EMEDVK9x0x User Manual
Contents
1. EMEDVK9x0x User Manual ID CODE CC Manual Configuration Device Name Add Delete Update Copyright 2014 EM Microelectronic Marin SA 24 EMEDVK9x0x MN01 doc Version 11 Jun 14 www emmicroelectronic com EMEDVK9x0x User Manual 8 Annexes The Cortex M3 board EMEDVK9x0xCM3 documentation can be found at http www stm32circle com resources stm32Lprimer php EM Microelectronic Marin SA EM makes no warranties for the use of EM products other than those expressly contained in EM s applicable General Terms of Sale located at http www emmicroelectronic com EM assumes no responsibility for any errors which may have crept into this document reserves the right to change devices or specifications detailed herein at any time without notice and does not make any commitment to update the information contained herein No licenses to patents or other intellectual property rights of EM are granted in connection with the sale of EM products neither expressly nor implicitly In respect of the intended use of EM products by customer customer is solely responsible for observing existing patents and other intellectual property rights of third parties and for obtaining as the case may be the necessary licenses Important note The use of EM products as components in medical devices and or medical applications including but not limited to safety and life supporting systems where malfunction of such EM products migh2. EMEDVK9209 Complete Evaluation Development kit for EM9209 EMEDVK9101 Complete Evaluation Development kit for EM9101 Evaluation Development kit Central board EMEDVK9x0xCB EMEDVK9x0x Central board Evaluation Development kit Microcontroller board EMEDVK9x0xCM3 EMEDVK9x0x Cortex M3 Microcontroller board Evaluation Development kit RF EM9201 module EMRF9201SMA RF EM9201 Module SMA connector EMRF9201SA RF EM9201 Module stripped antenna EMRF9201CA RF EM9201 Module chip antenna Evaluation Development kit RF EM9203 module EMRF9203SMA RF EM9203 Module SMA connector EMRF9203SA RF EM9203 Module stripped antenna EMRF9203CA RF EM9203 Module chip antenna Evaluation Development kit RF EM9301 module BLE EMRF9301SMA RF EM9301 Module SMA connector EMRF9301SA RF EM9301 Module stripped antenna EMRF9301CA RF EM9301 Module chip antenna Evaluation Development kit RF EM9209 module LORA EMRF9209SMA RF EM9209 Module SMA connector EMRF9209SA RF EM9209 Module stripped antenna EMRF9209CA RF EM9209 Module chip antenna Evaluation Development kit RF EM9101 module ZOE EMRF9101SMA RF EM9101 Module SMA connector EMRF9101SA RF EM9101 Module stripped antenna EMRF9101CA RF EM9101 Module chip antenna Table 1 EMEDVK9x0x part number Contact EM Microelectronic to check tools development availability and ordering part numbers This table is subject to changes Copyright 2014 EM Microelectronic Marin SA 3 www emmicro
3. can also be used to supply the system The battery holder is located on the bottom of the EMEDVK9x0xCB Central Board and labelled B1 as shown in Figure 7 To use the battery supply Place jumpers in position 3 4 of the jumper area labelled Supply select and remove the jumper in positions 1 2 and 5 6 Insert a coin cell 3V CR2032 in the battery holder with the marked face uppermost The system can also be powered using an external power supply connected to the pins labelled GND and EXT on the EMEDVK9x0xCB Central Board as shown in Figure 7 To use external supply Place jumpers in position 5 6 of the jumper area labelled Supply select and remove the jumper in positions 1 2 and 3 4 Connect GND to your power supply ground and EXT to your output power supply 3 3V is the recommended voltage Copyright 2014 EM Microelectronic Marin SA 8 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 shite FF EMEDVK9xOx User Manual USB supply connector USB supply selection BATTERY supply CR2032 on the bottom BATTERY supply selection EXTERNAL supply selection SUPPLY Wie SELECT Figure 7 Supply select The jumpers section Current Probe allows current measurement Total current consumption can be probed on the Supply Select jumper according to the selected power supply The current probes shall be connected in place of Supply Select j
4. pin number 2 Green Font PMOD d PMOD connector pin number e g PMOD 4 PMOD connector pin number 4 Names amp Connections Description SWD Debug SWD data in out 100K pull up SWD clock 100K pull up SWD trace data out RESET main reset active low Supply V MCU Supply for EMEDVK9x0xCM3 VBAT No connect from EMEDVK9x0xCM3 GND Common ground Buttons BUTTON1 PD 14 Button 1 input 10K pull down BUTTON PD 15 Button 2 input 10K pull down Leds LED2 PD 13 Led 2 output serial resistor 100 ohms LED1 PD 12 Led 1 output serial resistor 100 ohms Reset RESET_MCU PA 4 Reset generated by GPIO microcontroller output RF Module CM 16 PMOD 10 PB 6 Connected by 0 ohm R23 CM 17 P2 1 PB 7 Connected by 0 ohm R22 MISO CM 6 PMOD 3 PB 14 RF Master In Slave Out Connected by 0 ohm R13 MOSI CM 5 PMOD 2 PB 15 RF Master Out Slave In Connected by 0 ohm R12 SCK CM 3 PMOD 4 PB 13 RF Serial Clock Connected by 0 ohm R10 IRQ CM 7 PMOD 7 PB 8 RF Interrupt Connected by O ohm R14 NSS CS CM 4 PMOD 1 PD 0 RF Chip Select Connected by 0 ohm R11 CM 18 P2 3 PA 2 Connected by 0 ohm R21 CM 11 P1 2 PA 3 Connected by 0 ohm R20 CM 12 P1 4 PA 1 Connected by 0 ohm R19 CM 13 PD 3 Connected by 0 ohm R18 DETECT CM 9 PMOD 9 PD 5 Connected by O ohm R16 Other PA 4 PD 6 Table 2 Microcontroller pins Copyright 2014 EM Microelectronic Marin SA 11 www emmicroelectron
5. EM EM MICROELECTRONIC MARIN SA mila WATER GROUE ELECTRONIC SYSTEMS EMEDVK9x0x User Manual Title EMEDVK9X0X USER MANUAL Product Family EM9x0x Part Number Keywords Development Kit Date Jan 22 2014 DOCUMENT HISTORY January 22 2014 Initial release May 09 2014 Add Raisonance tools TABLE OF CONTENTS EMEDYVKEOXOXN USER MANUA NAINA LATA hese A E 1 Il Sn 2 EN AA AA 4 Zok Board COMMC AA 4 o BOK DI AA AA 5 al SUPDIY and current PM ODINO AA AA eiii 6 4 Features of the EMEDVKOKOxXCB Dodi aNG AA 10 4 a BI AA 10 4 2 PMOD interface for RF module 11111000777770 sere eeennnnnnsererreveensennnnssenen 11 4 3 PE ane P NARE module NAGA ANO ANA ANA 11 4 4 CM interlace fot LL 12 4 5 Burong BELO DWD aaa AA as ASA ANAN 12 4 6 E A 13 4 7 REC E E E E EE A EE AA AE E E 14 4 8 SWD DEBS CONOCIO ceee E E T 15 gt Using Raisonance tools Deyelopment syssccccecectisatsescsessenerecsdvantsntgenjeosdossccuaaseomncelsondesensaticetiueesocaass 17 Sal Open4 Rlink ADP configuration for In Situ Programming 18 6 Software configuration for SPI module interface 111117777 7 7 7 19 7 Set nss Usine Ken and ULINK ME noona benk damasten dean 20 Jad Tare ce Opuons VURtIES MENU GAGANA AA NAA ANAN ANAN 20 Tez Target Options Utilities Settings Menu nanne veneneennnnnnsrreereveensennnnnsenen PA Ta kae Op ons Debue NEN aes NAAANINAG 22 7 4 Target Options Debug Settings Menu nnnnnannosvervveeeeeeee
6. WD data in out 100K pulled up to V MCU Common ground SWD clock 100K pulled up to V MCU Common ground SWD trace data out Common ground MCU NRST line internal pull up Table 10 Debug pin connector Copyright 2014 EM Microelectronic Marin SA 16 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 Ae mi bagi SS EMEDVK9xOx User Manual A 10 pin cable from Samtec part number FFSD 05 D 12 00 01 N is used to connect CD10 to the debugger o OA N O gt HE oe D3 D4 DS a or KAHIN a TTL LALA Db DH ADD 95559 THA NG ORI Tor tO Et Wa ic S sa THA Figure 15 Debugger connection Some 10 pin to 20 pin JTAG adapters can be used to convert from the 10 pin mini SWD connector to the standard ARM SWD connector 20 pin The following connection scheme must be followed SWD 10 pin Name SWD 20 pin 1 V MCU 1 2 SWDIO 7 3 5 9 GND 4 6 8 10 12 14 16 18 20 4 SWDCLK 9 6 SWO 13 7 8 N C 2 3 5 11 17 19 10 NRST 15 Table 11 SWD 10 to SWD 20 connection table Copyright 2014 EM Microelectronic Marin SA 17 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual 5 Using Raisonance tools Development The Ride7 platform supports the hardware RLink debugger and Open4 versatile tool Both tools can be used to program and debug EMEDVK9xOx software Open4 Raisonance name and EvoPrimer STM and distributors name refer to the sam
7. bing The entire kit is powered from the Central board from any one of the 3 sources 1 USB USB port available on the Central board is used for power suuply only no communication 2 CR2032 coin cell on the bottom of the board 3 External power supply EXT and GND pins Several possibilities are offered for current measurement Independently the EMRF9x0x EMEDVK9x0xCMb3 board and complete system current can be measured V_PART Jumper position to select the curr measurement supply EXTERNAL supply EMRF9xOx Jumper position to select the curr measurement supply BATTERY supply CR2032 EMEDVK9x0xCM3 Jumper position to select the curr measurement suppy USB supply EXTERNAL supply USB supply and ground connector connector BATTERY supply CR2032 on the bottom Figure 6 Supply select and current probe jumpers overview Copyright 2014 EM Microelectronic Marin SA 7 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual The USB port used to supply power is the port labelled USB and located on the EMEDVK9x0xCB Central Board as shown in Figure 7 To use USB supply Place a jumper in position 1 2 of the jumper area labelled Supply select and removes the jumpers in positions 3 4 and 5 6 Connect a mini USB cable from the USB to a PC or 5V USB supply source The EMEDVK9x0xCB Central Board features a linear regulator LDO to generate 3 3V A CR2032 battery
8. e hardware STD Rlink Raisonance name and STX RLink STM and distributors name refer to the same hardware Both hardware provide an adapter JTAG SWD v1 2 used to connect the EMEDVK9x0x SWD debug connector Additonnally to connect this connector a 2x5 pin connector and flex cable are available in your EMEDVK9x0Xx box Part Reference 2x3 male header 1 27mm Female female flex cable 10 pin 1 27mm Harwin M50 3500542 Embedded Artists EA ACC 012 Table 12 Cable and Header reference From the JTAG SWD adapter a male 2x5 pin1 27mm header need to be soldered as described below By using a 10 pin flex cable female female the connection to the CD10 can be established as shown on Figure 16 JTAG SWD header assembly and connection Figure 17 STX RLink and JTAG SWD and Figure 18 Open4 with Open4 RLink ADP and JTAG SWD show the two complete Raisonance hardware solutions usable to program your EMEDVK9x0x Cable connection orientation a an a nd nn u Pad se O sd _ Figure 17 STX RLink and JTAG SWD Copyright 2014 EM Microelectronic Marin SA 18 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 fg EN Ee aes PETT TES mijn pmm EMEDVK9x0x User Manual pi as os J as aaa aa ND l PANAATITI Lid Figure 18 Open4 with Open4 RLink ADP and JTAG SWD 5 1 Open4 Rlink ADP configuration for In Situ Program
9. ebug Utities Configure Flash Menu Command Use Target Driver for Hash Programming Use Debug Driver ULINK2 ME Cortex Debugger Update Target before Debugging init File Edi C Use Extemal Tool for Flash Programming omme I Argumenta Run Independent Configure Image File Processing FCARM Output File Add Output File to Group Rum DK Image Files Root Folder Generate Listing Copyright 2014 EM Microelectronic Marin SA 21 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual Copyright 2014 EM Microelectronic Marin SA 22 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual 7 3 Target Options Debug Menu EE oag Device Target Output Listing User C C Asm Linker Debug Utilities C Use Simulator Limit Speed to Real Time M Load Application at Startup ff Run to maini M Load Application at Startup I Run to maini Initialization File Initialization File ft Watch Windows amp Performance Analyzer f Memory Display mara Copyright 2014 EM Microelectronic Marin SA 23 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 7 4 Target Options Debug Settings Menu Cortex M Target Driver Setup Serial No OIER ULINK Version ULINK ME Device Family Cortex M Firmware Version V2 02 M SWJ Pot sw Max Cock 10MHz f Automatic Detection
10. ectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 4 4 CM interface for RF module EMEDVK9x0x User Manual Bold font PX d Microcontroller Cortex M3 pin name e g PD 14 Port D pin number 14 Red Font CM d CM connector pin number e g CM 3 CM connector pin number 3 OONOOAKRWND Names amp Connections GND VSUP SCK PB 13 NSS CS PD 0 MOSI PB 15 MISO PB 14 IRQ PB 8 RES DETECT PD 5 GND PA 3 PA 1 PD 3 GND VSUP PB 6 PB 7 PA 2 4 5 Buttons BT1 and BT2 Description Common ground RF Supply Connected by 0 ohm R9 RF Serial Clock Connected by 0 ohm R10 RF Chip Select Connected by 0 ohm R11 RF Serial Out Master In Connected by 0 ohm R12 RF Master In Serial Out Connected by 0 ohm R13 RF Interrupt Connected by O ohm R14 RF Reset Connected by 0 ohm R15 RF Detect module Connected by 0 ohm R16 Common ground Connected by 0 ohm R10 Connected by 0 ohm R19 Connected by 0 ohm R18 Common ground Connected by 0 ohm R24 Connected by 0 ohm R23 Connected by 0 ohm R22 Connected by 0 ohm R21 Table 6 CM pins Two push buttons labelled BT1 and BT2 are connected to microcontroller GPIOs By default BT1 BT2 released the Button 1 Button 2 line is providing a weak 0 external 10 K Pull down By pressing BT1 BT2 the Button Button 2 line will be connected to V_PART Copyright 2014 EM Microelectronic Marin SA EMEDVK9x0x MN01 doc Versio
11. eeveeeenenennnnnnnenenn 23 MERE 0110 Lo a E N E A E E A E ee 24 Copyright 2014 EM Microelectronic Marin SA 1 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 1 1 11 Jun 14 SEs min ma EMEDVK9x0x User Manual 1 PRESENTATION The EMEDVK9x0x Evaluation and Development Kit is a versatile tool to assess performance and prototype user applications using the EM9101 EM9201 EM9203 EM9209 and EM9301 transceivers in an easy to configure and easy to use environment The kit consists of the main EMEDVK9x0X board a target board featuring ST Microelectronics STM32L152 microcontroller with Low Power Cortex M3 core and an EM FF transceiver module The kit can be used either linked to a PC for evaluation of the 2 4GHz devices using STM32 Integrated Development Environment or with a stand alone application running on the powerful on board microcontroller STM32 development is supported by user friendly Integrated Development Environment IDE e g Keil MDK or Ride7 for ARM GCC available separately A set of demonstration applications and transceiver device dedicated Graphical User Interface are available to asses each of EM Microelectronic s 2 4GHz devices aw pk m tdo iidiiiiii nina AR Ae aii PHASE Naa i sef eza 3 E Pru 0 Figure 1 Overall view of the EMEDVK9x0x Kit The EMEDVK9x0x Kit is based on The Central Board EMEDVK9x0xCB The Cortex M3 board EMEDVK9x0xCM3 One RF Module b
12. electronic com EMEDVK9x0x MN01 doc Version 1 1 11 Jun 14 EMEDVK9x0x User Manual 2 SETUP 2 1 Board connections The EMEDVK9x0xCM3 board is plugged into the EMEDVK9x0xCB Central Board CTB connector on the bottom side of the EMEDVK9x0xCB main board as shown in the Error Reference source not found The RF Module EMRF9x0x is plugged into the EMEDVK9x0xCB Central board PMOD connector or CM connector on the top side of the of the EMEDVK9x0xCB Central board as shown in the Figure 3 and Error Reference source not found Figure 3 EMEDVK9x0xRF PMOD connection PE EES 10179203 vi 0 KJ 111213 14 15 16 17 18 Uo gt Ze Pe Rore rape i a a P pas Ba be On B BI he K NOTH OR ADS Figure 4 EMEDVK9x0xRF CM connection Copyright 2014 EM Microelectronic Marin SA 4 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 1 1 11 Jun 14 EMEDVK9x0x User Manual Copyright 2014 EM Microelectronic Marin SA 5 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 1 1 11 Jun 14 En o S EA doib ftw LME Nd a a BEES ae EMEDVK9x0x User Manual 3 Block Diagram External 5V USB LDO 3 3V Shottky protection en Gt SUPPLY SELECT CURRENT PROBE MOSI MISO SCK IRQ NSS Figure 5 EMEDVK9x0x Copyright 2014 EM Microelectronic Marin SA 6 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual 3 1 Supply and current pro
13. ic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual 4 2 PMOD interface for RF module Bold font PX d Microcontroller Cortex M3 pin name e g PD 14 Port D pin number 14 Green Font PMOD d PMOD connector pin number e g PMOD 4 PMOD connector pin number 4 PMOD pin Names amp Connections Description 1 NSS CS PD O RF Chip Select Connected by 0 ohm R11 2 MOSI PB 15 RF Master Out Slave In Connected by 0 ohm R12 3 MISO PB 14 RF Master In Slave Out Connected by 0 ohm R13 4 SCK PB 13 RF Serial Clock Connected by 0 ohm R10 5 GND Common ground 6 VSUP RF Supply Connected by 0 ohm R9 7 IRQ PB 8 RF Interrupt Connected by O ohm R14 8 RES RF Reset Connected by 0 ohm R15 9 DETECT PD 5 RF Detect module Connected by O ohm R16 10 PB 6 Connected by 0 ohm R23 11 GND Common ground 12 VSUP RF Supply Connected by 0 ohm R9 Table 3 PMOD pins 4 3 P1 and P2 interface for RF module Bold font PX d Microcontroller Cortex M3 pin name e g PD 14 Port D pin number 14 Blue Font P1 d P2 d P1 P2 connector pin number e g P2 2 P2 connector pin number 2 Names amp Connections Description Common ground Connected by 0 ohm R10 Common ground Connected by 0 ohm R19 Table 4 PI pins Names amp Connections Description Connected by 0 ohm R22 Common ground Connected by 0 ohm R21 Common ground Table 5 P2 pins Copyright 2014 EM Microelectronic Marin SA 12 www emmicroel
14. ming When using the Open4 the following jumper Open4 Rlink ADP configuration need to be used ANT CV Figure 19 Open4 RLink ADP Jumper configuration Copyright 2014 EM Microelectronic Marin SA 19 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual 6 Software configuration for SPI module interface The EM Microelectronic EMEDVK9x0x hardware platform is based on the Cortex M3 STM32L152 Microcontroller To configure the communication over SPI between the microcontroller and the EM RF device the following SPI interface definition interrupt and reset lines need to be linked to the STM32L152 microcontroller The following pin assignment is needed SPI bus using Cortex M3 SPI2 bus e SPI Clk PortB 13 e SPI Miso PortB 14 e SPI Mosi PortB 15 e SPI CSn PortD 0 Additionally two additional pins are required for the RF Module e EM9301 Interrupt PortB 8 GPIO and external interrupt line need to be assigned e EM9301 Reset PortA 4 Copyright 2014 EM Microelectronic Marin SA 20 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 mii 7 Settings Using Keil and ULINK ME The following settings Keil project Options for target should be used for programming and debugging application firmware 7 1 Target Options Utilities Menu Options for Target Target 1 Device Target Output Listing User C C Asm Linker D
15. n 11 Jun 14 Names amp Connections BUTTON1 BUTTON2 Description Buttons Button 1 line external 10K pull down Button 2 line external 10K pull down Table 7 BT1 BT2 pins Figure 9 BTI BT2 push buttons 13 www emmicroelectronic com EMEDVK9x0x User Manual 4 6 Leds Two leds LED1 and LED2 labelled D1 and D2 are connected to microcontroller GPIOs By driving at 1 the Led 1 Led 2 line LED1 LED2 will light ON A 100 ohm serial resistor is connected between the microcontroller GPIO and the LED1 LED2 Names amp Connections Description Led 2 line serial resistor 100 ohms Led 1 line serial resistor 100 ohms Table 8 LEDI LED2 pins Figure 10 LEDI LED2 push buttons Copyright 2014 EM Microelectronic Marin SA 14 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual 4 7 Reset The EMEDVK9x0x features a reset button The reset button labelled RESET generates a reset for the microcontroller and RF module By default button RESET released and no other reset condition the reset is not activated The microcontroller NRST line can be driven by The reset button to propagate the reset into the microcontroller By pressing the button the NRST line is tied to 0 By default this NRST line is pulled up by a weak pull up inside the Cortex microcontroller typically 45Kohms The hardware debugger when a debugger i
16. oard EMRF9x0x The EMEDVK9x0xCB is the Central Board of the EMEDVK9x0x Evaluation and Development Kit It provides the RF Modules plug in area a Cortex M3 Board plug in area buttons and LEDs in addition to numerous test and access points to perform any type of voltage and current measurement The EMEDVK9x0xCB key s features include Several power sources Connector for Cortex M3 board and RF Module board Connector for SWD debugger On boards LEDs buttons and test points The EMEDVK9x0xCM83 microcontroller Board contains the microcontroller a STM32L152 Low Power Cortex M3 from ST Microelectronics The different EM RF modules board can be plugged on the EMEDVK9x0xCB Central board using dedicated 3 row connectors or standard PMOD connector Each module contains all hardware necessary for RF operation of with their respective devices Each includes a PCB or Copyright 2014 EM Microelectronic Marin SA 2 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 1 1 11 Jun 14 hl BIL sesaibh d EE ita ae si ib A HAI H si in aw La en EMEDVK9x0x User Manual ceramic antenna or SMA connector for RF measurement Each layout can be used as a reference design for one of the EM 2 4GHz products Part number Description Complete Evaluation Development kit EMEDVK9201 Complete Evaluation Development kit for EM9201 EMEDVK9203 Complete Evaluation Development kit for EM9203 EMEDVK9301 Complete Evaluation Development kit for EM9301
17. s connected to the SWD debug interface pin 10 and hold the line at 0 The microcontroller when an internal reset condition is raised e g internal watchdog timeout Refer to Cortex manual for details Additionally a GPIO of the microcontroller is connected to the line called RESET MCU The goal is to generate a reset for the RF module from the application The corresponding line is called RES A reset circuit based on logic ALVC family NAND gates is used to perform an OR operation between NRST and RESET MCU The result of this logical operation not NRST or RESET MCU drives the RES line RESET MCU Figure ll Reset circuit Names amp Connections Description RESET main reset active low PA4 RESET MCU Reset generated by GPIO MCU output Table 9 Reset pins Copyright 2014 EM Microelectronic Marin SA 15 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual 10 R14 R15 R16 wg BE Figure 12 Reset push button Figure 13 RF Module reset line labelled RES 4 8 SWD Debug Connector The EMEDVK9x0x features a debug connector to program and debug the microcontroller firmware A Cortex Debug 10 pin connector 0 05 type Samtec FTSH 105 01 is used This debug connector is labelled as CD10 The Cortex Debug connector is supported by ULINK2 ULINKPro 2 SWDIO 10 NRST CD10 pin Description 2 3 4 5 6 T 8 9 1 Supply voltage S
18. t result in damage to and or injury or death of persons is expressly prohibited as EM products are neither destined nor qualified for use as components in such medical devices and or medical applications The prohibited use of EM products in such medical devices and or medical applications is exclusively at the risk of the customer Copyright 2014 EM Microelectronic Marin SA 25 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14
19. umper position 1 2 incase of USB supply as shown in Figure 8 A 93 4 in case of Battery supply 5 6in case of External supply The EMEDVK9x0xCM3 current consumption can be probed in the labelled microcontroller Current Probe area in place of the jumper position 1 2 as shown in Figure 8 B The EMRF9x0x current consumption can be probed in the labelled RF Current Probe area in place of the jumper position 3 4 as shown in Figure 8 C The remaining current consumption can be probed in the labelled MISC Current Probe area in place of the jumper position 5 6 as shown in Figure 8 D Copyright 2014 EM Microelectronic Marin SA 9 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 AFER Cri ii ah HHE HAPO Na A E HE se EMEDVK9xOx User Manual Figure 8 Current probing Copyright 2014 EM Microelectronic Marin SA 10 www emmicroelectronic com EMEDVK9x0x MN01 doc Version 11 Jun 14 EMEDVK9x0x User Manual 4 Features of the EMEDVK9x0xCB board 4 1 CB to CM3 interface The EMEDVK9x0xCM3 board is connected to EMEDVK9x0xCB Central board thanks to the connector labelled CTB located on the bottom of the EMEDVK9x0xCB Bold font PX d Microcontroller Cortex M3 pin name e g PD 14 Port D pin number 14 Red Font CM d CM connector pin number e g CM 3 CM connector pin number 3 Blue Font P1 d P2 d P1 P2 connector pin number e g P2 2 P2 connector
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