Complaint
| MTP Series Switching DC Power Supply | |||||
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| Overview | |||||
| MTP series high-precision DC test power supply adopts full-bridge phase-shift soft-switching technology, high output efficiency and small size; it has two-stage conversion circuit structure and double closed-loop control circuit system to ensure power supply with high stability and good output precision. It can meet the testing needs of power electronics industry, electronic device industry, new energy motor industry and power battery industry. | |||||
| Block diagram | |||||
| Features | |||||
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| Optional functions | |||||
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| Specifications | |||||
| Input | Connection mode | Three - phase, three - wire + GND | |||
| Voltage | 380V±10% | ||||
| Frequency | 50Hz/60Hz±5Hz | ||||
| Output | Rated power | 100kW | |||
| Output voltage adjusting range | 0V ~ 300.0V | ||||
| Output current adjusting range | 0A ~ 333.0A | ||||
| Output voltage precision | 0.5%FS | ||||
| Output current precision | 0.5%FS | ||||
| Line regulation | ≤0.2%FS | ||||
| Load regulation | ≤0.2%FS | ||||
| Temperature drift | 0.04%FS/ºC | ||||
| Time drift | 0.3%FS | ||||
| Ripple (Vr.m.s.) | ≤0.5% F.S (measured @ rated voltage with 80%-100% resistive loading) | ||||
| Response time | ≤20ms (measured @ 10%-90% resistive loading) | ||||
| Efficiency | ≥88% (measured @ 80%-100% resistive loading) | ||||
| Working ability | Withstand long-term continual working. | ||||
| Setting & Display | Control mode | Local | Front panel LCD touch screen. | ||
| Remote | RS485 communication interface. In line with MODBUS-RTU standard. | ||||
| Display mode | Touch screen display items as below:
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| Set & Display error | Voltage | 0.5%FS | |||
| Current | 0.5%FS | ||||
| Display resolution | Voltage | Four-digit display with a minimum resolution of 0.1V | |||
| Current | Four-digit display with a minimum resolution of 0.1A | ||||
| Automatic voltage compensation | ≤10V | ||||
| Over-loading ability | Iout≤1.25 Ie, output shutdown after 600s. Iout≤1.5Ie, output shutdown after 60s. Iout≤2Ie, output shutdown after 5s Iout>2Ie, output shutdown immediately. | ||||
| Protection & Monitoring functions | Input protection | Input lack voltage and lack phase protection. | |||
| Output over voltage protection (OVP) | Output over voltage protection value settable. Power supply automatically cuts off output and alarms when output has over voltage. | ||||
| Output over current protection (OCP) | Output over current protection value settable. Power supply automatically cuts off output and alarms when the output has over current. | ||||
| Over temperature protection (OTP) | Power supply automatically cuts off output and alarms when the internal temperature of the power supply exceeds 85 °C. | ||||
| Output short-circuit protection | Power supply automatically cuts off output and alarms when the output has short-circuit. | ||||
| Automatic voltage compensation protection | Output over compensation protection / compensation line reverse-connected protection | ||||
| Noise | ≤70dB | ||||
| Protection degree | IP20 | ||||
| Cooling method | Forced air cooling | ||||
| Safety features | Insulation resistance | ≥20MΩ | |||
| Withstand voltage ability | 60s test @ 2000VDC, no flash-over or spark-over. | ||||
| Grounding inductance resistance | ≤100mΩ | ||||
| Working conditions | Ambient temperature | 0ºC~45ºC | |||
| Humidity | 10%~90%(non-condensing) | ||||
| Height | ≤2000m | ||||
| Size (W*H*D) (mm) | 800*1800*800 | ||||
| Functions | |||||
Working modes | |||||
| The power supply has two working modes: CV / CC mode and CV / OC mode, customers can select different working modes according to actual use requirements. CV / CC mode Under CV / CC mode, the output voltage and current of power supply are continuously adjustable from 0 to the rated value.Power supply works either in constant voltage (CV) or constant current (CC) state, the CV & CC working state are automatically switchable, the switching conditions are determined by the voltage & current set values and the customer's load resistance value. For details, please refer to the following figure.In CV state, the output voltage is adjustable and regulated; the output current varies with the output voltage value and the customer load resistance.In CC state, the output current is adjustable and regulated, the output voltage varies with the output current value and the customer load resistance.CV / OC mode Under CV / OC (over current) mode, besides CV function, power supply still has over-current working ability, (OCP is invalid in this mode), detailed parameters as below:0% ~ 100% rated current value: continuous working with load100% ~ 125% rated current value: withstand 600s continuous working125% ~ 150% rated current value: withstand 60s continuous working150% ~ 200% rated current value: withstand 5s continuous workingPower supply automatic protected and stops output when Max. Over-current time exceeded. | |||||
LCD touch screen operation / display function | |||||
| The power supply adopts LCD touch screen for output parameters setting, working status and alarm information monitoring. The LCD screen has memory function which can automatically save the power failure occurrence time and fault phenomenon for easy query in real time. Also, the touch screen has lock screen function, which can automatically lock screen when the operation is not performed for a long time. Thereby preventing the wrong operation from changing the power output state by mistake. | |||||
OVP & OCP value setting function | |||||
| OVP and OCP value could be set via front control interface, power supply could automatically stop output when output voltage or output current exceeds the set protection values. OVP: over voltage protection value. OCP: over current protection value. | |||||
Automatic line voltage drop compensation function | |||||
| Power supply has automatic line voltage drop compensation terminals, connect the terminals to load ends; power supply could automatically detect load end voltage value and make voltage compensation for line voltage drop. Meanwhile, this function could detect if load connection is reverse connected or not. | |||||
Input voltage detection function | |||||
| Power supply has an input voltage detection circuit that generates an alarm and protects the power supply when an abnormality occurs in the input voltage. | |||||
Self-discharging function | |||||
| The power supply has built-in discharging circuit, which would be automatically activated to quickly release the energy stored in the output capacitor after the power supply stops output, so as to prevent personal injury caused by accidently touching the output terminal right after the power supply stops. | |||||
Short-circuit protection | |||||
| The power supply can adapt to two kinds of short-circuit conditions as below: If the power supply has short-circuit before starting output, then power supply can be normally started and running continuously for a long time. If power supply has a sudden short-circuit during running with load, then power supply would automatically stop output and gives sound alarm, LEDs on front panel would display corresponding alarm code. | |||||
Emergency stop function | |||||
| Power supply has emergency stop button for stopping output immediately in case of emergence. | |||||
Communication port | |||||
| Power supply equipped with RS485 communication port for remote control and monitoring via PC. | |||||
Analog signal port (optional) | |||||
| The power supply can be equipped with an external analog signal port via 0 ~ 10V or 4 ~ 20mA signal to realize power supply start / stop control, power supply running / fault status monitoring. | |||||
24V interlock circuit (optional) | |||||
| The power supply can be equipped with 24VDC output interface to build an interlock circuit with external devices. | |||||
Reverse energy discharging (optional) | |||||
| The power supply has automatic reverse energy discharging function, which automatically detects the reverse energy. When the load reverses the energy to the power supply device, the built-in discharging unit would be automatically turned on, and the discharging unit would be automatically turned off after the discharging is completed. The discharging reaction time is less than 1ms. | |||||
| Key technology introduction | |||||
Air duct design | |||||
| Full-sealing independent "Chimney" type air duct design adopted, the inner circuit uses independent cooling fan to improve the product heat dissipation effect, and the air inlet has dustproof measures, which greatly reduces dust and debris entering the power supply. The radiator and fan can be cleaned and maintained separately The heat dissipation system undergoes rigorous simulation and actual testing, and is designed with reliability in consideration of national standards and enterprise standards to ensure that the device with low temperature rise and long life. | |||||
Integrated design | |||||
| The power circuit adopts integrated design to give better impact resistance and eliminate the output uneven-current problem during full load operation or working with inductive load and rectifying load. This designed structure greatly improves the stability of power supply and prolong the working life of power supply. | |||||
Core component | |||||
| The key and important core devices are all internationally renowned brands, and high-quality devices ensure the stability and reliability of product operation. | |||||
| Installation environment | |||||
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