®
FM1000A
RF Amplifier Package
User's Manual
©2005 Crown Broadcast, a division of International Radio and Electronics, Inc.
25166 Leer Drive, Elkhart, Indiana, 46514-5425 U.S.A.
(574) 262-8900
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Contents
Section 1—Getting Acquainted
1.1 Your Amplifier Package .......................................................................................1–2
1.2 Amplifier Package Specifications.........................................................................1–3
1.3 Safety Considerations..........................................................................................1–4
1.3.1 Dangers ............................................................................................................1–4
1.3.2 Warnings ..........................................................................................................1–4
1.3.3 Cautions ...........................................................................................................1–4
Section 2—Installation
2.1 Operating Environment .....................................................................................2–2
2.2 Tools Required ..................................................................................................2–2
2.3 Unpacking.........................................................................................................2–2
2.4 Preinstallation ...................................................................................................2–3
2.4.1 Power Amplifier Modules .............................................................................2–3
2.4.2 Hubble Twist Lock® Connector Wiring ........................................................2–4
2.5 Installation ........................................................................................................2–5
2.6 Remote I/O Connection.....................................................................................2–6
Section 3—Operation
3.1 Initial Power-up Procedures..............................................................................3–2
3.2 Power Switches ................................................................................................3–4
3.2.1 AC Input Circuit Breaker ...............................................................................3–4
3.2.2 DC Power Switch..........................................................................................3–5
3.2.3 Interlock Switch............................................................................................3–5
3.3 Digital Multimeter .............................................................................................3–6
3.4 Fault Indicators .................................................................................................3–7
3.5 Fuse Indicators .................................................................................................3–8
Section 4—Principles of Operation
4.1 PA1000 Power Amplifier ...................................................................................4–2
4.1.1 Power Modules ............................................................................................4–2
4.1.2 Power Combiner Board ................................................................................4–2
4.1.3 Backplane Assembly.....................................................................................4–3
4.1.3.1
4.1.3.2
4.1.3.3
Backplane DC Interconnect Board ........................................................4–3
Input Divider Board...............................................................................4–3
Output Combiner Board ........................................................................4–3
4.1.4 Output Filter & Reflectometer .......................................................................4–3
4.1.5 Metering and Control Board .........................................................................4–4
4.1.6 DC Fuse and Power Distribution Board ........................................................4–4
4.1.7 Cooling Fans.................................................................................................4–4
iii
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4.2 PS1000 Power Supply ......................................................................................4–4
4.2.1 AC Input Board .............................................................................................4–5
4.2.2 PFC (Power Factor Correcting) Switching Board ..........................................4–5
4.2.3 DC Output Board ..........................................................................................4–6
4.2.4 Cooling Fans.................................................................................................4–6
Section 5—Troubleshooting
5.1 Troubleshooting Flow Chart Analysis ................................................................5–2
5.2 Digital Multimeter Parameters ..........................................................................5–3
5.2.1 In Ref (Input Drive Reference)......................................................................5–3
5.2.2 SWR (Standing Wave Ratio) ........................................................................5–3
5.2.3 ALC (Automatic Level Control) .....................................................................5–3
5.2.4 Power Out ....................................................................................................5–3
5.2.5 PA Temp .......................................................................................................5–4
5.2.6 PA Voltage ....................................................................................................5–4
5.2.7 Tot Current ...................................................................................................5–4
5.2.8 PA1–8...........................................................................................................5–4
5.3 Fault Indicators .................................................................................................5–5
5.3.1 Antenna ........................................................................................................5–5
5.3.2 RF Drive........................................................................................................5–5
5.3.3 PA Temp .......................................................................................................5–5
5.3.3.1
Potential Causes for Non-functioning Cooling Fans ..............................5–5
5.3.4 PA DC ...........................................................................................................5–6
5.3.5 Multiple Indicators........................................................................................5–6
Section 6—Reference Drawings
6.1 Views ................................................................................................................6–2
6.2 Diagrams and Schematics ................................................................................6–3
Section 7—Service and Support
7.1 Service..............................................................................................................7–2
7.2 24–Hour Support ..............................................................................................7–2
7.3 Spare Parts .......................................................................................................7–2
Glossary
Index
iv
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I
INFORMATION
Section 1—Getting Acquainted
This section provides a general description of the FM1000A
power amplifier system and introduces you to safety conventions
used within this document. Review this material before install-
ing or operating the amplifier and power supply.
Getting Acquainted
1–1
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I
1.1 Your Amplifier Package
The FM1000A is a highly efficient amplifier package designed to set a new standard
in FM transmitter design offering modularity, ease of use, and long-term reliabil-
ity. The FM1000A package includes a PA1000 amplifier, PS1000 power supply, and
an FM1K accessory pack.
The PA1000 broadband amplifier requires no tuning and typically provides 80% RF
efficiency across the band. The PS1000 power supply is power factor corrected and
90% efficient. Modern MOSFET technology ensures high AC to RF efficiency
(better than 70% overall) and long-term reliability. The unmatched efficiency of
this power amplifier significantly improves your bottom line by providing cooler
operation and lower power costs.
These modular units are uniquely designed to be lightweight and compact for
convenient shipping, and require only seven RU spaces for installation. Installa-
tion is made simple with just three interconnections between the amplifier and
power supply. In addition, built-in digital metering and status indicator capabili-
ties enable intuitive operation to further augment the user-friendly design.
Economic long-term reliability is ensured through our carefully engineered solid-
state design. The PA1000 features two field-replaceable 500–watt power modules.
This power amplifier delivers 500 to over 1000 watts of RF power output. Use your
existing exciter or purchase the FM1000T which includes our award-winning FM30
exciter for an unbeatable 1 kW transmitter package.
Metering
Fault
Fuses
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
Antenna
RF Drive
PA Temp
PA DC
PA3
PA
4
PA8
Power Out
PA Temp
PA7
In Ref
SWR
ALC
PA Voltage
Tot Current
®
Power
I
O
®
Illustration 1–1 FM1000A Amplifier Package
1–2
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1.2 Amplifier Package Specifications
RF Power Output:
100 to 1100 watts continuous with remote
controlled power adjust
RF Drive Requirement:
30 watts for full output
RF Output Impedance:
Maximum SWR:
50 ohms (unbalanced)
1.7:1 (With power foldback at high SWR)
87–108 MHz
Frequency Range:
RF Harmonics/Spurious Products: Better than –80 dB
Asynchronous AM S/N Ratio:
Synchronous AM S/N Ratio:
Better than –55 dB with 100% modulation at
400 Hz, no de-emphasis, no FM modulation
(typically > 60 dB)
Better than –55 dB with 100% modulation at
400 Hz, no de-emphasis, FM
modulation=75 kHz @400 Hz
(typically > 60 dB)
Operating Environment:
Temperature Range:
Humidity Range:
0°–50°C at sea level
0–80% at 20°C (noncondensing)
240 Volts AC +10/-15%, 50–60 Hz
AC Power:
Power Consumption:
Less than 1400 watts at 1000 watts RF output
typical
Power Factor:
.96 typical
Overall Efficiency:
RF Output Connector:
Power Amplifier Chassis:
70% typical
7/8 in. EIA flange, 7–16 in DIN optional
7 x 17.25 x 23 inches (17.78 x 43.82 x
58.42 cm) exclusive of rack ears, but inclu-
sive of connectors
Power Supply Chassis:
Weight:
5.25 x 17.25 x 23 inches (13.34 x 43.82 x
58.42 cm) exclusive of rack ears
PA1000—40 pounds (18.1 kg)
RF PA Modules—8 pounds (3.6 kg) each
PS1000—43 pounds (19.5 kg)
Note: System performance is specified using Crown Broadcast
Model FM30 Exciter where applicable.
Getting Acquainted
1–3
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I
1.3 Safety Considerations
Crown Broadcast assumes the responsibility for providing you a safe product and
safety guidelines during its use. “Safety” means protection to all individuals who
install, operate, and service the transmitter as well as protection of the transmitter
itself. To promote safety, we use standard hazard alert labeling on the product and
in this manual. Follow the associated guidelines to avoid potential hazard.
1.3.1 Dangers
DANGER represents the most severe hazard alert. Extreme bodily harm or death
will occur if DANGER guidelines are not followed.
1.3.2 Warnings
WARNING represents hazards which could result in severe injury or death.
1.3.3 Cautions
CAUTION indicates potential personal injury or equipment or property damage if
the associated guidelines are not followed. Particular cautions in this text also
indicate unauthorized radio-frequency operation.
Type of Hazard
WARNING
Severe shock hazard!
Turn power off and
Pictorial Indication
of Hazard
Explanation of
Hazard
wait approximately 1
minute for capacitors
to discharge before
handling them.
Illustration 1–3 Sample Hazard Alert
1–4
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®
Section 2—Installation
This section provides important guidelines for installing your
power amplifier and power supply. Review this information care-
fully for proper installation.
Installation
2–1
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2.1 Operating Environment
You can install the FM1000A amplifier system in a standard 19–inch component
rack or on a suitable surface such as a bench or desk. In any case, the area should
be as clean and well-ventillated as possible. The power supply must be installed
directly above or below the power amplifier (for the included dressed cables to
reach their respective connectors).
2.2 Tools Required
To install the power supply and power amplifier, you will need the following tools:
❑ Medium phillips screwdriver
❑ Medium flat-blade screwdriver
❑ Small flat-blade screwdriver
❑ 7/16–Inch wrench or nut driver
❑ ESD (Electrostatic Discharge) protection grounding strap and/or mat.
2.3 Unpacking
Before handling any exposed printed circuit boards, ground yourself with an
antistatic strap and/or mat.
CAUTION
Possible equipment damage!
Guard against electrostatic discharge
through electronic components.
The power amplifier, power supply, and two power amplifier modules are packed
and shipped in individual boxes because of their modular nature. (The FM1K
accessory kit is packed inside one of the two power amplifier module boxes.) For
added protection, both the PA1000 amplifier and PS1000 supply are packed in an
inner box and then placed inside an outer box with styrofoam protective corners in
both boxes. You will need to unpack a total of four boxes (plus two inner boxes).
Note: Save the boxes and packaging material that the individual
units are packed in should you need to return them for factory
service.
2–2
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2.4 Preinstallation
2.4.1 Power Amplifier Modules
The PA1000 incorporates four power amplifiers (two each in two modules). Due to
possible damage during shipment, the power modules have been removed. Follow
these steps to install the modules:
1. Remove the front panel of the PA1000 (four screws).
2. Taking ESD precautions (see page 2–2), unpack the power modules and place
them on your work area with the circuit sides up.
Connector
Warning Label
Slide Rail
Illustration 2–1 Power Amplifier Module
3. The warning labels on the front of the modules should all be positioned to the
center of the chassis, also note the position of the connector on the modules
and in the chassis.
4. Insert the two power modules, using their slide rails, into the built in chan-
nels of the right-side cavity as shown below. Note that the connectors and
warning labels are nearest the middle wall or partition of the PA1000.
Module A
(amps 3 & 4)
Module B
(amps 7 & 8)
Middle Partition
Vacant Cavity
Illustration 2–2 Power Amplifier Module Placement
5. Be sure the modules are pushed in completely so that the connector makes
proper contact.
6. Replace the front panel of the PA1000.
Installation
2–3
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2.4.2 Hubble Twist Lock® Connector Wiring
Prepare the wiring for the Hubble Twist-Lock® connector in the following manner
before connecting to your AC power source:
1. Use round cord with a diameter of 0.385–0.780 inches (10–20 mm), Type SJ
12/3 – 10/3; Type S 16/3 – 10/3.
2. Select conductor size from your National Electrical Code®.
3. Slide the cover onto the cord. Remove insulation from cable and conductors
as shown in Illustration 2–3. Do not tin conductors.
1 Inch
(25 mm)
5/8 Inch
(16 mm)
Illustration 2–3 Cover, Cable & Conductors
4. Loosen terminal screws. Insert conductors fully into proper terminals ac-
cording to the table below. Take caution that there are no stray wire strands.
Terminal
Conductor
Equipment grounding conductor
(green or green/yellow)
Green Hex Head Screw
Hot circuit conductor, 240 VAC
Brass Screw
(NOT white, NOT green)
Brass/Black Screw
Hot circuit conductor, 240 VAC
(NOT white, NOT green)
5. Tighten terminal screws to 18 pound• inches (2.1 N•m) of torque.
6. Tighten assembly screws to 10 pound• inches (1.1 N• m) of torque.
7. Tighten cord clamp screws to 10 pound• inches (1.1 N• m) of torque.
WARNING
Possible Electric Shock Hazard!
Do not connect AC source until all
other connections are made and
installation is complete.
2–4
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2.5 Installation
1. Mount the units in an appropriate 19–inch wide cabinet. The power supply
must be installed directly below the power amplifier for the included
cables to reach their respective connectors (see illustration 2–4 below).
Note: The PS1000 weighs approximately 40 pounds (18.1 kg); the
PA1000, approximately 43 pounds (19.5 kg). Use help to install.
2. Ensure that the PS1000 power switch is off, the circuit breakers of the 240
VAC source on the back panel are off, and the AC connector is not plugged in.
3. Install the exciter source (such as a Crown Broadcast FM30) according to its
instructions.
4. Connect the RF input cable from the exciter source to the N connector on the
back of the PA1000.
5. Connect the RF output cable (from the antenna) to the 7/8 EIA or 7-16 DIN
connector on the back of the PA1000.
6. Connect one end of the supplied control cable to the 9–pin D-sub connector
on the PA1000.
7. Connect the other end of the control cable to the 9–pin D-sub connector on
the PS1000.
+ DC Input
DC Input
RF Monitor
(Optional Connection)
RF Input
Ground Screws
Air Intakes/Filters
Remote I/O
RF Output
Control
PA1000
Circuit Breakers
+ DC Output
OFF
OFF
Fans
Power
Control
DC Output
Air Exhaust Vents
PS1000
240 VAC IN
Illustration 2–4 Rear Panel Connections
Installation
2–5
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8. Using the supplied connector, tie together pins 6 and 7 of the Remote I/O
connector. The amplifier will not operate without this connection or a
remote switch on these pins. (See Section 2.6 for Remote I/O connection.)
9. If monitoring of the output signal is desired, connect the RF monitor cable to
the BNC connector on the PA1000.
10. Connect the DC input/output cables between the PA1000 and the PS1000 as
illustrated (Illustration 2–4). The connector end with the ground lead con-
nects to the PA1000. Be sure to attach the ground leads as indicated.
Note: The power lead shield is only grounded at the PA chassis.
11. Install the covers over the DC terminals of the PA1000 and the PS1000 using
hardware form the hardware kit (1/4–inch X 6–32 bolts with lock washers).
12. Connect to your AC power source by inserting the Hubble Twist-Lock connec-
tor into the female Hubble connector on the PS1000 and turn to the right
until the connection locks.
2.6 Remote I/O Connection
The Remote I/O Connector on the back of the PA1000 allows remote control and
monitoring of Certain transmitter functions. There are three basic control func-
tions—AC on/off, RF power level adjustment, and RF down/off.
The AC power on/off remote control function, available at pin 7 of the Remote I/O
Connector, turns DC power to the PA on when the pin is grounded.
The RF power level adjustment remote control function has an internal maximum
limit set on the Metering and Control Board. The Local Power Adjust (R62) sets
the maximum limit of RF power output. The limit is set by placing the Remote/
Local switch (SW5) in the LOCAL position and adjusting the Local Power Adjust to
your desired maximum limit (see illustrations 2–5 and 2–6). However, for any
remote operation to work, the Remote/Local slide switch must be in the REMOTE
position. Then the on-board remote RAISE and LOWER push buttons and any
external remote switches attached to pins 4 and 15 of the I/O Connector can adjust
+5V
MAXIMUM
R62
LOCAL
POWER
ADJUST
MINIMUM
REMOTE
RAISE POWER
LOCAL
Electro-
Control
Circuit
TANSMITTER
CONTROL
Pin 4
Remote I/O Conn.
SW5
SW3
RAISE
REMOTE
REMOTE
LOWER POWER
Pin 15
Remote I/O Conn.
SW4
LOWER
Illustration 2–5 Local and Remote Functions
2–6
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the level up to that limit and down to zero. When a specific output power level is
set, the Metering and Control Board controls and maintains the setting to keep the
power constant. The location of the Local Power Adjust (R62), the on-board Raise
and Lower switches (SW3 & SW4), and the Local/Remote slide switch (SW5) are
shown below.
Local/Remote
Slide Switch
On-board Remote
Power Adjust
Buttons
Local Power Adjust
Pot
Illustration 2–6 On-board Remote Power & Related Controls
Another remote control function, available at pin 5 of the Remote I/O Connector,
turns RF down/off. Connecting this pin to ground through a resistor allows the
RF power output level of the amplifier to be reduced below the internal limit set by
the Local Power Adjust pot or the remote Raise/Lower settings. However, some
drive power, less than one watt, may still be present at the antenna. Depending on
the resistor used, this pin can serve as a control for optional low power operation.
The remaining remote functions are for monitoring the various
parameters of the PA1000. They are either buffered metering outputs, direct
reading, or latched high/low indications. Further details of these functions are
described in the pin-out table on page 2–8.
Note: If Remote I/O controls are not used, tie pin 7 to pin 6 (GND.).
For remote I/O (Input/Output) connection, connect your remote I/O cable from
your remote control location to the 25–pin (female) D-sub connector on the back
panel of the PA1000. The I/O Connector on the power amplifier is described in the
following diagram:
13
1
25
14
Illustration 2–7 Remote I/O connector (back panel view)
The Remote I/O Connector Pinout Table on the next page summarizes the Remote
I/O pin connections.
Installation
2–7
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Pin #
Function
PA#8 Current Monitor (a buffered metering output with 1 V = 2 A)
PA#7 Current Monitor (a buffered metering output with 1 V = 2 A)
Ground
1
2
3
4
Remote RAISE Power (a momentary switch, on this pin, when held low will
raise the power level 10 watts every 0.5 seconds)
5
Remote RF Power Control (a resistor to ground on this pin reduces RF
power output level below internal limits. See Section 2.6, page 2–7)
6
7
Ground
Remote AC Power On (a latching switch, on this pin, when held low will turn
the AC power supply on)
8
Fault Summary (the voltage from this pin goes to +5 V if any fault occurs and
drops below 2V when the fault goes away)
9
Ground
10
ALC (the voltage from this pin is a direct reading of automatic level control
voltage, not buffered)
11
12
PA Temperature (a buffered metering output with 1 V = 20° C)
SWR (a buffered metering output with a calculated reading of standing wave
ratio in VDC)
13
14
15
RF Output Power (a buffered metering output with a calculated reading of
output power of 1 V = 1000 W)
Input Power Reference (a buffered metering output with a DC voltage
representing input power)
Remote LOWER Power (a momentary switch, on this pin, when held low will
lower the power level 10 watts every 0.5 seconds)
16
17
18
19
20
21
22
23
24
25
PA#6 Current Monitor (a buffered metering output with 1 V = 2 A)
PA#5 Current Monitor (a buffered metering output with 1 V = 2 A)
Ground
PA#4 Current Monitor (a buffered metering output with 1 V = 2 A)
PA#3 Current Monitor (a buffered metering output with 1 V = 2 A)
Ground
PA#2 Current Monitor (a buffered metering output with 1 V = 2 A)
PA#1 Current Monitor (a buffered metering output with 1 V = 2 A)
PA Total Current Monitor (a buffered metering output with 1 V = 20 A)
PA Volts (a buffered metering output with 1 V = 10 V)
Note: PA = Power Amplifier
Remote I/O Connector Pinout Table
2–8
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Section 3—Operation
This section provides general operating parameters of your power
amplifier system and a detailed description of the front panel
display.
Operation
3–1
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3.1 Initial Power-up Procedures
These steps summarize the operating procedures you should use for the initial
operation of the power amplifier and power supply. More detailed information
follows.
1. Ensure that the external remote control unit is properly connected (See the
Pin Out Description Table, Section 2.6, page 2–8 for proper pin configura-
tion). If not using a remote control unit, pin 7 must be tied to ground pin 6.
2. Connect Antenna.
3. If using an external remote control, enable the power supply via the remote
I/O connector.
4. Turn on (flip up) the AC input circuit breaker located on the rear panel of the
power supply (do not turn on the front panel power switch yet).
Outputs to
PA1000
Fan
Circuit Breaker
AC Input
Circuit Breaker
+ DC Output
OFF
OFF
Fans
Power
Control
DC Output
PS1000
Air Exhaust Vents
240 VAC IN
Illustration 3–1 PS1000 Back Panel Functions
5. Turn on the exciter (a Crown FM30 or equivalent) and adjust its RF power
output level until the In Reference (In Ref) voltage, as indicated on the
PA1000 front panel Digital Multimeter, is between 0.4 and 0.8volts. This is
not a drive dependent amplifier; therefore drive must be at a constant level
regardless of main output power.
Note: The unit will not operate until the exciter is active.
3–2
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6. Before power-up, place the Local/Remote switch (located on the Metering &
Control board behind the front panel) in the Local position and adjust the
output power limit to the mid-level position using the Local Power Adjust,
also on the Metering & Control board (see Illustration 3–2 below). The unit is
normally shipped with this setting. See Section 2.6 for setting up remote
operation and using the on-board remote buttons and other controls.
7. Turn on the main power switch located on the front panel of the power
supply. (The unit typically takes 30 seconds to power up.)
Local/Remote
Slide Switch
On-board Remote
Power Adjust
Buttons
Local Power Adjust
Pot
Illustration 3–2 Local Power Adjust and Other Controls
8. Check the PA1000 parameters with the Digital Multimeter for a current (Tot
Current) of 20 to 30 amps and a voltage (PA Voltage) of 25 to 35 volts. If
parameters are within range, increase the Local Power Adjust to the maxi-
Air Intakes/Filters
Power
I
O
®
Power Switch
Illustration 3–3 PS1000 Front Panel Functions
mum level of desired operation.
Note: The Local Power Adjust pot is unconventional (CW lowers power).
9.Using an external remote control unit connected to the Remote I/O connector,
adjust the PA1000 to the maximum power set by the Local Power Adjust.
(This prevents adjusting to higher than permitted power levels.)
Operation
3–3
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10. Verify that the following conditions are present as indicated by the PA1000’s
Digital Multimeter:
a. In Ref—Should read between 0.4 and 0.8 volts (0.5 nominal, dependent
upon power input level).
b. SWR—Should read 1.05 to 1.5.
c. ALC—Should read between 4.00 and 6.00 volts for 1.1 kW output (less
for lower output or danger conditions, i.e. high SWR).
d. Power Out—Should read 1.10 for 1.1 kW output.
e. PA Temp—Should read 35 to 50°C with ambient temperature of 25°C.
The remainder of this section describes the functions of the front and rear panel
indicators and switches of the PA1000 and PS1000.
3.2 Power Switches
3.2.1 AC Input Circuit Breaker
The PS1000 supplies power to the PA1000 by converting single-phase 220/240 VAC
into 50 VDC. The PS1000 is protected by a 20 A, double-pole circuit breaker
located on the rear panel. This AC input circuit breaker must be in the “up”
position (as shown below) for operation.
AC Input
Circuit Breaker
ON
ON
Fans
Power
Control
240 VAC IN
Illustration 3–4 AC Input Circuit Breaker
3–4
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3.2.2 DC Power Switch
The main on/off power switch located on the front panel of the power supply
controls high voltage output. (The control circuit activates this voltage.)
Power
I
O
®
Power Switch
Illustration 3–5 DC Power Switch
3.2.3 Interlock Switch
This switch is located on the fan mounting bracket in the power supply. When the
top cover of the power supply is removed, the Interlock Switch interrupts the
power supply control circuit disabling the high and low voltage supplies.
Lethal voltages are still present on the AC Input Board !
WARNING
So, handle with care.
Interlock Switch
Illustration 3–6 Interlock Switch
Operation
3–5
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3.3 Digital Multimeter
The 3–digit numeric display in the upper left corner of the front panel provides
information on the amplifier’s operation. Use the “up” and “down” push-buttons to
select one of the following parameters as indicated by a green LED.
Multimeter
Metering Selection Buttons
Metering Indicators
Metering
Fault
PA1
PA5
PA6
PA7
PA8
Antenna
RF Drive
PA Temp
PA DC
PA3
Power Out
PA Temp
PA2
PA3
PA4
In Ref
SWR
ALC
PA Voltage
Tot Current
®
Illustration 3–7 Digital Multimeter
In Ref—Input reference is a relative voltage level used to determine input RF
power level. This varies between frequency of operation and input power level.
SWR—Direct reading of the antenna Standing-Wave Ratio (the ratio of the actual
load impedance to the desired 50 ohm load impedance).
ALC—Automatic level control is DC gain control bias used to regulate PA supply
voltage. With the PA power supply at full output voltage, ALC will read about 6.0
volts. When the RF output is being regulated by the RF power control circuit, this
voltage will be reduced, typically reading 5.0 to 6.0 volts. The ALC voltage will be
reduced during PA DC overcurrent, SWR, or overtemperature conditions.
Power Out—Actually reads RF voltage squared, so the accuracy can be affected by
SWR. Tolerance of ± 10% is normal. For exact set-up on site, an external power
meter is recommended.
PA Temp—Highest temperature of all individual RF power amplifier heatsinks in
degrees C.
PA Voltage—Supply voltage of the RF power amplifier.
Tot Current—Sum total current of all individual RF power amplifiers in amperes.
PA1–8—Individual RF amplifier current reading in amperes.
3–6
FM1000A User’s Manual
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3.4 Fault Indicators
Faults are indicated by illuminated red LED’s when the following occurs:
Antenna—Load SWR exceeds 1.5:1. ALC voltage is reduced to limit the reflected
RF power.
RF Drive—Lack of or insufficient RF drive. If the RF drive fault LED is lit, input
drive must be increased. To achieve full output power, 30 watts of input drive is
required.
CAUTION
Possible equipment damage!
Do not exceed 40 watts of input drive.
Damage to the PA1000 will result if
this level is exceeded.
PA Temp—PA heatsink temperature is greater than 75°C (power foldback will
begin at this point).
PA DC—Power supply current for the PA (power amplifier) is at the preset limit, or
there is a difference of more than 2.5 amps in current between the individual PAs.
When this indicator is on ALC, the voltage is reduced automatically which holds
the supply current to the preset limit.
Fault Indicators
Metering
Fault
Fuses
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
Antenna
RF Drive
PA Temp
PA DC
PA3
PA4
Power Out
PA Temp
PA7
PA8
In Ref
SWR
ALC
PA Voltage
Tot Current
®
Illustration 3–8 Fault Indicators
Operation
3–7
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3.5 Fuse Indicators
The PA1000 consists of two field-replacable power modules with two amplifiers in
each module. Each of the paralleled amplifiers is protected by a 10 ampere
fast-acting fuse. When a fuse opens, the indicator light next to it illuminates.
Fuses 3 and 4 represent amplifiers 1 and 2 on the top right module. Fuses 7 and 8
represent amplifiers 3 and 4 on the lower right power module.
Fuses and Indicators
Fault
Fuses
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
Antenna
RF Drive
PA Temp
PA DC
PA3
PA4
Out
mp
PA7
PA8
tage
rrent
®
Illustration 3–9 Fuse Indicators
3–8
FM1000A User’s Manual
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ue
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Section 4—Principles of Operation
This section discusses the circuit principles upon which the
power amplifier and power supply function. This information is
not needed for day-to-day operation, but may be useful for ad-
vanced users and service personnel.
Principles of Operation
4–1
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Introduction
The FM1000A is a solid state RF amplifier package designed to deliver 500 to 1000
watts. The package consists of two separate, compact units—a power supply
(PS1000) and a power amplifier (PA1000). In turn, these units consist of modular
components which provide for efficient operation as well as ease-of-service.
4.1 PA1000 Power Amplifier
The PA1000 power amplifier features adjustable output to deliver 500–1000 watts of
RF output power for broadcast transmission. The amplifier is broadband; no tuning
is required. The design, however, ensures efficient operation. Typical RF efficiency
is 75% to 85% across the FM band.
4.1.1 Power Modules
The primary components of the PA1000 are two, 500–watt power modules. These
power modules are mounted by stacking two in the right cavity of the chassis. The
two slots on the left side are unpopulated.
The chassis of the power modules acts as a heat sink for the MOSFET amplifiers.
There are two power amplifiers mounted to spacer plates on each of the heat sinks,
for a total of four power amplifiers in all. (The power amplifiers are the same as
those utilized in the Crown Broadcast 100, 250, and 500–watt transmitters.)
Power from the amplifiers is combined through a micro-strip combiner to convert
from 50 Ω output impedance for each amplifier to an intermediate impedance and
then return to the 50 Ω output at the Low Pass Filter. This technology eliminates
tuning and adjustments throughout the 88–108 FM band and enables each amplifier
to equally share the power load. The power combiner is also designed to allow a
module to be disconnected from the combiner and removed without adversely
affecting the impedance balance of the unit. With one module removed the imped-
ance change allows the remaining module to continue operation at approximately
one-third of the full output power.
4.1.2 Power Combiner Board
There are two Power Combiner Boards; one attached to each of the two heatsinks
overlapping the amplifiers. Each board takes the power from two amplifiers and
combines it through a parallel quarter-wave transmission line transformer network.
The power is then summed in a common point junction on the Output Combiner
Board.
4–2
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4.1.3 Backplane Assembly
The backplane assembly is located in the vertical center of the PA1000 behind the
power modules. The Backplane Assembly is the common connection point for the
major sections of the transmitter. This assembly consists of the Input Divider
Board, Output Combiner Board, and Backplane Interconnect Board.
4.1.3.1 Backplane DC Interconnect Board
This board is located nearest the metal inner brace of the chassis. It distributes DC
power to each of the four MOSFET amplifiers, provides the interconnections for
control of the power supply, and enables connection to the remote control inter-
face. The Backplane/DC Interconnect Board contains interconnections from the
Control and Metering Board to the DC Fuse and Power Distribution Board, as well
as power connections to the power amplifier modules.
4.1.3.2 Input Divider Board
The Input Divider Board is the middle board sandwiched between the Backplane DC
Interconnect Board and the Output Combiner Board. It provides the power division
and impedance transformation needed to supply proper drive to each of the four
amplifiers (two modules).
4.1.3.3 Output Combiner Board
The Output Combiner Board is located nearest the Output Filter It consists of a
micro-strip transmission line that combines the output power from the four ampli-
fiers (two modules) so that ultimately, all the power comes together at one common
point junction. Here the currents and voltages of all four power amplifiers are in
phase and producing equal RF output power. From this common point junction,
the Output Combiner Board uses a second quarter-wave transformer to convert the
output power to the 50–ohm impedance needed at the output of the unit.
4.1.4 Output Filter & Reflectometer
The Output Filter/Reflectometer is located behind the Backplane Assembly in the
center of the PA1000. See the accompanying schematic in Section 6 for more
information.
The ninth-order, elliptic, low-pass filter attenuates harmonics generated in the
power amplifier. The capacitors for the filter are circuit board pads. The reflecto-
meter uses printed circuit board traces for micro-strip transmission lines. Trans-
mission line segments (with an impedance of about 100 ohms) on either side of a
50–ohm conductor provide sample voltages representative of the square root of
forward and reverse power. DC voltages, representative of forward and reflected
power, go through a bulkhead Filter Board to the Backplane/DC Interconnect
Board, then to the Metering Board where they are processed for power control and
metering and for SWR metering and protection.
Principles of Operation
4–3
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4.1.5 Metering and Control Board
The Metering and Control Board is located above the upper left cavity. This board
supplies readings of voltages and currents, and provides information on the opera-
tion of the amplifier.
The Local Power Adjust pot sets the upper limit (maximum) of RF power output.
The on-board RAISE and LOWER push buttons and any external remote control of
the power level is activated within that limit by placing the Local/Remote slide
switch on the board into the Remote position. When a specific output power is set,
the Metering and Control Board controls and maintains the setting keeping power
constant. A long-life battery supplies power to retain the power setting after the
amplifier is turned off.
This board also takes samples from the RF amplifier boards and PS1000 power
supply and processes all the data. It provides SWR readings from the Output Filter
and folds back the amplifier power if the SWR exceeds safe operating limits. Protec-
tion circuitry for overcurrent and overtemperature conditions is designed into this
board as well, providing additional precaution against overheating. This board is
fail-safe, like all the other circuit board components in the FM1000A and can be
removed for repair/replacement if necessary.
4.1.6 DC Fuse and Power Distribution Board
This board is located above the right cavity over Power Modules A and B. The DC
Fuse and Power Distribution Board takes power direct from the power supply
through one 80–amp power line, divides it into four separate DC power lines, and
distributes it to the four power amplifiers. Metering resistors in each of the four
power lines monitor the current drawn by each of the four amplifiers to ensure
proper function for monitor and control of the unit.
4.1.7 Cooling Fans
There is a cooling fan located in the back of the PA1000 powered by the PS1000.
The fan operates at 24 volts and is rated at 235 cubic feet per minute. Cool air is
drawn through the heatsinks where a flushing moves the air over the DC Distribu-
tion Fuse board, the Control and Metering Board, the Output Filter circuits, and
then out through the air vents on the side panel. If a fan fails, the amplifier will
fold back power to prevent overheating.
4.2 PS1000 Power Supply
The PS1000 supplies power to the PA1000 by converting single-phase 240
VAC into 50 VDC. The PS1000 is protected by a 20 A double-pole circuit breaker.
This highly efficient power supply utilizes switching technology and is power factor
corrected. The PS1000 consists of three printed circuit boards described below.
4–4
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4.2.1 AC Input Board
The AC Input Board is located on the left side of the PS1000. AC power from the
circuit breaker connects to the AC Input Board where it connects to a ±12 volt DC
power supply and three relays. The ±12 volts is used to close the three relays when
the DC Power Switch on the front panel is switched on. In addition, the ±12 volts
are supplied to the PA1000 for use in the Control and Metering Board. The 240-
volt AC input to the power supply is connected through a Hubble Twist Lock
connector on the back panel to a 20–amp circuit breaker mounted inside the back
panel.
When the power supply is turned on and enabled, the AC power comes through
torroidal inductors which prevent harmonics and spurious products from feeding
back into the AC power lines. The current flows from the inductors to a bridge
rectifier that converts the current to DC Power, and from there to the PFC Switch-
ing Board where the rectified DC is filtered. The filtered DC power is then fed from
the PFC Switching Board through an 80–turn boost inductor and back to the PFC
Switching Board.
4.2.2 PFC (Power Factor Correcting) Switching Board
The PFC Switching Board is located directly behind the cooling fans (front panel) in
the PS1000. This board takes the voltage from the Torroidal Boost Inductor and
sends it to the Boost Switching Transistor. The switching transistor chops the DC
input power at a 25 kHz rate. The chopped voltage is then rectified, filtered, and
sent as DC voltage to a set of four transistors which form a second switching stage.
The second switching stage chops the DC voltage at a 22.5 kHz rate. This chopped
DC power is fed through a blocking capacitor to a transformer on the DC Output
Board. The second switching stage controls the amount of power sent to the DC
Output Board. This ensures that the transformer output voltage and current are
correct for providing the selected RF output power to the amplifier.
Principles of Operation
4–5
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4.2.3 DC Output Board
The DC Output Board is located in the back of the unit directly behind the PFC
Switching Board. This board rectifies and filters the transformer output voltage
once again to produce the clean DC power required for the power modules. The DC
Output Board also provides the 24–volts that operate the cooling fans in both the
PS1000 and the PA1000. There are two parallel paths from the DC Output Board,
with half the power going through each set of output cables. These cables come
together at the terminal in back of the unit providing the maximum output power
of 50 volts at 60 amperes.
4.2.4 Cooling Fans
There are two cooling fans located in the front section of the PS1000. Their pri-
mary function is to cool the semiconductors used in the switching and rectifying
process which are subject to high currents. The fans blow cool air through the
heatsinks and out through the vents on the back and side panels of the PS1000.
The fans have a dedicated circuit breaker located on the back panel of the power
supply.
4–6
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TROUBLE
Section 5—Troubleshooting
This section describes procedures for service personnel to diag-
nose and troubleshoot potential fault conditions in the power
amplifier and power supply.
Troubleshooting
5–1
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TROUBLE
5.1 Troubleshooting Flow Chart Analysis
Does your
amplifier have
output power?
See Section 3.1
Initial Power-up
procedures.
Is power
output at the
proper level?
Yes
No
Do you have
power now?
Yes
No
Is exciter delivering
sufficient RF drive?
(Check In Ref meter
reading.)
Is your exciter
turned on?
Yes
No
See Section 3.1
Initial Power-up
procedures.
Are there any
fault
indicators?
Yes
No
Yes
No
Yes
No
Turn the
exciter on.
Antenna: See
Section 5.3.1
Secure all
connections to the
PS2000.
RF Drive: See
Section 5.3.2
Ensure AC input
circuit breaker is
flipped up
PA Temp: See
Section 5.3.3
Ensure main
power switch is
turned on.
PA DC:
See
Section 5.3.4
Call Support—
See Section 8
5–2
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5.2 Digital Multimeter Parameters
The following procedures are general in nature; for in-depth service, and repair see
the Service & Support section of this manual.
WARNING
Lethal voltages present!
Only technically qualified
individuals shoud attempt
troubleshooting or service
procedures.
If any abnormal readings are displayed for any of the following parameters on the
Digital Multimeter, try troubleshooting in the following manner:
5.2.1 In Ref (Input Drive Reference)
If this indication of drive level is not between 0.4 and 0.8 volts, then:
q Check the exciter to ensure proper power input level of 25–30 watts.
q Check RF input cable for secure connection.
5.2.2 SWR (Standing Wave Ratio)
If the SWR is over 1.5:1, then look for:
q effects of inclement weather such as icing on the antenna and feed line.
q for moisture in the feedline.
q insecure antenna connections.
5.2.3 ALC (Automatic Level Control)
If this indication is not between 4.00 and 6.00 volts for 1.1 kW output, then:
q Check for overheating (see PA Temp fault LED).
q Check for overcurrent (see PA DC fault LED).
q Check for high SWR (see Antenna fault LED).
5.2.4 Power Out
This reading is user adjustable, but for full output should read 1.10 for 1.1 kW.
q If lower than desired, check for proper input drive, and/or proper adjustment
of the Local Power Control (see section 3.1 #6).
Troubleshooting
5–3
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TROUBLE
5.2.5 PA Temp
The meter should read between 35–50°C with an ambient temperature of 25°C. If
temperature is 75°C or above, then check and do the following:
❑ Ambient temperature higher than 50°C; reduce temperature.
❑ Restricted air flow; remove any obstructions, clean dirty air filters by using
mild detergent and warm water.
❑ Possible antenna mismatch; check for icing, moisture in the feedline, and
secure antenna connections.
❑ Overcurrent: If PA DC fault indicator is flashing, monitor the current for a
proper level—the total current and the current of individual Power Amps.
5.2.6 PA Voltage
Supply voltage to the RF power amplifiers should be 50 V. If it is not check:
❑ drive level to ensure proper power level input of 30 watts
❑ for high SWR
❑ for overcurrent; check PA DC fault indicator and if flashing, check current for
proper levels (total and individual Power Amps)
❑ for overtemperature; ambient temperature higher than 50°C; reduce tempera-
ture. Check air flow; remove any obstructions and clean dirty air filters.
5.2.7 Tot Current
If total current reading is over 35 amperes, then check or do the following:
❑ Reduce power output; check all fault indicators and troubleshoot accordingly.
❑ If one or more of the 250–watt power modules has failed; replace.
❑ High SWR; check for icing, moisture in the feedline, and secure antenna
connections.
5.2.8 PA1–8
If there is 2.5 amps or more difference between the individual PA current readings
(7 to 9 amps typical), then check the following:
❑ Failed/faulty power module (reading directly correlates to failed power mod-
ule); replace.
❑ Blown individual power amplifier fuses 1–8; replace as indicated by red LED.
❑ Reduced power output; check all fault indicators and troubleshoot accordingly.
5–4
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5.3 Fault Indicators
If one of the LED fault indicators is illuminated red, troubleshoot using the follow-
ing suggestions:
5.3.1 Antenna
Antenna mismatch.
❑ Effects from inclement weather conditions such as icing.
❑ Check for moisture in the feedline.
❑ Secure antenna connections.
5.3.2 RF Drive
Denotes lack of or insufficient drive level.
❑ Ensure proper drive level of 25–30 watts input power.
❑ Check RF input cable for secure connection.
5.3.3 PA Temp
Temperature has reached the internal preset limit for safe operation (75°C).
❑ Ambient temperature higher than 50°C; reduce temperature.
❑ Restricted air flow; remove any obstructions, clean dirty air filters by using
mild detergent and warm water.
❑ Antenna mismatch; check for icing, moisture on the feedline, and secure
antenna connections.
❑ Overcurrent; check PA DC fault indicator, if flashing monitor current for
proper levels (total and individual Power Amps).
❑ Faulty DC Output Board; replace (see Section 7, Service & Support).
❑ Faulty or non-functioning cooling fan; determine the cause for malfunction
in the following section.
5.3.3.1 Potential Causes for Non-functioning Cooling Fans
The PA1000 has one and the PS1000 has two cooling fans each. All three fans are
powered by the same circuit of the PS1000. There are two potential causes for a
non-functioning fan or fans:
1. If a single fan does not operate, the fan is faulty and must be replaced. (See
Section 7, Service & Support.)
2. If none of the fans operate, a blown circuit breaker, a short circuit in the
PS1000, or a damaged winding on the main transformer of the DC Output
Board (in the PS1000) is the cause. In this case, do one of the following:
Troubleshooting
5–5
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TROUBLE
a. The circuit breaker is located on the rear panel of the power supply. If the
breaker has popped out, reset it by pushing it in. If the breaker continues
to trip, check for a short circuit.
b. Check each fan with a volt-ohm meter by disconnecting and testing it for a
short circuit. Replace the fan/fans as needed (see Section 7).
c. If none of the fans have short circuits, there is damage on the
winding of the transformer. It will have to be replaced (see Section 7).
5.3.4 PA DC
Discrepancy in current between the individual amplifiers, or in total current.
❑ There is a difference of current greater than 2.5 amps between any one of the
4 individual amplifiers. This could occur as a result of a blown or faulty power
module, or a blown fuse; replace as appropriate (see Section 7, Service &
Support).
❑ There is too much total current—power foldback will occur above maximum
total amperage of 35 amps due to antenna mismatch. Examine the antenna
for arcing and moisture. Also, check output power for proper current; the RF
detection circuit could malfunction causing an overcurrent situation.
5.3.5 Multiple Indicators
Call your Crown Broadcast service representative. See Section 7, Service and
Support, for contact information.
Fuses
Fault
Metering
P
A
7
A
8
P
A
2
4
P
A
5
P
A
6
P
A
3
P
A
A
ntenna
F Drive
mp
P
A
1
P
r
O
ut
P
A
1
P
A
5
P
owe
PA
2
3
PA
6
7
R
In
R
e
f
PA
T
emp
PA
PA
T
e
PA
V
oltage
PA
S
W
R
P
A
P
A
8
PA
DC
ALC
Tot
Current
4
®
Power
I
O
®
5–6
FM1000A User’s Manual
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Section 6—Reference Drawings
The illustrations in this section may be useful for making
adjustments, taking measurements, troubleshooting, or
understanding the circuitry of your RF power amplifier and
power supply.
Reference Drawings
6–1
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6.1 Views
Metering
Fault
Fuses
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
Antenna
RF Drive
PA Temp
PA DC
PA3
PA
4
PA8
Power Out
PA Temp
PA7
In Ref
SWR
ALC
PA Voltage
Tot Current
®
Power
I
O
®
Illustration 6–1 Front View
+ DC Input
DC Input
RF Monitor
(Optional Connection)
RF Input
Ground Screws
Air Intakes/Filters
Remote I/O
RF Output
Control
PA1000
Circuit Breakers
+ DC Output
OFF
OFF
Fans
Power
Control
DC Output
Air Exhaust Vents
PS1000
240 VAC IN
Illustration 6–2 Back View
6–2
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6.2 Diagrams and Schematics
1 kW RF
Power Output
RF Input
Excitation
PA1000
Power Amplifier
30 W Exciter
(Crown FM30)
Remote I/O
Connector
Power Supply
Control
0–50 VDC
PA Supply
PS1000
Power Supply
240 VAC
50/60 Hz Input Power
Single Phase
Illustration 6–3 FM1000A Block Diagram
Reference Drawings
6–3
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AC INPUT
AC
CIRCUIT
BREAKER
360 VDC
240 VAC
220 VDC
AC
INPUT
CCA
RECTIFIER
+ 0 to 50 VDC
RETURN
NEUTRAL
GROUND
PFC &
CONTROL
CCA
DC
OUTPUT
CCA
360 VDC
CONTROL
+/ 12 VDC
POWER
SWITCH
VOLTAGE
BOOST
INDUCTOR
9-PIN
DSUB
PS CONTROL
Illustration 6–4 PS1000 Block Diagram
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Illustration 6–5 PA1000 Block Diagram
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Note: All bypass capacitors are 0.01 mf
Backplane Distribution
6–13
Reference Drawings
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Ribbon Cables and Connectors
Ribbon Cables and Connectors
FM1000A User's Manual
6–14
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Notes:
6–16
FM1000A User's Manual
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Section 7—Service and Support
We understand that you may need various levels of support or
that the product could require servicing at some point in time.
This section provides information for both of these scenarios.
Service and Support
7–1
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7.1 Service
The product warranty (see opposite page) outlines our responsibility for defective
products. Before returning a product for repair or replacement (our choice), call
our Customer Service department using the following telephone number:
(866) 262-8917
Our Customer Service Representative will give you further instructions regarding
the return of your product. Use the original shipping carton or a new one obtained
from Crown. Place shipping spacers between the slide-out power amplifier assem-
bly and the back panel.
Please fill out the Factory Service Instructions sheet (page 7–5) and include it with
your returned product.
7.2 24–Hour Support
In most instances, what you need to know about your product can be found in this
manual. There are times when you may need more in-depth information or even
emergency-type information. We provide 24–hour technical assistance on your
product via a toll telephone call.
For emergency help or detailed technical assistance, call
(866) 262-8917
You may be required to leave a message at this number but your call will be
returned promptly from our on-call technician.
7.3 Spare Parts
To obtain spare parts, call Crown Broadcast Sales at the following number.
(866) 262-891
You may also write to the following address:
Service Manger
International Radio and Electronics Company, Inc.
25166 Leer Drive
Elkhart, Indiana, U.S.A. 46514-5425
FM1000A User's Manual
7–2
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Crown Broadcast Three Year Limited Product Warranty
SUMMARY OF WARRANTY
Crown Broadcast, IREC warrants its broadcast products to the ORIGINAL PURCHASER of a NEW Crown
Broadcast product, for a period of three (3) years after shipment from Crown Broadcast. All products are
warranted to be free of defects in materials and workmanship and meet or exeed all specifications published
by Crown Broadcast. Product nameplate with serial number must be intact and not altered in any way. This
warranty is non - transferable. This warranty in its entirety is the only warranty offered by Crown Broadcast. No
other warranties, expressed or implied, will be enforceable.
EXCLUSIONS
Crown Broadcast will not warranty the product due to misuse, accident, neglect and improper installation or
operation. Proper installation included A/C line surge supression, lightning protection and proper grounding of
the entire transmitter, and any other recommendations designated in the Instruction manual. This warranty
does not extend to any other products other than those designed and manufactured by Crown Broadcast. This
warranty does not cover any damage to any accessory such as loads, transmission line or antennas resulting
from the use or failure of a Crown Broadcast transmitter. Warranty does not cover any loss of revenue resulting
from any failure of a Crown Broadcast product, act of God, or natural disaster.
Procedure for Obtaining Warranty Service
Crown Broadcast will repair or service, at our discretion, any product failure as a result of normal intended use.
Warranty repair can only be performed at our plant facility in Elkhart, Indiana USA or at a factory authorized
service depot. Expenses in remedying the defect will be borne by Crown Broadcast, including two-way ground
transportation cost within the continental United States.
Prior to returning any product or component to Crown Broadcast for warranty work or repair, a Return
Authorization (RA) number must be obtained from the Crown Broadcast Customer Service Department.
Product must be returned in the original factory pack or equivalent. Original factory pack materials may be
obtained at a nominal charge by contacting Crown Broadcast Customer Service. Resolution of the defective
product will be made within a reasonable time from the date of receipt of the defective product.
Warranty Alterations
No person has the authority to enlarge, amend, or modify this warranty, in whole or in part. This warranty is not
extended by the length of time for which the owner was deprived the use of the product. Repairs and
replacement parts that are provided under the terms of this warranty shall carry only the unexpired portion of
the warranty.
Product Design Changes
Crown Broadcast reserves the right to change the design and manufacture of any product at any time without
notice and without obligation to make corresponding changes in products previously manufactured.
Legal Remedies of Purchaser
This written warranty is given in lieu of any oral or implied warranties not covered herein. Crown Croadcast
disclaims all implied warranties including any warranties of merchantability or fitness for a particular purpose.
Crown Broadcast
25166 Leer Drive
Elkhart, Indiana 46514-5425
Service and support
7 – 3
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Notes:
FM1000A User's Manual
7–4
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Factory Service Instructions
To obtain factory service, complete the bottom half of this page, include it with the unit, and ship to:
International Radio and Electronics Company, Inc.
25166 Leer Drive
Elkhart, Indiana, U.S.A. 46514-5425
For units in warranty (within 3 years of purchase from any authorized Crown Dealer): We pay for
ground UPS shipments from anywhere in the continental U.S. and Federal Express Second Day service
from Hawaii and Alaska to the factory and back to you. Expedited service/shipment is available for an
additional charge. You may ship freight collect (COD for cost of freight) or forward your receipt for
shipping charges which we will reimburse. We do not cover any charges for shipping outside the U.S.
or any of the expenses involved in clearing customs.
If you have any questions about your Crown Broadcast product, please contact Crown Broadcast
Customer Service at:
Telecphon: (574) 262-8900
Fax: (574) 262-5399
Name:
Company:
Shipping Address:
Phone Number:
Model:
Fax:
Serial Number:
Purchase Date:
Nature of the Problem
(Describe the conditions that existed when the problem occurred and what attempts were made to correct it.)
Other equipment in your system:
If warranty has expired, payment will be: Cash/Check
Please Quote before servicing
VISA
Mastercard
Other
COD
Card Number:
Exp. Date:
Signature:
Return Shipment Preference if other than UPS Ground:
Expedite Shipment
ENCLOSE WITH UNIT—DO NOT MAIL SEPARATELY
Service and Support
7–5
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A B C
Glossary
The following pages define terms and abbreviations used
throughout this and other Crown Broadcast manuals.
Glossary
G–1
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A B C
AF
Audio Frequency; the frequencies between 20 Hz
and 20 kHz in the electromagnetic spectrum.
ALC
AM
Automatic Level Control
Amplitude Modulation; the process of impressing
information on a radio-frequency signal by varying
its amplitude.
bandwidth
BCD
The range of frequencies available for signalling.
Binary-Coded Decimal; a digital system that uses
binary codes to represent decimal digits.
BFO
BNC
Beat Frequency Oscillator
A bayonet locking connector for miniature coax;
said to be short for Bayonet-Neill-Concelman.
broadband
As used in the FM transmitter, refers to the entire
audio spectrum as opposed to the spectrum influ-
enced by the pre-emphasis; also called "Wideband."
carrier
A continuous signal which is modulated with a
second, information-carrying signal.
crosstalk
In FM broadcasting, this term generally refers to
the interaction between the main (L+R) and the
subcarrier (L–R) signals as opposed to "separation"
which generally refers to leakage between left (L)
and right (R) channels.
density (program)
deviation
A high average of modulation over time.
The amount by which the carrier frequency
changes either side of the center frequency.
DIP
Dual In-line Package; term used to describe an IC
or socket that has two parallel rows of pins.
distortion
The unwanted changes in signal wave shape that
occur during transmission between two points.
DPM
Digital Panel Meter
EPROM
ESD
Erasable Programmable Read Only Memory
Electrostatic Discharge; a discharge that is poten-
tially distructive to sensitive electronic compo-
nents.
FM1000A User's Manual
G–2
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exciter
(1) A circuit that supplies the initial oscillator used
in the driver stage. (2) A transmitter configuration
which excludes stereo generation and audio
processing.
FET
Field-Effect Transistor
frequency synthesizer
A circuit that generates precise frequency signals
by means of a single crystal oscillator in conjunc-
tion with frequency dividers and multipliers.
FM
Frequency Modulation; the process of impressing
information on a radio signal by varying its fre-
quency.
FSK
Frequency Shift Keying; an FM technique for
shifting the frequency of the main carrier at a
Morse code rate. Used in the on-air identification
of frequencies.
gain reduction
harmonics
HF
The process of reducing the gain of a given ampli-
fier.
Undesirable energy at integral multiples of a
desired, fundamental frequency.
High Frequency; Frequencies in the 3.0 to 30.0
MHz range.
Highband
IC
Frequencies affected by the pre-emphasis.
Integrated Circuit
I/O
Input/Output
LED
Light-Emitting Diode
modulation
The process by which a carrier is varied to repre-
sent an information-carrying signal.
MOSFET
nearcast
PA
Metal Oxide Semiconductor Field Effect Transistor;
a voltage-controlled device with high input imped-
ance due to its electrically isolated gate.
A transmission within a localized geographic area
(ranging from a single room to a several kilome-
ters).
Power Amplifier
Glossary
G–3
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A B C
PAI
Power Amplifier Current
PAV
Power Amplifier Voltage
pilot
A 19–kHz signal used for stereo transmissions.
pre-emphasis
The deliberate accentuation of the higher audio
frequencies; made possible by a high-pass filter.
processing
The procedure and/or circuits used to modify
incoming audio (keeping its level around 75 kHz
deviation) to make it suitable for transmission.
receiver
RF
An option which adds incoming RF capability to an
existing transmitter. See also "Translator."
Radio Frequency; (1) A specific portion of the
electromagnetic spectrum between audio-fre-
quency and the infrared portion. (2) A frequency
useful for radio transmission (roughly 10 kHz and
100,000 MHz).
SCA
Subsidiary Communications Authorization; see
"subcarrier."
S/N
Signal to Noise
spurious products
Unintended signals present on the transmission
output terminal.
stability
A tolerance or measure of how well a component,
circuit, or system maintains constant operating
conditions over a period of time.
stereo pilot
See "pilot."
stereo separation
The amount of left-channel information that bleeds
into the right channel (or vice versa).
subcarrier
A carrier signal which operates at a lower fre-
quency than the main carrier frequency and which
modulates the main carrier.
suppression
The process used to hold back or stop certain
frequencies.
FM1000A User's Manual
G–4
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SWR
Standing-Wave Ratio; on a transmission line, the
ratio of the maximum voltage to the minimum
voltage or maximum current to the minimum
current; also the ratio of load impedance to in-
tended (50 ohms) load impedance.
THD
Total Harmonic Distortion
translator
A transmitter designed to internally change an FM
signal from one frequency to another for retrans-
mission. Used in conjunction with terrestrial-fed
networks.
satellator
UHF
A transmitter equipped with an FSK ID option for
rebroadcasting a satellite-fed signal.
Ultra High Frequency; frequencies in the 300 to
3000 MHz range.
VCO
VHF
Voltage-Controlled Oscillator
Very High Frequency; frequencies in the 30 to 300
MHz range.
VSWR
Voltage Standing-Wave Ratio; see "SWR."
See "broadband."
Wideband
Glossary
G–5
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Index
H
A
Humidity Range 1–3
AC Input Board 4–5
AC Power 1–3
AC power 2–4
ALC 3–4, 5–3
Antenna 3–7
I
In Ref 3–4, 5–3
Input Divider Board 4–3
Installation 2–5
mismatch 5–5
antenna 2–5
Interlock Switch 3–5
B
L
Backplane Assembly 4–3
labels 1–4
Backplane DC Interconnect Board 4–3
Board Layouts 6–3
M
Metering and Control Board 4–4
multimeter display 3–4
C
Circuit Breaker 3–4
Combiner Board 4–2
Connections 2–5
O
operation 3–2
Output Combiner Board 4–3
Output Filter & Reflectometer 4–3
Connectors
Hubble Twist Lock® 2–4
Hubble Twist-Lock 2–6
connectors 2–5
P
PA DC 5–6
PA Temp 3–4, 5–4
PA Voltage 5–4
D
DC Fuse and Power Distribution Board
4–4
PFC (Power Factor Correcting)
Switching Board 4–5
power adjust 3–3
Power Consumption 1–3
Power Factor 1–3
Power Module 4–2
Power Out 3–4, 5–3
Power Switch 3–4
power switch 3–3
Power-up 3–2
DC Output Board 4–6
DC Power Switch 3–5
Digital Multimeter 3–6, 5–3
E
Efficiency 1–3
efficiency 1–2
exciter 1–2
F
Fans 4–4, 4–6, 5–5
Fault Indicators 3–7, 5–5
Frequency Range 1–3
Fuse Indicators 3–8
Index-i
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R
T
remote I/O 2–7
Tot Current 5–4
RF Drive Requirement 1–3
RF Harmonics 1–3
RF Output Impedance 1–3
RF output power 1–2
RF Power Output 1–3
RF power output 1–2
RU spaces 1–2
transmitter package 1–2
Troubleshooting Flow Chart 5–2
U
Unpacking 2–2
W
Weight 1–3
S
S/N Ratio 1–3
Safety 1–4
Schematics 6–3
Spurious Products 1–3
SWR 1–3, 3–4, 5–3
Index-ii
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