FM SERIES - 67.225.133.11067.225.133.110/~gbpprorg/lpfm/exhndbkb.pdfSafety BEFORE APPLYING POWER...
Transcript of FM SERIES - 67.225.133.11067.225.133.110/~gbpprorg/lpfm/exhndbkb.pdfSafety BEFORE APPLYING POWER...
Limited Warranty
PTEK (SELLER) warrants that products are free from defects in material and workmanship and meet
performance specifications provided, however, that:
(A) SELLER’ liability under this Warranty is limited to repairing or replacing, at its option, any
product delivered here under not conforming to this Warranty;
(B) This Warranty is limited to a period of two years;
(C) Minor deviations from specifications which do not affect performance are excluded from this
Warranty; and
(D) SELLER shall be liable under this Warranty only if:
(1) It is promptly notified in writing by the Buyer upon discovery of the failure of any product to
conform to this Warranty,
(2) The product is returned to SELLER, transportation charges prepaid by the Buyer,
(3) The product is received by SELLER not later than ten days after the last day of the one-year
period of this Warranty, and
(4) SELLER’ examination of the Product discloses to SELLER’S reasonable satisfaction that
such defects or failures as may exist have not been caused by misuse, neglect, improper
installation, repair, alteration, accident or shipping.
The Buyer will prepay freight to and from SELLER on products serviced here under at SELLER’ plant; but
SELLER may, at its option, elect to perform any repairs here under at the Buyer’s place of business.
The foregoing constitutes SELLER’S entire Warranty expressed, implied and/or statutory, except as to
title, and states the full extent of SELLER’S liability to the Buyer or to any other party for any breach of
such Warranty and for damages, whether direct, special, incidental or consequential; and, other than as
expressly provided in this document. No Warranties, expressed or implied, including any Warranty or
merchant ability or of fitness for a particular purpose, are made. No employee, representative or agent of
SELLER has any authority, expressed or implied, to alter or to supplement the terms of this Warranty.
Warranty Service
The Limited Warranty covers parts and labor to the original purchaser for one year. Damage
caused by misuse or shipping is excluded from the warranty. Before returning units or material,
contact the factory for a Returned Material Authorization (RMA) number. Ship all material
prepaid. Defective material should be addressed to:
PTEK
Customer Service Manager
1814 Schooldale Drive
San Jose, CA. 95124
(408) 448-3342
Page 3
Contents
Safety Notice .................................................................................................................4
Rear
FCC, Accessory Connections & efficiency V O/P Pwr.................................................12
Schematic Chassis FM150E...................................................................................16-17
Schematic Power Module FM150E..............................................................................20
Schematic Power Module Control FM150E.................................................................21
Parts list Chassis...........................................................................................................22
Parts list PA Boards......................................................................................................23
Parts list Synth Board ..................................................................................................25
Parts list LED Board ....................................................................................................25
Specifications ................................................................................................................5
Front & Panel Layout .............................................................................................6
Installation .....................................................................................................................8
Schematic Synthesizer ...........................................................................................12-13
Schematic Chassis ..................................................................................................16-17
Schematic Power Module ......................................................................................18-19
PROVISIONAL......................11/25/96REV A.....................................1/16/97REV B.....................................10/7/97REV C.....................................4/13/99REV D.....................................5/24/99
Rev record
Safety
BEFORE APPLYING POWER
GROUND THE EXCITOR.
Fuses
.
DO NOT OPERATE IN AN EXPLOSIVE ATMOSPHERE
DO NOT REMOVE THE EXCITOR COVER
Output connector
Verify that the line voltage is 115V
To minimize shock hazard, the excitor chassis must be connected to an electrical ground. the excitor must beconnected to the ac power mains through a three-conductor power cable, with the third wire firmly connected to anelectrical ground (safety ground) at the power outlet. Any interruption of the protective (grounding) conductor ordisconnection of the protective earth terminal will cause a potential shock hazard that could result in personal injury.If the excitor is to be energized by any other source be certain the that chassis is connected to a separate safetyground.
Only fuses with the same required current, voltage rating, and specified type (normal blow, time delay, etc.) should beused. Do not use repaired fuses or short-circuited fuseholders. To do so could cause a shock or fire hazard
Do not operate the power amplifier in the presence of flammable gases or fumes.
Operating personnel must not remove the exciter cover. Component replacement and internal adjustments must bemade only by qualified service personnel.
The type N output connector carries dangerously high RF voltages which present a shock and burn hazard.operate this excitor with out the out put connector properly terminated in either an adequately rated load or antenna.
NEVER
Page 4
Specifications
MONAURAL
Audio Input Impedance:
Audio Input Level:
Audio Frequency Response:
Total Harmonic Distortion:
FM S/N Ratio (FM Noise):
Asynchronous AM S/N Ratio (AM Noise):
Synchronous AM SIN Ratio (Incidental AM Noise):
600 ohms, balanced
+10 dBm (6.93 volts peak-to-peak) at 600 ohms for75 kHz deviation
+/-0.5 dB; flat or 75 microsecond pre-emphasis, 20Hz to 15kHz (other time const. available)
0.15% max.; 20 Hz to 15 kHz
70 dB min. below 75 kHz deviation at 400 Hz,measured within a 20 Hz to 15 kHz bandwidth with75 microsecond de-emphasis
60 dB RMS. below carrier; reference: 100% AMmodulation, at 400 Hz with 75 microsecond de-emphasis, no FM modulation
57 dB below carrier; reference: 100% AMmodulation, full power at 400 Hz with 75uS de-emphasis, FM +/- 75 kHz, 400Hz
ENVIRONMENT
Altitude: Ambient Temperature0-10,000 ft -10 to +50 oC
WIDEBAND
Inputs:
Input Level:
Wideband Amplitude Response:
Composite Unbalanced 75 OhmsSCA 1 Unbalanced 75 Ohms
3.5 V RMS. (10 Volts peak-to-peak) for 75 kHz deviation
+/-0.5 dB, 20 Hz to 100 kHz
GENERAL
Rated Power Output:
Power Consumption:
Frequency Range:
Frequency Control:
Frequency Stability:
Output Impedance:
Output Connector:
VSWR:
Modulation Type:
Modulation Capability:
Multi-Meter Indication:
Harmonic Attenuation:
10W, 25W, 50W, 150W, 300W
750 W (for 300W model)
87.7 to 108 MHz, in 200 kHz steps (other stepsize to order)
Phase locked loop frequency synthesis from highstability master oscillator
+/- 1.2 kHz
50 ohms
Type -"N" female
1.5:1 for full power, derate to 0 at inf.
Direct carrier frequency modulation
Internally limited to 100 kHz deviation
Deviation, Forward Power, Reverse Power, FinalI & V
-70 dB, min.
Page 5
1
4
6
Rear panel layout
8 7 6
5
1 2
3 4
Page 6
Front panel layout
. DEVIATION
2 3
8
7
ONREMOTE
PWR PWR
VOLTAGE
FWD REV
OFF CURRENTFINAL MONO IN
600 OHMS
AC IN
GAIN
COMPOSITE
GAINGAIN
SCA
FUSE
RF OUTPUT
FINAL CURRENT
FINAL VOLTAGEFORWARD POWER
REVERSE POWER
ADJPOWER
OFF
OPERATE
REMOTE OFF
FAULT
DRIVE LOW
FM Series
PTEKFM10E
DEVIATION
3025201510
5
OUTPUT POWER W (REV X0.1)
4.040
3.030
2.020
1.0100
0 AMPS
PTEK
VOLTS
DEVIATION kHz
100
755025
Key Element Description
1 AC IN & FUSE 110 VAC input and Fuse 10A
2 COMPOSITE Unbalanced wide band composite input
3 SCA Unbalanced wide band input
4 RF OUT TYPE N RF Output
5 GAIN ADJUSTMENT Composite & wide band level adjustment
6 Accessory connector Connections for; Remote off and DC indications of Forward Power, Reverse
Power, Final Voltage, Final Current and Deviation.
7 FCC ID Type approval number
8 SERIAL NUMBER Serial number for reference purposes
Page 7
Key Element Description
1 METER Indicates Forward Power, Reverse Power, Final Voltage, Final Current and
Deviation
2 OPERATE Switch and
Indicator
This switch sets the FM Broadcast Amplifier to the Operate Mode; 110 VAC is
applied to the line transformers and this amber indicator is lit.
3 REMOTE OFF Indicator This red LED indicator is lit when the FM Broadcast Amplifier remote off
terminals (rear panel) are open circuit.
3 DRIVE LOW Indicator This red LED indicator is lit when the FM Broadcast Amplifier can not make the
power requested, because for example low drive power.
5 FAULT Indicator This red LED indicator is lit when the FM Broadcast Amplifier is in a fault
condition. This can be for one or combination of the following:-
Over drive, High supply Voltage, High load VSWR, Over temperature.
6 Meter Select Switch This switch selects one of the following to be presented on the meter (1):-
Forward Power, Reverse Power, Final Voltage, Final Current and Deviation.
7 ADJ POWER control This control adjust the output power from rated full power to less than 50%.
8 Ventilation Filter This provides for filtering the environmental air as it is drawn into the cabinet by
the internal fan (not used on FM10E).
Refer to the Table below for the following description. The installer should assure the ac line voltage is turned OFFbefore performing this procedure. The electrical connections are installed at the Exciter rear panel.
Installation-Electrical
Step Procedure
1 Connect the load RF line to RF OUT connector.
3 Connect the ac line power to the ac line in connector.
4 Optional. Connect the remote site metering, to the rear terminal block.
5 Connect either the composite input to the output from a stereo encoder or the balanced mono input to a
program source
Page 8
AC IN
SCACOMPOSITE
GAINGAIN
600 OHMS
REV
PWRPWR
FWD
CURRENTVOLTAGEFINAL MONO INREMOTE
ON OFF
GAIN
RF OUTPUT
RG8 TO ANTENNA/PA
PART OF USER SUPPLIED REMOTE CONTROL
BALANCED MONO IN
OR (NOT BOTH)
FROM STEREO ENCODER OR STL
Refer to the Table below for the following procedure.
Component Layout Synthesizer Module
Step Action Verification
1 Switch the RF out to a dummy load.
2 Turn on the ac line power to excitor. DRIVE LOW indicator is out. FAULT indicator is on
initially then out after 30 seconds. REMOTE OFF
indicator is out.
3 Select Meter to read FORWARD POWER.
4 Adjust the ADJ POWER CONTROL to the
rated power.
5 Select Meter to read FINAL VOLTAGE. The Meter reads 15~50V. Note the exact value.
6 Select Meter to read FINAL CURRENT. The The Meter reads 1~8A. Note the exact value.
7 Calculate the dc power input to the PA from the
values of step 4 and 5.
P=VI and note the exact value.
8 Select the Meter to read REVERSE POWER. Check that there is no appreciable reading of reverse
power
9 Calculate the PA efficiency. Step 6 value divided by the value in step 7 or about 50
percent.
10 Adjust the ADJ POWER Knob to set the output
to the required output power.
Turn-On Checkout
Page 9
SET FREQUENCYWITH THIS BANK OF SWITCHES SET MONO LEVEL
FREQUENCY DIP SWITCH FREQUENCY DIP SWITCH
MHz SETTING MHz SETTING
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
87.7 0 0 0 0 0 0 0 0 97.9 0 0 1 1 0 0 1 1
87.9 0 0 0 0 0 0 0 1 98.1 0 0 1 1 0 1 0 0
88.1 0 0 0 0 0 0 1 0 98.3 0 0 1 1 0 1 0 1
88.3 0 0 0 0 0 0 1 1 98.5 0 0 1 1 0 1 1 0
88.5 0 0 0 0 0 1 0 0 98.7 0 0 1 1 0 1 1 1
88.7 0 0 0 0 0 1 0 1 98.9 0 0 1 1 1 0 0 0
88.9 0 0 0 0 0 1 1 0 99.1 0 0 1 1 1 0 0 1
89.1 0 0 0 0 0 1 1 1 99.3 0 0 1 1 1 0 1 0
89.3 0 0 0 0 1 0 0 0 99.5 0 0 1 1 1 0 1 1
89.5 0 0 0 0 1 0 0 1 99.7 0 0 1 1 1 1 0 0 ON="0"
89.7 0 0 0 0 1 0 1 0 99.9 0 0 1 1 1 1 0 1
89.9 0 0 0 0 1 0 1 1 100.1 0 0 1 1 1 1 1 0
90.1 0 0 0 0 1 1 0 0 100.3 0 0 1 1 1 1 1 1
90.3 0 0 0 0 1 1 0 1 100.5 0 1 0 0 0 0 0 0
90.5 0 0 0 0 1 1 1 0 100.7 0 1 0 0 0 0 0 1
90.7 0 0 0 0 1 1 1 1 100.9 0 1 0 0 0 0 1 0
90.9 0 0 0 1 0 0 0 0 101.1 0 1 0 0 0 0 1 1
91.1 0 0 0 1 0 0 0 1 101.3 0 1 0 0 0 1 0 0
91.3 0 0 0 1 0 0 1 0 101.5 0 1 0 0 0 1 0 1
91.5 0 0 0 1 0 0 1 1 101.7 0 1 0 0 0 1 1 0
91.7 0 0 0 1 0 1 0 0 101.9 0 1 0 0 0 1 1 1
91.9 0 0 0 1 0 1 0 1 102.1 0 1 0 0 1 0 0 0
92.1 0 0 0 1 0 1 1 0 102.3 0 1 0 0 1 0 0 1
92.3 0 0 0 1 0 1 1 1 102.5 0 1 0 0 1 0 1 0
92.5 0 0 0 1 1 0 0 0 102.7 0 1 0 0 1 0 1 1
92.7 0 0 0 1 1 0 0 1 102.9 0 1 0 0 1 1 0 0
92.9 0 0 0 1 1 0 1 0 103.1 0 1 0 0 1 1 0 1
93.1 0 0 0 1 1 0 1 1 103.3 0 1 0 0 1 1 1 0
93.3 0 0 0 1 1 1 0 0 103.5 0 1 0 0 1 1 1 1
93.5 0 0 0 1 1 1 0 1 103.7 0 1 0 1 0 0 0 0
93.7 0 0 0 1 1 1 1 0 103.9 0 1 0 1 0 0 0 1
93.9 0 0 0 1 1 1 1 1 104.1 0 1 0 1 0 0 1 0
94.1 0 0 1 0 0 0 0 0 104.3 0 1 0 1 0 0 1 1
94.3 0 0 1 0 0 0 0 1 104.5 0 1 0 1 0 1 0 0
94.5 0 0 1 0 0 0 1 0 104.7 0 1 0 1 0 1 0 1
94.7 0 0 1 0 0 0 1 1 104.9 0 1 0 1 0 1 1 0
94.9 0 0 1 0 0 1 0 0 105.1 0 1 0 1 0 1 1 1
95.1 0 0 1 0 0 1 0 1 105.3 0 1 0 1 1 0 0 0
95.3 0 0 1 0 0 1 1 0 105.5 0 1 0 1 1 0 0 1
95.5 0 0 1 0 0 1 1 1 105.7 0 1 0 1 1 0 1 0
95.7 0 0 1 0 1 0 0 0 105.9 0 1 0 1 1 0 1 1
95.9 0 0 1 0 1 0 0 1 106.1 0 1 0 1 1 1 0 0
96.1 0 0 1 0 1 0 1 0 106.3 0 1 0 1 1 1 0 1
96.3 0 0 1 0 1 0 1 1 106.5 0 1 0 1 1 1 1 0
96.5 0 0 1 0 1 1 0 0 106.7 0 1 0 1 1 1 1 1
96.7 0 0 1 0 1 1 0 1 106.9 0 1 1 0 0 0 0 0
96.9 0 0 1 0 1 1 1 0 107.1 0 1 1 0 0 0 0 1
97.1 0 0 1 0 1 1 1 1 107.3 0 1 1 0 0 0 1 0
97.3 0 0 1 1 0 0 0 0 107.5 0 1 1 0 0 0 1 1
97.5 0 0 1 1 0 0 0 1 107.7 0 1 1 0 0 1 0 0
97.7 0 0 1 1 0 0 1 0 107.9 0 1 1 0 0 1 0 1
Page 10
Frequency Selection
FCC Compliance statement
THIS DEVICE COMPLIES WITH PART 15 OF THE FCC RULES OPERATION IS SUBJECTTO THE TWO CONDITIONS: (1) THIS DEVICE MAY NOT CAUSE HARMFULINTERFERENCE, AND (2) THIS DEVICE MUST ACCEPT ANY INTERFERENCERECEIVED, INCLUDING INTERFERENCE THAT MAY CAUSE UNDESIREDOPERATION.
Page 11
Pos Function
1 Remote on; Momentary ground to turn the unit on.
2 Remote off; Momentary ground to turn the unit off.
3 Forward Power DC indication 2.4V=12W
4 Reverse Power DC indication 2.4V=1.2W
5 Final Current 1A=0.1V
6 Final Voltage DC indication V=Vsupply/10
7 Raise Ground to Raise Output Power (Option 01) OR Left channel in (stereo Option)
8 Lower Ground to Lower Output Power (Option 01) OR Right channel in (stereo Option)
9 600 ohms balanced mono input
10 600 ohms balanced mono input
FM10E FM25E
Power
Output
(Watts)
Efficiency
(%)
Power
Output
(Watts)
Efficiency
(%)
10.0 41% 25.0 52%
9.0 39% 22.5 49%
8.0 38% 20.0 47%
7.0 36% 17.5 46%
6.0 35% 15.0 44%
5.0 33% 12.5 42%
10.0 33%
Efficiency V Output Power
Accessory connector
Page 12
SYNTHESIZER SCHEMATIC
CW
W
CC
W
500
R53
R5447
R9310K
2N3904
Q10
R55100
C59
47u
2N3904
Q9
A
+12V
CW
W
CC
W
10K
R31
CW
W
CC
W
10K
R41
C37
47u
C40
18pL4
1uH
R57100
1VI
2G
3VO
LM7805
U8
C34
47u
12Vin
12Vin
5P2:5
4P2:4
9P2:9
13-
12+
14
LM324J
U4:D
9-
10+
8
LM324J
U4:C
R59
10K
R56100
R50100K
R38
10K
R33
10K
BRF96
Q7
BRF96
Q6
+12V
+12V
+5V
3P2:3
2P2:2
C32
0.01u
C25
0.01u
C24
0.01u
C15
0.1u
C12
0.1u
MONO INPUT
SCA INPUT
600 OHMS BALANCED
MONO INPUT
C26
0.01u
+5V
10P2:10
C33
0.01u
P1
P2
S1
S2
S3
MOUSER
T1
C14
47u
C16
1u
R39
7.5K
R46
560
C21
0.01u
C2347u
R5810K
R45
100K
C17
4.7u
R40
1K
R621K
R34
4.7K
R61
22
R9422
1P1:1
2P1:2
3P1:3
1P2:1
R6010K
+5V
R662.2K
2N3906
Q5
2N3904
Q4
R84.7K
R27
10K
2
3
4
5
6
7
1
8
9 10
11
12
13
14
15
16
17
18RA2
RA3
RTCC
MCLR
Vss
RB0
RB1
RB2
RB3 RB4
RB5
RB6
RB7
Vdd
OSC2
RA1
OSC1
RA0
U2PIC16C56
C414.7u
R25100
STEREO INPUT
R261M
+5V
R724.7K
2
3
4
1
5
6
7
8CS
CLK
DI
DO Vss
ORG
NC
Vcc
U193LC56
2N3904
Q1
+5V
R1
100K
C1
4.7u
+5V
D8D7
D2D1
D3
+5V
R19100K
R20100K
R21100K
R22100K
D4D5
D69101112131415161
2345678
S1
2
3
4
5
6
7
1
8 9
10
11
12
13
14
15
16OSCin
OSCout
REFout
fin
Din
ENB
CLK
Dout
fV
fR
LD
VSS
PDout
VDD
piV
piR
U3MC145170
D9
1N4148
R28
1K
R30
1K
10pC6
R5
100K
4MHz
X1
C114.7u
R23100K
R10
1M
R18
1M
C2
12p
C4
12p
R6
4.7k
Page 13
SYNTHESIZER SCHEMATIC
R5447
R95
10K2N3904
Q10
C59
47u
L41uH
6-
5+
7
LM324J
U4:B
9-
10+
8
LM324J
U4:C
BRF96
Q7
+12V
C32
0.01u
C25
0.01u
R45
100K
C17
4.7u
R40
1K
R621K
R61
22
R9422
D3
+5V
2-
3+
11
4
1
LM324J
U4:A
D9
1N4148
10pC6
C74.7u NON POL
C114.7u
R23100K
R10
1M
R18
1M
+12V
R14
10KC847u
C94.7u
R9100K
BRF96
Q2
R2100
R3100
R4100
R7
10K
C3
10p
P1
P2
S1
S2
S3
{Value}
T2
A
C10
0.01u
R171K
R8922
G
SD
U310
Q3
C5
0.01u
C5310p
C560.01u
D11
MMBV2109LT1
D10MMBV2109LT1 R90
10K
C5410p
C574.7p
D15
MMBV2109LT1
R91
4.7KR24
100KR9210K
C13
47u
R32100K
C60
47u
R29100
+12V
C55
0.01u
C58
0.1u
R16
100
R15
22
R12
22 L7
4T0.156 22G
R13
560
DEVIATIONMETER
C27
0.01u
R35
10K
CW
W
CCW
200R44
C22
4.7u
9-
10+
8
LM324J
U6:C
R6810K
R7010K
+5V
R67
1M
13-
12+
14
LM324J
U6:D
+5V
8
P2:8
6
P2:6
FAULT
6-
5+
7
LM324J
U6:B
+12V
D12
1N4148
R36
10K
R651K D13
2800
2-
3+
11
4
1
LM324J
U6:A
D141N4148
C18
4.7u
D71
1N4148
R48
100K R47
100K
R51
1K
J1
RF OUT
Page 14
WIRING DIAGRAM
P2:9 FINAL VOLTAGE
P2:8 FINAL CURRENT
P2:7 BALANCED AUDIO
P2:6 BALANCED AUDIO
P2:5 REMOTE OFF
P2:4 REMOTE ON
P2:3 GND
P2:2 REV PWR
P2:1 FWD PWR
P2:11 SCA
P2:10 COMPOSITE
P3:10 GND
P3:9 SCA
P3:8 OUT OF LOCK
P3:6 DEVIATION
P3:4 12V
P3:5 12V
P3:3 BALANCED AUDIO
P3:2 BALANCED AUDIO
P3:1 COMPOSITE
P3
P2
P1
P2:10 COMPOSITE
P2:11 SCA
P2:9 FINAL VOLTAGE
P2:8 FINAL CURRENT
P2:7 BALANCED AUDIO
P2:6 BALANCED AUDIO
P2:5 REMOTE OFF
P2:4 REMOTE ON
P2:3 GND
P2:2 REV PWR
P2:1 FWD PWR
WHITE 16G BLACK 16GLN
P1:10 REMOTE OFF LED
P1:9 FINAL VOLTAGE
P1:8 FINAL CURRENT
P1:7 DEVIATION
P1:6 CONTROL VOLTAGE
P1:5 5V
P1:4 DRIVE LOW
P1:3 FAULT
P1:2 REV PWR
P1:1 FWD PWR
+V OUT
-V OUT
PSU15V for 10E
28V for 50E20V for 25E
AC IN
AC IN
8
1
2
3
4
5
6
7
9
10
TB5
SCAJ2
GND
COMPOSITEJ1
GND
J3
10A
F2
Page 15
WIRING DIAGRAM
P1:7 DEVIATION
P1:6 CONTROL VOLTAGE
P1:5 5V
P1:4 DRIVE LOW
P1:3 FAULT
P1:2 REV PWR
P1:1 FWD PWR
P1:8 FINAL CURRENT
SYNTHESIZER
P3:2 BALANCED AUDIO GREEN
P3:1 COMPOSITE BLUE
P3:8 OUT OF LOCK GRAY
P3:9 SCA ORANGE
P3:10 GND BLACK
P3:6 DEVIATION WHITE
P3:5 12V RED
P3:4 12V RED
P3:3 BALANCED AUDIO GREEN
VOLTS
GREEN 22G
LED PCB
FWD PWR
REV PWR
P1:10 REMOTE OFF LED
P1:9 FINAL VOLTAGE
AMPS
DEV
W 10K
R10
GND
FAN1
24VDC
14
3 2
S2
M1
10mA
GND
GND
2
3
1
SW1
Page 16
Schematic chassis FM150E
RED 14G, 20
BLACK 14G, 19
DRIVE LOW
FAULT/DRIVE HIGH
FWD PWR REAR
FWD PWR
REV PWR
REV PWR REAR
PWR ADJ
5V OUT
0V
48V DC IN
REMOTE OFF
GROUND
FWD PWR
REV PWR
FINAL VOLTS
FINAL CURRENT
BROWN 22G
ORANGE 22G
YELLOW 22G
GREEN 22G
BLUE 22G
VIOLET 22G
WHITE 22G
GRAY 22G
BROWN 22G
YELLOW 22G
WHITE/BLACK 22G
WHITE/RED 22G
WHITE/GREEN 22G
POWER AMPLIFIER MODULE
WHITE/BLACK 22G
10
84 65
111213141516 9
7321
10
84 65
111213141516 9
7321
N L
N L
RED 16GWHITE 16G
BLACK 16GWHITE 16G
WHITE 16G
WHITE 16G
RED 16G
BLACK 16G
NOT USED ON FM150NOT USED ON FM300 OR FM150
TB8W
TB1
8
1
2
3
4
5
6
7
9
10
TB5
8
1
2
3
4
5
6
7
9
10
TB3
J5
J3
16A
F2
48V
TR3
48V
TR2
48V
TR1
TB8WTB2
Page 17
Schematic chassis FM150E
BLUE 14G
1
2
3
4
5
6
7
8
9
10
BLUE 16G
BLACK 14G, 36
BLUE 14G
BLACK 14G, 19
RED 14G, 20
RED 14G, 23+- BR1
R18100
P3
4
3
2
1
5
6
7
8
9
10
J7
1N4004
C1
3 X 1.3 + 1.5
RED 16G
YELLOW 16G
RED 14G, 22
9
10
11
12
13
14
15
16
R17100
R1610K
-
+
1
LM324J
U1:A
D6
1
2
1RLA2
R112.4K
C2
RLA3
C1
2
1N4004
R13
10K
R15100K
R14
5.6K
10K
R9
RED 14G
CURRENT SENSE BOARD
WHITE/BLACK 22G
BLACK 14G, 25 RED 14G, 24
BLACK 14G, 21
8
1
2
3
4
5
6
7
TB8W
TB4
27VD2
R81.5K
R6
1002
3
C2
RLA5
1
1RLA4
D7
R5
0.01
R71.5K
NO
TU
SE
DO
NF
M3
00
OR
FM
15
0
NO
TU
SE
DO
NF
M1
50
RED 22G
BLACK 22G
TO TB5 PIN7 ON FM1000
1
2
3
4
C624,000
C224,000
C124,000
BLUE 16G
WHITE 16G
BLACK 16G
VOLTS
AMPS
BLUE 22G
VIOLET 22G
YEL/WHT 22G
FM1000 ONLY
WHITE/ORG 22G
R19470
10mA
1
2
3
4
J6P2
3
2 1
GREEN 22G
LED PCB
ORG 22G
REV PWR
FWD PWR
R124K7
FAN1
24VDC
14
3 2
S2
M1
10K
R10
D8
D9
D10
SW1
OPTION 01 ONLY
S3
R21
220
R20
220
R22220
Page 18
Power Amplifier ModuleSchematic Drawing
DE
TE
CT
OR
DIO
DE
BIA
SA
ND
TE
MP.C
OM
PE
SA
TIO
N
AG
C
-5V
SW
ITC
HIN
GR
EG
ULA
TO
R
ME
TE
RIN
G
W
10
KR
12
R3
01
0K
-5V
2-
3+
1
LM
32
4J
U5
:A
+5
V
D2
1N
41
48
C1
0
0.0
1u
R1
7
8.2
K
R2
41
.3K
D4
1N
41
48
P3
:6
P3
:1
P3
:2
P3
:3
P3
:9
BA
LA
UD
IO
SC
A
BA
LA
UD
IO
DE
VIA
TIO
N
CO
MP
OS
ITE
R3
84
.7K
P1
:6
CO
NT
RO
LV
OLTA
GE
P3
:8
OU
TO
FLO
CK
RE
VP
WR
FW
DP
WR
R1
9
7.5
K
R2
0
10
2N
39
04
Q1
R2
3
10
K
P4
:2
P4
:1
15V
15
V
C1
70
.01
u
W10
KR
28
W10
K
R3
2
13
-
12
+
14
LM
32
4J
U5
:D
C2
4
0.0
1u
C2
3
0.0
1u
5V
R3
71
00
K
DIO
DE
_B
IAS
R3
6
10
K
R3
3
10
6-
5+
7LM
32
4J
U5
:B
R3
5
10
K
R3
4
47
0
C2
00
.01
u
5678
4321
-Vout
NC
NC
+V
inN
C
CA
P+
GR
N
CA
P-U
3
76
60
C1
3
10
0p
2-
3+
1 LM
32
4J
U4
:A
W 10
KR
21
R4
31
K
-5V
+5
V
C11
0.1
u
C6
4.7
uE
LN
O
C1
8
0.0
1u
C1
5
0.0
1u
1V
I3
VO 78
L0
5
U1
C2
5
4.7
uE
LN
O
15
V1
VI
3V
O 78
12
U2
C3
7
47
uE
LN
O
C1
6
47
uE
LN
O
5V
13
-
12
+
14
LM
32
4J
U4
:D
R2
51
00
K
-5V
R2
61
00
K
C1
4
0.0
1u
-5V
C8
47
uE
LN
O
R2
9
47
0
9-
10
+
8 LM
32
4J
U4
:CC
9
0.0
1u
R1
8
22
K
R1
4
10
K-5
V
R7
10
0
R2
71
0
P2
:11
P2
:10
P1
:7
P2
:1
P2
:7
P2
:6
SC
A
FW
DP
WR
RE
AR
BA
LA
UD
IO
BA
LA
UD
IO
CO
MP
OS
ITE
DE
VIA
TIO
N
R3
1
10
K
P1
:1
FW
DP
WR
ME
TE
R
P2
:2
RE
VP
WR
RE
AR
R2
2
47
0
P1
:2
RE
VP
WR
ME
TE
R
P1
:3
FA
ULT
R1
64
70
P1
:4
DR
IVE
LO
W
R4
21
K
P1
:5
5V
O/P
FE
T_B
IAS
P3
:4&
5
12V
O/P
Page 19
Power Amplifier ModuleSchematic Drawing
RF
OU
T
P1
:8
P1
:9
C4
74
7p
R6
6
47
0
MR
F2
37
Q8
L9
5T
0.2
35
_1
8g
L8
5T
0.2
_1
8g
C4
44
7p
R1
0.1
10
KR
3
C1
47
u
R2
43
K
R4
10
K
C3
5
33
p
C3
4
0.0
1u
C4
5
33
p
L3
2T
0.1
65
22
G
R6
4
10
R5
39
0K
9-
10
+
8 LM
32
4J
U5:C
C2
0.0
1
R6
47
KR
9
2.7
K
R8
18
0
FIN
AL
CU
RR
EN
T
FIN
AL
VO
LTA
GE
R4
41
20
C4
0
0.0
1u
L11
5T
0.2
_1
8g
L1
0
5T
0.2
35
_1
8g
C4
84
7p
D6
28
00
FW
DP
WR C
32
0.0
1u
C4
92
4p
FE
T_
BIA
S
R4
8
120
C4
3
0.0
1u
C3
3
47
p
FE
T_
BIA
S
R4
61
0K
C3
8
0.0
1u
D7
2800
RE
VP
WR
C3
94
7p
+1
2V
L1
5
2T
0.1
75
_2
2g
C4
1
33
p
C3
6
0.0
1u
R6
7220
C2
61
00
p
C4
6
0.0
1u
R4
51
K
FE
T_
BIA
S
R6
5
47
0
MR
F1
71
Q2
C4
20
.01
L1
3
1.5
T0
.17
5_
18
g
L1
4
4T
0.2
35
18
G
C2
8
10
00
p
L1
2
4T
0.1
75
_1
8g
C3
0
12
0p
C2
96
20
p
C3
1
43
p
15
-30
V
RF
IN
(39p
ON
150)
(39p
ON
150)
C4
1000p
HA
RM
ON
ICF
ILT
ER
&C
OU
PLE
RH
AR
MO
NIC
FIL
TE
R&
CO
UP
LE
RC
OM
MO
NT
OF
M150,F
M300,F
M500
CO
MM
ON
TO
FM
150,
FM
300,
FM
500
48V
MR
F150
Q3
FM
150
ON
LY
FM
150
ON
LY
FE
TB
IAS
O/P
FE
TB
IAS
O/P
RF
INR
FIN
R15
1K
12
TL11
TL11
TLIN
E
12
TL10
TLIN
E
C9
1000p
C41
0.0
1u
C43
24p
C47
47p
L8
4T
0.5
L9
3T
0.7
5
L10
3T
0.7
5C
50
47p
FE
TB
IAS
O/P
FE
TB
IAS
O/P
C40
0.0
1u
C5
120p
12
TL8
TLIN
EC
6
620p
C12
180p
C13
33p
12
TL9
TLIN
E
R16
100
C7
0.0
1u
CH
AN
GE
TH
IST
O56//6p8
CH
AN
GE
TH
IST
O56//6p8
10/1
1/9
810/1
1/9
8
56p
10/1
1/9
810/1
1/9
8
R17
22
24V
US
ED
ON
FM
300
&F
M500
US
ED
ON
FM
300
&F
M500
FE
TB
IAS
I/P
FE
TB
IAS
I/P
RF
INR
FIN
R1
22
1 2
TL6
75
OH
MS
1/4
WA
VE
75
OH
MS
1/4
WA
VE
R31
100
CA
DD
OC
K100
CA
DD
OC
KC
20
22p
C11
120p
R14
1K
12
TL7
50
OH
MS
1/4
WA
VE
50
OH
MS
1/4
WA
VE
12
TL5
75OHMS1/4WAVE 75OHMS1/4WAVE
12
TL4
TLIN
E
12
TL3
TLIN
E
12
TL2
TLIN
E
12
TL1
TLIN
E
P1
P2
S1
S2
S3
INP
UT
T1
MR
F171
Q2
C23
0.0
1u
C22
82p
C17
300p
C8
1000p
C3
82p
C2
300p
R4
50
48V
NO
TU
SE
DO
NF
M300
NO
TU
SE
DO
NF
M300
R47
100
250W
100
250W
R32
22
3W
22
3W
R33
22
3W
22
3W
R34
22
3W
22
3W
P1
P2
S1
S2
S3 O
UT
PU
T
T3
MR
F151
Q4
L3
C42
33p
C30
1000p
47u
C29
C27
0.0
1u
C26
0.0
1u
C25
0.0
1u
L7
3.5
T0.6
35
L6
3.5
T0.6
35
C34
6.8
p
C37
39p
L4
3T
0.5
48V
33p
33p
10/1
1/9
810/1
1/9
8
C24
82p
C28
0.0
1u
C31
0.0
1u
C32
0.0
1u
47u
C35
C36
1000p
C38
0.0
1u
D6
2800
D7
2800L5
MR
F151
Q5
P1
P2
S1
S2
S3
INP
UT
T2
P1
P2
S1
S2
S3 O
UT
PU
T
T4
R35
22
3W
22
3W
L11
4T
0.5
C48
47p
C49
24p
RF
OU
TR
FO
UT
RE
VP
WR
RE
VP
WR
FW
DP
WR
FW
DP
WR
C33
47p
C39
47p
R41
120
R45
120
R48
120
R46
130
R37
120
R40
120
R39
120
R36
130
Page 20
Page 21
Module Schematic Control (150 only)
D3
SIL
KS
CR
EE
NB
AC
KW
AR
DS
D3
SIL
KS
CR
EE
NB
AC
KW
AR
DS
(2.2
KK
wM
OD
UL
E)
(2.2
KK
wM
OD
UL
E)
R4
4
10
K
CW
W
CCW
10
KR
21
R2
1
C4
0.0
1u
0.0
1u
13
-
12
+
14
LM
32
4J
U5
:D
9-
10
+
8LM
32
4J
LM
32
4J
U5
:C
AG
C
2-
3+
114
1 LM
32
4J
U4
:A
P1
:9
P1
:10
P1:1
0
P2
:5
P1
:7
TE
MP
TR
IPT
EM
PT
RIP
CO
NT
RO
LV
OLTA
GE
CO
NT
RO
LV
OLTA
GE
FW
DP
WR
FW
DP
WR
RE
VP
WR
RE
VP
WR
C1
6
0.0
1u
0.0
1u
D2
1N
41
48
1N
41
48
D3
1N
41
48
1N
41
48
R1
7R
17
8.2
K
R2
3R
23
10
0
2N
39
04
2N
39
04
Q1
C2
3C
23
0.0
1u
C2
4
0.0
1u
D4
1N
41
48
R3
7R
37
10
K
R4
01
0K
10
K
R3
81
0K
R3
91
0K
10
K
C2
5
0.0
1u
DE
TE
CT
OR
DIO
DE
BIA
SA
ND
TE
MP.
CO
MP
ES
AT
ION
DE
TE
CT
OR
DIO
DE
BIA
SA
ND
TE
MP.C
OM
PE
SA
TIO
N
R4
31
K
8V
-8V
8V
-8V
8V
C1
3
10
0p
10
0p
R1
9R
19
2.7
K
R2
4R
24
22
0
R2
0
10
C11
0.1
u
OV
ER
VO
LTA
GE
PR
OT
EC
TIO
NO
VE
RV
OLTA
GE
PR
OT
EC
TIO
N
6-
5+
7LM
32
4J
U4
:B
5O
V
3.0
V
4.3
6V
33
0u
50
V3
30
u5
0V
C1
C6
4.7
uE
LN
O4.7
uE
LN
O
C7
0.0
1u
C1
0
0.0
1u
0.0
1u
D1
SF
16
3S
F1
63
L1
50
V
R1
100K
R2
10
0K
R1
0R
10
10
K
CW
W
CCW
10
KR
11
R1
31
0K
R1
52
2K
21
34
5
Vin
Vc
GR
N
FB
Vsw
Vsw
U2
LT
1072
24
VS
WIT
CH
ING
RE
GU
LA
TO
R2
4V
SW
ITC
HIN
GR
EG
UL
AT
OR
R5
7.5
K
3.7
9V
R4
1M
33
0u
50
V3
30
u5
0V
C3
L2
8V
1V
I
2G
3V
O 78
L0
8
U1 R
82
7K
C2
70
.01
u0
.01
u
C2
6
0.0
1u
47u
50V
47
u5
0V
C2
C5
47
uE
LN
O4
7u
EL
NO
C8
47
uE
LN
O4
7u
EL
NO
C9
0.0
1u
0.0
1u
R7
4K
7
CW
W
CCW
10K
10
KR
9
CW
W
CCW
10
KR
12
R1
2
R1
4
10K
R1
64
70
47
0
5678
4321
-Vout
NC
NC
+V
inN
C
CA
P+
GR
N
CA
P-U
3
76
60
DR
IVE
LO
WD
RIV
EL
OW
24
V
P1:2
P1:1
FE
TB
IAS
O/P
FE
TB
IAS
O/P
FE
TB
IAS
O/P
FE
TB
IAS
O/P
5V
O/P
5V
O/P
R4
21
K
P3
P2:6
-8V
-8V
-8V
8V
8V
-8V
SW
ITC
HIN
GR
EG
UL
AT
OR
-8V
SW
ITC
HIN
GR
EG
UL
AT
OR
R3
2K
22K
2
(10
oh
ms
Kw
MO
DU
LE
)(1
0o
hm
sK
wM
OD
UL
E)
C1
2
0.0
1u
C1
4
0.0
1u
C1
5
0.0
1u
C2
00
.01
u
C2
1
0.0
1u
C2
2
0.0
1u
R1
8
22
K
CW
W
CCW
10
K
R3
2
R3
6
10
K
ME
TE
RIN
G
C1
9
0.0
1u
R3
1
10
K
R3
3R
33
10
R2
2
47
0
R4
1
47
0
FA
ULT
FA
ULT
RE
VP
WR
ME
TE
RR
EV
PW
RM
ET
ER
RE
VP
WR
RE
AR
RE
VP
WR
RE
AR
FW
DP
WR
ME
TE
RF
WD
PW
RM
ET
ER
FW
DP
WR
RE
AR
FW
DP
WR
RE
AR
DIO
DE
BIA
SD
IOD
EB
IAS
OV
ER
TE
MP
LE
DO
VE
RT
EM
PL
ED
P2:7
P2:8
P2:4
P2:3
P2:2
P2:1
P1:8
P4
R2
6R
26
100K
R2
51
5K
9-
10
+
8 LM
324J
U4:C
13
-
12
+
14
LM
324J
U4:D
6-
5+
7LM
324J
LM
32
4J
U5
:B
R3
01
00
R2
9
10
K
2-
3+
114
1 LM
324J
LM
32
4J
U5:A
CW
W
CCW
10
KR
28
C1
70.0
1u
R2
7
10
C1
8
0.0
1u
8V -8V
-8V
R3
4
10
K
R3
5
10
0