BMD-350-EVAL

 BMD-30/33/35/36 EVK Evaluation kit for BMD-30/33/35/36 modules User guide Abstract This document describes how to set up the EVK-BMD-30/33/35/ 36 evaluation kits to evaluate BMD30/33/35/36 modules. It also describes the different options for debugging and the development capabilities included in the evaluation board. UBX-19033349 - R12 C1-Public www.u-blox.com BMD-30/33/35/36 EVK - User guide Document information Title BMD-30/33/35/36 EVK Subtitle Evaluation kit for BMD-30/33/35/36 modules Document type User guide Document number UBX-19033349 Revision and date R12 Disclosure restriction C1-Public 16-Apr-2021 This document applies to the following products: Product name BMD-300-Eval BMD-301-Eval BMD-330-Eval BMD-350-Eval BMD-360-Eval u-blox or third parties may hold intellectual property rights in the products, names, logos and designs included in this document. Copying, reproduction, modification or disclosure to third parties of this document or any part thereof is only permitted with the express written permission of u-blox. The information contained herein is provided “as is” and u-blox assumes no liability for its use. No warranty, either express or implied, is given, including but not limited to, with respect to the accuracy, correctness, reliability and fitness for a particular purpose of the information. This document may be revised by u-blox at any time without notice. For the most recent documents, visit www.u-blox.com. Copyright © u-blox AG. UBX-19033349 - R12 C1-Public Document information Page 2 of 24 BMD-30/33/35/36 EVK - User guide Contents Document information ............................................................................................................................. 2 Contents ....................................................................................................................................................... 3 1 Product description ............................................................................................................................ 4 1.1 Key features ................................................................................................................................................. 4 1.2 Kit includes ................................................................................................................................................... 5 1.3 Development tools ...................................................................................................................................... 5 2 Hardware description......................................................................................................................... 6 2.1 Power ............................................................................................................................................................. 6 2.1.1 Powering the board ............................................................................................................................ 6 2.2 Reset .............................................................................................................................................................. 7 2.3 Buttons.......................................................................................................................................................... 8 2.4 LEDs ............................................................................................................................................................... 9 2.5 Virtual COM port ......................................................................................................................................... 9 2.6 32 kHz crystal oscillator ............................................................................................................................ 9 2.7 NFC connector ...........................................................................................................................................10 2.8 Current sensing headers .........................................................................................................................10 2.9 External SEGGER J-Link™ Debug Interface ........................................................................................11 2.10 GPIO jumpers .............................................................................................................................................11 2.11 Header pin-out ...........................................................................................................................................12 3 Setting up the evaluation board .................................................................................................. 15 3.1 Set up the tool chain.................................................................................................................................15 3.2 Connect BMD-3xx evaluation kit to a computer .................................................................................15 3.3 Prepare the module for programming ..................................................................................................17 3.4 Open an example project .........................................................................................................................17 Appendix .................................................................................................................................................... 19 A SDK example configuration .......................................................................................................... 19 Related documents ................................................................................................................................ 22 Revision history ....................................................................................................................................... 23 Contact....................................................................................................................................................... 24 UBX-19033349 - R12 C1-Public Contents Page 3 of 24 BMD-30/33/35/36 EVK - User guide 1 Product description The BMD-3xx-EVAL kits from u-blox allow for stand-alone use of the BMD-300, BMD-301, and BMD-350 modules featuring the Nordic nRF52832 RF System on Chip (SoC), the BMD-330 module featuring the Nordic nRF52810 RF SoC, and the BMD-360 module featuring the Nordic nRF52811 RF SoC. Other u-blox modules have evaluation kits covered by other documents. These evaluation kits provide a great starting point for almost any Bluetooth 5 Low Energy project. All features of the BMD-3xx are easily accessed from the evaluation board. A simple USB connection provides power, programming, and a virtual COM port. Four user buttons are available, as well as four LEDs and a reset button. All 32 GPIO are available on headers that are compatible with the Arduino form factor. This allows easy use of any existing Arduino shields. Current sense resistors allow for measuring current into the BMD-3xx module and into the shield. This guide provides setup instructions for starting development and describes the hardware functionality of the BMD-3xx-evaluation boards. 1.1 Key features • • • • • • • • • BMD-3xx series module On-board programming and debug (SEGGER J-Link-OB) Able to program external modules Virtual COM port over USB Full GPIO of the module Buttons and LEDs for user interaction NFC antenna connector 32.768 kHz crystal CR2032 battery holder Figure 1: BMD-30 / 33 / 35 / 36 EVK evaluation board (top view) UBX-19033349 - R12 C1-Public Product description Page 4 of 24 BMD-30/33/35/36 EVK - User guide 1.2 Kit includes BMD-300 evaluation kit includes: • BMD-300 evaluation board • Micro-USB cable • NFC antenna BMD-301 evaluation kit includes: • • • • BMD-301 evaluation board Micro-USB cable NFC antenna 2.4 GHz antenna kit BMD-330 or BMD-360 evaluation kit includes: • BMD-330 or BMD-360 evaluation board • Micro-USB cable BMD-350 evaluation kit includes: • BMD-350 evaluation board • Micro-USB cable • NFC antenna 1.3 Development tools The tools listed below will aid in development with the BMD-3xx series Bluetooth modules. Not all tools will be required depending on which software suite is used. Tool Description SEGGER Embedded Studio SEGGER Embedded Studio is an easy-to-use integrated development environment with project management tools, editor and debugger supporting ARM Cortex devices. Full debug support including Real Time Terminal (RTT) output is also available. Available for Windows, macOS, and Linux. Free license for use with the Nordic nRF5 ICs and modules: http://license.segger.com/Nordic.cgi SEGGER J-Link Software and Documentation Pack J-Link Commander (JLink.exe) is a command line-based utility that can be used for verifying proper functionality of J-Link as well as for simple analysis of the target system. It supports some simple commands, such as memory dump, halt, step, go etc. to verify the target connection. Available for Windows, macOS, and Linux. Nordic Semiconductor SDK The nRF5 SDK is your first stop for building fully featured, reliable and secure applications with the nRF52 and nRF51 series. It offers developers a wealth of varied modules and examples right across the spectrum including numerous Bluetooth Low Energy profiles, Device Firmware Upgrade (DFU), GATT serializer and driver support for all peripherals on all nRF5 series devices. SDKs for Bluetooth Mesh, Thread, Zigbee and other protocols are also available. Nordic Semiconductor nRF Connect for Desktop nRF Connect is a cross-platform tool that enables testing and development with Bluetooth® Low Energy (previously called Bluetooth Smart). It allows easy setup of connections with other devices and uses these connections to read and write the external nodes. Available for Windows, macOS, and Linux. Nordic Semiconductor nRF Connect for Mobile nRF Connect for Mobile, previously known as nRF Master Control Panel, is a powerful generic tool that allows you to scan and explore your Bluetooth Low Energy devices and communicate with them. nRF Connect for Mobile supports several Bluetooth SIG adopted profiles, as well as the Device Firmware Update profile (DFU) from Nordic Semiconductor or Eddystone from Google. Available for iOS and Android. Nordic Semiconductor Mobile Apps Additional mobile utilities for your application development. Available for iOS and Android. Table 1: Useful tools UBX-19033349 - R12 C1-Public Product description Page 5 of 24 BMD-30/33/35/36 EVK - User guide 2 Hardware description Design files for each of the BMD-3xx evaluation boards may be requested from the u-blox support team. Figure 2: Assembly drawing (top view) 2.1 Power The BMD-3xx evaluation board has three possible power sources as listed below: • USB • CR2032 coin cell battery • 2.54 mm through-hole connector These power sources use protection diodes to prevent reverse voltage to any supply. This allows them to be used simultaneously. Solder jumpers are provided to allow by-passing any of the protection diodes eliminating the voltage drop across them. ⚠ Care should be taken to not damage the supplies when the protection is by-passed. 2.1.1 Powering the board Typically, power will be provided by USB through VBUS, which will supply 5 V to the 3.3 V LDO regulator and to the shield connector. The 3.3 V LDO regulator will then power the VIO, VSHLD, and VBMD. When powering the board from the CR2032 coin cell (3VDC) or the external power header, USB can be left disconnected. In this configuration, the interface IC is held in reset to conserve power. ☞ Only if the power protection diodes are left intact can the USB be safely connected at the same time as the coin cell or external power is still applied, which allows for easy programming of the module. UBX-19033349 - R12 C1-Public Hardware description Page 6 of 24 BMD-30/33/35/36 EVK - User guide Figure 3: Schematic – power supply 2.2 Reset The BMD-3xx modules have a configurable hardware reset. However, P0.21 is assumed to be used as the reset pin for all u-blox BMD and Nordic example projects, and thus the evaluation board hardware is configured to use P0.21 as a reset. The Reset button can be configured to connect to an input on the interface IC or to directly connect to P0.21. The reset button is connected to the IC used for the J-Link interface by default. Pressing reset while the interface IC is powered will caused a momentary reset signal on the RESET_N output of the interface IC, which is connected via solder jumper to P0.21 of the BMD-3xx series modules. If the reset button is held down during power on, it will cause the interface IC to enter its bootloader mode, allowing either SEGGER J-Link or mbed programmer firmware to be programmed. When the reset button is directly connected to P0.21, it can be used as a fifth user button or as a reset button directly connected to the BMD module. Solder jumper J21 is used to connect P0.21 of the BMD module to the RESET_N net (noted as nRESET in Figure 4 below). RESET_N is connected to the interface IC and to the reset connections on the Arduino headers. UBX-19033349 - R12 C1-Public Hardware description Page 7 of 24 BMD-30/33/35/36 EVK - User guide Figure 4: Schematic – Reset 2.3 Buttons The evaluation board has four user buttons: Button 1, Button 2, Button 3, and Button 4. All buttons are active low; they will connect to ground when pressed. The button GPIO pins must be configured with internal pull-up resistors for proper operation when using the user buttons. The buttons and ESD protection can be completely removed from the circuit by breaking the associated jumper. Figure 5: Schematic – user buttons UBX-19033349 - R12 C1-Public Hardware description Page 8 of 24 BMD-30/33/35/36 EVK - User guide 2.4 LEDs Four User LEDs are provided on the evaluation board: two red and two green. LEDs are powered by VIO and are active low. The GPIO should be enabled for high drive when sinking current for the LEDs. The LEDs can be completely removed from the circuit by breaking the associated jumper. Figure 6: Schematic – user LEDs 2.5 Virtual COM port The evaluation board allows for easy serial communication with the BMD-3xx series modules and a connected computer. The Interface IC provide a virtual COM USB device that connects to four GPIO pins on the module, allowing for UART communication with or without hardware flow control. The UART lines can be completely removed from the circuit by breaking the associated jumpers. BMD-3xx pin name BMD-3xx function Jumper Interface IC function P0.05 RTS J05 CTS P0.06 TXD J06 RXD P0.07 CTS J07 RTS P0.08 RXD J08 TXD Table 2: Virtual COM port 2.6 32 kHz crystal oscillator The evaluation board has a 32.768 kHz crystal oscillator connected to the BMD-3xx module by default. This allows the module to use any of the three available low frequency (LF) clock sources: an internal calibrated RC oscillator, an internal synthesized clock (derived from the 32 MHz clock), or an external crystal oscillator. The external crystal oscillator is the most accurate and lowest power LF clock option. For applications without strict time keeping requirements, the internal calibrated RC oscillator is often suitable. The crystal is connected to the module through a solder select jumper, allowing either the crystal or the IO header to be connected to the module’s GPIO pins. Figure 7: Schematic – 32 kHz crystal UBX-19033349 - R12 C1-Public Hardware description Page 9 of 24 BMD-30/33/35/36 EVK - User guide 2.7 NFC connector Connection to an external NFC antenna is provided through a Molex flat-flex connector, part number 051281-0594. Capacitors “C2” and “C3” provide tuning of the NFC antenna for resonance at 15.56 MHz. ☞ NFC is not supported on the BMD-330 or BMD-360. These components are not populated on the BMD_330-EVAL or BMD-360-EVAL. Figure 8: NFC connector 2.8 Current sensing headers The evaluation board provides two current sensing headers. “JBMD” allows for power consumption measurement of the BMD-3xx series module and “JSHD” allows for power consumption measurement of shields connected to the Arduino-style headers (“VSHLD” power only). Each 3-pin 2.54 mm header has two pins connected across a 1Ω current-sense resistor powering the module or the shield, and the third pin to ground. To measure current consumption, use a multimeter or other precision voltage measurement device to measure voltage drop across pins one and two. Current can also be measured directly by removing “RBMD” / “RSHD” and using a current meter in series with the two voltage pins. The default hardware configuration does not require any modification of the current sense headers for the BMD-3xx-EVAL to perform properly. ☞ Only current flowing through “VBMD” into the module is measured; current sunk through GPIO pins is not measured. Figure 9: Current sensing header layout UBX-19033349 - R12 C1-Public Hardware description Page 10 of 24 BMD-30/33/35/36 EVK - User guide 2.9 External SEGGER J-Link™ Debug Interface External target hardware can be connected to J3 for firmware programming and debug. The SEGGER debug interface is implemented as shown in Figure 10. J3 is implemented with a 2x5 10-pin header on 1.27 mm centers. Figure 10: External J-Link debug interface To enable the external J-Link connection, ensure the following connections must be implemented on the target hardware: • EXT_VTG is used by the debug interface as an input to sense power applied to the external circuit. Only voltages of 3.0 V to 3.3 V are supported. Other operating voltages require the use of an external J-Link Debug Probe. Connect EXT_VTG to the BMD-3xx series power supply (VCC) on the target hardware. • EXT_GND_DETECT is used by the debug interface to detect the presence of external target hardware. Connect EXT_GND_DETECT to GND on the target hardware. • Connect EXT_SWDIO and EXT_SWCLK to SWDIO and SWDCLK on the target BMD-3xx, respectively. • (Optional) Connect EXT_SWO and/or EXT_RESETn to P0.18 and P0.21 on the target BMD3xx, respectively. • Connect external power to the target hardware, then connect the BMD-3xx series evaluation Board to USB. ☞ At this point, the debug interface interacts with the target hardware instead of the onboard BMD-3xx module. 2.10 GPIO jumpers There are many solder bridge jumpers on the board available to allow for configurability of the GPIO. Most solder jumpers are used to remove on-board components from the module’s GPIO nets, should they interfere with external circuitry added on the I/O headers. All GPIOs are directly connected to the I/O Headers by default, except P0.00 & P0.01 (32 kHz crystal) and P0.09 & P0.10 (NFC antenna). These are disconnected from the I/O headers as they would interfere with the default functions. Figure 11: GPIOs disconnected from I/O headers UBX-19033349 - R12 C1-Public Hardware description Page 11 of 24 BMD-30/33/35/36 EVK - User guide The GPIO jumpers are shown on the bottom side of the BMD-3xx series evaluation board: Figure 12: GPIO Jumper summary 2.11 Header pin-out Headers J5 - J9 and J11 break-out the IO signals from the BMD-3xx on 2.54 mm pitch headers. Figure 13: BMD-3xx series evaluation board pin-out ⚠ The I/O pins of the BMD-30/33/ 5 /36 EVK are not 5 V tolerant. Arduino Uno® style shields shall be configured to use +3.3 V DC (VSHLD) as the I/O voltage reference. UBX-19033349 - R12 C1-Public Hardware description Page 12 of 24 BMD-30/33/35/36 EVK - User guide Header pin Pin name nRF52 port Function 1 P0.24 P0.24 GPIO 2 5V0 - +5.0 V USB Power 3 P0.25 P0.25 GPIO 4 P0.23 P0.23 GPIO 5 RESET P0.21 RESET_N 6 GND Ground Table 3: Header J11 Header pin Pin name nRF52 port Function 10 GND 9 P0.00 P0.00 OPEN / GPIO Ground 8 P0.01 P0.01 OPEN / GPIO 7 P0.21 P0.21 RESET_N / GPIO 6 P0.05 P0.05 GPIO / AIN3 5 P0.06 P0.06 GPIO 4 P0.07 P0.07 GPIO 3 P0.08 P0.08 GPIO 2 P0.09 P0.09 OPEN / GPIO 1 P0.10 P0.10 OPEN / GPIO Header pin Pin name nRF52 port Function 6 P0.31 P0.31 GPIO / AIN7 5 P0.30 P0.30 GPIO / AIN6 4 P0.29 P0.29 GPIO / AIN5 3 P0.28 P0.28 GPIO / AIN4 2 P0.04 P0.04 GPIO / AIN2 1 P0.03 P0.03 GPIO / AIN1 Header pin Pin name nRF52 port Function 8 P0.11 P0.11 GPIO 7 P0.12 P0.12 GPIO 6 P0.13 P0.13 GPIO 5 P0.14 P0.14 GPIO / TRACED[3] 4 P0.15 P0.15 GPIO / TRACED[2] 3 P0.16 P0.16 GPIO / TRACED[1] 2 P0.17 P0.17 GPIO 1 P0.18 P0.18 GPIO / TRACED[0] Table 4: Header J9 Table 5: Header J8 Table 6: Header J7 UBX-19033349 - R12 C1-Public Hardware description Page 13 of 24 BMD-30/33/35/36 EVK - User guide Header pin Pin name nRF52 port Function 10 P0.19 P0.19 GPIO 9 P0.20 P0.20 GPIO / TRACECLK 8 P0.22 P0.22 GPIO 7 P0.23 P0.23 GPIO 6 P0.24 P0.24 GPIO 5 P0.25 P0.25 GPIO 4 GND GND Ground 3 P0.02 P0.02 GPIO / AIN0 2 P0.26 P0.26 GPIO 1 P0.27 P0.27 GPIO Header pin Pin name nRF52 port Function 8 - - 7 GND - Ground 6 GND - Ground 5 5V0 - +5.0 V USB Power 4 VSHLD - +3.3 V Shield Power 3 RESET P0.21 RESET_N 2 VSHLD - +3.3 V Shield Power 1 VSHLD - +3.3 V Shield Power Table 7: Header J6 Table 8: Header J5 UBX-19033349 - R12 C1-Public Hardware description Page 14 of 24 BMD-30/33/35/36 EVK - User guide 3 Setting up the evaluation board This section provides information on how to set up and program the BMD-3xx series evaluation kit with an example application. 3.1 Set up the tool chain 1. Install SEGGER Embedded Studio and request a license. 2. Download the latest nRF5 SDK. Unzip it to a convenient working directory. ☞ Do not alter the directory trees. The examples are configured for relative path positions. Do not use spaces in the directory path. 3. Install nRF Connect on desktop PC and optionally one of the mobile versions. nRF Connect can be used directly with the Device Under Test (DUT) evaluation board for programming and other features. ☞ If using nRF Connect on a desktop, a second evaluation board or a nRF52 USB Dongle will be needed to make BLE connections with your DUT. 4. Install the SEGGER J-Link Commander. If presented with a screen to select different IDEs, ensure at least the “SEGGER Embedded Studio ARM” line is selected: Figure 14: SEGGER J-Link Commander Install 5. You may need to add the install location to the system PATH. The default location for the J-Link commander is, “ C:\Program Files (x86)\SEGGER\JLink_Vnnn”, where “nnn” is the version number. 6. Install nRF Toolbox for your mobile device. This will be used with the example below. 3.2 Connect BMD-3xx evaluation kit to a computer The evaluation board is provided with an on-board SEGGER J-Link programmer/debugger. 1. If using the BMD-301-EVAL, connect one of the 2.4GHz antennas from the kit to the module. ⚠ Note that the U.FL connector is intended for limited connect / disconnect cycles. 2. Connect the board to a computer using the USB cable provided. UBX-19033349 - R12 C1-Public Setting up the evaluation board Page 15 of 24 BMD-30/33/35/36 EVK - User guide ☞ The status LED, D5, will flash and then turn solid once the USB device is enumerated. Some flickering is normal. 3. After a few seconds, the computer will recognize the evaluation board as a J-Link device and install the USB-Virtual COM Port device driver. 4. Run the J-Link Commander: 4.1. JLink on Windows 4.2. JLinkExe on macOS and Linux ☞ If prompted to update the J-Link firmware, accept and perform the update. 5. Type “connect” at the J-Link> prompt 6. Enter the device type at the Device> prompt 6.1. Type nRF52832_XXAA for the BMD-300, BMD-301, or BMD-350 6.2. Type nRF52810_XXAA for the BMD-330 6.3. Type nRF52811_XXAA for the BMD-360 7. Enter S to select the SWD interface and accept the default for the speed. 8. J-Link will respond with several items. Here is a sample output: Figure 15: J-Link Commander output UBX-19033349 - R12 C1-Public Setting up the evaluation board Page 16 of 24 BMD-30/33/35/36 EVK - User guide 9. This confirms that the evaluation board is properly recognized. 10. While still in the J-Link Commander session, save the pre-programmed public Bluetooth address by typing: savebin mac_addr.bin 0x10001080 8 11. Save the file mac_addr.bin to a convenient location for future use. 12. Exit the J-Link session by typing: exit At this point, the file mac_addr.bin is saved in the current directory. The file contents contain the Bluetooth device (MAC) address in little-endian format: 33 22 11 C3 09 60 FF FF This corresponds to the address 60:09:C3:11:22:33. The last two FF values are fillers to complete the 8-byte read. ☞ This binary file may be used to restore the Bluetooth device address after performing an erase or recover with the J-Link command: loadbin mac_address.bin 0x10001080 ☞ The Bluetooth device address is also printed on the module label. See the module data sheet for details. 3.3 Prepare the module for programming The BMD-300, BMD-301 and BMD-350 modules are shipped from the factory with factory firmware to support legacy designs. This firmware must be erased prior to programming new code. Run the following at the command prompt: nrfjprog -f nrf52 -–recover The BMD-330 and BMD-360 modules do not have factory firmware and do not require erasure. 3.4 Open an example project ☞ When selecting examples from the SDK, note the following cross references: u-blox evaluation board Nordic SoC Preferred Nordic SoftDevice Compatible Nordic DK BMD-300-EVAL nRF52832 S132 PCA10040 / nRF52 DK BMD-301-EVAL nRF52832 S132 PCA10040 / nRF52 DK BMD-350-EVAL nRF52832 S132 PCA10040 / nRF52 DK BMD-330-EVAL nRF52810 S112 PCA10040e / nRF52 DK (If PCA10040e is not available, select PCA10040) BMD-360-EVAL nRF52811 S113 PCA10056e / nRF52840 DK (If PCA10056e is not available, select PCA10056) Refer to Appendix A for example settings. Table 9: BMD evaluation boards with Nordic DK cross reference For this guide, the nRF SDK v16.0.0 Heart Rate Service example for the BMD-300-EVAL is used. ☞ Whenever possible, use the latest SDK version. The “nRF5_SDK_xx.x.x_yyyyyyy” directory may change. The folders under usually remain the same from version to version. UBX-19033349 - R12 C1-Public Setting up the evaluation board Page 17 of 24 BMD-30/33/35/36 EVK - User guide 1. Navigate to the location of the heart rate example from the SDK, typically: \nRF5_SDK_16.0.0_98a08e2\examples\ble_peripheral\ble_app_hrs 2. Select the DK Board, SoftDevice and IDE directories. Here is the full path: \nRF5_SDK_16.0.0_98a08e2\examples\ble_peripheral\ble_app_hrs\ pca10040\s132\ses 3. Open the project file (ble_app_hrs_pca10040_s132.emProject) to start the SEGGER Embedded Studio IDE 4. Build the project () 5. Once the build is successful, you can download the application code onto the module Board (Target | Download ble_app_hrs_pca10040_s132) ☞ The first time the board is programmed, both the SoftDevice and the application will be downloaded to the module. Once the SoftDevice is loaded, subsequent downloads will only transfer the application. If you need to change SoftDevice versions, erase the board through the IDE: (Target | Erase All) 6. On a mobile device, open the nRF Toolbox application. Select the Heart Rate Monitor. 7. Tap Connect. You should see the evaluation board advertising as “Nordic_HRM”. 8. Select this device to see the simulated heart rate being transmitted from the BMD-3xx. Additional training videos for SEGGER Embedded Studio can be viewed here. UBX-19033349 - R12 C1-Public Setting up the evaluation board Page 18 of 24 BMD-30/33/35/36 EVK - User guide Appendix A SDK example configuration The BMD-360-Eval follows the PCA10040 board pin-out from Nordic Semiconductor. To assign the correct GPIO and reset pins, two small changes are required in the project options . To make these changes, follow the directions below. 1. Find the project options by right-clicking on the project name. Figure 16: Project options 2. Select the “Common” configuration. Figure 17: Common configuration UBX-19033349 - R12 C1-Public Appendix Page 19 of 24 BMD-30/33/35/36 EVK - User guide 3. Select the “Preprocessor” item under the “Code list”. Figure 18: Preprocessor options 4. Double-click on “Preprocessor Definitions” to display the options in an editable dialog box. Figure 19: Preprocessor definitions to modify 5. Modify the directive “BOARD_PCA10056” to “BOARD_PCA10040”. 6. Remove the directive “DEVELOP_IN_NRF52840”. UBX-19033349 - R12 C1-Public Appendix Page 20 of 24 BMD-30/33/35/36 EVK - User guide Figure 20: Resulting preprocessor definitions 7. Click OK to close each dialog box and save the settings. UBX-19033349 - R12 C1-Public Appendix Page 21 of 24 BMD-30/33/35/36 EVK - User guide Related documents [1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] ☞ BMD-300 data sheet, UBX-19033350 BMD-301 data sheet, UBX-19033351 BMD-350 data sheet, UBX-19033354 BMD-330 data sheet, UBX-19033352 BMD-360 data sheet, UBX-19039466 Using public IEEE address from UICR application note, UBX-19055303 Add Nordic Semiconductor DFU to SDK example app note, UBX-19050198 Nordic nRF52810 product specification Nordic nRF52811 product specification Nordic nRF52832 product specification S112 SoftDevice specification S113 SoftDevice Specification S132 SoftDevice specification u-blox package information guide, UBX-14001652 For product change notifications and regular updates of u-blox documentation, register on our website, www.u-blox.com. UBX-19033349 - R12 C1-Public Related documents Page 22 of 24 BMD-30/33/35/36 EVK - User guide Revision history Revision Date Comments 1.0 04-May-2016 Initial release. 1.0.1 06-May-2016 Added link to reference design files in Section 4, updated logo 1.1 28-Jul-2016 Updated images, Added section on External J-Link connector, corrected section numbering 1.2 09-Sep-2016 Added BMD-350 evaluation kit information, document links 1.3 09-May-2017 Corrected BMD-350 hardware kit list 2.0 14-Dec-2018 Updated to new document format Changed tools to recent Nordic Semiconductor versions 2.1 05-Jun-2019 Added BMD-360-EVAL kit information, document links Updated Nordic Semiconductor links R08 24-Oct-2019 Document converted from Rigado BMD-3xx user guide to u-blox BMD-3xx EVK user guide R09 05-Dec-2019 Updated filename and title to BMD-30 / 33 / 35 / 36 EVK R10 17-Jan-2020 Added Appendix A to show BMD-360 example settings, updated table 9 to include reference to Appendix A, added new app note references in related documents list, updated Bluetooth device address details in section 3.2, added note regarding BMD-300, BMD-301, and BMD350 factory firmware, removed type number from product list as it applies to all type numbers R11 28-Jan-2021 Updated images to reflect u-blox branding. Corrected command in section 3.3. Added warning for I/O pin voltage levels by Figure 13. Removed type number from product list as document applies to all type numbers. R12 16-Apr-2021 Updated Figure 13 UBX-19033349 - R12 C1-Public Revision history Page 23 of 24 BMD-30/33/35/36 EVK - User guide Contact For complete contact information, visit us at www.u-blox.com. u-blox Offices North, Central and South America u-blox America, Inc. Phone: E-mail: +1 703 483 3180 info_us@u-blox.com Regional Office West Coast: Phone: E-mail: +1 408 573 3640 info_us@u-blox.com Headquarters Europe, Middle East, Africa Asia, Australia, Pacific u-blox AG Phone: +65 6734 3811 E-mail: info_ap@u-blox.com Support: support_ap@u-blox.com Phone: +41 44 722 74 44 E-mail: info@u-blox.com Support: support@u-blox.com Regional Office Australia: Phone: +61 2 8448 2016 E-mail: info_anz@u-blox.com Support: support_ap@u-blox.com Technical Support: Phone: E-mail: u-blox Singapore Pte. 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