The MIC4423/4424/4425 family are highly reliable BiCMOS/DMOS buffer/driver/MOSFET drivers. They are higher output current versions of the MIC4426/4427/4428, which are improved versions of the MIC426/427/428. All three families are pin-compatible. The MIC4423/4424/4425 drivers are capable of giving reliable service in more demanding electrical environments than their predecessors. They will not latch under any conditions within their power and voltage ratings. They can survive up to 5V of noise spiking, of either polarity, on the ground pin. They can accept, without either damage or logic upset, up to half an amp of reverse current (either polarity) forced back into their outputs.The MIC4423/4424/4425 series drivers are easier to use, more flexible in operation, and more forgiving than other CMOS or bipolar drivers currently available. Their BiCMOS/DMOS construction dissipates minimum power and provides rail-to-rail voltage swings.Primarily intended for driving power MOSFETs, the MIC4423/4424/4425 drivers are suitable for driving other loads (capacitive, resistive, or inductive) which require low impedance, high peak currents, and fast switching times. Heavily loaded clock lines, coaxial cables, or piezoelectric transducers are some examples. The only known limitation on loading is that total power dissipated in the driver must be kept within the maximum power dissipation limits of the package.
Reliable, low-power bipolar/CMOS/DMOS construction
Latch-up protected to >500mA reverse current
Logic input withstands swing to -5V
High 3A peak output current
Wide 4.5V to 18V operating range
Drives 1800pF capacitance in 25ns
Short <40ns typical delay time
Delay times consistent with in supply voltage change
Matched rise and fall times
TTL logic input independent of supply voltage
Low equivalent 6pF input capacitance
Low supply current
3.5mA with logic 1 input
350µA with logic 0 input
Low 3.5Ω typical output impedance
Output voltage swings within 25mV of ground or VS.
'426/7/8-, '1426/7/8-, '4426/7/8-compatible pinout
Inverting, noninverting, and differential configurations
MIC4425 封装图
MIC4425 封装图
MIC4425 封装图
MIC4425 封装图
MIC4425 封装图
MIC4425 封装图
型号 | 制造商 | 描述 | 购买 |
---|---|---|---|
MIC4425YWM-TR | ON Semiconductor | LM7905CT | 立即购买 |
MIC4425YM-TR | 3M(TC) | 立即购买 | |
MIC4425YWM | Sullins Connector | CONN EDGECARD 16POS .156 EXTEND | 立即购买 |
MIC4425YN | TI | TPS3711 36-V VOLTAGE DETECTOR | 立即购买 |
MIC4425YM | - | - | 立即购买 |
LTC4425应用电路 (恒定电流/恒定电压线性充电器)
LTC4425-具电流限制理想二极管和电压/电流监视器的线性超级电容器充电器 特点 50mΩ 理想二极管 (从 VIN 至 VOUT) 智能充电电流模式可限制浪
LTC4425描述 LTC®4425是一款恒定电流/恒定电压线性充电器,专为从一个锂离子/
...无刷直流电机控制系统不适合额定电压18V,所以本节以ML44255作为无位置传感器永磁无刷直流电机的主控制芯片。ML4425是MicroLinear公司推出的一种智能型无位置传感器永磁无刷电机控制器专用电路。该电路内置起动电路、锁相环逻...
...美国联邦通讯委员会(FCC)提交了一份申请,想要发射共计4425颗通信卫星。
LTC®4425 是一款恒定电流/恒定电压线性充电器,专为从一个锂离子/锂聚合物电池、一个 USB 端口、或一个 2.7V 至 5.5V 电流限制电源对一个两节超级电容器电池组进行充电而设计。该器件起一个理想二极管的作用,并具有一个极低...
ML4425的整个运行状态可分为三种。第一种为复位校准状态,复位校准的时间由外接的起动电容CAT决定。复位校准时刻,上桥臂HA、HC和下桥臂LB导通,电机转子在磁力线的作用下慢慢转动,使得磁极中心线与B相绕组中心线重合;
ML4425/4426是Micro Linear公司推出的智能型无刷电机专用控制器,可用于为三相无刷电机提供封闭回路的换向控制信号,同时利用PWM模式还可对电机速度进行控制并对电机进行必要的保护。ML4425/4426的特点如下:
MCP23008 | MC100EPT21 | MCP3021 | MIC4421A |
MC74AC245 | MIC2860-2P | MC74ACT377 | MIC4609 |
MC33201 | MC74HC73A | MC14538B | MCP98244 |
MIC5018 | MC74HC139A | MOCD211M | MCP9800 |
MC74HC4040A | MCP621 | MMBFJ176 | MMBTA14L |