How to Wire a 24-Volt Trolling Motor: A Complete Step-by-Step Guide

Wiring a trolling motor to a 24-volt system is essential for boaters looking to boost their motor’s performance and extend its running time on the water. Whether you’re a seasoned angler or a weekend enthusiast, understanding how to wire trolling motor 24 volt can make a significant difference in your boating experience. This setup provides more power, better efficiency, and longer usage compared to the standard 12-volt system, making it ideal for those who demand more from their motor. In this guide, we will walk you through the step-by-step process of wiring a trolling motor for a 24-volt configuration. From selecting the right batteries to ensuring proper connections, you’ll learn everything you need to know to get your trolling motor running smoothly and safely. By following these simple instructions, you’ll maximize your trolling motor’s potential, ensuring you have all the power you need for a successful day out on the water.

Understanding the Importance of Proper Wiring for a 24-Volt Trolling Motor-how to wire trolling motor 24 volt

Understanding the importance of proper wiring for a 24-volt trolling motor is crucial for anyone looking to get the best performance and reliability from their boat. A 24-volt system is typically used when more power and efficiency are required, especially for larger boats or for prolonged fishing trips. Proper wiring ensures that the motor operates at its full potential, minimizing energy loss and preventing issues like overheating or poor battery life. Incorrect wiring can lead to voltage drops, reduced motor performance, or even damage to your equipment, making it essential to follow the correct wiring guidelines.

Why a 24-Volt System? – Benefits Over 12-Volt Systems

A 24-volt trolling motor system offers several advantages over a standard 12-volt system. First, it provides increased thrust, which is critical for moving larger boats or fighting strong currents. With more power, you can cover greater distances and maneuver more effectively. Additionally, a 24-volt system typically runs more efficiently, using less energy per unit of thrust, which means you’ll experience longer run times before needing to recharge the batteries. This system also reduces the load on each battery, extending battery life and ensuring more consistent power delivery throughout the day. For avid anglers and boaters, the 24-volt system is the preferred choice for sustained power and enhanced performance on the water.

Selecting the Correct Battery for Minn Kota Trolling Motor

This table outlines the recommended battery options based on run-time, voltage, group size, and amp-hour rating for operating a Minn Kota trolling motor. Choosing the right battery will ensure optimal performance and longer run-time on the water.

Run-Time	Voltage	Group Size	Amp-Hour (Ah)
Good	12V	24	70-85 Ah
Better	12V	27	85-110 Ah
Best	12V	31	95-125 Ah

Key Considerations:

• Voltage: Minn Kota trolling motors typically run on 12-volt systems. For 24-volt systems, two 12V batteries are connected in series.
• Group Size: Refers to the physical size of the battery. Larger group sizes (27 and 31) usually have a higher amp-hour capacity and longer run times.
• Amp-Hour (Ah): Indicates how much power the battery can provide over time. Higher Ah ratings offer longer usage before needing to recharge.

For best performance, it’s recommended to use a deep cycle marine battery with a minimum 110 Ah rating, especially for extended trips on the water.

Advice Regarding Batteries for Trolling Motors

When handling and installing batteries for your Minn Kota trolling motor, follow these essential safety and maintenance guidelines:

• Avoid Short Circuits: Never connect the positive (+) and negative (-) terminals of the same battery together, as this would create an immediate short circuit, posing a severe fire hazard. Ensure no metal objects fall onto the battery, as they could bridge the terminals and cause a short.
• Use Circuit Breakers: It’s highly recommended to install a circuit breaker or fuse with your trolling motor to prevent electrical overload. Refer to Minn Kota’s “Conductor Gauge and Circuit Breaker Sizing Table” for proper guidance. For motors requiring a 60-amp breaker, the Minn Kota MKR-27 60-amp circuit breaker is recommended for protection.
• Battery Maintenance: To extend the life of your batteries, keep them fully charged. Lead-acid batteries should be recharged within 12-24 hours after use to prevent premature failure. Minn Kota offers a variety of battery chargers designed to maintain the health of your trolling motor batteries.
• Separate Battery Systems: If you are using a crank battery to start a gasoline outboard motor, always use separate deep cycle marine batteries to power your Minn Kota trolling motor. This prevents overloading a single battery and ensures longer, more reliable performance.

Safety Precautions:

• Do Not Run Motor Out of Water: For safety, never switch the trolling motor on until the propeller is submerged in water. If you are installing a lead wire plug, ensure proper polarity as instructed in your boat owner’s manual.
• Disconnect When Not in Use: Always disconnect the motor from the batteries when not in use or while charging the batteries to prevent accidental operation or damage.
• Wiring Precautions: Improper wiring in 24/36/48-volt systems can result in dangerous battery explosions. Follow wiring instructions carefully to avoid such risks.
• Secure Battery Connections: Keep all battery post connections tight to ensure consistent performance and avoid loose connections, which could lead to power loss or electrical issues.
• Ventilation: Install your battery in a well-ventilated compartment to prevent overheating and allow any gases produced by the battery to dissipate safely.

By following these precautions and best practices, you can safely and efficiently run your Minn Kota trolling motor while extending the life of your battery system.

Part 1: Basics of a 24-Volt Trolling Motor System

What is a 24-Volt Trolling Motor?

A 24-volt trolling motor is a powerful electric motor used to propel small to medium-sized boats, often by anglers or boaters for quiet and precise navigation in lakes, rivers, and coastal areas. Unlike a 12-volt system that uses a single battery, a 24-volt trolling motor is powered by two 12-volt batteries connected in series. This higher voltage provides increased thrust and more sustained power, making it ideal for larger boats or when navigating against strong currents. With a 24-volt trolling motor, you can enjoy better overall performance, longer run times, and more efficient battery usage, which is particularly helpful for those who spend extended periods on the water. When setting up the system, it’s crucial to understand how to wire trolling motor 24-volt correctly to avoid power loss and ensure peak performance.

How Does a 24-Volt System Work?

A 24-volt system operates by connecting two 12-volt batteries in series, which doubles the voltage output while maintaining the same amperage. This allows the trolling motor to draw power more efficiently, providing higher thrust with less strain on each battery. In this configuration, the positive terminal of the first battery is connected to the negative terminal of the second battery, and the remaining positive and negative terminals are wired to the trolling motor. The result is a more powerful system capable of handling longer trips and tougher water conditions. However, it’s important to understand how to wire trolling motor 24-volt systems properly, as incorrect wiring can result in motor damage or reduced battery life. Proper wiring ensures that your trolling motor runs at optimal power and efficiency.

Key Components Needed for Wiring a 24-Volt System

To wire a 24-volt trolling motor system, several key components are required for a safe and efficient setup. The most important components include two 12-volt deep-cycle marine batteries, which are designed to handle the demands of frequent use and long durations. You will also need a series wiring connection, which involves using battery jumper cables to link the two batteries. A trolling motor plug and receptacle are often used for quick disconnection and reconnection of the motor, ensuring convenience and safety. Additionally, you’ll need circuit breakers or fuses to protect your motor and batteries from potential overload or short circuits. Heavy-duty cables are also essential to carry the higher voltage of the 24-volt system without excessive resistance or power loss. Properly setting up these components ensures a reliable and efficient trolling motor system that will last over time.

Part 2: Tools and Equipment for Wiring

Required Tools for Wiring (Wrenches, Pliers, etc.)

Wiring a 24-volt trolling motor requires a set of basic tools to ensure proper and secure connections. The most commonly needed tools include wrenches and pliers, which are essential for tightening battery terminals and securing cable connections. A socket set is useful for loosening or tightening nuts on the battery posts, while wire cutters and strippers are needed for adjusting the length of battery cables and exposing the copper wiring for connections. You may also need a screwdriver to fasten any motor plugs or receptacles. Additionally, crimping tools are important for attaching battery cable terminals securely. Having these tools on hand makes the process smoother and ensures that all components are connected tightly for safe operation.

Choosing the Right Battery Cables

Selecting the right battery cables is crucial for an efficient and safe 24-volt trolling motor system. Since the system operates at higher voltage, it’s important to choose cables that can handle the increased power without overheating or causing a loss in efficiency. Marine-grade cables are highly recommended as they are designed to withstand harsh environmental conditions, such as saltwater, moisture, and heat. The gauge (thickness) of the cable is equally important; typically, 6- or 8-gauge cables are recommended for most trolling motors. The longer the cable run, the thicker the cable should be to minimize voltage drops. Investing in high-quality, durable cables ensures your trolling motor delivers consistent power and reduces the risk of electrical issues.

Safety Gear – What to Wear and Precautions to Take

Safety is a key priority when working with electrical systems, and wiring a 24-volt trolling motor is no exception. Wearing the appropriate safety gear can prevent accidents and ensure you handle all components correctly. Rubber-soled shoes are important to minimize the risk of electrical shock, especially when working in wet environments near water. Protective gloves, preferably insulated, help protect your hands while handling cables and batteries. Safety glasses are another must-have to shield your eyes from any sparks or debris during the wiring process. It’s also essential to disconnect any power sources before starting, and double-check all connections before powering up the system to avoid shorts or overloads. Following these precautions ensures a safe and successful wiring job.

Part 3: Preparing for Installation

Selecting the Right Location for Batteries

Choosing the right location for your batteries is crucial to ensure the optimal performance of your 24-volt trolling motor. Batteries should be placed in a dry, well-ventilated area that is easily accessible for maintenance. Ideally, they should be located near the trolling motor to minimize cable length, which helps reduce voltage drop and power loss. Keep in mind the weight distribution of your boat; placing both batteries on the same side could throw off the balance, impacting boat performance. It’s also important to secure the batteries in a battery tray or holder to prevent movement during rough water conditions. Proper placement ensures the safety, efficiency, and longevity of your trolling motor system.

Prepping Your Boat for Wiring

Before you begin wiring, it’s essential to prepare your boat to ensure a smooth installation process. Start by clearing any obstructions from the area where you will install the batteries and run the cables. Make sure the surfaces are clean and dry to avoid corrosion on connectors or batteries. Labeling the wires is a good practice, as it helps avoid confusion during installation, especially when dealing with multiple connections. Proper preparation helps streamline the process of how to wire trolling motor 24 volt systems, ensuring all components are correctly placed and ready for a secure connection.

Identifying Positive and Negative Battery Terminals

Properly identifying the positive and negative terminals of your batteries is critical for wiring a 24-volt trolling motor system. The positive terminal is usually marked with a “+” sign and is often red, while the negative terminal is marked with a “-” sign and is typically black. When wiring a 24-volt system, the positive terminal of one battery connects to the trolling motor, while the negative terminal of that same battery connects to the positive terminal of the second battery. Finally, the negative terminal of the second battery connects to the trolling motor. Accurately identifying and connecting the terminals is a key step in learning how to wire trolling motor 24 volt configurations safely.

Calculating Cable Length and Gauge

Calculating the proper cable length and gauge is essential to ensure efficient power transfer in your 24-volt trolling motor system. The cable length should be as short as possible to reduce resistance and voltage drop. Measure the distance between your trolling motor and the batteries, ensuring you account for curves and obstacles. Once the length is determined, choose the appropriate cable gauge. Typically, 6- or 8-gauge cables are suitable for most trolling motors. Longer cable runs require thicker cables to maintain power efficiency. Using the correct cable length and gauge guarantees that your trolling motor will perform efficiently and reduce the risk of overheating or power loss during operation.

Conductor Gauge and Circuit Breaker Sizing Table

This table provides recommended conductor (wire) gauge sizes and corresponding circuit breaker ratings based on the length of the cable run and the amperage of your trolling motor. The correct sizing is crucial for ensuring safe and efficient operation of your trolling motor.

Trolling Motor Amps	Cable Length (Up to 10 ft)	Cable Length (10-20 ft)	Cable Length (20-30 ft)	Recommended Circuit Breaker
Up to 30 Amps	10 AWG	8 AWG	6 AWG	50 Amp
30-40 Amps	10 AWG	8 AWG	6 AWG	50 Amp
40-50 Amps	8 AWG	6 AWG	4 AWG	60 Amp
50-60 Amps	8 AWG	6 AWG	4 AWG	60 Amp
60-70 Amps	6 AWG	4 AWG	2 AWG	70 Amp
70-80 Amps	6 AWG	4 AWG	2 AWG	80 Amp
80-90 Amps	4 AWG	2 AWG	2 AWG	100 Amp

Key Considerations:

• AWG: Refers to American Wire Gauge, where a lower number means a thicker wire, capable of carrying more current.
• Cable Length: The length of the cable run affects the wire gauge; longer runs need thicker cables to prevent voltage drops.
• Circuit Breaker: Ensures protection for your trolling motor by breaking the circuit if it draws more current than it’s rated for, preventing damage to the motor and batteries.

Always refer to the trolling motor’s manual for specific recommendations and adhere to the guidelines for safety and efficiency.

Part 4: Step-by-Step Wiring Instructions – how to wire trolling motor 24 volt

Understanding Series Wiring – Why It’s Important for 24 Volts

Understanding series wiring is crucial for effectively powering your 24-volt trolling motor. In a series configuration, two 12-volt batteries are connected in such a way that their voltages add together, resulting in a combined output of 24 volts. This is important because most trolling motors require a higher voltage to deliver optimal performance, particularly in larger boats or when facing strong currents. Series wiring not only increases the voltage but also allows for a more efficient use of power, as it enables the motor to draw from both batteries simultaneously while maintaining a consistent energy supply. Properly executing this wiring ensures that your trolling motor operates at its best, preventing potential damage caused by improper voltage levels.

How to Connect Two 12-Volt Batteries in Series

Step 1: Position the Batteries

Begin by positioning your two 12-volt batteries close together in a secure and stable location, preferably within a battery tray to keep them in place during use. Ensure that the area is well-ventilated and free from any obstructions. It’s essential to maintain clear access to the terminals of both batteries for ease of connection and future maintenance.

Step 2: Connecting the Positive (+) to the Negative (-) Terminal

Using a heavy-duty battery cable, connect the positive terminal (+) of the first battery to the negative terminal (-) of the second battery. This connection is what creates the series circuit, allowing the voltage to combine. Make sure the connections are secure; it’s best to use a wrench to tighten the terminal connections. After this step, the remaining positive terminal of the second battery and the negative terminal of the first battery will be available for connecting to your trolling motor.

Step 3: Testing the Series Connection

Once the batteries are connected, it’s essential to test the series connection before proceeding. Use a multimeter set to the DC voltage setting to measure the voltage across the two unconnected terminals—one from the first battery and one from the second battery. A reading of approximately 24 volts confirms that the batteries are correctly wired in series. If you don’t see this voltage, double-check your connections to ensure they are secure and properly configured. Testing the connection ensures you’re ready for a successful and safe installation of your trolling motor.

Connecting the Trolling Motor to the Battery Setup

Step 1: Attaching the Motor Cables

Start by identifying the motor cables that will connect your trolling motor to the battery setup. You should see two leads: a positive (red) lead and a negative (black) lead. Begin by connecting the positive (red) motor lead to the positive (+) terminal of the second battery (Battery 2). Ensure a secure connection by tightening the terminal nut or bolt. Next, connect the negative (black) motor lead to the negative (–) terminal of the first battery (Battery 1). This configuration completes the electrical connection between your trolling motor and the 24-volt battery system.

Step 2: Double-Checking the Connections

Once the motor cables are attached, it’s essential to double-check all connections to ensure they are secure and properly configured. Look at each connection point—make sure the battery terminals and motor leads are tight and that there are no exposed wires. Any loose connections can lead to poor performance or even electrical hazards. If you have a multimeter, you can test the voltage at the motor leads to confirm that the proper voltage is being supplied (approximately 24 volts).

Step 3: Securing Cables and Ensuring Stability

After confirming that all connections are correct, it’s time to secure the cables to prevent movement and potential damage while in use. Use cable ties or clamps to keep the wires organized and out of the way. Ensure that the cables do not come into contact with any sharp edges or moving parts, as this could cause wear or cuts over time. Finally, check that the batteries are secured in their tray or compartment to prevent shifting during operation. Properly securing the cables and batteries enhances safety and ensures reliable performance while you’re out on the water.

Ensuring Proper Voltage Output

Ensuring proper voltage output is critical for the efficient operation of your 24-volt trolling motor system. After completing the wiring connections, you should verify that the system is delivering the correct voltage to the motor. To do this, use a multimeter set to measure DC voltage. Place the positive probe on the positive lead connected to the motor and the negative probe on the negative lead. A reading of approximately 24 volts confirms that the batteries are correctly wired in series and are functioning as intended. If the voltage is significantly lower than expected, double-check your connections for any loose or incorrect placements. Proper voltage output is essential not only for optimal motor performance but also for prolonging the life of your batteries and preventing potential damage to the motor.

Wiring Diagram for a 24-Volt Trolling Motor System

Below is a simple wiring diagram for a 24-volt trolling motor system using two 12-volt batteries connected in series.

Explanation of the Diagram:

• Battery 1: Connects its positive terminal to the positive terminal of the trolling motor and its negative terminal to the negative terminal of Battery 2.
• Battery 2: Connects its positive terminal to the positive lead of the trolling motor and its negative terminal to Battery 1’s negative terminal.
• Motor Leads: The motor is connected directly to the unlinked terminals of Battery 1 and Battery 2, allowing the motor to receive 24 volts.

This diagram provides a visual representation of how to wire two 12-volt batteries in series for a 24-volt trolling motor system. Following this guide will help ensure a successful installation and reliable performance on the water.

36 Volt Systems (3 Batteries) How to Connect Three 12-Volt Batteries in Series

To set up a 36-volt trolling motor system, you will need three 12-volt batteries wired in series. Follow these steps for proper installation.

Steps to Connect Batteries in Series

1. Gather Batteries: You will need three fully charged 12-volt batteries.
2. Turn Off the Motor: Before beginning, ensure that the trolling motor is switched off, with the speed selector set to “0” to avoid any accidental activation.
3. Connect the Batteries:
   • Connect Battery 1 to Battery 2: Use a connector cable to connect the positive (+) terminal of Battery 1 to the negative (–) terminal of Battery 2.
   • Connect Battery 2 to Battery 3: Use another connector cable to connect the positive (+) terminal of Battery 2 to the negative (–) terminal of Battery 3.
4. Connect the Trolling Motor:
   • Connect the positive (+) red lead from the trolling motor to the positive (+) terminal of Battery 3.
   • Connect the negative (–) black lead from the trolling motor to the negative (–) terminal of Battery 1.

Wiring Diagram for a 36-Volt Trolling Motor System

Below is a wiring diagram illustrating how to connect three 12-volt batteries in series to create a 36-volt system.

Explanation of the Diagram:

• Battery 1: Connects its positive terminal to Battery 2’s negative terminal.
• Battery 2: Connects its positive terminal to Battery 3’s negative terminal and its negative terminal to Battery 1’s positive terminal.
• Battery 3: Connects its positive terminal to the trolling motor’s positive lead, while its negative terminal connects to Battery 1’s negative lead.

This wiring configuration provides a total output of 36 volts for your trolling motor system, ensuring reliable and efficient operation on the water. Following these steps and the diagram will help ensure a successful installation.

48 Volt Systems (4 Batteries) How to Connect Four 12-Volt Batteries in Series

Here’s a complete guide for setting up a 48-volt trolling motor system using four 12-volt deep cycle batteries, along with an HTML code snippet for the wiring diagram.

To establish a 48-volt system, you will need four 12-volt deep cycle batteries of the same manufacturer, type, size, and age. Follow these steps for proper wiring.

Steps to Connect Batteries in Series

1. Ensure Compatibility: Use four identical 12-volt deep cycle batteries for optimal performance.
2. Disconnect the Trolling Motor: Before starting, make sure that the trolling motor is disconnected to prevent accidental activation during the installation.
3. Connect the Batteries:
   • Connect Battery 1 to Battery 2: Use a connector cable to connect the positive (+) terminal of Battery 1 to the negative (–) terminal of Battery 2. The jumper wire should be one size larger than the trolling motor lead wire.
   • Connect Battery 2 to Battery 3: Connect the positive (+) terminal of Battery 2 to the negative (–) terminal of Battery 3 using another appropriately sized jumper wire.
   • Connect Battery 3 to Battery 4: Connect the positive (+) terminal of Battery 3 to the negative (–) terminal of Battery 4, again using a wire one size larger than the motor lead.
4. Connect the Trolling Motor:
   • Connect the positive (+) red lead from the motor to the positive (+) terminal of Battery 4.
   • Connect the negative (–) black lead from the motor to the negative (–) terminal of Battery 1.

Testing and Troubleshooting Your Trolling Motor

Testing the Trolling Motor for Proper Functionality

Once you’ve successfully wired your trolling motor to your 24-volt solar system, it’s essential to conduct thorough testing to ensure its proper operation. Here’s a step-by-step guide:

1. Turn on the power: Activate the main switch or breaker that supplies power to your solar system.
2. Engage the trolling motor: Turn on the motor and observe its performance. It should start smoothly and operate at the desired speed.
3. Check for noise or vibrations: Listen for any unusual sounds or vibrations that might indicate a mechanical issue.
4. Test the steering: If your motor has steering capabilities, ensure it responds correctly to your commands.
5. Check for overheating: Monitor the motor for signs of overheating, such as excessive heat or a burning smell.

How to wire trolling motor 24 volt: To test your trolling motor, it’s crucial to have it wired correctly to your 24-volt solar system. Ensure that the positive and negative terminals of the motor are connected to the corresponding terminals of the battery bank.

Common Wiring Mistakes and How to Avoid Them

Wiring errors are a common cause of troubleshooting issues with trolling motors. Here are some common mistakes to watch out for:

1. Incorrect polarity: Ensure that the positive and negative terminals of the motor are connected to the correct terminals of the battery bank. Incorrect polarity can lead to damage or malfunction.
2. Loose connections: Verify that all connections are secure and tight. Loose connections can cause intermittent power supply or even a complete failure.
3. Incorrect fuse or breaker rating: Use a fuse or circuit breaker that is rated for the appropriate amperage to protect your motor from excessive current draw.
4. Damaged wiring: Inspect the wiring for any signs of damage, such as cuts, abrasions, or corrosion. Damaged wiring can lead to electrical shorts or open circuits.

How to wire trolling motor 24 volt: By carefully following the wiring instructions and avoiding common mistakes, you can ensure that your trolling motor is connected safely and reliably to your 24-volt solar system.

Troubleshooting Voltage Drops

Voltage drops can occur in your solar system, affecting the performance of your trolling motor. Here are some common causes and solutions:

1. Overloaded circuit: If your circuit is overloaded, it can cause voltage drops. Reduce the load on the circuit by disconnecting unnecessary appliances or using a larger circuit breaker.
2. Poor cable quality: Low-quality or undersized cables can lead to voltage drops due to increased resistance. Use high-quality cables with adequate gauge to minimize voltage loss.
3. Long cable runs: Long cable runs can also contribute to voltage drops. If possible, shorten the cable length or use thicker cables to reduce resistance.

How to wire trolling motor 24 volt: When wiring your trolling motor, use high-quality cables of appropriate gauge to minimize voltage drops and ensure optimal performance.

What to Do if the Motor Doesn’t Start

If your trolling motor fails to start, here are some troubleshooting steps:

1. Check the power supply: Ensure that the main switch or breaker is on and that there is adequate power available to your solar system.
2. Inspect the fuses and breakers: Check for blown fuses or tripped circuit breakers that might be preventing power flow to the motor.
3. Test the battery bank: Verify that the battery bank is fully charged and in good condition. A weak or discharged battery can prevent the motor from starting.
4. Check for mechanical issues: Inspect the motor for any visible damage or obstructions that might be preventing it from starting.

How to wire trolling motor 24 volt: By following these troubleshooting steps and ensuring that your trolling motor is wired correctly, you can increase the chances of resolving any startup issues.

LiFePO4 batteries are the best option for your trolling motor

Voltage of Motor	Motor Thrust	Recommended Max Amp of Batteries	Recommended LiTime LiFePO4 Batteries	Why Recommended / Reasons
12V	20 ~ 30 lb	50A	LiTime 12V 50Ah Lithium Battery	Cost-effective
12V	30 ~ 70 lb	100A	LiTime 12V 100Ah Lithium Battery	Cost-effective, Low-temp, Lighter
24V	70 ~ 100 lb	100A	LiTime 24V 100Ah Lithium Battery	Cost-effective
36V	100 ~ 120 lb	100A	LiTime 36V 55Ah Lithium Battery	One single battery is enough

If you’re looking for a trolling motor battery that’s more efficient, reliable, and eco-friendly, it’s worth considering a switch to a LiFePO4 battery. Although they might come with a higher upfront cost, they offer great value over time. Their extended lifespan and lower maintenance needs mean you’ll save money and hassle in the long run.

Conclusion: how to wire trolling motor 24 volt

Following these steps will help you successfully wire three 12-volt batteries in series to create a 36-volt system for your trolling motor. Ensure all connections are secure and double-check your work before powering on the motor. This wiring configuration will provide the necessary voltage for optimal motor performance.