FCC Web Documents citing 73.153
- http://fjallfoss.fcc.gov/edocs_public/attachmatch/DA-11-1535A1.pdf
- technology, resulting in the variation of transmitter power to levels below 90 percent of the station's nominal licensed power.8We will require,however, that the transmitter achieve full licensed power at 5See, e.g., staff letter of June 24, 2010, to KOTZ, Kotzebue, Alaska (Facility ID No. 35440) granting experimental authorization to use DCC technology, and the associated engineering report. 647 C.F.R. 73.153. 747 C.F.R. 73.44. 8Use of MDCL algorithms does not increase the likelihood of transmitter power exceeding the upper limit (105 percent of licensed power) specified in 47 C.F.R. 73.1560(a). some audio input level, or when the MDCL is temporarily disabled. This requirement will permit stations to use energy-saving MDCL technologies, which preserve licensed coverage areas, while distinguishing between
- http://hraunfoss.fcc.gov/edocs_public/attachmatch/DA-11-1535A1.doc http://hraunfoss.fcc.gov/edocs_public/attachmatch/DA-11-1535A1.pdf http://hraunfoss.fcc.gov/edocs_public/attachmatch/DA-11-1535A1.txt
- The British Broadcasting Corporation developed Amplitude Modulation Companding, the German firm AEG Telefunken (now Transradio) developed Dynamic Amplitude Modulation, and the Swiss ABB Group developed Dynamic Carrier Control. . See, e.g., staff letter of June 24, 2010, to KOTZ, Kotzebue, Alaska (Facility ID No. 35440) granting experimental authorization to use DCC technology, and the associated engineering report. 47 C.F.R. 73.153. 47 C.F.R. 73.44. Use of MDCL algorithms does not increase the likelihood of transmitter power exceeding the upper limit (105 percent of licensed power) specified in 47 C.F.R. 73.1560(a). 47 C.F.R. 73.1510. Id. PUBLIC NOTICE Federal Communications Commission 445 12th St., S.W. Washington, D.C. 20554 News Media Information 202 / 418-0500 Internet: http://www.fcc.gov TTY: 1-888-835-5322
- http://hraunfoss.fcc.gov/edocs_public/attachmatch/FCC-04-281A1.doc http://hraunfoss.fcc.gov/edocs_public/attachmatch/FCC-04-281A1.pdf http://hraunfoss.fcc.gov/edocs_public/attachmatch/FCC-04-281A1.txt
- based on frequency, power, and antenna configuration, the distance from their transmitting antenna where signal produces field levels equal to, or greater than, 5% of the relevant RF exposure limit). OET Bulletin 65 at 36. OET Bulletin 65 at 44. This is consistent with Commission's rules and precedent preferring measurements to calculations in certain cases. See e.g., 47 C.F.R. 73.153 (in determination of interference, groundwave field strength measurements will take precedence over theoretical values); In re Applications of Benjamin F. Thomas and Roy A. Grove D.B.A. Greencastle Broadcasting Co., 16 FCC 2d 923 (1969) (measurement data indicating no prohibited overlap are to be preferred over the calculations based on figure M-3 conductivities). Telemundo states that at no point between July
- http://hraunfoss.fcc.gov/edocs_public/attachmatch/FCC-06-173A1.doc http://hraunfoss.fcc.gov/edocs_public/attachmatch/FCC-06-173A1.pdf http://hraunfoss.fcc.gov/edocs_public/attachmatch/FCC-06-173A1.txt
- refuse to refrain from enforcing our RFR Rules because uncertainty exists in the RFR measurement data. As detailed above, the appropriate uncertainty factors have been taken into account to ensure fair proceedings for all licensees. OET Bulletin 65 at 44. This is consistent with Commission's rules and precedent preferring measurements to calculations in certain cases. See e.g., 47 C.F.R. 73.153 (in determination of interference, groundwave field strength measurements will take precedence over theoretical values); In re Applications of Benjamin F. Thomas and Roy A. Grove D.B.A. Greencastle Broadcasting Co., 16 FCC 2d 923 (1969) (measurement data indicating no prohibited overlap are to be preferred over the calculations based on figure M-3 conductivities). Telemundo Petition at 3. 47 C.F.R. 1.1307(b)(3).
- http://transition.fcc.gov/eb/Orders/2004/FCC-04-281A1.html
- calculate, based on frequency, power, and antenna configuration, the distance from their transmitting antenna where signal produces field levels equal to, or greater than, 5% of the relevant RF exposure limit). 77OET Bulletin 65 at 36. 78OET Bulletin 65 at 44. This is consistent with Commission's rules and precedent preferring measurements to calculations in certain cases. See e.g., 47 C.F.R. 73.153 (in determination of interference, groundwave field strength measurements will take precedence over theoretical values); In re Applications of Benjamin F. Thomas and Roy A. Grove D.B.A. Greencastle Broadcasting Co., 16 FCC 2d 923 (1969) (measurement data indicating no prohibited overlap are to be preferred over the calculations based on figure M-3 conductivities). 79Telemundo states that at no point between July
- http://transition.fcc.gov/eb/Orders/2006/FCC-06-173A1.html
- refuse to refrain from enforcing our RFR Rules because uncertainty exists in the RFR measurement data. As detailed above, the appropriate uncertainty factors have been taken into account to ensure fair proceedings for all licensees. OET Bulletin 65 at 44. This is consistent with Commission's rules and precedent preferring measurements to calculations in certain cases. See e.g., 47 C.F.R. S 73.153 (in determination of interference, groundwave field strength measurements will take precedence over theoretical values); In re Applications of Benjamin F. Thomas and Roy A. Grove D.B.A. Greencastle Broadcasting Co., 16 FCC 2d 923 (1969) (measurement data indicating no prohibited overlap are to be preferred over the calculations based on figure M-3 conductivities). Telemundo Petition at 3. 47 C.F.R. S 1.1307(b)(3).
- http://transition.fcc.gov/fcc-bin/audio/DA-11-1535A1.doc http://transition.fcc.gov/fcc-bin/audio/DA-11-1535A1.pdf
- The British Broadcasting Corporation developed Amplitude Modulation Companding, the German firm AEG Telefunken (now Transradio) developed Dynamic Amplitude Modulation, and the Swiss ABB Group developed Dynamic Carrier Control. . See, e.g., staff letter of June 24, 2010, to KOTZ, Kotzebue, Alaska (Facility ID No. 35440) granting experimental authorization to use DCC technology, and the associated engineering report. 47 C.F.R. 73.153. 47 C.F.R. 73.44. Use of MDCL algorithms does not increase the likelihood of transmitter power exceeding the upper limit (105 percent of licensed power) specified in 47 C.F.R. 73.1560(a). 47 C.F.R. 73.1510. Id. PUBLIC NOTICE Federal Communications Commission 445 12th St., S.W. Washington, D.C. 20554 News Media Information 202 / 418-0500 Internet: http://www.fcc.gov TTY: 1-888-835-5322
- http://transition.fcc.gov/fcc-bin/audio/amfmrule.html
- Blanketing interference. [125]TEXT [126]PDF 73.99 Presunrise service authorization (PSRA) and postsunset service authorization (PSSA). [127]TEXT [128]PDF 73.127 Use of multiplex transmission. [129]TEXT [130]PDF 73.128 AM stereophonic broadcasting. [131]TEXT [132]PDF 73.132 Territorial exclusivity. [133]TEXT [134]PDF 73.150 Directional antenna systems. [135]TEXT [136]PDF 73.151 Field strength measurements to establish performance of directional antennas. [137]TEXT [138]PDF 73.152 Modification of directional antenna data. [139]TEXT [140]PDF 73.153 Field strength measurements in support of applications or evidence at hearings. [141]TEXT [142]PDF 73.154 AM directional antenna partial proof of performance measurements. [143]TEXT [144]PDF 73.157 Antenna testing during daytime. [145]TEXT [146]PDF 73.158 Directional antenna monitoring points. [147]TEXT [148]PDF 73.160 Vertical plane radiation characteristics, f(). [149]TEXT [150]PDF 73.182 Engineering standards of allocation. [151]TEXT [152]PDF 73.183 Groundwave signals. [153]TEXT [154]PDF 73.184 Groundwave
- http://www.fcc.gov/eb/Orders/2004/FCC-04-281A1.html
- calculate, based on frequency, power, and antenna configuration, the distance from their transmitting antenna where signal produces field levels equal to, or greater than, 5% of the relevant RF exposure limit). 77OET Bulletin 65 at 36. 78OET Bulletin 65 at 44. This is consistent with Commission's rules and precedent preferring measurements to calculations in certain cases. See e.g., 47 C.F.R. 73.153 (in determination of interference, groundwave field strength measurements will take precedence over theoretical values); In re Applications of Benjamin F. Thomas and Roy A. Grove D.B.A. Greencastle Broadcasting Co., 16 FCC 2d 923 (1969) (measurement data indicating no prohibited overlap are to be preferred over the calculations based on figure M-3 conductivities). 79Telemundo states that at no point between July
- http://www.fcc.gov/eb/Orders/2006/FCC-06-173A1.html
- refuse to refrain from enforcing our RFR Rules because uncertainty exists in the RFR measurement data. As detailed above, the appropriate uncertainty factors have been taken into account to ensure fair proceedings for all licensees. OET Bulletin 65 at 44. This is consistent with Commission's rules and precedent preferring measurements to calculations in certain cases. See e.g., 47 C.F.R. S 73.153 (in determination of interference, groundwave field strength measurements will take precedence over theoretical values); In re Applications of Benjamin F. Thomas and Roy A. Grove D.B.A. Greencastle Broadcasting Co., 16 FCC 2d 923 (1969) (measurement data indicating no prohibited overlap are to be preferred over the calculations based on figure M-3 conductivities). Telemundo Petition at 3. 47 C.F.R. S 1.1307(b)(3).
- http://www.fcc.gov/mb/audio/bickel/amfmrule.html
- Blanketing interference. [125]TEXT [126]PDF 73.99 Presunrise service authorization (PSRA) and postsunset service authorization (PSSA). [127]TEXT [128]PDF 73.127 Use of multiplex transmission. [129]TEXT [130]PDF 73.128 AM stereophonic broadcasting. [131]TEXT [132]PDF 73.132 Territorial exclusivity. [133]TEXT [134]PDF 73.150 Directional antenna systems. [135]TEXT [136]PDF 73.151 Field strength measurements to establish performance of directional antennas. [137]TEXT [138]PDF 73.152 Modification of directional antenna data. [139]TEXT [140]PDF 73.153 Field strength measurements in support of applications or evidence at hearings. [141]TEXT [142]PDF 73.154 AM directional antenna partial proof of performance measurements. [143]TEXT [144]PDF 73.157 Antenna testing during daytime. [145]TEXT [146]PDF 73.158 Directional antenna monitoring points. [147]TEXT [148]PDF 73.160 Vertical plane radiation characteristics, f(). [149]TEXT [150]PDF 73.182 Engineering standards of allocation. [151]TEXT [152]PDF 73.183 Groundwave signals. [153]TEXT [154]PDF 73.184 Groundwave
- http://www.fcc.gov/mb/audio/includes/63-amfmrule.htm
- Blanketing interference. [78]TEXT [79]PDF 73.99 Presunrise service authorization (PSRA) and postsunset service authorization (PSSA). [80]TEXT [81]PDF 73.127 Use of multiplex transmission. [82]TEXT [83]PDF 73.128 AM stereophonic broadcasting. [84]TEXT [85]PDF 73.132 Territorial exclusivity. [86]TEXT [87]PDF 73.150 Directional antenna systems. [88]TEXT [89]PDF 73.151 Field strength measurements to establish performance of directional antennas. [90]TEXT [91]PDF 73.152 Modification of directional antenna data. [92]TEXT [93]PDF 73.153 Field strength measurements in support of applications or evidence at hearings. [94]TEXT [95]PDF 73.154 AM directional antenna partial proof of performance measurements. [96]TEXT [97]PDF 73.157 Antenna testing during daytime. [98]TEXT [99]PDF 73.158 Directional antenna monitoring points. [100]TEXT [101]PDF 73.160 Vertical plane radiation characteristics, f(). [102]TEXT [103]PDF 73.182 Engineering standards of allocation. [104]TEXT [105]PDF 73.183 Groundwave signals. [106]TEXT [107]PDF 73.184 Groundwave