ADUC831BS Analog Devices Inc, ADUC831BS Datasheet - Page 14
ADUC831BS
Manufacturer Part Number
ADUC831BS
Description
IC ADC/DAC 12BIT W/MCU 52-MQFP
Manufacturer
Analog Devices Inc
Series
MicroConverter® ADuC8xxr
Datasheet
1.EVAL-ADUC831QSZ.pdf
(76 pages)
Specifications of ADUC831BS
Rohs Status
RoHS non-compliant
Core Processor
8052
Core Size
8-Bit
Speed
16MHz
Connectivity
EBI/EMI, I²C, SPI, UART/USART
Peripherals
PSM, Temp Sensor, WDT
Number Of I /o
34
Program Memory Size
62KB (62K x 8)
Program Memory Type
FLASH
Eeprom Size
4K x 8
Ram Size
2.25K x 8
Voltage - Supply (vcc/vdd)
2.7 V ~ 5.5 V
Data Converters
A/D 8x12b, D/A 2x12b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 125°C
Package / Case
52-MQFP, 52-PQFP
For Use With
EVAL-ADUC831QSZ - KIT DEV FOR ADUC831 QUICK START
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ADuC831
MEMORY ORGANIZATION
The ADuC831 contains four different memory blocks:
Flash/EE Program Memory
The ADuC831 provides 62 kBytes of Flash/EE program memory
to run user code. The user can choose to run code from this
internal memory or run code from an external program memory.
If the user applies power or resets the device while the EA pin is
pulled low, the part will execute code from the external program
space, otherwise the part defaults to code execution from its
internal 62 kBytes of Flash/EE program memory. Unlike the
ADuC812, where code execution can overflow from the internal
code space to external code space once the PC becomes greater
than 1FFFH, the ADuC831 does not support the rollover from
F7FFH in internal code space to F800H in external code space.
Instead the 2048 bytes between F800H and FFFFH will appear
as NOP instructions to user code.
This internal code space can be downloaded via the UART serial
port while the device is in-circuit. 56 kBytes of the program
memory can be reprogrammed during runtime thus the code
space can be upgraded in the field using a user defined protocol
or it can be used as a data memory. This will be discussed in
more detail in the Flash/EE Memory section.
Flash/EE Data Memory
4 kBytes of Flash/EE Data Memory are available to the user and
can be accessed indirectly via a group of control registers mapped
into the Special Function Register (SFR) area. Access to the
Flash/EE data memory is discussed in detail later as part of the
Flash/EE Memory section.
General-Purpose RAM
The general-purpose RAM is divided into two separate memories,
namely the upper and the lower 128 bytes of RAM. The lower
128 bytes of RAM can be accessed through direct or indirect
addressing. The upper 128 bytes of RAM can only be accessed
through indirect addressing as it shares the same address space
as the SFR space, which can only be accessed through direct
addressing.
The lower 128 bytes of internal data memory are mapped as
shown in Figure 2. The lowest 32 bytes are grouped into four
banks of eight registers addressed as R0 through R7. The next
16 bytes (128 bits), locations 20H through 2FH above the register
banks, form a block of directly addressable bit locations at bit
addresses 00H through 7FH. The stack can be located anywhere
in the internal memory address space, and the stack depth can
be expanded up to 2048 bytes.
Reset initializes the stack pointer to location 07H and increments
it once before loading the stack to start from locations 08H which
is also the first register (R0) of register bank 1. Thus, if one is
going to use more than one register bank, the stack pointer
should be initialized to an area of RAM not used for data storage.
• 62 kBytes of On-Chip Flash/EE Program Memory
• 4 kBytes of On-Chip Flash/EE Data Memory
• 256 Bytes of General-Purpose RAM
• 2 kBytes of Internal XRAM
–14–
The ADuC831 contains 2048 bytes of internal XRAM,
1792 bytes of which can be configured to be used as an
extended 11-bit stack pointer.
By default, the stack will operate exactly like an 8052 in that it
will roll over from FFH to 00H in the general-purpose RAM. On
the ADuC831 however, it is possible (by setting CFG831.7)
to enable the 11-bit extended stack pointer. In this case, the
stack will roll over from FFH in RAM to 0100H in XRAM.
The 11-bit stack pointer is visible in the SP and SPH SFRs.
The SP SFR is located at 81H as with a standard 8052. The
SPH SFR is located at B7H. The 3 LSBs of this SFR contain
the three extra bits necessary to extend the 8-bit stack pointer
into an 11-bit stack pointer.
Figure 2. Lower 128 Bytes of Internal Data Memory
BITS IN PSW
SELECTED
BANKS
VIA
Figure 3. Extended Stack Pointer Operation
CFG831.7 = 0
10
11
01
00
FFH
00H
30H
20H
18H
10H
08H
00H
ON-CHIP DATA
256 BYTES OF
(DATA +
STACK)
RAM
CFG831.7 = 1
07FFH
100H
7FH
2FH
1FH
0FH
00H
17H
07H
(DATA + STACK
ON-CHIP XRAM
ON-CHIP XRAM
FOR EXSP = 0)
FOR EXSP = 1,
(DATA ONLY)
UPPER 1792
DATA ONLY
LOWER 256
BYTES OF
BYTES OF
GENERAL-PURPOSE
AREA
BIT-ADDRESSABLE
(BIT ADDRESSES)
FOUR BANKS OF EIGHT
REGISTERS
R0 R7
RESET VALUE OF
STACK POINTER
REV. 0
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