Onboard charger

hybrid suv project with brogen onboard charger
EV Projects

Hybrid SUV Project in Europe With Our 800V OBC & DC/DC Combo

Hybrid SUV Project in Europe With Our 800V OBC & DC/DC Converter Combo Project Overview As the automotive industry continues to evolve, the demand for innovative charging solutions is on the rise. In 2022, a European automotive company approached us for an 800V high-voltage onboard charger (OBC) to power their hybrid SUV project. They were in search of a reliable solution that could meet the unique requirements of their vehicle platform. Similar models of hybrid SUVs, as the newly developed vehicle remains confidential The Shift to 800V EV Cars With electric vehicle (EV) adoption expected to grow rapidly in the coming years, the next generation of EVs needs to offer longer range, faster charging, and higher power output to fully replace traditional gasoline-powered cars. To achieve these goals, EV battery systems require higher voltage configurations. This is why the shift from 400V to 800V platforms in the EV market has become inevitable. There are currently two main approaches to implementing an 800V platform for hybrid cars: Partial 800V Platform: This method retains some 400V components, such as air conditioning and DC/DC converters, while upgrading only specific high-voltage parts to 800V. Full 800V High-Voltage System: All high-voltage components, from the battery to the drivetrain (including the inverter, onboard power control unit, air conditioning compressor, and thermal management system), are designed with an 800V architecture. This approach significantly improves charging efficiency, speed, and overall system energy performance. 800V high-voltage platform architectures However, for automotive manufacturers, finding suitable EV systems that support the 800V high-voltage platform with high product quality and reliable performance is challenging. As a result, sourcing the right solutions becomes crucial and can require additional time and costs. How We Worked Despite extensive market research, the client had difficulty finding a reliable solution that matched the 800V high-voltage requirements for their hybrid SUV. When they reached out to us, we were able to offer them the solution from out range of EV onboard chargers and converters, which span from 3.3 kW to 40 kW, with high-voltage and V2X options. After reviewing their specifications, we proposed an OBC and DC/DC converter system designed for 800V EV cars that perfectly matched their needs. They quickly ordered samples for testing, and the results exceeded their expectations. Our system’s compact, lightweight design and high performance amazed the client.  Brogen team preparing the shipment of samples Result The client was so impressed with the results that they placed an additional order for 25 more units and signed a contract with us to begin preparing for mass production of their hybrid SUVs within 2 years. In total, they have ordered 30 units for the initial testing, with plans to order over 500 units for the first phase of production. These hybrid SUVs are set to lead the market with the latest automotive high-voltage system technology. System in This Project 10 kW Onboard Charger & DC/DC Converter Combo Appearance Dimension: 310*219*111 mm (connectors excluded) Weight: 9.2 kg Charging Mode Input voltage range: 90-264 VAC@1φ; 185-456 VAC@3φ Rated input voltage: 230 VAC@1φ; 380 VAC@3φ Input frequency range: 45-65 Hz Input current: 32 A max.@1φ; 16 A max.@3φ High Voltage Output Output voltage range: 350-800 VDC Max. output current: 13.8 A@1φ; 20.3A@3φ Output power: 6.6 kW max. @1φ; 9.6 kW max.@3φ Efficiency: ≥94@rated load; ≥95@half load Inverter Mode Input voltage range: 350-800 VDC Input current: 11 A max. Output voltage: 220 VAC (±5%)@1φ Output voltage frequency: 50 Hz (±1%) Rated output power: 3.3 kVA Output efficiency: 93% DCDC Mode Input voltage range: 350-800 VDC Output voltage range: 11-16 VDC Rated output voltage: 14 VDC Output current: 215 A continuous Output power: 3 kW continuous Explore Onboard Chargers Contact Info Get in touch with us by sending us an email, using the Whatsapp number below, or filling in the form below. We usually reply within 2 business days. Whatsapp: +8619352173376 Email: contact@brogenevsolution.com ContactFill in the form and we will get in touch with you within 2 business days.Please enable JavaScript in your browser to complete this form.Please enable JavaScript in your browser to complete this form. Name * FirstLast Work Email *Company Name *Your EV Project Type *– Please select –BusLight-duty truckHeavy-duty truckConstruction machineryVesselOthers (please write it in the note)Your Interested Solutions *– Please select –MotorBatteryChassise-AxleAuxiliary inverterOBC / DCDC / PDUAir compressorEPS / EHPSBTMSOthers (please write it in the note)Do you have other contact info? (Whatsapp, Wechat, Skype, etc.)Please introduce your EV project and your request here. * Checkbox * I consent to receive updates on products and events from Brogen, and give consent based on Brogen’s Privacy Policy. Submit

6.6 kW Onboard Charger & 2.5 kW DC_DC Combo
EV Products

6.6 kW Onboard Charger & 2.5 kW DC/DC Combo

6.6 kW Onboard Charger & 2.5 kW DC/DC Combo System Introduction This integrated system consists of a 6.6 kW onboard charger and a 2.5 kW DC/DC converter. The OBC converts energy from AC power grid into high-voltage DC power to charge the electric vehicle’s traction battery, with the entire charging process being monitored by the vehicle. The DCDC converter transforms the high-voltage DC power into the required low-voltage DC power, providing 12 V power supply to the vehicle and charging the auxiliary battery. The OBC and DCDC communicate voltage, current, and other information via the CAN bus, allowing for information exchange and status feedback with the Battery Management System (BMS) and Vehicle Control Unit (VCU). Applicable for PHEV and BEV Compact design for enhanced vehicle layout Flexible platform design Efficiency up to 92% Product Parameters Appearance System weight: 5.5 kg Size: 279*202*68 mm (connector and mounting feet not included) Charging Mode Input voltage range: 85 – 265 VAC Rated input voltage: 220 VAC Input frequency range: 45 – 65 Hz Input current: 32 A max Power factor: ≥0.98 @rated input, output, half load) Output voltage range: 270 – 450 VDC Rated output voltage: 350 VDC Max. output current: 22 A Output power: 6.6 kW max. Efficiency: ≥92% @rated input, output DC/DC Mode Input voltage range: 270 – 450 VDC Rated input voltage: 350 VDC Max. input current: 12 A Output voltage range: 9 – 16 VDC Rated output voltage: 14 VDC Output current: 180 A continuous Output power: 2.5 kW continuous Output power under charging status: 2 kW max. Efficiency: 92% @rated input, output Discover Our On Board Charger Solutions All Posts EV Industry EV Products EV Projects EV On Board Charger & DCDC Converter Combo EV On Board Charger (OBC) Experience peak performance and reliability with our integrated EV on board charger (OBC), DC/DC converter,… Read More Contact Us Get in touch with us by sending us an email, using the Whatsapp number below, or filling in the form below. We usually reply within 2 business days. Whatsapp: +8619352173376 Email: contact@brogenevsolution.com ContactFill in the form and we will get in touch with you within 2 business days.Please enable JavaScript in your browser to complete this form.Please enable JavaScript in your browser to complete this form. Name * FirstLast Work Email *Company Name *Your EV Project Type *– Please select –BusLight-duty truckHeavy-duty truckConstruction machineryVesselOthers (please write it in the note)Your Interested Solutions *– Please select –MotorBatteryChassise-AxleAuxiliary inverterOBC / DCDC / PDUAir compressorEPS / EHPSBTMSOthers (please write it in the note)Do you have other contact info? (Whatsapp, Wechat, Skype, etc.)Please introduce your EV project and your request here. * Checkbox * I consent to receive updates on products and events from Brogen, and give consent based on Brogen’s Privacy Policy. Submit

20 kW high voltage on board charger
EV Products

20 kW High Voltage On-Board Charger for EV

20 kW High Voltage On-board Charger for EV System Introduction This 20 kW high voltage on-board charger is designed to convert three-phase or single-phase AC input power into high-voltage DC power output. It is used to charge the vehicle’s power battery or supply power directly to other vehicle loads in real time.  Applicable for PHEV and BEV Worldwide usage by wide input range, 1 phase and 3 phase Flexible platform design Efficiency up to 95% Wide output voltage range from 200 to 715 VDC Product Parameters Output power: 3-phase 20 kW; 1-phase 6.6 kW Input voltage range: 3-phase 267 – 456 VAC; 1-phase 154 – 265 VAC Maximum input current: 32 A Input frequency range: 45 – 65 Hz Power factor: 0.99 (rated input, rated output, half load) Output voltage range: 200 – 715 VDC Maximum output current: 3-phase 42 A; 1-phase 14 A Peak efficiency: >95% Protection level: IP67 Weight: 40 kg Discover Our On Board Charger Solutions All Posts EV Industry EV Products EV Projects EV On Board Charger & DCDC Converter Combo EV On Board Charger (OBC) Experience peak performance and reliability with our integrated EV on board charger (OBC), DC/DC converter,… Read More Contact Us Get in touch with us by sending us an email, using the Whatsapp number below, or filling in the form below. We usually reply within 2 business days. Whatsapp: +8619352173376 Email: contact@brogenevsolution.com ContactFill in the form and we will get in touch with you within 2 business days.Please enable JavaScript in your browser to complete this form.Please enable JavaScript in your browser to complete this form. Name * FirstLast Work Email *Company Name *Your EV Project Type *– Please select –BusLight-duty truckHeavy-duty truckConstruction machineryVesselOthers (please write it in the note)Your Interested Solutions *– Please select –MotorBatteryChassise-AxleAuxiliary inverterOBC / DCDC / PDUAir compressorEPS / EHPSBTMSOthers (please write it in the note)Do you have other contact info? (Whatsapp, Wechat, Skype, etc.)Please introduce your EV project and your request here. * Checkbox * I consent to receive updates on products and events from Brogen, and give consent based on Brogen’s Privacy Policy. Submit

3-in-1 on-board charger (OBC) + DCDC+ PDU
EV Industry

Everything You Need to Know About The On Board Charger for Electric Vehicles

Everything You Need to Know About The On Board Charger for Electric Vehicles What is an on-board charger? An On Board Charger (OBC) is a device that converts AC power into DC power. It transforms the AC voltage from charging stations into the DC voltage required by the battery. OBCs are installed in electric vehicles (EVs) and plug-in hybrid electric vehicles (PHEVs). They enable these vehicles to be charged using AC power from residential or public charging stations. The output power of an OBC typically ranges from 3.3 kW to 22 kW. A significant advantage of OBCs is their ability to charge electric vehicles using standard household outlets. What are the different methods of charging an electric vehicle? Electric vehicle charging stations can be broadly categorized into two types: AC charging stations and DC charging stations. AC Charging Stations As the name suggests, AC charging stations provide alternating current (AC) from the electrical grid to electric vehicles. The onboard charger then converts the AC to direct current (DC) to charge the vehicle’s battery. These stations, also known as Level 1 and Level 2 chargers, are used in residential and commercial applications. The advantage of AC charging stations is that the OBC can adjust the voltage and current according to the vehicle’s needs. This eliminates the need for the charging station to communicate with the electric vehicle. However, the disadvantage is their low output power. It results in longer charging times. AC power from the grid is delivered directly to the OBC via an Electric Vehicle Supply Equipment (EVSE), which then converts it to DC and charges the battery via the Battery Management System (BMS). DC Charging Stations DC chargers take AC power from the grid and convert it to DC, bypassing the OBC to charge the battery pack directly. These chargers typically deliver high voltages up to 600V and currents up to 400A. Unlike AC chargers, which take 8-16 hours to charge a vehicle, DC charging stations can fully charge an electric vehicle in approximately 30 minutes. These stations are also known as Level 3 chargers, with the chargers referred to as DC Fast Chargers (DCFC) or Superchargers. The main advantage of DC chargers is their fast charging time. However, they are technically complex and need to communicate with the electric vehicle to charge it efficiently and safely. As shown in the typical DC charging system diagram, the EVSE bypasses the OBC and delivers DC power directly to the battery pack. The standard capacity of a DC charging station ranges from 50 kW to 300 kW. It’s more than 6 times the capacity of a single-phase on-board charger. However, AC charging through the OBC has less impact on the battery and minimizes battery aging. What are the functions of the onboard charger? To optimize charging speed, the OBC uses constant current charging at the beginning of the charge cycle and switches to constant voltage charging toward the end. Hardware architecture of the OBC The OBC primarily consists of the following hardware components: What are the trends and challenges in OBC development? The OBC is a critical component for both battery electric vehicles (BEVs) and plug-in hybrid electric vehicles (PHEVs). As the number of electric vehicles increases, the number of vehicles equipped with OBCs will also increase. At the same time, more electric vehicles will be equipped with DC fast charging capabilities.Key trends and challenges in OBC development include: Our On Board Charger Systems We boast a professional automotive R&D team dedicated to developing OBC products. Our R&D team members collectively possess an average of 14 years of experience in the automotive industry, encompassing expertise in both hardware and software domains. Our testing team meticulously plans testing procedures in alignment with OEMs’ stringent requirements. Looking ahead to 2024, we have ambitious capacity planning in place, aiming to reach an annual production capacity of 800,000 sets. This expansion will be supported by our expansive manufacturing center spanning 15,000 square meters, equipped to meet the growing demands of our clientele. Contact For EV systems inquiries, you can reach out to us at contact@brogenevsolution.com Or you can fill in the form below. You can expect a response from us within 2 business days.

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