Customer:
Ora Pro G1 750
| Electronic Loads | Chroma 63601-5 x2 Chroma 63600-2 Chroma 63640-80-80 x10 Chroma 63610-80-20 |
| AC Sources | Chroma 6530, APM SP300VAC4000W-P, GW Instek ASR-3500 |
| Power Analyzers | Rohde & Schwarz HMC8015, Rohde & Schwarz NPA701 |
| Oscilloscopes | Picoscope 4444, Siglent SDS2104X PLUS |
| Sound Analyzer | Bruel & Kjaer 2270 G4 |
| Microphone | Bruel & Kjaer Type 4955-A |
| Temperature Logger |
Picoscope TC-08 |
| Tachometer | UNI-T UT372 |
| Multimeters | Keysight 34465A |
| EMI Analyzer | TekBox TBMR-110M-EU |
| Isolation Transformer | 4kVA |
| UPS | FSP Champ Tower 3kVA, CyberPower OLS3000E 3kVA | Testing Methodology | Cybenetics PSU Test Protocol |
| Voltage | 115V | 230V |
|---|---|---|
| Efficiency (>1450 Load Combinations) | 89.193% | 91.317% |
| Efficiency Graphs |  |  |
| Average PF (>1450 Load Combinations) | 0.984 | 0.941 |
| Standby Power Consumption | 0.0522W | 0.1603W |
| ErP Lot 3/6 Ready | ✓ | |
| (EU) No 617/2013 Compliance | ✓ | |
| Average Efficiency VSB | 79.402% | 77.964% |
| Conducted Emissions EN55032 & CISPR 32 | Passed | |
| Voltage | 115V | 230V |
|---|---|---|
| Noise Rating (>1450 Load Combinations) | 13.42dBA | 13.31dBA |
| Noise Graphs |  |  |
| Efficiency With 10W (≤500W) or 2% (>500W) Load | 68.003 |
| Hold Up Time | 23.30 |
| Power OK | 20.50 |
| Power OK to DC Loss | 2.80 |
| Model Name | Moaiplay |
| Lab ID | MA75003032 |
| Serial Number | ORG0175FFB5J0002 |
| Date of receipt | Oct 31, 2025 |
| Testing Date | Nov 13, 2025 |
| Report Issued Date | Nov 18, 2025 |
| DUT Notes | 3032 |
| Engineer Name | Okeke Ugochukwu Onyedikachukwu |
| Authorized By the Laboratory General Manager | Aristeidis Bitziopoulos |
| Signature |  |
| Modular Cables | ||||
| Description | Cable Count | Connector Count (Total) | Gauge | Cable Type |
| ATX connector 20+4 pin (590mm) | 1 | 1 | 18-22AWG | Tinned Copper |
| 4+4 pin ATX12V (700mm) | 2 | 2 | 18AWG | Tinned Copper |
| 6+2 pin PCIe (600mm) | 2 | 2 | 18AWG | Tinned Copper |
| 12+4 pin PCIe (600mm) (600W) | 1 | 1 | 16-24AWG | Tinned Copper |
| SATA (500mm+150mm+150mm+150mm) | 2 | 8 | 18AWG | Tinned Copper |
| 4-pin Molex (500mm+150mm+150mm+150mm) | 1 | 4 | 18AWG | Tinned Copper |
| Manufacturer | SANR |
| Model | Ora Pro G1 750 |
| Max DC Output | 750W |
| Efficiency (115V) | 89.193% |
| Efficiency (230V) | 91.317% |
| Noise (115V) | 13.42 dB[A] |
| Noise (230V) | 13.31 dB[A] |
| Modular | Fully Modular |
| Operating Temperature (Continuous Full Load) | 0 - 50℃ |
| Over Power Protection | ✓ |
| Over Current (+12V) Protection | ✓ |
| Over Temperature Protection | ✓ |
| Short Circuit Protection | ✓ |
| Surge Protection | ✓ |
| Inrush Current Protection | ✓ |
| Fan Failure Protection | ✗ |
| No Load Operation | ✓ |
| Cooling | 148mm Fluid Dynamic Bearing Fan (D14SM-12) |
| Semi-Passive Operation | ✓ (selectable) |
| Dimensions (W x H x D) | 150 x 85 x 152mm |
| Weight | 1.37 kg (3.02 lb) |
| Form Factor | ATX12V |
| ATX 3.1 & PCIe 5.1 ready | ✓ |
| Alternative Low Power Mode (ALPM) compatible | ✓ |
| Warranty | 10 Years |
| General Data | |
| Manufacturer (OEM) | SANR |
| PCB Type | Double-Sided |
| Primary Side | |
| Transient Filter | 4x Y caps, 2x X caps, 2x CM chokes, 1x MOV |
| Inrush Protection | NTC Thermistor M72 8D-20 (8 Ohm @ 25°C) & Relay |
| Bridge Rectifier | 2x |
| APFC MOSFETs | 2x Lonten LSD60R125GT (600V, 16.5A @ 100°C, Rds(on): 0.125Ohm) |
| APFC Boost Diode | PN Junction P3D06008F2 (650V, 8A @ 135°C) |
| Bulk Cap(s) | 2x Nippon Chemi-Con (420V, 270uF each or 540uF combined, 2000h @ 105°C, KMQ) |
| Main Switchers | 2x Wuhan Xinyuan CWS55R190BF (550V, 13A @ 100°C, Rds(on): 0.19Ohm) |
| APFC Controller | Champion CM6500UNX |
| Resonant Controller | Champion CM6901T6X |
| Topology | Primary side: APFC, Half-Bridge & LLC Resonant Converter Secondary side: [12V] Synchronous Rectification & [Minor Rails] DC-DC converters |
| Secondary Side | |
| +12V MOSFETs | 4x InPower FTG014N04SA |
| 5V & 3.3V | DC-DC Converters: 4x PTJ030N03LA PWM Controller(s): 2x ANPEC APW7164 |
| Filtering Capacitors | Electrolytic: |
| Supervisor IC | IN1S4291-DCG |
| Fan Controller | ANPEC APW9010 |
| Fan Model | Yate Loon D14SM-12 (148mm, 12V, 0.70A, Fluid Dynamic Bearing Fan) |
| 5VSB Circuit | |
| Rectifier | PingWei PS1060L (60V, 10A) |
| Standby PWM Controller | Depu DP2358 |
| Rated Voltage (Vrms) | 100-240 |
| Rated Current (Arms) | 5.5-11 |
| Rated Frequency (Hz) | 47-63 |
| Rated Power (W) | 750 |
| Type | ATX12V |
| Dimensions (W x H x D) | 150 x 85 x 152mm |
| Cooling | 148mm Fluid Dynamic Bearing Fan (D14SM-12) |
| Semi-Passive Operation | ✓ (selectable) |
| Cable Design | Fully Modular |
The Efficiency Measurement’s Uncertainty is ±0.15%
The reported expanded uncertainty (U) was derived as the product of the combined standard uncertainty (u) and the coverage factor k = 2, corresponding to a confidence interval of approximately 95%. Measurement uncertainty was determined in accordance with JCGM Guide 100:2008, "Guide to the Expression of Uncertainty in Measurements". The estimate of the reported uncertainty pertains to values obtained during the measurements and does not account for possible long-term changes.
Efficiency Measurement Uncertainty Budget
| Source of Uncertainty | Standard Uncertainty, u(xi) | Relative Standard Uncertainty, u(xi)/xi |
| Intralab Reproducibility | 0.0310 | 0.00031 |
| Electronic loads Calibration | 0.0500 | 0.00050 |
| Power Analyzer Calibration | 0.0250 | 0.00025 |
| Operator and Test Fixture | 0.0350 | 0.00035 |
| Relative Combined Standard Uncertainty (RSS): | 0.00073 | |
| % Expanded Uncertainty U (k=2, norm): | 0.15 | |
The Noise Measurement’s Uncertainty is ±1.23 dBA
The reported expanded uncertainty (U) was derived as the product of the combined standard uncertainty (u) and the coverage factor k = 2, corresponding to a confidence interval of approximately 95%. Measurement uncertainty was determined in accordance with JCGM Guide 100:2008, "Guide to the Expression of Uncertainty in Measurements". The estimate of the reported uncertainty pertains to values obtained during the measurements and does not account for possible long-term changes.
| Source of Uncertainty |
Standard Uncertainty, u(xi)/xi (dBA) |
| Intralab Reproducibility | 0.031 |
| Mic Calibrator 4231 calibration | 0.200 |
| Microphone frequency response | 0.577 |
| Temperature | 0.12 |
| Position error | 0.058 |
| Relative Combined Standard Uncertainty (RSS): | 0.61 |
| Expanded Uncertainty U (k=2, norm): | 1.23 |
The Conducted EMI Emissions Measurement’s Uncertainty is ±1.75 dB
The reported expanded uncertainty (U) was derived as the product of the combined standard uncertainty (u) and the coverage factor k = 2, corresponding to a confidence interval of approximately 95%. Measurement uncertainty was determined in accordance with JCGM Guide 100:2008, "Guide to the Expression of Uncertainty in Measurements". The estimate of the reported uncertainty pertains to values obtained during the measurements and does not account for possible long-term changes.
| Source of Uncertainty |
Standard Uncertainty, u(xi)/xi (dB) |
| Spectrum Analyzer total measurement uncertainty | 0.250 |
| Spectrum Analyzer calibration | 0.500 |
| Noise and Signal Quality | 0.577 |
| Bandwidth and Resolution Bandwidth (RBW) | 0.289 |
| Measurement time and Averaging | 0.115 |
| Environmental Factors | 0.115 |
| Relative Combined Standard Uncertainty (RSS): | 0.87 |
| Expanded Uncertainty U (k=2, norm): | 1.75 |