Renogy Pure Sine Wave Inverter with Transfer Switch

Before Getting Started

This user manual provides important operation and maintenance instructions for the Renogy 12V 1000W/2000W/3000W Pure Sine Wave Inverter with Transfer Switch (hereinafter referred to as the inverter).

Read the user manual carefully before operation and save it for future reference. Failure to observe the instructions or precautions in the user manual can result in electrical shock, serious injury, or death, or can damage the inverter, potentially rendering it inoperable.

• Renogy ensures the accuracy, sufficiency, and applicability of information in the user manual at the time of printing due to continual product improvements.
• Renogy assumes no responsibility or liability for personal and property losses, whether directly or indirectly, caused by the user's failure to install and use the product in compliance with the user manual.
• Renogy is not responsible or liable for any failure, damage, or injury resulting from repair attempts by unqualified personnel, improper installation, or inappropriate operation.
• Illustrations in the user manual are for demonstration purposes only. Details may appear slightly different depending on product revision and market region.
• Renogy reserves the right to change the information in the user manual without notice. For the latest user manual, visit renogy.com.

Disclaimer

Renogy 12V 1000W/2000W/3000W Pure Sine Wave Inverter with Transfer Switch User Manual © 2023 Renogy. All rights reserved.

RENOGY and ?️ are registered trademarks of Renogy.

• All information in the user manual is subject to copyright and other intellectual property rights of Renogy and its licensors. The user manual may not be modified, reproduced, or copied, in whole or in part, without the prior written permissions of Renogy and its licensors.
• The registered trademarks in the user manual are the property of Renogy. Unauthorized use of the trademarks is strictly prohibited.

An online manual is available via QR code.

Introduction

The Renogy 12V 1000W/2000W/3000W Pure Sine Wave Inverter with Transfer Switch is ideal for a wide range of off-grid applications, including vans, semi-trucks, fifth wheels, cabins, and remote locations that require reliable power sources. The inverter converts DC power stored in batteries into usable AC power for appliances. Renogy's advanced pure sine wave technology empowers you to run a wide variety of AC appliances without the risk of damaging even your most sensitive equipment.

Key Features

• Powerful DC-AC Conversion: Continuous rated output power with a conversion efficiency greater than 92%, and up to 2x surge for start-up loads.
• Uninterrupted Power Supply (UPS): Utilizing the built-in transfer switch, this inverter seamlessly switches to grid power, bypassing the inverter when it's available, thereby directly supplying the load with grid power.
• Safe for Use: The inverter provides multiple protection mechanisms such as overload, overtemperature, overvoltage, short-circuit, and undervoltage protections, as well as an integrated Ground Fault Circuit Interrupter (GFCI).
• Guaranteed Appliance Protection: Our pure sine wave technology ensures appliance longevity by delivering a clean sine wave that's comparable to or even better than grid power. Say goodbye to annoying buzzing sounds and enjoy the smooth operation of all your devices.
• Easy to Use: Offers a built-in 5V/2.1A USB port, AC Outlets, a Hardwired AC Output Terminal Block, and a Wired Remote Port.
• Dependable Quality: The inverter is UL certified to 458, CSA 22.2 No. 107.1-01, and FCC Part 15 Class B standards, ensuring reliability and safety for all users.

SKU

What's In the Box?

The package typically includes:

• Renogy 12V 1000W/2000W/3000W Pure Sine Wave Inverter with Transfer Switch x 1
• User Manual x 1
• Cables (3ft) x 2 (only for 1000W/2000W inverter)
• Wired Remote Control x 1
• RJ12 Ethernet Cable (5m) x 1

Note: Ensure all accessories are complete and free of damage. Package contents may vary by model. The 1000W inverter includes 4 AWG cables, the 2000W includes 1/0 AWG cables. The 3000W model does not include cables; 3/8in Lugs (M10 Ring Terminals) and 2/0 AWG cables are recommended.

Required Tools & Accessories

Choose proper mounting screws specific to your installation site. The following are examples:

• Phillips Screwdriver (#1) ?
• Wrench (9/16 in) ?️
• Insulating Gloves ?
• Slotted Screwdriver (1 mm) ?
• Wire stripper ✂️
• Self-tapping Screws (ST4 or ST6) x 4 ?

Note: Prepare recommended tools, components, and accessories prior to installation.

Product Overview

Renogy 12V 1000W Pure Sine Wave Inverter

AC Side View: Features GFCI LED Indicator, Power LED Indicator, USB Power Port, Remote Control Terminal, AC Output Frequency, Fault LED Indicator, AC Input and High Output AC Terminals, ON/OFF/REM Switch, AC Outlets, and N-G Bonding Relay.

DC Side View: Includes Cooling Fan, Negative (-) DC Input (M8), Positive (+) DC Input (M8) terminals, and Ground (M4) terminal.

Dimensions: 15.3 in (388.5 mm) L x 8.96 in (227.5 mm) W x 3.8 in (95.3 mm) H. Dimension tolerance: ±0.2 in (0.5 mm).

Renogy 12V 2000W Pure Sine Wave Inverter

AC Side View: Similar to the 1000W model, featuring GFCI LED Indicator, Power LED Indicator, USB Power Port, Remote Control Terminal, AC Output Frequency, Fault LED Indicator, AC Input and High Output AC Terminals, ON/OFF/REM Switch, AC Outlets, and N-G Bonding Relay.

DC Side View: Includes Cooling Fans, Negative (-) DC Input (M8), Positive (+) DC Input (M8) terminals, and Ground (M4) terminal.

Dimensions: 18.3 in (468.3 mm) L x 12.1 in (307 mm) W x 3.8 in (95.3 mm) H. Dimension tolerance: ±0.2 in (0.5 mm).

Renogy 12V 3000W Pure Sine Wave Inverter

AC Side View: Similar to the 1000W model, featuring GFCI LED Indicator, Power LED Indicator, USB Power Port, Remote Control Terminal, AC Output Frequency, Fault LED Indicator, AC Input and High Output AC Terminals, ON/OFF/REM Switch, AC Outlets, and N-G Bonding Relay.

DC Side View: Includes Cooling Fans, Negative (-) DC Input (M8), Positive (+) DC Input (M8) terminals, and Ground (M4) terminal.

Dimensions: 20.0 in (508.5 mm) L x 13.7 in (347.5 mm) W x 3.8 in (95.3 mm) H. Dimension tolerance: ±0.2 in (0.5 mm).

Part Description

How to Properly Install Cable Clamps?

The AC Input Terminals and AC Output Terminals are equipped with cable clamps to ensure that the wiring connections remain secure and do not come loose due to vibrations.

1. Remove the two screws on the protective cover to access the terminals.
2. Loosen the screws on a cable clamp with a Phillips Screwdriver.
3. Lift the clamp, and run the cables through the clamp.
4. Secure the clamp by fastening the screws.
5. Install the protective cover and secure it using two screws.

System Setup

System Wiring

The wiring diagram illustrates a typical DC-coupled off-grid energy storage system. Key components include Solar Panel, Charge Controller, Battery, Battery Charger, Inverter, Grid Power, and AC Loads. It shows DC and AC wiring paths, fuses, and battery connections. The diagram is for illustrative purposes; actual wiring may differ based on system configuration. Additional safety devices may be required. Wire the system according to local regulations. The grid supplies connected loads only and does not charge the battery.

Inverter Wiring

The wiring diagrams provided are tailored for the 1000W inverter model, with similar rules applying to other models.

AC Side View: Depicts connections for Wired Remote Control, Loads (USB), AC Loads, GFCI, and Grid Power (Single-phase 120V).

DC Side View: Shows connections to a 12V Battery via a Battery Fuse, with clearly marked Positive (DC) and Negative (DC) input terminals, and a Ground connection.

Size a Battery Bank

To size a proper battery bank, identify the loads and estimate the duration of use. The inverter is compatible only with 12V battery banks.

1. Determine Watts: Multiply Volts (V) by Amps (A) for each device (Watts = Volts x Amps).
2. Estimate Watt-Hours (Wh): Multiply device Watts by hours of daily use (Wh = Watts x Hours).
3. Determine Amp-Hours (Ah): Divide Watt-Hours by battery voltage (Ah = Wh / Voltage). For a 12V system, use 12V.
4. Oversize the Battery: Multiply the calculated Ah by 2 (for 50% depth of discharge) and by 1.25 (for efficiency losses). Example: 48Ah x 2 x 1.25 ≈ 115Ah recommended.

Note: Actual battery quantities vary by capacity and discharge rate. A 115Ah bank supports approximately 12 hours of run time while prolonging battery life.

Installation Steps

Step 1. Wear Insulating Gloves

Always wear insulating gloves ? when working with electrical connections.

Step 2. Plan a Mounting Site

Follow these guidelines:

• Location: Choose a cool, dry, and well-ventilated area. Ensure fans are not blocked and the site is free of moisture, with at least 10 inches clearance for ventilation. ?❌?
• Fire Hazard: Keep the inverter away from flammable materials, liquids, or combustible items.
• Proximity to Battery: Mount the inverter close to the battery bank to prevent excessive voltage drop. Use a properly sized wire.
• EMI Limiting: Ensure the inverter is firmly grounded. Keep it away from EMI receptors like TVs and radios. ?
• Secure Mounting: Mount the inverter using ST4 and ST6 screws on the inverter's outlying terminals.

Environmental Conditions: Operate within -4°F to 113°F (-20°C to 45°C).

Warnings:

• Do not over-torque terminals.
• Ensure the inverter is OFF before connecting anything.
• Do not install in the same compartment as the battery bank (fire hazard).
• Never mount vertically, as it can impede fan cooling.

Step 3. Grounding

Grounding is highly recommended for mobile applications (RV) and buildings. Connect the chassis ground lug to a ground point (e.g., vehicle chassis, boat grounding system, or earth ground). Connections must be tight and against bare metal. ?

Note: Refer to the N-G Bonding Relay section if the GFCI fails to operate normally after grounding.

Step 4. DC Wiring

The inverter is suitable for 12V battery bank systems ONLY. Failure to follow minimum DC requirements will cause irreversible damage.

Warning: The input terminals contain large capacitors that can draw heavy current momentarily upon connection, potentially causing a spark. To minimize sparking, use appropriately sized wires and consider an external fuse. Reversing polarity can cause permanent damage and void the warranty. ⚠️

Battery Fuse Recommendation: Use a battery fuse on the positive end.

Wiring Steps:

1. Set the ON/OFF Switch to the OFF position.
2. Remove protection caps on the DC side.
3. Unscrew Positive and Negative DC Input Terminals, connect the battery bank, and tighten terminal screws (Torque: 14±0.5 N•m).

Diagrams show these steps, including connecting the 12V Battery and Battery Fuse.

Step 5. AC Output Wiring

Recommended Ground-Fault Circuit Interrupter (GFCI)

A GFCI protects people from electric shock. While the inverter has a built-in GFCI, an external GFCI is strongly recommended for enhanced safety, especially in wet or damp locations.

Warning: Use only compatible GFCIs. GFCIs should be installed in recreational vehicle wiring systems to protect all branch circuits. ⚠️

AC Outlets

Plug AC loads directly into the AC Outlets on the inverter's AC side.

High Output AC Terminals

These terminals allow permanent connections to a GFCI, load sub-panel, or supplementary AC outlets. From left to right: Ground (G), Live/Hot (L), and Neutral (N).

Step 6. AC Input Wiring (Optional)

This inverter features a transfer switch that seamlessly switches to grid power when available, bypassing the inverter to supply the load directly. The terminal block indicates Live/Hot (L), Neutral (N), and Ground (G) from left to right.

Warning: Ensure the grid or AC generator is turned OFF before connecting to the inverter. ⚠️

Power On/Off

Operations on Inverter

1. On the AC side, set the ON/OFF Switch to the ON position. The inverter is operating normally.
2. When finishing, power off AC loads first, then set the ON/OFF Switch to the OFF position.

Note: When the inverter turns on, fans may run briefly and a beep may be heard. Avoid powering on the inverter with loads already switched on to prevent overload. When switching off, turn off electronic devices first. Capacitors may retain charge even when off.

Wired Remote Control

The Wired Remote Control allows power on/off from a distance (approx. 16.4 ft / 5 m). Ensure the inverter's ON/OFF switch is in the REM position.

Step 1: Connect the Wired Remote Control to the inverter via the Remote Control Connector using the RJ12 Ethernet Cable.

Step 2: Set the ON/OFF Switch to the REM position to control the inverter via the Wired Remote Control.

N-G Bonding Relay

This relay ensures the neutral in or out contact of the RV is always grounded, preventing electrical shock. It is enabled by default.

• With AC Input: The relay opens the neutral-to-ground connection, connecting to the grid ground.
• Without AC Input: The relay automatically closes, connecting to the inverter's ground, and supplies loads from the battery.

Manual Control: The relay can be manually enabled or disabled.

Important: The N-G bonding relay must be enabled when the battery supplies loads, as the GFCI will be unavailable if disabled. If disabled, the inverter must be grounded.

Monitor the Inverter

The inverter supports short-range (via Bluetooth) and long-range (via Renogy ONE) monitoring for real-time data, programming, and system management.

Note: App versions may differ from manual illustrations. Ensure the inverter is installed and powered on before pairing. For optimal performance, keep the phone within 10 feet (3 m) of the inverter.

Short-Range Monitoring via DC Home App

Connect the inverter directly to the DC Home app via Bluetooth on your smartphone.

Diagrams show the process of searching for and connecting to the inverter via the DC Home app.

Wireless Long-Range Monitoring

Connect the inverter to Renogy ONE (sold separately) via Bluetooth, and Renogy ONE to the DC Home app via Wi-Fi for long-range communication.

Diagrams illustrate the connection setup for long-range monitoring using Renogy ONE.

Recommended Components: RENOGY ONE Core or Renogy ONE M1. Available on renogy.com.

LED Overview & Troubleshooting

For further assistance, contact Renogy technical support at https://www.renogy.com/contact-us.

Pure Sine Wave

The inverter outputs a pure sine wave, similar to grid power, with smooth voltage transitions, very low harmonic distortion, and cleaner utility-like power. This technology provides high-quality waveform suitable for sensitive electronics, offering greater efficiency and stable power for tools, fans, lights, and computers without interference.

Diagram: A graph titled 'Pure Sine Waveform' shows Amplitude (Volts) on the Y-axis and Time (Seconds) on the X-axis, depicting a smooth sinusoidal wave.

Specifications

General Data

Electrical Data

General Safety Information

WARNING

• Have the inverter installed by a qualified technician in accordance with local and national electric codes (NEC).
• There are no serviceable parts. Do not disassemble or attempt to repair the inverter.
• Ensure all connections are tight. Sparks may occur during connection; keep flammable materials or gases away.
• The inverters are suitable for 12V battery banks ONLY.
• Always ensure the inverter is OFF and disconnect all AC and DC devices before working on it.
• Never connect the inverter's AC output directly to an Electrical Breaker Panel or Load Center fed by utility power or a generator.
• Confirm polarity before connection; reverse polarity can cause injury and damage.
• Be careful when touching capacitor terminals, as they may retain high voltages even after power is removed.
• Do not let positive (+) and negative (-) battery terminals touch each other. Use only deep-cycle sealed lead-acid, flooded, gel, or lithium batteries.
• Risk of explosion! Never install in a sealed enclosure with flooded batteries. Do not install in confined areas where battery gases can accumulate.
• When working with large lead-acid batteries, wear eye protection and have fresh water available for contact with battery acid.
• Overcharging or excessive gas precipitation can damage battery plates. Review specific battery requirements.

CAUTION

• Install in a well-ventilated, cool, and dry environment. Ensure fans and ventilation holes are not blocked.
• Do not expose the unit to rain, moisture, snow, or liquids.

Renogy Support

To discuss inaccuracies or omissions, visit or contact Renogy:

• Website: renogy.com/support/downloads
• Email: contentservice@renogy.com

Explore solar systems and visit the Renogy Learning Center at: renogy.com/learning-center

For technical questions in the U.S., contact support:

• Website: renogy.com/contact-us
• Phone: 1(909)2877111

For technical support outside the U.S., visit local websites:

• Canada: ca.renogy.com
• Australia: au.renogy.com
• South Korea: kr.renogy.com
• United Kingdom: uk.renogy.com
• China: www.renogy.cn
• Japan: renogy.jp
• Germany: de.renogy.com
• Other Europe: eu.renogy.com

FCC Statement

This device complies with Part 15 of the FCC Rules. Operation is subject to two conditions: (1) it may not cause harmful interference, and (2) it must accept any interference received, including interference that may cause undesired operation.

Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.

This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used according to instructions, may cause harmful interference to radio communications. No guarantee is made that interference will not occur in a particular installation. If interference occurs, try one or more of the following measures:

• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment and receiver.
• Connect the equipment to a different circuit than the receiver.
• Consult a dealer or experienced radio/TV technician.

FCC Radiation Exposure Statement

This equipment complies with FCC radiation exposure limits for an uncontrolled environment. Install and operate with a minimum distance of 20 cm between the radiator and your body.

About Renogy

Renogy Empowered

Renogy aims to empower people worldwide through education and distribution of DIY-friendly renewable energy solutions, driving sustainable living and energy independence. Their solar products help minimize carbon footprints by reducing reliance on grid power.

Live Sustainably with Renogy

A 1 kW solar energy system can, in a given month:

• Save 170 pounds of coal from being burned.
• Save 300 pounds of CO2 from being released into the atmosphere.
• Save 105 gallons of water from being consumed.

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Renogy reserves the right to change manual contents without notice.