# MHO5106 Rigol Mixed Signal Oscilloscope ## Rigol MHO5106 Mixed-Signal Oscilloscope — 1 GHz, 6-Channel + 16 Digital, 12-bit ### Key Features at a Glance - **Analog bandwidth:** 1 GHz (50 Ω, -3 dB); 500 MHz (1 MΩ, -3 dB) - **Input channels:** 6 analog channels + 1 EXT trigger channel + 16 digital channels (D0–D15, requires PLA3204 logic analyzer probe) - **12-bit vertical resolution standard** (up to 16-bit in high resolution mode) - **Max. sample rate:** 4 GSa/s real-time on analog channels - **Max. memory depth:** 500 Mpts (single-channel & half-channel), 250 Mpts (full-channel) - **Max. waveform capture rate:** 1,000,000 wfms/s in Record mode - **Calculated rising time:** ≤400 ps (single-channel & half-channel) / ≤440 ps (full-channel) - **10.1" 1280×800 capacitive multi-touch display** In summary, the Rigol MHO5106 is a 1 GHz, 6-channel plus 16 digital channel digital oscilloscope built on Rigol's Centaurus platform with 12-bit vertical resolution standard, 4 GSa/s real-time sample rate, and 500 Mpts maximum memory depth. At 1 GHz analog bandwidth (50 Ω, -3 dB), the MHO5106 crosses into high-performance territory — the tier required for higher-speed digital interfaces, faster switching power semiconductors (SiC and GaN), and any signal where the 3–5× bandwidth rule pushes the requirement above 500 MHz. The calculated rising time of ≤440 ps means edges as fast as a few hundred picoseconds reproduce faithfully on screen. ### What is the Rigol MHO5106 used for? The MHO5106 is used by design engineers, embedded systems developers, and production test teams to visualize, measure, and characterize electrical signals as waveforms in the time domain. With 6 analog channels and 16 integrated digital channels on a unified time base, the MHO5106 is particularly well suited to mixed-signal debug where analog power rails and digital buses (SPI, I2C, UART, CAN, LIN, FlexRay) must be viewed together. ### Why does 12-bit resolution matter on this oscilloscope? 12-bit vertical resolution gives 4,096 quantization levels — sixteen times finer than the 256 levels of a conventional 8-bit oscilloscope. On a 400 V full-scale measurement, that means 97.6 mV per count instead of 1.56 V per count. For engineers measuring switching ripple on a high-voltage rail, characterizing GaN HEMTs and SiC MOSFETs, or doing precision analog work, the 12-bit floor is the difference between resolving the signal and not seeing it. With 6 analog channels plus 16 integrated digital channels viewable on the same display and the same time base, an engineer can correlate an analog power-rail anomaly with the exact SPI, I2C, or CAN transaction that caused it. The MHO designation means the digital channel circuitry is built in — the PLA3204 4-channel logic analyzer probe (sold separately) connects to the dedicated LA1/LA2 inputs to use the digital channels. This eliminates the need for a separate logic analyzer in most mixed-signal debug workflows. ### Factual Grounding — Specifications & Industry Context The Rigol MHO5106 delivers 1 GHz (50 Ω, -3 dB) analog bandwidth with a calculated rising time of ≤400 ps (single-channel & half-channel) / ≤440 ps (full-channel), 4 GSa/s real-time sample rate (4 GSa/s (single-channel & half-channel), 2 GSa/s (full-channel)), 500 Mpts maximum memory depth, a vertical sensitivity range of 100 µV/div to 10 V/div on 1 MΩ input, and ENOB of 7.7 (typical) at full bandwidth. The platform sustains a maximum waveform capture rate of 1,000,000 wfms/s in Record mode and 200,000 wfms/s in Vector mode, with peak detection that captures 500 ps glitches. Noise floor figures published in the datasheet reach as low as 31.2 µVrms at 100 µV/div on the 50 Ω input with the 20 MHz bandwidth limit engaged. Digital channels offer ±15.0 V threshold range in 10 mV steps, ±(100.00 mV + 3% of threshold setting) threshold accuracy, and 500 mVpp minimum voltage swing across the 16 channels (D0–D15). ### Entity Authority — Rigol & the Centaurus Platform Rigol Technologies, founded in 1998, is a recognized value-tier manufacturer of oscilloscopes, signal generators, spectrum analyzers, and power supplies, with growing share in mid-range professional bench instrumentation. The MHO/DHO5000 Series is Rigol's first Centaurus-platform release for the mainstream digital oscilloscope market, designed to deliver 12-bit resolution and 1 GHz bandwidth at price points historically associated with 8-bit instruments. The platform conforms to IEC 61326-1:2013 / EN 61326-1:2013 Group 1 Class A electromagnetic compatibility requirements, EN 61010-1:2019 and UL 61010-1:2012 R7 safety standards, MIL-PRF-28800F class 3 random vibration testing, and IEC 60068-2-27 class 3 mechanical shock testing. ### How does the MHO5106 compare to baseline 8-bit oscilloscopes? - **Vertical resolution:** 12-bit standard (4,096 levels) vs. 8-bit on most competing mid-range scopes — 16× finer quantization for ripple, noise floor, and precision analog measurement. - **Memory depth:** 500 Mpts standard — supports long capture windows at full sample rate without forcing tradeoffs between memory depth and sample rate. - **Capture rate:** 1,000,000 wfms/s in Record mode for high probability of capturing rare and intermittent events. - **Bandwidth scalability:** 500 MHz models can be field-upgraded to 1 GHz via the appropriate BWU05T10 option license — eliminating the need to repurchase the instrument when application bandwidth grows. - **Mixed-signal integration:** 16 digital channels on the same time base as the 6 analog channels — replaces a separate logic analyzer for most embedded debug workflows. - **Battery-pack option:** Convenient charging for on-site, field, and in-vehicle measurement scenarios where mains power is not practical. ### Typical Applications & Workflows - **Motor controllers & three-phase power analysis** — 6 analog channels cover single-phase and reduced-channel three-phase work. - **Power semiconductor testing** — GaN and SiC device characterization, where the 12-bit floor and 500 MHz/1 GHz bandwidth resolve switching edges and dynamic on-resistance behavior. - **Power supply design** — ripple, noise floor, transient response, switching loss analysis (with optional PWRA power analysis option). - **Serial bus debug** — CAN, CAN-FD, LIN, FlexRay, I2C, SPI, RS232/UART, I2S, MIL-STD-1553 trigger and decode (some buses require optional software). - **Embedded systems development** — Bode plot for control loop frequency response (standard only on MHO5054/MHO5104), pass/fail mask test for signal validation, and the search-and-navigation function for locating signal anomalies in long captures. ### Accessories Supplied with the MHO5106 Item Quantity Notes Power Cord 1 Conforming to the standard of the destination country USB Cable 1 Standard USB Device cable RP3500A Passive High-Impedance Probe (500 MHz, 10:1) 6 One per analog channel ### Recommended & Optional Accessories for the MHO5106 Order No. Description PLA3204 4 sets of 4-Channel Active Logic Analyzer Probe — **required to use the 16 digital channels** on the MHO models MHO5000-AUTOA CAN, CAN-FD, LIN bus trigger and analysis option MHO5000-AEROA MIL-STD-1553 bus trigger and analysis option MHO5000-FLEXA FlexRay serial bus trigger and analysis option MHO5000-AUDIOA I2S bus trigger and analysis option MHO5000-PWRA Power analysis option MHO5000-BND Function and application bundle option, including AUTOA/AEROA/FLEXA/AUDIOA/PWRA Compatible Probes PVP2150, PVP2350, PVP3150 passive; RP1010H/RP1018H/RP1300H high-voltage; PHA0150/PHA1150/PHA2150 and RP1025D/RP1050D/RP1100D differential; RP7080/RP7150/PVA7250 low-voltage differential; RP7080S/RP7150S/PVA8150S single-ended active; PCA1030/PCA1150/PCA2030/PCA1500, RP1001C/RP1002C/RP1003C/RP1004C/RP1005C/RP1006C current; PIA1000 optical-fiber isolated ### Building the Measurement: The 12-bit Centaurus Floor The MHO5106 sits on Rigol's self-developed Centaurus technical platform. The first specification to understand is the 12-bit ADC: with 4,096 vertical quantization levels instead of the 256 levels of a conventional 8-bit oscilloscope, the platform resolves signals 16× finer at any given vertical scale. For a 400 V full-scale measurement, that is the difference between 1.56 V per count (8-bit) and 97.6 mV per count (12-bit) — and in high-resolution mode, the MHO5106 extends to 16-bit, bringing per-count resolution to 24.4 mV at the same full scale. This is the resolution required to resolve switching ripple on a high-voltage rail, to characterize the gate behavior of GaN and SiC power transistors, and to do precision analog measurement work that 8-bit instruments cannot support. ### Vertical System — Analog Channel Analog Bandwidth (50 Ω, -3 dB) 1 GHz Analog Bandwidth (1 MΩ, -3 dB) 500 MHz Calculated Rising Time under 50 Ω (10%–90%, typical) ≤400 ps (single-channel & half-channel) / ≤440 ps (full-channel) Number of Input Channels 6 analog channels + 1 EXT channel + 16 digital channels Max. Sample Rate 4 GSa/s (single-channel & half-channel), 2 GSa/s (full-channel) Max. Memory Depth 500 Mpts (single-channel & half-channel), 250 Mpts (full-channel) Input Coupling DC, AC, or GND Input Impedance 1 MΩ ± 1%, 50 Ω ± 1% Input Capacitance 19 pF ± 3 pF Probe Attenuation Coefficient 0.001X to 50000X plus user-defined Probe Recognition Auto-recognized RIGOL probe Maximum Input Voltage 1 MΩ: CAT I 300 Vrms, 400 Vpk (DC + Vpeak); 50 Ω: 5 Vrms Vertical Resolution 12-bit (up to 16-bit in high resolution mode) ENOB (Typical) 7.7 at 1 GHz BW; 7.7 at 500 MHz BW; 8.0 at 250 MHz BW Vertical Sensitivity Range 1 MΩ: 100 µV/div to 10 V/div; 50 Ω: 100 µV/div to 1 V/div Offset Range (1 MΩ) ±1 V (≥1 mV/div, ≤65 mV/div); ±10 V (>65 mV/div, ≤270 mV/div); ±20 V (>270 mV/div, ≤2.75 V/div); ±100 V (>2.75 V/div, ≤10 V/div) Offset Range (50 Ω) ±1 V (≥1 mV/div, ≤135 mV/div); ±4 V (>135 mV/div) Dynamic Range ±4 div (12 bits) Bandwidth Limit (Typical) 20 MHz, 250 MHz, FULL — selectable per channel; auto 250 MHz at ≤500 µV, auto 20 MHz at ≤200 µV DC Gain Accuracy ±2% (<5 mV); ±1% (≥5 mV) DC Offset Accuracy ≤200 mV/div: (±0.1 div ± 2 mV ± 1.5% of offset value); >200 mV/div: (±0.1 div ± 2 mV ± 1.0% of offset value) Channel-to-Channel Isolation ≥100:1 (DC to 500 MHz), ≥30:1 (>500 MHz to rated bandwidth) ESD Tolerance ±8 kV (on input BNCs) ### Vertical System — Digital Channel Number of Channels 16 input channels (D0 to D15), grouped D0–D3, D4–D7, D8–D11, D12–D15 Threshold Range ±15.0 V, in 10 mV step Threshold Accuracy ±(100.00 mV + 3% of threshold setting) Threshold Selection TTL (1.4 V), CMOS5.0 (2.5 V), CMOS3.3 (1.65 V), CMOS2.5 (1.25 V), CMOS1.8 (0.9 V), ECL (-1.3 V), PECL (3.7 V), LVDS (1.2 V), 0.0 V; user-adjustable for 4 channels in a group Max. Input Voltage ±40 V peak CAT I; transient overvoltage 800 Vpk Max. Input Dynamic Range ±10 V + threshold Minimum Voltage Swing 500 mVpp Input Impedance 100 kΩ ± 1% Probe Load About 11 pF Vertical Resolution 1-bit _Note: The PLA3204 logic analyzer probe is required to use the digital channels._ ### Horizontal System Range of Time Base 200 ps/div to 500 s/div; fine adjustment supported Time Base Resolution 20 ps Time Base Accuracy ±1.5 ppm ± 1 ppm/year Time Base Delay Range (Pre-trigger) \-5 div Time Base Delay Range (Post-trigger) 1 s or 100 div, whichever is greater Delta Time Accuracy ±(Time Base Accuracy × Readout) ± (0.001 × Screen Width) ± 20 ps Channel-to-Channel Skew Correction Range ±100 ns, Accuracy ±1 ps Analog Channel-to-Channel Delay (Typical) ≤200 ps Horizontal Modes YT (default); XY (CH 1/2/3/4/5/6); SCAN (≥200 ms/div); ROLL (≥50 ms/div or ≥100 ms/div selectable) ### Acquisition System Sampling Mode Real-time Sampling Acquisition Modes Normal (default); Peak Detection (500 ps glitches); Average (2 to 65536); High Resolution (14-bit, 16-bit); Waveform Recording; Vector Mode Max. Waveform Capture Rate 1,000,000 wfms/s (Record mode); 200,000 wfms/s (Vector mode) Max. Frames of Waveform Recording 500,000 frames ### Trigger System Trigger Source Analog channel (1~6), EXT TRIG, AC Line, D0 to D15 Trigger Mode Auto, Normal, Single Trigger Coupling DC; AC (cut-off ~16 kHz); High Frequency Rejection (~200 kHz); Low Frequency Rejection (~180 kHz); Noise Rejection on/off Holdoff Range 8 ns to 10 s Trigger Bandwidth — Internal Analog Bandwidth Trigger Bandwidth — External 200 MHz Trigger Sensitivity — Internal 0.50 div, ≥50 mV/div; 0.7 div with noise rejection enabled Trigger Sensitivity — External 200 mVpp (DC to 100 MHz); 500 mVpp (100 MHz to 200 MHz) EXT TRIG Input Impedance 1 MΩ ± 1%, BNC connector Trigger Jitter (Typical) <1 nsrms Trigger Level Range — Internal ±5 div from center of screen Trigger Level Range — External ±5 V Standard Trigger Types Edge, Pulse, Slope, Video, Pattern, Duration, Timeout, Runt, Window, Delay, Setup/Hold, Nth Edge, I2C, SPI, RS232/UART Optional Trigger Types CAN, CAN-FD, LIN (AUTOA); FlexRay (FLEXA); I2S (AUDIOA); MIL-STD-1553 (AEROA) ### Waveform Measurement & Analysis Cursor 2 pairs of XY cursors; Manual, Track, Auto Measurement, XY Mode Auto Measurements 41 automatic measurements; up to 14 displayed at a time Vertical Measurements Vmax, Vmin, Vpp, Vtop, Vbase, Vamp, Vupper, Vmid, Vlower, Vavg, VRMS, Per. VRMS, Overshoot, Preshoot, Area, Period Area Horizontal Measurements Period, Frequency, Rise Time, Fall Time, +Width, -Width, +Duty, -Duty, Positive Pulse Count, Negative Pulse Count, Rising Edge Count, Falling Edge Count, Tvmax, Tvmin, +Slew Rate, -Slew Rate Statistics Current, Average, Max, Min, Standard Deviation, Count; statistical times settable Math Functions 4 simultaneously: A+B, A-B, A×B, A/B, FFT, A&&B, A||B, A^B, !A, Intg, Diff, Lg, Ln, Exp, Sqrt, Abs, AX+B, LowPass, HighPass, BandPass, BandStop FFT Up to 1 Mpts record; Rectangular, Blackman-Harris, Hanning (default), Hamming, Flattop, Triangle; max 15 peaks Waveform Recording Up to 500,000 segments; supports frame-by-frame and continuous playback with calculation, measurement, and decoding Pass/Fail Test User-defined mask comparison; success/fail/total count; immediate stop, beeper, screenshot triggers Color Grade Dimensional view, >16 color grade, 256-level color scale; temperature and intensity themes ### Serial Decoding Four protocol types can be decoded and enabled at the same time. Standard decoding includes Parallel, RS232/UART, I2C, and SPI. Optional decoding adds LIN, CAN, CAN-FD (MHO/DHO5000-AUTOA), FlexRay (MHO/DHO5000-FLEXA), I2S (MHO/DHO5000-AUDIOA), and MIL-STD-1553 (MHO/DHO5000-AEROA). ### Built-in Measurement Tools Digital Voltmeter Any analog channel; DC, AC+DCrms, ACrms; 4-bit resolution; user upper/lower limits with beeper High-Precision Frequency Counter Any analog channel and EXT; frequency, period, totalizer; 3–6 digit resolution; max frequency at analog bandwidth; 48-bit totalizer counts rising edges AutoScale Minimum voltage >10 mVpp, duty cycle >1%, frequency >35 Hz ### Display, Processor & I/O LCD 10.1" capacitive multi-touch gesture-enabled display Resolution 1280×800 (16:9) Graticule 10 horizontal × 8 vertical divisions Persistence Off, Infinite, variable (100 ms to 10 s) Brightness 256 intensity levels (LCD, HDMI) Processor Cortex-A72 1.8 GHz + Cortex-A53 1.4 GHz, 6-core System Memory 4 GB RAM Operating System Android Internal Non-volatile Memory 128 GB USB 3.0 Host 1 on front panel USB 3.0 Device 1 on rear panel LAN 1 on rear panel; 10/100/1000 Base-T; supports LXI-C and Web Remote Control HDMI 1 on rear panel; HDMI 1.4, A plug 10 MHz Reference Clock Input/Output BNC on rear panel; Input: 50 Ω, 130 mVpp to 4.1 Vpp, 10 MHz ± 10 ppm; Output: 50 Ω, 1.5 Vpp sine AUX Out BNC on rear; Trig Out or Pass/Fail; rise time ≤1.5 ns Probe Compensation Output 1 kHz frequency, 0.3 V amplitude, Square ### Power, Environment & Mechanical Power Voltage AC 100 V to 240 V, 50 Hz to 60 Hz Power Max. 350 VA (with various interfaces, USB, active probes) Fuse 3.15 A, T degree, 250 V Operating Temperature \-10 ℃ to +50 ℃ Non-operating Temperature \-30 ℃ to +60 ℃ Operating Humidity ≤90% RH below +30 ℃; ≤75% RH +30 ℃ to +40 ℃; ≤45% RH +40 ℃ to +50 ℃ (without condensation) Operating Altitude below 3,000 m Dimensions (W × H × D) 335 mm × 235 mm × 154 mm Rack Mount Kit 5U Weight (package excluded) 5.3 kg Weight (package included) 6.3 kg ### Regulations & Compliance - **EMC:** Compliant with EMC DIRECTIVE 2014/30/EU; meets or exceeds IEC 61326-1:2013 / EN 61326-1:2013 Group 1 Class A; CISPR 11 / EN 55011 - **Safety:** EN 61010-1:2019; EN 61010-031:2015; IEC 61010-1:2016; IEC 61010-2-030:2017; UL 61010-1:2012 R7; UL 61010-2-31:2017 R2; CAN/CSA-22.2 No. 61010-1-12:2017, 61010-2-30:2018, 61010-031-07:2012 - **Vibration:** Meets GB/T 6587 class 2 random; meets MIL-PRF-28800F and IEC 60068-2-6 class 3 random - **Shock:** Meets GB/T 6587-2012 class 2 random; meets MIL-PRF-28800F and IEC 60068-2-27 class 3 random; non-operating: 30 g half-sine, 11 ms duration, 18 shocks ### Warranty & Calibration Interval Warranty Three years for the mainframe, excluding the probes and accessories. Recommended Calibration Interval 18 months This webpage was written by a human with an A.I. "Intern", which may contain errors. Please review the Manufacturers Data Sheet to verify published specifications. Feedback on this webpage is always welcome, please reach out to your Test Architect at any time for questions or concerns. Thank you, we truly appreciate you being our customer. ## Details - **Price:** 15199.0 USD - **Vendor:** Rigol - **Type:** Ms Oscilloscope - **Tags:** Manufacturers, Mixed Signal, Oscilloscopes, Rigol, sync_12_12 ## Variants | Variant | Price | Available | |---------|-------|-----------| | Default Title | 15199.00 USD | In stock | ## Images - MHO5106 Rigol Mixed Signal Oscilloscope --- > Source: [ValueTronics](https://valuetronics.com/products/mho5106-rigol-mixed-signal-oscilloscope-new) > Updated: 2026-05-27