Most Profitable Coins To Mine With ASIC Ipollo V1 Mini

iPollo V1 mini is a compact cryptocurrency ASIC developed by iPollo, an innovative manufacturer of mining equipment. Designed specifically for mining the Ethash algorithm used by Ethereum coin, the V1 mini offers a solid combination of processing power and energy efficiency. V1 mini has a relatively low hashrate of 280 Mh/s, but it consumes 270W only.

ASIC Ipollo V1 Mini Mining Hashrate

300 Mh/s
300 Mh/s

ASIC Ipollo V1 Mini Mining Profit

CryptocurrencyCryptocurrencyPriceCurrent DifficultyMining Profit 24h
Ethereum ClassicETC
22.07 $
Current Difficulty
2.29 P
Mining Profit 24h
0.51 $
0.023 ETC
22.07 $-6.89%2.29 P-0.13%0.51 $0.023 ETC

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ASIC Ipollo V1 Mini Payback Period

The ASIC Ipollo V1 Mini payback period depends on its efficiency (hashrate), selling price, and energy consumption. The estimate features Asic recommended retail price - $859, but you can change it to the price you actually paid for your ASIC. The energy expenses are not taken into account in the calculation. The ASIC hashrate corresponds to the factory set overclocking parameters.

Price for ASIC Ipollo V1 Mini
0.51 $per day

ASIC Ipollo V1 Mini Overclocking for Mining

It is possible to overclock ASIC miners to increase their hash rate and improve mining profitability. However, overclocking can also lead to increased power consumption, higher temperatures, and reduced lifespan of the miner. It is important to note that overclocking ASIC miners can also void the warranty and may lead to irreversible damage to the hardware. Therefore, it is recommended to proceed with caution and only overclock within safe limits.

When overclocking ASIC miners, it is important to use trusted firmware and follow manufacturer guidelines. Some mining hardware manufacturers offer official overclocking tools and instructions, which can help ensure safe and effective overclocking. Before attempting to overclock, it is also important to ensure proper cooling and ventilation for the miner. Increased power consumption and higher temperatures can lead to overheating and potential hardware failure.