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User manual | Users Manual | 614.97 KiB | January 04 2016 | |||
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Internal photos | Internal Photos | 447.04 KiB | January 04 2016 | |||
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External photos | External Photos | 195.00 KiB | January 04 2016 | |||
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Label | ID Label/Location Info | 17.52 KiB | January 04 2016 | |||
1 | Block Diagram | Block Diagram | April 01 2016 | confidential | ||||
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Cover letter | Cover Letter(s) | 92.07 KiB | January 04 2016 | |||
1 | Operational Description | Operational Description | April 01 2016 | confidential | ||||
1 | Parts list | Parts List/Tune Up Info | April 01 2016 | confidential | ||||
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SAR report | RF Exposure Info | 5.86 MiB | January 04 2016 | |||
1 | Schematics | Schematics | April 01 2016 | confidential | ||||
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Test report part 1 | Test Report | 2.79 MiB | January 04 2016 | |||
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Test report part 2 | Test Report | 3.99 MiB | January 04 2016 | |||
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Test setup | Test Setup Photos | 179.28 KiB | January 04 2016 | |||
1 | Tune up | Parts List/Tune Up Info | April 01 2016 | confidential |
1 | User manual | Users Manual | 614.97 KiB | January 04 2016 |
KISA PHONE MANUAL GETTING STARTED Your KISA phone has been charged at the factory and is ready to use. To make your first call using KISA phone:
1. Turn the phone ON by placing the ON/OFF switch (11) to ON position. The lights will flash, the phone will vibrate and play the on sound. 2. You can now use your KISA phone to make and receive phone calls. 3. Press on any Contact dial buttons (3) to make a call. CHARGING YOUR KISA PHONE ON/OFF switch (11) must be in the ON position for charging. To charge your KISA phone, simply plug the power adapter into a power point. Connect your KISA phone to the power adapter using the provided USB power cable. It takes 2 hours to fully charge your KISA phone. The charge can last up to 7 days. The LED indicator will blink red if your KISA phone is charging properly. You can use the provided charging cradle to make charging easier. When the cradle is plugged in and has power, you will see a light on it. MAKING AND ENDING PHONE CALLS To make a call, simply press the Contact dial button (3). KISA phone will flash green, vibrate and play a sound indicating a successful dial. To end the phone call simply press the End call button
. KISA phone flashes blue, vibrates and plays a sound to let you know that the call has ended. Your KISA phone will go into sleep mode after 1 minute of inactivity. To wake it up, just press any button and then press the Contact dial button
(3) to make a phone call. RECEIVING PHONE CALLS When there is an incoming call KISA phone will ring, vibrate and the LED (5) will flash green. Simply press the Answer button to answer the call. 1. Answer button 2. End call button 3. Contact dial buttons (5 contact configuration shown) 4. Earpiece 5. LED indicator 6. Charging socket (connects to USB power cable) 7. Microphone 8. Lanyard anchor point 9. Volume Up/Down button 10. SOS button 11. ON/OFF switch 12. Loudspeaker Work Temperature:-30~50 When talking you can activate and deactivate Loudspeaker (12) by pressing No LED light when KISA phone is in sleeping mode or switched off. the Answer button
. To end the call press the End call button SMART CALL TERMINATION To protect you from receiving excessive bills if you forget to end an outgoing call your KISA phone will disconnect all outgoing calls after 15 minutes; this function does not affect incoming calls. If KISA phone disconnects you partway through a phone call you can re-dial using a Contact dial button (3). CHANGING DIAL BUTTONS AND PHONE NUMBERS Please refer to www.kisaphone.com.au/mykisa for instructions on how to make changes to dial buttons and phone numbers. WARRANTY Please refer to www.kisaphone.com.au/warranty for KISA phone warranty. SOS BUTTON AND EMERGENCY CALLS To call emergency services, press the SOS button 4 times within 3 seconds. KISA phone will switch itself to Loudspeaker. KISA phone will also make a loud emergency noise and vibrate; this is deliberate to alert people around. To end the call press End call button VOLUME ADJUSTMENT You can adjust the volume of the ringtone by pressing the Volume button
(9) while not on an active call. Press + to increase the volume, press - to decrease the volume. You can also adjust the Earpiece and Loudspeaker volume by pressing the Volume button (9) during a call. TURNING KISA PHONE ON AND OFF To check if your KISA phone is switched ON press the Answer button once, LED indicator will show green or blue depending on mobile signal. We recommend not turning your KISA phone OFF. If the need arises you can turn KISA phone OFF using the OFF switch. To turn KISA phone back ON, move the ON/OFF switch (11) to the ON position. THINGS YOU SHOULD KNOW ABOUT KISA PHONE LED INDICATOR Green light indicates working mobile reception. Blue light indicates no mobile reception. Four red lights indicate battery power is at 100%, three lights mean 75%, two lights mean 50% and one light means 25% or less. Federal Communications Commission (FCC) Statement This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Note: 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. Warning: Changes or modifications made to this device not expressly approved by Shenzhen Hollyland Technology Co.,Ltd may void the FCC authorization to operate this device. Note: The manufacturer is not responsible for any radio or tv interference caused by unauthorized modifications to this equipment. Such modifications could void the users authority to operate the equipment. SAR Information Statement Your wireless phone is a radio transmitter and receiver. It is designed and manufactured not to exceed the emission limits for exposure to radiofrequency (RF) energy set by the Federal Communications Commission of the U.S. Government. These limits are part of comprehensive guidelines and establish permitted levels of RF energy for the general population. The guidelines are based on standards that were developed by independent scientific organizations through periodic and thorough evaluation of scientific studies. The standards include a substantial safety margin designed to assure the safety of all persons, regardless of age and health. The exposure standard for wireless mobile phones employs a unit of measurement known as the Specific Absorption Rate, or SAR. The SAR limit set by the FCC is 1.6 W/kg. * Tests for SAR are conducted with the phone transmitting at its highest certified power level in all tested frequency bands. Although the SAR is determined at the highest certified power level, the actual SAR level of the phone while operating can be well below the maximum value. This is because the phone is designed to operate at multiple power levels so as to use only the power required to reach the network. In general, the closer you are to a wireless base station antenna, the lower the power output. Before a phone model is available for sale to the public, it must be tested and certified to the FCC that it does not exceed the limit established by the government adopted requirement for safe exposure. The tests are performed in positions and locations (e.g., at the ear and worn on the body) as required by the FCC for each model. The highest SAR value for this model phone when tested for use at the ear is 0.80 W/Kg and when worn on the body, as described in this user guide, is 0.27 W/Kg (Body-worn measurements differ among phone models, depending upon available accessories and FCC requirements). While there may be differences between the SAR levels of various phones and at various positions, they all meet the government requirement for safe exposure. The FCC has granted an Equipment Authorization for this model phone with all reported SAR levels evaluated as in compliance with the FCC RF exposure guidelines. SAR information on this model phone is on file with the FCC and can be found under the Display Grant section of http://www.fcc.gov/ oet/fccid after searching on FCC ID: 2AHS8-KPAU02 Additional information on Specific Absorption Rates (SAR) can be found on the Cellular Telecommunications Industry Asso-ciation (CTIA) web-site at http://www.wow-com.com. * In the United States and Canada, the SAR limit for mobile phones used by the public is 1.6watts/kg (W/kg) averaged over one gram of tissue. The standard incorporates a sub-stantial margin of safety to give additional protection for the public and to account for any variations in measurements. Body-worn Operation This device was tested for typical body-worn operations. To comply with RF exposure requirements, a minimum separation distance of 10 mm must be maintained between the users body and the handset, including the antenna. Third-party belt-clips, holsters, and similar accessories used by this device should not contain any metallic components. Body-worn accessories that do not meet these requirements may not comply with RF exposure requirements and should be avoided.
1 | Label | ID Label/Location Info | 17.52 KiB | January 04 2016 |
FCC ID Label Information 1. Label location:
FCCID Label Location MOBINTEL PTY LTD Model: KPAU02 FCC ID: 2AHS8-KPAU02 2. FCC ID Label:
1 | Cover letter | Cover Letter(s) | 92.07 KiB | January 04 2016 |
MOBINTEL PTY LTD PO BOX 2323, MOORABBIN, VICTORIA, 3189, AUSTRALIA Tel: +61 4 10320884 Fax: +61 3 97088328 ATTESTATION LETTER FCC ID: 2AHS8-KPAU02 Date: Mar. 25, 2016 Federal Communications Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD 21046 To whom it may concern:
I, the undersigned, hereby attest that we know the used IC MT6627 support implemented WiFi, bluetooth and GPS functions. But In fact, users could not open WiFi and Bluetooth functions because both WiFi and Bluetooth functions have been permanently disabled by software. Nobody can enable this function anymore. Sincerely, Dennis Volodomanov/ Manager
1 | SAR report | RF Exposure Info | 5.86 MiB | January 04 2016 |
Shenzhen CTL Testing Technology Co., Ltd. Tel: +86-755-89486194 Fax: +86-755-26636041 TEST REPORT Report Reference No. ................ : CTL1603090615-SAR Compiled by:
Jacky Chen
( position+printed name+signature)
(File administrators) Tested by:
( position+printed name+signature) Approved by:
( position+printed name+signature) Allen Wang
(Test Engineer) Tracy Qi
(Manager) Product Name .............................. : Smart phone Model/Type reference ................. : KPAU02 FCC ID .......................................... : 2AHS8-KPAU02 Trade Mark ................................... : KISA phone Applicants name ........................ : MOBINTEL PTY LTD Address of applicant .................. : PO BOX 2323, MOORABBIN, VICTORIA, 3189, AUSTRALIA Agent for the laboratory ............. : Shenzhen CTL Testing Technology Co., Ltd. Address ........................................ :
Floor 1-A, Baisha Technology Park, No.3011, Shahexi Road, Nanshan District, Shenzhen, China 518055 Test specification ........................ :
Standard ........................................ :
47CFR 2.1093 ANSI C95.11999 KDB 447498 TRF Originator .............................. : Shenzhen CTL Testing Technology Co., Ltd. Master TRF ................................... : Dated 2011-01 Date of Receipt ............................ : Mar. 08, 2016 Date of Test Date ......................... : Mar. 16, 2016 Mar. 17, 2016 Data of Issue ................................ : Mar. 23, 2016 Result ........................................... : Pass Shenzhen CTL Testing Technology Co., Ltd. All rights reserved. This publication may be reproduced in whole or in part for non-commercial purposes as long as the Shenzhen CTL Testing Technology Co., Ltd. is acknowledged as copyright owner and source of the material. Shenzhen CTL Testing Technology Co., Ltd. takes no responsibility for and will not assume liability for damages resulting from the reader's interpretation of the reproduced material due to its placement and context. V1.0 Page 2 of 76 Report No.: CTL1603090615-SAR TEST REPORT Test Report No. :
CTL1603090615-SAR Mar. 23, 2016 Date of issue Equipment under Test Model /Type Listed Models Applicant Address Manufacturer Address
:
:
:
:
:
:
:
Smart phone KPAU02
/
MOBINTEL PTY LTD PO BOX 2323, MOORABBIN, VICTORIA, 3189, AUSTRALIA SHENZHEN GOLD EAST ELETRONIC CO., LTD 6F, Bldg #11, Yusheng Industry Area, #467 Gushu, Xixiang, Bao'an District, Shenzhen, China 518000 Test result Pass *
* In the configuration tested, the EUT complied with the standards specified page 5. The test report merely corresponds to the test sample. It is not permitted to copy extracts of these test result without the written permission of the test laboratory. V1.0 Page 3 of 76 Report No.: CTL1603090615-SAR
** Modified History **
Version Description Version 1.0 Initial Test Report Release Issued Data 2016-03-23 Report No. CTL1603090615-WF Remark Tracy Qi V1.0 Page 4 of 76 Report No.: CTL1603090615-SAR Table of Contents Page 1 SUMMARY............................................................................................................................................................ 5 1.1 1.2 1.3 1.4 1.5 TEST STANDARDS ..................................................................................................................................................... 5 SUMMARY SAR RESULTS ............................................................................................................................................... 5 TEST FACILITY .............................................................................................................................................................. 6 1.3.1 Address of the test laboratory ............................................................................................................................. 6 Test Lab Facility ................................................................................................................................................... 6 1.3.2 STATEMENT OF THE MEASUREMENT UNCERTAINTY ............................................................................................................... 6 SYSTEM CHECK UNCERTAINTY ......................................................................................................................................... 7 2 GENERAL INFORMATION ....................................................................................................................................... 9 2.1 2.2 2.3 2.4 2.5 ENVIRONMENTAL CONDITIONS ........................................................................................................................................ 9 GENERAL DESCRIPTION OF EUT ...................................................................................................................................... 9 DESCRIPTION OF TEST MODES ...................................................................................................................................... 10 EQUIPMENTS USED DURING THE TEST ............................................................................................................................ 10 SAR MEASUREMENTS SYSTEM...................................................................................................................................... 11 2.5.1 SAR Measurement Set-up ................................................................................................................................. 11 2.5.2 DASY4 E-field Probe System .............................................................................................................................. 12 2.5.3 Phantoms .......................................................................................................................................................... 13 2.5.4 Device Holder .................................................................................................................................................... 13 2.5.5 Scanning Procedure .......................................................................................................................................... 14 2.5.6 Data Storage and Evaluation ............................................................................................................................ 17 3 POSITION OF THE WIRELESS DEVICE IN RELATION TO THE PHANTOM .................................................................. 19 3.1 3.2 GENERAL CONSIDERATIONS .......................................................................................................................................... 19 BODY-WORN DEVICE ................................................................................................................................................... 20 4 MEASUREMENT PROCEDURES ............................................................................................................................ 21 4.1 4.2 4.3 4.4 4.5 GSM TEST CONFIGURATION ......................................................................................................................................... 21 3G SAR TEST REDUCTION PROCEDURE .......................................................................................................................... 21 TISSUE SIMULATING LIQUID .................................................................................................................................. 22 THE COMPOSITION OF THE TISSUE SIMULATING LIQUID ....................................................................................................... 22 TISSUE CALIBRATION RESULT ........................................................................................................................................ 22 5 6 SYSTEM CHECK ................................................................................................................................................... 23 TEST CONDITIONS AND RESULTS ......................................................................................................................... 25 6.1 6.2 6.3 6.4 CONDUCTED POWER RESULTS ....................................................................................................................................... 25 SAR TEST RESULTS SUMMARY ...................................................................................................................................... 26 6.2.1 General Remark ................................................................................................................................................ 26 Standalone SAR ................................................................................................................................................. 27 6.2.2 6.2.3 Simultaneous SAR Evaluation ............................................................................................................................ 29 SYSTEM CHECK RESULTS .............................................................................................................................................. 30 SAR TEST GRAPH RESULTS ........................................................................................................................................... 34 7 CALIBRATION CERTIFICATE .................................................................................................................................. 42 7.1 7.2 7.3 7.4 PROBE CALIBRATION CERTIFICATE .................................................................................................................................. 42 D900V2 DIPOLE CALIBRATION CERTIFICATE .................................................................................................................... 53 D1900V2 DIPOLE CALIBRATION CERTIFICATE .................................................................................................................. 62 DAE4 CALIBRATION CERTIFICATE .................................................................................................................................. 70 8 TEST SETUP PHOTOS ........................................................................................................................................... 73 V1.0 Page 5 of 76 Report No.: CTL1603090615-SAR 1 SUMMARY 1.1 TEST STANDARDS IEEE Std C95.1, 1999: IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 KHz to 300 GHz. It specifies the maximum exposure limit of 1.6 W/kg as averaged over any 1 gram of tissue for portable devices being used within 20 cm of the user in the uncontrolled environment. IEEE Std 1528-2003: IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices:
Measurement Techniques. FCC Part 2.1093 Radiofrequency Radiation Exposure Evaluation: Portable Devices KDB 447498 D01 Mobile Portable RF Exposure v6: Mobile and Portable Device RF Exposure Procedures and Equipment Authorization Policies KDB865664 D01 SAR measurement 100 MHz to 6 GHz v01r04: SAR Measurement Requirements for 100 MHz to 6 GHz KDB865664 D02 SAR Reporting v01r02: RF Exposure Compliance Reporting and Documentation Considerations KDB648474 D04 Handset SAR V01r03: SAR Evaluation Considerations for Wireless Handsets. 1.2 Summary SAR Results The maximum results of Specific Absorption Rate (SAR) found during testing for EUT are as follows:
Head SAR Configuration Mode Test Channel Position
/Frequency(MHz) GSM 850 Left Cheek 190/836.6 PCS 1900 Left Cheek 661/1880 WCDMA Band II Right Cheek 9400/1880 WCDMA Band V Left Cheek 4183/836.6 Body-Worn Mode Test Channel Position
/Frequency(MHz) Limit SAR1g 1.6 W/kg Highest Tested 1g-SAR(W/Kg) Highest Scaled Maximum SAR(W/Kg) 0.769 0.704 0.671 0.612 0.80 0.74 0.70 0.63 Limit SAR1g 1.6 W/kg Highest Tested 1g-SAR(W/Kg) Highest Scaled Maximum SAR(W/Kg) GSM 850 Rear Side 190/836.6 PCS 1900 Rear Side 661/1880 WCDMA Band II Rear Side 9400/1880 WCDMA Band V Rear Side 4183/836.6 0.259 0.246 0.254 0.216 0.27 0.26 0.27 0.22 Note:
1. This device is compliance with Specific Absorption Rate (SAR) for general population/uncontrolled exposure limits (1.6W/Kg) specified in FCC 47 CFR part 2 (2.1093) and ANSI/IEEE C95.1, and had been tested in accordance with measurement methods and procedures specified in IEEE 1528-2003 and the relevant KDB files. V1.0 Page 6 of 76 Report No.: CTL1603090615-SAR 1.3 Test Facility 1.3.1 Address of the test laboratory SHENZHEN YIDAJIETONG INFORMATION TECHNOLOGY CO., LTD No.12 Building Shangsha, Innovation & Technology Park, Futian District, Shenzhen, P.R.China 1.3.2 Test Lab Facility The test facility is recognized, certified, or accredited by the following organizations:
CNAS-Lab Code: 7547 SHENZHEN YIDA JIETONG INFORMATION TECHNOLOGY CO., LTD has been assessed and proved to be in compliance with CNAS-CL01 Accreditation Criteria for Testing and Calibration Laboratories (identical to ISO/IEC 17025: 2005 General Requirements) for the Competence of Testing and Calibration Laboratories, Date of Registration: Mar 17, 2015. Valid time is until Mar 17, 2018. 1.4 Statement of the measurement uncertainty No. Error Description Type Uncertai nty Value Probably Distributi on Div.
(Ci) 1g
(Ci
) 10 g Std. Unc.
(1g) Std. Unc.
(10g) Degre e of freedo m Measurement System Probe calibration Axial isotropy Hemispherical isotropy Boundary Effects Probe Linearity Detection limit Readout Electronics Response Time Integration Time RF ambient conditions-noise RF ambient conditions-reflecti on Probe positioned mech. restrictions Probe positioning with respect to phantom shell Max.SAR evaluation Test sample positioning Device holder uncertainty Drift of output power B B B B B B A B B B B B B B A A B 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 6.55%
4.70%
9.60%
1.00%
4.70%
1.00%
0.30%
0.00%
0.00%
1.00%
1.00%
0.80%
6.70%
2.00%
N R R R R R N R R R R R R R Test Sample Related 1.86%
1.70%
5.00%
N N R 1 1 1 1 1 6.55%
6.55%
1 0.7 0.7 1.90%
1.90%
0.7 0.7 3.88%
3.88%
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.58%
0.58%
2.71%
2.71%
0.58%
0.58%
0.30%
0.30%
0.00%
0.00%
0.00%
0.00%
0.58%
0.58%
0.58%
0.58%
0.46%
0.46%
3.87%
3.87%
1.15%
1.15%
1.86%
1.86%
1.70%
1.70%
2.89%
2.89%
3333333333333 V1.0 Page 7 of 76 Report No.: CTL1603090615-SAR 18 19 20 21 22 Combined standard uncertainty Expanded uncertainty
(confidenc e interval of 95 %) 1 1 2.31%
2.31%
1.85%
1.24%
1.60%
1.08%
Phantom and Set-up Phantom uncertainty Liquid B 4.00%
conductivity B 5.00%
(target) Liquid conductivity
(meas.) Liquid permittivity
(target) Liquid permittivity
(meas.) A 2.50%
B A 5.00%
2.50%
/
/
R R N R N
/
R 0.4 3 0.4 3 0.4 9 0.4 9 0.64 1 0.64 0.60 0.60
/
/
1
/
K=
2 1.73%
1.41%
1.50%
1.23%
/
10.87%
/
21.73%
10.63
%
21.27
%
1.5 System Check Uncertainty No. Error Description Type Uncertai nty Value Probably Distributi on Div.
(Ci) 1g
(Ci
) 10 g Std. Unc.
(1g) Std. Unc.
(10g) Degre e of freedo m Measurement System Probe calibration Axial isotropy Hemispherical isotropy Boundary Effects Probe Linearity Detection limit Readout Electronics Response Time Integration Time RF ambient conditions-noise RF ambient conditions-reflec tion Probe positioned mech. restrictions Probe positioning with respect to phantom shell B B B B B B A B B B B 6.55%
4.70%
9.60%
1.00%
4.70%
1.00%
0.30%
0.00%
0.00%
1.00%
1.00%
N R R R R R N R R R R B 0.80%
R B 6.70%
R 1 2 3 4 5 6 7 8 9 10 11 12 13 1 1 1 6.55%
6.55%
0.7 0.7 1.90%
1.90%
0.7 0.7 3.88%
3.88%
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.58%
0.58%
2.71%
2.71%
0.58%
0.58%
0.30%
0.30%
0.00%
0.00%
0.00%
0.00%
0.58%
0.58%
0.58%
0.58%
1 1 1 0.46%
0.46%
1 1 3.87%
3.87%
33322221ciiuicu2ecuu33333333333 V1.0 Page 8 of 76 Report No.: CTL1603090615-SAR B 2.00%
R Dipole Related 1 1 1.15%
1.15%
1 1 1 1 1 1 1 0.7 8 0.2 6 0.7 8 0.2 3 1 1 1 1 0.8 4 0.7 1 0.2 6 0.7 1 0.2 6 B B B B B A A B B 5.50%
2.00%
3.40%
R R R Phantom and Setup R R N N R R 4.00%
1.90%
2.50%
2.50%
1.70%
0.30%
/
/
3.18%
3.18%
1.15%
1.15%
1.96%
1.96%
2.31%
2.31%
1.10%
0.92%
1.95%
1.78%
0.65%
0.65%
0.77%
0.70%
0.04%
0.05%
/
/
/
/
10.65%
R K=2
/
/
21.31%
10.60
%
21.20
%
14 15 16 17 18 19 20 21 22 23 Max.SAR evaluation Dev. of experimental dipole Dipole Axis to Liquid Dist. Input power &
SAR drift Phantom uncertainty SAR correction Liquid conductivity
(meas.) Liquid permittivity
(meas.) Temp. unc. -
Conductivity Temp. unc. -
Permittivity Combined standard uncertainty Expanded uncertainty
(confidence interval of 95
%) 333333332ecuu V1.0 Page 9 of 76 Report No.: CTL1603090615-SAR 2 GENERAL INFORMATION 2.1 Environmental conditions During the measurement the environmental conditions were within the listed ranges:
Normal Temperature:
Relative Humidity Air Pressure 15C -35C 25% -55 %
101 kPa 2.2 General Description of EUT Product Name:
Smart phone Model/Type reference:
KPAU02 Power supply:
DC 3.7V from battery Hardware version:
Q100-MB-V1.1 Software version:
Q100_HR01_SV_1.00_20151229. 2G Operation Band:
GSM850, GSM900, DCS1800, PCS1900 Supported type:
GSM Power Class:
GSM850,GSM900:Power Class 4 DCS1800, PCS1900:Power Class 1 Modulation Type:
GMSK for GSM GSM Release Version R99 GPRS Multisport Class Not support EGPRS Multislot Class Not support Antenna type:
PFC antenna 3G Operation Band:
FDD Band I, FDD Band II, FDD Band V Power Class:
Power Class 3 Modilation Type:
QPSK for WCDMA Antenna type:
PFC antenna Note1: For more detailed features description, please refer to the manufacturers specifications or the User's Manual. Note2:The GSM frequency band includes GSM850, GSM900, DCS1800, PCS1900, but only GSM850 and PCS1900 bands test data included in this report. The UMTS frequency band support FDD Band I, FDD Band II, and FDD Band V but only Band II and Band V test data included in this report. V1.0 Page 10 of 76 Report No.: CTL1603090615-SAR 2.3 Description of Test Modes The EUT battery must be fully charged and checked periodically during the test to ascertain uniform power the EUT has been tested under typical operating condition and The Transmitter was operated in the normal operating mode. The TX frequency was fixed which was for the purpose of the measurements. 2.4 Equipments Used during the Test Test Equipment Manufacturer Type/Model Serial Number Last Calibration Calibration Interval Calibration Data Acquisition Electronics DAEx SPEAG DAE4 E-field Probe SPEAG ES3DV4 905 3842 2015.07.16 2015-08-26 System Validation Dipole D1900V2 System Validation Dipole D900V2 Network analyzer Universal Radio Communication Tester Dielectric Probe Kit Power meter Power meter Power meter Power sensor Power sensor Power sensor Signal generator SPEAG D1900V2 5d194 2015.01.07 SPEAG D900V2 1d086 2013.08.09 Agilent E5071B MY42404001 2015-11-21 ROHDE &
SCHWARZ Agilent Agilent Agilent Agilent Agilent Agilent Agilent ROHDE &
SCHWARZ E5515C GB47200762 2015-08-29 85070E NRVD NRVD NRVD NRV-Z2 NRV-Z2 NRV-Z2 SME03 NA#F-EP-00777
/
835843/014 835843/017 835843/025 100211 100219 100220 2015-12-02 2015-12-02 2015-12-02 2015-12-02 2015-12-02 2015-12-02 100029 2015-11-25 Amplifier AR 2HL-42W-S 100206
/
1 1 3 3 1 1
/
1 1 1 1 1 1 1
/
V1.0 Page 11 of 76 Report No.: CTL1603090615-SAR 2.5 SAR Measurements System 2.5.1 SAR Measurement Set-up The DASY4 system for performing compliance tests consists of the following items:
A standard high precision 6-axis robot (Stubli RX family) with controller and software. An arm extension for accommodating the data acquisition electronics (DAE). A dosimetric probe, i.e. an isotropic E-field probe optimized and calibrated for usage in tissue simulating liquid. The probe is equipped with an optical surface detector system. A data acquisition electronic (DAE) which performs the signal amplification, signal multiplexing, AD-
conversion, offset measurements, mechanical surface detection, collision detection, etc. The unit is battery powered with standard or rechargeable batteries. The signal is optically transmitted to the EOC. A unit to operate the optical surface detector which is connected to the EOC. The Electro-Optical Coupler (EOC) performs the conversion from the optical into a digital electric signal of the DAE. The EOC is connected to the DASY4 measurement server. The DASY4 measurement server, which performs all real-time data evaluation for field measurements and surface detection, controls robot movements and handles safety operation. A computer operating Windows 2003. DASY4 software and SEMCAD data evaluation software. Remote control with teach panel and additional circuitry for robot safety such as warning lamps, etc. The generic twin phantom enabling the testing of left-hand and right-hand usage. The device holder for handheld Mobile Phones. Tissue simulating liquid mixed according to the given recipes. System validation dipoles allowing to validate the proper functioning of the system. V1.0 Page 12 of 76 Report No.: CTL1603090615-SAR 2.5.2 DASY4 E-field Probe System The SAR measurements were conducted with the dosimetric probe ES3DV3 (manufactured by SPEAG), designed in the classical triangular configuration and optimized for dosimetric evaluation. Probe Specification Construction Symmetrical design with triangular core Interleaved sensors Built-in shielding against static charges PEEK enclosure material (resistant to organic solvents, e.g., DGBE) Calibration ISO/IEC 17025 calibration service available. Frequency Directivity 10 MHz to 4 GHz;
Linearity: 0.2 dB (30 MHz to 4 GHz) 0.2 dB in HSL (rotation around probe axis) 0.3 dB in tissue material (rotation normal to probe axis) Dynamic Range 5 W/g to > 100 mW/g;
Linearity: 0.2 dB Dimensions Application Overall length: 337 mm (Tip: 20 mm) Tip diameter: 3.9 mm (Body: 12 mm) Distance from probe tip to dipole centers: 2.0 mm General dosimetry up to 4 GHz Dosimetry in strong gradient fields Compliance tests of Mobile Phones Compatibility DASY3, DASY4, DASY52 SAR and higher, EASY4/MRI Isotropic E-Field Probe The isotropic E-Field probe has been fully calibrated and assessed for isotropicity, and boundary effect within a controlled environment. Depending on the frequency for which the probe is calibrated the method utilized for calibration will change. The E-Field probe utilizes a triangular sensor arrangement as detailed in the diagram below:
V1.0 Page 13 of 76 Report No.: CTL1603090615-SAR 2.5.3 Phantoms The phantom used for all tests i.e. for both system checks and device testing, was the twin-headed
"SAM Phantom", manufactured by SPEAG. The SAM twin phantom is a fiberglass shell phantom with 2mm shell thickness (except the ear region, where shell thickness increases to 6mm). System checking was performed using the flat section, whilst Head SAR tests used the left and right head profile sections. Body SAR testing also used the flat section between the head profiles. SAM Twin Phantom 2.5.4 Device Holder The device was placed in the device holder (illustrated below) that is supplied by SPEAG as an integral part of the DASY system. The DASY device holder is designed to cope with the different positions given in the standard. It has two scales for device rotation (with respect to the body axis) and device inclination (with respect to the line between the ear reference points). The rotation centers for both scales is the ear reference point
(ERP). Thus the device needs no repositioning when changing the angles. Device holder supplied by SPEAG V1.0 Page 14 of 76 Report No.: CTL1603090615-SAR 2.5.5 Scanning Procedure The DASY4 installation includes predefined files with recommended procedures for measurements and validation. They are read-only document files and destined as fully defined but unmeasured masks. All test positions (head or body-worn) are tested with the same configuration of test steps differing only in the grid definition for the different test positions. The reference and drift measurements are located at the beginning and end of the batch process. They measure the field drift at one single point in the liquid over the complete procedure. The indicated drift is mainly the variation of the DUTs output power and should vary max. 5 %. The surface check measurement tests the optical surface detection system of the DASY5 system by repeatedly detecting the surface with the optical and mechanical surface detector and comparing the results. The output gives the detecting heights of both systems, the difference between the two systems and the standard deviation of the detection repeatability. Air bubbles or refraction in the liquid due to separation of the sugar-water mixture gives poor repeatability (above 0.1mm). To prevent wrong results tests are only executed when the liquid is free of air bubbles. The difference between the optical surface detection and the actual surface depends on the probe and is specified with each probe
(It does not depend on the surface reflectivity or the probe angle to the surface within 30.) According to the test standard, the recommended procedure for assessing the peak spatial-average SAR value consists of the following steps:
(a) Power reference measurement
(b) Area scan
(c) Zoom scan
(d) Power drift measurement Power Reference Measurement The Power Reference Measurement and Power Drift Measurements are for monitoring the power drift of the device under test in the batch process. The minimum distance of probe sensors to surface determines the closest measurement point to phantom surface. This distance cannot be smaller than the distance of sensor calibration points to probe tip as defined in the probe properties. Area Scan The area scan is used as a fast scan in two dimensions to find the area of high field values, before doing a fine measurement around the hot spot. The sophisticated interpolation routines implemented in DASY software can find the maximum found in the scanned area, within a range of the global maximum. The range (in dB0 is specified in the standards for compliance testing. For example, a 2 dB range is required in IEEE standard 1528 and IEC 62209 standards, whereby 3 dB is a requirement when compliance is assessed in accordance with the ARIB standard (Japan), if only one zoom scan follows the area scan, then only the absolute maximum will be taken as reference. For cases where multiple maximums are detected, the number of zoom scans has to be increased accordingly. Area scan parameters extracted from FCC KDB 865664 D01 SAR measurement 100 MHz to 6 GHz. V1.0 Page 15 of 76 Report No.: CTL1603090615-SAR Zoom Scan Zoom scans are used assess the peak spatial SAR values within a cubic averaging volume containing 1 gram and 10 gram of simulated tissue. The zoom scan measures points (refer to table below) within a cube shoes base faces are centered on the maxima found in a preceding area scan job within the same procedure. When the measurement is done, the zoom scan evaluates the averaged SAR for 1 gram and 10 gram and displays these values next to the jobs label. Zoom scan parameters extracted from FCC KDB 865664 D01 SAR measurement 100 MHz to 6 GHz. Volume Scan Procedures The volume scan is used for assess overlapping SAR distributions for antennas transmitting in different frequency bands. It is equivalent to an oversized zoom scan used in standalone measurements. The measurement volume will be used to enclose all the simultaneous transmitting antennas. For antennas transmitting simultaneously in different frequency bands, the volume scan is measured separately in each frequency band. In order to sum correctly to compute the 1g aggregate SAR, the EUT remain in the same test position for all measurements and all volume scan use the same spatial resolution and grid spacing. When all volume scan were completed, the software, SEMCAD postprocessor can combine and subsequently superpose these measurement data to calculating the multiband SAR. V1.0 Page 16 of 76 Report No.: CTL1603090615-SAR Power Drift Monitoring All SAR testing is under the EUT install full charged battery and transmit maximum output power. In DASY measurement software, the power reference measurement and power drift measurement procedures are used for monitoring the power drift of EUT during SAR test. Both these procedures measure the field at a specified reference position before and after the SAR testing. The software will calculate the field difference in dB. If the power drifts more than 5%, the SAR will be retested. Spatial Peak Detection The procedure for spatial peak SAR evaluation has been implemented according to the test standard. It can be conducted for 1g and 10g, as well as for user-specific masses. The DASY software includes all numerical procedures necessary to evaluate the spatial peak SAR value. The base for the evaluation is a "cube" measurement. The measured volume must include the 1g and 10g cubes with the highest averaged SAR values. For that purpose, the center of the measured volume is aligned to the interpolated peak SAR value of a previously performed area scan. The entire evaluation of the spatial peak values is performed within the post-processing engine
(SEMCAD). The system always gives the maximum values for the 1g and 10g cubes. The algorithm to find the cube with highest averaged SAR is divided into the following stages:
(a) Extraction of the measured data (grid and values) from the Zoom Scan
(b) Calculation of the SAR value at every measurement point based on all stored data (A/D values and measurement parameters)
(c) Generation of a high-resolution mesh within the measured volume
(d) Interpolation of all measured values form the measurement grid to the high-resolution grid
(e) Extrapolation of the entire 3-D field distribution to the phantom surface over the distance from sensor to surface
(f) Calculation of the averaged SAR within masses of 1g and 10g V1.0 Page 17 of 76 Report No.: CTL1603090615-SAR 2.5.6 Data Storage and Evaluation Data Storage The DASY4 software stores the acquired data from the data acquisition electronics as raw data (in microvolt readings from the probe sensors), together with all necessary software parameters for the data evaluation (probe calibration data, liquid parameters and device frequency and modulation data) in measurement files with the extension .DA4. The software evaluates the desired unit and format for output each time the data is visualized or exported. This allows verification of the complete software setup even after the measurement and allows correction of incorrect parameter settings. For example, if a measurement has been performed with a wrong crest factor parameter in the device setup, the parameter can be corrected afterwards and the data can be re-evaluated. The measured data can be visualized or exported in different units or formats, depending on the selected probe type ([V/m], [A/m], [C], [mW/g], [mW/cm], [dBrel], etc.). Some of these units are not available in certain situations or show meaningless results, e.g., a SAR output in a lossless media will always be zero. Raw data can also be exported to perform the evaluation with other software packages. Data Evaluation The SEMCAD software automatically executes the following procedures to calculate the field units from the microvolt readings at the probe connector. The parameters used in the evaluation are stored in the configuration modules of the software:
Probe parameters: - Sensitivity Normi, ai0, ai1, ai2
- Conversion factor ConvFi
- Diode compression point Dcpi Device parameters: - Frequency f
- Density
- Crest factor cf Media parameters: - Conductivity These parameters must be set correctly in the software. They can be found in the component documents or they can be imported into the software from the configuration files issued for the DASY4 components. In the direct measuring mode of the multimeter option, the parameters of the actual system setup are used. In the scan visualization and export modes, the parameters stored in the corresponding document files are used. The first step of the evaluation is a linearization of the filtered input signal to account for the compression characteristics of the detector diode. The compensation depends on the input signal, the diode type and the DC-transmission factor from the diode to the evaluation electronics. If the exciting field is pulsed, the crest factor of the signal must be known to correctly compensate for peak power. The formula for each channel can be given as:
With Vi = compensated signal of channel i ( i = x, y, z ) Ui = input signal of channel i ( i = x, y, z ) cf = crest factor of exciting field (DASY parameter) dcpi = diode compression point (DASY parameter) From the compensated input signals the priMayy field data for each channel can be evaluated:
With Vi = compensated signal of channel i (i = x, y, z) Normi = sensor sensitivity of channel i (i = x, y, z)
[mV/(V/m)2] for E-field Probes ConvF = sensitivity enhancement in solution aij = sensor sensitivity factors for H-field probes V1.0 Page 18 of 76 Report No.: CTL1603090615-SAR f = carrier frequency [GHz]
Ei = electric field strength of channel i in V/m Hi = magnetic field strength of channel i in A/m The RSS value of the field components gives the total field strength (Hermitian magnitude):
The priMayy field data are used to calculate the derived field units. with SAR = local specific absorption rate in mW/g Etot = total field strength in V/m
= conductivity in [mho/m] or [Siemens/m]
= equivalent tissue density in g/cm3 Note that the density is normally set to 1 (or 1.06), to account for actual brain density rather than the density of the simulation liquid. V1.0 Page 19 of 76 Report No.: CTL1603090615-SAR 3 Position of the wireless device in relation to the phantom 3.1 General considerations This standard specifies two handset test positions against the head phantom the cheek position and the tilt position. Wt Width of the handset at the level of the acoustic Wb Width of the bottom of the handset A Midpoint of the width wt of the handset at the level of the acoustic output B Midpoint of the width wb of the bottom of the handset Picture 1-a Typical fixed case handset Picture 1-b Typical clam-shell case handset Picture 2 Cheek position of the wireless device on the left side of SAM Picture 3 Tilt position of the wireless device on the left side of SAM V1.0 Page 20 of 76 Report No.: CTL1603090615-SAR 3.2 Body-worn device A typical example of a body-worn device is aMoblie Phone, wireless enabled PDA or other battery operated wireless device with the ability to transmit while mounted on a persons body using a carry accessory approved by the wireless device manufacturer. Picture 4 Test positions for body-worn devices V1.0 Page 21 of 76 Report No.: CTL1603090615-SAR 4 Measurement Procedures The measurement procedures are as follows:
4.1 GSM Test Configuration SAR tests for GSM 850 and GSM 1900, a communication link is set up with a System Simulator (SS) by air link. The power level is set to 5 for GSM 850, set to 0 for GSM 1900. 4.2 3G SAR Test Reduction Procedure In the following procedures, the mode tested for SAR is referred to as the primary mode. The equivalent modes considered for SAR test reduction are denoted as secondary modes. Both primary and secondary modes must be in the same frequency band. When the maximum output power and tune-up tolerance specified for production units in a secondary mode is dB higher than the primary mode or when the highest reported SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up tolerance of secondary to primary mode and the adjusted SAR is 1.2 W/kg, SAR measurement is not required for the secondary mode.3 This is referred to as the 3G SAR test reduction procedure in the following SAR test guidance, where the primary mode is identified in the applicable wireless mode test procedures and the secondary mode is wireless mode being considered for SAR test reduction by that procedure. When the 3G SAR test reduction procedure is not satisfied, it is identified as otherwise in the applicable procedures; SAR measurement is required for the secondary mode. Output power Verification Maximum output power is verified on the high, middle and low channels according to procedures described in section 5.2 of 3GPP TS 34.121, using the appropriate RMC or AMR with TPC (transmit power control) set to all 1s for WCDMA/HSDPA or by applying the required inner loop power control procedures to maintain maximum output power while HSUPA is active. Results for all applicable physical channel configurations (DPCCH, DPDCHn and spreading codes, HSDPA, HSPA) are requied in the SAR report. All configurations that are not supported by the handset or cannot be measured due to technical or equipment limitations must be clearly identified. Head SAR SAR for next to the ear head exposure is measured using a 12.2 kbps RMC with TPC bits configured to all 1s. The 3G SAR test reduction procedure is applied to AMR configurations with 12.2 kbps RMC as the primary mode. Otherwise, SAR is measured for 12.2 kbps AMR in 3.4 kbps SRB (signaling radio bearer) using the highest reported SAR configuration in 12.2 kbps RMC for head exposure. Body-Worn Accessory SAR SAR for body-worn accessory configurations is measured using a 12.2 kbps RMC with TPC bits configured to all 1s. The 3G SAR test reduction procedure is applied to other spreading codes and multiple DPDCHn configurations supported by the handset with 12.2 kbps RMC as the primary mode. Otherwise, SAR is measured using an applicable RMC configuration with the corresponding spreaing code or DPDCHn, for the highest reported body-worn accessory exposure SAR configuration in 12.2 kbps RMC. When more than 2 DPDCHn are supported by the handset, it may be necessary to configure additional DPDCHn using FTM (Factory Test Mode) or other chipset based test approaches with parameters similar to those used in 384 kbps and 768 kbps RMC. V1.0 Page 22 of 76 Report No.: CTL1603090615-SAR 4.3 TISSUE SIMULATING LIQUID For SAR measurement of the field distribution inside the phantom, the phantom must be filled with homogeneous tissue simulating liquid to a depth of at least 15cm. For head SAR testing the liquid height from the ear reference point (ERP) of the phantom to the liquid top surface is larger than 15cm For body SAR testing, the liquid height from the center of the flat phantom to the liquid top surface is larger than 15cm.The nominal dielectric values of the tissue simulating liquids in the phantom and the tolerance of 5% are listed in 4.2 4.4 The composition of the tissue simulating liquid Ingredient
(% Weight) Water Salt Sugar Preventol HEC DGBE 835MHz 1900MHz 2450MHz Head 41.45 1.45 56 0.10 1.00 0.00 Body 52.5 1.40 45.0 0.10 1.00 0.00 Head 55.242 0.306 0.00 0.00 0.00 44.452 Body 69.91 0.13 0.00 0.00 0.00 29.96 Head 62.7 0.50 0.00 0.00 0.00 36.8 Body 73.2 0.10 0.00 0.00 0.00 26.7 4.5 Tissue Calibration Result The dielectric parameters of the liquids were verified prior to the SAR evaluation using Agilent Dielectric Probe Kit and Agilent Network Analyzer 8753E. Frequency (MHz) Dielectric Parameters (5%) head body 835 39.425-43.575 41.48 52.44-57.96 55.88 0.855-0.945 0.89 0.9215-1.0185 0.96 Frequency (MHz) Dielectric Parameters (5%) 1900 head body 38.00-42.00 39.76 50.635-55.965 51.13 1.33-1.47 1.42 1.444-1.596 1.57 Tissue Temp
[o C]
Test Date 22 Mar. 16, 2016 22 Mar. 16, 2016 Tissue Temp
[o C]
Test Date 22 Mar. 17, 2016 22 Mar. 17, 2016 V1.0 Page 23 of 76 Report No.: CTL1603090615-SAR 5 System Check The purpose of the system check is to verify that the system operates within its specifications at the device test frequency. The system check is simple check of repeatability to make sure that the system works correctly at the time of the compliance test;
System check results have to be equal or near the values determined during dipole calibration with the relevant liquids and test system (10 %). System check is performed regularly on all frequency bands where tests are performed with the DASY5 system. The output power on dipole port must be calibrated to 24 dBm (250mW) before dipole is connected. Photo of Dipole Setup V1.0 Page 24 of 76 Report No.: CTL1603090615-SAR System Check in Head Tissue Simulating Liquid Measurement is made at temperature 22.0 and relative humidity 55%. Frequency Verification
(MHz) results 835 1900 Target value
(W/kg) 10.7 40.6 Measured 250mW value
(W/kg) 2.55 9.66 Normalized 1W value Deviation Measurement Date
(W/kg) 10.2 38.64
-4.67%
-4.83%
Mar. 16, 2016 Mar. 17, 2016 Note1. The graph results see Chapter 6.3. 2. Target Values used derive from the calibration certificate System Check in Body Tissue Simulating Liquid Measurement is made at temperature 22.0 and relative humidity 55%. Frequency Verification
(MHz) results 835 1900 Target value
(W/kg) 10.7 40.1 Measured 250mW value
(W/kg) 2.63 9.83 Normalized 1W value Deviation Measurement Date
(W/kg) 10.52 39.32
-1.68%
-1.95%
Mar. 16, 2016 Mar. 17, 2016 Note1. The graph results see Chapter 6.3. 2. Target Values used derive from the calibration certificate V1.0 Page 25 of 76 Report No.: CTL1603090615-SAR 6 TEST CONDITIONS AND RESULTS 6.1 Conducted Power Results Max Conducted power measurement results and power drift from tune-up tolerance provide by manufacturer:
Conducted power measurement results (GSM850/1900) Burst Average Power Calculati Tune-up Frame-Averaged Power Mode Txslot 128
(dBm) 190 251 Limit
(dBm) GSM 850
/
32.66 32.83 32.70 33 on
(dB)
/
128
/
(dBm) 190
/
251
/
Tune-up Limit
(dBm)
/
Burst Average Power Tune-up Calculati Frame-Averaged Power Tune-up Mode Txslot 512
(dBm) 661 810 Limit
(dBm) PCS 1900
/
29.41 29.79 29.66 30 on
(dB)
/
512
/
(dBm) 661
/
810
/
Limit
(dBm)
/
Conducted power measurement results (WCDMA Band II/V) Item AMR RMC Item AMR RMC Band ARFCN 12.2kbps AMR 12.2kbps RMC Band ARFCN 12.2kbps AMR 12.2kbps RMC FDD Band II result (dBm) Test Channel 9400 22.76 22.79 FDD Band V result (dBm) Test Channel 4183 22.59 22.86 9538 22.71 22.74 4233 22.75 22.81 Tune-up Limit
(dBm) 23 23 Tune-up Limit
(dBm) 23 23 9262 22.71 22.75 4132 22.78 22.81 V1.0 Page 26 of 76 Report No.: CTL1603090615-SAR 6.2 SAR Test Results Summary 6.2.1 General Remark According to KDB 447498 D01 v05r02 ,for each exposure position, if the highest 1-g SAR is 0.8 W/kg, testing for low and high channel is optional. Per KDB 865664 D01 v01r03,for each frequency band, if the measured SAR is 0.8W/Kg, testing for repeated SAR measurement is required , that the highest measured SAR is only to be tested. When the SAR results are near the limit, the following procedures are required for each device to verify these types of SAR measurement related variation concerns by repeating the highest measured SAR configuration in each frequency band. 1) When the original highest measured SAR is 0.8W/Kg, repeat that measurement once. 2) Perform a second repeated measurement only if the ratio of largest to smallest SAR for the original and first repeated measurements is 1.20 or when the original or repeated measurement is 1.45 W/Kg. 3) Perform a third repeated measurement only if the original, first and second repeated measurement is 1.5 W/Kg and ratio of largest to smallest SAR for the original, first and second measurement is 1.20. According to KDB 648474 D04 v01r02,when the reported SAR for a body-worn accessory measured without a headset connected to the handset is 1.2W/Kg, SAR testing with a headset connected is not required. Maximum Scaling SAR in order to calculate the Maximum SAR values to test under the standard Peak Power, Calculation method is as follows:
Maximum Scaling SAR =tested SAR (Max.) [maximum turn-up power (mw)/ maximum measurement output power(mw) ]
V1.0 Page 27 of 76 Report No.: CTL1603090615-SAR 6.2.2 Standalone SAR SAR Values [GSM 850]
Test Channel/
Test Duty Allowed Position Frequency(MHz) Mode Cycle Power Power
(dBm)
(dBm) Maximum Conducted Drift 0.21dB Drift
(dB) Measured SAR1g
(W/kg) Limit SAR1g 1.6 W/kg Scaling Factor Reported SAR1g
(W/kg) Graph Results Test Position of Head Left/Cheek 190/836.6 Voice 1:1 Left/Tilt 190/836.6 Voice 1:1 Right/Cheek 190/836.6 Voice 1:1 Right/Tilt 190/836.6 Voice 1:1 Left/Cheek 128/824.2 Voice 1:1 Left/Cheek 251/848.8 Voice 1:1 33 33 33 33 33 33 32.83
-0.16 0.769 1.04 0.80 Figure.1 32.83 0.12 0.542 1.04 32.83
-0.11 0.755 1.04 32.83 0.15 0.534 1.04 32.66
-0.05 0.742 1.08 32.70
-0.19 0.747 1.07 0.56 0.79 0.56 0.80 0.80
--
--
--
--
--
Test position of Body-worn accessory(Distance 10mm) Rear Side 190/836.6 Voice 1:1 Front Side 190/836.6 Voice 1:1 33 33 32.83 0.03 0.259 1.04 0.27 Figure.5 32.83 0.05 0.185 1.04 0.19
--
Note: 1.The value with green color is the maximum SAR Value of each test band. 2. Per FCC KDB Publication 447498 D01, if the reported (scaled) SAR measured at the middle channel or highest output power channel for each test configuration is 0.8 W/kg then testing at the other channels is optional for such test configuration(s). 3. When multiple slots are used, SAR should be tested to account for the maximum source-based time-averaged output power. 4. Per FCC KDB Publication 648474 D04, SAR was evaluated without a headset connected to the device. Since the reported SAR was 1.2 W/kg, no additional SAR evaluations using a headset cable were required. 5. When the maximum output power and tune-up tolerance specified for production units in a secondary mode is dB higher than the primary mode or when the highest reported SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up tolerance of secondary to primary mode and the adjusted SAR is 1.2 W/kg, SAR measurement is not required for the secondary mode Test Position Channel/
Frequency
(MHz) SAR Values [GSM 1900)]
Maximum Conducted Test Duty Allowed Mode Cycle Power Power
(dBm) Drift 0.21dB Drift
(dB)
(dBm) Test Position of Head Limit SAR1g 1.6 W/kg Measured SAR1g
(W/kg) Scaling Factor Reported SAR1g
(W/kg) Graph Results Left Cheek 661/1880 Voice Left Tilt 661/1880 Voice Right Cheek 661/1880 Voice Right Tilt 661/1880 Voice 1:1 1:1 1:1 1:1 30 30 30 30 29.79
-0.07 0.704 1.05 0.74 Figure.2 29.79
-0.02 0.569 1.05 0.60 29.79
-0.09 0.698 1.05 0.73 29.79 0.11 0.548 1.05 0.58 Test position of Body-worn accessory(Distance 10mm) Rear Side 661/1880 Voice Front Side 661/1880 Voice 1:1 1:1 30 30 29.79 0.12 0.246 1.05 0.26 29.79
-0.09 0.179 1.05 0.19 Note: 1.The value with green color is the maximum SAR Value of each test band. 2. Per FCC KDB Publication 447498 D01, if the reported (scaled) SAR measured at the middle channel or highest output power channel for each test configuration is 0.8 W/kg then testing at the other channels is optional for such test configuration(s). 3. When multiple slots are used, SAR should be tested to account for the maximum source-based time-averaged output power. 4. Per FCC KDB Publication 648474 D04, SAR was evaluated without a headset connected to the device. Since the reported SAR was 1.2 W/kg; no additional SAR evaluations using a headset cable were required. 5.When the maximum output power and tune-up tolerance specified for production units in a secondary mode is dB higher than the primary mode or when the highest reported SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up tolerance of secondary to primary mode and the adjusted SAR is 1.2 W/kg, SAR measurement is not required for the secondary mode
--
--
--
Figure.6
--
V1.0 Page 28 of 76 Report No.: CTL1603090615-SAR Test Position Channel/
Frequency
(MHz) SAR Values [WCDMA Band II]
Maximum Conducted Channel Duty Allowed Type Cycle Power Power
(dBm) Drift 0.21dB Drift
(dB)
(dBm) Test Position of Head Limit SAR1g 1.6 W/kg Measured SAR1g
(W/kg) Scaling Factor Reported SAR1g
(W/kg) Graph Results Left Cheek 9400/1880 RMC 12.2K 1:1 Left Tilt 9400/1880 RMC 12.2K 1:1 Right Cheek 9400/1880 RMC 12.2K 1:1 Right Tilt 9400/1880 RMC 12.2K 1:1 23 23 23 23 22.79 0.05 0.658 1.05 0.69 22.79
-0.11 0.487 1.05 0.51
--
--
22.79
-0.02 0.671 1.05 0.70 Figure.3 22.79
-0.09 0.514 1.05 0.54
--
Test position of Body-worn accessory (Distance 10mm) Rear Side 9400/1880 RMC 12.2K 1:1 Front Side 9400/1880 RMC 12.2K 1:1 23 23 22.79 0.01 0.254 1.05 0.27 22.79
-0.01 0.169 1.05 0.18 Figure.7
--
Note: 1.The value with green color is the maximum SAR Value of each test band. 2. Per FCC KDB Publication 447498 D01, if the reported (scaled) SAR measured at the middle channel or highest output power channel for each test configuration is 0.8 W/kg then testing at the other channels is optional for such test configuration(s). 3. Per FCC KDB Publication 648474 D04, SAR was evaluated without a headset connected to the device. Since the reported SAR was 1.2 W/kg, no additional SAR evaluations using a headset cable were required. 4. Per KDB 941225 D02, RMC 12.2kbps setting is used to evaluate SAR. Test Position Channel/
Frequency
(MHz) SAR Values [WCDMA Band V]
Maximum Conducted Channel Duty Allowed Type Cycle Power Power
(dBm) Drift 0.21dB Drift
(dB)
(dBm) Test Position of Head Limit SAR1g 1.6 W/kg Measured SAR1g
(W/kg) Scaling Factor Reported SAR1g
(W/kg) Graph Results Left Cheek 4183/836.6 RMC 12.2K 1:1 Left Tilt 4183/836.6 RMC 12.2K 1:1 Right Cheek 4183/836.6 RMC 12.2K 1:1 Right Tilt 4183/836.6 RMC 12.2K 1:1 23 23 23 23 22.86
-0.13 0.612 1.03 0.63 Figure.4 22.86 0.04 0.508 1.03 0.52 22.86
-0.05 0.610 1.03 0.63 22.86
-0.17 0.511 1.03 0.53
--
--
--
Test position of Body-worn accessory (Distance 10mm) Rear Side 4183/836.6 RMC 12.2K 1:1 Front Side 4183/836.6 RMC 12.2K 1:1 23 23 22.86 0.08 0.216 1.03 0.22 Figure.8 22.86
-0.05 0.186 1.03 0.19
--
Note: 1.The value with green color is the maximum SAR Value of each test band. 2. Per FCC KDB Publication 447498 D01, if the reported (scaled) SAR measured at the middle channel or highest output power channel for each test configuration is 0.8 W/kg then testing at the other channels is optional for such test configuration(s). 3. Per FCC KDB Publication 648474 D04, SAR was evaluated without a headset connected to the device. Since the reported SAR was 1.2 W/kg, no additional SAR evaluations using a headset cable were required. 4. Per KDB 941225 D02, RMC 12.2kbps setting is used to evaluate SAR. V1.0 Page 29 of 76 Report No.: CTL1603090615-SAR 6.2.3 Simultaneous SAR Evaluation Application Simultaneous Transmission information:
NO. Simultaneous Transmission Configurations 1 GSM(Voice) + --
2 WCDMA(Voice) + --
NOTE:
Smartphone Head Body No No No No Note
-
1) The Reported SAR summation is calculated based on the same configuration and test position. 2) Per KDB 447498 D01, simultaneous transmission SAR is compliant if, a) Scalar SAR summation < 1.6W/kg. b) SPLSR = (SAR1 + SAR2) 1.5 / (min. separation distance, mm), and the peak separation distance is determined from the square root of \[(x1-x2) 2 + (y1-y2) 2 + (z1-z2) 2], where (x1, y1, z1) and (x2, y2, z2) are the coordinates of the extrapolated peak SAR locations in the zoom scan c) If SPLSR0.04, simultaneously transmission SAR measurement is not necessary d) Simultaneously transmission SAR measurement, and the reported multi-band SAR < 1.6W/kg Simultaneous transmission SAR The EUT support voice mode at GSM/WCDMA only, and the same antenna shared, they cannot transmit simultaneously, so there is no Simultaneous SAR Evaluation in this report. V1.0 Page 30 of 76 Report No.: CTL1603090615-SAR 6.3 System Check Results System Performance Check at 835 MHz Head Date: 03/16/2016 DUT: Dipole 900MHz; Type: D900V2; Serial: 1d086 Communication System: CW; Frequency: 835 MHz; Duty Cycle: 1:1 Medium parameters used: f = 835 MHz; = 0.89 mho/m; r = 41.48.; = 1000 kg/m3 Phantom section: Flat Section DASY4 Configuration:
Probe: ES3DV3 - SN3221; ConvF (9.04, 9.04, 9.04); Calibrated: 1/31/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x61x1): Measurement grid: dx=15.00 mm, dy=15.00 mm Maximum value of SAR (interpolated) = 3.15 W/kg Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 52.987 V/m; Power Drift = 0.03 dB Peak SAR (extrapolated) = 3.448 W/kg SAR(1 g) = 2.55 W/kg; SAR(10 g) = 1.49 W/kg Maximum value of SAR (measured) = 3.02 W/kg 0 dB = 3.10 W/kg=9.83 dB W/kg System Performance Check 835MHz Head 250mW V1.0 Page 31 of 76 Report No.: CTL1603090615-SAR System Performance Check at 835 MHz Body Date: 03/16/2016 DUT: Dipole 900MHz; Type: D900V2; Serial: 1d086 Communication System: CW; Frequency: 835 MHz; Duty Cycle: 1:1 Medium parameters used: f = 835 MHz; = 0.96 mho/m; r = 55.88; = 1000 kg/m3 Phantom section: Flat Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (9.18, 9.18, 9.18); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x61x1): Measurement grid: dx=15.00 mm, dy=15.00 mm Maximum value of SAR (interpolated) = 3.25 W/kg Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 46.531 V/m; Power Drift = -0.04 dB Peak SAR (extrapolated) = 3.568 W/kg SAR(1 g) = 2.63 W/kg; SAR(10 g) = 1.58 W/kg Maximum value of SAR (measured) = 3.17 W/kg 0 dB = 3.25 W/kg = 10.24dB W/kg System Performance Check 835MHz Body 250mW V1.0 Page 32 of 76 Report No.: CTL1603090615-SAR System Performance Check at 1900 MHz Head Date: 03/17/2016 DUT: Dipole 1900MHz; Type: D1900V2; Serial: 5d194 Communication System: CW; Frequency: 1900 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1900 MHz; = 1.42 mho/m; r = 39.76; = 1000 kg/m3 Phantom section: Flat Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (7.54, 7.54, 7.54); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x61x1): Measurement grid: dx=15.00 mm, dy=15.00 mm Maximum value of SAR (interpolated) = 11.58 W/kg Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 91.813 V/m; Power Drift = -0.06 dB Peak SAR (extrapolated) = 14.363 W/kg SAR(1 g) = 9.66 W/kg; SAR(10 g) = 5.00 W/kg Maximum value of SAR (measured) = 11.44 W/kg 0 dB = 11.58 W/kg = 21.27 dB W/kg System Performance Check 1900MHz Head 250mW V1.0 Page 33 of 76 Report No.: CTL1603090615-SAR System Performance Check at 1900 MHz Body Date: 03/17/2016 DUT: Dipole 1900MHz; Type: D1900V2; Serial: 5d194 Communication System: CW; Frequency: 1900 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1900 MHz; = 1.57 mho/m; r = 51.13; = 1000 kg/m3 Phantom section: Flat Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (7.29, 7.29, 7.29); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x61x1): Measurement grid: dx=15.00 mm, dy=15.00 mm Maximum value of SAR (interpolated) = 12.49 W/kg Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 83.826 V/m; Power Drift = -0.04 dB Peak SAR (extrapolated) = 16.824 W/kg SAR (1 g) = 9.83 W/kg; SAR (10 g) = 5.17 W/kg Maximum value of SAR (measured) = 12.38 W/kg 0 dB = 12.49 W/kg = 21.93 dB W/kg System Performance Check 1900MHz Body 250mW V1.0 Page 34 of 76 Report No.: CTL1603090615-SAR 6.4 SAR Test Graph Results GSM850_GSM Voice_Left Cheek_Middle Channel Date: 2016-03-16 Communication System: GSM 850; Frequency: 836.6 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f = 836.6 MHz; = 0.883 mho/m; r = 41.25; = 1000 kg/m3 Phantom section: Left Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (9.04, 9.04, 9.04); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x101x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.826 mW/g Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 9.56 V/m; Power Drift = -0.16 dB Peak SAR (extrapolated) = 0.951 W/kg SAR(1 g) = 0.769 mW/g; SAR(10 g) = 0.588 mW/g Maximum value of SAR (measured) = 0.822 mW/g 0 dB = 0.822mW/g Figure 1: GSM850_GSM Voice_Left Cheek_Middle Channel V1.0 Page 35 of 76 Report No.: CTL1603090615-SAR PCS1900_GSM Voice_Left Cheek_Mid Channel Date: 2016-03-17 Communication System: PCS 1900; Frequency: 1880 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1880 MHz; = 1.405 mho/m; r = 39.62; = 1000 kg/m3 Phantom section: Left Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (7.54, 7.54, 7.54); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x101x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.757 mW/g Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 11.31 V/m; Power Drift = -0.07 dB Peak SAR (extrapolated) = 0.851 W/kg SAR(1 g) = 0.704 mW/g; SAR(10 g) = 0.537 mW/g Maximum value of SAR (measured) = 0.764 mW/g 0 dB = 0.764mW/g Figure 2: PCS1900_GSM Voice_Left Cheek_Mid Channel V1.0 Page 36 of 76 Report No.: CTL1603090615-SAR WCDMA Band II_RCM _Right Check_Middle Channel Date: 2016-03-17 Communication System: W1900; Frequency: 1880.0 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1880 MHz; = 1.405 mho/m; r = 39.62; = 1000 kg/m3 Phantom section: Rignt Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (7.54, 7.54, 7.54); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x101x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.711 mW/g Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 11.45 V/m; Power Drift = -0.02 dB Peak SAR (extrapolated) = 0.914 W/kg SAR(1 g) = 0.671 mW/g; SAR(10 g) = 0.509 mW/g Maximum value of SAR (measured) = 0.710 mW/g 0 dB = 0.710mW/g Figure 3: WCDMA Band II_RCM _Right Check_Middle Channel V1.0 Page 37 of 76 Report No.: CTL1603090615-SAR WCDMA Band V_RCM _Left Check_Middle Channel Date: 2016-03-16 Communication System: W850; Frequency: 836.6 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f = 836.6 MHz; = 0.883 mho/m; r = 41.25; = 1000 kg/m3 Phantom section: Left Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (9.04, 9.04, 9.04); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x101x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.654 mW/g Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 15.6 V/m; Power Drift = -0.13 dB Peak SAR (extrapolated) = 0.744 W/kg SAR(1 g) = 0.612 mW/g; SAR(10 g) = 0.467 mW/g Maximum value of SAR (measured) = 0.637 mW/g 0 dB = 0.637mW/g Figure 4: WCDMA Band V_RCM _Left Check_Middle Channel V1.0 Page 38 of 76 Report No.: CTL1603090615-SAR GSM850_Rear side_10mm_Middle Channel Date: 2016-03-16 Communication System: GSM 850; Frequency: 836.6 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f =836.6 MHz; = 0.965 mho/m; r = 55.94; = 1000 kg/m3;
Phantom section: Flat Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (9.18, 9.18, 9.18); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x101x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.271 mW/g Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 9.37 V/m; Power Drift = 0.03 dB Peak SAR (extrapolated) = 0.404 W/kg SAR(1 g) = 0.259 mW/g; SAR(10 g) = 0.153 mW/g Maximum value of SAR (measured) = 0.286 mW/g 0 dB = 0.286mW/g Figure 5: GSM850_Rear side_10mm_Middle Channel V1.0 Page 39 of 76 Report No.: CTL1603090615-SAR PCS1900_Rear side_10mm_Middle Channel Date: 2016-01-17 Communication System: PCS 1900; Frequency: 1880 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1880 MHz; = 1.538 mho/m; r = 50.99; = 1000 kg/m3 Phantom section: Flat Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (7.29, 7.29, 7.29); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x101x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.257 mW/g Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 9.37 V/m; Power Drift = 0.12 dB Peak SAR (extrapolated) = 0.384 W/kg SAR(1 g) = 0.246 mW/g; SAR(10 g) = 0.145 mW/g Maximum value of SAR (measured) = 0.272 mW/g 0 dB = 0.272mW/g Figure 6: PCS1900_Rear side_10mm_Middle Channel V1.0 Page 40 of 76 Report No.: CTL1603090615-SAR WCDMA Band II_RCM_Rear Side_10mm_Middle Channel Date: 2016-03-17 Communication System: W1900; Frequency: 1880 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1880 MHz; = 1.538 mho/m; r = 50.99; = 1000 kg/m3 Phantom section: Flat Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (7.29, 7.29, 7.29); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x101x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.265 mW/g Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 9.37 V/m; Power Drift = 0.01 dB Peak SAR (extrapolated) = 0.395 W/kg SAR(1 g) = 0.254 mW/g; SAR(10 g) = 0.150 mW/g Maximum value of SAR (measured) = 0.280 mW/g 0 dB = 0.280mW/g Figure 7: WCDMA Band II_RCM_Rear Side_10mm_Middle Channel V1.0 Page 41 of 76 Report No.: CTL1603090615-SAR WCDMA Band V_RCM_Rear Side_10mm_Middle Channel Date: 2016-03-16 Communication System: W850; Frequency: 836.6 MHz; Duty Cycle: 1:1 Medium parameters used (interpolated): f =836.6 MHz; = 0.965 mho/m; r = 55.94; = 1000 kg/m3;
Phantom section: Flat Section DASY4 Configuration:
Probe: ES3DV4 - SN3842; ConvF (9.18, 9.18, 9.18); Calibrated: 8/26/2015 Sensor-Surface: 4mm (Mechanical Surface Detection) Electronics: DAE4 Sn905; Calibrated: 7/16/2015 Phantom: SAM 1; Type: SAM;
Measurement SW: DASY52, Version 52.8 (2); SEMCAD X Version 14.6.6 (6824) Area Scan (61x101x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.230 mW/g Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 8.71 V/m; Power Drift = 0.08 dB Peak SAR (extrapolated) = 0.328 W/kg SAR(1 g) = 0.216 mW/g; SAR(10 g) = 0.131 mW/g Maximum value of SAR (measured) = 0.237 mW/g 0 dB = 0.237mW/g Figure 8: WCDMA Band V_RCM_Rear Side_10mm_Middle Channel V1.0 Page 42 of 76 Report No.: CTL1603090615-SAR 7 Calibration Certificate 7.1 Probe Calibration Certificate V1.0 Page 43 of 76 Report No.: CTL1603090615-SAR V1.0 Page 44 of 76 Report No.: CTL1603090615-SAR V1.0 Page 45 of 76 Report No.: CTL1603090615-SAR V1.0 Page 46 of 76 Report No.: CTL1603090615-SAR V1.0 Page 47 of 76 Report No.: CTL1603090615-SAR V1.0 Page 48 of 76 Report No.: CTL1603090615-SAR V1.0 Page 49 of 76 Report No.: CTL1603090615-SAR V1.0 Page 50 of 76 Report No.: CTL1603090615-SAR V1.0 Page 51 of 76 Report No.: CTL1603090615-SAR V1.0 Page 52 of 76 Report No.: CTL1603090615-SAR V1.0 Page 53 of 76 Report No.: CTL1603090615-SAR 7.2 D900V2 Dipole Calibration Certificate V1.0 Page 54 of 76 Report No.: CTL1603090615-SAR V1.0 Page 55 of 76 Report No.: CTL1603090615-SAR V1.0 Page 56 of 76 Report No.: CTL1603090615-SAR V1.0 Page 57 of 76 Report No.: CTL1603090615-SAR V1.0 Page 58 of 76 Report No.: CTL1603090615-SAR V1.0 Page 59 of 76 Report No.: CTL1603090615-SAR V1.0 Page 60 of 76 Report No.: CTL1603090615-SAR V1.0 Page 61 of 76 Report No.: CTL1603090615-SAR V1.0 Page 62 of 76 Report No.: CTL1603090615-SAR 7.3 D1900V2 Dipole Calibration Certificate V1.0 Page 63 of 76 Report No.: CTL1603090615-SAR V1.0 Page 64 of 76 Report No.: CTL1603090615-SAR V1.0 Page 65 of 76 Report No.: CTL1603090615-SAR V1.0 Page 66 of 76 Report No.: CTL1603090615-SAR V1.0 Page 67 of 76 Report No.: CTL1603090615-SAR V1.0 Page 68 of 76 Report No.: CTL1603090615-SAR V1.0 Page 69 of 76 Report No.: CTL1603090615-SAR V1.0 Page 70 of 76 Report No.: CTL1603090615-SAR 7.4 DAE4 Calibration Certificate V1.0 Page 71 of 76 Report No.: CTL1603090615-SAR V1.0 Page 72 of 76 Report No.: CTL1603090615-SAR V1.0 Page 73 of 76 Report No.: CTL1603090615-SAR 8 Test Setup Photos Photograph of the depth in the flat Phantom (835MHz, 15.0cm depth) Photograph of the depth in the head Phantom (835MHz, 15.1cm depth) V1.0 Page 74 of 76 Report No.: CTL1603090615-SAR Liquid depth in the flat Phantom (1900 MHz, 15.2cm depth) Liquid depth in the head Phantom (1900 MHz, 15.1cm depth) V1.0 Page 75 of 76 Report No.: CTL1603090615-SAR Left Head Cheek Left Head Tilt Right Head Cheek V1.0 Page 76 of 76 Report No.: CTL1603090615-SAR Right Head Tilt Body-worn Front Side (10 mm distance) Body-worn Rear Side ( 10 mm distance)
********************* End of Report **********************
1 | Test report part 1 | Test Report | 2.79 MiB | January 04 2016 |
Shenzhen CTL Testing Technology Co., Ltd. Tel: +86-755-89486194 Fax: +86-755-26636041 FCC PART 22 AND PART 24 TEST REPORT FCC Part 22 Subpart H / Part 24 Subpart E Report Reference No.:
CTL1603090615-WF Compiled by:
Jacky Chen
( position+printed name+signature)
(File administrators) Tested by:
( position+printed name+signature) Approved by:
( position+printed name+signature) Allen Wang
(Test Engineer) Tracy Qi
(Manager) Product Name..............................: Smart phone Model/Type reference..................: KPAU02 Trade Mark...................................: KISA FCC ID...........................................: 2AHS8-KPAU02 Applicants name.........................: MOBINTEL PTY LTD Address of applicant...................: PO BOX 2323, MOORABBIN, MELBOURNE. VICTORIA, 3189, AUSTRALIA Test Firm.......................................: Shenzhen CTL Testing Technology Co., Ltd. Address of Test Firm...................:
Floor 1-A, Baisha Technology Park, No.3011, Shahexi Road, Nanshan District, Shenzhen, China 518055 Test specification........................:
Standard........................................:
FCC CFR Title 47 Part 2, Part 22H and Part 24E EIA/TIA 603-D: 2010 KDB 971168 D01 TRF Originator..: Shenzhen CTL Testing Technology Co., Ltd. Master TRF: Dated 2011-01 Date of Receipt.............................: Mar. 09, 2016 Date of Test Date..........................: Mar. 09, 2016Mar. 24, 2016 Data of Issue................................: Mar. 24, 2016 Result............................................: Positive Shenzhen CTL Testing Technology Co., Ltd. All rights reserved. This publication may be reproduced in whole or in part for non-commercial purposes as long as the Shenzhen CTL Testing Technology Co., Ltd. is acknowledged as copyright owner and source of the material. Shenzhen CTL Testing Technology Co., Ltd. takes no responsibility for and will not assume liability for damages resulting from the reader's interpretation of the reproduced material due to its placement and context. V1.0 Page 2 of 32 Report No.: CTL1603090615-WF TEST REPORT Test Report No. :
CTL1603090615-WF Mar. 24, 2016 Date of issue Equipment under Test Model /Type Applicant Address Manufacturer Address
:
:
:
:
:
:
Smart phone KPAU02 MOBINTEL PTY LTD PO BOX 2323, MOORABBIN, MELBOURNE. VICTORIA, 3189, AUSTRALIA SHENZHEN GOLD EAST ELETRONIC CO., LTD 6F, Bldg #11, Yusheng Industry Area, #467 Gushu, Xixiang, Bao'an District, Shenzhen, China 518000 Test result Pass *
* In the configuration tested, the EUT complied with the standards specified page 5. The test report merely corresponds to the test sample. It is not permitted to copy extracts of these test result without the written permission of the test laboratory. V1.0 Page 3 of 32 Report No.: CTL1603090615-WF Revisions Version 1.0 Description Initial Test Report Release Issued Data 2016-03-24 Report No. CTL1603090615-WF Remark Tracy Qi
** Modified History **
V1.0 Page 4 of 32 Report No.: CTL1603090615-WF Contents 1 SUMMARY............................................................................................................................................................ 5 1.1 1.2 1.3 1.4 TEST STANDARDS ..................................................................................................................................................... 5 TEST DESCRIPTION ........................................................................................................................................................ 5 TEST FACILITY .............................................................................................................................................................. 6 STATEMENT OF THE MEASUREMENT UNCERTAINTY ............................................................................................................... 6 2 GENERAL INFORMATION ....................................................................................................................................... 7 2.1 2.2 2.3 2.4 2.5 2.6 ENVIRONMENTAL CONDITIONS ........................................................................................................................................ 7 GENERAL DESCRIPTION OF EUT ...................................................................................................................................... 7 DESCRIPTION OF TEST MODES AND TEST FREQUENCY .......................................................................................................... 8 EQUIPMENTS USED DURING THE TEST .............................................................................................................................. 9 RELATED SUBMITTAL(S) / GRANT (S) ................................................................................................................................ 9 MODIFICATIONS ........................................................................................................................................................... 9 3 TEST CONDITIONS AND RESULTS ......................................................................................................................... 10 3.1 3.2 3.3 3.4 3.5 OUTPUT POWER ........................................................................................................................................................ 10 OCCUPIED BANDWIDTH ............................................................................................................................................... 14 BAND EDGE COMPLIANCE ............................................................................................................................................ 17 SPURIOUS EMISSION ................................................................................................................................................... 20 FREQUENCY STABILITY UNDER TEMPERATURE & VOLTAGE VARIATIONS .................................................................................. 30 V1.0 Page 5 of 32 Report No.: CTL1603090615-WF 1 SUMMARY 1.1 TEST STANDARDS The tests were performed according to following standards:
FCC Part 22: PRIVATE LAND MOBILE RADIO SERVICES. FCC Part 24: PUBLIC MOBILE SERVICES TIA/EIA 603 D June 2010: Land Mobile FM or PM Communications Equipment Measurement and Performance Standards. FCC Part 2: FREQUENCY ALLOCA-TIONS AND RADIO TREATY MAT-TERS; GENERAL RULES AND REG-ULATIONS KDB 971168 D01:v02r02 MEASUREMENT GUIDANCE FOR CERTIFICATION OF LICENSED DIGITAL TRANSMITTERS ANSI C63.10-2013 Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz 1.2 Test Description Test Item Section in CFR 47 Result RF Output Power Peak-to-Average Ratio 99% & -26 dB Occupied Bandwidth Spurious Emissions at Antenna Terminal Field Strength of Spurious Radiation Out of band emission, Band Edge Frequency stability Part 2.1046 Part 22.913 (a)(2) Part 24.232 (c) Part 24.232 (d) Part 2.1049 Part 22.917 Part 24.238 Part 2.1051 Part 22.917 (a) Part 24.238 (a) Part 2.1053 Part 22.917 (a) Part 24.238 (a) Part 22.917 (a) Part 24.238 (a) Part 2.1055 Part 22.355 Part 24.235 Pass Pass Pass Pass Pass Pass Pass V1.0 Page 6 of 32 Report No.: CTL1603090615-WF 1.3 Test Facility 1.3.1 Address of the test laboratory Shenzhen CTL Testing Technology Co., Ltd. Floor 1-A, Baisha Technology Park, No. 3011, Shahexi Road, Nanshan, Shenzhen 518055 China There is one 3m semi-anechoic chamber and two line conducted labs for final test. The Test Sites meet the requirements in documents ANSI C63.4 and CISPR 22/EN 55022 requirements. 1.3.2 Laboratory accreditation The test facility is recognized, certified, or accredited by the following organizations:
IC Registration No.: 9618B The 3m alternate test site of Shenzhen CTL Testing Technology Co., Ltd. EMC Laboratory has been registered by Certification and Engineer Bureau of Industry Canada for the performance of with Registration No.: 9618B on November 13, 2013. FCC-Registration No.: 970318 Shenzhen CTL Testing Technology Co., Ltd. EMC Laboratory has been registered and fully described in a report filed with the (FCC) Federal Communications Commission. The acceptance letter from the FCC is maintained in our files. Registration 970318, December 19, 2013. 1.4 Statement of the measurement uncertainty The data and results referenced in this document are true and accurate. The reader is cautioned that there may be errors within the calibration limits of the equipment and facilities. The measurement uncertainty was calculated for all measurements listed in this test report acc. to CISPR 16 - 4 Specification for radio disturbance and immunity measuring apparatus and methods Part 4:
Uncertainty in EMC Measurements and is documented in the Shenzhen CTL Testing Technology Co., Ltd. quality system acc. to DIN EN ISO/IEC 17025. Furthermore, component and process variability of devices similar to that tested may result in additional deviation. The manufacturer has the sole responsibility of continued compliance of the device. Hereafter the best measurement capability for CTL laboratory is reported:
Test Radiated Emission Radiated Emission Conducted Disturbance Range 30~1000MHz Above 1GHz 0.15~30MHz Measurement Uncertainty 4.10dB 4.32dB 3.20dB Notes
(1)
(1)
(1)
(1) This uncertainty represents an expanded uncertainty expressed at approximately the 95%
confidence level using a coverage factor of k=2. V1.0 Page 7 of 32 Report No.: CTL1603090615-WF 2 GENERAL INFORMATION 2.1 Environmental conditions During the measurement the environmental conditions were within the listed ranges:
Normal Temperature:
Relative Humidity:
Air Pressure:
25C 55 %
101 kPa 2.2 General Description of EUT Product Name:
Model/Type reference:
Power supply:
Adapter information:
Smart phone KPAU02 DC 4.2V from battery Model: SK12G-0500100Z Input:AC100-240V 50/60Hz 0.2A Max Output:5V 1A Hardware version:
Q100-MB-V1.1 Software version:
Q100_HR01_SV_1.00_20151229. 2G Operation Band:
GSM850, GSM900, DCS1800, PCS1900 Supported type:
GSM Power Class:
Modulation Type:
GSM850, GSM900: Power Class 4 DCS1800, PCS1900: Power Class 1 GMSK for GSM GSM Release Version R99 Antenna gain:
1.69 dBi for GSM850, 1.88 dBi for DCS1900 WCDMA Operation Band:
WCDMA Band I , WCDMA Band II, WCDMA Band V Power Class:
Power Class 3 Modulation Type:
QPSK for WCDMA WCDMA Release Version:
R8 Antenna gain:
1.69dBi for WCDMA Band V, 1.88dBi for WCDMA Band II GPS Operation Frequency:
1.575GHz Modulation Type:
BPSK Note: For more details, refer to the users manual of the EUT. Remark: The GSM frequency band includes GSM850, GSM900, DCS1800 and PCS1900, but only GSM850 and PCS1900 bands test data included in this report. The WCDMA frequency band support Band I, WCDMA Band II and WCDMA Band V but only Band II and Band V bands test data included in this report. V1.0 Page 8 of 32 Report No.: CTL1603090615-WF 2.3 Description of Test Modes and Test Frequency The EUT has been tested under typical operating condition. The CUM200 used to control the EUT staying in continuous transmitting and receiving mode for testing. Regards to the frequency band operation: the lowestmiddle and highest frequency of channel were selected to perform the test, then shown on this report. Test Frequency:
GSM 850 PCS1900 Channel Frequency (MHz) Channel Frequency (MHz) 128 190 251 824.20 836.60 848.80 512 661 810 1850.20 1880.00 1909.80 WCDMA Band II WCDMA Band V Channel Frequency (MHz) Channel Frequency (MHz) 9262 9400 9538 1852.4 1880.0 1907.6 4132 4182 4233 826.40 836.60 846.60 Test Modes:
The test mode(s) are selected according to relevant radio technology specifications. Test Mode Mode 1 Mode 2 Test Modes Description GSM system, GSM, GMSK modulation WCDMA system, QPSK modulation V1.0 Page 9 of 32 Report No.: CTL1603090615-WF 2.4 Equipments Used during the Test Test Equipment Manufacturer Model No. Serial No. Calibration Date Calibration Due Date Bilog Antenna Bilog Antenna EMI Test Receiver Spectrum Analyzer Sunol Sciences Corp. Sunol Sciences Corp. R&S Agilent Controller EM Electronics Horn Antenna Horn Antenna Sunol Sciences Corp. Sunol Sciences Corp. Active Loop SCHWARZBEC Antenna Amplifier Amplifier Temperature/Humi dity Meter Radio K Agilent Agilent JB1 JB1 A061713 2015/06/02 2016/06/01 A061714 2015/06/02 2016/06/01 ESCI E4407B 103710 2015/06/02 2016/06/01 MY41440676 2015/05/21 2016/05/20 Controller EM 1000 N/A 2015/05/21 2016/05/20 DRH-118 A062013 2015/05/19 2016/05/18 DRH-118 A062014 2015/05/19 2016/05/18 FMZB1519 1519-037 2015/05/19 2016/05/18 8349B 8447D 3008A02306 2944A10176 2015/05/19 2016/05/18 2015/05/19 2016/05/18 Gangxing CTH-608 02 2015/05/20 2016/05/19 Communication R&S CMU200 115419 2015/05/22 2016/05/21 Tester High-Pass Filter High-Pass Filter RF Cable Climate Chamber SIGNAL GENERATOR Directional Coupler K&L K&L HUBER+SUHN ER ESPEC Agilent Agilent 9SH10-2700/X1 2750-O/O 41H10-1375/U1 2750-O/O RG214 N/A N/A N/A 2015/05/20 2016/05/19 2015/05/20 2016/05/19 2015/05/20 2016/05/19 EL-10KA A20120523 2015/05/20 2016/05/19 E4421B US40051744 2015/05/20 2016/05/19 87300B 3116A03638 2015/05/20 2016/05/19 2.5 Related Submittal(s) / Grant (s) This submittal(s) (test report) is intended for FCC ID: 2AHS8-KPAU02 filing to comply with of the FCC Part 22 and Part 24 Rules. 2.6 Modifications No modifications were implemented to meet testing criteria. V1.0 Page 10 of 32 Report No.: CTL1603090615-WF 3 TEST CONDITIONS AND RESULTS 3.1 Output Power LIMIT GSM850/WCDMA Band V: 7W PCS1900/WCDMA Band II: 2W The Peak-to-Average Ratio (PAR) of the transmission may not exceed 13 dB. TEST CONFIGURATION Conducted Power Measurement Radiated Power Measurement:
TEST PROCEDURE The EUT was setup according to EIA/TIA 603C Conducted Power Measurement:
a) Place the EUT on a bench and set it in transmitting mode. b) Connect a low loss RF cable from the antenna port to a spectrum analyzer and CMU200 by a Directional Couple. c) EUT Communicate with CMU200 then selects a channel for testing. d) Add a correction factor to the display of spectrum, and then test. Radiated Power Measurement:
a) The EUT shall be placed at the specified height on a support, and in the position closest to normal use as declared by provider. b) The test antenna shall be oriented initially for vertical polarization and shall be chosen to correspond to the frequency of the transmitter V1.0 Page 11 of 32 Report No.: CTL1603090615-WF c) The output of the test antenna shall be connected to the measuring receiver. d) The transmitter shall be switched on and the measuring receiver shall be tuned to the frequency of the transmitter under test. e) The test antenna shall be raised and lowered through the specified range of height until a maximum signal level is detected by the measuring receiver. f) The transmitter shall then be rotated through 360 in the horizontal plane, until the maximum signal level is detected by the measuring receiver. g) The test antenna shall be raised and lowered again through the specified range of height until a maximum signal level is detected by the measuring receiver. h) The maximum signal level detected by the measuring receiver shall be noted. i) The transmitter shall be replaced by a substitution antenna. j) The substitution antenna shall be orientated for vertical polarization and the length of the substitution antenna shall be adjusted to correspond to the frequency of the transmitter. k) The substitution antenna shall be connected to a calibrated signal generator. l) If necessary, the input attenuator setting of the measuring receiver shall be adjusted in order to increase the sensitivity of the measuring receiver. m) The test antenna shall be raised and lowered through the specified range of height to ensure that the maximum signal is received. n) The input signal to the substitution antenna shall be adjusted to the level that produces a level detected by the measuring receiver, that is equal to the level noted while the transmitter radiated power was measured, corrected for the change of input attenuator setting of the measuring receiver. o) The measurement shall be repeated with the test antenna and the substitution antenna orientated for horizontal polarization. p) The measure of the effective radiated power is the larger of the two levels recorded at the input to the substitution antenna, corrected for gain of the substitution antenna if necessary. V1.0 Page 12 of 32 Report No.: CTL1603090615-WF TEST RESULTS Conducted Measurement:
EUT Mode Channel Frequency
(MHz) GSM 850
(GMSK) PCS1900
(GMSK) WCDMA Band II
(QPSK) WCDMA Band V
(QPSK) 128 190 251 512 661 810 9262 9400 9538 4132 4183 4233 824.20 836.60 848.80 1850.20 1880.00 1909.80 1852.40 1880.00 1907.60 826.40 836.60 846.60 Avg.Burst Peak-to-Average Power
(dBm) 32.66 32.83 32.70 29.41 29.79 29.66 22.75 22.79 22.74 22.81 22.86 22.81 Ratio
(dB)
/
/
/
0.43 0.50 0.45 3.35 3.27 3.38
/
/
/
Limit
(dBm) Result 38.45 Pass 33.01 Pass 33.01 Pass 38.45 Pass Note: 1.Peak-to-Average Ratio= maximum PK burst power-maximum Avg. burst power. V1.0 Page 13 of 32 Report No.: CTL1603090615-WF Radiated Measurement:
Note: 1. The field strength of radiation emission was measured in the following position: EUT stand-up position (Zaxis), lie-down position (X, Y axis). The data show in this report only with the worst case setup. After exploratory measurement the worst case of Z axis was reported. Note: 2 We test the H direction and V direction and V direction is worse. GSM850 Channel 128 190 251 PMea
(dBm)
-10.25
-9.84
-9.73 Pcl
(dB) 2.42 2.46 2.53 Ga Antenna Gain(dB) 8.45 8.45 8.36 Correction
(dB) 2.15 2.15 2.15 PAg
(dB) ERP
(dBm) Limit
(dBm) Margin
(dB) Polarization 36.82 36.82 36.82 30.45 30.82 30.77 38.45 38.45 38.45 8.00 7.63 7.68 V V V Channel 512 661 810 Channel 9262 9400 9538 PMea
(dBm)
-11.52
-11.92
-11.72 PMea
(dBm)
-18.00
-18.44
-18.54 Pcl
(dB) 3.41 3.49 3.55 Pcl
(dB) 3.42 3.49 3.54 Ga Antenna Gain(dB) 10.24 10.24 10.23 GSM1900 PAg
(dB) 33.6 33.6 33.6 EIRP
(dBm) Limit
(dBm) Margin
(dB) Polarization 28.91 28.43 28.56 33.01 33.01 33.01 4.10 4.58 4.45 V V V WCDMA BAND II Ga Antenna Gain(dB) 10.24 10.24 10.23 PAg
(dB) 33.6 33.6 33.6 EIRP
(dBm) Limit
(dBm) Margin
(dB) Polarization 22.43 21.91 21.74 33.01 33.01 33.01 10.58 11.10 11.27 V V V WCDMA BAND V Channel 4132 4183 4233 PMea
(dBm)
-19.87
-20.08
-19.79 Pcl
(dB) 2.43 2.46 2.52 Ga Antenna Gain(dB) 8.45 8.45 8.36 Correction
(dB) 2.15 2.15 2.15 PAg
(dB) ERP
(dBm) Limit
(dBm) Margin
(dB) Polarization 36.82 36.82 36.82 20.83 20.58 20.71 38.45 38.45 38.45 17.62 17.87 17.74 V V V Remark:
1. EIRP=PMea(dBm)-Pcl(dB)+PAg(dB)+Ga(dBi) 2. ERP = EIRP 2.15dBi as EIRP by subtracting the gain of the dipole. V1.0 Page 14 of 32 Report No.: CTL1603090615-WF 3.2 Occupied Bandwidth LIMIT N/A TEST CONFIGURATION TEST PROCEDURE 1. The EUTs output RF connector was connected with a short cable to the spectrum analyzer 2. RBW was set to about 1% of emission BW, VBW3 times RBW. 3.
-26dBc display line was placed on the screen (or 99% bandwidth), the occupied bandwidth is the delta frequency between the two points where the display line intersects the signal trace. TEST RESULTS EUT Mode Channel GSM 850
(GMSK) PCS1900
(GMSK) WCDMA Band II
(QPSK) WCDMA Band V
(QPSK) 128 190 251 512 661 810 9262 9400 9538 4132 4183 4233 Frequency 99% Occupy
-26dB bandwidth
(MHz) 824.20 836.60 848.80 1850.20 1880.00 1909.80 1852.4 1880.0 1907.6 826.4 836.6 846.6 bandwidth (KHz) 252.53 250.29 252.97 243.85 246.64 244.96 4176.3 4165.7 4172.7 4158.2 4162.1 4122.7
(KHz) 321.6 316.9 317.4 313.0 312.5 308.7 4715 4686 4703 4657 4664 4636 V1.0 Page 15 of 32 Report No.: CTL1603090615-WF Test plots as follow:
GSM850 For GMSK Modulation PCS1900 For GMSK Modulation Channel 128 Channel 190 Channel 512 Channel 661 Channel 251 Channel 810 V1.0 Page 16 of 32 Report No.: CTL1603090615-WF WCDMA Band II WCDMA Band V Channel 9262 Channel 9400 Channel 4132 Channel 4183 Channel 9538 Channel 4233 V1.0 Page 17 of 32 Report No.: CTL1603090615-WF 3.3 Band Edge compliance LIMIT The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10log (P) dB. TEST CONFIGURATION TEST PROCEDURE In the 1MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed to measure the out of band Emissions. TEST RESULTS GSM850 Max Measurement Results Frequency Values (dBm)
(MHz) 823.9968 849.0188
-22.982
-22.832 Limit
(dBm)
-13.00
-13.00 Verdict Pass Pass Channel Number Frequency
(MHz) 128 251 824.20 848.80 V1.0 Page 18 of 32 Report No.: CTL1603090615-WF Channel Number Frequency
(MHz) 512 810 1850.20 1909.80 PCS1900 Measurement Results Frequency
(MHz) 1849.9966 1910.0206 Values (dBm)
-19.797
-19.212 Limit
(dBm)
-13.00
-13.00 Verdict Pass Pass Channel Number Frequency
(MHz) 9262 9538 1852.4 1907.6 WCDMA Band II Measurement Results Frequency
(MHz) 1849.9998 1910.0000 Values
(dBm)
-17.732
-20.231 Results
(dBm)
-15.512
-18.011 Limit
(dBm)
-13.00
-13.00 Verdict Pass Pass RBW compensate factor (30 kHz to 50 kHz): 10*log(50/30) = 2.22 dB V1.0 Page 19 of 32 Report No.: CTL1603090615-WF Channel Number Frequency
(MHz) 4132 4233 826.4 846.6 WCDMA Band V Measurement Results Frequency
(MHz) 823.8578 849.0006 Values
(dBm)
-23.962
-28.637 Results
(dBm)
-21.742
-26.417 Limit
(dBm)
-13.00
-13.00 Verdict Pass Pass RBW compensate factor (30 kHz to 50 kHz): 10*log(50/30) = 2.22 dB
1 | Test report part 2 | Test Report | 3.99 MiB | January 04 2016 |
V1.0 Page 20 of 32 Report No.: CTL1603090615-WF 3.4 Spurious Emission LIMIT The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10log (P) dB. TEST CONFIGURATION Conducted Spurious Measurement:
Radiated Spurious Measurement:
TEST PROCEDURE The EUT was setup according to EIA/TIA 603C Conducted Spurious Measurement:
a) Place the EUT on a bench and set it in transmitting mode. b) Connect a low loss RF cable from the antenna port to a spectrum analyzer and CMU200 by a Directional Couple. c) EUT Communicate with CMU200 then selects a channel for testing. V1.0 Page 21 of 32 Report No.: CTL1603090615-WF d) Add a correction factor to the display of spectrum, and then test. e) The resolution bandwidth of the spectrum analyzer was set at 1MHz for Part 22 and 1MHz for Part 24, sufficient scans were taken to show the out of band Emission if any up to10th harmonic. Radiated Spurious Measurement:
a) The EUT shall be placed at the specified height on a support, and in the position closest to normal use as declared by provider. b) The test antenna shall be oriented initially for vertical polarization and shall be chosen to correspond to the frequency of the transmitter c) The output of the test antenna shall be connected to the measuring receiver. d) The transmitter shall be switched on and the measuring receiver shall be tuned to the frequency of the transmitter under test. e) The test antenna shall be raised and lowered through the specified range of height until a maximum signal level is detected by the measuring receiver. f) The transmitter shall then be rotated through 360in the horizontal plane, until the maximum signal level is detected by the measuring receiver. g) The test antenna shall be raised and lowered again through the specified range of height until a maximum signal level is detected by the measuring receiver. h) The maximum signal level detected by the measuring receiver shall be noted. i) The transmitter shall be replaced by a substitution antenna. j) The substitution antenna shall be orientated for vertical polarization and the length of the substitution antenna shall be adjusted to correspond to the frequency of the transmitter. k) The substitution antenna shall be connected to a calibrated signal generator. l) If necessary, the input attenuator setting of the measuring receiver shall be adjusted in order to increase the sensitivity of the measuring receiver. m) The test antenna shall be raised and lowered through the specified range of height to ensure that the maximum signal is received. n) The input signal to the substitution antenna shall be adjusted to the level that produces a level detected by the measuring receiver, that is equal to the level noted while the transmitter radiated power was measured, corrected for the change of input attenuator setting of the measuring receiver. o) The measurement shall be repeated with the test antenna and the substitution antenna orientated for horizontal polarization. p) The measure of the effective radiated power is the larger of the two levels recorded at the input to the substitution antenna, corrected for gain of the substitution antenna if necessary. q) The resolution bandwidth of the spectrum analyzer was set at 100 kHz for Part 22 and 1MHz for Part 24. The frequency range was checked up to 10th harmonic. V1.0 Page 22 of 32 Report No.: CTL1603090615-WF TEST RESULTS Conducted Measurement:
Channel:
128 GSM850 30MHz~1GHz Channel:
30MHz~1GHz Channel:
1GHz~10GHz 190 1GHz~10GHz 251 30MHz~1GHz 1GHz~10GHz V1.0 Page 23 of 32 Report No.: CTL1603090615-WF Channel:
512 GSM1900 30MHz~1GHz 7GHz~13.5GHz Channel:
1GHz~7GHz 13.5GHz~20GHz 661 30MHz~1GHz 1GHz~7GHz V1.0 Page 24 of 32 Report No.: CTL1603090615-WF 7GHz~13.5GHz Channel:
30MHz~1GHz 13.5GHz~20GHz 810 1GHz~7GHz 7GHz~13.5GHz 13.5GHz~20GHz V1.0 Page 25 of 32 Report No.: CTL1603090615-WF Channel:
9262 WCDMA Band II 30MHz~1GHz 7GHz~13.5GHz Channel:
1GHz~7GHz 13.5GHz~20GHz 9400 30MHz~1GHz 1GHz~7GHz V1.0 Page 26 of 32 Report No.: CTL1603090615-WF 7GHz~13.5GHz Channel:
30MHz~1GHz 13.5GHz~20GHz 9538 1GHz~7GHz 7GHz~13.5GHz 13.5GHz~20GHz V1.0 Page 27 of 32 Report No.: CTL1603090615-WF Channel:
4132 WCDMA Band V 30MHz~1GHz Channel:
30MHz~1GHz Channel:
1GHz~10GHz 4183 1GHz~10GHz 4233 30MHz~1GHz 1GHz~10GHz V1.0 Page 28 of 32 Report No.: CTL1603090615-WF Radiated Measurement:
GSM 850 Channel Frequency
(MHz) PMea
(dBm) Pcl
(dB) Diatance 1648.40 2472.60 1648.40 2472.60 1673.20 2509.80 1673.20 2509.80 1697.60 2546.40 1697.60 2546.40
-33.25 3.00
-38.00 3.47
-32.39 3.00
-36.67 3.47
-32.21 3.14
-39.13 3.59
-31.51 3.14
-39.06 3.59
-31.12 3.26
-38.98 3.69
-31.57 3.26
-37.57 3.69 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 128 190 251 Ga Antenna Gain(dB) 9.58 10.72 9.68 10.72 9.61 10.77 9.61 10.77 9.77 10.89 9.77 10.89 Channel Frequency
(MHz) PMea
(dBm) Pcl
(dB) GSM1900 Ga Diatance Antenna Gain(dB) 512 661 810 3700.40 5550.60 3700.40 5550.60 3760.00 5640.00 3760.00 5640.00 3819.60 5729.40 3819.60 5729.40
-37.26 4.25
-41.50 4.97
-36.00 4.25
-42.27 4.97
-36.39 4.38
-42.31 5.01
-37.51 4.38
-42.36 5.01
-37.14 4.49
-42.46 5.26
-36.59 4.49
-43.17 5.26 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 12.34 13.52 12.34 13.52 12.34 13.58 12.34 13.58 12.45 13.66 12.45 13.66 Peak EIRP
(dBm)
-26.67
-30.75
-25.71
-29.42
-25.74
-31.95
-25.04
-31.88
-24.61
-31.78
-25.06
-30.37 Peak EIRP
(dBm)
-30.68
-34.25
-29.32
-35.02
-29.92
-35.13
-31.04
-35.18
-30.63
-35.26
-30.08
-35.97 Limit
(dBm) Margin
(dB) Polarization
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00 13.67 17.75 12.71 16.42 12.74 18.95 12.04 18.88 11.61 18.78 12.06 17.37 H H V V H H V V H H V V Limit
(dBm) Margin
(dB) Polarization
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00 17.68 21.25 16.32 22.02 16.92 22.13 18.04 22.18 17.63 22.26 17.08 22.97 H H V V H H V V H H V V V1.0 Page 29 of 32 Report No.: CTL1603090615-WF Channel Frequency
(MHz) PMea
(dBm) Pcl
(dB) Diatance Ga Antenna Gain(dB) WCDMA Band II 3704.80 5557.20 3704.80 5557.20 3760.00 5640.00 3760.00 5640.00 3815.20 5722.80 3815.20 5722.80
-38.59 4.27
-43.42 4.99
-40.58 4.27
-41.99 4.99
-39.43 4.38
-39.59 5.01
-38.40 4.38
-39.63 5.01
-39.74 4.47
-43.22 5.23
-40.68 4.47
-42.84 5.23 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 12.34 13.52 12.34 13.52 12.34 13.58 12.34 13.58 12.45 13.66 12.45 13.66 9262 9400 9538 WCDMA Band V Channel Frequency
(MHz) PMea
(dBm) Pcl
(dB) Diatance 9262 9400 9538 1652.80 2479.20 1652.80 2479.20 1673.20 2509.80 1673.20 2509.80 1693.20 2539.80 1693.20 2539.80
-39.19 3.02
-43.97 3.51
-40.73 3.02
-43.08 3.51
-39.39 3.14
-43.32 3.59
-41.55 3.14
-41.31 3.59
-40.47 3.24
-38.28 3.65
-41.12 3.24
-42.54 3.65 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 Ga Antenna Gain(dB) 9.58 10.72 9.68 10.72 9.61 10.77 9.61 10.77 9.77 10.89 9.77 10.89 Remark:
1. EIRP=PMea(dBm)-Pcl(dB) +Ga(dBi) 2. We were not recorded other points as values lower than limits. 3. Margin = Limit - EIRP Peak EIRP
(dBm)
-32.01
-36.17
-33.90
-34.74
-32.96
-32.41
-31.93
-32.45
-33.23
-36.02
-34.17
-35.64 Peak EIRP
(dBm)
-32.61
-36.72
-34.05
-35.83
-32.92
-36.14
-35.08
-34.13
-33.96
-31.08
-34.61
-35.34 Limit
(dBm) Margin
(dB) Polarization
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00 19.01 23.17 20.9 21.74 19.96 19.41 18.93 19.45 20.23 23.02 21.17 22.64 H H V V H H V V H H V V Limit
(dBm) Margin
(dB) Polarization
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00 19.61 23.72 21.05 22.83 19.92 23.14 22.08 21.13 20.96 18.08 21.61 22.34 H H V V H H V V H H V V V1.0 Page 30 of 32 Report No.: CTL1603090615-WF 3.5 Frequency Stability under Temperature & Voltage Variations LIMIT Cellular Band: 2.5ppm PCS Band: Within the authorized frequency block TEST CONFIGURATION TEST PROCEDURE The EUT was setup according to EIA/TIA 603C Frequency Stability under Temperature Variations:
The equipment under test was connected to an external AC or DC power supply and input rated voltage. RF output was connected to a frequency counter or spectrum analyzer via feed through attenuators. The EUT was placed inside the temperature chamber. Set the spectrum analyzer RBW low enough to obtain the desired frequency resolution and measure EUT 20 operating frequency as reference frequency. Turn EUT off and set the chamber temperature to -30. After the temperature stabilized for approximately 30 minutes recorded the frequency. Repeat step measure with 10 increased per stage until the highest temperature of +50 reached. Frequency Stability under Voltage Variations:
Set chamber temperature to 20. Use a variable AC power supply / DC power source to power the EUT and set the voltage to rated voltage. Set the spectrum analyzer RBW low enough to obtain the desired frequency resolution and recorded the frequency. Reduce the input voltage to specify extreme voltage variation (15%) and endpoint, record the maximum frequency change. TEST RESULTS V1.0 Page 31 of 32 Report No.: CTL1603090615-WF Reference Frequency: GSM850 Middle channel=190 channel=836.6MHz Voltage ( V ) Temperature ()
-30
-20
-10 0 10 20 30 40 50 25 25 4.20 4.70 End point 3.80 Frequency error Hz 84 70 35 36 27 17 48 69 84 79 84 ppm 0.100 0.084 0.042 0.043 0.032 0.020 0.057 0.082 0.100 0.094 0.100 Limit (ppm) Result 2.5 Pass Reference Frequency: PCS1900 Middle channel=661 channel=1880MHz Voltage ( V ) 4.20 4.70 End point 3.80 Temperature Frequency error
()
-30
-20
-10 0 10 20 30 40 50 25 25 Hz 95 48 77 41 36 15 27 60 59 61 79 ppm 0.051 0.026 0.041 0.022 0.019 0.008 0.014 0.032 0.031 0.032 0.042 Limit (ppm) Result Within the authorized frequency block Pass Reference Frequency: WCDMA Band II Middle channel=9400 channel=1880MHz Voltage ( V ) 4.20 4.70 End point 3.80 Temperature Frequency error
()
-30
-20
-10 0 10 20 30 40 50 25 25 Hz 86 71 68 54 47 12 63 76 80 54 76 ppm 0.046 0.038 0.036 0.029 0.025 0.006 0.034 0.040 0.043 0.029 0.040 Limit (ppm) Result Within the authorized frequency block Pass V1.0 Page 32 of 32 Report No.: CTL1603090615-WF Reference Frequency: WCDMA Band V Middle channel=4182 channel=836.6MHz Voltage ( V ) 4.20 4.70 End point 3.80 Temperature Frequency error
()
-30
-20
-10 0 10 20 30 40 50 25 25 Hz 73 63 49 68 40 14 37 65 49 65 71 ppm 0.087 0.075 0.059 0.081 0.048 0.017 0.044 0.078 0.059 0.078 0.85 Limit (ppm) Result 2.5 Pass
********************** End of Report **********************
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2016-04-01 | 1852.4 ~ 1907.6 | PCE - PCS Licensed Transmitter held to ear | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2016-04-01
|
||||
1 | Applicant's complete, legal business name |
MOBINTEL PTY LTD
|
||||
1 | FCC Registration Number (FRN) |
0025423997
|
||||
1 | Physical Address |
PO BOX 2323, MOORABBIN
|
||||
1 |
MELBOURNE, N/A
|
|||||
1 |
Australia
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
s******@nemko.com
|
||||
1 | TCB Scope |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
2AHS8
|
||||
1 | Equipment Product Code |
KPAU02
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
D**** V********
|
||||
1 | Telephone Number |
+61 4********
|
||||
1 | Fax Number |
+61 3********
|
||||
1 |
D******@KISA.COM.AU
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | PCE - PCS Licensed Transmitter held to ear | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Smart phone | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Power listed is ERP for Part 22 and EIRP for Part 24. SAR compliance for body-worn operating conditions is restricted to belt clips, holsters or similar accessories that have no metallic component in the assembly and must provide a minimum separation distance of 1 cm between the device and the body. End-users must be informed of the body-worn operating requirements for satisfying RF exposure compliance. The highest reported SAR values for head and body-worn accessory exposure conditions are 0.80 W/kg and 0.27 W/kg, respectively. This device contains functions that are not operational in the U.S. Territories. This filing is only applicable for U.S. operations. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Shenzhen CTL Testing Technology Co., Ltd.
|
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1 | Name |
T**** Q********
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1 | Telephone Number |
86-75********
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1 |
q******@ctl-lab.com
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 22H | 824.2 | 848.8 | 1.208 | 0.1 ppm | 253KGXW | ||||||||||||||||||||||||||||||||||
1 | 2 | 22H | 826.4 | 846.6 | 0.121 | 0.09 ppm | 4M16F9W | ||||||||||||||||||||||||||||||||||
1 | 3 | 24E | 1850.2 | 1909.8 | 0.778 | 0.05 ppm | 247KGXW | ||||||||||||||||||||||||||||||||||
1 | 4 | 24E | 1852.4 | 1907.6 | 0.175 | 0.05 ppm | 4M18F9W |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
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