270649-4.1 Micro-RM2.4 RSS-210
Contents
1. TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 21 of 45 Highest Channel Emission 6 dB Bandwidth 100 90 80 70 60 50 40 30 20 10 0 Start 2 4775 GHz Stop 2 4825 GHz Res BW 100 kHz Vid BW 300 kHz Sweep 5 00 ms 10 1 2014 12 24 56 PM Atten 10 dB ESU 40 Mkr Trace X Axis Value Notes 1V Trace 2 4795 GHz 88 59 dBuV 24 Trace A 295 0000 2 6 57 dB 3 2 Trace A 1 6050 MHz 0 37 dB TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 22 of 45 6 2 9 1 3 Power Spectral Density The peak power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission Radiated measurements were taken as the EUT has an integral antenna The radiated field strengths were converted to conducted power using the guidance of 558074 DOI DTS Meas Guidance v03r02 Plots are shown below and the results of this testing are summarized in the table Measured Field Calculated 3 kHz Frequency Strength Spectral Density MBA dBuV m dBm 2405 75 35 19 87 2440 76 61 18 62 2480 79 60 15 63 TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc dBuV Trace 1 00 90 80 70 60 50 40 30 20 10 0 Start 2 4038 GHz Res BW 3 kHz 10 1 2014 12 522. 12200 0 12200 0 12200 0 Detection Mode Average Peak Average Average Peak Average Peak Average Peak Average Peak Detection Mode Peak Average Peak Average Peak Peak Peak Average Peak Average Peak Average Peak Antenna Polarity Horizontal Vertical Vertical Horizontal Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Antenna Polarity Vertical Vertical Horizontal Horizontal Vertical Horizontal Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Receiver Reading 7 1 8 Receiver Reading dBuV 1 5 Correction Factor Correction Factor TEST REPORT 270649 4 1 Field Strength dBuV m Field Strength dBuV m REPORT ISSUE DATE 10 27 2014 Page 16 of 45 Limit dBuV m Limit dBuV m TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 17 of 45 Frequency Detection Antenna Receiver Correction MHz Mode Polarity Reading Factor dBuV Transmitting at the Highest Frequency Field Strength Limit dB dBuV m dBuV m Frequenc Detection Antenna Receiver Correction MHz y Mode Polarity Reading Factor Field Strength Limit dBuV dB dBuV m dBuV m 4960 0 Vertical 4960 0 Vertical 4960 0 Horizontal 4960 0 Horizontal 7440 0 Vertical 7440 0 Vertical 7440 0 Horizontal 7440 0 H
3. II has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain and required antenna impedance for each antenna type indicated Antenna types not included in this list having a gain greater than the maximum gain indicated for that type are strictly prohibited for use with this device Immediately following the above notice the manufacturer shall provide a list of all antenna types approved for use with the transmitter indicating the maximum permissible antenna gain in dBi and required impedance for each TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 9 of 45 3 2 4 RSS Gen Section 7 1 3 User Manual User manuals for licence exempt LPDs shall contain the following or equivalent notice in conspicuous location in the user manual or alternatively on the device or both This device complies with Industry Canada licence exempt RSS standard s Operation is subject to the following two conditions 1 this device may not cause interference and 2 this device must accept any interference including interference that may cause undesired operation of the device 3 2 5 RSS Gen 7 1 4 Radio Apparatus Containing Digital Circuits ICES 003 Radio apparatus containing digital circuitry which can function separately from the operation of a transmitter or an associated transmitter shall comply with ICES 003 In such cases the l
4. during the measurements can be found in Appendix 1 of this report 6 2 Test Results 6 2 1 RSS Gen 4 6 1 Occupied Bandwidth The 99 emission bandwidth was measured with the Rohde amp Schwartz ESU40 using Industry Canada procedures The 99 emission bandwidths are shown below Frequency Emission 99 bandwidth MHz MHz 2405 2 2 2440 2 23 2480 2 25 6 2 2 RSS Gen 5 6 Exposure of Humans to Fields See documents filed with this report 6 2 3 RSS Gen 6 Receiver Spurious Emission Standard As per Notice 2012 DRS0126 this section is not required 6 2 4 RSS Gen 7 1 2 Antenna Requirement The EUT uses a Johansen ANT 2450AT42B100 chip antenna soldered to the PCB and is not user replaceable TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 15 of 45 6 2 5 RSS Gen 7 1 3 User Manual The User Manual contains the following statement in both English and French Operation is subject to the following two conditions 1 this device may not cause interference and 2 this device must accept any interference including interference that may cause undesired operation of the device See documents filed with this report for a copy of the User Manual 6 2 6 RSS Gen 7 1 4 Digital Circuits The MICRO RM2 4 LB was tested to the requirements of ICES 003 and found to comply See Nemko CCL Inc Test Report 270649 2 6 2 7 RSS Gen 7 2 2 Em
5. frequency are placed in a running sum until 0 596 of the total is reached and that frequency recorded The process is repeated for the highest frequency data points This frequency is recorded The span between the two recorded frequencies is the occupied bandwidth 3 2 2 RSS Gen Section 5 6 Exposure of Humans to RF Fields Category I and Category II equipment shall comply with the applicable requirements of RSS 102 3 2 3 RSS Gen Section 7 1 2 Transmitter Antenna A transmitter can only be sold or operated with antennas with which it was certified A transmitter may be certified with multiple antenna types An antenna type comprises antennas having similar in band and out of band radiation patterns Testing shall be performed using the highest gain antenna of each combination of transmitter and antenna type for which certification TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 8 of 45 is being sought with the transmitter output power set at the maximum level Any antenna of the same type and having equal or lesser gain as an antenna that had been successfully tested for certification with the transmitter will also be considered certified with the transmitter and may be used and marketed with the transmitter The manufacturer shall include with the application for certification a list of acceptable antenna types to be used with the transmitter When a measurement at the antenna
6. from the intentional radiator were measured using a spectrum analyzer with a quasi peak adapter for peak and quasi peak readings A loop antenna was used to measure emissions below 30 MHz Emission readings more than 20 dB below the limit at any frequency may not be listed in the reported data For frequencies between 9 kHz and 30 MHz or the lowest frequency generated or used in the device greater than 9 KHz and less than 30 MHz the spectrum analyzer resolution bandwidth was set to 9 kHz and the video bandwidth was set to 30 kHz For average measurements the spectrum analyzer average detector was used For frequencies above 30 MEZ an amplifier and preamplifier were used to increase the sensitivity of the measuring instrumentation The quasi peak adapter uses a bandwidth of 120 kHz with the spectrum analyzer s resolution bandwidth set at 1 MHz for readings in the 30 to 1000 MHz frequency ranges For peak emissions above 1000 MHz the spectrum analyzer s resolution bandwidth was set to 1 MHz and the video bandwidth was set to 3 MHz For average measurements above 1000 MHz the spectrum analyzer s resolution bandwidth was set to 1 MHz and the average detector of the analyzer was used A biconilog antenna was used to measure the frequency range of 30 to 1000 MHz and a Double Ridge Guide Horn antenna was used to measure the frequency range of 1 GHz to 18 GHz and a standard gain horn antenna was used at frequencies above 18 GHz at a distance of 3 meter
7. ohm 50 microhenry line impedance stabilization network LISN TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 10 of 45 Table 4 AC Power Lines Conducted Emission Limits Frequency of Emission MHz Conducted Limit dBu V Quasi peak Average Decreases with the logarithm of the frequency 3 2 8 RSS 210 Annex 8 3 2 8 1 RSS 210 Section A8 2 Digital Modulation Systems These include systems employing digital modulation techniques resulting in spectral characteristics similar to direct sequence systems The following applies to all three bands a The minimum 6 dB bandwidth shall be at least 500 kHz b The transmitter power spectral density conducted from the transmitter to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission This power spectral density shall be determined in accordance with the provisions of Section A8 4 4 i e the power spectral density shall be determined using the same method as is used to determine the conducted output power 3 2 8 2 RSS 210 Section A8 4 Transmitter Output Power and e i r p Requirements For systems employing digital modulation techniques operating in the 902 928 MHz 2400 2483 5 MHz and 5725 5850 MHz bands the maximum peak conducted power shall not exceed 1 W Except as provided in Section A8 5 5 the e i r p shall not exceed 4 W As an alter
8. y Channel MNA y 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 This report covers the circuitry of the devices subject to RSS 210 The circuitry of the device subject to ICES 003 was found to be compliant and is covered in Nemko CCL Inc report 270649 2 2 3 EUT and Support Equipment The IC numbers for all the EUT and support equipment used during the test are listed below TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 6 of 45 Brand Name IC Number or Description Name of Interface Ports Model Number Compliance Interface Cables Serial Number BN MicroRidge 12298A RM2 Transceiver See Section 2 4 MN MICRO RM2 4 LB Module Note 1 SN None BN Dell Computer USB USB cable MN Vostro SN 2878353565 BN MicroRidge Host PCB USB USB cable MN Host PCB Power Serial SN 41 communication lines Directly soldered to host PCB Note 2 BN MicroRidge USB Base USB USB cable MN USB Base SN None Note 1 EUT 2 Interface port connected to EUT See Section 2 4 The support equipment listed above was not modified in order to achieve compliance with this standard 2 4 Interface Ports on EUT Name of Ports No of Ports Fitted to Cable Descriptions Length System Interface Soldered directly to host PCB providing power source and commun
9. 09 PM Lowest Channel Vid BW 10 kHz Atten 10 dB TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 23 of 45 Stop 2 4062 GHz Sweep 270 00 ms ESU 40 Mkr Trace X Axis Value Notes 2 4051 GHz 75 35 dBuV TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc dBuV Trace 1 00 90 80 70 60 50 40 30 20 10 0 Start 2 4388 GHz Res BW 3 kHz 10 1 2014 12 50 18 PM Middle Channel Vid BW 10 kHz Atten 10 dB TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 24 of 45 Stop 2 4412 GHz Sweep 270 00 ms ESU 40 Mkr Trace X Axis Value Notes 2 4396 GHz 76 61 dBuV TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc dBuV Trace 1 00 90 80 70 60 50 40 30 20 10 0 Start 2 4788 GHz Res BW 3 kHz 10 1 2014 12 33 59 PM Upper Channel Vid BW 10 kHz Atten 10 dB TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 25 of 45 Stop 2 4812 GHz Sweep 270 00 ms ESU 40 Mkr Trace X Axis Value Notes 1V Trace A 2 4804 GHz 79 60 dBuV TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 26 of 45 6 2 10 RSS 210 A8 4 Transmitter Output Power and e i r p The
10. 10 27 2014 Page 39 of 45 Photograph 5 Front View Conducted Disturbance Worst Case Configuration TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 40 of 45 Photograph 6 Back View Conducted Disturbance Worst Case Configuration TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 41 of 45 Photograph 7 Front View of the EUT on Host TOEA HicroRidge System Sunriver OR USA WicRORIDGE 2564RFR2 1 TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 42 of 45 Photograph 8 Back View of the EUT on Host TRF RSS210 Issue 4 Oct 2014 TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Nemko CCL Inc Page 43 of 45 Photograph 9 Internal View of the EUT TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 44 of 45 Photograph 10 View of the Module TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 45 of 45 Photograph 11 View of the EUT with Shield Removed u p gt 1205 4 1 i 4 in x D TRF RSS210 Issue 4 Oct 2014
11. A 830 12 10 2013 12 10 2014 Site 2 Test Software Nemko Conducted Revision 1 2 N A N A Emissions Spectrum Analyzer Hewlett Packard 8566B 644 02 25 2014 02 25 2015 TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 31 of 45 Type of Equipment Manufacturer Model Number Barcode Date of Last Due Date of Number Calibration Calibration Quasi Peak Detector Hewlett Packard 85650A 572 03 10 2014 03 10 2015 LISN Nemko LISN COMM 50 1424 03 04 2014 03 04 2015 Conductance Cable Nemko Cable J 840 12 19 2013 12 19 2014 Wanship Site 2 Hewlett Packard 11947A 12 18 2013 12 18 2014 An independent calibration laboratory or Nemko CCL Inc personnel calibrates all the equipment listed above at intervals defined in ANSI C63 4 2003 Section 4 4 following outlined calibration procedures All measurement instrumentation is traceable to the National Institute of Standards and Technology NIST Supporting documentation relative to tractability is on file and is available for examination upon request Conducted Emissions Test Setup Screened Room Printer Computer LISN Transient Spectrum Limiter Analyzer TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 32 of 45 A1 2 RSS Gen Radiated Spurious Emissions in the Restricted Bands The radiated emissions
12. CL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 33 of 45 Type of Equipment Manufacturer Model Number Barcode Date of Last Due Date of Number Calibration Calibration Wanship Open Area Test Nemko N A 830 12 10 2013 12 10 2014 Site 42 Test Software Nemko Radiated Revision 1 3 N A N A Emissions Spectrum Rohde amp Schwarz ESU40 1229 04 08 2014 04 08 2015 Analyzer Receiver Spectrum Analyzer Hewlett Packard 8566B 644 02 25 2014 02 25 2015 Quasi Peak Detector Hewlett Packard 85650A 572 03 10 2014 03 10 2015 Loop Antenna EMCO 6502 176 03 04 2013 03 04 2015 Biconilog Antenna EMCO 3142 04 25 2013 04 25 2015 Double Ridged Guide EMCO 3115 03 07 2013 03 07 2015 Antenna Pyramidal Standard Gain EMC Test System 3160 09 1052 04 10 2009 Horn High Frequency Miteq AFS4 00102650 1299 05 08 2014 05 08 2015 Amplifier 35 10P 4 20 High Frequency Cable Microcoax UFB197C 1 3120 1297 05 08 2014 05 08 2015 000000 3 Meter Radiated Microcoax UFB205A 0 4700 1295 05 08 2014 05 08 2015 Emissions Cable Wanship 000000 Site 2 Pre Power Amplifier Hewlett Packard 8447F 09 05 2014 09 05 2015 6 dB Attenuator Hewlett Packard 8491A 1103 12 23 2013 12 23 2014 An independent calibration laboratory or Nemko CCL Inc personnel calibrates all the equipment listed above at intervals defined in ANSI C63 4 2003 Section 4 4 following outlined calibration procedures All measurement instrumentation is traceable to the National Institute o
13. Nemko CCL Inc 1940 West Alexander Street Salt Lake City UT 84119 801 972 6146 Test Report Certification Test Of MICRO RM2 4 LB IC 12298A RM2 Test Specifications RSS Gen Issue 3 December 2010 RSS 210 Issue 8 December 2010 Test Report Serial No 270649 4 1 Applicant MicroRidge Systems Inc 56888 Enterprise Drive Sunriver OR 97707 U S A Dates of Test October 1 2 2014 Report Issue Date October 27 2014 Accredited Testing Laboratory By NUR NVLAP Lab Code 100272 0 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 2 of 45 CERTIFICATION OF ENGINEERING REPORT This report has been prepared by Nemko CCL Inc to document compliance of the device described below with the requirements of RSS Gen Issue 3 December 2010 and RSS 210 Issue 8 December 2010 This report may be reproduced in full Partial reproduction may only be made with the written consent of the laboratory The results in this report apply only to the sample tested Applicant MicroRidge Systems Inc Manufacturer MicroRidge Systems Inc Brand Name MicroRidge Model Number MICRO RM2 4 LB IC 12298A RM2 On this 27 day October 2014 I individually and for Nemko CCL Inc certify that the statements made in this engineering report are true complete and correct to the best of my knowledge and are made in good faith Although NVLAP has recognized that the Nemko CCL Inc EMC testing fac
14. ON 5 0 SUMMARY OF TEST RESULTS 5 1 RSS Gen and RSS 210 The EUT was subjected to each of the tests shown in the summary table below 5 1 1 Summary of Tests Environmental Phenomena Frequency Range Result MHz RSS Gen 4 6 1 Occupied Bandwidth 2400 2483 5 Reported RSS Gen 5 6 Exposure of Humans to RF Fields 2400 2483 5 Complied RSS Gen 6 Receiver Spurious Emissions Limits 30 7500 RSS Gen 7 1 3 User Manual Notice for Licence Exempt N A Complied Apparatus RSS Gen 7 1 4 Radio Apparatus Containing Digital Circuits 30 2000 Complied 5 003 RSS Gen 7 2 2 Emissions Falling Within Restricted 0 009 24835 0 Complied Frequency Bands RSS Gen 7 2 4 AC Power Line Conducted Emissions Limits 0 15 30 Complied 55 210 A8 2 Digital Modulation Systems 6 dB 2400 2483 5 Complied Bandwidth and Spectral Density 55 210 A8 4 Transmitter Output Power and e i r p 2400 2483 5 Complied Requirements RSS 210 8 5 Out of Band Emissions 0 009 24835 0 Complied 5 2 Result In the configuration tested the EUT complied with the requirements of the specification TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 14 of 45 SECTION 6 0 802 11b g n TRANSCEIVER MEASUREMENTS AND RESULTS 6 1 General Comments This section contains the test results and determinations only Details of the test methods used and a list of the test equipment used
15. abeling requirements of the applicable RSS apply rather than the labeling requirements in ICES 003 3 2 6 RSS Gen 7 2 2 Emissions Falling Within Restricted Frequency Bands Restricted bands identified in Table 1 are designated primarily for safety of life services distress calling and certain aeronautical bands certain satellite downlinks radio astronomy and some government uses Except where otherwise indicated the following restrictions apply Fundamental components of modulation of licence exempt radio apparatus shall not fall within the restricted bands of Table 1 b Unwanted emissions falling into restricted bands of Table 1 shall comply with the limits specified in RSS Gen c Unwanted emissions not falling within restricted frequency bands shall either comply with the limits specified in the applicable RSS or with those specified in RSS Gen 3 2 7 RSS Gen Section 7 2 4 AC Power Lines Conducted Emission Limits Except when the requirements applicable to a given device state otherwise for any radio apparatus equipped to operate from the public utility AC power supply either directly or indirectly such as with a battery charger the radio frequency voltage of emissions conducted back onto the AC power lines in the frequency range of 0 15 MHz to 30 MHz shall not exceed the limits shown in the table below The more stringent limit applies at the frequency range boundaries The conducted emissions shall be measured with a 50
16. connector is used to determine RF output power the effective gain of the device s antenna shall be stated based on measurement or on data from the antenna manufacturer For transmitters of RF output power of 10 milliwatts or less only the portion of the antenna gain that is in excess of 6 dBi 6 dB above isotropic gain shall be added to the measured RF output power to demonstrate compliance with the radiated power limits specified in the applicable standard For transmitters of output power greater than 10 milliwatts the total antenna gain shall be added to the measured RF output power to demonstrate compliance to the specified radiated power limits User manuals for transmitters shall display the following notice in a conspicuous location Under Industry Canada regulations this radio transmitter may only operate using an antenna of a type and maximum or lesser gain approved for the transmitter by Industry Canada To reduce potential radio interference to other users the antenna type and its gain should be so chosen that the equivalent isotropically radiated power e i r p is not more than that necessary for successful communication The notice may be affixed to the device instead of displayed in the user manual User manuals for transmitters equipped with detachable antennas shall also contain the following notice in a conspicuous location This radio transmitter identify the device by certification number or model number if Category
17. ct Name Title 1 2 Manufacturer Company Name Contact Name Title MicroRidge Systems Inc 56888 Enterprise Drive Sunriver OR 97707 U S A John Schuldt President MicroRidge Systems Inc 56888 Enterprise Drive Sunriver OR 97707 U S A John Schuldt President TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 5 of 45 SECTION 2 0 EQUIPMENT UNDER TEST EUT 2 1 Identification of EUT Brand Name MicroRidge Model Number MICRO RM2 4 LB Serial Number None Dimensions 2 1 cm x 1 2 cm 2 2 Description of EUT The Micro RM2 4 LB is a compact and low power 2 4 GHz wireless module designed for industrial and consumer applications The wireless module is built around an Atmel ATmega2564RFR2 AVR microcontroller that has an integrated radio transceiver The wireless module also contains a chip antenna crystals and de coupling capacitors This wireless module is designed to be integrated into products that require low power short range wireless connectivity The Micro RM2 4 LB is an 802 15 4 compliant transceiver module Testing was performed using a host PCB to provide the necessary connections for exercising the EUT The host PCB received power from a computer USB port The MICRO RM2 4 LB transceivers use 16 channels in the 2400 to 2483 5 MHz frequency range See the table of frequencies below Channel pos y Channel VM y Channel M
18. f Standards and Technology NIST Supporting documentation relative to tractability is on file and is available for examination upon request TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 34 of 45 Radiated Emissions Test Setup Printer Open Area Test Site Computer Antenna I 1 Pre Power in 6dB Attenuator H ME Spectrum dual TM I I I I 1 TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 35 of 45 APPENDIX 2 PHOTOGRAPHS Photograph 1 Front View Radiated Disturbance Worst Case Configuration EUT Horizontal TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 36 of 45 Photograph 2 Back View Radiated Disturbance Worst Case Configuration EUT Horizontal TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 37 of 45 Photograph 3 Radiated Disturbance Configuration On Edge TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 38 of 45 Photograph 4 Radiated Disturbance Configuration Vertical TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE
19. h as far as possible so as to form a bundle not exceeding 0 4 m in length Where the EUT is a collection of equipment with each device having its own power cord the point of connection for the LISN is determined from the following rules a Each power cord which is terminated in a mains supply plug shall be tested separately b Power cords which are not specified by the manufacturer to be connected via a host unit shall be tested separately c Power cords which are specified by the manufacturer to be connected via a host unit or other power supplying equipment shall be connected to that host unit and the power cords of that host unit connected to the LISN and tested d Where a special connection is specified the necessary hardware to effect the connection is supplied by the manufacturer for the testing purpose e When testing equipment with multiple mains cords those cords not under test are connected to an artificial mains network AMN different than the AMN used for the mains cord under test For AC mains port testing desktop EUT are placed on a non conducting table at least 0 8 meters from the metallic floor and placed 40 cm from the vertical coupling plane copper plating in the wall behind EUT table Floor standing equipment is placed directly on the earth grounded floor Type of Equipment Manufacturer Model Number Barcode Date of Last Due Date of Number Calibration Calibration Wanship Open Area Test Nemko N
20. ication interface 2 5 Modification Incorporated Special Accessories on EUT There we no modifications or special accessories required to comply with the specification TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 7 of 45 SECTION 3 0 TEST SPECIFICATION METHODS amp PROCEDURES 3 1 Test Specification Title RSS Gen Issue 3 December 2010 RSS 210 Issue 8 December 2010 Purpose of Test The tests were performed to demonstrate initial compliance 3 2 Requirements 3 2 1 RSS Gen 4 6 1 Occupied Bandwidth When an occupied bandwidth value is not specified in the applicable RSS the transmitted signal bandwidth to be reported is to be its 99 emission bandwidth as calculated or measured The transmitter shall be operated at its maximum carrier power measured under normal test conditions The span of the analyzer shall be set to capture all products of the modulation process including the emission skirts The resolution bandwidth shall be set to as close to 1 of the selected span as is possible without being below 1 The video bandwidth shall be set to 3 times the resolution bandwidth Video averaging is not permitted Where practical a sampling detector shall be used since a peak or peak hold may produce a wider bandwidth than actual The trace data points are recovered and are directly summed in linear terms The recovered amplitude data points beginning at the lowest
21. ilities are in good standing this report must not be used to claim product certification approval or endorsement by NVLAP NIST or any agency of the federal government Nemko CCL Inc P aao p a SH Tested by Norman P Hansen Test Technician d Z Reviewed by Thomas C Jackson Certification Manager TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 3 of 45 TABLE OF CONTENTS PAGE SECTION 1 0 CLIENT INFORMA TION 4 SECTION 2 0 EQUIPMENT UNDER TEST EUT 3 SECTION 3 0 TEST SPECIFICATION METHODS amp PROCEDURES 7 SECTION 4 0 OPERATION EUT DURING TESTING 12 SECTION 5 0 SUMMARY OF TEST RESULITS 13 SECTION 6 0 802 11b g n TRANSCEIVER MEASUREMENTS AND RESULTS 14 APPENDIX 1 TEST PROCEDURES AND TEST EQUIPMENT 30 APPENDIX 2 PHOTOGRAEPDHS 35 TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 4 of 45 SECTION 1 0 CLIENT INFORMATION 1 1 Applicant Company Name Conta
22. issions Falling Within Restricted Frequency Bands The frequency range from the lowest frequency generated or used in the device to the tenth harmonic of the highest fundamental frequency was investigated to measure any radiated emissions in the restricted bands of RSS Gen Table 3 The emissions in the restricted bands must meet the limits specified in RSS Gen Table 5 Emissions not in the restricted bands are also shown below Those emissions not in the restricted bands must be attenuated 20 dB from the fundamental emission These emissions were compared to the limits of RSS Gen Table 5 and found compliant The tabular data shows the emissions from the EUT transceiver Shown below are plots with the EUT tuned to the upper and lower channels demonstrating compliance at the band edges AVERAGE FACTOR There was no average factor applied Transmitting at the Lowest Frequency Frequency Detection Antenna Receiver Correction MHz Mode Polarity Reading Factor dBuV Field Strength Limit dBuV m dBuV m 4810 0 Peak Vertical 4810 0 Average Vertical 4810 0 Peak Horizontal TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc Frequency MHz 4810 0 7215 0 7215 0 9 4 7215 0 9620 0 9620 0 9620 0 9620 0 12025 0 12025 0 12025 0 Frequency MHz 4880 0 4880 0 4880 0 4880 0 7320 0 9 0 7320 0 7320 0 Average Horizontal 2 5 0 8 9760 0 9760 0 9760 0 9760 0
23. l be 30 dB instead of 20 dB Attenuation below the general limits specified in RSS Gen is not required 3 3 Test Procedure The testing was performed according to the procedures in RSS Gen Issue 3 and 55 210 Issue 8 Testing was performed at Nemko CCL Inc s Wanship open area test site 2 located at 29145 Old Lincoln Highway Wanship UT This site has been registered with Industry Canada and was accepted under Industry Canada Assigned Code 2041 2 effective until February 14 2015 Nemko CCL Inc is accredited by National Voluntary Laboratory Accreditation Program NVLAP NVLAP Lab Code 100272 0 which is effective until September 30 2015 TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 12 of 45 SECTION 4 0 OPERATION OF EUT DURING TESTING 4 1 Operating Environment Power Supply 120 VAC 60 Hz to computer 5 VDC from USB port to EUT Host PCB 4 2 Operating Modes Each mode of operation was exercised to produce worst case emissions and the EUT was tested 3 orthogonal axes The worst case emissions were with the Micro RM2 4 LB placed flat on the table and connected to the support equipment The EUT was set to transmit data constantly 4 3 EUT Exercise Software MicroRidge ComTestSerial FCC Testing test software was used to exercise the EUT TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 13 of 45 SECTI
24. maximum peak RF Peak output power calculated for this device was 0 677 mW The limit is 1 Watt when using antennas with 6 dBi or less gain The antenna has a gain of 0 dBi The radiated field strengths were converted to conducted power using the guidance of 558074 D01 DTS Meas Guidance 03 02 Plots are shown below and the results of this testing are summarized in the table Measured Field Calculated Strength at 3 m Output Power dBuV m mW Frequency MHz TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 Lowest Channel Peak Field Strength Plot dBuV Trace 1 00 90 80 70 60 50 40 30 20 10 0 Start 2 3900 GHz Res BW 10 MHz 10 1 2014 12 58 41 PM Vid BW 10 MHz Atten 10 dB REPORT ISSUE DATE 10 27 2014 Page 27 of 45 Stop 2 4200 GHz Sweep 2 50 ms ESU 40 Mkr Trace X Axis Value Notes 2 4032 GHz 89 31 Trace peak field strength TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 Middle Channel Peak Field Strength Plot dBuV Trace 1 00 90 80 70 60 50 40 30 20 10 0 Start 2 4250 GHz REPORT ISSUE DATE 10 27 2014 Page 28 of 45 Stop 2 4550 GHz Res BW 10 MHz Vid BW 10 MHz Sweep 2 50 ms 10 1 2014 12 48 53 PM Atten 10 dB ESU 40 Mkr Trace X Axis Val
25. native to a peak power measurement compliance can be based on a measurement of the maximum conducted output power The maximum conducted output power is the total transmit power delivered to all antennas and antenna elements averaged across all symbols in the signaling alphabet when the transmitter is operating at its maximum power control level Power must be summed across all antennas and antenna elements The average must not include any time intervals during which the transmitter is off or transmitting at a reduced power level If multiple modes of operation are implemented the maximum conducted output power is the highest total transmit power occurring in any mode TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 11 of 45 3 2 8 3 RSS 210 Section A8 5 Out of band Emissions In any 100 bandwidth outside the frequency band in which the spread spectrum or digitally modulated device is operating the RF power that is produced shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power based on either an RF conducted or a radiated measurement provided the transmitter demonstrates compliance with the peak conducted power limits If the transmitter complies with the conducted power limits based on the use of root mean square averaging over a time interval as permitted under section A8 4 4 the attenuation required shal
26. orizontal 9920 0 Vertical 9920 0 Vertical 9920 0 Horizontal 9920 0 Horizontal 12400 0 Vertical 12400 0 Vertical 12400 0 Horizontal 12400 0 Horizontal No other emissions were seen in the restricted bands Noise floor was greater than 6 dB below the limit At frequencies above 12 5 GHz a 1 meter measurement distance was used TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 18 of 45 6 2 8 RSS Gen 7 2 4 Transmitter and Receiver AC Power Lines Conducted Emissions Frequency AC Mains Lead Detector Measured Limit MHz aes dBuV 0 18 Quasi Peak Note 1 46 9 Peak Note 1 Hot Peak Note 1 0 37 Hot Peak Note 1 34 9 48 4 13 5 0 65 Hot Peak Note 1 30 5 46 0 15 5 2 59 Hot Peak Note 1 31 7 46 0 14 3 0 20 Neutral Peak Note 1 44 4 53 6 9 2 0 23 Neutral Peak Note 1 37 7 52 5 14 8 0 26 Neutral Peak Note 1 36 5 51 5 15 0 0 33 Neutral Peak Note 1 32 2 49 6 17 4 0 38 Neutral Peak Note 1 30 0 48 2 18 2 4 80 Neutral Peak Note 1 33 1 46 0 12 9 Note 1 The reference detector used for the measurements was Quasi Peak or Peak and the data was compared to the average limit therefore the EUT was deemed to meet both the average and quasi peak limits Note 2 The reference detector used for the measurements was quasi peak and average and the data was compared to the respecti
27. s and or 1 meter from the EUT The readings obtained by the antenna are correlated to the levels obtained with a tuned dipole antenna by adding antenna factors The configuration of the intentional radiator was varied to find the maximum radiated emission The intentional radiator was connected to the peripherals listed in Section 2 4 via the interconnecting cables listed in Section 2 5 These interconnecting cables were manipulated manually by a technician to obtain worst case radiated emissions The intentional radiator was rotated 360 degrees and the antenna height was varied from 1 to 4 meters to find the maximum radiated emission Where there are multiple interface ports all of the same type cables are either placed on all of the ports or cables added to these ports until the emissions do not increase by more than 2 dB Desktop intentional radiators are measured on a non conducting table 80 centimeters above the ground plane The table is placed on a turntable which is level with the ground plane The turntable has slip rings which supply AC power to the intentional radiator For equipment normally placed on floors the equipment shall be placed directly on the turntable For radiated emission testing at 30 MHz or above that is performed at distances closer than the specified distance an inverse proportionality factor of 20 dB per decade is used to normalize the measured data for determining compliance TRF RSS210 Issue 4 Oct 2014 Nemko C
28. ue Notes 1V Trace A 2 4381 GHz 91 68 dBuV Trace A peak field strength TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 29 of 45 Highest Channel Peak Field Strength Plot dBuV Trace 100 90 80 70 60 50 40 30 20 10 0 Start 2 4650 GHz Stop 2 4950 GHz Res BW 10 MHz Vid BW 10 MHz Sweep 5 00 ms 10 1 2014 12 29 45 PM Atten 10 dB ESU 40 Mkr Trace X Axis Value Notes 1 V Trace A 2 4780 GHz 93 47 dBuV Trace peak field strength 6 2 11 RSS 210 A8 5 Out of Band Emissions The out of band emissions are shown in Section 6 2 7 of this report TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 30 of 45 APPENDIX 1 TEST PROCEDURES AND TEST EQUIPMENT A1 1 RSS Gen Conducted Disturbance at the AC Mains The conducted disturbance at mains ports from the EUT was measured using a spectrum analyzer with a quasi peak adapter for peak quasi peak and average readings The quasi peak adapter uses a bandwidth of 9 KHz with the spectrum analyzer s resolution bandwidth set at 100 kHz for readings in the 150 KHz to 30 MHz frequency ranges The conducted disturbance at mains ports measurements are performed in a screen room using a 50 2 50 uH Line Impedance Stabilization Network LISN Where mains flexible power cords are longer than 1 m the excess cable is folded back and fort
29. ve limits 6 2 9 RSS 210 A8 2 Digital Modulation Systems The shall have a minimum of 6dB bandwidth of 500 kHz Plots and tabular data is shown below Frequency Emission 6 dB bandwidth MHz kHz 2405 1474 4 2440 1578 5 2480 1605 0 TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc dBuV Trace 1 00 90 80 70 60 50 40 30 20 10 0 TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 19 of 45 Lowest Channel Emission 6 dB Bandwidth Start 2 4025 GHz Res BW 100 kHz Vid BW 300 kHz Stop 2 4075 GHz Sweep 2 50 ms 10 1 2014 12 55 10 PM Atten 10 dB ESU 40 Trace X Axis Value Notes 1 Trace A 2 4053 GHz 85 82 dBuV 24 Trace A 945 5128 kHz 6 12 dB 92V Trace A 1 4744 MHz 0 08 dB TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc dBuV Trace A 1 00 90 80 70 60 50 40 30 20 10 TEST REPORT 270649 4 1 REPORT ISSUE DATE 10 27 2014 Page 20 of 45 Middle Channel Emission 6 dB Bandwidth Start 2 4375 GHz Res BW 100 kHz Vid BW 300 kHz Stop 2 4425 GHz Sweep 2 50 ms 10 1 2014 12 44 34 PM Atten 10 dB ESU 40 Mkr Trace X Axis Value Notes 1V Trace A 2 4402 GHz 87 88 dBuV 21V Trace A 1 0256 MHz 6 70 dB 92V Trace A 1 5785 MHz 0 62 dB TRF RSS210 Issue 4 Oct 2014 Nemko CCL Inc dBuV Trace A
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