03 FCC SAR Report-1

FCC ID: AZD601

RF Exposure Info

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FCCID_4161882

Test report No. _: 12322068S—A—R1 Page : 1 of 43 Issued date : February 4, 2019 FCC ID : AZD601 SAR TEST REPORT Test Report No.: 123220688—A—R1 Applicant : Canon Inc. Type of Equipment _: Communication Module Model No. : WM6O01 (*. It was installed into WM601‘s platform (1)) FCC ID : AZD601 Test Standard : FCC 47CFR §2.1093 Test Result : Complied (Refer to Section 3.3) Highest Reported SAR(1g) Platform Platform Frequency Burst power [dBm] Report No. Tune—up value (Measured) SAR type ; PlatfOPM fYP€ moge Band y Mode Measured |_Max. (*Refer to latest version) 0.27 W/kg |0.171 Whkg| Bodywom| 1| Digitalcamera| PC2366 DTS 2462 b(lIMbps) 9.00 11.0 *. This report. *. b:IEEE 802.11b. *,. Highest reported SAR (1g) across all exposure conditions = "0.27 W/kg (body—worn)."‘ *. Since highest reported SAR (1g) on a platform ofWM6O01 (EUT) which obtained in accordance with KDBA447498 (v06) was kept under 0.8 W/kg, this EUT was approved to operate multi—platform (which were tested in above.). This test report shall not be reproduced in full or partial, without the written approval ofUL Japan, Inc. O p & D i The results in this report apply only to the sample tested. This sample tested is in compliance with the limits ofthe above regulation. The test results in this test report are traceable to the national or international standards. This test report must not be used by the customer to claim product certification, approval, or endorsement by any agency ofthe Federal Government. This test report covers Radio technical requirements. It does not cover administrative issues such as Manual or non—Radio test related O Requirements. (ifapplicable) The all test items in this test report are conducted by UL Japan, Inc. Shonan EMC Lab. w 70 ~ The opinions and the interpretations to the result ofthe description in this report are outside scopes where UL Japan has been accredited. The information in Section 2, Section 3, Section 4 and Appendix 1 were provided from the customer. The laboratory is exempted from liability ofany test results affected from these information. 10. This report is a revised version of 123220688—A. 123220688—A report is replaced with this report. Date of test: October 15, 2018 Test engineer: ; ; M Hiroshi Naka Engineer, Consumer Technology Division Approved by: 7W Toyokazu Imamura Leader, Consumer Technology Division \\\:'\\“'“!”/;; x mis{ P n = \___‘_‘_/ __“_E__ o xo. es mdonl e disalve ie an mae . 7(rmx JIAB CA w I:I The testing in which "Non—accereditation" is displayed is outside the accreditation scopes in UL Japan. / lidul\ \,:\\ Testing 111 |X| There 1s no testing item of "Non—accreditation". RTLO2610 UL Japan, Inc. Shonan EMC Lab. 13—EM—FO429 1—22—3 Megumigaoka, Hiratsuka—sh1, Kanagawa—ken, 259—1 220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 2 of 43 Issued date : February 4, 2019 FCC ID : AZD601 REVISION HISTORY Revision Test report No. Date Page revised Contents Original 12322068S-A January 18, 2019 - - -R1 12322068S-A-R1 February 4, 2019 p1,3,4,6~10 Tune-up tolerance is changed. *. By issue of new revision report, the report of an old revision becomes invalid. CONTENTS PAGE REVISION HISTORY................................................................................................................................................... 2 CONTENTS .................................................................................................................................................... 2 SECTION 1: Customer information ................................................................................... 3 SECTION 2: Equipment under test (EUT)......................................................................... 3 2.1 Identification of EUT .......................................................................................................... 3 2.2 Product Description ............................................................................................................. 3 SECTION 3: Test specification, procedures and results ................................................... 4 3.1 Test specification................................................................................................................. 4 3.2 Exposure limit ..................................................................................................................... 4 3.3 Procedure and result ............................................................................................................ 4 3.4 Addition, deviation and exclusion to the test procedure ..................................................... 5 3.5 Test location ........................................................................................................................ 5 3.6 Confirmation before SAR testing ........................................................................................ 5 3.7 Confirmation after SAR testing ........................................................................................... 5 3.8 Test setup of EUT and SAR measurement procedure ......................................................... 6 SECTION 4: Operation of EUT during testing .................................................................. 7 SECTION 5: Uncertainty assessment (SAR measurement) .............................................. 7 SECTION 6: Confirmation before testing .......................................................................... 8 6.1 SAR reference power measurement (antenna terminal conducted average power of EUT) ................ 8 6.2 Comparison of power of SAR samples tested in the past....................................................................... 9 SECTION 7: SAR Measurement results ............................................................................. 10 Contents of appendixes APPENDIX 1: Photographs of test setup .............................................................................. 11 Appendix 1-1 Photograph of Platform: Digital camera and antenna position ............................................ 11 Appendix 1-2 EUT and support equipment................................................................................................ 12 Appendix 1-3 Photograph of test setup ...................................................................................................... 13 APPENDIX 2: SAR Measurement data ................................................................................. 15 Appendix 2-1 Evaluation procedure........................................................................................................... 15 Appendix 2-2 SAR measurement data ....................................................................................................... 16 APPENDIX 3: Test instruments ............................................................................................. 20 Appendix 3-1 Equipment used ................................................................................................................... 20 Appendix 3-2 Configuration and peripherals ............................................................................................. 21 Appendix 3-3 Test system specification ..................................................................................................... 22 Appendix 3-4 Simulated tissues composition and parameter confirmation ............................................... 23 Appendix 3-5 Daily check results .............................................................................................................. 23 Appendix 3-6 Daily check measurement data ............................................................................................ 24 Appendix 3-7 Daily check uncertainty ....................................................................................................... 24 Appendix 3-8 Calibration certificate: E-Field Probe (EX3DV4) ............................................................... 25 Appendix 3-9 Calibration certificate: Dipole (D2450V2) .......................................................................... 36 UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 3 of 43 Issued date : February 4, 2019 FCC ID : AZD601 SECTION 1: Customer information Company Name Canon Inc. Address 30-2, Shimomaruko 3-chome, Ohta-ku, Tokyo 146-8501 Japan Telephone Number +81-3-5482-7283 Facsimile Number +81-3-3757-8431 Contact Person Tomohiro Suzuki SECTION 2: Equipment under test (EUT) 2.1 Identification of EUT EUT Platform Type of Equipment Communication Module Platform (1): Digital camera Model Number WM601 PC2366 Serial Number AT180914-01 No.151 Engineering prototype Engineering prototype Condition of EUT (*. Not for sale: These samples are equivalent to mass-produced items.) September 13, 2018 (*.EUT for power measurement. No modification by the Lab.) Receipt Date of Sample October 12, 2018 (*. EUT for SAR test. No modification by the Lab.) (*.After power measurement, the EUT was returned to a customer to install into a platform.) Country of Mass-production Japan Japan Portable device Category Identified *. Since EUT may contact and/or very close to a human body during Wi-Fi operation, the partial-body SAR (1g) shall be observed. Rating DC3.3V supplied form the platform (*. The EUT is installed into the specified platform.) Model: WM601 (referred to as the EUT in this report) is a Communication Module which installs Feature of EUT into the specified platform (digital camera). SAR Accessory None 2.2 Product Description (Model: WM601) Model WM601 FCC ID AZD601 ISED certification number 498J-601 Equipment type Transceiver Operation mode Wi-Fi Bluetooth (Ver. 4.2 with EDR function) 2402-2480 MHz (BDR (Basic Data Rate), EDR Frequency of operation 2412-2462 MHz (b, g, n20) (Enhanced Data Rate), BLE (Low Energy mode)) Channel spacing 5 MHz 1MHz (BDR, EDR), 2MHz (BLE) Bandwidth 20 MHz (b, g, n20) 79MHz (b) DSSS: DBPSK, DQPSK, CCK FHSS: GFSK Type of modulation (g, n20)) OFDM: BPSK, QPSK, 16QAM, 64QAM (*. EDR: GFSK+/4-DQPSK, GFSK+8DPSK) Mode b g n(20HT) BDR EDR BLE Transmit typical power Typical 8.0 dBm 8.0 dBm 7.0 dBm 5.0 dBm 5.0 dBm 5.0 dBm and maximum tune-up Maximum 11.0 dBm 11.0 dBm 10.0 dBm 8.0 dBm 8.0 dBm 8.0 dBm tolerance limit Remarks - - - - - - *. The measured Tx output power (conducted) refers to section 6 in this report. Quantity of Antenna 1 piece Antenna type Pattern antenna (Meander antenna) Antenna connector type Not applicable (printed) Antenna gain (peak) 1.67 dBi *. b: IEEE 802.11b, g: IEEE 802.11g, n20: IEEE 802.11n(20HT); BLE: Bluetooth Low Energy; BDR: Basic Data Rate; EDR: Enhanced Data Rate; n/a: not applied. *. The EUT do not use the special transmitting technique such as “beam-forming” and “time-space code diversity.” *. Since Wi-Fi and Bluetooth are used a same antenna, Wi-Fi and Bluetooth do not transmit simultaneously. UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 4 of 43 Issued date : February 4, 2019 FCC ID : AZD601 SECTION 3: Test specification, procedures and results 3.1 Test specification FCC47CFR 2.1093: Radiofrequency radiation exposure evaluation: portable devices. The US Federal Communications Commission has released the report and order “Guidelines for Evaluating the Environmental Effects of RF Radiation", ET Docket No. 93-62 in August 1996. The order requires routine SAR evaluation prior to equipment authorization of portable transmitter devices, including portable telephones. For consumer products, the applicable limit is 1.6 mW/g for an uncontrolled environment and 8.0 mW/g for an occupational/controlled environment as recommended by the ANSI/IEEE standard C95.1-1992. The device should be evaluated at maximum output power (radiated from the antenna) under “worst-case” conditions for normal or intended use, incorporating normal antenna operating positions, device peak performance frequencies and positions for maximum RF energy coupling in accordance with the following measurement procedures. KDB 447498 D01 (v06): General RF exposure guidance KDB 248227 D01 (v02r02): SAR Guidance for IEEE 802.11 (Wi-Fi) transmitters KDB 865664 D01 (v01r04): SAR measurement 100MHz to 6GHz IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in IEEE Std. 1528-2013: the Human Head from Wireless Communications Devices: Measurement Techniques. 3.2 Exposure limit Environments of exposure limit Whole-Body Partial-Body Hands, Wrists, Feet and Ankles (averaged over the entire body) (averaged over any 1g of tissue) (averaged over any 10g of tissue) (A) Limits for Occupational /Controlled Exposure (W/kg) 0.4 8.0 20.0 (B) Limits for General population /Uncontrolled Exposure (W/kg) 0.08 1.6 4.0 *. Occupational/Controlled Environments: are defined as locations where there is exposure that may be incurred by people who are aware of the potential for exposure, (i.e. as a result of employment or occupation). *. General Population/Uncontrolled Environments: are defined as locations where there is the exposure of individuals who have no knowledge or control of their exposure. The limit applied in this test report is; General population / uncontrolled exposure, Partial-Body (averaged over any 1g of tissue) limit: 1.6 W/kg 3.3 Procedures and Results Test Procedure SAR measurement: IEC Std. 1528, IEC 62209-2, KDB 447498, KDB 248227, KDB 865664 Category FCC 47CFR §2.1093 (Portable device) SAR type Body touch Platform / model Digital camera / PC2366 (platform (1)) Mode / Band (Operation frequency) Bluetooth ((2402-2480)MHz) Wi-Fi ((2412-2462)MHz) Results (Reported SAR(1g)) Complied (*. lower power, SAR test was exempt.) Complied (*. Refer to Section 7 and Appendix 2) SAR (1g) Limit [W/kg] 1.6 1.6 Reported SAR(1g) value N/A 0.270 W/kg Measured SAR value N/A 0.171 W/kg Mode, frequency[MHz] - IEEE 802.11b, 1 Mbps (DBPSK/DSSS), 2462 MHz (11ch) Duty cycle [%] (scaled factor) - 99.9 (1.00) Output burst average power [dBm] - 9.00 (max.11.0, 1.58) (max. power, scaled factor) Note: UL Japan’s SAR Work Procedures No.13-EM-W0429 and 13-EM-W0430. No addition, deviation nor exclusion has been made from standards. *. EUT operates only with the specified Digital Camera. Therefore, the test was performed with the specified Digital Camera (Platform). *. Since Wi-Fi and Bluetooth are used a same antenna, Wi-Fi and Bluetooth do not transmit simultaneously. *. (Calculating formula) Corrected SAR to max.power (W/kg) = (Measured SAR (W/kg))  (Duty scaled)  (Tune-up factor) where; Tune-up factor [-] = 1 / (10 ^ (“max (max.power - burst average power), dB” / 10)), Duty scaled factor [-] = 100(%) / (duty cycle, %) Test outline: Where the EUT is built into a new platform (1), it was verified whether multi-platform conditions can be suited in according with section 2) of 5.2.2 in KDB447498 D01 (v06). Consideration of the The highest reported SAR (1g) of this platform (1) was kept;  0.8 W/kg. test results: Since highest reported SAR (1g) on this EUT's platform obtained in accordance with KDB447498 D01 (v06) was kept under 0.8 W/kg, this EUT was approved to operate multi-platform. UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 5 of 43 Issued date : February 4, 2019 FCC ID : AZD601 3.4 Addition, deviation and exclusion to the test procedure No addition, exclusion nor deviation has been made from the test procedure. 3.5 Test Location UL Japan, Inc., Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken 259-1220 JAPAN Telephone number: +81 463 50 6400 / Facsimile number: +81 463 50 6401 JAB Accreditation No. RTL02610 FCC Test Firm Registration Number: 839876 Size of reference ground plane (m) / Maximum measurement Used? Place IC Registration No. Width x Depth x Height (m) distance horizontal conducting plane  No.1 Semi-anechoic chamber 2973D-1 20.6 × 11.3 × 7.65 20.6 × 11.3 10 m  No.2 Semi-anechoic chamber 2973D-2 20.6 × 11.3 × 7.65 20.6 × 11.3 10 m  No.3 Semi-anechoic chamber 2973D-3 12.7 × 7.7 × 5.35 12.7 × 7.7 5m  No.4 Semi-anechoic chamber - 8.1 × 5.1 × 3.55 8.1 × 5.1 -  No.1 Shielded room - 6.8 × 4.1 × 2.7 6.8 × 4.1 -  No.2 Shielded room - 6.8 × 4.1 × 2.7 6.8 × 4.1 -  No.3 Shielded room - 6.3 × 4.7 × 2.7 6.3 × 4.7 -  No.4 Shielded room - 4.4 × 4.7 × 2.7 4.4 × 4.7 -  No.5 Shielded room - 7.8 × 6.4 × 2.7 7.8 × 6.4 -  No.6 Shielded room - 7.8 × 6.4 × 2.7 7.8 × 6.4 -  No.7 Shielded room 2973D-4 2.76 × 3.76 × 2.4 2.76 × 3.76 -  No.8 Shielded room - 3.45 × 5.5 × 2.4 3.45 × 5.5 -  No.1 Measurement room - 2.55 × 4.1 × 2.5 2.55 × 4.1 - 3.6 Confirmation before SAR testing Before SAR test, the RF wiring for the sample had been switched to the antenna conducted power measurement line from the antenna line and the average power was measured. The result is shown in Section 6. *. The platform transmission power was verified that it was within 2dB lower than the maximum tune-up tolerance limit when it was set the rated power. (Clause 4.1, KDB447498 D01 (v06)) Step.1 Data rate check (*. The power measurement was applied to the following data rate in each operation mode.) b g n20 (SS×1) Bluetooth Data Data Data MCS Data MCS Data Packet Data Modulation Modulation Modulation Modulation Modulation Type Modulation rate rate rate Index rate Index rate type rate DBPSK/DSSS 1 BPSK/OFDM 6 16QAM/OFDM 24 0 6.5 BPSK/OFDM 4 39 16QAM/OFDM BLE GFSK/FHSS - 1 DQPSK/DSSS 2 BPSK/OFDM 9 16QAM/OFDM 36 1 13 QPSK/OFDM 5 52 64QAM/OFDM BDR GFSK/FHSS DH5 1 CCK/DSSS 5.5 QPSK/OFDM 12 64QAM/OFDM 48 2 19.5 QPSK/OFDM 6 58.5 64QAM/OFDM EDR2 /4-DQPSK/FHSS 2DH 2 CCK/DSSS 11 QPSK/OFDM 18 64QAM/OFDM 54 3 26 16QAM/OFDM 7 65 64QAM/OFDM EDR3 8DPSK/FSSS 3DH5 3 *. Data rate: [Mbps]; SS: Spatial Stream; b: IEEE 802.11b, g: IEEE 802.11g, n20: IEEE 802.11n(20HT); BLE: Bluetooth Low Energy; BDR: Basic Data Rate; EDR: Enhanced Data Rate. Step.2 Consideration of SAR test channel For the SAR test reference, on each operation band, the average output power was measured on the low/middle/upper and specified channels with the worst data rate condition in step 1 in the above. 3.7 Confirmation after SAR testing It was checked that the power drift [W] is within ±5% in the evaluation procedure of SAR testing. The verification of power drift during the SAR test is that DASY5 system calculates the power drift by measuring the e-filed at the same location at beginning and the end of the scan measurement for each test position. The result is shown in APPENDIX 2. *. DASY5 system calculation Power drift value[dB] =20log(Ea)/(Eb) (where, Before SAR testing: Eb[V/m] / After SAR testing: Ea[V/m]) Limit of power drift[W] = 5%; Power drift limit (X) [dB] = 10log(P_drift)=10log(1.05/1)=10log(1.05)-10log(1)=0.21dB from E-filed relations with power; S=EH=E^2/=P/(4r^2) (: Space impedance)  P=(E^24r^2)/η Therefore, The correlation of power and the E-filed Power drift limit (X) dB=10log(P_drift)=10log(E_drift)^2=20log(E_drift) From the above mentioned, the calculated power drift of DASY5 system must be the less than 0.21dB. UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 6 of 43 Issued date : February 4, 2019 FCC ID : AZD601 3.8 Test setup of EUT and SAR measurement procedure Antenna separation distances in each test setup plan are shown as follows. Mode: Wi-Fi Bluetooth Setup Explanation of SAR test setup plan D SAR Tested D SAR Tested SAR plan (*. Refer to Appendix 1 for test setup photographs which had been tested.) [mm] /Reduced [mm] /Reduced type Front-right A lower-right grip portion of front of a camera is touched to the Flat phantom. 4.15 Tested 4.15 Reduced Front-grip A convex of grip on front surface of a camera is touched to the Flat phantom. 7.56 Tested 7.56 Reduced Right A right surface of camera is touched to the Flat phantom. 8.75 Tested 8.75 Reduced Bottom A bottom surface of camera is touched to the Flat phantom. 10.51 Tested 10.51 Reduced Body- Front-flat A lens section of front surface of a camera is touched to the Flat phantom. 14.0 Tested 14.0 Reduced touch Rear A rear of camera is touched to the Flat phantom with closing the LCD. 29.20 Tested 29.20 Reduced Top-right A right portion on top surface of a camera is touched to the Flat phantom. 49.56 Reduced 49.56 Reduced Left A left surface of camera is touched to the Flat phantom. 96.25 Reduced 96.25 Reduced *. D: Antenna separation distance. It is the distance from the antenna inside EUT to the outer surface of EUT which an operator may touch. *. Size of EUT (WM601): 20.5 mm (width)  10.0 mm (height)  2.0 mm (thickness) *. Size of platform (digital camera): 105.0 mm (width)  60.85 mm (height)  43.2 mm (depth) (*. the convex portion is not contained in size.) *. Consideration for SAR evaluation exemption SAR test exclusion considerations according to KDB447498 D01 The following is based on KDB447498D01. Step 1) The 1-g and 10-g SAR test exclusion thresholds for 100 MHz to 6 GHz at test separation distances ≤ 50 mm are determined by: [(max.power of channel, including tune-up tolerance, mW) / (min.test separation distance, mm)]  [ f (GHz)]  3.0 (for SAR(1g)), 7.5(for SAR(10g)) ꞏꞏformula (1) If power is calculated from the upper formula (1); [SAR(1g) test exclusion thresholds, mW] = 3  [test separation distance, mm] / [f (GHz)] ꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏꞏformula (2) 1. The upper frequency of the frequency band was used in order to calculate standalone SAR test exclusion considerations. 2. Power and distance are rounded to the nearest mW and mm before calculation 3. The result is rounded to one decimal place for comparison 4. The test exclusions are applicable only when the minimum test separation distance is ≤ 50 mm and for transmission frequencies between 100 MHz and 6 GHz. When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR test exclusion. When the calculated threshold value by a numerical formula above-mentioned in the following table is 3.0 or less, SAR test can be excluded. Step 2) At 1500 MHz to 6 GHz and for test separation distances > 50 mm, the SAR test exclusion threshold is determined according to the following, [test exclusion thresholds, mW] = [(Power allowed at numeric threshold for 50mm in formula (1))] + [(test separation distance, mm) - (50mm)]  10 formula (3) 1. The upper frequency of the frequency band was used in order to calculate standalone SAR test exclusion considerations. 2. Power and distance are rounded to the nearest mW and mm before calculation When output power is less than the calculated threshold value by a numerical formula above-mentioned in the following table, SAR test is excluded. [SAR exclusion calculations for step 1) antenna 50mm from the user, and for step 2) antenna > 50mm from the user.] Step 1) Step 2) SAR exclusion calculations for antenna 50mm from the user. > 50mm from the user Upper Maximum Calculated threshold value Tx frequency output power Front-right Front-grip Setup Right Bottom Front-flat Rear Top-right Left mode [MHz] [dBm] [mW] D[mm]  5 (4.15) 8 9 11 14 29 50 96 b 2462 11 13 Judge 4.1, Measure 2.5, Reduce 2.3, Reduce 1.9, Reduce 1.5, Reduce 0.7, Reduce 0.4, Reduce 556 mW, Reduce g 2462 11 13 Judge 4.1, Measure 2.5, Reduce 2.3, Reduce 1.9, Reduce 1.5, Reduce 0.7, Reduce 0.4, Reduce 556 mW, Reduce n20 2462 10 10 Judge 3.1, Measure 2.0, Reduce 1.7, Reduce 1.4, Reduce 1.1, Reduce 0.5, Reduce 0.2, Reduce 556 mW, Reduce BT 2480 8 6 Judge 1.9, Reduce 1.2, Reduce 1.0, Reduce 0.9, Reduce 0.7, Reduce 0.3, Reduce 0.2, Reduce 555 mW, Reduce *. D: Antenna separation distance, BT: Bluetooth, b: IEEE 802.11b, g: IEEE 802.11g, n20: IEEE 802.11n(20HT); n/a: not applied. <Conclusion for consideration for SAR test reduction> 1) For Wi-Fi operation, “Front-right”, "Front-grip", “Right” and "Bottom” setup which are near an antenna are applied the SAR test in body-liquid. The SAR test of "Front-flat" and “Rear” are tested to search the SAR peak location even if the SAR test exclusion judge value are smaller than "3". The SAR test of other SAR setups (“Top-right” and "Left”) is reduced because the SAR test exclusion judge value are smaller than "3" and they have enough antenna separation distance. 2) For Bluetooth operation, the SAR test is reduced for all SAR setups, because the SAR test exclusion judge value are smaller than "3." 3) The SAR test of front-of-face (tested by head liquid) wasn't considered, because the view finder is not existed on the camera. 4) The all SAR tests were conservatively performed with test separation distance 0mm. By the determined test setup shown above, the SAR test was applied in the following procedures. Worst SAR search by DSSS mode; *. Determine the highest reported SAR(1g) of DSSS mode (IEEE 802.11b). (*. Change the channel, if it is necessary.) *. Check the SAR of OFDM mode at worst reported SAR(1g) condition of DSSS mode (IEEE 802.11b), if it is necessary. *. During SAR test, the radiated power is always monitored by Spectrum Analyzer. UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 7 of 43 Issued date : February 4, 2019 FCC ID : AZD601 SECTION 4: Operation of EUT during testing 4.1 Operating modes for SAR testing This EUT has IEEE.802.11b, 11g and 11n(20HT) and Bluetooth (BDR/EDR/BLE) continuous transmitting modes. The frequency and the modulation used in the SAR testing are shown as a following. Operation mode BDR EDR BLE b g n20 Tx frequency band 2402-2480MHz 2412-2462MHz Maximum power [dBm] 8.0 8.0 8.0 8.0 11.0 11.0 10.0 SAR Frequency [MHz] - - - 2412, 2437, 2462 - - tested Modulation FHSS FHSS FHSS FHSS DSSS OFDM OFDM condition Data rate [Mbps] 1 2 3 1 1 6 6.5(MCS0) SAR tested/reduced? Reduced Reduced Reduced Reduced Tested Reduced Reduced WLAN/BT LE/Bluetooth: Ver1.2.0 31(26) (for power measurement and SAR test) This software was used for both power measurement and SAR test. For Wi-Fi operation, it set Tx parameters which includes; Controlled software "channel", "BW", "Power(dBm)"and "data rate" via LCD of camera. For BDR/EDR operation, it set Tx parameters which includes; "hopping off" "channel", "Mode (used: DH5/2DH5/3DH5)", "Data pattern (used: PRBS9)" via LCD of camera. For BLE operation, it set Tx parameters which includes; "channel", " payload length (used: 37byte) ", "payload type (used: PRBS9)" via LCD of camera. Power Power measurement fix fix fix fix 9 (tuned) 9 (tuned) 8 (tuned) setting SAR N/A N/A N/A N/A 9 (tuned) N/A N/A *. b: IEEE 802.11b, g: IEEE 802.11g, n20: IEEE 802.11n(20HT); BLE: Bluetooth Low Energy; BDR: Basic Data Rate; EDR: Enhanced Data Rate; N/A: not applied. *. Any output power reducing for channel 1 and 11 to meet restricted band requirements was not observed. *. (KDB248227 D01 (v02r02)) Since the reported SAR of the highest measured maximum output power channel is ≤ 0.8 W/kg, the SAR testing for other channels were omitted. However, the SAR testing was applied to lower, middle and upper channels for the worst SAR condition. SECTION 5: Uncertainty Assessment (SAR measurement) Although this standard determines only the limit value of uncertainty, there is no applicable rule of uncertainty in this. Therefore, the following results are derived depending on whether or not laboratory uncertainty is applied. Uncertainty of SAR measurement (2.4-6GHz) (*.&:   5%, DAK3.5, Tx: 100% duty cycle) (v08) 1g SAR 10g SAR Combined measurement uncertainty of the measurement system (k=1) ± 13.7% ± 13.6% Expanded uncertainty (k=2) ± 27.4% ± 27.2% Uncertainty Probability ci ci ui ui Error Description (2.4-6GHz) (v08) Divisor Vi, veff Value distribution (1g) (10g) (1g) (10g) A Measurement System (DASY5) (std. uncertainty) (std. uncertainty) 1 Probe Calibration Error ±6.55 % Normal 1 1 1 ±6.55 % ±6.55 % ∞ 2 Axial isotropy Error ±4.7 % Rectangular √3 √0.5 √0.5 ±1.9 % ±1.9 % ∞ 3 Hemispherical isotropy Error ±9.6 % Rectangular √3 √0.5 √0.5 ±3.9 % ±3.9 % ∞ 4 Linearity Error ±4.7 % Rectangular √3 1 1 ±2.7 % ±2.7 % ∞ 5 Probe modulation response ±2.4 % Rectangular √3 1 1 ±1.4 % ±1.4 % ∞ 6 Sensitivity Error (detection limit) ±1.0 % Rectangular √3 1 1 ±0.6 % ±0.6 % ∞ 7 Boundary effects Error ±4.3% Rectangular √3 1 1 ±2.5 % ±2.5 % ∞ 8 Readout Electronics Error(DAE) ±0.3 % Rectangular √3 1 1 ±0.3 % ±0.3 % ∞ 9 Response Time Error ±0.8 % Normal 1 1 1 ±0.8 % ±0.8 % ∞ 10 Integration Time Error (100% duty cycle) ±0 % Rectangular √3 1 1 0% 0% ∞ 11 RF ambient conditions-noise ±3.0 % Rectangular √3 1 1 ±1.7 % ±1.7 % ∞ 12 RF ambient conditions-reflections ±3.0 % Rectangular √3 1 1 ±1.7 % ±1.7 % ∞ 13 Probe positioner mechanical tolerance ±3.3 % Rectangular √3 1 1 ±1.9 % ±1.9 % ∞ 14 Probe Positioning with respect to phantom shell ±6.7 % Rectangular √3 1 1 ±3.9 % ±3.9 % ∞ 15 Max. SAR evaluation (Post-processing) ±4.0 % Rectangular √3 1 1 ±2.3 % ±2.3 % ∞ B Test Sample Related 16 Device Holder or Positioner Tolerance ±3.6 % Normal 1 1 1 ±3.6 % ±3.6 % 5 17 Test Sample Positioning Error ±5.0 % Normal 1 1 1 ±5.0 % ±5.0 % 145 18 Power scaling ±0% Rectangular √3 1 1 ±0 % ±0 % ∞ 19 Drift of output power (measured, <0.2dB) ±2.3% Rectangular √3 1 1 ±2.9 % ±2.9 % ∞ C Phantom and Setup 20 Phantom uncertainty (shape, thickness tolerances) ±7.5 % Rectangular √3 1 1 ±4.3 % ±4.3 % ∞ 21 Algorithm for correcting SAR (e',σ: 5%) ±1.2 % Normal 1 1 0.84 ±1.2 % ±0.97 % ∞ 22 Measurement Liquid Conductivity Error (DAK3.5) ±3.0 % Normal 1 0.78 0.71 ±2.3 % ±2.1 % 7 23 Measurement Liquid Permittivity Error (DAK3.5) ±3.1 % Normal 1 0.23 0.26 ±0.7 % ±0.8 % 7 24 Liquid Conductivity-temp.uncertainty (2deg.C.) ±5.3 % Rectangular √3 0.78 0.71 ±2.4 % ±2.2 % ∞ 25 Liquid Permittivity-temp.uncertainty (2deg.C.) ±0.9 % Rectangular √3 0.23 0.26 ±0.1 % ±0.1 % ∞ Combined Standard Uncertainty ±13.7 % ±13.6 % 733 Expanded Uncertainty (k=2) ±27.4 % ±27.2 % *. Table of uncertainties are listed for ISO/IEC 17025. *. This measurement uncertainty budget is suggested by IEEE Std.1528(2013) and determined by Schmid & Partner Engineering AG (DASY5 Uncertainty Budget). Per KDB 865664 D01 (v01r04) SAR Measurement 100 MHz to 6 GHz, Section 2.8.1., when the highest measured SAR(1g) within a frequency band is < 1.5W/kg, the extensive SAR measurement uncertainty analysis described in IEEE Std.1528 (2013) is not required in SAR reports submitted for equipment approval. UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 8 of 43 Issued date : February 4, 2019 FCC ID : AZD601 SECTION 6: Confirmation before testing 6.1 SAR reference power measurement (antenna terminal conducted average power of EUT) - Worst data rate/channel determination Measurement Result Power correction Data Power Duty Duty Duty Remarks Frequency rate Setting cycle factor scaled Time average Max.  from Tune-up Power tuning Mode factor Burst power power max. factor applied? *. Antenna gain (peak): (software) power 1.67 dBi (2.4 GHz band [MHz] CH [Mbps] [-] [%] [dB] [-] [dBm] [mW] [dBm] [mW] [dBm] [dB] [-] 2402 0 1(DH5) fix 78.2 1.07 1.28 6.05 4.03 7.12 5.15 8.0 -0.88 1.22 n/a (fix) - BDR 2440 39 1(DH5) fix 78.2 1.07 1.28 6.42 4.39 7.49 5.61 8.0 -0.51 1.12 n/a (fix) - 2480 78 1(DH5) fix 78.2 1.07 1.28 6.85 4.84 7.92 6.19 8.0 -0.08 1.02 n/a (fix) - 2402 0 2(2-DH5) fix 78.1 1.07 1.28 6.57 4.54 7.64 5.81 8.0 -0.36 1.09 n/a (fix) - EDR 2440 39 2(2-DH5) fix 78.1 1.07 1.28 6.74 4.72 7.81 6.04 8.0 -0.19 1.04 n/a (fix) - 2480 78 2(2-DH5) fix 78.1 1.07 1.28 6.85 4.84 7.92 6.19 8.0 -0.08 1.02 n/a (fix) - 2402 0 3(3-DH5) fix 78.1 1.07 1.28 6.59 4.56 7.66 5.83 8.0 -0.34 1.08 n/a (fix) - EDR 2440 39 3(3-DH5) fix 78.1 1.07 1.28 6.77 4.75 7.84 6.08 8.0 -0.16 1.04 n/a (fix) - 2480 78 3(3-DH5) fix 78.1 1.07 1.28 6.88 4.88 7.95 6.24 8.0 -0.05 1.01 n/a (fix) - 2402 0 1 fix 66.7 1.76 1.50 5.13 3.26 6.89 4.89 8.0 -1.11 1.29 n/a (fix) - BLE 2440 19 1 fix 66.7 1.76 1.50 5.39 3.46 7.15 5.19 8.0 -0.85 1.22 n/a (fix) - 2480 39 1 fix 66.7 1.76 1.50 5.75 3.76 7.51 5.64 8.0 -0.49 1.12 n/a (fix) - 2412 1 1 9 99.9 0.00 1.00 9.19 8.30 9.19 8.30 11.0 -1.81 1.52 tuned (default: 8) (*1) b 2437 6 1 9 99.9 0.00 1.00 9.01 7.96 9.01 7.96 11.0 -1.99 1.58 tuned (default: 8) (*1) 2462 11 1 9 99.9 0.00 1.00 9.00 7.94 9.00 7.94 11.0 -2.00 1.58 tuned (default: 8) (*1) 2412 1 6 9 99.2 0.03 1.01 9.57 9.06 9.60 9.12 11.0 -1.40 1.38 tuned (default: 8) (*1) g 2437 6 6 9 99.2 0.03 1.01 9.52 8.95 9.55 9.02 11.0 -1.45 1.40 tuned (default: 8) (*1) 2462 11 6 9 99.2 0.03 1.01 9.27 8.45 9.30 8.51 11.0 -1.70 1.48 tuned (default: 8) (*1) 2412 1 MCS0 8 99.2 0.03 1.01 8.38 6.89 8.41 6.93 10.0 -1.59 1.44 tuned (default: 7) (*1) n20 2437 6 MCS0 8 99.2 0.03 1.01 8.41 6.93 8.44 6.98 10.0 -1.56 1.43 tuned (default: 7) (*1) 2462 11 MCS0 8 99.2 0.03 1.01 8.18 6.58 8.21 6.62 10.0 -1.79 1.51 tuned (default: 7) (*1) *. : SAR test was applied.; *. xx.xx highlight is shown the maximum measured output power in each mode.; CH: channel, max: maximum, n/a: not applied. *1. The SAR test power was adjusted to not more than 2dB lower than maximum tune-up power (KDB 447498 D01 (v06) requirement) by the control software. *. b: IEEE 802.11b, g: IEEE 802.11g, n20: IEEE 802.11n(20HT); BLE: Bluetooth Low Energy; BDR: Basic Data Rate; EDR: Enhanced Data Rate. *. The measured duty cycle number of BDR/EDR/BLE was nearly equal to highest theory duty cycle. *. For Wi-Fi mode, the lowest data rate (lowest modulation) mode was selected for the SAR test which had the highest time-based measured average power. Preliminary tests were performed in different data rate and data rate associated with the highest power were chosen for full test in following tables. Data rate (D/R, [Mbps]) vs Time average power (dBm) 11b (2412MHz) 11g (2412MHz) 11n(20HT) (2412MHz) Duty cycle Duty factor Duty cycle Duty factor Duty cycle Duty factor Duty cycle Duty factor Duty cycle Duty factor D/R (%) (dB) Power D/R (%) (dB) Power D/R (%) (dB) Power D/R (%) (dB) Power D/R (%) (dB) Power 1 99.9 0.00 9.19 6 99.2 0.03 9.57 24 97.2 0.12 9.44 MCS0 99.2 0.03 8.38 MCS4 96.1 0.17 8.08 2 99.8 0.01 9.10 9 98.9 0.05 9.56 36 96.6 0.15 9.43 MCS1 98.5 0.07 8.27 MCS5 94.7 0.24 8.15 5.5 99.6 0.02 9.10 12 98.6 0.06 9.47 48 95.6 0.20 9.13 MCS2 97.9 0.09 8.25 MCS6 94.2 0.26 8.21 11 99.1 0.04 9.12 18 98.0 0.09 9.52 56 94.6 0.24 9.07 MCS3 97.1 0.13 8.21 MCS7 93.5 0.29 8.13 BLE, 2402MHz; on:416.1s/1cycle: 623.6s BDR(DH5), 2402MHz; on: 2.931ms/1cycle: 3.746ms EDR(3DH5), 2402MHz; on: 2.932ms/1cycle: 3.752ms b (1Mbps), 2412MHz; on: 14.35ms/1cycle: 14.36ms g (6Mbps), 2412MHz; on: 2.391ms/1cycle: 2.41ms n20(MCS0), 2412MHz; on: 2.219ms/1cycle: 2.237ms *. Calculating formula: Result-Time average power (dBm) = (P/M Reading, dBm)+(Cable loss, dB)+(Attenuator, dB) Result-Burst power (dBm) (*.equal to 100% duty cycle) = (P/M Reading, dBm)+(Cable loss, dB)+(Attenuator, dB)+(duty factor, dB) Duty factor (dBm) = 10  log (100/(duty cycle, %))  form max. (dB) = (Results-Burst power (average, dBm)) - (Max.-specification output power (average, dBm)) Duty scaled factor (Duty cycle correction factor for obtained SAR value) (unit: (-)) = 100(%) / (duty cycle, %) Tune-up factor (Power tune-up factor for obtained SAR value) (unit: (-)) = 1 / (10 ^ (“Deviation from max., dB” / 10)) *. Date measured: September 14, 2018 / Measured by: Hiroshi Naka / Place: preparation room of No. 7 shielded room. (25 deg.C. / 58 %RH) *. Uncertainty of antenna port conducted test; Power measurement uncertainty above 1GHz for this test was: (±) 0.48 dB(Average)/(±) 0.66 dB(Peak). *. Uncertainty of antenna port conducted test; Duty cycle and time measurement: (±) 0.012 %. UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 9 of 43 Issued date : February 4, 2019 FCC ID : AZD601 6.2 Comparison of power of SAR samples tested in the past Burst average power [dBm] ("*": Higher) WM601's platform WM601 Date power Reference report# Power Mode Frequency [MHz] Serial number measured (*. UL Japan published.) Max. Typ. No. Model setting (Data rate) 2412 2437 2462 EMC (Ref.) - (WM601) 02 October 15, 2018 12322067S-G 11.0 8.0 8 (default) b (1 Mbps) 8.30* 8.03 8.12 This report 8 (default) 8.08 8.16* 7.97 SAR test (1) 1 PC2366 AT180914-01 September 14, 2018 11.0 8.0 b (1 Mbps) (12322068S-A) 9 (*1) 9.19 9.01 9.00 *. b: IEEE 802.11b, Max.: Maximum power; Typ.: Typical power. *1. The SAR test power was adjusted to not more than 2dB lower than maximum tune-up power (KDB 447498 D01 (v06) requirement) by the control software. UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401

Test report No. : 12322068S-A-R1 Page : 10 of 43 Issued date : February 4, 2019 FCC ID : AZD601 SECTION 7: SAR Measurement results Measurement date: October 15, 2018 Measurement by: Hiroshi Naka [Liquid measurement] Liquid parameters (*a) ΔSAR Coefficients(*c) Target Liquid Permittivity (r) [-] Conductivity [S/m] Frequency Temp. Depth ΔSAR Correction Date measured [MHz] type Measured Limit Target Measured Limit [deg.C.] [mm] (1g) [%] required? Target Meas. Δr [%] (*b) Meas. Δ [%] (*b) 2412 52.75 50.70 -3.9 -5%  1.914 1.962 +2.5 0%  +2.10 not required. 2437 October 15, 2018, Body 52.72 50.59 -4.0 r-meas. 1.938 1.995 +3.0 -meas. 22.3 151 +2.34 not required. before SAR test 2462 52.68 50.49 -4.2  0% 1.967 2.028 +3.1  +5% +2.42 not required. [SAR measurement results] SAR measurement results Reported SAR (1g) [W/kg] EUT setup SAR (1g) [W/kg] Duty cycle Output burst average SAR Frequency Data SAR plot # in Max.value of multi-peak correction power correction Remarks Mode [MHz] rate Gap Battery LCD Corrected Appendix Position ΔSAR ΔSAR Duty Duty Meas. Max. Tune-up (*d) 2-2 (Channel) [Mbps] [mm] ID position Meas. [%] corrected [%] scaled [dBm]. [dBm] factor 2412(1) 1 Front-right 0 #1 Op90 0.155 +2.10 n/a (*c) 99.9 1.00 9.19 11.0 1.52 0.236 Plot 2 - 2437(6) 1 Front-right 0 #1 Op90 0.157 +2.34 n/a (*c) 99.9 1.00 9.01 11.0 1.58 0.248 Plot 3 - 2462(11) 1 Front-right 0 #1 Op90 0.171 +2.42 n/a (*c) 99.9 1.00 9.00 11.0 1.58 0.270 Plot 1 *.Higher, DSSS. 2412(1) 1 Front-grip 0 #1 Op90 0.121 +2.10 n/a (*c) 99.9 1.00 9.19 11.0 1.52 0.184 Plot 4 - b 2412(1) 1 Right 0 #2 Close 0.035 +2.10 n/a (*c) 99.9 1.00 9.19 11.0 1.52 0.053 Plot 5 - 2412(1) 1 Bottom 0 #2 Close 0.023 +2.10 n/a (*c) 99.9 1.00 9.19 11.0 1.52 0.035 Plot 6 - 2412(1) 1 Front-flat 0 #2 Op90 n/a *. Since the arear scan was performed to check the SAR n/a Plot 7 - peak location (as antenna position), zoom scan was not 2412(1) 1 Rear 0 #2 Close n/a performed. n/a Plot 8 - Notes: *. b: IEEE 802.11b; Max.: maximum.; Meas.: Measured.; n/a: not applied; Gap: It is the separation distance between the nearest position of camera outer surface and the bottom outer surface of phantom; Battery ID: Refer to Appendix 1.; LCD position: Refer to Appendix 1 for more detail (Op90: Open 90 degrees). *. During test, the EUT was operated with full charged battery and without all interface cables. *. Calibration frequency of the SAR measurement probe (and used conversion factors) SAR test frequency Probe calibration frequency Validity Conversion factor Uncertainty 2412, 2437, 2462 MHz 2450MHz within 50MHz of calibration frequency 7.32 12.0% *. The uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. *a. The target value is a parameter defined in Appendix A of KDB865664 D01 (v01r04), the dielectric parameters suggested for head and body tissue simulating liquid are given at 2000 and 2450MHz. Parameters for the frequencies 2000-2450MHz were obtained using linear interpolation. (Refer to appendix 3-4.) *b. Refer to KDB865664 D01 (v01r04), item 2), Clause 2.6; "When nominal tissue dielectric parameters are recorded in the probe calibration data; for example, only target values and tolerance are reported, the measured εr and σ of the liquid used in routine measurements must be: ≤ the target εr and ≥ the target σ values and also within 5% of the required target dielectric parameters." *c. Calculating formula: ΔSAR(1g)= Cεr Δεr + C Δ, Cεr=-7.854E-4f3+9.402E-3f2-2.742E-2f-0.2026 / C =9.804E-3f3-8.661E-2f2+2.981E-2f+0.7829 SAR corrected SAR (1g) (W/kg) = (Meas. SAR(1g) (W/kg))  (100 - (SAR(%)) / 100 *d. Calculating formula: Reported SAR (1g) (W/kg) = (Measured SAR (1g) (W/kg))  (Duty scaled)  (Tune-up factor) Duty scaled = Duty scaled factor: Duty cycle correction factor for obtained SAR value, Duty scaled factor [-] = 100(%) / (duty cycle, %) Tune-up factor: Power tune-up factor for obtained SAR value, Tune-up factor [-] = 1 / (10 ^ (“Deviation from max., dB” / 10)) (Clause 5.2, 2.4GHz SAR Procedures, in KDB248227 D01 (v02r02)) 5.2.1 802.11b DSSS SAR Test Requirements SAR is measured for 2.4 GHz 802.11b DSSS using either a fixed test position or, when applicable, the initial test position procedure. SAR test reduction is determined according to the following: 1) When the reported SAR of the highest measured maximum output power channel for the exposure configuration is ≤ 0.8 W/kg, no further SAR testing is required for 802.11b DSSS in that exposure configuration. 5.2.2 2.4 GHz 802.11g/n OFDM SAR Test Exclusion Requirements When SAR measurement is required for 2.4 GHz 802.11g/n OFDM configurations, the measurement and test reduction procedures for OFDM are applied (section 5.3, including sub-sections). SAR is not required for the following 2.4 GHz OFDM conditions. 1) When KDB Publication 447498 SAR test exclusion applies to the OFDM configuration. 2) When the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS specified maximum output power and the adjusted SAR is ≤ 1.2 W/kg. *. SAR test of OFDM mode was reduced, because the estimate reported SAR of OFDM mode was ≤ 1.2 W/kg by using the highest reported SAR of DSSS mode. Maximum tune-up tolerance limit OFDM scaled OFDM DSSS reported SAR(1g) value Estimated SAR(1g) value: Exclusion limit Standalone SAR DSSS OFDM factor [-] mode OFDM [W/kg] [W/kg] test require? [dBm] [mW] (a) [dBm] [mW] (b) (b)/(a)100 Setup [W/kg] 11g 11.0 13 11.0 13 1.000 Front-right 0.270 0.270 ≤ 1.2 No n (20HT) 11.0 13 10.0 10 0.769 Front-right 0.270 0.208 ≤ 1.2 No UL Japan, Inc. Shonan EMC Lab. 1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401


Document Created: 2019-07-10 01:12:47
Document Modified: 2019-07-10 01:12:47
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