Silicon Laboratories C8051F58 Series User Manual Download | Manualshive

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C8051F580DK

Rev. 0.1

15

8.12. Potentiometer (J20)

The C8051F580 (Side A) device has the option to connect port pin P1.2 to a 10K linear potentiometer. The
potentiometer is connected through the J20 header. The potentiometer can be used for testing the analog-to-digital
(ADC) converter of the MCU.

8.13. Power Supply I/O (Side A) (TB3)

All of the C8051F580 target device’s supply pins are connected to the TB3 terminal block. Refer to Table 10 for the
TB3 terminal block connections.

8.14. Alternate Power Supply Headers (J18, J21)

The C8051F580 Target Board includes two headers that allow for alternate power sources and power
measurement. Header J18 connects the VIO voltage supplied to the Side A MCU to other peripherals on the board,
such as the P1.4_SW push-button switch pull-up, and the R27 potentiometer source. To enable current
measurement, the shorting block on J18 can be removed so that the VIO_A node only powers the VIO pin on the
MCU. Another voltage source will need to be applied to the VIO_SRC node to power the other peripherals.

Header J21 connects the P4 power-adapter supply to the V_HIGH node, which is used as the power source for the
LIN transceivers (T1, T2). The shorting block on header J21 can be removed to force the LIN transceivers to use
the voltage supply externally supplied on the +LIN_V pin on the TB1 header.

8.15. C2 Pin Sharing

On the C8051F580 (Side A), the debug pin C2CK is shared with the /RST pin. On the C8051F582 (Side B), the
debug pins C2CK and C2D are shared with the pins /RST and P3.0 respectively. The target board includes the
resistors necessary to enable pin sharing which allow the pin–shared pins (/RST and P3.0) to be used normally
while simultaneously debugging the device. See Application Note “AN124: Pin Sharing Techniques for the C2
Interface” at

for more information regarding pin sharing.

Table 10. TB3 Terminal Block Pin Descriptions

Pin #

Description

1

VIO_A

2

VREGIN_A

3

VDD_A

4

VDDA_A

5

GNDA_A

6

GND

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Summary of Contents for C8051F58 Series

Page 1: ...C8051F580 Target Board C8051Fxxx Development Kit Quick Start Guide Silicon Laboratories IDE and Product Information CD ROM CD content includes Silicon Laboratories Integrated Development Environment IDE Keil 8051 Development Tools macro assembler linker evaluation C compiler Source code examples and register definition files Documentation C8051F580 Development Kit User s Guide this document AC to ...

Page 2: ...system for copies of previously installed CP210x Virtual COM Port drivers It will let you know when your system is up to date The driver files included in this installation have been certified by Microsoft 4 If the Launch the CP210x VCP Driver Installer option was not selected in step 3 the installer can be found in the location specified in step 2 by default C SiLabs MCU CP210x Windows_2K_XP_S2K3...

Page 3: ...to the Application Note AN104 Integrating Keil Tools into the Silicon Labs IDE for instructions to change the limitation to 4 kB and have the programs start at code address 0x0000 4 3 Configuration Wizard 2 The Configuration Wizard 2 is a code generation tool for all of the Silicon Laboratories devices Code is generated through the use of dialog boxes for each of the device s peripherals Figure 1 ...

Page 4: ...onnection is to DEBUG_A as this microcon troller is the primary MCU on the board and more peripherals are easily available 2 Connect one end of the USB cable to the USB connector on the USB Debug Adapter 3 Connect the other end of the USB cable to a USB Port on the PC 4 Connect the ac dc power adapter to power jack P4 on the target board Notes Use the Reset button in the IDE to reset the target wh...

Page 5: ...ith one or more source files build a program and download the program to the target in preparation for debugging The IDE will automatically create a single file project using the currently open and active source file if you select Build Make Project before a project is defined 6 1 Creating a New Project 1 Select Project New Project to open a new project and reset all configuration settings to defa...

Page 6: ...ect select Project Save Proj ect As from the menu Create a new name for the project and click on Save 7 Example Source Code Example source code and register definition files are provided in the SiLabs MCU Examples C8051F58x_59x 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 ...

Page 7: ...r external nodes J1 J5 Side A Port 0 through Port 4 headers J9 J10 Side A External crystal enable connectors J14 Side A CAN Transceiver U3 power connector J17 Side A Connects MCU to three separate transceivers UART U5 CAN U3 and LIN T1 J18 Side A Connects VIO to VIO_A_SRC which powers the R27 potentiometer the RST_A pin pull up and P1 4_A Switch pull up J19 Side A Connects P1 3_A LED and P1 4_A Sw...

Page 8: ...2 A J3 Port 1 A J2 Port 3 A J4 LIN_V LIN_OUT GND DEBUG_A P2 CAN_H CAN_L GND R27 SIDE A SIDE B DEBUG_B P3 TB3 RESET_A RESET_B J20 SILICON LABS www silabs com DS4 DS2 DS3 DS1 J14 J22 J19 J18 J21 J7 J10 J9 J24 J17 Port 0 B J27 Port 2 B J29 Port 1 B J28 J11 F582 U2 C8051 F580 U1 J31 J32 J8 J26 U5 1 1 1 1 1 1 1 1 1 1 1 1 2 2 1 1 2 2 1 2 2 2 2 2 2 2 2 2 2 1 TB1 TB2 ...

Page 9: ... 4 C8051F580 Target Board Shorting Blocks Factory Defaults P4 P5 C8051F580 TB PWR COMM P1 3_A P1 3_B P1 4_B P1 4_A P1 Port 0 A J1 Port 4 A J5 Port 2 A J3 Port 1 A J2 Port 3 A J4 LIN_V LIN_OUT GND DEBUG_A P2 CAN_H CAN_L GND R27 SIDE A SIDE B DEBUG_B P3 TB3 RESET_A RESET_B J20 SILICON LABS www silabs com DS4 DS2 DS3 DS1 J14 J22 J19 J18 J21 J7 J10 J9 J24 J17 Port 0 B J27 Port 2 B J29 Port 1 B J28 J11...

Page 10: ...580 and C8051F582 devices installed on the target board feature a factory calibrated programmable high frequency internal oscillator 24 MHz base frequency 0 5 which is enabled as the system clock source on reset After reset the internal oscillator operates at a frequency of 187 5 kHz by default but may be configured by software to operate at other frequencies The on chip crystal is accurate for CA...

Page 11: ...h a header Remove the shorting block from the header to disconnect the LED from the port pin Similarly a second green LED on Side B is connected to the C8051F582 through another header See Table 1 for the port pins and headers corresponding to each LED 8 5 Target Board Debug Interfaces P2 and P3 The debug connectors P2 DEBUG_A and P3 DEBUG_B provide access to the debug C2 pins of the C8051F580 and...

Page 12: ...ns assigned to the CAN peripheral on each MCU are P0 6 CAN_TX and P0 7 CAN_RX The C8051F580 Side A is connected to U3 through the J17 header and the C8051F582 Side B is connected to U4 through the J26 header The two CAN transceivers are connected to each other and form a CAN network Other external devices can be connected to the CAN network through the TB2 interface The shorting block positions fo...

Page 13: ...oard If an external voltage source is not provided the LIN transceivers use the 12V provided through the P4 power adapter connector See Section 8 2 for more power option details The shorting block positions for connecting the MCUs to the LIN transceivers are listed in Table 6 The pin connections for the external LIN devices are listed in Table 7 8 9 Port I O Connectors J1 J5 and J27 J29 Each of th...

Page 14: ... 54DS Digi Key part number H5096 ND Table 9 P1 Pin Listing Pin Description Pin Description Pin Description A 1 3 3V B 1 GND C 1 N C A 2 N C B 2 N C C 2 N C A 3 N C B 3 N C C 3 N C A 4 N C B 4 N C C 4 N C A 5 N C B 5 N C C 5 N C A 6 N C B 6 N C C 6 N C A 7 N C B 7 N C C 7 N C A 8 N C B 8 N C C 8 N C A 9 N C B 9 N C C 9 N C A 10 N C B 10 P0 7_A C 10 P0 6_A A 11 P0 5_A B 11 P0 4_A C 11 P_0 3_A A 12 P...

Page 15: ...ed so that the VIO_A node only powers the VIO pin on the MCU Another voltage source will need to be applied to the VIO_SRC node to power the other peripherals Header J21 connects the P4 power adapter supply to the V_HIGH node which is used as the power source for the LIN transceivers T1 T2 The shorting block on header J21 can be removed to force the LIN transceivers to use the voltage supply exter...

Page 16: ...itly listed below Table 11 summarizes the C8051F580 MCU pin assignments on the target board and also shows the various headers associated with each signal Table 11 C8051F580 Target Board Pin Assignments and Headers MCU Pin Name Pin Primary Function Alternate Fixed Function Target Board Function Relevant Headers P0 0 8 P0 0 VREF VREF J1 1 J22 1 P0 1 1 P0 1 CNVSTR CNVSTR J1 2 P0 2 48 P0 2 XTAL1 XTAL...

Page 17: ...J5 7 P4 7 9 P4 7 GPIO J5 8 RST C2CK 12 RST C2CK RST C2CK P2 7 P2 5 C2D 11 C2D C2D P2 4 VIO 2 VIO VIO J24 4 J18 1 TB3 1 J1 J5 9 VREGIN 3 VREGIN VREGIN J24 2 P2 5 TB3 2 VDD 4 VDD VDD TB3 3 VDDA 5 VDDA VDDA TB3 4 GND 6 GND GND J1 J5 10 TB3 6 GNDA 7 GNDA VDD TB3 5 Note Headers denoted by this symbol are not directly connected to the MCU pin the connection might be via one or more headers and or pin sh...

Page 18: ...C8051F580DK 18 Rev 0 1 9 Schematics Figure 5 C8051F580 Target Board Schematic Page 1 of 4 ...

Page 19: ...C8051F580DK Rev 0 1 19 Figure 6 C8051F580 Target Board Schematic Page 2 of 4 ...

Page 20: ...C8051F580DK 20 Rev 0 1 Figure 7 C8051F580 Target Board Schematic Page 3 of 4 ...

Page 21: ...C8051F580DK Rev 0 1 21 Figure 8 C8051F580 Target Board Schematic Page 4 of 4 ...

Page 22: ...or health which if it fails can be reasonably expected to result in significant personal injury or death Silicon Laboratories products are generally not intended for military applications Silicon Laboratories products shall under no circumstances be used in weapons of mass destruction including but not limited to nuclear biological or chemical weapons or missiles capable of delivering such weapons...

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