EMC Test Data - Summit Data Communications
Contents
1. c Elliott irs Settings For plot 0 CF 5200 00 MHz 5 50 00 MHz RB 1 000 MHz VB 3 000 MHz Detector Sample Att 20 RL Offset 0 00 Sweep Time 1 0s Ref Lvl 4 00DBM Max hold 60 sweepsAmp corr 22 Amplitude EE LL Settings For plot 1 CF 5200 00 MHz 5 50 00 MHz Peak Excursion Plot 1 Plot 0 RB 1 000 MHz 15 0 3 000 MHz 14 0 Detector POS Att 20 12 0 RL Offset 0 00 Sweep Time 50 0ms 10 0 Ref Lvl 4 00DBM Amp corr 21 0dB 8 0 i MaxHold 20sweeps 04 1 1 1 1 5192 5194 5196 5198 5200 5202 5204 5206 Frequency MHz Peak PSD Plot 0 5 5 dBm 1 000 Peak PSD Plot 1 9 3 dBm 1 000 Amplitude 1 1 Excursion dB 1 1 1 1 1 1 1 1 1 5 192 5194 5196 5198 5200 5202 5204 5206 5208 PASS 0 Frequency MHz Peak Excursion Measurement 5200 MHz 69413 UNII xls 2 29 28 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 689592. vddxtal vdd2060vco vec_radio 133 vdd2060pad BLMISAG121SN 100pF NPp 2pF L25 vec3ar 060 dvdd pin decoupling eae BLMISAGI2ISN CE N N 2 2 9 2 gt gt U13 U12 5 5GHz Balun Says SBP amin 1 55 5 DIFF2 1295 41 55 0 150 75 7 7327 D 22 r 2060 NC DFI gt dl 3 cal 5 5 gt 25 27 2060 2 adc vcm 68K GND 7 m 33 ep fo 2060 C9 6 vo 31 vco in 2060 10 0 75 30 bias 2060 39 C207 luF 42060 pwr det 0603 4 18 aphy tx ip R84 1 19 aphy tx in U7E clk_out txqp E xtal in txqn a a INRSSI xtal_in2 sri_di Z Z Z Z E IWRSSI ga 1 1 1 1 rssinb 2060 D3 sri c D 881 rssiwb_2060 El sri_e 551 Sido 1 sri 1 d aphy pa pddet E2 XTSSI5 18pF 20MHz 22 777 16 rssinb 2060 8 CNTRL 0 out rssi_nb 15 msiwb 2060 58 APHY EXT GAIN 1881 wb 28 aph m APHY EXT LNA PU a p _ route 29 apy m qn 96 8 do 9 2 gt aphy_ ip _ aphy sic AN 26 100
3. 124224 mm d Y Band Edge Signal Radiated Field Strength at 5150 MHz Frequency Level Pol 15 209 15 Detector Azimuth Height Comments MHz dBuv m vh Limit Margin PKQP Avg degrees meters 5147 380 445 V 540 95 AVG m 11 2 5149 170 612 V 740 428 PK 5149800 377 H 540 463 32 5149580 488 H 740 252 PK 32 10 J 4X4 Other Spurious Radiated Emissions Frequency Level Pol 15 209 15 Detector Azimuth Height Comments MHz jdBuV m vh Limit Margin PKQP Avg degrees meters 110358 870 469 V 540 41 AVG 22 110360 700 453 H 550 97 AVG 63 17 115539 330 423 V 560 437 AVG 6 10 110358 870 553 V 740 487 PK 22 10 10360 700 510 H 740 230 PK 63 17 15539330 475 V 740 265 PK 6 10 For emissions in restricted bands the limit of 15 209 was used For all other emissions the limit was set to 21dBm MHz 68dBuV m 69413 UNII xls 3 4 08 Tx Flat Omni UNII Page 16 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number J 68959 Model SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E 55 210 gt 85xx remote control Enable Max Hold Log
4. Dd 2 AAAA AAAA ARARA AA AAAA AA aA ee LEEA d Lim mel i m c Elliott Fig 4 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 6 Operator s Manual for Summit Data Communications Model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors 9 Pages File R70600 Rev 1 Appendix Page 6 of 10 Summit Manufacturing Utility SMU Guide 03 20 08 Summit Data Communications Inc Summit Manufacturing Utility SMU Guide Software Version 2 01 for Windows CE and Windows Mobile Summit Data Communications Inc i CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 Table of Contents 1 0 SUMMIT PRODUCTS AND SUMMIT SOFTWARE cccssssscssssscccsssscccsssscccssssscccsssecccsssssecescccessnees 1 1 1 SUMMIT SORT WARE Alder Neue eo se He eee lca i 1 1 2 INSTALLING SUMMIT SOFTWARE 02 0 eere cde ve sehe 2 13 INSTALLING THE 2 14 LOADING 3 15 REMOVING SMU FROM THE DEVICE 3 2 0 THE SUMMIT MANUFACTURING 4 2
5. 1769413 UNII xls UNII RF Port 2 29 Page 25 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 T Log Number 169413 Account Manager Dean Eriksen 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Contact Seide Standard 15 247 15 E 55 210 Class N A Run 2 Peak Excursion Measurement Device meets the requirement for the peak excursion Peak Excursion dB Peak Excursion dB Peak Excursion dB MHz MHz MHz 5180 5260 130 5500 no 5200 5300 50 560 50 5240 50 130 5700 150 69413 UNII xls 2 29 Page 26 of 36 Elliott EMC Test Data Summit Data Communications Job Number 68959 T Log Number 169413 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E RSS 210 Plots Showing Peak Excursion Trace RBW VBW 3MHz Peak hold Class N A Trace B RBW 1 MHz VBW 3MHz Integrated average power Sampled Plot 0 and Peak Plot 1 Traces Amplitude TUA TET AM AU il 5178 5180 5182 5184 5186 Frequency MHz 1 0 1 1 5172 5174 5176
6. NP 100 NP aphy sri C8 DD aphy_sri_di B9 ANC aphy pa pd D6 dg SS _ _ z 2244 airline H aphy synth pu AIO SyNTH pU 5 23 vtsense vtsense_flt 3 a 0 50550 50 BCM4318E BCM2060WW R82 g 1 2k_NP i WCFB 108AG Size Number Revision B WCFB 108AG V02 S3 Rev 04 Date 6 Dec 2007 Sheet 40f6 2 3 4 5 File CADocuments and SettingsJimmy IIBMGIEByOSAG V04 DDB 109 1 6 tr sw tx pu ant sw selp 1C217 1 6 L28 m SpF NP 10 4 12 19 4 gnd _ 10 122 5 6 rx in IX H 1 6 antl _ _ 126 0805 00uF NA 413 E 2 U18 2 2 BPF LFB215G37 2060 3 DIFF2 SE rf_out 7 2 d 3 2060 4 DIFFI NC ow RR b 2 8 5 5 5GHz Balun 1 8 NP vec_radioO Title WCFB 108AG Size Number Revision B WCFB 108AG V02 54 Rev 04 Date 6 Dec 2007 Sheet 5016 2 3 4 5 File CADocuments and SettingsJimmy 8 V04 DDB U7C 3_3 gs PCMCIA SEL UART CLK 4 7K E UART RX UART RTS L
7. dB File R70600 Rev 1 Page 21 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 SAMPLE CALCULATIONS RADIATED EMISSIONS Receiver readings are compared directly to the specification limit decibel form The receiver internally corrects for cable loss preamplifier gain and antenna factor The calculations are in the reverse direction of the actual signal flow thus cable loss is added and the amplifier gain is subtracted The Antenna Factor converts the voltage at the antenna coaxial connector to the field strength at the antenna elements A distance factor when used for electric field measurements above 30MHzZz is calculated by using the following formula 200610 Dm Ds where Distance Factor in dB Dm Ds Measurement Distance in meters Specification Distance in meters For electric field measurements below 30MHz the extrapolation factor is either determined by making measurements at multiple distances or a theoretical value is calculated using the formula Fd 40 LOG10 Dm Ds Measurement Distance is the distance at which the measurements were taken and Specification Distance is the distance at which the specification limits are based The antenna factor converts the voltage at the antenna coaxial connector to the field strength at the antenna elements File R70600 Rev 1 Page 22 of 23 Elliott Laboratories Inc EMC Department Test Report Report Date
8. i th Frequency Level Pol 15209 15E Detector Azimuth Height Comments dBuV m Limit Marin PKQP Avg degrees metes y O 5178 100 1004 f AVG 39 10 Fundamental 5178 100 1060 PK 319 10 Fundamental 5178 520 963 V AVG 29 13 Fundamental 5178520 1025 V PK 29 13 Fundamental Band Edge Signal Radiated Field Strength at 5150 MHz Frequency Level Pol 15 209 15 Detector Azimuth Height Comments MHz 0 V H Limit Margin PKQP Avg degrees meters 5149930 430 540 110 AVG 319 10 5149 940 408 V 540 432 AG 29 13 53149 170 560 V 740 480 PK 29 13 5 5147 520 445 H 740 295 PK 39 Other Spurious Radiated Emissions Frequency Level Pol 15 209 15 Detector Azimuth Height Comments MHz jdBuV m Limit Margin PKQP Avg degrees metes 110359 740 450 V 540 90 AVG 273 10 110360 160 445 550 105 AVG 96 10 115538 660 425 V 560 435 AVG 19 110359 740 514 V 740 226 PK 273 10 10360 160 494 H 740 246 PK 96 10 15538660 471 V 740 269 PK 30 19 For emissions in restricted bands the limit of 15 209 was used For all other emissions the limit was set to Note 1 27dBm MHz
9. 3 0 Radiated Emissions 30 to 1000 3 6 Radiated Emissions 1000 to 40000 6 0 File R70600 Rev 1 Page 8 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EQUIPMENT UNDER TEST EUT DETAILS GENERAL The Summit Data Communications model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors is an 802 11a g compliant wireless LAN radio module which is designed to provide wireless local area networking connectivity Normally the EUT would be embedded in various types of mobile and stationary computing devices such as handheld and vehicle mounted data terminals during operation The EUT was therefore placed on a tabletop during emissions testing to simulate the end user environment The electrical rating of the EUT is 3 3 VDC 5 With typical power consumption of 400 mA 1320mW while in transmit mode 180 mA 594mW while in receive mode and 10 mA 33 mW while in standby mode The sample was received on November 19 2007 and tested on November 27 December 11 and December 19 2007 and January 24 February 29 and March 4 2008 The EUT consisted of the following component s Manufacturer Model Description Serial Number FCC ID Summit Data SDC CF10AG Compact Flash TWG Communications Module SDCCF10AG Note The EUT was tested using an extender card that allowed for the card to be outside of the host system ANTENNA SYSTEM There were three antennas in
10. Client Summit Data Communications Job Number 68959 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors T Log Number 169413 Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E 855 210 Class N A Plots Showing Out Of Band Emissions RBW VBW 1MHz Amplitude dBm Out OF Band Spurious Emissions 802 114 at 5240 MHz 10 0 0 0 10 0 20 0 30 0 40 0 50 0 60 0 UULITT mmmTIIImMIuTUg 30 0 5000 0 10000 0 15000 0 20000 0 25000 0 30000 0 35000 0 40000 Frequency MHz Plots Showing Out Of Band Emissions RBW VBW 100kHz Out Amplitude dBm Of Band Spurious Emissions 802 11 at 5240 MHz 0 0 10 0 20 0 30 0 40 0 50 0 60 0 70 0 5230 5235 5240 5245 5250 5255 5260 5265 5270 5275 5280 5285 5290 5295 5300 Frequency MHz 1769413 UNII xls UNII RF Port 2 29 Page 32 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number J 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E RSS 210 Class N A Mod
11. Model T Log Number 169413 SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 2 0 1 5232 15 247 15 855 210 Plots Showing Peak Excursion Trace A RBW VBW 3MHz Peak hold Trace B RBW 1 MHz VBW 3MHz Integrated average power E Lael e 1 1 1 1 1 5238 5240 5242 5244 5246 Frequency MHz 1 1 5234 5236 Peak Excursion Plot 1 Plot 0 Amplitude 69413 UNII xls I 5238 5240 5242 5244 5246 Frequency MHz 5234 5236 Peak Excursion Measurement 5240 MHz UNII RF Port 2 29 Class N A Elliott 24 Settings For plot 0 CF 5240 00 MHz 5 50 00 MHz RB 1 000 MHz 3 000 MHz Detector Sample tt 20 Plot 0 Plot 1 RL Offset 0 00 Sweep Time 1 0s Ref Lvl 4 00DBM Max hold 60 sweepsAmp corr Settings For plot 1 CF 5240 00 MHz 5 50 00 MHz RB 1 000 MHz 3 000 MHz Detector POS Att 20 RL Offset 0 00 Sweep Time 50 0ms Ref Lvl 4 00DBM Amp corr 21 0dB MaxHold 20sweeps Peak PSD Plot 0 6 2 dBm 1 000
12. Peak PSD Plot 1 9 0 dBm 1 000 Maximum Peak Excursion dB Page 29 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 T Log Number 169413 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E 55 210 Class N A Run 3 Out Of Band Spurious Emissions Antenna Conducted Maximum Antenna Gain 5 1 dBi Spurious Limit 27 dBm MHz eirp Limit Used On Plots 921 32 1 dBm MHz The 27dBm MHz limit is an eirp limit The limitfor antenna port conducted measurements is adjusted to take into Note 1 consideration the maximum antenna gain limit 27dBm antenna gain Radiated field strength measurements for signals more than 50 2 from the bands and that are close to the limit are made to determine compliance as the antenna gain is not known at these frequencies ote 2 All spurious signals below 1GHz are measured during digital device radiated emissions test ote 3 Signals within 10MHz of the 5 725 or 5 825 Band edge are subject to a limit of 17dBm EIRP ote 4 If the device is for outdoor use then the 27dBm eirp limit also applies in the 5150 5250 MHz band ote 5 ignals that fall in the restricted bands of 15 205 are subject to the limit of 15 209 Plots Showing Out Of Band Emissions 100 2 Out Of Band Spurious Emissions 802 11a at 5180 MH
13. Summit Data Communications Inc 5 CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 The table below shows the channels and the nominal maximum transmit power values that are supported in each regulatory domain with V2 01 Domain 2 4 GHz 5 GHz AG radio only Channels Tx 11b Channels Tx FCC 1 11 18 dBm UNII 1 and UNII 3 14 dBm ETSI 1 13 18 dBm UNII 1 UNII 2 and Intermediate 14 dBm TELEC 1 14 17dBm UNII 1 and UNII 2 plus 14 dBm additional channels 34 38 42 46 WorldWide no 802 11d 1 11 17dBm UNII 1 14 dBm WorldWide 802 11d 18 dBm All 14 V2 01 of Summit software supports performance optimized version of IEEE 802 11d ratified standard for the operation of a wireless LAN client radio in multiple regulatory domains This 802 11d support ensures that a Summit radio that is programmed for the WorldWide regulatory domain can adjust its 2 4 GHz and 5 GHz channel sets and maximum transmit power settings to match those for the country specified in the Country information element transmitted in an access point s AP s association response To take advantage of 802 11d support in Summit software and ensure optimal performance an organization that uses devices with Summit radios must make sure that every AP on the wireless LAN supports 802 11d specifies the correct Country information element and broadcasts its SSIDs The device manufacturer or othe
14. 14 cadl4 a9 10 PCI_AD_27 lt 14 a9 26 a0 ccbell a8 11 PCI AD 26 2 2 ccbell a8 cad25 al N14 PCI AD 25 cadl8 7 12 cadl amp a7 vcc3 3 cad24_ a2 MI2 Fan ccbe3l regl 13 cserrl_waitl R80 023 23 Lid PCI_AD_24 PCI 3 vcc3 420 26 14 2 PCI AD 23 PCI CBE L 2 cad20_26 cad22 a4 114 ccbell a8 cad21 a5 15 PCI AD 22 PCI CBEL 1 2 421 a5 cad21 a5 ccbeOl_cell cad22 a4 16 ccbeOl cell 920 Ki2 PCI AD 21 PCI CBE L 0 fr 17 cad22 a4 PCLAD 20 PCI FRAME L a ag 00323 TAKE sg PCLAD 19 PCLIRDY L 19 04 2 ET cadu a zy PCLAD 18 PCI TRDY L Su 39 7 425 1 ae AD 17 PCI DEVSEL L A a0 H10 cstopl_d14 cad27_d0 21 Glo 16 5 1 cad27 40 1 cadis PCI AD 15 PCI L 0 Cad 0125 di cadi4 a9 10 cserrl_waitl d2 23 d13 PCI AD 14 PCI SERR L celkrunl wp R178 rfu 42 Fig PCLAD_13 TT cclkrunl wp dii bal FIT PCLAD 12 PCLINT_L 10K cad21 cd21 2 PCI AD 11 PCI RST 1 R179 10 12 2 411 27 PCI AD 10 PCI CLK ccd2 411 cad9 10 E13 94 412 28 d8 15 PCI AD 9 PCI PME L cade dii 39 ccd4 412 PCI AD 8 PCI IDSEL vec3_3 OO 413
15. 21 Sep 08 Cal Due 24 May 08 24 Aug 08 06 Nov 08 Cal Due 24 May 08 09 Oct 08 24 Aug 08 Cal Due 21 Feb 08 Cal Due 24 May 08 08 Nov 08 24 Aug 08 29 May 08 Cal Due 25 Jan 08 2 of 3 Conducted Emissions Power Ports 28 Jan 08 Engineer Peter Sales Manufacturer Rohde amp Schwarz Elliott Laboratories Hewlett Packard Rohde amp Schwarz Description Test Receiver 0 009 30 MHz LISN FCC CISPR EMC Spectrum Analyzer 9 KHz 26 5 GHz Pulse Limiter Radiated Emissions 1000 40000 MHz 04 Mar 08 Engineer Pete Sales Manufacturer EMCO Hewlett Packard Hewlett Packard Hewlett Packard EMCO EMCO File T69413_FCC_UNII Description Antenna Horn 1 18 GHz Microwave Preamplifier 1 26 5GHz Head Inc W1 W4 1143 1144 Red Spectrum Analyzer 30 Hz 40 GHz SV SA40 Red Antenna Horn 18 26 5 GHz SA40 Red Antenna Horn 26 5 40 GHz SA40 Red Test Equipment Emissions Model ESH3 LISN 3 OATS 8593EM ESH3 22 Model 3115 8449B 84125C 8564E 84125C 3160 09 84125C 3160 10 84125C Asset 215 304 1141 1398 Asset 487 870 1145 1148 1150 1151 Cal Due 29 Mar 08 18 Jul 08 29 Nov 08 05 Feb 08 Cal Due 24 May 08 08 Nov 08 16 Nov 08 24 Aug 08 05 Nov 08 05 Nov 08 3 of 3 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 2 Test Measurement Data 36 Pages File R70600 Rev 1 Appendix
16. 68dBuV m 1769413 UNII xls 3 4 08 10 0136 Elliott EMC Test Data Client Summit Data Communications Job Number J 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E RSS 210 Model gt 85xx remote control Enable Max Hold mM Log scale scaling assumes units are dB units with correction Factor applied 2 5 5125 0 MHz Dive E Signal Center F 9 5125 000 EIE Freq Span 9 100 000 Ref Lvl 3 75 0 lt gt auto Step 125 00 onfigure analyzer with new settings update correction Factor 0 000010 5125 000 100 000t 5175 000 Note final measurements made using a span if you want to avoid measuring a signal within 1 5MHz of the highest signal in the screen above you will need to utilize USE CURRENT as the detector Remember to set RB and VB for the measurment gt 85xx remote control Enable Max Hold Log scale scaling assumes units are dB units with correction Factor applied 2 5 5125 0 MHz Center 3 5125 000 BENI Freq Span 9 100 000 Ref Lvl 80 0 gt auto CF Step 125 00 A 1 000000 5125 000 in 100 000 sto 80 0 Positive Peak Note final measurements made using a 3MHz span
17. Peak Excursion Plot 1 Plot 0 Amplitude SS A EEE 1 1 1 1 5178 5180 5182 5184 5186 Frequency 2 5 0 1 1 1 5172 5174 5176 Peak Excursion Measurement 5180 MHz 1769413 UNII xls UNII RF Port 2 29 Elliott A Settings for plot 0 5180 00 MHz 5 50 00 MHz RB 1 000 MHz 3 000 MHz Detector Sample Plot 0 Plot 1 Att 20 RL Offset 0 00 Sweep Time 1 05 Ref Lvl 8 00DBM Max hold 60 sweepsAmp corr Settings For plot 1 CF 5180 00 MHz 5 50 00 MHz RB 1 000 MHz VB 3 000 MHz Detector POS Att 20 RL Offset 0 00 5188 Sweep Time 50 0ms Ref Lvl 8 00DBM Amp corr 21 0dB MaxHold 20sweeps Peak PSD Plot 0 6 0 1 000 Peak PSD Plot 1 8 5 dBm 1 000 Maximum Peak Excursion dB 5188 Page 27 of 36 Elliott EMC Test Data Client Summit Data Communications J ob Number 68959 T Log Number 69413 Account Manager Dean Eriksen 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Contact Ron Seide Standard 15 247 15 E RSS 210 Class Plots Showing Peak Excursion Trace A RBW VBW 3 2 Peak hold Trace B RBW 21 MHz VBW 3MHz Integrated average power Sampled Plot 0 and Peak Plot 1 Traces
18. Run 1b Tx Radiated Spurious Emissions 30 40000 MHz 5150 5250 MHz Center Channel 5200 MHz Full Power settting Flat Omni Antenna with 5dBi Rate 54Mbps Other Spurious Radiated Emissions Frequency Level Pol 15209 15247 Detector Azimuth Height Comments MHz jdBuV m vh Limit Margin PKQP Avg degrees meters 110400 630 464 V 540 46 AVG 286 10 110400 060 445 550 105 AVG 330 17 7 115600 940 432 V 560 128 AVG 270 10 110400 630 55 7 V 740 183 PK 286 10 0400 060 496 740 244 PK 30 17 15600940 485 V 740 255 PK 20 10 2 For emissions in restricted bands the limit of 15 209 was used For all other emissions the limit was setto Note 1 27dBm MHz 68dBuV m 69413 UNII xls 3 4 08 Tx Flat Omni UNII Page 18 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E RSS 210 Class N A Model Run 1 Tx Radiated Spurious Emissions 30 40000 MHz 5150 5250 MHz Band High Channel 5240 MHz Full Power settting Flat Omni Antenna with 5dBi Rate 54Mbps i th Frequency Level Pol 15209 15E Detector Azimuth Height Commens dBuvim wh Limit Marg
19. if you want to avoid measuring a signal within 1 5MHz of the highest signal in the screen above you will need to utilize USE CURRENT as the detector Remember to set RB and VB for the measurment 1769413 UNII xls 3 4 08 Tx Laird PCB Page 11 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number 169413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 RSS 210 Class N A Model Run 1b Tx Radiated Spurious Emissions 30 40000 MHz 5150 5250 MHz Center Channel 5200 MHz Full Power settting Laird PCB Antenna with 5 1dBi Rate 54Mbps Other Spurious Radiated Emissions Frequency Level Pol 15209 15247 Detector Azimuth Height Comments MHz jdBuV m Limit Margin PKQP Avg degrees metes 110401 350 450 V 540 90 AVG 315 10 110400 580 450 H 550 100 AVG 33 16 115601 070 429 560 431 AVG 123 10 110400 580 536 H 740 204 PK 335 16 110401 350 531 V 740 209 PK 35 10 115601 070 477 740 263 PK 123 10 ee ek thos se eae For emissions in restricted bands the limit of 15 209 was used For all other emissions the limit was set to 27dBm MHz 68dBuV m T69413 UNI
20. 000 MHz 12 Dec 07 Engineer Mehran Birgani Manufacturer Description EMCO Antenna Horn 1 18 GHz Hewlett Packard Microwave Preamplifier 1 26 5GHz Hewlett Packard SpecAn 30 Hz 40 GHz SV SA40 Red EMCO Antenna Horn 18 26 5 GHz SA40 Red EMCO Antenna Horn 26 5 40 GHz SA40 Red Hewlett Packard High Pass filter 8 2 GHz Red System File T69413_FCC_UNII Test Equipment Emissions Model Asset 8449B 870 3115 1142 P N 84300 80038 84125C 1391 8564E 84125C 1393 Model Asset 8449B 870 3115 1142 P N 84300 80038 84125C 1391 8564E 84125C 1393 Model Asset 3115 487 8449B 870 8593EM 1319 P N 84300 80038 84125C 1391 Model Asset 3115 487 8564E 84125C 1393 8449B 1780 Model Asset 8564E 84125C 1148 Model Asset 3115 487 8449B 870 8564E 84125C 1148 ESN 1332 3148 1404 3110B 1497 Model Asset 3115 1142 8564E 84125C 1393 8449B 1780 Model Asset 3115 487 8449B 870 8564E 84125C 1148 3160 09 84125C 1150 3160 10 84125C 1151 P N 84300 80039 84125C 1152 Cal Due 15 Nov 07 07 Jun 08 29 May 08 17 Jan 08 Cal Due 15 Nov 07 07 Jun 08 29 May 08 17 Jan 08 Cal Due 24 May 08 15 Nov 07 18 May 08 29 May 08 Cal Due 24 May 08 17 Jan 08 06 Nov 08 Cal Due 24 Aug 08 Cal Due 24 May 08 08 Nov 08 24 Aug 08 21 Dec 07 30 Mar 08 03 Jul 08 Cal Due 07 Jun 08 17 Jan 08 06 Nov 08 Cal Due 24 May 08 08 Nov 08 24 Aug 08 05 Nov 08 05 Nov 08 15 Oct 08
21. 1 tha Oe ct 4 2 2 SMU CONFIGURABLE 5 5 4 2 2 1 Unit Setting Administrative 4 2 2 2 Unit Setting Import Export eie iei e eer prre er 4 2 2 3 Regulatory DOMN ERR ee e A eee aee 5 224 NMBIMETOOT COCKISTENC Exc cane E 6 2 2 5 Max Antenna Adjust Antenna 6 APPENDIX FCC INFORMATION 8 Summit Data Communications Inc ii CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 1 0 Summit Products and Summit Software Thank you for choosing one of the following radio modules or cards from Summit Data Communications Inc SDC CF10G 802 11g compact flash radio module with antenna connectors SDC PC10G 802 11g PCMCIA radio module with antenna connectors SDC MCF10G 802 11g miniature compact flash radio module with antenna connectors SDC CF20G 802 11g compact flash radio card with integrated antennas SDC PC20G 802 11g PCMCIA radio card with integrated antennas 5 802 11 compact flash radio module with antenna connectors 5 10 802 11 PCMCIA radio module with antenna connectors For an overview of Summit products go to http www summitdatac
22. 1 5290 0 MHz RE ee Horizontal 77 Center F 5290 000 Freq Span 100 000 Ref Lvl 3 80 0 AUTO CF Step 0 125 00 1 000000 5340 000 5000 Note final measurements made using a 3MHz span if you want to avoid measuring a signal within 1 5MHz of the highest signal in the screen above you will need to utilize USE CURRENT as the detector Remember to set RB and VB for the measurment T69413 FCC UNII xls 3 4 08 Tx Laird PCB UNII Page 14 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E 855 210 Class N A Model Radiated Emissions Test Specific Details The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above Date of Test 3 4 2008 0 00 Config Used 1 Test Engineer Peter Sales Config Change None Test Location SVOATS 1 EUT Voltage Powered from Host System General Test Configuration The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing For radiated emissions testing the measurement antenna was located 3 meters from the E
23. 1 of 3 Radio Spurious Emissions 14 Dec 07 Engineer Suhaila Khushzad Manufacturer Description EMCO Antenna Horn 1 18 GHz SA40 Red Hewlett Packard Hewlett Packard Microwave Preamplifier 1 26 5GHz SpecAn 9 kHz 40 GHz FMT SA40 Blue Radio Spurious Emissions 19 Dec 07 Engineer Suhaila Khushzad Manufacturer Description EMCO Antenna Horn 1 18GHz Hewlett Packard Hewlett Packard Microwave Preamplifier 1 26 5GHz SpecAn 30 Hz 40 GHz SV SA40 Red Radiated Emissions 30 16 000 MHz 20 Dec 07 Engineer Mehran Birgani Manufacturer Description EMCO Antenna Horn 1 18GHz Hewlett Packard Hewlett Packard Microwave Preamplifier 1 26 5GHz SpecAn 30 Hz 40 GHz SV SA40 Red Conducted Emissions AC Power Ports 21 Dec 07 Engineer Rafael Varelas Manufacturer Description Elliott Laboratories LISN FCC CISPR Rohde amp Schwarz Pulse Limiter Hewlett Packard Rohde amp Schwarz SpecAn 30 Hz 40 GHz SV SA40 Red Test Receiver 9 7 2750 MHz Radio Antenna Port Power and Spurious Emissions 07 Jan 08 Engineer Suhaila Khushzad Manufacturer Description EMCO Antenna Horn 1 18 GHz Hewlett Packard Hewlett Packard SpecAn 30 Hz 40 GHz SV SA40 Red Microwave Preamplifier 1 26 5GHz Radio Spurious Emissions 10 Jan 08 Engineer Suhaila Khushzad Manufacturer Description EMCO Antenna Horn 1 18 GHz Hewlett Packard Hewlett Packard EMC Spectrum Analyzer 9 kHz 6 5 GHz SpecAn 30 H
24. 13M amp 15407611 Antenna Conducted 15 407 b Emissions atthe Bandedges are Out of Band Spurious under the 27dBm MHz limit Modifications Made During Testing No modifications were made to the EUT during testing Deviations From The Standard No deviations were made from the requirements of the standard T69413 UNII xls UNII RF Port 2 29 Page 21 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 T Log Number 69413 Account Manager Dean Eriksen 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Contact Seide Standard 15 247 15 E 55 210 Class N A Run 1 Bandwidth Output Power and Power spectral Density Antenna Gain dBi 5 1 MHz Setting 2648 90 Measured Limit Watts Measured FCC Limit RSS Limit 5180 0021 27 40 49 Pass 5200 0025 34 40 49 Pass 5240 0023 30 40 49 1 2 VB 3 MHz sample detector power averaging on transmitted signal was not continuous but the ESI Note 1 analyzer was configured with a gated sweep such that the analyzer was only sweeping when the device was transmitting and power integration over 50MHz Measured using the same analyzer settings used for output power For RSS 210 the limit for the 5150 5250 MHz band accounts for the antenna gain as the maximum eirp allowed 15 10dBm MHz The limits are also corrected for insta
25. CISPR adapter This network provides for calibrated radio frequency noise measurements by the design of the internal low pass and high pass filters on the EUT and measurement ports respectively File R70600 Rev 1 Page 12 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 FILTERS ATTENUATORS External filters and precision attenuators are often connected between the receiving antenna or LISN and the receiver This eliminates saturation effects and non linear operation due to high amplitude transient events ANTENNAS A loop antenna is used below 30 MHz For the measurement range 30 MHz to 1000 MHz either a combination of a biconical antenna and a log periodic or a bi log antenna is used Above 1000 MHz horn antennas are used The antenna calibration factors to convert the received voltage to an electric field strength are included with appropriate cable loss and amplifier gain factors to determine an overall site factor which is then programmed into the test receivers or incorporated into the test software ANTENNA MAST AND EQUIPMENT TURNTABLE The antennas used to measure the radiated electric field strength are mounted on a non conductive antenna mast equipped with a motor drive to vary the antenna height Measurements below 30 MHz are made with the loop antenna at a fixed height of 1m above the ground plane ANSI C63 4 2003 specifies that the test height above ground for table mounted device
26. RSS 310 tables 3 and 4 RSS 210 table 2 and FCC Part 15 Subpart C section 15 209 Limit Limit uV m dBuV m Q 3m MHz 0 009 0 490 2400 300m 67 6 20 10 300m 0 490 1 705 24000 F 30m 87 6 20 10510 2 30m 1 705 to 30 30 30m 29 5 30m 30 to 88 100 4 3m 40 3m 88 to 216 150 4 3m 43 5 3m 216 to 960 200 3m 46 0 3m 960 500 3m 54 0 3m FCC 15 407 OUTPUT POWER LIMITS The table below shows the limits for output power and output power density Where the signal bandwidth is less than 20 MHz the maximum output power is reduced to the power spectral density limit plus 10 times the log of the bandwidth in MHz Operating Frequenc Power Spectral P MHz y Output Power gue ty 5150 5250 50mW 17 dBm 4 dBm MHz 5250 5350 250 mW 24 dBm 11 dBm MHz 5725 5825 Watts 30 dBm 17 dBm MHz For system using antennas with gains exceeding 6dBi the output power and power spectral density limits are reduced by 14 for every dB the antenna gain exceeds 6dBi Fixed point to point applications using the 5725 5825 MHz band may use antennas with gains of up to 23dBi without this limitation If the gain exceeds 23dBi then the output power limit of 1 Watt is reduced by 1dB for every dB the gain exceeds 23dBi The restricted bands are detailed in FCC 15 203 RSS 210 Table 1 an
27. SPECIFICATION LIMITS eee 20 15 407 A OUTPUT POWER 20 OUTPUT POWER AND SPURIOUS LIMITS UNII DEVICES eese enn eene 21 SAMPLE CALCULATIONS CONDUCTED 21 SAMPLE CALCULATIONS RADIATED EMISSIONS 22 SAMPLE CALCULATIONS FIELD STRENGTH EIRP e 23 File R70600 Rev 1 Page 3 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 TABLE OF CONTENTS Continued EXHIBIT 1 Test Equipment Calibration 1 EXHIBIT 2 Test Measurement 2 EXHIBIT 3 Photographs of Test Configurations 3 EXHIBIT 4 Proposed ID Label amp Label Location eese tenente nennen 4 EXHIBIT 5 Detailed Photographs eese eene nere nre rentre netten entren trennen nene 5 EXHIBIT 6 Operator s Manual EXHIBIT 7 Block Diagram aaa m dae eiae e ee eee a e Re ee tee epa EXHIBIT 6 Schematic Diagrams EXHIBIT 9 Theory of Operation EXHIBIT 10 RF Exposure Information eese eese eene teeth rennen en rennen tenente 10 File R70600 Rev 1 Page 4 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 SCOPE An electromagnetic emissions test has been performed on the Summit Data Communications model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connector
28. the Summit software developer s kit or SDK and programmatically does the following e Gathers the specified settings Calls SetGlobalSettings Commit Changes Calls updateSROM Unit Settings Admin Override O 0 OFF import export 7 ON OFF It takes about 30 seconds from when you tap the button to __ 2 2 SMU Configurable Settings There are two types of global settings that can be configured only through SMU e Unit Settings Stored in the registry of the unit on which SMU is run e Card Settings Stored in the SROM on the radio module or card If you move the card from one device to another the card will retain these settings provided that the device is running a version of the driver as current as the version with which SMU was used 2 2 11 Unit Setting Administrative Override When the administrative override setting is On then the Admin Login button is removed from the SCU Main window and SCU considers the user in Admin mode 2 2 2 Unit Setting Import Export When the import export setting is On then a user logged into SCU as an administrator will see an Import Export button on the SCU Main window as shown on the next page By tapping that button the user will view a dialog box on which he or she can e Export global settings all standard SCU profiles and the special ThirdPartyConfig profile from the SCU area of a device s registry to a file that can be transferred to another devi
29. 000 Frequency MHz Run 2 AC Power Port Conducted Emissions 0 15 30MHz 120V 60Hz Coninued Next Page 1769413 UNII xls 28 Jan 08 7 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 Model SDC CF10AG 802 11a g T Log Number T69413 Compact Flash Module with Antenna Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E 55 210 MHz dB uV Line 0 167 0 165 0 169 0 180 ine 1 0 184 0 172 ine 1 0 169 eutra 0 165 0 167 ine 1 0 184 0 172 0 180 1769413 UNII xls 1855 55022 Detector Comments Limit Margin QP Ave 651 95 QP 652 95 QP 650 409 QP 645 411 QP 643 117 QP 649 118 QP 551 270 4 543 272 AVG 24 549 273 545 275 AVG 4 AC CE 28 Jan 08 Page 8 of 36 Elliott EMC Test Data Client Summit Data Communications ob 68959 Model SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E 855 210 Class IN A Radiated Emissions FCC Part 15E RSS 210 A9 RSS GEN Test Specific Details The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed abov
30. 15 E RSS 210 Class Immunity 5 tandard s Environment Test Configuration 1 The following information was collected during the test session s Local Support Equipment Manufacturer Description Serial Number FCC ID hoc ue deo lc dm coo oe ij Remote Support Equipment _ Model Descrpion Serial Number FCC ID Hewlett Packard Handheld Computer y 2 Cabling and Ports TUE Description Shielded or Unshielded Length m Power Unshielded Flash Module Module Pot EUT Operation During Emissions Tests During emissions testing the EUT was configured to transmit atthe Low Middle and High Channel T69413 Test Configuration 1 Page 3 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 T Log Number 169413 Account Manager Dean Eriksen 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Contact Seide Standard 15 247 15 E 55 210 Class Conducted Emissions Power Ports Test Specific Details Objective The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above Date of Test 1 28 2008 22 01 Config Used 1 TestEngineer Peter Sales Config Change None TestLocation SVOATS 2 EUT Voltage 120V 60Hz 230V 50Hz General Test Configurat
31. 5 247 15 RSS 210 Class N A Model Run 3 Rx Mode Radiated Spurious Emissions 30 40000 MHz Operating Mode 802 11a Larson PCB Antenna with 3 8 dBi Gain Data Rate 54 Mbps Center Channel 9 5200 MHz Other Spurious Emissions Frequency Level Pol RSS GEN Detector Azimuth Height Comments MHz jdBuV m vh Limit Margin PKQP Avg degrees meters 17815 00 457 V 540 83 AVG 271 10 7 17572 50 45 6 H 540 84 AVG 0 10 10369 33 388 H 540 452 AVG 188 10 10382 17 378 V 540 462 ave 126 10 17815 00 578 V 740 462 PK 21 10 7 15592 83 369 H 540 171 AG 0 10 17572 50 568 H 740 172 PK 0 10 1560283 367 V 540 4173 AVG 33 10 10369 33 500 740 240 PK 18 10 2 1038217 499 v 740 241 PK 126 10 15602 83 487 V 740 253 PK 332 10 2 2 1559283 486 H 740 454 PK 0 10 1769413 UNII xls Page 36 of 36 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 3 Photographs of Test Configurations 4 Pages File R70600 Rev 1 Appendix Page 3 of 10 Aer ime D wa Elliott Laboratories Inc Department Test Report Report Date Marc
32. 7 97 D13 creql_inpackl 414 30 PCI AD 7 PCI REQL 3 914 6 413 13 cgntl_wel cad8 415 31 PCI AD 6 PCI L oF cad8 415 cad5 d6 C12 cadlO 2 32 d4 12 Dip PCLAD 32 4 cadl0 PCI AD 4 CSTSCHG cvsl cad3 d5 4 3 cad13 34 13 iordl centl_wel 911 PC AD2 PCI CLKRUN L celkrunl wp nep S 5 10 5 iowrl cadi d4 14 wel 36 14 1 1052 cintl_ireql 37 cgntl_wel crstl_reset PCI AD 0 47K me centl_ireql coex1_bt_active RIII Q vec3_3C 39 19 205 mE BCM4318E 20 1 2_ 21 R113 crstl_reset 10 waitl 42 1 inpackl ccbe3l 44 35 ccbe3l 77217 25 caudio spkrl d8 47 cstschg stschgl coex2 wlan active 30 49 48 2 cad3l 49 Co 50 cad31 410 na m WCFB 108AG Size Number Revision B WCFB 108AG V02 51 Rev 04 Date 6 Dec 2007 Sheet 10f 6 File CADocuments and SettingsJimmy 08 V04 DDB 1 3 4 9 6 17 3 1 UFL 6 3 1 UFL C2 rfe main 1 6 8p C168 rfe aux 3 6 8pF pF 118 09 3pF RFI VCI ant sw seln GND GND GND OUT N RF2 vo 6 X GND GND 5408 m TLI608 3pF LIS 0805 vecgpaO 1 5nH 91 92 luF 10pF 603 120 1 dN U10 tr_sw_tx_pu R6 4 tr sw
33. 8959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E RSS 210 Class Model 85xx remote control Enable Max Hold Ml Log scale scaling assumes units are dB units with correction Factor applied 2 1 5290 0 MHz RB 2 l Center 5290 000 c5 4 Ref Lvl Step 125 00 1 000000 __ _ ST ee 5340 000 Positive Peak Note final measurements made using a 3MHz span if you want to avoid measuring a signal within 1 5MHz of the highest signal in the screen above you will need to utilize USE CURRENT as the detector Remember to set RB and VB for the measurment gt 85xx remote control Enable Max Hold Log scale scaling assumes units are dB units with correction factor applied 2 1 5290 0 MHz RB d Vertical AVG mm Center F 290 000 Ref Lvl 9 75 0 gt auto 5 j 125 00 Configure analyzer with new settings update correction MM 1 000000 0 000010 p Note final measurements made using a 3MHz span if you want to avoid measuring a signal within 1 5MHz of the highest signal in the screen abov
34. E7 UART_RI L UART CTS L 1 z 1 UART DSR UART DCD L K9 DTR L 4 GPIO 6 UART TX _ 7 01 GPIO 1 4 7K GPIO 2 gt 2 GPIO_3 coex1_bt_active 3 8 5 5 GPIO 4 2 nc sk SPROM_CLK GPIO 5 2 C004 Wlan active og di SPROM_DOUT p gnd do SPROM DIN C3 vddal 5 PLLDVDD AVSS_ADC JTAG_TRST_L PLLVDD AVSS_DAC 1 82 RGNDI TDI AVDD DAC RGNDIO TCK B4 N7 RGNDII TMS vdda2 M7 VDDXTAL RGND12 pemcia_sel pci sem 1 sdio NS VDD4W RGND13 pei 0 1 M6 cb 0 X 0 RGNDI6 sdio 1 0 X vdda3 5 VDDLO RGNDI7 N6 VDDVCO RGNDIS8 pemcia 1 1 X 3 3 vesd VDDCP RGND19 R39 VDDLF RGND2 igital supply L8 RGND20 ea poo Gu VDDPAI RGND21 VDDPA2 RGND22 246 45 RGND3 4444 VDDRX RGND4 ND VDDTX RGND5 VDDDR RGND6 RGND7 E6 RGND8 1 8A VDD2 RGND9 E8 GNDPA1 E VDD4 GNDPA2 vecl_8AO VDD5 PLLGND L7 9 L13 L12 L6 s EIL IBLM15AG121SN BLM15AG121SN IBLM15AG121SN IBLM15AG121SN BLM15AG121SN VDDBUS2 vss4 VDDBUS3 VSS5 vdda4O vdda3O vdda2O vddalO vddpaO VDDBUSA VSS6 VDDIOI VSS7 VDDIO2 VSS8 34 48 39 51 43 57 44 38 31 VDDIO3 VSSOI VDDIO4 VSSO2 luF 1000 NP 1000 1000 eub IuF m VESD VSSO3 VSSO4 5505 VSSO6 VSSO7 VSSO8 BCM4318E 05 C15 O 01uF 3 3 2 5 150 L62uH 854 vool vddcore bulk
35. F 10AG 802 11a g Compact Flash Module with Antenna Connectors Contact Seide Standard 15 247 15 E 55 210 Class Frequency EN55022 B Detector Comments MHz dBuV Line Limit Margin QP Ave 0215 431 Liel 630 499 0 0 153 449 Neutral 658 209 QP 0157 445 656 11 0 0 162 439 Neutral 654 215 QP 0 159 Lined 655 215 QP 0 173 0 215 AVG 0 157 0 153 177 Neutral 558 481 AVG 0 159 Lined 555 483 AVG 20 0162 170 Neutral 554 484 AVG 0173 162 Lined 548 486 AVG T69413 28 Jan 08 Page 6 of 36 Elliott EMC Test Data Client Summit Data Communications 100 Number 68959 Model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors T Log Number T69413 Account Manager Dean Eriksen Contact Ron Seide Standard Run 2 AC 15 247 15 E R55 210 Power Port Conducted Emissions 0 15 30MHz 120V 60Hz Class Line a D a a a a 70 0 45 0 40 0 35 0 30 0 25 0 20007 0 150 1 000 Frequency MHz 65 0 60 0 55 0 m 50 0 5 Lu Neutral 70 0 65 0 60 0 55 0 50 0 45 0 40 0 35 0 30 0 25 0 200 1 31 0 150 1
36. H A tiem ee xau T Interface 00 60822 ii 05 1 Conector UT AZ Connector 40 3 Low Dropout Regulator Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 8 Schematic Diagrams for Summit Data Communications Model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors 6 Pages File R70600 Rev 1 Appendix Page 8 of 10 WCFB 108AG V04 SI WCFB 108AG V04 S2 WCFB 108AG V04 S3 WCFB 108AG V04 S4 WCFB 108AG V04 S5 WCFB 108AG V04 SI SCH WCFB 108AG V04 S2 SCH WCFB 108AG V04 S3 SCH WCFB 108AG V04 S4 SCH WCFB 108AG V04 55 5 i WCFB 108AG Size Number Revision B Rev 04 Date 6 Dec 2007 Sheet 0 of 6 File CADocurrents and SettingsUimmy IDMGIEB YO 8AG_V04 DDB 2 3 4 5 6 1 3 4 5 6 J3 CONPCMCIA 4 0 43 2 edidi 3 i U7A cad3 45 E ds 7271 52 22 cadet dM P12 PCLAD 31 cud 07 46 47 cad30 d9 P13 0 cell 7 PCI AD 30 R177 T 4 cell cad29 d1 N13 cad9 10 8 PCI AD 29 cad9 10 28 d8 Lil 0 11 9 28 cad 1_ocl cad27 90
37. I xls 3 4 08 Tx Laird PCB UNII Page 12 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E 855 210 Class N A Model Run 1 Tx Radiated Spurious Emissions 30 40000 MHz 5150 5250 MHz Band High Channel 5240 MHz Full Power settting Laird PCB Antenna with 5 1dBi Rate 54Mbps th Frequency Level Pol 15209 15E Detector Azimuth Height Commens MHz dBuvim V H Limit Margin PKQP Avg degrees meters 5238200 967 V AG 22 17 5258200 1030 v PK 22 17 5238130 954 H AVG 35 12 305 4 12 Band Edge Signal Radiated Field Strength at 5250 MHz Frequency Level Pol 15 209 15 Detector Azimuth Height Comments MHz jdBuV m V H Limit Margin PKQP Avg degrees meters 52485530 650 V 683 33 AVG 22 17 sd 5250 000 741 v 883 312 PK 22 17 5DO O 5250 000 761 H 883 122 PK 35 1121 5250000 530 683 153 AVG 325 12 Other Spurious Radiated Emissions Frequency Level Pol 15 209 15 Detector Azimuth Height Comments MHz jdBuV m Limit Margin PKQP Avg degr
38. March 5 2008 The margin of a given emission peak relative to the limit is calculated as follows Rc Ry Fg and M Ls where Rr Receiver Reading dBuV m Distance Factor in dB Corrected Reading in dBuV m Lg Specification Limit in dBuV m M Margin in dB Relative to Spec SAMPLE CALCULATIONS FIELD STRENGTH TO EIRP CONVERSION Where the radiated electric field strength is expressed in terms of the equivalent isotropic radiated power eirp or where a field strength measurement of output power is made in lieu of a direct measurement the following formula is used to convert between eirp and field strength at a distance of 3m from the equipment under test E 1000000430 microvolts per meter 3 where P is the eirp Watts File R70600 Rev 1 Page 23 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 1 Test Equipment Calibration Data 3 Pages File R70600 Rev 1 Appendix Page 1 of 10 Radiated Emissions 30 26 500 MHz 11 Oct 07 Engineer Mehran Birgani Manufacturer Description Hewlett Packard Microwave Preamplifier 1 26 5GHz EMCO Antenna Horn 1 18 GHz SA40 Red Hewlett Packard Hewlett Packard High Pass filter 3 5 GHz Blu System SpecAn 9 kHz 40 GHz FMT SA40 Blue Radiated Emissions 30 26 500 MHz 12 Oct 07 Engineer jcaizzi Manufacturer Description Hewlett Packard Microwave Preamplifier 1 26 5GHz EMCO Antenna H
39. N P for Not Performed or N V for Not Available Where applicable check appropriate box 1 COMPANY NUMBER 6616A 2 MODEL NUMBER SDC CF10AG 3 APPLICANT Summit Data Communications 4 TYPE OF EVALUATION Complete the applicable sections a SAR Evaluation Device Used in the Vicinity of the Human Head b SAR Evaluation Body worn Device c RF Evaluation Note The worst case scenario i e highest measured value obtained should be reported a SAR Evaluation Device used in the Vicinity of the Human Head Multiple transmitters Yes Evaluated against exposure limits Public Use Controlled Use Duty cycle used in evaluation 96 Standard used for evaluation SAR Value W kg Measured Computed _ Calculated b SAR Evaluation Body worn Device Multiple transmitters Evaluated against exposure limits _ General Public Use Controlled Use Duty cycle used in evaluation Standard used for evaluation SAR Value W kg Measured Computed _ Calculated c RF Evaluation Evaluated against exposure limits X General Public Use Controlled Use Duty cycle used in evaluation 96 Standard used for evaluation Measurement Distance 20cm RF Value 0 16 _ V m X W m Note 10 W m 1 mW cm x Calculated NOTE Annex Required for TX Devices ATTESTATION I attest that when SA
40. Page 2 of 10 Elliott EMC Test Data Client 5 ummit Data Communications 100 Number 68959 Model 5 802 11a g Compact Flash Module with T Log Number 169413 Antenna Connectors Account Manager Dean Eriksen Contact Ron Seide Emissions 5 15 247 15 E RSS 210 Class Immunity Standard s Environment EMC Test Data For The Summit Data Communications Model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors Date of Last Test 3 27 2008 T69413 UNII xls Cover Page 1 of 36 Elliott EMC Test Data Client S ummit Data Communications J ob 68959 Model S DC CF 10AG 802 11a g Compact Flash Module with T Log Number T69413 Antenna Connectors Account Manger Eriksen Contact Ron Seide Emissions Standard s 15 247 15 E RSS 210 1855 Immunity Standard s Environment EUT INFORMATION The following information was collected during the test session s General Description The EUT is a n 802 11a g compliant wireless LAN radio module which is designed to provide wireless local area networking connectivity Normally the EUT would be embedded in various types of mobile and stationary computing devices such as handheld and vehicle mounted data terminals during operation The EUT was therefore placed on a tabletop during emissions testing to simulate the end user environment The elec
41. R or RF Exposure Evaluation testing is required and has been performed that the information provided in Annex A is correct that a Technical Brief was prepared and the information it contains is correct that the device evaluation was performed or supervised by me that applicable measurement methods and evaluation methodologies have been followed and that the device meets the SAR and or RF exposure limits of RSS 102 Mi EHE Signature Date March 5 2008 NAME lease print or type Mark Hill TITLE Please print or type EMC Staff Engineer COMPANY Please print or type Elliott Labs for Summit Communications Note 1 To obtain approval under this Standard each application for certification shall be accompanied by the duly completed RF technical brief cover sheet see Annex A and a properly signed declaration of compliance see Annex B However if the device in question meets the exemption from routine evaluation limits of Sections 2 5 1 or 2 5 2 only a properly signed declaration of compliance Annex B shall be submitted Note 2 Although submission of the RF exposure technical brief is not required for certification it shall be made available upon request for as long as the device model is marketed in Canada Note 3 In cases of exemption according to RSS 102 the information contained in the RF exposure technical brief may be limited to information that demonstrates how the e i r p or output power was derived Ellio
42. Selection device with 5725 5250 5350 MHz bands radar detection User Manual Refer to Exhibit 6 398 information for details Complies File R70600 Rev 1 Page 7 of 23 Elliott Laboratories Inc Department GENERAL REQUIREMENTS APPLICABLE TO ALL BANDS Test Report Report Date March 5 2008 FCC Rule RSS Measured Value Limit Result Part Rule part P Comments Requirement margin 15 203 Connector Complies unique connector type Receiver spurious Complies 15 109 723 22 208 90 V m 7 64 Table 1 17735 4MHz RSS Conducted Refer to Complies Table 2 Emissions standard 9 5dB Refer to MPE calculations in Exhibit Refer to OET Rss 102 11 RSS 102 declaration 65 Part 1 Complies and User Manual and RSS 102 statements RSP 100 Statement RSS GEN User Manual Complies 715 regarding non i interference MEASUREMENT UNCERTAINTIES ISO IEC 17025 requires that an estimate of the measurement uncertainties associated with the emissions test results be included in the report The measurement uncertainties given below are based on a 95 confidence level and were calculated in accordance with UKAS document LAB 34 Measurement Type Frequency Range Calculated Uncertainty MHz dB Conducted Emissions 0 15 to 30 24 Radiated Emissions 0 015 to 30
43. T Ur 11 GENERAL INFORMATION trench teh ro n e eot pede 11 CONDUCTED EMISSIONS CONSIDERATIONS 2 11 RADIATED EMISSIONS CONSIDERATIONS 11 MEASUREMENT 1 12 RECEIVER SYSTEM RERO TR RE DRE OR REIR ES 12 INSTRUMENT CONTROE COMPDBUTEER itecto tete raya ene pee een ogg 12 LINE IMPEDANCE STABILIZATION NETWORK LISN 12 FIETERS AT TENUATORS rte toam e ett RC aet s 13 ANTENNAS reete rte reponere eaqui eem eet eere ite a iret He PE 13 ANTENNA MAST AND EQUIPMENT 13 INSTRUMENT CAEIBRXATI N e 13 TEST PROCEDURES 14 EUT AND CABLE PEACEMENT cos 14 CONDUCTED EMISSIONS 14 RADIATED EMISSIONS 4 5 1 trt ort et RAN Uere gir ODER RE pde ot 14 RADIATED EMISSIONS trien t t rr ee e cas re or e de E ERE 15 BANDWIDTH MEASUREMENTS 18 SPECIFICATION LIMITS AND SAMPLE 19 CONDUCTED EMISSIONS SPECIFICATION LIMITS 15 207 FCC 15 107 RSS GEN 19 GENERAL TRANSMITTER RADIATED EMISSIONS
44. UT Ambient Conditions Temperature 10 Rel Humidity 76 46 9dBy V m 221 3u V m 9 10358 9MHz 7 14 46 4dBu V m 208 91 V m 10400 6MHz 7 6dB 48 3dBu V m 260 01 V m 10478 9MHz 5 74 Modifications Made During Testing No modifications were made to the EUT during testing Deviations From The Standard No deviations were made from the requirements of the standard All tests will be performed in data rate of 54Mbps Average band edge plots are for reference only final measurements made with 1 to avoid desensitization at 10Hz which reduced signal level 6 6dB 69413 UNII xls 3 4 08 Tx Flat Omni UNII Page 15 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E 855 210 Class N A Model Run Tx Radiated Spurious Emissions 30 40000 MHz 5150 5250 MHz Band Low Channel 5180 MHz Full Power settting Flat Omni Antenna with 5dBi Rate 54Mbps i th Frequency Level Pol 15 209 15E Detector Azimuth Height Commens dBuvim wh Limit Margin PKQP Avg degrees metes y O 5115530 1025 V AG 13 11 5175 530 1082 v PK m P 11 5178520 890 H AVG 32 10 13178520 1 98 0 1128 21 24
45. aboratories Inc Department Test Report Report Date March 5 2008 TABLE OF CONTENTS COVER 1 INSAMILOn 2 IWOno 3 SCOPE M 5 OBJECTIVE 6 STATEMENT OF 6 TEST RESULTS SUMMARY e ii iniiai 7 LELAN DEVICES ure sou ENEE OON E 7 GENERAL REQUIREMENTS APPLICABLE TO ALL BANDS 8 MEASUREMENT UNCERTAINTIEG sccsscssssssssssssssscssvssescssessesensvseesensvsceseneesessenessesseneesessesessesessessesesserseess 8 EQUIPMENT UNDER TEST EUT DETAILS eseseseseseseseseseseeseseseseseseseseseseseseseeeseseseseseseseseseseseseseseseseseseseseeeeeee 9 GENERAD rp o veta ep em ae uS 9 ANTENNA SY STEM tete eret tene dfe eeu net costo ee SY 9 ENCEOSURE 5 mo i a RO ICE Dr hr Debe ier err ERI ine 9 MODIPBICA LIONS cocto oot tir re te ote ram RO d sees D TER RAE SR as ARR 10 SUPPORT EQUIPBMEN m rte rete m er tete er e er eee eo ie iae de tle 10 EUINTEREACE eerte eoo Rees s 10 EUT OPERATION o Une ee pei qua RE 10 TEST SI
46. adjust and A Max antenna adjust is the degree of antenna attenuation expressed as a percentage of dBm not milliwatts mW with the percentage based on a TELEC 50 mW test On the next page is a table of popular dBm values and their corresponding mW values Here is an example In ETSI to ensure that the maximum 802 11b transmit power is 50 mW use 94 94 x 18 dBm 16 92 dBm 50 mW The default value is 100 Summit Data Communications Inc 6 CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 dBm mW dBm mW dBm mW 20 100 15 31 6 10 10 19 79 4 14 25 1 8 6 3 18 63 1 13 20 6 4 17 50 1 12 15 8 3 2 16 39 8 11 12 6 0 1 Beginning with 1 03 23 of Summit software the transmit power Tx Power value on SCU Status window accounts for the transmit power adjustment set in SMU As a result the displayed value is the true transmit power of the Summit radio In previous releases the Status window displayed the transmit power without the adjustment because SCU assumed that the antenna provided a gain that compensated for the adjustment With previous releases therefore the displayed value was an estimate of EIRP and not a true radio transmit power value Summit Data Communications Inc CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 Appendix FCC Information Note All declarations and instructions for t
47. al 5 1 dBi EUT Cable Ant Power Power Density S MPE Limit Freq Power Loss Gain at Ant EIRP at 20 cm MHz dBm mW dB dBi dBm mW mW cm 2 For the cases where S gt the MPE Limit Freq S 20 cm MPE Limit Distance where MHz mW cm 2 mW cm 2 5 lt MPE Limit 5180 0 013 1 000 5200 0 016 1 000 5240 0 015 1 000 69413 2 of 2
48. atories Inc Department Test Report Report Date March 5 2008 ECTIVE The primary objective of the manufacturer is compliance with the regulations outlined in the previous section Prior to marketing in the USA all unlicensed transmitters and transceivers require certification Receive only devices operating between 30 MHz and 960 MHz are subject to either certification or a manufacturer s declaration of conformity with all other receive only devices exempt from the technical requirements Prior to marketing in Canada Class I transmitters receivers and transceivers require certification Class II devices are required to meet the appropriate technical requirements but are exempt from certification requirements Certification is a procedure where the manufacturer submits test data and technical information to a certification body and receives a certificate or grant of equipment authorization upon successful completion of the certification body s review of the submitted documents Once the equipment authorization has been obtained the label indicating compliance must be attached to all identical units which are subsequently manufactured Maintenance of compliance is the responsibility of the manufacturer Any modification of the product which may result in increased emissions should be checked to ensure compliance has been maintained i e printed circuit board layout changes different line filter different power sup
49. c Elliott Elliott Laboratories Inc www elliottlabs com 408 245 7800 Phone 408 245 3499 Fax 684 West Maude Avenue Sunnyvale CA 94085 3518 Electromagnetic Emissions Test Report and Application for Grant of Equipment Authorization pursuant to Industry Canada RSS Gen Issue 2 RSS 210 Issue 7 FCC Part 15 Subpart E on the Summit Data Communications Transmitter Model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors UPN FCC ID GRANTEE TEST SITE REPORT DATE FINAL TEST DATE AUTHORIZED SIGNATORY 6616A SDCCF10AG TWG SDCCF10AG Summit Data Communications 526 South Market Suite 407 Akron OH 44311 Elliott Laboratories Inc 684 W Maude Ave Sunnyvale CA 94086 March 5 2008 November 27 December 11 December 19 2007 and January 24 February 29 March 4 2008 ff 7 gt IL Mark E Hill Staff Engineer ACCRE Testing Cert 92016 01 Elliott Laboratories Inc is accredited by the A2LA certificate number 2016 01 to perform the test s listed in this report This report shall not be reproduced except in its entirety without the written approval of Elliott Laboratories Inc File R70600 Rev 1 Page 1 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 REVISION HISTORY Rev Date Comments Modified By 1 3 6 08 Initial Release DG File R70600 Rev 1 Page 2 of 23 Elliott L
50. cal Layer Controller PHY or baseband processor and a 2 4 GHz transceiver The SDC CF10AG incorporates an external 5 GHz transceiver to allow for dual band operation To maximize operational range the SDC CF10G incorporates 2 4 GHz and 5 GHz Power Amplifiers to increase transmit power to as much as 19 dBm 80 mW and a 2 4 GHz Low Noise Amplifier to improve receiver sensitivity The frequency stability for both 2 4 GHz 802 11b and 802 119 5 GHz 802 11a operation is 20 ppm The SDC CF10G is powered by the host device into which it is installed and uses DC to DC regulator The SDC CF10AG provides four antenna connectors Hirose U FL type to support dual band transmit and receive diversity Supported host device antenna types include dipole and printed circuit board antennas Typical host devices include 1 Portable Data Terminals PDTs and 2 Vehicle Mounted Terminals VMTs For additional information please review the User s Guide which may be found at http www summitdatacom com documentation htm Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 10 RF Exposure Information 4 Pages File R70600 Rev 1 Appendix Page 10 of 10 RSS 102 Annex RF Technical Brief Cover Sheet NOTE Annex A is Only Required When Exemption Clauses of RSS 102 Are Not Met All Fields must be completed with the requested information or the following codes N A for Not Applicable
51. ce e Import global settings all standard SCU profiles and the special ThirdPartyConfig profile from a file created using the Export facility to the SCU area of a device s registry so that SCU can use it If Add to existing is selected then the imported information will be merged with information that was in the registry previously If Replace is selected then the imported information will overwrite the information that was in the registry previously Summit Data Communications Inc 4 CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 Summit Client Util 2 10 36 ok Summit Client Util 2 4 lt 10 37 ok lt Admin Logout Import Export to My Documents SummitSettin SUMMIT Disable Radio 5 Global Settings Active Profle Third Party Config Status Not Associated Profiles Radio Type BG O Add to existing 0 Replace Reg Domain FCC Die 5 v2 00 34 CU Main Profile Status Diags Global SCU window with Import Export button Import Export dialog box 2 2 3 Regulatory Domain A Summit radio s regulatory domain determines the radio s maximum transmit power and the frequency channels available to the radio Summit radios are certified for operation in three regulatory domains e FCC which is governed by the Federal Communications Commission the regulatory agency and standards body for the Americas and parts of Asia ETSI whic
52. cluded in the testing Laird Centurion m n NanoBlade pcb antenna 3 8dBi 2 45GHz 5 1dBi 4 5 25GHz 4 5dBi 5 8GHz Volex p n VLX 51004 A Omni 2 3dBi 2 4GHz 1 9dBi 5GHz Larson p n R380 500 314 Omni 1 6dBi 2 4GHz 5dBi 5GHz Note The Volex Omni was used in the 2 4GHz band and the Larson Omni was used in the 5GHz bands The Laird pcb antenna was also tested for both 2 4GHz and 5GHz ENCLOSURE The EUT does not have an enclosure as it is designed to be installed within the enclosure of a host computer or system File R70600 Rev 1 Page 9 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 MODIFICATIONS The EUT did not require modifications during testing in order to comply with emissions specifications SUPPORT EQUIPMENT The following equipment was used as local support equipment for emissions testing Manufacturer Model Description Serial Number FCC ID Hewlett Packard iPAQ Handheld Computer EUT INTERFACE PORTS The I O cabling configuration during emissions testing was as follows Cable s id CORPO Ie Shielded or Unshielded iPAQ Power Unshielded Flash Module 1 Module Port EUT OPERATION During emissions testing the EUT was configured to transmit at the Low Middle and High Channel Note the radio was unable to transmit continuously due to limitations of the host device File R70600 Rev 1 Page 10
53. cy MHz 1 43 1 43 5225 Cursor1 5231 30 3 04 Delta Freq 17 25 Cursor 2 5248 551 22 96 Delta Amplitude 26 00 1769413 UNII xls UNII RF Port 2 29 Class N A Analyzer Settings 8564 CF 5200 00 MHz 5 50 00 MHz RB 100 kHz VB 100 kHz Detector POS Att 20 RL Offset 0 00 Sweep Time 50 0ms Ref Lvl 00DBM Comments 5200 MHz 26dB Bandwidth 802 11a Elliott Analyzer Settings Rohde amp Schwarz ESI 7 5240 00 MHz SPAN 75 00 MHz RB 1 000 MHz 3 000 MHz Detector Sample Att 10 RL Offset 21 00 Sweep Time 5 0ms Ref Lvl 18 00DBM Comments 99 17 25 MHz Power 13 63dBm PSD 3 04 dBm MHz Elliott Page 24 of 36 Elliott EMC Test Data Client Summit Data Communications J ob Number 68959 T Log Number 69413 Account Manager Dean Eriksen 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Contact Seide Standard 15 247 15 E 55 210 Class N A Analyzer Settings HP8564E EMI CF 5240 00 MHz SPAN 50 00 MHz RB 100 kHz VB 100 kHz Detector Normal Att 10 RL Offset 21 00 Sweep Time 50 0ms Ref Lvl 9 40DBM Amplitude Comments 5240 MHz 26dB Bandwidth 802 11a 55 0 1 1 1 1 1 1 1 1 1 5215 5220 5225 5230 5235 5240 5245 5250 5255 5260 5265 Frequency MHz Cursor1 5248 91 0 43 15481 Delta Freq 17 83 Cursor2 5231 08 26 43 3291 1418 Delta Amplitude 26 00
54. d RSS 310 Table 2 File R70600 Rev 1 Page 20 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 OUTPUT POWER AND SPURIOUS LIMITS UNII DEVICES The table below shows the limits for output power and output power density defined by FCC Part 15 Subpart E Where the signal bandwidth is less than 20 MHz the maximum output power is reduced to the power spectral density limit plus 10 times the log of the bandwidth in MHz Operating Frequency Output Power Power Spectral MHz Density 5150 5250 50mW 17 dBm 10 dBm MHz 5250 5350 250 mW 24 dBm 11 dBm MHz 5470 5725 250 mW 24 dBm 11 dBm MHz 5725 5825 1 Watts 30 dBm 17 dBm MHz The peak excursion envelope is limited to 13dB For system using antennas with gains exceeding 6dBi the output power and power spectral density limits are reduced by 1dB for every dB the antenna gain exceeds 6dBi Fixed point to point applications using the 5725 5825 MHz band may use antennas with gains of up to 23dBi without this limitation If the gain exceeds 23dBi then the output power limit of 1 Watt is reduced by 1dB for every dB the gain exceeds 23dBi SAMPLE CALCULATIONS CONDUCTED EMISSIONS Receiver readings are compared directly to the conducted emissions specification limit decibel form as follows R S M where Receiver Reading in dBuV S Specification Limit in dBuV M Margin to Specification in
55. decoupling L35 0805 vec radio 13 C18 100 6 SW 7 A 805 9 Z 5 MPS1567 m WCFB 108AG Size Number Revision B WCFB 108AG V02 S5 Rev 04 Date 6 Dec 2007 Sheet gof6 1 2 3 4 5 File CADocurments and Settin gsVimmy_lin s27Ai INMGEBYOBAG_V04 DDB Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 9 Theory of Operation for Summit Data Communications Model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors Page File R70600 Rev 1 Appendix Page 9 of 10 SUMMIT DATA COMMUNICATIONS SDC CF10AG Operational Description This device is an SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors which operates in the 2 4 GHz and 5 GHz portions of the radio frequency spectrum The device is compliant with IEEE 802 11a 802 11b and 802 110 standards using Direct Sequence Spread Spectrum and Orthogonal Frequency Division Multiplexing The device supports all 802 11a 802 11b and 802 110 data rates and automatically adjusts data rates and operational modes based on various environmental factors The SDC CF10AG is compliant with Compact Flash Type 2 mechanical specifications and interfaces to host devices via a 50 pin connector The device is based on the Broadcom BCM4318e chip which is an integrated device providing a Media Access Controller MAC a Physi
56. designed for end users and administrators of mobile devices that use a Summit radio module SCU provides a GUI for access to all of its functions Access to these functions also is available through an API that is provided to every Summit customer A Summit customer can use the API to manage the radio from another utility such as one that the customer provides with its mobile devices Using SCU an administrator can configure radio and security settings in a configuration profile or config For a list of config settings see the Summit User s Guide An administrator also can use SCU to define a set of global settings which apply to all configs and to SCU For a list of global settings that can be configured using SCU see the Summit User s Guide The Summit Manufacturing Utility SMU allows for the configuration of certain radio settings that cannot be configured through SCU Summit offers SMU only to its direct customers Summit Data Communications Inc 1 CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 e Device manufacturers that embed Summit radios in their devices or offer Summit radios as device options e Value added distributors that must configure Summit radios for resellers and end customers This guide is for SMU V2 01 running on Windows CE or Windows Mobile To use SMU in a computing device you first must perform the following steps e Install Summit software on a mobile computing device that runs a suppor
57. doors and away from windows to provide maximum shielding Equipment or its transmit antenna that is installed outdoors is subject to licensing This device has been designed to operate with the antennas listed below and having a maximum gain of 5 1 dB Antennas not included in this list or having a gain greater than 5 1 dB are strictly prohibited for use with this device The required antenna impedance is 50 ohms Manufacturer Laird Centurion Model Name NanoBlade Antenna Type PCB Omnidirectional Gain at 2 40 GHz 3 8 dBi Gain at 5 25 GHz 5 1 dBi Gain at 5 80 GHz 4 5 dBi Manufacturer Volex Part Number VLX 51004 A Antenna Type Dipole Gain at 2 40 GHz 2 3 dBi Gain at 5 GHz 1 9 dBi Manufacturer Larson Part Number R380 500 314 Antenna Type Dipole Gain at 2 40 GHz 1 6 dBi Gain at 5 GHz 5 dBi Summit Data Communications Inc 9 CONFIDENTIAL Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 7 Block Diagram of Summit Data Communications Model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors 1 Page File R70600 Rev 1 Appendix Page 7 of 10 E 3 WCEB L08AG Block Diagram Compact Flash Interface 1 LA CDM 1 77 Connector Diversity Switch MG S Ex Eng Connector H S 24 GHz Radio
58. e Date of Test 3 5 2008 Config Used 1 Test Engineer Peter Sales Config Change None Test Location SVOATS 1 EUT Voltage Powered from Host System General Test Configuration The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing For radiated emissions testing the measurement antenna was located 3 meters from the EUT Ambient Conditions Temperature 10 Rel Humidity 76 Summary of Results TX Mode Power Setting Pass Fail CHEN 60 pepe Modifications Made During Testing No modifications were made to the EUT during testing Deviations From The Standard No deviations were made from the requirements of the standard All tests will be performed in data rate of 54Mbps Average band edge plots are for reference only final measurements made with VB 1khz to avoid desensitization at 10Hz which reduced signal level 6 6dB 69413 UNII xls 3 4 08 Tx Laird 9 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E RSS 210 Class N A Model Run Tx Radiated Spurious Emissions 30 40000 MHz 5150 5250 MHz Band Low Channel 5180 MHz Full Power settting Laird PCB Antenna with 5 1dBi Rate 54Mbps
59. e identify the appropriate 5 file for the operating system and processor of your device Download the file and copy it to your mobile device using a supported file transfer mechanism For Windows XP download the smu exe file for XP and copy it to your mobile device 1 5 Removing SMU from the Device SMU is designed exclusively for Summit direct customers and not for device end users or administrators Once you have used SMU to configure radio settings on a device that will be used by someone in another organization you must remove SMU from the device do so simply erase the file smu exe Summit Data Communications Inc 3 CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 2 0 The Summit Manufacturing Utility 2 1 Using SMU To run SMU use File Explorer or Windows Explorer to locate SMU 2 0 34 42 42 10 34 Bk the smu exe file and tap the file to execute it SMU will Card Settings display a graphical user interface GUI like the one shown at T the right The values displayed on the SMU window may not M MMC 1 Coexistence 7 OFF reflect what is programmed on radio or on device BG Max antenna adjust Max antenna adjust 6 Use the selection boxes radio buttons and input fields to select the desired card and unit settings and then tap the Commit Changes button Once you tap Commit SMU uses the Summit application programming interface in
60. e by Complies enm more than 3dB General UNII requirements for all bands FCC RSS Measured Value Limit Rule Part Rule Part P Comments Requirement Digital Modulation Digital modulation 9 5 Modulation is used OFDM isvequired Complies RSP 100 99 bandwidth 17 3 MHz Information only 15 407 b Spurious Emissions No Emissions 5 15 209 below 1GHz Detected oa 15 407 b Spurious Emissions Complies 2 LETS 3 34 5248 5MHz diii 9 Peak Excursion Ratio 7 8 dB lt 13dB Complies Spurious emissions 9 5 3 outermost Device was tested N A channels in each top bottom Channel Selection band and center channels Measurements on ineach 15 three channels in N A each band Device shall discontinue discontinued in RUN 15 407 9 5 4 absence of information operation in the Complies absence of to transmit absence of information information to transmit Frequency stability is better than 15 407 9 5 5 Frequency Stability 20ppm Operational Complies Description page 1 Transmit Power Not applicable device does not operate in either 5470 aor neus Control 5725 or 5250 5350 MHz bands Dynamic frequency T Not applicable device does not operate in either 5470 15 407 12 9 4
61. e determined by turning the equipment off and on the user is encouraged to try to correct the interference by one of the following measures 1 or relocate the receiving antenna 2 Increase the separation between the equipment and receiver Summit Data Communications Inc 8 CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 3 Connect the equipment into an outlet on a circuit different from that to which the receiver is connected 4 Consult the dealer or an experienced radio TV technician for help FCC Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate this equipment This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation IMPORTANT NOTE FCC Radiation Exposure Statement This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment This equipment should be installed and operated with minimum distance 20cm between the radiator amp your body This transmitter must not be co located or operating in conjunction with any other antenna or transmitter Industry Canada To prevent radio interference to the licensed service this device is intended to be operated in
62. e that begins with armv4i If itis an ARM v4 processor select a cab file with a name that begins with armv4 e the file to your device using a supported file transfer mechanism Common methods of moving the file include Place the file on a supported Compact Flash or SD memory card and use that card for copying the file to the device Use a program such as FTP or Microsoft ActiveSync Onthe device use the resident File Explorer program to locate the cab file Run the cab file by single clicking the file or by right clicking and selecting run e f asked to replace any existing files on the device answer Yes to 1 3 Installing the Radio Once you have installed the Summit software you must install the Summit radio card or module To install a 20G Series radio card you simply insert the card in an external card slot To install a 10G Series or 10AG Series radio module you must complete two types of connections Module to device Mate a connector on the end of the module to a connector on the device e Antenna s to module Use an antenna cable that mates with the antenna on one end and with the radio module s U FL connector on the other end Summit Data Communications Inc 2 CONFIDENTIAL Summit Manufacturing Utility SMU Guide 03 20 08 The standard approach is to install the module in the device first and then connect the antenna s If the antenna connectors on the
63. e you will need to utilize USE CURRENT as the detector Remember to set RB and VB for the measurment T69413 UNII xls 3 4 08 Tx Flat Omni UNII Page 20 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 T Log Number 69413 Account Manager Dean Eriksen 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Contact Seide Standard 15 247 15 E 55 210 Class N A RSS 210 LELAN and FCC 15 407 UNII Antenna Port Measurements Power PSD Peak Excursion Bandwidth and Spurious Emissions Test Specific Details The objective of this test session is to perform final qualification testing of the EUT with respectto the Objective specification listed above Date of Test 2 28 2008 Config Used Test Engineer Rafael Varelas Config Change Test Location Chamber 5 Host Unit Voltage 120V 60Hz General Test Configuration When measuring the conducted emissions from the EUT s antenna port the antenna port of the EUT was connected to the spectrum analyzer or power meter via a suitable attenuator to prevent overloading the measurement system All measurements are corrected to allow for the external attenuators and cables used Ambient Conditions Temperature 18 9 C Rel Humidity 39 Summary of Results 5250082 1540 0 0 5D 5150 580MHz 14014110 m eme 3996 Bandwidth Rsa
64. ees meters 110481 410 561 V 740 179 PK 132 19 7 110481410 465 V 683 218 AVG 12 19 10481490 501 H 740 239 PK 28 16 110481 490 442 683 21 AVG 298 16 157186200 426 V 683 257 AVG 72 115718 620 478 V 740 262 PK 7 10 Note 1 For emissions in restricted bands the limit of 15 209 was used For all other emissions the limit was set to or 5 27dBm MHz 68dBuV m 69413 UNII xls 3 4 08 Tx Laird UNII Page 13 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number J 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Model Contact Ron Seide Standard 15 247 15 E RSS 210 Class ix 85 remote control Enable Max Hold Log scale scaling assumes units are dB units with correction factor applied 2 1 5290 0 MHz a Center 2 5290 00 D gt dini A gt Ref Lvl 9755 ATT auto CF Step 0 125 00 Note final measurements made using 3MHz span if you want to avoid measuring a signal within 1 5MHz of the highest signal in the screen above you will need to utilize USE CURRENT as the detector Remember to set RB and VB for the measurment ix 85xx remote control Enable Max Hold Log scale scaling assumes units are dB units with correction Factor applied 2
65. el RSS 210 and FCC 15 247 Radiated Spurious Emissions Test Specific Details The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above Date of Test 11 27 2007 amp 12 19 07 Config Used 1 Test Engineer Suhaila Khushzad Config Change None Test Location SVOATS 2 EUT Voltage Powered from Host System Objective General Test Configuration The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing All remote support equipment was located approximately 30 meters from the EUT with all 1 0 connections running on top of the groundplane or routed in overhead in the GR 1089 test configuration For radiated emissions testing the measurement antenna was located 3 meters from the EUT Ambient Conditions Temperature 117 Rel Humidity 63 Summary of Results Run Test Performed Result Margin H 11 5200 30 16000 MHz RSS GEN 46 4dBy V m 208 94 V m MHz Spurious Emissions dus 17735 4 7 6dB Modifications Made During Testing No modifications were made to the EUT during testing Deviations From The Standard No deviations were made from the requirements of the standard T69413 Page 33 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Ante
66. h 5 2008 EXHIBIT 4 Proposed FCC ID Label amp Label Location File R70600 Rev 1 Appendix Page 4 of 10 BACK LABEL Summit Data Communications Model Name SDC CF10AG S N CF10AGYYMMDDxxxx TWG 6616A SDCCF10AG Rev 05 XXX Made in Taiwan WCFB 108AG133WW BACK LABEL Summit Data Communications Model Name SDC CF10AG CF10AGYYMMDDxxxx HINT MAC XXXXXXXXXXXX FCC ID TWG SDCCF10AG 6616A SDCCF10AG Rev 05 Made in Taiwan Control Code SACER ESSA HR VER 1 Label atk hie 2 S N CFIOAGY YMMDDxxxx 10 4 model name YYMMDD H H xxxx 37 MAC Address TYPE Code 128 4 CE logo 5mm mi 4 Backlabel P N 420 900 0025G 8 32 25mm 5 TITLE DOCUMENT NO TEXCR Hif Has Gemtek Technology Co Ltd EARS 990 600 0004R Elliott Laboratories Inc Department Test Report Report Date March 5 2008 EXHIBIT 5 Detailed Photographs of Summit Data Communications Model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors Construction 4 Pages File R70600 Rev 1 Appendix Page 5 of 10 Elliott Fig 1 Elliott Elliott OtZ4V0
67. h is governed by the European Telecommunications Standards Institute the standards body applicable to most of Europe Africa the Middle East and parts of Asia TELEC which is governed by the Telecom Engineering Center the standards body for Japan A Summit radio can be programmed for any one of these three domains Alternatively a Summit radio can be programmed for a Worldwide domain which enables the radio to be used in any domain Worldwide value is the default value for the setting An 802 11g radio which supports both 802 11b and 802 11g operates in the 2 4 GHz frequency spectrum where up to 14 channels numbered 1 to 14 are defined Adjacent channels overlap In fact there must be five channels of separation to avoid overlap and co channel interference As an example channels 1 6 and 11 are non overlapping An 802 11a g radio operates in both the 2 4 GHz spectrum for 802 11b and 802 11g and the 5 GHz spectrum for 802 11 The 5 GHz frequency spectrum is grouped into sets of channels or bands e UNII 1 36 40 44 48 UNII 2 52 56 60 64 e Intermediate 100 104 108 112 116 120 124 128 132 136 140 UNII 3 149 153 157 161 None of the channels in the 5 GHz bands overlap Dynamic Frequency Selection or DFS is required for the UNII 2 and Intermediate bands With V2 01 of Summit software a Summit AG radio programmed for the FCC regulatory domain does not support DFS or the bands that require DFS
68. he SDC CF10G apply to other Summit 802 11g radio modules and cards Summit declares that SDC CF10G FCC ID TWG SDCCF10G is limited in CH1 CH11 for 2 4 GHz by specified firmware controlled in U S A This device is intended for host device manufacturers and integrators only under the following conditions 1 The antenna must be installed such that 20 cm is maintained between the antenna and users and 2 The transmitter module may not be co located with any other transmitter or antenna As long as the two conditions above are met further transmitter test will not be required However the OEM integrator is still responsible for testing its end product for any additional compliance requirements required with this module installed for example digital device emissions PC peripheral requirements etc IMPORTANT NOTE In the event that the two conditions above cannot be met for example certain device configurations or co location with another transmitter then the FCC authorization is no longer considered valid and the FCC ID cannot be used on the final product In these circumstances the OEM integrator will be responsible for re evaluating the end product including the transmitter and obtaining a separate FCC authorization e End Product Labeling This transmitter module is authorized only for use in device where the antenna may be installed such that 20 cm may be maintained between the antenna and users for example mobile data terminal
69. in PKQP Av degrees meters y O 5238500 906 V AG 1M 20 5238500 969 V PK 14 20 5240810 885 H AVG 38 10 9 d ooo T Band Edge Signal Radiated Field Strength at 5250 MHz Frequency Level Pol 15 209 15 Detector Azimuth Height Comments MHz Limit Margin PKQP Avg degrees meters 5252600 723 V 883 4160 PK 14 20 5250 030 502 V 683 481 AVG 14 20 5250 000 699 H 883 484 PK 348 10 5250 030 493 H 683 490 348 10 Other Spurious Radiated Emissions Frequency Level Pol 15 209 15 Detector Azimuth Height Comments MHz jdBuV m wh Limit Margin PKQP Avg degrees meters 110478 910 483 V 540 57 AVG 14 16 10481230 444 H 540 96 AVG 360 115718 980 422 V 540 118 AVG 159 10 110478 910 577 V 740 163 PK 14 16 gt 10481230 507 H 740 233 PK 30 17 115718 980 465 V 740 275 PK 159 10 For emissions in restricted bands the limit of 15 209 was used For all other emissions the limit was setto 27dBm MHz 68dBuV m 69413 UNII xls 3 4 08 Tx Flat Omni UNII Page 19 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number J 6
70. ing the linear average method with a resolution bandwidth of 1 MHz and a video bandwidth of 10 Hz unless the signal 18 pulsed in which case the average or video bandwidth of the measuring instrument is reduced to onset of pulse desensitization and then increased INSTRUMENT CONTROL COMPUTER The receivers utilize either a Rohde amp Schwarz EZM Spectrum Monitor Controller or contain an internal Spectrum Monitor Controller to view and convert the receiver measurements to the field strength at an antenna or voltage developed at the LISN measurement port which is then compared directly with the appropriate specification limit This provides faster more accurate readings by performing the conversions described under Sample Calculations within the Test Procedures section of this report Results are printed in a graphic and or tabular format as appropriate A personal computer is used to record all measurements made with the receivers The Spectrum Monitor provides a visual display of the signal being measured In addition the controller or a personal computer run automated data collection programs which control the receivers This provides added accuracy since all site correction factors such as cable loss and antenna factors are added automatically LINE IMPEDANCE STABILIZATION NETWORK LISN Line conducted measurements utilize a fifty microhenry Line Impedance Stabilization Network as the monitoring point The LISN used also contains a 250 uH
71. ion The EUT was located on a wooden table 40 cm from a vertical coupling plane and 80cm from the LISN Ambient Conditions Temperature 4 C Rel Humidity 16 Summary of Results Test Performed CE AC Power 230V 50Hz EN 55022 19 9dB CE AC Power 120V 60Hz EN 55022 B 9 5dB Modifications Made During Testing No modifications were made to the EUT during testing Deviations From The Standard No deviations were made from the requirements of the standard T69413 UNII xls AC CE 28 Jan 08 Page 4 of 36 Elliott EMC Test Data Client Summit Data Communications 100 Number 68959 5 802 11a g Compact Flash Module with Antenna Connectors T Log Number T69413 Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E 55 210 1855 1 Power Conducted Emissions 0 15 30MHz 230V 50Hz Line 70 0 B 45 0 40 0 X 35 0 30 0 25 0 20 02 4131333 0 150 1 000 65 0 60 0 55 0 2 8 50 0 Frequency 2 1 000 Frequency MHz Run 1 AC Power Port Conducted Emissions 0 15 30MHz 230V 50Hz Continued Next Page 1769413 UNII xls 28 Jan 08 Page 5 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 T Log Number 69413 Account Manager Dean Eriksen 5 DC C
72. ions Test Specific Details The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above Date of Test 12 19 2007 Config Used 1 Test Engineer Suhaila Khushzad Config Change None Test Location SVOATS 2 EUT Voltage Powered form Host System Objective General Test Configuration The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing All remote support equipment was located approximately 30 meters from the EUT with all I O connections running on top of the groundplane or routed in overhead in the GR 1089 test configuration For radiated emissions testing the measurement antenna was located 3 meters from the EUT Ambient Conditions Temperature 144 C Rel Humidity 53 Summary of Results Run Test Performed Result Margin 11 5200 RE 30 40000 MHz RSS GEN ET be 45 7dBu V m MHz Spurious Emissions Review 17815 0MHz 8 3dB Modifications Made During Testing No modifications were made to the EUT during testing Deviations From The Standard No deviations were made from the requirements of the standard 69413 UNII xls Page 35 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 1
73. kHz VB 100 kHz Detector POS Att 20 RL Offset 21 00 Sweep Time 50 0ms Ref Lvl 23 20DBM Comments 5180 MHz 26dB Bandwidth 1 1 802 11a 5200 5205 Elliott Analyzer Settings 10 0 0 0 10 0 20 0 Amplitude 30 0 40 0 50 0 60 0 1 5162 5200 5225 Frequency MHz da dad 5175 Cursor 1 5191 30 3 36 Delta Freq 17 25 Cursor2 5208 5 22 64 Delta Amplitude 26 00 1769413 UNII xls UNII RF Port 2 29 Rohde amp Schwarz ESI 7 CF 5200 00 MHz SP4N 75 00 MHz RB 1 000 MHz YB 3 000 MHz Detector Sample Att 10 RL Offset 21 00 Sweep Time 5 0ms Ref Lvl 18 00DBM Comments 9995 17 25 MHz Power 13 90dBm 1 PSD 3 36 dBm MHz 5238 Elliott Page 23 of 36 Elliott Summit Data Communications ob Number EMC Test Data 68959 T Log Number T69413 5 802 11a g Compact Flash Module with Antenna Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E RSS 210 20 0 25 0 30 0 35 0 40 0 45 0 50 0 55 0 60 0 65 0 70 0 5175 51 Amplitude gi 1 1 5210 5215 5220 5225 1 1 1 1 1 5185 5190 5195 5200 5205 Frequency MHz lHa lHa 1 80 Cursor 1 5209 001 21 67 Delta Freq 17 92 Cursor 2 5191 08 47 67 Delta Amplitude 26 00 4 10 0 0 0 Amplitude 5250 5278 Frequen
74. nces where the highest measured value of the PSD exceeds the average PSD calculated from the measured power divided by the measured 99 bandwidth by more than 348 by the amount that the measured value exceeds the average by more than 34 99 Bandwidth measured in accordance with RSS GEN gt 196 of span and VB gt 3xRB Note 3 Analyzer Settings Rohde amp Schwarz ESI 7 5180 00 MHz SPAN 75 00 MHz 1 000 MHz 3 000 MHz Detector Sample 10 RL Offset 21 00 Sweep Time 5 0ms Ref Lvl 18 00DBM Amplitude Comments 9995 17 25 MHz Power 13 24dBm PSD 2 74 dBm MHz 1 1 1 1 1 5142 5150 5175 5200 5218 Frequency MHz Cursor1 5171 30 2 74 3 5 Delta Freq 17 25 Cursor2 5188 550 2326 9348 Delta amplitude 26 00 ott 1769413 UNII xls UNII RF Port 2 29 Page 22 of 36 Elliott Summit Data Communications EMC Test Data Job Number 68959 T Log Number 169413 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E RSS 210 Class N A Amplitude 1 1 1 1 1 5165 5170 5175 5180 5185 5190 5195 Frequency MHz amp l Ha 1 5155 5160 Cursor 1 5189 001 0 63 Delta Freq 17 83 Cursor 2 5171 16 26 63 Delta Amplitude 26 00 Analyzer Settings 8564 CF 5180 00 MHz 5 50 00 MHz RB 100
75. nd 10m Refer to the test data tables for the actual measurement distance Antenna height range 1104 Test Configuration for Radiated Field Strength Measurements OATS Plan and Side Views File R70600 Rev 1 Page 17 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 Antenna materials on walls and ceiling ensure compliance with normalized site attenuation requirements of CISPR 16 CISPR 22 ANSI C63 4 for an alternate test site at the measurement distances used Floor standing equipment is placed on the floor with insulating supports between the unit and the ground plane Antenna 4 eight range Test Configuration for Radiated Field Strength Measurements Semi Anechoic Chamber Plan and Side Views BANDWIDTH MEASUREMENTS The 6dB 20dB and or 26dB signal bandwidth is measured in using the bandwidths recommended by ANSI C63 4 When required the 99 bandwidth is measured using the methods detailed in RSS GEN File R70600 Rev 1 Page 18 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 SPECIFICATION LIMITS AND SAMPLE CALCULATIONS The limits for conducted emissions are given in units of microvolts and the limits for radiated emissions are given in units of microvolts per meter at a specified test distance Data is measured in the logarithmic form of decibels relative to one micr
76. nna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E RSS 210 Class N A Model Run 3 Rx Mode Radiated Spurious Emissions 30 40000 MHz Operating Mode 802 11a Round Omni Antenna with 1 9dBi Gain Data Rate 54 Mbps Center Channel 2 5200 MHz ather Spurious Emissions Frequency Level Pol 15209 15247 Detector Azimuth Height Comments e a wegees pom 17733 83 464 V 540 46 AVG 31 17733 83 590 V 740 3150 PK 31 10 sd 17735 38 588 H 740 152 1 1 0 11 10 10387 08 378 540 462 AVG 162 10 1559872 378 H 540 162 AVG 26 10 10376 00 376 V 540 4164 AVG 31 10 sid 1559133 369 V 540 471 AVG 20 10 10387 08 495 740 245 PK 1602 10 2 15598 72 492 H 740 248 PK 26 10376 00 485 V 740 255 PK 10 2 1559133 484 V 740 256 PK 20 10 9 69413 UNII xls 34 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E RSS 210 Class N A Model RSS 210 and FCC 15 247 Radiated Spurious Emiss
77. of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 TEST SITE GENERAL INFORMATION Final test measurements were taken on November 27 December 11 and December 19 2007 and January 24 2008 at the Elliott Laboratories Open Area Test Site 2 located at 684 West Maude Avenue Sunnyvale California Pursuant to section 2 948 of the FCC s Rules and section 3 3 of RSP 100 construction calibration and equipment data has been filed with the Commission ANSI C63 4 2003 recommends that ambient noise at the test site be at least 6 dB below the allowable limits Ambient levels are below this requirement with the exception of predictable local TV radio and mobile communications traffic The test site contains separate areas for radiated and conducted emissions testing Considerable engineering effort has been expended to ensure that the facilities conform to all pertinent requirements of ANSI C63 4 2003 CONDUCTED EMISSIONS CONSIDERATIONS Conducted emissions testing is performed in conformance with ANSI C63 4 2003 Measurements are made with the EUT connected to the public power network through a nominal standardized RF impedance which is provided by a line impedance stabilization network known as a LISN A LISN is inserted in series with each current carrying conductor in the EUT power cord RADIATED EMISSIONS CONSIDERATIONS The FCC has determined that radiation measurements made in a shielded encl
78. om com products htm Each Summit G radio enables a computing device to communicate to a computing network using the IEEE 802 11g and IEEE 802 11b protocols The hardware components and software for all Summit radios are the same A 20G version is a 10G version with integrated antennas A PCMCIA version is a CF version in a specially designed CF to PCMCIA carrier The miniature CF version is essentially the CF version with a different layout and a different Molex connector Each Summit AG radio enables a computing device to communicate to a computing network using the IEEE 802 11a 802 11g and IEEE 802 11b protocols The hardware components and software for all Summit AG radios are the same 1 1 Summit Software The software that Summit provides for its radios consists of the following components e device driver for the operating system running on the computing device that houses the radio An integrated IEEE 802 1X supplicant SCU as well as other utilities that use a software developer s kit SDK to interact with the driver service that displays in the Windows System Tray an icon that provides a visual status for the Summit radio and enables the user to launch SCU by tapping the icon Summit supports its software on the following operating systems e Windows CE 4 2 Windows Mobile 2003 or Pocket PC 2003 e Windows CE 5 0 Windows Mobile 5 0 Windows Mobile 6 0 e Windows XP Professional and Windows XP Embedded SCU is
79. ord length is wrapped in a bundle between 30 and 40 centimeters in length near the center of the cord Preliminary measurements are made to determine the highest amplitude emission relative to the specification limit for all the modes of operation Placement of system components and varying of cable positions are performed in each mode A final peak mode scan is then performed in the position and mode for which the highest emission was noted on all current carrying conductors of the power cord File R70600 Rev 1 Page 14 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 RADIATED EMISSIONS A preliminary scan of the radiated emissions is performed in which all significant EUT frequencies are identified with the system in a nominal configuration At least two scans are performed one scan for each antenna polarization horizontal and vertical loop parallel and perpendicular to the EUT During the preliminary scans the EUT is rotated through 360 the antenna height is varied for measurements above 30 MHz and cable positions are varied to determine the highest emission relative to the limit Preliminary scans may be performed in a fully anechoic chamber for the purposes of identifying the frequencies of the highest emissions from the EUT A speaker is provided in the receiver to aid in discriminating between EUT and ambient emissions Other methods used during the preliminary scan for EUT emissions in
80. orn 1 18 GHz SA40 Red Hewlett Packard Hewlett Packard High Pass filter 3 5 GHz Blu System SpecAn 9 kHz 40 GHz FMT SA40 Blue Radiated Emissions 30 18 000 MHz 31 Oct 07 Engineer Rafael Varelas Manufacturer Description EMCO Antenna Horn 1 18 GHz Hewlett Packard Hewlett Packard Hewlett Packard Microwave Preamplifier 1 26 5GHz EMC Spectrum Analyzer 9 KHz 22 GHz High Pass filter 3 5 GHz Blu System Radiated Emissions 30 12 000 MHz 19 Nov 07 Engineer Joseph Cadigal Manufacturer Description EMCO Antenna Horn 1 18 GHz Hewlett Packard Hewlett Packard SpecAn 9 kHz 40 GHz FMT SA40 Blue Microwave Preamplifier 1 26 5GHz Radio Antenna Port Power and Spurious Emissions 26 Nov 07 Engineer skhushzad Manufacturer Hewlett Packard Description SpecAn 30 Hz 40 GHz SV SA40 Red Radio Spurious Emissions 27 Nov 07 Engineer Suhaila Khushzad Manufacturer Description EMCO Antenna Horn 1 18 GHz Hewlett Packard Microwave Preamplifier 1 26 5GHz Hewlett Packard SpecAn 30 Hz 40 GHz SV SA40 Red Rohde amp Schwarz Test Receiver 0 009 2750 MHz EMCO Log Periodic Antenna 0 2 2 GHz EMCO Biconical Antenna 30 300 MHz Radio Spurious Emissions 11 Dec 07 Engineer Suhaila Khushzad Manufacturer Description EMCO Antenna Horn 1 18 GHz SA40 Red Hewlett Packard Hewlett Packard SpecAn 9 kHz 40 GHz FMT SA40 Blue Microwave Preamplifier 1 26 5GHz Radiated Emissions 30 40
81. osure are not suitable for determining levels of radiated emissions Radiated measurements are performed in an open field environment or in a semi anechoic chamber The test sites are maintained free of conductive objects within the CISPR defined elliptical area incorporated in ANSI C63 4 2003 guidelines and meet the Normalized Site Attenuation NSA requirements of ANSI C63 4 2003 File R70600 Rev 1 Page 11 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 MEASUREMENT INSTRUMENTATION RECEIVER SYSTEM An EMI receiver as specified in CISPR 16 1 is used for emissions measurements The receivers used can measure over the frequency range of 9 kHz up to 2000 MHz These receivers allow both ease of measurement and high accuracy to be achieved The receivers have Peak Average and CISPR Quasi peak detectors built into their design so no external adapters are necessary The receiver automatically sets the required bandwidth for the CISPR detector used during measurements If the repetition frequency of the signal being measured is below 20Hz peak measurements are made in lieu of Quasi Peak measurements For measurements above the frequency range of the receivers a spectrum analyzer is utilized because it provides visibility of the entire spectrum along with the precision and versatility required to support engineering analysis Average measurements above 1000MHz are performed on the spectrum analyzer us
82. ovolt or dB microvolts dBuV For radiated emissions the measured data is converted to the field strength at the antenna in dB microvolts per meter dBuV m The results are then converted to the linear forms of uV and uV m for comparison to published specifications For reference converting the specification limits from linear to decibel form is accomplished by taking the base ten logarithm then multiplying by 20 These limits in both linear and logarithmic form are as follows CONDUCTED EMISSIONS SPECIFICATION LIMITS FCC 15 207 FCC 15 107 RSS GEN The table below shows the limits for the emissions on the AC power line from an intentional radiator and a receiver Average Quasi Peak Frequency AN MHz Limit Limit dBuV dBuV Linear decrease on Linear decrease on 0 150 to 0 500 logarithmic frequency logarithmic frequency axis axis between 56 0 and 46 0 between 66 0 and 56 0 0 500 to 5 000 46 0 56 0 5 000 to 30 000 50 0 60 0 File R70600 Rev 1 Page 19 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 GENERAL TRANSMITTER RADIATED EMISSIONS SPECIFICATION LIMITS The table below shows the limits for the spurious emissions from transmitters that fall in restricted bands with the exception of transmitters operating under FCC Part 15 Subpart D and RSS 210 Annex 9 the limits for all emissions from a low power device operating under the general rules of
83. ply harnessing or I O cable changes etc STATEMENT OF COMPLIANCE The tested sample of Summit Data Communications model SDC CF10AG 802 1 1 Compact Flash Module with Antenna Connectors complied with the requirements of the following regulations RSS 210 Issue 7 Low power Licence exempt Radiocommunication Devices All Frequency Bands Category I Equipment FCC Part 15 Subpart E requirements for UNII Devices Maintenance of compliance is the responsibility of the manufacturer Any modification of the product which may result in increased emissions should be checked to ensure compliance has been maintained i e printed circuit board layout changes different line filter different power supply harnessing or I O cable changes etc File R70600 Rev 1 Page 6 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 TEST RESULTS SUMMARY UNII LELAN DEVICES Operation in the 5 15 5 25 GHz Band FCC RSS Descrivtion Measured Value Limit Result Rule Part Rule Part S ans Comments Requirement p Refer to user s N A 15 407 Indoor operation only Complies manual 15 407 a N A limits output 1 26dB Bandwidth 17 7 MHz power if lt 20MHz N A c 9 2 1 Output Power 13 9 dBm 0 025W 16 5 dBm Complies es 3 4 dBm MHz 4 dBm MHz Complies 1 Density Power Spectral Shall not exceed the 9 5 2 Densit 3 4 dBm MHz average valu
84. r organization that uses the Summit Manufacturing Utility to program Summit radios must ensure that every Summit radio is programmed for a regulatory domain of WorldWide A radio that is programmed for a regulatory domain of FCC ETSI or TELEC will ignore the Country information elements from APs A Summit radio uses 802 11d only when it tries to associate on an SSID for the first time During the initial association process if the AP provides a Country information element then the radio configures its channel set and maximum transmit power for that country The radio assumes that all APs with the same SSID have the same 802 11d country code as a result the radio effectively ignores the country code when roaming from one AP to another The radio will continue to use the channel set and maximum transmit power for a country until the radio disconnects from the WLAN with that SSID 2 2 4 Bluetooth Coexistence When Bluetooth coexistence is on pins 39 and 45 of the radio are used for two wire Bluetooth coexistence handshaking When Bluetooth coexistence is off the handshaking lines are not used The default value is Off 2 2 5 BG Max Antenna Adjust and A Max Antenna Adjust The last two card settings provides for an adjustment to the radio s transmit power to accommodate a 2 4 GHz 802 11b g antenna a 5 GHz 802 11a antenna or a dual band antenna with a gain greater than 0 dBm The values for each of these settings BG Max antenna
85. radio are not visible when the radio is installed however then you will need to connect the antenna s before installing the radio To install the radio insert the card into the device until the CF PCMCIA or Molex connector mates with a connector on the device To connect the antennas take each antenna and its cable which is fitted Auxiliary Main antenna with a Hirose U FL connector and attach the antenna cable to the radio antenna connector module by mating the U FL connector on the antenna cable with a connector connector on the radio module Connect the primary or only antenna 2 to main connector which is located nearer to right edge of 2 SS ANT 2 If there is a second antenna connect it to auxiliary antenna connector which is located nearer to left edge of the card Locations of antenna connectors for the CF10G are shown at the right To comply with FCC RF exposure compliance requirements the antenna used with a Summit radio module must be installed to provide a separation distance of at least 20 cm from all persons and must not be co located or operating in conjunction with any other antenna or transmitter The user s manual for the device that embeds or otherwise uses a Summit radio should not provide information on how to install a radio module within a device or remove an installed radio module from a device 1 4 Loading SMU For Windows Mobil
86. rx pu vecgpaO 115 100 R20 206 100 HWS408 gphy ext gain 2 Bpnp Bnpn vccgpaO 4 Epnp Ul Enpn UMD3N BE EC SGA8343 2gphy_rx_pu 3 U7B R19 37 tx NE BGREF PA_OUT oT adc 2060 F5 CMOUT SE 4318 1 inp vdda3 560 N4 LNAINN 4318 inn RO ANJ A8 RE DISABLE L ANT SELN 05 ant_sw_seln B7 ant_sw_selp ANT_SELP TEST SE TR SW RX PU 2 EXT 1 TR SW TX TX PU 9 gphytxpu _ RX PU 4 gphy rx pu aphy rx qp aphy rx qn 04 BXN Q aphy rx ip F3 RXP I aphy_rx_in F4 RXN 1 XTEMPRSSI B2 fit aphy_tx_qp XTSSD D4 gphy_tssi TXN Q XTAL_PU Be Spry Up TXP I GPHY EXT LNA GAIN 00 aphy tx in TXN I gphy_ext_Ina_gain 116 xtalin 6 11g_xtalout PS clk 4306 A2 FREF 2 BCM4318E 2060 88 R9 4306 10 3 3K C59 27pF xtalin 18 20 7 10 C50 27 11g_xtalout 5 6pF 221 U4 QE L sp DIFF 6 NC DIFF2 2 GND cs 4318 rx inn HHM 1520 i WCFB 108AG Size Number Revision B WCFB 108AG V02 S2 Rev 04 Date 6 Dec 2007 Sheet 20f 6 5 File CADocuments and SettingsJimmy IDMGEBYOBAG_V04 DDB
87. s MDTs and vehicle mounted devices VMDs The final end product must be labeled in a visible area with the following Contains TX FCC ID TWG SDCCF10G e Manual Information That Must be Included The OEM integrator must not provide information to the end user regarding how to install or remove this RF module in the users manual of the end product which integrate this module The users manual for OEM integrators must include the following information in a prominent location IMPORTANT NOTE To comply with FCC RF exposure compliance requirements the antenna used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co located or operating in conjunction with any other antenna or transmitter Federal Communication Commission Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can b
88. s shall be 80 centimeters Floor mounted equipment shall be placed on the ground plane if the device is normally used on a conductive floor or separated from the ground plane by insulating material from 3 to 12 mm if the device is normally used on a non conductive floor During radiated measurements the EUT is positioned on a motorized turntable in conformance with this requirement INSTRUMENT CALIBRATION All test equipment is regularly checked to ensure that performance is maintained in accordance with the manufacturer s specifications All antennas are calibrated at regular intervals with respect to tuned half wave dipoles An exhibit of this report contains the list of test equipment used and calibration information File R70600 Rev 1 Page 13 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 TEST PROCEDURES EUT AND CABLE PLACEMENT The regulations require that interconnecting cables be connected to the available ports of the unit and that the placement of the unit and the attached cables simulate the worst case orientation that can be expected from a typical installation so far as practicable To this end the position of the unit and associated cabling is varied within the guidelines of ANSI C63 4 2003 and the worst case orientation is used for final measurements CONDUCTED EMISSIONS Conducted emissions are measured at the plug end of the power cord supplied with the EUT Excess power c
89. s pursuant to the following rules Industry Canada RSS Gen Issue 2 RSS 210 Issue 7 Low power Licence exempt Radiocommunication Devices Frequency Bands Category I Equipment FCC Part 15 Subpart E requirements for UNII Devices using FCC DA 02 2138 August 30 2002 Conducted and radiated emissions data has been collected reduced and analyzed within this report in accordance with measurement guidelines set forth in the following reference standards and as outlined in Elliott Laboratories test procedures ANSI C63 4 2003 The intentional radiator above has been tested in a simulated typical installation to demonstrate compliance with the relevant Industry Canada performance and procedural standards Final system data was gathered in a mode that tended to maximize emissions by varying orientation of EUT orientation of power and I O cabling antenna search height and antenna polarization Every practical effort was made to perform an impartial test using appropriate test equipment of known calibration All pertinent factors have been applied to reach the determination of compliance The test results recorded herein are based on a single type test of the Summit Data Communications model SDC CF10AG 802 11a g Compact Flash Module with Antenna Connectors and therefore apply only to the tested sample The sample was selected and prepared by Ron Seide of Summit Data Communications File R70600 Rev 1 Page 5 of 23 Elliott Labor
90. scale scaling assumes units are dB units with correction Factor applied 2 5 5130 0 MHz RB f ime Center 5130 000 EI Freq Span 9 100 000 Ref Lvl 2 80 0 gt auto Step 0 125 00 c 5180 000 5000 Note final measurements made using span if you want to avoid measuring a signal within 1 5MHz of the highest signal the screen above you will need to utilize USE CURRENT as the detector Remember to set RB and VB for the measurment gt 85xx remote control Enable Hold Log scale scaling assumes units are dB units with correction Factor applied 2 5 5130 0 MHz RB jj Center F 5130 000 E d A44 gt gt Ref Lvl ATT AUTO Step f 125 00 Note final measurements made using a span if you want to avoid measuring a signal within 1 5MHz of the highest signal in the screen above you will need to utilize USE CURRENT as the detector Remember to set RB and VB for the measurment 1769413 UNII xls 3 4 08 Tx Flat Omni UNII Page 17 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number 169413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 RSS 210 Class N A Model
91. ted operating system e Install the Summit radio on the device Load SMU on the device It is recommended that you complete the steps in the order shown above If you insert the radio in your device before you install the software then the operating system will flag the radio as unknown and display the Found New Hardware Wizard screen and you must select Cancel to cancel the Hardware Wizard Once you have finished using SMU you must remove SMU from the device SMU is for the exclusive use of those Summit customers to which Summit makes SMU available Those customers are not permitted to redistribute SMU to anyone 1 2 Installing Summit Software Summit software is in a cab file which is the software equivalent of a file cabinet A Summit cab file contains all software components including the device driver and the Summit Client Utility SCU To install the Summit software perform these tasks Download the appropriate cab file for the operating system and processor of your device You can obtain your device s operating system and processor from the system information under Windows Control Panel Tap Start then Settings and then System or Control Panel Pocket PC or Mobile Select a cab file with a name that begins with mobile CE NET Do search on your device s processor to determine if it is an ARM v4i processor an ARM v4 processor If it is an v4i processor select a cab file with a nam
92. trical rating of the EUT is 3 3 VDC 5 With typical power consumption of 400 mA 1320mW while in transmit mode 180 mA 594mW while in receive mode and 10 mA 33 mW while in standby mode Equipment Under Test Manufacturer Model Description Serial Number FCC ID Summit Data SDC CF10AG 802 11a g CompactFlash Module TBP TWG SDCCF10AG Communications Compact Flash Module with Antenna Connectors EUT Antenna Intentional Radiators Only There were three antennas included in the testing Laird Centurion NanoBlade pcb antenna 3 8dBi 2 2 45GHz 5 1dBi 5 25GHz 4 5dBi 5 8GHz Volex p n VLX 51004 A Omni 2 3dBi 2 4GHz 1 9dBi 5GHz Larson p n R380 500 314 Omni 1 6dBi 2 4GHz 5dBi 0 5GHz Note The Volex Omni was used in the 2 4GHz band and the Larson Omni was used in the 5GHz bands The Laird pcb antenna was also tested for both 2 4GHz and 5GHz The antenna connects to the EUT via a non standard antenna connector thereby meeting the requirements of FCC 15 203 EUT Enclosure The EUT does not have an enclosure as itis designed to be installed within the enclosure of a host computer or system T69413 UNII xls EUT Description Page 2 of 36 Elliott EMC Test Data Client Summit Data Communications ob Number 68959 5 802 11a g Compact Flash Module with T Log Number 169413 Antenna Connectors Account Manger Dean Eriksen Contact Ron Seide Emissions Standard s 15 247
93. tt EMC Test Data Client Summit Data Communications Job Number J68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E RSS 210 Class N A Model Maximum Permissible Exposure Test Specific Details The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above Date of Test 2 1 2008 Test Engineer Mark Hill Objective General Test Configuration Calculation uses the free space transmission formula PG 4 nd Where S is power density is output power W G is antenna gain relative to isotropic d is separation distance from the transmitting antenna Summary of Results Device complies with Power Density requirements at Yes 20cm separation Maximum Power Density S in Wim Modifications Made During Testing No modifications were made to the EUT during testing Deviations From The Standard No deviations were made from the requirements of the standard T69413 FCC UNII MPE Page 1 of 2 Elliott EMC Test Data Client Summit Data Communications Job Number J68959 SDC CF10AG 802 11a g Compact Flash Module with Antenna T Log Number T69413 Connectors Account Manager Dean Eriksen Contact Ron Seide Standard 15 247 15 E RSS 210 Class N A Model Gener
94. volve scanning with near field magnetic loops monitoring I O cables with RF current clamps and cycling power to the EUT Final maximization is a phase in which the highest amplitude emissions identified in the spectral search are viewed while the EUT azimuth angle is varied from 0 to 360 degrees relative to the receiving antenna The azimuth which results in the highest emission is then maintained while varying the antenna height from one to four meters for measurements above 30 MHz measurements below 30 MHz are made with the loop antenna at a fixed height of 1m The result is the identification of the highest amplitude for each of the highest peaks Each recorded level is corrected in the receiver using appropriate factors for cables connectors antennas and preamplifier gain When testing above 18 GHz the receive antenna is located at 1meter from the EUT and the antenna height is restricted to a maximum of 2 5 meters File R70600 Rev 1 Page 15 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 REAR VIEW AC Outlets flush mounted SIDE VIEW Typical Test Configuration for Radiated Field Strength Measurements File R70600 Rev 1 Page 16 of 23 Elliott Laboratories Inc Department Test Report Report Date March 5 2008 The ground plane extends beyond the ellipse defined in CISPR 16 CISPR 22 ANSI C63 4 and is large enough to accommodate test distances d of 3m a
95. z 0 0 10 0 20 0 30 0 40 0 Amplitude dBm 50 0 60 0 7Z0 07 4 5120 5125 5130 5135 5140 5145 5150 5155 5160 5165 5170 5175 5180 5185 5190 Frequency MHz 1769413 UNII xls UNII RF Port 2 29 Page 30 of 36 Elliott EMC Test Data Client Summit Data Communications Job Number 68959 T Log Number 169413 5 DC CF 10AG 802 11a g Compact Flash Module with Antenna Connectors Account Manager Dean Eriksen Contact Seide Standard 15 247 15 E 55 210 Class N A Plots Showing Out Of Band Emissions RBW VBW 1MHz Out Band Spurious Emissions 802 11a at 5180 MHz 10 0 0 0 10 0 20 0 30 0 Amplitude dBm 40 0 50 0 60 0 m UTERETUR A mm 30 0 5000 0 10000 0 15000 0 20000 0 25000 0 30000 0 35000 0 40000 Frequency MHz Plots Showing Out Of Band Emissions RBW VBW 1MHz Out OF Band Spurious Emissions 802 114 at 5200 MHz 10 0 0 0 10 0 20 0 30 0 Amplitude dBm 40 0 50 0 60 0 30 0 5000 0 10000 0 15000 0 20000 0 25000 0 30000 0 35000 0 40000 Frequency MHz 1769413 UNII xls UNII RF Port 2 29 Page 31 of 36 Elliott EMC Test Data
96. z 40 GHz SV SA40 Red Radio Antenna Port Power and Spurious Emissions 14 Jan 08 Engineer jcaizzi Manufacturer Hewlett Packard Description EMC Spectrum Analyzer 9 kHz 6 5 GHz Radiated Emissions 30 26 500 MHz 18 Jan 08 Engineer jcaizzi Manufacturer Description EMCO Antenna Horn 1 18 GHz Hewlett Packard Hewlett Packard Hewlett Packard Microwave Preamplifier 1 26 5GHz SpecAn 30 Hz 40 GHz SV SA40 Red High Pass filter 8 2 GHz Radio Antenna Port Power and Spurious Emissions 24 Jan 08 Engineer Mehran Birgani Manufacturer Rohde amp Schwarz Description EMI Test Receiver 20 Hz 7 GHz File T69413 Test Equipment Emissions Model 3115 8449B 8564E 84125C Model 3115 8449B 8564E 84125C Model 3115 8449B 8564E 84125C Model LISN 4 OATS ESH3 Z2 8564E 84125C ESCS 30 Model 3115 8564E 84125C 8449B Model 3115 8595EM 8564E 84125C Model 8595EM Model 3115 8449B 8564E 84125C P N 84300 80039 Model ESIB7 Asset 1142 1780 1393 Asset 868 870 1148 Asset 868 870 1148 Asset 362 812 1148 1337 Asset 487 1148 1780 Asset 487 780 1148 Asset 787 Asset 487 870 1148 1156 Asset 1630 Cal Due 07 Jun 08 06 Nov 08 17 Jan 08 Cal Due 26 Apr 08 08 Nov 08 24 Aug 08 Cal Due 26 Apr 08 08 Nov 08 24 Aug 08 Cal Due 18 Jul 08 05 Feb 08 24 Aug 08
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