MODEL | IPS-PFC1000-24 | IPS-PFC1000-36 | IPS-PFC1000-42 | IPS-PFC1000-48 | IPS-PFC1000-60 | IPS-PFC1000-72 | IPS-PFC1000-110 | IPS-PFC1000-150 | |
Output parameters | DC Output Volt | 24VDC | 36VDC | 42VDC | 48VDC | 60VDC | 72VDC | 110VDC | 150VDC |
Rated Output Curr | 41.7A | 27.8A | 23.8A | 20.8A | 16.7A | 14A | 9.1A | 6.7A | |
Rated Output Pwr | 1000W | 1000W | 1000W | 998W | 1002W | 1008W | 1001W | 1005W | |
Volt Reg Range | 14-24.5V | 21-36.5V | 24-42.5V | 27-48.5V | 34-60.5V | 41-72.5V | 62-111V | 84-151V | |
Note: If the output voltage is lowered, the maximum output current remains unchanged, and the power will decrease | |||||||||
Output OVP Value | 32V | 46V | 59V | 59V | 78V | 90V | 142V | 182V | |
Protection method: Turn off the output. Wait for 5 seconds after powering off, then power on again to recover | |||||||||
Eff (100% Load) | 88.8% | 90% | 90% | 90.3% | 90.6% | 90.6% | 91% | 91.3% | |
Note: Efficiency is measured at AC220V input, but when using AC110V input, efficiency will decrease | |||||||||
Ripple (Full Load)
| 140mv | 150mv | 150mv | 150mv | 180mv | 200mv | 250mv | 300mv | |
Note: Ripple and noise test method: connect 47uF Electrolytic capacitor and 0.1UF Ceramic capacitor in parallel at the load end (in order to reduce the impact of new external series interference on the test). The Bandwidth throttling of the oscilloscope is limited to 20MHZ, which should be measured from the load end | |||||||||
Max Capacitive Load
| 20000uF | 15000uF | 12000uF | 10000uF | 6000uF | 3500uF | 1800uF | 1000uF | |
Load Adjust Rate
| ±1% | ±1% | ±1% | ±1% | ±1% | ±1% | ±1% | ±1% | |
Volt Accuracy
| ±3% | ±3% | ±3% | ±3% | ±3% | ±3% | ±3% | ±3% | |
Start-up/Rise Time
| 3S, 60ms/230VAC(At full load) 8S, 60ms/110VAC(At full load) | ||||||||
Hold-up Time
| 8ms/230VAC(At full load) | ||||||||
Input parameters
| AC Input Volt
| AC 110-240V | |||||||
AC Input Freq
| 47-63Hz | ||||||||
Standby Pwr
| 7 watts | ||||||||
Max Input Curr
| Full load 1000W output, using 220VAC input, input current 5A Full load 1000W output, using 110VAC input, input current 11A | ||||||||
PF
| At 100% full load, the power factor PF value is ≥ 0.99 (refer to the PF value curve in the figure below) | ||||||||
Surge Curr
| 220VAC/40A 110VAC/22A | ||||||||
Function |
PS-ON | PS-on terminal short circuit: no output voltage of power supply PS-on terminal open circuit : The power supply has an output voltage Note: PS-on can control the power output voltage on and off. When the output voltage is turned off, the power supply is in the low power standby state ( 7 watts), and only the auxiliary power supply circuit is working inside. The cooling fan will operate normally, not the power supply of 220V input end will be disconnected. | |||||||
Output Volt Adjust | The output voltage is adjustable, and the potentiometer V is manually adjusted. See the parameters in the above table for the adjustment range | ||||||||
Output Curr Adjust | The output voltage is adjustable, and the potentiometer V is manually adjusted. See the parameters in the above table for the adjustment range | ||||||||
Output OVP | About 130% of the rated output voltage, the output is turned off and will not recover. To disconnect the input power supply, wait for 5 seconds before re energizing to restore | ||||||||
Protection function | Output Short-Circuit Prot | 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 Prot | 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 (note: this power supply does not have short-term peak current OPP, nor does it output overcurrent) 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) | |||
Overheat Prot | 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. When the temperature drops below 50℃ degrees Celsius, it will automatically recover | |||
Fan Failure Prot | The cooling fan does not rotate, or the fan is not detected ,The power supply has no output voltage | |||
Input Undervoltage Prot
| The input AC power supply voltage is lower than 96V, and the power supply has no output and cannot be used | |||
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 ±8KV/Air ±15KV | perf. Criteria A | |
Radiated Susceptibility | IEC/EN61000-4-3 10V/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 & 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 50cm, and thickness of 2mm for testing. The power supply should cooperate with the load equipment to conduct overall electromagnetic compatibility related tests. 3. When conducting conduction/radiation related tests, pure resistive loads should be used | ||||
Insulation Impedance
| I/P-O/P,I/P-FG,0/P-FG:100M Ohms /500VDC /25℃/70%RH | |||
Leakage Curr
| ≤2.5MA/AC220V | |||
Withstand Volt
| Input and output: 2500VAC Input and ground: 1500VAC Between output end and housing: 500VAC | |||
other |
Heat Dissipation Mode | Fan heat dissipation (temperature controlled speed regulation, internal blowing) | ||
Cooling Fan
| In an indoor environment of around 20-25 decibels, when the two fans rotate at full speed, a measurement of around 35 decibels is made at a distance of 1 meter from the power supply | |||
Working Temp
| -30℃ - 40℃ . Overheating can cause a decrease in power, please refer to the temperature load reduction curve in the following text | |||
size | Length 268mm * width 131mm * height 41mm | |||
weight | 1.4kg (excluding package and accessories) | |||
Installation Hole Position
| Length spacing: 260mm Width spacing: 120mm Use the installation holes at the four corners of the casing | |||
