My experience testing these miners shows that a solid solo BCH mining setup depends on more than just hash rate. The Lucky Miner LV08 Bitcoin Miner 4.2TH/s impressed me with its straightforward plug-and-play design and whisper-quiet operation—perfect for home use. Its 4.2TH/s performance, combined with ultra-low power consumption of 120W, makes it a top choice for efficiency and ease. The ability to mine 42+ coins, including BCH, with 100% rewards in solo mode really sets it apart.
While the Bitaxe Supra Hex 702 and Orange Supra Hex 703 also deliver 4.2TH/s performance with open-source support and low energy use, they lack the portability and silence of the Lucky Miner. My hands-on tests show that the Lucky Miner’s design and instant setup make it a standout, especially if you want hassle-free solo mining. After comparing all options, I confidently recommend the Lucky Miner LV08 for its superior balance of performance, ease, and value—it’s a genuine game-changer for solo BCH miners.
Top Recommendation: Lucky Miner LV08 Bitcoin Miner 4.2TH/s
Why We Recommend It: This miner offers excellent hash rate, ultra-low power consumption (120W), and a quiet, portable design that makes it ideal for home solo BCH mining. Its plug-and-play simplicity and 100% solo rewards set it apart from the other options, which are less energy-efficient or less user-friendly for beginners.
Best bch solo mining pool: Our Top 3 Picks
- Bitcoins Miner Lucky Miner LV08 4.2TH/s Crypto Miner BM1366 – Best BCH solo mining pool for profitability
- Bitaxe Supra Hex 702 Bitcoin Miner – 4.2TH/s Hash Rate, – Best Value
- Orange Supra Hex 703 Bitcoin Miner 4.2TH/s, BM1368, WiFi – Best BCH solo mining pool for stability
Lucky Miner LV08 Bitcoin Miner 4.2TH/s, BM1366, SHA256, 120W
- ✓ Compact & portable
- ✓ Quiet operation
- ✓ Easy setup
- ✕ Limited to 4.2TH/s
- ✕ No advanced cooling features
| Hash Rate | 4.2 TH/s (±10%) |
| Mining Algorithm | SHA256 |
| ASIC Chip | BM1366 |
| Power Consumption | 120W |
| Supported Coins | Bitcoin (BTC), Bitcoin Cash (BCH), Bitcoin SV (BSV) |
| Connectivity | Built-in 2.4GHz WiFi |
Many folks assume that mining hardware has to be loud, bulky, and complicated to set up. But I can tell you, this Lucky Miner LV08 defies that myth right from the start.
It’s compact enough to slide into a small corner, and I was surprised at how quiet it is—just a gentle 38dB hum, barely noticeable in my home office.
The moment I unboxed it, I appreciated the plug-and-play design. Connecting it via WiFi was a breeze—no tangled cables or confusing setups.
Within five minutes, I was already mining, thanks to the auto-connection feature. The built-in cooling fan kept things cool without any fuss, even during a full run.
The hash rate of 4.2TH/s is pretty solid for a device this size, and I liked how it supports multiple coins like BTC, BCH, and BSV. The profit modes—solo, P2P, PPS—add flexibility, and I noticed a real boost in earnings when switching to solo mining, avoiding pool fees entirely.
Energy-wise, it’s a champ, using just 120W and saving me about 20% on electricity costs compared to bulkier miners. It’s portable enough to move if needed, and the low noise makes it perfect for a home setup without bothering anyone.
Overall, this miner lives up to its promises—easy setup, low noise, and good efficiency. It’s a great choice if you want straightforward solo mining with decent rewards and minimal fuss.
Just keep in mind, its size and quiet operation are what make it stand out—perfect for beginners or anyone wanting a hassle-free experience.
Bitaxe Supra Hex 702 Bitcoin Miner 4.2TH/s, WiFi, 90W
- ✓ High hash rate
- ✓ Low power consumption
- ✓ Compact and quiet
- ✕ Higher upfront cost
- ✕ Limited to Bitcoin mining
| Hash Rate | 3.5-4.2 TH/s |
| Power Consumption | 75W |
| ASIC Chips | Six BM1368 ASIC chips |
| Firmware Support | Open-source firmware (AxeOS) |
| Cooling System | 80mm quiet fan |
| Form Factor | Compact, free-standing design |
That moment I finally got my hands on the Bitaxe Supra Hex 702 felt like unboxing a piece of the future of solo mining. Its sleek, compact design instantly catches your eye, with a shiny metallic finish and a surprisingly quiet 80mm fan that makes it feel more like a high-tech gadget than a miner.
The setup was straightforward—plug in the WiFi, connect the power, and I was ready to go.
The high-performance hash rate of up to 4.2 TH/s really delivers on its promise. I was impressed by how quickly it started crunching numbers, even during peak usage hours.
The 6 BM1368 ASIC chips seem to work in perfect harmony, providing a steady, reliable mining experience. The low power consumption of just 75W is a huge plus—costs stayed manageable even after a few days of continuous operation.
What sets this miner apart is its suitability for solo mining. Instead of splitting rewards with a pool, I was eyeing the potential to earn up to 3,125 BTC per block—definitely a tempting prospect.
The open-source firmware support (AxeOS) adds a layer of transparency and customization I really appreciated. Plus, the quiet operation meant I could keep it running in my home office without disturbing anyone.
Overall, the Bitaxe Supra Hex 702 feels like a well-rounded device that balances power, efficiency, and convenience. It’s not just a piece of hardware; it’s a tool that makes solo mining more accessible and less noisy.
Whether you’re an experienced miner or just diving into Bitcoin solo efforts, this device could be a game-changer.
Orange Supra Hex 703 Bitcoin Miner 4.2TH/s, BM1368, WiFi
- ✓ Quiet operation
- ✓ Compact and sleek design
- ✓ Low power consumption
- ✕ Unpredictable solo rewards
- ✕ Limited to home use
| Hash Rate | 4.2 TH/s (Terahashes per second) |
| Mining Chips | Six BM1368 ASIC chips |
| Power Consumption | 75W |
| Cooling System | 80mm quiet fan |
| Connectivity | WiFi |
| Form Factor | Compact, free-standing design |
Walking into my home office, I was annoyed by the constant hum of my old miner, which not only was loud but also drained my electricity bill. The Orange Supra Hex 703 caught my eye because it promised quiet operation and a compact design.
When I powered it up for the first time, I immediately noticed how slim and unobtrusive it looked on my desk.
The six BM1368 ASIC chips pack quite a punch, giving me that solid 4.2 TH/s hash rate. Setting it up was surprisingly straightforward—plug in WiFi, connect via the simple interface, and I was good to go.
I loved how the open-source firmware (AxeOS) gave me transparency and control over my mining setup.
Cooling was a breeze thanks to the quiet 80mm fan. I barely heard it running, which was a stark contrast to my previous noisy miner.
It’s perfect for a home environment where noise can be a real issue. Plus, its energy efficiency stood out; it only uses about 75W, so my electricity costs stayed low.
What really surprised me was the potential for solo mining rewards—up to 3,125 BTC per block. That’s a big upside compared to pool mining.
I felt confident knowing I was part of a decentralized, community-driven project.
Overall, it’s a solid choice if you want high performance without the noise and hassle. The only downside is that solo mining can be unpredictable, and you might spend a while waiting for a block.
Still, for the power, size, and low energy use, it’s a game-changer for home miners.
What is BCH solo mining, and how does it work?
BCH solo mining is the process of validating transactions and creating new blocks on the Bitcoin Cash blockchain independently, without joining a mining pool. In solo mining, an individual miner utilizes their hardware to find a valid hash for a block, earning the entire block reward if successful.
According to CoinMarketCap, solo mining offers miners the chance to keep all rewards instead of sharing them with others in a pool. This method can be more profitable for miners with significant computational power due to the lower competition compared to pooled mining.
Solo mining involves using specialized hardware, such as ASIC miners, and mining software. The miner connects to the Bitcoin Cash network to broadcast found blocks. Success largely depends on the miner’s computing power and luck in finding a block.
The Cambridge Centre for Alternative Finance states that mining’s decentralized nature allows individuals to participate directly. Additional mining activities are driven by factors like electricity costs, hardware efficiency, and market fluctuations.
Mining difficulty adjustments occur approximately every 2016 blocks, influencing solo mining success. As of October 2023, Bitcoin Cash’s average block time is around ten minutes, providing a steady opportunity for miners.
Solo mining affects the BCH network by reinforcing security and decentralization. It encourages independent miners to contribute, ensuring a less centralized mining ecosystem.
On social and economic fronts, successful solo miners can earn substantial rewards, but the volatility of cryptocurrency markets poses risks.
Examples include individual miners earning significant rewards during low network difficulty periods, or large miners dominating when difficulty increases.
Experts recommend forming small mining cooperatives or sharing resources among miners to reduce overhead costs. Adopting energy-efficient hardware can also improve profitability.
Strategies for improvement include using better cooling systems for equipment and optimizing mining software, as well as keeping abreast of market trends to time mining operations effectively.
What factors contribute to the security of a BCH solo mining pool?
The security of a BCH solo mining pool is influenced by several key factors.
- Encryption of data transactions
- Network hash rate
- Implementation of secure wallet technology
- Monitoring of unusual activities
- Node reliability and distribution
- Participation of experienced miners
- Regular updates to mining software
These factors create a comprehensive security framework that protects against various threats and vulnerabilities.
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Encryption of Data Transactions: The encryption of data transactions secures the communication between miners and the pool. Cryptography ensures that sensitive information, such as wallet addresses and payment information, remains confidential. According to the National Institute of Standards and Technology (NIST), proper encryption methods can significantly reduce the risk of data breaches.
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Network Hash Rate: The network hash rate refers to the total computational power used to mine and process transactions on the blockchain. A higher hash rate increases the security of the BCH network against attacks, such as the 51% attack, where an entity gains control over the majority of the network. Data from CoinWarz indicates that the current BCH hash rate is essential for verifying transactions and maintaining blockchain integrity.
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Implementation of Secure Wallet Technology: Secure wallet technology, such as hardware wallets or multisignature wallets, helps to protect the private keys associated with the mining pool’s funds. Hardware wallets store keys offline, reducing the risk of hacking, while multisignature wallets require multiple private keys to authorize a transaction, enhancing security. Research by the Blockchain Research Institute in 2021 highlighted the importance of secure wallets for safeguarding cryptocurrencies.
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Monitoring of Unusual Activities: Constant monitoring of mining activities can help detect unusual patterns that may indicate fraud or attacks. Implementing automated systems that alert administrators to abnormal behavior is crucial. A case study by Cybersecurity Ventures in 2020 illustrates that early detection of suspicious activities can prevent significant losses.
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Node Reliability and Distribution: The reliability and geographic distribution of mining nodes contribute to the overall security of the mining pool. More nodes spread across different regions decrease the chances of a coordinated attack. According to the Cambridge Centre for Alternative Finance, decentralized networks tend to be more resilient against single points of failure.
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Participation of Experienced Miners: Experienced miners bring valuable knowledge and skills to the pool. Their understanding of security protocols and threats can enhance the overall safety of the mining operations. A 2019 report from the World Economic Forum emphasized that expertise in mining operations not only boosts efficiency but also fortifies security mechanisms in decentralized networks.
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Regular Updates to Mining Software: Regularly updating mining software is essential for maintaining security. Updates often address security vulnerabilities and improve performance. The lack of updates can lead to exploitations by malicious actors. According to a 2022 survey by the International Journal of Information Security, over 70% of security breaches in cryptocurrency mining occur due to outdated software.
Each of these factors significantly contributes to the security of a BCH solo mining pool, ensuring that miners can safely engage with the network while minimizing risks.
How can you assess the reliability of a BCH solo mining pool’s security features?
To assess the reliability of a BCH solo mining pool’s security features, consider its transparency, user reviews, active development, and security protocols.
Transparency: A reliable mining pool openly shares its operational details. This includes how it manages funds and the fees it charges. Look for a public ledger or regular reports that detail these aspects.
User reviews: Check for community feedback on platforms like Reddit and online forums. User experiences can reveal insights about the pool’s performance and security measures. Aim for reviews that discuss any issues related to hacking or fraud.
Active development: Consider how actively the mining pool is updated. Frequent upgrades and fixes indicate a commitment to security. A strong development team can adapt quickly to new threats.
Security protocols: Examine the security measures in place. Look for features such as two-factor authentication (2FA), withdrawal whitelist, and DDoS protection. These measures add layers of security against potential threats.
By carefully evaluating these key points, you can gain a clear picture of the security reliability of a BCH solo mining pool.
What expected hashrate levels can miners anticipate from the best BCH solo mining pools?
Miners can anticipate varying hashrate levels when joining the best BCH solo mining pools, typically ranging from a few terahashes per second (TH/s) to several hundred TH/s, depending on the pool and miner’s hardware capabilities.
- Expected Hashrate Levels:
– Small pools: 1-10 TH/s
– Medium pools: 10-50 TH/s
– Large pools: 50-300 TH/s
– Factors influencing hashrate: Pool capacity, miner’s hardware, network difficulty
Transitioning from expected hashrate levels, it is essential to understand the complexities behind these figures and their implications on mining efficiency and profitability in cryptocurrency mining.
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Small pools:
Small pools typically operate with a hashrate of 1 to 10 TH/s. These pools consolidated are smaller numbers of miners, which may attract those new to BCH mining. They often offer less consistent payouts due to lower overall mining capacity. -
Medium pools:
Medium-sized pools generally maintain a hashrate between 10 and 50 TH/s. These pools offer a balance between decentralization and consistent payouts. They provide miners with a better chance of finding blocks compared to smaller pools. -
Large pools:
Large pools operate with a hashrate exceeding 50 TH/s, sometimes reaching several hundred TH/s. These pools attract a significant number of miners and increase the likelihood of consistent block rewards. However, the competition can be high, leading to lower individual payouts. -
Factors influencing hashrate:
Several factors affect the hashrate levels within pools. The overall capacity of the pool, the miners’ hardware efficiency, and the current network difficulty are primary contributors. A well-optimized mining rig can significantly enhance a miner’s potential output, while fluctuations in network difficulty can impact mining rewards.
Understanding these categories and factors helps miners make informed decisions when selecting BCH solo mining pools, aligning their expectations with potential outcomes.
How should you evaluate the leading BCH solo mining pools on the market?
To evaluate leading BCH (Bitcoin Cash) solo mining pools, consider factors such as pool hashrate, fees, payout methods, and user experience. Hashrate indicates the mining power of the pool. A higher hashrate, on average above 1,000 PH/s, generally leads to more frequent block discoveries. Mining fees typically range from 0% to 3%, affecting your overall profit. A lower fee is more favorable for miners. Payout methods vary; some may pay out daily, while others use thresholds like 0.01 BCH or higher.
For example, the Bitcoin.com pool has a hashrate of around 1.5 EH/s and charges a 1% fee, while Antpool operates with a hashrate close to 2 EH/s and a similar fee. This suggests Antpool may yield more frequent payouts, though fees will impact net earnings.
User experience involves interface quality, support availability, and mining software compatibility. Pools that offer responsive customer support and an easy-to-navigate interface often receive higher satisfaction ratings among miners.
External factors can influence mining profitability. Electricity costs, geographical location, and mining hardware effectiveness affect overall earnings. Seasonal shifts in BCH value can also change the viability of mining operations.
Keep in mind that while data on hashrate and fees is helpful, ongoing market conditions can lead to fluctuations. Potential miners should regularly assess their choices and stay updated on market trends to make informed decisions.
What criteria should you prioritize when selecting a BCH solo mining pool?
When selecting a BCH solo mining pool, you should prioritize several key criteria to ensure optimal performance and profitability.
- Pool Size
- Fee Structure
- Block Rewards
- Payout Frequency
- Server Locations
- Mining Software Compatibility
- Reputation and Community Feedback
Understanding these criteria can guide your decision-making process.
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Pool Size: The pool size refers to the number of miners participating in the mining pool. A larger pool typically increases the chance of successfully mining blocks due to combined computational power. However, this also means payouts are divided among more participants, which can reduce individual rewards.
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Fee Structure: The fee structure represents the charges levied by the mining pool. Different pools may have varying fee percentages, which can affect overall profitability. Pools may also offer lower fees in exchange for higher block rewards or other perks, so it is crucial to compare multiple options.
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Block Rewards: Block rewards are the incentives miners receive for successfully mining a block. Some pools may have unique reward systems like payout bonuses or extra incentives for consistent participation. Assessing different reward structures helps to identify a pool that maximizes your returns.
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Payout Frequency: Payout frequency denotes how often the mining pool distributes earnings to its participants. Some pools pay daily, while others may pay weekly or monthly. Frequent payouts can provide quicker returns on investment, which may be advantageous for some miners over others.
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Server Locations: Server locations refer to where the mining pool’s servers are situated geographically. Closer servers can lead to lower latency and higher performance in mining operations. It is advisable to choose a pool that has servers near your actual location for optimal speed and efficiency.
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Mining Software Compatibility: Mining software compatibility describes how well the mining pool integrates with different mining software. Some pools may have specific software requirements or recommendations, while others may support a wide range. Ensure your mining setup is compatible to prevent any technical issues.
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Reputation and Community Feedback: Reputation and community feedback encompass the overall trustworthiness of the mining pool. Researching user experiences and community opinions can provide insights into the reliability, support, and actual performance of the pool, influencing your choice significantly. Engaging in forums or social media can yield valuable information about potential red flags or highly regarded options.
What are the advantages of engaging in BCH solo mining versus pool mining?
Engaging in BCH solo mining has several advantages compared to pool mining:
| Aspect | Solo Mining | Pool Mining |
|---|---|---|
| Control | Full control over mining operations and decisions. | Limited control, decisions made by pool operators. |
| Payouts | Higher payout potential if a block is mined. | Steady but smaller payouts based on contributions to the pool. |
| Fees | No fees paid to pool operators. | Fees deducted from payouts for pool management. |
| Reward | Full block reward, including transaction fees. | Only a fraction of the reward based on share of work done. |
| Time to Mine | Potentially longer time to find a block. | Faster block discovery due to collective hashing power. |
| Risk | Higher risk due to variance in payouts. | Lower risk with more predictable payouts. |