pdf datasheet site - dataSheet39.com

24LC08 PDF Datasheet

The 24LC08 is 3-wireserialeeproms, 8k-bit Serial Eeprom. It also consolidates and displays results from multiple manufacturers with the same part number and similar functionality.




Notice


Searched parts can be used interchangeably as substitutes for one another, But it's important to note that the parameters for each manufacturer may vary slightly.

Searched Lists

No Part number Description ( Function ) Manufacturers PDF
8 24LC08
3-WireSerialEEPROMs

Features • Low Voltage and Standard Voltage Operation – 5.0 (VCC = 4.5V to 5.5V) – 2.7 (VCC = 2.7V to 5.5V) – 2.5 (VCC = 2.5V to 5.5V) – 1.8 (VCC = 1.8V to 5.5V) User Selectable Internal Organization – 1K: 128 x 8 or 64 x 16 – 2K: 256 x 8 or 128 x 16 – 4K: 512 x 8 or 256 x 16 3-Wire Serial Interface 2 MHz Clock Rate (5V) Compatibility Self-Timed Write Cycle (10

ATMELCorporation
ATMELCorporation
pdf
7 24LC08
8K-Bit Serial EEPROM

24LC08 8K-Bit Serial EEPROM OVERVIEW The 24LC08 serial EEPROM has a 8,192-bit (1,024-byte) capacity, supporting the standard I C -bus serial interface. It is fabricated using CERAMATE's most advanced CMOS technology. One of its major’ feature is a hardware-based write protection circuit for the entire memory area. Hardware-based write protection is controlled by the state of

Ceramate Technical
Ceramate Technical
pdf
6 24LC080-IP
8K/16K2.5VSPIOBusSerialEEPROM

25LC080/160 8K/16K 2.5V SPI™ Bus Serial EEPROM FEATURES • SPI modes 0,0 and 1,1 • 3 MHz Clock Rate • Single supply with programming operation down to 2.5V • Low Power CMOS Technology - Max Write Current: 5 mA - Read Current: 1.0 mA - Standby Current: 1 µA typical • Organization - 1024 x 8 for 25LC080 - 2048 x 8 for 25LC160 • 16 Byte Page • Sequential Read • S

MicrochipTechnology
MicrochipTechnology
pdf
5 24LC080-ISN
8K/16K2.5VSPIOBusSerialEEPROM

25LC080/160 8K/16K 2.5V SPI™ Bus Serial EEPROM FEATURES • SPI modes 0,0 and 1,1 • 3 MHz Clock Rate • Single supply with programming operation down to 2.5V • Low Power CMOS Technology - Max Write Current: 5 mA - Read Current: 1.0 mA - Standby Current: 1 µA typical • Organization - 1024 x 8 for 25LC080 - 2048 x 8 for 25LC160 • 16 Byte Page • Sequential Read • S

MicrochipTechnology
MicrochipTechnology
pdf
4 24LC080-P
8K/16K2.5VSPIOBusSerialEEPROM

25LC080/160 8K/16K 2.5V SPI™ Bus Serial EEPROM FEATURES • SPI modes 0,0 and 1,1 • 3 MHz Clock Rate • Single supply with programming operation down to 2.5V • Low Power CMOS Technology - Max Write Current: 5 mA - Read Current: 1.0 mA - Standby Current: 1 µA typical • Organization - 1024 x 8 for 25LC080 - 2048 x 8 for 25LC160 • 16 Byte Page • Sequential Read • S

MicrochipTechnology
MicrochipTechnology
pdf
3 24LC080-SN
8K/16K2.5VSPIOBusSerialEEPROM

25LC080/160 8K/16K 2.5V SPI™ Bus Serial EEPROM FEATURES • SPI modes 0,0 and 1,1 • 3 MHz Clock Rate • Single supply with programming operation down to 2.5V • Low Power CMOS Technology - Max Write Current: 5 mA - Read Current: 1.0 mA - Standby Current: 1 µA typical • Organization - 1024 x 8 for 25LC080 - 2048 x 8 for 25LC160 • 16 Byte Page • Sequential Read • S

MicrochipTechnology
MicrochipTechnology
pdf

[1]    [2]    

List of most widely used semiconductors

Part Number Function Manufacturers PDF
1N4007

The 1N4007 is a rectification diode that is designed for high-voltage applications, typically up to 1000V. It has a maximum current rating of 1A and a forward voltage drop of around 0.7V.

Vishay Semiconductor
Vishay
pdf
LM317

This is a popular adjustable voltage regulator.
( 1.2V to 37V)

On Semiconductor
ON Semiconductor
pdf

 6N137  |   LM393   |   2N3906    |   2N2222   |   TIP120   |

   1N5818   |   LM324N    |   A1015   |   SMAJ20CA  


Share Link


DataSheet39.com offers a large amount of data sheet, You can free PDF files download.
Our site offers extensive datasheets for various electronic components including semiconductors, resistors, capacitors, connectors and more.


Sitemap Link

Index :     1N    2SC    74H    AD    BC    IRF    

  LM    TD    New    Sitemap    24L



DataSheet39.com     |   2020    |

  Privacy Policy   |   Contact Us