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參數(shù)資料

型號：	MBM29LV800T
廠商：	Fujitsu Limited
英文描述：	8M (1M ×8/512K ×16) Bit Flash Memory( 單5V 電源電壓1M ×8/512K ×16位閃速存儲器)
中文描述：	8米（1米× 8/512K × 16）位快閃記憶體（單5V的電源電壓100萬× 8/512K × 16位閃速存儲器）
文件頁數(shù)：	18/51頁
文件大?。?/td>	647K
代理商：	MBM29LV800T

MBM29LV800T

-10/-12

/MBM29LV800B

-10/-12

The devices will automatically power-up in the read/reset state. In this case, a command sequence is not required

to read data. Standard microprocessor read cycles will retrieve array data. This default value ensures that no

spurious alteration of the memory content occurs during the power transition. Refer to the AC Read Character-

istics and Waveforms for the specific timing parameters.

Autoselect Command

Flash memories are intended for use in applications where the local CPU alters memory contents. As such,

manufacture and device codes must be accessible while the devices reside in the target system. PROM

programmers typically access the signature codes by raising A

to a high voltage. However, multiplexing high

voltage onto the address lines is not generally desired system design practice.

The device contains an Autoselect command operation to supplement traditional PROM programming

methodology. The operation is initiated by writing the autoselect command sequence into the command register.

Following the command write, a read cycle from address XX00H retrieves the manufacture code of 04H. A read

cycle from address XX01H for x16(XX02H for x8) returns the device code (MBM29LV800T = DAH and

MBM29LV800B = 5BH for x8 mode; MBM29LV800T = 22DAH and MBM29LV800B = 225BH for x16 mode). (See

Tables 4.1 and 4.2.)

All manufacturer and device codes will exhibit odd parity with DQ

defined as the parity bit.

Sector state (protection or unprotection) will be informed by address XX02H for x16 (XX04H for x8).

Scanning the sector addresses (A

, A

, and A

) while (A

, A

) = (0, 1, 0) will produce a

logical “1” at device output DQ

for a protected sector. The programming verification should be perform margin

mode on the protected sector. (See Tables 2 and 3.)

To terminate the operation, it is necessary to write the read/reset command sequence into the register and also

to write the autoselect command during the operation, execute it after writing read/reset command sequence.

Byte/Word Programming

The devices are programmed on a byte-by-byte (or word-by-word) basis. Programming is a four bus cycle

operation. There are two “unlock” write cycles. These are followed by the program set-up command and data

write cycles. Addresses are latched on the falling edge of CE or WE, whichever happens later and the data is

latched on the rising edge of CE or WE, whichever happens first. The rising edge of CE or WE (whichever

happens first) begins programming. Upon executing the Embedded Program Algorithm command sequence,

the system is not required to provide further controls or timings. The device will automatically provide adequate

internally generated program pulses and verify the programmed cell margin.

The automatic programming operation is completed when the data on DQ

is equivalent to data written to this

bit at which time the devices return to the read mode and addresses are no longer latched. (See Table 8, Hardware

Sequence Flags.) Therefore, the devices require that a valid address to the devices be supplied by the system

at this particular instance of time. Hence, Data Polling must be performed at the memory location which is being

programmed.

Any commands written to the chip during this period will be ignored. If hardware reset occurs during the

programming operation, it is impossible to guarantee the data are being written.

Programming is allowed in any sequence and across sector boundaries. Beware that a data “0” cannot be

programmed back to a “1”. Attempting to do so may either hang up the device or result in an apparent success

according to the data polling algorithm but a read from read/reset mode will show that the data is still “0”. Only

erase operations can convert “0”s to “1”s.

Figure 18 illustrates the Embedded Program

Algorithm using typical command strings and bus operations.

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MBM29PDS322TE10PBT	Replaced by TPS2046B : 0.345A, 2.7-5.5V Dual (1In/2Out) Hi-Side MOSFET, Fault Report, Act-Low Enable 8-SOIC -40 to 85
MBM29PDS322TE10	32M (2M x 16) BIT Page Dual Operation
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相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
MBM29LV800TA	制造商:FUJITSU 制造商全稱:Fujitsu Component Limited. 功能描述:8M (1M X 8/512K X 16) BIT
MBM29LV800TA-12	制造商:FUJITSU 制造商全稱:Fujitsu Component Limited. 功能描述:8M (1M X 8/512K X 16) BIT
MBM29LV800TA-70	制造商:FUJITSU 制造商全稱:Fujitsu Component Limited. 功能描述:8M (1M X 8/512K X 16) BIT
MBM29LV800TA-90	制造商:FUJITSU 制造商全稱:Fujitsu Component Limited. 功能描述:8M (1M X 8/512K X 16) BIT
MBM29LV800TE	制造商:FUJITSU 制造商全稱:Fujitsu Component Limited. 功能描述:8M (1M x 8/512 K x 16) BIT

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