SiM3C1xx-B-DK

UDP SiM3C1xx
UDP SiM3C1 XX MCU C A R D U SER ’ S G UIDE
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).
Pico Board
MCU Card
Radio Test
Card
I/O Card
Motherboard
Not all MCU cards support Pico Boards
Figure 1. Unified Development Platform Block Diagram
Rev. 0.1 2/12
Copyright © 2012 by Silicon Laboratories
SiM3C1xx
UDP SiM3C1xx
2. Relevant Documents
This document provides a hardware overview for the Unified Development Platform (UDP) system SiM3C1xx MCU
card. Additional information on the UDP system 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.
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Rev. 0.1
UDP SiM3C1xx
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 (J31) on the MCU card with the 10-pin
ribbon cable.
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. Move the SW5 System Power Select switch to the upper WALL position.
5. Verify that the 5V WALL (J14), VDD (J15), and VIO (J17) Imeasure jumpers are all populated.
6. Verify that the VIOHD Selection jumper (J18) is in the upper position between VIO and VIOHD.
7. Connect the ac/dc power adapter to the wall outlet and to the power jack on the board labeled Power (P1).
Notes:
Use
the Reset button in the IDE to reset the target when connected using a USB Debug Adapter.
Remove 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.
Power
USB Debug Adapter
Header
VCP
Connectivity
VIOHD
Jumper
Imeasure
Jumpers
Power Select
Switch
Figure 2. Hardware Setup using the MCU Card Alone
Rev. 0.1
3
UDP SiM3C1xx
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 (J31) on the MCU card with the 10-pin
ribbon cable.
6. Connect one end of the USB cable to the USB connector on the USB Debug Adapter.
7. Connect the other end of the USB cable to a USB Port on the PC.
8. Move the SW5 System Power Select switch to the lower MB position.
9. Verify that the 5V WALL (J14), VDD (J15), and VIO (J17) Imeasure jumpers are all populated.
10. Verify that the VIOHD Selection jumper (J18) is in the upper position between VIO and VIOHD.
11. 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.
12. Move the S3 power switch on the UDP motherboard to the ON position.
13. Update the motherboard firmware as described in Section 3.4.
Notes:
Use
the Reset button in the IDE to reset the target when connected using a USB Debug Adapter.
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.
Remove
Imeasure
Jumpers
USB Debug
Adapter
VIOHD
Jumper
Power Select
Switch
USB
Connector
(J16)
Power
Adapter
(J20)
Figure 3. Hardware Setup using the Unified Development Platform
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UDP SiM3C1xx
3.3. CP210x USB to UART VCP Driver Installation
The MCU Card includes a Silicon Labs CP210x USB-to-Dual-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.
If the "Install CP210x Drivers" option is selected during installation, a driver “unpacker” utility will launch.
1. Follow the steps to copy the driver files to the desired location. The default directory is
C:\SiLabs\MCU\CP210x.
2. The final window will give an option to install the driver on the target system. Select the “Launch the
CP210x VCP Driver Installer” option if you are ready to install the driver.
3. If selected, the driver installer will now launch, providing an option to specify the driver installation location.
After pressing the “Install” button, the installer will search your 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_Vista.
At this location, run CP210xVCPInstaller.exe.
5. To complete the installation process, connect the included USB cable between the host computer and the
COM PORT USB connector (J10) on the MCU Card. Windows will automatically finish the driver
installation. Information windows will pop up from the taskbar to show the installation progress.
6. If needed, the driver files can be uninstalled by selecting “Silicon Labs CP210x USB to UART Bridge Driver
Removal” option in the “Add or Remove Programs” window.
3.4. Updating the UDP Motherboard Firmware
To ensure the UDP Motherboard supports the SiM3C1xx 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. 0.1
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UDP SiM3C1xx
4. UDP SiM3C1xx MCU Card Overview
The SiM3C1xx MCU card enables application development on the SiM3C1xx MCU. 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 5 shows the SiM3C1xx MCU card.
Figure 5. UDP SiM3C1xx MCU Card
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Rev. 0.1
UDP SiM3C1xx
Power
Mini-B USB
Connector
for VCP
Debug
Connector
VIOHD Selection Jumper
Imeasure Jumpers
Capacitive Sensing
Slider and Buttons
Power LEDs
System Power Select Switch
User Control Switch
Reset Push-Button
Push-Button Switches
Analog
Terminals
LEDs
Potentiometer
Figure 6. UDP SiM3C1xx MCU Card Features
4.1. Push-Button Switches and LEDs (SW2, SW3, DS3, DS4)
The UDP SiM3C1xx MCU Card has two push-button switches and two LEDs. The two switches connect to PB2.8
and PB2.9. The switches are normally open and pull the pin voltage to ground when pressed.
Port pins PB2.10 and PB2.11 also connect to two LEDs: DS3 and DS4. The LEDs connect to VIO through a current
limiting resistor.
When using PB2.8 and PB2.9 as switches and PB2.10 and PB2.11 as LEDs, the User Control switch (SW4) must
be in the ON position.
Rev. 0.1
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UDP SiM3C1xx
4.2. Analog Terminals (H1)
Several of the SiM3C1xx port pins used for analog functions are connected to the H1 terminal block. Refer to
Table 1 for the H1 terminal block connections.
Table 1. Terminal Block Pin Descriptions (H1)
Pin
I/O
1
2
3
4
5
6
PB0.12 / VREF
PB0.11 / VREFGND
PB1.5 / ADCn.14
PB1.6 / ADCn.15
PB0.13 / IDAC0
GND
4.3. User Control Switch (SW4)
The User Control Switch enables and disables the User Control portion of the board. When in the ON position,
various GPIO pins are connected to the push-button switches, LEDs, and potentiometer. When in the OFF
position, the GPIO pins are disconnected from the hardware in the User Control portion of the board. The OFF
selection should be used if another I/O board is connected to the MCU Card via a UDP motherboard or if the GPIO
pins are needed for different functions. Table 2 shows a list of the GPIO pins that are controlled by the User Control
Switch.
Table 2. User Controlled GPIO Pins
GPIO Pin
User Control Function
PB1.5
PB2.8
PB2.9
PB2.10
PB2.11
PB2.12
Potentiometer
Push-Button Switch (SW2)
Push-Button Switch (SW3)
Red LED (DS3)
Yellow LED (DS4)
Potentiometer Bias
4.4. Potentiometer (R15)
The potentiometer is available on PB1.5. To use the potentiometer, install a shorting block on J16 to connect PB1.5
to POT. To facilitate a low-power potentiometer, PB2.12 connects to bottom of the potentiometer as a
potentiometer enable. Drive PB2.12 low to enable the potentiometer. The User Control switch must be in the ON
position to use the potentiometer.
4.5. System Power Select Switch (SW5)
The MCU card has two power supply options: WALL power or UDP motherboard power. The System Power Select
Switch is used to select between the two. If the MCU card is used without the UDP Motherboard, this switch should
be placed in the WALL position. While in the WALL position, the part can be powered from the power connector
(P1) labeled “Power”.
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Rev. 0.1
UDP SiM3C1xx
4.6. Power LEDs (DS1, DS2)
The two power LEDs provide visual feedback when the board is powered. When the System Power Select Switch
is in the WALL position, the PWR WALL LED (DS1) will turn on when the device is powered through the P1
connector or by connecting a power supply to any power header on the board. When the System Power Select
Switch is in the MB position, the PWR MB LED (DS2) will turn on when the device is powered by a UDP
Motherboard.
4.7. Imeasure Jumpers (J14, J15, J17)
The 5V WALL (J14), VDD (J15), and VIO (J17) Imeasure jumpers allow for easy access to measure the supply
current of the MCU. The shorting blocks for these headers are populated by default. To measure the supply
current, remove the corresponding shorting block and connect a current measurement device across the
unpopulated header.
4.8. VIOHD Selection Jumper (J18)
The VIOHD jumper allows for the VIOHD pin on the MCU to be connected to the VIO power supply, the HV1 signal
from the UDP Motherboard, or to an external power supply. The HV1 option is only available if the MCU is
connected to a UDP Motherboard. To power from an external supply, remove the shorting block and connect the
supply to pin 2 of the header.
4.9. UART VCP Connection Options (J10)
The MCU card features a USB virtual COM port (VCP) UART connection via the mini-B USB connector (J10)
labeled “COM PORT”. The VCP connection uses the CP210x USB-to-UART bridge chip. The GPIO pins
connected to the CP210x device can be enable or disabled when connected to a UDP Motherboard as necessary.
When the MCU card is not connected to the UDP Motherboard, the TX, RX, CTS, and RTS signals are all
connected to the CP210x device. Table 3 shows the GPIO pins that are routed to the CP210x or UDP
Motherboard.
Table 3. CP210x Controlled GPIO Pins
GPIO Pin
User Control Function
PB1.12
PB1.13
PB1.14
PB1.15
RX
TX
CTS
RTS
4.10. Debug Header (J31)
The mini 10-pin debug header supports the Silicon Labs USB Debug Adapter. This connector provides a Serial
Wire (SW) debug connection to the SiM3C1xx on the MCU card.
Rev. 0.1
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UDP SiM3C1xx
4.11. Capacitive Sensing Button and Slider (S1)
Two capacitive sensing buttons and one slider are included on the MCU card. Six GPIO pins are connected to the
slider and can be used to implement up to two buttons or a slider. Table 4 shows the J13 pin definitions. The GPIO
pins are connected to the slider in ascending order from the location labeled “A” to the location labeled “B” on the
MCU card.
Table 4. Capacitive Sensing GPIO Connections
Location
Pin
A
—
—
—
—
B
PB1.7
PB1.8
PB0.4
PB0.3
PB0.2
PB0.1
4.12. Reset Button (SW1)
The reset push-button switch is in the lower-left corner. Pushing this button will always reset the MCU. Note that
pushing this button while the IDE is connected to the MCU will result in IDE disconnecting from the target.
4.13. Port Pin Headers (J5-J9)
All of the MCU port pins are available on the 0.100-inch headers on MCU card. Some of these port pins are shared
with other functions on the board. For example, PB0.9 and PB0.10 are both used by the external RTC. Several
GPIO pins are connected to circuits in the User Control portion of the board as well. To disconnect these GPIO pins
from the additional circuits, place the User Control switch in the OFF position. PB1.12, PB1.13, PB.1.14, and
PB1.15 are either routed to the CP210x device or to the UDP Motherboard. For more information on the GPIO pins
used by the CP210x or UART interface, see Section 4.9.
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Rev. 0.1
UDP SiM3C1xx
4.14. MCU Card Default and Optional Connections
The MCU card has many default and optional connections for use with different I/O cards and the UDP
motherboard. The default connections are via shorting jumpers. The shorting jumpers are a 603 resistor footprint
with a cut trace between pads. To disconnect, cut the trace with a sharp utility knife. To reconnect, install a 0  603
resistor or connect the two pads with solder. The optional connections are non-populated (no-pop) resistor
footprints. To connect, install a 0  603 resistor or connect the two pads with solder. The User Control ON
connections are only enabled when the User Control switch is moved to the ON position.
Table 5 shows a summary of the default and optional connections for each pin.
Table 5. MCU Pin Functions
MCU Pin
MCU Card Function
User Control
Default
Optional
ON
P0.0
UDP Motherboard Signal
Default
Optional
USART_TX_A
P0.1
CAPSENSE
USART_RX_A
P0.2
CAPSENSE
USART_RTS_A
C2D_TX00_A
P0.3
CAPSENSE
USART_CTS_A
C2D_TX01_A
P0.4
CAPSENSE
USART_UCLK_A
C2D_TX02_A
P0.5
SPI_SCK_EZR
C2D_TX03_A
P0.6
SPI_MISO_EZR
C2D_TX04_A
P0.7
SPI_MOSI_EZR
C2D_TX05_A
I2V_INP_A
P0.8
SPI_NSS0_EZR
C2D_TX06_A
I2V_INN_A
P0.9
RTC1
GPIO14
P0.10
RTC2
GPIO15
P0.11
VREFGND
GPIO11
ADC_VREFGND
P0.12
VREF
GPIO12
ADC_VREF
P0.13
IDAC
PCA_CH0_A
GPIO13
IDAC_B
P0.14
P0.15
PCA_CH1_A
I2SOUT_DFS_A
IDAC_A
XTAL1
I2SOUT_CLK_A
CP_OUT_A
Rev. 0.1
11
UDP SiM3C1xx
Table 5. MCU Pin Functions (Continued)
MCU Pin
P1.0
MCU Card Function
User Control
Default
Optional
ON
UDP Motherboard Signal
Default
XTAL2
I2SOUT_DOUT_A
CP_OUTA_A
P1.1
I2C_SDA_EZR
P1.2
I2C_SCL_EZR
P1.3
JTAG_TDO_A
P1.4
JTAG_TDI_A
P1.5
POT
ADC_IN0
P1.6
ADC_IN1
P1.7
CAPSENSE
GPIO08
P1.8
CAPSENSE
GPIO09
P1.9
12
Optional
GPIO10
P1.10
ADC_IN2
P1.11
TIMER_EX_A
ADC_IN3
P1.12
VCP_RX
EMIF_A21
UART_RX_SYS
P1.13
VCP_TX
EMIF_A20
UART_TX_SYS
P1.14
VCP_CTS
EMIF_A19
EZRP_CLK_IN
UART_CTS_SYS
P1.15
VCP_RTS
WAKEUP0
EMIF_A18
EZRP_TX_DATA_IN
UART_RTS_SYS
P2.0
EMIC_A17
EZRP_RX_CLK_OUT
P2.1
USART_TX_B
EMIF_A16
EZRP_RX_DATA_OUT
P2.2
USART_RX_B
EMIF_A15
EZRP_SDN
P2.3
EMIF_A14
EZRP_NIRQ
P2.4
EXT_INT0
EMIF_A13
P2.5
GPIO00
EMIF_A12
P2.6
GPIO01
EMIF_A11
P2.7
GPIO02
EMIF_A10
Rev. 0.1
UDP SiM3C1xx
Table 5. MCU Pin Functions (Continued)
MCU Pin
MCU Card Function
User Control
Default
Optional
ON
UDP Motherboard Signal
Default
P2.8
SW2
SPI_NSS3_A
GPIO03
EMIF_A9
P2.9
SW3
SPI_NSS2_A
GPIO04
EMIF_A8
P2.10
LED (DS3)
SPI_NSS1_A
GPIO05
EMIF_A7
P2.11
LED (DS4)
SPI_NSS0_A
GPIO06
EMIF_A6
P2.12
POT_EN
SPI_SCK_A
GPIO07
EMIF_A5
P2.13
SPI_MISO_A
EMIF_A4
CP_POS_A
P2.14
SPI_MOSI_A
EMIF_A3
CP_NEG_A
P3.0
EMIF_A2
P3.1
SPI_NSS2_EZR
EMIF_A1
P3.2
SPI_NSS3_EZR
EMIF_A0
P3.3
LPTIMER_IN_A
I2SIN_DFS_A
EMIF_WRB
P3.4
I2SIN_CLK_A
EMIF_OEB
CP_POS_B
P3.5
I2SIN_DOUT_A
EMIF_ALE
CP_NEG_B
P3.6
EMIF_CS0B
EXTREG_SP_A
P3.7
EMIF_BE1B
EXTREG_SN_A
P3.8
EMIF_CS1B
EXTREG_OUT_A
Rev. 0.1
Optional
13
UDP SiM3C1xx
Table 5. MCU Pin Functions (Continued)
MCU Pin
MCU Card Function
User Control
Default
Optional
ON
P3.9
UDP Motherboard Signal
Default
Optional
EMIF_BE0B
EXTREG_BD_A
P3.10
EBID_SCK
PORT_MATCH0
UDPBUS_SDA_A
P3.11
EBID_SDA
PORT_MATCH1
UDPBUS_SCL_A
P4.0
EPCA_CH0_MOTOR
HVGPIO0
P4.1
EPCA_CH1_MOTOR
HVGPIO1
P4.2
UART_TX_A
EPCA_CH2_MOTOR
HVGPIO2
P4.3
UART_RX_A
EPCA_CH3_MOTOR
HVGPIO3
P4.4
UART_RTS_A
EPCA_CH4_MOTOR
HVGPIO4
P4.5
LPTIMER_OUT_A
UART_CTS_A
EPCA_CH5_MOTOR
HVGPIO5
4.14.1. P0.1, P0.2, P0.3, P0.4, P1.8, P1.7
Pins P0.1, P0.2, P0.3, P0.4, P1.7, P1.8 all connect to the capacitive sensing slider by default. To disconnect any of
these pins from the capacitive sensing slider, remove the 0  resistor that is connected to the port pin (R16 - R21).
4.14.2. P0.9, P0.10
Pin P0.9 and P0.10 both connect to the 32.768 kHz RTC by default. To disconnect this pin from the RTC, remove
the crystal Y2 on the board. Alternatively, the 0  resistors R5 and R6 can be removed to disconnect the RTC
circuit from the headers on J5.
4.14.3. P0.11
Pin P0.11 connects to the VREFGND terminal on H1 by default. By default, P0.11 is not used as VREFGND and is
instead a GPIO pin.
4.14.4. P0.12
Pin P0.12 connects to the RX pin of the CP210x by default. Alternatively, P0.12 can be enabled for use with the
VREF.
4.14.5. P0.13
Pin P0.13 connects to the TX pin of the CP210x by default. Alternatively, P0.13 can be enabled for use with the
IDAC.
14
Rev. 0.1
UDP SiM3C1xx
4.14.6. P0.14
Pin P0.14 connects to the CTS pin of the CP210x by default.
4.14.7. P0.15
Pin P0.15 connects to the RTS pin of the CP210x by default. Alternatively, P0.15 can be enabled for use as the
XTAL1 input.
4.14.8. P1.0
Pin P1.0 is a GPIO pin by default. Alternatively, P1.0 can be enabled for use as the XTAL2 input. P1.0 is connected
to the external crystal circuit, but the external crystal circuit is not populated by default. See the MCU card
schematic in 6. "Schematics‚" on page 18 for more information on the external crystal circuit.
4.14.9. P1.5
Pin P1.5 is a GPIO pin by default. Alternatively, P1.5 can be used at the potentiometer input pin if the User Control
switch is in the ON position.
4.14.10. P2.8, P2.9
Pins P2.8 and P2.9 are both GPIO pins by default. Alternatively, P2.8 and P2.9 can be used as switches (SW2 and
SW3) if the User Control switch is in the ON position.
4.14.11. P2.10, P2.11
Pins P2.10 and P2.11 are both GPIO pins by default. Alternatively, P2.10 and P2.11 can be used as LEDs (DS3
and DS4) if the User Control switch is in the ON position.
4.14.12. P2.12
Pin P2.12 is a GPIO pin by default. Alternatively, P2.12 can be used at the potentiometer bias pin if the User
Control switch is in the ON position.
4.14.13. P3.10, P3.11
Pins P3.10 and P3.11 normally connects to the EBID UDP bus. To disconnect these pins from the UDP bus circuit,
remove the 0  resistors R34 and R35.
Rev. 0.1
15
UDP SiM3C1xx
5. Using the UDP SiM3C1xx MCU Card with the UDP Motherboard
5.1. Current Measurement
The power measurement circuitry on the UDP motherboard consists of a Silicon Labs C8051F351 8051 MCU that
measures both input voltage and current consumption of the MCU card, I/O expander, and radio test card. Install a
shorting block on the UDP Motherboard J13 and J15 connect the two left pins together when using the
motherboard with the SiM3C1xx MCU card.
UDP motherboard
power
J15
JP3
VIO IN power
R24
JP2
Radio card IN
power
J14
J13
JP1
R15
to VIO
power
VDD IN power
R6
to Radio card
power
to VDD
power
C8051F351
Figure 7. Power Measurement Diagram with Shorting Blocks
5.2. 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 UDP SiM3C1xx 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 UDP SiM3C1xx card implements the signals described in Table 7, Table 8, Table 9, and Table 10 in the
Appendix.
16
Rev. 0.1
UDP SiM3C1xx
5.3. Shorting Blocks: Factory Defaults
The UDP SiM3C1xx MCU card comes from the factory with pre-installed shorting blocks on several headers.
Figure 8 shows the positions of the factory default shorting blocks.
Figure 8. Shorting Blocks: Factory Defaults
Shorting blocks are installed across the 5V WALL (J14), VDD (J15), VIO (J17) Imeasure jumpers. A shorting block
is installed on J16 to connect the potentiometer to the User Control portion of the board. A shorting block is also
installed on J18 to connect the VIOHD pin of the MCU to the VIO pin of the MCU.
Rev. 0.1
17
Figure 9. SiM3C1xx UDP MCU Card Schematic (1 of 6)
UDP SiM3C1xx
6. Schematics
18
Rev. 0.1
Figure 10. SiM3C1xx UDP MCU Card Schematic (2 of 6)
UDP SiM3C1xx
Rev. 0.1
19
Figure 11. SiM3C1xx UDP MCU Card Schematic (3 of 6)
UDP SiM3C1xx
20
Rev. 0.1
Figure 12. SiM3C1xx UDP MCU Card Schematic (4 of 6)
UDP SiM3C1xx
Rev. 0.1
21
Figure 13. SiM3C1xx UDP MCU Card Schematic (5 of 6)
UDP SiM3C1xx
22
Rev. 0.1
Figure 14. SiM3C1xx UDP MCU Card Schematic (6 of 6)
UDP SiM3C1xx
Rev. 0.1
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UDP SiM3C1xx
7. Bill of Materials
Table 6. UDP SiM3C1xx Card Bill of Materials
Reference
Part Number
U1
U2
U3-4
U7
SiM3C167-A-GQ
C8051F990-GM
SN74AVC4T245RGYR
LM2937IMP-5.0/NOPB
C5-11, C17,
C20, C22-25,
C27
C4
C0603C104J3RACTU
C1608X7R1C105K
TDK Corporation
C3, C12,
C15, C18,
C21
C13, C16
ECJ-1VB0J475M
Panasonic - ECG
EMK212BJ475KG-T
Taiyo Yuden
C1-2, C26
J1-4
FX8-100P-SV1(91)
U5
CP2103
J31
J32
FTSH-105-01-F-D-K
FTSH-110-L-D-K
D1, D3
BAT54C-G
D2, D6
SP0503BAHTG
Q1-6
DMN2075U-7
J15, J11-12,
J14, J17,
J50-53
J14, J16
PBC02SAAN
PBC02DAAN
J18
PBC03SAAN
J20
PBC04SAAN
J9
PBC04DAAN
J8
PBC07DAAN
J5-7
PBC09DAAN
24
Source
Description
Silicon Labs
MCU, TQFP80-14X14, RoHS
Silicon Labs
MIXED SIGNAL, MCU, QFN20-3X3, RoHS
Texas Instruments
IC, BUS TRANSCVR, 4BIT, 16QFN, RoHS
National SemiconducVOLTAGE REG-LDO, 5.0V, 500mA,
tor
SOT223, RoHS
Kemet
CAP, 0.1 µF, X7R, CERAMIC, 0603, 25V,
±5%, OR EQ, RoHS
CAP CERAMIC, 1.0UF, X7R, 0603, 16V,
±10%, OR EQ, RoHS
CAP, 4.7 µF, X5R, CERAMIC, 0603, 6.3V,
±20%, OR EQ, RoHS
CAP, 4.7 µF, X5R, CERAMIC, 0805, 16V,
±10%, OR EQ, RoHS
CAP, NO POP, 0603, OR EQ, RoHS
Hirose Electric Co Ltd
CONN, HDR, 100POS, .6 mm, GOLD,
SMD, RoHS
Silicon Labs
SINGLE-CHIP USB TO UART BRIDGE,
QFN28, RoHS
Samtec Inc
CoreSight 10 Debug Header
Samtec Inc
CONN, HDR, SHRD, 0.050"(1.27 mm)
PITCH, 20 PINS [2X10], OR EQ, RoHS
Comchip Technology
DIODE, Schottkey DUAL CC, 200 mA,
30 V, SOT23,RoHS
Littlefuse
TVS AVAL DIODE ARRAY, 3 CH, SOT143,
RoHS
Diodes Inc
MOSFET, PWR N-CHAN, 20 V, 4.2A, SOT23, OR EQ, RoHS
Sullins Connector
STAKE HEADER, 1X2, 0.1"CTR, GOLD,
Solutions
OR EQ, RoHS
Sullins Connector
Solutions
Sullins Connector
Solutions
Sullins Connector
Solutions
Sullins Connector
Solutions
Sullins Connector
Solutions
Sullins Connector
Solutions
Rev. 0.1
STAKE HEADER, 1X2, 0.1"CTR, GOLD,
OR EQ, RoHS
STAKE HEADER, 1X3, 0.1" CTRS, OR EQ,
RoHS
STAKE HEADER, 1X4, 0.1" CTRS, OR EQ,
RoHS, NO POP
STAKE HEADER, 2X4, 0.1"CTR, OR EQ,
RoHS
STAKE HEADER, 2X7, 0.1" CTR, GOLD,
OR EQ, RoHS
STAKE HEADER, 2X9, 0.1' CTR, GOLD,
OR EQ, RoHS
UDP SiM3C1xx
Table 6. UDP SiM3C1xx Card Bill of Materials (Continued)
Reference
Part Number
Source
Description
DS1
LTST-C190TBKT
Lite-On Inc
DS2-3
SML-LX0603IW-TR
DS4
LY L29K-H1K2-26-Z
R15
RV100F-30-4K1B-B10KB301
RC0603JR-070RL
Lumex Opto /
Components Inc
OSRAM Opto
Semiconductors Inc
Alpha (Taiwan)
LED 468NM, BLUE, SMT0603, OR EQ,
RoHS
LED, RED DIFF, 635NM, SMT0603, OR
EQ, RoHS
LED, YELLOW, 591NM, SMD0603, 1.8 V,
OR EQ, RoHS
POT, 10K, THUMBWHEEL LINEAR, 0.03W,
±20%, OR EQ, RoHS
RES, 0.0, SMT, 0603, 1/10W, ±5%, OR EQ,
RoHS
R1-2, R5-6,
R16-21, R2331, R34-37,
R40, R44,
R48
R32-33
Yageo
ERJ-3EKF1501V
Panasonic - ECG
R11, R14
ERJ-6ENF1003V
Panasonic - ECG
R13, R22,
R41-42,
R45-46
R8-9
RC0603JR-071KL
Yageo
RC0805JR-07330RL
Yageo
R7
ERJ-3EKF4751V
Panasonic - ECG
R10, R12
ERJ-6ENF4751V
Panasonic - ECG
R3-4,
R38-39, R43,
R47, R49
SW4
OS102011MS2QN1
C&K Components
SW5
EG6201
SW1-3
EVQ-PAD04M
H1
1729160
J10
54819-0519
S1
Y2
Y1
P1
ABS07-32.768KHZ-7-T
RAPC722X
RES 1.50 k, SMT, 0603, 1/10W, ±1%, OR
EQ, RoHS
RES, 100 k, SMT, 0805, 1/8W, ±1%, OR
EQ, RoHS
RES, 1.0 k, SMT, 0603, 1/10W, ±5%,
RoHS
RES, 330 , SMT, 0805, 1/8W, ±5%, OR
EQ, RoHS
RES, 4.75 k , SMT, 0603, 1/10W, ±1%,
OR EQ, RoHS
RES, 4.75 k, SMT, 0805, 1/8W, ±1%, OR
EQ, RoHS
RES, NO POP, SMT, 0603, OR EQ, RoHS
SWITCH SLIDE MINI, SPDT, PCB MNT,
OR EQ, RoHS
E-Switch
SWITCH, SLIDE 6PDT, RT ANG, L=4MM,
OR EQ, RoHS
Panasonic - ECG
SWITCH, LIGHT TOUCH, 130GF, 6 mm
SQ, RoHS
Phoenix Contact
TERM. BLOCK, 5.08 mm CTRS, 6 POS,
RoHS
Molex Inc
CONN, USB MINI RECEPT, 5POS RT
ANG, TYPE B OR EQ, RoHS
PCB W_CHEVRON SLIDER SOLID, RoHS
Abracon Corporation
CRYSTAL, 32.76 kHz, 7PF, SMT, RoHS
ECS Inc
HC46/9 CRYSTAL, NO POP, OR EQ, RoHS
Switchcraft Inc
CONN, POWERJACK MINI.08" RA PC
MNT, RoHS
Rev. 0.1
25
UDP SiM3C1xx
APPENDIX—MCU CARD HEADER PIN DESCRIPTIONS
Table 7. UDP SiM3C1xx MCU Card H1 Pin Descriptions (J1)
MCU Card
Pin
Signal Name
1
GND
2
26
Description
SiM3C167
Pin / Signal
USART_TX_A
USART A transmit
PB0.0
3
USART_RX_A
USART A receive
PB0.1
4
USART_RTS_A
USART A hardware handshaking
PB0.2
5
USART_CTS_A
USART A hardware handshaking
PB0.3
6
USART_UCLK_A
USART A clock
PB0.4
7
CAN_TX_B
8
CAN_RX_B
9
SPI_SCK_A
SPI A clock
PB2.12
10
SPI_MISO_A
SPI A master-in, slave-out
PB2.13
11
SPI_MOSI_A
SPI A master-out, slave-in
PB2.14
12
SPI_NSS0_A
SPI A slave select 0
PB2.11
13
SPI_NSS1_A
SPI A slave select 1
PB2.10
14
SPI_NSS2_A
SPI A slave select 2
PB2.9
15
SPI_NSS3_A
SPI A slave select 3
PB2.8
16
USART_TX_B
USART B transmit
PB2.1
17
USART_RX_B
USART B receive
PB2.2
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
32
PCA_CH1_A
33
PCA_ECI_B
34
PCA_CH0_B
PCA A external clock input
PB0.13
PB0.14
PCA B external clock input
Rev. 0.1
UDP SiM3C1xx
Table 7. UDP SiM3C1xx MCU Card H1 Pin Descriptions (J1) (Continued)
MCU Card
Pin
Signal Name
35
PCA_CH1_B
36
I2SOUT_DFS_A
37
38
39
I2SOUT_CLK_A
I2SOUT_DOUT_A
Description
SiM3C167
Pin / Signal
I2S A transmitter word sync (WS)
PB0.14
2
I S A transmitter clock (SCK)
I2S
I2C_SDA_EZR
PB0.15H
A transmitter data (SD)
PB1.0H
2
PB1.1
2
PB1.2 / TRST
EZRadio I C data
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
PB4.2
46
UART_RX_A
UART A receive
PB4.3
47
UART_RTS_A
UART A hardware handshaking
PB4.4
48
UART_CTS_A
UART A hardware handshaking
PB4.5
49
UART_TX_SYS
System UART transmit
UART_TX_
SYS
50
GND
51
UART_RX_SYS
System UART receive
UART_RX_
SYS
52
UART_RTS_SYS
System UART hardware handshaking
UART_RTS_
SYS
53
UART_CTS_SYS
System UART hardware handshaking
UART_CTS_
SYS
54
SPI_SCK_EZR
EZRadio SPI clock
PB0.5
55
SPI_MISO_EZR
EZRadio SPI master-in, slave-out
PB0.6
56
SPI_MOSI_EZR
EZRadio SPI master-out, slave-in
PB0.7
57
SPI_NSS0_EZR
EZRadio SPI slave select 0
PB0.8
58
SPI_NSS1_EZR
EZRadio SPI slave select 1
PB3.0
59
SPI_NSS2_EZR
EZRadio SPI slave select 2
PB3.1
60
SPI_NSS3_EZR
EZRadio SPI slave select 3
PB3.2
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
EZRadio I C clock
PB1.11
2
I S A receiver clock (SCK)
2
PB3.3
PB3.4
65
I2SIN_DOUT_A
I S A receiver data (SD)
66
CLKOUT0
clock
67
GPIO00
General purpose I/O 0
PB2.5
68
GPIO01
General purpose I/O 1
PB2.6
Rev. 0.1
PB3.5
27
UDP SiM3C1xx
Table 7. UDP SiM3C1xx MCU Card H1 Pin Descriptions (J1) (Continued)
MCU Card
Pin
Signal Name
Description
SiM3C167
Pin / Signal
69
GPIO02
General purpose I/O 2
PB2.7
70
GPIO03
General purpose I/O 3
PB2.8
71
GPIO04
General purpose I/O 4
PB2.9
72
GPIO05
General purpose I/O 5
PB2.10
73
GPIO06
General purpose I/O 6
PB2.11
74
GPIO07
General purpose I/O 7
PB2.12
75
GPIO08
General purpose I/O 8
PB1.7H
76
GPIO09
General purpose I/O 9
PB1.8H
77
GPIO10
General purpose I/O 10
PB1.9H
78
GPIO11
General purpose I/O 11
PB0.11
79
GPIO12
General purpose I/O 12
PB0.12
80
GPIO13
General purpose I/O 13
PB0.13
28
81
GPIO14
General purpose I/O 14
PB0.9H
82
GPIO15
General purpose I/O 15
PB0.10H
83
PORT_MATCH0
PB3.10
84
PORT_MATCH1
PB3.11
85
WAKEUP0
MCU low-power wakeup input signal 0
86
WAKEUP1
MCU low-power wakeup input signal 1
87
EXT_INT0
External interrupt 0
88
EXT_INT1
External interrupt 1
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
PB3.3
100
LPTIMER_OUT_A
PB4.5
Rev. 0.1
PB1.15
PB2.4
UDP SiM3C1xx
Table 8. UDP SiM3C1xx Card H2 Pin Descriptions (J2)
MCU Card
Pin
Signal Name
Description
SiM3C167
Pin / Signal
1
GND
2
UDPBUS_SDA_A
UDP motherboard I2C A data
UDPBUS_
SDA_A
3
UDPBUS_SCL_A
UDP motherboard I2C A clock
UDPBUS_
SCL_A
4
EPCA_ECI_MOTOR
Motor EPCA external clock input
5
EPCA_CH0_MOTOR
PB4.0
6
EPCA_CH1_MOTOR
PB4.1
7
EPCA_CH2_MOTOR
PB4.2
8
EPCA_CH3_MOTOR
PB4.3
9
EPCA_CH4_MOTOR
PB4.4
10
EPCA_CH5_MOTOR
PB4.5
11
HVGPIO0
High Drive I/O 0
PB4.0
12
HVGPIO1
High Drive I/O 1
PB4.1
13
HVGPIO2
High Drive I/O 2
PB4.2
14
HVGPIO3
High Drive I/O 3
PB4.3
15
HVGPIO4
High Drive I/O 4
PB4.4
16
HVGPIO5
High Drive I/O 5
PB4.5
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)
PB1.12
22
EMIF_A20
EMIF muxed AD20m pin (non-muxed A12)
PB1.13
23
EMIF_A19
EMIF muxed AD19m pin (non-muxed A11)
PB1.14
24
EMIF_A18
EMIF muxed AD18m pin (non-muxed A10)
PB1.15
25
EMIF_A17
EMIF muxed AD17m pin (non-muxed A9)
PB2.0
26
EMIF_A16
EMIF muxed AD16m pin (non-muxed A8)
PB2.1
27
EMIF_A15
EMIF muxed AD15m pin (non-muxed A7)
PB2.2
28
EMIF_A14
EMIF muxed AD14m pin (non-muxed A6)
PB2.3
29
EMIF_A13
EMIF muxed AD13m pin (non-muxed A5)
PB2.4
30
EMIF_A12
EMIF muxed AD12m pin (non-muxed A4)
PB2.5
31
EMIF_A11
EMIF muxed AD11m pin (non-muxed A3)
PB2.6
32
EMIF_A10
EMIF muxed AD10m pin (non-muxed A2)
PB2.7
33
EMIF_A9
EMIF muxed AD9m pin (non-muxed A1)
PB2.8
34
EMIF_A8
EMIF muxed AD8m pin (non-muxed A0)
PB2.9
35
EMIF_A7
EMIF muxed AD7m pin (non-muxed D7)
PB2.10
Rev. 0.1
29
UDP SiM3C1xx
Table 8. UDP SiM3C1xx Card H2 Pin Descriptions (J2) (Continued)
MCU Card
Pin
Signal Name
Description
SiM3C167
Pin / Signal
36
EMIF_A6
EMIF muxed AD6m pin (non-muxed D6)
PB2.11
37
EMIF_A5
EMIF muxed AD5m pin (non-muxed D5)
PB2.12
38
EMIF_A4
EMIF muxed AD4m pin (non-muxed D4)
PB2.13
39
EMIF_A3
EMIF muxed AD3m pin (non-muxed D3)
PB2.14
40
EMIF_A2
EMIF muxed AD2m pin (non-muxed D2)
PB3.0
41
EMIF_A1
EMIF muxed AD1m pin (non-muxed D1)
PB3.1
42
EMIF_A0
EMIF muxed AD0m pin (non-muxed D0)
PB3.2
43
EMIF_WRB
EMIF write signal
PB3.3
44
EMIF_OEB
EMIF output enable
PB3.4
45
EMIF_ALE
EMIF address latch enable
PB3.5
46
EMIF_CS0B
EMIF chip select 0
PB3.6
47
EMIF_BE1B
EMIF output byte enable 1
PB3.7
48
EMIF_CS1B
EMIF chip select 1
PB3.8
49
EMIF_BE0B
EMIF output byte enable 0
PB3.9
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
30
Rev. 0.1
UDP SiM3C1xx
Table 8. UDP SiM3C1xx Card H2 Pin Descriptions (J2) (Continued)
MCU Card
Pin
Signal Name
73
LCD_SEG22_A
74
LCD_SEG23_A
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
Description
Rev. 0.1
SiM3C167
Pin / Signal
31
UDP SiM3C1xx
Table 9. UDP SiM3C1xx Card H3 Pin Descriptions (J3)
MCU Card
Pin
32
Description
Description
SiM3C167
Pin / Signal
1
GND
2
PWR_VDD_IN
Power input for powering the MCU card from a power
source other than the UDP motherboard
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
8
PWR_RADIO_OUT
Power input for the radio test card
9
PWR_RADIO_OUT
Power input for the radio test card
10
PWR_IO_IN
Power input for powering the I/O card from a power source
other than the UDP motherboard
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
PWR_IO_
OUT
14
PWR_IO_BUS
VIO
15
PWR_IO_BUS
Connects power from the MCU card to the radio and I/O
cards
16
PWR_AUX_BUS
Connects power from the MCU card to the radio and I/O
cards
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
PWR_HV1_
BUS
20
PWR_HV2_BUS
High Drive I/O power 2
VIOHD
21
PWR_HV2_BUS
22
PWR_VPP_BULK
VPP programming voltage
23
PWR_VPP_BULK
VPP programming voltage
24
PWR_5.0_BULK
5.0 V power from the UDP motherboard
25
PWR_5.0_BULK
PWR_5.0V_
BULK
26
PWR_5.0_BULK
27
PWR_5.0_BULK
28
VCC_3.3V
3.3 V power from the UDP motherboard
29
VCC_3.3V
PWR_3.3V_
BULK
30
VCC_3.3V
31
VCC_3.3V
PWR_VDD_
OUT
Power input for powering the radio test card from a power PWR_RADIO
source other than the UDP motherboard
_IN
Rev. 0.1
UDP SiM3C1xx
Table 9. UDP SiM3C1xx Card H3 Pin Descriptions (J3) (Continued)
SiM3C167
Pin / Signal
MCU Card
Pin
Description
Description
32
PWR_SYS_BULK
3.3 V power supply for EBID devices
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
38
EBID_NSS
EBID SPI slave select
39
C2_CLK_A
C2 interface A clock, JTAG interface A TCK, Serial Wire
SWCLK
SWCLK /
TCK
40
C2_DAT_A
SWDIO / TMS
41
C2_CLK_B
C2 interface A data, JTAG interface A TMS, Serial Wire
SWDIO
C2 interface B clock
42
C2_DAT_B
C2 interface B data
C2_DAT_B
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
PWR_SYS_
BULK
C2_CLK_B
50
GND
51
JTAG_TDO_A
JTAG interface A data out (TDO), Serial Wire SWO
PB1.3 / TDO
52
JTAG_TDI_A
JTAG interface A data in (TDI)
PB1.4 / TDI
53
VCP_EN
Selects the USB-to-USART motherboard path
UART_SYS_
EN
54
UART_SYS_EN
Selects the USB-to-USART motherboard path
VCP_EN
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
Rev. 0.1
33
UDP SiM3C1xx
Table 9. UDP SiM3C1xx Card H3 Pin Descriptions (J3) (Continued)
MCU Card
Pin
Description
Description
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
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
34
Rev. 0.1
SiM3C167
Pin / Signal
UDP SiM3C1xx
Table 10. UDP SiM3C1xx Card H4 Pin Descriptions (J4)
MCU Card
Pin
Description
Description
SiM3C167
Pin / Signal
1
GND
2
C2D_TX00_A
Capacitive Sensing output 0
PB0.2
3
C2D_TX01_A
Capacitive Sensing output 1
PB0.3
4
C2D_TX02_A
Capacitive Sensing output 2
PB0.4
5
C2D_TX03_A
Capacitive Sensing output 3
PB0.5
6
C2D_TX04_A
Capacitive Sensing output 4
PB0.6
7
C2D_TX05_A
Capacitive Sensing output 5
PB0.7
8
C2D_TX06_A
Capacitive Sensing output 6
PB0.8
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
PB0.12
36
ADC_VREFGND
ADC VREF ground
PB0.11
37
ADC_IN0
PB1.5H
Rev. 0.1
35
UDP SiM3C1xx
Table 10. UDP SiM3C1xx Card H4 Pin Descriptions (J4) (Continued)
SiM3C167
Pin / Signal
MCU Card
Pin
Description
38
ADC_IN1
PB1.6H
39
ADC_IN2
PB1.10
40
ADC_IN3
PB1.11
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
PB0.14
50
IDAC_B
IDAC B output
PB0.13
51
CP_OUT_A
Comparator A synchronous output
PB0.15H
52
CP_OUTA_A
Comparator A asynchronous output
PB1.0H
53
CP_POS_A
Comparator A positive input
PB2.13
54
CP_NEG_A
Comparator A negative input
PB2.14
55
CP_POS_B
Comparator B positive input
PB3.4
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
PB0.7
64
I2V_INN_A
Current-to-Voltage converter A input 1
PB0.8
65
EXTREG_SP_A
External Voltage Regulator SP input
PB3.6
66
EXTREG_SN_A
External Voltage Regulator SN input
PB3.7
67
EXTREG_OUT_A
External Voltage Regulator OUT output
PB3.8
68
EXTREG_BD_A
External Voltage Regulator base drive output
PB3.9
69
GND
70
EZRP_CLK_IN
Radio test card clock input (SMA connector)
PB1.14
71
GND
72
EZRP_TX_DATA_IN
Radio test card transmit data input (SMA connector)
PB1.15
73
EZRO_RX_CLK_OUT
Radio test card receive clock output (SMA connector)
PB2.0
74
EZRP_RX_DATA_OUT
Radio test card receive data output (SMA connector)
PB2.1
36
Description
PB3.5
Rev. 0.1
UDP SiM3C1xx
Table 10. UDP SiM3C1xx Card H4 Pin Descriptions (J4) (Continued)
Description
SiM3C167
Pin / Signal
EZRP_SDN
Radio test card peripheral shutdown
PB2.2
77
EZRP_NIRQ
Radio test card peripheral interrupt status
PB2.3
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
MCU Card
Pin
Description
75
GND
76
Radio test card Si100x transmit
Rev. 0.1
37
UDP SiM3C1xx
CONTACT INFORMATION
Silicon Laboratories Inc.
400 West Cesar Chavez
Austin, TX 78701
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http://www.silabs.com/support
and register to submit a technical support request.
The information in this document is believed to be accurate in all respects at the time of publication but is subject to change without notice.
Silicon Laboratories assumes no responsibility for errors and omissions, and disclaims responsibility for any consequences resulting from
the use of information included herein. Additionally, Silicon Laboratories assumes no responsibility for the functioning of undescribed features
or parameters. Silicon Laboratories reserves the right to make changes without further notice. Silicon Laboratories makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Silicon Laboratories assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. Silicon Laboratories products are not designed, intended, or authorized for use in applications intended to
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38
Rev. 0.1