Driven by Innovation, Committed to Precision
At Hanmatek®, we believe that every great project starts with the right tools. That’s why we are dedicated to designing tools that combine precision, reliability, and innovation—helping you tackle every task with confidence and excellence.
Every Hanmatek product is crafted with care, integrating cutting-edge technology with traditional craftsmanship. Whether you're measuring, testing, building, repairing, or exploring DIY projects, our tools are built to deliver unmatched accuracy and durability across every application.
Why Engineers Trust Hanmatek Oscilloscopes for Everyday and Mission-Critical Work
A great oscilloscope turns invisible electrical behavior into clear, actionable insight. That is the promise behind every Hanmatek instrument: translate complex signals into intuitive visuals, so engineers, technicians, and makers can move from guesswork to confidence. With a focus on clarity, speed, and repeatability, a modern Hanmatek Oscilloscope streamlines workflows from initial probe contact to final report.
At the heart of the platform is a balanced performance profile. Bandwidth options in the 50–100 MHz class, robust real-time sampling, and deep acquisition memory empower accurate capture of transients, edges, and low-duty anomalies. The result is fewer missed events and more trustworthy measurements when debugging digital buses, analyzing power stages, or validating sensor outputs. Equally important is the trigger system. Edge, pulse-width, video, and protocol-aware triggers lock onto the right event quickly, minimizing setup time while maximizing signal fidelity across repeated measurements.
Display and usability receive equal attention. High-contrast screens, responsive UI, and thoughtfully arranged controls shorten the learning curve and accelerate discovery. From autoset routines that establish a clean baseline to advanced math—FFT for frequency-domain analysis, low-pass filters, and waveform averaging—users can move from “What happened?” to “Why did it happen?” in minutes. For documentation and collaboration, screen capture and waveform export simplify handing off results to teammates or building compliance evidence.
Connectivity is another pillar. USB and PC software support enable remote control, data logging, and firmware updates. This integration extends the scope’s utility from bench-top observation to long-duration captures and automated test sequences. Safety and stability matter, too. Overvoltage protection, well-insulated probes, and robust enclosures support reliable operation in labs, classrooms, and field sites. Engineers increasingly choose the Hanmatek Oscilloscope lineup to achieve repeatable accuracy without the overhead of complex, enterprise-only systems—striking the right balance between capability and accessibility.
Model Spotlight: hanmatek dos1102, hanmatek ho102s, and hanmatek ho52s
Each application calls for a different blend of bandwidth, portability, and power features. Three standouts—hanmatek dos1102, hanmatek ho102s, and hanmatek ho52s—illustrate how targeted design choices elevate everyday measurement tasks.
The hanmatek dos1102 serves as a go-to benchtop DSO for embedded developers and educators who need 100 MHz-class performance and responsive capture. With two channels, high real-time sampling (commonly up to 1 GSa/s), and generous memory depth, it excels at viewing fast edges and decoding digital buses without sacrificing temporal detail. Its FFT mode exposes noise and harmonics in the frequency domain, while math functions enable power calculations and baseline subtraction. A robust triggering suite—edge, pulse, and protocol-aware options—helps lock onto intermittent glitches that can stall a project. For teams, USB connectivity, screenshot export, and remote control streamline collaboration and documentation.
Mobile technicians and on-site troubleshooters gravitate to the hanmatek ho102s. This portable 100 MHz-class scope blends bench-grade insight with field-ready resilience. Battery operation, lightweight construction, and a bright display let you capture clean traces in cramped panels or low-light areas. Despite its compact form, it supports deep memory captures, responsive triggers, and practical math utilities. Electricians, industrial maintenance staff, and automation specialists appreciate the combination of portability and precision: you can validate sensor outputs, check inverter switching, or inspect motor driver waveforms without returning to the lab.
For budget-conscious users, the hanmatek ho52s provides 50 MHz-class versatility tuned for general electronics, automotive diagnostics, and education. It delivers the essentials—clear signal capture, stable triggering, and straightforward controls—making it an ideal choice for learning environments or hobbyist benches where ease-of-use matters as much as performance. Its toolset is deliberately curated: enough bandwidth to analyze common microcontroller and analog circuits, enough features to grow skills without the intimidation of a top-tier interface.
Choosing among these models comes down to context. If your priority is bench-driven development, frequent protocol decode, and deeper analysis, the hanmatek dos1102 makes a compelling centerpiece. If you need on-site agility with dependable accuracy, the hanmatek ho102s delivers in the field. If your goal is an approachable, reliable scope for foundational work, the hanmatek ho52s strikes an excellent value-to-capability balance. Across all three, Hanmatek emphasizes precision, reliability, and practical ergonomics that translate into speed and confidence on the job.
Real-World Examples: Debugging Embedded Systems, Power Electronics, and Automotive Signals
Consider an embedded developer chasing an intermittent I2C lockup. With the hanmatek dos1102, the process begins by setting a protocol-aware trigger on a specific address or NACK event. Deep memory preserves long bursts so the transaction history remains intact, while zoom and navigation quickly isolate the moment of failure. FFT analysis can reveal unexpected clock coupling or crosstalk from a nearby DC-DC converter, and math functions quantify rise times to confirm compliance with bus specifications. The outcome is faster root-cause analysis and measurable improvements in firmware timing or board layout.
In power electronics, the hanmatek ho102s shines during field commissioning. Imagine validating a new 48 V BLDC motor driver on a production line. You can safely probe gate signals via appropriate high-voltage-rated probes, verify dead-time between complementary switches, and confirm that current-sense waveforms align with expected control loops. When hunting switching noise, the scope’s FFT highlights harmonic content that correlates with mechanical vibration or EMI concerns. The portable form factor ensures you can follow the signal path from the control cabinet to the motor terminal box without lugging a bench unit across the floor.
Automotive enthusiasts and service professionals benefit from the hanmatek ho52s when analyzing crankshaft position sensors, injector pulses, and CAN lines. While a dedicated protocol analyzer is useful, a capable DSO captures the electrical reality: voltage levels, waveform integrity, and intermittent dropouts that cause sporadic faults. With stable edge triggering and sufficient bandwidth for 50 MHz-class signals, the ho52s makes it straightforward to confirm sensor health, detect wiring issues, or identify failing drivers. For educational labs, this same model provides a gentle learning curve—students can experiment with PWM, RC filtering, and op-amp behavior without being overwhelmed by advanced menus.
Best practices amplify results across all models. Start with proper probing: use the shortest ground lead possible to minimize inductive loops, match probe attenuation to input ranges, and verify compensation on 1 kHz calibration squares before critical work. Set timebase and vertical scales to frame the event, then refine with trigger holdoff or advanced modes to isolate rare occurrences. Use averaging to suppress random noise when measuring precise levels, or employ peak detect to retain narrow spikes in switch-mode supplies. For frequency-domain insight, apply FFT with windowing suited to the signal type—Hanning for general-purpose, Flat Top when amplitude accuracy is paramount.
Documentation habits close the loop. Capture before-and-after waveforms when implementing firmware fixes or swapping components. Annotate screenshots with cursor measurements to standardize acceptance criteria. Export waveforms for comparative analysis over time, especially in preventative maintenance programs where drift and wear matter. Whether deploying the hanmatek dos1102 on a bench, carrying the hanmatek ho102s to a remote panel, or teaching fundamentals with the hanmatek ho52s, the common thread is measurable precision and dependable repeatability that help transform data into decisions—fast.
Granada flamenco dancer turned AI policy fellow in Singapore. Rosa tackles federated-learning frameworks, Peranakan cuisine guides, and flamenco biomechanics. She keeps castanets beside her mechanical keyboard for impromptu rhythm breaks.