High Precision Voltage Stabilizer for Laboratory
2.Technology: Advanced IGBT-based Static Voltage Stabilizer with Pure Sine Wave Output
3.Input: 90V-280V (Single Phase) / 200V-480V (Three Phase), 50/60Hz ±10%
4.Output: Stable 115V/120V or 220V/230V/240V (±0.5%), Ultra-Low Distortion
5.Applications: Calibration Labs, Metrology, Sensitive Analytical Instruments, Semiconductor Testing
6.Core Features: Ultra-Fast Correction (<20ms), Lab-Grade Noise Filtering, RS232/RS485 Communication, Digital Display
7.Brand: ACSOON (Custom Voltage Ranges & Form Factors Available).
- Product Description
High Precision Voltage Stabilizer for Laboratory | Ultra-Stable AC Power Conditioner
XI'AN JERRYSTAR INSTRUMENT CO., LTD introduces the High Precision Voltage Stabilizer for Laboratory, engineered specifically for environments where even minor power fluctuations are unacceptable. This advanced voltage stabilizer provides laboratory-grade power conditioning with exceptional speed and accuracy, protecting sensitive measurement equipment, calibration standards, and research instrumentation from grid noise and voltage variations that could compromise test integrity and results.
Datasheet
| Parameter | Specification |
|---|---|
| Model Series | ACSOON AF30/50 Series |
| Input | 1-Phase: 90-280VAC / 3-Phase: 200-480VAC, 50/60Hz ±10% |
| Output | Voltage: 115V, 120V, 220V, 230V, 240V (±0.5%) Power: 1kVA, 2kVA, 3kVA, 5kVA, 10kVA, 15kVA, 20kVA, 30kVA THD: <2% |
| Correction Speed | <20ms (for any input change within range) |
| Efficiency | ≥92% |
| Display | Digital LCD (Input/Output V, I, Status) |
| Communication | RS232, RS485 (Modbus) |
| Protections | Over/Under Voltage, Overload, Short Circuit, Over Temperature |
| Noise Attenuation | Common Mode: >40dB, Differential Mode: >30dB (Optional EMI filter) |
High Precision Voltage Stabilizer for Laboratory Main Features
- Wide Input Voltage Range: Accepts broad input fluctuations without compromising output stability or efficiency.
- Pure Sine Wave Output (THD <3%): Does not introduce distortion, ensuring compatibility with all linear and non-linear laboratory loads.
- Advanced Digital Control: Microprocessor-based control with real-time monitoring via a clear digital display for voltage, current, and status.
- Communication & Remote Monitoring: Standard RS232/RS485 ports allow integration into lab monitoring systems for logging and alarms.
Why Choose ACSOON High Precision Voltage Stabilizer for Laboratory?
Exceptional Voltage Accuracy: Maintains output voltage within ±0.5% of setpoint, far exceeding standard stabilizers, for unwavering equipment performance.
Ultra-Fast Correction Speed: Corrects input voltage changes in less than 20 milliseconds, preventing any noticeable impact on sensitive electronic loads.
Laboratory-Grade Clean Power: Advanced filtering removes harmonics and high-frequency noise, delivering pure sine wave output critical for precision measurements.
Complete Power Protection: Acts as a comprehensive power conditioner, guarding against sags, surges, spikes, and common-mode noise.
High Precision Voltage Stabilizer for Laboratory Application Areas
Metrology & Calibration Labs: Providing ultra-stable power for calibrating multimeters, oscilloscopes, and electrical standards.
Analytical & Scientific Instrumentation: Powering electron microscopes (SEM/TEM), spectrometers, chromatographs, and laser systems.
Semiconductor & Electronics Testing: Ensuring clean power for wafer probers, component testers, and precision measurement units.
Research & Development Facilities: Supporting sensitive experiments in physics, material science, and electronics where power quality is paramount.
Our Services
Quality Control
Component Precision Screening: All critical components, especially feedback sensors and control ICs, are selected and tested for high precision and low drift.
Dynamic Response Testing: Each unit is subjected to rapid input voltage step changes to verify correction speed and stability meet the <20ms specification.
Output Purity Analysis: Conducted in an EMI-shielded environment to measure and ensure ultra-low output harmonic distortion and noise levels.
Extended Burn-in & Calibration: Units undergo a prolonged stabilization period and final calibration against high-accuracy reference standards.
R&D Results
High-Speed IGBT Switching Topology: Developed a proprietary switching algorithm that enables both fast correction and high efficiency without waveform distortion.
Multi-Stage Noise Filtration: Integrated a hybrid (passive and active) filtering stage specifically tuned to attenuate laboratory-interfering frequencies.
Low-Noise Thermal Design: Engineered a fanless or variable-speed fan cooling system to eliminate acoustic noise in quiet lab settings.
Advanced User Interface: Developed an intuitive interface with data logging capability to track power quality history for diagnostic purposes.
Packaging and Transportation
Laboratory-Grade Protective Packaging: The unit is packaged in anti-static materials within a foam-cushioned, sturdy cardboard box designed for sensitive electronics.
Calibration Integrity Seal: The packaging includes a seal to indicate if the unit has been subjected to excessive shock during transit, potentially affecting calibration.
Complete Documentation Package: Includes a detailed calibration certificate traceable to national standards, user manual, application guide, and communication protocol documentation.
White-Glove Shipping Options: Available for delicate or high-value laboratory shipments, including monitored transit and careful handover.
After‑Sales Service
- We offer a 24-month warranty, priority technical support, optional periodic recalibration services, and access to detailed application notes for integrating the stabilizer into specific laboratory setups.
Qualification Certification
ISO 9001:2015 certified manufacturing processes;CE Marked, compliant with EU EMC and safety directives.;Calibration Certificate: Provided with each unit, documenting its output accuracy and traceability;Tested per IEC 61000 series standards for immunity and emissions.
FAQ |
|---|
| Q1: Why does a laboratory need a special voltage stabilizer instead of a standard one? |
| A: Standard stabilizers prioritize cost and basic protection with ±3-5% accuracy and slower response. A laboratory-grade unit offers ±0.5% accuracy, sub-20ms correction, and advanced noise filtering to eliminate variables that could skew sensitive measurements or damage high-precision instruments. |
| Q2: Can this stabilizer handle the inrush current of equipment like vacuum pumps or ovens? |
| A: Yes, it is designed with sufficient overload capacity to handle typical laboratory equipment inrush currents. For very high inrush loads, we recommend consulting our engineers to select the appropriately rated model. |
| Q3: Will it interfere with or be affected by other equipment in the lab generating electrical noise? |
| A: No. Its design includes strong noise immunity on the input side and very low noise emission on the output side. It will effectively isolate your sensitive equipment from noise generated by other lab equipment. |
| Q4: Is remote monitoring and control possible? |
| A: Yes. The standard RS232/RS485 ports allow you to monitor input/output voltage, current, and system status, and in some models, adjust setpoints remotely via a computer or building management system. |
| Q5: What is the difference between this and a UPS? |
| A: A UPS provides backup power during an outage. This Stabilizer provides continuous, ultra-clean and ultra-stable power from the grid, but does not provide backup if the grid fails. For complete protection, they can be used together. |
Contact Us
For technical specifications or global solutions for the High Precision Voltage Stabilizer for Laboratory: acpower@acsoonpower.com, or submit your requirements using the form at the bottom of our website.
