CP3BT10 Datasheet, PDF(40/210 Page) National Semiconductor (TI) – Reprogrammable Connectivity Processor with Bluetooth and USB Interfaces

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CP3BT10 Datasheet, PDF (40/210 Pages) National Semiconductor (TI) – Reprogrammable Connectivity Processor with Bluetooth and USB Interfaces

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8.5.16 Flash Memory Recovery Time Reload Register 8.5.18 Flash Memory Auto-Read Register 1 (FMAR1/

(FMRCV/FSMRCV)

FSMAR1)

The FMRCV/FSMRCV register is a byte-wide read/write

flash memory accesses. Software must not modify this reg-

ister while a program/erase operation is in progress (FM-

BUSY set). At reset, this register is initialized to 04h if the

flash memory is idle. The CPU bus master has read/write

access to this register.

The FMAR1 register contains a copy of the Protection Word

from Information Block 1. The Protection Word is sampled

at reset. The contents of the FMAR1 register define the cur-

rent Flash memory protection settings. The CPU bus mas-

ter has read-only access to this register. The FSMAR1

mat is the same as the format of the Protection Word (see

Section 8.4.2).

FTRCV

15 13 12 10 9 7 6 4 3 1 0

WRPROT RDPROT ISPE EMPTY BOOTAREA 1

FTRCV

The Flash Timing Recovery Delay Count field

specifies a delay of (FTRCV + 1) prescaler 8.5.19 Flash Memory Auto-Read Register 2 (FMAR2/

output clocks.

FSMAR2)

8.5.17 Flash Memory Auto-Read Register 0 (FMAR0/

FSMAR0)

The FMAR0/FSMAR0 register contains a copy of the Func-

tion Word from Information Block 0. The Function Word is

sampled at reset. The contents of the FMAR0 register are

used to enable or disable special device functions. The CPU

bus master has read-only access to this register. The

FSMAR0 register has the same value as the FMAR0 regis-

ter

The FMAR2 register is a word-wide read-only register,

which is loaded during reset. It is used to build the Code

Area start address. At reset, the CPU executes a branch,

using the contents of the FMAR2 register as displacement.

The CPU bus master has read-only access to this register.

The FSMAR2 register has the same value as the FMAR2

CADR7:0

Reserved

USB_ENABLE

13 12

USB_ENABLE

The USB_ENABLE bit can be used to force

an external USB transceiver into its low-power

mode. The USB power mode is dependent on

the USB controller status, the USB_ENABLE

bit in the MCFG register (see Section 7.1),

and the USB_ENABLE bit in the Function

Word.

0 â External USB transceiver forced into low-

power mode.

1 â Transceiver power mode dependent on

USB controller status and programming

of the Function Word.

CADR15:13

CADR12:8

CADR8

CADR8:0

CADR12:9

CADR15:13

The Code Area Start Address (bits 8:0) con-

tains the lower 9 bits of the Code Area start

address. The CADR8:0 field has a fixed value

of 0.

The Code Area Start Address (bits 12:9) are

loaded during reset with the inverted value of

BOOTAREA3:0.

The Code Area Start Address (bits 15:13)

contains the upper 3 bits of the Code Area

start address. The CADR15:13 field has a

fixed value of 0.

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