K5N1229ACD-BQ12 Datasheet, PDF(24/128 Page) Samsung semiconductor – 512Mb (32M x16) Muxed Burst, Multi Bank SLC NOR Flash

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K5N1229ACD-BQ12 Datasheet, PDF (24/128 Pages) Samsung semiconductor – 512Mb (32M x16) Muxed Burst, Multi Bank SLC NOR Flash

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datasheet K5N1229ACD-BQ12

Rev. 1.0

MCP Memory

4.22 Program Suspend / Resume

The device provides the Program Suspend/Resume mode. This mode is used to enable Data Read by suspending the Program operation. The device

accepts a Program Suspend command in Program mode(including Program operations performed during Erase Suspend) but other commands are

ignored. After input of the Program Suspend command, 10us is needed to enter the Program Suspend Read mode. Therefore system must wait for

10us(recovery time) to read the data from the bank which include the block being programmed. Otherwise, system can read the data immediately from a

bank which don't include block being programmed without recovery time(max.10us) after Program Suspend command. Like an Erase Suspend mode, the

device can be returned to Program mode by using a Program Resume command. While program can be suspended and resumed multiple times, a

minimum 30us is required from resume to the next suspend.

In the program suspend mode, protect/unprotect command is prohibited.

4.23 Read While Write Operation

The device is capable of reading data from one bank while writing in the other banks. This is so called the Read While Write operation. An erase opera-

tion may also be suspended to read from or program to another location within the same bank(except the block being erased). The Read While Write

operation is prohibited during the chip erase operation. Figure 19 shows how read and write cycles may be initiated for simultaneous operation with zero

latency. Refer to the DC Characteristics table for read-while-write current specifications.

4.24 OTP Block Region

The OTP Block feature provides a 512-word Flash memory region that enables permanent part identification through an Electronic Serial Number (ESN).

The OTP Block is customer lockable and shipped with itself unlocked, allowing customers to untilize the that block in any manner they choose. The cus-

tomer-lockable OTP Block has the Protection Verify Bit (DQ0) set to a "0" for Unlocked state or a "1" for Locked state.

The system accesses the OTP Block through a command sequence (see "Enter OTP Block / Exit OTP Block Command sequence" at Table 8). After the

system has written the "Enter OTP Block" Command sequence, it may read the OTP Block by using the addresses (1FFFE00h~1FFFFFFh : Top Boot

block device/Uniform block device, 0000000h-00001FFh : Bottom Boot block device) normally and may check the Protection Verify Bit (DQ0) by using the

"Autoselect Block Protection Verify" Command sequence with OTP Block address. This mode of operation continues until the system issues the "Exit

OTP Block" Command suquence, a hardware reset or until power is removed from the device. On power-up, or following a hardware reset, the device

reverts to sending commands to main blocks. Note that the Accelerated function and unlock bypass modes are not available when the OTP Block is

enabled.

Customer Lockable

In a Customer lockable device, The OTP Block is one-time programmable and can be locked only once. Note that the Accelerated programming and

Unlock bypass functions are not available when programming the OTP Block. Locking operation to the OTP Block is started by writing the "Enter OTP

Block" Command sequence, and then the "Block Protection" Command seqeunce (Table 8) with an OTP Block address. The Locking operation has to be

above 100us. "Exit OTP Block" commnad sequence and Hardware reset makes locking operation finished and then exiting from OTP Block after 30us.

The OTP Block Lock operation must be used with caution since, once locked, there is no procedure available for unlocking and none of the

bits in the OTP Block space can be modified in any way.

Suspend and resume operation are not supported during OTP protect, nor is OTP protect supported during any suspend operations. After

entering OTP block, program/erase operation on main blocks is prohibited. Enter OTP block command is not allowed while other operation is

excuting.

4.25 Low VCC Write Inhibit

To avoid initiation of a write cycle during Vcc power-up and power-down, a write cycle is locked out for Vcc less than VLKO. If the Vcc < VLKO (Lock-Out

Voltage), the command register and all internal program/erase circuits are disabled. Under this condition the device will reset itself to the read mode.Sub-

sequent writes will be ignored until the Vcc level is greater than VLKO. It is the userâs responsibility to ensure that the control pins are logically correct to

prevent unintentional writes when Vcc is above VLKO.

4.26 Write Pulse âGlitchâ Protection

Noise pulses of less than 5ns (typical) on OE, CE, AVD or WE do not initiate a write cycle.

4.27 Logical Inhibit

Write cycles are inhibited by holding any one of OE = VIL , CE = VIH or WE = VIH. To initiate a write cycle, CE and WE must be a logical zero while OE is

a logical one.

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