Main Types of MCCB Test Benches
MCCB Manual Thermal Test Bench
The manual thermal test bench is the entry-level option for smaller production runs and incoming inspection. The operator sets the test current manually, clamps the breaker into the fixture, and monitors the trip time against a preset acceptance window.
Key advantages: low equipment cost, simple maintenance, suitable for laboratories and low-volume inspection lines.
Typical limitation: throughput. Manual clamping and parameter switching between different breaker frames slow down high-volume production.
MCCB Automatic Time-Delay Testing Equipment
For production lines handling multiple frame sizes and current ratings, the fully automatic version is the standard choice. The equipment reads the breaker model (via barcode scan or manual selection), automatically applies the correct test current profile, records trip time, and outputs a pass/fail result — all without operator intervention during the test cycle.
Benlong's automatic MCCB time-delay testing equipment supports single-phase and series detection modes, with output current accuracy of ±1% and waveform distortion ≤3%. Frame switching between different pole configurations is handled with a single keypress or barcode scan; fixture changeover is only required when switching between shell frame sizes.
MCCB Long-Time Thermal Test Bench
This variant is used for type testing and R&D validation rather than production line QC. It simulates sustained high-load conditions — sometimes running for several hours — to evaluate the thermal stability of the bimetal assembly and to verify that temperature rise at terminals stays within IEC limits.
The long-time thermal test bench includes a high-precision temperature control and monitoring system, real-time data logging, and multiple safety protection layers including overload, short-circuit, and temperature protection.
Parameters That Matter When Evaluating an MCCB Test Bench
When comparing test bench specifications, these are the numbers that separate capable equipment from machines that will cause you calibration headaches:
| Parameter | Whatto lookfor | Why itmatters |
| Current accuracy | +1% or better | Directly affects trip-timerepeatability |
| Waveform distortion | ≤3% | Distorted waveforms cause falsetrip-time readings |
| Frame compatibility | Supports your full product range withoutfixture replacement | Reduces changeover time |
| Switching speed | One-click or scan-code switching between poles | Criticalfor high-volume lines |
| Data export | CSV/Excel export, cloud platform optional | Enables SPC and traceability |
| Operating system | English and Chinese | Relevant for export-market equpment |
IEC 60947-2 and What It Requires from Your Test Process
IEC 60947-2 is the governing standard for MCCBs in most global markets. It defines the overload trip time ranges at 1.13× and 1.45× rated current (cold and warm), the instantaneous trip threshold bands, and the endurance requirements for the operating mechanism.
A compliant MCCB test bench must be able to:
Apply stable current at precisely defined multiples of In (±1% accuracy minimum)
Record trip time with millisecond resolution
Distinguish between cold-start and warm-start test sequences
Store test records in a format suitable for quality audits
Benlong test benches are designed to meet these requirements across all standard MCCB frame sizes, with fixture customization available for non-standard product geometries.88888
Choosing Between Manual and Automatic: A Simple Decision Framework
Choose manual if: your production volume is below ~200 units/day per line, you test a narrow range of ratings, or the primary use case is incoming inspection or R&D.
Choose automatic if: you run a dedicated MCCB production line, your product mix includes multiple frame sizes and pole configurations, or you need full data traceability for export market compliance.
Choose the long-time thermal bench if: you are a manufacturer conducting type tests, you are developing new bimetal designs, or you need to validate performance under sustained high-ambient-temperature conditions.
Why Test Bench Quality Directly Affects Your Product's Market Position
An under-specified test bench introduces measurement uncertainty into your production process. If your trip-time measurement has ±5% uncertainty instead of ±1%, you must tighten your own manufacturing tolerance to compensate — which increases scrap rates and production cost.
More importantly, customers in the European and Middle Eastern markets increasingly require full test records as part of incoming inspection documentation. A test bench that cannot export structured data puts you at a competitive disadvantage when tendering for OEM supply agreements.
Benlong Automation has supplied MCCB test benches and complete MCCB automated production lines to manufacturers across Southeast Asia, the Middle East, and Europe. If you are evaluating test equipment for a new line or an upgrade, contact our engineering team with your current product range and volume requirements — we will recommend the configuration that fits.
Media Contact
Company Name: Benlong Automation Technology Co., Ltd.
Email: Send Email
Country: China
Website: https://www.benlongkj.com/
