Datasheet

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Table Of Contents

Data Sheet AD5232

Rev. C | Page 21 of 24

Table 16 illustrates using the left shift-by-one to change circuit

gain in 6 dB steps.

Table 16.

SDI SDO Action

0xC1XX 0xXXXX

Moves Wiper W2 to double the present

data value contained in the RDAC2 register

in the direction of Terminal A.

0xC1XX 0xXXXX

Moves Wiper W2 to double the present

data value contained in the RDAC2 register

in the direction of Terminal A.

Table 17 illustrates storing additional data in nonvolatile memory.

Table 17.

SDI SDO Action

0x3280 0xXXXX

Stores 0x80 data in spare EEMEM location,

USER1.

0x3340 0xXXXX

Stores 0x40 data in spare EEMEM location,

USER2.

Table 18 illustrates reading back data from various memory

locations.

Table 18.

SDI SDO Action

0x94XX 0xXXXX

Prepares data read from USER3 location.

(USER3 is already loaded with 0x80.)

0x00XX 0xXX80

Instruction 0 (NOP) sends 16-bit word out

of SDO where the last eight bits contain

the contents of USER3 location. The NOP

command ensures that the device returns

to the idle power dissipation state.

EQUIPMENT CUSTOMER START-UP SEQUENCE

FOR A PCB CALIBRATED UNIT WITH PROTECTED

SETTINGS

1. For the PCB setting, tie

to GND to prevent changes in

the PCB wiper set position.

2. Set power V

and V

with respect to GND.

3. As an optional step, strobe the

pin to ensure full power-

on preset of the wiper register with EEMEM contents in

unpredictable supply sequencing environments.

FLASH/EEMEM RELIABILITY

The Flash/EE memory array on the AD5232 is fully qualified

for two key Flash/EE memory characteristics: namely, Flash/EE

memory cycling endurance and Flash/EE memory data retention.

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 follows:

1. Initial page erase sequence

2. Read/verify sequence

3. Byte program sequence

4. Second read/verify sequence

During reliability qualification, Flash/EE memory is cycled

from 0x00 to 0xFF until a first fail is recorded, signifying the

endurance limit of the on-chip Flash/EE memory.

As indicated in the Specifications section, the AD5232 Flash/EE

memory endurance qualification has been carried out in accor-

dance with JEDEC Std. 22, Method A117 over the industrial

temperature range of −40°C to +85°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 AD5232 has been

qualified in accordance with the formal JEDEC Retention

Lifetime Specification (A117) at a specific junction temperature of

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

memory is cycled to its specified endurance limit, as described

previously, 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 repro-grammed. It should also be noted that

retention lifetime, based on an activation energy of 0.6 eV,

derates with T

, as shown in Figure 44.

300

250

200

150

100

40 50 60 70 80 90 100 110

JUNCTION TEMPERATURE (°C)

RETENTION (Years)

02618-044

ADI TYPICAL PERFORMANCE

AT T

= 55°C

Figure 44. Flash/EE Memory Data Retention

EVALUATION BOARD

Analog Devices, Inc., offers a user-friendly EVAL-AD5232-SDZ

evaluation kit that can be controlled by a personal computer

through a printer port. The driving program is self-contained;

no programming languages or skills are needed.