MAX34561T+ Analog Devices / Maxim Integrated

說明：

熱插拔電壓控制器 12V/5V Dual Hot-Plug Switch

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商品屬性	屬性值	選擇屬性
製造商:	Analog Devices Inc.
產品類型:	熱插拔電壓控制器
付運限制：	Mouser目前不在您的地區出售本產品。
RoHS:
產品:	Controllers & Switches
電流限制:	1 A
電源電壓 - 最大值:	13.2 V
電源電壓 - 最小值:	4 V
通道數:	1 Channel
運作供電電流:	1.5 mA
最低工作溫度:	- 40 C
最高工作溫度:	+ 85 C
安裝風格:	SMD/SMT
封裝/外殼:	TQFN-24
封裝:	Tube
停電檢測:	No
品牌:	Analog Devices / Maxim Integrated
輸入/電源電壓 - 最大值:	13.2 V
輸入/電源電壓 - 最小值:	4 V
Pd - 功率消耗 :	1.6667 W
產品類型:	Hot Swap Voltage Controllers
系列:	MAX34561
原廠包裝數量:	75
子類別:	PMIC - Power Management ICs
零件號別名:	MAX34561 90-34561+00T

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所選屬性: 0

篩選文檔:

規格書

MAX34561T+ 規格書

RoHS Certificate (PDF)

CNHTS:: 8542319090
CAHTS:: 8542390000
USHTS:: 8542390090
JPHTS:: 8542390990
TARIC:: 8542399000
MXHTS:: 8542399999
ECCN:: EAR99

Power Management ICs

Analog Devices Inc. Power Management ICs (PMICs) power innovation with precision and efficiency. With unmatched power densities, ultra-low noise technology, and superior reliability, Analog Devices’ PMIC portfolio supports complex power architectures in the most demanding applications, including industrial, automotive, and aerospace. Electronics engineers and designers are supported with power management evaluation boards and design tools, such as LTspice^®, to ease development and optimize performance. From Silent Switcher^® regulators and µModule^® power solutions to advanced battery management, LDOs, and digital power control, ADI delivers high-efficiency, low-noise, and compact solutions that ensure reliability and scalability.

LM5060 High-Side Protection Controllers

Texas Instruments LM5060 High-Side Protection Controllers with Low Quiescent Current offers intelligent control of a high-side N-channel MOSFET during normal on/off transitions and fault conditions. The constant rise time of the output voltage results from the inrush current control. Both an Input UVLO (with hysteresis) and a programmable input OVP are provided, with an enable input offering a remote on or off control. The initial start-up V_GS fault detection delay time, the transition V_DS fault detection delay time, and the continuous over-current V_DS fault detection delay time is programmed from a single capacitor. The MOSFET is latched off until either the enable input, or the UVLO input is toggled low and then high when a detected fault condition persists longer than the allowed fault delay time.