Related Manuals for ambiq micro Apollo1 EVB
Summary of Contents for ambiq micro Apollo1 EVB
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Page 1: Quick Start Guide
Apollo EVB Quick Start Guide Apollo1 EVB Quick Start Guide Doc. ID: QS-A1-1p00 Revision 1.0 Jun 2017 2017 Ambiq Micro, Inc. QS-A1-1p00 Page 1 of 12 All rights reserved. -
Page 2: Table Of Contents
Introduction ......................... 5 Document Revision History..................5 Overview of the Apollo1 EVB..................6 Debug Interface ......................7 Software Development Tools for the Apollo1 EVB ............. 9 Power Supply Options and Measuring Current............10 2017 Ambiq Micro, Inc. QS-A1-1p00 Page 2 of 12... - Page 3 List of Figures Apollo1 EVB........................ 6 Apollo1 EVB using On-board J-Link Debugger............7 Apollo1 EVB’s Cortex DEBUG IN Header (J1) ............7 Apollo1 EVB’s DEBUG OUT Header (J2)..............8 Voltage Selection on Header P19................10 Header P19 Configured for 3.3V Operation - No Current Measurement ....11 Header P19 Configured for 3.3V Operation - With Current Measurement ....
- Page 4 EVB Quick Start Guide List of Tables Document Revision History..................5 Jumper Configuration for Power Selections.............. 10 2017 Ambiq Micro, Inc. QS-A1-1p00 Page 4 of 12 All rights reserved.
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Page 5: Introduction
Document Revision History Rev # Date Description Jun 2017 Document initial public release Table 1: Document Revision History 2017 Ambiq Micro, Inc. QS-A1-1p00 Page 5 of 12 All rights reserved. -
Page 6: Overview Of The Apollo1 Evb
Apollo EVB Quick Start Guide Overview of the Apollo1 EVB The Apollo1 EVB features Arduino-compatible headers and an integrated J-Link debugger: Segger J-Link Adapter Figure 1. Apollo1 EVB The EVB has these additional features: ▪ Low power reference design ▪ Apollo1 MCU in the BGA package (APOLLO512-KBR) ▪... -
Page 7: Debug Interface
Apollo EVB Quick Start Guide Debug Interface Figure 2 shows the Apollo1 EVB set up for standard debug using the on-board J-Link debugger and on- board power supply configured for 3.3V. Figure 2. Apollo1 EVB using On-board J-Link Debugger The debug interface is supported by standard J-Link drivers from Segger. Please refer to “Software Development Tools for the Apollo1 EVB”... -
Page 8: Apollo1 Evb's Debug Out Header (J2)
The EVB also offers the ability to be used as a J-Link debug adapter for any target board that has an Apollo family MCU (Apollo1 or Apollo2). Figure 4. Apollo1 EVB’s DEBUG OUT Header (J2) To utilize this functionality, use a 10-pin low-pitch standard debug connector to connect the “DEBUG OUT”... -
Page 9: Software Development Tools For The Apollo1 Evb
Software Development Tools for the Apollo1 EVB The standard Segger J-Link debug interface is used on the Apollo1 EVB. Please install the latest Beta Segger J-Link software, and configure your preferred development IDE (Keil, IAR, or Eclipse) to use J-Link debug interface. -
Page 10: Power Supply Options And Measuring Current
Apollo EVB Quick Start Guide Power Supply Options and Measuring Current There are three power supply options for the Apollo1 EVB: ▪ Operate at 3.3V as provided by the onboard power supply ▪ Operate at 2.1V as provided by the onboard power supply ▪... -
Page 11: Header P19 Configured For 3.3V Operation - No Current Measurement
Figure 7 shows the EVB configured for 3.3V operation with current measuring leads across VDD_PS and VDD_MCU for current measurement. Figure 7. Header P19 Configured for 3.3V Operation - With Current Measurement 2017 Ambiq Micro, Inc. QS-A1-1p00 Page 11 of 12... -
Page 12: Contact Information
EVER, CONTAIN TECHNICAL INACCURACIES, TYPOGRAPHICAL ERRORS OR OTHER MISTAKES. AMBIQ MICRO MAY MAKE CORRECTIONS OR OTHER CHANGES TO THIS CONTENT AT ANY TIME. AMBIQ MICRO AND ITS SUPPLIERS RESERVE THE RIGHT TO MAKE CORRECTIONS, MODIFICATIONS, ENHANCEMENTS, IMPROVEMENTS AND OTHER CHANGES TO ITS PRODUCTS, PROGRAMS AND SERVICES AT ANY TIME OR TO DISCONTINUE ANY PRODUCTS, PROGRAMS, OR SERVICES WITHOUT NOTICE.
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