FCC ID: 2AT5F-SY-101A WiFi Camera

 

FCC ID2AT5F-SY-101A IP Camera Operation Manual Dearusers,youarewelcometochoosethisproduct.Beforeusingtheproduct, pleasereadtheinstructionmanualcarefullyandkeepitforlaterreference 1Main Function Description 2How To Download Mobile APP Search and download YCC365 Plus in Apple Store or Android app store. Scan the QR code as below 3How To Operate The Mobile APP 3.1Register an account When you use this app at the first time, you need to use your email to register an account, click Sign Up and set a password according this procedure.

*If you forget your password, you can reset your password, just click "Forgot password on the login page.

*Password should be at least 6 characters and not longer than 30 characters. It should be a combination of letters and numbers. Tips: the current version only supports mobile phone number registration in Vietnam. Please use email to register in other areas 3.2Addcamera Note:thecameraonlysupports2.4GWIFI,beforeaddingdevices,makesureyourrouteris 2.4GWIFI,andyourphoneisconnectedto2.4GWIFI. 3.2.1Scan QR code to add Please make your phone connect to the Wi-Fi, and then click Device adding by scanning the code, reset the camera, after hearing the voice Please configure camera by scanning code or AP hotspot, please click the Connect to the network. Select your own Wi-Fi and login with your password. Align the two-dimensional code displayed on the phone with the camera lens, maintain a distance of 4-8 inches and keep balance. Click I heard the beep voice after hearing the beep, a few seconds later, you will hear the voice Internet connected welcome to use cloud camera. 3.2.2Additionbyconnectingtonetworkcable(OnlysupportLanportdevice) Please connect Ethernet cable between camera and Wi-Fi router. After your phone connect to the Wi-Fi, Click Add device and Addition by connecting to network cable Please scan the QR code on the device and wait for the network connection to succeed. 3.2.3 AdditionofAPhotspot After your phone connect to a WiFi , please click Add device and Addition of AP hotspot,, after hearing the voice Please configure camera by scanning code or AP hotspot, please click the Connect to the network.ifyoudonothearthevoice,please resetyoucamera. Follow the wizard make your phone connect to CLOUDCAM_XXXX network and ReturntoYCC365plusapp. Click Next and Select your own Wi-Fi and login with your password. Wait for the WiFi connection to succeed then Hear the voice Internet connected welcometousecloudcamera 3.3 AP Direct mode (special) Power up the camera and hear the voice "Please configure camera by scanning code or AP hotspot"(ifyoudon'thearthevoice,resetthecamera OpentheYCC365plusapptoenterthelogininterface,clickLocallogin. MakeyourphoneconnecttoCLOUDCAM_XXXXnetwork ClickAPnetworkeddevicepreviewandClickNext. ScanningthedeviceintheWiFinetwork,thenclickthedevice. Enterusername:adminpassword:12345,clickCONFIRM,thenyoucanpreviewthe screen. 4 Function introduction Realtimepreviewinterface A:Parameter Menu B:Snapshot C:Full Screen D:Video playback E:pantiltreset F:Preset G:Pan&Tilt H:Message I:Videoquality J:Holdtotalk L:Sound K:More Controlwhitelight Viewcloudalbums Videotothephone. 4.1 PTZ/ Preset PTZ Byslidingsteeringwheelorslidingthescreenonthelivepreviewcancontrolthecamera's rotation. Preset 1Clickthepreseticontoenterthepresetmanagementinterface. 2Addthepreset:severalpresetscanbeadded. 3Deletethepreset:clicktheediticontodeletethepresetthathasbeenadded. 4.1.1Addthepreset 4.1.2 Deletethepreset 4.2 Video playback Gentlehint:videoplaybackbydefaultiscloudrecording,ifyouwanttoplaybackthevideoon theTFcard,youcanswitchplayvideosfromtoSDcard. Cloudvideohascolordiscrimination,darkblueindicatesthealarmrecordingandlightblue indicatesnonalarmrecording.TFcardvideocoloruniformlightblue. Clickthedateicontoplaybackthevideooftheselecteddate. Click iconcanadjustthecloudvideoplaybackspeed,butTFcardplaybackdoesnot support. 4.3 Video clip Gentlehint:Onlythecameraswithcloudservicepackagehavethisfeature. Drag the playback cursor and click the clip icon, select start time and click save to the cloud album,enterthevideonameandclicksave. 4.4 Downloadcloudvideo/sharecloudvideo Clickthecloudalbumiconandclickthevideoclip,clickDownloadtosavethevideotoyour phoneorclickSharetoshareyourVideoonFacebookandYouTube. 4.5 cloud video playback Click Message to view the alarm video. 5 Preferences Click in the preview screen, check the parameter menu Renamethedevicename Addclosureplan Sharedwithotherusers 5.1 Cloud Storage service We offer 30-day-long cloud service, everyone can enjoy the cloud storage service for free, after that you can choose to pay for the service with a low cost. ASelect Cloud service and check Subscription packages BThere are three kinds of subscription packages for you, you can choose to pay for this service by monthly or yearly. CWe support PayPal payment system, click Go to PayPal now and then finish the payment ( please install PayPal app in advance ) 5.2 Set TF card recording Mode InserttheTFcardintothecardslotandpoweronthecamera. TFcardrequirements1Memoryspace8128G 2C10TFcard 3useafterformatting. 4 RecommendKingston/SanDisk/Samsung ClickDevicestoragetocheckit ClickMemorycardrecordingmodetoselectthevideomodeofTFcard. 5.3 Notification settings Turn on the sound switch,detect abnormal triggering messagepush sound Turn on the motion switch,detect themotiontriggeringmessagepush Pushnotificationsetting Gentle hintOnly the cameras with cloud service package support mail delivery. 5.4 Other functions settings Device Microphone:

Open / Close the microphone Night Vision 1Off, close the night vision 2On, always open night vision 3Auto, automatic switchover Rotate The Video Feed 180 Flip the picture when the camera is installed under the roof. Wi-Fi Network:

Change the Wi-Fi on the device. Note:

The Wi-Fi must be searchable, if the location changed and the Wi-Fi is different, please reset and connect to a new Wi-Fi again. Device DetailsCheck the ID and the number of the software\hardware of the device. Remove DevicePlease remove the camera in your account if you need to use another account to add the camera. 6Split screen to watchOnly for multiple equipment under the same account) 7 How to use a camera on a computer Log In:www.ucloudcam.com 8 Frequently asked questions 1Cant add the device APlease make sure the camera has been reset. Press the Reset button until hear the prompt tone BOnly support 2.4GHZ Wi-Fi, if your Wi-Fi router is 5GHZ, please switch to 2.4/5GHZ dual mode. CPlease turn on the GPS service before adding the device on the Android mobile phone . After installation is complete, you will be asked to turn on GPS service when you use the app at the first time, if you choose not to turn on the GPS service, please uninstall and reinstall the app again DPlease confirm the camera wasnt binding by the other account. There are four voice prompts in the progress 1Please configure camera by scanning code or AP hot spot 2Select your Wi-Fi and login with your password, after the device makes a noise like beep you will hear this Please wait for Wi-Fi connecting. 3Please wait for internet connecting after getting the Internet ip address. 4Internet connected welcome to use cloud camera AIf you cant go to the second step, please check your Wi-Fi channel is not hidden, and the Wi-Fi router cant be so far from the camera. If this way doesnt work, please scan the QR code to add the camera. BIf you cant go to the third step, please reduce the number of the Wi-Fi users, and delete the special characters of your Wi-Fi password. CIf you cant go to the forth step, please try again, if it still doesnt work, please contact the seller. 3Why does it have a interval while the video is recording to the TF card The size of the video file is limited. Once the video size close to the critical value, the video file will be created and the next video will continue to be recorded, there is a interval but so short. 4The TF card cant be identified Please check the TF card if it meets the quality requirements, when the Wi-Fi signal is not good, it also cant be identified. 5The video recording timeline is blank after the cloud service expired. The video cant be replayed after cloud service expired, if there is no TF card in the camera, the video cant be recorded. If the TF card is always working, but the video files disappeared, please check the Check TF card state, if it is normal in the App but no video has been recorded, please format the TF card. If it still doesnt work, please get a new TF card and try again. 6Why I cant get the notifications on my phone Make sure the App get the message pushing rights Otherwise, when you are watching the real-time video in the App, there is no warning notifications, because its unnecessary to send notifications when you are watching the video online. Advanced message push system, the warning notifications wont be pushed to your phone all the time but it will record all the messages and videos. 7Camera disconnect Please check the power and the Internet then restart the camera. If this way doesnt work please remove the camera and add it again in the App. 8Circle in the video, video runs slowly Circle in the video means its still loading, please check your network environment. 9How do the other people watch the video?

Share the App account with the other people. 10How many people can use the account simultaneously. There is no theoretical limit. 11Why adding camera to another account would fail?

One camera one account, if the other account needs to add the camera, please remove the camera in the current device. 12How can I get my camera connected to the other Wi-Fi. Two ways:

AWhen you need to change to another Wi-Fi without moving the place. Parameter setting >> Wi-Fi Network >> select the Wi-Fi B: When the camera is moved to another place, please start the camera, you will see the Device disconnected on the main page, and then click TROUBLESHOOT to connect to the Wi-Fi again. After sales instruction 1The product will be updated in real time, if there is update, it will not be noticed anymore, please visit our official website for reference. 2Introductions of the basic function of the products are included in the instruction, please users to read all the information carefully. 3lf any problems occur in the usage of the video camera, please contact the Seller 4We have made every effort to ensure the completeness and correctness of contents of the instruction, but there may still some deviations between part of the data and the actual situation, if you have any question or dispute, 5Losses caused by operating without following the instruction of the manual book should be assumed by users. This instruction applies to consumer product. Kindly reminder: if the instruction is updated, it will not be noticed any more, dual video recordingmemory(TFcard/cloudstorage)issupportedbythevideocamera;tobettersafeguard safety of video recording, users could select multiple cloud video recording mode for video cameraviaservicechannels,choosingformonthly/yearlypaymentforstorage. FCC Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

-Reorient or relocate the receiving antenna.

-Increase the separation between the equipment and receiver.

-Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

-Consult the dealer or an experienced radio/TV technician for help. Responsible for compliance could void the users authority to operate this equipment. (Example- use only shielded interface cables when connecting to computer or peripheral devices). the party Any Changes or modifications not expressly approved by responsible for compliance could void the user's authority to operate the equipment. This equipment 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. FCC Radiation Exposure Statement:

The equipment complies with FCC Radiation exposure limits set forth for uncontrolled enviroment. This equipment should be installed and operated with

. minimum distance 20cm between the radiator and your body.

 

 

Appendix FCC ID Label FCC ID: 2AT5F-SY-101A 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. 2. This device must accept any interference received, including interference that may cause undesired operation. Report No.: TB-FCC167634 Page: 1 of 11 FCC ID: 2AT5F-SY-101A TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 2 of 11 Appendix ID Label Location ID LOCATION FCC ID: 2AT5F-SY-101A TB-RF-074-1.0

 

 

Report No.: TB-FCC167634 Page: 3 of 11 Appendix EUT External Photographs Photo 1 Appearance of EUT Photo 2 Appearance of EUT FCC ID: 2AT5F-SY-101A TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 4 of 11 Photo 3 Appearance of EUT Photo 4 Appearance of EUT FCC ID: 2AT5F-SY-101A TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 5 of 11 Photo 5 Appearance of EUT 2.4G WIFI ANT. Photo 6 Appearance of EUT FCC ID: 2AT5F-SY-101A TB-RF-074-1.0

 

 

Report No.: TB-FCC167634 Page: 6 of 11 Appendix EUT Internal Photographs Photo 9 Internal of EUT Photo 10 Internal of EUT FCC ID: 2AT5F-SY-101A TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 7 of 11 Photo 11 Appearance of PCB Photo 12 Appearance of PCB FCC ID: 2AT5F-SY-101A TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 8 of 11 Photo 13 Appearance of PCB Photo 14 Appearance of PCB FCC ID: 2AT5F-SY-101A TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 9 of 11 Photo 15 Appearance of PCB Photo 16 Appearance of PCB FCC ID: 2AT5F-SY-101A TB-RF-074-1.0

 

 

Report No.: TB-FCC167634 Page: 10 of 11 Appendix EUT Test Photographs 15C Test Setup Photo of Setup for Radiated Emission (Above 1 GHz) Photo of Setup for Radiated Emission (Below 1 GHz) FCC ID: 2AT5F-SY-101A TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 11 of 11 Photo of Setup for Conducted Emission

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FCC ID: 2AT5F-SY-101A TB-RF-074-1.0

 

 

Shenzhen Toby Technology Co., Ltd. Report No.: TB-FCC167634 Page: 1 of 80 FCC Radio Test Report FCC ID: 2AT5F-SY-101A Original Grant

: TB-FCC167634

: Shenzhen Sekery Smart Co.,Ltd Report No. Applicant Equipment Under Test (EUT) EUT Name Model No. Series Model No. Brand Name Receipt Date Test Date Issue Date Standards Test Method Conclusions

: WiFi Camera

: SY-101A

: See page 5

:

:

:

:

: FCC Part 15, Subpart C (15.247:2018)

: ANSI C63.10: 2013

: PASS

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2019-07-23 2019-07-24 to 2019-08-04 2019-08-05 In the configuration tested, the EUT complied with the standards specified above, The EUT technically complies with the FCC and IC requirements Test/Witness Engineer :

Engineer Supervisor Engineer Manager

:

:

Jack Deng Ivan Su Ray Lai This report details the results of the testing carried out on one sample. The results contained in this test report do not relate to other samples of the same product. The manufacturer should ensure that all products in series production are in conformity with the product sample detailed in the report. 1A/F., Bldg.6, Yusheng Industrial Zone, The National Road No.107 Xixiang Section 467, Xixiang, Baoan, Shenzhen, China Tel: +86 75526509301 Fax: +86 75526509195 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 2 of 80 Contents 2. 3. 4. CONTENTS ............................................................................................................................................. 2 1. GENERAL INFORMATION ABOUT EUT ............................................................................. 5 1.1 Client Information ................................................................................................................. 5 1.2 General Description of EUT (Equipment Under Test) ................................................... 5 1.3 Block Diagram Showing the Configuration of System Tested ...................................... 6 1.4 Description of Support Units .............................................................................................. 7 1.5 Description of Test Mode .................................................................................................... 7 1.6 Description of Test Software Setting ................................................................................ 8 1.7 Measurement Uncertainty .................................................................................................. 8 1.8 Test Facility ........................................................................................................................... 9 TEST SUMMARY ..................................................................................................................... 10 TEST EQUIPMENT .................................................................................................................. 11 CONDUCTED EMISSION TEST ........................................................................................... 12 4.1 Test Standard and Limit .................................................................................................... 12 4.2 Test Setup ........................................................................................................................... 12 4.3 Test Procedure ................................................................................................................... 12 4.4 EUT Operating Mode ........................................................................................................ 13 4.5 Test Data ............................................................................................................................. 13 RADIATED EMISSION TEST ................................................................................................ 14 5.1 Test Standard and Limit .................................................................................................... 14 5.2 Test Setup ........................................................................................................................... 15 5.3 Test Procedure ................................................................................................................... 16 5.4 EUT Operating Condition ................................................................................................. 16 5.5 Test Data ............................................................................................................................. 17 RESTRICTED BANDS REQUIREMENT ............................................................................. 18 6.1 Test Standard and Limit .................................................................................................... 18 6.2 Test Setup ........................................................................................................................... 18 6.3 Test Procedure ................................................................................................................... 18 6.4 EUT Operating Condition ................................................................................................. 19 6.5 Test Data ............................................................................................................................. 19 BANDWIDTH TEST ................................................................................................................. 20 7.1 Test Standard and Limit .................................................................................................... 20 7.2 Test Setup ........................................................................................................................... 20 7.3 Test Procedure ................................................................................................................... 20 7.4 EUT Operating Condition ................................................................................................. 20 7.5 Test Data ............................................................................................................................. 20 PEAK OUTPUT POWER TEST ............................................................................................. 21 8.1 Test Standard and Limit .................................................................................................... 21 8. 5. 6. 7. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 3 of 80 9. 8.2 Test Setup ........................................................................................................................... 21 8.3 Test Procedure ................................................................................................................... 21 8.4 EUT Operating Condition ................................................................................................. 21 8.5 Test Data ............................................................................................................................. 21 POWER SPECTRAL DENSITY TEST ................................................................................. 22 9.1 Test Standard and Limit .................................................................................................... 22 9.2 Test Setup ........................................................................................................................... 22 9.3 Test Procedure ................................................................................................................... 22 9.4 EUT Operating Condition ................................................................................................. 22 9.5 Test Data ............................................................................................................................. 22 10. ANTENNA REQUIREMENT ................................................................................................... 23 10.1 Standard Requirement .................................................................................................... 23 10.2 Antenna Connected Construction ................................................................................. 23 ATTACHMENT A-- CONDUCTED EMISSION TEST DATA ....................................................... 24 ATTACHMENT C-- RESTRICTED BANDS REQUIREMENT AND BAND-EDGE TEST DATA

................................................................................................................................................................. 41 ATTACHMENT D-- BANDWIDTH TEST DATA ............................................................................. 61 ATTACHMENT E-- PEAK OUTPUT POWER TEST DATA ......................................................... 69 ATTACHMENT F-- POWER SPECTRAL DENSITY TEST DATA .............................................. 73 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 4 of 80 Revision History Report No. Version Description TB-FCC167634 Rev.01 Initial issue of report Issued Date 2019-08-05 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 5 of 80 1. General Information about EUT 1.1 Client Information Applicant Address Manufacturer Address Shenzhen, China

: Shenzhen Sekery Smart Co.,Ltd

: 11F, C6 Building, Hengfeng Industrial Park, Zhoushi Road, BaoAn,

: Shenzhen Sekery Smart Co.,Ltd

: 11F, C6 Building, Hengfeng Industrial Park, Zhoushi Road, BaoAn, Shenzhen, China 1.2 General Description of EUT (Equipment Under Test) EUT Name

: WiFi Camera Models No.

:

Model Difference SY-101A, SY-201A, SY-101T, SY-201T, SY-118A, SY-218A, SY-118T, SY-218T, SY-120A, SY-220A, SY-120T, SY-220T, SY-209T, SY-108T, SY-208T

: All these models are the same PCB, layout and electrical circuit, the only difference is External color. Operation Frequency:

Number of Channel:

802.11b/g/n(HT20): 2412MHz~2462MHz 802.11n(HT40): 2422MHz~2452MHz 802.11b/g/n(HT20):11 channels see note(3) 802.11n(HT40):7 channels see note(3) 802.11b: 9.22dBm 802.11g: 8.66dBm 802.11n (HT20): 7.67dBm 802.11n (HT40): 6.57dBm 802.11b: DSSS(CCK, DQPSK, DBPSK) 802.11g/n: OFDM(BPSK,QPSK,16QAM, 64QAM) 2dBi Dipole Antenna Product Description

:

RF Output Power:

Modulation Type:

Antenna Gain:

AC/DC adapter(Model: SAN-05015) Input:AC100-240V, 1.5A, 50/60Hz Output: DC 5V 1.5A

: V3.1042.9.8656

: BK-38-2.0-V1

:

Please refer to the User's Manual Power Supply

:

Software Version Hardware Version Connecting I/O Port(S) Note:

(1) This Test Report is FCC Part 15.247 for 802.11b/g/n, the test procedure follows the FCC KDB 558074 D01 DTS Meas Guidance v05. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 6 of 80

(2) For a more detailed features description, please refer to the manufacturers specifications or the Users Manual.

(3) Channel List:

Channel 01 02 03 04 Frequency

(MHz) 2412 2417 2422 2427 Channel 05 06 07 08 Frequency

(MHz) 2432 2437 2442 2447 Channel 09 10 11 Frequency

(MHz) 2452 2457 2462 Note: CH 01~CH 11 for 802.11b/g/n(HT20) CH 03~CH 9 for 802.11n(HT40)

(4) The Antenna information about the equipment is provided by the applicant. 1.3 Block Diagram Showing the Configuration of System Tested USB Charging Mode Adapter EUT Cable 1 TX Mode EUT TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 7 of 80 1.4 Description of Support Units Equipment Information Name ADAPTER Model SAN-05015 FCC ID/VOC Manufacturer Used

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/

1.5 Description of Test Mode To investigate the maximum EMI emission characteristics generates from EUT, the test system was pre-scanning tested base on the consideration of following EUT operation mode or test configuration mode which possible have effect on EMI emission level. Each of these EUT operation mode(s) or test configuration mode(s) mentioned follow was evaluated respectively. Final Test Mode Mode 1 Final Test Mode Mode 2 Mode 3 Mode 4 Mode 5 For Conducted Test Description Charging with TX B Mode For Radiated Test Description TX Mode B Mode Channel 01/06/11 TX Mode G Mode Channel 01/06/11 TX Mode N(HT20) Mode Channel 01/06/11 TX Mode N(HT40) Mode Channel 03/06/09 Note:

(1) For all test, we have verified the construction and function in typical operation. And all the test modes were carried out with the EUT in transmitting operation in maximum power with all kinds of data rate. According to ANSI C63.10 standards, the measurements are performed at the highest, Middle, lowest available channels, and the worst case data rate as follows:

802.11b Mode: CCK (1 Mbps) 802.11g Mode: OFDM (6 Mbps) 802.11n (HT20) Mode: MCS 0 (6.5 Mbps) 802.11n (HT40) Mode: MCS 0 (13 Mbps) mode was programmed by the customer.

(2) During the testing procedure, the continuously transmitting with the maximum power

(3) The EUT is considered a portable unit; in normal use it was positioned on X-plane. The worst case was found positioned on X-plane. Therefore only the test data of this X-plane was used for radiated emission measurement test. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 8 of 80 1.6 Description of Test Software Setting During testing channel&Power controlling software provided by the customer was used to control the operating channel as well as the output power level. The RF output power selection is for the setting of RF output power expected by the customer and is going to be fixed on the firmware of the final end product power parameters of WLAN. Test Software Version n/a CH 06 25 27 27 n/a CH 06 28 CH 11 25 27 27 CH 09 28 Channel IEEE 802.11b DSSS IEEE 802.11g OFDM IEEE 802.11n (HT20) Test Software Version Channel IEEE 802.11n (HT40) CH 01 25 27 27 CH 03 28 1.7 Measurement Uncertainty The reported uncertainty of measurement y Uwhere expended uncertainty U is based on a standard uncertainty multiplied by a coverage factor of k=2 providing a level of confidence of approximately 95 %. Test Item Conducted Emission Radiated Emission Radiated Emission Radiated Emission Parameters Level Accuracy:

9kHz~150kHz 150kHz to 30MHz Level Accuracy:

9kHz to 30 MHz Level Accuracy:

30MHz to 1000 MHz Level Accuracy:

Above 1000MHz Expanded Uncertainty (ULab) 3.42 dB 3.42 dB 4.60 dB 4.40 dB 4.20 dB TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 9 of 80 1.8 Test Facility The testing report were performed by the Shenzhen Toby Technology Co., Ltd., in their facilities located at 1A/F., Bldg.6, Yusheng Industrial Zone, The National Road No.107 Xixiang Section 467, Xixiang, Baoan, Shenzhen, Guangdong, China. At the time of testing, the following bodies accredited the Laboratory:

CNAS (L5813) The Laboratory has been accredited by CNAS to ISO/IEC 17025: 2005 General Requirements for the Competence of Testing and Calibration Laboratories for the competence in the field of testing. And the Registration No.: CNAS L5813. A2LA Certificate No.: 4750.01 laboratory has been accredited by American Association The for Laboratory Accreditation(A2LA) to ISO/IEC 170252005 General Requirements for the Competence of Testing and Calibration Laboratories for the technical competence in the field of Electrical Testing. And the A2LA Certificate No.: 4750.01. FCC Accredited Test Site Number:

854351. IC Registration No.: (11950A-1) The Laboratory has been registered by Certification and Engineering Bureau of Industry Canada for radio equipment testing. The site registration: Site# 11950A-1. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 10 of 80 2. Test Summary FCC Part 15 Subpart C(15.247)/ RSS 247 Issue 2 Test Item Judgment Remark Antenna Requirement RSS-GEN 7.2.4 Conducted Emission RSS-GEN 7.2.2 Restricted Bands Standard Section IC FCC 15.203

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15.207 15.205 15.247(a)(2) 15.247(b) 15.247(e) RSS 247 5.2 (1) RSS 247 5.4 (4) RSS 247 5.2 (2) RSS 247 6dB Bandwidth PASS Peak Output Power Power Spectral Density PASS PASS PASS PASS PASS PASS PASS 5.5 15.247(d) 15.247(d)&

Band Edge Transmitter Radiated Spurious Emission Note: / for no requirement for this test item. RSS 247 15.209 5.5 N/A is an abbreviation for Not Applicable. N/A N/A N/A N/A N/A N/A N/A N/A TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 11 of 80 3. Test Equipment Conducted Emission Test Equipment Manufacturer Model No. Serial No. Last Cal. Equipment Manufacturer Model No. Serial No. Last Cal. EMI Test Receiver RF Switching Unit AMN LISN Radiation Emission Test Rohde & Schwarz Compliance Direction Systems Inc SCHWARZBECK Rohde & Schwarz Agilent Rohde & Schwarz Spectrum Analyzer EMI Test Receiver Bilog Antenna Bilog Antenna Horn Antenna Horn Antenna Loop Antenna Pre-amplifier Pre-amplifier Cable Positioning Controller ETS-LINDGREN Antenna Conducted Emission Equipment ETS-LINDGREN ETS-LINDGREN ETS-LINDGREN ETS-LINDGREN SCHWARZBECK Sonoma HP HUBER+SUHNER Manufacturer Spectrum Analyzer Agilent Spectrum Analyzer Rohde & Schwarz MXA Signal Analyzer Agilent Vector Signal Generator Analog Signal Generator Agilent Agilent Cal. Due Date Jul. 12, 2020 Jul. 12, 2020 Cal. Due Date Jul. 12, 2020 Jul. 12, 2020 Jan. 26, 2020 Jan. 26, 2020 Mar. 02, 2020 Mar. 02, 2020 Jul. 12, 2020 Mar. 03, 2020 Mar. 02, 2020 Mar. 02, 2020 N/A Cal. Due Date Jul. 12, 2020 Jul. 12, 2020 Sep. 14, 2019 ESCI RSU-A4 100321 34403 Jul. 13, 2019 Jul. 13, 2019 NNBL 8226-2 ENV216 8226-2/164 101131 Jul. 13, 2019 Jul. 13, 2019 Jul. 12, 2020 Jul. 12, 2020 E4407B ESPI 3142E 3142E 3117 3117 FMZB 1519 B 310N 8449B 100 2090 MY45106456 Jul. 13, 2019 100010/007 Jul. 13, 2019 00117537 00117542 00143207 00143209 1519B-059 185903 3008A00849 SUCOFLEX N/A Jan. 27, 2019 Jan. 27, 2019 Mar.03, 2019 Mar.03, 2019 Jul. 13, 2019 Mar.04, 2019 Mar.03, 2019 Mar.03, 2019 N/A Model No. Serial No. Last Cal. E4407B ESCI N9020A N5182A N5181A MY45106456 Jul. 13, 2019 100010/007 MY49100060 Jul. 13, 2019 Sep. 15, 2018 MY50141294 Sep. 15, 2018 Sep. 14, 2019 MY50141953 Sep. 15, 2018 Sep. 14, 2019 RF Power Sensor DARE!! Instruments RadiPowerRPR3006W DARE!! Instruments RadiPowerRPR3006W DARE!! Instruments RadiPowerRPR3006W DARE!! Instruments RadiPowerRPR3006W 17I00015SNO26 Sep. 15, 2018 Sep. 14, 2019 17I00015SNO29 Sep. 15, 2018 Sep. 14, 2019 17I00015SNO31 Sep. 15, 2018 Sep. 14, 2019 17I00015SNO33 Sep. 15, 2018 Sep. 14, 2019 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 12 of 80 4. Conducted Emission Test 4.1 Test Standard and Limit 4.1.1Test Standard FCC Part 15.207 4.1.2 Test Limit Conducted Emission Test Limit Frequency 150kHz~500kHz 500kHz~5MHz 5MHz~30MHz Maximum RF Line Voltage (dBV) Quasi-peak Level 66 ~ 56 *

Average Level 56 ~ 46 *

56 60 46 50 Notes:

(1) *Decreasing linearly with logarithm of the frequency.

(2) The lower limit shall apply at the transition frequencies.

(3) The limit decrease in line with the logarithm of the frequency in the range of 0.15 to 0.50MHz. 4.2 Test Setup 4.3 Test Procedure The EUT was placed 0.8 meters from the horizontal ground plane with EUT being connected to the power mains through a line impedance stabilization network (LISN). All other support equipments powered from additional LISN(s). The LISN provide 50 Ohm/

50uH of coupling impedance for the measuring instrument. Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 to 40 cm long. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 13 of 80 I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m. LISN at least 80 cm from nearest part of EUT chassis. The bandwidth of EMI test receiver is set at 9kHz, and the test frequency band is from 0.15MHz to 30MHz. 4.4 EUT Operating Mode Please refer to the description of test mode. 4.5 Test Data Please refer to the Attachment A. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 14 of 80 5. Radiated Emission Test 5.1 Test Standard and Limit 5.1.1 Test Standard FCC Part 15.209 5.1.2 Test Limit Radiated Emission Limits ( 9 kHz~1000 MHz) Frequency

(MHz 0.009~0.490 0.490~1.705 1.705~30.0 30~88 88~216 216~960 Above 960 Field Strength

(microvolt/meter) Measurement Distance

(meters) 2400/F(KHz) 24000/F(KHz) 30 100 150 200 500 300 30 30 3 3 3 3 Radiated Emission Limit (Above 1000MHz) Frequency

(MHz) Above 1000 Distance of 3m (dBuV/m) Peak 74 Average 54 Note:

(1) The tighter limit applies at the band edges.

(2) Emission Level(dBuV/m)=20log Emission Level(uV/m) TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 15 of 80 5.2 Test Setup Below 30MHz Test Setup Below 1000MHz Test Setup TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 16 of 80 Above 1GHz Test Setup 5.3 Test Procedure

(1) Measurements at frequency above 1GHz. The EUT was placed on a rotating 1.5m high above the ground. RF absorbers covered the ground plane with a minimum area of 3.0m by 3.0m between the EUT and measurement receiver antenna. The RF absorber shall not exceed 30cm in high above the conducting floor. The table was rotated 360 degrees to determine the position of the highest radiation.

(2) The Test antenna shall vary between 1m and 4m, Both Horizontal and Vertical antenna are set to make measurement.

(3) The initial step in collecting conducted emission data is a spectrum analyzer peak detector mode pre-scanning the measurement frequency range. Significant peaks are then marked and then Quasi Peak detector mode re-measured.

(4) If the Peak Mode measured value compliance with and lower than Quasi Peak Mode Limit Bellow 1 GHz, the EUT shall be deemed to meet QP Limits and then no additional QP Mode measurement performed. But the Peak Value and average value both need to comply with applicable limit above 1 GHz.

(5) Testing frequency range below 1GHz the measuring instrument use VBW=120 kHz with Quasi-peak detection.

(6) Testing frequency range above 1GHz the measuring instrument use RBW=1 MHz and VBW=3 MHz with Peak Detector for Peak Values, and use RBW=1 MHz and VBW=10 Hz with Peak Detector for Average Values.

(7) For the actual test configuration, please see the test setup photo. 5.4 EUT Operating Condition The Equipment Under Test was set to Continual Transmitting in maximum power. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 17 of 80 5.5 Test Data Remark: During testing above 1GHz the measuring instrument use RBW=1 MHz and VBW=3 MHz with Peak Detector for Peak Values, and use RBW=1 MHz and VBW=10 Hz with Peak Detector for Average Values. Please refer to the Attachment B. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 18 of 80 6. Restricted Bands Requirement 6.1 Test Standard and Limit 6.1.1 Test Standard FCC Part 15.247(d) FCC Part 15.209 FCC Part 15.205 6.1.2 Test Limit Restricted Frequency Band

(MHz) 2310 ~2390 2483.5 ~2500 Distance of 3m (dBuV/m) Peak 74 74 Average 54 54 6.2 Test Setup 6.3 Test Procedure

(1) The measuring distance of 3m shall be used for measurements at frequency below 1GHz and above 1 GHz. The EUT was placed on a rotating 0.8m high above ground, the table was rotated 360 degrees to determine the position of the highest radiation.

(2) Measurements at frequency above 1GHz. The EUT was placed on a rotating 1.5m high above the ground. RF absorbers covered the ground plane with a minimum area of 3.0m by 3.0m between the EUT and measurement receiver antenna. The RF absorber shall not exceed 30cm in high above the conducting floor. The table was rotated 360 degrees to determine the position of the highest radiation. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 19 of 80

(3) The Test antenna shall vary between 1m and 4m, Both Horizontal and Vertical antenna are set to make measurement.

(4) The initial step in collecting conducted emission data is a spectrum analyzer peak detector mode pre-scanning the measurement frequency range. Significant peaks are then marked and then Quasi Peak detector mode re-measured.

(5) If the Peak Mode measured value compliance with and lower than Quasi Peak Mode Limit Bellow 1 GHz, the EUT shall be deemed to meet QP Limits and then no additional QP Mode measurement performed. But the Peak Value and average value both need to comply with applicable limit above 1 GHz.

(6) Testing frequency range below 1GHz the measuring instrument use VBW=120 kHz with Quasi-peak detection.

(7) Testing frequency range above 1GHz the measuring instrument use RBW=1 MHz and VBW=3 MHz with Peak Detector for Peak Values, and use RBW=1 MHz and VBW=10 Hz with Peak Detector for Average Values.

(8) For the actual test configuration, please see the test setup photo. 6.4 EUT Operating Condition The Equipment Under Test was set to Continual Transmitting in maximum power. 6.5 Test Data Please refer to the Attachment C. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 20 of 80 7. Bandwidth Test 7.1 Test Standard and Limit 7.1.1 Test Standard FCC Part 15.247 (a)(2) 7.1.2 Test Limit FCC Part 15 Subpart C(15.247)/RSS-210 Test Item Bandwidth Limit Frequency Range(MHz)

>=500 KHz

(6dB bandwidth) 2400~2483.5 7.2 Test Setup 7.3 Test Procedure

(1) The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram above.

(2) The bandwidth is measured at an amplitude level reduced 6dB from the reference level. The reference level is the level of the highest amplitude signal observed from the transmitter at the fundamental frequency. Once the reference level is established, the equipment is conditioned with typical modulating signal to produce the worst case (i.e the widest) bandwidth.

(3)Measure the channel separation the spectrum analyzer was set to Resolution Bandwidth:100 kHz, and Video Bandwidth:300 kHz, Detector: Peak, Sweep Time set auto. 7.4 EUT Operating Condition The EUT was set to continuously transmitting in each mode and low, Digital photo framesdle and high channel for the test. 7.5 Test Data Please refer to the Attachment D. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 21 of 80 8. Peak Output Power Test 8.1 Test Standard and Limit 8.1.1 Test Standard FCC Part 15.247 (b) 8.1.2 Test Limit FCC Part 15 Subpart C(15.247)/RSS-210 Test Item Limit Frequency Range(MHz) Peak Output Power 1 Watt or 30 dBm 2400~2483.5 8.2 Test Setup 8.3 Test Procedure The measurement is according to section 9.1.2 of KDB 558074 D01 DTS Meas Guidance v05. The EUT was connected to RF power meter via a broadband power sensor as show the block above. The power sensor video bandwidth is greater than or equal to the DTS bandwidth of the equipment. 8.4 EUT Operating Condition The EUT was set to continuously transmitting in the max power during the test. 8.5 Test Data Please refer to the Attachment E. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 22 of 80 9. Power Spectral Density Test 9.1 Test Standard and Limit 9.1.1 Test Standard FCC Part 15.247 (e) 9.1.2 Test Limit FCC Part 15 Subpart C(15.247) Test Item Limit Frequency Range(MHz) Power Spectral Density 8dBm(in any 3 kHz) 2400~2483.5 9.2 Test Setup 9.3 Test Procedure The EUT was directly connected to the Spectrum Analyzer and antenna output port as show in the block diagram above. The measurement according to section 10.2 of KDB 558074 D01 DTS Meas Guidance v05.

(1) The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram above.

(2) Set analyser center frequency to DTS channel center frequency.

(3) Set the span to 1.5 times the DTS bandwidth.

(4) Set the RBW to: 3 kHz

(5) Set the VBW to: 10 kHz

(6) Detector: peak

(7) Sweep time: auto

(8) Allow trace to fully stabilize. Then use the peak marker function to determine the maximum amplitude level. 9.4 EUT Operating Condition The EUT was set to continuously transmitting in each mode and low, Digital photo framesdle and high channel for the test. 9.5 Test Data Please refer to the Attachment F. TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 23 of 80 10. Antenna Requirement 10.1 Standard Requirement 10.1.1 Standard FCC Part 15.203 10.1.2 Requirement An intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator shall be considered sufficient to comply with the provisions of this Section. The manufacturer may design the unit so that a broken antenna can be replaced by the user, but the use of a standard antenna jack or electrical connector is prohibited. 10.2 Antenna Connected Construction The gains of the antenna used for transmitting is 2dBi, and the antenna de-signed with permanent attachment and no consideration of replacement. Please see the EUT photo for details. Result The EUT antenna is a Dipole Antenna. It complies with the standard requirement. Antenna Type Permanent attached antenna Unique connector antenna Professional installation antenna TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 24 of 80 Attachment A-- Conducted Emission Test Data 55%

Relative Humidity:

Temperature:

Test Voltage:

Terminal:

Test Mode:

Remark:

25 AC 120V/60 Hz Line Charging with TX B Mode Only worse case is reported Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 25 of 80 Temperature:

Test Voltage:

Terminal:

Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 Hz Neutral Charging with TX B Mode Only worse case is reported 55%

Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 26 of 80 Attachment B-- Radiated Emission Test Data From 9KHz to 30MHz: Conclusion: PASS Note: The amplitude of spurious emissions which are attenuated by more than 20dB below the permissible value has no need to be reported. 30MHz~1GHz 9KHz~30MHz Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 Hz Horizontal TX B Mode 2412MHz Only worse case is reported Relative Humidity:

55%

Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 27 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 Hz Vertical TX B Mode 2412MHz Only worse case is reported 55%

Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 28 of 80 Above 1GHz Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX B Mode 2412MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX B Mode 2412MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 29 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX B Mode 2437MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX B Mode 2437MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 30 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX B Mode 2462MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX B Mode 2462MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 31 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX G Mode 2412MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX G Mode 2412MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 32 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX G Mode 2437MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX G Mode 2437MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 33 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX G Mode 2462MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX G Mode 2462MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 34 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT20) Mode 2412MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT20) Mode 2412MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 35 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT20) Mode 2437MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT20) Mode 2437MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 36 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT20) Mode 2462MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT20) Mode 2462MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 37 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT40) Mode 2422MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT40) Mode 2422MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 38 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT40) Mode 2437MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT40) Mode 2437MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 39 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT40) Mode 2452MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

55%

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT40) Mode 2452MHz No report for the emission which more than 10 dB below the prescribed limit. Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 40 of 80 Conducted RF Spurious Emission Test Data Temperature:

Test Voltage:

Test Mode:

Remark:

Relative Humidity:

25 AC 120/60Hz TX B Mode This report only shall the worst case mode for TX IEEE 802.11b. 55%

2412 MHz 0.03GHz-26.5GHz 2462 MHz 0.03GHz-26.5GHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 41 of 80 Attachment C-- Restricted Bands Requirement and Band-edge Test Data

(1) Radiation Test Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 HZ Horizontal TX B Mode 2412MHz N/A Relative Humidity:

55%

Emission Level= Read Level+ Correct Factor Fundamental Frequency Fundamental Frequency TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 42 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 HZ Vertical TX B Mode 2412MHz N/A Relative Humidity:

55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 43 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 HZ Horizontal TX B Mode 2462MHz N/A Relative Humidity:

55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 44 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 HZ Vertical TX B Mode 2462MHz N/A Relative Humidity:

55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 45 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 HZ Horizontal TX G Mode 2412MHz N/A Relative Humidity:

55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 46 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 HZ Vertical TX G Mode 2412MHz N/A Relative Humidity:

55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 47 of 80 Relative Humidity:

55%

Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 HZ Horizontal TX G Mode 2462MHz N/A Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 48 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

25 AC 120V/60 HZ Vertical TX G Mode 2462MHz N/A Relative Humidity:

55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 49 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT20) Mode 2412MHz N/A 55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 50 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT20) Mode 2412MHz N/A 55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 51 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT20) Mode 2462MHz N/A 55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 52 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT20) Mode 2462MHz N/A 55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 53 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT40) Mode 2422MHz N/A 55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 54 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT40) Mode 2422MHz N/A 55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 55 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 HZ Horizontal TX N(HT40) Mode 2452MHz N/A 55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 56 of 80 Temperature:

Test Voltage:

Ant. Pol. Test Mode:

Remark:

Relative Humidity:

25 AC 120V/60 HZ Vertical TX N(HT40) Mode 2452MHz N/A 55%

Fundamental Frequency Fundamental Frequency Emission Level= Read Level+ Correct Factor TB-RF-074-1.0

(2) Conducted Test Temperature:

Test Voltage:

Test Mode:

Remark:

Report No.: TB-FCC167634 Page: 57 of 80 Relative Humidity:

25 AC 120V/60 HZ TX B Mode 2412MHz / TX B Mode 2462MHz The EUT is programed in continuously transmitting mode 55%

TB-RF-074-1.0 Temperature:

Test Voltage:

Test Mode:

Remark:

Report No.: TB-FCC167634 Page: 58 of 80 Relative Humidity:

25 AC 120V/60 HZ TX G Mode 2412MHz / TX G Mode 2462MHz The EUT is programed in continuously transmitting mode 55%

TB-RF-074-1.0 Temperature:

Test Voltage:

Test Mode:

Remark:

Report No.: TB-FCC167634 Page: 59 of 80 Relative Humidity:

25 AC 120V/60 HZ TX N(HT20) Mode 2412MHz / TX N(HT20) Mode 2462MHz The EUT is programed in continuously transmitting mode 55%

TB-RF-074-1.0 Temperature:

Test Voltage:

Test Mode:

Remark:

Report No.: TB-FCC167634 Page: 60 of 80 Relative Humidity:

25 AC 120V/60 HZ TX N(HT40) Mode 2422MHz / TX N(HT40) Mode 2452MHz The EUT is programed in continuously transmitting mode 55%

TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 61 of 80 Attachment D-- Bandwidth Test Data Relative Humidity:

55%

Temperature:

Test Voltage:

Test Mode:

Channel frequency 25 AC 120V/60 HZ TX 802.11B Mode 6dB Bandwidth 99% Bandwidth

(MHz) 2412 2437 2462

(MHz) 9.060 9.080 9.049

(MHz) 13.525 13.609 13.603 802.11B Mode 2412 MHz Limit

(MHz)

>=0.5 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 62 of 80 802.11B Mode 2437 MHz 802.11B Mode 2462 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 63 of 80 Relative Humidity:

55%

Temperature:

Test Voltage:

Test Mode:

Channel frequency 25 AC 120V/60 HZ TX 802.11G Mode

(MHz) 2412 2437 2462 6dB Bandwidth 99% Bandwidth

(MHz) 16.30 16.33 16.30

(MHz) 16.400 16.407 16.395 802.11G Mode 2412 MHz Limit

(MHz)

>=0.5 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 64 of 80 802.11G Mode 2437 MHz 802.11G Mode 2462 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 65 of 80 Relative Humidity:

55%

Temperature:

Test Voltage:

Test Mode:

Channel frequency 25 AC 120V/60 HZ TX 802.11N(HT20) Mode

(MHz) 2412 2437 2462 6dB Bandwidth 99% Bandwidth

(MHz) 16.79 16.88 16.74

(MHz) 17.561 17.562 17.571 802.11N(HT20) Mode 2412 MHz Limit

(MHz)

>=0.5 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 66 of 80 802.11N(HT20) Mode 2437 MHz 802.11N(HT20) Mode 2462 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 67 of 80 Temperature:

Test Voltage:

Test Mode:

Channel frequency 25 AC 120V/60 HZ TX 802.11N(HT40) Mode 6dB Bandwidth

(MHz) 2422 2437 2452

(MHz) 35.90 35.81 35.47 Relative Humidity:

55%

99% Bandwidth

(MHz) 36.062 36.069 36.068 Limit

(MHz)

>=0.5 802.11N(HT40) Mode 2422 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 68 of 80 802.11N(HT40) Mode 2437 MHz 802.11N(HT40) Mode 2452 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 69 of 80 Attachment E-- Peak Output Power Test Data Test Conditions: Continuous Transmitting Mode Temperature:

Test Voltage:

25 AC 120V/60 HZ Channel frequency Relative Humidity:

55%

Mode 802.11b 802.11g 802.11n

(HT20) 802.11n

(HT40)

(MHz) 2412 2437 2462 2412 2437 2462 2412 2437 2462 2422 2437 2452 Test Result (dBm) Limit (dBm) 9.22 9.17 9.16 8.41 8.21 8.66 7.67 7.46 7.08 6.57 6.16 6.46 Result PASS 30 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 70 of 80 Duty Cycle Mode Channel frequency (MHz) Test Result 802.11b 802.11g 802.11n

(HT20) 802.11n

(HT40) Please see below plots 2412 2437 2462 2412 2437 2462 2412 2437 2462 2422 2437 2452

>98%

TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 71 of 80 802.11 B Mode 2437 MHz 802.11 G Mode 2437 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 72 of 80 802.11 N20 Mode 2437 MHz 802.11 N40 Mode 2437 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 73 of 80 Attachment F-- Power Spectral Density Test Data Temperature:

Test Voltage:

Test Mode:

25 AC 120V/60 HZ TX 802.11B Mode Relative Humidity:

55%

Channel Frequency

(MHz) 2412 2437 2462 Power Density

(dBm/3 kHz)

-15.430

-15.153

-13.984 802.11B Mode 2412 MHz Limit

(dBm/3 kHz) 8 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 74 of 80 802.11B Mode 2437 MHz 802.11B Mode 2462 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 75 of 80 Temperature:

Test Voltage:

Test Mode:

25 AC 120V/60 HZ TX 802.11G Mode Temperature:

25 Channel Frequency

(MHz) 2412 2437 2462 Power Density

(dBm/3 kHz)

-22.633

-22.852

-22.080 802.11G Mode 2412 MHz Limit

(dBm/3 kHz) 8 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 76 of 80 802.11G Mode 2437 MHz 802.11G Mode 2462 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 77 of 80 Temperature:

Test Voltage:

Test Mode:

25 AC 120V/60 HZ TX 802.11N(HT20) Mode Temperature:

25 Channel Frequency

(MHz) 2412 2437 2462 Power Density

(dBm/3 kHz)

-23.495

-23.482

-24.028 802.11N(HT20) Mode 2412 MHz Limit

(dBm/3 kHz) 8 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 78 of 80 802.11N(HT20) Mode 2437 MHz 802.11N(HT20) Mode 2462 MHz TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 79 of 80 Temperature:

Test Voltage:

Test Mode:

25 AC 120V/60 HZ TX 802.11N(HT40) Mode Temperature:

25 Channel Frequency

(MHz) 2422 2437 2452 Power Density

(dBm/3 kHz)

-27.632

-27.499

-28.004 802.11N(HT40) Mode 2422 MHz Limit

(dBm/3 kHz) 8 TB-RF-074-1.0 Report No.: TB-FCC167634 Page: 80 of 80 802.11N(HT40) Mode 2437 MHz 802.11N(HT40) Mode 2452 MHz

-----END OF REPORT-----

TB-RF-074-1.0

 

 

Shenzhen Sekery Smart Co.,Ltd Declaration concerning Antenna Specification It is hereby declared that the product Model No.: SY-101ASY-201A, SY-101T, SY-201T, SY-118A, SY-218A, SY-118T, SY-218T, SY-120A, SY-220A, SY-120T, SY-220T, SY-209T, SY-108T, SY-208T FCC ID: 2AT5F-SY-101A fulfills the requirement in FCC test relating to the antenna type. The device specified above confirms to the FCC recommendations for internal antenna type(s) described below:

Model No. of antenna: N/A Type of antenna: 2 dBi DIpole Antenna Gain of the antenna:

Frequency range:

2 dBi 2412-2462 MHz The mounting of the antenna is fixed to the radio module and no other antenna should be used. Company name: Shenzhen Sekery Smart Co. Address: 11F, C6 Building, Hengfeng Industrial Park, Zhoushi Road, BaoAn, Shenzhen, China City: ShenZhen ZIP / Postal code:

China Country:

Place:

WEI ZHOU / Purchasing Manager Date: 2019-08-02 Signature:

version01

 

 

Report No.: TB-MPE167635 Page: 1 of 4 Maximum Permissible Exposure Evaluation FCC ID: 2AT5F-SY-101A 1. Client Information Applicant Address

: Shenzhen Sekery Smart Co.,Ltd

: 11F, C6 Building, Hengfeng Industrial Park, Zhoushi Road, BaoAn, Shenzhen, China Manufacturer : Shenzhen Sekery Smart Co.,Ltd

: 11F, C6 Building, Hengfeng Industrial Park, Zhoushi Road, BaoAn, Address Shenzhen, China 2. General Description of EUT EUT Name

: WiFi Camera Models No. Model Different Product Description Power Supply Software Version Hardware Version Connecting I/O Port(S)

:

:

SY-101A, SY-201A, SY-101T, SY-201T, SY-118A, SY-218A, SY-118T, SY-218T, SY-120A, SY-220A, SY-120T, SY-220T, SY-209T, SY-108T, SY-208T

:

: All these models are the same PCB, layout and electrical circuit, the only difference is External color. Operation Frequency:

RF Output Power:

Antenna Gain:

Modulation Type:

802.11b/g/n(HT20): 2412MHz~2462MHz 802.11n (HT40): 2422MHz~2452MHz 802.11b: 9.22dBm 802.11g: 8.66dBm 802.11n (HT20): 7.67dBm 802.11n (HT40): 6.57dBm 2dBi Dipole Antenna 802.11b: DSSS(CCK, DQPSK, DBPSK) 802.11g/n: OFDM(BPSK,QPSK,16QAM, 64QAM) AC/DC adapter(Model:SAN-05015) Input:AC100-240V, 1.5A, 50/60Hz Output: DC 5V 1.5A

: V3.1042.9.8656

: BK-38-2.0-V1

:

Please refer to the User's Manual TB-RF-075-1.0 Report No.: TB-MPE167635 Page: 2 of 4 MPE Calculations for WIFI 1. Antenna Gain:

Dipole Antenna: 2dBi. 2. EUT Operation Condition:

Software provided by client enabled the EUT to transmit and receive data at lowest, middle and highest channel individually. 3. Exposure Evaluation:

Equation from page 18 of OET Bulletin 65, Edition 97-01 S=(PG)/4R2 Where S: power density P: power input to the antenna G: power gain of the antenna in the direction of interest relative to an isotropic radiator. R: distance to the center of radiation of the antenna TB-RF-075-1.0 Report No.: TB-MPE167635 Page: 3 of 4 4. Test Result:

ANT Mode Freq.

(MHz) ANT 1 B G N20 N40 2412 2437 2462 2412 2437 2462 2412 2437 2462 2422 2437 2452 Max Power Density(mW/ cm2) Conducted Power(max Worst Maximum MPE Result ANT Gain

(dBi)

[G]

Max tune up power

(dBm) Power

(dB) Tune up

(dBm)

[P]

) Dista-nce

(cm)

[R]

[P]

9.22 9.17 9.16 8.41 8.21 8.66 7.67 7.46 7.08 6.57 6.16 6.46 91 91 91 81 81 81 81 81 81 61 61 61 10 10 10 9 9 9 9 9 9 7 7 7 2 20 Power Density=0.00315 Note:

RF Output power specifies that Maximum Conducted Peak Output Power. Result Power Density Limit

(mW/

cm2) 1 PASS Power Density

(mW/

cm2)

[S]

0.00315 0.00315 0.00315 0.00250 0.00250 0.00250 0.00250 0.00250 0.00250 0.00158 0.00158 0.00158 TB-RF-075-1.0 Report No.: TB-MPE167635 Page: 4 of 4 5. Conclusion:

As specified in Table 1B of 47 CFR 1.1310- Limits for Maximum Permissible Exposure (MPE), Limits for General Population/ Uncontrolled Exposure Frequency Range

(MHz) 300-1,500 1,500-100,000 Power density

(mW/ cm2) F/1500 1.0 For 802.11b/g/n:2412~2462 MHz MPE limit S: 1mW/ cm2 The MPE is calculated as 0.00315mW / cm2 < limit 1mW / cm2. So, RF exposure limit warning or SAR test are not required. The EUT will only be used with a separation of 20cm or greater between the antenna and nearby persons and can therefore be considered a mobile transmitter per 47 CFR2.1091

(b). The RF Exposure Information page from the manual is included here for reference. For a more detailed features description, please refer to the RF Test Report. Note

-----END OF REPORT-----

TB-RF-075-1.0