Manuals+

Renogy Monocrystalline Foldable Solar Suitcase with Voyager

Model Numbers: RNG-KIT-STCS100D-VOY20 / RNG-KIT-STCS200D-VOY20

Version: A0, September 6, 2024

Before Getting Started

This user manual provides important operation and maintenance instructions for the RENOGY 100W/200W Monocrystalline Foldable Solar Suitcase with Voyager (referred to as the solar suitcase). Read this manual carefully before operation and save it for future reference. Failure to follow instructions may result in electrical shock, serious injury, death, or damage to the solar suitcase.

Disclaimer

RENOGY 100W/200W Solar Suitcase with 20A Voyager User Manual © 2024 Renogy. All rights reserved. RENOGY is a registered trademark.

All information is subject to copyright and intellectual property rights of Renogy and its licensors. Modification, reproduction, or copying without prior written permission is prohibited. Unauthorized use of trademarks is strictly prohibited.

Online Manual

Access the online user manual via a QR code (description: QR code linking to the online user manual).

Symbols Used

⚠️ WARNING: Indicates a potentially dangerous condition that could result in injury or death.

⚠️ CAUTION: Indicates a critical procedure for safe and proper installation and operation.

ℹ️ NOTE: Indicates an important step or tip for optimal performance.

Introduction

The Monocrystalline Foldable Solar Suitcase with Voyager includes two high-efficiency monocrystalline solar panels, a 20A Voyager charge controller, and a solar connector to clip cable. It features an easy-to-use, plug-and-play design for mobile off-grid applications. The suitcase supports 12V or 24V deep-cycle batteries (GEL, FLD, SLD/AGM, or Lithium Iron Phosphate - LI). Built-in tilting stands allow angle adjustment for optimal power output. Alligator clips facilitate easy connection to various battery terminals.

Key Features

SKU

Solar Suitcase ModelSKU
RENOGY 100W Solar Suitcase with 20A VoyagerRNG-KIT-STCS100D-VOY20
RENOGY 200W Solar Suitcase with 20A VoyagerRNG-KIT-STCS200D-VOY20

What's In the Box?

The package includes:

ℹ️ Ensure all accessories are complete and undamaged. These are crucial for installation.

Get to Know Renogy Solar Suitcase with Voyager

The back of the solar suitcase shows the following components:

Dimensions

ℹ️ Dimension tolerance: ±0.2 in (0.5 mm)

RENOGY 100W Solar Suitcase with 20A Voyager:

Description of diagram: Shows the folded dimensions of the 100W model. Length: 41.8 inches (1062 mm), Width: 20.9 inches (530 mm), Thickness: 1.4 inches (35 mm). Height when unfolded: 21.7 inches (552 mm).

RENOGY 200W Solar Suitcase with 20A Voyager:

Description of diagram: Shows the folded dimensions of the 200W model. Length: 41.9 inches (1063 mm), Width: 20.9 inches (530 mm), Thickness: 1.4 inches (35 mm). Height when unfolded: 41.8 inches (1062 mm).

System Setup

Description of diagram: Illustrates the basic system setup connecting the solar panels (via a solar connector fuse) to the charge controller, and then to a 12V battery.

ℹ️ The solar suitcase supports 12V battery systems when used alone. For 24V systems, expansion is needed (see "Solar Suitcase Expansion").

ℹ️ A solar connector fuse is required to protect against overcurrent. Purchase at renogy.com.

Step 1. Unfold and Install the Solar Panels

Follow installation instructions in order. The suitcase has a protective case for storage and transport.

Inspect the solar suitcase for any damage (cracks, dents, deformation). Ensure all connector contacts are clean, dry, and free of dirt/corrosion.

⚠️ Do not use if any visible damage is present.

Step 1: Remove the suitcase from its protective case.

Step 2: Wear insulating gloves, unlatch, and unfold the unit.

Description of image: A hand wearing orange insulating gloves is shown near the unfolded solar suitcase.

Step 3: Adjust Tilt Stands

Unscrew butterfly nuts on tilt stands to set a desired angle, then lock them.

Description of diagram: Shows how to adjust the tilt stands using butterfly nuts.

Step 4: Optimize Angle for Sun Tracking

Adjust the suitcase angle regularly to track the sun's movement for maximum output. Refer to Renogy Learning Center for detailed instructions on angle and orientation.

Seasonal Angle Adjustments:

  • Summer: θ = Latitude - 15°
  • Fall and Spring: θ = at latitude
  • Winter: θ = Latitude + 15°

Step 2. Connect the Voyager Charger Controller to a Battery

The suitcase can connect to 12V deep-cycle batteries (GEL, FLD, SLD/AGM, LI). For 24V systems, see "Solar Suitcase Expansion".

Step 1: Connect the included Solar Connector to Alligator Clips Cable w/ 15A Fuse to the DC Output MC4 Connectors on the Voyager charge controller.

Step 2: Attach the negative alligator clip (black) to the negative terminal of your battery.

Step 3: Attach the positive alligator clip (red) to the positive terminal of your battery.

Description of diagram: Shows the connection of the charge controller's output terminals to a 12V battery using red (+) and black (-) alligator clips.

Step 3. Connect the Solar Panels to the Voyager

Step 1: Connect the negative end (male) of the DC Input MC4 Connectors on the charge controller to the female end of the PV MC4 Connectors on the solar panels.

Step 2: Connect the positive end (female) of the DC Input MC4 Connectors on the charge controller to a solar connector fuse (10A for 100W, 15A for 200W suitcase), and then connect the fuse to the male end of the PV MC4 Connectors on the solar panels.

Description of diagram: Shows the connection of the solar panels' output to the charge controller's input terminals, including the solar connector fuse in the positive line.

ℹ️ Purchase a proper solar connector fuse at renogy.com.

Step 4. Install a Battery Temperature Sensor (Optional)

Install the battery temperature sensor on the Voyager charge controller to measure ambient battery temperature and compensate charging voltage. This is recommended for optimal performance, especially in low temperatures.

Description of diagram: Shows the battery temperature sensor connected to the TEMP SENSOR Port on the charge controller and mounted near a battery.

Recommended Accessories: *Renogy Battery Temperature Sensor

ℹ️ Accessories marked with "*" are available on renogy.com.

ℹ️ Do not use the temperature sensor on LiFePO4 (LFP) batteries with a built-in BMS.

Replace Fuses for Solar Connector to Alligator Clips Cable

The integrated 15A fuse protects the cable. Replace it if the charging current exceeds 15A.

Description of diagram: Four steps illustrate fuse replacement: 1. Pull out the old fuse. 2. Insert the new fuse. 3. Shows a checkmark for correct and an X for incorrect fuse installation. 4. Shows the fuse holder with the new fuse inserted.

Solar Suitcase Expansion

Expand your system for 24V compatibility or increased power generation by adding solar panels of the same model. Required products are listed below:

Solar Suitcase ModelSolar Panel Model
Renogy 100W Solar Suitcase with 20A Voyager (RNG-KIT-STCS100D-VOY20)Renogy 100W 12V Foldable Solar Suitcase (RNG-KIT-STCS100D-NC)
Renogy 200W Solar Suitcase with 20A Voyager (RNG-KIT-STCS200D-VOY20)Renogy 200W 12V Foldable Solar Suitcase (RNG-KIT-STCS200D-NC)

⚠️ Using panels of different models or brands may damage the charge controller and void the warranty.

Expansion for 12V Systems

  • For 100W suitcase: Connect two 100W 12V Foldable Solar Suitcases (RNG-KIT-STCS100D-NC) in parallel to achieve 200W output.
  • For 200W suitcase: Direct parallel connection of solar panels is not permitted. Replace the included Voyager 20A charge controller with a compatible model for parallel expansion. Consult the new controller's manual or the manufacturer.

Recommended Accessories: *Solar Branch Connector (MMF + FFM Pair), *Adapter Kit (14 AWG), *Solar Connector Fuse (10A)

ℹ️ Accessories marked with "*" are available on renogy.com.

Description of diagram: Shows a parallel connection for a 12V system using multiple solar suitcases and accessories.

Expansion for 24V Systems

  • For 100W suitcase: Connect three 100W 12V Foldable Solar Suitcases (RNG-KIT-STCS100D-NC) in series-parallel (two in series, then parallel to the third) to achieve 40.8V and 400W output.
  • For 200W suitcase: Connect a 200W 12V Foldable Solar Suitcase (RNG-KIT-STCS200D-NC) in series to achieve 40.8V and 400W output.

Recommended Accessories: *Adapter Kit (14 AWG), *Solar Connector Fuse (15A)

ℹ️ Accessories marked with "*" are available on renogy.com.

Description of diagram: Shows a series connection for a 24V system using multiple solar suitcases and accessories.

Operation

Power On/Off

The Voyager charge controller turns on automatically when connected to a battery. To power off, disconnect the solar panels from the controller, then disconnect the battery.

LCD Screen

The charge controller features an LCD screen displaying:

  • PV Array Voltage: Output voltage of solar panels.
  • Charging Current: Current from solar panels.
  • Generated Energy: Total energy generated.
  • Battery Voltage: Nominal and boost charging voltage of the battery.
  • Battery Temperature: Actual battery temperature.

Description of diagram: Shows the different interface displays on the LCD screen.

System Icons and Indications:

IconStatusIndication
(Battery icon, static)StaticNormal operation; battery not charging.
(Battery icon, first two progress bars blinking)BlinkingBattery is being charged.
(Battery icon, static)StaticBattery is at full charge.
(Battery icon, blinking)BlinkingBattery overvoltage.
(Battery icon, blinking)BlinkingBattery undervoltage.
(Battery icon, progress bars blinking sequentially)BlinkingActivating over-discharged lithium battery.
E06StaticSystem error. See "Troubleshooting".

Setting Buttons

Two buttons allow parameter adjustments:

IconOperationFunction
AMP/VOLTSingle pressCycle through display interfaces (Main) or parameter values (Battery Voltage).
BATTERY TYPESingle pressCycle backwards through display interfaces (Main) or enter boost voltage settings (Battery Voltage).
BATTERY TYPEPress and holdEnter parameter setting interface; Confirm and save settings.

ℹ️ Settings are auto-saved 15 seconds after the last button press.

Configuration

Set Battery Type

Manually set the connected battery type for safe and efficient charging. ⚠️ Incorrect settings can damage the battery.

Step 1: In the Main Interface, press AMP/VOLT to navigate to the Battery Voltage interface.

Step 2: Press and hold BATTERY TYPE for three seconds until the current battery type flashes.

Step 3: Press AMP/VOLT to select the battery type (SLD/AGM, GEL, FLD, LI).

Description of diagram: Shows the LCD displaying battery types SLD/AGM, GEL, FLD, and LI, with selection via the AMP/VOLT button.

Step 4: Press and hold BATTERY TYPE to save the settings.

Set Nominal and Boost Voltage for Lithium Batteries

For lithium batteries, manual setting of nominal voltage is required. The controller auto-detects 12V/24V for non-lithium types.

Step 1-3: Navigate to Battery Voltage interface, press and hold BATTERY TYPE, then select 'LI' and press BATTERY TYPE again to enter nominal voltage settings.

Step 4: When the 12V icon flashes, press AMP/VOLT to choose between 12V and 24V. Press and hold BATTERY TYPE to move to Boost Voltage.

Step 5: Press AMP/VOLT to set Boost Voltage (default 14.2V, range 12V-16V in 0.2V increments).

Description of diagram: Shows LCD displays for setting LI type, 12V/24V nominal voltage, and Boost Voltage.

ℹ️ LCD illustrations are for 12V systems; 24V systems double the values.

Step 6: Press and hold BATTERY TYPE to save settings.

Recommended Charging Parameters

The table below shows default and recommended parameters. Consult your specific battery manual or manufacturer for variations.

⚠️ Incorrect parameter settings can damage the device and void the warranty.

ParameterGelSLD/AGMFloodedLithium
High Voltage Disconnect16V
Charging Voltage Limit15.5V
Overvoltage Reconnect15.0V14.6V14.8V
Equalizing Voltage-
Boost Voltage14.2V14.4V14.6V14.2V (User-defined: 12V to 16V)
Float Voltage13.8V13.8V13.8V-
Boost Return Voltage13.2V
Low Voltage Disconnect11.1V
Low Voltage Reconnect12.6V
Undervoltage Warning12.0V
Undervoltage Recover12.2V
Discharging Voltage Limit10.8V
Equalization Duration-2 hours2 hours-
Low Voltage Reconnect2 hours2 hours2 hours-

Reset Power Generation

Reset solar energy generation data to 0 kWh:

Step 1: Navigate to the Generated Energy interface using AMP/VOLT.

Step 2: Press AMP/VOLT to reset the data to zero.

Description of diagram: Shows the transition from a kWh reading to a 0 kWh reading.

Modify Temperature Unit

Switch between Celsius (°C) and Fahrenheit (°F) for battery temperature display:

Step 1: Navigate to the Battery Temperature interface using AMP/VOLT.

Step 2: Press and hold BATTERY TYPE for three seconds to switch units.

Description of diagram: Shows the temperature display switching between 22.0°C and 72.0°F.

Charging Logic

PWM Technology

The Voyager charge controller uses Pulse Width Modulation (PWM) for battery charging. This current-based process controls battery voltage. The controller uses automatic duty cycle conversion, creating current pulses proportional to the voltage difference between the battery and the set point, ensuring efficient charging.

Adaptive Four-Stage Charging

The controller employs a four-stage charging algorithm: Bulk Charging, Boost Charging, Float Charging, and Equalization for rapid, efficient, and safe charging.

Description of diagram: A graph illustrates the four charging stages (Bulk, Boost, Float, Reset to Bulk) showing how Voltage (U/V) and Current (I/A) change over time. Numbered points indicate specific voltage levels: 1. Equalization charging voltage, 2. Boost charging voltage, 3. Float charging voltage, 4. Low Voltage Disconnect / Recover charging voltage.

ℹ️ Adjust timing based on battery bank size.

  • Bulk Charge Stage: Supplies constant current until battery voltage reaches boost voltage, using 100% of available solar power.
  • Boost Charge: Supplies constant voltage, reducing current slowly. Default duration is 2 hours, after which it enters Float stage. ℹ️ Boost duration is not applicable to lithium batteries.
  • Float Charge Stage: Supplies constant voltage determined by the battery, keeping current minimal (trickle charge). Voltage is reduced to float level once constant voltage is reached, ensuring full capacity. If load exceeds charge current, it returns to bulk charging. ℹ️ Float charging is not applicable to lithium batteries.

Equalization

This stage is for specific battery types (non-sealed, vented, flooded, wet cell lead acid) and charges at a higher voltage, which may damage some batteries. Consult your battery manual.

⚠️ During equalization, the controller remains in this stage until sufficient current is sourced. No load should be connected to the batteries.

⚠️ Overcharging and excessive gas can harm battery plates. Review battery requirements to avoid damage.

⚠️ Equalization may elevate voltage, potentially damaging sensitive DC loads. Ensure loads can handle the set voltage.

Activate Lithium Batteries

The controller can reactivate sleeping lithium batteries that have been over-discharged. It applies a small charge current to activate the protection circuit. If a correct cell voltage is reached, normal charging begins. This function is enabled by default when the battery type is set to 'LI'.

ℹ️ For 24V lithium batteries, set the nominal voltage to 24V on the controller; otherwise, they will not be activated.

Troubleshooting

The Voyager charge controller provides error codes to help diagnose faults. Codes disappear once resolved.

Error CodeDescription
E00No error detected
E01Battery overdischarged
E02Battery overvoltage
E06Charge controller overtemperature
E07Battery overtemperature
E08Solar input overcurrent
E10Solar overvoltage
E13Solar reverse polarity
E14Battery reverse polarity
E15No battery detected

The controller also indicates battery overvoltage and undervoltage via the battery icon on the LCD:

Battery IconDescriptionTroubleshoot
(Blinking)Battery overvoltage1. Check battery voltage with a multimeter. Ensure it does not exceed controller specifications (16V for 12V systems, 32V for 24V systems).
2. If voltage is too high, disconnect the battery.
(Blinking)Battery undervoltage1. Verify battery voltage with a multimeter. (12V systems: warning at 12V, disconnect at 11.1V; 24V systems: double these values).
2. Disconnect loads to allow proper battery charging.
N/ACharge controller not working during daytime1. Confirm tight and correct connections between battery-controller and panels-controller.
2. Use a multimeter to check solar panel polarities at controller terminals. Reversed polarity shows a negative voltage reading.
N/ACharge controller LCD not onCheck actual battery voltage. LCD requires at least 9V (12V systems) or 18V (24V systems) from the battery.

ℹ️ For further assistance, contact Renogy technical support at renogy.com/contact-us.

Technical Specifications

Solar Panel

Item100W Model (RNG-KIT-STCS100D-NC)200W Model (RNG-KIT-STCS200D-NC)
Maximum Power at STC100W200W
Open Circuit Voltage (Voc)24.3V
Short Circuit Current (Isc)5.45A10.42A
Maximum Power Voltage (Vmp)20.4V
Maximum Power Current (Imp)4.91A9.82A
Cell TypeMonocrystalline
Operating Temperature-40°F to 185°F (-40°C to 85°C)
Folded Size21.7 x 20.9 x 2.8 in (552 x 530 x 71 mm)41.8 x 20.9 x 2.8 in (1062 x 530 x 71 mm)
Net Weight21.2 lbs (9.6 kg)34.4 lbs (15.6 kg)

Charge Controller

ItemDetails
ModelVOYP20
System Voltage12V/24V (Auto detection for non-lithium)
Battery Rated Current20A
Max Battery Voltage32V
PV Input Voltage Range15V to 55V
Max PV Input (Voc)12V@25V; 24V@55V
PV Power Input12V@260W; 24V@520W
Power Consumption12V@0.24W; 24V@0.74W
Battery TypeSLD/AGM, GEL, FLD and LI
Electronic ProtectionsBattery overtemperature, charge controller overtemperature, solar reverse polarity, battery reverse polarity, battery overvoltage, and solar input overcurrent
Grounding TypePositive
Controller Terminals20-6 AWG, 2-pin terminals
Temperature Compensation-3mV / °C / 2V, excludes LI
Operating Temperature-31°F to 113°F (-35°C to 45°C)
Storage Temperature-31°F to 167°F (-35°C to 75°C)
Operating / Storage Humidity10% to 90%, No condensation
IP RatingIP67

Dimensions

Weight: 0.55 lbs (0.25 kg)

Certification: ETL and CE

Frequently Asked Questions

  • Can the solar suitcase charge two or more 12V or 24V batteries connected in parallel? Yes, if batteries are of the same type and capacity. Refer to "Series, Parallel, and Series-Parallel Connections of Batteries" at renogy.com/learning-center for details.
  • Is there any risk that the solar suitcase will overcharge my battery? No, the Voyager charge controller has an overcharge protection function.
  • Can I extend the solar connector to alligator clips cable? Yes, but use the same cable size that can handle the maximum current. Longer extensions may increase line loss. Refer to "Sizing Wires for PV Systems" at renogy.com/learning-center.
  • Do I need to clean the included solar panels? Yes, cleaning improves performance. Brush off dust, then wipe with a damp cloth. Refer to "How to Clean and Maintain Solar Panels?" at renogy.com/learning-center.
  • Can rain damage the solar suitcase? No, the solar panels have IP65 and the charge controller has IP67 ratings, making them waterproof.

Maintenance & Storage

For optimal performance:

  1. Check wiring for damage or wear.
  2. Tighten terminals and inspect connections for looseness or damage.
  3. Clean the case with a damp cloth occasionally.

Important Safety Instructions

General Safety

  • Wear protective equipment and use insulated tools during installation and operation. Avoid metal objects near the solar suitcase.
  • Keep the solar suitcase out of reach of children.
  • Dispose of the solar suitcase according to local, state, and federal regulations, using recycling channels.
  • In case of fire, use an FM-200 or CO₂ fire extinguisher.
  • Do not expose the solar suitcase to flammable chemicals or vapors.
  • Clean the solar suitcase regularly.
  • It is recommended that cables do not exceed 10 meters to prevent voltage drop. Cable specifications account for a critical, less than 3% voltage drop.
  • Do not expose the solar suitcase to strong electrostatic fields, magnetic fields, or radiation.

Solar Suitcase Safety

  • Do not use sharp objects to clean or scratch the surfaces.
  • Do not install on combustible material surfaces.
  • Do not expose to direct flame or heat sources.
  • Keep away from explosives and corrosive substances.
  • Do not step, walk, stand, or jump on the solar suitcase, as heavy loads can damage solar cells.
  • Do not bend the solar suitcase, as this can damage cells and affect performance.
  • Do not immerse in water.
  • Do not connect the solar suitcase directly to a battery.
  • Cover the solar suitcase before connecting it to the charge controller.
  • Identify polarities (positive/negative) on cables; reversed polarity may damage the unit.
  • Always connect the charge controller to the battery before connecting the solar suitcase to avoid damage from open-circuit voltage.

Battery Safety

  • Avoid short-circuiting battery terminals to prevent irreversible damage.
  • Verify polarity before wiring to prevent damage from polarity reversal.
  • Keep batteries away from water, heat, sparks, and hazardous chemicals.
  • Do not puncture, drop, crush, burn, penetrate, shake, strike, or step on the battery.
  • Do not open, dismantle, repair, tamper with, or modify the battery.
  • Do not touch any terminals or connectors.
  • Disconnect battery chargers or controllers before working on the battery.
  • Do not connect or disconnect terminals without first disconnecting loads.
  • Do not place tools on top of the battery.
  • Use suitable handling equipment for safe battery transportation.
  • Do not insert foreign objects into battery terminals.
  • If exposed electrolyte or powder contacts skin or eyes, flush immediately with clean water and seek medical attention.

Renogy Support

For inaccuracies or omissions, visit renogy.com/support/downloads or contact contentservice@renogy.com.

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

For technical questions in the U.S., contact support via renogy.com/contact-us or call 1(909)2877111.

For international support, 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: jp.renogy.com
  • Germany: de.renogy.com
  • Other Europe: eu.renogy.com

Renogy Empowered

Renogy empowers people globally with DIY-friendly renewable energy solutions, promoting 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 contribute to environmental savings, such as:

  • Saving 170 pounds of coal from being burned monthly.
  • Reducing CO₂ emissions by 300 pounds monthly.
  • Saving 105 gallons of water monthly.

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Join the Renogy Power PLUS community to stay updated on solar innovations, share your journey, and connect with like-minded individuals.

Follow Renogy on YouTube (@Renogy Solar), Instagram (@renogyofficial), and Facebook (@Renogy).

Company Information

Renogy reserves the right to change manual contents without notice.

Manufacturer: RENOGY New Energy Co., Ltd

Address: No.66, East Ningbo Road Room 624-625 Taicang German Overseas Students Pioneer Park JiangSu 215000 CN

EC REP: eVatmaster Consulting GmbH, Battinastr. 30, 60325 Frankfurt am Main, Germany (contact@evatmaster.com)

UK REP: EVATOST CONSULTING LTD, Office 101 32 Threadneedle Street, London, United Kingdom, EC2R 8AY (contact@evatost.com)

Website: RENOGY.COM

Certifications: ETL Listed, CE

Models: RNG-KIT-STCS100D-VOY20, RNG-KIT-STCS200D-VOY20, RNG-KIT-STCS100D-VOY20 100 Watt 12 Volt Portable Solar Suitcase, RNG-KIT-STCS100D-VOY20, 100 Watt 12 Volt Portable Solar Suitcase, Watt 12 Volt Portable Solar Suitcase, 12 Volt Portable Solar Suitcase, Volt Portable Solar Suitcase, Portable Solar Suitcase, Solar Suitcase, Suitcase

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