EVAL-ADUC812QSZ Analog Devices Inc, EVAL-ADUC812QSZ Datasheet - Page 37
EVAL-ADUC812QSZ
Manufacturer Part Number
EVAL-ADUC812QSZ
Description
Analog MCU Evaluation Board
Manufacturer
Analog Devices Inc
Series
QuickStart™ Kitr
Type
MCUr
Datasheet
1.EVAL-ADUC812QS.pdf
(60 pages)
Specifications of EVAL-ADUC812QSZ
Silicon Manufacturer
Analog Devices
Core Architecture
8051
Silicon Core Number
ADuC812
Tool / Board Applications
General Purpose MCU, MPU, DSP, DSC
Mcu Supported Families
ADUC8xx
Contents
Evaluation Board, Power Supply, Cable, Software and Documentation
Development Tool Type
Hardware - Eval/Demo Board
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With/related Products
ADuC812
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Timer 1 Generated Baud Rates
When Timer 1 is used as the baud rate generator, the baud rates
in Modes 1 and 3 are determined by the Timer 1 overflow rate and
the value of SMOD as follows:
The Timer 1 interrupt should be disabled in this application.
The timer itself can be configured for either timer or counter
operation, and in any of its three running modes. In the most
typical application, it is configured for timer operation in the
Autoreload mode (high nibble of TMOD = 0010 binary). In that
case, the baud rate is given by the formula:
Table XX shows some commonly used baud rates and how they
might be calculated from a core clock frequency of 11.0592 MHz
and 12 MHz. Generally speaking, a 5% error is tolerable using
asynchronous (start/stop) communications.
Ideal
Baud
9600
19200
9600
2400
Timer 2 Generated Baud Rates
Baud rates can also be generated using Timer 2. Using Timer 2 is
similar to using Timer 1 in that the timer must overflow 16 times
before a bit is transmitted/received. Because Timer 2 has a 16-bit
Autoreload mode, a wider range of baud rates is possible using
Timer 2.
REV. E
Table XX. Commonly Used Baud Rates, Timer 1
(
Modes and Baud Rate
Core
CLK
12
11.0592
11.0592
11.0592
2
SMOD
(
Modes and Baud Rate
2
1
SMOD
32
TRANSITION
NOTE: AVAILABILITY OF ADDITIONAL
EXTERNAL INTERRUPT
T2EX
DETECTOR
NOTE: OSCILLATOR FREQUENCY
IS DIVIDED BY 2, NOT 12.
)
CORE
PIN
PIN
CLK
T2
1
1
0
0
×
SMOD
Value
1
3
32
(
Core Clock
)
×
3
(
Timer Overflow Rate
2
TH1-Reload
Value
–7 (F9H)
–3 (FDH)
–3 (FDH)
–12 (F4H)
=
(
1
12
C/T2 = 0
C/T2 = 1
×
=
EXEN2
[
256
CONTROL
CONTROL
−
Figure 34. Timer 2, UART Baud Rates
TR2
TH
Actual
Baud
8929
19200
9600
2400
)
1
]
)
EXF
)
2
%
7
0
Error
0
0
RCAP2L
(8 BITS)
TL2
TIMER 2
INTERRUPT
–37–
RCAP2H
(8 BITS)
Therefore, when Timer 2 is used to generate baud rates, the
timer increments every two clock cycles and not every core
machine cycle as before. Therefore, it increments six times
faster than Timer 1, and baud rates six times faster are possible.
Because Timer 2 has 16-bit autoreload capability, very low baud
rates are still possible.
Timer 2 is selected as the baud rate generator by setting the TCLK
and/or RCLK in T2CON. The baud rates for transmit and receive
can be simultaneously different. Setting RCLK and/or TCLK puts
Timer 2 into its baud rate generator mode as shown in Figure 34.
In this case, the baud rate is given by the formula:
Table XXI shows some commonly used baud rates and how they
might be calculated from a core clock frequency of 11.0592 MHz
and 12 MHz.
Ideal
Baud
19200
9600
2400
1200
19200
9600
2400
1200
TH2
(
Modes and Baud Rate
Core Clk
Table XXI. Commonly Used Baud Rates, Timer 2
RELOAD
OVERFLOW
Core
CLK
12
12
12
12
11.0592
11.0592
11.0592
11.0592
TIMER 2
1
)
(
Modes and Baud Rate
(
1 16
32
3
×
1
1
)
RCAP2H
Value
–1 (FFH)
–1 (FFH)
–1 (FFH)
–2 (FEH)
–1 (FFH)
–1 (FFH)
–1 (FFH)
–2 (FFH)
[
×
1
OVERFLOW
65536
2
(
TIMER 1
0
Timer Overflow Rate
0
0
3
1
−
2
=
TCLK
RCLK
(
RCAP H RCAP L
16
16
RCAP2L
Value
–20 (ECH) 19661
–41 (D7H) 9591
–164 (5CH) 2398
–72 (B8H)
–18 (EEH) 19200
–36 (DCH) 9600
–144 (70H) 2400
–32 (E0H)
SMOD
2
RX
CLOCK
TX
CLOCK
=
,
ADuC812
)
Actual
Baud
1199
1200
2
)
]
)
%
Error
2.4
0.1
0.1
0.1
0
0
0
0
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