mm (1 2/3″) deep 0.56″ red LED, 4 volume digit, 2 compartment digits Powered by 12 Vdc truck power
-40°C to +60°C (-40°F to +140°F) ambient
CAN ICES-001(A)/NMB-001(A) This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. This product can expose you to chemicals including Nickel and Lead, which are known to the State of California to cause cancer, and lead which is known to the State of California to cause birth defects or other reproductive harm. For more information go to www.P65Warnings.ca.gov Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.

806-B/806-Bi Manual

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CHAPTER 10 – SERVICE AND WARRANTY INFORMATION

Find warranty claim process information refer to our support page on our website:
www.garnetinstruments.com/support/

DISCLAIMER OF WARRANTY ON HARDWARE Garnet Instruments warrants equipment manufactured by Garnet to be free from defects in material and workmanship under normal use and service for a period of three years from the date of sale from Garnet or an Authorized Dealer. The warranty period will start from the date of purchase or installation as indicated on the warranty card. Under these warranties, Garnet shall be responsible only for actual loss or damage suffered and then only to the extent of Garnet’s invoiced price of the product. Garnet shall not be liable in any case for labor charges for indirect, special, or consequential damages. Garnet shall not be liable in any case for the removal and/or reinstallation of defective Garnet equipment. These warranties shall not apply to any defects or other damages to any Garnet equipment that has been altered or tampered with by anyone other than Garnet factory representatives. In all cases, Garnet will warrant only Garnet products which are being used for applications acceptable to Garnet and within the technical specifications of the particular product. In addition, Garnet will warrant only those products which have been installed and maintained according to Garnet factory specifications.

LIMITATION ON WARRANTIES These warranties are the only warranties, expressed or implied, upon which products are sold by Garnet and Garnet makes no warranty of merchantability or fitness for any particular purpose in respect to the products sold. Garnet products or parts thereof assumed to be defective by the purchaser within the stipulated warranty period should be returned to the seller, local distributor, or directly to Garnet for evaluation and service. Whenever direct factory evaluation, service or replacement is necessary, the customer must first, by either letter or phone, obtain a Returned Material Authorization (RMA) from Garnet Instruments directly. No material may be returned to Garnet without an RMA number assigned to it or without proper factory authorization. Any returns must be returned freight prepaid to: Garnet Instruments, 286 Kaska Road, Sherwood Park, Alberta, T8A 4G7. Returned warranted items will be repaired or replaced at the discretion of Garnet Instruments. Any Garnet items under the Garnet Warranty Policy that are deemed irreparable by Garnet Instruments will be replaced at no charge or a credit will be issued for that item subject to the customer’s request.

If you do have a warranty claim or if the equipment needs to be serviced, contact the installation dealer. If you do need to contact Garnet, we can be reached as follows:

CANADA Garnet Instruments 286 Kaska Road Sherwood Park, AB T8A 4G7 CANADA email: info@garnetinstruments.com

UNITED STATES Garnet US Inc. 5360 Old Granbury Road Granbury, TX 76049 USA email: infous@garnetinstruments.com

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806-B/806-Bi Manual

References

• Garnet Instruments – Liquid management solutions, your way.
• Support – Garnet Instruments
• New-Line Hose and Fittings - Talk To A Hose Expert Today
• P65Warnings.ca.gov

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