C8051F850-B-DK

C8051F850-DK-UG UDP C8051F850 MCU C ARD U SER ’ S G U ID E FOR C8051F85 X /86 X MCU S 1. Introduction The Unified Development Platform (UDP) provides a development and demonstration platform for Silicon Laboratories microcontrollers, short-range wireless devices, and software tools, including the Silicon Laboratories Integrated Development Environment (IDE). Figure 1. Unified Development Platform Block Diagram Rev. 0.3 2/14 Copyright © 2014 by Silicon Laboratories C8051F85x/86x C8051F850-DK-UG 2. Relevant Documents This document provides a hardware overview for the Unified Development Platform (UDP) system C8051F85x/86x MCU card. Additional information on the UDP system and the Silicon Labs 8-bit MCUs can be found in the documents listed in this section. 2.1. Motherboard User’s Guide The UDP Motherboard User’s Guide contains information on the motherboard features and can be found at www.silabs.com/udp. 2.2. Card User’s Guides The UDP MCU, I/O, and radio test card user’s guides can be found at www.silabs.com/udp. 2.3. Application Notes All 8-bit Application Notes can be found at www.silabs.com/8bit-appnotes. 2 Rev. 0.3 C8051F850-DK-UG 3. Hardware Setup 3.1. Using the MCU Card Alone Refer to Figure 2 for a diagram of the hardware configuration when using the MCU card without a UDP motherboard. 1. Connect the USB Debug Adapter to the 10-pin debug connector (J23) on the MCU card using the 10-pin ribbon cable. 2. Connect the USB Debug Adapter to a USB Port on the PC. 3. Move the SW1 VDD Select switch to the top +3.3V_VREG position. 4. Verify that the JP2 Imeasure jumper is populated. 5. Power the MCU card through the power connector (J6) using the supplied 9 V ac/dc adapter. Notes: Use the Reset button in the IDE to reset the target when connected using a USB Debug Adapter. power from the MCU card and the USB Debug Adapter before connecting or disconnecting the ribbon cable from the MCU card. Connecting or disconnecting the cable when the devices have power can damage the device and/or the USB Debug Adapter. Remove 5 1 2 4 3 Figure 2. Hardware Setup Using the MCU Card Alone Rev. 0.3 3 C8051F850-DK-UG 3.2. Using the MCU Card with the UDP Motherboard Refer to Figure 3 for a diagram of the hardware configuration when using the MCU card with a UDP motherboard. 1. Connect the MCU card to the UDP motherboard slot. 2. (Optional) Connect an I/O card to the UDP motherboard slot. 3. (Optional) Connect a radio test card to the radio test card slot in the UDP motherboard. 4. (Optional) Connect an EZLink card to the EZLink card slot in the UDP motherboard. 5. Connect the USB Debug Adapter to the 10-pin debug connector (J23) on the MCU card using the 10-pin ribbon cable. 6. Connect the USB Debug Adapter to a USB Port on the PC. 7. Move the SW1 VDD Select switch to the lower MB position. 8. Verify that the JP2 Imeasure jumper is populated. 9. Connect the ac/dc power adapter to power jack J20 on the UDP motherboard. The board can also be powered from the J16 USB, J1 mini USB connectors, or J11 battery connector socket. 10. Move the S3 power switch on the UDP motherboard to the ON position. 11. Update the motherboard firmware as described in Section 3.3. Notes: Use the Reset button in the IDE to reset the target when connected using a USB Debug Adapter. Remove power from the target board and the USB Debug Adapter before connecting or disconnecting the ribbon cable from the target board. Connecting or disconnecting the cable when the devices have power can damage the device and/or the USB Debug Adapter. The MCU card can be used alone without the motherboard. However, the motherboard must be powered if an MCU card is connected. Virtual COM Port Imeasure Jumper USB Debug Adapter USB Connector (J16) Power Select Switch Figure 3. Hardware Setup Using the Unified Development Platform 4 Rev. 0.3 Power Adapter (J20) C8051F850-DK-UG 3.3. Updating the UDP Motherboard Firmware To ensure the UDP Motherboard supports the C8051F85x/86x MCU card, run the UDP Motherboard Firmware Update Utility shown in Figure 4. This utility can be downloaded from www.silabs.com/udp. 1. Connect the UDP motherboard to a PC using a regular USB cable connected to the UDS connector (J16). 2. Run the utility. 3. Select the desired motherboard if more than one is connected to the PC. 4. Press the Update Selected Device button. Figure 4. UDP Motherboard Firmware Update Utility Rev. 0.3 5 C8051F850-DK-UG 4. Software Setup Simplicity Studio greatly reduces development time and complexity with Silicon Labs EFM32 and 8051 MCU products by providing a high-powered IDE, tools for hardware configuration, and links to helpful resources, all in one place. Once Simplicity Studio is installed, the application itself can be used to install additional software and documentation components to aid in the development and evaluation process. Figure 5. Simplicity Studio The following Simplicity Studio components are required for the C8051F850 Development Kit: 8051 Products Part Support Simplicity Developer Platform Download and install Simplicity Studio from www.silabs.com/8bit-software or www.silabs.com/simplicity-studio. Once installed, run Simplicity Studio by selecting StartSilicon LabsSimplicity Studio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, select from the list of installed parts only the parts to use during development. Choosing parts and families in this step affects the displayed or filtered parts in the later device selection menus. Choose the C8051F85x family by checking the C8051F85x/86x check box. Modify the part selection at any time by accessing the Part Management dialog from the WindowPreferencesSimplicity StudioPart Management menu item. Simplicity Studio can detect if certain toolchains are not activated. If the Licensing Helper is displayed after completing the Setup Environment wizard, follow the instructions to activate the toolchain. 6 Rev. 0.3 C8051F850-DK-UG 4.1. Running Blinky Each project has its own source files, target configuration, SDK configuration, and build configurations such as the Debug and Release build configurations. The IDE can be used to manage multiple projects in a collection called a workspace. Workspace settings are applied globally to all projects within the workspace. This can include settings such as key bindings, window preferences, and code style and formatting options. Project actions, such as build and debug are context sensitive. For example, the user must select a project in the Project Explorer view in order to build that project. To create a project based on the Blinky example: 1. Click the Simplicity IDE tile from the Simplicity Studio home screen. 2. Click the Create new project link from the welcome screen or go to FileNewSilicon Labs MCU Project. 3. In the Kit drop-down, select C8051F850 Development Kit, in the Part drop-down, select C8051F850, and in the SDK drop-down, select the desired SDK. Click Next. 4. Select Example and click Next. 5. Under C8051F850 Development Kit in the Blinky folder, select F85x-86x Blinky and click Finish. 6. Click on the project in the Project Explorer and click Build, the hammer icon in the top bar. Alternatively, go to ProjectBuild Project. 7. Click Debug to download the project to the hardware and start a debug session. 8. Press the Resume button to start the code running. The LED should blink. 9. Press the Suspend button to stop the code. 10. Press the Reset the device button to reset the target MCU. 11. Press the Disconnect button to return to the development perspective. 4.2. Simplicity Studio Help Simplicity Studio includes detailed help information and device documentation within the tool. The help contains descriptions for each dialog window. To view the documentation for a dialog, click the question mark icon in the window: This will open a pane specific to the dialog with additional details. The documentation within the tool can also be viewed by going to HelpHelp Contents or HelpSearch. Rev. 0.3 7 C8051F850-DK-UG 4.3. Simplicity Configurator The Simplicity Configurator is a configuration and code generation tool. This utility helps accelerate development by automatically generating initialization source code to configure and enable the on-chip resources needed by most design projects. In just a few steps, the wizard creates complete startup code for a specific Silicon Labs MCU. To create a new Simplicity Configurator project: 1. Click the Create new project link from the welcome screen or go to FileNewSilicon Labs MCU Project. 2. In the Kit drop-down, select C8051F850 Development Kit or None, in the Part drop-down, select C8051F850, and in the SDK drop-down, select the desired SDK. Click Next. 3. Select Simplicity Configurator Program and click Next. 4. Fill in the Project name and select the desired device. The C8051F850-C-GU-QSOP device is on the C8051F850 Target Board. Click Finish. The Simplicity Configurator project displays properties for each peripheral. To configure a peripheral, click on the DefaultMode Peripherals tab at the bottom and click on a peripheral. Checking the box for a peripheral will add it to code generation. Once a peripheral is selected, configure the registers using the Properties view. Select a new value for a property with either an input box or a drop-down menu and press Enter to set it. Figure 6. Simplicity Configurator – Configuring Peripheral Properties 8 Rev. 0.3 C8051F850-DK-UG To configure pins, click on the DefaultMode Port I/O tab at the bottom of main window. Clicking on a pin brings up a property window for the pin. Clicking anywhere else in the main window opens a property window for the crossbar. Select multiple pins with Ctrl + left click or mouse dragging over the desired set of pins. The package diagram displays the configured peripherals on the pins, including non-crossbar signals (i.e. ADC inputs). Code generation updates every time the configuration project saves. After configuring the device, add any noninitialization code, build, and debug the same as with any other project. More information on Simplicity Configurator can be found in AN0823: Simplicity Configurator User’s Guide and AN0821: Simplicity Studio C8051F85x Walkthrough. Application notes can be found on www.silabs.com/8bitappnotes. Figure 7. Simplicity Configurator – Configuring Port I/O Rev. 0.3 9 C8051F850-DK-UG 4.4. Legacy 8-bit IDE Note: Using the Simplicity Studio tools with the C8051F850 Development Kit is recommended. See section 4. "Software Setup‚" on page 6 for more information. Download the 8-bit software from the website (www.silabs.com/8bit-software) or use the provided installer on the CD-ROM to install the software tools for the C8051F85x/86x devices. After installation, examples can be found in ...\Examples\C8051F85x_86x in the installation directory. At a minimum, the C8051F850 DK requires: Silicon Labs IDE—Software enabling initial evaluation, development, and debugging. Wizard 2—Initialization code generation software for the C8051F85x/86x devices. Keil C51 Tools—Keil 8051 Compiler/Assembler/Linker toolchain. CP210x Drivers—Virtual COM Port (VCP) drivers for the CP210x COM interface. More information on this installation process can be found in Section 4.5. Other software available includes: Configuration Keil µVision Driver—Driver for the Keil µVision IDE that enables development and debugging on C8051Fxxx MCUs. Flash Programming Utilities and MCU Production Programmer—Programming utilities for the production line. More information on the available programming options can be found on the website: http://www.silabs.com/products/mcu/Pages/ProgrammingOptions.aspx. ToolStick Development Tools—Software and examples for the ToolStick development platform. More information on this platform can be found at www.silabs.com/toolstick. The development kit includes the latest version of the C51 Keil 8051 toolset. This toolset is initially limited to a code size of 2 kB and programs start at code address 0x0800. After registration, the code size limit is removed entirely and programs will start at code address 0x0000. To register the Keil toolset: 1. Find the Product Serial Number printed on the CD-ROM. If you no longer have this serial number, register on the Silicon Labs website (www.silabs.com/8bit-software) to obtain the serial number. 2. Open the Keil µVision4 IDE from the installation directory with administrative privileges. 3. Select FileLicense Management to open the License Management window. Figure 8. Keil µVision4 IDE License Management Window 4. Click on the Get LIC via Internet... button to open the Obtaining a License IDE Code (LIC) window. 5. Press OK to open a browser window to the Keil website. If the window doesn’t open, navigate to 10 Rev. 0.3 C8051F850-DK-UG www.keil.com/license/install.htm. 6. Enter the Silicon Labs Product Serial Number printed on the CD-ROM, along with any additional required information. 7. Once the form is complete, click the Submit button. An email will be sent to the provided email address with the license activation code. 8. Copy the License ID Code (LIC) from the email. 9. Paste the LIC into the New License ID Code (LIC) text box at the bottom of the License Management window in µVision4. 10. Press the Add LIC button. The window should now list the PK51 Prof. Developers Kit for Silabs as a licensed product. 11. Click the Close button. 4.5. CP210x USB to UART VCP Driver Installation The MCU Card includes a Silicon Labs CP210x USB-to-UART Bridge Controller. Device drivers for the CP210x need to be installed before the PC software can communicate with the MCU through the UART interface. Use the drivers included CD-ROM or download the latest drivers from the website (www.silabs.com/interface-software). 1. If using the CD-ROM, the CP210x Drivers option will launch the appropriate driver installer. If downloading the driver package from the website, unzip 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 host computer and the COM PORT USB connector (J5) on the MCU Card. Windows will automatically finish the driver installation. Information windows will pop up from the taskbar to show the installation progress. If needed, the driver files can be uninstalled by selecting Windows Driver Package—Silicon Laboratories... option in the Programs and Features window. Rev. 0.3 11 C8051F850-DK-UG 5. C8051F85x/86x MCU Card Overview The C8051F850 MCU card enables application development on the C8051F85x/86x MCU device family. The card connects to the MCU card expansion slot on the UDP motherboard and provides complete access to the MCU resources. Each expansion board has a unique ID that can be read out of an EEPROM or MCU on the board, which enables software tools to recognize the connected hardware and automatically select the appropriate firmware image. The target MCU card can also be detached from the UDP and used alone as a development or demonstration tool. Figure 9 and Figure 10 highlight the C8051F850 MCU card features. Mini-B USB Connector for VCP Port Access Power VCP-Enabled LED Debug Connector Reset Push-Button Voltage and Ground Reference Access Prototyping Area VDD Select Switch and Power LED LEDs Current Measure Jumper Push-Button Analog Switches Terminals Potentiometer Figure 9. C8051F850 MCU Card Features—Front 12 Rev. 0.3 C8051F850-DK-UG Virtual COM Port Port Pin Isolation Resistors Electronic Board ID (EBID) Figure 10. C8051F850 MCU Card Features—Back Rev. 0.3 13 C8051F850-DK-UG 5.1. Push-Button Switches and LEDs (S1-2, DS5-6) The UDP C8051F850 MCU Card has two push-button switches and two LEDs. The two LEDs connect to P1.0 and P1.1, and the two switches connect to P1.7 and P2.1. The switches are normally open and pull the pin voltage to ground when pressed. The LEDs connect to VDD through a current-limiting resistor and turn on when the corresponding port pin is low. The header J27 can be used to disconnect the switches and LEDs from the GPIO pins. Table 1. Switch and LED Pin Descriptions MCU Pin Function PB1.0 PB1.1 PB1.7 PB2.1 Red LED DS5 (LED1) Red LED DS6 (LED2) Switch S1 Switch S2 5.2. Analog Terminals (J34) Several of the C8051F850 port pins used for analog functions are connected to the J34 terminal block. Refer to Table 2 for the J34 terminal block connections. Table 2. Terminal Block Pin Descriptions (J34) Terminal Pin MCU I/O 1 2 3 4 5 6 VREF / P0.0 GND ADC0.9 / P1.1 ADC0.12 / P1.4 ADC0.10 / P1.2 ADC0.13 / P1.5 5.3. Potentiometer (R13) The potentiometer is available on P1.2 (ADC0.10). To use the potentiometer, install a shorting block on J27 pins 9 and 10 to connect P1.2 to the potentiometer. 5.4. Voltage and Ground Reference (J32) The C8051F850 has options to use an external voltage reference on the P0.0 / VREF pin and an external analog ground reference on the P0.1 / AGND pin. The J32 header allows an external supply to clip to pin 1 for AGND and pin 2 for VREF. These signals can then be connected to the MCU by populating a shorting block between pins 3 and 5 for AGND and pins 4 and 6 for VREF. Populating this shorting block for VREF connects P0.0 to the required capacitors for the external reference. Table 3. Terminal Block Pin Descriptions (J25) 14 MCU Pin Analog Signal Description P0.0 VREF P0.1 AGND Clip external source to J32 pin 2, apply shorting block between pins 4 and 6 to connect to the MCU Clip external ground to J32 pin 1, apply shorting block between pins 3 and 5 to connect to the MCU Rev. 0.3 C8051F850-DK-UG 5.5. VDD Power Select Switch (SW1) The VDD power supply has two power options: UDP motherboard (PWR_VDD_OUT) and on-board +3.3 V regulator power. The VDD Power Select switch is used to select between the two options. The +3.3 V regulator power option is the upper +3.3_VREG position and allows the board to be powered from a diode-OR of four power sources: 9 V Power Adapter (J6), the USB connector labeled COM PORT (J5), the USB Debug Adapter (J23), or from the UDP motherboard bulk supply (PWR_5.0V_BULK). 5.6. Power LED (DS9) The blue power LED provides visual feedback when the board is powered through USB, the 9 V power adapter, the USB Debug Adapter, or from the UDP motherboard. The power LED indicates that power is available on the board and the VDD Power Select switch must be configured properly to power the MCU. 5.7. Imeasure Jumper (JP2) The Imeasure jumper (JP2) allows for easy access to measure the VDD current of the MCU. The shorting block for this header is populated by default, and the direction of current is shown with a silk screen arrow. To measure the supply current, remove the corresponding shorting block and connect a current measurement device across the unpopulated header. The voltage supply prior to the Imeasure jumper is the VDD pre-measure (VDD_PM) net, which supplies all of the external LEDs, switches, USB COM, and reset pull-up. The VDD after the Imeasure jumper only connects to the MCU. 5.8. Debug Header (J23) The shrouded 10-pin debug header supports the Silicon Labs USB Debug Adapter. This connector provides a C2 debug connection to the C8051F85x/86x on the MCU card. 5.9. Reset Button (S5) The reset push-button switch is just below the debug header (J23). Pushing this button will always reset the MCU. Note that pushing this button while the IDE is connected to the MCU will result in the IDE disconnecting from the target. 5.10. UART Connection Options (J7, U2, U4, U5) The MCU card features a USB virtual COM port (VCP) UART connection via the mini-B USB connector (J5) labeled COM PORT. The VCP connection uses the CP210x USB-to-UART bridge chip (U2). The GPIO pins connected to the CP210x device can be enabled or disabled through the J7 header. Table 4 shows the GPIO pins that are routed to the CP210x. In addition to the CP210x USB-to-UART connection, the MCU card can connect the C8051F850 UART signals with the UDP Motherboard UART signals UART_TX_SYS and UART_RX_SYS using U5. The signals to switch between the two interfaces are UART_VCP_EN and UART_SYS_EN and are controlled by the motherboard. The default selection with or without the motherboard is the CP210x VCP interface using a pull-down resistor R20. Table 4. CP210x Controlled GPIO Pins MCU Pin COM Function P0.4 P0.5 VDD UART Transmit UART Receive COM VIO 5.11. Port Pin Headers (J24, J24, J26) All of the MCU port pins are available on the 0.100-inch headers on MCU card. Each connector provides connections to each port, VDD, and ground. Any unused pins on the P2 header are not connected. Some of these port pins are shared with other functions on the board and may be modified as explained in Section 5.13. Rev. 0.3 15 C8051F850-DK-UG 5.12. Electronic Board ID (EBID) (U1, J35) The MCU card has a unique ID that can be read out from the Silicon Labs C8051F990 MCU (U1). This MCU enables software tools to recognize the connected hardware and automatically select the appropriate firmware image. The EBID device uses two I2C signals to communicate: UDPBUS_SDA_A and UDPBUS_SCL_A. These signals are connected to P0.6 and P0.7 on the C8051F850 MCU through the J25 header. These signals can be disconnected from the MCU during power measurements. Table 5. Terminal Block Pin Descriptions (J25) MCU Pin EBID / UDP Signal P0.6 P0.7 UDPBUS_SDA_A UDPBUS_SCL_A 5.13. MCU Port Pin Connections The MCU card has many UDP connections for use with different I/O cards and the UDP motherboard. Table 6 describes all functions connected to each pin on the C8051F850 MCU. All of the UDP connections are made with populated 0  ohm resistors on the back of the MCU card. To disconnect a signal from the pin, remove the 0  resistor. Table 6. MCU Card and UDP Pin Functions MCU Pin MCU Card Function or UDP Signal P0.0 VREF SPI_SCK_EZR ADC_VREF GPIO05 P0.1 AGND SPI_MISO_EZR ADC_VREFGND GPIO06 P0.2 EXT_INT0 SPI_MOSI_EZR CP_POS_A P0.3 EXT_INT1 SPI_NSS0_EZR CP_NEG_A P0.4 UART_TX_SYS UART_TX_A P0.5 UART_RX_SYS UART_RX_A WAKEUP0 EPCA_CH1_MOTOR P0.6 UDPBUS_SDA_A UART_RTS_SYS UART_RTS_A I2C_SDA_EZR EPCA_CH3_MOTOR P0.7 UDPBUS_SCL_A UART_CTS_SYS UART_CTS_A I2C_SCL_EZR EPCA_CH5_MOTOR P1.0 LED1 ADC_IN0 CP_OUT_A P1.1 LED2 ADC0.9 ADC_IN1 CP_OUTA_A P1.2 Potentiometer ADC0.10 ADC_IN2 CLKOUT0 PCA_CH0_A ADC_IN3 P1.3 P1.4 ADC0.12 PCA_CH1_A P1.5 ADC0.13 PCA_CH0_B PCA_ECI_A P1.6 P1.7 Switch S1 P2.0 C2D P2.1 Switch S2 16 GPIO02 EPCA_CH0_MOTOR WAKEUP1 GPIO03 EPCA_CH2_MOTOR TIMER_CT_A GPIO04 EPCA_CH4_MOTOR TIMER_CT_B GPIO01 GPIO00 Rev. 0.3 C8051F850-DK-UG 6. Using the C8051F850 MCU Card with the UDP Motherboard 6.1. MCU Card Header Connections The MCU card has four connectors with 100 pins each. These 400 pins are directly tied to the UDP motherboard and I/O cards. These signals are named and designed to support a wide variety of features and applications, and the C8051F850 MCU card implements a subset of these connections. The MCU cards and I/O cards are designed so that a maximum number of functions are shared between each card. This allows a particular type of I/O card to be shared amongst all MCU cards that connect to the same signals. The MCU card slot includes the following components: J1 MCU card connector H1 J2 MCU card connector H2 J3 MCU card connector H3 J4 MCU card connector H4 The C8051F850 MCU card implements the signals described in Table 8, Table 9, Table 10, and Table 11 in the Appendix. 6.2. Shorting Blocks: Factory Defaults The C8051F850 MCU card comes from the factory with pre-installed shorting blocks on several headers. Figure 11 shows the positions of the factory default shorting blocks. Figure 11. Shorting Blocks: Factory Defaults A shorting block is installed across the JP2 Imeasure header to enable power to the MCU. Shorting blocks are installed on J7 to enable the virtual COM port. Shorting blocks are also installed on J27 to enable the switches, LEDs, and potentiometer to be connected to GPIO pins. Rev. 0.3 17 C8051F850-DK-UG 7. Power Measurement The C8051F850 MCU card includes a JP2 Imeasure jumper for MCU power measurement purposes. The VDD supply on pin 2 of the header connects only to the MCU on the board. The VDD pre-measure (VDD_PM) supply on pin 1 of the JP2 header powers the external LEDs, switches, reset switch, potentiometer, and VCP COM. 7.1. Measuring Power with Fixed VDD To measure the power of the C8051F850 MCU using the MCU card at a fixed 3.3 V: 1. Connect a USB Debug Adapter to the 10-pin shrouded debug connector (J23). 2. Remove the three shorting blocks from J7. 3. Remove the JP2 Imeasure shorting block. 4. Connect a multimeter across (positive side on the left pin, current flow indicated by the silk screen arrow). 5. Move the VDD Select switch (SW2) to the upper +3.3V_VREG position. 6. Connect the 9 V power adapter to POWER (J6). 7. Download the code to the board. 8. Remove the debug adapter connection. 9. Measure the power of the device. 2 6 USB Debug Adapter 1 4 8 3 +000.500 µADC 5 Figure 12. C8051F850 MCU Card Power Measurement Configuration— Fixed VDD 18 Rev. 0.3 C8051F850-DK-UG 7.2. Measuring Power with Varying VDD To measure power with a varying VDD: 1. Connect a USB Debug Adapter to the 10-pin shrouded debug connector (J23). 2. Remove the three shorting blocks from J7. 3. Remove the JP2 Imeasure shorting block. 4. Connect a multimeter across the JP2 Imeasure jumper (positive side on the left pin, current flow indicated by the silk screen arrow). 5. Move the VDD Select switch (SW2) to the lower MB position. 6. Connect the negative terminal of a bench power supply to board ground. 7. Connect the positive terminal of a bench power supply to the positive side (left pin) of the Imeasure jumper. This will ensure that the /RST pin pull-up is powered. Note: The pull-up resistor on /RST is powered by the VDD pre-measure (VDD_PM) net, which is separated from the VDD net with the Imeasure shorting block (JP2) removed. Powering the MCU using VDD without powering the VDD_PM net will prevent the IDE from communicating with the MCU. 8. Download the code to the board. 9. Remove the debug adapter connection. 10. Measure the power of the device. 2 USB Debug Adapter 1 4 +000.500 µADC 2.8 V 9 3 6 5 7 Figure 13. C8051F850 MCU Card Power Measurement Configuration—Varying VDD 8. Known Board Issues There are no known issues with Revision 200 of the C8051F850 MCU card. Rev. 0.3 19 5 20 MH MH P0.0 P0.2 P0.4 P0.6 VDD_PM MH 1 3 5 7 9 2 4 6 8 10 MH Port 0 1 3 5 7 9 J24 VDD 2 4 6 8 10 C30 1uF P0.1 P0.3 P0.5 P0.7 Rev. 0.3 1K R63 TP15 C2CK C2CK C2D P1.7 P1.6 P1.5 P2.1 P0.2 P0.1 P0.0 P1.0 P1.2 P1.4 P1.6 1 2 3 4 5 6 7 8 9 10 11 12 1 3 5 7 9 2 4 6 8 10 P1.1 P1.3 P1.5 P1.7 U11 C8051F850 2 4 6 8 10 1 3 5 7 9 2 4 6 8 10 DEBUG 1 3 5 7 9 2 4 6 8 10 J23 5X2 Shrouded Header C2D TP14 NC P0.3 P0.4 P0.5 P0.6 P0.7 P1.0 P1.1 P1.2 P1.3 P1.4 NC Debug Interface NC P0.2 P0.1 / AGND P0.0 / VREF GND VDD /RST / C2CK C2D / P2.0 P1.7 P1.6 P1.5 P2.1 Port 1 1 3 5 7 9 J25 Port Access VDD_PM 24 23 22 21 20 19 18 17 16 15 14 13 1 3 5 7 9 P2.0 DEBUG_5.0V 1K R64 C2D P0.3 P0.4 P0.5 P0.6 P0.7 P1.0 P1.1 P1.2 P1.3 P1.4 P2.0 VDD_PM 3 2 4 6 8 10 Port 2 1 3 5 7 9 J26 2 4 6 8 10 P2.1 P0.7 P0.6 P0.5 P0.4 P0.3 P0.2 P0.1 P0.0 0 0 R66 0 R71 0 R73 0 0 R78 2 4 0 0 R121 0 P1.7 P1.6 P1.5 P1.4 P1.3 P1.2 P1.1 P1.0 EPCA_CH5_MOTOR UART_CTS_A UART_CTS_SYS 0 0 0 0 0 0 0 0 0 0 0 GPIO00 GPIO01 TIMER_CT_B EPCA_CH4_MOTOR GPIO04 TIMER_CT_A PCA_ECI_A EPCA_CH2_MOTOR WAKEUP1 GPIO03 PCA_CH0_B EPCA_CH0_MOTOR GPIO02 PCA_CH1_A ADC_IN3 PCA_CH0_A CLKOUT0 ADC_IN2 CP_OUTA_A ADC_IN1 CP_OUT_A ADC_IN0 1 UDP Configuration R109 0 R107 0 R106 0 R117 0 R104 0 R103 0 R102 0 R116 0 R110 0 R101 0 R99 R115 0 R98 R96 R91 R90 R89 R88 R87 R86 R85 R84 400 W Cesar Chavez Austin, TX 78701 P2.1 Jumper Shunt JS13 Jumper Shunt JS12 UDPBUS_SDA_A UDPBUS_SCL_A I2C_SCL_EZR 2 4 UART_RTS_A UART_RTS_SYS I2C_SDA_EZR EPCA_CH3_MOTOR WAKEUP0 UART_RX_A UART_TX_A CP_NEG_A EXT_INT1 SPI_NSS0_EZR CP_POS_A EXT_INT0 SPI_MOSI_EZR EPCA_CH1_MOTOR GPIO06 ADC_VREFGND SPI_MISO_EZR GPIO05 ADC_VREF SPI_SCK_EZR EBID I2C 1 3 J35 R112 0 R81 R83 1 3 R111 0 0 R80 0 R77 R79 0 0 R76 R75 R114 0 0 R72 R113 0 0 R70 R119 0 0 R68 0 0 0 R67 R65 R37 R36 2 Figure 14. C8051F850 UDP MCU Card Schematic (Revision 200) (1 of 5) C2CK /RST C28 0.1uF 4 C8051F850-DK-UG 9. Schematics Rev. 0.3 JP2 JUMPER Imeasure R19 1.5K BLUE DS9 POWER VDD_PM VDD Pre-Measure VDD_PM Jumper Shunt D6 15V PWR_VDD_OUT STPS140Z D3 5 +3.3V_VREG Silk arrow indicates current flow VDD JS1 J6 POWER 1 2 3 STPS140Z D4 USB_5.0V Power Jack STPS140Z D5 PWR_5.0V_BULK STPS140Z D7 DEBUG_5.0V VDD Select C36 4.7uF SW_SLIDE_2POS 1 2 3 SW1 C20 0.01uF 1 2 3 4 8 7 6 5 4 C37 4.7uF GND GND TP10 VDD_PM TP16 VDD TP5 GND TP9 VDD_PM VDD Power Test Points TP8 +3.3V_VREG R25 100K GND TP11 3 GND TP17 3 GND TP18 VREF 1 2 3 5 4 6 2 P2.1 P1.7 J32 Date: Size B Title ADC0.9 ADC0.10 ADC0.12 ADC0.13 VREF P0.1 P0.0 S5 RESET 1K R11 400 W Cesar Chavez Austin, TX 78701 2 R16 750 RED DS6 P1.1 R13 10K Friday, May 17, 2013 Document Number UPMU-F850 C8051F850 MCU Board P1.1 P1.2 P1.4 P1.5 Jumper Shunt JS15 VDD_PM RED DS5 P1.0 R15 750 VDD_PM User Interface Jumper Shunt JS14 S2 R95 1K VDD_PM S1 R94 1K VREF/AGND Analog Header J34 ADC0.9 ADC0.10 ADC0.12 ADC0.13 AGND C6 0.1uF VREF / P0.0 GND ADC0.9 / P1.1 ADC0.10 / P1.2 ADC0.12 / P1.4 ADC0.13 / P1.5 C7 4.7uF 2 Figure 15. C8051F850 UDP MCU Card Schematic (Revision 200) (2 of 5) LP2989-3.3V BYP SDN NC ERROR GND SENSE INPUT OUTPUT U6 4 2 4 6 1 3 5 1 3 5 1 C38 0.1uF R9 1K Port 0 1 3 5 7 9 2 2 4 6 8 10 of RESET TP3 2 4 6 8 10 5 /RST P1.0 P1.1 P1.7 P2.1 P1.2 Jumper Shunt JS6 Jumper Shunt JS5 Jumper Shunt JS4 Jumper Shunt JS3 Jumper Shunt JS2 J27 Sheet VDD 1 3 5 7 9 1 Rev 2.0 C8051F850-DK-UG 21 C13 0.1uF VCP_TX VCP_RX UART_RX_SYS UART_TX_SYS PWR_3.3V_BULK C11 0.1uF VIO_COM 1 2 3 4 5 6 7 1 2 3 4 5 6 7 VCCA 1DIR 2DIR 1A1 1A2 2A1 2A2 U5 VCCB 1OE 2OE 1B1 1B2 2B1 2B2 R20 10K MCU_RX MCU_TX UART_SYS_EN MCU_RX MCU_TX UART_VCP_EN C12 0.1uF VDD_COM C10 0.1uF VDD_COM 1 3 5 J7 COM Jumper ShuntJS11 Jumper ShuntJS10 Jumper ShuntJS9 P0.4 P0.5 VDD_PM 2 4 6 MCU_TX MCU_RX VDD_COM C3 1uF VIO_COM C4 0.1uF 1K R4 VCOM RTS TP12 VCP_TX VCP_RX VCOM CTS TP13 9 25 24 1 28 27 26 23 22 14 15 20 21 VIO_COM RESET TXD RXD RI DCD DTR DSR RTS CTS NC NC NC NC U2 C15 0.1uF 2 CP2103 SUSP SUSP GPIO.0 GPIO.1 GPIO.2 GPIO.3 NC NC DD+ 11 12 19 18 17 16 13 10 4 3 C18 0.1uF C17 1uF Figure 16. C8051F850 UDP MCU Card Schematic (Revision 200) (3 of 5) VCCB 1OE 2OE 1B1 1B2 2B1 2B2 16 15 14 13 12 11 10 74AVC4T245 R21 10K VCCA 1DIR 2DIR 1A1 1A2 2A1 2A2 16 15 14 13 12 11 10 74AVC4T245 EPAD C16 4.7uF 6 5 VDD VIO U4 3 REGIN VBUS Enables switch between MCU Card COM and Motherboard COM. GND 9 GND 8 GND 8 GND 9 Rev. 0.3 29 7 8 GND 4 RED DS10 COM R122 750 L1 0.68uH NI R22 0 D1 SP0503BAHT C19 0.1uF NI USB_5.0V +V DD+ ID GND R118 1M J5 USB TYPE MINI B COM PORT 1 SH 22 2 5 C8051F850-DK-UG Rev. 0.3 SPI_NSS0_EZR SPI_MOSI_EZR SPI_MISO_EZR SPI_SCK_EZR UART_CTS_SYS UART_RTS_SYS UART_RX_SYS GPIO06 GPIO05 GPIO04 GPIO03 GPIO02 GPIO01 GPIO00 CLKOUT0 EXT_INT1 EXT_INT0 WAKEUP1 WAKEUP0 5 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 UDP DC HEADER 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 4 UART_TX_A UART_RX_A UART_RTS_A UART_CTS_A UART_TX_SYS TIMER_CT_B I2C_SDA_EZR I2C_SCL_EZR TIMER_CT_A PCA_CH0_B PCA_ECI_A PCA_CH0_A PCA_CH1_A 3 3 C2_DAT_B C2_CLK_B UDPBUS_SDA_A UDPBUS_SCL_A R46 0 2 JP1 NI CONN SOCKET 4X1 R51 0 R52 0 NI R3 1K NI Date: Size B Title C2_DAT_B C2_CLK_B 14 13 11 10 9 8 7 16 15 400 W Cesar Chavez Austin, TX 78701 C1 1uF Friday, May 17, 2013 Document Number UPMU-F850 C8051F850 MCU Board PWR_SYS_BULK C2 0.1uF P0.6_CONVVSTR P0.0_VREF P0.7_IREF P0.1_AGND P0.2 P0.3 TX_P0.4 RX_P0.5 P1.0_CPO+ P1.1_CPOP1.2 P1.3 P1.5 P2.7_C2D P1.6 RST_C2CK P1.7 U1 C8051F990 6 5 2 1 20 19 18 17 R47 0 PWR_SYS_BULK Electronic Board Identification (EBID) 2 Figure 17. C8051F850 UDP MCU Card Schematic (Revision 200) (4 of 5) GND USART_TX_A USART_RX_A USART_RTS_A USART_CTS_A USART_UCLK_A CAN_TX_B CAN_RX_B SPI_SCK_A SPI_MISO_A SPI_MOSI_A SPI_NSS0_A SPI_NSS1_A SPI_NSS2_A SPI_NSS3_A USART_TX_B USART_RX_B USART_RTS_B USART_CTS_B USART_UCLK_B EPCA_ECI_A EPCA_CH0_A EPCA_CH1_A EPCA_CH2_A EPCA_CH3_A EPCA_CH4_A ECPA_CH5_A LIN_TX_A LIN_RX_A PCA_ECI_A PCA_CH0_A PCA_CH1_A PCA_ECI_B PCA_CH0_B PCA_CH1_B I2SOUT_DFS_A I2SOUT_CLK_A I2SOUT_DOUT_A I2C_SDA_EZR I2C_SDA_EZR TIMER_CT_A TIMER_EX_A TIMER_CT_B TIMER_EX_B UART_TX_A UART_RX_A UART_RTS_A UART_CTS_A UART_TX_SYS GND UDP MCU H1 LPTIMER_OUT_A LPTIMER_IN_A LIN_RX_B LIN_TX_B CAN_RX_A CAN_TX_A EXT_DMA_TRIG1 EXT_DMA_TRIG0 EXT_DAC_TRIG1 EXT_DAC_TRIG0 EXT_ADC_TRIG1 EXT_ADC_TRIG0 EXT_INT1 EXT_INT0 WAKEUP1 WAKEUP0 PORT_MATCH1 PORT_MATCH0 GPIO15 GPIO14 GPIO13 GPIO12 GPIO11 GPIO10 GPIO09 GPIO08 GPIO07 GPIO06 GPIO05 GPIO04 GPIO03 GPIO02 GPIO01 GPIO00 CLKOUT0 I2SIN_DOUT_A I2SIN_CLK_A I2SIN_DFS_A I2C_SCL_B I2C_SDA_B SPI_NSS3_EZR SPI_NSS2_EZR SPI_NSS1_EZR SPI_NSS0_EZR SPI_MOSI_EZR SPI_MISO_EZR SPI_SCK_EZR UART_CTS_SYS UART_RTS_SYS UART_RX_SYS J1 4 4 VDD GND GND GND 3 12 EPAD 5 1 Sheet 1 4 of 5 C8051F850-DK-UG 23 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 24 Rev. 0.3 5 UDP DC HEADER GND UDPBUS_SDA_A UDPBUS_SCL_A EPCA_ECI_MOTOR EPCA_CH0_MOTOR EPCA_CH1_MOTR EPCA_CH2_MOTOR EPCA_CH3_MOTOR EPCA_CH4_MOTOR EPCA_CH5_MOTOR HVGPIO00 HVGPIO01 HVGPIO02 HVGPIO03 HVGPIO04 HVGPIO05 HVGPIO06 HVGPIO07 EMIF_A23 EMIF_A22 EMIF_A21 EMIF_A20 EMIF_A19 EMIF_A18 EMIF_A17 EMIF_A16 EMIF_A15 EMIF_A14 EMIF_A13 EMIF_A12 EMIF_A11 EMIF_A10 EMIF_A9 EMIF_A8 EMIF_A7 EMIF_A6 EMIF_A5 EMIF_A4 EMIF_A3 EMIF_A2 EMIF_A1 EMIF_A0 EMIF_WRB EMIF_OEB EMIF_ALE EMIF_CS0B EMIF_BE1B EMIF_CS1B EMIF_BE0B GND UDP MCU H2 CMOSCLK_XTAL2_A CMOSCLK_XTAL1_A LCD_COM7_A LCD_COM6_A LCD_COM5_A LCD_COM4_A LCD_COM3_A LCD_COM2_A LCD_COM1_A LCD_COM0_1 LCD_SEG39_A LCD_SEG38_A LCD_SEG37_A LCD_SEG36_A LCD_SEG35_A LCD_SEG34_A LCD_SEG33_A LCD_SEG32_A LCD_SEG31_A LCD_SEG30_A LCD_SEG29_A LCD_SEG28_A LCD_SEG27_A LCD_SEG26_A LCD_SEG25_A LCD_SEG24_A LCD_SEG23_A LCD_SEG22_A LCD_SEG21_A LCD_SEG20_A LCD_SEG19_A LCD_SEG18_A LCD_SEG17_A LCD_SEG16_A LCD_SEG15_A LCD_SEG14_A LCD_SEG13_A LCD_SEG12_A LCD_SEG11_A LCD_SEG10_A LCD_SEG09_A LCD_SEG08_A LCD_SEG07_A LCD_SEG06_A LCD_SEG05_A LCD_SEG04_A LCD_SEG03_A LCD_SEG02_A LCD_SEG01_A LCD_SEG00_A J2 5 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 UART_VCP_EN UART_SYS_EN 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 UDP DC HEADER 3 GND PWR_VDD_IN PWR_VDD_IN PWR_VDD_OUT PWR_VDD_OUT PWR_RADIO_IN PWR_RADIO_IN PWR_RADIO_OUT PWR_RADIO_OUT PWR_IO_IN PWR_IO_IN PWR_IO_OUT PWR_IO_OUT PWR_IO_BUS PWR_IO_BUS PWR_AUX_BUS PWR_AUX_BUS PWR_HV1_BUS PWR_HV1_BUS PWR_HV2_BUS PWR_HV2_BUS PWR_VPP_BULK PWR_VPP_BULK PWR_5.0V_BULK PWR_5.0V_BULK PWR_5.0V_BULK PWR_5.0V_BULK PWR_3.3V_BULK PWR_3.3V_BULK PWR_3.3V_BULK PWR_3.3V_BULK PWR_SYS_BULK PWR_SYS_BULK GND EBID_SCK EBID_MOSI EBID_MISO EBID_NSS C2_CLK_A C2_DAT_A C2_CLK_B C2_DAT_B C2_CLK_C C2_DAT_C C2_CLK_D C2_DAT_D C2_CLK_E C2_DAT_E $PIN97 GND UDP MCU H3 $PIN0 $PIN2 $PIN4 $PIN6 $PIN8 $PIN10 $PIN12 $PIN14 $PIN16 $PIN18 $PIN20 $PIN22 $PIN24 $PIN26 $PIN28 $PIN30 $PIN32 $PIN34 $PIN36 $PIN38 $PIN40 $PIN42 $PIN44 $PIN46 $PIN48 $PIN50 $PIN52 $PIN54 $PIN56 $PIN58 $PIN60 $PIN62 $PIN64 $PIN66 $PIN68 $PIN70 $PIN72 $PIN74 $PIN76 $PIN78 $PIN80 $PIN82 $PIN84 $PIN86 $PIN88 $PIN90 VCP_EN UART_SYS_EN JTAG_TDI_A JTAG_TDO_A J3 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 C2CK C2D C2_CLK_B C2_DAT_B PWR_SYS_BULK PWR_3.3V_BULK PWR_5.0V_BULK PWR_VDD_OUT 2 2 CP_NEG_A CP_POS_A CP_OUTA_A CP_OUT_A UDP MCU H4 Date: Size B Friday, May 17, 2013 Document Number UPMU-F850 C8051F850 MCU Board 400 W Cesar Chavez Austin, TX 78701 1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 1 Sheet GND C2D_TX00_A C2D_TX01_A C2D_TX02_A C2D_TX03_A C2D_TX04_A C2D_TX05_A C2D_TX06_A C2D_TX07_A C2D_TX08_A C2D_TX09_A C2D_TX10_A C2D_TX11_A C2D_TX12_A C2D_TX13_A C2D_TX14_A C2D_TX15_A C2D_RX00_A C2D_RX01_A C2D_RX02_A C2D_RX03_A C2D_RX04_A C2D_RX05_A C2D_RX06_A C2D_RX07_A C2D_RX08_A C2D_RX09_A C2D_RX10_A C2D_RX11_A C2D_RX12_A C2D_RX13_A C2D_RX14_A C2D_RX15_A GND ADC_VREF ADC_VREFGND ADC_IN0 ADC_IN1 ADC_IN2 ADC_IN3 GND DAC_REF DAC_REFGND DAC_OUT0 DAC_OUT1 DAC_OUT2 DAC_OUT3 GND IDAC_A IDAC_B UDP DC HEADER GND $PIN2 $PIN4 $PIN6 ITM_CLK ITM_DAT3 ITM_DAT2 ITM_DAT1 ITM_DAT0 $PIN18 EZR_GPIO4 EZR_GPIO3 EZR_GPIO2 EZR_GPIO1 EZR_GPIO0 EZR_VDI EZR_ARSSI EZR_RESET EZR_SI100X_RX EZR_EFIT EZR_DTO EZR_SI100X_TX EZR_NFFS EZR_NIRQ EZR_SDN GND EZRP_RX_DATA_OUT EZRP_RX_CLK_OUT EZRP_TX_DATA_IN GND EZRP_CLK_IN GND EXTREG_BD_A EXTREG_OUT_A EXTREG_SN_A EXTREG_SP_A I2V_INN_A I2V_INP_A GND HVDA_INN_B HVDA_INP_B HVDA_INN_A HVDA_INP_A GND CP_NEG_B CP_POS_B CP_NEG_A CP_POS_A CP_OUTA_A CP_OUT_A Title 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 J4 Figure 18. C8051F850 UDP MCU Card Schematic (Revision 200) (5 of 5) 4 EPCA_CH0_MOTOR EPCA_CH1_MOTOR EPCA_CH2_MOTOR EPCA_CH3_MOTOR EPCA_CH4_MOTOR EPCA_CH5_MOTOR UDPBUS_SDA_A UDPBUS_SCL_A 4 5 of 5 ADC_VREF ADC_VREFGND ADC_IN0 ADC_IN1 ADC_IN2 ADC_IN3 Rev 2.0 A B C D C8051F850-DK-UG C8051F850-DK-UG 10. Bill of Materials Table 7. C8051F850 UDP MCU Card Bill of Materials Reference Part Number Source Description C1 C3 C17 C30 C2 C4 C6 C10 C11 C12 C13 C15 C18 C28 C38 C20 C7 C16 C36 C37 D1 D3 D4 D5 D7 D6 DS5 DS6 DS10 DS9 C0603X7R100-105K Venkel 1 µF 10 V ±10% X7R 0603 C0603X7R100-104K Venkel 0.1 µF 10 V ±10% X7R 0603 C0603X7R100-103M C0603X5R6R3-475K Venkel Venkel 0.01 µF 10 V ±20% X7R 0603 4.7 µF 6.3 V ±10% X5R 0603 SP0503BAHTG STPS140Z MMSZ5245BT1 SML-LX0603IW Littlefuse ST Semiconductor On Semiconductor LUMEX INC 300 mW 20 V TVS SOT143 1.0 A 40 V Schottky SOD-123 15 V 500 mW 15 V 5% Zener SOD-123 RED 30 mA LED 0603 LTST-C190TBKT BLUE LED 0603 FX8-100P-SV1 5103309-1 TSW-105-07-T-D LITE-ON Technology Corp Hirose Electric Tyco Samtec UDP DC Header 0.1 in. 5x2 Shrouded Header 0.1 in. 5x2 Header 1729160 TSW-102-07-T-D 54819-0519 RAPC722X TSW-103-01-L-D TSW-102-07-T-S SNT-100-BK-T Phoenix Contact Samtec Molex Switchcraft Inc. Samtec Samtec Samtec Analog Header Terminal Block 1x6 0.1 in. 2x2 Header USB Mini B Power Jack 5 A BARREL 0.1 in. 2x3 Header 0.1 in. 1x2 Header Jumper Shunt CR0603-16W-1004F RV100F-30-4K1B-B10KB301 CR0603-16W-7500F Venkel Alpha (Taiwan) Venkel 1 MΩ 1/16 W ±1% ThickFilm 0603 10 kΩ 0.03 W 30% Thumbwheel Potentiometer 750 Ω 1/10 W ±1% ThickFilm 0603 CR0603-10W-1501F CR0603-10W-103J Venkel Venkel 1.5 kΩ 1/10 W ±1% ThickFilm 0603 10 kΩ 1/10 W ±5% ThickFilm 0603 J1 J2 J3 J4 J23 J24 J25 J26 J27 J34 J35 J5 J6 J7 J32 JP2 JS1 JS2 JS3 JS4 JS5 JS6 JS9 JS10 JS11 R118 R13 R15 R16 R122 R19 R20 R21 Rev. 0.3 25 C8051F850-DK-UG Table 7. C8051F850 UDP MCU Card Bill of Materials (Continued) Reference Part Number Source Description R22 R36 R37 R51 R52 R65 R66 R67 R68 R70 R71 R72 R73 R75 R76 R77 R78 R79 R80 R81 R83 R84 R85 R86 R87 R88 R89 R90 R91 R96 R98 R99 R101 R102 R103 R104 R106 R107 R109 R110 R111 R112 R113 R114 R115 R116 R117 R119 R121 R25 R3 R4 R9 R11 R63 R64 R94 R95 S1 S2 S5 SW1 U1 U11 U2 U4 U5 U6 CR0603-16W-000 Venkel 0 Ω 1 A ThickFilm 0603 CR0603-10W-104J CR0603-10W-1001F Venkel Venkel 100 kΩ 1/10 W ±5% ThickFilm 0603 1 kΩ 1/10 W ±1% ThickFilm 0603 EVQ-PAD04M OS102011MS2QN1 C8051F990-GM C8051F850-A-GU CP2103-GM SN74AVC4T245PW LP2989AIMM-3.3/NOPB C19 C0603X7R100-104K JP1 JS12 JS13 JS14 JS15 L1 R46 R47 SSQ-104-23-T-S SNT-100-BK-T 26 NLV25T-R68J-PF CR0603-16W-000 Panasonic Corp Momentary Tactile Switch C&K .1 A @ 12 V Slide Switch Silicon Labs C8051F990 MCU QFN20 Silicon Labs C8051F850 MCU QSOP24 Silicon Labs CP2103 USB-to-UART Bridge QFN28 TI 1.2–3.6 V Translator TSSOP16 National 500 mA LDO MSOP8 Semiconductor Components Not Installed Venkel 0.1 µF 10 V ±10% X7R 0603 Not Installed (NI) Samtec CONN SOCKET 4X1 Not Installed (NI) Samtec Jumper Shunt Not Installed (NI) TDK Venkel Rev. 0.3 0.68 µH 300 mA ±5% GP Not Installed (NI) 0 Ω 1 A ThickFilm 0603 Not Installed (NI) C8051F850-DK-UG APPENDIX—MCU CARD HEADER PIN DESCRIPTIONS Table 8. C8051F850 MCU Card H1 Pin Descriptions (J1) MCU Card Pin Signal Name 1 GND 2 USART_TX_A 3 USART_RX_A 4 USART_RTS_A 5 USART_CTS_A 6 USART_UCLK_A 7 CAN_TX_B 8 CAN_RX_B 9 SPI_SCK_A SPI A clock 10 SPI_MISO_A SPI A master-in, slave-out 11 SPI_MOSI_A SPI A master-out, slave-in 12 SPI_NSS0_A SPI A slave select 0 13 SPI_NSS1_A SPI A slave select 1 14 SPI_NSS2_A SPI A slave select 2 15 SPI_NSS3_A SPI A slave select 3 16 USART_TX_B USART B transmit 17 USART_RX_B USART B receive 18 USART_RTS_B USART B hardware handshaking 19 USART_CTS_B USART B hardware handshaking 20 USART_UCLK_B USART B clock 21 EPCA_ECI_A EPCA A external clock input 22 EPCA_CH0_A 23 EPCA_CH1_A 24 EPCA_CH2_A 25 EPCA_CH3_A 26 27 EPCA_CH4_A EPCA_CH5_A 28 LIN_TX_A 29 LIN_RX_A 30 PCA_ECI_A 31 PCA_CH0_A P1.3 32 PCA_CH1_A P1.4 33 PCA_ECI_B 34 PCA_CH0_B 35 PCA_CH1_B 36 I2SOUT_DFS_A Description PCA A external clock input C8051F850 Pin / Signal P1.6 PCA B external clock input P1.5 I2S A transmitter word sync (WS) Rev. 0.3 27 C8051F850-DK-UG Table 8. C8051F850 MCU Card H1 Pin Descriptions (J1) (Continued) MCU Card Pin Signal Name Description 37 I2SOUT_CLK_A I2S A transmitter clock (SCK) 38 I2SOUT_DOUT_A I2S A transmitter data (SD) 39 I2C_SDA_EZR EZRadio I2C data 28 EZRadio I2C C8051F850 Pin / Signal P0.6 40 I2C_SCL_EZR 41 TIMER_CT_A 42 TIMER_EX_A 43 TIMER_CT_B 44 TIMER_EX_B 45 UART_TX_A UART A transmit P0.4 46 UART_RX_A UART A receive P0.5 47 UART_RTS_A UART A hardware handshaking P0.6 48 UART_CTS_A UART A hardware handshaking P0.7 49 UART_TX_SYS System UART transmit P0.4 50 GND 51 UART_RX_SYS System UART receive P0.5 52 UART_RTS_SYS System UART hardware handshaking P0.6 53 UART_CTS_SYS System UART hardware handshaking P0.7 54 SPI_SCK_EZR EZRadio SPI clock P0.0 55 SPI_MISO_EZR EZRadio SPI master-in, slave-out P0.1 56 SPI_MOSI_EZR EZRadio SPI master-out, slave-in P0.2 57 SPI_NSS0_EZR EZRadio SPI slave select 0 P0.3 58 SPI_NSS1_EZR EZRadio SPI slave select 1 59 SPI_NSS2_EZR EZRadio SPI slave select 2 60 SPI_NSS3_EZR EZRadio SPI slave select 3 61 I2C_SDA_B I2C B data 62 I2C_SCL_B I2C B clock 63 I2SIN_DFS_A I2S A receiver word sync (WS) 64 I2SIN_CLK_A I2S A receiver clock (SCK) 65 I2SIN_DOUT_A I2S A receiver data (SD) 66 CLKOUT0 clock P1.2 67 GPIO00 General purpose I/O 0 P2.1 68 GPIO01 General purpose I/O 1 P1.7 69 GPIO02 General purpose I/O 2 P1.4 70 GPIO03 General purpose I/O 3 P1.5 71 GPIO04 General purpose I/O 4 P1.6 72 GPIO05 General purpose I/O 5 P0.0 73 GPIO06 General purpose I/O 6 P0.1 clock P0.7 P1.6 P1.7 Rev. 0.3 C8051F850-DK-UG Table 8. C8051F850 MCU Card H1 Pin Descriptions (J1) (Continued) MCU Card Pin Signal Name Description 74 GPIO07 General purpose I/O 7 75 GPIO08 General purpose I/O 8 76 GPIO09 General purpose I/O 9 77 GPIO10 General purpose I/O 10 78 GPIO11 General purpose I/O 11 79 GPIO12 General purpose I/O 12 80 GPIO13 General purpose I/O 13 81 GPIO14 General purpose I/O 14 82 GPIO15 General purpose I/O 15 83 PORT_MATCH0 84 PORT_MATCH1 85 WAKEUP0 MCU low-power wakeup input signal 0 P0.5 86 WAKEUP1 MCU low-power wakeup input signal 1 P1.5 87 EXT_INT0 External interrupt 0 P0.2 88 EXT_INT1 External interrupt 1 P0.3 89 EXT_ADC_TRIG0 External ADC trigger 0 90 EXT_ADC_TRIG1 External ADC trigger 1 91 EXT_DAC_TRIG0 External DAC trigger 0 92 EXT_DAC_TRIG1 External DAC trigger 1 93 EXT_DMA_TRIG0 External DMA trigger 0 94 EXT_DMA_TRIG1 External DMA trigger 1 95 CAN_TX_A 96 CAN_RX_A 97 LIN_TX_B 98 LIN_RX_B 99 LPTIMER_IN_A 100 LPTIMER_OUT_A Rev. 0.3 C8051F850 Pin / Signal 29 C8051F850-DK-UG Table 9. C8051F850 MCU Card H2 Pin Descriptions (J2) MCU Card Pin 30 Description C8051F850 Pin / Signal UDP motherboard I2C A data P0.6 Signal Name 1 GND 2 UDPBUS_SDA_A 2 3 UDPBUS_SCL_A UDP motherboard I C A clock 4 EPCA_ECI_MOTOR Motor EPCA external clock input 5 EPCA_CH0_MOTOR P1.4 6 EPCA_CH1_MOTOR P0.1 7 EPCA_CH2_MOTOR P1.5 8 EPCA_CH3_MOTOR P0.6 9 EPCA_CH4_MOTOR P1.6 10 EPCA_CH5_MOTOR P0.7 11 HVGPIO0 High Drive I/O 0 12 HVGPIO1 High Drive I/O 1 13 HVGPIO2 High Drive I/O 2 14 HVGPIO3 High Drive I/O 3 15 HVGPIO4 High Drive I/O 4 16 HVGPIO5 High Drive I/O 5 17 HVGPIO6 High Drive I/O 6 18 HVGPIO7 High Drive I/O 7 19 EMIF_A23 EMIF muxed AD23m pin (non-muxed A15) 20 EMIF_A22 EMIF muxed AD22m pin (non-muxed A14) 21 EMIF_A21 EMIF muxed AD21m pin (non-muxed A13) 22 EMIF_A20 EMIF muxed AD20m pin (non-muxed A12) 23 EMIF_A19 EMIF muxed AD19m pin (non-muxed A11) 24 EMIF_A18 EMIF muxed AD18m pin (non-muxed A10) 25 EMIF_A17 EMIF muxed AD17m pin (non-muxed A9) 26 EMIF_A16 EMIF muxed AD16m pin (non-muxed A8) 27 EMIF_A15 EMIF muxed AD15m pin (non-muxed A7) 28 EMIF_A14 EMIF muxed AD14m pin (non-muxed A6) 29 EMIF_A13 EMIF muxed AD13m pin (non-muxed A5) 30 EMIF_A12 EMIF muxed AD12m pin (non-muxed A4) 31 EMIF_A11 EMIF muxed AD11m pin (non-muxed A3) 32 EMIF_A10 EMIF muxed AD10m pin (non-muxed A2) 33 EMIF_A9 EMIF muxed AD9m pin (non-muxed A1) 34 EMIF_A8 EMIF muxed AD8m pin (non-muxed A0) 35 EMIF_A7 EMIF muxed AD7m pin (non-muxed D7) 36 EMIF_A6 EMIF muxed AD6m pin (non-muxed D6) 37 EMIF_A5 EMIF muxed AD5m pin (non-muxed D5) Rev. 0.3 P0.7 C8051F850-DK-UG Table 9. C8051F850 MCU Card H2 Pin Descriptions (J2) (Continued) MCU Card Pin Signal Name Description 38 EMIF_A4 EMIF muxed AD4m pin (non-muxed D4) 39 EMIF_A3 EMIF muxed AD3m pin (non-muxed D3) 40 EMIF_A2 EMIF muxed AD2m pin (non-muxed D2) 41 EMIF_A1 EMIF muxed AD1m pin (non-muxed D1) 42 EMIF_A0 EMIF muxed AD0m pin (non-muxed D0) 43 EMIF_WRB EMIF write signal 44 EMIF_OEB EMIF output enable 45 EMIF_ALE EMIF address latch enable 46 EMIF_CS0B EMIF chip select 0 47 EMIF_BE1B EMIF output byte enable 1 48 EMIF_CS1B EMIF chip select 1 49 EMIF_BE0B EMIF output byte enable 0 50 GND 51 LCD_SEG00_A 52 LCD_SEG01_A 53 LCD_SEG02_A 54 LCD_SEG03_A 55 LCD_SEG04_A 56 LCD_SEG05_A 57 LCD_SEG06_A 58 LCD_SEG07_A 59 LCD_SEG08_A 60 LCD_SEG09_A 61 LCD_SEG10_A 62 LCD_SEG11_A 63 LCD_SEG12_A 64 LCD_SEG13_A 65 LCD_SEG14_A 66 LCD_SEG15_A 67 LCD_SEG16_A 68 LCD_SEG17_A 69 LCD_SEG18_A 70 LCD_SEG19_A 71 LCD_SEG20_A 72 LCD_SEG21_A 73 LCD_SEG22_A 74 LCD_SEG23_A Rev. 0.3 C8051F850 Pin / Signal 31 C8051F850-DK-UG Table 9. C8051F850 MCU Card H2 Pin Descriptions (J2) (Continued) MCU Card Pin Signal Name 75 LCD_SEG24_A 76 LCD_SEG25_A 77 LCD_SEG26_A 78 LCD_SEG27_A 79 LCD_SEG28_A 80 LCD_SEG29_A 81 LCD_SEG30_A 82 LCD_SEG31_A 83 LCD_SEG32_A 84 LCD_SEG33_A 85 LCD_SEG34_A 86 LCD_SEG35_A 87 LCD_SEG36_A 88 LCD_SEG37_A 89 LCD_SEG38_A 90 LCD_SEG39_A 91 LCD_COM0_A 92 LCD_COM1_A 93 LCD_COM2_A 94 LCD_COM3_A 95 LCD_COM4_A 96 LCD_COM5_A 97 LCD_COM6_A 98 LCD_COM7_A 99 CMOSCLK_XTAL1_A MCU XTAL1 pin for external oscillators 100 CMOSCLK_XTAL2_A MCU XTAL2 pin for external oscillators 32 Description Rev. 0.3 C8051F850 Pin / Signal C8051F850-DK-UG Table 10. C8051F850 MCU Card H3 Pin Descriptions (J3) MCU Card Pin Description Description 1 GND 2 PWR_VDD_IN 3 PWR_VDD_IN Power input for powering the MCU card from a power source other than the UDP motherboard 4 PWR_VDD_OUT Power input for the MCU card 5 PWR_VDD_OUT 6 PWR_RADIO_IN 7 PWR_RADIO_IN Power input for powering the radio test card from a power source other than the UDP motherboard 8 PWR_RADIO_OUT Power input for the radio test card 9 PWR_RADIO_OUT 10 PWR_IO_IN 11 PWR_IO_IN Power input for powering the I/O card from a power source other than the UDP motherboard 12 PWR_IO_OUT Power input for the I/O card 13 PWR_IO_OUT 14 PWR_IO_BUS 15 PWR_IO_BUS 16 PWR_AUX_BUS 17 PWR_AUX_BUS Connects power from the MCU card to the radio and I/O cards 18 PWR_HV1_BUS High Drive I/O power 1 19 PWR_HV1_BUS 20 PWR_HV2_BUS 21 PWR_HV2_BUS 22 PWR_VPP_BULK 23 PWR_VPP_BULK 24 PWR_5.0_BULK 25 PWR_5.0_BULK 26 PWR_5.0_BULK 27 PWR_5.0_BULK 28 VCC_3.3V 29 VCC_3.3V 30 VCC_3.3V 31 VCC_3.3V 32 PWR_SYS_BULK 33 PWR_SYS_BULK 34 GND 35 EBID_SCK EBID SPI clock 36 EBID_MOSI EBID SPI master-out, slave in 37 EBID_MISO EBID SPI master-in, slave-out C8051F850 Pin / Signal Connects power from the MCU card to the radio and I/O cards High Drive I/O power 2 VPP programming voltage 5.0 V power from the UDP motherboard 3.3 V power from the UDP motherboard 3.3 V power supply for EBID devices Rev. 0.3 33 C8051F850-DK-UG Table 10. C8051F850 MCU Card H3 Pin Descriptions (J3) (Continued) MCU Card Pin Description Description 38 EBID_NSS EBID SPI slave select 39 C2_CLK_A 40 C2_DAT_A 41 C2_CLK_B C2 interface A clock, JTAG interface A TCK, Serial Wire SWCLK C2 interface A data, JTAG interface A TMS, Serial Wire SWDIO C2 interface B clock 42 C2_DAT_B C2 interface B data 43 C2_CLK_C C2 interface C clock 44 C2_DAT_C C2 interface C data 45 C2_CLK_D C2 interface D clock 46 C2_DAT_D C2 interface D data 47 C2_CLK_E C2 interface E clock 48 C2_DAT_E C2 interface E data 49 nc no connect 50 GND 51 JTAG_TDO_A JTAG interface A data out (TDO), Serial Wire SWO 52 JTAG_TDI_A JTAG interface A data in (TDI) 53 VCP_EN Selects the USB-to-USART motherboard path 54 UART_SYS_EN Selects the USB-to-USART motherboard path 55 H3_55 General purpose signal 56 H3_56 General purpose signal 57 H3_57 General purpose signal 58 H3_58 General purpose signal 59 H3_59 General purpose signal 60 H3_60 General purpose signal 61 H3_61 General purpose signal 62 H3_62 General purpose signal 63 H3_63 General purpose signal 64 H3_64 General purpose signal 65 H3_65 General purpose signal 66 H3_66 General purpose signal 67 H3_67 General purpose signal 68 H3_68 General purpose signal 69 H3_69 General purpose signal 70 H3_70 General purpose signal 71 H3_71 General purpose signal 72 H3_72 General purpose signal 73 H3_73 General purpose signal 34 Rev. 0.3 C8051F850 Pin / Signal RST/C2CK C2D/P2.0 C8051F850-DK-UG Table 10. C8051F850 MCU Card H3 Pin Descriptions (J3) (Continued) MCU Card Pin Description Description 74 H3_74 General purpose signal 75 H3_75 General purpose signal 76 H3_76 General purpose signal 77 H3_77 General purpose signal 78 H3_78 General purpose signal 79 H3_79 General purpose signal 80 H3_80 General purpose signal 81 H3_81 General purpose signal 82 H3_82 General purpose signal 83 H3_83 General purpose signal 84 H3_84 General purpose signal 85 H3_85 General purpose signal 86 H3_86 General purpose signal 87 H3_87 General purpose signal 88 H3_88 General purpose signal 89 H3_89 General purpose signal 90 H3_90 General purpose signal 91 H3_91 General purpose signal 92 H3_92 General purpose signal 93 H3_93 General purpose signal 94 H3_94 General purpose signal 95 H3_95 General purpose signal 96 H3_96 General purpose signal 97 H3_97 General purpose signal 98 H3_98 General purpose signal 99 H3_99 General purpose signal 100 H3_100 General purpose signal Rev. 0.3 C8051F850 Pin / Signal 35 C8051F850-DK-UG Table 11. C8051F850 MCU Card H4 Pin Descriptions (J4) MCU Card Pin 36 Description Description C8051F850 Pin / Signal 1 GND 2 C2D_TX00_A Capacitive Sensing output 0 3 C2D_TX01_A Capacitive Sensing output 1 4 C2D_TX02_A Capacitive Sensing output 2 5 C2D_TX03_A Capacitive Sensing output 3 6 C2D_TX04_A Capacitive Sensing output 4 7 C2D_TX05_A Capacitive Sensing output 5 8 C2D_TX06_A Capacitive Sensing output 6 9 C2D_TX07_A Capacitive Sensing output 7 10 C2D_TX08_A Capacitive Sensing output 8 11 C2D_TX09_A Capacitive Sensing output 9 12 C2D_TX10_A Capacitive Sensing output 10 13 C2D_TX11_A Capacitive Sensing output 11 14 C2D_TX12_A Capacitive Sensing output 12 15 C2D_TX13_A Capacitive Sensing output 13 16 C2D_TX14_A Capacitive Sensing output 14 17 C2D_TX15_A Capacitive Sensing output 15 18 C2D_RX00_A Capacitive Sensing input 0 19 C2D_RX01_A Capacitive Sensing input 1 20 C2D_RX02_A Capacitive Sensing input 2 21 C2D_RX03_A Capacitive Sensing input 3 22 C2D_RX04_A Capacitive Sensing input 4 23 C2D_RX05_A Capacitive Sensing input 5 24 C2D_RX06_A Capacitive Sensing input 6 25 C2D_RX07_A Capacitive Sensing input 7 26 27 C2D_RX08_A C2D_RX09_A Capacitive Sensing input 8 Capacitive Sensing input 9 28 C2D_RX10_A Capacitive Sensing input 10 29 C2D_RX11_A Capacitive Sensing input 11 30 C2D_RX12_A Capacitive Sensing input 12 31 C2D_RX13_A Capacitive Sensing input 13 32 C2D_RX14_A Capacitive Sensing input 14 33 C2D_RX15_A Capacitive Sensing input 15 34 GND 35 ADC_VREF ADC voltage reference P0.0 36 ADC_VREFGND ADC VREF ground P0.1 37 ADC_IN0 P1.0 Rev. 0.3 C8051F850-DK-UG Table 11. C8051F850 MCU Card H4 Pin Descriptions (J4) (Continued) MCU Card Pin Description 38 ADC_IN1 P1.1 39 ADC_IN2 P1.2 40 ADC_IN3 P1.3 41 GND 42 DAC_VREF DAC voltage reference 43 DAC_VREFGND DAC voltage reference ground 44 DAC_OUT0 45 DAC_OUT1 46 DAC_OUT2 47 DAC_OUT3 48 GND 49 IDAC_A IDAC A output 50 IDAC_B IDAC B output 51 CP_OUT_A Comparator A synchronous output P1.0 52 CP_OUTA_A Comparator A asynchronous output P1.1 53 CP_POS_A Comparator A positive input P0.2 54 CP_NEG_A Comparator A negative input P0.3 55 CP_POS_B Comparator B positive input 56 CP_NEG_B 57 GND 58 HVDA_INP_A High Voltage Differential Amplifier A positive input 59 HVDA_INN_A High Voltage Differential Amplifier A negative input 60 HVDA_INP_B High Voltage Differential Amplifier B positive input 61 HVDA_INN_B High Voltage Differential Amplifier B negative input 62 GND 63 I2V_INP_A Current-to-Voltage converter A input 0 64 I2V_INN_A Current-to-Voltage converter A input 1 65 EXTREG_SP_A External Voltage Regulator SP input 66 EXTREG_SN_A External Voltage Regulator SN input 67 EXTREG_OUT_A External Voltage Regulator OUT output 68 EXTREG_BD_A External Voltage Regulator base drive output 69 GND 70 EZRP_CLK_IN 71 GND 72 EZRP_TX_DATA_IN Radio test card transmit data input (SMA connector) 73 EZRO_RX_CLK_OUT Radio test card receive clock output (SMA connector) 74 EZRP_RX_DATA_OUT Radio test card receive data output (SMA connector) Description C8051F850 Pin / Signal Radio test card clock input (SMA connector) Rev. 0.3 37 C8051F850-DK-UG Table 11. C8051F850 MCU Card H4 Pin Descriptions (J4) (Continued) MCU Card Pin Description 75 GND 76 EZRP_SDN Radio test card peripheral shutdown 77 EZRP_NIRQ Radio test card peripheral interrupt status 78 EZR_NFFS 79 EZR_SI100X_TX 80 EZR_DTO 81 EZR_FFIT 82 EZR_SI100X_RX Radio test card Si100x receive 83 EZR_RESET Radio test card reset 84 EZR_ARSSI 85 EZR_VDI 86 EZR_GPIO0 Radio test card general purpose I/O 0 87 EZR_GPIO1 Radio test card general purpose I/O 1 88 EZR_GPIO2 Radio test card general purpose I/O 2 89 EZR_GPIO3 Radio test card general purpose I/O 3 90 EZR_GPIO4 Radio test card general purpose I/O 4 91 H4_91 General purpose signal 92 ITM_DAT0 93 ITM_DAT1 94 ITM_DAT2 95 ITM_DAT3 96 ITM_CLK 97 H4_97 General purpose signal 98 H4_98 General purpose signal 99 H4_99 General purpose signal 100 GND 38 Description Radio test card Si100x transmit Rev. 0.3 C8051F850 Pin / Signal Simplicity Studio One-click access to MCU and wireless tools, documentation, software, source code libraries & more. Available for Windows, Mac and Linux! IoT Portfolio www.silabs.com/IoT SW/HW Quality Support and Community www.silabs.com/simplicity www.silabs.com/quality community.silabs.com Disclaimer Silicon Laboratories intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or intending to use the Silicon Laboratories products. Characterization data, available modules and peripherals, memory sizes and memory addresses refer to each specific device, and "Typical" parameters provided can and do vary in different applications. Application examples described herein are for illustrative purposes only. Silicon Laboratories reserves the right to make changes without further notice and limitation to product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. Silicon Laboratories shall have no liability for the consequences of use of the information supplied herein. This document does not imply or express copyright licenses granted hereunder to design or fabricate any integrated circuits. The products must not be used within any Life Support System without the specific written consent of Silicon Laboratories. A "Life Support System" is any product or system intended to support or sustain life and/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. Trademark Information Silicon Laboratories Inc., Silicon Laboratories, Silicon Labs, SiLabs and the Silicon Labs logo, CMEMS®, EFM, EFM32, EFR, Energy Micro, Energy Micro logo and combinations thereof, "the world’s most energy friendly microcontrollers", Ember®, EZLink®, EZMac®, EZRadio®, EZRadioPRO®, DSPLL®, ISOmodem ®, Precision32®, ProSLIC®, SiPHY®, USBXpress® and others are trademarks or registered trademarks of Silicon Laboratories Inc. ARM, CORTEX, Cortex-M3 and THUMB are trademarks or registered trademarks of ARM Holdings. Keil is a registered trademark of ARM Limited. All other products or brand names mentioned herein are trademarks of their respective holders. Silicon Laboratories Inc. 400 West Cesar Chavez Austin, TX 78701 USA http://www.silabs.com