MicroBT Whatsminer D1 vs Whatsminer M30S++
Side-by-side specs, profitability, and home mining comparison.
Quick verdict
For most buyers the Whatsminer M30S++ is the stronger pick — it leads on 3 of 5 head-to-head factors. The MicroBT Whatsminer D1 runs 48.0 TH/s; the Whatsminer M30S++ runs 112.0 TH/s.
Specs verified against the D-Central Mining Bible \xc2\xb7 June 2026
Specifications Comparison
| MicroBT Whatsminer D1 | Specification | Whatsminer M30S++ |
|---|---|---|
| 48.0 TH/s | Taux de hachage | 112.0 TH/s |
| 2,200 W | Consommation électrique | 3,472 W |
| 45.8 J/TH | Efficiency | 31.0 J/TH |
| — | Niveau de bruit | 75 dB |
| 8.5 kg | Weight | 12.0 kg |
| 7,506 BTU/hr | BTU Output | 11,847 BTU/hr |
| 11/100 | Home Mining Score | 8/100 |
| — | Release Year | — |
| Blake256r14 | Algorithme | SHA-256 |
| MicroBT | Manufacturer | MicroBT |
Profitability Comparison
MicroBT Whatsminer D1
Whatsminer M30S++
Based on BTC price of $65,342 and current network difficulty as of Jun 17, 2026. Actual results vary.
Verdict
Our scoring model gives the nod to the Whatsminer M30S++, which leads on 3 of 5 weighted factors (efficacité, hashrate, niveau sonore). Its biggest concrete edge: 133% more hashrate (48.0 vs 112.0 TH/s). The MicroBT Whatsminer D1 holds the edge in consommation électrique and score de minage domestique. Review the detailed specs and profitability calculations above to determine which miner best fits your specific setup.
Spec Deltas
The MicroBT Whatsminer D1 and Whatsminer M30S++ diverge on the metrics below — each gap expressed as a real percentage, not a vague "better":
- Whatsminer M30S++ 133% more hashrate (48.0 vs 112.0 TH/s)
- MicroBT Whatsminer D1 37% better power draw (2,200 vs 3,472 W)
- Whatsminer M30S++ 32% better efficacité (45.8 vs 31.0 J/TH)
- MicroBT Whatsminer D1 29% better weight (8.5 vs 12.0 kg)
- Whatsminer M30S++ 58% more heat output (7,506 vs 11,847 BTU/hr)
- MicroBT Whatsminer D1 38% more score de minage domestique (11.0 vs 8.0)
Cost & ROI Over Time
Sticker price versus what the miner actually earns back: the table below projects cumulative net profit at a $0.10/kWh electricity rate.
| MicroBT Whatsminer D1 | Metric | Whatsminer M30S++ |
|---|---|---|
| — | Upfront cost (MSRP) | $2,300 |
| -$3.70 | Daily net profit | -$4.65 |
| -$1,351 | Net after 1 year | -$3,997 |
| -$2,702 | Net after 2 years | -$5,695 |
| -$4,053 | Net after 3 years | -$7,392 |
| — | Payback period | Does not pay back at current rates (negative daily profit) |
Projections assume continuous operation, a flat $0.10/kWh rate, and no hardware degradation, pool fees, or BTC price change. Real-world ROI varies.
Best For...
Best for Profitability
TieBoth miners produce similar daily profit.
Best for Home Mining
MicroBT Whatsminer D1Score: 11/100. 0 dB noise level.
Best for Efficiency
Whatsminer M30S++31.0 J/TH — lower electricity cost per terahash.
Foire aux questions
Is the MicroBT Whatsminer D1 or Whatsminer M30S++ more profitable?
At the current BTC price and a $0.10/kWh electricity rate, the MicroBT Whatsminer D1 is more profitable at $-3.70/day compared to $-4.65/day for the Whatsminer M30S++. Profitability depends heavily on your electricity rate — use the selector above to calculate with your actual costs.
MicroBT Whatsminer D1 vs Whatsminer M30S++: which runs at a lower noise level?
The Whatsminer M30S++ is quieter at 75 dB compared to the MicroBT Whatsminer D1 at 0 dB. For home mining, lower noise levels make a significant difference in livability.
Which is better for home mining, the MicroBT Whatsminer D1 or Whatsminer M30S++?
The MicroBT Whatsminer D1 scores 11/100 on our Home Mining Score (vs 8/100 for the Whatsminer M30S++). This composite score factors in noise, power requirements, heat output, size, and setup ease — all critical for residential mining.
What is the efficiency difference between MicroBT Whatsminer D1 and Whatsminer M30S++?
The MicroBT Whatsminer D1 runs at 45.8 J/TH while the Whatsminer M30S++ runs at 31.0 J/TH — a difference of 14.8 J/TH. Lower efficiency means less electricity per terahash of mining power, directly reducing operating costs. In relative terms that is 32% better efficacité (45.8 vs 31.0 J/TH).