5X00006H12模块备件

5X00006H12

ing自由空气温度范围，除非另有说明注1
VIN，输入电压-0.3V~40V
TJ，结温-40℃~150℃
TSTG，储存温度-65℃~150℃
ESD额定值
V（ESD），静电放电
人体模型（HBM）±4000V
机器型号（MM）±100V
超过上述“对大额定值”的应力可能导致设备久损坏。这些仅为压力等级，以及
设备在这些或任何其他条件下的操作超出了规范操作部分的规定，不包括：
暗指的。长时间暴露在对大额定条件下可能会影响设备的可靠性。
注1：所有电压均与GND引脚有关。
推荐操作条件
超过工作自由空气温度范围，除非另有说明注1
参数符号小大单位
输入电源电压VIN 2.5 36 V
输出电流IOUT 0 150 mA
工作温度TA-40+85℃
AiT半导体股份有限公司。
www.ait-ic.com
A6140
CMOS低压差稳压器（LDO）
36V、150mA、低功耗
版本2.0-2013年10月发布，2021 7月更新-4-
电气特性
VIN=VOUT+2V，CIN=COUT=1μF，VOUT=3.3V，除非另有说明，典型值为TA=+25°C。
参数符号条件小典型值。大单位
输入电压3 VIN VOUT=3.3V-36 V
输出电压

IOUT=10mA-1.0.1%
接地引脚电流空载-2 3µA
大输出
当前注释4
70 100 150毫安
压降电压5 VDROP IOUT=100mA，ΔVo=2%-526-mV
线路调节
ΔVOUT
ΔVIN×VOUT
VIN＝VOUT+2V至36V，
IOUT=1mA
-0.05 0.2%/V
负载调节ΔVOUT
VIN＝VOUT+2V，
IOUT=1mA至50mA
-25至60毫伏
电源拒
比率
PSRR
VOUT=3.3V，
IOUT=10mA
f=217Hz-58-
分贝
f=1kHz-40-
输出电压
温度系数
注6
ΔVOUT
ΔTA×VOUT
-40℃至+85℃-100-ppm/℃
热停堆
温度
TSHDN-150-°C
AiT半导体股份有限公司。
www.ait-ic.com
A6140
CMOS低压差稳压器（LDO）
36V、150mA、低功耗
版本2.0-2013年10月发布，2021 7月更新-5-
VIN=VOUT+2V，CIN=COUT=1μF，VOUT=5.0V，除非另有说明，典型值为TA=+25°C。
参数符号条件小典型值。大单位
输入电压2 VIN VOUT=5.0V-36 V
输出电压

IOUT=10mA-1.0.1%
接地引脚电流空载VIN=VOUT+2V-2 3µA
大输出
当前注释3
100至150毫安
压降电压4 VDROP IOUT=100mA，ΔVo=2%-440-mV
线路调节
ΔVOUT
ΔVIN×VOUT
VIN＝VOUT+2V至36V，
IOUT=1mA
-0.05 0.2%/V
负载调节ΔVOUT
VIN＝VOUT+2V，
IOUT=1mA至150mA
-25至60毫伏
电源拒
比率
PSRR
VOUT=5.0V，
IOUT=10mA
f=217Hz-58-
分贝
f=1kHz-40-
输出电压
温度系数
注5
ΔVOUT
ΔTA×VOUT
-40℃至+85℃-100-ppm/℃
热停堆
温度
TSHDN-150-°C
注2：VIN>=VOUT（标称），以较大者为准。
注3：大输出电流受PCB布局、金属迹线尺寸、金属层之间的热传导路径等因素的影响，
环境温度和系统的其他环境因素。在以下情况下，应注意压降电压：
VIN<VOUT+VDROP。
注4：当VOUT低于VOUT值100毫伏（VIN=VOUT（标称）+2毫伏）时，压降电压定义为VIN-VOUT。
注5：输出电压温度系数定义为坏情况下的电压变化除以总温度范围

5X00006H12

5X00006H12

ing free-air temperature range, unless otherwise notedNOTE1 VIN, Input Voltage -0.3V ~ 40V TJ, Junction Temperature -40℃ ~ 150℃ TSTG, Storage Temperature -65℃ ~ 150℃ ESD Ratings V(ESD), Electrostatic Discharge Human-body model (HBM) ±4000V Machine model (MM) ±100V Stress beyond above listed “Absolute Maximum Ratings” may lead permanent damage to the device. These are stress ratings only and operations of the device at these or any other conditions beyond those indicated in the operational sections of the specifications are not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. NOTE1: All voltages are with respect to the GND pin. RECOMMENDED OPERATING CONDITIONS over operating free-air temperature range, unless otherwise notedNOTE1 Parameter Symbol Min. Max. Unit Input Supply Voltage VIN 2.5 36 V Output Current IOUT 0 150 mA Operating Temperature TA -40 +85 ℃ AiT Semiconductor Inc. www.ait-ic.com A6140 CMOS LOW DROPOUT VOLTAGE REGULATOR (LDO) 36V, 150mA, LOW POWER CONSUMPTION REV2.0 - OCT 2013 RELEASED, JUL 2021 UPDATED - - 4 - ELECTRICAL CHARACTERISTICS VIN = VOUT + 2V, CIN = COUT = 1μF, VOUT = 3.3V, typical values are at TA = +25°C, unless otherwise noted. Parameter Symbol Conditions Min. Typ. Max. Unit Input VoltageNOTE3 VIN VOUT = 3.3V - - 36 V Output Voltage Accuracy IOUT = 10mA -1 0 1 % Ground Pin Current No load - 2 3 µA Maximum Output CurrentNOTE4 70 100 150 mA Dropout VoltageNOTE5 VDROP IOUT = 100mA, ΔVo=2% - 526 - mV Line Regulation ΔVOUT ΔVIN × VOUT VIN = VOUT + 2V to 36V, IOUT = 1mA - 0.05 0.2 %/V Load Regulation ΔVOUT VIN =VOUT+2V, IOUT = 1mA to 50mA - 25 60 mV Power Supply Rejection Ratio PSRR VOUT = 3.3V, IOUT = 10mA f = 217Hz - 58 - dB f = 1kHz - 40 - Output Voltage Temperature Coefficient NOTE6 ΔVOUT ΔTA × VOUT -40°C to +85°C - 100 - ppm/℃ Thermal Shutdown Temperature TSHDN - 150 - °C AiT Semiconductor Inc. www.ait-ic.com A6140 CMOS LOW DROPOUT VOLTAGE REGULATOR (LDO) 36V, 150mA, LOW POWER CONSUMPTION REV2.0 - OCT 2013 RELEASED, JUL 2021 UPDATED - - 5 - VIN = VOUT + 2V, CIN = COUT = 1μF, VOUT = 5.0V, typical values are at TA = +25°C, unless otherwise noted. Parameter Symbol Conditions Min. Typ. Max. Unit Input VoltageNOTE2 VIN VOUT = 5.0V - - 36 V Output Voltage Accuracy IOUT = 10mA -1 0 1 % Ground Pin Current No load VIN=VOUT + 2V - 2 3 µA Maximum Output CurrentNOTE3 100 150 - mA Dropout VoltageNOTE4 VDROP IOUT = 100mA, ΔVo=2% - 440 - mV Line Regulation ΔVOUT ΔVIN × VOUT VIN = VOUT + 2V to 36V, IOUT = 1mA - 0.05 0.2 %/V Load Regulation ΔVOUT VIN =VOUT+2V, IOUT = 1mA to 150mA - 25 60 mV Power Supply Rejection Ratio PSRR VOUT = 5.0V, IOUT = 10mA f = 217Hz - 58 - dB f = 1kHz - 40 - Output Voltage Temperature Coefficient NOTE5 ΔVOUT ΔTA × VOUT -40°C to +85°C - 100 - ppm/℃ Thermal Shutdown Temperature TSHDN - 150 - °C NOTE2: VIN >= VOUT (NOMINAL), whichever is greater. NOTE3: Maximum output current is affected by the PCB layout, size of metal trace, the thermal conduction path between metal layers, ambient temperature and the other environment factors of system. Attention should be paid to the dropout voltage when VIN < VOUT + VDROP. NOTE4: The dropout voltage is defined as VIN - VOUT, when VOUT is 100mV below the value of VOUT for VIN = VOUT (NOMINAL) + 2V. NOTE5: Output voltage temperature coefficient is defined as the worst-case voltage change divided by the total temperature range