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Microchip 23x640 and 23x256 SRAM Overview product training module

PRODUCT TRAINING: Microchip 23x640 and 23x256 SRAM Overview product training module

This training module will start by looking at MAC addresses, specifically the EUI-48T and EUI-64T standards. It will then cover the different application segments defined by the two standards, provide specific product features and benefits and compare the different options available for obtaining EUI-48T addresses. After that, the module will expand on these benefits and discuss a typical application set-up.

Microchip I2C Serial EEPROM training module

PRODUCT TRAINING: Microchip I2C Serial EEPROM training module

This trainingmodule will explain the advantages of the I²C protocol, discuss optimization of a system that utilizes I²C, and recommend usage practices for the protocol.

Microchip EEPROM MAC Address Chips product training module

PRODUCT TRAINING: Microchip EEPROM MAC Address Chips product training module

This training module will start by looking at MAC addresses, specifically the EUI-48T and EUI-64T standards. It will then cover the different application segments defined by the two standards, provide specific product features and benefits and compare the different options available for obtaining EUI-48T addresses. After that, the module will expand on these benefits and discuss a typical application set-up.

SST Serial and Parallel Flash Memory

PRODUCT GUIDE: SST Serial and Parallel Flash Memory

Microchip's SST Serial and Parallel Flash Memory features products with high performance, superior reliability and low power consumption.

SuperFlash Memory

PRODUCT GUIDE: SuperFlash Memory

THINK BEYOND FLASH... Think SuperFlash

I²C™ Real-time Clock/Calendar

Product Guide: I²C™ Real-time Clock/Calendar

Microchip now offers a highly integrated versatile feature set with an automatic battery switchover for backup power. The real-time clock/calendar combines EEPROM, user SRAM, and a unique ID with a MAC address in a single device. Also, with its wide voltage range supporting lower power consumption, but also operating in 5-volt systems and providing a serial interface for easy communications to any MCU.

UNI/O® Serial EEPROMs: Single I/O Bus Interface

PRODUCT GUIDE: UNI/O® Serial EEPROMs: Single I/O Bus Interface

The UNI/O® serial EEPROM is a SINGLE I/O EEPROM device that has been developed by Microchip Technology Inc. The EEPROM has been developed to work on the UNI/O® Bus, a propriety single I/O bus protocol, also developed by Microchip Technology Inc. The Bus combines the clock and data lines into a single bit stream using the Manchester Encoding technique. This single I/O EEPROM family has the advantage of using just ONE MCU I/O pin as opposed to at least 4 MCU I/O’s needed by the SPI, 4 I/O’s by the Microwire and at least 2 I/O’s by the I2C.

Serial SRAM Memory Family

PRODUCT GUIDE: Serial SRAM Memory Family

Microchip’s new serial SRAM family provides a way to easily and inexpensively add external RAM to almost any application. These serial devices use less power and fewer I/O connections than traditional parallel SRAM. And, they allow designers to use a smaller microcontroller rather than moving to a larger microcontroller just to get more on-board RAM.

Serial Memory Products

PRODUCT BROCHURE: Serial Memory Products

A broad portfolio of high performance, best-in-class Serial Memory Products to meet all your design requirements.

SPI-Compatible Serial SRAM Devices

PRODUCT GUIDE: SPI-Compatible Serial SRAM Devices

Microchip’s new serial SRAM family provides a way to easily and inexpensively add external RAM to almost any application. These serial devices use less power and fewer I/O connections than traditional parallel SRAM. Also, they allow designers to use a smaller microcontroller rather than moving to a larger microcontroller just to get more on-board RAM.

I2C™ Real-Time Clock/Calendar with EEPROM, SRAM,Unique ID and Battery Switchove

DATA SHEET: I2C™ Real-Time Clock/Calendar with EEPROM, SRAM,Unique ID and Battery Switchover

The MCP7941X series of low-power Real-Time Clocks (RTC) uses digital timing compensation for an accurate clock/calendar, a programmable output control for versatility, a power sense circuit that automatically switches to the backup supply, and nonvolatile memory for data storage. Using a low-cost 32.768 kHz crystal, it tracks time using several internal registers. For communication, the MCP7941X uses the I2C™ bus.

256K SPI Bus Low-Power Serial SRAM

DATASHEET: 256K SPI Bus Low-Power Serial SRAM

The Microchip Technology Inc. 23X256 are 256 Kbit Serial SRAM devices. The memory is accessed via a simple Serial Peripheral Interface (SPI) compatible serial bus. The bus signals required are a clock input (SCK) plus separate data in (SI) and data out (SO) lines. Access to the device is controlled through a Chip Select (CS) input.

64K SPI Bus Low-Power Serial SRAM

DATASHEET: 64K SPI Bus Low-Power Serial SRAM

The Microchip Technology Inc. 23X640 are 64 Kbit Serial SRAM devices. The memory is accessed via a simple Serial Peripheral Interface (SPI) compatible serial bus. The bus signals required are a clock input (SCK) plus separate data in (SI) and data out (SO) lines. Access to the device is controlled through a Chip Select (CS) input.

DATA SHEET: Numonyx® Forté™ M25PE20 2 Mbit, page-erasable serial Flash memory with byte alterability

Tried and trusted serial flash memory from Numonyx. 2 Mbit, page-erasable serial Flash memory with byte alterability, 75 MHz SPI bus and a standard pinout. Part of the Numonyx Forté Serial Flash Memory family of products.

DATA SHEET: Numonyx® Forté™ M25P 32Mbit low-voltage, with 75 MHz SPI bus interface

Tried and trusted serial flash memory from Numonyx. M25P32 is low voltage serial NOR flash memory with 75MHz SPI bus interface. Part of the Numonyx Forté Serial Flash Memory family of products.