ADUC842 Analog Devices, ADUC842 Datasheet - Page 35

ADUC842

Manufacturer Part Number

ADUC842

Description

Precision Analog Microcontroller: 16MIPS 8052 Flash MCU + 8-Ch 12-Bit ADC + Dual 12-Bit DAC

Manufacturer

Analog Devices

Datasheet

1.ADUC841.pdf (88 pages)

Specifications of ADUC842

Mcu Core

8052

Mcu Speed (mips)

Sram (bytes)

2304Bytes

Gpio Pins

Adc # Channels

Other

PWM

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Example: Programming the Flash/EE Data Memory

A user wants to program F3H into the second byte on Page 03H

of the Flash/EE data memory space while preserving the other

3 bytes already in this page. A typical program of the Flash/EE

data array involves

Step 1: Set Up the Page Address

Address registers EADRH and EADRL hold the high byte

address and the low byte address of the page to be addressed.

The assembly language to set up the address may appear as

MOV EADRH,#0

MOV EADRL,#03H

Step 2: Set Up the EDATA Registers

Write the four values to be written into the page into the four

SFRs, EDATA1–4. Unfortunately, the user does not know three

of them. Thus, the user must read the current page and over-

write the second byte.

MOV ECON,#1

MOV EDATA2,#0F3H

Step 3: Program Page

A byte in the Flash/EE array can be programmed only if it has

previously been erased. To be more specific, a byte can be

programmed only if it already holds the value FFH. Because of

the Flash/EE architecture, this erase must happen at a page level;

therefore, a minimum of 4 bytes (1 page) are erased when an

erase command is initiated. Once the page is erase, the user can

program the 4 bytes in-page and then perform a verification of

the data.

MOV ECON,#5

MOV ECON,#2

MOV ECON,#4

MOV A,ECON

JNZ ERROR

Although the 4 kBytes of Flash/EE data memory are shipped

from the factory pre-erased, i.e., byte locations set to FFH, it is

nonetheless good programming practice to include an

ERASEALL routine as part of any configuration/setup code

running on the parts. An ERASEALL command consists of

writing 06H to the ECON SFR, which initiates an erase of the

4-kByte Flash/EE array. This command coded in 8051 assembly

would appear as

MOV ECON,#06H

Setting EADRH/L with the page address.

Writing the data to be programmed to the EDATA1–4.

Writing the ECON SFR with the appropriate command.

; Set Page Address Pointer

; Read Page into EDATA1-4

; Overwrite byte 2

; ERASE Page

; WRITE Page

; VERIFY Page

; Check if ECON=0 (OK!)

; Erase all Command

; 2 ms Duration

Rev. 0 | Page 35 of 88

Flash/EE Memory Timing

Typical program and erase times for the parts are as follows:

Normal Mode (operating on Flash/EE data memory)

READPAGE (4 bytes)

WRITEPAGE (4 bytes)

VERIFYPAGE (4 bytes)

ERASEPAGE (4 bytes)

ERASEALL (4 kBytes)

READBYTE (1 byte)

WRITEBYTE (1 byte)

ULOAD Mode (operating on Flash/EE program memory)

WRITEPAGE (256 bytes)

ERASEPAGE (64 bytes)

ERASEALL (56 kBytes)

WRITEBYTE (1 byte)

Note that a given mode of operation is initiated as soon as the

command word is written to the ECON SFR. The core micro-

controller operation on the parts is idled until the requested

program/read or erase mode is completed. In practice, this

means that even though the Flash/EE memory mode of operation

is typically initiated with a two machine cycle MOV instruction

(to write to the ECON SFR), the next instruction is not executed

until the Flash/EE operation is complete. This means that the

core cannot respond to interrupt requests until the Flash/EE

operation is complete, although the core peripheral functions

like counter/timers continue to count and time as configured

throughout this period.

ADuC841/ADuC842/ADuC843

22 machine cycles

380 µs

22 machine cycles

2 ms

9 machine cycles

200 µs

16.5 ms

2 ms

200 µs

ADUC842 Analog Devices, ADUC842 Datasheet - Page 35

ADUC842

Specifications of ADUC842

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