Date: June 30, 2026
Location: Rochester, New York / Shenzhen, China
In an era where electronic systems are becoming increasingly dense, high-speed, and complex, the demand for sophisticated diagnostic tools has never been greater. On June 30, 2026, Saelig Company, Inc., a premier North American distributor of specialized electronic test and measurement equipment, announced the availability of the MHO 6 series—a groundbreaking line of 12-bit high-resolution tablet oscilloscopes manufactured by Shenzhen-based Micsig Technology.
This release marks a significant milestone in the evolution of benchtop testing. By combining the portability of a tablet with the raw analytical power of a high-end laboratory oscilloscope, the MHO 6 series aims to redefine how engineers interact with high-speed signals, power electronics, and industrial control systems.
Main Facts: A Paradigm Shift in Signal Analysis
The MHO 6 series arrives as a sixth-generation solution, addressing the persistent conflict between high-performance signal capture and the spatial constraints of modern engineering laboratories.
Key Technical Specifications
The MHO 6 series offers a versatile range of bandwidth options, including 350MHz, 500MHz, and 1GHz models. At the heart of its performance architecture is a 12-bit analog-to-digital converter (ADC), which provides significantly higher vertical resolution than traditional 8-bit oscilloscopes. This allows for the detection of subtle signal nuances that were previously obscured by quantization noise.
- Sampling Rate: 6GSa/s, ensuring high temporal resolution for fast-transient capture.
- Channel Density: 8 independent analog channels, allowing for massive multi-point synchronization.
- Storage Depth: A massive 1.8Gpts (Giga-points) memory depth, enabling long-duration signal capture without sacrificing sample rate.
- Interface: A massive 16-inch touch-sensitive display with a 1920 x 1200 resolution, mounted in a chassis that is only 1.4 inches thick.
Beyond its oscilloscope functions, the unit features an integrated 4½-digit digital multimeter, effectively consolidating two essential test tools into a single, space-saving footprint.
Chronology of Innovation: From Handheld to High-Resolution
The trajectory of Micsig Technology since its founding in 2004 has been one of consistent disruption. Originally known for pioneering battery-powered portable and handheld oscilloscopes, the company spent two decades refining the "tablet-style" user interface.
- 2004–2010: Micsig establishes its core expertise in portable signal measurement, moving away from bulky, CRT-based desktop architectures.
- 2011–2020: The introduction of the SigtestUI™ ecosystem. Micsig shifts its focus toward a dedicated, multitasking operating system designed specifically for test instrumentation, prioritizing smooth touch responsiveness over traditional knob-and-button interfaces.
- 2021–2025: The shift toward high-resolution (12-bit) architectures. As industry requirements for power integrity and signal noise floor analysis tighten, Micsig begins developing the MHO 6 to meet these stringent requirements.
- June 2026: Official market launch of the MHO 6 series via strategic partnership with Saelig Company, Inc., marking the arrival of a high-channel-count, ultra-thin desktop solution.
Supporting Data: Engineering Versatility and Integration
The MHO 6 is not merely a display device; it is a comprehensive testing hub designed for the modern laboratory environment.
Advanced Probe Integration
One of the most notable features of the series is the proprietary Mic-OPI™ probe interface. This system automates the identification of passive probe attenuation, removing the human error often associated with manual scaling in complex setups. With a one-click auto-calibration feature, the MHO 6 ensures that the measurement chain is consistently optimized.
Connectivity and Expansion
The unit is built for integration. Its connectivity suite includes:
- Data Transfer: USB 3.0/2.0 and Type-C ports.
- Network/External Sync: LAN ports, trigger I/O, and 10MHz clock I/O for synchronizing multiple instruments.
- Display: HDMI output for external monitor support, essential for team-based review and educational settings.
- Probing Versatility: The universal BNC input connectors support 1MΩ/50Ω impedance switching. This compatibility allows the MHO 6 to interface with a vast ecosystem of accessories, including optical isolation probes, high-voltage differential probes, Rogowski coils, and AC/DC current probes.
Automated Measurement Suite
The instrument supports a comprehensive library of automated measurements, ensuring that engineers can derive actionable data instantly. These include:
- Timing: Period, Frequency, Rise/Fall Time, Delay, Duty Cycles.
- Amplitude: Peak-to-Peak, RMS, Max/Min, Amplitude, High/Low.
- Pulse Dynamics: Burst pulse width, positive/negative overshoot, and pulse width measurements.
Official Responses and Strategic Vision
Saelig Company, Inc., founded in 1988, has long served as a curator of unique and high-performance test equipment for the North American market. In their statement regarding the launch, leadership at Saelig emphasized the "remarkable" nature of the MHO 6’s space-saving design.
"The modern workbench is a premium real estate asset," noted a spokesperson for Saelig. "By delivering eight channels of 12-bit performance in a 1.4-inch-thick profile, Micsig is effectively eliminating the trade-off between power and space. This is precisely the kind of innovation our clients in the automotive and industrial sectors have been requesting."
Micsig Technology, based in Shenzhen, has reiterated its commitment to the "SigtestUI™" platform. By moving away from legacy Windows or Linux-based oscilloscope shells, they have created a dedicated environment that minimizes latency and ensures that the interface remains as fast as the signal acquisition engine.
Implications: The Future of Electronics Testing
The release of the MHO 6 series carries several significant implications for the test and measurement industry:
1. The Death of the "Bulky" Benchtop
For decades, oscilloscopes were defined by their weight and depth. The MHO 6 proves that high-performance hardware can be packaged in a thin, tablet-like form factor without sacrificing the robustness of 8-channel input or high-bandwidth processing. This sets a new expectation for industrial design in the sector.
2. High Resolution as the New Standard
As digital signals continue to operate at lower voltages and higher speeds, 8-bit resolution is increasingly inadequate for detecting noise or subtle power supply fluctuations. The industry-wide shift toward 12-bit architecture—now standardized by the MHO 6—will likely force competitors to upgrade their entry-level and mid-range offerings to maintain relevance.
3. Application Versatility
The MHO 6 is specifically tuned for four critical sectors:
- Power Electronics: Where 12-bit resolution is required to analyze efficiency and switching transients.
- Automotive Electronics: Where multi-channel, synchronized testing is required for CAN/LIN bus analysis and sensor verification.
- Industrial Control: Where the ability to interface with Rogowski coils and high-voltage differential probes allows for in-situ troubleshooting of motor drives and heavy machinery.
- Research and Education: Where the large 16-inch display facilitates collaborative troubleshooting and demonstration.
4. The Ecosystem Approach
By focusing on a proprietary, intelligent probe interface (Mic-OPI™), Micsig is moving toward a "plug-and-play" model for testing. This reduces the time spent on manual configuration and calibration, allowing engineers to focus on the interpretation of results rather than the mechanics of the setup.
Conclusion: A New Standard for Professionals
The MHO 6 series is a testament to the maturation of tablet-based instrumentation. It bridges the gap between the high-speed requirements of modern electronic circuit design and the practical needs of the engineers tasked with validating them. With the combined technical expertise of Micsig and the distribution reach of Saelig, the MHO 6 is positioned to become a fixture in labs ranging from university classrooms to high-stakes automotive R&D facilities.
For engineers seeking a balance between high-fidelity signal analysis, multi-channel capacity, and a modern, workflow-oriented interface, the MHO 6 series offers a compelling, future-proof solution. As of late June 2026, the unit is available through Saelig’s catalog, signaling a new chapter in the democratization of high-resolution, multi-channel measurement.
