Microchip Technology A092353 ATREB215-XPRO-A User Manual
Atmel Norway AS ATREB215-XPRO-A Users Manual
Users Manual
ATREB215-XPRO-A Test User Manual ATREB215-XPRO-A Extension Board ATREB215-XPRO-A Test User Manual Table of Contents 1. Introduction ........................................................................................ 3 Scope ………………………………………………………………………………………….3 2. Hardware Setup ................................................................................. 4 3. Software Setup .................................................................................. 4 4. Software Installation ........................................................................... 4 5. Hardware and Driver Installation ........................................................ 5 6. Programming SAM4L Xpro board to connect with ATREB215-Xpro-A 6 7. Performance Analyzer ........................................................................ 8 8. Tx Test (Single node / Continuous Transmission) for Sub-1GHz CE Testing …………………………………………………………………......9 8.1 8.2 8.3 8.4 Tx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm .................................. 11 Tx Test: OFDM Option 4, MCS3, 14dBm ........................................................ 12 Tx Test: O-QPSK RateMode 0, 14dBm .......................................................... 13 Tx Test: O-QPSK RateMode 3, 14dBm .......................................................... 14 9. Tx Test (Single node / Continuous Transmission) for Sub-1GHz FCC Testing …………………………………………………………………….15 9.1 9.2 9.3 Tx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm .................................. 15 Tx Test: OFDM Option 1, MCS3, 14dBm ........................................................ 16 Tx Test: O-QPSK RateMode 0, 14dBm .......................................................... 17 10. Tx Test for 2.4GHz Band (Single node / Continuous Transmission (CW/PRBS))..................................................................................... 18 10.1 10.2 10.3 10.4 Tx Test - Legacy O-QPSK, 14dBm ................................................................. 20 Tx Test – MR-FSK operating mode #1, 50kbit/s, 14dBm ................................ 21 Tx Test - OFDM Option 1, MCS3, 14dBm ....................................................... 22 Tx Test - OFDM Option 2, MCS3, 14dBm ....................................................... 23 11. Tx-Rx Test (Transmit and Receive test) for Sub-1GHz CE Testing .. 24 9.1 9.2 9.3 9.4 Tx-Rx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm ............................ 27 Tx-Rx Test: OFDM Option 4, MCS3, 14dBm .................................................. 28 Tx-Rx Test: OQPSK, RateMode 0, 14dBm ..................................................... 29 Tx-Rx Test: OQPSK, RateMode 3, 14dBm ..................................................... 30 12. Tx-Rx Test (Transmit and Receive test) for Sub-1GHz FCC Testing 30 12.1 12.2 12.3 Tx-Rx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm ............................ 30 Tx-Rx Test: OFDM Option 1, MCS3, 14dBm .................................................. 31 Tx-Rx Test: OQPSK, RateMode 0, 14dBm ..................................................... 32 13. Tx-Rx Test for 2.4GHz Band (Transmit and Receive test) ................ 33 9.5 9.6 9.7 9.8 Rx Test – Legacy O-QPSK, 14dBm ................................................................ 35 Rx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm .................................. 36 Rx Test - OFDM Option 1, MCS3, 14dBm ...................................................... 37 Rx Test - OFDM Option 2, MCS 3, 14dBm ..................................................... 38 ATREB215-XPRO-A Test User Manual 1. Introduction Scope The scope of this document is to explain how to install and setup up the required hardware and programming tool for test. Figure 1: Atmel ATREB215-XPRO-A board ATREB215-XPRO-A Test User Manual 2. Hardware Setup 1. 2. 3. 4. ATREB215-XPRO-A Boards SAM4L-XplainedPro Boards micro USB cable 2.4GHz Stubby Antenna (M01-SS2) 5. 1/4 wave - 2 Nos - 2 Nos - 2 Nos - 2No whip Antenna (CTA 868/0/WS/SM/H1) -2No Note: SMA cables not included in the box 3. Software Setup 1. 2. 4. Atmel Studio 6.2 (no need to install again if it is already available in Test PC) SAM4L-XplainedPro Drivers - Installed automatically Software Installation Note: If Atmel Studio 6.2 is already available in Test PC, jump to step 5 in this section and install wireless composer 1. 2. Open the DVD containing the Atmel Studio 6.2 Software package. Click the AStudio61sp2.exe icon to launch Atmel Studio Installation. Figure 3: Atmel Studio Installer 3. Now Atmel Studio will begin the installation Figure 4: Atmel Studio Installation 4. Follow the on-screen instructions to complete the installation Figure 5: Atmel Studio Installation 5. Next install the Wireless Composer extension by clicking the wireless-composer-vsix-stable icon found in the DVD as shown in the following figure. Figure 6: Wireless Composer Installation ATREB215-XPRO-A Test User Manual Hardware and Driver Installation RF 2.4GHz Connect one ATREB215-XPRO-A board to EXT1 connector of the SAM4L-Xplained Pro Board as shown in the figure RF 900MHz 1. REB215 Board Connect REB215 Board at EXT1 DUT- REB215-XPRO 5. COM, EDBG, 900MHz USB for 900MHz + Programming COM- 2.4GHz USB for 2400MHz ATSAM4L Xplained PRO Figure 7: Hardware Setup 2. 3. 4. 5. Connect a micro USB cable from PC to the Debug USB port (USB for 900MHz) for 863MHz EU/915MHz US ISM band operation Connect a micro USB cable from PC to SAM4L USB (USB for 2400MHz) for 2.4GHz ISM band operation. Connect 2.4GHz λ/4 Monopole Antenna (PSTG0-2400HS) with RF 2.4GHz port and connect Rubber Stubby Antenna with SMA Male Straight (IJ28-SS) with RF 900MHz port Next, EDBG Virtual COM port driver installation will begin automatically Figure 8: EDBG Virtual COM PORT Driver installation 6. Click the taskbar notification. When the driver installation is successfully completed, there will be a notificaion as shown below. Figure 9: EDBG Virtual COM PORT Driver installation Note: COM17 from the above figure is an example. The COM Port number varies depending upon the PC.5 ATREB215-XPRO-A Test User Manual 6. Programming SAM4L Xpro board to connect with ATREB215-Xpro-A a. program the Test setup as follows: Open Atmel studio and Go to Tools menu and click Device Programming b. Select the tool as EDBG as shown below c. Click “Apply”, Status LED (yellow color) which is near to power LED starts to glow. Click “Read” which reads Device signature and Target voltage. Next, Click memories for programming. Steps are shown below in sequence ATREB215-XPRO-A Test User Manual d. Save the “PERFORMANCE_ANALYZER_2_SAM4L_RF215v3.hex” file into your PC and choose the correct path of the saved hex file in Atmel Studio and click programming. Steps are shown below in sequence. After programming, close the below window and start using Performance Analyzer. ATREB215-XPRO-A Test User Manual 7. Performance Analyzer 1. Launch Atmel Studio tool by clicking the Atmel Studio icon Figure 10: Launch Atmel Studio 6.1 2. For the first time launch, Atmel studio will show the below error for Wireless Composer. Click Ok. Figure 11: Wirless composer Error 3. From the Atmel Studio Start page, launch Performance Analyzer utility by clicking the icon as shown in below figure. Figure 12: Atmel Studio 6.1 – Start Page 4. After clicking the Performance Analyzer icon, Performance Analyzer window will open as shown in the following figure. ATREB215-XPRO-A Test User Manual Figure 13: Performance Analyzer Ensure the DuT is connected to the PC as explained in Section 5 and step 1 8. Tx Test (Single node / Continuous Transmission) for Sub-1GHz CE Testing 1. Select the COM Port from the dropdown menu and select a COM port to which the kit to be connected and click “Connect” Figure 14: Performance Analyzer – COM Port Selection Note: COM17 from the above figure is an example. The COM Port number varies depending upon the PC. 2. 3. Set the COM settings from the pop-up window. Click “Defaults” and then click “OK” To check “transmit only” functionality; right click on the Kit information area select “Continue as a single node”. This setting is used for continuous transmission. ATREB215-XPRO-A Test User Manual Figure 15: Performance Analyzer – Kit Information 4. Kit / Transceiver properties, Channel Page, Frequency Band, Channel Number, Modulation Scheme and Power level can also be changed in the Performance Analyzer window. Channels Page ‘9’ for SUN Networ Application 863MHz EU or 915MHz US Channel Selection Modulation scheme selection: FSK, OFDM and OQPSK Tx Power Value: ‘0’ for min & ‘31’ for Max Click ‘write’ to program the board after setting all the parameters Figure 16: Performance Analyzer – Transceiver configuration 5. To Transmit CW mode or PRBS mode, click on Certification tab and Continuous transmission and CW or PRBS 10 ATREB215-XPRO-A Test User Manual Figure 17: Performance Analyzer – Continuous Tx mode configuration The center frequency of the MR-FSK, OFDM and OQPSK channels (except the OQPSK operating in the 868–870 MHz) band is defined as follows: 8.1 Tx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm Performance Analyzer configuration settings are Table 1:- Board setting Performance Analyzer Parameter Setting for MR-FSK operating mode #1 Channel Page Frequency band 863MHz EU (863MHz to 870MHz) Channel 0 to 33 Modulation FSK FSK/ModulationOrder 2FSK FSK/DataRate 50 kb/s FSK/FEC On FSK/ModIdx 1.0 FSK/BT Leave at default value; this is applicable only for GFSK mode Tx Power Register Value ‘31’ for Max Power (14dBm) Table 2: Frequency band (MHz) (863MHz to 870MHz) Parameter MR-FSK Operating mode #1 Channel spacing (kHz) 200 ChanCenterFreq0 (MHz) 863.125 11 ATREB215-XPRO-A Test User Manual Click here to start Transmission Click here to stop Transmission Figure 18: MR-FSK operating mode #1– Countinous transmit mode configuration 8.2 Tx Test: OFDM Option 4, MCS3, 14dBm Performance Analyzer configuration settings are Table 3:- Board setting Performance Analyzer Parameter Setting for OFDM Option 4, MCS3 Channel Page Frequency band 863MHz EU (863MHz to 870MHz) Channel 0 to 33 Modulation OFDM OFDM/Option Option4 OFDM/MCS MCS3 Tx Power Register Value ‘31’ for Max Power (14dBm) Table 4: Frequency band (MHz) (863MHz to 870MHz) Parameter OFDM Option 4, MCS 3 mode Nominal bandwidth (KHz) 156 Data rate 100 kb/s Channel spacing (kHz) 200 ChanCenterFreq0 (MHz) 863.125 12 ATREB215-XPRO-A Test User Manual Click here to start Transmission Click here to stop Transmission Figure 19: OFDM option 4, MCS3 – Countinous transmit mode configuration 8.3 Tx Test: O-QPSK RateMode 0, 14dBm Performance Analyser configuration settings are Table 5 Performance Analyzer Parameter Setting for O-QPSK RateMode 0 Channel Page Frequency band 863MHz EU (868MHz to 870MHz) Channel 0, 1 and 2 Modulation OQPSK OQPSK/ChipRate ChipRate 100 OQPSK/RateMode RateMode 0 Tx Power Register Value ‘31’ for Max Power Table 6: Frequency band (868MHz to 870MHz) Channel Number Channel Center Frequency (MHz) 868.3 868.95 869.525 Data Rate: 6.25 kb/s 13 ATREB215-XPRO-A Test User Manual Click here to start Transmission Click here to stop Transmission Figure 20: O-QPSK RateMode 0 – Countinous transmit mode configuration 8.4 Tx Test: O-QPSK RateMode 3, 14dBm Performance Analyser configuration settings are Table 7 Performance Analyzer Parameter Setting for O-QPSK RateMode 3 Channel Page Frequency band 863MHz EU (868MHz to 870MHz) Channel 0, 1 and 2 Modulation OQPSK OQPSK/ChipRate ChipRate 100 OQPSK/RateMode RateMode 3 Tx Power Register Value ‘31’ for Max Power Table 8: Frequency band (868MHz to 870MHz) Channel Number Channel Center Frequency (MHz) 863.3 868.95 869.525 Data Rate: 50 kb/s 14 ATREB215-XPRO-A Test User Manual Figure 21: O-QPSK RateMode 3 – Countinous transmit mode configuration 9. Tx Test (Single node / Continuous Transmission) for Sub-1GHz FCC Testing 9.1 Tx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm Performance Analyzer configuration settings are Table 9:- Board setting Performance Analyzer Parameter Setting for MR-FSK operating mode #1 Channel Page Frequency band 915MHz US (902MHz to 928MHz) Channel 1 to 127 Modulation FSK FSK/ModulationOrder 2FSK FSK/DataRate 50 kb/s FSK/FEC on FSK/ModIdx 1.0 FSK/BT Leave at default value; this is applicable only for GFSK mode Tx Power Register Value ‘31’ for Max Power (14dBm) Table 10: Frequency band (MHz) 915MHz ISM Band Parameter MR-FSK Operating mode #1 Channel spacing (kHz) 200 ChanCenterFreq1 (MHz) 902.4 ATREB215-XPRO-A Test User Manual 15 Click here to start Transmission Click here to stop Transmission Figure 22: MR-FSK operating mode #1– Countinous transmit mode configuration 9.2 Tx Test: OFDM Option 1, MCS3, 14dBm Performance Analyzer configuration settings are Table 11:- Board setting Performance Analyzer Parameter Setting for OFDM Option 1, MCS3 Channel Page Frequency band 915MHz US (902MHz to 928MHz) Channel 0 to 19 Modulation OFDM OFDM/Option Option1 OFDM/MCS MCS3 Tx Power Register Value ‘31’ for Max Power (14dBm) Table 12: Frequency band (MHz) 915MHz ISM Band Parameter OFDM Option 1, MCS 3 mode Nominal bandwidth (KHz) 1094 Data rate 800 kb/s Channel spacing (kHz) 1200 ChanCenterFreq0 (MHz) 903.2 16 ATREB215-XPRO-A Test User Manual Click here to start Transmission Click here to stop Transmission Figure 23: OFDM option1, MCS3 – Countinous transmit mode configuration 9.3 Tx Test: O-QPSK RateMode 0, 14dBm Performance Analyser configuration settings are Table 13 Performance Analyzer Parameter Setting for O-QPSK RateMode 0 Channel Page Frequency band 915MHz US (902MHz to 928MHz) Channel 0 to 11 Modulation OQPSK OQPSK/ChipRate ChipRate 1000 OQPSK/RateMode RateMode 0 Tx Power Register Value ‘31’ for Max Power Table 14: Frequency band (MHz) 915MHz ISM Band Parameter O-QPSK RateMode 0 Channel spacing (MHz) ChanCenterFreq0 (MHz) 904 Data Rate: 31.25 kb/s 17 ATREB215-XPRO-A Test User Manual Click here to start Transmission Click here to stop Transmission Figure 24: O-QPSK RateMode 0 – Countinous transmit mode configuration 10. Tx Test for 2.4GHz Band (Single node / Continuous Transmission (CW/PRBS)) 1. Select the COM Port from the dropdown menu and select a COM port to which the kit to be connected and click “Connect” Figure 14: Performance Analyzer – COM Port Selection Note: COM17 from the above figure is an example. The COM Port number varies depending upon the PC. ATREB215-XPRO-A Test User Manual 18 2. 3. Set the COM settings from the pop-up window. Click “Defaults” and then click “OK” To check “transmit only” functionality; right click on the Kit information area select “Continue as a single node”. This setting is used for continuous transmission. Figure 15: Performance Analyzer – Kit Information 4. Kit / Transceiver properties, Channel Page, Frequency Band, Channel Number, Modulation Scheme and Power level can also be changed in the Performance Analyzer window. Figure 16: Performance Analyzer – Transceiver configuration 19 ATREB215-XPRO-A Test User Manual 5. To Transmit CW mode or PRBS mode, click on Certification tab and Continuous transmission and CW or PRBS Figure 17: Performance Analyzer – Continuous Tx mode configuration 10.1 Tx Test - Legacy O-QPSK, 14dBm Performance Analyzer configuration settings are Table 15 Channel Page Frequency band 2450MHz ISM Band Channel 11 to 26 (2400MHz to 2483.5MHz) Modulation LEG_OQPSK LEG_OQPSK/ChipRate 2000 LEG_OQPSK/DataRate 250 Tx Power Register Value ‘31’ for Max Power (14dBm) Table 16: Frequency band (MHz) 2400–2483.5 (Worldwide) Parameter Channel spacing Legacy O-QPSK mode 5MHz The center frequency of the Legacy O-QPSK channels is defined as follows: Fc = 2405 + 5 (k – 11) in MHz, for k = 11, 12… 26 Where, k is the channel number. 20 ATREB215-XPRO-A Test User Manual Click to start Transmission Click to stop Transmission Figure 18: Legacy O-QPSK - Countinous transmit mode configuration 10.2 Tx Test – MR-FSK operating mode #1, 50kbit/s, 14dBm Performance Analyzer configuration settings are Table 17:- Board setting Channel Page Frequency band 2450MHz ISM Band Channel 3 to 409 (2400MHz to 2483.5MHz) Modulation FSK FSK/ModulationOrder 2FSK FSK/DataRate 50 FSK/FEC off FSK/ModIdx 1.0 FSK/BT Leave at default value; this is applicable only for GFSK mode Tx Power Register Value ‘31’ for Max Power (14dBm) Table 18: Frequency band (MHz) 2400–2483.5 (Worldwide) Parameter MR-FSK Operating mode #1 Channel spacing (kHz) 200 ChanCenterFreq0 (MHz) 2400.2 21 ATREB215-XPRO-A Test User Manual The center frequency of the MR-FSK and OFDM channels is defined as follows: Click to start Transmission Click to stop Transmission Figure 19: MR-FSK operating mode #1– Countinous transmit mode configuration 10.3 Tx Test - OFDM Option 1, MCS3, 14dBm Performance Analyzer configuration settings are Table 19:- Board setting Channel Page Frequency band 2450MHz ISM Band Channel 0 to 63 (2400MHz to 2483.5MHz) Modulation OFDM OFDM/Option Option1 OFDM/MCS MCS3 Tx Power Register Value ‘31’ for Max Power (14dBm) 22 ATREB215-XPRO-A Test User Manual Table 20: Frequency band (MHz) 2400–2483.5 (Worldwide) Parameter OFDM Option 1, MCS 3 mode Nominal bandwidth (KHz) 1094 Data rate 800Kbps Channel spacing (kHz) 1200 ChanCenterFreq0 (MHz) 2401.2 Click to start Transmission Click to stop Transmission Figure 20: OFDM option1– Countinous transmit mode configuration 10.4 Tx Test - OFDM Option 2, MCS3, 14dBm Performance Analyzer configuration settings are Table 21:- Board setting Channel Page Frequency band 2450MHz ISM Band Channel 0 to 96 (2400MHz to 2483.5MHz) Modulation OFDM OFDM/Option Option 2 OFDM/MCS MCS 3 Tx Power Register Value ‘31’ for Max Power (14dBm) 23 ATREB215-XPRO-A Test User Manual Table 22: Frequency band (MHz) 2400–2483.5 (Worldwide) Parameter OFDM Option 2, MCS 3 mode Nominal bandwidth (KHz) 552 Data rate 400Kbps Channel spacing (kHz) 800 ChanCenterFreq0 (MHz) 2400.8 Click to start Transmission Click to stop Transmission Figure 21: OFDM option2– Countinous transmit mode configuration 11. Tx-Rx Test (Transmit and Receive test) for Sub-1GHz CE Testing 1. 2. Connect two DuTs with PC by USB cables to Debug USB for 863MHz EU/915 MHz US ISM band operations and connect with SAM4L USB for 2.4GHz operation. Select one COM Port and click ‘connect’ the device corresponding to that COM port is connected and select “Initiate Peer Search” So other device connect by RF (RF Pairring). (Device connected to COM Port is transmitter and other device is receiver) 24 ATREB215-XPRO-A Test User Manual Figure 25: Performance Analyzer – Paring devices 3. When both the devices are paired, the following window appears and it is ready to perform PER (Packet Error Rate) test. Tranmitting channel, number of frames (packets); Tx Power value can be configured from the left side of the window. Figure 26: Performance Analyzer – PER Test Configuration 4. PER test is Transmit and Receive test. Number of transmit packets can be set by changing “Test Frames Count” 25 ATREB215-XPRO-A Test User Manual Figure 27: Performance Analyzer – Transmit Packets 5. Run Single PER Test. Test parameter window display the Transmit packets (Frames transmitted), Receive packets (Frames received) and RSSI (receive signal strength) Figure 28: Performance Analyzer – PER Test 26 ATREB215-XPRO-A Test User Manual 9.1 Tx-Rx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm Performance Analyzer configuration settings for transmit and receive test Table 23:- Board setting Performance Analyzer Parameter Setting for MR-FSK operating mode #1 Frame length 20 Test Frames count 100 Channel Page Frequency band 863MHz EU (863MHz to 870MHz) Channel 0 to 33 Modulation FSK FSK/ModulationOrder 2FSK FSK/DataRate 50 kb/s FSK/FEC on FSK/ModIdx 1.0 FSK/BT Leave at default value; this is applicable only for GFSK mode Tx Power Register Value ‘31’ for Max Power (14dBm) Figure 29: MR-FSK operating mode #1- PER Test 27 ATREB215-XPRO-A Test User Manual 9.2 Tx-Rx Test: OFDM Option 4, MCS3, 14dBm Performance Analyzer configuration settings for transmit and receive test Table 24:- Board setting Performance Analyzer Parameter Setting for OFDM Option 4, MCS3 mode Frame length 20 Test Frames count 100 Channel Page Frequency band 863MHz EU (863MHz to 870MHz) Channel 0 to 33 Modulation OFDM OFDM/Option Option4 OFDM/MCS MCS3 Tx Power Register Value ‘31’ for Max Power (14dBm) Figure 30: OFDM Option4, MCS3 mode - PER Test ATREB215-XPRO-A Test User Manual 28 9.3 Tx-Rx Test: OQPSK, RateMode 0, 14dBm Performance Analyser configuration settings for transmit and receive test Table 25:- Board setting Performance Analyzer Parameter Setting for OQPSK, RateMode 0 Frame Length 20 Test Frames count 100 Channel Page Frequency band 863MHz EU (868MHz to 870MHz) Channel 0, 1 and 2 Modulation OQPSK OQPSK/ChipRate ChipRate 100 OQPSK/RateMode RateMode 0 Tx Power Register Value 31 Figure 31: OQPSK, RateMode 0 - PER Test 29 ATREB215-XPRO-A Test User Manual 9.4 Tx-Rx Test: OQPSK, RateMode 3, 14dBm Performance Analyser configuration settings for transmit and receive test Table 26:- Board setting Performance Analyzer Parameter Setting for OQPSK, RateMode 3 Frame Length 20 Test Frames count 100 Channel Page Frequency band 863MHz EU (868MHz to 870MHz) Channel 0, 1 and 2 Modulation OQPSK OQPSK/ChipRate ChipRate 100 OQPSK/RateMode RateMode 3 Tx Power Register Value 31 Figure 32: OQPSK, RateMode 3 - PER Test 12. Tx-Rx Test (Transmit and Receive test) for Sub-1GHz FCC Testing 12.1 Tx-Rx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm Performance Analyzer configuration settings for transmit and receive test Table 27:- Board setting Performance Analyzer Parameter Setting for MR-FSK operating mode #1 Frame length 20 30 ATREB215-XPRO-A Test User Manual Test Frames count 100 Channel Page Frequency band 915MHz US (902MHz to 928MHz) Channel 1 to 127 Modulation FSK FSK/DataRate 50 kb/s FSK/ModulationOrder 2FSK FSK/FEC on FSK/ModIdx 1.0 FSK/BT Leave at default value; this is applicable only for GFSK mode Tx Power Register Value ‘31’ for Max Power (14dBm) Figure 33: MR-FSK operating mode #1- PER Test 12.2 Tx-Rx Test: OFDM Option 1, MCS3, 14dBm Performance Analyzer configuration settings for transmit and receive test Table 28:- Board setting Performance Analyzer Parameter Setting for OFDM Option 1, MCS3 mode Frame length 20 Test Frames count 100 Channel Page 31 ATREB215-XPRO-A Test User Manual Frequency band 915MHz US (902MHz to 928MHz) Channel 0 to 19 Modulation OFDM OFDM/Option Option1 OFDM/MCS MCS3 Tx Power Register Value ‘31’ for Max Power (14dBm) Figure 34: OFDM Option 1, MCS3 mode - PER Test 12.3 Tx-Rx Test: OQPSK, RateMode 0, 14dBm Performance Analyser configuration settings for transmit and receive test Table 29:- Board setting Performance Analyzer Parameter Setting for O-QPSK RateMode 0 Frame Length 20 Test Frames count 100 Channel Page Frequency band 915MHz US (902MHz to928MHz) Channel 0 to 11 32 ATREB215-XPRO-A Test User Manual Modulation OQPSK OQPSK/ChipRate ChipRate 1000 OQPSK/RateMode RateMode 0 Tx Power Register Value 31 Figure 35: OQPSK, RateMode 0 - PER Test 13. Tx-Rx Test for 2.4GHz Band (Transmit and Receive test) 1. 2. Connect two devices with PC by USB cables and so both are power up. Select one COM Port and click ‘connect’ the device corresponding to that COM port is connected and select “Initiate Peer Search” So other device connect by RF (RF Pairring). (Device connected to COM Port is transmitter and other device is receiver) 33 ATREB215-XPRO-A Test User Manual Figure 22: Performance Analyzer – Paring devices 3. When both the devices are paired, the following window appears and it is ready to perform PER (Packet Error Rate) test. Tranmitting channel, number of frames (packets), Tx Power value can be configured from the left side of the window. Figure 23: Performance Analyzer – PER Test Configuration 4. PER test is Transmit and Receive test. Number of transmit packets can be set by changing “Test Frames Count” 34 ATREB215-XPRO-A Test User Manual Figure 24: Performance Analyzer – Transmit Packets 5. Run Single PER Test. Test parameter window display the Transmit packets (Frames transmitted), Receive packets (Frames received) and RSSI (receive signal strength) Figure 25: Performance Analyzer – PER Test 9.5 Rx Test – Legacy O-QPSK, 14dBm Performance Analyzer configuration settings for transmit and receive test Table 30:- Board setting Frame Length 20 Test Frames count 100 35 ATREB215-XPRO-A Test User Manual Channel Page Frequency band 2450MHz ISM Band Channel 11 to 26 (2400MHz to 2483.5MHz) Modulation LEG_OQPSK LEG_OQPSK/ChipRate ChipRate 2000 LEG_OQPSK/DataRate DataRate 250 Tx Power Register Value ‘31’ for Max Power (14dBm) Figure 26: Legacy O-QPSK PER Test 9.6 Rx Test: MR-FSK operating mode #1, 50kbit/s, 14dBm Performance Analyzer configuration settings for transmit and receive test Table 31:- Board setting Frame length 20 Test Frames count 100 Channel Page Frequency band 2450MHz ISM Band Channel 3 to 409 (2400MHz to 2483.5MHz) Modulation FSK FSK/DataRate 50Kbps FSK/ModulationOrder 2FSK 36 ATREB215-XPRO-A Test User Manual FSK/FEC off FSK/ModIdx 1.0 FSK/BT Leave at default value; this is applicable only for GFSK mode Tx Power Register Value ‘31’ for Max Power (14dBm) Figure 27: MR-FSK operating mode #1- PER Test 9.7 Rx Test - OFDM Option 1, MCS3, 14dBm Performance Analyzer configuration settings for transmit and receive test Table 32:- Board setting Frame length 20 Test Frames count 100 Channel Page Frequency band 2450MHz ISM Band Channel 0 to 63 (2400MHz to 2483.5MHz) Modulation OFDM OFDM/Option Option1 OFDM/MCS MCS3 Tx Power Register Value ‘31’ for Max Power (14dBm) 37 ATREB215-XPRO-A Test User Manual Figure 28: OFDM Option1- PER Test 9.8 Rx Test - OFDM Option 2, MCS 3, 14dBm Performance Analyzer configuration settings for transmit and receive test Table 33:- Board setting Frame Length 20 Test Frames count 100 Channel Page Frequency band 2450MHz ISM Band Channel 0 to 96 (2400MHz to 2483.5MHz) Modulation OFDM OFDM/Option Option2 OFDM/MCS MCS 3 Tx Power Register Value ‘31’ for Max Power (14dBm) 38 ATREB215-XPRO-A Test User Manual Figure 29: OFDM Option2- PER Test 39 ATREB215-XPRO-A Test User Manual FCC Caution: Any Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. This module is intended for OEM integrator. The OEM integrator is still responsible for the FCC compliance requirement of the end product, which integrates this module The final end product must be labeled in a visible area with the following” Contains FCC ID: VM4A092353 FCC Radiation Exposure Statement: This equipment complies with FCC radiation exposure limits set forth for uncontrolled environment .This equipment should be installed and operated with minimum distance 20cm between the radiator& your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. IC Warning: This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) This device may not cause interference, and (2) This device must accept any interference, including interference that may cause undesired operation of the device. Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil nedoit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement. The device been tested is compliance with RF field strength limits, users can obtain Canadian information on RF exposure and compliance.The minimum distance from body to use the device is 20cm. Le présent appareil est conforme Après examen de ce matériel aux conformité ou aux limites d’intensité de champ RF, les utilisateurs peuvent sur l’exposition aux radiofréquences et la conformité and compliance d’acquérir les informations correspondantes. La distance minimale du corps à utiliser le dispositif est de 20cm. Contains transmitter module IC: 11019A-092353 Where 11019A-092353 is the module’s certification number. 40 ATREB215-XPRO-A Test User Manual Atmel Corporation Atmel Asia Limited Atmel Munich GmbH Atmel Japan G.K. 1600 Technology Drive Unit 01-5 & 16, 19F Business Campus 16F Shin-Osaki Kangyo Bldg. San Jose, CA 95110 BEA Tower, Millennium City 5 Parkring 4 1-6-4 Osaki, Shinagawa-ku USA 418 Kwun Tong Road D-85748 Garching b. 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Atmel does not make any commitment to update the information contained herein. Unless specifically provided otherwise, Atmel products are not suitable for, and shall not be used in, automotive applications. Atmel products are not intended, authorized, or warranted for use as components in applications intended to support or sustain life. 41 ATREB215-XPRO-A Test User Manual
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