FCC ID: 2AME8BOND-01 The BOND connects remote controlled appliances to WIFI

BOND is launching - get notified!

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I want to participate in the product testing How to:

First things First (/user-guide/#step1) Set up a new Bond Connect the BOND to your home WIFI network (/user-

guide/#step2) Connect to a BOND that is already configured on your WIFI network (/user-

guide/#step3) Add a fan (/user-guide/#step4) Move the BOND from one WIFI network to another (/user-guide/#step5) Control your appliances with Amazon Echo (/user-guide/#step6) 1 Shares 1 How to interact with Alexa (/user-guide/#step7) Set up a timer (/user-guide/#step8) Set up schedule and comfort zones (/user-guide/#step9) FCC Compliance Statement (https://bondhome.io/legal/fcc-compliance-statement/) For more information and video instructions see our BOND is launching - get notified!

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Enter your Email First things First The socket-outlet shall be installed near the equipment and shall be easily accessible Set up a new Bond Connect the BOND to your home WIFI network a. Make sure you have a working wireless network I want to participate in the product testing b. Plug the Bond to an outlet 1 Shares 1 c. The Light ring will be white while the BOND is in boot up mode d. BOND light ring will flicker green when the BOND is ready to be used BOND is launching - get notified!

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I want to participate in the product testing e. Download BOND app at [app store URL]

f. Open the BOND app. 1 Shares 1 BOND is launching - get notified!

i. Create an account if you want to control your appliances with Amazon Echo ii. Just Skip account registration if you do not have an Amazon Echo set up the BOND as stand alone First Name Last Name g. Choose set up a new BOND Enter your Email Join Team BOND!

I want to participate in the product testing h. Go to your iPad Settings, select Wi-Fi, and connect to the BOND network. It should be something like BOND 1X2Y3Z4. 1 Shares 1 i. Select your network you want the BOND to connect to and enter the network password. BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 j. Once connected to your network the BOND light ring will turn blue k. Choose from the list the location of the BOND l. The BOND dash board is now available and you can start adding appliances BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 Connect to a BOND that is already configured on your WIFI network a. This applies to a BOND that was already set up on your network this means that the BOND is already familiar with the WIFI network you want to connect to it connected to c. Open the App and hit skip BOND is launching - get notified!

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I want to participate in the product testing d. In order to connect to the BOND choose connect to an existing BOND 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 found present all the devices that were programmed onto the BOND Add a fan a. From the BOND dashboard choose add Fan b. Choose the function/button that best represent the function of your remote to be programmed into the BOND speed 1 speed 2, Off , light on any will do. c. Start the scanning process on the App BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 d. Aim your remote at the BOND and PRESS and HOLD the function you want to record e. The BOND blue light will flicker as it is scanning your remote:

i. The BOND will start flickering faster once the signal of your remote is detected ii. keep pressing and holding the remote function you want to program as long as the blue light is flickering f. When your remote signal was recorded the BOND light will change to GREEN for two seconds to signal successful recording and then go back to solid blue g. Almost done:

i. If we found your remote in our database no more work on your part. Test it and approve that it is working for you. BOND is launching - get notified!

ii. If your remote is special you will have to repeat the recording process for each function on your remote. First Name Last Name Enter your Email Join Team BOND!

h. Once you are done verifying the programming hit the done and just enjoy the breeze. I want to participate in the product testing Move the BOND from one WIFI network to another a. In order to move the BOND from an existing wifi network to another wifi network the BOND needs to be reset to Access Point mode b. In order to reset the BOND to an access point mode the Reset button needs to be pressed and held for at least 3 seconds until the BLUE light turns to flashing GREEN c. Once the BOND light is flashing GREEN release the RESET button. which in addition to deleting the network information will delete the BOND database/Memory all the reprogrammed remotes 1 Shares 1 and until the Light is blinking WHITE BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 Control your appliances with Amazon Echo to step c. BOND is launching - get notified!

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I want to participate in the product testing b. In the intro screen create a user name and password. 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing c. You can also create a user ID or sign in from the BOND dash board. 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 d. Once a user name and password is created go to the Alexa app and chose skills.e. authenticate the BOND. How to interact with Alexa Example A:

Alexa, Tell HOME BONDto turn the OFFICE FANtoSPEED 1 Example B:

Alexa: Ask HOMEBONDto set the OFFICE FANto LIGHT TOGGLE Example C:Alexa: Ask HOMEBONDto set the KITCHEN FAN to POWER OFF Set up a timer a. On the Fan dash board, click on the timer icon. BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 Light etc BOND is launching - get notified!

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I want to participate in the product testing c. Select the time for the functions to be triggered. 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 d. Once everything is set, click on Start, and the countdown will begin. You can countdown will also be shown at the Fan dash board. BOND is launching - get notified!

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I want to participate in the product testing e. You can pause or stop a timer at anytime. 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing Set up schedule and comfort zones a. On the Fan dash board screen, click on the calendar icon. 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing b. A calendar will open with a week schedule 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 button. A popover will appear with the settings setup BOND is launching - get notified!

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I want to participate in the product testing d. A Calendar event must have a Start Time and End Time 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing e. Calendar event can have a Fan Function defined ( speed, light etc) OR Temperature and Humidity settings 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing until the temperature and humidity settings are metg. the week days by selecting which days it will be repeated. 1 Shares 1 BOND is launching - get notified!

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I want to participate in the product testing 1 Shares 1 User Manual and User Information for Part 15 Devices device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. However, there is no guarantee that interference will not occur in a particular installation. This Device meets the FCC Radio Frequency Emission Guidelines and is certified with the FCC as the FCC ID number found on the back of the Device. Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance of 20 cm between the radiator and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. BOND is launching - get notified!

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(mailto:?subject=User Guide&body=https://bondhome.io/user-guide/) About Olibra Olibra develops technologies designed to connect traditional remote-controlled household devices to the smart home. Their flagship product, the BOND, is the first to enable the inclusion of RF remote-controlled devices into the connected home ecosystem. Contact Us Address 45 Legion Dr Cresskill, NJ 07626. Email us:

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FCC Compliance Statement (https://bondhome.io/legal/fcc-compliance-statement/) I want to participate in the product testing 2017Olibra, LLC. All Rights Reserved. 1 Shares 1

MT7628/7603/7636 ATE User Manual 1.01 2014-09-02 Version:

Release date:

2014 MediaTek Inc. This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Specifications are subject to change without notice. M MediaTek Confidential 2014 MediaTek Inc. Page 2 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Document Revision History Revision Date Author Description 1.0 2014-07-16 Yuchi Wang 1.01 2014-09-02 Yuchi Wang Modify ATE User Manual V2.6 for MT7603, MT7628, MT7636 Modify Recommended flow for Rx/Tx, shift set channel to the last command, which responsible for BW switch also MediaTek Confidential 2014 MediaTek Inc. Page 3 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Table of Contents Document Revision History ......................................................................................................................... 3 Table of Contents ................................................................................................................................... 4 Introduction................................................................................................................................... 6 1 1.1 ATE Command List .............................................................................................................. 7 ATE....................................................................................................................... 7 ATEDA ................................................................................................................. 7 ATESA .................................................................................................................. 7 ATEBSSID ............................................................................................................ 8 ATECHANNEL ..................................................................................................... 8 ATETXPOW0 ....................................................................................................... 8 ATETXPOW1 ....................................................................................................... 8 ATETXFREQOFFSET.......................................................................................... 9 ATETXLEN ........................................................................................................... 9 ATETXCNT .......................................................................................................... 9 ATETXMODE ....................................................................................................... 9 ATETXBW .......................................................................................................... 10 ATETXGI ............................................................................................................ 10 ATETXMCS ........................................................................................................ 10 ATETXANT ......................................................................................................... 10 ATERXANT ........................................................................................................ 11 ATESHOW ......................................................................................................... 11 ATEHELP ........................................................................................................... 11 ResetCounter ..................................................................................................... 11 ATERRF ............................................................................................................. 12 ATEIPG .............................................................................................................. 12 ATEPAYLOAD ................................................................................................... 12 ATEFIXEDPAYLOAD ......................................................................................... 12 ATELDE2P ......................................................................................................... 12 SKUEnable ......................................................................................................... 13 ATE command examples ........................................................................................................... 14 1.1.1 1.1.2 1.1.3 1.1.4 1.1.5 1.1.6 1.1.7 1.1.8 1.1.9 1.1.10 1.1.11 1.1.12 1.1.13 1.1.14 1.1.15 1.1.16 1.1.17 1.1.18 1.1.19 1.1.20 1.1.21 1.1.22 1.1.23 1.1.24 1.1.25 2.1 Check EVM and TX power ................................................................................................. 14 2.2 Check TX Carrier ................................................................................................................ 14 2.3 Check TX spectrum mask .................................................................................................. 15 2.4 Frequency offset tuning ...................................................................................................... 15 2.5 Rx Test ............................................................................................................................... 15 2.6 Show ATE parameters ....................................................................................................... 16 2.7 ATE Help ............................................................................................................................ 16 2.8 MT7603 Internal PA Tx Power Calibration ......................................................................... 17 ATE TX calibration sequence, step.1~3 ............................................................. 17 MT7603 ATE TX verification sequence, step.4~6.............................................. 21 2.9 MT7603 External PA Tx Power Calibration ........................................................................ 22 2.8.1 2.8.2 2 MediaTek Confidential 2014 MediaTek Inc. Page 4 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 2.9.1 ATE TX calibration sequence, step.1~6 ............................................................. 22 EERPOM Access Mode switch Mechanism ............................................................................. 25 3.2 3.1 In WLAN Profile Setting ...................................................................................................... 25 3.1.1 E2pAccessMode ................................................................................................ 25 iwpriv Command support .................................................................................................... 25 bufferWriteBack .................................................................................................. 25 3.2.1 bufferLoadFromBin ............................................................................................. 25 3.2.2 bufferLoadFromEfuse......................................................................................... 26 3.2.3 3.2.4 efuseFreeNumber .............................................................................................. 26 efuseDump ......................................................................................................... 26 3.2.5 3.3 Efuse Buffer mode Example ............................................................................................... 26 FAQ .............................................................................................................................................. 28 3 4 MediaTek Confidential 2014 MediaTek Inc. Page 5 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 1 Introduction This document is the user manual of M testing flow and ATE command examples. testing flow and ATE command examples. is the user manual of MediaTek Wi-Fi Chip ATE usage. It covers ATE command list, Fi Chip ATE usage. It covers ATE command list, MediaTek Confidential 2014 MediaTek Inc. Page 6 of 29 This document contains information that is proprietary to MediaTek Inc. This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 1.1 ATE Command List All of ATE commands are executed through the iwpriv command as below format. Example:

iwpriv ra0 set [parameters] = [value]

1.1.1 ATE Description:

Set ATE actions. Value:

ATESTART: Enter/Reset ATE mode and set Tx/Rx Idle. ATESTOP: Leave ATE mode. TXCARR: Send out single carrier wave at channel frequency from hardware for frequency calibration. TXCONT: Send out frames without time gap from hardware for power mask. TXFRAME: Send out WIFI frames from driver, Transmit frame, for EVM. RXFRAME: Receive all frames from MAC block, Continuous RX, for PER/FER. Example:

iwpriv ra0 set ATE=ATESTART 1.1.2 ATEDA Description:

Set ATE frame header address 1. Value:

xx:xx:xx:xx:xx:xx [xx = hex value]

Example:

iwpriv ra0 set ATEDA=00:11:22:33:44:55 Note: STA mode, ATEDA Header address3 1.1.3 ATESA Description:

Set ATE frame header address 3. Value:

xx:xx:xx:xx:xx:xx [xx = hex value]

Example:

iwpriv ra0 set ATESA=00:aa:bb:cc:dd:ee MediaTek Confidential 2014 MediaTek Inc. Page 7 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Note: STA mode, ATESA Header address2 1.1.4 ATEBSSID Description:

Set ATE frame header address 2. Value:

xx:xx:xx:xx:xx:xx

[xx = hex value]

Example:

iwpriv ra0 set ATEBSSID=00:aa:bb:cc:dd:ee Note: STA mode, ATEBSSID Header address1 1.1.5 ATECHANNEL Description:

Set ATE Channel, decimal. Value:

802.11b/g: [1 -14]. Decimal value. 802.11a: [36 -173]. Please follow 5GHz channel setting. Decimal value. Example:

iwpriv ra0 set ATECHANNEL=6 1.1.6 ATETXPOW0 Description:

Set ATE Tx power for Antenna 0. Value:

0 ~ 31 ; 2.4GHz, 5-bits only, decimal Example:

iwpriv ra0 set ATETXPOW0=15 1.1.7 ATETXPOW1 Description:

Set ATE Tx power for Antenna 1. Only needed to specify antenna 1when it is in continuous Tx and Tx tone mode. It is available on 2x2 and 3X3 device. MediaTek Confidential 2014 MediaTek Inc. Page 8 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Value:

0 ~ 31 ; 2.4GHz, 5-bits only, decimal Example:

iwpriv ra0 set ATETXPOW1=15 1.1.8 ATETXFREQOFFSET Description:

Set ATE RF frequency offset. Value:

0 ~ 63 ; unit: 2KHz, decimal value Example:

iwpriv ra0 set ATETXFREQOFFSET=40 1.1.9 ATETXLEN Description:

Set ATE frame length. Value:

24 ~ 1500 ; decimal value Example:

iwpriv ra0 set ATETXLEN=1500 1.1.10 ATETXCNT Description:

Set ATE frame Tx count. Value:

1 ~; 32-bit, decimal value Example:

iwpriv ra0 set ATETXCNT=10000 1.1.11 ATETXMODE Description:

Set ATE Tx Mode. Value:

0:

1:

2:

3:

CCK OFDM HT_MIX Green Field Example:

802.11b 802.11g 802.11b/g/n 802.11n MediaTek Confidential 2014 MediaTek Inc. Page 9 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. iwpriv ra0 set ATETXMODE=1 1.1.12 ATETXBW Description:

Set ATE Tx and Rx Bandwidth. Value:

0:

1:

20MHz 40MHz Example:

iwpriv ra0 set ATETXBW=0 1.1.13 ATETXGI Description:

Set ATE Tx Guard Interval. Value:

0:

1:

Long GI Short GI Example:

iwpriv ra0 set ATETXGI=0 1.1.14 ATETXMCS Description:

Set ATE Tx MCS type. Value:

Example:

0 ~ 15 iwpriv ra0 set ATETXMCS=0 When ATE TX Mode is CCK/OFDM/HT, MCS 0~7 1ss , 8~15 2ss, Note:

1.1.15 ATETXANT Description:

Set ATE TX antenna. Value:

0:

1:

2:

3:

All Antenna TX Antenna 0 TX Antenna 1 TX Antenna 2 TX (Only available @ 3x3) MediaTek Confidential 2014 MediaTek Inc. Page 10 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Example:

iwpriv ra0 set ATETXANT=0 1.1.16 ATERXANT Description:

Set ATE RX antenna. Value:

0:

1:

2:

3:

All Antenna RX Antenna 0 RX Antenna 1 RX Antenna 2 RX (only available @ 3x3) Example:

iwpriv ra0 set ATERXANT=0 1.1.17 ATESHOW Description:

Show all parameters of ATE. Value:

1: Display all parameters of ATE Example:

iwpriv ra0 set ATESHOW=1 1.1.18 ATEHELP Description:

List all commands of ATE. Value:

1: List all ATE command Example:

iwpriv ra0 set ATEHELP=1 1.1.19 ResetCounter Description:

Reset statistic counter. Value:

0 : Reset ATE statistic counter. Example:

MediaTek Confidential 2014 MediaTek Inc. Page 11 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. iwpriv ra0 set ResetCounter=1 1.1.20 ATERRF Description:

Read all of the RF registers. Value:

1: Read all RF registers Example:

iwpriv ra0 set ATERRF=1 1.1.21 ATEIPG Description:

Set ATE Tx frame Inter-packet gap. Value: 200 ; decimal (Default) Example:

iwpriv ra0 set ATEIPG=200 1.1.22 ATEPAYLOAD Description:

Set ATE payload pattern for Tx Frame. Value: x ; only one octet acceptable Example:

iwpriv ra0 set ATEPAYLOAD=10 1.1.23 ATEFIXEDPAYLOAD Description:

Set ATE fixed/random payload pattern for TxFrame. 0: random payload 1: enable Fixed payload Value:

Example:

iwpriv ra0 set ATEFIXEDPAYLOAD=1 1.1.24 ATELDE2P Description: Load and write EEPROM from a binary file prepared in advance. MediaTek Confidential 2014 MediaTek Inc. Page 12 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Value: File path of the EEPROM binary file Example:

iwpriv ra0 set ATELDE2P=/etc/Wireless/RT2870STA/e2p.bin 1.1.25 SKUEnable Description: On/Off Single Sku function Value: 0: off, 1: on Example:

Iwpriv ra0 set SKUEnable=1

==>SetSKUEnable_Proc (ON) mt7628_switch_channel(): Switch to Ch#1(2T2R), BBP_BW=1 MediaTek Confidential 2014 MediaTek Inc. Page 13 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 2 ATE command examples 2.1 Check EVM and TX power 2.4GHZ Band, Channel=1, OFDM mode, MCS=7, BW=20, Short GI, TX0 Power=18, TX count=10000, ATE mode = TXFRAME, and Frequency offset=10. iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATEDA=00:11:22:33:44:55 iwpriv ra0 set ATESA=00:aa:bb:cc:dd:ee iwpriv ra0 set ATEBSSID=00:11:22:33:44:55 iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=1 iwpriv ra0 set ATETXGI=0 iwpriv ra0 set ATETXLEN=1024 iwpriv ra0 set ATETXANT=1 iwpriv ra0 set ATETXPOW0=18 iwpriv ra0 set ATETXCNT=100000 iwpriv ra0 set ATETXFREQOFFSET=10 iwpriv ra0 set ATE=TXFRAME

//Adjust TX0 power iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXPOW0=20 iwpriv ra0 set ATE=TXFRAME 2.2 Check TX Carrier 2.4GHZ Band, Channel=1, OFDM mode, MCS=7, BW=20, TX0 Power=5, TX count=0

(Continuously), ATE mode = TXCARR, and Frequency offset=19. iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=1 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXANT=1 iwpriv ra0 set ATETXPOW0=5 iwpriv ra0 set ATETXFREQOFFSET=19 iwpriv ra0 set ATE=TXCARR MediaTek Confidential 2014 MediaTek Inc. Page 14 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 2.3 Check TX spectrum mask 2.4GHZ Band, Channel=1, OFDM mode, MCS=7, BW=20, TX0 Power=5, TX count=0, ATE mode = TXCONT, and Frequency offset=10. iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=1 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXFREQOFFSET=10 iwpriv ra0 set ATETXPOW0=5 iwpriv ra0 set ATETXANT=1 iwpriv ra0 set ATE=TXCONT 2.4 Frequency offset tuning 2.4GHZ Band, Channel=1, OFDM mode, MCS=7, BW=20, TX0 Power=5, TX count=0, ATE mode = TXCARR, and Frequency offset=0. iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATECHANNEL=1 iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXFREQOFFSET=0 iwpriv ra0 set ATETXPOW0=5 iwpriv ra0 set ATETXANT=1 iwpriv ra0 set ATE=TXCARR iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXFREQOFFSET=10 iwpriv ra0 set ATE=TXCARR iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXFREQOFFSET=20 iwpriv ra0 set ATE=TXCARR 2.5 Rx Test 2.4GHZ Band, Channel=1, OFDM mode, MCS=7, BW=20, ATE mode = RXFRAME, and Frequency offset=20. iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ResetCounter=0 iwpriv ra0 set ATETXFREQOFFSET=20 iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 MediaTek Confidential 2014 MediaTek Inc. Page 15 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. iwpriv ra0 set ATECHANNEL=1 iwpriv ra0 set ATE=RXFRAME iwpriv ra0 stat iwpriv ra0 set ATERXANT=1

//Read statistic 2.6 Show ATE parameters iwpriv ra0 set ATESHOW=1 Result:

Mode=4 TxPower0=0 TxPower1=0 TxAntennaSel=0 RxAntennaSel=0 BBPCurrentBW=0 GI=0 MCS=7 TxMode=1 Addr1=00:11:22:aa:bb:cc Addr2=00:11:22:aa:bb:cc Addr3=00:11:22:aa:bb:cc Channel=1 TxLength=1024 TxCount=40000 TxRate=11 RFFreqOffset=0 2.7 ATE Help iwpriv ra0 set ATEHELP=1 Result:

ATE=ATESTART, ATESTOP, TXCONT, TXCARR, TXFRAME, RXFRAME ATEDA ATESA ATEBSSID ATECHANNEL, range:0~14 ATETXPOW0, set power level of antenna 1. ATETXPOW1, set power level of antenna 2. ATETXPOW2, set power level of antenna 3 ATETXANT, set TX antenna. 0: all, 1: antenna one, 2: antenna two. ATERXANT, set RX antenna.0: all, 1: antenna one, 2: antenna two, 3: antenna three. ATETXFREQOFFSET, set frequency offset, range 0~63 ATETXBW, set BandWidth, 0:20MHz, 1:40MHz. ATETXLEN, set Frame length, range 24~1500 ATETXCNT, set how many frame going to transmit. ATETXRATE, set rate, reference to rate table. ATETXMCS, set MCS, reference to rate table. ATETXMODE, set Mode 0: CCK, 1: OFDM, 2: HT-Mix, 3: GreenField, reference to rate table. MediaTek Confidential 2014 MediaTek Inc. Page 16 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. ATETXGI, set GI interval, 0:

ATETXGI, set GI interval, 0: Long, 1: Short ATESHOW, display all parameters of ATE. ATESHOW, display all parameters of ATE. ATEHELP, online help. 2.8 MT7603 Internal Internal PA Tx Power Calibration For ATE TX Power calibration and and verification, please flows the following steps. 2.8.1 ATE TX calibration calibration sequence, step.1~3 Example Flow for iPA Tx Power 2.8.1.1 Step 1: Check EEPROM 1: Check EEPROM Before calibration, please check disable ePA in field 0x35. check the following EEPORM fields. For iPA Tx Power Calibration, please For iPA Tx Power Calibration, please 1) 0x35[0:2]:

a. Bit[0]=0/1, disable b. Bit[1]=0/1, disable c. Bit[2]=0/1, 16mA/8mA

=0/1, 16mA/8mA. 1, disable ePA/enable ePA, for 2.4G, 0/1, disable ePA /enable ePA, for 5G 2.8.1.2 Step 2: Check Frequency Offset Step 2: Check Frequency Offset Accuracy 1. Verify the accuracy of frequency offset, if more accurate frequency offset is needed Verify the accuracy of frequency offset, if more accurate frequency offset is needed Verify the accuracy of frequency offset, if more accurate frequency offset is needed MediaTek Confidential 2014 MediaTek Inc. Page 17 of 29 This document contains information that is proprietary to MediaTek Inc. This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 2. Command sequence please reference Frequency offset tuning in previous Chapter 2.8.1.3 Step3: 2.4 G Power calibration (Both Tx0 and Tx1 are necessary) Note:

1. For K-Free IC, there is no need to do TSSI calibration. Therefore, only channel offset power compensation is needed. 2. For channel power compensation in 2.4G, channels are grouped into 3 groups a. group1: 1 ~ 5, corresponding effuse field are [0x59] for Tx0, [0x5F] for Tx1 b. group2: 6 ~ 10, corresponding effuse field are [0x5A] for Tx0, [0x60] for Tx1 c. group3: 11 ~14, corresponding effuse field are [0x5B] for Tx0, [0x61] for Tx1

,and choose one channel from each of the groups for channel power compensation is recommended, ex. choosing 1, 7, and 13 3. Rules for channel offset power compensation field:

a. Bit[7]: 0/1 disable/enable power compensation b. Bit[6]: 0/1 increase/decrease bit[0:5] delta power c. Bit[0:5]: delta power for power compensation, of which maximum is 3 dBm, and resolution is 0.5 dBm. 4. Other power calibration commands (depends on your design flow) 5. 0x58 is the target power when TSSI is on Command Sequence:

iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=1 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXANT=1 iwpriv ra0 set ATETXPOW0=9 iwpriv ra0 set ATETXPOW1=9 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=11 iwpriv ra0 set ATETXPOW1=11 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=10 //supposed this value is the calibration result iwpriv ra0 set ATETXPOW1=10 iwpriv ra0 set ATE=TXFRAME //store the difference between target power and current power setting into corresponding effuse field, in this example, it is 0x59 iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=1 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXANT=2 iwpriv ra0 set ATETXPOW0=9 iwpriv ra0 set ATETXPOW1=9 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW1=11 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW1=10 //supposed this value is the calibration result iwpriv ra0 set ATE=TXFRAME //store the difference between target power and current power setting into corresponding effuse field, in this example, it is 0x5F iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 MediaTek Confidential 2014 MediaTek Inc. Page 18 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=7 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXANT=1 iwpriv ra0 set ATETXPOW0=9 iwpriv ra0 set ATETXPOW1=9 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=11 iwpriv ra0 set ATETXPOW1=11 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=10 //supposed this value is the calibration result iwpriv ra0 set ATETXPOW1=10 iwpriv ra0 set ATE=TXFRAME //store the difference between target power and current power setting into corresponding effuse field, in this example, it is 0x5A iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=7 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXANT=2 iwpriv ra0 set ATETXPOW0=9 iwpriv ra0 set ATETXPOW1=9 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=11 iwpriv ra0 set ATETXPOW1=11 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=10 iwpriv ra0 set ATETXPOW1=10 //supposed this value is the calibration result iwpriv ra0 set ATE=TXFRAME //store the difference between target power and current power setting into corresponding effuse field, in this example, it is 0x60 iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=13 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXANT=1 iwpriv ra0 set ATETXPOW0=9 iwpriv ra0 set ATETXPOW1=9 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=11 iwpriv ra0 set ATETXPOW1=11 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=10 //supposed this value is the calibration result iwpriv ra0 set ATETXPOW1=10 iwpriv ra0 set ATE=TXFRAME ////store the difference between target power and current power setting into corresponding effuse field, in this example, it is 0x5B iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 MediaTek Confidential 2014 MediaTek Inc. Page 19 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. iwpriv ra0 set ATECHANNEL=13 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXANT=2 iwpriv ra0 set ATETXPOW0=9 iwpriv ra0 set ATETXPOW1=9 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=11 iwpriv ra0 set ATETXPOW1=11 iwpriv ra0 set ATE=TXFRAME iwpriv ra0 set ATETXPOW0=10 iwpriv ra0 set ATETXPOW1=10 //supposed this value is the calibration result iwpriv ra0 set ATE=TXFRAME //store the difference between target power and current power setting into corresponding effuse field, in this example, it is 0x61 iwpriv ra0 set ATE=ATESTART At last, write channel compensation value back to the corresponding EEPROM field, which is mentioned at the very beginning of this section. MediaTek Confidential 2014 MediaTek Inc. Page 20 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 2.8.2 Supposed power calibration at channel 1, 7, and 13 is completed. MT7603 ATE TX verification sequence, step.4~6 2.8.2.1 Step4: Write EFUSE buffer, back to effuse/Flash iwpriv ra0 set bufferWriteBack=1 (EFUSE) iwpriv ra0 set bufferWriteBack=2 (Flash) iwpriv ra0 set bufferWriteBack=4 (BufferBin) 2.8.2.2 Step5: Reload EEPROM content iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATE=ATESTOP ifconfig ra0 down ifconfig ra0 up 2.8.2.3 Step6: Verify Tx channel compensation of each channel group iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=1 (=1, 7, 13, for each channel group in verification) iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATETXANT=1 (=1, 2, for each antenna in verification) iwpriv ra0 set ATE=TXFRAME MediaTek Confidential 2014 MediaTek Inc. Page 21 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 2.9 MT7603 External PA Tx Power Calibration MT7603 External PA Tx Power Calibration 2.9.1 ATE TX calibration calibration sequence, step.1~6 Example Flow for MT7621 + MT7603 2.9.1.1 Step 1: Check EEPROM Check EEPROM 1) Before calibration, please please check the following EEPORM fields. For ePA Tx Power Calibration, fields. For ePA Tx Power Calibration, please enable ePA in field 0x35. please enable ePA in field 0x35. a. 0x35[0:2]:

i. Bit[0]=0/

ii. Bit[1]=0/1, iii. Bit[2]=0/1, 16mA/8mA it[2]=0/1, 16mA/8mA. 0/1, disable ePA/enable ePA, for 2.4G, 0/1, disable ePA /enable ePA, for 5G 2) For measuring transmission power vs. temperature variation table set to 0, which disable temperature set to 0, which disable temperature compensation during calibration transmission power vs. temperature variation table, please check 0x36[1] is

, please check 0x36[1] is 2.9.1.2 Step2:

Verify the output power value if it meets customer target power setting, e.g. Verify the output power value if it meets customer target power setting, e.g. OFDM 54M room temperature (25C). OFDM 54M 15dBm, at Command Sequence:

iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATEDA=00:11:22:33:44:55 iwpriv ra0 set ATEDA=00:11:22:33:44:55 MediaTek Confidential 2014 MediaTek Inc. Page 22 of 29 This document contains information that is proprietary to MediaTek Inc. This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. iwpriv ra0 set ATESA=00:aa:bb:cc:dd:ee iwpriv ra0 set ATEBSSID=00:11:22:33:44:55 iwpriv ra0 set ATETXMODE=1 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 iwpriv ra0 set ATECHANNEL=1 iwpriv ra0 set ATETXGI=0 iwpriv ra0 set ATETXLEN=1024 iwpriv ra0 set ATETXCNT=0 iwpriv ra0 set ATE TXFRAME

(Note:Enable temperature compensation) 2.9.1.3 Step3:

1. Wait 5~10 minutes untill TX Power is stable 2. iwpriv ra0 set get_thermal_sensor=1 (Get ADC value) 2.9.1.4 Step4:

1. Read ADC value by step 2~3 2. Repeat step 2~3 and observe the transmission output power variation. Change the environment temperature from low to high when in step 5 operation (the below example, the temperature varied from -40C to +85C) and observe the transmission output power variation. Notice that the test temperature environment should rise from -40C to +85C orderly. Record the temperature and ADC value when transmission power has variation of 1/2/3/4/5/6/7 dB step, which compared with the power at room temperature (25C). Step5:

2.9.1.5 Record the results. For example, transmission power variation vs. temperature variation table Temp (C) ADC value 1F 29 32 3E 47 51 5D

-40

-10 0 25 45 65 85 Disable ALC TX Power (dBm) Power Difference with +25C Power Compensation Value 11g 54Mbps

+3

+2

+1 0

-1

-2

-3

-3

-2

-1 0

+1

+2

+3 25.5 24.5 23.5 22.5 21.5 20.5 19.5 MediaTek Confidential 2014 MediaTek Inc. Page 23 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 2.9.1.6 Fill the record values into EEPROM TX power boundary registers as following:

Step6:

Offset Default (hex) b15 ~b8 (ALC) b7 ~ b0 (ALC) C6h C8h CAh CCh CEh D0h D2h D4h D6h Note:

1. 2. FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF TX power -6 TSSI boundary TX power -4 TSSI boundary TX power -2 TSSI boundary TX power +0 TSSI boundary 2.4G reference temp TX power +2 TSSI boundary TX power +4 TSSI boundary TX power +6 TSSI boundary Reserved 00 00 29 3E 51 7F 7F TX power -7 TSSI boundary TX power -5 TSSI boundary TX power -3 TSSI boundary TX power -1 TSSI boundary 2.4G reference step TX power +1 TSSI boundary TX power +3 TSSI boundary TX power +5 TSSI boundary TX power +7 TSSI boundary 00 00 1F 32 01 47 5D 7F 7F Transmission power will be compensated 1/2/3/4/5/6/7 dB after ADC value exceeding TSSI boundary value. TX power +1 TSSI boundary means that the transmission power will be compensated +1 dB after ADC value exceeding 47. 3. Please note, MUST fill a constant value to the unused threshold. For the low temperature, 4. 5. please fill 0x00. For the high temperature, please fill 0x7F. 2.4G reference step can be used scale of 0.5 or 1dB for compensated power. CEh[0]==0 step is 0.5dBm, CEh[0]==1 step is1dBm. Ex. CEh[0]=0, then CCh[7:0] means TX power -

0.5 TSSI boundary To enable the auto transmit power compensation function, the EEPROM NIC Configuration 0 register Automatic transmission power compensation bit must be enabled 1. For example, we set EEPROM Offset 36h bit[1] = 1 in MT7603E Chip EEPROM Offset Description MT7603E 36h Set bit[1]=1 6. The test temperature is not always at +25degree at customers production line, so we need to get current temperature from IC and mapping the table2 to correct one.

iwpriv ra0 set get_thermal_sensor=0 (Get temperature value) 7. At the moment, the result of get_thermal_sensor could only be seen at kernel log 8. 0xF2 is the target power when TSSI is off MediaTek Confidential 2014 MediaTek Inc. Page 24 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 3 EERPOM Access Mode switch Mechanism This feature is only available after SoftAP driver v2.7.1.2. 3.1 In WLAN Profile Setting The detailed setting in DAT profile is shown as below:

3.1.1 E2pAccessMode Description: Select the EEPROM access mode from interface start-up Value:

E2pAccessMode=2 0: NONE 1: EFUSE mode 2: FLASH mode 3: EEPROM mode 4: BIN FILE mode 3.2 iwpriv Command support iwpriv ra0 set [Parameter]=[Value]

Syntax:

The detailed usage of the new commands is shown as below:

3.2.1 bufferWriteBack Description: Write buffer contents back to EFUSE/FLASH/EEPROM/BIN FILE Value:

iwpriv ra0 set bufferWriteBack=2 0: NONE 1: EFUSE 2: FLASH 3: EEPROM 4: BIN FILE 3.2.2 bufferLoadFromBin Description: Load from BIN file to be the buffer contents, and change to use BIN file mode Value:

MediaTek Confidential iwpriv ra0 set bufferLoadFromBin=0 2014 MediaTek Inc. Page 25 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 0: Disable 1: Enable 3.2.3 bufferLoadFromEfuse Description: Load from eFuse to be the buffer contents, and change to use BIN file mode Value:

iwpriv ra0 set bufferLoadFromEfuse=0 0: Disable 1: Enable 3.2.4 efuseFreeNumber iwpriv ra0 efuseFreeNumber=0 Description: Display current EFUSE free block number Value:

any 3.2.5 efuseDump Description: Dump out EFUSE data Value:

iwpriv ra0 efuseDump=0 any 3.3 Efuse Buffer mode Example Step by Step:

1. Set E2pAccessMode=1 in RT2860AP.dat. If this parameter does not exist, then add it into the profile. 2. Re-load Wi-Fi driver or re-download image/firmware. 3. Perform Wi-Fi RF calibration 4. After you are done with RF calibration, use bufferWriteBack to write data back to the bin file iwpriv ra0 set bufferWriteBack=4 5. If the bin file content is the final result, then use bufferWriteBack to write data into effuse iwpriv ra0 set bufferWriteBack=1 MediaTek Confidential 2014 MediaTek Inc. Page 26 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 6. Set E2pAccessMode=0 in RT2860AP.dat, or remove this parameter from the profile 7. Done MediaTek Confidential 2014 MediaTek Inc. Page 27 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. 4 FAQ FAQ1: After ATE command is typed, there is no available command is shown in console? What should I check next?

Please check the driver is enabled with ATE support or not. In file config.mk

# Support ATE function HAS_ATE=y

# Support QA ATE function HAS_QA_SUPPORT=y In file Makefile, please check below two flags. EXTRA_CFLAGS += -DCONFIG_ATE -DCONFIG_QA FAQ2: Can the driver connect to STA/SofAP during the ATE process?

No, it cant do that. During the ATE process, the driver will be switched into test mode. At mean time, the driver cant work as normal mode. It only processes specific ATE commands for testing WiFi RF purpose. FAQ3: Can QAtool and ATE command be executed at the same time?

No, it cant do that. QAtool and ATE command cant work at the same time. Only one application can be executed at once. FAQ4: In the ATE mode, can the driver perform WiFi throughput test?

No, the same reason as FAQ3. ATE is only for testing purpose. FAQ5: How to turn on debug message in the driver?

To enable debug message, # iwpriv ra0 set Debug=3 FAQ6: How can I verify TX power delta?

Please check the ATE command sequence as below!

iwpriv ra0 set ATE=ATESTART iwpriv ra0 set ATETXMODE=2 iwpriv ra0 set ATETXMCS=7 iwpriv ra0 set ATETXBW=0 MediaTek Confidential 2014 MediaTek Inc. Page 28 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited. iwpriv ra0 set ATECHANNEL=36 iwpriv ra0 set ATETXGI=0 iwpriv ra0 set ATETXANT=1 iwpriv ra0 set ATETXLEN=1024 iwpriv ra0 set ATETXCNT=100000000000 iwpriv ra0 set ATETXFREQOFFSET=25 iwpriv ra0 set ATE=TXFRAME MediaTek Confidential 2014 MediaTek Inc. Page 29 of 29 This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited.