1010-TAB1C470 Silicon Laboratories Inc, 1010-TAB1C470 Datasheet
1010-TAB1C470
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1010-TAB1C470 Summary of contents
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... Relevant Devices The Si1000 and Si1010 Development Kits are intended as development platforms for the microcontrollers in the Si100x and Si101x MCU family, respectively. The members of these MCU families include Si1000, Si1001, Si1002, Si1003, Si1004, Si1005, Si1010, Si1011, Si1012, Si1013, Si1014, and Si1015. Each kit consists of a motherboard and daughtercard ...
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Si10xx-DK 3. Software Overview All software required to develop firmware and communicate with the target microcontroller is included in the CD- ROM. The CD-ROM also includes other useful software. Below is the software necessary for firmware development and communication with ...
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Party Toolsets The Silicon Laboratories IDE has native support for many 8051 compilers. The full list of natively supported tools is as follows: Keil IAR Raisonance Tasking Hi-Tech SDCC The demo applications ...
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Si10xx-DK The Configuration Wizard 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 ...
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To create a new profile: 1. Select the profile that most closely matches the target application or choose the "Custom Profile". 2. Click Manage 3. Click Duplicate 4. Click Edit Profiles may be edited with the easy-to-use GUI (shown in ...
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Si10xx-DK Since supply current is typically dependent on supply voltage, the discharge profile editor provides two columns for supply current. The V2 and V1 voltages at the top of the two columns specify the voltages at which the current measurements ...
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Keil µVision2 and µVision3 Silicon Laboratories Drivers As an alternative to the Silicon Laboratories IDE, the µVision debug driver allows the Keil µVision2 and µVision3 IDEs to communicate with Silicon Laboratories’ on-chip debug logic. In-system Flash memory programming integrated ...
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Si10xx-DK 5. Using the Keil Software 8051 Tools with the Silicon Laboratories IDE To perform source-level debugging with the IDE, configure the Keil 8051 tools to generate an absolute object file in the OMF-51 format with object extensions and debug ...
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... Register definition files Si1000_defs.h and Si1010_defs.h define all SFR registers and bit-addressable control/ status bits. A macro definition header file compiler_defs.h is also included, and is required to be able to use the Si1000 and Si1010_defs.h header file with various tool chains. These files are installed into the “SiLabs\MCU\Examples\Si100x\Header_Files\” and “SiLabs\MCU\Examples\Si101x\Header_Files\” directories during IDE installation by default ...
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... When using an LCD development board, the following configurations are required: J18 - shorting blocks should be closed if using an Si1000/1/2/3/4/5 device and open otherwise. J19 - shorting blocks should be closed if using an Si1010/1/2/3/4/5 device and open otherwise. J20 - shorting blocks should be open When a CP240x development board is connected to the Si1000 motherboard, the Port I/O usage matrix shown in Figure 7 should be used for software development ...
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... Reserved EZRadioPRO_SDN P2.4 GPIO P2.5 GPIO P2.6 EZRadioPRO_SDN P2.7 Available for use by the application. Not Available / Not Bonded Out Figure 7. Port I/O Usage Matrix Si1004/5 Si1010/1/2/3 CP240x_/RST EZRadioPRO_NIRQ CP240x_SCK CP240x_MISO UART_TX / GPIO UART_RX / GPIO CP240x_/INT EZRadioPRO_SCK EZRadioPRO_MISO EZRadioPRO_MOSI N.C. EZRadioPRO_NSS CP240x_MOSI ...
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... Si10xx-DK 10. Motherboard The Si1000 and Si1010 Development Kit includes a motherboard that enables evaluation and preliminary software development. Numerous input/output (I/O) connections are provided to facilitate prototyping using the target board. Refer to Figure 8 for the locations of the various I/O connectors. Figure 10 on page 14 shows the factory default shorting block positions ...
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The following items are located on the bottom side of the board. See Figure 9. BT1 Battery Holder for 1.5 V AAA. Use for one-cell or two-cell mode. BT2 Battery Holder for 1.5 V AAA. Use for two-cell mode only. ...
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Si10xx-DK 10.1. Motherboard Shorting Blocks: Factory Defaults The Si1000 motherboard comes from the factory with pre-installed shorting blocks on many headers. Figure 10 shows the positions of the factory default shorting blocks. R15 J16 P4 J15 J18 J19 J20 H1 ...
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Target Board Power Options and Current Measurement The Si10xx Target Board supports three power options, selectable by the three-way header (J10/J11). The power options vary based on the configuration (one-cell or two-cell mode) selected by SW4. Power to the ...
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... The selected system clock and the system clock divider may be configured by software for operation at other frequencies. For low-frequency operation, the Si10xx and Si1010 features a smaRTClock real time clock. A 32.768 kHz watch crystal (Y2) is included on the daughtercard. If you wish to operate the Si10xx device at a frequency not available with the internal oscillators, an external crystal may be used ...
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Switches and LEDs Three push-button switches are provided on the target board. Switch SW1 is connected to the reset pin of the MCU. Pressing SW1 puts the device into its hardware-reset state. Switches SW2 and SW3 are connected to ...
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Si10xx-DK 10.6. Expansion I/O Connector (P1) The 96-pin Expansion I/O connector P1 provides access to all signal pins of the Si10xx device (except the C2 debug interface signals). In addition, power supply and ground pins are included. A small through-hole ...
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Target Board DEBUG Interface (J9) The DEBUG connector J9 provides access to the DEBUG (C2) pins of the Si10xx used to connect the Serial Adapter or the USB Debug Adapter to the target board for in-circuit debugging ...
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Si10xx-DK 10.10. IREF Connector (J7) The Si1000 Motherboard also features a current-to-voltage 1 k load resistor that may be connected to the current reference (IREF0) output that can be enabled on port pin (P0.7). Install a shorting block on J7 ...
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Schematics Rev. 0.1 Si10xx-DK 21 ...
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Si10xx-DK 22 Rev. 0.1 ...
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Rev. 0.1 Si10xx-DK 23 ...
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Si10xx-DK R12 100k N.F. VDD_RF R18 VDD_MCU 1k SDN 2 1 SJ13 XTAL3 1 P2.5 P2.5 2 P2.4 P2.4 3 P2.3 P2.3(P1.6) 4 P2.2 P2.2(P1.5) 5 P2.1 P2.1(P1.4) 6 P2.0 P2.0(P0.7) 7 P1.7 P1.7 8 P1.6 P1.6 9 P1.5 P1.5 ...
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N : OTES Rev. 0.1 Si10xx-DK 25 ...
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