AC117R Baby Monitor RF Exposure Info RF Exposure Info Part 1 Angelcare Monitors Inc.

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Specific Absorption Rate Test Report
Report Number
: 68.950.17.653.01
Date of Issue:
August 10, 2017
Model
: AC117-P, AC115-P, AC110-P
Product Type
: Baby Monitor
Applicant
: Angelcare Monitors Inc.
Address
: 201 Boul, De I'industrie, Local 104, Candiac,
Quebec J5R 6A6, CANADA
Manufacturer
: Angelcare Monitors Inc.
Address
: 201 Boul, De I'industrie, Local 104, Candiac,
Quebec J5R 6A6, CANADA
Test Result
Positive
Total pages including
Appendices
: 42
Negative
TÜV SÜD Certification and Testing (China) Co., Ltd. – Shenzhen Branch is a subcontractor to TÜV SÜD Product Service GmbH according to the principles outlined in
ISO 17025.
TÜV SÜD Certification and Testing (China) Co., Ltd. – Shenzhen Branch reports apply only to the specific samples tested under stated test conditions.
Construction
of the actual test samples has been documented.
It is the manufacturer's responsibility to assure that additional production units of this model are manufactured with
identical electrical and mechanical components.
The manufacturer/importer is responsible to the Competent Authorities in Europe for any modifications made to the
production units which result in non-compliance to the relevant regulations.
TÜV SÜD Certification and Testing (China) Co., Ltd. – Shenzhen Branch shall have no
liability for any deductions, inferences or generalizations drawn by the client or others from TÜV SÜD Certification and Testing (China) Co., Ltd. – Shenzhen Branch
issued reports.
This report is the confidential property of the client.
As a mutual protection to our clients, the public and ourselves, extracts from the test report shall not be
reproduced except in full without our written approval.
Report No.: 68.950.17.653.01
Page 1 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Report Revise Record
Report Version
Revise Time
Issued Date
Valid Version
Notes
V1.0
July 19,2017
Valid
Original Report
Report No.: 68.950.17.653.01
Page 2 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Test Report Certification
Applicant Name
Angelcare Monitors Inc
Applicant Address
201 Boul. De I’industrie, Local 104, Candiac, Quebec, J5R 6A6,Canada
Manufacturer Name
ARTCOM LIMITED
Manufacturer Address
Unit301, 3/F., Hewlett Centre, 52-54 Hoi Yuen Road, Kwun Tong Kowloon,
Hong Kong
Product Designation
Baby Monitor
Brand Name
Angelcare
Model Name
AC117-P, AC115-P, AC110-P
Different Description
EUT Voltage
Applicable Standard
Test Date
All the same, except for the model name. The test model is AC117-P.
DC 2.4V by battery (2 * AAA Rechargeable battery)
IEEE Std. 1528:2013; FCC 47CFR § 2.1093; IEEE/ANSI C95.1:1992
KDB 447498 D01 General RF Exposure Guidance v06
KDB 865664 D01 SAR measurement 100MHz – 6GHz v01r04
KDB 865664 D02 RF Exposure Reporting v01r02
RSS-102 Issue 5, March 2015
July 11,2017
Attestation of Global Compliance(Shenzhen) Co., Ltd.
Performed Location
2 F, Building 2, No.1-No.4, Chaxi Sanwei Technical Industrial Park, Gushu,
Xixiang Street, Bao'an District, Shenzhen, China
Report Template
AGCRT-US-2.4G/SAR (2016-01-01)
Tested By
Sun Yin (Yin Cheng)
July 11,2017
Angela Li(Li Jiao)
July 19,2017
John Zhi
Section Manager
July 19,2017
Checked By
Authorized
By
Report No.: 68.950.17.653.01
Page 3 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
TABLE OF CONTENTS
1.SUMMARY OF MAXIMUM SAR VALUE ......................................................................................................................... 5
2. GENERAL INFORMATION.............................................................................................................................................. 6
2.1. EUT DESCRIPTION........................................................................................................................................................ 6
2.2. TEST PROCEDURE ........................................................................................................................................................ 6
2.3. TEST ENVIRONMENT ..................................................................................................................................................... 6
3. SAR MEASUREMENT SYSTEM ...................................................................................................................................... 7
3.1. SATIMO SYSTEM DESCRIPTION .................................................................................................................................... 7
3.2. COMOSAR E-FIELD PROBE ........................................................................................................................................ 8
3.3. ROBOT ......................................................................................................................................................................... 9
3.4. VIDEO POSITIONING SYSTEM ......................................................................................................................................... 9
3.5. DEVICE HOLDER ......................................................................................................................................................... 10
3.6. SAM TWIN PHANTOM.................................................................................................................................................. 11
4. SAR MEASUREMENT PROCEDURE ............................................................................................................................ 12
4.1. SPECIFIC ABSORPTION RATE (SAR) ............................................................................................................................ 12
4.2. SAR MEASUREMENT PROCEDURE .............................................................................................................................. 13
4.3. RF EXPOSURE CONDITIONS ........................................................................................................................................ 15
5. TISSUE SIMULATING LIQUID ...................................................................................................................................... 16
5.1. THE COMPOSITION OF THE TISSUE SIMULATING LIQUID(BY WEIGHT %)............................................................................ 16
5.2. TISSUE DIELECTRIC PARAMETERS FOR HEAD AND BODY PHANTOMS ............................................................................ 16
5.3. TISSUE CALIBRATION RESULT ...................................................................................................................................... 17
6. SAR SYSTEM CHECK&VALIDATION PROCEDURE ................................................................................................ 18
6.1. SAR SYSTEM CHECK PROCEDURES ............................................................................................................................ 18
6.2. SAR SYSTEM CHECK .................................................................................................................................................. 19
............................................................................................................................................................................................. 19
7. EUT TEST POSITION .................................................................................................................................................... 20
7.1. BODY PART POSITION ................................................................................................................................................. 20
8. SAR EXPOSURE LIMITS .............................................................................................................................................. 21
9. TEST EQUIPMENT LIST ............................................................................................................................................... 22
10. MEASUREMENT UNCERTAINTY ............................................................................................................................... 23
11. CONDUCTED POWER MEASUREMENT................................................................................................................... 26
12. TEST RESULTS........................................................................................................................................................... 27
12.1. SAR TEST RESULTS SUMMARY ................................................................................................................................. 27
APPENDIX A. SAR SYSTEM CHECK DATA .................................................................................................................... 29
APPENDIX B. SAR MEASUREMENT DATA .................................................................................................................... 33
APPENDIX C. CALIBRATION DATA ................................................................................................................................ 42
Report No.: 68.950.17.653.01
Page 4 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
1.SUMMARY OF MAXIMUM SAR VALUE
The maximum results of Specific Absorption Rate (SAR) found during testing for EUT are as follows:
Highest Reported SAR
Exposure
Position
In Front Of Face
Body
Frequency Band(MHz)
Highest Reported 1g-SAR(W/Kg)
1.9GHz
1.9GHz
0.043
0.125
This device is compliance with Specific Absorption Rate (SAR) for general population/uncontrolled exposure limits
(1.6W/Kg) specified in IEEE Std. 1528:2013;FCC 47CFR § 2.1093; IEEE/ANSI C95.1:1992and the following
specific FCC Test Procedures:
·KDB 447498 D01 General RF Exposure Guidance v06
·KDB 865664 D01 SAR measurement 100 MHz to 6 GHz v01r04
Report No.: 68.950.17.653.01
Page 5 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
2. GENERAL INFORMATION
2.1. EUT Description
General Information
Product Designation
Baby Monitor
Test Model
AC117-P
Hardware Version
AC117
Software Version
N/A
Device Category
Portable
RF Exposure Environment
Uncontrolled
Antenna Type
Internal
Duty Cycle
8%(test mode)
1.9 GHz
TX Frequency Range
1921.536~1928.448MHz
RX Frequency Range
1900: 1922.400-1929.312MHz
Type of modulation
GFSK
Peak Power
17.8dBm
Note: The sample used for testing is end product.
Type
Product
Production unit
Identical Prototype
2.2. Test Procedure
Setup the EUT and Install the test software in PC.
Turn on the power of all equipment.
Make EUT in continuous emission test through software control.
2.3. Test Environment
Ambient conditions in the laboratory:
Items
Required
Actual
Temperature (°C)
Humidity (%RH)
18-25
30-70
21± 2
55±2
Report No.: 68.950.17.653.01
Page 6 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
3. SAR MEASUREMENT SYSTEM
3.1. SATIMO System Description
The COMOSAR system for performing compliance tests consists of the following items:
· The PC. It controls most of the bench devices and stores measurement data. A computer running WinXP and
the Opensar software
· The E-Field probe. The probe is a 3-axis system made of 3 distinct dipoles. Each dipole returns a voltage in
function of the ambient electric field.
· The Keithley multimeter measures each probe dipole voltages.
· The SAM phantom simulates a human head. The measurement of the electric field is made inside the phantom.
· The liquids simulate the dielectric properties of the human head tissues.
· The network emulator controls the mobile phone under test.
· The validation dipoles are used to measure a reference SAR. They are used to periodically check the bench to
make sure that there is no drift of the system characteristics over time.
·The phantom, the device holder and other accessories according to the targeted measurement.
Report No.: 68.950.17.653.01
Page 7 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
3.2. COMOSAR E-Field Probe
The SAR measurement is conducted with the dissymmetric probe manufactured by SATIMO. The probe is specially
designed and calibrated for use in liquid with high permittivity. The dissymmetric probe has special calibration in
liquid at different frequency. SATIMO conducts the probe calibration in compliance with international and national
standards (e.g. IEEE 1528-2013 and relevant KDB files) Under ISO17025. The calibration data are in Appendix D.
Isotropic E-Field Probe Specification
Model
Manufacture
Identification No.
Frequency
Dynamic Range
Dimensions
Application
SSE5
MVG
SN 19/15 EP253
0.4GHz-3GHz
Linearity:±0.05dB(400MHz-3GHz)
0.01W/Kg-100W/Kg
Linearity:±0.05dB
Overall length:330mm
Length of individual dipoles:4.5mm
Maximum external diameter:8mm
Probe Tip external diameter:5mm
Distance between dipoles/ probe
extremity:2.7mm
High precision dosimetric measurements in any exposure scenario
(e.g., very strong gradient fields). Only probe which enables
compliance testing for frequencies up to 3 GHz with precision of better
30%.
Report No.: 68.950.17.653.01
Page 8 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
3.3. Robot
The COMOSAR system uses the KUKA robot from SATIMO SA
(France).For the 6-axis controller COMOSAR system, the KUKA
robot controller version from SATIMO is used.
The XL robot series have many features that are important for our
application:
High precision (repeatability 0.02 mm)
High reliability (industrial design)
Jerk-free straight movements
Low ELF interference (the closed metallic
construction shields against motor control fields)
6-axis controller
3.4. Video Positioning System
The video positioning system is used in OpenSAR to check the probe.
Which is composed of a camera, LED, mirror and mechanical
parts.The camera is piloted by the main computer with firewire link.
During the process, the actual position of the probe tip with respect to
the robot arm is measured, as well as the probe length and the
horizontal probe offset. The software then corrects all movements,
such that the robot coordinates are valid for the probe tip.
The repeatability of this process is better than 0.1 mm. If a position
has been taught with an aligned probe, the same position will be
reached with another aligned probe within 0.1 mm, even if the other
probe has different dimensions. During probe rotations, the probe tip
will keep its actual position.
Report No.: 68.950.17.653.01
Page 9 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
3.5. Device Holder
The COMOSAR device holder is designed to cope with different
positions given in the standard. It has two scales for the device rotation
(with respect to the body axis) and the device inclination (with respect
to the line between the ear reference points). The rotation center for
both scales is the ear reference point (EPR).
Thus the device needs no repositioning when changing the angles.
The COMOSAR device holder has been made out of low-loss POM
material having the following dielectric parameters: relative permittivity
r =3 and loss tangent = 0.02. The amount of dielectric material has
been reduced in the closest vicinity of the device, since measurements
have suggested that the influence of the clamp on the test results
could thus be lowered.
Report No.: 68.950.17.653.01
Page 10 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
3.6. SAM Twin Phantom
The SAM twin phantom is a fiberglass shell phantom with
2mm shell thickness (except the ear region where shell
thickness increases to 6mm). It has three measurement
areas:
Left head
Right head
Flat phantom
The bottom plate contains three pair of bolts for locking the device holder. The device holder positions are
adjusted to the standard measurement positions in the three sections. A white cover is provided to tap the
phantom during off-periods to prevent water evaporation and changes in the liquid parameters. On the phantom
top, three reference markers are provided to identify the phantom position with respect to the robot.
Report No.: 68.950.17.653.01
Page 11 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
4. SAR MEASUREMENT PROCEDURE
4.1. Specific Absorption Rate (SAR)
SAR is related to the rate at which energy is absorbed per unit mass in object exposed to a radio field. The SAR
distribution in a biological body is complicated and is usually carried out by experimental techniques or numerical
modeling. The standard recommends limits for two tiers of groups, occupational/controlled and
occupational/uncontrolled, based on a person’s awareness and ability to exercise control over his or her exposure.
In general, occupational/controlled exposure limits are higher than the limits for general population/uncontrolled.
The SAR definition is the time derivative (rate) of the incremental energy (dW) absorbed by (dissipated in) an
incremental mass (dm) contained in a volume element(dv) of given mass density ( ). The equation description is
as below:
SAR is expressed in units of Watts per kilogram (W/Kg)
SAR can be obtained using either of the following equations:
Where
SAR
ch
is the specific absorption rate in watts per kilogram;
is the r.m.s. value of the electric field strength in the tissue in volts per meter;
is the conductivity of the tissue in siemens per metre;
is the density of the tissue in kilograms per cubic metre;
is the heat capacity of the tissue in joules per kilogram and Kelvin;
t = 0 is the initial time derivative of temperature in the tissue in kelvins per second
Report No.: 68.950.17.653.01
Page 12 of 42
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Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
4.2. SAR Measurement Procedure
Step 1: Power Reference Measurement
The Power Reference Measurement and Power Drift Measurement are for monitoring the power drift of the
device under test in the batch process. The minimum distance of probe sensors to surface is 2.7mm This
distance cannot be smaller than the distance os sensor calibration points to probe tip as `defined in the probe
properties,
Step 2: 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 SATIMO software
can find the maximum locations even in relatively coarse grids. When an Area Scan has measured all reachable
points, it computes the field maximal found in the scanned area, within a range of the global maximum. The
range (in db) is specified in the standards for compliance testing. For example, a 2db range is required in IEEE
Standard 1528 and IEC62209 standards, whereby 3db is a requirement when compliance is assessed in
accordance with the ARIB standard (Japan) If one Zoom Scan follows the Area Scan, then only the absolute
maximum will be taken as reference. For cases where multiple maximum are detected, the number of Zoom
Scan has to be increased accordingly.
Area Scan Parameters extracted from KDB 865664 D01 SAR Measurement 100MHz to 6GHz
Step 3: Zoom Scan
Zoom Scan are used to assess the peak spatial SAR value within a cubic average volume containing 1g abd
10g of simulated tissue. The Zoom Scan measures points(refer to table below) within a cube whose 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 1g and 10g and displays these values
next to the job’s label.
Report No.: 68.950.17.653.01
Page 13 of 42
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Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Zoom Scan Parameters extracted from KDB865664 d01 SAR Measurement 100MHz to 6GHz
Step 4: Power Drift Measurement
The Power Drift Measurement measures the field at the same location as the most recent power reference
measurement within the same procedure, and with the same settings. The Power Drift Measurement gives the
field difference in dB from the reading conducted within the same settings. This allows a user to monitor the
power drift of the device under test within a batch process. The measurement procedure is the same as Step
1.
Report No.: 68.950.17.653.01
Page 14 of 42
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Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
4.3. RF Exposure Conditions
Test Configuration and setting:
The EUT is a model of Baby monitor. For SAR testing, the device was controlled by software.
Antenna Location: (back view)
EUT Top Edge(Edge 1)
Antenna
1.6cm
EUT Left Edge(Edge 4)
10.7cm
EUT Right Edge(Edge 2)
8.2cm
6.4cm
EUT Bottom Edge
(Edge 3)
Report No.: 68.950.17.653.01
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TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
5. 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 5.2
5.1. The composition of the tissue simulating liquid(by weight %)
Ingredient
(Weight)
Water
Salt
Sugar
HEC
Bactericide
DGBE
1900MHz
Head (100%)
54.9
0.18
0.0
0.0
0.0
44.92
1900MHz
Body (100%)
40.4
0.5
58.0
1.0
0.1
0.0
5.2. Tissue Dielectric Parameters for Head and Body Phantoms
The head tissue dielectric parameters recommended by the IEEE 1528 have been incorporated in the following
table. These head parameters are derived from planar layer models simulating the highest expected SAR for
the dielectric properties and tissue thickness variations in a human head. Other head and body tissue
parameters that have not been specified in IEEE 1528 are derived from the tissue dielectric parameters
computed from the 4-Cole-Cole equations described in Reference [12] and extrapolated according to the head
parameters specified in IEEE 1528.
Target Frequency
(MHz)
300
450
835
900
915
1450
1610
1800–2000
2450
3000
5800
r = relative permittivity,
Report No.: 68.950.17.653.01
head
45.3
43.5
41.5
41.5
41.5
40.5
40.3
40.0
39.2
38.5
35.3
= conductivity and
body
(S/m)
0.87
0.87
0.90
0.97
1.01
1.20
1.29
1.40
1.80
2.40
5.27
58.2
56.7
55.2
55.0
55.0
54.0
53.8
53.3
52.7
52.0
48.2
(S/m)
0.92
0.94
0.97
1.05
1.06
1.30
1.40
1.52
1.95
2.73
6.00
= 1000 kg/m3)
Page 16 of 42
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5.3. Tissue Calibration Result
The dielectric parameters of the liquids were verified prior to the SAR evaluation using SATIMO Dielectric
Probe Kit and R&S Network Analyzer ZVL6.
Tissue Stimulant Measurement for 1900MHz
Head
Body
Dielectric Parameters (±5%)
Fr.
(MHz)
r40.00(38.00-42.00)
[s/m]1.40(1.33-1.47)
1900
1921.536
1924.992
1928.448
41.02
40.51
39.97
39.26
1.34
1.36
1.38
1.40
Fr.
(MHz)
r53.30(50.635-55.965)
[s/m]1.52(1.444-1.596)
1900
1921.536
1924.992
1928.448
54.48
53.92
53.23
52.75
1.46
1.49
1.51
1.53
Report No.: 68.950.17.653.01
Dielectric Parameters (±5%)
Tissue
Temp
[oC]
Test time
21.1
July 11,2017
Tissue
Temp
[oC]
Test time
21.3
July 11,2017
Page 17 of 42
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6. SAR SYSTEM CHECK&VALIDATION PROCEDURE
6.1. SAR System Check Procedures
SAR system check is required to confirm measurement accuracy, according to the tissue dielectric media, probe
calibration points and other system operating parameters required for measuring the SAR of a test device. The
system verification must be performed for each frequency band and within the valid range of each probe
calibration point required for testing the device. The same SAR probe(s) and tissue-equivalent media
combinations used with each specific SAR system for system verification must be used for device testing. When
multiple probe calibration points are required to cover substantially large transmission bands, independent
system verifications are required for each probe calibration point. A system verification must be performed before
each series of SAR measurements using the same probe calibration point and tissue-equivalent medium.
Additional system verification should be considered according to the conditions of the tissue-equivalent medium
and measured tissue dielectric parameters, typically every three to four days when the liquid parameters are
remeasured or sooner when marginal liquid parameters are used at the beginning of a series of measurements.
Each SATIMO system is equipped with one or more system check kits. These units, together with the predefined
measurement procedures within the SATIMO software, enable the user to conduct the system check and system
validation. System kit includes a dipole, and dipole device holder.
The system check verifies that the system operates within its specifications. It’s performed daily or before every
SAR measurement. The system check uses normal SAR measurement in the flat section of the phantom with a
matched dipole at a specified distance. The system check setup is shown as below.
Report No.: 68.950.17.653.01
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6.2. SAR System Check
6.2.1. Dipoles
The dipoles used is based on the IEEE-1528 standard, and is
complied with mechanical and electrical specifications in line
with the requirements of IEEE. the table below provides details
for the mechanical and electrical
Specifications for the dipoles.
Frequency
1900MHz
L (mm)
68
h (mm)
39.5
d (mm)
3.6
6.2.2. System Check Result
System Performance Check at 1900MHz for Body
Validation Kit: SN 46/11DIP 1G900-187
Freq.
[MHz]
1900
Head
1900
Body
Target
Value(W/Kg)
1g
10g
39.65
20.24
40.74
21.43
Reference Result
(± 10%)
1g
35.68543.615
36.66644.814
10g
18.21622.264
19.28723.573
Tested SAR
Value(W/Kg)
Input
Power=18dBm
1g
10g
Normalized
to 1W (W/Kg)
1g
10g
Tissue
Temp.
[°C]
2.54
1.34
40.27
21.21
21.1
2.48
1.31
39.31
20.75
21.3
Test
time
July
11,2017
July
11,2017
Note:
(1) We use a CW signal of 18dBm for system check, and then all SAR value are normalized to 1W forward
power. The result must be within ±10% of target value.
(2) Tested normalized SAR (W/kg) = Tested SAR (W/kg) ×[1000/ 10^1.8 ]
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7. EUT TEST POSITION
This EUT was tested in Body back, Face up.
7.1. Body Part Position
(1) To position the EUT parallel to the phantom surface.
(2) To adjust the EUT parallel to the flat phantom.
(3) To adjust the distance between the EUT surface and the flat phantom to 0mm for Body back and 0mm for
Face up.
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8. SAR EXPOSURE LIMITS
SAR assessments have been made in line with the requirements of IEEE-1528, and comply with ANSI/IEEE
C95.1-1992 “Uncontrolled Environments” limits. These limits apply to a location which is deemed as
“Uncontrolled Environment” which can be described as a situation where the general public may be exposed
to an RF source with no prior knowledge or control over their exposure.
Limits for General Population/Uncontrolled Exposure (W/kg)
Type Exposure
Spatial Peak SAR (1g cube tissue for brain or body)
Spatial Average SAR (Whole body)
Spatial Peak SAR (Limbs)
Report No.: 68.950.17.653.01
Uncontrolled Environment Limit (W/kg)
1.60
0.08
4.0
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9. TEST EQUIPMENT LIST
Equipment
description
SAR Probe
Manufacturer/
Model
MVG
Phantom
SATIMO
SN_4511_SAM90
Liquid
SATIMO
Dipole
SATIMO SID1900
Signal Generator
Vector Analyzer
Agilent-E4438C
Agilent / E4440A
Rhode & Schwarz
ZVL6
Warison /WATT6SR1211
Mini-circuits / VAT10+
EM30180
Werlatone/
C6026-10
NRP-Z21
NRP-Z23
R&S
Network Analyzer
Attenuator
Attenuator
Amplifier
Directional
Couple
Power Sensor
Power Sensor
Power Viewer
Identification No.
SN 19/15 EP253
Current calibration
date
10/06/2016
Validated. No cal
required.
Validated. No cal
required.
Next calibration
date
10/05/2017
Validated. No cal
required.
Validated. No cal
required.
SN 29/15 DIP
1G900-389
US41461365
US41421290
07/05/2016
07/04/2019
03/02/2017
03/02/2017
03/01/2018
03/01/2018
SN100132
03/02/2017
03/01/2018
N/A
N/A
N/A
N/A
N/A
N/A
SN060552
03/02/2017
03/01/2018
SN99482
06/20/2017
06/19/2018
1137.6000.02
US38261498
V2.3.1.0
10/20/2015
03/02/2017
N/A
10/19/2016
03/01/2018
N/A
Note: Per KDB 865664Dipole SAR Validation, AGC Lab has adopted 3 years calibration intervals. On annual basis,
every measurement dipole has been evaluated and is in compliance with the following criteria:
1. There is no physical damage on the dipole;
2. System validation with specific dipole is within 10% of calibrated value;
3. Return-loss is within 20% of calibrated measurement;
4. Impedance is within 5 of calibrated measurement.
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10. MEASUREMENT UNCERTAINTY
SATIMO Uncertainty- SN 19/15 EP253
Measurement uncertainty for DUT averaged over 1 gram / 10 gram.
Uncertainty Component
Sec.
Tol
(+- %)
Prob.
Dist.
Div.
Ci (1g)
Ci
(10g)
1g Ui
(+-%)
10g Ui
(+-%)
Vi
7.2.2.1
7.2.2.2
7.2.2.2
7.2.2.2
7.2.2.6
7.2.2.3
7.2.2.5
7.2.2.7
7.2.2.8
7.2.2.9
7.2.4.5
7.2.4.5
7.2.3.1
7.2.3.3
7.2.5
5.831
3.0
0.6
0.7
1.0
1.17
1.0
0.02
3.0
2.0
3.0
3.0
2.0
0.05
5.0
5.83
1.73
0.35
0.40
0.58
0.68
0.58
0.02
1.73
1.15
1.73
1.73
1.15
0.03
2.89
5.83
1.73
0.35
0.40
0.58
0.68
0.58
0.02
1.73
1.15
1.73
1.73
1.15
0.03
2.89
7.2.3.4.3
7.2.3.4.2
7.2.2.10
L.3
0.03
0.65
0.03
5.00
0.38
2.89
0.03
5.00
0.38
2.89
7.2.3.2
0.05
0.03
0.03
7.2.4.3
1.9
0.84
1.90
1.60
7.2.4.3
0.78
0.71
3.90
3.55
7.2.4.3
0.23
0.26
1.15
1.30
7.2.4.4
0.78
0.71
2.25
2.05
7.2.4.4
0.23
0.26
0.66
0.75
Measurement System
Probe calibration
Probe Modulation
Axial Isotropy
Hemispherical Isotropy
Boundary effect
Linearity
System detection limits
Readout Electronics
Response Time
Integration Time
RF Ambient Noise
RF Ambient Reflection
Probe Positioner
Probe Positioning
Post-processing
Test sample Related
Device Positioning
Device Holder
Measurement SAR Drift
Power Scaling
Phantom and set-up
Phantom Uncertainty
Uncertainty in SAR
correction for deviations
in permittivity and
conductivity
Liquid
Conductivity(Meas.)
Liquid
Permittivity(Meas.)
Liquid Conductivitytemperature uncertainty
Liquid Permittivitytemperature uncertainty
Combined Standard
Uncertainty
Expanded Uncertainty
(95% Confidence interval)
Report No.: 68.950.17.653.01
7.3.1
RSS
10.39
10.118
7.3.2
20.78
20.229
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SATIMO Uncertainty- SN 19/15 EP253
System validation uncertainty for Dipole averaged over 1 gram / 10 gram.
Uncertainty Component
Sec.
Tol
(+- %)
Prob.
Dist.
Div.
Ci (1g)
Ci
(10g)
1g Ui
(+-%)
10g Ui
(+-%)
Vi
7.2.2.1
7.2.2.2
7.2.2.2
7.2.2.2
7.2.2.6
7.2.2.3
7.2.2.5
7.2.2.7
7.2.2.8
7.2.2.9
7.2.4.5
7.2.4.5
7.2.3.1
7.2.3.3
7.2.5
dipole
7.2.6
5.831
3.0
0.6
0.7
1.0
1.17
1.0
0.02
3.0
2.0
3.0
3.0
2.0
0.05
5.0
5.83
1.73
0.35
0.40
0.58
0.68
0.58
0.02
1.73
1.15
1.73
1.73
1.15
0.03
2.89
5.83
1.73
0.35
0.40
0.58
0.68
0.58
0.02
1.73
1.15
1.73
1.73
1.15
0.03
2.89
5.00
5.00
7.2.3.4.3
5.0
2.89
2.89
7.2.2.10
0.58
0.58
7.2.3.2
0.05
0.03
0.03
7.2.4.3
1.9
0.84
1.90
1.60
7.2.4.3
0.78
0.71
3.90
3.55
7.2.4.3
0.23
0.26
1.15
1.30
7.2.4.4
0.78
0.71
2.25
2.05
7.2.4.4
0.23
0.26
0.66
0.75
Measurement System
Probe calibration
Probe Modulation
Axial Isotropy
Hemispherical Isotropy
Boundary effect
Linearity
System detection limits
Readout Electronics
Response Time
Integration Time
RF Ambient Noise
RF Ambient Reflection
Probe Positioner
Probe Positioning
Post-processing
System validation source
Deviation of exp. dipole
Dipole Axis to Liquid
Dist.
Input power & SAR drift
Phantom and set-up
Phantom Uncertainty
Uncertainty in SAR
correction for deviations
in permittivity and
conductivity
Liquid
Conductivity(Meas.)
Liquid
Permittivity(Meas.)
Liquid Conductivitytemperature uncertainty
Liquid Permittivitytemperature uncertainty
Combined Standard
Uncertainty
Expanded Uncertainty
(95% Confidence interval)
7.3.1
RSS
11.17
10.920
7.3.2
20.796
20.248
SATIMO Uncertainty- SN 19/15 EP253
System Check uncertainty for Dipole averaged over 1 gram / 10 gram.
Report No.: 68.950.17.653.01
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Uncertainty Component
Sec.
Tol
(+- %)
Prob.
Dist.
Div.
Ci (1g)
Ci
(10g)
1g Ui
(+-%)
10g Ui
(+-%)
Vi
7.2.2.4
7.2.2.6
7.2.2.5
7.2.2.7
7.2.2.8
7.2.2.9
7.2.4.5
7.2.4.5
7.2.3.1
7.2.3.3
7.2.5
3.0
1.0
1.0
0.02
3.0
2.0
3.0
3.0
2.0
0.05
5.0
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
1.15
0.03
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
1.15
0.03
0.00
7.2.6
5.00
5.00
7.2.3.4.3
2.89
2.89
7.2.2.10
0.58
0.58
7.2.3.2
0.05
0.03
0.03
7.2.4.3
1.9
0.84
1.90
1.60
7.2.4.3
0.78
0.71
3.90
3.55
7.2.4.3
0.23
0.26
1.15
1.30
7.2.4.4
0.78
0.71
2.25
2.05
7.2.4.4
0.23
0.26
0.66
0.75
Measurement System
Modulation response
Boundary effect
System detection limits
Readout Electronics
Response Time
Integration Time
RF Ambient Noise
RF Ambient Reflection
Probe Positioner
Probe Positioning
Post-processing
Field source
Deviation of exp. dipole
Dipole Axis to Liquid
Dist.
Input power & SAR drift
Phantom and set-up
Phantom Uncertainty
Uncertainty in SAR
correction for deviations
in permittivity and
conductivity
Liquid
Conductivity(Meas.)
Liquid
Permittivity(Meas.)
Liquid Conductivitytemperature uncertainty
Liquid Permittivitytemperature uncertainty
Combined Standard
Uncertainty
Expanded Uncertainty
(95% Confidence interval)
Report No.: 68.950.17.653.01
7.3.1
RSS
9.33
9.028
7.3.2
14.289
13.479
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11. CONDUCTED POWER MEASUREMENT
1.9GHz
Mode
Channel
1900MHz
CH0
CH2
CH4
Report No.: 68.950.17.653.01
Frequency
(MHz)
1921.536
1924.992
1928.448
Maximum Peak Power
(dBm)
17.8
17.8
17.3
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12. TEST RESULTS
12.1. SAR Test Results Summary
12.1.1. Test position and configuration
Head SAR was performed with the device configured in the positions according to IEEE 1528-2013. Body SAR
was performed with the device 0mm from the phantom and face up was performed with the device 25mm from
the phantom.
12.1.2. Operation Mode
1. Per KDB 447498 D01 v06 ,for each exposure position, if the highest 1-g SAR is
and high channel is optional.
0.8 W/kg, testing for low
2. Per KDB 865664 D01 v01r04,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.
3. 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) ]
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12.1.3. Test Result
SAR MEASUREMENT
Depth of Liquid (cm):>15
Product: Baby Monitor
Test Model: AC117-P
Position
Ch.
Relative Humidity (%): 52.7
Fr.
(MHz)
Power
Drift
(<±5%)
SAR
(1g)
(W/kg)
Max.
Tune -up
Power
(dBm)
Meas.
output
Power
(dBm)
Scaled
SAR
(W/Kg)
Face Up
CH2
1924.992
-0.15
0.026
19.00
17.8
0.043
Body Back
CH0
1921.536
-0.06
0.057
19.00
17.8
0.095
Body Back
CH2
1924.992
-0.12
0.056
19.00
17.8
0.093
Body Back
CH4
1928.448
-0.09
0.067
19.00
17.3
0.125
Note
(1).When the 1-g Reported SAR is 0.8 W/kg, testing for low and high channel is optional. Refer to KDB
447498.
Report No.: 68.950.17.653.01
Limit
W/kg
1.6
1.6
1.6
1.6
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APPENDIX A. SAR SYSTEM CHECK DATA
Test Laboratory: AGC Lab
Date: July 11,2017
System Check Head 1900MHz
DUT: Dipole 1900 MHz; Type: SID 1900
Communication System: CW; Communication System Band: D1900 (1900.0 MHz); Duty Cycle:1:1; Conv.F=5.10;
Frequency: 1900 MHz; Medium parameters used: f = 1900 MHz; =1.34 mho/m; r =41.02; = 1000 kg/m³ ;
Phantom section: Flat Section; Input Power=18dBm
Ambient temperature ( )21.8, Liquid temperature ( ):21.1
SATIMO Configuration:
• Probe: SSE5; Calibrated: 10/06/2016; Serial No.: SN 19/15 EP253
• Sensor-Surface: 4mm (Mechanical Surface Detection)
• Phantom: SAM twin phantom
• Measurement SW: OpenSAR V4_02_35
Configuration/System Check 1900 Head/Area Scan: Measurement grid: dx=8mm, dy=8mm
Configuration/System Check 1900 Head/Zoom Scan: Measurement grid: dx=8mm,dy=8mm, dz=5mm
SURFACE SAR
VOLUME SAR
Maximum location: X=1.00, Y=0.00
SAR Peak: 4.18 W/kg
SAR 10g (W/Kg)
1.338135
SAR 1g (W/Kg)
2.540573
Report No.: 68.950.17.653.01
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Z (mm)
SAR
(W/Kg)
0.00
4.2171
4.00
2.7070
3D screen shot
Report No.: 68.950.17.653.01
9.00
1.5211
14.00
0.8833
19.00
0.5121
24.00
0.2999
29.00
0.1775
Hot spot position
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Test Laboratory: AGC Lab
Date: July 11,2017
System Check Body 1900MHz
DUT: Dipole 1900 MHz; Type: SID 1900
Communication System: CW; Communication System Band: D1900 (1900.0 MHz); Duty Cycle:1:1; Conv.F=5.30
Frequency: 1900 MHz; Medium parameters used: f = 1900 MHz; =1.46 mho/m; r =54.48; = 1000 kg/m³ ;
Phantom section: Flat Section; Input Power=18dBm
Ambient temperature ( ):21.8, Liquid temperature ( ): 21.3
SATIMO Configuration:
• Probe: SSE5; Calibrated: 10/06/2016; Serial No.: SN 19/15 EP253
• Sensor-Surface: 4mm (Mechanical Surface Detection)
• Phantom: SAM twin phantom
• Measurement SW: OpenSAR V4_02_35
Configuration/System Check 1900 Body/Area Scan: Measurement grid: dx=8mm, dy=8mm
Configuration/System Check 1900 Body/Zoom Scan: Measurement grid: dx=8mm,dy=8mm, dz=5mm
SURFACE SAR
VOLUME SAR
Maximum location: X=1.00, Y=0.00
SAR Peak: 4.09 W/kg
SAR 10g (W/Kg)
1.309513
SAR 1g (W/Kg)
2.480147
Report No.: 68.950.17.653.01
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Z (mm)
SAR
(W/Kg)
0.00
4.0983
4.00
2.6377
3D screen shot
Report No.: 68.950.17.653.01
9.00
1.4880
14.00
0.8653
19.00
0.5031
24.00
0.2959
29.00
0.1733
Hot spot position
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APPENDIX B. SAR MEASUREMENT DATA
Test Laboratory: AGC Lab
1.9GHz 1900 Mid-Face-Up
DUT: Baby Monitor; Type: AC117-P
Date: July 11,2017
Communication System: 1.9GHz; Communication System Band: 1900; Duty Cycle: 8%; Conv.F=5.10
Frequency: 1924.992 MHz; Medium parameters used: f = 1900 MHz; =1.38 mho/m; r =39.97 = 1000 kg/m³ ;
Phantom section: Flat Section
Ambient temperature ( )21.8, Liquid temperature ( ):21.1
SATIMO Configuration:
• Probe: SSE5; Calibrated: 10/06/2016; Serial No.: SN 19/15 EP253
• Sensor-Surface: 4mm (Mechanical Surface Detection)
• Phantom: SAM twin phantom
• Measurement SW: OpenSAR V4_02_35
Configuration/1900 Mid-Face-Up /Area Scan: Measurement grid: dx=8mm, dy=8mm
Configuration/1900 Mid-Face-Up /Zoom Scan: Measurement grid: dx=8mm,dy=8mm, dz=5mm;
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
SURFACE SAR
sam_direct_droit2_surf8mm.txt
5x5x7,dx=8mm dy=8mm dz=5mm,Complete
Validation plane
Face Up
1.9GHz
Middle
Crest factor:12.5
VOLUME SAR
Maximum location: X=9.00, Y=11.00
SAR Peak: 0.04 W/kg
SAR 10g (W/Kg)
0.016987
SAR 1g (W/Kg)
0.026363
Report No.: 68.950.17.653.01
Page 33 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Z (mm)
SAR
(W/Kg)
0.00
0.0408
4.00
0.0271
3D screen shot
Report No.: 68.950.17.653.01
9.00
0.0177
14.00
0.0124
19.00
0.0104
24.00
0.0080
29.00
0.0066
Hot spot position
Page 34 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Test Laboratory: AGC Lab
1.9GHz 1900 Low-Body-Back
DUT: Baby Monitor; Type: AC117-P
Date: July 11,2017
Communication System: 1.9GHz; Communication System Band: 1900; Duty Cycle: 8%; Conv.F=5.30
Frequency: 1921.536MHz; Medium parameters used: f = 1900 MHz; =1.49 mho/m; r =53.92 = 1000 kg/m³ ;
Phantom section: Flat Section
Ambient temperature ( ):21.8, Liquid temperature ( ):21.3
SATIMO Configuration:
• Probe: SSE5; Calibrated: 10/06/2016; Serial No.: SN 19/15 EP253
• Sensor-Surface: 4mm (Mechanical Surface Detection)
• Phantom: SAM twin phantom
• Measurement SW: OpenSAR V4_02_35
Configuration1900 Low-Body- Back/Area Scan: Measurement grid: dx=8mm, dy=8mm
Configuration1900 Low-Body- Back /Zoom Scan: Measurement grid: dx=8mm,dy=8mm, dz=5mm;
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
SURFACE SAR
surf_sam_plan.txt
5x5x7,dx=8mm dy=8mm dz=5mm,Complete
Validation plane
Body Back
1.9GHz
Low
Crest factor: 12.5
VOLUME SAR
Maximum location: X=-14.00, Y=15.00
SAR Peak: 0.09 W/kg
SAR 10g (W/Kg)
0.032993
SAR 1g (W/Kg)
0.056546
Report No.: 68.950.17.653.01
Page 35 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Z (mm)
SAR
(W/Kg)
0.00
0.0923
4.00
0.0581
3D screen shot
Report No.: 68.950.17.653.01
9.00
0.0323
14.00
0.0210
19.00
0.0142
24.00
0.0093
29.00
0.0085
Hot spot position
Page 36 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Test Laboratory: AGC Lab
1.9GHz 1900 Mid-Body-Back
DUT: Baby Monitor; Type: AC117-P
Date: July 11,2017
Communication System: 1.9GHz; Communication System Band: 1900; Duty Cycle: 8%; Conv.F=5.30
Frequency: 1924.992 MHz; Medium parameters used: f = 1900 MHz; =1.51 mho/m; r =53.23; = 1000 kg/m³ ;
Phantom section: Flat Section
Ambient temperature ( ):21.8, Liquid temperature ( ):21.3
SATIMO Configuration:
• Probe: SSE5; Calibrated: 10/06/2016; Serial No.: SN 19/15 EP253
• Sensor-Surface: 4mm (Mechanical Surface Detection)
• Phantom: SAM twin phantom
• Measurement SW: OpenSAR V4_02_35
Configuration1900 Mid-Body- Back/Area Scan: Measurement grid: dx=8mm, dy=8mm
Configuration1900 Mid-Body- Back /Zoom Scan: Measurement grid: dx=8mm,dy=8mm, dz=5mm;
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
SURFACE SAR
surf_sam_plan.txt
5x5x7,dx=8mm dy=8mm dz=5mm,Complete
Validation plane
Body Back
1.9GHz
Middle
Crest factor: 12.5
VOLUME SAR
Maximum location: X=-15.00, Y=17.00
SAR Peak: 0.09 W/kg
SAR 10g (W/Kg)
0.032967
SAR 1g (W/Kg)
0.056439
Report No.: 68.950.17.653.01
Page 37 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Z (mm)
SAR
(W/Kg)
0.00
0.0902
4.00
0.0580
3D screen shot
Report No.: 68.950.17.653.01
9.00
0.0336
14.00
0.0214
19.00
0.0143
24.00
0.0096
29.00
0.0077
Hot spot position
Page 38 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Test Laboratory: AGC Lab
1.9GHz 1900 High-Body-Back
DUT: Baby Monitor; Type: AC117-P
Date: July 11,2017
Communication System: 1.9GHz; Communication System Band: 1900; Duty Cycle: 8%; Conv.F=5.30
Frequency: 1928.448 MHz; Medium parameters used: f = 1900 MHz; =1.53 mho/m; r =52.75; = 1000 kg/m³ ;
Phantom section: Flat Section
Ambient temperature ( ):21.8, Liquid temperature ( ):21.3
SATIMO Configuration:
• Probe: SSE5; Calibrated: 10/06/2016; Serial No.: SN 19/15 EP253
• Sensor-Surface: 4mm (Mechanical Surface Detection)
• Phantom: SAM twin phantom
• Measurement SW: OpenSAR V4_02_35
Configuration1900 High-Body- Back/Area Scan: Measurement grid: dx=8mm, dy=8mm
Configuration1900 High-Body- Back /Zoom Scan: Measurement grid: dx=8mm,dy=8mm, dz=5mm;
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
SURFACE SAR
surf_sam_plan.txt
5x5x7,dx=8mm dy=8mm dz=5mm,Complete
Validation plane
Body Back
1.9GHz
High
Crest factor: 12.5
VOLUME SAR
Maximum location: X=-14.00, Y=15.00
SAR Peak: 0.14 W/kg
SAR 10g (W/Kg)
0.034695
SAR 1g (W/Kg)
0.067137
Report No.: 68.950.17.653.01
Page 39 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Z (mm)
SAR
(W/Kg)
0.00
0.1318
4.00
0.0718
3D screen shot
Report No.: 68.950.17.653.01
9.00
0.0326
14.00
0.0180
19.00
0.0132
24.00
0.0100
29.00
0.0085
Hot spot position
Page 40 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
DEPTH OF THE LIQUID IN THE PHANTOM—ZOOM IN
Note The position used in the measurement were according to IEEE 1528-2013
1900MHz head
1900MHz body
Report No.: 68.950.17.653.01
Page 41 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
APPENDIX C. CALIBRATION DATA
Refer to Attached files.
Report No.: 68.950.17.653.01
Page 42 of 42
TÜV SÜD Certification and Testing (China) Co., Ltd. Shenzhen Branch
Building 12&13, Zhiheng Wisdomland Business Park, Nantou Checkpoint Road 2, Nanshan District, Shenzhen City, 518052, P. R. China
Download: AC117R Baby Monitor RF Exposure Info RF Exposure Info Part 1 Angelcare Monitors Inc.
Mirror Download [FCC.gov]AC117R Baby Monitor RF Exposure Info RF Exposure Info Part 1 Angelcare Monitors Inc.
Document ID3549188
Application ID2X8teGHqsFmQcocS6x429w==
Document DescriptionRF Exposure Info Part 1
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize132.62kB (1657759 bits)
Date Submitted2017-09-07 00:00:00
Date Available2017-09-07 00:00:00
Creation Date2017-09-05 15:41:28
Producing SoftwarePDF-XChange 3.60.0106 (Windows)
Document Lastmod0000-00-00 00:00:00
Document TitleRF Exposure Info Part 1

Source Exif Data:
File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.4
Linearized                      : No
Encryption                      : Standard V1.2 (40-bit)
User Access                     : (none)
Producer                        : PDF-XChange 3.60.0106 (Windows)
Create Date                     : 2017:09:05 15:41:28+08:00
Page Count                      : 42

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