RADIO TEST REPORT SHANGHAI EUCHIPS INDUSTRIAL CO.,LTD. Prepared By : SHANGHAI EUCHIPS INDUSTRIAL CO.,LTD

SHANGHAI EUCHIPS INDUSTRIAL CO.,LTD RADIO TEST REPORT Prepared For : SHANGHAI EUCHIPS INDUSTRIAL CO.,LTD 3rd and 4th Floor,6th Building No.888,Shuangbai Road, Minhang District,Shanghai,China Product Name: Model : LED REMOTE CONTROL SYSTEM CT402-RF,CT302-RF Prepared By : Shenzhen BST Technology Co., Ltd. Test Date: Apr. 27-28, 2011 3F,Weames Technology Building,No. 10 Kefa Road, Science Park,Nanshan District,Shenzhen,Guangdong,China Date of Report : Apr. 29, 2011 Report No.: BST11040346Y-1ER-7 Page 1 of 22

TABLE OF CONTENTS TEST REPORT DECLARATION...4 1. TEST RESULTS SUMMARY...5 2. GENERAL INFORMATION...5 2.1. Report information...5 2.2. Measurement Uncertainty...5 3. PRODUCT DESCRIPTION...6 3.1. EUT Description...6 3.2. Block Diagram of EUT Configuration...7 3.3. Operating Condition of EUT...7 3.4. Test Conditions...7 3.5. Modifications...7 3.6. Abbreviations...7 4. TEST EQUIPMENT USED...8 4.1. Test Equipment Used to Measure Radiated Disturbance...8 5. TECHNICAL TEST...9 5.1. Summary of Test Results...9 5.2. Test Report...9 6. TRANSMITTER REQUIREMENTS... 10 6.1. Frequency Error or Frequency Drift... 10 7. CARRIER POWER(CONDUCTED)... 11 8. EFFECTIVE RADIATED POWER... 11 9. SPREAD SPECTRUM MODULATION... 13 10. TRANSIENT POWER... 13 11. ADJACENT CHANNEL POWER... 14 12. MODULATION BANDWIDTH FOR WIDE BAND... 16 EQUIPMENT... 16 13. SPURIOUS EMISSIONS... 17 14. FREQUENCY STABILITY UNDER LOW VOLTAGE CONDITIONS... 17 15. DUTY CYCLE... 18 16. PRINCIPLE FOR LISTEN BEFORE TALK (LBT)... 18 17. RECEIVER REQUIREMENTS... 19 18. MAXIMUM USABLE SENSITIVITY (CONDUCTED)... 19 19. RECEIVER LBT THRESHOLD AND TRANSMITTER MAX ON-TIME... 19 Page 2 of 22

20. ADJACENT CHANNEL SELECTIVEITY... 20 21. BLOCKING OR DESENSITIZATION... 20 22. INTERMODULATION RESPONSE REJECTION... 20 23. SPURIOUS RESPONSE REJECTION... 20 24. SPURIOUS RADIATIONS... 21 APPENDIX EUT PHOTO & TEST PHOTO... 22 Page 3 of 22

TEST REPORT DECLARATION Applicant : SHANGHAI EUCHIPS INDUSTRIAL CO.,LTD Address : 3rd and 4th Floor,6th Building No.888,Shuangbai Road, Minhang District,Shanghai,China Manufacturer : SHANGHAI EUCHIPS INDUSTRIAL CO.,LTD Address : 3rd and 4th Floor,6th Building No.888,Shuangbai Road, Minhang District,Shanghai,China EUT : Description LED REMOTE CONTROL SYSTEM Model Number : CT402-RF,CT302-RF Test Standards: ETSI EN 300 220-1 v 2.1.1 (2006-04) ETSI EN 300 220-2 v 2.1.2 (2007-06) The EUT described above is tested by BST Technology Co.,Ltd. EMC Laboratory to determine the maximum emissions from the EUT and ensure the EUT to be compliance with the immunity requirements of the EUT. BST Technology Co.,Ltd. EMC Laboratory is assumed full responsibility for the accuracy of the test results. Also, this report shows that the EUT technically complies with the 99/5/EEC directive and its amendment requirements. The test report is valid for above tested sample only and shall not be reproduced in part without written approval of the laboratory. Page 4 of 22

1. TEST RESULTS SUMMARY Table 1 Test Results Summary Test Items Refer to Page 9 Test Results PASS 2. GENERAL INFORMATION 2.1. Report information 2.1.1.This report is not a certificate of quality; it only applies to the sample of the specific product/equipment given at the time of its testing. The results are not used to indicate or imply that they are application to the similar items. In addition, such results must not be used to indicate or imply that BST approves recommends or endorses the manufacture, supplier or use of such product/equipment, or that BST in any way guarantees the later performance of the product/equipment. 2.1.2.The sample/s mentioned in this report is/are supplied by Applicant, BST therefore assumes no responsibility for the accuracy of information on the brand name, model number, origin of manufacture or any information supplied. 2.1.3.Additional copies of the report are available to the Applicant at an additional fee. No third part can obtain a copy of this report through BST, unless the applicant has authorized BST in writing to do so. 2.2. Measurement Uncertainty Available upon request. Page 5 of 22

3. PRODUCT DESCRIPTION 3.1. EUT Description Description : LED REMOTE CONTROL SYSTEM Applicant Model Number : CT402-RF Operation Frequency : SHANGHAI EUCHIPS INDUSTRIAL CO.,LTD : 433MHz Page 6 of 22

3.2. Block Diagram of EUT Configuration battery Receiver Remote Controller Figure 1 EUT SETUP 3.3. Operating Condition of EUT Test mode 1: TX Test mode 2: RX 3.4. Test Conditions Temperature: -20~55 Relative Humidity: 50~70 % 3.5. Modifications No modification was made. 3.6. Abbreviations AC AMN DC EM EMC EUT IF RF rms EMI EMS Alternating Current Artificial Mains Network Direct Current ElectroMagnetic ElectroMagnetic Compatibility Equipment Under Test Intermediate Frequency Radio Frequency root mean square Electromagnetic Interference Electromagnetic Susceptibility Page 7 of 22

4. TEST EQUIPMENT USED 4.1. Test Equipment Used to Measure Radiated Disturbance Table 3 For Spurious Emission Test NO. Equipment Manufacturer Model No. Last Cal. Cal. Interval SB3436 EMI Test Rohde & ESI26 Jan 30,2011 1 Year Receiver Schwarz SB3440 Bilog Antenna Chase CBL6112B Jan 30,2011 1 Year SB3438 Signal Rohde & SMR20 Jan 30,2011 1 Year Generator Schwarz SB3174 Antenna Schwarzbeck VUBA911 7 Jan 30,2010 3 Year SB3434 Horn Antenna Rohde & HF906 Jan 30,2011 1 Year Schwarz SB3435 Horn Antenna Rohde & HF906 Jan 30,2011 1 Year Schwarz SB3450/0 1 3m Semi-anechoic chamber Albatross Projects 9X6X6 Mar 23,2010 2 Year Table 4 RF Test NO. Equipment Manufacturer Model No. Last Cal. Cal. Interval SB3436 EMI Test Rohde & ESI26 Jan 30,2011 1 Year Receiver Schwarz SB3440 Bilog Antenna Chase CBL6112B Jan 30,2011 1 Year SB3438 Signal Rohde & SMR20 Jan 30,2011 1 Year Generator Schwarz SB3997 EMI Receiver Rohde & ESPI3 Jan 30,2011 1Year Schwarz Page 8 of 22

5. TECHNICAL TEST 5.1. Summary of Test Results No deviations from the technical specification(s) were ascertained in the course of the tests Performed (only Passed if all single measurements are passed passed 5.2. Test Report Test Report Reference List of Measurements Parameter to be Measured Clause Transmitter Parameters Transmitter Requirements Clause 4.2.1 Frequency Error or Frequency Drift Clause 4.2.1.1 Carrier Power (conducted) Clause 4.2.1.2 Effective Radiated Power Clause 4.2.1.3 Transient power Clause 4.2.1.4 Adjacent Channel Power Clause 4.2.1.5 Modulation Band Width for Wide Band Equipment Clause 4.21.6 Spurious Emissions Clause 4.2.1.7 Frequency Stability under Low-voltage Conditions Clause 4.2.1.8 Duty Cycle Clause 4.2.1.9 LBT Clause 4.2.1.10 Types of spread spectrum modulation Clause 4.2.1.11 Receiver Parameters Receiver Requirements Clause 4.2 Types of spread spectrum modulation Clause 4.3.1 Receiver LBT threshold and transmitter max Clause 4.3.2 on-time Adjacent channel selectivity Clause 4.3.3 Blocking or Desensitization Clause 4.3.4 Intermodulation response rejection Clause 4.3.5 Spurious response rejection Clause 4.3.6 Spurious radiations Clause 4.3.7 Note : the clause numbers are referenced to ETSI EN 300220-2 v 2.1.1 (2006-04) Page 9 of 22

6. TRANSMITTER REQUIREMENTS Note: The Tx is a modulation by analogue signal no voice application with an integral or dedicated antenna. 6.1. Frequency Error or Frequency Drift The method of measurement described under EN 300220-1 EUT LED REMOTE CONTROL Model CT402-RF SYSTEM Mode TX Input Power 4.5V Sub clause EN300220-1 Clause8.1.4 Test Equipment Refer to Section 4 TEST RESULTS:Uncertainty ±10Hz Test Conditions Frequency Measured(MHz) T normal (25 ) 4.5V norm 433.9212 T upper (+55 ) 4.5V norm 433.9213 After Tx on for 30 minutes 4.05V extreme 433.9224 T lower (-10 ) 4.5V norm 433.9216 After Tx on for 1 minute 4.05V extreme 433.9212 Limit Frequency Error ±12.0kHz Note: 1. The minimum voltage is set by the manufacturer where the Tx can keep working normally. 2. The Tx is a modulation by analogue signal no voice application with an integral or dedicated antenna. Limits: EN 300220-1,subclause 8.1.4 The frequency error or drift shall not exceed the values given in table 7 under normal or extreme conditions. Table 7 Page 10 of 22

7. CARRIER POWER(CONDUCTED) The method of measurement described under EN300220-1,subclause8.2.2 Note: Not applicable, This requirement applies to transmitters which may be used without an integral or dedicated antenna 8. EFFECTIVE RADIATED POWER The method of measurement described under EN300220-1,subclause8.3.2 On a test site, selected from annex A, the equipment shall be placed at the specified height on a support, as specified in annex A, and in the position closest to normal use as declared by the manufacturer. The test antenna shall be oriented initially for vertical polarization and shall be chosen to correspond to the frequency of the transmitter. The output of the test antenna shall be connected to the measuring receiver. The transmitter shall be switched on, if possible, without modulation and the measuring receiver shall be tuned to the frequency of the transmitter under test. In case of pulse modulation equipment where it is not possible to make the measurement in the absence of modulation, the measurement shall be carried out by the use of a measuring receiver with bandwidth as stated in subclause 6.6 and peak detector set in accordance with the specification of CISPR 16 [8] section one for the bands C and D. The test antenna shall be raised and lowered through the specified range of height until a maximum signal level is detected by the measuring receiver. The transmitter shall then be rotated through 360 in the horizontal plane, until the maximum signal level is detected by the measuring receiver. The test antenna shall be raised and lowered again through the specified range of height until a maximum signal level is detected by the measuring receiver. The maximum signal level detected by the measuring receiver shall be noted. The transmitter shall be replaced by a substitution antenna as defined in annex A, subclause A.1.5. The substitution antenna shall be orientated for vertical polarization and the length of the substitution antenna shall be adjusted to correspond to the frequency of the transmitter. The substitution antenna shall be connected to a calibrated signal generator. If necessary, the input attenuator setting of the measuring receiver shall be adjusted in order to Page 11 of 22

increase the sensitivity of the measuring receiver. The test antenna shall be raised and lowered through the specified range of height to ensure that the maximum signal is received. The input signal to the substitution antenna shall be adjusted to the level that produces a level detected by the measuring receiver, that is equal to the level noted while the transmitter radiated power was measured, corrected for the change of input attenuator setting of the measuring receiver. The input level to the substitution antenna shall be recorded as power level, corrected for any change of input attenuator setting of the measuring receiver. The measurement shall be repeated with the test antenna and the substitution antenna orientated for horizontal polarization. The measure of the effective radiated power is the larger of the two levels recorded at the input to the substitution antenna, corrected for gain of the substitution antenna if necessary. EUT LED REMOTE CONTROL Model CT402-RF SYSTEM Mode TX Input Power 4.5V Sub clause EN300220-1 Clause8.3.2 Test Equipment Refer to Section 4 TEST RESULTS:Uncertainly ±3dB Frequency Measuring Bandwidth Emission Level Limit in Table 9 433 120kHz -1.93dBm 10dBm(i.e.=10mW) Limits: EN 300220-1,subclause 8.3.3 The effective radiated power shall not exceed the power class value given in table 9 Table 9 Power class Power level mw 5a 0,025 7a 5 8 10 9 25 11 100 12 500 Page 12 of 22

9. SPREAD SPECTRUM MODULATION The method of measurement described under EN300220-1 Note: Not applicable, This equipment is not spread spectrum product. Please refer to clause 8.4 of EN300 220-1 10. TRANSIENT POWER The method of measurement described under EN300220-1 The transmitter under test shall be connected via the power attenuator to the "transient power measuring device" as described in clause 8.5.3, so that the level at its input is suitable, e.g. between 0 dbm and -10 dbm when the transmitter power is the steady state power. The modulation test signal (see clause 6.1.1 or 6.1.2 as appropriate) shall be applied at the transmitter. For constant envelope modulation schemes it is not required to apply modulation. The modulation used, if any, shall be recorded in the test report. The measurement procedure shall be as clause 8.5 of EN300 220-1 Limits: EN 300220-1,subclause 8.5.3 The transient power in the alternate channel shall not exceed a value of 40 db below the power of the transmitter without the need to be below 2 μw (-27,0 dbm). For measurements at 4 and 10 times the channel spacing the transient power shall not exceed 50 db below power of the transmitter without the need to be below 250 nw (-36 dbm). If the limit is exceeded the measurement in clause 8.5.2 shall be repeated with the attenuator value reduced by 6 db to determine if transient effect is causing errors. Note :Not applicable for the product. Page 13 of 22

11. ADJACENT CHANNEL POWER The method of measurement described under EN300220-1,subclause 8.5.2 The adjacent channel power shall be measured with a power measuring receiver which conforms with the requirements given in annex B When using the test fixture (see subclause6.3) for this measurement, it is important to ensure that direct radiation from the transmitter to the power measuring receiver does not affect the result or the loss introduced by the testfixture. The following procedure shall be used: a) the transmitter under test shall be connected via the test load to a power measuring receiver calibrated to measure rms power level. The level at the receiver input shall be within its allowed limit. The transmitter shall be operated at the maximum operational carrier power level under normal conditions; b) the tuning of the power measuring receiver shall be adjusted away from the carrier so that its -6dB response nearest to the transmitter carrier frequency is located at a displacement from the nominal frequency of the carrier asgivenintable11. Table 11 Channel separation (khz) Displacement (khz) 10 5,75 12,5 8,25 20 13 25 17 The same result maybe obtained by tuning the power measuring receiver (point 0 in figure B.1 of the power measuring filter shape) to the nominal frequency of the adjacent channel,if it has been suitably calibrated. c) the transmitter shall be modulated as follows: -equipment for analogue speech and angle modulation shall be modulated with test signal A-M2 (see subclause6.1.1)at a level 20dB above the level of the normal test signal, or 10dB incase of a transmitter with an integrated microphone: (see sub clause 6.1.1)at a level which is 20dB higher than the level that is required to produce a modulation depth of 60%, or 10dB incase of a transmitter with an integrated microphone; -equipment using data streams shall be modulated with the test modulationd-m2(see subclause6.1.2)at the agreed deviation or modulation depth; -equipment for messages shall be modulated with the test modulationd-m3(see subclause6.1.2)repeated continuously at the agreed deviation or modulation depth. d) The absolute value of the adjacent channel power shall be recorded; e) Steps b)to d) shall be repeated with the power measuring receiver tuned to the other side of the carrier; f) The measurement shall be made under normal conditions and, if applicable, under extreme conditions (see clause8) Page 14 of 22

Limits:EN 300 220-1,subclause 8.6.3 The adjacent channel power shall not exceed the maximum value given in table 12. Table 12 Note :Not applicable for the product. Page 15 of 22

12. MODULATION BANDWIDTH FOR WIDE BAND EQUIPMENT The method of measurement described under EN300220-1,subclause 8.7.2 Note :Not applicable, Please refer to clause 4.1.7&5.1.3.7 of EN300 220-2 Page 16 of 22

13. SPURIOUS EMISSIONS The method of measurement described under EN300220-1 EUT LED REMOTE CONTROL Model CT402-RF SYSTEM Mode TX Input Power 4.5V Sub clause EN300220-1 Clause8.7.4 Test Equipment Refer to Section 4 Frequency Measuring TEST RESULTS:Uncertainly ±6dB Spurious Emission Level (dbm) Limit in Table 13 (dbm) (MHz) Bandwidth Operation Standby Operation Standby 867.840 120kHz -43.63 NF -36.00-57.00 1301.76 1MHz -44.11 NF -30.00-47.00 1735.68 1MHz -44.02 NF -30.00-47.00 Note :NF=No Significant Peak was Found. Note: Scan form 25MHz to 4GHz,find the maximum radiation frequency to measure. Limits:EN 300220-1,subclause 8.8.5 The power of any spurious emission,conducted or radiated, shall not exceed the following values given in table 13. Table 13 14. FREQUENCY STABILITY UNDER LOW VOLTAGE CONDITIONS The method of measurement described under EN300220-1,subclause 8.8.2 The carrier frequency shall be measured, where possible in the absence of modulation, with the transmitter connected to an artificial antenna. A transmitter without a 50 Ω output connector may be placed in a test fixture (see subclause 6.3) connected to an artificial antenna. The measurement shall be made under normal temperature and humidity conditions (see subclause 5.3.1), the voltage from the test power source shall be reduced below the lower extreme test voltage limit towards zero. Whilst the voltage is reduced the carrier frequency shall be monitored. Page 17 of 22

EUT LED REMOTE CONTROL Model CT402-RF SYSTEM Mode TX Input Power 4.5V Sub clause EN300220-1 Clause8.8.2 Test Equipment Refer to Section 4 Voltage (Vdc) <4.5 Frequency (MHz) TEST RESULTS:Uncertainly ±6dB Radiated Level Limit in clause 8.8.3 of EN300220-1 (dbm) The equipment shall either: a) remain on channel, for channelized equipment within the limits stated in subclause 8.1.4,or within the assigned operating frequency band, for non-channelized equipment,whilst the radiated or conducted power is greater than the spurious emission limit;or b) the equipment ceases to function below the manufacturers declared operating voltage. The equipment ceases to function below the applications declared operating voltage. 15. DUTY CYCLE The method of measurement described under EN300220-1 The Duty cycle of EUT is class 2 16. PRINCIPLE FOR LISTEN BEFORE TALK (LBT) The method of measurement described under EN300220-1 Note :Not applicable,the equipment does not use LBT. Page 18 of 22

17. RECEIVER REQUIREMENTS For Receiver Receiver Classification,Table 2 of EN300220-1 Table 2 Receiver class Relevant receiver clauses Risk assessment of receiver performance 1 9.1,9.2,9.3and 9.4 Highly reliable SRD communication media;e.g. serving human life inherent systems (may result in a physical risk to a person) 2 9.3and 9.4 Medium reliable SRD communication media e.g. causing inconvenience to persons, which cannot simply be overcome by other means 3 9.4 Standard reliable SRd communication media e.g. inconvenience to persons, which can simply be overcome by other means(e.g. manual) NOTE: With reference to the present document manufacturers are recommended to declare classification of their devices in accordance with table 2 and EN300220-2,subclause 4.2,as relevant. In particular where an SRD which may have an inherent safety of human life implication, Manufacturers and users should pay particular attention to the potential for interference from other systems operating in the same or adjacent bands. Note: The EUT (Rx part )belong to Class 3. 18. MAXIMUM USABLE SENSITIVITY (CONDUCTED) For Receiver The method of measurement described under EN300 220-1,subclause 9.1.1 Note: Not applicable, This requirement applies to with listen before talk (LBT) facility. 19. RECEIVER LBT THRESHOLD AND TRANSMITTER MAX ON-TIME For Receiver The method of measurement described under EN300 220-1,subclause 9.2.1 Note: Not applicable, This requirement applies to with listen before talk (LBT) facility. Page 19 of 22

20. ADJACENT CHANNEL SELECTIVEITY For Receiver The method of measurement described under EN300 220-1,subclause 9.1.2 Note: Not applicable, This requirement applies to class 1 receivers, as defined in EN300220-1,subclause 4.1.1 21. BLOCKING OR DESENSITIZATION For Receiver The method of measurement described under EN300 220-1,subclause 9.4.1 Note: Not applicable,this requirement applies to class 1 and class 2 receivers, as defined in EN300220-1,subclause4.1.1 22. INTERMODULATION RESPONSE REJECTION For Receiver The method of measurement described under EN300 220-1,subclause 9.5.1 Note: Not applicable,this requirement applies to class 1 receivers, as defined in EN300220-1,subclause4.1.1 23. SPURIOUS RESPONSE REJECTION For Receiver The method of measurement described under EN300 220-1,subclause 9.6.1 Note: Not applicable,this requirement applies to class 1 receivers, as defined in EN300220-1,subclause4.1.1 Page 20 of 22

24. SPURIOUS RADIATIONS For Receiver The method of measurement described under EN300 220-1,subclause 9.7.5 EUT LED REMOTE CONTROL Model CT402-RF SYSTEM Mode RX Input Power 12V Sub clause EN300220-1 Clause9.7.5 Test Equipment Refer to Section 4 Frequency (MHz) Measuring Bandwidth 867.840 120kHz -60.23 1301.76 1MHz -60.14 1735.68 1MHz -60.96 TEST RESULTS:Uncertainly ±6dB Spurious Emission Limit in Table 13 (dbm) Level (dbm) (1) 2nW (-57dBm) below 1000MHz (2)20nW (-47dBm) above 1000MHz Note:NF=No significant Peak was Found Note: Scan form 25MHz to 4GHz,find the maximum radiation frequency to measure. Page 21 of 22

APPENDIX EUT PHOTO & TEST PHOTO Refer to report BST11040346Y-1ER-1 Page 22 of 22