Shively Labs 6822 Instruction Manual Installation, Operation, & Maintenance Download Page 59

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Startup

We strongly recommend initial characterization as the best way to identify

both initial problems and possible future system damage.

Initial characterization

Before beginning initial

characterization:

Important

In the days before the hazards of intense RF power were realized, it was

common practice to have a technician climb the tower and adjust the

impedance match using the transmitter as a signal source and reading

the VSWR or return power on the transmitter. This practice MUST NOT

be used, as few transmitters can be operated at a low enough power

level to avoid exposing the rigger to an unsafe RF level. For reference,

see 29 CFR, Section 1910.97, the OSHA standard for exposure to non-

ionizing radiation.
To test and adjust VSWR safely, use low-power test equipment, such as

a network analyzer. If you don't have access to low-power test equip-

ment, please call Shively Labs before proceeding.

WARNING

Whenever a rigger is on the tower in the area of the antenna, shut off

the transmitter signal and lock and tag it out so that it cannot be turned

on accidentally.
Low-power test equipment should be used to prevent excessive radia-

tion exposure to the person doing the adjusting.

A high transmission line VSWR may indicate damaged transmission line and is

likely to cause problems in the future, including serious damage to your equip-

ment.

Read transmission line

VSWR.

The first step is to characterize the transmission line by itself.
a. Briefly disconnect the transmission line from the antenna system input. Seal

the antenna system input to prevent the entry of moisture.

b. Terminate the coax transmission line in an instrument-quality 50-ohm load.
c. Measure and record the voltage standing wave ratio (VSWR) across the

operating band. File this information with this manual for future reference.

d. The VSWR of the transmission line should be within the manufacturer's

specifications. If it is, proceed. If not, you should call the manufacturer

before connecting the antenna. Problems must be worked out with the

design engineer on a case-by-case basis.

Read transmission line

TDR.

With the transmission line still terminated in 50 ohms, make a time domain

reflectometer (TDR) plot. Label and file the plot with this manual.

Read system VSWR.

You tested the VSWR of the transmission line alone. Now test the VSWR of the

system as a whole.
a. Remove the load and connect the transmission line to the antenna system

input.

b. Measure VSWR. VSWR at this point should be around 1.2 : 1 or better. If it

is not, check to be sure all the radiators are functioning (below).

c. Record the reading and file it with this manual.

Summary of Contents for 6822

Page 1: ...Circularly Polarized FM Broadcast Antenna Model 6822 Instruction Manual Installation Operation Maintenance ...

Page 2: ...chnical staff has a wealth of experience in the broadcast industry and is standing by to serve you in any way This manual is intended to give you a good basic understanding of your antenna its proper and safe installation startup and operation and trouble shooting and maintenance information to keep it working satisfactorily for years to come Please have everyone involved with the antenna read thi...

Page 3: ...this manual in its entirety before beginning installation of your antenna Failure to follow the installation and operation instructions in this manual could lead to failure of your equipment and might even void your warranty ...

Page 4: ......

Page 5: ...ize to 3 1 2 inches outside diameter 13 Mounting pipe size 3 1 2 inches to six inches outside diameter 13 Figure 11 Mount attachment pipe size up to 3 1 2 inches 14 Table 2 Mounting U bolt usage 14 Figure 12 Mount attachment pipe size 3 1 2 to 6 15 Attach the bay arms 15 Figure 13 Bay arm attachment 16 Attach the bay cable single bay antenna only 16 Attach the feedstraps to the endseal 16 Figure 1...

Page 6: ...e connection 36 Connect the tower transmission line 37 Figure 27 Tower transmission line connection 38 Chapter 7 Installing the De icer System if applicable 39 Precautions 39 De icer system description 39 Dual setting thermostat 39 Electric power 39 Table 3 De icer specifications 39 De icer installation 40 Installing the de icer junction boxes 40 Figure 28 De icer junction box installation 40 Figu...

Page 7: ...able 5 Components antenna bay without de icer per bay 57 Figure 42 Components 6822 bay without de icers 58 De Icer Components 59 Table 6 Components de icer per bay 59 Figure 43 Components 6822 de icer 59 Mounting system components 60 Up to 3 1 2 mounting pipe OD 60 Table 7 Components mounts for up to 3 1 2 mounting pipe per antenna bay 60 Figure 44 Components mounts for up to 3 1 2 mounting pipe 6...

Page 8: ...mponents feed system for 6 bay antenna per array 65 Table 15 Components feed system for 8 bay antenna per array 66 Figure 47 Feed system components 8 bay antenna 67 Accessories and optional items 68 Table 16 Accessories and optional items 68 Figure 48 Slugged line section if applicable components 69 Figure 49 Fine matching transformer optional components 70 ...

Page 9: ... all the illustrations in this manual Set up the mounting location Remember It is YOUR responsibility to ensure that your installation meets all appli cable codes and the centerline of radiation requirements of your FCC construction permit CAUTION Before attaching the pipe mounts to the tower scrape away tower paint to ensure good electrical contact If you don t the antenna may gener ate unwanted ...

Page 10: ...ethod can only be used for a single bay antenna because it allows no location to mount a power divider If your support pipe is mounted on top of a tower or building Figure 9 locate the antenna with at least ten feet 3 1 m of vertical clearance between the bottom antenna bay and the top of the tower or building Then mount the pipe in accordance with the guidelines above Preparing the tower leg or m...

Page 11: ...3 Preparation Figure 1 Mounting options ...

Page 12: ...Preparation 4 Figure 2 Tower layout single antenna bay ...

Page 13: ...5 Preparation Figure 3 Tower layout two bay antenna IMPORTANT If you ordered a custom spaced antenna please refer to your antenna test data sheet for bay to bay spacing ...

Page 14: ...Preparation 6 Figure 4 Tower layout three bay antenna IMPORTANT If you ordered a custom spaced antenna please refer to your antenna test data sheet for bay to bay spacing ...

Page 15: ...7 Preparation Figure 5 Tower layout four bay antenna IMPORTANT If you ordered a custom spaced antenna please refer to your antenna test data sheet for bay to bay spacing ...

Page 16: ...Preparation 8 Figure 6 Tower layout five bay antenna IMPORTANT If you ordered a custom spaced antenna please refer to your antenna test data sheet for bay to bay spacing ...

Page 17: ...9 Preparation Figure 7 Tower layout six bay antenna IMPORTANT If you ordered a custom spaced antenna please refer to your antenna test data sheet for bay to bay spacing ...

Page 18: ...Preparation 10 Figure 8 Tower layout eight bay antenna IMPORTANT If you ordered a custom spaced antenna please refer to your antenna test data sheet for bay to bay spacing ...

Page 19: ...11 Preparation Figure 9 Top mounted installation ...

Page 20: ...Preparation 12 Figure 10 Proper and improper securing of bay cables ...

Page 21: ... the slots in the mount Install the hardware 33 34 and 35 loosely onto the U bolts Discard the unused U bolts Mounting pipe size 3 1 2 inches to six inches outside diameter NOTE For mounting pipes up to 3 1 2 diameter see the previous section NOTE The mount is reversible and can be attached to either side of the bay weldment a Using two screws Figure 12 1 with hardware 2 3 and 4 attach the balun m...

Page 22: ...unt attachment pipe size up to 3 1 2 inches Table 2 Mounting U bolt usage Mounting pipe size U bolt size Up to 2 inches 5 1 cm outside diameter 2 in 6 35 cm 2 to 4 in 5 to 10 2 cm 4 in 10 2 cm 4 to 6 in 10 to 15 2 cm See Figure 12 ...

Page 23: ...of your antenna a Locate the inner and outer dipole arms Figure 13 7 The sliding V arms 18 on each dipole arm are factory assembled and adjusted for proper performance all the same and secured with hose clamps 19 b Using upper arm clamps 6 and 5 16 18 hardware 1 2 3 and 4 attach the two dipole arms 7 to the saddles on the bay weldment 5 as shown Tighten in accordance with Table 1 ...

Page 24: ... feedstraps to the endseal NOTE The feedstraps are shipped in place on the dipole arms a Remove the wingnut and washers from the endseal Figure 14 9 the white plastic dome on the antenna weldment CAUTION Do NOT move the feedstrap clips on the sliding V arms The antenna was tuned with the clips in place If you move them the antenna will not work as expected b Loosen the feedstrap clip hardware 10 j...

Page 25: ...17 Bay Assembly Figure 14 Bay cable feedstrap attachment bay cable for single bay antenna only d Tighten the feedstrap clip hardware only until the lock washer flattens Do not overtighten ...

Page 26: ......

Page 27: ... locations you marked on the mounting pipe Set up the mounting location on page 1 scrape away any paint or other coating to achieve good electrical contact NOTE Mount antenna bays with feed straps up clear of all guylines and other obstructions b Using the U bolts Figure 15 31 or 32 attach the antenna bays at the marked locations c Repeat for the other antenna bay s as applicable d Align the bays ...

Page 28: ...38 and 39 attach the antenna bays at the marked locations Tighten in accordance with Table 1 on page 1 c Repeat for the other antenna bay s as applicable d Align the bays to the correct azimuth and align them vertically with each other then tighten the mounting hardware in accordance with Table 1 on page 1 e Repaint the pipe as needed around the antenna bay mount Figure 16 Bay mounting on pipe 3 1...

Page 29: ...e to the input of the antenna bay cable Figure 17 8 Tighten in accordance with Table 1 on page 1 Figure 17 Single bay antenna connection c Loop or drape any excess cable and secure it to the pipe using tie wraps 44 or customer supplied clamps to prevent wind damage to the cables and to ensure the weight of the cable is not carried by the antenna input NOTE The Model 6822 bay does not require press...

Page 30: ......

Page 31: ...r 58 to the mounting structure with its outlet ports roughly halfway along the antenna array Locate the mounts as close to the ends of the power divider as you can NOTE You may need to provide a coax adapter between your transmission line and the power divider Figure 18 Power divider mounting NOTE Two way and 4 way feed systems shown Three five and six way feed sys tems are similar ...

Page 32: ...adapter between your transmission line and the slugged line section Install the slugged line section 70 or 71 as applicable at the input flange of your power divider Figure 20 46 49 52 55 or 58 as follows a Ensure there is an inner conductor connector in the slugged line section outlet flange b Attach the mounts 45 to the slugged line section close to the ends c Coat the O ring 43 or 54 as applica...

Page 33: ...25 Connecting the Antenna 2 to 6 bay Figure 19 Slugged line section installation if applicable ...

Page 34: ...ax adapter between your transmission line and the fine matching transformer Install the transformer at the input flange of your power divider Figure 20 46 49 52 55 or 58 as applicable or slugged line section 70 or 71 as applicable as follows a Ensure there is an inner conductor connector in the transformer outlet flange b Attach the transformer mounts 45 to the transformer close to the ends c Coat...

Page 35: ...27 Connecting the Antenna 2 to 6 bay Figure 20 Fine matching transformer installation ...

Page 36: ...ding radius for 1 2 coax is 3 8 cm Do not bend it too tightly you may damage it CAUTION Do not overtighten the connectors Overtightening may damage them a Connect the output end 90 connectors of the antenna bay cable 47 50 56 or 59 to the DIN connector at the bottom of the endseal Figure 21 Antenna bay cable connection b Run the cable along the antenna weldment and secure it using tie wraps 44 so ...

Page 37: ...put if applicable b Coat the O ring 54 lightly with O Lube supplied with the antenna then install it in the O ring groove in the flange c Using the 1 5 8 EIA flange hardware kit Figure 22 45 attach the tower transmission cable to the power divider or transformer input Tighten in accordance with Table 1 on page 1 d Secure the tower transmission cable to the mounting pipe or tower leg using tie wrap...

Page 38: ...to ensure the weight of the cable is not carried by the antenna input NOTE The Model 6822 antenna does not require pressurization or purging The feed system up to the power divider may be pressurized Installation of your Model 6822 2 to 8 bay antenna is now complete Please proceed to Startup on page 51 ...

Page 39: ...able In the event your antenna has non standard bay spacing or other special fea tures we may have provided you with a line section containing a slug to perfect the tuning of the antenna This is to be installed between the output of the transformer if applicable and the input of the power divider CAUTION Do not remove or modify the slug from the slugged line section This will ruin your antenna s p...

Page 40: ...Connecting the Antenna 8 bay 32 Figure 23 Power divider mounting for 8 bay antenna ...

Page 41: ...33 Connecting the Antenna 8 bay Figure 24 Slugged line section installation if applicable ...

Page 42: ...ner NOTE You may need to provide a coax adapter between your transmission line and the fine matching transformer Install the transformer at the input flange of your power divider 62 or slugged line section 71 if applicable as follows a Ensure there is an inner conductor connector in the transformer outlet flange b Attach the transformer mounts 45 to the transformer close to the ends c Coat the O r...

Page 43: ...35 Connecting the Antenna 8 bay Figure 25 Fine matching transformer installation ...

Page 44: ...ng radius for 1 2 coax is 3 8 cm Do not bend it too tightly you may damage it CAUTION Do not overtighten the connectors Overtightening may damage them a Connect the output end 90 connectors of the antenna bay cable 47 50 56 or 59 to the DIN connector at the bottom of the endseal Figure 26 Antenna bay cable connection b Run the cable along the antenna weldment and secure it using tie wraps 44 so as...

Page 45: ...ove in the flange c Using the flange hardware kit 42 or 53 as applicable attach the tower transmission cable to the power divider or transformer input Tighten in accordance with Table 1 on page 1 d Secure the tower transmission cable to the mounting pipe or tower leg using tie wraps or customer supplied cable clamps e Loop or drape any excess cable and tie wrap it to the pipe to prevent wind damag...

Page 46: ...Connecting the Antenna 8 bay 38 Figure 27 Tower transmission line connection ...

Page 47: ...ostat readings Table 4 on page 44 Your system may also include specially ordered items such as a ground mounted main control box a power cable extending up the tower or a tower mounted dual setting thermostat Dual setting thermostat CAUTION Remember that conditions may be favorable for icing on the tower even if they are not on the ground Shively Labs deicers are designed to prevent ice from formi...

Page 48: ... antenna mast through the side port of the junction box Figure 28 De icer junction box installation b Screw the junction box onto the threaded end of the antenna mast as shown Figure 29 Tighten the jam nut against the junction box 8 Bay single circuit 36 3 3 Table 3 De icer specifications continued Heater leg resistance Heater leg T1 or T2 current draw amps ...

Page 49: ...le section At the top end the components are pre assembled and tightened c At the bottom end Figure 30 the components are only loosely assembled and the outer cable insulation and the braided sheath have been cut back to the proper length at the factory Figure 30 Interbay cable section bottom end d Install the top end of the cable section 1 Apply PTFE tape to the body threads on the top end 2 Turn...

Page 50: ...end it back over the grommet Figure 32 Figure 32 Sheath bent back over the grommet 4 Insert the leads through the body and the top port of the second junction box 5 Press the bushing unraveled sheath and all into the body Figure 33 Then screw the cable gland over the retainer and onto the bushing and tighten Figure 33 Final assembly top of second junction box ...

Page 51: ... schematic diagram NOTE Wire nuts cover with screws and gaskets and tie wraps are provided with the de icer cable sec tions NOTE Customer supplied items are shown in broken lines CAUTION Shively Labs s de icer control box Model 94068 is designed for interior installation only ...

Page 52: ...nt it at your discretion We recommend mounting it as close as practical to the antenna CAUTION When testing the thermostat be sure to have one or both thermostat leads disconnected before taking resistance readings Otherwise read ings may be affected by other components a Before you connect the thermostat measure the resistance across the thermostat circuit and from it to ground to ensure that the...

Page 53: ...ter signal and lock and tag it out so that it cannot be turned on accidentally Low power test equipment should be used to prevent excessive radia tion exposure to the person doing the adjusting A high transmission line VSWR may indicate damaged transmission line and is likely to cause problems in the future including serious damage to your equip ment Setup a Adjust the arm lengths and feed straps ...

Page 54: ...ng 46 Tuning Figure 35 Arm length vs frequency Figure 36 Feed strap angle vs frequency a Tweak for minimum VSWR from there see Chapter 9 The specification is less than 1 2 1 Figure 37 Figure 38 and Figure 39 ...

Page 55: ...47 Retuning Figure 37 Optimal VSWR at 108 MHz narrow feedstrap ...

Page 56: ...Retuning 48 Figure 38 Optimal VSWR at 108 MHz wide feedstrap ...

Page 57: ...49 Retuning Figure 39 Optimal VSWR at 88 MHz wide feedstrap ...

Page 58: ......

Page 59: ...igh transmission line VSWR may indicate damaged transmission line and is likely to cause problems in the future including serious damage to your equip ment Read transmission line VSWR The first step is to characterize the transmission line by itself a Briefly disconnect the transmission line from the antenna system input Seal the antenna system input to prevent the entry of moisture b Terminate th...

Page 60: ...ement is seen d Adjust the second and third tuning stubs in the same manner NOTE If you get lost return all three tuning stubs to the factory setting all the way out and start over e Return to the first tuning stub and so forth until you have the lowest possible VSWR or return power reading This is the optimal transformer setting at this frequency f VSWR for each frequency at this point should be ...

Page 61: ...transmitter readings stability and general operation 2 Run at about half power for at least an hour reading forward and reflected power stability etc 3 If the system is stable and seems to be operating properly bring it up to full power Take initial readings and repeat the readings periodically c Performance readings should not change and there should be no evidence of abnormal heating in the ante...

Page 62: ...Startup 54 Figure 41 Apply the signal ...

Page 63: ...k to you at your expense if you don t do this Troubleshooting Broad spectrum RF noise This indicates that some component is not in good electrical contact with the tower Make sure mounts are tight that tower paint has been removed from under the mounts and that components of other systems are likewise in good contact with the tower High VSWR This is caused by any factor that changes the impedance ...

Page 64: ......

Page 65: ...ldment 1 6 97353 09 Clamp upper arm 4 7 97353 01 Arm dipole 2 8 97353 G505 036 00 single bay antenna only Cable assembly 7 16 DIN female to 90 7 16 DIN male 36 long 1 9 99786 G502 Endseal assembly 1 10 97353 07 Clip feedstrap 2 11 97353 10 Feedstrap 2 12 96384 11 Washer 10 endseal brass Bokers 2 13 01 4 20SS016HM Screw hex head 1 4 20 x 1 1 4 SS 2 14 01 4 20SS Nut hex 1 4 20 SS 2 15 01 4SSF Washer...

Page 66: ...Parts 58 Figure 42 Components 6822 bay without de icers ...

Page 67: ...t Number Description Qty 23 51299 G5XXX XX LG De icer bay to bay box cable assembly 3 conductor with shield 1 24 97353 12 Box aluminum conduit tee 1 25 2426 141 Locknut 1 2 pipe 1 26 52762 CUP 1 Plug pipe 1 2 NPT end bay only 1 27 2426 RC55 Nut wire crimp on 2 28 2426 2521 Connector liquid tight 1 2 2 ...

Page 68: ...pe per antenna bay Part Number Description Qty 29 98141 07 Mount balun for 1 50 3 50 OD pipe 1 30 6384 16 U bolt 1 pipe 2 31 55020 48 U bolt stainless 4 00 2 32 55020 49 U bolt stainless 2 50 2 33 03 8 16SS Nut hex 3 8 16 SS 8 34 03 8SSF Washer flat 3 8 SS 8 35 03 8SSS Washer split lock 3 8 SS 8 1 5 16 18SS036HM Screw hex head 5 16 18 x 2 1 4 SS 2 2 5 16 18SS Nut hex 5 16 18 SS 2 3 5 16SSF Washer ...

Page 69: ...3 1 2 6 5 8 OD 1 1 5 16 18SS036HM Screw hex head 5 16 18 x 2 1 4 SS 2 2 5 16 18SS Nut hex 5 16 18 SS 2 3 5 16SSF Washer flat 5 16 SS 4 4 5 16SSS Washer split lock 5 16 SS 2 30 6384 16 U bolt 1 pipe 2 37 G58NUT Nut hex 5 8 11 heavy galvanized 12 38 G58FW Washer flat 5 8 heavy galvanized 12 39 G58LW Washer split lock 5 8 galvanized 8 40 G58R 12 Rod full threaded 5 8 11 galvanized 4 41 98141 04 Clamp...

Page 70: ...Parts 62 Figure 45 Components mounts for 3 1 2 to 6 mounting pipe ...

Page 71: ... on input end and 90 7 16 DIN male on output end 2 48 97353 G505 96 00 Half wave spaced Coax cable section 8 ft 2 44 m long 7 16 DIN male on input end and 90 7 16 DIN male on output end 2 44 TY529MX Tie wrap 12 Table 11 Components feed system for 3 bay antenna per array Part Number Description Qty 45 98162 G501 Kit power divider mount 7 8 1 5 8 1 49 078F 716X3 Power divider 3 way 7 8 EIA flange to...

Page 72: ...Parts 64 Figure 46 Feed system components for 2 to 6 bay antennas ...

Page 73: ...er mount 7 8 1 5 8 1 55 158F 716X5 Power divider 5 way 1 5 8 EIA flange to 7 16 DIN male 1 54 82912 G501 Kit flange hardware 1 5 8 flange 1 55 9068 328 O ring silicone 1 5 8 EIA flange 1 56 97353 G505 336 00 Full wave spaced Coax cable section 28 ft 8 54 m long 7 16 DIN male on input end and 90 7 16 DIN male on output end 5 57 97353 G505 168 00 Half wave spaced Coax cable section 14 ft 4 27 m long...

Page 74: ...ardware 1 5 8 flange 1 55 9068 328 O ring silicone 1 5 8 EIA flange 1 63 98361 G501 Mount base assembly 2 64 98359 G503 Saddle assembly 1 5 8 2 65 6114 Clamp hose 4 66 99459 G501 168 00 Full wave spaced Air flex high power line section flanged long with 1 5 8 ter minals 2 67 99459 G501 054 00 Half wave spaced Air flex high power line section flanged long with 1 5 8 terminals 2 68 97353 G505 240 Fu...

Page 75: ...67 Parts Figure 47 Feed system components 8 bay antenna ...

Page 76: ...ction slugged 1 5 8 1 54 82912 G501 Kit flange hardware 1 5 8 flange 1 55 9068 328 O ring silicone 1 5 8 EIA flange 1 72 99952 G502 Transformer fine matching 7 8 EIA 1 42 82912 G506 Kit flange hardware 7 8 flange 1 43 9068 215 O ring silicone 7 8 EIA flange 1 73 99952 G502 Transformer fine matching 1 5 8 EIA 1 54 82912 G501 Kit flange hardware 1 5 8 flange 1 55 9068 328 O ring silicone 1 5 8 EIA f...

Page 77: ...69 Parts Figure 48 Slugged line section if applicable components ...

Page 78: ...Parts 70 Figure 49 Fine matching transformer optional components ...

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Shively Labs 6822, Instruction Manual Installation, Operation, & Maintenance, Page: 59 / 78

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