Silicon Laboratories C8051F36 Series User Manual Download | Manualshive

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C8051F36x-DK

Rev. 0.3

9

5.5. USB to Serial Connector (P1)

A USB-to-Serial bridge interface is provided. A USB B-type connector (P1), a Silicon Laboratories CP2102 USB-to-
UART Bridge, and related circuits are provided to facilitate the serial connection between a PC and the C8051F360
microcontroller on the target board. The RX, TX, CTS and RTS signals of the UART side of the Bridge (CP2102)
may be connected to the microcontroller by installing shorting blocks on J12 as follows:

5.6. Analog I/O (P2)

Several of the C8051F360 target device’s port pins are connected to the P3 terminal block. Refer to Table 5 for the
P3 terminal block connections.

5.7. Power Connector (J1)

The Target Board can be powered from three different sources: 1) The regulator input from the P2 9 V DC Power
Adapter, 2) The 5 V VBUS signal if P4 is connected to a USB bus, and 3) The 5 V USB bus if a USB Debug
Adapter is connected to the Debug Header (J9). Place a shorting block at header J1[REG_IN-P1_PWR] to power
the board directly from an AC/DC Power Adapter. Place a shorting block at header J1[REG_IN-VBUS] to power the
board from the USB bus connected to P4. Place a shorting block at header J1[REG_IN-SER_PWR] to power the
board from the USB Debug Adapter. Please note that the second option is not supported if a USB bus is not
connected to P4 and the third option is not supported with either the EC1 or EC2 Serial Adapters.

Note:

Only one power option should be selected at one time.

Table 4. UART Connections (J12)

Connection

Signals

J12[9–10]

P0.1 to TX_MC

J12[11–12]

P0.2 to RX_MC

J12[13–14]

P3.4 to RTS

J12[15–16]

P3.5 to CTS

Table 5. J6 Terminal Block Pin Descriptions

Pin #

Description

1

P2.3/AIN2.3/CP0+

2

P2.4/AIN2.4/CP0–

3

GND (Ground)

4

P0.3/VREF (Voltage Reference)

5

P0.4/IDAC

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Summary of Contents for C8051F36 Series

Page 1: ...8051F360 Target Board C8051Fxxx Development Kit Quick Start Guide AC DC Power Adapter USB Debug Adapter USB to Debug Interface USB Cable CD ROM 3 Hardware Setup Using a USB Debug Adapter The target board is connected to a PC running the Simplicity Studio via the USB Debug Adapter as shown in Figure 1 1 Connect the USB Debug Adapter to the DEBUG connector on the target board with the 10 pin ribbon ...

Page 2: ...J9 U3 F360 U1 USB ACTIVE D5 PWR POWER D3 D4 P3 SILICON LABS www silabs com J14 3VD J13 P2 5 PORT_1 J3 PORT_2 J4 PORT_3 J5 PORT_4 J6 PORT_0 J2 J8 J12 SW3 0 TX P3 3_LED RX CTS RTS P3 2_LED SW3 1 P3 0 P0 1 P3 3 P0 2 P3 5 P3 4 P3 2 P3 1 J1 P1_PWR SER_PWR VBUS REG_IN REG_IN REG_IN J15 J16 J10 J11 C8051F360 TB R10 Silicon Laboratories USB DEBUG ADAPTER Run Stop Power ...

Page 3: ...udio Simplicity Studio from the start menu or clicking the Simplicity Studio shortcut on the desktop Follow the instructions to install the software and click Simplicity IDE to launch the IDE The first time the project creation wizard runs the Setup Environment wizard will guide the user through the process of configuring the build tools and SDK selection In the Part Selection step of the wizard s...

Page 4: ...51F360 and in the SDK drop down select the desired SDK Click Next 3 Under C8051F360 Development Kit select F36x Blinky click Next and click Finish 4 Click on the project in the Project Explorer and click Build the hammer icon in the top bar Alternatively go to Project Build Project 5 Click Debug to download the project to the hardware and start a debug session 6 Press the Resume button to start th...

Page 5: ...the files to a location and run the appropriate installer for the system x86 or x64 2 Accept the license agreement and follow the steps to install the driver on the system The installer will let you know when your system is up to date The driver files included in this installation have been certified by Microsoft 3 To complete the installation process connect the included USB cable between the hos...

Page 6: ...ts the 3 V supply net to the VDD supply net J8 Supply signal header J9 Debug connector for debug adapter interface J10 J11External crystal port pin enable connectors J12 Port I O jumper configuration block J13 Jumper connection for potentiometer to pin 2 5 J14 Jumper connection for potentiometer source to 3 V J15 Jumper connection for pin 0 3 to capacitors used when VREF is internally generated J1...

Page 7: ...the C8051F360 s general purpose I O GPIO pins through headers Pressing P3 0 or P3 1 generates a logic low signal on the port pin Remove the shorting blocks from the J12 header to disconnect Switch P3 0 and Switch P3 1 from the port pins See Table 1 for the port pins and headers corresponding to each switch Four LEDs are also provided on the target board The red LED labeled PWR is used to indicate ...

Page 8: ...port connectors 5 4 Target Board DEBUG Interface J9 The DEBUG connector J9 provides access to the DEBUG C2 pins of the C8051F360 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 3 shows the DEBUG pin definitions Table 2 J12 J19 Port Connector Pin Descriptions Pin Description 1 Pn 0 2 Pn 1 3 Pn 2 4 Pn 3 5 Pn 4...

Page 9: ... Adapter 2 The 5 V VBUS signal if P4 is connected to a USB bus and 3 The 5 V USB bus if a USB Debug Adapter is connected to the Debug Header J9 Place a shorting block at header J1 REG_IN P1_PWR to power the board directly from an AC DC Power Adapter Place a shorting block at header J1 REG_IN VBUS to power the board from the USB bus connected to P4 Place a shorting block at header J1 REG_IN SER_PWR...

Page 10: ...C8051F36x DK 10 Rev 0 3 6 Schematics Figure 4 C8051F360 Target Board Schematic Page 1 of 2 ...

Page 11: ...C8051F36x DK Rev 0 3 11 Figure 5 C8051F360 Target Board Schematic Page 2 of 2 ...

Page 12: ... to Getting Started Updated section 3 to include latest VCP driver installation instructions Changed section 4 to Software Overview Updated Evaluation Compiler restrictions in section 4 2 2 Added overview of Configuration Wizard 2 and Keil uVision Drivers to section 4 Created new section 6 Revision 0 2 to Revision 0 3 Updated Software Setup on page 3 ...

Page 13: ...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...

Page 14: ...Mouser Electronics Authorized Distributor Click to View Pricing Inventory Delivery Lifecycle Information Silicon Laboratories C8051F360DK ...

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