RENOGY ADVENTURER 30A PWM User Manual

ADVENTURER 30A PWMFlush Mount Charge Controller w/ LCD DisplayVersion 2.0

Important Safety Instructions

Please save these instructions.This manual contains important safety, installation, and operating instructions for the charge controller. The following symbols are used throughout the manual:WARNING Indicates a potentially dangerous condition. Use extreme caution when performing this task.CAUTION  Indicates a critical procedure for the safe and proper operation of the controller.NOTE Indicates a procedure or function that is important to the safe and proper operation of the controller.

General Safety Information

  • Read all of the instructions and cautions in the manual before beginning the installation.
  • There are no serviceable parts for this controller. Do NOT disassemble or attempt to repair the controller.
  • Make sure all connections going into and from the controller are tight. There may be sparks when making connections, therefore, make sure there are not flammable materials or gases near the installation.

Charge Controller Safety

  • NEVER connect the solar panel array to the controller without a battery. The battery must be connected first. This may cause a dangerous occurrence where the controllerwould experience a high open-circuit voltage at the terminals.
  • Ensure input voltage does not exceed 50 VDC to prevent permanent damage. Use the Open Circuit (Voc) to make sure the voltage does not exceed this value whenconnecting panels together in series.
  • The charge controller should be installed indoors in a well-ventilated, cool, and dry environment.
  • Do NOT allow water to enter the controller.

Battery Safety

  • Do NOT let the positive (+) and negative (-) terminals of the battery touch each other.
  • Explosive battery gases may be present while charging. Be certain there is enough ventilation to release the gases.
  • Be careful when working with large lead-acid batteries. Wear eye protection and have fresh water available in case there is contact with the battery acid.
  • Over-charging and excessive gas precipitation may damage the battery plates and activate material shedding on them. Too high of an equalizing charge or too long of one may cause damage. Please carefully review the specific requirements of the battery used in the system.
  • Equalization is carried out only for non-sealed / vented / flooded / wet cell lead-acid batteries.
  • Do NOT equalize VRLA type AGM / Gel / Lithium cell batteries UNLESS permitted by the battery manufacturer.

WARNING: Connect battery terminals to the charge controller BEFORE connecting the solar panel(s) to the charge controller.NEVER connect solar panels to the charge controller until the battery is connected.Once equalization is active in the battery charging, it will not exit this stage unless there is adequate charging current from the solar panel. There should be NO load on the batteries when in the equalization charging stage.

General Information

The Adventurer is an advanced charge controller for off-grid solar applications. Integrating highly efficient PWM charging, this controller increases battery life and improved system performance. It can be used for a 12V or 24V battery or battery bank. The controller is embedded with self-diagnostics and electronic protection functions that prevent damages from installation mistakes or system faults.

Key Features
  • Automatic recognition for 12V or 24V system voltage.
  • 30A charging capacity.
  • Backlit LCD screen for displaying system operating information and data.
  • Compatible with AGM, Sealed, Gel, Flooded, and Lithium batteries.
  • 4 Stage PWM charging: Bulk, Boost. Float, and Equalization.
  • Temperature compensation and correcting the charging and discharging parameters automatically, improving battery life.
  • Protection against: overcharging, over current, short-circuit, and reverse polarity.
  • The unique USB port on the front display.
  • Integrated communication port for remote monitoring
  • Charges over-discharged lithium-iron-phosphate batteries
  • Specifically designed for RV application and allows for aesthetically clean flush mounting on walls.
  • Remote temperature compensation is compatible.
  • The remote battery voltage sensor is compatible.

Product Overview

Identification of Parts

# Label Description
1 USB Port 5V, Up to 2.4A USB port for charging USB devices.
2 Select Button Cycle through the interface
3 Enter Button Parameter Setting button
4 LCD Display Blue Backlit LCD displays system status information
5 Mounting Holes diameter holes for mounting the controller
6 PV Terminals Positive and Negative PV Terminals
7 Battery Terminals Positive and Negative Battery Terminals
8 RS232 Port Communication port for connecting monitoring accessories such as Bluetooth requires a separate purchase.
9 Temperature Sensor Port Battery Temperature Sensor port utilizing data for accurate temperature compensation and charge voltage adjustment.
10 BVS  Battery Voltage Sensor port for measuring the battery voltage accurately with longer line runs.

Dimensions

Included Components

Adventurer Surface Mount AttachmentThe Renogy Adventurer Surface Mount will give you the option to mount the charge controller to any flat surface; circumventing the flush mount option.NOTE Screws included for the attachment Screws are included for flush mounting.

Optional Components

These components are not included and require a separate purchase.Remote Temperature Sensor:This sensor measures the temperature of the battery and uses this data for very accurate temperature compensation. Accurate temperature compensation is important in ensuring proper battery charging regardless of the temperature.NOTE Do Not use this sensor when charging lithium batteries.Battery Voltage Sensor (BVS):The battery voltage sensor is polarity sensitive and should be used if the adventurer will be installed with longer line runs. In longer runs, due to connection and cable resistance, there can be discrepancies in the voltages at the battery terminals. The BVS will make sure the voltage is always correct to ensure the most efficient charging.Renogy BT-1 Bluetooth Module:The BT-1 Bluetooth module is a great addition to any Renogy charge controller with an RS232 port and is used to pair charge controllers with the Renogy BT App. After pairing is done you can monitor your system and change parameters directly from your cell phone or tablet. No more wondering how your system is performing, now you can see the performance in real-time without the need of checking on the controller’s LCD.Renogy DM-1 4G Data Module:

The DM-1 4G Module is capable of connecting to select Renogy charge controllers through an RS232 and is used to pair charge controllers with Renogy 4G monitoring app. This app allows you to conveniently monitor your system and charge systems parameters remotely from anywhere 4G LTE network service is available.

Installation

Connect battery terminal wires to the charge controller FIRST then connect the solar panel(s) to the charge controller. NEVER connect the solar panel to the charge controller before the battery.WARNING: Do not over-tighten the screw terminals. This could potentially break the piece that holds the wire to the charge controller.CAUTION: Refer to the technical specifications for max wire sizes on the controller and for the maximum amperage going through wires.Mounting Recommendations:WARNING: Never install the controller in a sealed enclosure with flooded batteries. Gas can accumulate and there is a risk of explosion.The Adventurer is designed for flush mounting on a wall. It consists of a faceplate with projecting terminals on the backside for connecting the battery bank, panels, and optional sensors for accurate battery voltage sensing and battery temperature compensation. If utilizing the wall mount, then the wall will be required to be cut to accommodate the projecting terminals on the backside. Make sure that the pocket of the wall cut leaves enough space to not damage the terminals when the Adventurer is being pushed back into the cutout section of the wall.The front of the Adventurer will serve as a heat sink, therefore it is important to ensure that the mounting location is not near any heat generating sources and ensure that there is proper airflow across the faceplate of the Adventurer to remove the heat dissipated from the surface.

  1. Choose Mounting Location—place the controller on a vertical surface protected from direct sunlight, high temperatures, and water. Make sure there is good ventilation.
  2. Check for Clearance—verify that there is sufficient room to run wires, as well as clearance above and below the controller for ventilation. The clearance should be at At least 6 inches (150mm).
  3. Cut out Wall section—the recommended wall size to be cut should follow the inner protruding part of the charge controller while being careful not to go past the mounting holes. The depth should be at least 1.7 inches (43mm).
  4. Mark Holes
  5. Drill HolesNOTE: The Adventurer comes equipped with screws for wall mounting. If they are not suitable try using Pan Head Phillips Screw 18-8 Stainless Steel M3.9 Size 25mm length screws
  6. Secure the charge controller.

Flush Mounting:

Surface Mount Attachment:

The charge controller can also be mounted on a flat surface using the Adventurer Surface Mount Attachment. In order to properly mount the charge controller, there is no need to cut a section of the wall considering the charge controller can now be mounted on a flat surface using the attachment. Mark and drill holes using the four pan head Phillips screws that are provided specifically for the surface mount option.

Wiring

  1. Unscrew battery terminals by rotating counterclockwise to open the hatch. Then connect the positive and negative battery connections in their appropriate labeled terminal. The controller will turn on upon successful connection.
  2. Unscrew PV terminals by rotating counterclockwise to open the hatch. Then connect the positive and negative battery connections in their appropriate labeled terminal.
  3. Insert temperature sensor block terminal and connect the wire. It is not polarity sensitive. (Optional, requires a separate purchase).
  4. Insert the battery voltage sensor terminal block in the Batt Remote port. This is polarity sensitive. (Optional, requires a separate purchase).WARNINGIf unscrewing the Battery Voltage Sensor terminal block, make sure to not mix the wires. It is polarity sensitive and may cause damage to the controller if connected incorrectly.

Operation

After connecting the battery to the charge controller, the controller will turn on automatically. Assuming normal operation, the charge controller will cycle through different displays. They are as follows:

The Adventurer is an easy-to-use controller requiring minimal maintenance. The user is able to adjust some parameters based on the display screen. The user can manually cycle through the display screens by using the “SELECT” and “ENTER” buttons

Cycles forward through the different display screens.Cycles backward through the different select screens&Customize some parameters on the charge controller

System Status Icons

Icon Behavior
Constant: The system is normal, but it is not charging
Charging: The bars will be sequencing indicating the system is charging.
Constant: The battery is at full charge.
Flashing: The battery is overvoltage.
Flashing: The battery is under voltage.
Flashing: The bars are sequencing, indicating the controller is activating an over-discharged lithium battery.
Constant: The system is abnormal.

Change the Parameters

Simply hold the “ENTER” button for approximately 5 seconds until the display flashes. Once flashing, then press “SELECT” until the desired parameter is reached and press “ENTER” one more time to lock in the parameter.NOTE: The screen must be at the appropriate interface in order to change the specific parameter.

  1. Power Generation Interface→ResetThe user is able to reset the current power generation (kWh) back to 0 kWh.
  2. Battery Interface →Set Battery TypeIn this interface, the user is able to select which type of battery is connected to the charge controller. Choose from Sealed, Gel, or Flooded batteries.
  3. Battery TemperatureInterface →Change from C° to F°The user can select between displaying battery temperature in Celsius or Fahrenheit.
  4. Set Battery Type to Lithium →Set Lithium Battery ParametersWhen using the Adventurer to charge the lithium battery, the user is able to set Battery Parameters. In the Battery Interface, select Lithium as Battery Type. Short press “ENTER” to enter the Battery Voltage selection interface.Press “SELECT” to select the Battery Voltage. Press “ENTER” to confirm selection and go to Charging Parameters Interface.Press “SELECT” to change the Boost Voltage. The default setting is 14.2V and the user is able to set it in the range 12.6~16.0V, with a step of 0.2V. Hold “ENTER” to confirm the selection. The setting will also be automatically saved after 15 seconds without holding “ENTER”.NOTE: The above settings are only available under the Lithium Battery type.

Lithium Battery Activation

The Adventurer PWM charge controller has a reactivation feature to awaken a sleeping lithium battery. The protection circuit of the Li-ion battery will typically turn the battery off and make it unusable if over-discharged. This can happen when storing a Li-ion pack in a discharged state for any length of time as self-discharge would gradually deplete theremaining charge. Without the wake-up feature to reactivate and recharge batteries, these batteries would become unserviceable and the packs would be discarded. The Adventurer will apply a small charge current to activate the protection circuit and if a correct cell voltage can be reached, it starts a normal charge.CAUTIONWhen using the Adventurer to charge a 24V lithium battery bank, set the system voltage to 24V instead of auto-recognition. Otherwise, the over-discharged 24V lithium battery wouldn’t be activated.

PWM Technology

The Adventurer utilizes Pulse Width Modulation (PWM) technology for battery charging. Battery charging is a current-based process so controlling the current will control the battery voltage. For the most accurate return of capacity, and for the prevention of excessive gassing pressure, the battery is required to be controlled by specified voltage regulation set points for Absorption, Float, and Equalization charging stages. The charge controller uses automatic duty cycle conversion, creating pulses of current to charge the battery. The duty cycle is proportional to the difference between the sensed battery voltage and the specified voltage regulation set point. Once the battery reached the specified voltage range, pulse current charging mode allows the battery to react and allows for an acceptable rate of charge for the battery level.

Four Charging Stages

The Adventurers a 4-stage battery charging algorithm for rapid, efficient, and safe battery charging. They include Bulk Charge, Boost Charge, Float Charge, and Equalization.

Bulk Charge: This algorithm is used for day-to-day charging. It uses 100% of available solar power to recharge the battery and is equivalent to constant current.Boost Charge: When the battery has charged to the Boost voltage set-point, it undergoes an absorption stage which is equivalent to constant voltage regulation to prevent heating and excessive gassing in the battery. The Boost time is 120 minutes.Float Charge: After Boost Charge, the controller will reduce the battery voltage to a float voltage set point. Once the battery is fully charged, there will be no more chemical reactions and all the charge current would turn into heat or gas. Because of this, the charge controller will reduce the voltage charge to a smaller quantity, while lightly charging the battery. The purpose of this is to offset the power consumption while maintaining a full battery storage capacity. In the event that a load drawn from the battery exceeds the charge current, the controller will no longer be able to maintain the battery to a Float set point and the controller will end the float charge stage and refer back to bulk charging. Equalization: This is carried out every 28 days of the month. It is intentional overcharging of the battery for a controlled period of time. Certain types of batteries benefit from periodic equalizing charges, which can stir the electrolyte, balance battery voltage, and complete chemical reactions. Equalizing charge increases the battery voltage, higher than the standard complement voltage, which gasifies the battery electrolyte.

WARNING: Once equalization is active in the battery charging, it will not exit this stage unless there is adequate charging current from the solar panel.There should be NO load on the batteries when in the equalization charging stage.WARNING: Over-charging and excessive gas precipitation may damage the battery plates and activate material shedding on them. Too high of equalizing charge or for too long may cause damage. Please carefully review the specific requirements of the battery used in the system.

System Status Troubleshooting

Indicator  Description Troubleshoot
Flashing Battery over voltage Use a multi-meter to check the voltage of the battery. Make sure the battery voltage is not exceeding the rated specification of the charge controller. Disconnect battery.
Flashing Battery under voltage Use a multi-meter to verify the rated battery voltage. Disconnect any loads connected to the battery to allow it to charge.
Other Considerations 
The charge controller does not charge during the daytime when the sun is shining on the solar panels. Confirm that there is a tight and correct connection from the battery bank to the charge controller and the solar panels to the charge controller. Use a multi-meter to check if the polarity of the solar modules has been reversed on the charge controller’s solar terminals.
Everything is connected correctly, but the LCD on the controller does not turn on Check the rated battery voltage. The LCD will not display on the charge controller unless there is at least 9V coming from the battery bank.

Error Codes

Error Number Description
E0 No error detected
E01 Battery over-discharged
E02 Battery over-voltage
E06 Controller over-temperature
E07 Battery over-temperature
E08 PV input over-current
E10 PV over-voltage
E13 PV reverse polarity
E14 Battery reverse polarity

Maintenance

For best controller performance, it is recommended that these tasks be performed from time to time.

  1. Check that controller is mounted in a clean, dry, and ventilated area.
  2. Check wiring going into the charge controller and make sure there is no wire damage or wear.
  3. Tighten all terminals and inspect any loose, broken, or burnt-up connections.

Fusing

Fusing is a recommendation in PV systems to provide a safety measure for connections going from panel to controller and controller to battery. Remember to always use the recommended wire gauge size based on the PV system and the controller.

NEC Maximum Current for different Copper Wire Sizes
AWG 16 14 12 10 8 6 4 2 0
Max. Current 18A 25A 30A 40A 55A 75A 95A 130A 170A

Fuse from Controller to BatteryController to Battery Fuse = Current Rating of Charge ControllerEx. Adventurer = 30A fuse from Controller to BatteryFuse from Solar Panel(s) to ControllerEx. 200W; 2 X 100 W panelsParallelTotal Amperage = Isc1 + Isc2 = (5.75A + 5.75A) * 1.56Fuse = minimum of 11.5 * 1.56 = 17.94= 18A fuse

Technical Specifications

Description Parameter
Nominal Voltage 12V/24V Auto Recognition
Rated Charge Current 30A
Max. PV Input Voltage 50 VDC
USB Output 5V, 2.4A max
Self-consumption ≤13mA
Temperature Compensation Coefficient -3mV/ ℃/2V
Operating Temperature -25 ℃ to +55 ℃ | -13°F to 131°F
Storage Temperature -35 ℃ to +80 ℃ | -31°F to 176°F
Enclosure IP20
Terminals Up to # 8AWG
Weight 0.6 lbs / 272g
Dimensions 6.5 x 4.5 x 1.9 in / 165.8 x 114.2 x 47.8 mm
Communication RS232
Battery Type Sealed (AGM), Gel, Flooded, and Lithium
Certification FCC Part 15 Class B; CE; RoHS; RCM

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 in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

  • Reorient or relocate the receiving antenna.
  • Increase the separation between the equipment and receiver.
  • Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
  • Consult the dealer or an experienced radio/TV technician for help.

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 devicemust accept any interference received, including interference that may cause undesired operation.

Battery Charging Parameters

Battery GEL SLD/ AGM  FLOODED LITHIUM
High Voltage Disconnect 16 V 16 V 16 V 16 V
Charging Limit Voltage 15.5 V 15.5 V 15.5 V 15.5 V
Over Voltage Reconnect 15 V 15 V 15 V 15 V
Equalization Voltage —– —– 14.8 V —–
Boost Voltage 14.2 V 14.6 V 14.6 V 14.2 V
Float Voltage 13.8 V 13.8 V 13.8 V (User: 12.6-16 V)
Boost Return Voltage 13.2 V 13.2 V 13.2 V —–
Low Voltage Reconnect 12.6 V 12.6 V 12.6 V 13.2 V
Under Voltage Recover 12.2 V 12.2 V 12.2 V 12.6 V
Under Voltage Warning 12V 12V 12V 12.2 V
Low Voltage Disconnect 11.1 V 11.1 V 11.1 V 12V
Discharging Limit Voltage 10.8 V 10.8 V 10.8 V 11.1 V
Equalization Duration —– 2 hours 2 hours 10.8 V
Boost Duration 2 hours —– 2 hours ——–

Renogy reserves the right to change the contents of this manual without notice.

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References

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