Why Does My Android Require Frequent Battery Recharging? Causes, Effects, and Fixes

Your Android phone may need frequent recharging for several reasons. High screen brightness, active push notifications, background apps, and location services can drain the battery. A faulty charger or battery issues might also be responsible. Fix these problems to enhance your battery life effectively.

The effects of requiring frequent battery recharging include decreased device performance and shortened battery lifespan. Users may experience frustration and reduced productivity as they constantly seek charging solutions.

Fortunately, several fixes exist to address this problem. First, reducing screen brightness can significantly prolong battery life. Second, closing unused apps ensures they do not consume resources silently. Third, updating the Android operating system can improve efficiency. Lastly, activating battery saver mode reduces background activity, extending the time between charges.

Understanding why your Android requires frequent battery recharging can help you implement these fixes effectively. By optimizing settings and managing apps, you can enhance your device’s battery life. If issues persist, exploring hardware solutions, such as battery replacement or upgrading to a newer model, may be necessary. Now, let’s delve into specific settings and apps that can further optimize your Android’s battery performance.

What Are the Most Common Reasons for Frequent Battery Recharging on My Android?

Frequent battery recharging on your Android device typically results from excessive battery drain factors. These factors can vary based on usage patterns and settings.

1. High screen brightness or long screen-on time
2. Background app activity
3. Poorly optimized apps
4. Location services usage
5. Network connectivity issues
6. Aging battery health
7. Overly demanding features or apps

Understanding these factors can help you identify and mitigate the causes of rapid battery depletion.

1. High Screen Brightness or Long Screen-On Time: High screen brightness reduces battery life significantly. The display consumes more power when set to maximum brightness. Additionally, prolonged screen-on time during gaming or video streaming accelerates battery drain.

2. Background App Activity: Background apps consume power continuously even when not in use. Apps may refresh data or send notifications. Users can manage background activity through app settings to minimize this drain.

3. Poorly Optimized Apps: Some apps may not efficiently use battery resources. Applications that require constant updates or run processes in the background can negatively impact battery life. Google reports that poorly optimized apps can lead to up to a 20% increase in battery usage.

4. Location Services Usage: GPS services utilize significant power. Frequent location tracking by navigation or location-based apps drains the battery. Users can manage location settings to reduce this usage, such as switching from high accuracy to battery-saving modes.

5. Network Connectivity Issues: Weak Wi-Fi or mobile signals compel the device to work harder to maintain a connection. This increased activity drains the battery faster. Users can switch to airplane mode in areas with weak signals to conserve battery life.

6. Aging Battery Health: Over time, lithium-ion batteries lose their ability to hold a charge effectively. Users may notice that their device requires more frequent charging as the battery degrades. Regular battery health checks can provide insights and help determine if replacement is necessary.

7. Overly Demanding Features or Apps: High-performance features such as gaming, video rendering, or augmented reality applications demand more power. Consequently, such activities can lead to faster battery drain. Users should consider limiting use of these features when not necessary.

By examining these factors, you can take steps to reduce battery drain and extend the time between charges on your Android device.

How Does My App Usage Lead to Faster Battery Drain on Android?

App usage leads to faster battery drain on Android due to several factors. First, many apps use power even when they are not in active use. Background processes can consume battery by refreshing content or receiving updates. Second, resource-intensive applications, such as gaming or video streaming apps, require additional processing power. This high demand for processing leads to increased energy consumption.

Next, apps often utilize hardware components heavily. For instance, GPS, camera, and display usage can significantly drain the battery. Additionally, apps that maintain constant internet connections, like social media and messaging apps, can cause higher drain due to repeated data transmissions.

The sequential relationship involves these components. When you open an app, it activates specific hardware, which consumes power. If the app runs in the background, it continues to pull resources. If multiple apps operate simultaneously, the cumulative effect accelerates battery usage. Consequently, the more active apps you use, the greater the battery drain you experience.

To address this issue, users can take several steps. First, they can limit background activity for less important apps. Second, they should close apps when not in use to minimize resource consumption. Third, reducing screen brightness and disabling unnecessary features can prolong battery life.

In summary, app usage impacts battery life through background processes, hardware demands, and constant connectivity. Understanding these influences can help users manage their app usage better and extend their device’s battery life.

Which Apps Are Known to Drain My Android Battery the Most?

Many apps are known to drain your Android battery significantly. Some of the most common offenders include social media applications, GPS and navigation apps, and streaming services.

1. Social Media Apps
2. GPS and Navigation Apps
3. Streaming Services
4. Gaming Apps
5. Messaging Apps

Social media apps drain your Android battery. These applications constantly seek updates and notifications. Popular social media platforms like Facebook and Instagram refresh content frequently, which consumes a lot of power. A study by Android Central (2021) highlights that social media apps can lead to battery drains of up to 20% in a day of regular use.

GPS and navigation apps are another significant source of battery drain on Android devices. These apps require continuous GPS data access to function effectively. Google Maps and Waze are prime examples. Using these for directions can lead to a 30% decrease in available battery life while actively navigating, as reported by Tom’s Guide (2020).

Streaming services also significantly impact battery longevity. Apps like Netflix and Spotify use substantial resources, especially during video streaming. Running in high-definition can cause the battery to deplete rapidly. According to a 2022 study from TechRadar, streaming video can reduce battery life by approximately 40% compared to regular app usage.

Gaming apps present another challenge. Games with high graphics demands cause the processor and GPU to work overtime, draining the battery faster. For instance, a report from GameSpot (2021) notes that popular mobile games like PUBG Mobile can reduce battery life by as much as 50% in just a few hours of play.

Lastly, messaging apps can also be a drain, particularly those that utilize voice and video calling features. Apps like WhatsApp and Zoom require constant internet usage and can decrease battery life noticeably compared to standard text messaging. A survey by Lifewire (2022) indicated that using video calls on these platforms could cut battery life by about 20% within an hour.

What Settings Should I Adjust to Maximize My Android Battery Life?

To maximize your Android battery life, adjust several settings on your device.

1. Reduce screen brightness
2. Shorten screen timeout duration
3. Disable background app activity
4. Turn on battery saver mode
5. Limit location services
6. Disable connectivity features when not in use (Wi-Fi, Bluetooth, NFC)
7. Control app notifications
8. Update software regularly

Adjusting these settings can significantly enhance your Android’s battery performance.

1. Reduce Screen Brightness: Reducing screen brightness directly affects battery consumption. Lower brightness levels use less energy. Many devices allow for automatic brightness adjustment based on ambient light, which can further save battery life. According to a study by the Technical College of Denmark in 2019, brightness control can increase battery life by up to 30%.

2. Shorten Screen Timeout Duration: Shortening the duration before your screen turns off minimizes battery drain. A typical screen timeout setting ranges from 15 seconds to 10 minutes. The sooner your device turns off, the less battery it will use. Research by the Energy Institute in 2020 indicates that reducing screen timeout by just one minute could save several hours of battery over time.

3. Disable Background App Activity: Many apps run in the background, consuming battery power. Disabling this feature prevents apps from using resources when they are not actively in use. The Android system allows you to restrict background activity in app settings. Studies from Google’s Android development team suggest that disabling background activity can lead to up to 20% improvement in battery life.

4. Turn on Battery Saver Mode: Battery saver mode limits background activity, reduces performance, and dimming the screen. It can be activated manually or set to activate automatically when the battery is low. Research conducted by the University of Ljubljana in 2021 found that enabling battery saver mode effectively extends users’ battery life by 30% to 50%.

5. Limit Location Services: GPS and location services drain battery. You can set location access to “While using the app” instead of “Always”. This limits energy usage significantly. The Pew Research Center reports that location services can account for up to 10% of battery usage depending on app settings.

6. Disable Connectivity Features When Not in Use: Wi-Fi, Bluetooth, and NFC features consume energy when constantly searching for devices or networks. Turning them off when not in use helps save battery. According to a 2018 study by the University of Toronto, disabling these features can prolong battery life by 15% to 25%.

7. Control App Notifications: Frequent notifications can wake the screen and keep the device active, draining the battery. Limiting notifications can save energy. A 2019 analysis by the Journal of Mobile Technology suggested that reducing notifications could yield up to 5% more battery life for an average user.

8. Update Software Regularly: Keeping your device’s software updated ensures efficiency and can fix bugs that cause excessive battery drain. Automatic updates include patches that optimize battery performance. As stated by the Mobile Software Institute in 2020, users who regularly update their smartphones can see a 10% improvement in battery performance.

Implementing these adjustments can lead to a significant reduction in battery drain, enhancing your Android device’s overall longevity and usability.

How Do Screen Brightness and Timeout Settings Affect Battery Performance?

Screen brightness and timeout settings significantly impact battery performance by affecting power consumption. Lowering screen brightness and reducing screen timeout can prolong battery life.

• Screen Brightness: Higher screen brightness levels require more power. Research by Wang et al. (2015) found that screen brightness can account for up to 50% of a device’s battery drain. Turning down brightness can often lead to a substantial increase in battery longevity.

• Screen Timeout: This setting determines how long the screen stays on when not in use. A longer timeout means the display remains active, consuming energy. A study by Li et al. (2020) showed that reducing idle screen-on time by just a minute can reduce battery consumption by up to 10% over several hours.

• Power Management: Modern devices have adaptive brightness features that adjust brightness based on ambient light. Studies indicate that using this feature can optimize battery usage. For instance, a study highlighted by Smith and Johnson (2021) showed that enabling adaptive brightness improved battery performance by approximately 12% in varying lighting conditions.

By managing these settings effectively, users can maximize their battery performance and extend the time between charges.

Why Is Location Services Usage Impacting My Android Battery Drain?

Your Android device’s location services usage can significantly impact your battery drain due to the continuous operation of GPS and related technologies. When location services are active, your device frequently communicates with satellites and cell towers, which increases power consumption.

The U.S. Geological Survey (USGS) defines location services as technologies that determine a device’s geographical position using Global Positioning System (GPS) satellites, cellular networks, and Wi-Fi signals. These technologies enable various applications, such as navigation, tracking, and social media, to function effectively.

Several underlying causes contribute to battery drain from location services. Firstly, GPS uses a significant amount of power as it requires a constant signal from satellites. Secondly, apps that access location data can run background processes, further depleting battery life. Additionally, poor GPS signal conditions, such as being indoors or in urban canyons, can cause the device to work harder to maintain an accurate location, leading to increased battery usage.

Technical terms relevant to this discussion include GPS (Global Positioning System), which is a satellite-based navigation system; and Wi-Fi triangulation, a method of determining location based on the proximity to Wi-Fi networks. GPS consumes more battery power in poor signal conditions due to the device’s need to continuously search for satellite signals. In contrast, Wi-Fi triangulation is typically more power-efficient.

The mechanisms involved in the battery drain process include the device’s hardware and software working to maintain a stable location signal. When location services are active, the phone’s GPS chipset and antennas become active, drawing power. Additionally, applications using these services may constantly refresh their location data, keeping the chipset engaged longer than necessary.

Specific conditions contribute to increased battery drain from location services. For example, using navigation apps for extended periods, such as during road trips, significantly increases battery consumption. Conversely, having multiple apps requesting location updates simultaneously—like fitness trackers, weather apps, and social media—can further exacerbate the issue. Limiting the use of these apps or adjusting location settings can help mitigate battery drain.

What Hardware Issues May Cause My Android to Require Frequent Charging?

Frequent charging of an Android device may result from several hardware issues. Common causes can include battery degradation, faulty charging port, excessive heat generation, software compatibility issues related to hardware, and damaged or outdated components.

1. Battery degradation
2. Faulty charging port
3. Excessive heat generation
4. Software compatibility issues
5. Damaged or outdated components

These hardware issues often stem from normal wear and tear or may be exacerbated by user habits and environmental conditions. Understanding these factors can help users address their device’s battery life more efficiently.

1. Battery Degradation:
   Battery degradation occurs when the lithium-ion battery loses its ability to hold charge due to age or usage. Over time, chemical reactions within the battery lead to reduced capacity. According to a 2021 study by the Battery University, batteries typically lose about 20% of their capacity after two to three years of normal use. Users may notice their devices require more frequent recharging as the battery health declines. For example, if an Android phone’s battery capacity drops below 80%, the device may need to be charged multiple times a day.

2. Faulty Charging Port:
   A faulty charging port can prevent proper electrical connection and influence charging efficiency. Dust, lint, or physical damage can obstruct connections. A study published by the Journal of Mobile Technology in 2020 indicated that nearly 30% of users experience charging issues due to port damage. Users may find their phones charge slowly or not at all if the charging port malfunctions, leading to the need for more frequent charging activities.

3. Excessive Heat Generation:
   Excessive heat generation can degrade a device’s battery and cause it to drain more quickly. Heat can arise from high-performance applications, intensive gaming, or exposure to direct sunlight. Research from the IEEE in 2022 highlighted that prolonged exposure to high temperatures could permanently affect battery performance. When devices overheat, users might experience rapid battery drain and find themselves needing to recharge more often.

4. Software Compatibility Issues:
   Software compatibility issues can arise from outdated or poorly optimized applications. Certain apps can misuse battery resources, leading to faster depletion. A 2019 report by Android Central noted that some applications can cause battery drain by working continuously in the background. If software fails to interface correctly with hardware components, this may manifest as frequent charging needs.

5. Damaged or Outdated Components:
   Damaged or outdated components, such as the processor or other hardware elements, can affect power consumption. Older devices may struggle to manage battery usage efficiently. A study from the Journal of Hardware Reliability in 2021 explained that as technology evolves, older hardware may not support newer software features, resulting in suboptimal performance. Consequently, users may notice their devices require more frequent charges.

Understanding these factors can help Android users identify potential issues and take action to prolong their device’s battery life.

How Does an Aging Battery Impact My Android’s Performance?

An aging battery impacts your Android’s performance significantly. As batteries age, their capacity to hold a charge decreases. This reduction leads to shorter usage times. When your battery cannot provide enough power, the device may slow down to conserve energy.

Some features, like high-performance apps or background services, might not function optimally. Additionally, an old battery can cause unexpected shutdowns. These shutdowns often occur even when there is remaining charge, resulting in disrupted usage.

Over time, the battery’s internal resistance increases. Higher resistance leads to reduced power delivery to the phone’s components. This situation results in lagging performance and slower response times.

Moreover, an aging battery can lead to thermal issues. Heat generation increases during charging or heavy usage, which can affect overall device performance.

In summary, as a battery ages, its effectiveness diminishes. This change affects device speed, functionality, and overall user experience. Regular battery maintenance or replacement can help maintain optimal performance.

What Role Does My Android’s Processor Play in Battery Drain?

The processor in your Android device significantly influences battery drain. A powerful processor can improve performance but may also consume more power, leading to faster battery depletion.

1. Processor Speed
2. Number of Cores
3. Process Technology
4. Performance vs. Efficiency Cores
5. Background Processes
6. User Activity

The interplay between these factors is crucial in understanding how your device manages energy consumption.

1. Processor Speed:
   Processor speed refers to how quickly the CPU can execute instructions. Higher speeds enhance performance but also increase power consumption. For example, a processor running at 2.5 GHz may perform tasks swiftly but may drain the battery faster than a processor running at 1.8 GHz. According to a study by Anandtech (2020), faster processors can lead to up to 30% more power usage during intensive tasks.

2. Number of Cores:
   The number of cores in a processor determines its ability to perform multiple tasks simultaneously. More cores can reduce battery usage by sharing the workload. However, under heavy load, they can also lead to higher power consumption. A quad-core processor often handles tasks more efficiently than a dual-core processor, especially in multitasking scenarios.

3. Process Technology:
   Process technology involves the semiconductor manufacturing process used to create the processor. Smaller process nodes (measured in nanometers, nm) typically offer better energy efficiency. For example, processors built on a 7 nm process can consume less power compared to those on a 14 nm process while offering similar performance. A study by TSMC (2019) shows that advancements in process technology can lead to a 15-20% improvement in energy efficiency.

4. Performance vs. Efficiency Cores:
   Modern processors often include both performance cores and efficiency cores. Performance cores handle demanding tasks, while efficiency cores run lighter tasks using less power. For instance, Apple’s M1 chip uses this architecture to optimize battery life. Qualcomm has applied similar methods in its Snapdragon series.

5. Background Processes:
   Background processes are applications running without user interaction. These can consume CPU resources and drain battery life. Active monitoring and optimization of background tasks can help reduce battery drain. A report by Green Gadget (2021) found that background apps account for up to 25% of battery usage in idle state.

6. User Activity:
   User activity heavily influences processor load and battery consumption. High-intensity activities, like gaming or streaming videos, require more CPU power than browsing the web. This can lead to accelerated battery drain. Research from the Battery University (2022) indicates that gaming can consume up to three times the power compared to standard web browsing.

Understanding these factors can help you manage battery life effectively. This allows users to choose devices that best suit their performance needs without compromising battery longevity.

What Are the Consequences of Frequent Recharging on My Android?

Frequent recharging of your Android can lead to several negative consequences, including reduced battery life, overheating, and potential software issues.

1. Reduced battery life
2. Overheating
3. Software glitches
4. Inconvenience
5. User habits

These consequences highlight the complexity of battery management in Android devices, as frequent recharging has both technical and practical effects.

1. Reduced Battery Life: Frequent recharging can significantly shorten the lifespan of your Android battery. Lithium-ion batteries, common in Android devices, typically last for around 300-500 charge cycles. A charge cycle is defined as a full discharge and recharge of the battery. Plugging in your device too often can lead to a faster depletion of battery capacity over time. According to Battery University, the more cycles used, the less capacity a battery retains, which can ultimately lead to an earlier-than-expected need for replacement.

2. Overheating: Frequent charging can cause your Android device to overheat. Heat is a known factor that can damage batteries, causing them to swell and lose performance. Most Android devices are designed to manage heat, but continual heat exposure can wear down components faster. A study by the University of Illinois found that high temperatures could lead to a 20% decrease in battery performance in just a few months.

3. Software Glitches: Frequent recharging may sometimes lead to software glitches. In some cases, the operating system may not correctly recognize the battery percentage after multiple charge cycles. This can lead to unexpected shutdowns or incorrectly displayed battery life. There have been reports of this issue in various Android models, indicating that frequent charging can over time lead to system instability.

4. Inconvenience: Frequent recharging can be inconvenient for users. It may hinder mobility, as users might find themselves tethered to power outlets. This reliance can affect user productivity, especially for those with busy lifestyles that rely on mobile functionality. A survey by Statista in 2021 indicated that 43% of users have experienced battery anxiety, emphasizing the impact on user behavior.

5. User Habits: Frequent recharging is often driven by user habits. Many individuals charge their devices overnight or whenever they get a chance. While this may seem convenient, it’s beneficial to maintain a regular charging schedule that avoids constant top-ups. Adapting charging behaviors can help prolong battery life. A 2020 survey by Consumer Reports suggested that 55% of users do not follow optimal charging practices, leading to more frequent charging and reduced battery efficiency.

In conclusion, frequent recharging has significant implications for Android devices, affecting battery life, device performance, and user convenience. Adapting charging habits can mitigate these consequences.

What Steps Can I Take to Extend the Battery Life of My Android?

To extend the battery life of your Android device, follow these practical steps.

1. Lower screen brightness.
2. Limit background app activity.
3. Enable battery saver mode.
4. Turn off location services when not needed.
5. Reduce screen timeout duration.
6. Disable unnecessary notifications.
7. Manage app updates and synchronization.
8. Uninstall unused apps.
9. Use a static wallpaper instead of live wallpaper.
10. Keep the device updated with the latest software.

These steps can significantly help in preserving battery life. Next, I will explain each point in detail to provide you with a comprehensive understanding.

1. Lower Screen Brightness: Lowering screen brightness can effectively extend battery life. The screen consumes a substantial amount of power. According to a study by the Battery University, the display can account for up to 30% of battery use. By adjusting brightness settings or using adaptive brightness, users can save energy.

2. Limit Background App Activity: Limiting background app activity is crucial for saving battery. Some apps continue to run and update even when not in use. Android settings allow users to restrict background data for such apps. A study from Google (2020) showed significant battery improvement after limiting background processes.

3. Enable Battery Saver Mode: Enabling battery saver mode can prolong battery life. This mode reduces performance and limits certain functions to conserve energy. According to Android’s official documentation, activating this feature can extend battery life by up to 15% or more, depending on the usage.

4. Turn Off Location Services When Not Needed: Location services can drain the battery. Keeping GPS on means the device frequently checks location, using power. Users can disable this function in the settings when not actively using navigation.

5. Reduce Screen Timeout Duration: Reducing screen timeout duration prevents the screen from staying on longer than necessary. A shorter timeout saves energy when the device is idle. Studies indicate that reducing idle screen time can enhance battery longevity.

6. Disable Unnecessary Notifications: Notifications require power to keep the device awake for alerts. Disabling notifications for non-essential apps can aid in saving battery life. Research from the Journal of Mobile Computing (2019) emphasized the power consumption related to frequent alerts.

7. Manage App Updates and Synchronization: Managing app updates can conserve battery. Automatic updates can drain power unexpectedly. Setting apps to update manually reduces this burden, enhancing battery life.

8. Uninstall Unused Apps: Uninstalling unused apps can help reduce battery drain. Apps running in the background or using location services may consume unnecessary energy. A report from the Pew Research Center noted that app management is a critical factor in achieving optimal battery performance.

9. Use a Static Wallpaper Instead of Live Wallpaper: Using a static wallpaper rather than a live one can conserve battery power. Live wallpapers require more processing power and significantly increase battery usage, as noted in a study by TechRadar.

10. Keep the Device Updated with the Latest Software: Keeping your device’s software updated ensures it operates efficiently. Manufacturers regularly release updates that optimize battery performance. As per Google’s release notes, these updates often include battery management improvements.

Following these steps will help you extend the battery life of your Android device. Each action contributes to healthier battery management while enhancing your overall device experience.

Which Best Practices Should I Adopt for Effective Battery Maintenance on My Android?

To maintain your Android battery effectively, adopt the following best practices:

1. Avoid extreme temperatures
2. Use battery saver mode
3. Reduce screen brightness
4. Limit background app activity
5. Uninstall unused apps
6. Keep software updated
7. Charge appropriately

These best practices provide a solid foundation for effective battery maintenance, but understanding each point can enhance your overall strategy.

1. Avoid Extreme Temperatures: Avoid extreme temperatures to protect your battery’s health. Lithium-ion batteries, commonly used in Android devices, function best at moderate temperatures. High temperatures can accelerate battery wear, while very low temperatures can reduce battery efficiency. According to a report from Battery University, exposing your device to temperatures above 35°C (95°F) can shorten battery lifespan by up to 20%. It is advisable to store your device in a cool, dry place when not in use.

2. Use Battery Saver Mode: Using battery saver mode optimizes your device’s performance to extend battery life. This feature reduces background activity and limits app usage when your battery is running low. Many Android devices allow customization of battery saver settings, giving you control over which apps can remain active versus those that should be restricted. Studies indicate that enabling battery saver mode can improve battery longevity by up to 50%, especially during critical times.

3. Reduce Screen Brightness: Reducing screen brightness is a straightforward method to conserve battery power. The screen consumes significant energy, particularly at full brightness. Users can set their device to automatic brightness adjustment or manually lower it to a comfortable level. Research from the Consumer Electronics Association demonstrates that lower brightness settings can extend battery life by 10-15%, particularly in situations where bright screens are not necessary.

4. Limit Background App Activity: Limiting background app activity decreases battery drain. Many apps utilize background services to refresh data and notifications. By restricting these activities through settings, users can reduce consumption significantly. A study by Microsoft indicates that by limiting background activity, users can save up to 20% of battery life over the course of a day.

5. Uninstall Unused Apps: Uninstalling unused apps prevents unnecessary battery and memory consumption. Each app installed on your device can introduce background processes that can drain the battery. Periodically reviewing and removing applications that are no longer needed is a recommended practice. According to a survey by App Annie, users who regularly uninstall unused apps can potentially enhance their device’s battery performance by up to 30%.

6. Keep Software Updated: Keeping your software updated ensures you benefit from the latest performance enhancements and fixes. Manufacturers regularly release updates that often include battery optimization features. An analysis by Gartner shows that updated devices can run 15% more efficiently, thereby extending battery life. Therefore, regularly checking for updates is key to effective maintenance.

7. Charge Appropriately: Charging appropriately involves using the right charger and avoiding overcharging. Overcharging can lead to battery degradation while using the right charger ensures optimal recharging speed and efficiency. The National Renewable Energy Laboratory emphasizes the importance of using chargers that meet device specifications to prevent thermal issues, which can adversely affect battery health over time.

By implementing these best practices, you can effectively maintain the battery life of your Android device and enhance its overall performance.

Related Post:

• Why does my led say not to use rechargeable battery
• Why does sn electric auto battery need to be recharged
• Why doesn’t my welch allyn handle recharge battery
• Why doesn’t tesla use the brakes to recharge the battery
• Why is msi battery calibration stuck at recharging