TÜV Rheinland Test Report: IKEA LED2407G8NA LED Lamp RF Performance
Report Number: CN256XOS 001
Client: IKEA of Sweden AB
Test Item: Self-ballasted LED lamps
Model/Type Number: LED2407G8NA
Test Specification: FCC CFR47 Part 15, Subpart C Section 15.247, RSS-Gen Issue 5, RSS-247 Issue 3, ANSI C63.10: 2013
Date of Report: 2024-12-18
General Remarks
This report details the testing performed on the IKEA LED2407G8NA LED lamp. All equipment used was calibrated according to the test laboratory's program and fulfills relevant standards. Traceability of test equipment is ensured via the management system. Detailed information on test conditions, equipment, and measurement uncertainty is available upon request. The document was digitally signed, and verification of the digital signature can be confirmed separately. Test clauses marked with '*' were subcontracted to qualified subcontractors. Deviations from specifications are noted within the report. The decision rule for conformity statements is the 'Null-Grenzwert-Regel' and 'Einfache Akzeptanz' as per ILAC G8:2019 and IEC Guide 115:2021, meaning measurement uncertainty is not factored into the results.
Test Sites
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 facilities are in compliance with CISPR 16 for radio interference measurements and have been reviewed by the Federal Communications Commission (FCC registration number 930979) and Innovation, Science and Economic Development Canada (filing number 33038).
Test Equipment
List of Test and Measurement Instruments
| Equip. | Description | Model | Manufacturer | Due Date |
|---|---|---|---|---|
| EMC-C-196 | Wireless connectivity tester | CMW270 | Rohde & Schwarz | 23.08.2025 |
| EMC-C-302 | Signal generator | SMB100B (6 GHz) | Rohde & Schwarz | 10.12.2025 |
| EMC-C-303 | Vector Signal generator | SMW200A | Rohde & Schwarz | 10.12.2025 |
| EMC-C-304 | OSP | OSP-B157W8 | Rohde & Schwarz | 10.12.2025 |
| EMC-C-161 | Spectrum analyser | FSV40 | Rohde&Schwarz | 15.07.2025 |
| EMC-C-018 | Double ridged horn antenna | BBHA 9120 D | Schwarzbeck | 24.03.2026 |
| EMC-C-066 | EMI test receiver | ESCI | Rohde&Schwarz | 27.10.2025 |
| EMC-C-068 | Broadband horn antenna | BBHA 9170 | Schwarzbeck | 18.06.2028 |
| EMC-C-155 | BiLog antenna | CBL 6112D | Teseq | 24.03.2026 |
| EMC-C-175 | Preamplifier | EMC051845SE | EMCI Taiwan | 24.07.2025 |
| EMC-C-176 | Preamplifier | EMC184045SE | EMCI Taiwan | 24.07.2025 |
| EMC-C-001 | 3 m semi-anechoic chamber | SAC3 | Frankonia | 03.12.2026 |
| EMC-C-141 | Shielded enclosure | 10.055x3.605x3.000 | Frankonia | 08.11.2028 |
| EMC-C-195 | EMI test receiver | ESR3 | Rohde&Schwarz | 03.08.2025 |
| EMC-C-190 | Artificial mains network | ENV432 | Rohde&Schwarz | 11.10.2025 |
| EMC-S-036 | RF measurement software | WMS32-WB (11.40.00) | Rohde&Schwarz | NA |
| EMC-S-032 | EMI measurement software | EMC32-E+ (10.60.20) | Rohde&Schwarz | NA |
| EMC-S-028 | EMI measurement software | EMC32-MEB (10.60.20) | Rohde&Schwarz | NA |
Traceability
All measurement equipment calibrations are traceable to NIST or equivalent nationally recognized standards organizations.
Calibration
Equipment requiring calibration is calibrated periodically by the manufacturer or according to specifications. All equipment is verified for proper performance using in-house standards or comparisons.
Measurement Uncertainty
| Measurement Type | Frequency | Uncertainty |
|---|---|---|
| Antenna Port Conducted Emission | < 1GHz | ±0.39dB |
| > 1GHz | ±0.68dB | |
| Conducted Emission | 150kHz - 30MHz | ±2.33dB |
| 9kHz - 30MHz | ±2.93dB | |
| Radiated Emission | 30MHz - 1GHz | ±5.34dB |
| > 1GHz | ±5.40dB |
Product Information
Product Function and Intended Use
The EUT (Equipment Under Test) is a LED lamp that supports Bluetooth, Zigbee, and Thread. This report focuses on evaluating the RF characteristics of the Zigbee functionality.
Ratings and System Details
| Description | Details |
|---|---|
| Product Name | Self-ballasted LED lamps |
| Model No. | LED2407G8NA |
| Operation Voltage | AC 120V, 60Hz |
| Test Voltage | DC 3.3V (for RF conducted and radiated tests), AC 120V, 60Hz (for conducted emission test) |
| RF Technical | 1) BLE, 2) Zigbee, 3) Thread |
| RF IC (Zigbee) | SiMG301 |
| Frequency Range (Zigbee) | 2405~2480MHz |
| Modulation Type (Zigbee) | OQPSK |
| Antenna Type | PCB Antenna |
| Antenna Gain | -1.06 dBi (declared by client) |
Operation Channel List
| Channel | Frequency [MHz] | Channel | Frequency [MHz] | Channel | Frequency [MHz] | Channel | Frequency [MHz] |
|---|---|---|---|---|---|---|---|
| 11 | 2405 | 15 | 2425 | 19 | 2445 | 23 | 2465 |
| 12 | 2410 | 16 | 2430 | 20 | 2450 | 24 | 2470 |
| 13 | 2415 | 17 | 2435 | 21 | 2455 | 25 | 2475 |
| 14 | 2420 | 18 | 2440 | 22 | 2460 | 26 | 2480 |
Independent Operation Modes
The basic operation modes tested were:
- A. Zigbee transmitting mode
- B. Radio operating mode
Test frequencies included the lowest channel (2405 MHz), middle channel (2445 MHz), and highest channel (2480 MHz).
Noise Generating and Noise Suppressing Parts
Refer to the Circuit Diagram for details.
Test Set-up and Operation Modes
The equipment under test (EUT) was configured to measure its maximum power level. Test modes were adapted according to the instructions for use. Testing was performed according to ANSI C63.10: 2013 procedures using 'sscom 5.13.1' software.
Power Parameter Value
| Mode | Power Parameter Setting Value |
|---|---|
| Zigbee | 10 |
Special Accessories and Auxiliary Equipment
| Equipment | Manufacturer | Model |
|---|---|---|
| Laptop | Lenovo | 21AJ-S57N0J |
| Mobile phone | Apple | iPhone 15 |
| Loudspeaker | Apple | HomePod mini |
| Remote control | IKEA | E2489 |
Countermeasures to achieve EMC Compliance
None were applied (Null).
Test Results
Conducted Testing at Antenna Port
5.1.1 Antenna Requirement
Result: Pass. The EUT features an internal PCB antenna with a declared gain of -1.06 dBi, permanently attached and not replaceable. This complies with FCC 15.203 and RSS-Gen 6.4 requirements, as no external controls allow operation outside regulatory limits, and only the authorized PCB antenna is used.
5.1.2 6dB & 99% Bandwidth
Result: Pass. Tests were conducted at 2405MHz, 2445MHz, and 2480MHz under standard conditions (23.5°C, 59.5% RH, 101kPa). The measured 6dB bandwidths were 1.750 MHz at 2405MHz, 1.750 MHz at 2445MHz, and 1.750 MHz at 2480MHz. The 99% occupied bandwidths were 2.235 MHz for all tested frequencies. All results were within the specified limits.
5.1.3 Output Power
Result: Pass. Peak conducted output power measurements were taken at 2405MHz, 2445MHz, and 2480MHz. The measured power levels were 9.9 dBm, 9.8 dBm, and 9.7 dBm respectively, all well below the 30 dBm limit. The EIRP (Effective Isotropic Radiated Power) was calculated to be below 4 W (36 dBm).
5.1.4 Power Spectral Density
Result: Pass. Power Spectral Density (PSD) was measured at 2405MHz, 2445MHz, and 2480MHz. The peak PSD values were -1.689 dBm, -1.683 dBm, and -1.916 dBm respectively, all below the limit of 8.0 dBm.
5.1.5 Conducted Band Edge and out-of Band Emissions
Result: Pass. Measurements indicated that conducted emissions at the band edge and out-of-band frequencies were within the specified limits, as shown in the provided spectrum analyzer plots.
Emission in the Frequency Range up to 30MHz
5.2.1 Conducted Emission
Result: Pass. Conducted emissions were measured on both Line (L) and Neutral (N) conductors at AC 120V, 60Hz. The measured Quasi-Peak and Average values at various frequencies from 150kHz to 1.57MHz were below the specified limits, with adequate margins.
Emission in the Frequency Range above 30MHz
5.3.1 Radiated Band-Edge
Result: Pass. Radiated band-edge emissions were measured for the EUT. The plots show that emissions at the band edges (2405MHz and 2480MHz) are within the regulatory limits for both horizontal (H) and vertical (V) polarizations.
5.3.2 Radiated Spurious Emission
Result: Pass. Radiated spurious emissions were measured across various frequency ranges (30MHz to 18GHz). The plots and data tables indicate that all measured emissions were below the specified limits. No emissions were found in the frequency range from 18GHz to 25GHz.
