The 2000A 80V pulse rectifier is an advanced power supply. It is designed for sophisticated electroplating and surface engineering processes. Specifically, this pulse DC rectifier generates a stable DC baseline current. Additionally, it delivers a precisely controlled pulsed current superimposed on top. As a result, this dual-waveform output enables the deposition of composite coatings with superior properties. These include, for example, embedded nanoparticles, refined grain structures, and enhanced mechanical performance.
| Anodizing Power Supply Model Selection (Any model can be customized) | |||||||
| General Anodizing Power Supply (Below 30V, with timer control head, for conventional anodizing) | |||||||
| Model | Output Current (A) | Output Voltage (V) | Power (KW) | Input Current (A) | Input Voltage (V) | Weight (KG) | W×L×H (mm) |
| YH200018 | 2000 | 18 | 36 | 60 | 380 | 50 | 400×500×630 |
| YH300018 | 3000 | 18 | 54 | 90 | 380 | 70 | 400×500×630 |
| YH300020 | 3000 | 20 | 60 | 100 | 380 | 100 | 500×620×1150 |
| YH300024 | 3000 | 24 | 72 | 120 | 380 | 120 | 500×620×1150 |
| YH400018 | 4000 | 18 | 72 | 120 | 380 | 120 | 500×620×1150 |
| YH400020 | 4000 | 20 | 80 | 133 | 380 | 120 | 500×620×1150 |
| YH400024 | 4000 | 24 | 96 | 160 | 380 | 120 | 500×620×1150 |
| YH500018 | 5000 | 18 | 90 | 150 | 380 | 120 | 500×620×1150 |
| YH500020 | 5000 | 20 | 100 | 167 | 380 | 120 | 500×620×1150 |
| YH500024 | 5000 | 24 | 120 | 200 | 380 | 130 | 500×620×1150 |
| YH600018 | 6000 | 18 | 108 | 180 | 380 | 130 | 500×620×1150 |
| YH600020 | 6000 | 20 | 120 | 200 | 380 | 130 | 500×620×1150 |
| YH600024 | 6000 | 24 | 144 | 240 | 380 | 180 | 500×620×1150 |
| YH800018 | 8000 | 18 | 144 | 240 | 380 | 180 | 500×670×1450 |
| Advanced Anodizing Power Supply (Above 30V, touch screen PLC control, for hard anodizing) | |||||||
| Model | Output Current (A) | Output Voltage (V) | Power (KW) | Input Current (A) | Input Voltage (V) | Weight (KG) | W×L×H (mm) |
| YY200040 | 2000 | 40 | 80 | 133 | 380 | 135 | 600×750×1300 |
| YY200060 | 2000 | 60 | 120 | 200 | 380 | 150 | 600×750×1300 |
| YY200080 | 2000 | 80 | 160 | 267 | 380 | 180 | 600×750×1300 |
| YY300040 | 3000 | 40 | 120 | 200 | 380 | 200 | 600×750×1300 |
| YY400050 | 4000 | 50 | 200 | 333 | 380 | 250 | 600×750×1300 |
| YY400050 | 4000 | 60 | 240 | 400 | 380 | 250 | 800×1150×1300 |
| YY500050 | 5000 | 50 | 250 | 417 | 380 | 300 | 800×1150×1300 |
| YY500060 | 5000 | 60 | 300 | 500 | 380 | 300 | 800×1150×1300 |
| YY600060 | 6000 | 60 | 360 | 600 | 380 | 300 | 800×1150×1300 |
| YY600080 | 6000 | 80 | 480 | 800 | 380 | 300 | 800×1150×1300 |
| YY5050 | 50 | 150 | 7.5 | 13 | 380 | 40 | 420×500×320 |
Power(KW) = Output Voltage(V) × Output Current(A)
The product comes with a one-year warranty and boasts a service life of over 10 years. It supports both Constant Current and Constant Voltage modes, and it also includes a programmable ramp-up function for current or voltage settings. For time-sensitive applications, you can use the timed operation mode. Moreover, the multi-segment function allows you to vary constant current or voltage levels over time. The device further offers an RS485 communication interface, automatic polarity reversal, and a minute-level timing function. If you need customization, please contact us for further details.
1. ID
Process/program number, used to select or switch between different stored recipes.
2. Stage
The current step number in a multi-step ladder process (supports up to 20 stages).
3. Set_U
Target set voltage value (DC 0–160V adjustable).
4. Rise_T./sec
Rise time (soft start time) in seconds, adjustable from 0–999 seconds.
5. Keep_T./min
Hold time in minutes/seconds, adjustable from 1–9999 seconds/minutes.
6. Stage List (Set_I / Set_U / Rise_T / Keep_T)
Parameter table for multi-step processes, supporting up to 20 stages. Each stage can be independently configured with target current, target voltage, ramp-up time, and hold time.
7. RUN
Start button to begin power output according to the selected process.
8. OFF / CV
- `OFF`: Stop button to halt power output.
- `CV`: Constant Voltage mode for steady output voltage control.
9. single stage
Single-step mode, runs only the selected stage without multi-step cycling.
10. U/I curve
Voltage/Current curve mode, controls the process primarily by current profile.
11. Power Good
Power supply ready indicator, lights green when the unit is healthy and ready to start.
12. Menu
Main menu button to access system settings, parameter configuration, fault logs, and stored recipes.
13. AH Reset
Amp-hour reset button to clear the accumulated Act.AH value.
14. AH Show / Alarm Mode
- `AH Show`: Amp-hour display toggle.
- `Alarm Mode`: Configuration for fault response and alarm behavior.
15. Set AH
Target amp-hour value for charge-based automatic stop control.
16. Act.AH
Actual accumulated amp-hours (total charge consumed during the process).
17. Run Time
Elapsed runtime timer for the current process.
18. U (Voltage)
Real-time output voltage display (large digits, unit: V).
19. I (Current)
Real-time output current display (large digits, unit: A).
This superimposed pulse rectifier features completely separate controls. Specifically, it has independent controls for the DC base and the pulse overlay. Consequently, process engineers can independently fine-tune the "background" deposition rate. Similarly, they can adjust the "peak" current influence. Therefore, this optimizes nucleation, grain refinement, and particle incorporation.
The system offers a frequency range from 0.1Hz to 10kHz. As a result, it is highly versatile. For instance, low frequencies are ideal for mechanical property modulation. In contrast, high frequencies are perfect for creating extremely fine-grained deposits. Furthermore, these high frequencies also produce bright finishes.
The touchscreen HMI allows for complex recipe programming. For example, it supports multi-stage sequences. In these sequences, DC and pulse parameters change at timed intervals. As a result, this capability is crucial for creating functional gradient coatings.
The system delivers excellent output stability. Specifically, this applies to both DC and pulse modes. Consequently, it ensures reproducible coating composition. Likewise, it guarantees consistent thickness batch after batch. Additionally, fast rise and fall times guarantee sharp pulses. Thus, the pulses are well-defined and reliable.
The closed-loop liquid cooling system handles high average power. Specifically, it supports up to 160kW of combined DC and pulse operation. Therefore, it ensures reliability in continuous production environments. Moreover, it maintains performance even under demanding conditions.
This technology is essential for R&D and production of next-generation coatings:
A: Products with the same nominal specifications often serve different industries, and they may carry different detailed parameter requirements. These differences directly affect production costs and technical solutions, so final prices will vary accordingly. For this reason, we recommend you contact us directly to receive a precise and tailored quotation.
A: We assign specialized consultants to support each industry sector. If you need further information, simply reach out to us. After we confirm your request, we will immediately send you the full technical datasheets and product images you need.
A: We focus on custom non-standard industrial power supplies, so we can fully adjust output current and voltage to match your exact needs. The products shown on our website only represent part of our actual range, as we do not list every model online. If you cannot find your desired specifications, please contact us directly. We will work with you to confirm your exact requirements, or we can guide you to select the most suitable parameters based on your industry standards. We will provide complete technical specifications and dimension drawings so you can fully understand the product.
