Three Phase Full-Bridge Assembiles Of B6 Series

Type	Cooling Method	Device Type	Rate Output Current Id(A)	Cooling Condition	Device Voltage (V)	Outline
PDDN-*B6x-xxx-xxxFA	Air Cooling	PDDN-Modules	80-200	PDDN-Wind speed ≥ 6m/s ambient temperature ≤ 40 ℃	100-2000	B6x-xxx-xxxFA
PDDN-*B6x-xxx-xxxFB	Air Cooling	PDDN-Modules	200-300	PDDN-Wind speed ≥ 6m/s ambient temperature ≤ 40 ℃	100-2000	B6x-xxx-xxxFB
PDDN-*B6x-xxx-xxxFC	Air Cooling	PDDN-Modules	300-500	PDDN-Wind speed ≥ 6m/s ambient temperature ≤ 40 ℃	100-2000	B6x-xxx-xxxFC
PDDN-B6x-xxx-xxxFD	Air Cooling	PDDN-Capsule types devices	400-1600	PDDN-Wind speed ≥ 6m/s ambient temperature ≤ 40 ℃	100-2000	B6x-xxx-xxxFD
PDDN-B6x-xxx-xxxFE	Air Cooling	PDDN-Capsule types devices	1000-2000	PDDN-Wind speed ≥ 6m/s ambient temperature ≤ 40 ℃	100-2000	B6x-xxx-xxxFE
PDDN-B6x-xxx-xxxFF	Air Cooling	PDDN-Capsule types devices	1500-3000	PDDN-Wind speed ≥ 6m/s ambient temperature ≤ 40 ℃	100-2000	B6x-xxx-xxxFF
PDDN-B6x-xxx-xxxSA(B/C/D)	PDDN-Water Cooling	PDDN-Capsule types devices	300-4000	flow ≥ 4L/Min intake water ≤ 40 ℃	100-2000	B6x-xxx-xxxSA

PDDN-Series	Type Applicationgs	PDDN-Notes
Three-phase rectifying bridge B6C seriesThree-phase full-control bridge B6C seriesThree-phase half-control bridge B6C series	PDDN-Na	Na

Overview of Three-Phase Full-Bridge Assembiles of B6 Series

Three Phase Full Bridge Assembly of B6 Series refers to an advanced power electronic component specifically designed for three-phase AC power conversion. It integrates multiple power semiconductor switching devices (such as IGBTs or MOSFETs) and their auxiliary circuits to construct a complete and efficient three-phase full bridge rectifier and inverter circuit. These components typically have high modularity, reliability, and performance optimization characteristics, aimed at meeting the strict requirements for energy conversion in various industrial and commercial applications.

The B6 series three-phase full bridge components are a high-performance power electronics solution that combines the latest semiconductor technology and advanced thermal design to achieve excellent energy conversion efficiency and reliability. The core of this component is a three-phase full bridge structure composed of six independent half bridge circuits, each of which contains a pair of complementary switching devices. By precisely controlling the on/off state of these switching devices, efficient rectification and inversion of input three-phase AC power can be achieved, thereby outputting the required DC or controllable AC power. In addition, the B6 series three-phase full bridge components are equipped with comprehensive protection functions, such as overcurrent protection, overheating protection, and undervoltage protection, to ensure the safety and stability of the system under abnormal working conditions.

Characteristics of Three-Phase Full-Bridge Assembiles of B6 Series

Efficient performance: By using advanced semiconductor materials and low loss design, the B6 series three-phase full bridge components have extremely low conduction and switching losses during the power conversion process, thus achieving efficient operation.

High reliability: Through strict thermal design and heat dissipation measures, ensure that components can maintain stable performance even under long-term high load operation. At the same time, comprehensive protection functions effectively prevent damage caused by abnormal situations such as overcurrent and overheating.

Modular design: The B6 series three-phase full bridge components adopt a modular design, making installation and maintenance simple and fast. At the same time, this design also improves the scalability and flexibility of the system.

Widely applicable: Due to its excellent performance and reliability, the B6 series three-phase full bridge components are widely used in various situations that require efficient energy conversion, such as industrial motor drives, wind power generation, solar inverters, etc.

Application of Three-Phase Full-Bridge Assembiles of B6 Series

Industrial automation and robotics technology: In the field of industrial automation, the B6 series three-phase full bridge components play a crucial role. They provide precise and efficient control for motors and are core components in automation equipment such as robots, conveyors, and packaging machines.

(Application of Three-Phase Full-Bridge Assembiles of B6 Series)

Renewable energy systems: The B6 series three-phase full bridge components play a crucial role in renewable energy systems. In photovoltaic systems, they convert the direct current generated by solar panels into alternating current suitable for grid connection. In wind power generation, these components convert the variable AC power generated by the wind turbine into stable and grid compliant AC power, thereby achieving efficient utilization of wind energy.

(Application of Three-Phase Full-Bridge Assembiles of B6 Series)

Uninterruptible Power Supply (UPS): In UPS systems, the fast and reliable power conversion capability of the B6 series three-phase full bridge components is crucial. They ensure a continuous and stable power supply in the event of power failure, protecting sensitive equipment from power fluctuations and surges.

Power grid stabilization: The B6 series three-phase full bridge components can also be applied in the field of power grid stabilization to compensate for reactive power and reduce harmonic distortion. They help improve power quality, reduce energy losses, and enhance the overall efficiency of the power grid by providing precise power control.

(Application of Three-Phase Full-Bridge Assembiles of B6 Series)

Power quality improvement: In the power system, the B6 series three-phase full bridge components can also be used in active filters and harmonic compensation devices to improve power quality and reduce the impact of harmonics on the power grid.

Company Profile

PDDN Photoelectron Technology Co., Ltd. (sales@pddn.com) focuses on the research, development, and application of power electronics technology and is devoted to supplying customers with high-quality transformers， thyristors, and other power products. Our company mainly has solar inverters， transformers, voltage regulators, distribution cabinets, thyristors， modules， diodes， heatsinks, and other electronic devices or semiconductors. The electronic devices and semiconductor products provided by PDDN Photoelectron Technology Co., Ltd. have the characteristics of high efficiency, safety, and reliability. They are widely used in power systems, industrial control, energy management, and other fields.

It accepts payment via Credit Card, T/T, West Union, and Paypal. PDDN will ship the goods to customers overseas through FedEx, DHL, by sea, or by air. If you are looking for a high-quality Three-Phase Full-Bridge Assembiles of B6 Series supplier, we invite you to contact us or click on related products to inquire.

Payment methods for Three-Phase Full-Bridge Assembiles of B6 Series

L/C, T/T, Western Union, Paypal, Credit Card etc.

Shipment of Three-Phase Full-Bridge Assembiles of B6 Series

Once payment is received, by sea, by air, or by express as soon as possible.

FAQ

Q1:

What is the B6 series three-phase full bridge component?

Re: B6 series three-phase full bridge components are power electronic devices used to control the operation of three-phase AC motors. It mainly consists of six switching tubes (usually insulated gate bipolar transistor IGBT or power MOSFET), and through the on/off combination of these switching tubes, functions such as forward and reverse rotation, speed regulation, and braking of the motor can be achieved. The B6 series refers to the models or specifications of this series of components, usually with specific performance parameters and application ranges.

Q2:

What are the main performance parameters of the B6 series three-phase full bridge components?

Re: The main performance parameters of the B6 series three-phase full bridge components include maximum operating voltage, maximum operating current, switching frequency, control accuracy, efficiency, thermal resistance, etc. These parameters determine the performance and applicability of the component in different application scenarios. For example, the maximum working voltage and current determine the maximum power that the component can handle, the switching frequency and control accuracy determine the accuracy and response speed of motor control, and efficiency and thermal resistance reflect the energy consumption and heat dissipation performance of the component.

Q3:

How to choose the suitable B6 series three-phase full bridge components?

Re: Choosing a suitable B6 series three-phase full bridge component requires considering multiple factors, including the power demand of the application scenario, the type and specifications of the motor, the requirements of the control system, and cost budget. Firstly, it is necessary to determine the power level of the component based on the rated voltage and current of the motor. Secondly, considering the control accuracy and dynamic response requirements of the motor, select components with sufficient switching frequency and control accuracy. In addition, it is necessary to consider factors such as the cooling performance, reliability, and cost of the components to ensure that the selected components can meet practical application requirements.

Q4:

What are the precautions for the heat dissipation design of B6 series three-phase full bridge components?

Re: The heat dissipation design of the B6 series three-phase full bridge components is crucial for their reliability and long-term operation. In heat dissipation design, it is necessary to pay attention to the following points: first, ensure that the cooling fins or radiators of the components have sufficient heat dissipation area to effectively dissipate the heat generated by the components during operation. Secondly, it is necessary to design the cooling channels and fan layout reasonably to ensure that the dissipated heat can flow smoothly through the surface of the components and improve the cooling efficiency. In addition, it is necessary to consider factors such as the working environment temperature and heat dissipation conditions of the components, as well as the thermal conductivity of the heat dissipation materials, to ensure that the components can operate stably even in harsh environments.

Q5:

What are the maintenance and upkeep requirements for the B6 series three-phase full bridge components?

Re: For the maintenance and upkeep of B6 series three-phase full bridge components, it is necessary to pay attention to the following points: first, regularly check whether the connection wires and interfaces of the components are loose or damaged to ensure reliable electrical connections. Secondly, it is necessary to regularly clean the surface and heat sink of the components to remove dust and dirt and maintain heat dissipation performance.