X76F128 Datasheet, PDF(2/17 Page) Xicor Inc.

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X76F128 Datasheet, PDF (2/17 Pages) Xicor Inc. – Secure SerialFlash

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X76F128

PIN DESCRIPTIONS

Serial Clock (SCL)

The SCL input is used to clock all data into and out of the

device.

Serial Data (SDA)

SDA is a true three state serial data input/output pin. Dur-

ing a read cycle, data is shifted out on this pin. During a

write cycle, data is shifted in on this pin. In all other

cases, this pin is in a high impedance state.

Chip Enable (CS)

When CS is high, the X76F128 is deselected and the

SDA pin is at high impedance and unless an internal

write operation is underway, the X76F128 will be in

standby mode. CS low enables the X76F128, placing it in

the active mode.

Reset (RST)

RST is a device reset pin. When RST is pulsed high

while CS is low the X76F128 will output 32 bits of ï¬xed

data which conforms to the standard for âsynchronous

response to resetâ. CS must remain LOW and the part

must not be in a write cycle for the response to reset to

occur. See Figure 11. If at any time during the response

to reset CS goes HIGH, the response to reset will be

aborted and the part will return to the standby state. The

response to reset is "mask programmable" only!

DEVICE OPERATION

There are two primary modes of operation for the

X76F128; Protected READ and protected WRITE.

Protected operations must be performed with one of four

8-byte passwords.

The basic method of communication for the device is

established by ï¬rst enabling the device (CS LOW), gen-

erating a start condition, then transmitting a command,

followed by the correct password. All parts will be

shipped from the factory with all passwords equal to â0â.

The user must perform ACK Polling to determine the

validity of the password, before starting a data transfer

(see Acknowledge Polling.) Only after the correct pass-

word is accepted and a ACK polling has been performed,

can the data transfer occur.

To ensure the correct communication, RST must remain

LOW under all conditions except when running a

âResponse to Reset sequenceâ.

Data is transferred in 8-bit segments, with each transfer

being followed by an ACK, generated by the receiving

device.

If the X76F128 is in a nonvolatile write cycle a âno ACKâ

(SDA=High) response will be issued in response to load-

ing of the command byte. If a stop is issued prior to the

nonvolatile write cycle the write operation will be termi-

nated and the part will reset and enter into a standby

mode.

The basic sequence is illustrated in Figure 1.

PIN NAMES

Symbol

Description

Chip Select Input

SDA

Serial Data Input/Output

SCL

Serial Clock Input

RST

Reset Input

Vcc

Supply Voltage

Vss

Ground

No Connect

7052 FM T01

PIN CONFIGURATION

VCC

GND

Smart Card

RST

SCL

SDA

7052 FM 02

VSS

SDA

VCC

RST

SCL

After each transaction is completed, the X76F128 will

reset and enter into a standby mode. This will also be the

response if an unsuccessful attempt is made to access a

protected array.

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