WAGAN 3802 Pure Line 700 Watt 12V Pure Shine Wava Inverter User Manual

Item No. : 3802
User’s Manual

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Pure Line 700 by Wagan Tech®

INTRODUCTION

Thank you for purchasing the Wagan Tech ® Pure Line 700 Pure Sine Wave DC to AC Power Inverter. Read and understand this manual before installing and operating this inverter. Keep this manual for future use. It delivers a true AC sine wave identical to that of commercial power. Use this inverter to power AC appliances in your vehicle. Pure Sine Wave AC means that your sensitive electronics, such as audio/video systems, computers, and communications equipment will operate properly. Furthermore, appliances with motors operate cooler, quieter, and more efficiently when they are powered by pure sine wave AC.

The inverter is powered from 12 volt DC and it will continuously deliver 700 watts AC power at 115 volts, 60 Hz. Superior surge capability of 1,400 watts allows the inverter to start the most difficult motorized appliances. Advanced microprocessor-controlled circuits run cooler and are more reliable than competing units.
The Pure Line 700 operates at high efficiency (up to 90%), which results in long run time and extended battery life compared to other inverters with this level of power output. A 2.1A USB power port provides a convenient way to power USB devices, including tablets, e-readers, smartphones, and other mobile electronics.
The Pure Line 700 comes with a separate ground terminal typically found on higher capacity units. This terminal helps to reduce the noise caused by power conversion when using radiofrequency devices.

The DC terminals have been designed with protective covers to minimize the risk of accidental shortage when handling the DC cables. This inverter bonds neutral to ground, just like utility power. The enclosure vents have been minimized to reduce the risk of pest intrusion in arid tropical climates.
This inverter has added safety features including ETL certification, conformal coating, ground fault protection, and DC terminal protection.

The Wagan Pure Line 700 Pure Sine Wave Inverter is an indispensable addition to your complement of mobile power equipment. With minimal care and proper treatment, it will provide years of reliable service.

SPECIFICATIONS

• All specifications are typical at nominal line, half load, and 77 ºF (25 ºC) unless otherwise noted.
  Specifications are subject to change without notice.

WARNING

**** INVERTER OUTPUT CAN BE LETHAL. IMPROPER USE OF THIS INVERTER MAY RESULT IN PROPERTY DAMAGE, PERSONAL INJURY, OR LOSS OF LIFE.

• Keep the inverter away from any direct heat source or combustible materials.
• Keep well ventilated—this device generates heat.
• Keep this inverter in a dry environment.
• Do not operate any equipment over 700 watts.
• This inverter is designed to operate from a 12 volt DC power source only.
• Do not attempt to connect the inverter to any other power source, including any AC power source.
• Incorrect battery polarity will damage the inverter and void the warranty.
• Do not open the inverter; there are no user-serviceable parts inside.

DISPOSAL/RECYCLING OF INVERTER

Electronic products are known to contain materials that are toxic if improperly disposed of. Contact local authorities for disposal and recycling information.

FRONT PANEL

• ON/OFF Switch — This switch controls the AC output of the inverter.
• Power LED (Green) — When this green LED is lit, the inverter is operating normally.
• Ground Fault LED (Yellow) — When the yellow LED is lit, the ground fault circuit has been interrupted. Shut down the inverter and restart.
• Fault LED (Red) — The RED indicator turns on as the inverter shuts down due to overheating, overload, under-voltage, or overvoltage.
• Immediately turn off all AC appliances if the FAULT LED is lit. Allow the inverter to cool before continuing. Make sure that the ventilation vents are not blocked.
• If an inverter shutdown was preceded by a buzzing sound, there may be an excessive load in combination with a low voltage or cable problem.
• The normal operating range is 11V to 15V DC.
• AC Outlets — These outlets can supply up to 5.8 amps at 115V AC 60 Hz
• USB Power Port — This power port can supply 5 volts at 2.1A for charging or powering tablets, e-readers, smartphones, and other small electronic devices.
• Audible Alarm (internal to the inverter) — When the Audible Alarm makes a buzzing sound, the inverter senses a low battery condition. The user should reduce the AC load, charge the battery, and check the DC cable for excessive losses.
• Remote Switch Connection

REAR PANEL

• Positive Terminal — Positive (+) DC Input (Red)
• Negative Terminal — Negative (−) DC Input (Black)
• Cooling Fans — High-speed and load controlled
• Ground Terminal — For attaching an insulated safety ground wire. This safety wire is for protecting personnel if there is an unlikely failure in either the cabling or enclosure insulation. Grounding the inverter enclosure ensures personnel safety should a DC cable problem occur. During the installation procedure, the Ground Terminal is connected either to a vehicle chassis or to the negative DC terminal of the battery. Do not directly connect this ground connection to the negative DC terminal of the inverter.
  Use an insulated 10 gauge wire to make the ground connection. If the inverter installation is located in a fixed location, the safety wire can be connected to the earth’s ground.

REMOTE ON/OFF CONTROL

Optional wired remote control sold separately. Item #AA5603. Visit wagan.com to order.
Insert the wired remote plug into the Remote Switch Connection port. Set ON/OFF switch to “remote” position.

LOAD CONSIDERATIONS

The startup load of an appliance is a major factor of whether this inverter can power it. This initial load is only momentary. With many appliances, it is approximately twice the continuous load, but some appliance startup loads can be as high as eight times the continuous load.
The inverter will automatically shut down in the event of an output overload so there is no danger of damaging either the inverter or the equipment. When the red LED indicator is lit, the inverter is signaling a fault.

PLANNING THE INVERTER SYSTEM

Any large wattage inverter system requires planning before installation. There are several steps to the planning process so the user must determine the following:

• Maximum inverter wattage required
• Operating time (run time) needed between battery recharges
• Battery bank capacity in amp-hours
• Charger requirement to charge batteries within a practical time
• Distance between battery bank and inverter

DETERMINING MAXIMUM APPLIANCE WATTAGE
Do not exceed the 700 watts maximum AC load or the inverter will shut down.
Most electrical tools, appliances, and audio/video equipment have labels that list the unit’s power requirements in watts. If the tool or device is rated in amps, multiply the amps by 115 (115V AC) to determine the watts. For example, an appliance rated at 0.5 amps will draw 60 watts.

WATTS = VOLTS × AMPS
Remember to consider the startup surge that motorized appliances will cause. Do not exceed the 1,400-watt momentary surge rating of this inverter. This can cause immediate overload shut down and or blow a fuse.

CONFIGURING THE BATTERY BANK

To determine the minimum battery ampere-hour rating that you will need to operate appliances from the inverter and any DC appliances powered by the battery bank, follow these steps:

1. List the maximum continuous wattage that the inverter has to supply.
2. Estimate the number of hours the appliances will be in use between battery recharges. This will vary depending on the appliances. For example, a typical home-use coffee maker draws 500 watts during its brew time of 5 minutes.
   It maintains the temperature of the pot, requiring 100 watts. Typical use of a microwave oven is only for a few minutes. Some longer operating time appliances are lamps, TVs, computers, and refrigerator/freezers.

Determine the total watt-hours of energy needed. This is done by multiplying average power consumption in watts by hours of run time. For example 500 watts for 10 hours = 5,000 watt-hours. To get an estimate of the maximum current (in amps) that a battery bank must be capable of delivering to the inverter, divide the load watts by ten. For example, a 500-watt appliance load will need 50 amps at 12 volts DC. Using the 500 watts (or 50 amps) for 10 hours example as above, then 50 amps is needed for 10 hours. This provides us with the basic amp-hours (Ah) of battery that is required. Ten hours at 50 amps equals 500 amp-hours (AH). There are additional factors that determine actual run time. These include:

• AC appliance load and time in use (basic AH).
• Cable gauge and length (cable losses).
• The charge level of the batteries (between use, chargers have to be able to fully charge the batteries).
• The temperature of the batteries (colder batteries provide fewer amps).
• Age and condition of the batteries (older batteries lose AH capacity).
• Compliance with turning off unnecessary AC loads.
• Use of DC appliances and compliance with turning off unnecessary DC loads.

DERATING THE BATTERY BANK

Most lead-acid batteries have a rating expressed in amp-hours (AH). The most common rating of AH is “at the 20-hour rate”.
NOTE: Despite several internet explanations, there is no relationship between cold-cranking amps (CCA) and ampere-hours (AH).
For example, if a 20 AH battery is discharged at a 1 amp rate, is will take 20 hours to discharge that battery. The terms “charged” and “discharged” relate to actual battery voltage. This means that the output voltage of a nominal 12-volt battery starts at 13.4 volts (fully charged) then drops to 10.7 volts (discharged).
If the load on the battery causes the battery to discharge faster than the 20-hour rate, the capacity (AH) of the battery is measurably reduced (derated). In heavy battery discharge applications, double the estimated Amp Hour rating and configure batteries to support this capacity. If the batteries are frequently charged by an alternator, the Amp Hour rating of the battery may be reduced.

SETTING UP THE BATTERY BANK

Batteries that are used indoors or inside a vehicle or vessel should be deep cycle, sealed lead-acid batteries.
NOTE: It is important for any inverter installation to battery protection fuses.
Battery fuses are added to the positive (+) battery cable as close as possible to the battery bank’s positive terminal. The fuse amperage rating must be sized to allow simultaneous operation of all the AC appliances to be powered, plus 20 percent safety factor. Fuses are very important to protect equipment, batteries, and personnel. The fuses protect against battery explosion if the cables that connect to the inverter are accidentally short.

BATTERY BANK DIAGRAM

The diagram below shows inverter connections to a battery bank with recommended fuse protection.

WARNING—EXPLODING BATTERIES!!

Exploding batteries can spray molten lead, hot sulfuric acid, other metal, and plastic fragments. Batteries that are charging or under high discharge rates produce explosive hydrogen gas into the surrounding area. Be safe–fuse the battery bank and make sure the batteries are properly ventilated.

DC CABLE GAUGE

Minimize cable losses by using the thickest wire available and the shortest practical length.
Measure Round Trip (RT) cable distances in feet. Round Trip cable distance is the battery to the inverter and back to the battery. If the application is in a vehicle with an engine operating, use the supplied cables for round trip distances up to 5 feet.
Use a recommended ANL fuse and fuse holder. Fuse at 80 Amps. ANL fuses are quick acting and sealed so they do not spark when they blow. Place fuse no more than one foot from the Positive (+) terminal of the battery.

Cable length (feet)| 6| 8| 10| 12| 14| 16| 18| 20| Fuse
(Amps)
---|---|---|---|---|---|---|---|---|---
Gauge
(AWG)| 4| 4| 2| 2| 2| 0| 0| 0| 80

CONNECTING THE INVERTER

Installation procedure:

1. Mount the inverter in a secure location. If the inverter is to be mounted on a wall, mount it horizontally. Make sure that the front and rear of the inverter have free airflow.

2. Make sure the cables are the proper gauge and have the fuse holder as close to the battery bank’s Positive (red) terminal.

3.  Install the fuse in the Positive (red) cable.

4. Make sure the Power Switch located on the front panel of the inverter is in the Off position.

5. Locate the ground lug terminal on the inverter. Connect an insulated 10 gauge copper wire to the terminal. The other end of the ground wire is connected to a “proper” grounding point. Use the shortest practical length of wire. Connect this wire to the chassis of your vehicle or to the grounding system in your boat. In a city, the ground wire can connect to a metal cold water pipe that goes underground. In remote locations, the ground wire can be connected to an “earth ground”. This can be an attachment to a foot-long copper-clad metal rod driven into the ground. In the unlikely event of a short circuit, operating the inverter without proper grounding can result in electrical shock. Do not directly connect this ground wire to the negative (black) DC Terminal of the inverter. As an alternative grounding connection, use the Negative (black) terminal of the battery.
   NOTE: Crimp-on ring terminals are required on all cable ends. The cable ends need to be stripped of insulation for 1/2 inch before crimping on ring terminals. Select a crimp terminal size to fit the gauge cable and inverter and battery terminal connectors. After crimping make sure that the cable connectors are secure on the cables so there are no loose connections.

6. Remove the terminal covers from the inverter. Slide the cable through the correct terminal cover.

7. Connect the Negative (black) cable end to the inverter terminal and battery  Negative Terminal. Make sure you have good, secure connections.

8. Recheck and make sure the DC cable fuse is installed in the fuse holder.
   CAUTION: Making an initial connection between the positive cable end and the inverter’s positive terminal may cause a spark. This is normal and is a result of capacitors in the inverter starting to charge. Because of the possibility of sparking, it is extremely important that both the inverter and the battery bank be positioned away from any source of flammable fumes or gases. Failure to heed this warning can result in fire or explosion. Do not make the positive terminal connection immediately after the batteries have been charging. Allow time for the battery gasses to vent to the outside air.

9. Attach the positive cable to the Positive DC connector on the battery and then the inverter. Make sure the connections are tight and secure.

10. Turn on the inverter from the Front Panel Power Switch “|”

11. Make certain that the green Operating LED is lit and the FAULT LED indicator is not lit.

12. Turn Off “O” the inverter. The Fault LED may briefly “flash”. This is normal. The audible alarm may also sound a short “chirp”. This is also normal.

13. When you have confirmed that the appliance to be operated is turned off, plug the appliance into one of the two AC outlets on the front panel of the inverter.

14. Turn the inverter on.

15. Turn the appliance on. The appliance should begin working.

16. Observe the LED indicators and the digital display for normal operation.
    Note: If an extension cord is used from the inverter to the appliance, limit the extension cord length to 100 feet or less. Make sure that the cord is safety approved and AWG 14 or greater to carry the appliance load. Remember that extension cords are for temporary use.

**** WARNING: THERE IS A DANGER OF EXPLOSION. DO NOT CONNECT OR DISCONNECT CHARGER CABLES DIRECTLY AFTER BATTERY DISCHARGE OR RECHARGE—MAKE SURE THAT THE BATTERY BANK AREA IS WELL VENTED BEFORE ATTACHING OR REMOVING CABLES.

OPERATING ISSUES: TELEVISION AND AUDIO EQUIPMENT SUGGESTIONS.

Although all inverters are shielded and filtered to minimize signal interference, some interference with your television picture may be unavoidable, especially with weak signals. However, here are some suggestions that may improve reception.

• Make sure that the television antenna produces a clear signal under normal operating conditions (i.e. plugged into a standard 110V/115V AC wall outlet). Also, ensure that the antenna cable is of good quality and properly shielded.
• Sometimes vehicle alternators produce some electrical noise. There are filters available to mount on the alternator to reduce the noise.
• Change the positions of the inverter, antenna cables, and television power cord.
• Isolate the television, its power cord, and antenna cables from the 12-volt power source by running an extension cord from the inverter to the television.

TROUBLESHOOTING

PROBLEM: Low or No Output Voltage – Fault LED-Lit

thoroughly. Reinstall and tighten.

PROBLEM: Inverter Auto Shut Down – Fault LED-Lit

cool.
• Check for adequate ventilation.
• Reduce the load on the inverter to the specified TrueRated™ power max output.

PROBLEM: Inverter Shut Down – Fault LED-Lit

this inverter; use a higher wattage inverter.

PROBLEM: No AC Output – Yellow Ground Fault LED-Lit

A ground fault is an unintended AC current that is flowing to ground. It can be caused by faulty wiring, bad insulation, very long wiring, and sparking appliances.| Turn inverter OFF (O) to reset it, then to ON (I). IF the inverter immediately shuts off, disconnect each appliance
or wiring until the inverter will stay on after reset. Examine the wiring or appliance for unintended connections.
Repair or replace as necessary.

PROBLEM: Continuous Buzzing Sound

connections.
Inadequate power being delivered to the inverter or excessive voltage drop.| Use heavier gauge DC cables.
Keep cable length as short as possible.

WAGAN Corp. Limited Warranty

The WAGAN Corporation warranty is limited to products sold only in the United States.
Warranty Duration:
Product is warranted to the original purchaser for a period of two (2) years from the original purchase date, to be free of defects in material and workmanship.
WAGAN Corporation disclaims any liability for consequential damages. In no event will WAGAN Corporation be responsible for any amount of damages beyond the amount paid for the product at retail.

Warranty Performance:
During the warranty period, a product with a defect will be replaced with a comparable model when the product is returned to WAGAN Corporation with an original store receipt. WAGAN Corporation will, at its discretion, replace or repair the defective part. The replacement product will be warranted for the balance of the original warranty period. This warranty does not extend to any units which have been used in violation of the written instructions furnished.
Warranty Disclaimers:

This warranty is in lieu of all warranties expressed or implied and no representative or person is authorized to assume any other liability in connection with the sale of our products. There shall be no claims for defects or failure of performance or product failure under any theory of tort, contract or commercial law including, but not limited to negligence, gross negligence, strict liability, breach of warranty, and breach of contract.

Returns:
WAGAN Corporation is not responsible for any item(s) returned without an official Return Authorization number (RA#). Please contact our customer service team by phone or email to obtain an RA#. You can also visit our website and chat with our team during our normal business hours. For more details and instructions on how to process a warranty claim, please read the “Returns” section under the “Contact” page on our website. WAGAN Corporation is not responsible for any shipping charges incurred in returning the item(s) back to the company for repair or replacement.
Register your product online at http://tinyurl.com/wagan- registration to be added to our email list. You will receive previews on our upcoming products, promotions, and events.

31088 San Clemente Street
Hayward, CA 94544, U.S.A.
Tel: +1.510.471.9221
U.S. & Canada Toll-Free: +1.800.231.5806
[email protected]
www.wagan.com

©2021 Wagan Corporation. All Rights Reserved
Wagan Tech and wagan.com are trademarks of Wagan Corporation
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