WPC- 2?BJZECourier3|X #Xj\  P6G;3XP#J4/LJ_HP4_2000M_440_1nal)HPLA4ADD.PRSx  @\ 8gX@ X-#Xj\  P6G;3XP#2,qKXCourierTimes New Roman"i~'^:DPddDDDdp4D48dddddddddd88pppX|pDL|pp||D8D\dDXdXdXDdd88d8ddddDL8ddddX`(`lD4l\DDD4DDDDDDDDd8XXXXXX|X|X|X|XD8D8D8D8ddddddddddXdbdddpdXXXXXlX~|X|X|X|XdddldldD8DdDDDdplld|8|P|D|D|8dvddddDDDpLpLpLpl|T|8|\ddddddl|X|X|Xd|DdpL|Dd~4ddC$CWddddddddddddddddddddddddddddddddddddddddNHxxH\dDXddddd8@d<@d<DDXXdDDxddzHxxHwppDXd<"dxtldpxxdl?xxx,>fx6X@`7X@ 7jC:,3Xj\  P6G;XPK2K,k_ _ x @z - t`'^B(277U;G;A *(#'5H]ft!8FYn 2^ nCr K3|X >Times New RomanTimes New Roman BoldTimes New Roman ItalicSymbol"i~'^FR`xxʻRRRx>R>CxxxxxxxxxxCCjݭR[ӭ⭭RCRnxRjxjxjRxxCCxCxxxxR[Cxxxxjs0sR>nRRR>RRRRRRRRxCjjjjjӜjjjjjRCRCRCRCxxxxxxxxxxjxvxxxxjjjjjjjjjjxxxxxRCRxRRRxxC`RRCxxxxxӭRRR[[[eCnxxxxxx⭭jjjxRx[Rx>xxP+PWddddddddddddddddddddddddddddddddddddddddNVVnxRjxxxxxCMxHMxHRRjjxRRxx듶VVȆRjxH"x𐋂x됐x2mK2 Z} K K" "i~'^09CSS999S]+9+/SSSSSSSSSS//]]]Ixnnxg]xx9?xgxx]xn]gxxxxg9/9MS9ISISI9SS//S/SSSS9?/SSxSSIP!PZ9+ZM999+99999999S/xIxIxIxIxIlnIgIgIgIgI9/9/9/9/xSxSxSxSxSxSxSxSxSxSxIxSxRxSxSxS]SxIxIxInInInZnIxigIgIgIgIxSxSxSxZxSxZxS9/9S999Su]ZZxSg/gCg9g9g/xSbxSxSxSxSxn9n9n9]?]?]?]ZgFg/gMxSxSxSxSxSxSxxZgIgIgIxSg9xS]?g9xSi+SS88WuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuddddddddddddddddddddddddddddddddddddddddN/>/>/>/x]SSSSx]x]x]x]xSxSx]SSxSxSf]xSxSxSxIxIxWxIx{nInInInISSSWS]a?/?]?9?]]WW]n/nKn9nCn/x]xx]x]SSxxIxIxI]?]?]?]WnUn9nax]x]x]x]x]x]xxWnInInIx]n9x]]?n9xSz+SS8-8WuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxN8HH"&H>XHH8HB8>HH^HH>"".2",2,2,"222N2222"&22H22,006"6."""""""""""2H,H,H,H,H,XAB,>,>,>,>,""""H2H2H2H2H2H2H2H2H2H2H,H2H1H2H2H282H,H,H,B,B,B6B,H?>,>,>,>,H2H2H2H6H2H6H2""2"""2F866H2>>(>">">H2;H2H2H2H2XHB"B"B"8&8&8&86>*>>.H2H2H2H2H2H2^HH6>,>,>,H2>"H28&>"H2?22!!WFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFddddddddddddddddddddddddddddddddddddddddN$<<$.2",2222`2 LL2 LL2L"",,2d""' ! antenna that radiates or receives signals equally well in all directions. See McGrawHill Electronics Dictionary, Fifth Edition, John Markus and Neil Sclater, at 564.  The EIRP  XH4 !pin other directions is smaller for directional antennas than for omnidirectional antennas of similar  !pinput power. One way to measure the directionality of an antenna is to measure the beamwidth  !of the radiated power directly. However, this direct measurement is technically difficult to  X 4 !Vperform. An easier measurement is the antenna gain, i.e., the strength of the radiated power in  X 4 !the center of the beam.jX l yO'' x ԍThe power gain, or simply the gain, of an antenna referenced to an isotropic source is the ratio of its  !! maximum radiation intensity to the radiation intensity of a lossless isotropic source with the same power input. The gain of an antenna is thus a measure of antenna efficiency.j In conventional antennas, these two parameters are correlated: high  X 4 !<antenna gain is always paired with narrow beamwidth antenna designs, l yO0'ԍHorn and dish antennas are the most common types of traditional directional antennas. so that the gain can be  X 4mathematically derived from the beamwidth and vice versa. 8l yO' x< ԍIn converting antenna gain to beamwidth, we assume that the antenna is a circular dish (thus the beam is  ! circular symmetric), that the antenna efficiency is 55% (typical for a dish antenna), and that the antenna sidelobes  ! are down more than 20 dB (approximately a 10 dB illumination function taper). Based on these assumptions, a  yO"' ! minimum antenna gain of 34 dBi is equivalent to a maximum beamwidth of 3.5o, 36 dBi is equivalent to 2.7o, and  yO"'38 dBi is equivalent to 2.2o.  X4 &d4.44Recent technological developments have made alternative directional antenna designs  !available. One of these technologies, planar arrays, spreads the power over a large number of  !<radiating elements in a flat plane in order to achieve a narrow beamwidth. Such antennas must  !Esplit the input power several times in order to feed it to the multiple radiating elements. This"O,N(N(ZZ"  !multiple power splitting results in inevitable power losses which, in turn, limit the achievable  X4 !antenna gain.l yOb' x ԍWhile this explanation deals with transmitting antennas, receiving antennas have similar losses which limit the achievable gain. Thus, while such directional antennas can achieve sufficiently narrow beamwidths  !to comply with the intent of our rules, they cannot comply with the present rule, which literally  X4 !requires a specific minimum antenna gain. These technical developments prompted us to initiate this proceeding.  Xv4 &5.44On February 29, 1996, we adopted a Notice of Proposed Rule Making ("NPRM") in  Xa4 !ythis proceeding.S a l {O2 'ԍSee 11 FCC Rcd 12360 (1996).S In the NPRM, we proposed to permit licensees to make a showing that the  !/antennas employed under Parts 74, 78, and 101 meet minimum antenna performance standards  !through the use of maximum beamwidth requirements as an alternative to minimum antenna gain  !requirements. In addition, we proposed to treat all antennas as if they had the mainlobe shape  X 4 !cand gain of a conventional parabolic dish antenna. In response to the NPRM, twelve comments  X 4and three reply comments were filed. B l yOU' x ԍThe commenting parties are: Alcatel Network Systems, Inc. ("Alcatel"), Andrew Corporation ("Andrew"),  !c Commco, L.L.C. ("Commco"), Comsearch, Digital Microwave Corporation ("Digital Microwave"), Endgate  !b Corporation ("Endgate"), INNOVA Corporation ("INNOVA"), National Spectrum Managers Association ("NSMA"),  !D Society of Broadcast Engineers, Inc. ("SBE"), Fixed PointtoPoint Communications Section, Network Equipment  yOu' ! Division of the Telecommunications Industry Association ("TIA"), and 360o Communications Company ("360o  {O=' !D Communications"). Ericsson Inc. ("Ericsson") filed its written ex parte comments late. We believe it to be in the  !k public interest that Ericsson's comments be considered in this proceeding and we hereby accept them. The reply commenting parties are: Comsearch, NSMA, and TIA.  X 'u DISCUSSION   X4 &c6.44The parties generally support the basic proposal in the NPRM, that is, to allow users  !to show compliance with the minimum antenna performance standards using either maximum  XS4 !beamwidth or minimum gain.& $S l {O' x ԍSee Comments of Alcatel at 2, Commco at 1, Comsearch at 3, Digital Microwave at 12, Endgate at 1,  yO' ! Ericsson at 1, INNOVA at 3, NSMA at 1, SBE at 1, TIA at 2, and 360o Communications at 1. Andrew states that  ! the proposed rules would cause harmful interference to cochannel users unless we also adopt rules requiring  {O!'elevation limitations. We are adopting such elevation limitations. See  12.& For example, Comsearch states that spectrum efficiency depends  !upon antenna radiation pattern performance (beamwidth, sidelobe suppression, and fronttoback  !'ratio), not upon antenna gain, and that thus, there is no need for a minimum antenna gain  !requirement as long as the maximum beamwidth and minimum radiation suppression requirements  X4 !are met.S l {OP&'ԍSee Comsearch Comments at 2.S Endgate Corporation ("Endgate") agrees that the adoption of this proposal would  !@remove a regulatory impediment to the use of new antenna technology and further states that such": ,N(N(ZZ:"  !'action would provide manufacturers with the flexibility to develop antennas with specific  !Iperformance properties that are appropriate for the application, rather than performance limited  X4by preexisting regulations.Q l {OK'ԍSee Endgate Comments at 2.Q  X4 &7.44We agree with Comsearch that spectrum efficiency is dependent upon antenna  !radiation pattern performance, that is, the beamwidth, sidelobe suppression, and the fronttoback  Xv4 !"ratio, and not upon antenna gain per se. Thus, we find that a showing of maximum beamwidth  ![as an alternative to a minimum antenna gain showing can be permitted with no impact on  !spectrum efficiency. Moreover, we believe that such a change would serve the public interest  X34 !because it allows a greater choice of technologies for licensees. Accordingly, we amend Sections  !074.536, 74.641, 78.105, and 101.115 of the Commission's Rules to permit licensees to  !demonstrate compliance using either minimum gain or maximum beamwidth. The table below summarizes these amendments: Y ddx !ddx S Y  q  _  Minimum Gain1_ Maximum Beamwidth1_ Rule Section1_ Band (GHz)q q   _y  34 dBi_  X43.5oy 101.115(c)y 10.5510.68q q 1 yy  36 dBi_  X*42.7oy 101.115(c)y 3.74.2q q  y_  38 dBi /  X42.2o/ 101.115(c)Q 5.9256.425q q  __> '     6.5256.875q q  __> '    3 10.5510.68q q  __> '     10.6310.68q q f __> '     10.711.7q q  __> '  d d  17.7018.82q q H __> '    74.536(c)*_ 17.719.7q q  __> '  F F 74.641(a)(1)_ 17.719.7q q * __> '    78.105(a)(1) _ 17.719.7q q  __> '  ( ( 101.115(c) 18.9219.70q q   __{ N     21.223.6q q } __{ N   !  ! i! Above 31.3q    _l{ N  {" {" 78.105(a)(1)#l 38.640.0  _"l"#Z ,N(N(ZZa" "Ԍ X4 &8.44In the NPRM, we observed that even with the sidelobe suppression required by the  !}existing rules, new types of antennas, such as planar array antennas, may differ somewhat from  X4 !}conventional dish and horn antennas in the exact shape of the mainlobe.Jr {OM'ԍSee NPRM at  8.J We stated that we do  !not believe that these differences in the shape of the mainlobe would have a significant impact  !on spectrum efficiency and, therefore, we proposed to treat all antennas as if they had the mainlobe shape and total gain of a conventional parabolic dish antenna.  Xa4 &~9.44Comsearch states that frequency coordinators perform interference calculations using  !actual antenna radiation pattern envelopes provided by the manufacturers. Comsearch notes that  !the Commission requires the radiation pattern information to be a part of the frequency  X 4 !/coordination and license application process for fixed microwave services.d Zr {O' 'ԍSee 47 C.F.R.  101.21(d), 101.103(d).d Comsearch states  !that using actual antenna radiation pattern data in frequency coordination maximizes spectrum  !efficiency by taking advantage of antenna performance exceeding artificial standards such as those  !described by Sections 74.536, 74.641, 78.105, and 101.115. Comsearch further states that the  !+Commission should not promote the use of any assumptions, worst case or otherwise, about  !"antenna performance, but instead should maintain the existing requirements that actual antenna  !radiation patterns be used for frequency coordination. With this procedure, Comsearch argues  !that any differences in the shape of the mainlobe of new antennas versus that of conventional antennas will be properly taken into account in interference calculations.  X64 $ X4 hp x (#%'0*,.8135@8:X  !ddx S  Ad0tA?     _" 6 { N6    b4aAntenna Standardsă   6 { N6 ")Frequency (GHz)y Categoryy Maximum beamwidth to 3 dB  X 4points1 (included angle in degrees)1 Minimum antenna gain (dbi)1 Minimum radiation suppression to angle in degrees from centerline of main beam in decibels"  " 6 9uR6 "jl jl  " X45$ !to M10$"[910$ `xto  X4[915$"O15$ to O20$""20$ "to "30$")%30$ .!&to %%100$ "o5)100$ x)to o5)140$ ",140$ *-to ,180$ r 1 6V 9uR6  17.7 to 19.7...# V#% A & B# V#H2.2 H2.2# V#"38 "38# V#(25 (20# V#l29 l24# V#33 28# V#k#36 k#32# V#;&42 ;&35 # V#u*55 u*36 # V#-55 -36r   6V 9uR6   X 431.0 to 31.32 #U n/a # X 4 34.0 #"38 #$n/a #hn/a #n/a #?#n/a #7&n/a  #I*n/a  #-n/a #    X 4 Lo,$ |1If a licensee chooses to show compliance using maximum beamwidth to 3 dB points, the beamwidth limit shall apply in both  X4the azimuth and the elevation planes.   X`4|2ĠMobile, except aeronautical mobile, stations need not comply with these standards.  X24|3ĠThe minimum fronttoback ratio shall be 38 dBi.  X4  X43.|In Section 74.641, paragraph (a)(1) is revised to read as follows:  X'|  74.641 Antenna systems.  X4| (a)SS* * *  Xz4 *#|(1)SSFixed TV broadcast auxiliary stations shall use directional antennas that meet the performance standards indicated in the  -N'following table. Upon adequate showing of need to serve a larger sector, or more than a single sector, greater beamwidth or multiple  -'antennas may be authorized. Applicants shall request, and authorization for stations in this service will specify, the polarization of each  -'transmitted signal. Booster station antennas having narrower beamwidths and reduced sidelobe radiation may be required in congested  -&areas, or to resolve interference problems. Licensees shall comply with the antenna standards table shown in this paragraph in the following manner:" @@S "  X4|(i)SSWith either the maximum beamwidth to 3 dB points requirement or with the minimum antenna gain requirement; and  X4|(ii)SSWith the minimum radiation suppression to angle requirement.   X |  Ad0tA?  adb0tA?   #  6 9uR6    bD4aAntenna Standardsă   6 9uR6 ")Frequency (MHz)y Categoryy Maximum beamwidth to 3 dB  X4points1 (included angle in degrees) Minimum antenna gain (dbi) Minimum radiation suppression to angle in degrees from centerline of main beam in decibels"  U" 6 9uR6 " l  l U  U " Xu 4]5$ jto +10$U "[910$ `xto [915$U "O15$ to O20$U ""20$ "to "30$U ")%30$ .!&to %%100$ U "o5)100$ x)to o5)140$ U ",140$ *-to ,180$ r  6V 9uR6  1,990 to 2,110 V#% A & BV#H5.0 H8.0V#n/a n/aV#(12 /.5V#l18 l18V#22 20V#k#25 k#20V#;&29 ;&25 V#u*33 u*28 V#-39 -36r r U  6,875 to 7,125 9V#% A & B9V#H1.5 H2.09V#n/a n/a9V#(26 (219V#l29 l259V#32 299V#k#34 k#329V#;&38 ;&35 9V#u*41 u*39 9V#-49 -45r [  6V3 9uR6   12,700 to 13,250............ 3#0I % A & B3#D H1.0 H2.03# n/a n/a3#6 (23 (203#z l28 l253#  35 283#3$ k#39 k#303#It' ;&41 ;&32 3#=+ u*42 u*37 3#|. -50 -47[ [ 9 17,700 to 19,700............V#0I % A & B3#D H2.2 H2.23# 38 383#6 (25 (203#z l29 l243#  33 283#3$ k#36 k#323#It' ;&42 ;&35 3#=+ u*55 u*36 3#|. -55 -36[   63} 9uR6  31,000 to  Xx431,3002...........q}#0I U n/aq}# WBD  X(4 34.0q}# 38q}#6 $n/aq}#z hn/aq}#  n/aq}#3$ ?#n/aq}#It' 7&n/a q}#=+ I*n/a q}#|. -n/a  }"q @@"  X4 Lu  '3'3StandardrJet 4 (Addition3'3'StandardrJet 4 (AdditionX |1If a licensee chooses to show compliance using maximum beamwidth to 3 dB points, the beamwidth limit shall apply in both the azimuth and the elevation planes. |  X4|2 Mobile, except aeronautical mobile, stations need not comply with these standards.  X4|3 The minimum fronttoback ratio shall be 38 dBi.  L|NOTE: Stations must employ an antenna that meets the performance standards for Category  !B. In areas subject to frequency congestion, where proposed facilities would be precluded by  !continued use of a Category B antenna, a Category A antenna must be employed. The  !Commission may require the use of a high performance antenna where interference problems can be resolved by the use of such antennas. |* * * * *  X'c |PART 78 CABLE TELEVISION RELAY SERVICE Đ  Xb41. |The authority citation for Part 78 continues to read as follows:  L|AUTHORITY: Secs. 2, 3, 4, 301, 303, 307, 308, 309, 48 Stat., as amended, 1064, 1065, 1066, 1081, 1082, 1083, 1084, 1085; 47 U.S.C. 152, 153, 154, 301, 303, 307, 308, 309.  X4   X4 2.|In Section 78.105, paragraph (a)(1) is revised to read as follows:  X4|  78.105 Antenna systems.  X4  X4|(a)SS* * *  Xe4 A XX |(1)SSFixed CARS stations shall use directional antennas that meet the performance standards indicated in the following table.  X 4 '|(i)SSStations must employ an antenna that meets the performance standards for Category B.  !In areas subject to frequency congestion, where proposed facilities would be precluded by  !continued use of a Category B antenna, a Category A antenna must be employed. The  !Commission may require the use of a high performance antenna where interference problems can be resolved by the use of such antennas.  X"4 ~|(ii)SSUpon adequate showing of need to serve a larger sector, or more than a single sector,  !greater beamwidth or multiple antennas may be authorized. Applicants shall request and authorization for stations in this service will specify the polarization of each transmitted signal.  X:&4 |(iii)SSLicensees shall comply with the antenna standards table shown in this paragraph in the  X#'4following manner: ,"#',N(N(ZZz%"  X4 3'3'StandardrJet 4 (Addition'3'3StandardrJet 4 (Addition>X |(A)SSWith either the maximum beamwidth to 3 dB points requirement or with the minimum antenna gain requirement; and  X4|(B)SSWith the minimum radiation suppression to angle requirement.   X  adb0tA?  db1     6 9uR6    bD4aAntenna Standardsă   6 9uR6 ")Frequency (MHz)y Categoryy Maximum beamwidth to 3 dB  X4points1 (included angle in degrees) Minimum antenna gain (dbi) Minimum radiation suppression to angle in degrees from centerline of main beam in decibels"  U" 6 9uR6 " l  l U  U " Xu 445$ Ato 10$U "X10$ ]Wto X15$U "x15$ to x20$U "g"20$ "to g"30$U "/%30$ n%to $100$ U "]T(100$ f(to ]T(140$ U "I,140$ ,to I,180$ [  63 9uR6   12,700 to 13,250........... V#0I % A & B3#D H1.0 H2.03# n/a n/a3#0A "y23 "y203#{ m 28 m 253#! : 35 : 283## "39 "303#7& )%41 )%32 3#\* y)42 y)37 3#|. -50 -47[ [ U  17,700 to 19,700............"V#0I % A & B 3#D H2.2 H2.2 3# 38 38 3#0A "y25 "y20 3#{ m 29 m 24 3#! : 33 : 28 3## "36 "32 3#7& )%42 )%35  3#\* y)55 y)36  3#|. -55 -36[ r  63p 9uR6  31,000 to  X431,3002...........}p#0I U n/a}p# WBD  XD4 34.0}p# 38}p#0A Mn/a}p#{ in/a}p#!  n/a}p## "n/a}p#7& %%n/a }p#\* uh)n/a }p#|. -n/ar k   6p@ 9uR6  38,600 to 40,000............c#0I % A & B@#D H2.2 H2.2@# 38 38@#0A "y25 "y20@#{ m 29 m 24@#! : 33 : 28@## "36 "32@#7& )%42 )%35 @#\* y)55 y)36 @#|. -55 -36k } @ "u @@G"  X4 Lu  '3'3StandardrJet 4 (Addition3'3'StandardrJet 4 (AdditionX |1If a licensee chooses to show compliance using maximum beamwidth to 3 dB points, the beamwidth limit shall apply in both the azimuth and the elevation planes.  X4|2ĠMobile, except aeronautical mobile, stations need not comply with these standards.  X4|3ĠThe minimum fronttoback ratio shall be 38 dBi. |* * * * *  X ' |PART 101 FIXED MICROWAVE SERVICES   X 41. |The authority citation for Part 101 continues to read as follows: |AUTHORITY: 47 U.S.C.  154(i), 303, unless otherwise noted.  X4 2.|In Section 101.115, paragraph (c) is revised to read as follows:  Xb' | 101.115 Directional antennas.  XK4  X44|* * * * *  X4 |(c)SSFixed stations (other than temporary fixed stations and DEMS nodal stations) operating  !at 932.5 MHz or higher must employ transmitting and receiving antennas (excluding second  !creceiving antennas for operations such as space diversity) meeting the appropriate performance  !"Standard A indicated below, except that in areas not subject to frequency congestion, antennas  !meeting performance Standard B may be used, subject to the requirements set forth in paragraph  !N(d) of this section. Licensees shall comply with the antenna standards table shown in this paragraph in the following manner:  XN4 W|(i)SSWith either the maximum beamwidth to 3 dB points requirement or with the minimum antenna gain requirement; and  X 4|(ii)SSWith the minimum radiation suppression to angle requirement.   X ",N(N(ZZG" 3'3'StandardrJet 4 (Addition'3'3StandardrJet 4 (Addition>X   db1   dZ k  } 6 9uR6    b4aAntenna Standardsă   6 9uR6 ")Frequency (MHz)y Categoryy Maximum beamwidth to 3 dB  X 4points1 (included angle in degrees)1 Minimum antenna gain (dbi)1 Minimum radiation suppression to angle in degrees from centerline of main beam in decibels"  " 6 9"u6 "jl jl    X45$ to  X410$*  X410$ to  X415$*  X415$ to  X420$*  X420$ to  X430$*  X430$ to  X4100$*   X4100$ to  X4140$*   X4140$ to  X4180$* r 1 6V 9"u6  932.5 to 935...: y#% A & B# V#14.0 20.0# V#n/a n/a# V#$n/a $n/a# V#m6 bn/a# V#11  6# V#"14 "10# V#5^&17 5^&13 # V#)20 )15 # V#-24 -20r r  941.5 to 944... y#% A & B V#14.0 20.0 V#n/a n/a V#$n/a $n/a V#m6 bn/a V#11  6 V#"14 "10 V#5^&17 5^&13  V#)20 )15  V#-24 -20r r #   X54952 to 9602, 3 #% A & BV#14.0 20.0V#n/a n/aV#$n/a $n/aV#m6 bn/aV#11  6V#"14 "10V#5^&17 5^&13 V#)20 )15 V#-24 -20r [  6V3 9"u6  1,850 to  X42,5004.............yp#0I % A & Bb3#D H5.0 H8.0b3# n/a n/ab3#6 (12 /.5b3#tx f18 f18b3#l  22 20b3#`# "25 "20b3#C&' 5^&29 5^&25 b3#* )33 )28 b3#|. -39 -36[ r  63V 9"u6  3,700 to 4,200y#% A & BV#H2.7 H2.7V#36 36V#(23 (20V#f29 f24V#33 28V#"36 "32V#5^&42 5^&32 V#)55 )32 V#-55 -32r [ b 6V3 9"u6  5,925 to  X]46,4255.............Fp#0I % A & B/3#D H2.2 H2.2/3# 38 38/3#6 (25 (21/3#tx f29 f25/3#l  33 29/3#`# "36 "32/3#C&' 5^&42 5^&35 /3#* )55 )39 /3#|. -55 -45[ k  63@ 9"u6  5,925 to  X46,4256.............}#0I % A & B@#D H2.2 H2.2@# 38 38@#6 (25 (20@#tx f29 f24@#l  33 28@#`# "36 "32@#C&' 5^&42 5^&35 @#* )55 )36 @#|. -55 -36" @@"k [ / 6@3 9"u6  6,525 to  X46,8755.............rp#0I % A & B[3#D H2.2 H2.2[3# 38 38[3#6 (25 (21[3#tx f29 f25[3#l  33 29[3#`# "36 "32[3#C&' 5^&42 5^&35 [3#* )55 )39 [3#|. -55 -45[ [  6,525 to  X46,8756.............p#0I % A & B3#D H1.5 H2.03# n/a n/a3#6 (26 (213#tx f29 f253#l  32 293#`# "34 "323#C&' 5^&38 5^&35 3#* )41 )39 3#|. -49 -45[ [ [ 10,550 to  X?410,6805, 7........( p#0I % A & B 3#D H2.2 H2.2 3# 38 38 3#6 (25 (20 3#tx f29 f24 3#l  33 28 3#`# "36 "32 3#C&' 5^&42 5^&35  3#* )55 )35  3#|. -55 -39[ [  10,550 to  X 410,6806........... p#0I % A & Bl 3#D H3.4 H3.4l 3# 34 34l 3#6 (20 (20l 3#tx f24 f24l 3#l  28 28l 3#`# "32 "32l 3#C&' 5^&35 5^&35 l 3#* )55 )35 l 3#|. -55 -39[ r   63V 9"u6  10,565 to  X410,615............V#0I U n/aV#D 360V# n/aV#6 $n/aV#tx bn/aV#l  xn/aV#`# l"n/aV#C&' 12&n/a V#* })n/a V#|. -n/ar r l  6Vp 9"u6  10,630 to  Xg410,6808...........Pp#0I U n/aPp#D H3.5Pp# 34Pp#6 (20Pp#tx f24Pp#l  28Pp#`# "32Pp#C&' 5^&35 Pp#* )36 Pp#|. -36r [  6p3 9"u6  10,700 to  X411,7005...........p#0I % A & B3#D H2.2 H2.23# 38 383#6 (25 (203#tx f29 f243#l  33 283#`# "36 "323#C&' 5^&42 5^&35 3#* )55 )36 3#|. -55 -36" a a "[ [ P 12,200 to  X413,2509..........rp#0I % A & B[3#D H1.0 H2.0[3# n/a n/a[3#6 (23 (20[3#tx f28 f25[3#l  35 28[3#`# "39 "30[3#C&' 5^&41 5^&32 [3#* )42 )37 [3#|. -50 -47[ [  17,700 to 18,820............V#0I % A & B3#D H2.2 H2.23# 38 383#6 (25 (203#tx f29 f243#l  33 283#`# "36 "323#C&' 5^&42 5^&35 3#* )55 )36 3#|. -55 -36[ [ [ 18,920 to  X?419,70010..........( p#0I % A & B 3#D H2.2 H2.2 3# 38 38 3#6 (25 (20 3#tx f29 f24 3#l  33 28 3#`# "36 "32 3#C&' 5^&42 5^&35  3#* )55 )36  3#|. -55 -36[ [  21,200 to  X 423,60011.......... p#0I % A & Bl 3#D H2.2 H2.2l 3# 38 38l 3#6 (25 (20l 3#tx f29 f24l 3#l  33 28l 3#`# "36 "32l 3#C&' 5^&42 5^&35 l 3#* )55 )36 l 3#|. -55 -36[ r   63p 9"u6  31,000 to  X431,30012, 13......p#0I U n/ap#D H4.0p# 38p#6 $n/ap#tx bn/ap#l  xn/ap#`# l"n/ap#C&' 12&n/a p#* })n/a p#|. -n/ar  l  6pc 9"u6  Above 31,300w#% A & B`c#H2.2 H2.2`c#38 38`c#(25 (20`c#f29 f24`c#33 28`c#"36 "32`c#5^&42 5^&35 `c#)55 )36 `c#-55 -36  c  XI4 Lo,% |1If a licensee chooses to show compliance using maximum beamwidth to 3 dB points, the beamwidth limit shall apply in both the azimuth and the elevation planes. " a a P<"  X4 L '3'3StandardrJet 4 (Addition3'3'StandardrJet 4 (AdditionX XS hp x (#%'0*,.8135@8: