Alimentatori CC programmabili bidirezionali con uscita ad ampio raggio

Topologia del circuito

Wide range constant power output

(0~750V/60A/15KW, the schematic diagram is shown as below)

DC: Output or feedback rated power within the voltage range of 0V ~ 2250V, a single product can meet a wide range of application requirements.

Bidirectional energy flow

The programmable bidirectional power supply combines a power supply and an energy regenerable load. It has the characteristics of these two devices at the same time. It can not only work as a power supply, but also can be used as a load. The two modes can achieve seamless switching without time delay.

Color TFT touch screen and dual-knob control

Embedded with a 4.3-inch color IPS touch screen, the setting value and status can be viewed on the LCD display, single-finger control of touch screen can realize the operation of all functions, and the dual-knob design makes the operation more convenient and accurate.

Automatic multi-unit parallel operation, master-slave mode operation

With digital master-slave bus, it can realize parallel operation of up to 30 units, automatic parallel operation with automatic selection of master-slave mode, under multi-unit parallel connection mode, the host unit realize the control of all units in parallel, and display the total voltage, total current and total power. And the host unit can be controlled manually or remotely.

High efficiency, high power factor (as shown in the efficiency curve below)

The highest efficiency can reach up to 94.5%, and the power factor under rated conditions is >0.99.

Built-in function generator

Built-in a function generator that can send out typical waveforms, it can achieve single or combined output of triangle / rectangular / trapezoidal / sine / step waveforms, and can expand test waveforms based on LV123, ISO 7637, ISO16750 and other related standards.

LV123 full-function working range test waveform

Rising edge

Falling edge

LV123 working range upper limit test waveform

LV123 voltage ripple test waveform (ripple frequency range: 1HZ ~ 2KHZ)

ISO-16750-2-4.6.2 Voltage descent reset test waveform

ISO-16750-2-4.6.3 Start-up state waveform

Single module forward 15A to reverse 15A switching waveform (switching time <1.4mS)

Single module reverse 15A to forward 15A switching waveform (switching time <1.4mS)

Two-in-one bidirectional DC power supply with regenerable electronic load

Designed with bidirectional topology power supply architecture, it provides two quadrants with positive voltage/positive current and positive voltage/negative current operating ranges. It can be used as DC power supply or as a DC load for loading operation, and it could feedback absorbed energy to the grid, the conversion efficiency can be up to 94.5%.

This two-in-one bidirectional DC power supply also has the function as an energy feedback load and can be operated in constant voltage, constant current, and constant power working modes. Compared with traditional power supplies and loads, it has the advantages of small size, low energy loss, low heat dissipation and comprehensive testing functions.

With the popularization of electric vehicles, OBC on-board chargers run towards V2G (Vehicle to Grid), V2L (Vehicle to Load) and V2H (Vehicle to Home) through two-way charging and discharging with the grid management. The bidirectional DC power supply also provides a pure electronic load mode, with constant voltage (CV) / constant current (CC) / constant power (CP) modes, which can be used to simulate the charging behavior of the battery during the development and testing of on-board chargers. Only one device can meet the charging and discharging test of the bidirectional charger, unlike the traditional method, which requires a DC power supply and an electronic load.

Electric vehicle and energy storage microgrid power conversion test application

The rise of new energy PV / EV / Fuel Cell / Battery has become a market trend to replace traditional energy sources (coal, oil, etc.). However, a large number of grid connection requirements for electric vehicle operation and energy storage batteries will promote distributed energy storage microgrids commercialization more rapidly, along with the power conversion device moving towards bidirectional design, high efficiency, high voltage conversion and high-power density, combined with the rapid development of battery application trends, thus prompting the demand for bidirectional DC power supply test equipment.

Battery simulator

The bidirectional DC power supply can be combined with battery simulation software to become a battery simulator, which can simulate the operation under different battery power (SOC) conditions or specific battery characteristics V-I curve for battery charging or discharging simulation testing of the DUT (power conversion device), it is suitable for product testing such as on-board chargers, energy storage devices or motor drives.

Motor and drive test

The bidirectional DC power supply can allow continuous and seamless conversion between the two quadrants of the source and the load without changing the output characteristics or causing damage. It is suitable for many bidirectional DC-DC / DC-AC battery charging and discharging tests requiring fast charge-discharge conversion time. For the transient response ability of the current direction change, it has a high-speed transient response time, and the output voltage can be stabilized within 2ms.

When testing the acceleration and braking behavior of the motor driver on road conditions, the conversion between the battery system and the power system will result in the supply and recharging of electric energy. The dual-quadrant high-speed transient response characteristics can simulate the battery, convert according to the actual motor power demand and supply a stable voltage, and allow the current recharging when braking.

Automotive electronic standard test

The power supply has a built-in waveform generator, which can be expanded to achieve standard waveforms such as ISO 16750-2, ISO 7637, LV123 and LV 148. With the host computer software, one-key operation output test can be realized.

Photovoltaic inverter test

With optional MPPT function, the bidirectional power supply can simulate photovoltaic array (solar cell I-V curve), used for photovoltaic inverter MPPT point tracking test and aging test.

The I-V curve can be automatically generated by setting the corresponding parameters, and support parallel expansion of the same model models.

G parametri energetici

Ingresso

Fase

Trifase

Voltaggio

380VAC / 400VAC / 480VAC (-10% / +15%)

Frequenza

45 ~ 65Hz

Fattore di potenza

> 0.99

Protezione

Ever Temperation, Over Tenuage, Over Current, Over Power e Grid Sealter Protection.

Dimensione

483*133*775 (W*H*d) (mm)

Livello di potenza

Singolo: 10kW / 15KW opzionale

Intervallo di tensione

0V ~ 2250V

Intervallo attuale

-360a ~ 360a

15KW Low-Medium Voltage Models Specifications

Model

BPS15-60-360

BPS15-80-360

BPS15-20-210

BPS15-360-120

BPS15-500-90

BPS15-750-60

Power

15000W

15000W

15000W

15000W

15000W

15000W

Voltage Range

0~60V

0~80V

0~200V

0~360V

0~500V

0~750V

Current Range

-360A~360A

-360A~360A

-210A~210A

-120A~120A

-90A~90A

-60A~60A

Voltage Ripple

≤320mVpp

≤25mVRMS

≤320mVpp

≤25mVRMS

≤300mVpp

≤40mVRMS

≤320mVpp

≤55mVRMS

≤350mVpp

≤70mVRMS

≤800mVpp

≤200mVRMS

Voltage Accuracy

<0.1%UMax

<0.1%UMax

<0.1%UMax

<0.1%UMax

<0.1%UMax

<0.1%UMax

Current Accuracy

<0.2%IMax

<0.2%IMax

<0.2%IMax

<0.2%IMax

<0.2%IMax

<0.2%Imax

Efficiency

≤94.5%

≤94.5%

≤94.5%

≤94.5%

≤94.5%

≤94.5%

15KW High Voltage Models Specifications

Model

BPS15-1000-40

BPS15-1500-30

BPS15-2250-20

Power

15000W

15000W

15000W

Voltage Range

0~1000V

0~1500V

0~2250V

Current Range

-40A~40A

-30A~30A

-20A~20A

Voltage Ripple

≤1600mVpp

≤300mVRMS

≤2400mVpp

≤400mVRMS

≤3200mVpp

≤500mVRMS

Voltage Accuracy

<0.1%UMax

<0.1%UMax

<0.1%UMax

Current Accuracy

<0.2%IMax

<0.2%IMax

<0.2%IMax

Efficiency

≤94.5%

≤94.5%

≤94.5%