20
Alignment
Alignment Preparation & Precautions
Before beginning alignment, connect the trans-
ceiver to the PC using the VPL-1 Connection Ca-
ble, and upload the current frequency data from
the customer’s radio to the computer; save this
information to disk so that it can be downloaded
to the radio again after alignment is completed.
Next, refer to the label at the rear of the bot-
tom cover of the radio to determine its “version”
(frequency range); using the CE-20 software, pro-
gram the four “Test” simplex channels shown in
the table below, as appropriate for the radio ver-
sion you are working with:
Download this data to the transceiver under test.
Note:
When alignment is finished, you may wish to
save these alignment channels as a disk file for
future service work. Make certain to re-load the
original channel data (uploaded from the radio
prior to servicing) into the transceiver, and com-
plete a final performance check, before return-
ing the equipment to the customer.
A 50-
W
dummy load and in-line wattmeter
must be connected to the rear-panel antenna jack
in all procedures which require transmission.
Correct alignment is not possible without a re-
sistive 50-
W
termination for the transmitter.
Be certain that your power supply delivers
13.8 VDC, as measured directly at the radio's DC
input plug, during transmitter tests. Any volt-
age drop in the cable, or due to the loading on
the power supply, must be compensated to 13.8
VDC for accurate alignment.
After completing one alignment step, read the
following step to determine whether or not the
same test equipment will be required. If not, re-
move the test equipment (except dummy load
and wattmeter) before proceeding.
Correct alignment requires that the ambient
temperature be the same as that of the transceiv-
er, and that this temperature be held constant
between 68°F and 86°F (20°C and 30°C). When
the transceiver is brought into the shop from hot
or cold air, it should be allowed time to come to
room temperature before alignment is attempt-
ed. All test equipment should similarly be thor-
oughly warmed up.
Whenever possible, alignments should be per-
formed with oscillator shields and circuit boards
firmly affixed in place.
Note:
Signal levels in dB referred to in these align-
ment procedures are based on 0 dBµ = 0.5 µV
(closed circuit).
Connect the test equipment as shown in the
pictorial above.
PLL VCV (Varactor Control Voltage)
Performance Check
r
Connect the DC voltmeter between test point
TP1033 on the MAIN Unit and chassis ground.
r
Set the transceiver to channel 3, and confirm
that the reading is about 4.5V.
Version “A”
134.000 MHz
147.000 MHz
160.000 MHz
160.000 MHz
Version “C”
148.000 MHz
161.000 MHz
174.000 MHz
174.000 MHz
Channel #
1
2
3
4
Alignment Setup
50
W
Dummy Load
In-Line
Wattmeter
Deviation
meter
Frequency
Counter
RF Sampling
Coupler
RF Signal
Generator
AF
Generator
Power Supply
13.8 V
COM Port
CT-71 Connection
cable
Transceiver
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Страница 13: ...13 Interconnection Diagram VX 2000V 4ch Front Interconnection Diagram T9206689A Lot 7 ...
Страница 14: ...14 Interconnection Diagram VX 2000V 40ch Front Interconnection Diagram T9206689A Lot 7 ...
Страница 24: ...24 Note MAIN Unit Lot 1 ...
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Страница 49: ...Display 1 Unit 49 Circuit Diagram ...
Страница 50: ...50 Display 1 Unit Parts Layout Side A Side B XN1213 9L Q2001 2003 2004 BU4094BCFV Q2002 DTC124EK 25 Q2005 ...
Страница 52: ...52 Display 1 Unit Note ...
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Страница 56: ...56 Display 2 Unit Note ...