RC48F4400P0TB0EA Micron Technology Inc, RC48F4400P0TB0EA Datasheet - Page 42

RC48F4400P0TB0EA

Manufacturer Part Number

RC48F4400P0TB0EA

Description

Manufacturer

Micron Technology Inc

Datasheet

1.RC48F4400P0TB0EA.pdf (88 pages)

Specifications of RC48F4400P0TB0EA

Cell Type

NOR

Density

512Mb

Interface Type

Parallel/Serial

Boot Type

Bottom

Address Bus

25b

Operating Supply Voltage (typ)

2.5/3/3.3V

Operating Temp Range

-40C to 85C

Package Type

EZBGA

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

Not Compliant

Current page: 42 of 88
Download datasheet (2Mb)

11.2.2

Note:

11.2.3

Caution:

Datasheet

Programming the OTP Registers

To program any of the OTP Registers, first issue the Program OTP Register command at

the parameter’s base address plus the offset to the desired OTP Register (see

6.2, “Device Command Bus Cycles” on page

data to the same OTP Register address (see

page

The device programs the 64-bit and 128-bit user-programmable OTP Register data 16

bits at a time (see

Issuing the Program OTP Register command outside of the OTP Register’s address

space causes a program error (SR.4 set). Attempting to program a locked OTP Register

causes a program error (SR.4 set) and a lock error (SR.1 set).

When programming the OTP bits in the OTP registers for a Top Parameter Device,

the following upper address bits must also be driven properly: A[Max:17] driven high

Locking the OTP Registers

Each OTP Register can be locked by programming its respective lock bit in the Lock

issuing the Program Lock Register command, followed by the desired Lock Register

data (see

addresses of the Lock Registers are 0x80 for register 0 and 0x89 for register 1. These

addresses are used when programming the lock registers (see

Identifier Information” on page

Bit 0 of Lock Register 0 is already programmed during the manufacturing process at the

“factory”, locking the lower, pre-programmed 64-bit region of the first 128-bit OTP

region of the first 128-bit OTP Register. When programming Bit 1 of Lock Register 0, all

other bits need to be left as ‘1’ such that the data programmed is 0xFFFD.

Lock Register 1 controls the locking of the upper sixteen 128-bit OTP Registers. Each of

the 16 bits of Lock Register 1 correspond to each of the upper sixteen 128-bit OTP

Registers. Programming a bit in Lock Register 1 locks the corresponding 128-bit OTP

After being locked, the OTP Registers cannot be unlocked.

41).

Section 6.2, “Device Command Bus Cycles” on page

Figure 38, “OTP Register Programming Flowchart” on page

22).

Figure 12, “OTP Register Map” on

18). Next, write the desired OTP Register

18). The physical

Table 8, “Device

Order Number: 320003-09

P33-65nm

Section

79).

Mar 2010

RC48F4400P0TB0EA Micron Technology Inc, RC48F4400P0TB0EA Datasheet - Page 42

RC48F4400P0TB0EA

Specifications of RC48F4400P0TB0EA

Related parts for RC48F4400P0TB0EA