Hantek DSO5072P vs Rigol DHO914S
Head-to-head spec comparison to help you pick the right scope for your bench.
Hantek
$180
Rigol
$549
Spec-by-Spec Comparison
| Spec | Hantek DSO5072P | Rigol DHO914S |
|---|---|---|
| Bandwidth | 70 MHz | 125 MHz |
| Sample Rate | 1 GSa/s | 1.25 GSa/s |
| Channels | 2 | 4 |
| Memory Depth | 40 Kpts | 50 Mpts |
| Display Size | 7" | 7" |
| Weight | 2 kg | 1.78 kg |
| Price | $180 | $549 |
| Rating | 6.0/10 | 8.0/10 |
| Protocol Decoder | No | Yes |
| Function Gen | No | Yes |
| WiFi | No | Yes |
| Battery | No | No |
| Buy on Amazon · $180 | Buy on Amazon · $549 |
Pros & Cons
Hantek DSO5072P
Pros
- Traditional benchtop form factor — looks and feels like a real scope
- 70MHz bandwidth handles most hobbyist signals without complaint
- Reasonable price point for a desk instrument under $200
- Simple, button-based interface is easy to learn
Cons
- Only 2 channels limits simultaneous signal debugging
- 40Kpt memory depth is embarrassingly shallow by modern standards
- No protocol decoding — SPI and I2C debugging is impossible
- Fan can be noisy enough to notice in a quiet room
- No software update path to improve functionality
Rigol DHO914S
Pros
- Built-in 25MHz arbitrary waveform generator — saves buying a separate signal source
- 16 digital channels available via optional logic probe — true mixed-signal capability
- 12-bit ADC with 125MHz bandwidth is a solid all-around combination
- 50Mpt memory depth matches the DHO924S
- Same compact DHO form factor with USB-C power support
- Bode plot analysis built in — useful for filter and feedback loop characterization
Cons
- At ~$549, you're paying $100 more than the DHO924S which has 250MHz bandwidth
- 125MHz bandwidth is lower than the DHO924S's 250MHz
- Logic analyzer probe is an additional purchase — not included
- Fan noise is present, consistent with the DHO series
- The DHO924S also includes a function generator, making the price gap harder to justify
Our Verdicts
Hantek DSO5072P
The Hantek DSO5072P is a budget benchtop scope that does the basics well and little else. At ~$180, you get a proper desk instrument with 70MHz bandwidth and a 7-inch display — the kind of setup that looks like a real oscilloscope rather than a tablet toy. It handles Arduino debugging and basic analog work just fine. The problem is the 40Kpt memory depth, which is almost unusably shallow compared to modern budget alternatives. If you need to capture long waveforms or decode SPI/I2C, look at the Rigol DS1054Z instead. The DS1054Z costs about $170 more but gives you 300x the memory, 4 channels, and protocol decoding — it's a completely different class of instrument.
Rigol DHO914S
The Rigol DHO914S is Rigol's Swiss Army knife oscilloscope — 4 analog channels, a 25MHz function generator, optional 16-channel logic analyzer, and Bode plot analysis in the compact DHO form factor. The mixed-signal capability is the real differentiator: if you're debugging embedded systems where you need to correlate analog and digital signals simultaneously, the logic analyzer option makes this genuinely useful in ways a pure analog scope isn't. The built-in AWG saves you $100-200 on a standalone function generator. The catch is the DHO924S at $449 — it also has a function generator and offers 250MHz bandwidth for $100 less. The DHO914S only pulls ahead if you need the logic analyzer capability or the Bode plot feature for control loop design. For pure oscilloscope work, the DHO924S remains the better value.