Manuals+

Report on the EMC Testing

KYOCERA Corporation Mobile Phone, Model: EB1134

In accordance with FCC Part 15 Subpart B Class B

Prepared for: KYOCERA Corporation

Yokohama Office 2-1-1 Kagahara, Tsuzuki-ku, Yokohama-shi, Kanagawa, 224-8502 Japan

Phone: +81-45-943-6253 Fax: +81-45-943-6314

TÜV SÜD Japan logo with tagline: Add value. Inspire trust.

Document Number: JPD-TR-22048-0

COMMERCIAL-IN-CONFIDENCE

SIGNATURE

Name: Hiroaki Suzuki

Job Title: Deputy Manager of RF Group

Responsible For: Approved Signatory

Issue Date: 2022.05.16

Signatures in this approval box have checked this document in line with the requirements of TÜV SÜD Japan Ltd. document control rules.

EXECUTIVE SUMMARY – Result: Complied

A sample of this product was tested and the result above was confirmed in accordance with FCC Part 15 Subpart B (excluding the deviations mentioned in section 1.4 of this document).

DISCLAIMER AND COPYRIGHT

The results in this report are applicable only to the equipment tested. This report shall not be re-produced except in full without the written approval of TÜV SÜD Japan Ltd.

Client provided data, for which TÜV SÜD Japan Ltd. takes no responsibility, which can affect validity of results within this report is clearly identified.

ACCREDITATION: This test report must not be used by the client to claim product certification, approval, or endorsement by A2LA or any agency of the federal government.

Accreditation Logos: IAC-MRA logo, ACCREDITED logo, Certificate #3686.03

TÜV SÜD Japan Ltd.

Yonezawa Testing Center

5-4149-7 Hachimanpara, Yonezawa-shi, Yamagata, 992-1128 Japan

Phone: +81 (0) 238 28 2881

Website: www.tuvsud.com/ja-jp

Additional signatures required by FCC 47 CFR Part 2, § 2.938 (b) (10)

Signatures of the individuals responsible for testing the product

ENGINEERING STATEMENT

The measurements shown in this report were made in accordance with the procedures described on test pages. All reported testing was carried out on a sample equipment to demonstrate limited compliance with FCC Part 15 Subpart B. The sample tested was found Complied compliant with the requirements defined in the applied rules.

Engineering Personnel Signatures
NAME RESPONSIBLE FOR SIGNATURE
Satoshi Hosoya Testing Satoshi Hosoya signature

1. Summary of Test

1.1 Modification history of the test report

Modification History
Document Number Modification History Issue Date
JPD-TR-22048-0 First Issue Refer to the cover page

1.2 Standards

FCC Part 15 Subpart B

1.3 Measurement standards

ANSI C63.4 2014

1.4 Deviation from standards

None

1.5 List of applied test(s) of the EUT

Applied Test(s)
Test Name Classification of EUT Test Worst Point (Margin) Result Remarks
Conducted emission at mains port Class B Applied MP4 + USB Read with PC mode S/N: 358079740016706 L2 0.150 MHz QP 9.5 dB Pass -
Radiated emission (below 1 GHz) Class B Applied MP4 + USB Read with PC mode S/N: 358079740016706 H 398.928 MHz QP 4.0 dB Pass -
Radiated emission (above 1 GHz) Class B Applied Out Camera with ADP mode S/N: 358079740016805 V 2879.999 MHz AV 12.9 dB Pass -

1.6 Test information

This equipment has two vendors (On Semiconductor and Texas Instruments) of LED driver. In addition, the same model number has two variations; with or without a camera. The applicant selected the one with a camera, which is the maximum configuration, and all modes were tested the EUT having On Semiconductor vendor's LED driver. The worst case was tested with the EUT having Texas Instruments vendor's LED driver. The following EMC test conditions were applied based on the conditions specified by the applicant: - Tested supply voltage and supply frequency.

1.7 Test set up

Table-top

1.8 Test period

12-April-2022 - 16-April-2022

2. Equipment Under Test

All information in this chapter was provided by the applicant.

2.1 EUT information

Applicant: KYOCERA Corporation

Yokohama Office 2-1-1 Kagahara, Tsuzuki-ku, Yokohama-shi, Kanagawa, 224-8502 Japan

Phone: +81-45-943-6253 Fax: +81-45-943-6314

Equipment Under Test (EUT): Mobile Phone

Model number: EB1134

Serial number: 358079740016706, 358079740016805

Trade name: KYOCERA

Authorization: JOYEB1134

Number of sample(s): 2

EUT condition: Pre-production

Maximum frequency: 2000 MHz

Power rating: Battery: DC 3.85 V

Size: (W) 51.3 mm × (D) 112.9 mm × (H) 18 mm

2.2 Modification to the EUT

The table below details modifications made to the EUT during the test project.

Modifications to EUT
Modification State Description of Modification Modification fitted by Date of Modification
0 As supplied by the applicant Not Applicable Not Applicable
EB1134, S/N: 358079740016706 As supplied by the applicant Not Applicable Not Applicable
0 As supplied by the applicant Not Applicable Not Applicable
EB1134, S/N: 358079740016805 As supplied by the applicant Not Applicable Not Applicable

2.3 Variation of family model(s)

2.3.1 List of family model(s)

2.3.2 Reason for selection of EUT

The applicant selected the one with a camera, which is the maximum configuration.

2.4 Operation mode

  1. Out Camera with ADP mode
    • Power ON
    • Record
  2. MP4 with Earphone mode
    • Power ON
    • Execution of Color Bar moving picture data
  3. MP4 + USB Read with PC mode
    • Power ON
    • EUT connects to PC via USB cable
    • Read / write of MP4 moving picture data
    • Execution of Color Bar moving picture data

3. Configuration of Equipment

Numbers assigned to equipment or cables in “3.1 Equipment(s) used" and "3.2 Cable(s) used" correspond to numbers in "3.3 System configuration". Cabling and setup(s) were taken into consideration and test data was taken under worse case condition.

3.1 Equipment used

Equipment Used
No. Equipment Company Model No. Serial No. FCC ID /DoC Remarks
EUT1 Mobile Phone KYOCERA EB1134 358079740016706
358079740016805		 JOYEB1134 EUT, *3
EUT, *4
AE1 AC adapter KDDI 0602PQA MKA N/A *1
AE2 Earphone N/A N/A N/A N/A -
AE3 Personal Computer Lenovo 4334 CB07410173 DoC *2
AE4 AC adapter Lenovo CPA-A065 11S36001943ZZ20011116S N/A *2

*1: AC adapter is connected to keep operating.

*2: The property of TÜV SÜD Japan was used.

*3: Vendor of LED driver: On Semiconductor

*4: Vendor of LED driver: Texas Instruments

3.2 Cable(s) used

Cables Used
No. Cable Length (m) Shield EUT accessory Ferrite core Remarks
a DC cable 1.5 Yes - -
b USB cable 0.1 Yes - -
c Earphone cable 0.8 No - -
d USB type C cable 1.0 Yes - -
e DC cable for PC AC adapter 1.8 No - *1
f AC power cord for PC AC adapter 1.0 No - *1

*1: The property of TÜV SÜD Japan was used.

3.3 System configuration

1. Out Camera with ADP mode

EUT1 is connected via cable 'a' to AE1 (AC adapter). AE1 is connected to AC120V 60Hz. '#' indicates an un-detachable cable.

2. MP4 with Earphone mode

EUT1 is connected via cable 'b' to a connector, then via cable 'c' to AE2 (Earphone).

3. MP4 + USB Read with PC mode

EUT1 is connected via cable 'd' to AE3 (Personal Computer). AE3 is connected via cable 'e' to AE4 (AC adapter). AE4 is connected to AC120V 60Hz. '*' indicates bundled excess cable, '#' indicates un-detachable cable.

4. Test Result

4.1 Conducted emission at mains port

4.1.1 Measurement condition

Frequency range: 0.15 MHz-30 MHz

Test place: 10 m Semi-Anechoic Chamber No. 1

EUT was placed on: FRP table (W) 2.0 × (D) 1.0 × (H) 0.8 m

Metal reference plane: Vertical

Test receiver setting: Detector: Quasi-peak, Average, Bandwidth: 9 kHz

Line Impedance Stabilization Network (LISN): Specification: 50 Ω/50 μΗ, Distance from EUT: 0.8 m

EUT is placed on a non-conducting table for table-top equipment or on insulation material for a floor-standing equipment. In addition, a table-top equipment is located 0.4 m to a metal reference plane. The Line Impedance Stabilization Network (LISN) is placed 0.8 m away from the EUT. The power code of the EUT is connected to LISN and its excess part is bundled in the center. The length of bundling is 0.3-0.4 m. A power code of a peripheral is connected to LISN and terminated into 50 Ω. Excess cables between equipment are bundled in the center. The length of bundling is 0.3-0.4 m. Where LISN cannot be applied, the test is performed using a voltage probe. After overall frequency range is investigated with spectrum analyzer using peak detector, measurements are performed with test receiver in setting to the defined values.

4.1.2 Calculation method

Emission level = Reading + c.f. (correction factor)*

Margin = Limit – Emission level

*Note: c.f. = LISN factor + Cable system loss + Attenuator loss

Example)

Limit @ 6.770 MHz: 60.0 dBμV (Quasi-peak), 50.0 dBμV (Average)

Quasi-peak: Reading = 41.2 dBμV, c.f. = 10.3 dB, Emission level = 41.2 + 10.3 = 51.5 dBμV, Margin = 60.0 - 51.5 = 8.5 dB

Average: Reading = 35.0 dBμV, c.f. = 10.3 dB, Emission level = 35.0 + 10.3 = 45.3 dBμV, Margin = 50.0 - 45.3 = 4.7 dB

4.1.3 Test data and Configuration photographs

Operation mode: MP4 + USB Read with PC mode

EUT: EB1134, S/N: 358079740016706 - Modification State 0

Date of test: 13-April-2022 Supply voltage: AC 120 V Supply frequency: 60 Hz

Graph Description: A graph shows Conducted Emission levels versus Frequency (0.150 MHz to 30.000 MHz). The Y-axis represents Level in dB(µV). Two lines represent the Quasi-peak (QP) and Average (AV) limits. Several data points are plotted, showing measured emission levels for L1 and L2 phases, with corresponding QP and AV values.

Final Result - L1 Phase
No. Frequency [MHz] Reading QP [dB(µV)] Reading CAV [dB(µV)] c. f [dB] Result QP [dB(µV)] Result CAV [dB(µV)] Limit QP [dB(µV)] Limit AV [dB(µV)] Margin QP [dB] Margin CAV [dB]
10.15044.326.510.454.736.966.056.011.319.1
20.17143.125.510.453.535.964.954.911.419.0
30.50025.115.710.335.426.056.046.020.620.0
46.06120.714.010.731.424.760.050.028.625.3
521.12919.513.611.230.724.860.050.029.325.2
624.00022.818.011.334.129.360.050.025.920.7
726.00023.718.811.335.030.160.050.025.019.9
Final Result - L2 Phase
No. Frequency [MHz] Reading QP [dB(µV)] Reading CAV [dB(µV)] c. f [dB] Result QP [dB(µV)] Result CAV [dB(µV)] Limit QP [dB(µV)] Limit AV [dB(µV)] Margin QP [dB] Margin CAV [dB]
10.15046.125.910.456.536.366.056.09.519.7
20.17144.825.810.455.236.264.954.99.718.7
30.49423.815.210.234.025.456.146.122.120.7
44.99912.86.910.623.417.556.046.032.628.5
520.64815.78.311.327.019.660.050.033.030.4
624.00021.817.011.433.228.460.050.026.821.6
726.00023.218.611.434.630.060.050.025.420.0

4.2 Radiated emission (below 1 GHz)

4.2.1 Measurement condition

Frequency range: 30 MHz-1000 MHz

Test place: 10 m Semi-Anechoic Chamber No. 1

EUT was placed on: FRP table (W) 2.0 × (D) 1.0 × (H) 0.8 m

Axis: 0°-360°

Antenna: Distance from EUT: 3 m, Height: 1-4 m, Polarity: Horizontal/Vertical

Test receiver setting: Detector: Quasi-peak, Bandwidth: 120 kHz

EUT is placed on a non-conducting table for table-top equipment or on insulation material for a floor-standing equipment. The non-conducting table or the insulation material is placed on a rotating turn table. Excess cables between equipment are bundled in the center. The length of bundling is 0.3-0.4 m. An antenna is adjusted between 1-4 m in height and varied its polarization (horizontal and vertical), and the EUT azimuth is varied by the rotating turntable 0 to 360 degrees.

4.2.2 Calculation method

Emission level = Reading + c.f. (correction factor)*

Margin = Limit - Emission level

*Note: c.f. = Antenna factor + Cable system loss + Attenuator loss - Amplifier Gain

Example)

Limit @ 350.0 MHz: 37.0 dBμV/m

Reading = 41.1 dBμV, c.f. = -11.8 dB/m, Emission level = 41.1 - 11.8 = 29.3 dBμV/m, Margin = 37.0 - 29.3 = 7.7 dB

4.2.3 Test data and Configuration photographs

Operation mode: Out Camera with ADP mode

EUT: EB1134, S/N: 358079740016706 - Modification State 0, EB1134, S/N: 358079740016805 - Modification State 0

S/N: 358079740016706 Date of test: 12-April-2022 Supply voltage: AC 120 V Supply frequency: 60 Hz

Graph Description: A graph shows Radiated Emission levels versus Frequency (30.000 MHz to 1000.000 MHz). The Y-axis represents Level in dB(µV/m). The graph displays QP (Quasi-peak) limits and measured emission levels for Horizontal (H) and Vertical (V) polarizations.

Final Result
No. Frequency [MHz] (P) Reading QP [dB(µV)] c. f [dB (1/m)] Result QP [dB(µV/m)] Limit QP [dB(µV/m)] Margin QP [dB] Height [cm] Angle [°]
130.003V37.6-12.824.840.015.2100.0187.0
260.597V43.4-16.926.540.013.5100.0171.0
361.639V43.0-16.926.140.013.9100.0160.0
4137.005V39.4-13.525.943.517.6100.0123.0
5186.714V35.4-11.324.143.519.4260.0121.0
6345.770V41.2-11.829.446.016.6100.0342.0
7361.076V40.6-11.629.046.017.0100.0340.0
8379.451H40.3-11.428.946.017.1100.088.0

S/N: 358079740016805 Date of test: 13-April-2022 Supply voltage: AC 120 V Supply frequency: 60 Hz

Graph Description: A graph shows Radiated Emission levels versus Frequency (30.000 MHz to 1000.000 MHz). The Y-axis represents Level in dB(µV/m). The graph displays QP (Quasi-peak) limits and measured emission levels for Horizontal (H) and Vertical (V) polarizations.

Final Result
No. Frequency [MHz] (P) Reading QP [dB(µV)] c. f [dB (1/m)] Result QP [dB(µV/m)] Limit QP [dB(µV/m)] Margin QP [dB] Height [cm] Angle [°]
130.002V37.5-12.824.740.015.3100.0178.0
260.696V40.9-16.924.040.016.0100.0158.0
361.914V41.3-17.024.340.015.7100.0146.0
4141.115V37.8-13.224.643.518.9100.0111.0
5148.789V37.4-12.924.543.519.0100.0107.0
6195.826V34.3-10.723.643.519.9242.0179.0
7344.949V40.8-11.829.046.017.0100.0351.0
8360.227V38.8-11.627.246.018.8100.0357.0

Operation mode: MP4 with Earphone mode

EUT: EB1134, S/N: 358079740016706 - Modification State 0

S/N: 358079740016706 Date of test: 13-April-2022 Supply voltage: DC 3.8 V

Graph Description: A graph shows Radiated Emission levels versus Frequency (30.000 MHz to 1000.000 MHz). The Y-axis represents Level in dB(µV/m). The graph displays QP (Quasi-peak) limits and measured emission levels for Horizontal (H) and Vertical (V) polarizations.

Final Result
No. Frequency [MHz] (P) Reading QP [dB(µV)] c. f [dB (1/m)] Result QP [dB(µV/m)] Limit QP [dB(µV/m)] Margin QP [dB] Height [cm] Angle [°]
135.555V26.3-14.012.340.027.7100.0284.0
238.697V27.4-14.512.940.027.1100.045.0
3109.791H27.3-15.212.143.531.4325.0263.0
4130.368H30.9-13.917.043.526.5256.0270.0
5137.239H31.2-13.417.843.525.7238.0271.0
6157.863H23.2-12.610.643.532.9209.0259.0
7195.136V21.1-10.710.443.533.1100.047.0
8631.834V20.3-5.614.746.031.3100.0148.0

4.3 Radiated emission (above 1 GHz)

4.3.1 Measurement condition

Frequency range: 1000 MHz-10000 MHz

Test place: 10 m Semi-Anechoic Chamber No. 1

EUT was placed on: Styrene foam table (W) 2.0 × (D) 1.0 × (H) 0.8 m

Axis: 0°-360°

Antenna: Distance: 4.05 m, 3.92 m, Height: 1-4 m, Polarity: Horizontal/Vertical

Test receiver setting: Detector: Peak, Average, Bandwidth: 1 MHz

EUT is placed on a styrene form table for table-top equipment or on insulation material for a floor-standing equipment. The styrene form table or the insulation material is placed on a rotating turn table. Excess cables between equipment are bundled in the center. The length of bundling is 0.3-0.4 m. Absorbers are placed between the EUT and an antenna. The antenna is adjusted between 1-4 m in height and varied its polarization (horizontal and vertical), and the EUT azimuth is varied by the rotating turntable 0 to 360 degrees. Where height of the antenna is changed, its angle is also adjusted to the position of the EUT. After overall frequency range is investigated with spectrum analyzer using peak detector, measurements are performed with test receiver in setting to the defined values. The antenna is positioned from the test volume that was predetermined by the site VSWR measurement. Since this predetermined test volume is different from maximum circumference where the EUT and the peripheral devices are actually placed, the measurement distance conversion factor is added to the measurement data.

Antenna 3 dB beamwidth

Antenna: 3117
Frequency (GHz) 03 dB (°) 3 dB beamwidth w (m)
1.0825.22
2.0563.19
3.0613.53
4.0502.80
5.0532.99
6.0502.80

Measurement distance: d = 3.0 m

W = 2 x d x tan (0.5 × 03 dB)

4.3.2 Calculation method

Emission level = Reading + Measurement distance conversion factor + c.f. (correction factor)*

Margin = Limit - Emission level

*Note: c.f. = Antenna factor + Cable system loss + Attenuator loss - Amplifier Gain

Example)

Limit @ 1100.0 MHz: 70.0 dBμV/m (Peak), 50.0 dBμV/m (Average)

Measurement distance: 3.25 m

Measurement distance conversion factor: 20 log (3.25m/3.0m) = 0.7 dB

Peak: Reading = 50.2 dBμV, Measurement distance conversion factor = 0.7 dB, c.f. = 1.7 dB/m, Emission level = 50.2 + 0.7 + 1.7 = 52.6 dBμV/m, Margin = 70.0 – 52.6 = 17.4 dB

Average: Reading = 32.0 dBμV, Measurement distance conversion factor = 0.7 dB, c.f. = 1.7 dB/m, Emission level = 32.0 + 0.7 + 1.7 = 34.4 dBμV/m, Margin = 50.0 – 34.4 = 15.6 dB

4.3.3 Test data and Configuration photographs

Operation mode: Out Camera with ADP mode

EUT: EB1134, S/N: 358079740016706 - Modification State 0, EB1134, S/N: 358079740016805 - Modification State 0

S/N: 358079740016706 Date of test: 15-April-2022 Supply voltage: AC 120 V Supply frequency: 60 Hz

Graph Description: A graph shows Radiated Emission levels versus Frequency (1000.000 MHz to 10000.000 MHz). The Y-axis represents Level in dB(µV/m). The graph displays Peak (PK) and Average (AV) limits and measured emission levels for Horizontal (H) and Vertical (V) polarizations.

Final Result
No. Frequency [MHz] (P) Reading PK [dB(µV)] Reading AV [dB(µV)] c. f [dB (1/m)] Result PK [dB(µV/m)] Result AV [dB(µV/m)] Limit PK [dB(µV/m)] Limit AV [dB(µV/m)] Margin PK [dB] Margin AV [dB] Height [cm] Angle [°]
11175.999V53.438.2-7.945.530.374.054.028.523.7216.022.0
21439.999V53.438.1-6.746.731.474.054.027.322.6121.0219.0
31599.998V53.138.1-6.246.931.974.054.027.122.1117.090.0
42399.997V51.336.3-0.351.036.074.054.023.018.0184.0352.0
52495.998V51.136.60.451.537.074.054.022.517.0268.0347.0
62591.998V51.436.70.351.737.074.054.022.317.0163.0347.0
72879.998V52.340.20.853.141.074.054.020.913.0400.095.0
82879.998H51.537.30.852.338.174.054.021.715.9384.0273.0
95759.995V46.832.07.053.839.074.054.020.215.0126.0310.0

S/N: 358079740016805 Date of test: 16-April-2022 Supply voltage: AC 120 V Supply frequency: 60 Hz

Graph Description: A graph shows Radiated Emission levels versus Frequency (1000.000 MHz to 10000.000 MHz). The Y-axis represents Level in dB(µV/m). The graph displays Peak (PK) and Average (AV) limits and measured emission levels for Horizontal (H) and Vertical (V) polarizations.

Final Result
No. Frequency [MHz] (P) Reading PK [dB(µV)] Reading AV [dB(µV)] c. f [dB (1/m)] Result PK [dB(µV/m)] Result AV [dB(µV/m)] Limit PK [dB(µV/m)] Limit AV [dB(µV/m)] Margin PK [dB] Margin AV [dB] Height [cm] Angle [°]
11439.999V53.337.9-6.746.631.274.054.027.422.8128.0225.0
21599.998V53.137.8-6.246.931.674.054.027.122.4122.082.0
32159.999V51.636.7-1.050.635.774.054.023.418.3144.0222.0
42399.999V51.736.2-0.351.435.974.054.022.618.1191.0336.0
52495.998V51.336.50.451.736.974.054.022.317.1264.0342.0
62591.998V51.836.30.352.136.674.054.021.917.4174.0345.0
72879.999V52.440.30.853.241.174.054.020.812.9400.0107.0
82879.999H51.737.80.852.538.674.054.021.515.4382.0269.0
95759.995V47.232.27.054.239.274.054.019.814.8115.0305.0

Operation mode: MP4 with Earphone mode

EUT: EB1134, S/N: 358079740016706 - Modification State 0

S/N: 358079740016706 Date of test: 14-April-2022 Supply voltage: DC 3.8 V

Graph Description: A graph shows Radiated Emission levels versus Frequency (30.000 MHz to 1000.000 MHz). The Y-axis represents Level in dB(µV/m). The graph displays QP (Quasi-peak) limits and measured emission levels for Horizontal (H) and Vertical (V) polarizations.

Final Result
No. Frequency [MHz] (P) Reading QP [dB(µV)] c. f [dB (1/m)] Result QP [dB(µV/m)] Limit QP [dB(µV/m)] Margin QP [dB] Height [cm] Angle [°]
135.555V26.3-14.012.340.027.7100.0284.0
238.697V27.4-14.512.940.027.1100.045.0
3109.791H27.3-15.212.143.531.4325.0263.0
4130.368H30.9-13.917.043.526.5256.0270.0
5137.239H31.2-13.417.843.525.7238.0271.0
6157.863H23.2-12.610.643.532.9209.0259.0
7195.136V21.1-10.710.443.533.1100.047.0
8631.834V20.3-5.614.746.031.3100.0148.0

Operation mode: MP4 + USB Read with PC mode

EUT: EB1134, S/N: 358079740016706 - Modification State 0, EB1134, S/N: 358079740016805 - Modification State 0

S/N: 358079740016706 Date of test: 13-April-2022 Supply voltage: AC 120 V Supply frequency: 60 Hz

Graph Description: A graph shows Radiated Emission levels versus Frequency (30.000 MHz to 1000.000 MHz). The Y-axis represents Level in dB(µV/m). The graph displays QP (Quasi-peak) limits and measured emission levels for Horizontal (H) and Vertical (V) polarizations.

Final Result
No. Frequency [MHz] (P) Reading QP [dB(µV)] c. f [dB (1/m)] Result QP [dB(µV/m)] Limit QP [dB(µV/m)] Margin QP [dB] Height [cm] Angle [°]
164.162V44.3-17.027.340.012.7100.0225.0
267.335H41.4-17.024.440.015.6342.0188.0
3240.000H49.7-15.933.846.012.2158.027.0
4354.731H47.3-11.635.746.010.3100.097.0
5370.038H48.7-11.537.246.08.8100.0100.0
6385.304H48.8-11.237.646.08.4100.096.0
7398.908V47.6-10.836.846.09.2139.0125.0
8398.928H52.8-10.842.046.04.0100.077.0

S/N: 358079740016805 Date of test: 13-April-2022 Supply voltage: AC 120 V Supply frequency: 60 Hz

Graph Description: A graph shows Radiated Emission levels versus Frequency (30.000 MHz to 1000.000 MHz). The Y-axis represents Level in dB(µV/m). The graph displays QP (Quasi-peak) limits and measured emission levels for Horizontal (H) and Vertical (V) polarizations.

Final Result
No. Frequency [MHz] (P) Reading QP [dB(µV)] c. f [dB (1/m)] Result QP [dB(µV/m)] Limit QP [dB(µV/m)] Margin QP [dB] Height [cm] Angle [°]
164.251V44.5-17.027.540.012.5100.0224.0
267.343H41.8-17.024.840.015.2343.0175.0
3239.991H51.1-15.935.246.010.8124.0180.0
4246.663H47.2-15.731.546.014.5123.016.0
5338.731H47.7-12.035.746.010.3100.0104.0
6344.820H46.2-11.834.446.011.6100.0100.0
7354.000H51.0-11.639.446.06.6100.094.0
8360.098H46.6-11.635.046.011.0100.096.0

5. Measurement Uncertainty

The reported measurement uncertainty is based on a value obtained by multiplying standard uncertainty by coverage factor of k=2, and a level of confidence becomes 95 %.

Measurement Uncertainty
Item Parameter Ulab Ucispr
Conducted Emission, V-AMN9kHz to 150kHz± 3.7 dB± 3.8 dB
Conducted Emission, V-AMN150kHz to 30MHz± 3.3 dB± 3.4 dB
Conducted Emission, Δ-ΑΝ150kHz to 30MHz± 4.9 dB-
Conducted Emission, AN150kHz to 30MHz± 4.3 dB-
Conducted Emission, AAN150kHz to 30MHz± 4.8 dB± 5.0 dB
Conducted Emission, Voltage Probe9kHz to 30MHz± 2.8 dB± 2.9 dB
Conducted Emission, Current Probe150kHz to 30MHz± 2.9 dB± 2.9 dB
Disturbance Power30MHz to 300MHz± 3.8 dB± 4.5 dB
Radiated Emission30MHz to 1000MHz± 5.5 dB± 6.3 dB
Radiated Emission1GHz to 6GHz± 4.9 dB± 5.2 dB
Radiated Emission6GHz to 18GHz± 4.6 dB± 5.5 dB
Radiated Emission9kHz to 30MHz± 3.2 dB-
Judge
Measured value and standard limit value
PASS Case1: Standard limit value +Uncertainty -Uncertainty Measured value. Even if it takes uncertainty into consideration, a standard limit value is fulfilled.
Case2: Although measured value is in a standard limit value, a limit value won't be fulfilled if uncertainty is taken into consideration.
FAIL Case3: Although measured value exceeds a standard limit value, a limit value will be fulfilled if uncertainty is taken into consideration.
Case4: Even if it takes uncertainty into consideration, a standard limit value isn't fulfilled.

6. Laboratory Information

Testing was performed and the report was issued at:

TÜV SÜD Japan Ltd. Yonezawa Testing Center

Address: 5-4149-7 Hachimanpara, Yonezawa-shi, Yamagata, 992-1128 Japan

Phone: +81-238-28-2881

Accreditation and Registration

A2LA Certificate #3686.03

VLAC Accreditation No.: VLAC-013

BSMI Laboratory Code: SL2-IN-E-6018, SL2-A1-E-6018

Innovation, Science and Economic Development Canada ISED#: 4224A

VCCI Council Registration number: A-0166

Appendix A. Test Equipment

Conducted emission at mains port

Test Equipment - Conducted Emission
Equipment Company Model No. Serial No. Cal. due Cal. Date
EMI ReceiverROHDE&SCHWARZESR710118730-Apr-202227-Apr-2021
Line impedance stabilization networkKyoritsu Technology CorporationTNW-407F212-17-110-230-Jun-202217-Jun-2021
AttenuatorHUBER+SUHNER6810.01.AN/A(S420)30-Jun-202203-Jun-2021
Coaxial cableFUJIKURA5D-2W/4mN/A(S349)31-Oct-202227-Oct-2021
Microwave cableHUBER+SUHNERSUCOFLEX104/2m317672/431-Oct-202228-Oct-2021
Coaxial cableHUBER+SUHNERRG214/U/25mN/A(S191)31-Oct-202227-Oct-2021
SoftwareTOYO CorporationEP5/CE-AJ0611193/V5.4.11N/AN/A

Radiated emission (below 1 GHz)

Test Equipment - Radiated Emission (below 1 GHz)
Equipment Company Model No. Serial No. Cal. due Cal. date
EMI ReceiverROHDE&SCHWARZESR710118730-Apr-202227-Apr-2021
Biconical antennaSchwarzbeckVHBB9124/BBA9106133231-Nov-202208-Nov-2021
Log-periodic antennaSchwarzbeckVUSLP9111B34331-Aug-202220-Aug-2021
AttenuatorTDCTAT-43B-06N/A(S209)31-Jul-202220-Jul-2021
AttenuatorTAMAGAWA.ELECCFA-10/3dBN/A(S504)31-Jul-202220-Jul-2021
Microwave cableHUBER+SUHNERSUCOFLEX104/9mMY23758/431-Oct-202228-Oct-2021
Microwave cableHUBER+SUHNERSUCOFLEX104/1mMY24628/431-Oct-202228-Oct-2021
Microwave cableHUBER+SUHNERSUCOFLEX104/2mSN MY28398/431-Oct-202228-Oct-2021
Microwave cableHUBER+SUHNERSUCOFLEX106/13mMY1159/631-Oct-202227-Oct-2021
PreamplifierSONOMA31040031531-Mar-202303-Mar-2022
10m Semi-anechoic ChamberTOKINN/AN/A(9001-NSA3m)31-May-202221-May-2021
SoftwareTOYO CorporationEP5/RE-AJ0611193/V6.0.140N/AN/A

Radiated emission (above 1 GHz)

Test Equipment - Radiated Emission (above 1 GHz)
Equipment Company Model No. Serial No. Cal. due Cal. date
Spectrum analyzerROHDE&SCHWARZFSV4010173231-Mar-202303-Mar-2022
PreamplifierTSJMLA-0118-J02-4014882--
Double ridged guide antennaETS LINDGREN31170005231531-May-202224-May-2021
AttenuatorAgilent Technologies8491BMY3926863230-Jun-202202-Jun-2021
Microwave cableHUBER+SUHNERSUCOFLEX104/9m800693/430-Jun-202203-Jun-2021
Microwave cableHUBER+SUHNERSUCOFLEX104/1.5mSN MY19304/431-Oct-202227-Oct-2021
Microwave cableHUBER+SUHNERSUCOFLEX104/2mSN MY28398/431-Oct-202228-Oct-2021
Microwave cableHUBER+SUHNERSUCOFLEX106/13mMY1159/631-Oct-202227-Oct-2021
AbsorberRIKENPFP30N/AN/AN/A
10m Semi-anechoic ChamberTOKINN/AN/A(9001-SVSWR)31-May-202221-May-2021
SoftwareTOYO CorporationEP5/RE-AJ0611193/V6.0.140N/AN/A

PDF preview unavailable. Download the PDF instead.

GetApplicationAttachment.html?id=5920672 PDF-XChange Standard (9.1 build 356) [GDI] [Windows 10 Enterprise x64 (Build 19042)]; modified using iText? 5.5.10 ?2000-2015 iText Group NV (AGPL-version)

Related Documents

Preview KYOCERA Corporation Tablet KC-T303DT EMC Test Report
This document details the EMC testing conducted on the KYOCERA Corporation Tablet, Model: KC-T303DT, in accordance with FCC Part 15 Subpart B Class B. The report includes test results, methodology, and equipment used.
Preview FCC Attestation for Kyocera EB1055 Mobile Phone
FCC attestation for the Kyocera EB1055 Mobile Phone (FCC ID: JOYEB1055), declaring it will not be sold in the United States and its user manual is for Japanese consumers.
Preview Kyocera Brigadier Teardown Guide
A comprehensive guide detailing the step-by-step teardown process for the Kyocera Brigadier smartphone, including necessary tools and procedures for component removal.
Preview Kyocera ECOSYS PA3500wx: Modernize Your Office with High Productivity
Discover the Kyocera ECOSYS PA3500wx, an ideal A4 B&W printer for modern offices. Offering high productivity, duplex printing, and a fast processor, this printer supports up to 37 pages per minute and is designed for reliability and sustainability.
Preview Kyocera DURAXE EPIC Safety and Warranty Information
Comprehensive safety, usage, and warranty guidelines for the Kyocera DURAXE EPIC mobile phone, covering important precautions, battery care, RF exposure, and manufacturer's warranty details.
Preview Kyocera Mobile Phone Safety & Warranty Information Guide
Comprehensive safety and warranty information for Kyocera mobile phones, including general precautions, safe usage guidelines, battery care, radio frequency (RF) energy exposure, SAR values, FCC compliance, and hearing aid compatibility for model E7200.
Preview Kyocera DuraXV Extreme User Guide
Explore the features and functionalities of the Kyocera DuraXV Extreme with this comprehensive user guide. Learn about setup, calls, messaging, apps, and settings for this durable mobile device.
Preview Kyocera DuraXV Extreme+ Quick Reference Guide
A concise quick reference guide for the Kyocera DuraXV Extreme+ mobile phone, detailing its features, setup instructions, basic operations, and support information.