



- Stock: In Stock
- Model: RDDLZ-VDCPS6050K
- Weight: 1.00
- SKU: RDDLZ-VDCPS6050K
Available Options
50 amp 60 volt variable DC power supply features adjustable voltage and current outputs, allowing users to fine-tune settings based on specific requirements. The versatility and precision of this adjustable DC power supply make it an essential tool for electronics labs, testing environments, and various technical applications, offering reliability and adaptability in powering electronic components and systems.
Specification
Model | RDDLZ-JK6050K |
Input Voltage | Single Phase 110V or 220V AC (+/- 10%) |
Output Voltage Range | 0-60V |
Output Current Range | 0-50A |
Output Power | 3000W |
Frequency | 50Hz/60Hz |
Adjustable Mode | Pulse Width Modulation (PWM) Type |
Transistor Connection Method | Full Bridge |
Output Type | Dual |
Display | 3 digit |
Display Accuracy | Output Voltage ±0.5%, Output Current ±0.5% |
Efficiency | >86% |
Load Regulation (CV) | Stable Voltage ≤0.5%, Constant Current ≤0.5% |
Line Regulation (CV) | Stable Voltage ≤0.5% |
Ripple Voltage | ≤1% |
Insulation Resistance | Input-Output: ≥20MΩ |
Input-Chassis: ≥20MΩ | |
Output-Chassis:≥80MΩ | |
Dielectric Strength | Input-Output: AC1500V, 10mA, 1 minute |
Input-Chassis: AC1500V, 10mA, 1 minute | |
Output-Chassis: AC1500V, 10mA, 1 minute | |
Protection | Over Load and Over Voltage Protection |
Current Imbalance | ≤5% + 0.5A |
Operating Ambient | -10℃ to + 45℃/ 85%RH |
Storage Ambient | -20℃ to + 70℃/ 80%RH |
Overheat Protection Ambient Threshold | 70℃ to 80℃ |
Mean Time Between Failures | ≥50000h |
Cooling Duct | Internal Cooling Air Duct Forward and Exit |
Certification | CE, RoSH |
Warranty | 12 Months |
Size | 303 (L) x 255 (W) x 155 (H) mm |
Weight | 13kg |
Detail
Tips: What is the difference between linear and switching variable DC power supplies?
Linear and switching variable DC power supplies differ in their voltage regulation methods and efficiency. In a linear power supply, voltage regulation is achieved through a variable resistor, dissipating excess energy as heat. This method results in a simpler design but lower efficiency, especially when the voltage drop is significant. On the other hand, switching variable DC power supplies use a more complex circuitry involving high-frequency switching transistors and an energy storage component like an inductor or capacitor. This enables them to regulate voltage more efficiently by rapidly switching the input voltage on and off. Switching supplies are generally more energy-efficient than linear ones, producing less heat and providing a compact design. However, they may introduce more electrical noise and complexity to the system.