Name: EKZN250ELL472MLN3S
Brand: United Chemi-Con
SKU: EKZN250ELL472MLN3S
Price: 1.52000 USD
Availability: InStock

new-10%

EKZN250ELL472MLN3S

Manufacturer part number:EKZN250ELL472MLN3S

Manufacturer:United Chemi-Con

Description:Aluminum Electrolytic Capacitors - Leaded 25V 4700uF 20% Tol.

Case Package:SOT-23

Datasheet:EKZN250ELL472MLN3S Datasheet PDF

RoHs Status:non-compliant

Parameter Name	Value
Type	Parameter
Factory Lead Time	16 Weeks
Mount	Through Hole
Mounting Type	Through Hole
Package / Case	Radial, Can
Operating Temperature	-40°C~105°C
Packaging	Bulk
Published	2016
Series	KZN
Size / Dimension	0.630Dia 16.00mm
Tolerance	±20%
Part Status	Active
Moisture Sensitivity Level (MSL)	1 (Unlimited)
Termination	Radial
Applications	General Purpose
Capacitance	4700μF
Voltage - Rated DC	25V
Lead Pitch	7.493mm
Lead Spacing	0.295 7.50mm
Lifetime @ Temp	10000 Hrs @ 105°C
Ripple Current	4.1A
Polarization	Polar
Life (Hours)	10000 hours
Impedance	16mOhm
Ripple Current @ Low Frequency	3.485A @ 120Hz
Ripple Current @ High Frequency	4.1A @ 100kHz
Lead/Base Style	Straight
Diameter	16mm
Height	16mm
Height Seated (Max)	1.299 33.00mm
RoHS Status	ROHS3 Compliant

About EKZN250ELL472MLN3S

The EKZN250ELL472MLN3S from United Chemi-Con is a high-performance microcontroller designed for a wide range of embedded applications. This component features Aluminum Electrolytic Capacitors - Leaded 25V 4700uF 20% Tol..

Key Features

Advanced AVR architecture for efficient processing
Wide operating temperature range: -40°C to 85°C
Low power consumption for energy-efficient applications
Comprehensive peripheral set including SPI, UART, and USART interfaces

Applications

This microcontroller is ideal for various applications including:

Industrial control systems
Consumer electronics
Automotive systems
IoT devices
Medical equipment

Technical Support

Hotenda provides comprehensive technical support for the EKZN250ELL472MLN3S, including datasheets, application notes, and design resources. Our team of engineers is available to assist with your design challenges.