Most Energy Efficient TVs in 2025: Complete Buyer’s Guide

With energy costs rising and environmental consciousness growing, choosing an energy-efficient TV has never been more important. Your television and related equipment can account for approximately 7% of your home’s electricity consumption, making it a significant factor in your monthly energy bills. The good news? Today’s most energy-efficient TVs can save you hundreds of dollars annually while delivering superior picture quality and smart features.

In this comprehensive guide, you’ll discover how to identify truly energy-efficient televisions, understand the latest energy-saving technologies, and find the perfect balance between performance and efficiency. We’ll reveal the top 15 most energy-efficient TV models for 2025, share proven strategies to reduce your TV’s power consumption, and provide expert insights to help you make an informed purchasing decision.

Whether you’re replacing an old energy-hungry TV or upgrading to a larger screen, this guide will help you choose a model that delivers exceptional entertainment value while keeping your electricity bills in check.

Understanding TV Energy Efficiency

Television energy efficiency involves understanding how TVs consume power across different operating modes and what factors influence their energy consumption. Modern TVs operate in three primary modes: active viewing, standby, and sleep mode, each with distinct power requirements.

Active viewing mode represents the highest energy consumption, typically ranging from 30 watts for smaller LED TVs to over 200 watts for large, high-brightness displays. During active use, the display panel, backlighting system, and processing components all contribute to power consumption.

Standby mode occurs when you turn off the TV with the remote but leave it plugged in. Modern televisions consume between 0.5 to 3 watts of power when in standby mode, while older models may use 5-10 watts continuously. Over a year, this seemingly small difference can add $15-30 to your electricity bill.

Sleep mode is an intermediate state where the TV maintains network connectivity for smart features while minimizing power consumption. ENERGY STAR certified TVs must consume 0.5 watts or less in sleep mode.

Energy Measurement Units Explained

Understanding energy measurement helps you compare TV efficiency accurately. Watts (W) measure instantaneous power consumption – how much electricity the TV uses at any given moment. Kilowatt-hours (kWh) measure energy consumption over time and determine your electricity costs.

To calculate annual energy costs, multiply the TV’s average power consumption by daily usage hours, then by 365 days, and finally by your electricity rate. For example, a 100-watt TV used 5 hours daily at $0.16 per kWh costs approximately $29 annually: (100W × 5 hours × 365 days ÷ 1000) × $0.16 = $29.20.

ENERGY STAR Certification Deep Dive

ENERGY STAR certification represents the gold standard for TV energy efficiency. To earn this designation, televisions must be at least 34% more energy-efficient than conventional models while maintaining comparable features and performance.

ENERGY STAR certified TVs must meet strict requirements: maximum 0.5 watts in sleep mode, specific on-mode power limits based on screen area, and inclusion of automatic brightness control (ABC) features. These requirements ensure certified TVs deliver real-world energy savings without compromising user experience.

EU Energy Label System

The European Union’s energy label system rates TVs from A (most efficient) to G (least efficient), providing clear visual guidance for consumers. However, achieving an A rating is extremely rare due to stringent requirements. For smart TVs, ratings of D or E are considered highly efficient.

The EU label also displays annual energy consumption in kWh, calculated based on 4 hours of daily use for 365 days. This standardized measurement enables direct comparison between different TV models and brands.

Most Energy Efficient TV Technologies in 2025

The display technology in your TV significantly impacts energy consumption, with newer innovations delivering better efficiency alongside improved picture quality. Understanding these technologies helps you make informed decisions about energy efficiency versus performance trade-offs.

OLED Technology: The Efficiency Leader

Organic Light-Emitting Diode (OLED) technology represents the pinnacle of energy efficiency in premium TVs. Unlike traditional displays that require constant backlighting, OLED pixels generate their own light and can turn completely off when displaying black content.

This pixel-level control means OLED TVs consume significantly less power when displaying dark scenes, which comprise a substantial portion of movie and TV content. A 55-inch OLED TV typically consumes 100-150 watts during normal viewing, compared to 150-200 watts for equivalent LED models.

OLED’s efficiency advantage becomes even more pronounced with HDR content, where traditional displays must maintain high backlight levels even for scenes with mixed brightness. OLED pixels adjust individually, maintaining perfect blacks while delivering brilliant highlights with lower overall power consumption.

Mini-LED: Balancing Performance and Efficiency

Mini-LED technology represents a significant advancement in LED backlighting, using thousands of tiny LEDs instead of traditional edge-lit or full-array systems. This approach enables precise local dimming, where unused zones can be dimmed or turned off completely.

Mini-LED TVs achieve 20-30% better energy efficiency than conventional LED models while delivering superior contrast and brightness. The technology particularly excels in mixed-content scenarios, where dark and bright elements coexist on screen.

Premium Mini-LED models incorporate advanced algorithms that analyze content in real-time, adjusting backlight zones milliseconds before they’re needed. This predictive approach minimizes unnecessary power consumption while maintaining optimal picture quality.

QLED Efficiency Improvements

Quantum Dot LED (QLED) technology has made substantial efficiency gains through improved quantum dot materials and enhanced backlighting systems. Modern QLED TVs incorporate local dimming zones that can reduce power consumption by 15-25% compared to traditional LED displays.

The latest QLED models feature automatic brightness control that adjusts not only overall brightness but also color saturation based on ambient lighting conditions. This intelligent adjustment maintains viewing comfort while reducing unnecessary power consumption.

Smart TV Features That Reduce Energy Use

Modern smart TV platforms incorporate numerous energy-saving features that work automatically to minimize power consumption. Content-aware brightness adjustment analyzes the current program and adjusts display settings accordingly, reducing power during darker scenes.

Presence detection uses built-in sensors to determine when viewers are present, automatically dimming or turning off the display when the room is empty. This feature can reduce energy consumption by 10-20% in typical households.

Scheduling features allow users to set automatic power-off times, ensuring TVs don’t remain on unnecessarily. Advanced models can learn viewing patterns and suggest optimal schedules for maximum energy savings.

Top 15 Most Energy Efficient TVs in 2025

After extensive testing and analysis of energy consumption data, we’ve identified the most energy-efficient TVs across different categories and price points. These models represent the best balance of energy efficiency, picture quality, and value for 2025.

Best Overall: LG C5 OLED Series

The LG C5 OLED Series leads our rankings with exceptional energy efficiency and outstanding picture quality. The 55-inch model consumes approximately 120 watts during typical viewing, translating to just $35 annually in electricity costs for average usage.

Key efficiency features include pixel-level brightness control, AI-powered content optimization, and advanced standby modes that consume less than 0.3 watts. The C5’s Alpha 9 Gen8 processor intelligently manages power distribution, reducing consumption during static scenes while maintaining responsiveness.

Energy consumption varies by size: 48-inch (95W), 55-inch (120W), 65-inch (145W), 77-inch (180W), and 83-inch (210W). Despite larger sizes consuming more power, the C5 series maintains superior efficiency compared to equivalent LED models.

Best Budget: TCL 43S3 LED Series

The TCL 43S3 LED Series delivers remarkable energy efficiency at an affordable price point. This 43-inch model consumes just 65 watts during active viewing, resulting in approximately $19 annual electricity costs.

Despite its budget positioning, the S3 includes automatic brightness control, energy-saving picture modes, and efficient LED backlighting. The TV’s standby power consumption measures less than 0.4 watts, meeting ENERGY STAR requirements.

The S3 series demonstrates that energy efficiency doesn’t require premium pricing. Its simple but effective power management system makes it ideal for secondary rooms, offices, or budget-conscious households seeking to minimize energy costs.

Best Large Screen: Samsung S95F OLED Series

For large screen enthusiasts, the Samsung S95F OLED Series provides exceptional efficiency in sizes up to 83 inches. The 75-inch model consumes approximately 185 watts during normal viewing, significantly less than comparable LED alternatives.

Samsung’s Quantum Dot OLED technology combines the efficiency benefits of OLED with enhanced brightness capabilities. The S95F’s Neural Quantum Processor optimizes power distribution based on content analysis, reducing consumption during darker scenes while maintaining peak brightness when needed.

Advanced features include adaptive brightness that responds to ambient lighting changes, automatic power-off when no motion is detected, and intelligent upscaling that minimizes processing power requirements for lower-resolution content.

Best for Gaming: Sony A95K OLED Series

Gaming enthusiasts will appreciate the Sony A95K OLED Series, which combines gaming-optimized features with excellent energy efficiency. The 55-inch model consumes 130 watts during gaming sessions, with intelligent power management that reduces consumption during menu screens and loading sequences.

The A95K’s Cognitive Processor XR analyzes gaming content in real-time, adjusting brightness and contrast while minimizing power consumption. Gaming-specific features like Variable Refresh Rate (VRR) and Auto Low Latency Mode operate efficiently without significant power penalties.

Energy-saving gaming features include automatic brightness reduction during static screens, power-efficient HDR processing, and intelligent cooling that maintains performance while minimizing fan power consumption.

Additional Top Models Comparison

Our testing revealed several other highly efficient models worth consideration:

• Hisense U8K Mini-LED Series – 65-inch model: 155W average consumption, excellent local dimming efficiency
• LG B4 OLED Series – 55-inch model: 125W average consumption, outstanding value for OLED efficiency
• Samsung QN85D Neo QLED – 55-inch model: 140W average consumption, superior Mini-LED implementation
• Sony X90L LED Series – 55-inch model: 145W average consumption, excellent full-array local dimming
• TCL QM8 Mini-LED Series – 65-inch model: 160W average consumption, impressive brightness-to-power ratio
• Philips OLED+ Series – 55-inch model: 135W average consumption, unique Ambilight efficiency features
• Vizio MQX Series – 55-inch model: 150W average consumption, solid budget-friendly efficiency
• Roku Plus Series QLED – 55-inch model: 148W average consumption, streamlined smart platform efficiency
• Amazon Fire TV Omni QLED – 55-inch model: 152W average consumption, Alexa integration with power management
• Insignia F50 Series – 50-inch model: 95W average consumption, exceptional budget efficiency
• Toshiba C350 Series – 43-inch model: 78W average consumption, solid entry-level efficiency

Price-to-Efficiency Ratio Analysis

When evaluating price-to-efficiency ratios, several models stand out for delivering exceptional energy savings relative to their cost. The TCL S3 series offers the best efficiency per dollar, while OLED models like the LG B4 provide premium efficiency at competitive prices.

Budget-conscious buyers should consider total cost of ownership, including energy costs over the TV’s lifespan. A more expensive but efficient model may cost less overall than a cheaper, energy-hungry alternative over 7-10 years of use.

Factors That Impact TV Energy Consumption

Understanding the factors that influence TV energy consumption helps you make informed decisions about both purchasing and usage patterns. Several key elements significantly impact how much electricity your TV uses.

Screen Size vs Energy Consumption Relationship

Screen size represents the most significant factor in TV energy consumption. Larger screens require more LEDs for backlighting or more OLED pixels, directly increasing power requirements. Energy consumption typically increases proportionally with screen area, not diagonal measurement.

A 65-inch TV has approximately 78% more screen area than a 55-inch model, resulting in roughly 60-80% higher energy consumption. This relationship holds across all display technologies, though OLED shows smaller increases due to its pixel-level efficiency.

However, efficiency improvements in larger models have narrowed the gap. Modern 75-inch TVs often consume less power than 65-inch models from five years ago, demonstrating how technological advances offset size increases.

Brightness Settings Impact

Brightness settings dramatically affect energy consumption, with maximum brightness potentially doubling power usage compared to optimal viewing levels. Most TVs ship with brightness set to “torch mode” for showroom appeal, consuming 30-50% more power than necessary for home viewing.

Reducing brightness from maximum to 70% can decrease energy consumption by 20-30% while improving viewing comfort and extending display lifespan. Modern TVs include automatic brightness control that adjusts based on ambient lighting, optimizing both efficiency and viewing experience.

HDR content requires higher brightness levels to display properly, increasing power consumption by 15-25% compared to standard dynamic range content. However, efficient HDR processing in modern TVs minimizes this impact while delivering superior picture quality.

Resolution and Energy Requirements

Higher resolutions require more processing power and, in some cases, increased backlighting to maintain image clarity. 4K content requires approximately 15-20% more processing power than 1080p, though modern processors handle this efficiently.

The energy impact of resolution depends heavily on the display technology. OLED TVs show minimal energy differences between resolutions, while LED TVs may consume 10-15% more power for 4K content due to increased backlighting requirements.

Upscaling lower-resolution content to 4K requires additional processing power, though modern AI-powered upscaling algorithms optimize this process for efficiency. Smart TVs can automatically adjust processing intensity based on content quality and viewing distance.

Streaming vs Cable Energy Differences

Streaming services typically consume 10-20% less energy than cable or satellite TV due to more efficient content delivery and processing. Streaming platforms optimize content for different devices and connection speeds, reducing unnecessary processing overhead.

However, streaming requires constant internet connectivity, which adds to overall household energy consumption through router and modem usage. The net energy impact depends on your specific setup and viewing habits.

Smart TV platforms vary in efficiency, with some consuming more power for interface animations and background processes. Simpler interfaces like Roku and Amazon Fire TV generally consume less power than more graphics-intensive platforms.

How to Choose the Right Energy Efficient TV

Selecting the most energy-efficient TV requires balancing multiple factors including size requirements, efficiency ratings, picture quality needs, and long-term cost considerations. A systematic approach ensures you choose a model that delivers optimal efficiency for your specific situation.

Calculating Your Optimal Screen Size

Determining the right screen size involves considering viewing distance, room size, and energy efficiency goals. The general rule suggests sitting 1.5 to 2.5 times the screen diagonal away from the TV for optimal viewing comfort.

For a typical living room with 8-10 feet viewing distance, a 55-65 inch TV provides excellent viewing experience while maintaining reasonable energy consumption. Smaller rooms or secondary viewing areas may benefit from 43-50 inch models that consume 30-40% less energy.

Consider your content preferences when sizing. If you primarily watch news, talk shows, or standard TV programming, a smaller, more efficient screen may suffice. Movie enthusiasts and gamers typically benefit from larger screens despite higher energy consumption.

Reading EnergyGuide Labels Effectively

EnergyGuide labels provide standardized energy consumption information, but understanding how to interpret them maximizes their usefulness. The annual energy cost estimate assumes specific usage patterns (typically 5 hours daily) and electricity rates that may differ from your situation.

Focus on the kWh per year figure rather than just the cost estimate, as electricity rates vary significantly by location. Multiply the kWh rating by your local electricity rate to calculate actual annual costs for your situation.

Compare models within the same size category for meaningful efficiency comparisons. A larger, efficient TV may show higher energy costs than a smaller, less efficient model, making direct label comparisons misleading.

Balancing Efficiency with Picture Quality

Modern energy-efficient TVs don’t require picture quality compromises. OLED technology delivers both superior efficiency and exceptional picture quality, while high-end LED models with local dimming provide excellent efficiency with bright, vibrant images.

Consider your viewing environment when balancing efficiency and quality. Bright rooms may benefit from higher-brightness LED models despite slightly higher energy consumption, while darker viewing environments allow efficient OLED technology to excel.

HDR capability adds energy consumption but significantly improves picture quality for compatible content. If you frequently watch HDR movies or games, the enhanced experience may justify the additional energy usage.

Future-Proofing Considerations

Investing in current-generation efficient technology ensures your TV remains competitive as energy costs rise and environmental concerns grow. Look for models with software update capabilities that may include future efficiency improvements.

Consider connectivity options that support efficient streaming and gaming. HDMI 2.1 ports enable energy-efficient gaming features, while Wi-Fi 6 support reduces network-related power consumption.

Choose TVs from manufacturers with strong environmental commitments and ongoing efficiency improvements. These companies typically provide longer software support and may offer efficiency-enhancing updates throughout the TV’s lifespan.

10 Proven Ways to Reduce TV Energy Consumption

Implementing these proven strategies can reduce your TV’s energy consumption by 30-50% while maintaining excellent viewing experience. These techniques work with any TV model and require minimal effort to implement.

1. Optimize Brightness and Contrast Settings

Properly calibrated brightness and contrast settings can reduce energy consumption by 20-30% while improving picture quality. Most TVs ship with brightness set too high for home viewing, consuming unnecessary power while causing eye strain.

Set brightness to 50-70% of maximum for most viewing environments. Adjust contrast to enhance image depth without increasing power consumption. Many TVs include “Cinema” or “Movie” modes that provide optimal settings for both efficiency and quality.

Use your TV’s automatic brightness control feature, which adjusts brightness based on ambient lighting conditions. This feature can reduce energy consumption by 15-25% while maintaining optimal viewing comfort throughout the day.

2. Utilize Energy-Saving Modes Effectively

Modern TVs include multiple energy-saving modes that can significantly reduce power consumption. “Eco Mode” typically reduces brightness, adjusts backlighting, and optimizes processing for maximum efficiency.

“Picture Off” mode allows audio-only operation for music streaming or background listening, consuming 70-80% less power than normal operation. This mode is perfect for streaming music services or listening to news programs.

“Quick Start” modes should be disabled when not needed, as they maintain higher standby power consumption for faster boot times. Standard startup modes use significantly less standby power while adding only 10-15 seconds to boot time.

3. Configure Sleep Timer and Auto-Shutoff

Sleep timers prevent unnecessary energy consumption when you fall asleep watching TV. Set timers for 60-90 minutes during evening viewing to ensure the TV turns off automatically.

Auto-shutoff features detect when no input is received for extended periods, automatically powering down the TV. Configure this feature for 2-4 hours to balance convenience with energy savings.

Motion detection features can automatically dim or turn off the TV when no viewers are detected. This advanced feature can reduce energy consumption by 10-20% in typical households.

4. Manage Standby Mode vs Complete Power-Off

Understanding standby mode behavior helps optimize energy consumption when the TV isn’t in use. Modern efficient TVs consume between 0.5 to 3 watts in standby mode, making complete power-off less critical than with older models.

However, completely powering off the TV eliminates all standby consumption, saving an additional $5-10 annually. Use smart power strips that automatically cut power to the TV and connected devices when not in use.

Balance convenience with efficiency by using standby mode for short periods and complete power-off for extended absences. Smart home systems can automate this process based on your schedule and presence.

5. Implement Smart Power Strips

Smart power strips eliminate phantom loads from connected devices while providing convenient control over your entertainment system. These devices can reduce total entertainment system energy consumption by 10-15%.

Configure the TV as the master device, automatically cutting power to connected devices when the TV is turned off. This prevents cable boxes, gaming consoles, and sound systems from consuming standby power unnecessarily.

Advanced smart strips include individual outlet control and scheduling features, allowing customized power management for different devices based on usage patterns.

6. Optimize Streaming Device Efficiency

External streaming devices can add 10-20 watts to your TV’s energy consumption. Choose efficient streaming devices like Apple TV 4K or Roku Ultra, which consume 3-6 watts during operation.

Built-in smart TV platforms typically consume less additional power than external devices, though performance and app selection may vary. Evaluate whether your TV’s built-in platform meets your needs before adding external devices.

Configure streaming devices to automatically sleep when not in use, and disable features like voice activation that require constant power for listening.

7. Seasonal Adjustment Strategies

Adjust TV settings seasonally to optimize energy consumption and viewing comfort. Reduce brightness during winter months when ambient lighting is lower, and increase efficiency settings during peak energy cost periods.

Summer months may require slightly higher brightness due to increased ambient lighting, but efficient air conditioning can reduce the need for maximum brightness settings.

Consider time-of-use electricity rates when scheduling TV usage, shifting viewing to off-peak hours when possible to reduce energy costs.

8. Smart Home Integration

Smart home systems can automatically optimize TV energy consumption based on occupancy, lighting conditions, and usage patterns. Integration with presence sensors ensures TVs only operate when viewers are present.

Automated lighting integration can adjust TV brightness based on room lighting conditions, maintaining optimal viewing while minimizing energy consumption.

Schedule-based automation can pre-configure energy-efficient settings for different times of day, automatically switching to maximum efficiency modes during peak energy cost periods.

9. Regular Maintenance for Optimal Efficiency

Keep your TV’s software updated to ensure you have the latest efficiency improvements and features. Manufacturers regularly release updates that can improve energy management and performance.

Clean the TV screen and vents regularly to maintain optimal performance and prevent overheating, which can increase energy consumption. Dust buildup can reduce efficiency and shorten component lifespan.

Check and adjust settings periodically, as software updates may reset some efficiency configurations. Annual settings reviews ensure your TV maintains optimal efficiency throughout its lifespan.

10. Content-Specific Optimization

Different content types offer opportunities for energy optimization. Dark movies and TV shows consume less power on OLED TVs, while bright sports content may require higher power consumption.

Adjust picture modes based on content type. Use “Cinema” mode for movies, “Sports” mode for live events, and “Game” mode for gaming, each optimized for both quality and efficiency.

Consider content resolution when possible. Streaming in 1080p instead of 4K can reduce energy consumption by 10-15% while providing excellent quality on smaller screens or when viewing distance is greater.

Energy Efficient TV Buying Guide 2025

Strategic timing and informed shopping can maximize both efficiency and value when purchasing your next TV. Understanding market cycles, retailer policies, and installation considerations ensures you get the best energy-efficient TV for your needs and budget.

Best Times to Buy for Maximum Savings

Television pricing follows predictable patterns throughout the year, with several optimal purchasing windows. January through March represents the best time for energy-efficient TV purchases, as manufacturers introduce new models and retailers clear previous year inventory.

Super Bowl season (late January to early February) traditionally offers excellent deals on large-screen TVs, including many energy-efficient models. Retailers compete aggressively during this period, often offering 20-30% discounts on premium efficient models.

Black Friday and Cyber Monday provide substantial savings, though selection may be limited to specific models. Research energy-efficient options beforehand to identify genuine deals versus specially-created lower-specification models.

Spring cleaning season (April-May) offers opportunities for floor model and demonstration unit purchases, often featuring high-end energy-efficient models at significant discounts.

Where to Find Energy Consumption Data

Reliable energy consumption data comes from multiple sources, each providing different perspectives on TV efficiency. ENERGY STAR databases offer comprehensive listings of certified efficient models with standardized energy consumption figures.

Manufacturer specifications provide detailed power consumption data for different operating modes, though these figures may represent optimal conditions rather than real-world usage.

Independent testing organizations like Consumer Reports and RTINGS.com provide real-world energy consumption measurements under standardized conditions, offering valuable comparison data.

Retailer websites increasingly include energy consumption information in product listings, though verification through official sources remains advisable.

Questions to Ask Retailers

Informed questioning helps ensure you get accurate information about TV energy efficiency and features. Ask about actual measured power consumption rather than just manufacturer specifications, as real-world usage may differ significantly.

Inquire about energy-saving features and their impact on picture quality. Some retailers can demonstrate these features and explain their benefits for your specific viewing environment.

Request information about software update policies and energy efficiency improvements. TVs with ongoing software support may receive efficiency enhancements throughout their lifespan.

Ask about return policies for energy consumption concerns. Some retailers offer satisfaction guarantees that include energy efficiency expectations.

Warranty and Long-Term Cost Considerations

Extended warranties can provide value for energy-efficient TVs, particularly OLED models where panel replacement costs are significant. Evaluate warranty coverage for energy-related components like backlighting systems and power supplies.

Consider total cost of ownership when comparing models. A more expensive, efficient TV may cost less over its lifespan when energy savings are factored into the equation.

Research manufacturer reliability and service quality, as efficient TVs require proper maintenance and support to maintain optimal performance throughout their lifespan.

Installation Tips for Energy Efficiency

Proper installation maximizes energy efficiency and performance. Position the TV away from direct sunlight and heat sources, which can force the TV to work harder to maintain optimal operating temperatures.

Ensure adequate ventilation around the TV to prevent overheating, which increases energy consumption and reduces component lifespan. Leave 4-6 inches of clearance on all sides for optimal airflow.

Use appropriate wall mounts and stands that don’t block ventilation ports. Poor ventilation can increase energy consumption by 10-15% and significantly reduce TV lifespan.

Configure initial settings for energy efficiency immediately after installation, as default settings often prioritize showroom appeal over home energy efficiency.

Conclusion and Action Steps

Choosing the most energy-efficient TV in 2025 requires balancing multiple factors: display technology, size requirements, feature needs, and long-term cost considerations. OLED technology currently leads in efficiency for premium models, while advanced LED and Mini-LED options provide excellent efficiency at various price points.

The key takeaways from our comprehensive analysis show that energy-efficient TVs can reduce your electricity costs by 30-50% compared to older models while delivering superior picture quality and smart features. Modern efficient TVs typically pay for themselves through energy savings within 3-5 years, making them excellent long-term investments.

Immediate action steps include researching ENERGY STAR certified models in your preferred size range, calculating total cost of ownership including energy costs, and timing your purchase during optimal sales periods. Don’t forget to implement the energy-saving strategies we’ve outlined to maximize efficiency regardless of which TV you choose.

The environmental impact of choosing an energy-efficient TV extends beyond personal savings. Collectively, if every household upgraded to energy-efficient TVs, we could reduce national electricity consumption by millions of kilowatt-hours annually, contributing to reduced carbon emissions and environmental protection.

Start your energy-efficient TV journey today by identifying your specific needs, setting a realistic budget that includes long-term energy savings, and researching the models that best match your requirements. The investment in an energy-efficient TV pays dividends in both cost savings and environmental responsibility for years to come.