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AT28C256-15PU Integrated Circuit Chip 256K (32K x 8) Paged Parallel EEPROM

Good quality Programmable IC Chips for sales
Good quality Programmable IC Chips for sales
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AT28C256-15PU Integrated Circuit Chip 256K (32K x 8) Paged Parallel EEPROM

China AT28C256-15PU Integrated Circuit Chip 256K (32K x 8) Paged Parallel EEPROM supplier

Large Image :  AT28C256-15PU Integrated Circuit Chip 256K (32K x 8) Paged Parallel EEPROM

Product Details:

Place of Origin: original factory
Brand Name: Anterwell
Certification: new & original
Model Number: AT28C256-15PU

Payment & Shipping Terms:

Minimum Order Quantity: 10pcs
Price: Negotiate
Packaging Details: Please contact me for details
Delivery Time: 1 day
Payment Terms: T/T, Western Union, Paypal
Supply Ability: 8200pcs
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Detailed Product Description
Memory Capacity: 256 Kbit Working Current: 50 MA
MAX Operating Temperature: + 85 °C Min Operating Temperature: - 40 °C
Power Supply - Max: 5.5V Power Supply -Min: 4.5V
Package: PDIP-28 Factory Packing Quantity: 14
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AT28C256-15PU Intergreated Chip 256K (32K x 8) Paged Parallel EEPROM

 

 

 

Features

 

Fast Read Access Time – 150 ns

Automatic Page Write Operation – Internal Address and Data Latches for 64 Bytes – Internal Control Timer

Fast Write Cycle Times – Page Write Cycle Time: 3 ms or 10 ms Maximum – 1 to 64-byte Page Write Operation

Low Power Dissipation – 50 mA Active Current – 200 µA CMOS Standby Current

Hardware and Software Data Protection

DATA Polling for End of Write Detection

High Reliability CMOS Technology – Endurance: 104 or 105 Cycles – Data Retention: 10 Years

Single 5V ± 10% Supply

CMOS and TTL Compatible Inputs and Outputs  

JEDEC Approved Byte-wide Pinout

Full Military and Industrial Temperature Ranges

Green (Pb/Halide-free) Packaging Option

 

1. Description

 

The AT28C256 is a high-performance electrically erasable and programmable readonly memory. Its 256K of memory is organized as 32,768 words by 8 bits. Manufactured with Atmel’s advanced nonvolatile CMOS technology, the device offers access times to 150 ns with power dissipation of just 440 mW. When the device is deselected, the CMOS standby current is less than 200 µA. The AT28C256 is accessed like a Static RAM for the read or write cycle without the need for external components. The device contains a 64-byte page register to allow writing of up to 64 bytes simultaneously. During a write cycle, the addresses and 1 to 64 bytes of data are internally latched, freeing the address and data bus for other operations. Following the initiation of a write cycle, the device will automatically write the latched data using an internal control timer. The end of a write cycle can be detected by DATA Polling of I/O7. Once the end of a write cycle has been detected a new access for a read or write can begin. Atmel’s AT28C256 has additional features to ensure high quality and manufacturability. The device utilizes internal error correction for extended endurance and improved data retention characteristics. An optional software data protection mechanism is available to guard against inadvertent writes. The device also includes an extra 64 bytes of EEPROM for device identification or tracking.

 

 

2. Pin Configurations

 

Pin Name Function
A0 - A14 Addresses
CE Chip Enable
OE Output Enable
WE Write Enable
I/O0 - I/O7 Data Inputs/Outputs
NC No Connect
DC Don’t Connect

 

 

 

AT28C256-15PU Integrated Circuit Chip 256K (32K x 8) Paged Parallel EEPROM

 

AT28C256-15PU Integrated Circuit Chip 256K (32K x 8) Paged Parallel EEPROM

 

4. Device Operation

 

 

4.1 Read

The AT28C256 is accessed like a Static RAM. When CE and OE are low and WE is high, the data stored at the memory location determined by the address pins is asserted on the outputs. The outputs are put in the high impedance state when either CE or OE is high. This dual-line control gives designers flexibility in preventing bus contention in their system.

 

 

4.2 Byte Write

 

A low pulse on the WE or CE input with CE or WE low (respectively) and OE high initiates a write cycle. The address is latched on the falling edge of CE or WE, whichever occurs last. The data is latched by the first rising edge of CE or WE. Once a byte write has been started it will automatically time itself to completion. Once a programming operation has been initiated and for the duration of tWC, a read operation will effectively be a polling operation.

 

 

4.3 Page Write

 

The page write operation of the AT28C256 allows 1 to 64 bytes of data to be written into the device during a single internal programming period. A page write operation is initiated in the same manner as a byte write; the first byte written can then be followed by 1 to 63 additional bytes. Each successive byte must be written within 150 µs (tBLC) of the previous byte. If the tBLC limit is exceeded the AT28C256 will cease accepting data and commence the internal programming operation. All bytes during a page write operation must reside on the same page as defined by the state of the A6 - A14 inputs. For each WE high to low transition during the page write operation, A6 - A14 must be the same. The A0 to A5 inputs are used to specify which bytes within the page are to be written. The bytes may be loaded in any order and may be altered within the same load period. Only bytes which are specified for writing will be written; unnecessary cycling of other bytes within the page does not occur.

 

 

4.4 DATA Polling

 

The AT28C256 features DATA Polling to indicate the end of a write cycle. During a byte or page write cycle an attempted read of the last byte written will result in the complement of the written data to be presented on I/O7. Once the write cycle has been completed, true data is valid on all outputs, and the next write cycle may begin. DATA Polling may begin at anytime during the write cycle

 

 

 

4.5 Toggle Bit

 

In addition to DATA Polling the AT28C256 provides another method for determining the end of a write cycle. During the write operation, successive attempts to read data from the device will result in I/O6 toggling between one and zero. Once the write has completed, I/O6 will stop toggling and valid data will be read. Reading the toggle bit may begin at any time during the write cycle.

 

 

4.6 Data Protection

 

If precautions are not taken, inadvertent writes may occur during transitions of the host system power supply. Atmel has incorporated both hardware and software features that will protect the memory against inadvertent writes.

 

4.6.1 Hardware Protection

 

Hardware features protect against inadvertent writes to the AT28C256 in the following ways: (a) VCC sense – if VCC is below 3.8V (typical) the write function is inhibited; (b) VCC power-on delay – once VCC has reached 3.8V the device will automatically time out 5 ms (typical) before allowing a write; (c) write inhibit – holding any one of OE low, CE high or WE high inhibits write cycles; and (d) noise filter – pulses of less than 15 ns (typical) on the WE or CE inputs will not initiate a write cycle.

 

 

4.6.2 Software Data Protection

 

A software controlled data protection feature has been implemented on the AT28C256. When enabled, the software data protection (SDP), will prevent inadvertent writes. The SDP feature may be enabled or disabled by the user; the AT28C256 is shipped from Atmel with SDP disabled.

 

SDP is enabled by the host system issuing a series of three write commands; three specific bytes of data are written to three specific addresses (refer to “Software Data Protection” algorithm). After writing the 3-byte command sequence and after tWC the entire AT28C256 will be protected against inadvertent write operations. It should be noted, that once protected the host may still perform a byte or page write to the AT28C256. This is done by preceding the data to be written by the same 3-byte command sequence used to enable SDP.

 

Once set, SDP will remain active unless the disable command sequence is issued. Power transitions do not disable SDP and SDP will protect the AT28C256 during power-up and power-down conditions. All command sequences must conform to the page write timing specifications. The data in the enable and disable command sequences is not written to the device and the memory addresses used in the sequence may be written with data in either a byte or page write operation.

 

After setting SDP, any attempt to write to the device without the 3-byte command sequence will start the internal write timers. No data will be written to the device; however, for the duration of tWC, read operations will effectively be polling operations. 4.7 Device Identification An extra 64 bytes of EEPROM memory are available to the user for device identification. By raising A9 to 12V ± 0.5V and using address locations 7FC0H to 7FFFH the additional bytes may be written to or read from in the same manner as the regular memory array.

 

 

4.8 Optional Chip Erase Mode

 

The entire device can be erased using a 6-byte software code. Please see “Software Chip Erase” application note for details

 

 

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