TÜV Rheinland Test Report: IKEA LED2411G3NA Zigbee Lamp

1. General Remarks

All test equipment used during the specified testing period was calibrated according to the test laboratory's calibration program and fulfills the requirements of the relevant standards. Traceability of the test equipment is ensured by compliance with the management system regulations. Detailed information on test conditions, equipment, and measurement uncertainty is available upon request.

This document was signed digitally. TÜV Rheinland has not verified, and is unable to verify, the legal or other requirements applicable to this document; such verification is the responsibility of the document's user. Upon client request, TÜV Rheinland can confirm the digital signature's validity via a separate document. For verification of document authenticity, visit go.tuv.com/digital-signature.

Tests marked with '*' were subcontracted to qualified subcontractors, as described in the respective test clauses. Deviations from testing specifications or customer requirements are listed in the specific test clause.

The decision rule for conformity statements based on numerical measurement results uses the "Zero Guard Band Rule" and "Simple Acceptance" as per ILAC G8:2019 and IEC Guide 115:2021, unless otherwise specified in the applied standard or requested by the customer. Measurement uncertainty is not accounted for in the report.

Test Summary

The following tests were performed with the indicated results:

• 5.1.1 Antenna Requirement: Pass
• 5.1.2 6dB & 99% Bandwidth: Pass
• 5.1.3 Output Power: Pass
• 5.1.4 Power Spectral Density: Pass
• 5.1.5 Conducted Band Edge and out-of Band Emissions: Pass
• 5.2.1 Conducted Emission: Pass
• 5.3.1 Radiated Band-Edge: Pass
• 5.3.2 Radiated Spurious Emission: Pass

2. Test Sites

The testing was conducted at TÜV Rheinland (Shanghai) Co., Ltd., located at Workshop14, North Half of Workshop 10 and Workshop 16, Pingqian (Taicang) Modern Industrial Park, No.525, Yuewang Lingang South Road, Shaxi, Taicang, Jiangsu, China. The test equipment complies with CISPR 16 for radio interference measurement. The facilities have been reviewed and found compliant by the Federal Communications Commission (FCC registration number 930979) and Innovation, Science and Economic Development Canada (chambers filing number 33038).

2.2 List of Test and Measurement Instruments

2.3 Traceability

All measurement equipment calibrations are traceable to NIST or, where calibration is performed outside the United States, to equivalent nationally recognized standards organizations.

2.4 Calibration & 2.5 Measurement Uncertainty

Equipment requiring calibration is calibrated periodically by the manufacturer or according to manufacturer's specifications. All equipment is also verified for proper performance on a regular basis using in-house standards or comparisons.

3. General Product Information

3.1 Product Function and Intended Use

The EUT (Equipment Under Test) is a LED lamp that supports Bluetooth, Zigbee, and Thread. The purpose of this report is to evaluate the RF characteristics of the Zigbee functionality of the EUT.

3.2 Ratings and System Details

3.3 Independent Operation Modes

The tested frequencies include the lowest channel (2405 MHz), middle channel (2445 MHz), and highest channel (2480 MHz). The basic operation modes are: A. Zigbee transmitting mode, B. Radio operating mode.

3.4 Noise Generating and Noise Suppressing Parts

Refer to the Circuit Diagram.

4. Test Set-up and Operation Modes

4.1 Principle of Configuration Selection

The equipment under test (EUT) was configured to measure its maximum power level. Test modes were adapted according to the instructions for use.

4.2 Test Operation and Test Software

Testing was performed according to ANSI C63.10: 2013. The test software used was SSCOM 5.13.1.

4.3 Special Accessories and Auxiliary Equipment

4.4 Countermeasures to achieve EMC Compliance

Null.

5. Test Results

5.1 Conducted Testing at Antenna Port

5.1.1 Antenna Requirement

RESULT: Pass

The EUT features an internal monopole antenna, permanently attached, with a directional gain of 1.23 dBi. It is not designed for replacement, thus meeting the provision requirements.

RSS-Gen 6.8 – Antenna Requirement

When measurements at the antenna port are used to determine RF output power, the effective gain of the device's antenna shall be stated, based on measurement or manufacturer data. Results: a) Antenna Type: Monopole Antenna; b) Manufacture: N/A; c) Model No.: N/A; d) Gain with reference to an isotropic radiator: 1.23 dBi. Verdict: PASS.

5.1.2 6dB & 99% Bandwidth

RESULT: Pass

Date of testing: 2025-05-27~2025-05-28
Ambient temperature: 21.4°C~23.7°C
Relative humidity: 50.4%~51.3%
Atmospheric pressure: 101kPa
Test requirement: FCC Part 15.247(a)(2), RSS-247 Issue 3, August 2023, Clause 5.2(a), RSS-Gen Issue 5, Amendment 2, February 2021, Clause 6.7
Test procedure: ANSI C63.10: 2013
Test voltage: DC 3.3V
Test modes applied: A

6dB Bandwidth, 2405MHz:

Graph Description: Plot showing the 6dB bandwidth measurement for the 2405MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. Two vertical green lines indicate the measured bandwidth.

6dB Bandwidth, 2445MHz:

Graph Description: Plot showing the 6dB bandwidth measurement for the 2445MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. Two vertical green lines indicate the measured bandwidth.

6dB Bandwidth, 2480MHz:

Graph Description: Plot showing the 6dB bandwidth measurement for the 2480MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. Two vertical green lines indicate the measured bandwidth.

99% Occupied Channel Bandwidth, 2405MHz:

Graph Description: Plot showing the 99% occupied channel bandwidth measurement for the 2405MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. Two vertical green lines indicate the occupied bandwidth.

99% Occupied Channel Bandwidth, 2445MHz:

Graph Description: Plot showing the 99% occupied channel bandwidth measurement for the 2445MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. Two vertical green lines indicate the occupied bandwidth.

99% Occupied Channel Bandwidth, 2480MHz:

Graph Description: Plot showing the 99% occupied channel bandwidth measurement for the 2480MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. Two vertical green lines indicate the occupied bandwidth.

5.1.3 Output Power

RESULT: Pass

Date of testing: 2025-06-12
Ambient temperature: 23.8°C
Relative humidity: 56.7%
Atmospheric pressure: 101kPa
Test requirement: FCC Part 15.247(b)(3), RSS-247 Issue 3, August 2023, Clause 5.4(d)
Test procedure: ANSI C63.10: 2013
Test voltage: DC 3.3V
Test modes applied: A

Note: 1. Cable loss is accounted for in the results. 2. EIRP (Equivalent Isotropically Radiated Power) = Conducted Output Power + Antenna Gain (1.23 dBi), which is well below the 4 W (36 dBm) limit.

5.1.4 Power Spectral Density

RESULT: Pass

Date of testing: 2025-06-12
Ambient temperature: 23.8°C
Relative humidity: 56.7%
Atmospheric pressure: 101kPa
Test requirement: FCC Part 15.247(e), RSS-247 Issue 3, August 2023, Clause 5.2(b)
Test procedure: ANSI C63.10: 2013
Test voltage: DC 3.3V
Test modes applied: A

Power Spectral Density, 2405MHz:

Graph Description: Plot showing the Peak Power Spectral Density for the 2405MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. A red line indicates the limit, and a blue trace shows the measured PSD.

Power Spectral Density, 2445MHz:

Graph Description: Plot showing the Peak Power Spectral Density for the 2445MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. A red line indicates the limit, and a blue trace shows the measured PSD.

Power Spectral Density, 2480MHz:

Graph Description: Plot showing the Peak Power Spectral Density for the 2480MHz channel. The X-axis represents frequency in MHz, and the Y-axis represents signal level in dBm. A red line indicates the limit, and a blue trace shows the measured PSD.

5.1.5 Conducted Band Edge and out-of Band Emissions

RESULT: Pass

Date of testing: 2025-06-12
Ambient temperature: 23.8°C
Relative humidity: 56.7%
Atmospheric pressure: 101kPa
Test requirement: FCC Part 15.247(d), RSS-247 Issue 3, August 2023, Clause 5.5
Test procedure: ANSI C63.10: 2013
Test voltage: DC 3.3V
Test modes applied: A

Figure 1: Reference level plots for 2405MHz, 2445MHz, and 2480MHz, showing signal levels in dBm across different frequency spans.

Figure 2: Conducted Spurious Emission plots for 2405MHz, 2445MHz, and 2480MHz, showing signal levels in dBm across various frequency ranges (30MHz-25GHz).

Figure 3: Conducted Band Edge plots for 2405MHz and 2480MHz, showing signal levels in dBm around the band edges.

5.2 Emission in the Frequency Range up to 30MHz

5.2.1 Conducted Emission

RESULT: Pass

Date of testing: 2025-03-20
Ambient temperature: 18.1°C
Relative humidity: 52.1%
Atmospheric pressure: 101kPa
Test requirement: FCC Part 15.207 (a), RSS-Gen Issue 5, Amendment 2, February 2021, Clause 8.8
Test procedure: KDB 558074 D01v05r02, ANSI C63.10: 2013
Test voltage: AC 120V, 60Hz
Test modes applied: B

Figure 4: Conducted Emission plot (Line L) for frequencies up to 30MHz, showing signal levels in dBuV. Includes QuasiPeak and Average measurements against limits.

Figure 5: Conducted Emission plot (Line N) for frequencies up to 30MHz, showing signal levels in dBuV. Includes QuasiPeak and Average measurements against limits.

5.3 Emission in the Frequency Range above 30MHz

5.3.1 Radiated Band-Edge

RESULT: Pass

Date of testing: 2025-05-25
Ambient temperature: 21.2°C
Relative humidity: 50.7%
Atmospheric pressure: 101kPa
Test requirement: FCC Part 15.247(d), FCC Part 15.205(a), FCC Part 15.209(a), RSS-Gen Issue 5, Amendment 2, February 2021, Clause 8.9, RSS-Gen Issue 5, Amendment 2, February 2021, Clause 8.10, RSS-247 Issue 3, August 2023, Clause 5.5
Test procedure: ANSI C63.10: 2013
Test voltage: DC 3.3V
Test modes applied: A

Figure 6: Radiated Band-Edge plot for 2405MHz (Horizontal polarization), showing signal levels in dBuV/m across frequency.

Figure 7: Radiated Band-Edge plot for 2405MHz (Vertical polarization), showing signal levels in dBuV/m across frequency.

Figure 8: Radiated Band-Edge plot for 2480MHz (Horizontal polarization), showing signal levels in dBuV/m across frequency.

Figure 9: Radiated Band-Edge plot for 2480MHz (Vertical polarization), showing signal levels in dBuV/m across frequency.

5.3.2 Radiated Spurious Emission

RESULT: Pass

Date of testing: 2025-05-25~2025-06-02
Ambient temperature: 20.2°C~21.4°C
Relative humidity: 50.2%~51.6%
Atmospheric pressure: 101kPa
Test requirement: FCC Part 15.247(d), FCC Part 15.209(a), RSS-Gen Issue 5, Amendment 2, February 2021, Clause 8.9, RSS-247 Issue 3, August 2023, Clause 5.5
Test procedure: ANSI C63.10: 2013
Test voltage: DC 3.3V
Test modes applied: A

Note: For the frequency range from 18GHz to 25GHz, no emission was found.

Figure 10: Radiated Spurious Emission plots for 2405MHz across different frequency ranges (30MHz-1GHz, 1GHz-7GHz, 7GHz-18GHz) for both Horizontal and Vertical polarizations, showing signal levels in dBuV/m.

Figure 11: Radiated Spurious Emission plots for 2445MHz across different frequency ranges (30MHz-1GHz, 1GHz-7GHz, 7GHz-18GHz) for both Horizontal and Vertical polarizations, showing signal levels in dBuV/m.

Figure 12: Radiated Spurious Emission plots for 2480MHz across different frequency ranges (30MHz-1GHz, 1GHz-7GHz, 7GHz-18GHz) for both Horizontal and Vertical polarizations, showing signal levels in dBuV/m.

The following tables summarize the Limit and Margin for QuasiPeak (QP), Peak (PK), and Average (AV) measurements for Radiated Spurious Emissions.

6. List of Tables

• Table 1: List of Test and Measurement Equipment
• Table 2: Measurement Uncertainty
• Table 3: Technical Specification of EUT
• Table 4: Operation Channel List
• Table 5: Power parameter value
• Table 6: Auxiliary Equipment
• Table 7: Antenna Requirement
• Table 8: Peak Output Power

7. List of Figures

• Figure 1: Reference level
• Figure 2: Conducted Spurious Emission
• Figure 3: Conducted Band Edge
• Figure 4: Conducted Emission, L
• Figure 5: Conducted Emission, N
• Figure 6: Radiated Band-Edge, 2405MHz, H
• Figure 7: Radiated Band-Edge, 2405MHz, V
• Figure 8: Radiated Band-Edge, 2480MHz, H
• Figure 9: Radiated Band-Edge, 2480MHz, V
• Figure 10: Radiated Spurious Emission, 2405MHz
• Figure 11: Radiated Spurious Emission, 2445MHz
• Figure 12: Radiated Spurious Emission, 2480MHz