ULE Starter Kit User Manual
Contents
1. 16 5 1 DUAR TE CONNECTION ON THE DAX9L EV B ie 16 2 2 CONFIGURATION OF UART COMMUNICATION ccccsscoccscoccscsccscncascnccecsccecscencecersecersscersscetsscnsescnces 16 5 3 IO PUSH BUTTON AND LED SCHEMATIC OF DHX91 0 000000000 17 5 4 MODIFYING THE APPLICATION SW FOR ULE eere n nene eret eterne sesso eere rues 17 Rev1 0 June 2015 ULE Starter Kit User s Manual 1 Introduction 1 1 Other Documents A DHX91 DHAN Module Data Sheet Downloadable from DSP Group Website B HAN FUN Protocol Downloadable from www ulealliance org 1 2 Target Audience The Starter Kit and this User s Manual are targeting those customers familiar with running IoT applications on a particular microcontroller with a spare UART Interface and now are interested in adding ULE wireless connectivity capability via the DHAN module That said the DHAN module can be used for standalone single processor applications and also can interface with an external microcontroller via or SPI interfaces If any of these use cases interest you please don t hesitate to contact DSP Group at the link shown below Ditto for those interested in developing new ULE Controller or Gateway devices We can get you started with these applications as well http www dspg com dhan module 1 3 Starter Kit Basics A bit about DECT ULE DECT ULE uses a star topology Each DECT ULE system2. L Get Parameter 1 Got Parameter Response for param 2 Get Parameter 2 Got Parameter Response for param 3 Get Parameter 3 Got Parameter Response for param 4 Get Parameter 4 Got Parameter Response for param 9 Get Parameter 9 Got Parameter Response for param 6 Get 6 MBS Init Initialize CMBS 11 4 Target Version 03 65 Build 32 censura Open JSystem Window Open Price Demo App Open HAN Attributes Window Open HAN Report Window Open HAN Test Window The log window shown above is an abbreviated version of the incoming outgoing flow of information at the CMBS UART Interface A more detailed message log 1s recorded in a file that can be opened from the button indicated above This file is located in the same directory as the DSPG Test Application exe file Click on the Open HAN Window button in the lower right and note that a Smoke device 15 registered to your Controller as shown below This is because the EVB ULE Node in your Starter Kit has already been registered to the ULE Controller and has been programmed as a Smoke device A bit later you will delete this bi nena and can run through the pane registration exercise yourself Tx Request Tx End Get Link Status Clear Unit Counters j Clear All Counters Delete all Devices Refresh Table newer pur megsts uksimue Unit Tye Keep Alves Aerts Tampers astevent__ onoff aert Tamper OOFEB4
3. Dst type 0 dev id 0 un id 2 Transport 0 Msg Sequence 3 Message 1 IF Type 0 IF Id 0x100 IF Member 1 Data Len 6 2 4 0 0 0 Alert Off Tamper Keep Alive On Off Toggle work similarly to the example above Rev1 0 June 2015 12 ULE Starter Kit User s Manual 4 5 Messages from the ULE Controller to the ULE Node To send a message from the Controller to the Node 1 Press the Tx Request button on upper left in HAN Window of Controller GUI You should observe Link Status as Requesting 2 Now you need to wake up the ULE Node and have it respond to this Link Request by triggering an event from the VAR simulator eg Keep Alive Tamper Alert You will see the Link Status on the ULE Controller change to In Link The ULE Node is now available for an incoming message from the Controller 3 Let s pretend that the ULE Node is an AC Outlet and send it an ON command from the Controller GUI HAN Window Lower Left as shown below M D TxEnd Get Link Status Clear Unit Counters Clear All Counters Delete Device Delete all Devices Refresh Table pence ruo sits parma unt 1f uot Type keep 2h iet Tom paste onot sen s Tamper Registered nunk 1 Smoke 0x204 0 Alert N A ON 2 Press TX request Make sure Link status is In Link gt m Device 0 Information Keepalive 0x01 HF Core Release 01 Keepalive Keepalive 0x02 Profile Relea
4. usually loads on its own when it is plugged into the PC If not it can be copied from the CD included in the Kit Once the driver is loaded you should be able to see a COM port opened in your PC Device Manager You should note the COM port value as you will need it to run the DSPG Test Application SW which you have downloaded Laptop running GUI USB to UART Adaptor UART F F Cable 5V Transformer 1 5 Starter Kit SW Tools Downloaded from the website e VarCmndSimulatorSetup msi Installer for the GUI communicating via USB UART path with the DHX91 ULE Node e DSPG Test Application exe GUI for communicating via USB UART path with the ULE CMBS Controller Rev1 0 June 2015 ULE Starter Kit User s Manual 2 Get your application up and running with ULE Working through the steps below will enable the User to get an ULE Node application with basic ULE connectivity up and running This section provides an overview of the 3 steps with following sections elaborating Steps 1 and 2 2 1 Step 1 ULE Node with the DHX91 ULE EVB amp VAR Simulation Tool Laptop Running DSPG Test Application ULE Controller GUI ES EM Laptop Running VAR ULE Node with adaptor Se CMND I F CMBS UART ULE Controller UART to USB Adaptor ST Lab Active Here the ULE Node application is running on the PC using the VAR simulator you have downloaded Note Both sides of the link can
5. Module Adaptor ST Lab ULE Controller communicating via CMND Interface The User designs an application board which integrates a favorite MCU sensors switches the DHAN module and a 2GHz antenna Prior to designing this application board the User should discuss application needs and constraints with DSP Group to insure that the application schematic is optimal as well as receiving the SW training and detailed documentation needed to create an full fledged application Rev 1 0 June 2015 ULE Starter Kit User s Manual 3 Getting the ULE Controller Up and Running After connecting the ULE Controller DCX81 CMBS UART as depicted in a previous section and confirming via your Device Manager that a new COM port is up and running you should run the DSPG Test Application executable you have downloaded The window below will pop up and you should enter the appropriate value 2 CMBS Start Menu TDM is Master Use Coma DVF99 IP Address Failed Detection A Graphical User Interface will pop up as below and the log window should indicate that the initialization was successfully completed 5 Init Done CMBS Test Application 1 1 Build 3034 sns mi Sn Host Version 03 65 Build 26 Target Version 03 65 Build 32 EEPROM RFPI 00feb04220 RXTUN al Read m _ oo 00feb04220 PIN 0000 RVREF 1f Write Mode 00 RVBG 1 Line 1 Release Answer CLIP 11 CNIP DSPG Delete
6. contains only one device at the hub of the star This hub is typically the gateway to the WAN In DECT cordless this hub is called the Base Station In the IoT context the hub is called a ULE Controller The points of the star are traditional DECT cordless handsets and ULE Nodes or Devices they can be integrated into a single system Thousands of ULE Devices can be associated with a single ULE Controller This Starter Kit incorporates a ULE Controller BS Device and a ULE Node Device The ULE Controller includes a graphical interface for control and status reporting It does not provide a means to connect to the WAN The Starter Kit promotes development of ULE Node applications per the ULE Standard Once completed and certified your ULE Node can operate in any setting within range of a certified ULE Controller The ULE Controller is a common element in many gateways and over the top boxes that populate our homes and offices Base Device Device B Addr 0 Addr 17 Figure 1 1 Star Topology Device C Addr 18 Rev 1 0 June 2015 4 ULE Starter Kit User s Manual 1 4 Starter Kit Hardware 1 4 1 DHX91 EVB ULE Node The DHX91 EVB includes a DHAN Module a custom version with printed antenna several push buttons LEDs and access to vital IO pins that facilitate simple application emulation The EVB can be powered using the AC transformer outputting 5V supplied with the Kit or using a 123 battery The EVB
7. described below You can also reconnect the AMP2_OUT from the Wakeup Button and connect to an IO from your MCU for triggering wakeup of the ULE Node 5 1 UART connection on the DHX91 EVB Remove JP21 22 and connect RxD and TxD from external MCU to GPIO9 and GPIO10 JP21 amp 22 5 2 Configuration of UART Communication UART protocol settings are as follows e Baud rate 115200K bps configurable Data 8 bit Parity bit None Stop bit 1 bit Network byte order Big Endian Flow control Enable Disable at compilation time optional Recovery from message loss should be done in higher layers Rev1 0 June 2015 16 ULE Starter Kit User s Manual 5 3 IO Push Button and LED Schematic of DHX91 EVB Q3 TP37 Q4 TP38 Q6 TP46 Q5 TP45 DCDCEN MMBT3904 MMBT3904 MMBT3904 MMBT3904 GPIO10 IPS DOUBCAP2P 9 DCIN2 TP10 LEDSINK DCINTP11 AMP2 OUT 12 F GPIOS GPIOB GPIO7 ACK SDA ON_OFF_IN DCIN3 DCINS 9 o9 o9 G9 9 o9 o9 o9 69 o9 o9 o o9 G9 o o9 o0 lt G OQ 9 Figure 2 14 Development Area 5 4 Modifying the Application SW for ULE By cutting and pasting the commands into your App SW from the VAR Generate window shown once again below you should be able to repeat all the connectivity exercises from the previous section this time with your MCU in control Generated command DA DA 00 OF 00 00 01 00 03 26 06 00 06 02 04 00 00 00 01 Service Alert 01
8. 00 gt Parsed Payload Message notify status lt 03 gt UnitID 00 RAW IE 0006020400000001 Cooke 00 Parsed IE CMND IE ALERT 0x06 len lt 6 gt val lt 020400000001 gt Rev1 0 June 2015 17
9. 9600 Registered Unknown 1 Smoke 0x204 No Events N A N A N A Rev1 0 June 2015 ULE Starter Kit User s Manual 4 Running the ULE Node using the VAR application Time to get the ULE node up and running with the VAR simulator This simulator converses with the UART Driver loaded in the DHAN module at an interface called the CMND API The VAR simulates your MCU s communication with the CMND so this is means to learn about this communication pipe as well as grasp the overall connectivity scheme of ULE Device application structure with CMND API payload GPIO events gt lt 1 CMND protocol VAR Simulator on your PC 4 1 Hardware Setup Power up the DHX91 ULE EVB If you are using a Power Supply with metering you should observe 28mA Now connect the EVB RS232 port to the PC USB port using the USB2UART Cable and UART2UART adaptor provided in the Starter Kit As before query your Windows Device Manager for the of this added COM port 4 2 Installing the VAR Simulator Run the VarCmndSimulatorSetup msi and follow instructions to generate the VarCmndSimulator exe file 4 3 Running the VarCmndSimulator exe Run the VarCmndSimulator exe file and choose the VAR Mode ST x Advanced Mode Start Rev1 0 June 2015 10 The window below will pop Configure the COM port upper right with appropriate value and click Open 15 40 51 15 40 51 15 40 51 ULE
10. ATION TOOL nmm 7 2 2 STEP 2 ULE NODE WITH THE DHX91 ULE EVB WIRED TO YOUR 7705 nnn 7 23 STEP 3 ULE NODE WITH DHAN MODULE MOUNTED ON YOUR APPLICATION ceccecescscescscecescceecs 8 3 GETTING THE ULE CONTROLLER UP AND RUNNING 2 ccccccccccccccccccccccccccccccccceecs 9 RUNNING THE ULE NODE USING THE VAR APPLICATION a scscccccscccccccccccccceccs 10 4 1 EEXRDUARESEDIUD O A MU LA OSTEO 10 4 2 INSTALLING THE VAR SIMULATOR 202 0 0000000000000000 10 4 3 RUNNING THE 2 0 00000 10000000000 10 4 4 MESSAGES FROM ULE NODE CONTROLLER 000 00000000000000000000 teretetesetessesesee teret e sues 12 4 5 MESSAGES FROM THE ULE CONTROLLER TO THE ULE 0202000000000000 13 4 6 PLACE THE ULE NODE IN HIBERNATE AND WAKE IT 2 2 0202000000000000000 13 4 7 CHANGING THE FREQUENCY BAND FOR YOUR 2 4 4 4000 00000000 14 4 7 1 Offset 0x204 Node and Offset 0x20 Controller Values for changing Frequency Band 14 4 8 REGISTERING THE ULE NODE TO THE ULE 0 00000000000 15 5 INTERFACING THE DHX91 EVB ULE NODE TO YOUR
11. GUI log window Alert On example is shown below 1 The command generated by the VAR Generated command DA DA 00 OF 00 00 01 00 03 26 06 00 06 02 04 00 00 00 01 Service Alert 01 00 gt Parsed Payload Message notify status req 03 UnitID 00 RAW IE 0006020400000001 Cookie 00 Parsed IE CMND_IE_ALERT lt 0x06 gt lt 6 gt val lt 020400000001 gt coat 2 The MCU lt gt CMND exchange on the Node Side The CMND informs the MCU that it received an ACK from the ULE Controller 13 30 21 070 CMND gt MCU 14 General lt 00 00 gt link_cfm lt 07 gt 00 00 000100 CMND_IE_RESPONSE lt 0x00 gt len lt 1 gt val lt success gt 13 30 20 970 MCU gt CMND 19 Alert lt 01 00 gt notify_status_req lt 00 00 000602040 lt 0 06 gt len lt 6 gt val lt 020400000001 gt 3 The incoming message as seen on the graphical Log on the ULE Controller side Delete Delete All Refresh L RX D1 U0 D0 U2 T0 53 M1 T0 1100 C 1 L6 P02040000000 1 4 The incoming message as seen parsed in the Log File on the ULE Controller side This txt file is located in the same directory as the DSPG Test Application exe file 28 05 2015 13 40 03 607 1432809603607 Target gt Host 29 00 00 00 16 30 21 00 00 30 17 00 01 00 00 00 00 02 00 00 00 03 01 00 00 01 01 06 00 02 04 00 00 00 01 00 OF 02 00 A5 FC CMBS DSR MSG RECV 12310 CMBS IE MSG 12288 Src type 0 dev id 1 un id 0
12. Starter Kit User s Manual COM port MCU gt CMND ie cont CMND gt MCU MCU gt CMND ie cont CMND gt MCU MCU gt CMND ie cont CMND gt MCU MCU gt CMND Production 02 0 Param lt 02 03 gt Param lt 02 03 gt Param lt 02 03 gt Param lt 02 03 gt Param lt 02 03 gt Param lt 02 03 gt prod_start lt 01 gt param_set_dir_res lt 08 gt param_set_dir_req lt 07 gt param_set_dir_res lt 08 gt param_set_dir_req lt 07 gt param_set_res lt 04 gt param set rea lt 03 gt 000100 00150200 00150200 000100 00150200 00150200 000100 00040018 00050018 CMND IE RESPONSE 0x00 len lt 1 gt val lt succ CMND IE PARAMETER DIRECT 0x0C 1 lt 21 CMND IE PARAMETER DIRECT 0x0C 1 lt 21 CMND IE 5 5 lt 0 00 gt len lt 1 gt val lt succ CMND IE PARAMETER DIRECT 0Ox0C len 21 CMND IE PARAMETER DIRECT 0x0C len 21 CMND IE 5 5 lt 0 00 gt len lt 1 gt val succ CMND IE lt 0 0 gt len lt 4 gt val lt Ee CMND IE lt 0 0 gt len lt 5 gt val Ee dada00100000020b01d5cccc0006 dada00220000020308f00c001502 dada001e0000020307ea0c001502 dada00220000020308ab0c001502 dada001e0000020307a50c001507 dada00110000020304420b00040 dada000e000002 ie gt Generated command DA DA 00 10 00 00 00 01 03 29 08 00 07 01 05 00 00 00 00 00 Mess
13. ULE Starter Kit User s Manual GROUP at home in your wireless world ULE Starter Kut User s Manual Revision 1 0 Document Objective Instruct IoT device designers how to leverage the ULE Starter Kit to empower their low power sensor and control applications with ULE wireless connectivity Document is subject to change without notice Copyright 2015 DSP Group Ltd All Rights Reserved Rev1 0 June 2015 1 ULE Starter Kit User s Manual Revision History Revision Date Author Description June 2015 Baseline Release Rev 1 0 June 2015 ULE Starter Kit User s Manual Table Of Contents I INTRODUCTION eere 4 1 1 OTHER DOCUMENTS raaraa cc LAS ALLEM Lt oe nat ene eee UL eee 4 1 2 4 1 3 STARTER Kit BASICS A BIT ABOUTDEGT ULE eve ocu 4 1 4 STARTER KIT HARDWARE A E 5 Add DAKOT EV B CLE NOG Beatie iene Geese shasta fusa 5 142 DOEXST CMBS CART ULE COntfVolloP craie n AEA AEEA Pi s 6 1 5 STARTER SW TOOLS DOWNLOADED FROM THE 22 00000 6 2 GET YOUR APPLICATION UP AND RUNNING WITH 7 2 4 STEP 1 ULE NODE WITH THE DHX91 ULE EVB amp VAR SIMUL
14. age ae ques Unit ID 00 RAW IE 000701050000000000 Parsed IE CMND IE REGISTRATION 0x08 len lt 7 gt val NumoOfUnitEntries 1 LengthOfUnitEntry 5 UnitId 0x00 UnitType ig Message Type List box Go to the Message Type window pull down Get Version hit Generate Message button then Send You should see the req and resp between the VAR MCU and DHAN CMND as shown below General lt 00 00 gt General lt 00 00 gt get_version_res lt Oc gt 00 00 000d0c312 CMND IE 510 lt 0 09 gt len lt 13 gt val lt Len 12 Valu dada00160 get version lt 05 gt 00 00 000101 CMND IE U8 0x1E len lt 1 gt val lt 01 gt dada000a0 12 18 18 023 CMND MCU 26 12 18 17 923 MCU gt CMND 14 NOTE Please avoid running the Configuration Wizard upper left If this button is accidentally depressed press Cancel and you will return to the Main Var window above Rev1 0 June 2015 11 ULE Starter Kit User s Manual 4 4 Messages from ULE Node to Controller The Alert On Alert Off Tamper Keep Alive On Off Toggle Raw Fun messages are all items that are sent over the link from the Node to the Controller To send any of these messages you 1 Select Message 2 Click Generate Button and note command generated 3 Press the Send button This should generate an MCU lt gt CMND exchange in the VAR log window and an incoming message in the Controller
15. arlier section Let s try it a Prior to entering Sleep Hibernate you see 28mA on your Node Power Supply b Generate and Send the Sleep Command c You should drop down to 4uA d Now hit the Wakeup Button and note the return to 28mA Rev1 0 June 2015 13 ULE Starter Kit User s Manual 4 7 Changing the Frequency Band for your Region Your Starter Kit has been shipped to you operating the European DECT Band 1880 1900MHz In this section instructions are given to reconfigure your system to operate in the DECT band allocated by your local regulator Step 1 Steps 2 6 are for modifying the ULE Node Band setting This setting will take effect upon powering down then up the Node Step 2 Go the ULE Controller GUI Main Window and Open HAN Test Window hus Open HAN SUOTA Open HAN Bind Open JSystem Window Open Price Demo App Open HAN Attributes Window Open HAN Report Window HAN Test Window Open HAN Window Step 3 Click the Tx Request Button in the HAN Test Window Link Status should show requested Step 4 Go the VAR Window and Send Tamper Link Status in HAN Test Window should now indicate In Link as shown below Step 5 Enter Value Length and Start address Value for your Region see table below example given is for transitioning to US and hit Set button Confirm change with the Get button Now power Down the Node E HAN Test e E Device Id 1 Tx Request Tx End G
16. et Status LlinkStatus Link Remote Device EEPROM Access Get EEPROM Type Value Length Start Address Value m 0 0 Ox 1 Ox 204 Ox D Step 6 Now for the ULE Controller Side Close the HAN Test Window and return to the Main Window and Click on the EEPROM Read Write button at upper right 8 Test Application 1 1 Build 30342 Pu on x E Host Version 03 65 Build 26 Target Version 03 65 Build 32 EEPROM Parameter Value TDMis Slave RFPI 00feb04220 RXTUN al d RFPI v 00feb04220 PIN 90000 RVREF if a Mode 00 RVBG Get Set Step 7 You will get the EU value of 0x00 Now go to Write section and enter 0x20 for Start Adress and Value of region 0 01 in case of the US Hit the Write EEPROM and Confirm change with the Read EEPROM Power Down and Up the Controller Read Address Value start Address ox 20 Read 0x0020 0x00 EEPROM Length Write Start Address ox Write M Value ee EEPROM Reset Step 8 Power Up the Node and send a Tamper message to the Controller Confirm that it succeeds 4 7 1 Offset 0x204 Node and Offset 0x20 Controller Values for changing Frequency Band Latin Pu pes c ww foe oe ped 0 E E 1 1 1 1 1 Rev1 0 June 2015 14 ULE Starter Kit User s Manual 4 8 Registering the ULE Node to the ULE Controller Ready to take some risk and De register the ULE Node from the Cont
17. is delivered configured for this latter case See the jumper configuration below for both cases It is suggested to initially power up the EVB with a 3V power supply clipped to the battery holder to get feedback regarding the current drain The EVB can function as a standalone demo device Step below or as a development tool to be interfaced via RS232 to a PC Step 2 below or via UART to an external controller Step 3 below WOW 8 S Yas cu TPZITPZOTPISTPIBTPLITPLETPISTPI4 TPINP Lat LeTParPSTP4iP aca TTDI e e e o o o e o ee et et ee ee e e e e e e eho a EN o eot a BLO 500019 0 R A E A LEGERE TP Semel PAG AP om wr aia WJA zi 3i j x SV u J 2 LT x 1 lt rr O 5 gie ODD 255 Xe ee ee 9 i 9 7 s MIC rua e SV input LANES s Rev1 0 June 2015 5 ULE Starter Kit User s Manual 1 4 2 DCX81 CMBS UART ULE Controller This platform includes the DCX81 CMBS Module mounted on a ULE Controller motherboard It is powered by the AC transformer supplied with the Kit The Kit includes 2 antennas which are threaded on to the SMA connectors and positioned as shown in the photo below The connection between the Controller RS232 UART I F connector and the PC USB port is also shown below The driver for the ST Lab adaptor included in the Kit
18. ith 0 entries starting from index 0 Log 18 25 34 Get Devices 2 CMBS Started To see list of devices press Open HAN window button f amp HAN Press Tx Request lo xl Jnitializedi TxEnd Get Link Status Clear unt Counters Clear Al Counters eR Refresh Table wa Tease usu mere usta ot Ani 7 Tampe 0066552200 Registered Idle TO 1 Smoke 0x204 0 0 Events See link status here Device Info will be filled here Select device Press to get Device Information 4 Device Information 0x01 HF Core Release 0x02 Profile Release R 0x03 Interface Release R 0x04 Paging Caps R 0x05 Min Sleep Time R 0x06 Actual Response Time R 0x07 Application Version R 0x08 Hardware Version R 0x09 EMC R 0x0A IPUI R 0x0B Manufacture R 0x0C Location R W 0 00 Device Enable R W S Device Info Get Pack ALL Device Info Device Info Get Pack ALL Get Pack Mandatory Get Attribut Attribute Id Set Attribute Clear All attributes AC Mithat AC Dannarte Rev1 0 June 2015 15 ULE Starter Kit User s Manual 5 Interfacing the DHX91 EVB ULE Node to your MCU Now you are ready to drive the ULE Node with YOUR MCU You will need to bypass the RS232 connector and IC on the EVB and configure your UART driver for appropriate protocol both
19. roller and Re register it a Go to the ULE Controller HAN Window select the Smoke Detector and hit the Delete Device button The Smoke will now disappear from the list b Power down the ULE Node you can leave the VAR running Power Back On Go VAR simulator on the Node side generate and send the Registration Command d Go the Controller side and press Open in the Registration window on the upper left e Note the 3 Stages of the registration process scroll in the Controller Log 9 CMBS Test Application 1 1 Build 30346 F 1 Host Version 03 65 Build 30 Target Version 03 65 Build 32 m EEPROM TDM is Slave RFPI 0011223340 RXTUN 70 zm cu 0000 RVREF 1f HS 1 une 1 Release Answer Make Call cp 11 DSP Delete 1 Unregiste 2 Unregiste 3 Unregiste 4 5 Unregiste Unregiste 18 27 43 Got Device Table Read Response with 1 entries starting from index 0 18 27 43 Unhandled Event Flash Stop Request 18 27 43 Get Devices 18 27 43 18 27 35 18 27 35 Pvice 18 27 33 lt lt lt lt Unhandled Event Flash Stop Request 18 27 30 lt lt lt lt Unhandled Event Flash Start Request 18 27 29 Re aie OT Closed 18 25 35 Seer Registration waiting for handse device register 18 25 35 Open Registration Enable 18 25 34 Got Device Table Read Response w
20. run on the same computer In this setup the User will learn how to e Install and run VAR simulator on the Node side and the Controller GUI simulator on the Controller side e Register the ULE Node modify the operating frequency to comply with local regulations e Use the VAR simulator to trigger events and send maintenance messages Keep Alive that can be monitored at the Controller GUI e Copy the basic transactions at the CMND I F so that they can easily be transplanted from the simulator to the code running on the User s application MCU 2 2 Step 2 ULE Node with the DHX91 ULE EVB wired to your MCU Laptop Running DSPG Test Application ULE Controller GUI Pd ds TXD Application Board with UART to USB Adaptor ST Lab ULE Node with IOs MCU UART I F and lOs CMBS UART ULE Controller ULE transactions have been embedded into the Application SW and their effectiveness can now be validated User will be able to register pair his ULE Node Application with the ULE Controller send maintenance Keep Alive and simple Alarm Event messages turn actuators ON OFF send battery and RSSI status over to the Controller CMND I F Active wired to DHX91 EVB Rev 1 0 June 2015 ULE Starter Kit User s Manual 2 3 Step 3 ULE Node with DHAN Module mounted on your application Laptop Running DSPG Test Application ULE Controller GUI Fully integrated Application Board UART to USB CMBS UART with MCU and DHAN
21. se R 01 Get Attribute Set Attribute 0x03 Interface Release R 01 Device Info Device Info 0x05 Min Sleep Time R 00000000 0x06 Actual Response Time 00000000 Device Info Attribute Id 01 0x07 Application Version R 1 1 3 CMBS 3 65 Build 32 Get Attribute 0x08 Hardware Version R DCX81 Device Info EN 0x09 EMC R OFEB Set Attribute Get Device Subscription 0x0A IPUI R 0011223340 0x08 Manufaci Clear All attributes Status we Try to send ON request to reu 0 0 Friendly device Ox0F Device DE Tem NE OK ON OFF AC Outlet Stress i Get Attribute Device Unit Interval Get Metering Interval Set Metering Interval ON OFF State Start Ox 0001 01 5 4 Now check the VAR Log window and you will notice the report of incoming ON message Messages Log ie cont 000100 CMND_IE_OTA_COOKIE lt 0x13 gt len lt 1 gt val lt 00 gt 18 39 24 078 CMND gt MCU 20 On off lt 01 06 gt on_req lt 01 gt 01 00 0003000002 IE UNIT ADDR 0x03 len lt 3 gt val lt 000002 gt 4 6 Place the ULE Node in Hibernate and Wake it Up The ULE Node has several options configurable via EEPROM for entering and exiting hibernation The Node in your Starter Kit has been configured to enter hibernation upon command from the MCU the SLEEP message the VAR window and exit via the Wakeup button OUT2 from the DHAN on the DHX91 EVB see the photo in the e
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