Larcan DTT250M, Общее описание устройства

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VHF OUTPUT RF METERING & AGC CIRCUIT BOARD
PUB96-33 rev 1: May 16, 1997
33-2
RF Output Metering 20B1299G3
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The output of U1 ‐ 7 (U2 ‐ 7) drives the RF power meter through R32 (R30) which set the meter deflection
with a known RF signal. U1 ‐ 7 (U2 ‐ 7) drives the telemetry buffer U4 through R29 (R47) which are
adjusted to calibrate the telemetry to a standard voltage with a known RF signal. Forward calibration
is done with full rated power and a forward RF sample from the probe section applied to J1. R29
adjusted for 3.0 VDC delivered to J3 ‐ 6, and R32 is adjusted for a 100% reading on the forward power
meter position.
For Reflected calibration, the same forward RF sample is then applied through a 16 dB pad to J2, and
R47 is adjusted for 1.5 VDC at J3 ‐ 10, and R30 is set for a 2.5% reading on the Reflected Power meter.
Because of the extra 16 dB, the calibration automatically gets a x40 multiplier, so the actual reading of
the meter is 2.5% on a full scale of 12.5%. The first scale mark of the meter is then 0.5%. If you were
to substitute a 10 dB pad for the 16 dB and adjust R36 and R49 to get the VSWR supervision levels out of
the way, you would see a meter deflection of 100% which corresponds to actual 10% reflected power,
and a telemetry output voltage of 3.0 VDC. It is simply the insertion of the pad and the subsequent
calibration, that provides the meter multiplier scale factor.
When you are setting up the adjustments on this board, disable the AGC, and set the exciter level for
100% RF output from the transmitter. This is especially true for the reflected or VSWR settings,
because these are done at a forced RF level that is high enough that the AGC system will be driven into
cutback mode which is what will need to be set up because it affects the exciter
AGC and VSWR supervision:
The output from U1 (U2) pin 7 is also applied to a second op ‐ amp U1 (U2) pin 3. If the detected level
at U1 pin 3 rises above the level set by the AGC pot (on the Control board) at U1 pin 2, the output on pin
1 will rise. This AGC output is applied via J5 ‐ 1 to a final buffer amplifier (U2A on the Control board) an
from there to a PIN attenuator in the exciter, thereby reducing the transmitter power accordingly.
The reflected power detector CR2, Q2, CR4, U2 is similar in operation to the forward power detector
CR1, Q1, CR3, U1. If the reflected power rises to a value higher than a calibrated value of 17 to 18 dB
below the forward power level, then pin 3 of U2 rises above the voltage on pin 2 that is set by the
adjustment of R36, U2 pin 1 will go higher, which applies a drive cutback signal via J5 ‐ 2 to U2A in the
Control board and from there to the PIN attenuator in the exciter. At the same time, U3 pins 3 and 6
are also driven more positi
When the voltage on U3 ‐ 3 exceeds the voltage on U3 ‐ 2 that is determined by trip threshold control R42,
U3 ‐ 1 goes HIGH, to output a status signal HIGH through buffer Q4, and to energize VSWR trip relay K1
thru buffer Q3. The base of Q3 in some transmitters may have a time delay R61, C21 added, to avoid
false VSWR tripping after power failure and restoration. The component parts for this "fix" may be
soldered to the back of the board in Rev 4 and earlier.
If the reflected power increases still further, the voltage on U3 ‐ 6 rises past the voltage threshold set by
R49 on U3 ‐ 5, then U3 ‐ 7 will switch LOW, which triggers the "555" timer U5. This IC will produce an
output pulse at U5 pin 3 of approximately one second duration. This pulse is also applied to the PIN
attenuator to temporarily remove RF drive. Restoration of the transmitter should normally happen