DC Stabilized Power Supply Suitable For Educational Experimental Scenarios
In college electronic experiment teaching, DC regulated power supplies are key tools linking theory and practice. However, traditional models often cause issues like "high operational risks, poor parameter visibility, and low management efficiency". To solve these, KUAIQU has launched education-exclusive DC regulated power supplies, with "anti-misoperation, visualization, and easy management" features that make teaching safer, more efficient, and intuitive.
I. 3 Core Pain Points in College Electronic Experiment Teaching
In courses like Circuit Analysis and Analog Electronic Technology, traditional power supplies fail to meet "safety, teaching, and management" needs:
- Pain Point 1: Safety Risks for Novices
No knob lock—accidental touches may spike voltage (e.g., 5V to 30V) and damage boards. Exposed terminals risk electric shock, and lack of short-circuit protection burns power supplies if wiring is wrong.
- Pain Point 2: Poor Demonstration Efficiency
Small LED screens limit visibility; back-row students can’t see parameters. Students crowd equipment to record data, hindering synchronous explanation of "parameter changes and circuit phenomena".
- Pain Point 3: Time-Consuming Device Management
Labs usually have 20-30 units. Teachers spend over 30 minutes adjusting parameters (e.g., 5V/1A) one by one, and more time checking shutdowns post-experiment.
II. KUAIQU Education-Exclusive Models: 3 Teaching-Friendly Solutions
KUAIQU optimized models like SPS-C3010S (30V/10A) and SPS-C305S (30V/5A) for classrooms. See details: https://www.kuaiquinstrument.com/products/sps-c-s.
1. All-Round Anti-Misoperation for Safety
- Parameter Lock: Teachers use "LOCK" to fix voltage/current; students only view. E.g., lock 12V for "current under fixed voltage" experiments to avoid data chaos.
- Anti-Electrocution Terminals: Insulated terminals expose 1mm contact and support banana plugs, preventing wrong wiring.
- 4-Fold Protection: OVP, OCP, short-circuit, and overtemperature protection. It cuts output, beeps, and shows "OCP"/"SHORT" if faults occur, aiding teaching.
2. Visualization & Projection for Better Demos
- HD Large Screen: 4-digit LED (12mm font) ensures visibility; syncs voltage/current for "series division" lessons.
- Projection & Data Export: High-end models (e.g., SPPS-K305) connect via USB to project parameters. Data exports to Excel, reducing recording errors.
- Audio-Visual Prompts: Beeps on adjustment (muteable); 2 beeps when set. Continuous beep alerts overload.
3. Sync Management to Reduce Workload
- Batch Control: RS485 connects up to 32 units. Set 20 devices (e.g., 5V/0.5A) in 2 minutes—saves 28 minutes vs manual adjustment (90% efficiency gain).
- One-Click On/Off: Remote software starts/shuts all units; scheduled shutdown avoids idling.
- Real-Time Monitoring: Software shows status (on/off, voltage/current, faults) and alerts on issues (e.g., "Group 5 SPS-C3010S short circuit").
III. Model Selection for Education
- Basic Experiments (Circuit Analysis): SPS-C305S (30V/5A, $59.99) – cost-effective for freshmen/sophomores.
- Advanced Experiments (Motor Control): SPS-C3010S (30V/10A) – high current for motors/amplifiers.
- Precision Experiments (Sensor Testing): SPPS-K305 (30V/5A) – 10μA measurement + curve display for juniors/seniors.
All models have 3-year warranty and education-exclusive support. Bulk purchase discounts are available on the official website.
IV. Conclusion: Power Supplies as Teaching Assistants
KUAIQU’s education-exclusive power supplies solve traditional pain points with anti-misoperation, visualization, and easy management. They make abstract electronics intuitive and support teaching.
KUAIQU partners with 200+ colleges for electronics/electromechanics majors. For labs facing safety/efficiency issues, visit https://www.kuaiquinstrument.com/ or contact support for solutions.
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