JS28F512P33TFA NUMONYX, JS28F512P33TFA Datasheet - Page 25

JS28F512P33TFA

Manufacturer Part Number

JS28F512P33TFA

Description

IC FLASH 512MBIT P33 65NM 56TSOP

Manufacturer

NUMONYX

Series

Axcell™r

Datasheet

1.JS28F00AP33TF.pdf (86 pages)

Specifications of JS28F512P33TFA

Format - Memory

FLASH

Memory Type

FLASH

Memory Size

512M (32Mx16)

Speed

105ns

Interface

Parallel

Voltage - Supply

2.3 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Package / Case

56-TSOP

Cell Type

NOR

Density

512Mb

Access Time (max)

105/17ns

Interface Type

Parallel/Serial

Boot Type

Top

Address Bus

25b

Operating Supply Voltage (typ)

2.5/3.3V

Operating Temp Range

-40C to 85C

Package Type

TSOP

Program/erase Volt (typ)

8.5 to 9.5V

Sync/async

Async/Sync

Operating Temperature Classification

Industrial

Operating Supply Voltage (min)

2.3V

Operating Supply Voltage (max)

3.6V

Word Size

16b

Number Of Words

32M

Supply Current

31mA

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

904399
904399
JS28F512P33TF 904399

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P33-65nm

8.3

Datasheet

Read SR command (70h), which would be interpreted by the internal state machines as

Buffer Word Count.

On the next write, a word count is written to the device at the buffer address. This tells

the device how many data words will be written to the buffer, up to the maximum size

of the buffer.

On the next write, a device start address is given along with the first data to be written

to the flash memory array. Subsequent writes provide additional device addresses and

data. All data addresses must lie within the start address plus the word count.

Optimum programming performance and lower power usage are obtained by aligning

the starting address at the beginning of a 512-word boundary (A[9:1] = 0x000). The

maximum buffer size would be 256-word if the misaligned address range is crossing a

512-word boundary during programming.

After the last data is written to the buffer, the Buffered Programming Confirm command

must be issued to the original block address. The WSM begins to program buffer

contents to the flash memory array. If a command other than the Buffered

Programming Confirm command is written to the device, a command sequence error

occurs and SR[7,5,4] are set. If an error occurs while writing to the array, the device

stops programming, and SR[7,4] are set, indicating a programming failure.

When Buffered Programming has completed, additional buffer writes can be initiated by

issuing another Buffered Programming Setup command and repeating the buffered

program sequence. Buffered programming may be performed with VPP = V

(see

the device with VPP = V

If an attempt is made to program past an erase-block boundary using the Buffered

Program command, the device aborts the operation. This generates a command

sequence error, and SR[5,4] are set.

If Buffered programming is attempted while VPP is at or below V

If any errors are detected that have set Status Register bits, the Status Register should

be cleared using the Clear Status Register command.

Buffered Enhanced Factory Programming

Buffered Enhanced Factory Programing (BEFP) speeds up Multi-Level Cell (MLC) flash

programming. The enhanced programming algorithm used in BEFP eliminates

traditional programming elements that drive up overhead in device programmer

systems.

BEFP consists of three phases: Setup, Program/Verify, and Exit (see

Flowchart” on page

across 512 data words. Verification occurs in the same phase as programming to

accurately program the flash memory cell to the correct bit state.

A single two-cycle command sequence programs the entire block of data. This

enhancement eliminates three write cycles per buffer: two commands and the word

count for each set of 512 data words. Host programmer bus cycles fill the device’s write

buffer followed by a status check. SR.0 indicates when data from the buffer has been

programmed into sequential flash memory array locations.

Following the buffer-to-flash array programming sequence, the Write State Machine

(WSM) increments internal addressing to automatically select the next 512-word array

boundary. This aspect of BEFP saves host programming equipment the address-bus

setup overhead.

Section 13.2, “Operating Conditions” on page 48

77). It uses a write buffer to spread MLC program performance

PPH

for limitations when operating

PPLK

Order Number:208043-05

, SR[4,3] are set.

Figure 33, “BEFP

PPL

or V

Apr 2010

PPH

JS28F512P33TFA NUMONYX, JS28F512P33TFA Datasheet - Page 25

JS28F512P33TFA

Specifications of JS28F512P33TFA

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