SAR Reference Dipole Calibration Report Ref : ACR.262.4.20.MVGB.A SHENZHEN STS TEST SERVICES CO., LTD. 1/F., BUILDING 2, ZHUOKE SCIENCE PARK,No.190, CHONGQING ROAD,FUYONG STREET, BAO’ AN DISTRICT, SHENZHEN,GUANGDONG,CHINA MVG COMOSAR REFERENCE DIPOLE FREQUENCY: 750 MHZ SERIAL NO.: SN 30/14 DIP0G750-331 Calibrated at MVG Z.I.
Ref: ACR.262.4.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT Name Function Prepared by : Jérôme LUC Technical Manager Date 7/28/2020 Checked by : Jérôme LUC Technical Manager 7/28/2020 Approved by : Yann Toutain Laboratory Director 7/28/2020 Distribution : Issue A Name Jérôme LUC Signature Customer Name Shenzhen STS Test Services Co., Ltd. Date 7/28/2020 Modifications Initial release Page: 2/11 Template_ACR.DDD.N.YY.MVGB.
SAR REFERENCE DIPOLE CALIBRATION REPORT Ref: ACR.262.4.20.MVGB.A TABLE OF CONTENTS 1 Introduction ................................................................................................................ 4 2 Device Under Test ..................................................................................................... 4 3 Product Description ................................................................................................... 4 3.
SAR REFERENCE DIPOLE CALIBRATION REPORT 1 Ref: ACR.262.4.20.MVGB.A INTRODUCTION This document contains a summary of the requirements set forth by the IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards for reference dipoles used for SAR measurement system validations and the measurements that were performed to verify that the product complies with the fore mentioned standards.
Ref: ACR.262.4.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 4 MEASUREMENT METHOD The IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards provide requirements for reference dipoles used for system validation measurements. The following measurements were performed to verify that the product complies with the fore mentioned standards. 4.1 RETURN LOSS REQUIREMENTS The dipole used for SAR system validation measurements and checks must have a return loss of -20 dB or better.
Ref: ACR.262.4.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 6 6.1 CALIBRATION MEASUREMENT RESULTS RETURN LOSS AND IMPEDANCE IN HEAD LIQUID Frequency (MHz) 750 6.2 Requirement (dB) -20 Impedance 55.2 + 1.5 j RETURN LOSS AND IMPEDANCE IN BODY LIQUID Frequency (MHz) 750 6.3 Return Loss (dB) -25.47 Return Loss (dB) -27.25 Requirement (dB) -20 Impedance 51.4 + 4.
Ref: ACR.262.4.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 900 149.0 ±1 %. 83.3 ±1 %. 3.6 ±1 %. 1450 89.1 ±1 %. 51.7 ±1 %. 3.6 ±1 %. 1500 80.5 ±1 %. 50.0 ±1 %. 3.6 ±1 %. 1640 79.0 ±1 %. 45.7 ±1 %. 3.6 ±1 %. 1750 75.2 ±1 %. 42.9 ±1 %. 3.6 ±1 %. 1800 72.0 ±1 %. 41.7 ±1 %. 3.6 ±1 %. 1900 68.0 ±1 %. 39.5 ±1 %. 3.6 ±1 %. 1950 66.3 ±1 %. 38.5 ±1 %. 3.6 ±1 %. 2000 64.5 ±1 %. 37.5 ±1 %. 3.6 ±1 %. 2100 61.0 ±1 %. 35.7 ±1 %. 3.6 ±1 %. 2300 55.5 ±1 %. 32.6 ±1 %. 3.
Ref: ACR.262.4.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.2 2100 39.8 ±5 % 1.49 ±5 % 2300 39.5 ±5 % 1.67 ±5 % 2450 39.2 ±5 % 1.80 ±5 % 2600 39.0 ±5 % 1.96 ±5 % 3000 38.5 ±5 % 2.40 ±5 % 3500 37.9 ±5 % 2.91 ±5 % SAR MEASUREMENT RESULT WITH HEAD LIQUID The IEEE Std. 1528 and CEI/IEC 62209 standards state that the system validation measurements should produce the SAR values shown below (for phantom thickness of 2 mm), within the uncertainty for the system validation.
Ref: ACR.262.4.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.3 2450 52.4 24 2600 55.3 24.6 3000 63.8 25.7 3500 67.1 25 BODY LIQUID MEASUREMENT Frequency MHz 750 835 900 915 1450 1610 1800 1900 2000 2100 2450 2600 3000 3500 5200 5300 5400 Relative permittivity (r’) Conductivity (σ) S/m required measured required measured 55.5 ±5 % PASS 0.96 ±5 % PASS 55.2 ±5 % 0.97 ±5 % 55.0 ±5 % 1.05 ±5 % 55.0 ±5 % 1.06 ±5 % 54.0 ±5 % 1.30 ±5 % 53.8 ±5 % 1.40 ±5 % 53.3 ±5 % 1.
Ref: ACR.262.4.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 5500 5600 5800 7.4 48.6 ±10 % 5.65 ±10 % 48.5 ±10 % 5.77 ±10 % 48.2 ±10 % 6.00 ±10 % SAR MEASUREMENT RESULT WITH BODY LIQUID Software Phantom Probe Liquid Distance between dipole center and liquid Area scan resolution Zoon Scan Resolution Frequency Input power Liquid Temperature Lab Temperature Lab Humidity Frequency MHz 750 OPENSAR V4 SN 20/09 SAM71 SN 18/11 EPG122 Body Liquid Values: eps’ : 56.6 sigma : 0.99 15.
Ref: ACR.262.4.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 8 LIST OF EQUIPMENT Equipment Summary Sheet Equipment Description SAM Phantom Manufacturer / Current Identification No. Model Calibration Date MVG Next Calibration Date SN-20/09-SAM71 Validated. No cal required. Validated. required. No cal Validated. No cal required. Validated. required.
SAR Reference Dipole Calibration Report Ref : ACR.262.5.20.MVGB.A SHENZHEN STS TEST SERVICES CO., LTD. 1/F., BUILDING B, ZHUOKE SCIENCE PARK,No.190, CHONGQING ROAD,FUYONG STREET, BAO’ AN DISTRICT, SHENZHEN,GUANGDONGCHINA MVG COMOSAR REFERENCE DIPOLE FREQUENCY: 835 MHZ SERIAL NO.: SN 30/14 DIP0G835-332 Calibrated at MVG Z.I.
Ref: ACR.262.5.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT Name Function Prepared by : Jérôme LUC Technical Manager Date 7/28/2020 Checked by : Jérôme LUC Technical Manager 7/28/2020 Approved by : Yann Toutain Laboratory Director 7/28/2020 Distribution : Issue A Name Jérôme LUC Signature Customer Name Shenzhen STS Test Services Co., Ltd. Date 7/28/2020 Modifications Initial release Page: 2/11 Template_ACR.DDD.N.YY.MVGB.
SAR REFERENCE DIPOLE CALIBRATION REPORT Ref: ACR.262.5.20.MVGB.A TABLE OF CONTENTS 1 Introduction ................................................................................................................ 4 2 Device Under Test ..................................................................................................... 4 3 Product Description ................................................................................................... 4 3.
SAR REFERENCE DIPOLE CALIBRATION REPORT 1 Ref: ACR.262.5.20.MVGB.A INTRODUCTION This document contains a summary of the requirements set forth by the IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards for reference dipoles used for SAR measurement system validations and the measurements that were performed to verify that the product complies with the fore mentioned standards.
Ref: ACR.262.5.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 4 MEASUREMENT METHOD The IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards provide requirements for reference dipoles used for system validation measurements. The following measurements were performed to verify that the product complies with the fore mentioned standards. 4.1 RETURN LOSS REQUIREMENTS The dipole used for SAR system validation measurements and checks must have a return loss of -20 dB or better.
Ref: ACR.262.5.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 6 6.1 CALIBRATION MEASUREMENT RESULTS RETURN LOSS AND IMPEDANCE IN HEAD LIQUID Frequency (MHz) 835 6.2 Requirement (dB) -20 Impedance 51.4 + 3.6 j RETURN LOSS AND IMPEDANCE IN BODY LIQUID Frequency (MHz) 835 6.3 Return Loss (dB) -28.13 Return Loss (dB) -23.88 Requirement (dB) -20 Impedance 49.2 + 6.3 j MECHANICAL DIMENSIONS Frequency MHz L mm required 750 176.0 ±1 %. 835 161.0 ±1 %.
Ref: ACR.262.5.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 900 149.0 ±1 %. 83.3 ±1 %. 3.6 ±1 %. 1450 89.1 ±1 %. 51.7 ±1 %. 3.6 ±1 %. 1500 80.5 ±1 %. 50.0 ±1 %. 3.6 ±1 %. 1640 79.0 ±1 %. 45.7 ±1 %. 3.6 ±1 %. 1750 75.2 ±1 %. 42.9 ±1 %. 3.6 ±1 %. 1800 72.0 ±1 %. 41.7 ±1 %. 3.6 ±1 %. 1900 68.0 ±1 %. 39.5 ±1 %. 3.6 ±1 %. 1950 66.3 ±1 %. 38.5 ±1 %. 3.6 ±1 %. 2000 64.5 ±1 %. 37.5 ±1 %. 3.6 ±1 %. 2100 61.0 ±1 %. 35.7 ±1 %. 3.6 ±1 %. 2300 55.5 ±1 %. 32.6 ±1 %. 3.
Ref: ACR.262.5.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.2 2100 39.8 ±5 % 1.49 ±5 % 2300 39.5 ±5 % 1.67 ±5 % 2450 39.2 ±5 % 1.80 ±5 % 2600 39.0 ±5 % 1.96 ±5 % 3000 38.5 ±5 % 2.40 ±5 % 3500 37.9 ±5 % 2.91 ±5 % SAR MEASUREMENT RESULT WITH HEAD LIQUID The IEEE Std. 1528 and CEI/IEC 62209 standards state that the system validation measurements should produce the SAR values shown below (for phantom thickness of 2 mm), within the uncertainty for the system validation.
Ref: ACR.262.5.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.3 2450 52.4 24 2600 55.3 24.6 3000 63.8 25.7 3500 67.1 25 BODY LIQUID MEASUREMENT Frequency MHz Relative permittivity (r’) required 750 835 900 915 1450 1610 1800 1900 2000 2100 2450 2600 3000 3500 5200 5300 5400 measured 55.5 ±5 % 55.2 ±5 % Conductivity (σ) S/m required measured 0.96 ±5 % PASS 0.97 ±5 % 55.0 ±5 % 1.05 ±5 % 55.0 ±5 % 1.06 ±5 % 54.0 ±5 % 1.30 ±5 % 53.8 ±5 % 1.40 ±5 % 53.3 ±5 % 1.52 ±5 % 53.
Ref: ACR.262.5.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 5500 5600 5800 7.4 48.6 ±10 % 5.65 ±10 % 48.5 ±10 % 5.77 ±10 % 48.2 ±10 % 6.00 ±10 % SAR MEASUREMENT RESULT WITH BODY LIQUID Software Phantom Probe Liquid Distance between dipole center and liquid Area scan resolution Zoon Scan Resolution Frequency Input power Liquid Temperature Lab Temperature Lab Humidity Frequency MHz 835 OPENSAR V4 SN 20/09 SAM71 SN 18/11 EPG122 Body Liquid Values: eps’ : 54.1 sigma : 0.97 15.
Ref: ACR.262.5.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 8 LIST OF EQUIPMENT Equipment Summary Sheet Equipment Description SAM Phantom Manufacturer / Current Identification No. Model Calibration Date MVG Next Calibration Date SN-20/09-SAM71 Validated. No cal required. Validated. required. No cal Validated. No cal required. Validated. required.
SAR Reference Dipole Calibration Report Ref : ACR.262.7.20.MVGB.A SHENZHEN STS TEST SERVICES CO., LTD. 1/F., BUILDING B, ZHUOKE SCIENCE PARK,No.190, CHONGQINGROAD,FUYONG STREET, BAO’ AN DISTRICT, SHENZHEN,GUANGDONG,CHINA MVG COMOSAR REFERENCE DIPOLE FREQUENCY: 1800 MHZ SERIAL NO.: SN 30/14 DIP1G800-329 Calibrated at MVG Z.I.
Ref: ACR.262.7.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT Name Function Prepared by : Jérôme LUC Technical Manager Date 7/28/2020 Checked by : Jérôme LUC Technical Manager 7/28/2020 Approved by : Yann Toutain Laboratory Director 7/28/2020 Distribution : Issue A Name Jérôme LUC Signature Customer Name Shenzhen STS Test Services Co., Ltd. Date 7/28/2020 Modifications Initial release Page: 2/11 Template_ACR.DDD.N.YY.MVGB.
SAR REFERENCE DIPOLE CALIBRATION REPORT Ref: ACR.262.7.20.MVGB.A TABLE OF CONTENTS 1 Introduction ................................................................................................................ 4 2 Device Under Test ..................................................................................................... 4 3 Product Description ................................................................................................... 4 3.
SAR REFERENCE DIPOLE CALIBRATION REPORT 1 Ref: ACR.262.7.20.MVGB.A INTRODUCTION This document contains a summary of the requirements set forth by the IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards for reference dipoles used for SAR measurement system validations and the measurements that were performed to verify that the product complies with the fore mentioned standards.
Ref: ACR.262.7.20..MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 4 MEASUREMENT METHOD The IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards provide requirements for reference dipoles used for system validation measurements. The following measurements were performed to verify that the product complies with the fore mentioned standards. 4.1 RETURN LOSS REQUIREMENTS The dipole used for SAR system validation measurements and checks must have a return loss of -20 dB or better.
SAR REFERENCE DIPOLE CALIBRATION REPORT 6 6.1 CALIBRATION MEASUREMENT RESULTS RETURN LOSS AND IMPEDANCE IN HEAD LIQUID Frequency (MHz) 1800 6.2 Return Loss (dB) -29.49 Requirement (dB) -20 Impedance 46.9 - 0.1 j RETURN LOSS AND IMPEDANCE IN BODY LIQUID Frequency (MHz) 1800 6.3 Ref: ACR.262.7.20..MVGB.A Return Loss (dB) -24.55 Requirement (dB) -20 Impedance 44.7 - 2.8 j MECHANICAL DIMENSIONS Frequency MHz L mm required h mm measured required d mm measured required 750 176.0 ±1 %.
Ref: ACR.262.7.20..MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 900 149.0 ±1 %. 83.3 ±1 %. 3.6 ±1 %. 1450 89.1 ±1 %. 51.7 ±1 %. 3.6 ±1 %. 1500 80.5 ±1 %. 50.0 ±1 %. 3.6 ±1 %. 1640 79.0 ±1 %. 45.7 ±1 %. 3.6 ±1 %. 1750 75.2 ±1 %. 42.9 ±1 %. 1800 72.0 ±1 %. 1900 68.0 ±1 %. 39.5 ±1 %. 3.6 ±1 %. 1950 66.3 ±1 %. 38.5 ±1 %. 3.6 ±1 %. 2000 64.5 ±1 %. 37.5 ±1 %. 3.6 ±1 %. 2100 61.0 ±1 %. 35.7 ±1 %. 3.6 ±1 %. 2300 55.5 ±1 %. 32.6 ±1 %. 3.6 ±1 %. 2450 51.5 ±1 %. 30.
Ref: ACR.262.7.20..MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.2 2100 39.8 ±5 % 1.49 ±5 % 2300 39.5 ±5 % 1.67 ±5 % 2450 39.2 ±5 % 1.80 ±5 % 2600 39.0 ±5 % 1.96 ±5 % 3000 38.5 ±5 % 2.40 ±5 % 3500 37.9 ±5 % 2.91 ±5 % SAR MEASUREMENT RESULT WITH HEAD LIQUID The IEEE Std. 1528 and CEI/IEC 62209 standards state that the system validation measurements should produce the SAR values shown below (for phantom thickness of 2 mm), within the uncertainty for the system validation.
Ref: ACR.262.7.20..MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.3 2450 52.4 24 2600 55.3 24.6 3000 63.8 25.7 3500 67.1 25 BODY LIQUID MEASUREMENT Frequency MHz Relative permittivity (r’) required 750 835 900 915 1450 1610 1800 1900 2000 2100 2450 2600 3000 3500 5200 5300 5400 measured Conductivity (σ) S/m required 55.5 ±5 % 0.96 ±5 % 55.2 ±5 % 0.97 ±5 % 55.0 ±5 % 1.05 ±5 % 55.0 ±5 % 1.06 ±5 % 54.0 ±5 % 1.30 ±5 % 53.8 ±5 % 1.40 ±5 % 53.3 ±5 % PASS 1.52 ±5 % 53.
Ref: ACR.262.7.20..MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 5500 5600 5800 7.4 48.6 ±10 % 5.65 ±10 % 48.5 ±10 % 5.77 ±10 % 48.2 ±10 % 6.00 ±10 % SAR MEASUREMENT RESULT WITH BODY LIQUID Software Phantom Probe Liquid Distance between dipole center and liquid Area scan resolution Zoon Scan Resolution Frequency Input power Liquid Temperature Lab Temperature Lab Humidity Frequency MHz 1800 OPENSAR V4 SN 20/09 SAM71 SN 18/11 EPG122 Body Liquid Values: eps’ : 53.3 sigma : 1.51 10.
Ref: ACR.262.7.20..MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 8 LIST OF EQUIPMENT Equipment Summary Sheet Equipment Description SAM Phantom Manufacturer / Current Identification No. Model Calibration Date MVG Next Calibration Date SN-20/09-SAM71 Validated. No cal required. Validated. required. No cal Validated. No cal required. Validated. required.
SAR Reference Dipole Calibration Report Ref : ACR.262.8.20.MVGB.A SHENZHEN STS TEST SERVICES CO., LTD. 1/F., BUILDING B, ZHUOKE SCIENCE PARK,No.190, CHONGQING ROAD FUYONG STREET, BAO’ AN DISTRICT, SHENZHEN,GUANGDONG,CHINA MVG COMOSAR REFERENCE DIPOLE FREQUENCY: 1900 MHZ SERIAL NO.: SN 30/14 DIP1G900-333 Calibrated at MVG Z.I.
Ref: ACR.262.8.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT Name Function Prepared by : Jérôme LUC Technical Manager Date 7/28/2020 Checked by : Jérôme LUC Technical Manager 7/28/2020 Approved by : Yann Toutain Laboratory Director 7/28/2020 Distribution : Issue A Name Jérôme LUC Signature Customer Name Shenzhen STS Test Services Co., Ltd. Date 7/28/2020 Modifications Initial release Page: 2/11 Template_ACR.DDD.N.YY.MVGB.
SAR REFERENCE DIPOLE CALIBRATION REPORT Ref: ACR.262.8.20.MVGB.A TABLE OF CONTENTS 1 Introduction ................................................................................................................ 4 2 Device Under Test ..................................................................................................... 4 3 Product Description ................................................................................................... 4 3.
SAR REFERENCE DIPOLE CALIBRATION REPORT 1 Ref: ACR.262.8.20.MVGB.A INTRODUCTION This document contains a summary of the requirements set forth by the IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards for reference dipoles used for SAR measurement system validations and the measurements that were performed to verify that the product complies with the fore mentioned standards.
Ref: ACR.262.8.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 4 MEASUREMENT METHOD The IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards provide requirements for reference dipoles used for system validation measurements. The following measurements were performed to verify that the product complies with the fore mentioned standards. 4.1 RETURN LOSS REQUIREMENTS The dipole used for SAR system validation measurements and checks must have a return loss of -20 dB or better.
SAR REFERENCE DIPOLE CALIBRATION REPORT 6 6.1 CALIBRATION MEASUREMENT RESULTS RETURN LOSS AND IMPEDANCE IN HEAD LIQUID Frequency (MHz) 1900 6.2 Return Loss (dB) -23.66 Requirement (dB) -20 Impedance 51.4 + 6.4 j RETURN LOSS AND IMPEDANCE IN BODY LIQUID Frequency (MHz) 1900 6.3 Ref: ACR.262.8.20.MVGB.A Return Loss (dB) -20.20 Requirement (dB) -20 Impedance 48.7 + 9.6 j MECHANICAL DIMENSIONS Frequency MHz L mm required h mm measured required d mm measured required 750 176.0 ±1 %.
Ref: ACR.262.8.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 900 149.0 ±1 %. 83.3 ±1 %. 3.6 ±1 %. 1450 89.1 ±1 %. 51.7 ±1 %. 3.6 ±1 %. 1500 80.5 ±1 %. 50.0 ±1 %. 3.6 ±1 %. 1640 79.0 ±1 %. 45.7 ±1 %. 3.6 ±1 %. 1750 75.2 ±1 %. 42.9 ±1 %. 3.6 ±1 %. 1800 72.0 ±1 %. 41.7 ±1 %. 1900 68.0 ±1 %. 1950 66.3 ±1 %. 38.5 ±1 %. 3.6 ±1 %. 2000 64.5 ±1 %. 37.5 ±1 %. 3.6 ±1 %. 2100 61.0 ±1 %. 35.7 ±1 %. 3.6 ±1 %. 2300 55.5 ±1 %. 32.6 ±1 %. 3.6 ±1 %. 2450 51.5 ±1 %. 30.4 ±1 %.
Ref: ACR.262.8.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.2 2100 39.8 ±5 % 1.49 ±5 % 2300 39.5 ±5 % 1.67 ±5 % 2450 39.2 ±5 % 1.80 ±5 % 2600 39.0 ±5 % 1.96 ±5 % 3000 38.5 ±5 % 2.40 ±5 % 3500 37.9 ±5 % 2.91 ±5 % SAR MEASUREMENT RESULT WITH HEAD LIQUID The IEEE Std. 1528 and CEI/IEC 62209 standards state that the system validation measurements should produce the SAR values shown below (for phantom thickness of 2 mm), within the uncertainty for the system validation.
Ref: ACR.262.8.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.3 2450 52.4 24 2600 55.3 24.6 3000 63.8 25.7 3500 67.1 25 BODY LIQUID MEASUREMENT Frequency MHz Relative permittivity (r’) required 750 835 900 915 1450 1610 1800 1900 2000 2100 2450 2600 3000 3500 5200 5300 5400 measured Conductivity (σ) S/m required 55.5 ±5 % 0.96 ±5 % 55.2 ±5 % 0.97 ±5 % 55.0 ±5 % 1.05 ±5 % 55.0 ±5 % 1.06 ±5 % 54.0 ±5 % 1.30 ±5 % 53.8 ±5 % 1.40 ±5 % 53.3 ±5 % 1.52 ±5 % 53.
Ref: ACR.262.8.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 5500 5600 5800 7.4 48.6 ±10 % 5.65 ±10 % 48.5 ±10 % 5.77 ±10 % 48.2 ±10 % 6.00 ±10 % SAR MEASUREMENT RESULT WITH BODY LIQUID Software Phantom Probe Liquid Distance between dipole center and liquid Area scan resolution Zoon Scan Resolution Frequency Input power Liquid Temperature Lab Temperature Lab Humidity Frequency MHz 1900 OPENSAR V4 SN 20/09 SAM71 SN 18/11 EPG122 Body Liquid Values: eps’ : 54.2 sigma : 1.54 10.
Ref: ACR.262.8.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 8 LIST OF EQUIPMENT Equipment Summary Sheet Equipment Description SAM Phantom Manufacturer / Current Identification No. Model Calibration Date MVG Next Calibration Date SN-20/09-SAM71 Validated. No cal required. Validated. required. No cal Validated. No cal required. Validated. required.
SAR Reference Dipole Calibration Report Ref : ACR.262.11.20.MVGB.A SHENZHEN STS TEST SERVICES CO., LTD. 1/F., BUILDING B, ZHUOKE SCIENCE PARK,No.190, CHONG QING ROAD, FUYONG STREET, BAO’ AN DISTRICT, SHENZHEN,GUANGDONG,CHINA MVG COMOSAR REFERENCE DIPOLE FREQUENCY: 2600 MHZ SERIAL NO.: SN 30/14 DIP2G600-336 Calibrated at MVG Z.I.
Ref: ACR.262.11.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT Name Function Prepared by : Jérôme LUC Technical Manager Date 7/28/2020 Checked by : Jérôme LUC Technical Manager 7/28/2020 Approved by : Yann Toutain Laboratory Director 7/28/2020 Distribution : Issue A Name Jérôme LUC Signature Customer Name Shenzhen STS Test Services Co., Ltd. Date 7/28/2020 Modifications Initial release Page: 2/11 Template_ACR.DDD.N.YY.MVGB.
SAR REFERENCE DIPOLE CALIBRATION REPORT Ref: ACR.262.11.20.MVGB.A TABLE OF CONTENTS 1 Introduction ................................................................................................................ 4 2 Device Under Test ..................................................................................................... 4 3 Product Description ................................................................................................... 4 3.
SAR REFERENCE DIPOLE CALIBRATION REPORT 1 Ref: ACR.262.11.20.MVGB.A INTRODUCTION This document contains a summary of the requirements set forth by the IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards for reference dipoles used for SAR measurement system validations and the measurements that were performed to verify that the product complies with the fore mentioned standards.
Ref: ACR.262.11.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 4 MEASUREMENT METHOD The IEEE 1528, OET 65 Bulletin C and CEI/IEC 62209 standards provide requirements for reference dipoles used for system validation measurements. The following measurements were performed to verify that the product complies with the fore mentioned standards. 4.1 RETURN LOSS REQUIREMENTS The dipole used for SAR system validation measurements and checks must have a return loss of -20 dB or better.
SAR REFERENCE DIPOLE CALIBRATION REPORT 6 6.1 CALIBRATION MEASUREMENT RESULTS RETURN LOSS AND IMPEDANCE IN HEAD LIQUID Frequency (MHz) 2600 6.2 Return Loss (dB) -34.32 Requirement (dB) -20 Impedance 50.3 + 1.9 j RETURN LOSS AND IMPEDANCE IN BODY LIQUID Frequency (MHz) 2600 6.3 Ref: ACR.262.11.20.MVGB.A Return Loss (dB) -24.15 Requirement (dB) -20 Impedance 45.6 - 4.5 j MECHANICAL DIMENSIONS Frequency MHz L mm required h mm measured required d mm measured required 750 176.0 ±1 %.
Ref: ACR.262.11.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 900 149.0 ±1 %. 83.3 ±1 %. 3.6 ±1 %. 1450 89.1 ±1 %. 51.7 ±1 %. 3.6 ±1 %. 1500 80.5 ±1 %. 50.0 ±1 %. 3.6 ±1 %. 1640 79.0 ±1 %. 45.7 ±1 %. 3.6 ±1 %. 1750 75.2 ±1 %. 42.9 ±1 %. 3.6 ±1 %. 1800 72.0 ±1 %. 41.7 ±1 %. 3.6 ±1 %. 1900 68.0 ±1 %. 39.5 ±1 %. 3.6 ±1 %. 1950 66.3 ±1 %. 38.5 ±1 %. 3.6 ±1 %. 2000 64.5 ±1 %. 37.5 ±1 %. 3.6 ±1 %. 2100 61.0 ±1 %. 35.7 ±1 %. 3.6 ±1 %. 2300 55.5 ±1 %. 32.6 ±1 %. 3.
Ref: ACR.262.11.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.2 2100 39.8 ±5 % 1.49 ±5 % 2300 39.5 ±5 % 1.67 ±5 % 2450 39.2 ±5 % 1.80 ±5 % 2600 39.0 ±5 % 3000 38.5 ±5 % 2.40 ±5 % 3500 37.9 ±5 % 2.91 ±5 % PASS 1.96 ±5 % PASS SAR MEASUREMENT RESULT WITH HEAD LIQUID The IEEE Std. 1528 and CEI/IEC 62209 standards state that the system validation measurements should produce the SAR values shown below (for phantom thickness of 2 mm), within the uncertainty for the system validation.
Ref: ACR.262.11.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 7.3 2450 52.4 24 2600 55.3 3000 63.8 25.7 3500 67.1 25 56.19 (5.62) 24.6 24.08 (2.41) BODY LIQUID MEASUREMENT Frequency MHz Relative permittivity (r’) required 750 835 900 915 1450 1610 1800 1900 2000 2100 2450 2600 3000 3500 5200 5300 5400 measured Conductivity (σ) S/m required 55.5 ±5 % 0.96 ±5 % 55.2 ±5 % 0.97 ±5 % 55.0 ±5 % 1.05 ±5 % 55.0 ±5 % 1.06 ±5 % 54.0 ±5 % 1.30 ±5 % 53.8 ±5 % 1.40 ±5 % 53.
Ref: ACR.262.11.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 5500 5600 5800 7.4 48.6 ±10 % 5.65 ±10 % 48.5 ±10 % 5.77 ±10 % 48.2 ±10 % 6.00 ±10 % SAR MEASUREMENT RESULT WITH BODY LIQUID Software Phantom Probe Liquid Distance between dipole center and liquid Area scan resolution Zoon Scan Resolution Frequency Input power Liquid Temperature Lab Temperature Lab Humidity Frequency MHz 2600 OPENSAR V4 SN 20/09 SAM71 SN 18/11 EPG122 Body Liquid Values: eps’ : 51.8 sigma : 2.19 10.
Ref: ACR.262.11.20.MVGB.A SAR REFERENCE DIPOLE CALIBRATION REPORT 8 LIST OF EQUIPMENT Equipment Summary Sheet Equipment Description SAM Phantom Manufacturer / Current Identification No. Model Calibration Date MVG Next Calibration Date SN-20/09-SAM71 Validated. No cal required. Validated. required. No cal Validated. No cal required. Validated. required.