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C8051F020DK-B

P1-P3P4-P6P7-P9P10-P12
C8051F02x-DK
4 Rev. 0.6
5. Example Source Code
Example source code and register definition files are provided in the “SiLabs\MCU\Examples\
C8051F02x
” directory
during IDE installation. These files may be used as a template for code development. Example applications include
a blinking LED example which configures the green LED on the target board to blink at a fixed rate.
5.1. Register Definition Files
Register definition files C8051F020.inc and C8051F020.h define all SFR registers and bit-addressable control/
status bits. They are installed into the “SiLabs\MCU\Examples\C8051F02x” directory during IDE installation. The
register and bit names are identical to those used in the C8051F02x data sheet. Both register definition files are
also installed in the default search path used by the Keil Software 8051 tools. Therefore, when using the Keil 8051
tools included with the development kit (A51, C51), it is not necessary to copy a register definition file to each
project’s file directory.
5.2. Blinking LED Example
The example source files blink.asm and blinky.c show examples of several basic C8051F02x functions. These
include; disabling the watchdog timer (WDT), configuring the Port I/O crossbar, configuring a timer for an interrupt
routine, initializing the system clock, and configuring a GPIO port. When compiled/assembled and linked this pro-
gram flashes the green LED on the C8051F020 target board about five times a second using the interrupt handler
with a C8051F020 timer.
C8051F02x-DK
Rev. 0.6 5
6. Target Board
The
C8051F02x
Development Kit includes a target board with a
C8051F020
device pre-installed for evaluation and
preliminary software development. Numerous input/output (I/O) connections are provided to facilitate prototyping
using the target board. Refer to
Figure 2
for the locations of the various I/O connectors.
P1 Power connector (accepts input from 7 to 15 VDC unregulated power adapter)
J1 Connects SW2 to P3.7 pin
J3 Connects LED D3 to P1.6 pin
J4 JTAG connector for Debug Adapter interface
J5 DB-9 connector for UART0 RS232 interface
J6 Connector for UART0 TX (P0.0)
J8 Connector for UART0 RTS (P4.0)
J9 Connector for UART0 RX (P0.1)
J10 Connector for UART0 CTS (P4.1)
J11 Analog loopback connector
J12-J19 Port 0 - 7 connectors
J20 Analog I/O terminal block
J22 VREF connector
J23 VDD Monitor Disable
J24 96-pin Expansion I/O connector
Figure 2. C8051F020 Target Board
C8051
F02X
J1
JTAG
RESET
P3.7
P1
J24
Pin 1
Pin 1
Pin 1
J11
Pin 2
J3
J23
PWR
P1.6
J5
J20
Pin 1
Pin 2
J22
Pin 2
Pin 1
Port 0 Port 2
Port 4
Port 7
Port 1
Port 3Port 6Port 5
J4
J9J6
J8J10
Pin 1
C8051F02x-DK
6 Rev. 0.6
6.1. System Clock Sources
The
C8051F020
device installed on the target board features a calibrated programmable internal oscillator which is
enabled as the system clock source on reset. After reset, the internal oscillator operates at a frequency of 2 MHz
(±2%) by default but may be configured by software to operate at other frequencies. Therefore, in many applications
an external oscillator is not required. However, an external 22.1184 MHz crystal is installed on the target board for
additional applications. Refer to the
C8051F02x
data sheet for more information on configuring the system clock
source.
6.2. Switches and LEDs
Two switches are provided on the target board. Switch SW1 is connected to the RESET pin of the C8051F020.
Pressing SW1 puts the device into its hardware-reset state. Switch SW2 is connected to the C8051F020’s general
purpose I/O (GPIO) pin through headers. Pressing SW2 generates a logic low signal on the port pin. Remove the
shorting block from the header to disconnect SW2 from the port pins. The port pin signal is also routed to a pin on
the J24 I/O connector. See Table 1 for the port pins and headers corresponding to each switch.
Two LEDs are also provided on the target board. The red LED labeled PWR is used to indicate a power connection
to the target board. The green LED labeled with a port pin name is connected to the C8051F020’s GPIO pin
through headers. Remove the shorting block from the header to disconnect the LED from the port pin. The port pin
signal is also routed to a pin on the J24 I/O connector. See Table 1 for the port pins and headers corresponding to
each LED.
6.3. Target Board JTAG Interface (J4)
The
JTAG
connector (J4) provides access to the
JTAG
pins of the C8051F020. It is used to connect the Serial
Adapter or the USB Debug Adapter to the target board for in-circuit debugging and Flash programming. Table 2
shows the
JTAG
pin definitions.
Table 1. Target Board I/O Descriptions
Description I/O Header
SW1 Reset none
SW2 P3.7 J1
Green LED P1.6 J3
Red LED PWR none
Table 2. JTAG Connector Pin Descriptions
Pin # Description
1 +3VD (+3.3VDC)
2, 3, 9 GND (Ground)
4TCK
5TMS
6TDO
7TDI
8, 10 Not Connected
P1-P3P4-P6P7-P9P10-P12

C8051F020DK-B

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Manufacturer:
Silicon Labs
Description:
C8051F02X EVAL BRD
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