GT28F160C3TA90 Intel, GT28F160C3TA90 Datasheet - Page 30

GT28F160C3TA90

Manufacturer Part Number

GT28F160C3TA90

Description

Flash Mem Parallel 3V/3.3V 16M-Bit 1M x 16 90ns 48-Pin UBGA

Manufacturer

Intel

Datasheet

1.GT28F160C3TA90.pdf (68 pages)

Specifications of GT28F160C3TA90

Package

48UBGA

Density

16 Mb

Architecture

Sectored

Block Organization

Asymmetrical

Location Of Boot Block

Top

Typical Operating Supply Voltage

3|3.3 V

Sector Size

8KByte x 8|64KByte x 31

Support Of Common Flash Interface

Yes

Timing Type

Asynchronous

Operating Temperature

-40 to 85 Â°C

Interface Type

Parallel

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Intel

5.5.1

5.5.2

5.5.3

5.6

Figure 6. Protection Register Mapping

Advanced+ Boot Block Flash Memory (C3)

Reading the Protection Register

The protection register is read in the read-identifier mode. The device is switched to this mode by

issuing the Read Identifier command (0x90). Once in this mode, read cycles from addresses shown

array mode, issue the Read Array command (0xFF).

Programming the Protection Register

The protection register bits are programmed using the two-cycle Protection Program command.

The 64-bit number is programmed 16 bits at a time. First, issue the Protection Program Setup

command, 0xC0. The next write to the device will latch in address and data, and program the

specified location. The allowable addresses are shown in

page

address Protection Program commands outside the defined protection register address space should

not be attempted. Attempting to program to a previously locked protection register segment will

result in a Status Register error (Program Error bit SR[4] and Lock Error bit SR[1] will be set to 1).

Locking the Protection Register

The user-programmable segment of the protection register is lockable by programming bit 1 of the

PR-LOCK location to 0. See

location is programmed to 0 at the Intel factory to protect the unique device number. This bit is set

using the Protection Program command to program 0xFFFD to the PR-LOCK location. After these

bits have been programmed, no further changes can be made to the values stored in the protection

(Program Error bit SR[4] and Lock Error bit SR[1] will be set to 1). Protection register lockout

state is not reversible.

The C3 device provides in-system programming and erase in the 1.65 V–3.6 V range. For fast

production programming, 12 V programming can be used. Refer to

Supply Configurations” on page

Figure 6, “Protection Register

20. See

Program and Erase Voltages

Figure 18, “Protection Register Programming Flowchart” on page

0x88

0x85

0x84

0x81

0x80

Figure 6, “Protection Register Mapping” on page

15 14 13 12 11 10 9

31.

Mapping” retrieve the specified information. To return to read-

128-Bit Protection Register 0

(Intel Factory-Programmed)

PR Lock Register 0

(User-Programmable)

64-bit Segment

Table 6, “Device Identification Codes” on

Figure 7, “Example Power

30. Bit 0 of this

57. Attempts to

Datasheet

GT28F160C3TA90 Intel, GT28F160C3TA90 Datasheet - Page 30

GT28F160C3TA90

Specifications of GT28F160C3TA90

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