Harris DX 25U Скачать руководство пользователя страница 220

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LOW “Inverted Turn-on Pulse” is generated at the Q-not
output and generates a “Data Strobe” signal for the Analog
Input Board data latches.

d. K1 HAS CLOSED. When K1 closes, an auxiliary contact

places a +30 Vdc signal at the input of a de-bounce and
logic level converter circuit Q10-8 and U59-6. U59-6 is a
“K1 Has Closed-H” signal which:

1. Resets “Underdrive Inhibit-B”. Resets the underdrive

comparator reference, on the LED Board.

2. Starts a 0.3 second delay timer R96/C90.

e. K1 HAS 0.3 SECONDS. Approximately 0.3

seconds after the “K1 Has Closed-H” signal, delay timer
circuit U59-12 provide a logic HIGH output which:

1. Releases “Underdrive Inhibit-A”. The logic HIGH in-

put to U51-4 forces the output HIGH and activates the
underdrive fault circuit on the LED Board.

2. Starts a 0.8 second delay timer R65/C94. The output of

the second timer is a “K1 HAS 1.1 SEC-
ONDS” logic HIGH signal.

f. K1 HAS 1.1 SECONDS. The 0.8 second delay

logic HIGH output occurs (0.3 + 0.8) 1.1 seconds after the
“K1 Has Closed” input. This logic HIGH signal:

1. Generates a “K2 DRIVE” signal. The logic HIGH

signal feeds OR gate U51-1, K2 Inhibit gate U53-5,
Supply Fault gate U53-9 and K2 Drive transistor Q10-
7. If no “INHIBIT K2-L” fault signal is present at K2
inhibit gate U53-6 and no “SUPPLY FAULT-L” fault
signal is present at U53-8, the K2 Drive signal energizes
step-start contactor K2.

2. Generates a “RELEASE INHIBIT-H” signal, at U51-3,

which enables the power control.

g. K2 HAS CLOSED. When K2 closes, a +30 Volt logic

signal from the auxiliary contact is fed to the de-bounce
and logic level converter circuits Q10-14 and U59-3. The
output from the converter, a “K2 HAS CLOSED-H” sig-
nal:

1. Latches K2. If no faults are present, the “K2 HAS

CLOSED-H” pin 1 input to OR gate U51 holds the
gate’s output HIGH, and latches K2.

2. Inhibits a new Turn-On Pulse. Inhibits U56A via pin 1,

so that another power mode change (which generates
another “TURN-ON REQUEST”) cannot trigger an-
other Turn-On Pulse.

3. Starts a 150 millisecond delay timer. After 150 millisec-

onds, U59-10 output goes from HIGH to LOW.

4. Releases “OVERDRIVE INHIBIT-L”. The “OVER-

DRIVE INHIBIT-L” is released through U52-6 so that
rf overdrive sensing circuits and air flow fault circuits
on the LED Board are allowed to operate.

5. Turns the PA Modules ON. The “PA OFF-L” signal

from U53-3 goes HIGH, which turns the PA Modules
ON.

h. At this time, approximately 1.2 seconds has elapsed since

the “TURN-ON REQUEST”, and the transmitter is “ON.”

The 1.6 second “K1 TURN-ON” pulse will continue to
remain HIGH for approximately 0.4 seconds, then it will
go LOW, K1 Drive will be removed, and K1 will de-ener-
gize.

P.4.1.2

Transmitter Turn-off Sequence

When the “OFF” button is depressed, the HIGH, MEDIUM or
LOW light goes out, contactor K2 de-energizes, and power
output drops to zero. A remote “OFF” command, a Type 1 Fault
or Type 2 Fault induced “OFF” command causes the same circuit
action as depressing the OFF button.

When a latched “OFF-H” signal is received from the power
control logic, the following sequence takes place:

a. De-energizes K2. The “OFF-H” signal at U52-2 generates

the “INHIBIT K2-L” signal. The “INHIBIT K2-L” signal:

1. Turns OFF PA Power Supply. The logic LOW input at

U53-5 inhibits the K2 Drive signal and K2 de-ener-
gizes, removing primary power from the PA Power
Supply. The K2 drive signal is inhibited as long as the
latched “OFF” command is present.

2. Inhibits “TURN-ON REQUEST”. The signal goes to

the Power Control logic to prevent a “TURN-ON RE-
QUEST” as long as the latched “OFF” command is
present.

3. Inhibits Overdrive and Air Flow Fault Sensing. The

output of U52-6 goes LOW to inhibit the overdrive and
air flow sensing circuits when the PA Modules are
turned OFF.

4. Turns PA Modules OFF. The output of U53-3 goes

LOW to generate a “PA OFF-L” command to the power
amplifier. The PA is held OFF as long as the latched
“OFF” command is present.

b. When K2 de-energizes its auxiliary contact opens and the

“K2 IS CLOSED-H” line goes LOW. This causes the
following circuit actions:

1. Removes K2 Latching Signal. The “K2 IS CLOSED-

H” input to U51-2 goes LOW. K2 cannot energize again
until another “TURN-ON REQUEST” starts the turn-
on sequence again.

2. Inhibits Power Change. The output of gate U51-3 goes

LOW, removing the “Release Inhibit-H” signal and
inhibiting the power change circuitry.