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Report No.: BL-SZ1680250-601 

 

44 / 129 

ANT 2 

802.11b LOW CHANNEL 

802.11b MIDDLE CHANNEL 

 

 

 
 

802.11b HIGH CHANNEL 

802.11g LOW CHANNEL 

 

 

 
 

802.11g MIDDLE CHANNEL 

802.11g HIGH CHANNEL 

 

 

 

 

Summary of Contents for EAP245

Page 1: ......

Page 2: ... 2 PRODUCT INFORMATION 6 2 1 Applicant Information 6 2 2 Manufacturer Information 6 2 3 Factory Information 6 2 4 General Description for Equipment under Test EUT 6 2 5 Ancillary Equipment 6 2 6 Technical Information 7 2 7 Additional Instructions 9 3 SUMMARY OF TEST RESULTS 11 3 1 Test Standards 11 3 2 Verdict 11 4 GENERAL TEST CONFIGURATIONS 12 4 1 Test Environments 12 4 2 Test Equipment List 12 ...

Page 3: ... 17 5 1 3 Antenna Gain 17 5 2 Output Power 18 5 2 1 Test Limit 18 5 2 2 Test Setup 18 5 2 3 Test Procedure 18 5 2 4 Test Result 19 5 3 6dB Bandwidth 20 5 3 1 Limit 20 5 3 2 Test Setup 20 5 3 3 Test Procedure 20 5 3 4 Test Result 20 5 4 Conducted Spurious Emission 21 5 4 1 Limit 21 5 4 2 Test Setup 21 5 4 3 Test Procedure 21 5 4 4 Test Result 22 5 5 Band Edge Authorized band band edge 23 5 5 1 Limi...

Page 4: ... 8 4 Test Result 28 5 9 Power Spectral density PSD 29 5 9 1 Limit 29 5 9 2 Test Setup 29 5 9 3 Test Procedure 29 5 9 4 Test Result 29 ANNEX A TEST RESULT 30 A 1 Output Power 30 A 2 Bandwidth 32 A 3 Conducted Spurious Emissions 46 A 4 Band Edge Authorized band band edge 72 A 5 Conducted Emissions 83 A 6 Radiated Emission 85 A 7 Band Edge Restricted band band edge 111 A 8 Power Spectral Density PSD ...

Page 5: ...National Accreditation Service for Conformity Assessment CNAS according to ISO IEC 17025 The accreditation certificate number is L6791 Description All measurement facilities used to collect the measurement data are located at Block B FL 1 Baisha Science and Technology Park Shahe Xi Road Nanshan District Shenzhen Guangdong Province P R China 518055 1 3 Laboratory Condition Ambient Temperature 20 to...

Page 6: ...zhen China 2 3Factory Information Factory N A Address N A 2 4General Description for Equipment under Test EUT EUT Type AC1750 Wireless Daul Band Gigabit Ceiling Mount Access Point Model Name Under Test EAP245 Series Model Name N A Description of Model name differentiation N A Hardware Version N A Software Version N A Dimensions Approx N A Weight Approx N A Network and Wireless connectivity WIFI 80...

Page 7: ... Categorization as Correlated or Completely Uncorrelated Correlated Antenna Type Antenna 0 ANT 0 PIFA Antenna Antenna 1 ANT 1 Antenna 2 ANT 2 Antenna Gain Antenna 0 ANT 0 4 62 dBi Antenna 1 ANT 1 4 65 dBi Antenna 2 ANT 2 4 86 dBi Total directional gain For power spectral density PSD measurements 9 63 dBi Formulas Directional gain GANT Array Gain Array Gain 10 log NANT NSS dB NSS 1 GANT set equal t...

Page 8: ...ching the worst cases The following table is a list of the test modes shown in this test report Test Items Mode Data Rate Channel Output Power 11b 11g 11n20 11n40 1 6 6 5 13 5 Mbps 1 6 11 3 6 9 6dB Bandwidth 11b 11g 11n20 11n40 1 6 6 5 13 5 Mbps 1 6 11 3 6 9 Conducted Spurious Emission 11b 11g 11n20 11n40 1 6 6 5 13 5 Mbps 1 6 11 3 6 9 Conducted Emission 11b 11g 11n20 11n40 1 6 6 5 13 5 Mbps 1 6 1...

Page 9: ...ng channel as well as the output power level The RF output power selection is for the setting of RF output power expected by the customer and is going to be fixed on the firmware of the final end product EUT Software Settings Power level setup in software Test Software Version Cart Mode Frequency MHz Channel Soft Set 802 11 b 2412 1 22 2422 3 25 2437 6 25 2452 9 25 2462 11 21 802 11 g 2412 1 17 24...

Page 10: ...Report No BL SZ1680250 601 10 129 Run software ...

Page 11: ...ess Devices 3 2Verdict No Description FCC PART No ISED Part No Test Result Verdict 1 Antenna Requirement 15 203 15 247 b RSS 247 5 4 6 N A PassNote 1 2 Output Power 15 247 b RSS 247 5 4 4 ANNEX A 1 Pass 3 6dB Bandwidth 15 247 a RSS GEN 6 6 RSS 247 5 2 1 ANNEX A 2 Pass 4 Conducted Spurious Emission 15 247 d RSS 247 5 5 ANNEX A 3 Pass 5 Band Edge Authorized band band edge 5 209 15 247 d RSS GEN 8 9 ...

Page 12: ... 14 EMI Receiver ROHDE SCHWARZ ESRP 101036 2016 07 05 2017 07 04 LISN SCHWARZBECK NSLK 8127 8127 687 2016 07 05 2017 07 04 Bluetooth Tester ROHDE SCHWARZ CBT 101005 2016 07 13 2017 07 12 Power Splitter KMW DCPD LDC 1305003215 Power Sensor ROHDE SCHWARZ NRP Z21 103971 2016 07 13 2017 07 12 Attenuator 20 dB KMW ZA S1 201 110617091 Attenuator 6 dB KMW ZA S1 61 1305003189 DC Power Supply ROHDE SCHWARZ...

Page 13: ...inty represents an expanded uncertainty expressed at approximately the 95 confidence level using a coverage factor of k 2 Measurement Value Occupied Channel Bandwidth 4 RF output power conducted 1 4 dB Power Spectral Density conducted 2 5 dB Unwanted Emissions conducted 2 8 dB All emissions radiated 5 4 dB Temperature 1 C Humidity 4 4 4Description of Test Setup 4 4 1 For Antenna Port Test Diagram ...

Page 14: ...Report No BL SZ1680250 601 14 129 4 4 2 For AC Power Supply Port Test Diagram 2 4 4 3 For Radiated Test Below 30 MHz Diagram 3 ...

Page 15: ...Report No BL SZ1680250 601 15 129 4 4 4 For Radiated Test 30 MHz 1 GHz Diagram 4 4 4 5 For Radiated Test Above 1 GHz Diagram 5 ...

Page 16: ... reading level is exactly the EUT RF output level The spectrum analyzer offset is derived from RF cable loss and attenuator factor Offset RF cable loss attenuator factor 4 5 2 For radiated band edges and spurious emission test E EIRP 20log D 104 8 where E electric field strength in dBμV m EIRP equivalent isotropic radiated power in dBm D specified measurement distance in meters EIRP Measure Conduc...

Page 17: ...o other intentional radiators which in accordance with 15 31 d must be measured at the installation site However the installer shall be responsible for ensuring that the proper antenna is employed so that the limits in this part are not exceeded If directional gain of transmitting antennas is greater than 6 dBi the power shall be reduced by the same level in dB comparing to gain minus 6 dBi For th...

Page 18: ...cted average output power Reporting Only a As an alternative to spectrum analyzer or EMI receiver measurements measurements may be performed using a wideband RF power meter with a thermocouple detector or equivalent if all of the conditions listed below are satisfied 1 The EUT is configured to transmit continuously or to transmit with a constant duty factor 2 At all times when the EUT is transmitt...

Page 19: ...r average The zero span measurement method shall not be used unless both RBW and VBW are 50 T and the number of sweep points across duration T exceeds 100 For example if VBW and or RBW are limited to 3 MHz then the zero span method of measuring duty cycle shall not be used if T 16 7 microseconds 5 2 4 Test Result Please refer to ANNEX A 1 ...

Page 20: ...he antenna port The photo of test setup please refer to ANNEX B 5 3 3 Test Procedure Use the following spectrum analyzer settings Set RBW 100 kHz Set the video bandwidth VBW 3 RBW Detector Peak Trace mode max hold Sweep auto couple Allow the trace to stabilize Measure the maximum width of the emission that is constrained by the frequencies associated with the two outermost amplitude points upper a...

Page 21: ...rized frequency band shall be attenuated by at least 20 dB relative to the maximum in band peak PSD level in 100 kHz i e 20 dBc b If maximum conducted average output power was used to demonstrate compliance as described in 9 2 then the peak power in any 100 kHz bandwidth outside of the authorized frequency band shall be attenuated by at least 30 dB relative to the maximum in band peak PSD level in...

Page 22: ...over this entire span Set the RBW 100 kHz Set the VBW 3 x RBW Detector peak Sweep time auto couple Trace mode max hold Allow trace to fully stabilize Use the peak marker function to determine the maximum amplitude level Ensure that the amplitude of all unwanted emissions outside of the authorized frequency band excluding restricted frequency bands are attenuated by at least the minimum requirement...

Page 23: ...t i e duty cycle variations are less than 2 percent Use the procedure described in 13 2 4 when using an average detector for those cases where the EUT cannot be configured to transmit continuously and the duty cycle is not constant duty cycle variations equal or exceed 2 percent When using a peak detector to measure unwanted emissions at or near the band edge within 2 MHz of the authorized band th...

Page 24: ...near operation In general the peak of the spectral envelope shall be more than 10 log OBW RBW below the reference level Specific guidance is given in 4 1 5 2 Attenuation Auto at least 10 dB preferred Sweep time Coupled Resolution bandwidth 100 kHz Video bandwidth 300 kHz Detector Peak Trace Max hold 5 5 4 Test Result Please refer to ANNEX A 4 ...

Page 25: ...r supply port The photo of test setup please refer to ANNEX B 5 6 3 Test Procedure The maximum conducted interference is searched using Peak PK if the emission levels more than the AV and QP limits and that have narrow margins from the AV and QP limits will be re measured with AV and QP detectors Tests for both L phase and N phase lines of the power mains connected to the EUT are performed Refer t...

Page 26: ...tector measurement using instrumentation with a peak detector function corresponding to 20dB above the maximum permitted average limit 2 For above 1000 MHz limit field strength of harmonics 54dBuV m 3m AV and 74dBuV m 3m PK 5 7 2 Test Setup See section 4 4 3 to 4 4 5 for test setup description for the antenna port The photo of test setup please refer to ANNEX B 5 7 3 Test Procedure The measurement...

Page 27: ...Report No BL SZ1680250 601 27 129 5 7 4 Test Result Please refer to ANNEX A 6 ...

Page 28: ... 0 to 360 and both horizontal and vertical polarizations of the Test Antenna are used to find the maximum radiated power Mid channels on all channel bandwidth verified Only the worst RB size offset presented The power of the EUT transmitting frequency should be ignored All Spurious Emission tests were performed in X Y Z axis direction And only the worst axis test condition was recorded in this tes...

Page 29: ...est setup description for the antenna port The photo of test setup please refer to ANNEX B 5 9 3 Test Procedure Set instrument center frequency to DTS channel center frequency Set span to at least 1 5 times the OBW Set RBW to 3 kHz RBW 100 kHz Set VBW 3 x RBW Detector RMS Ensure that the number of measurement points in the sweep 2 x span RBW Sweep time auto couple Employ trace averaging RMS mode o...

Page 30: ... 350 75 25 12 325 09 24 89 308 32 29 93 984 16 Pass 2437 25 65 367 28 25 06 320 63 24 66 292 42 29 91 980 32 Pass 2442 25 53 357 27 24 22 264 24 24 92 310 46 29 69 931 97 Pass 2462 22 15 164 06 21 53 142 23 21 77 150 31 26 60 456 61 Pass 802 11g Mode Channel Measured Output Peak Power Limit Verdict ANT 0 ANT 1 ANT 2 Total of output power dBm mW dBm mW dBm mW dBm mW dBm mW 2412 18 25 66 83 17 77 59...

Page 31: ... 2442 21 52 141 91 21 23 132 74 20 88 122 46 25 99 397 11 Pass 2462 17 98 62 81 17 36 54 45 17 27 53 33 22 32 170 59 Pass 802 11n 40 MHz Mode Channel Measured Output Peak Power Limit Verdict ANT 0 ANT 1 ANT 2 Total of output power dBm mW dBm mW dBm mW dBm mW dBm mW 2422 14 18 26 18 13 75 23 71 13 68 23 33 18 65 73 23 30 1000 Pass 2432 21 23 132 74 21 16 130 62 20 47 111 43 25 74 374 79 Pass 2437 1...

Page 32: ...1g Mode Channel 6 dB Bandwidth MHz 99 Bandwidth MHz 6 dB Bandwidth Limits kHz ANT 0 ANT 1 ANT 2 ANT 0 ANT 1 ANT 2 Low 16 02 12 77 15 77 17 25 16 56 16 67 500 Middle 12 77 15 17 15 47 17 13 16 61 16 50 500 High 15 57 13 97 16 02 16 96 16 85 16 61 500 802 11n 20MHz Mode Channel 6 dB Bandwidth MHz 99 Bandwidth MHz 6 dB Bandwidth Limits kHz ANT 0 ANT 1 ANT 2 ANT 0 ANT 1 ANT 2 Low 16 42 17 27 15 77 17 ...

Page 33: ...z Mode Channel 6 dB Bandwidth MHz 99 Bandwidth MHz 6 dB Bandwidth Limits kHz ANT 0 ANT 1 ANT 2 ANT 0 ANT 1 ANT 2 Low 30 22 32 67 30 12 36 30 36 40 36 20 500 Middle 25 12 33 92 30 17 36 50 36 00 36 00 500 High 30 77 26 12 30 42 36 70 36 20 36 30 500 ...

Page 34: ...Report No BL SZ1680250 601 34 129 Test plots 6dBm Bandwidth ANT 0 802 11b LOW CHANNEL 802 11b MIDDLE CHANNEL 802 11b HIGH CHANNEL 802 11g LOW CHANNEL 802 11g MIDDLE CHANNEL 802 11g HIGH CHANNEL ...

Page 35: ...port No BL SZ1680250 601 35 129 802 11n 20 MHz LOW CHANNEL 802 11 n 20 MHz MIDDLE CHANNEL 802 11n 20 MHz HIGH CHANNEL 802 11n 40 MHz LOW CHANNEL 802 11 n 40 MHz MIDDLE CHANNEL 802 11n 40 MHz HIGH CHANNEL ...

Page 36: ...Report No BL SZ1680250 601 36 129 ANT 1 802 11b LOW CHANNEL 802 11b MIDDLE CHANNEL 802 11b HIGH CHANNEL 802 11g LOW CHANNEL 802 11g MIDDLE CHANNEL 802 11g HIGH CHANNEL ...

Page 37: ...port No BL SZ1680250 601 37 129 802 11n 20 MHz LOW CHANNEL 802 11 n 20 MHz MIDDLE CHANNEL 802 11n 20 MHz HIGH CHANNEL 802 11n 40 MHz LOW CHANNEL 802 11 n 40 MHz MIDDLE CHANNEL 802 11n 40 MHz HIGH CHANNEL ...

Page 38: ...Report No BL SZ1680250 601 38 129 ANT 2 802 11b LOW CHANNEL 802 11b MIDDLE CHANNEL 802 11b HIGH CHANNEL 802 11g LOW CHANNEL 802 11g MIDDLE CHANNEL 802 11g HIGH CHANNEL ...

Page 39: ...port No BL SZ1680250 601 39 129 802 11n 20 MHz LOW CHANNEL 802 11 n 20 MHz MIDDLE CHANNEL 802 11n 20 MHz HIGH CHANNEL 802 11n 40 MHz LOW CHANNEL 802 11 n 40 MHz MIDDLE CHANNEL 802 11n 40 MHz HIGH CHANNEL ...

Page 40: ...Report No BL SZ1680250 601 40 129 Test plots 99 Bandwidth ANT 0 802 11b LOW CHANNEL 802 11b MIDDLE CHANNEL 802 11b HIGH CHANNEL 802 11g LOW CHANNEL 802 11g MIDDLE CHANNEL 802 11g HIGH CHANNEL ...

Page 41: ...port No BL SZ1680250 601 41 129 802 11n 20 MHz LOW CHANNEL 802 11 n 20 MHz MIDDLE CHANNEL 802 11n 20 MHz HIGH CHANNEL 802 11n 40 MHz LOW CHANNEL 802 11n 40 MHz MIDDLE CHANNEL 802 11 n 40 MHz HIGH CHANNEL ...

Page 42: ...Report No BL SZ1680250 601 42 129 ANT 1 802 11b LOW CHANNEL 802 11b MIDDLE CHANNEL 802 11b HIGH CHANNEL 802 11g LOW CHANNEL 802 11g MIDDLE CHANNEL 802 11g HIGH CHANNEL ...

Page 43: ...port No BL SZ1680250 601 43 129 802 11n 20 MHz LOW CHANNEL 802 11 n 20 MHz MIDDLE CHANNEL 802 11n 20 MHz HIGH CHANNEL 802 11n 40 MHz LOW CHANNEL 802 11n 40 MHz MIDDLE CHANNEL 802 11 n 40 MHz HIGH CHANNEL ...

Page 44: ...Report No BL SZ1680250 601 44 129 ANT 2 802 11b LOW CHANNEL 802 11b MIDDLE CHANNEL 802 11b HIGH CHANNEL 802 11g LOW CHANNEL 802 11g MIDDLE CHANNEL 802 11g HIGH CHANNEL ...

Page 45: ...port No BL SZ1680250 601 45 129 802 11n 20 MHz LOW CHANNEL 802 11 n 20 MHz MIDDLE CHANNEL 802 11n 20 MHz HIGH CHANNEL 802 11n 40 MHz LOW CHANNEL 802 11n 40 MHz MIDDLE CHANNEL 802 11 n 40 MHz HIGH CHANNEL ...

Page 46: ...12 38 13 38 13 18 Pass Middle 41 18 46 73 46 89 17 49 16 51 16 96 12 51 13 49 13 04 Pass High 41 66 47 40 46 67 17 34 16 57 16 80 12 66 13 43 13 20 Pass 802 11g Mode Channel Measured Max Out of Band Emission dBm Limit dBm Verdict Carrier Level Calculated 30 dBc Limit ANT 0 ANT 1 ANT 2 ANT 0 ANT 1 ANT 2 ANT 0 ANT 1 ANT 2 Low 45 58 46 47 47 03 15 58 14 41 14 54 14 42 15 59 15 46 Pass Middle 46 17 50...

Page 47: ...imit dBm Verdict Carrier Level Calculated 30 dBc Limit ANT 0 ANT 1 ANT 2 ANT 0 ANT 1 ANT 2 ANT 0 ANT 1 ANT 2 Low 44 37 47 09 46 61 13 59 12 47 12 81 16 41 17 53 17 19 Pass Middle 44 94 46 10 46 60 13 67 11 01 12 71 16 33 18 99 17 29 Pass High 44 68 47 39 45 93 13 57 13 23 12 58 16 43 16 77 17 42 Pass ...

Page 48: ...port No BL SZ1680250 601 48 129 Test Plots ANT 0 802 11b LOW CHANNEL CARRIER LEVEL 802 11b LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11b MIDDLE CHANNEL CARRIER LEVEL ...

Page 49: ...0 601 49 129 802 11b MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11b HIGH CHANNEL CARRIER LEVEL 802 11b HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 50: ...Report No BL SZ1680250 601 50 129 802 11g LOW CHANNEL CARRIER LEVEL 802 11g LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11g MIDDLE CHANNEL CARRIER LEVEL ...

Page 51: ...0 601 51 129 802 11g MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11g HIGH CHANNEL CARRIER LEVEL 802 11g HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 52: ...No BL SZ1680250 601 52 129 802 11n 20 MHz LOW CHANNEL CARRIER LEVEL 802 11n 20 MHz LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 20 MHz LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 20 MHz MIDDLE CHANNEL CARRIER LEVEL ...

Page 53: ...1n 20 MHz MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 20 MHz MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 20 MHz HIGH CHANNEL CARRIER LEVEL 802 11n 20 MHz HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 20 MHz HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 54: ...Report No BL SZ1680250 601 54 129 802 11n 40 LOW CHANNEL CARRIER LEVEL 802 11n 40 LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 40 LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 40 MIDDLE CHANNEL CARRIER LEVEL ...

Page 55: ...5 129 802 11n 40 MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 40 MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 40 HIGH CHANNEL CARRIER LEVEL 802 11n 40 HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11 40 HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 56: ...Report No BL SZ1680250 601 56 129 ANT 1 802 11b LOW CHANNEL CARRIER LEVEL 802 11b LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11b MIDDLE CHANNEL CARRIER LEVEL ...

Page 57: ...0 601 57 129 802 11b MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11b HIGH CHANNEL CARRIER LEVEL 802 11b HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 58: ...Report No BL SZ1680250 601 58 129 802 11g LOW CHANNEL CARRIER LEVEL 802 11g LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11g MIDDLE CHANNEL CARRIER LEVEL ...

Page 59: ...0 601 59 129 802 11g MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11g HIGH CHANNEL CARRIER LEVEL 802 11g HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 60: ...No BL SZ1680250 601 60 129 802 11n 20 MHz LOW CHANNEL CARRIER LEVEL 802 11n 20 MHz LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 20 MHz LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 20 MHz MIDDLE CHANNEL CARRIER LEVEL ...

Page 61: ...1n 20 MHz MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 20 MHz MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 20 MHz HIGH CHANNEL CARRIER LEVEL 802 11n 20 MHz HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 20 MHz HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 62: ...Report No BL SZ1680250 601 62 129 802 11n 40 LOW CHANNEL CARRIER LEVEL 802 11n 40 LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 40 LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 40 MIDDLE CHANNEL CARRIER LEVEL ...

Page 63: ...3 129 802 11n 40 MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 40 MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 40 HIGH CHANNEL CARRIER LEVEL 802 11n 40 HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11 40 HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 64: ...Report No BL SZ1680250 601 64 129 ANT 2 802 11b LOW CHANNEL CARRIER LEVEL 802 11b LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11b MIDDLE CHANNEL CARRIER LEVEL ...

Page 65: ...0 601 65 129 802 11b MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11b HIGH CHANNEL CARRIER LEVEL 802 11b HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11b HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 66: ...Report No BL SZ1680250 601 66 129 802 11g LOW CHANNEL CARRIER LEVEL 802 11g LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11g MIDDLE CHANNEL CARRIER LEVEL ...

Page 67: ...0 601 67 129 802 11g MIDDLE CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g MIDDLE CHANNEL SPURIOUS 2 GHz 25 GHz 802 11g HIGH CHANNEL CARRIER LEVEL 802 11g HIGH CHANNEL SPURIOUS 30 MHz 3 GHz 802 11g HIGH CHANNEL SPURIOUS 2 GHz 25 GHz ...

Page 68: ...No BL SZ1680250 601 68 129 802 11n 20 MHz LOW CHANNEL CARRIER LEVEL 802 11n 20 MHz LOW CHANNEL SPURIOUS 30 MHz 3 GHz 802 11n 20 MHz LOW CHANNEL SPURIOUS 2 GHz 25 GHz 802 11n 20 MHz MIDDLE CHANNEL CARRIER LEVEL ...

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