MAX668:1.8V至28V输入、PWM升压型控制器,µMAX封装
灵活的转换架构提供升压、SEPIC、反激或隔离拓扑,MAX668输出电压仅受外部元件额定值的限制
MAX668/MAX669固定频率、脉宽调制(PWM)、电流模式DC-DC控制器设计用于较宽范围输入的DC-DC转换应用,包括升压、SEPIC、反激和隔离输出结构。可输出20W或更高功率,转换效率高于90%。1.8V至28V输入电压范围支持较宽范围的电池或交流供电输入。先进的BiCMOS设计具有低工作电流(220µA)、可调节工作频率(100kHz至500kHz)、软启动,同步输入允许MAX668/MAX669振荡器与外部时钟同步。 DC-DC转换效率经过优化,具有100mV低电流检测电压,以及Maxim专有的Idle Mode™控制方法。中、高负载时,控制器工作在PWM模式,具有最低噪声和最优效率,只有在轻载条件下利用脉冲模式(较小电感电流)减小工作电流、最大程度提高效率。器件也包括逻辑电平关断输入,将供电电流降低至3.5µA。 MAX669优化用于低输入电压,可保证启动电压为1.8V,要求自举操作(IC由升压输出供电)。器件支持高达28V的输出电压。MAX668采用低至3V的输入电压工作,可连接为自举或非自举(IC由输入电源或其它电源供电)配置。非自举配置时,对输出电压无限制。两款IC采用尺寸非常小巧的10引脚µMAX®封装。
关键特性
| MAX668、MAX669:典型工作电路 应用
|
数据手册DataSheet
| 语言 | 下载文件 | 备注 |
|---|---|---|
| 英文 | MAX668-MAX669.pdf | Rev 3; 06/2016 |
关键参数
| Part Number | VIN (V) | VIN (V) | VOUT1 (V) | VOUT1 (V) | IOUT1 (A) | Output Adjust. Method | Switch Type | ICC (mA) | Shutdown Mode Supply Current (µA) | Shutdown Mode Supply Current (µA) | DC-DC Outputs | Oper. Freq. (kHz) | Design Tools | Package/Pins | Budgetary Price |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| min | max | min | max | max | typ | typ | max | See Notes | |||||||
| MAX668 | 3 | 28 | 3 | 100 | 6 | Resistor | External | 0.22 | 3.5 | 6 | 1 | 500 | EE-Sim | µMAX/10 | $2.33 @1k |
| MAX669 | 1.8 | 28 | µMAX/10 | ||||||||||||
开发工具
技术资料
- EE-SIM Design and Simulation Environment User Guide
- Oceanside (MAXREFDES9#): 3.3V to 15V Input, ±15V (±12V) Output, Isolated Power Supply
- Reduce the Chances of Human Error: Part 1, Power and Ground
- Negative-to-Negative Switch-Mode Converter Offers High Current and High Efficiency
- ±15V or ±12V Output Switch-Mode Power Supply Has Wide Input-Voltage Range
- DC-DC Converter Tutorial
- Current Limited DC-DC Controller Used as Step-Up Step-Down SEPIC Power Supply for USB Devices
- Isolated SLIC supply
- Step-Up Controller Forms Negative Step-Down Regulator
- High-Efficiency Boost Converter Provides 48V for IP Phones
- High-Efficiency Boost Converter Provides 24V for DTE
- R-C Snubbing for the Lab
- SLIC Power-Supply Design
- Layout Considerations for Non-Isolated DC-DC Converters
- Simple Circuit Charges Lead-Acid Batteries
- 15V Input Converter Generates -185V at 50mA
- Step-up Converter with LDO Beats SEPIC Efficiency
- Extending Soft-Start
- +12V Input Converter Generates -165V at 100mA
- 5V Input Converter Generates -30V at 80mA
- 3.3V Supply Taps Power from the -12V PCI Bus
- Dual-Output SLIC Supply Shares Feedback
质量和环境数据
订购型号
| 型号 | 状况 | 推荐替代产品 | 封装 | 温度 | RoHS/无铅 |
|---|---|---|---|---|---|
| MAX668EUB | 停止供货 | MAX668EUB+ | µMAX,;10引脚;15.4mm² | -40°C至+85°C | RoHS/无铅:否 |
| MAX668EUB+ | 生产中 | µMAX,;10引脚;15.4mm² | -40°C至+85°C | RoHS/无铅:无铅 | |
| MAX668EUB+T | 生产中 | µMAX,;10引脚;15.4mm² | -40°C至+85°C | RoHS/无铅:无铅 | |
| MAX668EUB-T | 停止供货 | MAX668EUB+T | µMAX,;10引脚;15.4mm² | -40°C至+85°C | RoHS/无铅:否 |
- MAX668-MAX669.pdf MAX669
- EE-SIM Design and Simulation Environment User Guide MAX17681
- Oceanside (MAXREFDES9#): 3.3V to 15V Input, ±15V (±12V) Output, Isolated Power Supply MAX1659
- Reduce the Chances of Human Error: Part 1, Power and Ground MAX5481
- Negative-to-Negative Switch-Mode Converter Offers High Current and High Efficiency MAX4322
- ±15V or ±12V Output Switch-Mode Power Supply Has Wide Input-Voltage Range MAX1846
- DC-DC Converter Tutorial MAX8627
- Current Limited DC-DC Controller Used as Step-Up Step-Down SEPIC Power Supply for USB Devices MAX668
- Isolated SLIC supply MAX8867
- Step-Up Controller Forms Negative Step-Down Regulator MAX668
- High-Efficiency Boost Converter Provides 48V for IP Phones MAX668
- High-Efficiency Boost Converter Provides 24V for DTE MAX668
- R-C Snubbing for the Lab MAX668
- SLIC Power-Supply Design MAX668
- Layout Considerations for Non-Isolated DC-DC Converters MAX1865
- Simple Circuit Charges Lead-Acid Batteries MAX4375
- 15V Input Converter Generates -185V at 50mA MAX4130
- Step-up Converter with LDO Beats SEPIC Efficiency MAX668
- Extending Soft-Start MAX4130
- +12V Input Converter Generates -165V at 100mA MAX4130
- 5V Input Converter Generates -30V at 80mA MAX4130
- 3.3V Supply Taps Power from the -12V PCI Bus MAX668
- Dual-Output SLIC Supply Shares Feedback MAX668
- MAX668.pdf MAX668
