ADUC7021 Analog Devices, ADUC7021 Datasheet - Page 47

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ADUC7021

Manufacturer Part Number
ADUC7021
Description
Manufacturer
Analog Devices
Datasheet

Specifications of ADUC7021

Mcu Core
ARM7 TDMI
Mcu Speed (mips)
40
Sram (bytes)
8192Bytes
Gpio Pins
13
Adc # Channels
8

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NONVOLATILE FLASH/EE MEMORY
The ADuC7019/20/21/22/24/25/26/27/28/29 incorporate
Flash/EE memory technology on-chip to provide the user with
nonvolatile, in-circuit reprogrammable memory space.
Like EEPROM, flash memory can be programmed in-system
at a byte level, although it must first be erased. The erase is
performed in page blocks. As a result, 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
programmability, high density, and low cost. Incorporated in
the ADuC7019/20/21/22/24/25/26/27/28/29, 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.
Each part contains a 64 kB array of Flash/EE memory. The
lower 62 kB is available to the user and the upper 2 kB contain
permanently embedded firmware, allowing in-circuit serial
download. These 2 kB of embedded firmware also contain a
power-on configuration routine that downloads factory-
calibrated coefficients to the various calibrated peripherals
(such as ADC, temperature sensor, and band gap references).
This 2 kB embedded firmware is hidden from user code.
Flash/EE Memory Reliability
The Flash/EE memory arrays on the parts are fully qualified for
two key Flash/EE memory characteristics: 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. A single
endurance cycle is composed of four independent, sequential
events, defined as
1.
2.
3.
4.
In reliability qualification, every half word (16-bit wide)
location of the three pages (top, middle, and bottom) in the
Flash/EE memory is cycled 10,000 times from 0x0000 to
0xFFFF. As indicated in Table 1, the Flash/EE memory
endurance qualification is carried out in accordance with
JEDEC Retention Lifetime Specification A117 over the
industrial temperature range of −40° to +125°C. The results
allow the specification of a minimum endurance figure over a
supply temperature of 10,000 cycles.
Initial page erase sequence
Read/verify sequence (single Flash/EE)
Byte program sequence memory
Second read/verify sequence (endurance cycle)
Rev. D | Page 47 of 96
Retention quantifies the ability of the Flash/EE memory to
retain its programmed data over time. Again, the parts are
qualified in accordance with the formal JEDEC Retention
Lifetime Specification (A117) at a specific junction temperature
(T
Flash/EE memory is cycled to its specified endurance limit,
described in Table 1, before data retention is characterized. This
means that the Flash/EE memory is guaranteed to retain its data
for its fully specified retention lifetime every time the Flash/EE
memory is reprogrammed. In addition, note that retention
lifetime, based on an activation energy of 0.6 eV, derates with T
as shown in Figure 51.
PROGRAMMING
The 62 kB of Flash/EE memory can be programmed in-circuit,
using the serial download mode or the provided JTAG mode.
Serial Downloading (In-Circuit Programming)
The ADuC7019/20/21/22/24/25/26/27/28/29 facilitate code
download via the standard UART serial port or via the I
The parts enter serial download mode after a reset or power
cycle if the BM pin is pulled low through an external 1 kΩ
resistor. After a part is in serial download mode, the user can
download code to the full 62 kB of Flash/EE memory while the
device is in-circuit in its target application hardware. An
executable PC serial download is provided as part of the
development system for serial downloading via the UART. The
AN-806 Application Note describes the protocol for serial
downloading via the UART and I
JTAG Access
The JTAG protocol uses the on-chip JTAG interface to facilitate
code download and debug.
ADuC7019/20/21/22/24/25/26/27/28/29
J
= 85°C). As part of this qualification procedure, the
600
450
300
150
0
30
Figure 51. Flash/EE Memory Data Retention
40
JUNCTION TEMPERATURE (°C)
55
70
85
2
C.
100
125
135
150
2
C port.
J

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