model | IPS-PFC3000-24 | IPS-PFC3000-36 | IPS-PFC3000-48 | IPS-PFC3000-60 | IPS-PFC3000-72 | IPS-PFC3000-110 | ||
Output parameter | DC output voltage | 24V | 36V | 48V | 60V | 72V | 110V | |
AC 220V input | Output current | 125A | 83.3A | 62.5A | 50A | 41.6A | 27.3A | |
Output Power | 3000W | 3000W | 3000W | 3000W | 3000W | 3000W | ||
efficiency | 89% | 91.2% | 91.6% | 92% | 92.3% | 93.2% | ||
AC 110V input | Output current | 91.7A | 61.1A | 45.8A | 36.7A | 30.6A | 20A | |
Output Power | 2200W | 2200W | 2200W | 2200W | 2200W | 2200W | ||
efficiency | 87.2% | 88.5% | 89.5% | 90% | 90.6% | 91.3% | ||
Tip: When using AC110V input, the output will automatically limit current and the power will automatically decrease to 2200W | ||||||||
Ripple (full load) | 170mv | 180mv | 200mv | 220mv | 230mv | 300mv | ||
Voltage regulation range | 14-24.5V | 21-36.5V | 27-48.5V | 34-60.5V | 41-72.5V | 62-111V | ||
The voltage is lowered, the maximum current remains the same, and the output power will decrease | ||||||||
Output overvoltage protection | 32V | 48V | 64V | 80V | 94V | 156V | ||
After overvoltage protection, the output is turned off and will not automatically recover Disconnect the input power supply, wait for 5 seconds, and then power on again to recover | ||||||||
Maximum capacitance load | 40000uF | 30000uF | 20000uF | 15000uF | 10000uF | 5000uF | ||
Load Regulation | ±1% | ±1% | ±1% | ±1% | ±1% | ±1% | ||
Voltage accuracy | ±3% | ±3% | ±3% | ±3% | ±3% | ±3% | ||
Start / rise time | 3S/60ms (AC220V input, at full load) 8S/60ms (AC110V input, at full load) | |||||||
Power-off keeping time | 8ms (at full load) | |||||||
Output wiring method | Copper strip terminal, M5 nut seat ,Need to use a power supporting copper terminal wiring | |||||||
1. Efficiency This parameter is measured under 100% full load conditions, the efficiency is not a constant value (refer to the following efficiency VS load graph) | ||||||||
2. Wave and noise measurement Method: Use 12 "twisted pair, output terminal parallel 0.1uf and 47uf capacitors, the oscilloscope bandwidth is limited to 20 Mhz. | ||||||||
input parameter | input voltage | AC 100-264V ( When the input voltage is low, the output will automatically limit the current and reduce the power ) |
Frequency Range | 47-63Hz | |
Input Current (Maximum value) | Full load 3000W output, use 220VAC input 16A Full load 2200W output, use 110VAC input 22A (AC 110V input, the maximum power is limited to 2200W) | |
Leakage current | ≤2.5MA/AC230V | |
Power factor ( PF value ) | Use the AC220V input and power 100% full load,Power factor ≥ 0.97 (refer to PF value in the figure below) Use the AC110V input and power 100% full load,Power factor ≥ 0.98 (refer to PF value in the figure below) | |
Input Wiring method | 3PIN KF78 spacing 14mm PCB fence type wiring terminal with protective cover | |
Enter a surge current | Cold start 220VAC/60A 110VAC/33A |
function |
PS-ON | PS-ON Terminal short circuit: power off output voltage PS-ON Terminal open: turn on the output voltage( Default is open ) Note: When the output voltage is turned off, the power is in low power standby state (standby power 17 watts), only only the auxiliary power supply circuit is working, the heat dissipation fan is working properly. It is not disconnected from the 220V input. |
Output voltage regulation | Output voltage adjustable, Adj-V potentiometer manually adjustment ) | |
Output current adjustment | The output current can be adjusted, the ADJ-A potentiometer manually adjusts, when the load reaches the current setting value, the constant current output (output current remains unchanged, the output voltage is reduced with the load) | |
Auxiliary voltage output | This machine provides a 12V-0.3A auxiliary voltage output | |
485 communication | This machine has 485 communication function |
Protective function |
Output overvoltage protection | When there is a voltage at the output end that is higher than the overvoltage protection point of the power supply (refer to the overvoltage point parameters in the table above), the overvoltage protection function is triggered. The power supply shuts off the output voltage and will not automatically recover. To disconnect the input power supply, wait for at least 5 seconds and then power on again to recover |
Output short circuit protection | Short time instantaneous short circuit: Close the output and automatically recover after 3 seconds Long lasting short circuit: Turn off the output and attempt to restart every 3 seconds (burp mode) | |
Output overload protection | 1. The overload protection method is constant current limiting. When the output is overloaded, the power supply enters constant current mode, keeping the maximum output current constant. The output voltage decreases with the increase of load 2. When a load of about 3 times the power is connected, it will exceed the range of the overload constant current limit of the power supply. At this time, it is judged as a short circuit, the power supply is turned off, and it will restart every 3 seconds (burp mode) | |
Overheating protection | 1. Overheating protection shutdown (when the temperature detection point reaches the high temperature protection setting value, the power is turned off, the temperature drops, and it automatically recovers) 2. Automatic current limiting in high temperature environments (the power supply monitors the ambient temperature in real-time, and when the ambient temperature is too high, the output will automatically limit the current and reduce the output power) The ambient temperature is below 50℃, the temperature derating function will not be activated The ambient temperature is 50-60℃, and the output is automatically limited to 80% power The ambient temperature is 60-70℃, and the output is automatically limited to 50% power The ambient temperature exceeds 70℃ and there is no output. | |
Fan failure protection | Either of the two cooling fans does not rotate or the fan is not detected, power supply has no output voltage | |
input Undervoltage protection | Input voltage below AC178V , output automatic current limiting (reduce output power to 2200W) Input voltage below AC100V , output automatic current limiting (reduce output power to 2000W) Input voltage below AC88V , power supply cannot start |
EMI | Conducted | CISPR32/EN55032 CLASS A | |
Radiated | CISPR32/EN55032 CLASS A | ||
Harmonic Current | EN61000-3-2 CLASS A | ||
Voltage Flicker | IEC/EN61000-3-3 | ||
EMS | ESD | IEC/EN61000-4-2 Contact ±4KV/Air ±8KV | perf. Criteria A |
Radiated Susceptibility | IEC/EN61000-4-3 3V/m | perf. Criteria A | |
EFT/Bures | IEC/EN61000-4-4 ±2KV | perf. Criteria A | |
Surge | IEC/EN61000-4-5 line to line ±2KV/line to ground ±4KV | perf. Criteria A | |
Conducted Susceptibility | IEC/EN61000-4-6 10Vr.m.s | perf. Criteria A | |
Voltage Dips and interruptions | IEC/EN61000-4-11 0%, 70% | perf. Criteria B | |
1. The power supply should be considered as a part of the components within the electrical equipment, belonging to accessories, rather than an independent device 2. When conducting radiation testing, the test sample should be placed on a metal plate with a length of 80cm, width of 60cm, and thickness of 2mm for testing. The power supply should cooperate with the load equipment to conduct overall electromagnetic compatibility related tests. | |||
