EVAL-ADUC832QSZ Analog Devices Inc, EVAL-ADUC832QSZ Datasheet - Page 27

EVAL-ADUC832QSZ

Manufacturer Part Number

EVAL-ADUC832QSZ

Description

KIT DEV FOR ADUC832 QUICK START

Manufacturer

Analog Devices Inc

Series

QuickStart™ Kitr

Type

MCUr

Datasheets

1.EVAL-ADUC832QSZ.pdf (92 pages)

2.EVAL-ADUC832QSZ.pdf (80 pages)

Specifications of EVAL-ADUC832QSZ

Contents

Evaluation Board, Cable, Power Supply, Software and Documentation

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

ADuC832

Lead Free Status / RoHS Status

Compliant, Lead free / RoHS Compliant

Other names

EVAL-ADUC832QS
EVAL-ADUC832QS

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NONVOLATILE FLASH/EE MEMORY

Flash/EE Memory Overview

The ADuC832 incorporates Flash/EE memory technology

on-chip to provide the user with nonvolatile, in-circuit, repro-

grammable code and data memory space. Flash/EE memory is a

relatively recent type of nonvolatile memory technology and is

based on a single transistor cell architecture.

This technology is basically an outgrowth of EPROM technology

and was developed through the late 1980s. Flash/EE memory

takes the flexible in-circuit reprogrammable features of EEPROM

and combines them with the space efficient/density features of

EPROM (see Figure 17).

Because Flash/EE technology is based on a single transistor cell

architecture, a Flash memory array, like EPROM, can be imple-

mented to achieve the space efficiencies or memory densities

required by a given design. Like EEPROM, Flash memory can

be programmed in-system at a byte level, although it must first

be erased; the erase being performed in page blocks. Thus,

Flash memory is often and more correctly referred to as

Flash/EE memory.

Overall, Flash/EE memory represents a step closer to the ideal

memory device that includes nonvolatility, in-circuit programma-

bility, high density, and low cost. Incorporated in the ADuC832,

Flash/EE memory technology allows the user to update program

code space in-circuit, without the need to replace one-time

programmable (OTP) devices at remote operating nodes.

Flash/EE Memory and the ADuC832

The ADuC832 provides two arrays of Flash/EE memory for user

applications. 62 kBytes of Flash/EE program space are provided

on-chip to facilitate code execution without any external discrete

ROM device requirements. The program memory can be pro-

grammed in-circuit using the serial download mode provided,

using conventional third party memory programmers, or via a

user defined protocol that can configure it as data if required.

A 4 kByte Flash/EE data memory space is also provided on-chip.

This may be used as a general-purpose nonvolatile scratchpad

area. User access to this area is via a group of six SFRs. This space

can be programmed at a byte level, although it must first be erased

in 4-byte pages.

ADuC832 Flash/EE Memory Reliability

The Flash/EE program and data memory arrays on the ADuC832

are fully qualified for two key Flash/EE memory characteristics,

namely Flash/EE Memory Cycling Endurance and Flash/EE

Memory Data Retention.

REV. 0

SPACE EFFICIENT/

Figure 17. Flash/EE Memory Development

DENSITY

TECHNOLOGY

EPROM

FLASH/EE MEMORY

TECHNOLOGY

EEPROM

REPROGRAMMABLE

IN-CIRCUIT

–27–

Endurance quantifies the ability of the Flash/EE memory to be

cycled through many program, read, and erase cycles. In real

terms, a single endurance cycle is composed of four independent,

sequential events. These events are defined as:

In reliability qualification, every byte in both the program and

data Flash/EE memory is cycled from 00H to FFH until a first

fail is recorded, signifying the endurance limit of the on-chip

Flash/EE memory.

As indicated in the specification pages of this data sheet, the

ADuC832 Flash/EE Memory Endurance qualification has been

carried out in accordance with JEDEC Specification A117 over

the industrial temperature range of –40°C to +25°C and +85°C

to +125°C. The results allow the specification of a minimum

endurance figure over supply and temperature of 100,000 cycles,

with an endurance figure of 700,000 cycles being typical of

operation at 25°C.

Retention quantifies the ability of the Flash/EE memory to

retain its programmed data over time. Again, the ADuC832 has

been qualified in accordance with the formal JEDEC Retention

Lifetime Specification (A117) at a specific junction temperature

EE memory is cycled to its specified endurance limit described

above before data retention is characterized. This means that

the Flash/EE memory is guaranteed to retain its data for its full

specified retention lifetime every time the Flash/EE memory is

reprogrammed. It should also be noted that retention lifetime,

based on an activation energy of 0.6 eV, will derate with T

shown in Figure 18.

a. Initial page erase sequence

b. Read/verify sequence

c. Byte program sequence

d. Second read/verify sequence

= 55°C). As part of this qualification procedure, the Flash/

300

250

200

150

100

Figure 18. Flash/EE Memory Data Retention

JUNCTION TEMPERATURE – C

ADI SPECIFICATION

100 YEARS MIN.

AT T

= 55 C

A single Flash/EE

Memory

Endurance Cycle

ADuC832

100

110

EVAL-ADUC832QSZ Analog Devices Inc, EVAL-ADUC832QSZ Datasheet - Page 27

EVAL-ADUC832QSZ

Specifications of EVAL-ADUC832QSZ

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