购买MP18871
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MP18871 是一款隔离式半桥栅极驱动器解决方案,它具有高达 4A 的拉/灌电流峰值能力。该栅极驱动器专用于驱动具有短传播延迟和最小脉宽失真的功率开关器件。 MP18871 采用MPS 专有的容性隔离技术,可提供高达 5kVRMS 的耐受电压(符合 UL 1577规范,仅限SOIC 宽体封装)。它还可在输入端和输出驱动器之间提供高于 100kV/μs 的共模瞬态抗扰度 (CMTI) 额定值。凭借这些高级功能,MP18871可为各种电源应用提供高效率、高功率密度和高稳健性的栅极驱动方案。
MP18871 在一个封装中集成了双通道栅极驱动器。每个输出都可以单独接地,或连接至正/负电压基准。其副边拓扑可配置为半桥高边(HS) 和低边 (LS) 驱动器,并由单个 PWM 输入信号控制。为防止半桥驱动器发生直通,MP18871 还提供通过外部电阻设置的可调死区时间。
该驱动器具备宽原边 VDDI 电源电压 (VDDI) 范围,可与 3.3V 和 5V 数字控制器连接。其副边驱动器可接受高达 30V的电源电压。另外,所有电源电压引脚均具备多种欠压锁定 (UVLO) 保护选项。
MP18871 提供 SOIC-16 NB(窄体)、SOIC-16 WB(宽体)和 LGA-13 (5mmx5mm) 封装。
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产品特性和优势
- 高达 5kVRMS 的输入输出隔离能力(SOIC-16 WB 封装)
- 两个副边驱动器之间提供 1500VDC 功能隔离(SOIC-16 NB 和 SOIC-16 WB 封装)
- 两个副边驱动器之间提供 700VDC 功能隔离(LGA-13 封装)
- 共模瞬态抗扰度 (CMTI) >100kV/μs
- 2.8V 至 5.5V 的输入 VDDI 电压 (VDDI) 范围,兼容TTL 和 CMOS 输入接口
- 高达 30V 的输出驱动电源,且具有多种欠压锁定 (UVLO) 保护选项
- 4A 拉/灌电流峰值输出
- 50ns 典型传播延迟
- 重叠保护和可调死区时间控制
- -40°C 至 +125°C 工作温度范围
- 符合UL 1577 认证:
- SOIC-16 NB:3kVRMS 隔离达60s
- SOIC-16 WB:5kVRMS 隔离达 60s
- LGA-13:2.5kVRMS 隔离达 60s
- 符合DIN EN IEC 60747-17 (VDE 0884-17) 2021-10 认证:
- SOIC-16 NB:4242VPK 隔离
- SOIC-16 WB:6000VPK 隔离
- LGA-13:3535VPK 隔离
- 符合GB 4943.1-2011 CQC 认证
- 采用 SOIC-16 NB、SOIC-16 WB 和 LGA-13 (5mmx5mm) 封装
正在供货产品型号
MP18871-A4BGLU-Z MP18871-A4BGLU-P
以 P 和 Z 结尾的零件编号是相同的零件。P 和 Z 仅表示卷筒尺寸
P&Z的含义
MP18871 Resources
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APPLICATION
直流快速充电站应用随着电动汽车的普及,直流快速充电站也越来越常见。充电站作为主要高速公路沿线和人口稠密郊区基础设施的重要组成部分,可确保电动汽车在长途旅行和日常驾驶期间及时充电。充电站系统通常由多个25kW至75kW的模块组成,可以创建快速充电系统,提供150kW至400kW的功率,并可在最快20分钟内将电动汽车的电池电量从10%充至90%。 MPS 的大型隔离解决方案组合包括了隔离栅极驱动器、隔离栅极驱动器电源、数字隔离器、霍尔效应电流传感器和非隔离 DC/DC 变换器。这些组件可用于偏置和驱动 SiC/IGBT,并通过将变压器集成到芯片级封装中来提供高功率密度。MPS解决方案通过容性隔离来实现高 CMTI 和磁噪声抗扰度,能够满足最严格的高功率规范。 MPS 强大的隔离解决方案能够为下一代直流快速充电站供电提供所需的一切。
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ARTICLE
采用MP188XX 隔离式栅极驱动器系列构建电源系统技术文章电源对5G 通信、数据中心、光伏逆变器、车载电源、充电桩以及LED 控制系统至关重要。 与此同时,所有这些电源系统都需要一个隔离式栅极驱动器来高效、可靠地驱动开关管,以进行电源转换。 小充电器和大栅极传输是隔离式栅极驱动器的特色。它广泛应用于大功率和高电压应用,绝缘安全且控制快速。图 1 显示了隔离式栅极驱动器的常见电源系统应用。 隔离系列产品通常包括光电隔离器件、变压器隔离器件和电容隔离器件。其中光电隔离器相对而言传输延迟较长、失真高且通道匹配率低。 随着工艺的发展和新型功率器件(如Si、IGBT、SiC、GaN等)的不断涌现,对开关频率和驱动电压的要求也各不相同。为每个独特的应用选择最佳驱动器显得愈发重要。 MP188xx 系列为高电压隔离式驱动器,具体包括MP18831、MP18851和MP18871。这些器件提供两种启用逻辑(启用和禁用)和三种封装选项:...
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ARTICLE
高度集成赋能电源管理的创新技术文章现代设备智能化和可定制程度不断提高,用户也提出更小、更强大的要求。处理能力的增强推动了以更高功率密度管理散热的技术需求。MPS始终致力于创新并创建具有尖端效率和功率密度的高度集成变换器和控制器。通过将整个解决方案集成到单片硅芯片上,工程师可以简化系统设计、缩短上市时间、降低BOM成本,同时节省电路板空间。 集成解决方案将复杂的单个元器件组合在一起,实现了更高的可靠性。由于物理部件较少而且无焊接,这种方案还减少了PCB 组装中的一些故障模式。由于需要管理和调节的走线更少,与庞大的传统解决方案相比,设备出现急剧升温的可能性也不大,功耗因而更低。在芯片较少发生故障的情况下,集成解决方案可以轻松地完成更换和测试,而无需对电路板上的每个元器件都进行故障排除。 集成和智能是创新电源管理解决方案的关键因素。例如,MPX2002是一款无需反馈电路或辅助绕组来驱动下管SR MOSFET的一体化反激式控制...
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PRODUCT CATEGORY
隔离栅极驱动器产品类目 -
PRODUCT
MP18831产品隔离式、双输入控制、高/低端半桥栅极驱动器
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PRODUCT
MP18811产品带分离输出的隔离式单通道栅极驱动器
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MP18851产品隔离式、双输入控制、独立双通道栅极驱动器
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PRODUCT
MPQ18833-AEC1产品具有5.84mm通道间距的隔离式半桥栅极驱动器,符合 AEC-Q100 认证
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MPSCHOLAR
APPLICATIONS & USE CASES OF ISOLATED POWER SUPPLIES IN GATE DRIVINGMPSCHOLARIn a wide variety of applications, ranging from electric automobiles to industrial machinery, variable-speed AC/DC drives play a crucial role in managing the speed and torque of electric motors. Functionality: The speed of an electric motor can be adjusted by these drives by adjusting the power that is provided to them. This is accomplished by modulation techniques such as pulse width modulation ...
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MPSCHOLAR
CHALLENGES AND SOLUTIONS IN DESIGNING ISOLATED POWER SUPPLIES FOR GATE DRIVINGMPSCHOLARThe process of designing an isolated power supply for gate driving involves a unique set of challenges, particularly when it comes to resolving electrical requirements. These issues, which include power output and stability in addition to electromagnetic interference (EMI), call for the development of creative solutions in order to guarantee the effective and dependable operation of gate drivers i...
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MPSCHOLAR
TYPES OF ISOLATED POWER SUPPLIES FOR GATE DRIVERSMPSCHOLARFlyback converters are an essential type of isolated power supply commonly found in gate driver circuits. They are particularly well-suited for applications that prioritize compact size, efficiency, and reliable isolation at lower to moderate power levels. Known for their simplicity and versatility, flyback converters operate by storing energy in a magnetic field during one phase and transferring ...
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MPSCHOLAR
ISOLATED POWER SUPPLY ARCHITECTURESMPSCHOLARCentralized isolated power supply architectures play a crucial role in gate driver applications, offering a streamlined approach to power distribution and isolation that is specifically designed to meet the needs of gate driving requirements. This architecture type centralizes the power supply into a single unit, which then distributes power to different components of the system, ensuring electric...
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MPSCHOLAR
NEED FOR ISOLATED GATE DRIVING POWER SUPPLIESMPSCHOLARFundamental Safety Concerns: Ensuring safety is of utmost importance when it comes to gate-driving power supplies, especially in high-power applications. Isolation is essential for ensuring users' safety and preventing damage to sensitive electronic components caused by high voltage levels or electric shock. Protection Against Direct Contact: Isolation guarantees that there is no direct elec...
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MPSCHOLAR
ISOLATED POWER SUPPLIES FOR GATE DRIVINGMPSCHOLAR -
MPSCHOLAR
CASE STUDY: AN IN-DEPTH LOOK AT A SPECIFIC APPLICATIONMPSCHOLARWithin the context of an advanced electric vehicle (EV) powertrain system, the development of isolated gate drivers is the primary emphasis of this individual case study. Power economy, dependability, and safety are of the utmost importance in the electric vehicle industry, which is a sector that is quickly evolving. The purpose of this in-depth investigation is to demonstrate the significant role...
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MPSCHOLAR
PRACTICAL APPLICATIONS AND USE CASESMPSCHOLARFigure 1: Common Applications of Isolated Drivers Isolated gate drivers, as essential interfaces between control circuits and power electronics are essential components in motor control systems. These drivers are important to the operation of these systems. The power switches, such as IGBTs or MOSFETs are responsible for controlling the speed, torque, and direction of the motor. Their contribut...
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MPSCHOLAR
CHALLENGES IN ISOLATED GATE DRIVERS DESIGNMPSCHOLARThermal management and heat dissipation are two of the most critical issues that arise during the design process of isolated gate drivers. These elements are quite important because temperature has an effect on gate drivers' dependability, performance, and longevity. Heat Generation Sources: In isolated gate drives, the primary sources of heat generation are two different sources, respectively. F...
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MPSCHOLAR
COMPONENTS AND ARCHITECTUREMPSCHOLARPulse-Width Modulation (PWM) Signals: PWM signals play a crucial role in the functioning of isolated gate drivers, particularly in the realm of power electronics. These signals adjust the length of time that power switches (such as MOSFETs or IGBTs) remain in the 'on' state by modifying the width of the pulse while maintaining a consistent frequency. PWM signals play a vital role in the regulation...
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MPSCHOLAR
WORKING PRINCIPLES OF ISOLATED GATE DRIVERSMPSCHOLAREnsuring the safety and integrity of electronic systems is of utmost importance, especially in applications involving high voltages or where electrical isolation is necessary between the control and power stages. Figure 1: Isolated Gate Driver Concept Protecting Control Circuitry: One of the main purposes of isolation in gate drivers is to safeguard the low-voltage control circuitry from the p...
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MPSCHOLAR
INTRODUCTION TO GATE DRIVERSMPSCHOLARGate drivers are essential components in modern electronics. They are specialized circuits that have the important task of controlling the operation of power switches, such as MOSFETs and IGBTs. Their main purpose is to supply the required drive voltage and current to the gate of these power devices. Figure 1: Gate Drive between Microcontroller and Power Transistor Fundamental Role: Gate drive...
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MPSCHOLAR
ISOLATED GATE DRIVERSMPSCHOLAR -
ARTICLE
设计高性能、高功率密度车载充电器技术文章电动汽车 (EV) 日益普及,全球性和国家级的各种激励措施层出不穷,更是提高了其性价比(见图 1)。2023 年,电动汽车销量已超过 1300 万辆,其中,纯电动汽车 (BEV) 和插电式混合动力汽车 (PHEV) 的销量较 2022 年增长了 30% 以上。 随着碳中和成为全球宏伟目标,汽车制造商也继续加大电动汽车的研发力度。电动汽车300 英里的续航里程基准不断被超越,达到 400 英里、甚至500 英里。与此同时,大多数插电式混合动力汽车提供的动力系统仅靠电池即可行驶 25 至 50 英里,而且还可以用内燃机作为电池的补充。 电动汽车最受关注的一个方面就是汽车的充电速度,而影响电动汽车在家充电的一个系统则是车载充电器 (OBC)。OBC 可以将用户家中的交流电网电压转换为可以为 EV 或 PHEV 电池充电的直流电压。这些电池通常使用 L1 或 L2 交流充电器充...
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PRODUCT
MPQ18851产品汽车级、隔离式、独立双通道栅极驱动器
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PRODUCT
MPQ18831产品汽车级、隔离式、双输入半桥栅极驱动器
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ARTICLE
安全驱动:用于大功率应用的隔离式栅极驱动器技术文章新的技术与市场趋势不断对功率能力和解决方案尺寸提出更高需求。电动汽车、可再生能源微电网、海量储能和大功率电信应用的发展也对功率密度提出了更高的要求。 以往专用于特定大功率应用的电压和功率水平现在在日常应用中也越来越普遍,这意味着曾经可原谅的性能问题现在也变得无法忍受。这类应用的主要限制传统上来自于电源开关技术,尤其是硅半导体的性能限制。但宽禁带 (WBG) 半导体的出现突破了这个瓶颈,实现了高压、高频的电源变换器设计。 然而,高功率和高速率的结合为设计人员设计变换器带来一系列新的问题。例如,电源转换模块中的高电压与控制模块中的弱小信号电路之间会产生不必要的耦合,本文将主要讨论这种情况带来的危害。 栅极驱动器是很多电源变换器中的常用元件。由于控制电路在低电压下运行,控制器无法提供足够的电力来快速安全地打开或关闭电源开关。因此,来自控制器的信号被发送到可以承受更高功率的栅极驱动器...
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