SM-2000
SERVICE MANUAL
MAXON AMERICA, Inc.
10828 N. W. Air World Drive
Kansas City, MO 64153
Phone 816-891-6320 Fax 816-891-8815
680-100-0045 Revision C ECO 98017
December 98
MAXON SM-2000 MOBILE
TABLE OF CONTENTS
TABLE OF CONTENTS
General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Tx Tone Modulation Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Receiver. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Description Of Controls. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Component Replacement. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Surface Mounted Integrated Circuit Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . 33
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December 98
MAXON SM-2000 MOBILE
TABLE OF CONTENTS
SM-2150/VHF Front End Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
SM-2450/UHF Front End Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
SM-2000 TCXO Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
SM-2000 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
SM-2000 Digital Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62
SM-2000 Control Head PCB Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65
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December 98
MAXON SM-2000 MOBILE
SPECIFICATIONS
SPECIFICATIONS
TRANSCEIVER NOMINAL PERFORMANCE
Performance Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . FTZ 17TR2049 July 88
TIA/EIA-603
IEC 68 Series
EC 529 IP54
MIL STD 810 C,D,E
RF Output Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 W
Modulation Type. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . G3E/F3E (PM/FM)
Audio power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 W
Intermediate frequencies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 MHz
455 kHz
Number of Channels. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Frequency Source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Synthesizer
GENERAL
Power Supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13.2 VDC nominal CEPT
15.6 VDC maximum (extreme)
10.8 VDC minimum (extreme)
13.8 VDC nominal TIA/EIA-603
Temperature Range
Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80°C Maximum; -40°C Minimum
(Extreme)
Operating (to spec) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25°C Nominal;
60°C Maximum; -30°C Minimum
(Extreme)
Current Consumption
DC Current
Standby (Muted)
< 140 mA
Unmuted
25% Max. AF power
50% Max. AF power
100% Max. AF power
< 350 mA
< 450 mA
< 570 mA
Transmit
1 Watt RF power
3 Watts RF power
25 Watts RF power
1.6 A
2.4 A
6.7 A
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December 98
MAXON SM-2000 MOBILE
SPECIFICATIONS
Switching range TX and RX (without re-tuning)
Operational Bandwidth
TX RX
BAND
MIN
MAX
MIN
MAX
VHF Band 1
136
148
162
136
148
162
VHF Band 2
174
174
UHF Band 1
UHF Band 2
UHF Band 3
UHF Band 4
UHF Band 5
400
420
440
470
490
430
450
470
490
512
400
420
440
470
490
430
450
470
490
512
Channel spacing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 kHz / 20 kHz / 12.5 kHz
programmable
(25 kHz - 12.5kHz switchable
by CPU control)
Dimensions (in / mm). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2(H) x 7(W) x 6.25(D)
45(H) x 157(W) x 140(D)
Weight
3lbs, 6oz/ 1.6kg (with mic)
TRANSMITTER
Tests methods are ETS 300 086 Jan
1991 unless stated
Performance Without Sub audible Modulation
Carrier Power @ nominal conditions
Max. Rated Output Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 W +/-10% nominal
25 W +2/-3 dB @ extreme conditions
across switching range
Hi Switched by CPU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 – 25 W
Continuously adjustable
Low Switched by CPU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 – 3 W
Continuously adjustable
Frequency stability (SM-2150) . . . . . . . . . . . . . . . . . . . . . . . . . . . +5.0 ppm (+ 0.00025%)
Frequency stability (SM-2450) . . . . . . . . . . . . . . . . . . . . . . . . . . . +2.5 ppm (+ 0.00025%)
Peak audio frequency deviation
(across switching range)
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December 98
MAXON SM-2000 MOBILE
SPECFICATIONS
Without sub audible tone
modulation
With sub audible tone modulation
@ 10% peak deviation
Channel Spacing
(kHz)
MAX DEV
+ 5.0 kHz
+ 2.5 kHz
25
+ 5.0 kHz
12.5
+ 2.5 kHz
Audio characteristic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (Method as FTZ 17 TR 2049 July 1988)
MOD Type G3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Within +1/-3 dB of 6 dB/octave
pre-emphasis curve:
300 Hz – 2.55 kHz for 12.5 kHz
Channel Spacing
300 Hz – 3 kHz for 20 , 25 kHz
Channel Spacing
MOD Type F3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Within +1/-3 dB of 6 dB/octave
pre-emphasis curve:
300 Hz – 2.55 kHz for 12.5 kHz
Channel Spacing
300 Hz – 3 kHz for 20 , 25 kHz
Channel Spacing
Adjacent channel power
25 kHz
12.5 kHz
< 70 dBc
< 60 dBc
TX spurious emissions (conducted)
9 kHz – 1 GHz
1 – 4.0 GHz
< -36 dBm
< -30 dBm
TX spurious emissions (radiated)
9 kHz – 1 GHz
1 – 4.0 GHz
< -36 dBm
< -30 dBm
TX spurious emissions (radiated)
9 kHz – 1 GHz
1 – 4.0 GHz
< -36 dBm
< -30 dBm
Modulation limiting characteristics . . . . . . . . . . . . . . . . . . . . . . . Method as FTZ17 TR2049 July 1988
=75% peak deviation
Transmitter audio distortion (without CTCSS) . . . . . . . . . . . . . . Method as FTZ17 TR 2049 July 1988
1 kHz modulation input
< 5 %
Transmitter audio distortion (with CTCSS) . . . . . . . . . . . . . . . . . Method as EIA RS 220A Mar 79
Audio frequency 1 kHz
Any CTCSS frequency combined
< 8 %
Hum & noise (residual modulation) . . . . . . . . . . . . . . . . . . . . . . . . > 40 dB
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December 98
MAXON SM-2000 MOBILE
SPECIFICATIONS
TX TONE MODULATION CHARACTERISTICS
Sub audible tones - CTCSS
Tone range. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 – 250 Hz @ 0.3 % accuracy
Tone standard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RS-220A EIA Standard
Non-standard tones. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 – 260 Hz @ 0.3 % accuracy
Nominal tone deviation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 % peak system deviation
SUB AUDIBLE TONES - DCS
Tone standard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Normal and inverted
Nominal tone deviation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 % peak system deviation
RECEIVER
Performance without sub audible modulation. . . . . . . . . . . . . . . Method ETS 300-086 JAN 1991
unless stated
Sensitivity 12 dB SINAD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . < - 118 dBm
Amplitude characteristic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . + 3 dB
Co-channel rejection
25 kHz
12.5 kHz
<- 6 dB
<- 10 dB
Adjacent channel selectivity
25 kHz
12.5 kHz
> 70 dB @ nominal conditions
> 60 dB @ nominal conditions
Spurious response rejection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . > 70 dB (100 kHz - 4 GHz)
Intermodulation response rejection
+ (25 kHz & 50 kHz)
+ (50 kHz & 100 kHz)
> 65 dB (3 generator method)
Blocking
+ 1 MHz
+ 5 MHz
+ 10 MHz
> 85 dB
> 85 dB
> 85 dB
RX spurious emissions (conducted)
9 kHz – 1 GHz
1 GHz – 4.0 GHz
- 57 dBm
- 47 dBm
RX spurious emissions (radiated)
9 kHz – 1 GHz
1 – 4.0 GHz
-57 dBm
-47 dBm
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December 98
MAXON SM-2000 MOBILE
SPECIFICATIONS
AF power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 W maximum @10% Distortion into a
4 ohm load. 4 Watts nominal.
AF frequency response . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Method as FTZ 17 TR 2049 July 1988
MOD Type G3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Within +1/-3 dB of 6 dB/octave
de-emphasis curve
300 Hz – 2.55 kHz for 12.5 kHz
Channel Spacing
300 Hz – 3 kHz for 25 kHz
Channel Spacing
MOD Type F3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Within +1/-3 dB of 6 dB/octave
de-emphasis curve
300 Hz – 2.55 kHz for 12.5 kHz
Channel Spacing
300 Hz – 3 kHz for 25 kHz
Channel Spacing
RX Hum & Noise . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . > 40 dB
RX TONE DEMODULATION CHARACTERISTICS
Subaudible tones - CTCSS/DCS
CTCSS tone range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 Hz to 250 Hz
CTCSS tone standard. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RS-220A EIA Standard
CTCSS non-standard tones . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 – 260 Hz
DCS tone standard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Standard and inverted
Decode Sensitivity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Method: Decrease signal level @ 10%
peak deviation
All tone. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . <= 9 dB SINAD
Environmental . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . IEC529 level IP54 MIL STD 810C
EMC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . EMC Directive 89/336/EEC May 1989
ETS 300.279
ACCESSORIES
MA4472 Microphone
RELIABILITY ANALYSIS
Calculation method
MTBF. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15,000 Hr. MIL-HDBK-217F. Ground
benign. Parts stress method.
MTTR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 Min. (Average time to rework any
SMD component & reassemble).
PROGRAMMER
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . SMP4004C
Page-5-
December 98
MAXON SM-2000 MOBILE
INTRODUCTION
INTRODUCTION
Advanced state-of-the-art technology is used in the design and manufacturing of the SM-2000 Mobile. The
Phase Lock Loop (PLL) synthesizer provides more flexibility and capability in the SM-2000 Mobile. This
scanning mobile has 4 channel capability. It offers CTCSS, DCS, scanning, priority channel, and many other
functions. All these functions are controlled by the micro controller. The micro controller reads specific
channel information from an Electronically Erasable Programmable Read Only Memory (EEPROM).
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December 98
MAXON SM-2000 MOBILE
UNPACKING INFORMATION
UNPACKING INFORMATION
Check the carton carefully for the following items:
1
2
3
4
5
6
Transceiver Unit
Microphone
DC Power Cord
Mobile Mounting Bracket
Assembly Hardware
Operating Guide
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December 98
MAXON SM-2000 MOBILE
GENERAL DESCRIPTION
GENERAL DESCRIPTION
The Maxon SM-2000 is a rugged two way FM mobile radio which operates from 136-174 MHz (VHF) in
two bands & 400-512 MHz (UHF) in five bands. The SM-2000 is a synthesized radio utilizing
microcomputer technology to provide reliable high quality simplex two-way mobile communications. The
SM-2000 transmitter output power level is 25 watts over a wide bandwidth, with a receiver operational
bandwidth that covers the specified frequency band. The basic radio package includes the following
features:
•
•
•
•
•
•
•
•
•
•
Microprocessor Control
Synthesized RF Channel Selection (Frequency Control)
CTCSS Encode / Decode
DCS Encode / Decode
Priority Channel Scan
5 PPM Frequency Stability (SM-2150/VHF)
2.5 PPM Frequency Stability (SM-2450/UHF)
Field Programmable with PC
Internal 4 watt speaker, with Volume Control
Busy Channel Lockout
The small size of the SM-2000 radio makes it ideal for front mounting in conventional vehicles. The radio
is operated with a simple hand held microphone in combination with the operating controls described in the
following section.
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December 98
MAXON SM-2000 MOBILE
DESCRIPTION OF CONTROLS
DESCRIPTION OF CONTROLS
Figure 1 SM-2000 Front Panel
DESCRIPTION OF CONTROLS
The controls, indicators and microphone/programming connector are located on the front panel. The
Monitor and Auxiliary buttons are located on the radio’s front panel. The following table details the
Mobile controls, indicators, and connections.
TABLE 2
Controls, Indicators, And Connections
ITEM
FUNCTION
Rotary switch, used to select one of 4 channels (max.) and to engage
scanning function
1. Channel Select Switch
Main power switch and volume control. Fully counter clockwise is off
position
2. ON/OFF Volume Control
3. Microphone Connect Jack
4. Busy/Call/TX
Used to connect the microphone to the mobile
Tri-colored LED indicator
5. Auxiliary (AUX) Switch
6. Monitor Switch
Used for control of after market accessories
When pushed, monitors the chosen channel
Indicates the channel when illuminated
7-10. Channel Indicator LED’s
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December 98
MAXON SM-2000 MOBILE
DESCRIPTION OF CONTROLS
Rear Panel Connections
ITEM
FUNCTION
1. Antenna Connector ( S0-239 )
2. DC Power Connector
50 ohm connector
Used to connect the mobile to the power supply 13.2 VDC or 13.8 VDC
U.S.A.
Multipurpose socket used to connect to a remote speaker or for test
connection
3. External Speaker Connector
Figure 2 SM-2000 Rear Panel
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December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
THEORY OF OPERATION
Each of the Scanning Mobile radios, UHF & VHF, include a unique main P.C.B. consisting of RF, Digital
and Analog circuitry.
DIGITAL CIRCUITRY
IC 411 and IC412 are digitally-controlled analog switches which internally consist of three single pole,
double throw switches. By placing a high (5V) or low (0V) on the control lines which consists of A,B, and
C. “A” controls the X ports “B” controls the Y ports and “C” controls the Z ports. Example: A high on
control “A” would connect X to X1. A low on control “A” would connect X to X0.
CTCSS/DCS Decode Circuits
Discriminator audio from Pin 9 of IC 109 is fed to IC 406 and associated parts, which are the first 2 poles
of a 6th order 250Hz Chebeyshev low pass filter. The output from Pin 1 (IC406A) is fed into IC411 (Pin 2)
and output to Pin 15 (IC411). The signal is then fed to Pin 8 (IC407) which is a 6th order low pass
Butterworth switched capacitor filter. The output from the Butterworth filter (Pin 3 IC407) is then fed to
the remaining 4 poles of the 6th order Chebeyshev, which consist of IC 406C and one of the two
operational amplifiers internal to IC407 (MF6-100) along with associated components. Both the
Chebeyshev and the Butterworth combines for a 4dB ripple low pass filter when programmed for 250Hz.
The output of IC406C(Pin 8) is fed into the remaining operational amplifier internal to IC407 (MF6-100)
which forms the squaring circuit for the Decode signal. The signal is output from Pin 2 IC407 (MF6-100)
and fed into IC409 (micro) where it is matched with a preprogrammed frequency. If successful a Decode
occurs, which is shown by a green L.E.D. on the front panel of the UHF Scanning Mobile and audio is
heard. If valid Decode was not seen, the busy L.E.D. (Yellow) would be shown.
CTCSS/DCS Encoder Circuit
During TX encode the tone squelch digital signal is produced as a 3-bit parallel word at Pins 15 (A), 16
(B), and 18C of the micro controller (IC409). The 3-bit digital signal is converted to an analog signal by
resistors R427, 428, and 430. The analog signal is fed into IC411 Pin 1. The signal is output on Pin 15
(IC411) and fed into Pin 8 of IC407 (6th order Butterworth clock tuned low pass filter). The filtered
encode output from Pin 3 (IC407) is fed into Pin 13 (IC411) and output on Pin 14 (IC411).
The filtered encode signal is fed to IC405B and RV403 (sub-audible gain control), the output of IC405B is
then fed to the audio mixer circuit.
Channel Select Circuit
One of 4 channels may be selected using the channel switch on the front panel. The channel switch SP4T
(single pole 4 throw) with output to 4 channel LED’s and to diode’s to be converted to an inverted 4-Bit
binary code. The binary code inverted is equal to the channel number. The binary code is decoded by the
micro controller enabling the appropriate RX or TX frequency and associated data to be selected from the
EEPROM.
•
NOTE:It is possible any one of the 4 channel locations can be a scanning position. Refer to
Operators Manual for further instructions.
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December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
EEPROM
RX/TX channels, CTCSS/DCS as well as other data from the programmer are stored in the EEPROM. The
data stored is retained without power supplied. This is a non-volatile memory. The EEPROM may have
information re-programmed or erased. IC408 is an EEPROM with 2048 (256x 8) bit capacity and data is
written and read serially, with the Programming cable through the front panel microphone connector.
High Pass Filter
The high pass filter is an 8-pole .1dB chebeyshev active filter that comprises IC410 and associated
components. The de-emphasis is provided by resistor R451 and capacitor C452. Receive audio is passed
to IC410 by Pin 4 of IC411 where sub-audible tones below 250Hz are removed. Mic audio is also fed into
IC410 via IC411 (Pin 4) where sub-audible voice products below 250Hz are also removed.
Mute (Squelch) Circuit
The mute circuit which is controlled by the output of IC409 (micro) pin 77 (386) is connected to Q409 via
R438 which opens analog gate IC401D and mutes the audio path to the AF amplifier, in conjunction with
Q137 shorting the input to audio amp IC108.
TX Audio and Filter Circuits
Microphone audio from front panel (via IC412), is fed into IC401A, and into IC404B (Pin 6). The TX
audio is output on Pin 7 (IC404B) and into the high pass filter (IC410), where sub-audible voice products
are removed. The TX audio output from IC410 is fed into IC404A&B which with associated parts form a
pre-emphasis mic amplifier and limiter. The output from Pin 1 IC404A is fed to RV402 (TX Modulation
Level Adjust) and fed into IC404C&D with associated parts to form a 3kHz low pass filter. The output of
IC404D (Pin 14) is then fed into the Audio Mixer Circuit.
Audio Mixer and Inverter
IC405A is an audio mixer where audio and sub-audible tones are combined. RV403 is used as a level
control for the Sub-audible tones. This level is summed with amplified, pre-emphasized, and limited audio
and feed to IC405A, which is an inverting amplifier. The output is fed to the VCO and TCXO to provide
the necessary modulation signal.
Analog Ground Supply
IC406D supplies analog ground (2.0V) to all operational amplifier circuits except for IC405A and IC405D.
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December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
PLL
IC101 (MC1459IF) is a PLL frequency synthesizer with an on-board 1.1 GHZ divide by 64/65 dual
modulus prescaler. In addition to the prescaler and frequency counters, the synthesizer IC has a a phase
detector and a C register (Configuration register) that allows certain functions to be configured as desired.
The synthesizer is serially controlled by three wire input to the IC. Serial data is fed to pin 19 of the IC.
Serial data CLK (pin 18) and active low ENABLE (pin 17) are the input pins that allow data transfer into
the integrated circuit for control and frequency selection.
Data transfer is byte-oriented and may be shifted in 1, 2 or 3-byte patterns. One byte (8 bits) accesses the C
or configuration register, two bytes (16 bits) access the R register and 3 bytes (24 bits) access the A
register.
Internally the synthesizer has three counters used as frequency dividers. These counters are the R,A and N
counters. The R counter is actually controlled by 3 bits of the R register while the remaining 13 bits
determine the divide by R value. The frequency at pin 20 (12.8 MHz) is divided by R to determine the
frequency steps of the PLL synthesizer. In programming the radio, 5.0 kHz or 6.250 kHz step sizes can be
selected for any channel.
The 24- bit A register controls the N and A (prescaler) counts. Together these counts determine the total
synthesizer divide ratio affecting the f (frequency input) signal from the VCO. A0-A7 are the A counter
in
values. A8-A19 are the N counter values. A21 and A20 must always be set high. A23 and A22 are both
set to 0 which controls the function of output A and causes it to be a port. This port, output A, is used to set
TX power high or low. A high output on port A sets transmit power low.
The 8-bit C register performs control functions as stated:
C7 sets polarity of the phase detector bits. Logic “0” is normal.
C6 determines the phase detector used. A logic “0” selects theta V and theta R outputs
C5 enables the lock detector when its logic is “1”.
C4 when a logic “1”, puts CMOS sections in standby mode.
C3 and C2 set phase detector current at the PD output. Not used in this application.
C1 is the value present at Output A.
C0 is the value present at Output B.
Transistors Q101 through Q104, along with related resistors and capacitors, connect the dual pin theta V
and Theta R outputs into a 2 mA current source that is powered by a 20V DC to DC converter. This allows
the tuning voltage to be approximately 3 to 17 VDC.
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December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
RF SECTION (SM-2150/VHF)
VHF Transmitter
The Transmitter is comprised of:
1.
2.
3.
4.
Microphone Audio Circuit
Transmitter Stage and Harmonic Filter
Automatic Power Control
Frequency Synthesizer Circuit
Microphone Audio Circuit
Microphone audio from the digital circuitry is amplified, pre-emphasized, limited, and mixed with
Sub-Audible and applied to the VCO at Pin 1, through RV101, to balance VCO and TCXO modulation.
Transmitter Stage and Harmonic Filter
When in the transmit mode of operation the diode D103 is forward biased enabling the RF signal to pass to
the pre-driver Q118 by Q116 and Q117. The amplified RF signal is amplified again by Q120. The
amplified RF signal passes through the stripline coupler and is fed to the harmonic low pass filter,
comprising of L128, L130, L131, and L132, capacitor 271, 273, 275, 277, and 283 and then to the antenna
connector (ANT). The stripline coupler provides a sample of the RF signal for the automatic power
control. During transmit D107 is forward biased which connects the power amp, D120, to the antenna.
D120 is forward biased inhibiting transmit signal power from being fed to the receiver circuitry.
Automatic Power Control
The automatic power control contains the stripline coupler, diode D107 and variable resistor VR104,
IC104A, and three transistors Q123, Q124, and Q125. IC104A forms a differential amplifier. The RF
signal present in the coupler is rectified by D107, to produce a DC voltage proportional to RF power which
is applied to Pin 3 of IC104A. TX 8.5V is also applied to the input of IC104A via the potential divider
R168, VR104, and R170 at pin 2. The different signal at output of IC104A is passed to Q124 and Q125 to
produce a constant power output to the antenna connector (ANT). VR104 is used to adjust the RF high
power level. VR105 is used to set the low power setting.
RX & TX Voltage Controlled Oscillator Circuit
The circuit contains two VCO’s. One for producing carrier frequencies during transmit and one for
producing the local oscillator frequency during receive. The circuit also has RX and TX power line filters.
RX & TX Power Line Filters
Transistors Q353 and Q354 are configured as TX5v and RX5v power supply ripple filters respectively.
Page-14-
December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
RX VCO
The RX VCO comprises JFET Q351, coil L356 and varactor D353 and is configured as a Colpits oscillator.
D353 produces a change in frequency with a change in DC voltage and is controlled by the phase detector
signal present at the anode. The local oscillator signal at the drain of Q351 is applied to RF out of the
module when diode D103 is reverse biased and D104 is forward biased. L356 is used for PLL alignment.
TX VCO
The TX VCO comprises JFET Q352 coil L353 and varactor D352 and is configured as a colpits oscillator.
The AF signal at MOD port is applied to the cathode of D352. The control voltage from the loop filter is
applied to the drain of Q352 and is passed to the power amplifier and harmonic filter via the buffer Q113
and Q114. When diode D103 is forward biased and D104 is reversed biased L353 is used for PLL
alignment.
Loop Filter
Transistor Q101 to Q104 and associated components form a loop filter. The phase detector from Pin3 and
4 of IC101 are filtered to remove any reference frequency harmonics and applied to the voltage controlled
oscillator.
PLL Frequency Synthesizer
The PLL frequency synthesizer (IC101) contains an oscillator for the reference divider, a programmable
divider, a phase/frequency Comparator and an out of lock detector and a Prescaler.
Reference Oscillator
The reference oscillator of IC01 along with a 10.25 or 12.8MHz TCXO, varactor diode D701 and D702,
and the thermistors TH701, TH702, and TH703 produce a temperature compensated 10.25 or 12.8MHz
reference.
Programmable Dividers
The serial frequency data (DATA) is received by the data programmable divider at Pin 19 of IC101 from
Pin 1 of IC409 (Micro controller) out. The internal Prescaler divided input frequency at pin 11 of IC1 is
further divided by the programmable divider. The 10.25 or 12.8MHz TCXO frequency at pin 20 is the
reference divider to produce a reference frequency of 5 or 6.25kHz respectively. The internal
programmable divided frequency (Fv) and the reference frequency (Fr) are fed to the internal phase
detector.
Phase Detector
The phase detector produces negative pulses when Fv < Fr, positive pulses when Fv>Fr. When Fv = Fr and
phase is the same, the phase detector presents a high impedance at Pin 4. The signal at Pin 2 is applied to
the VCO via the loop filter.
Page-15-
December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
Out of Lock Detector
The out-of-lock detector produces a high logic level when Fr and Fv are in the same phase and frequency,
low logic level pulses when the loop is out-of-lock at Pin 2 of IC101. The signals at Pin 2 of IC101 are
buffered by Q106 and then integrating by R114 and C122. The product of the integrating circuit is fed to
L/D port.
Prescaler
The internal Prescaler of IC101 divides the incoming signal frequency from the VCO via input pin 1 by 64
or 65. The divided VCO frequency is passed to the 6-stage A counter and 12-stage N counter.
Receiver
The receiver uses Dual Conversion Superheterodyning techniques, it is comprised of:
1.
2.
3.
4.
5.
RF amplifier
First Mixer and First IF Amplifier
Second Mixer, Second IF Amplifier and FM Detector
Receiver Audio Circuit
Mute (squelch) Circuit
RF Amplifier
The signal received via the antenna is routed through the 9th chebyshev low-pass filters containing
capacitors C273, C275, C277, C280, C283 and coils L128, L130, L131, L132, and is passed through the
front-end module (RF amplifier) via pin 1. The front-end module contains L800 to L806 and Q800. The
front-end module is configured to enable the RF signal at the operating frequency to pass the first mixer.
First Mixer and First IF Amplifier
The VCO local oscillator signal routed through buffer transistor Q113 and Q114 is filtered by C164, C165,
C281, C310, and L110, L123. IC102 produces a difference frequency IF of 45MHz from pin 6 of the
front-end module and the filtered VCO local oscillator signal at pin 1. The 45MHz difference frequency is
filtered by the 2-pole crystal filter CF101. The tuned circuit T101 and T102 and associated components
provide matching of the crystal filter to insure good band-pass response and selectivity. The IF signal is
amplified by Q130 and passed to the second mixer, second IF and FM detector IC109.
Second Mixer, Second IF and FM Detector
A signal conversion FM receiver integrated chip, IC109 contains the second mixer, second IF and FM
detector functions. The second local oscillator frequency is determined by the crystal X101 connected to
pin 1 of IC109. The IF signal is received at pin 16 of IC109 via R203 and coupling capacitor C182. The
second IF frequency of 455kHz is produced when the different frequency is applied to the mixer via Pin 6.
The output of the second mixer via Pin 3 is applied to a 455kHz band-pass filter, CF104 for 25kHz and
CF103 for 12.5kHz channel spacing. The output of CF104 is passed to a high gain IF amplifier (limiter) in
IC109 via Pin 5. The amplified signal is coupled to the adjustable quadrature detector T103. Any detected
signal is produced at Pin 9 of IC109 and applied to the Receiver Audio Circuit and the Mute (Squelch)
Circuit.
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December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
Receiver Audio Circuit
The receiver audio circuit is comprised of a low pass filter and an audio amplifier on the RF PCB.
Low Pass Filter
The low pass filter is configured from coil L227, capacitor C201 and resistor R206.AF signals from Pin 9
of IC109 are filtered by the low pass filter to remove any components of the 455kHz IF signal. The filtered
is passed to the high pass filter.
High Pass Filter
The de-emphasized audio signal from the high pass filter is fed to the audio amplifier (IC108).
Audio Amplifier
IC108 is the audio amplifier. The audio signal is passed to IC108. The gain of the amplifier is set by
resistor R153. The amplified audio signal at Pin 4 of IC108 is applied to the external speaker.
Mute (Squelch) Circuit
The squelch circuit switches off the audio power amplifier in the absence of audio signal. The squelch
circuit comprises a 50kHz pass band filter, squelch control (RV103) and a noise detect circuit.
The audio signal from Pin 9 of IC 109 is filtered by the 50kHz bandpass filter formed by L228, L229,
C191, C192, and C193. The noise in the IF pass band is accepted, frequencies in the voice frequency band
are rejected and noise present at the output of the filter is applied to the noise detect circuit via RV103.
RV103 is used to adjust the squelch sensitivity.
Noise Detect Circuit (SQ Board)
The noise detect circuit in conjunction with IC109 consists of transistor Q133 and Q132, thermistor TH101
and diode D125. Any noise signal present is applied to the base of Q133 of the SQ circuit from Pin 11 of
IC109. The signal is amplified by Q133 rectified by D11 and then buffered by Q132. The buffered signal
output is applied to the squelch trigger of IC109 Pin 12 via resistor R200. The squelch trigger out put (Pin
13 of IC109) is applied to the Micro controller on the Digital circuit. When noise is present, the voltage at
Pin 12 of IC109 exceeds 0.7V, the squelch trigger output is 0V (logic0) muting the receiver audio circuit.
When no noise is present the voltage at Pin 12 of IC109 is less than 0.7 and Pin 13 of IC109 is at 5V
(logic1), unmuting the audio circuit.
Page-17-
December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
RF SECTION (SM-2450/UHF)
UHF Transmitter
The Transmitter is comprised of:
1. Microphone Audio Circuit
2. Transmitter Stage and Harmonic Filter
3. Automatic Power Control
4. Frequency Synthesizer Circuit
Microphone Audio Circuit
Microphone audio is pre-emphasized, limited and mixed with sub-audible tones to provide the modulating
signal for the transmitter. This combined modulation is applied to TCXO modulation pin 1 and also to the
VCO modulation input via RV101 to effect 2-point modulation. RV101 is a modulation balance control
that equalizes modulation sensitivities of the two oscillators.
Transmitter Stage and Harmonic Filter
Power Amplifier IC103 is an RF Module. In transmit, diode D103 is forward biased allowing the RF signal
to pass to the input of IC103 via Q116 and Q117. The amplified RF output passes through the stripline
coupler and is fed to the harmonic low pass filter, consisting of spring coils L118, L120, L121 and L125
and capacitors C271, 273, 275, 277 and 280, and then to the antenna connector. The stripline coupler
provides a sample of the RF signal for automatic power control. During TX, D108 connects the power amp
to the antenna. D120 and D121 are forward biased reducing transmit signal power at the receiver input.
Automatic Power Control
The automatic power control contains the stripline coupler, diode D107, and variable resistor RV104, op
amp IC104 , and two transistors: Q124 and Q125. IC104 acts as a differential amplifier. The RF signal is
rectified by D107 to produce a DC voltage, proportional to RF power, that is applied to IC404 pin 3.
Voltage divider R168, RV104 and R170 monitors TX 8.5V dc to develop a reference for IC104A pin 2.
The difference at the output of (IC104 pin 1) is passed to Q124 and drives the collector of Q125. This
feedback controls the gain of IC103 to maintain a constant RF power output. RV104 is used to adjust the
RF high power level. RV105 is used to set the low power setting.
Frequency Synthesizer Circuit
With data received from the EEPROM ( IC408 ) the frequency synthesizer circuit controls and produces
the RF carrier frequency for the transmitter during transmit and the local oscillator frequency for the
receiver.
The frequency synthesizer circuit is comprised of:
1. RX and TX voltage controlled oscillator module.
2. Loop Filter
3. PLL Frequency Synthesizer
Page-18-
December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
Voltage Controlled Oscillator Circuit
The circuit produces carrier frequencies during transmit and local oscillator frequencies during receive.
Transistor Q107 is configured as a power supply ripple filter. The VCO utilizes transistor Q108, varactor
D101 , D102 and trimmer capacitor TC101 . These components are configured as a Colpitts oscillator.
D101 and D102 produce a change in frequency with a change in DC voltage and are controlled by the
phase detector. Q110 and Q111 are an amplifier and buffer for the output of the oscillator.
Receiver
The receive signal passes through the low pass filter, then onward to pin 1 of the Front End module. A
bandpass filter consisting of C801-C810 (see band chart for different band values) and L801-L803 is
coupled to the base of Q801 (2SC5084) which is the RF amplifier. Diode D801 serves as protection from
static and RF overload from nearby transmitters. The output of Q801 is coupled to a second bandpass filter
consisting of C812-C824 and L804-L807. The output of the Front End ( pin 6) is coupled to the double
balanced mixer IC102. The receiver Front End Module is factory pre-tuned and requires no field
adjustment. Repair is effected by replacement of the entire (properly banded) module. Frequency bands are
listed in the SPECIFICATIONS section of this manual.
The receiver Front End module pin-outs are:
1. RF Input
2. Input Ground
3. Ground
4. Receive +5VDC
5. Output Ground
6. RF Output
First Mixer
IC102 is a Double Balanced Mixer which provides a 45MHz intermediate frequency output. The filtered
frequency from the Front End is coupled to signal input pin3 of the mixer. The Local Oscillator from the
VCO module runs 45MHz lower than the receive frequency and is coupled to IC102 at pin6. The resultant
IF output exits at mixer pin2. The 45MHz IF output is matched to the input of the 4 pole monolithic crystal
filter by C179 , L119 , C172 and C173 . The crystal filter provides a bandwidth of + and - 7.5kHz from the
operating frequency for the signal providing a high degree of spurious and intermodulation protection.
Additionally, a 90MHz trap is placed at the filter input to provide additional attenuation of the second order
IMD (Intermodulation Distortion). The output of the filter is impedance matched by T101 , C175 , and
C176 to the base of the post filter IF amplifier Q130 ( MMBC1321 ).
Second Oscillator- Mixer- Limiter and FM Detector
The output of IF amplifier Q130 is coupled through C182 to the input of IC109 (Pin16), an MC3371
device. IC109 is a monolithic single-conversion FM receiver containing a mixer, the second local
oscillator, limiter and quadrature detector. The second local oscillator is crystal-controlled by X101 and
operates at 44.545 Mhz. Mixing the second L.O. with the 45.0 Mhz IF input signal provides a resultant 455
kHz signal at the second mixer output. The mixer output is then routed to CF103 (455HT) for channel
spacing of 12.5 kHz or to CF104 (455F) for channel spacing of 20 or 25kHz. These ceramic filters provide
adjacent channel selectivity for the desired bandwidths. Selection of CF103 or CF104 is software controlled
and programmable on a channel to channel basis.
Filter selection is performed by Q135, D126 and D126. The selected filter output drives a high gain
limiting amplifier that is internally coupled to the quadrature detector. Refering to the RF schematic, with
Channel Spacing low, Q135 is off and CF104 is the selected filter.
Page-19-
December 98
MAXON SM-2000 MOBILE
THEORY OF OPERATION
The quadrature detector is also configurable for narrow or wide channel spacing by software control of
Q219 and diode D127. These components with R219 parallel R211 to maintain audio output at the proper
level for the selected bandwidth.
Q134 inserts wideband squelch adjustment RV102 into the circuit whenever standard filter CF104 is
selected. This tends to broaden the filter response and provide the higher frequency noise components
needed to activate the squelch.
Squelch (Mute) Circuit
The squelch output is sent to microcontroller pin 7 after processing by the squelch circuits. The squelch
circuit consists of a double-tuned BPF (Band Pass Filter) and also a noise detector circuit. Details of these
circuits are discussed next.
Squelch Noise Band Pass Filter
The output signal from pin 9 of IC109 (MC3371) is filtered to remove the 455 kHz IF variations. The
remaining audio is then filtered by a double-tuned BPF consisting of resonator L228-C191, resonator
L229-C193 and coupling capacitor C192. The noise in the IF passband is accepted and voice frequencies
are rejected. Any noise present at the filter output is applied to the noise detector via RV103. RV103 is
used to set the squelch circuit sensitivity and is normally adjusted to produce a noise squelch opening
sensitivity of 10dB to 12dB SINAD.
Noise Detector
The noise detector operating in conjunction with IC109 consists of Q132, Q133, D125, D129, TH101 and
their associated biasing components. Noise from RV103 is amplified by an op amp within IC109. This
noise sprectrum is further amplified by Q133 and rectified by D125. This output is buffered by Q132 and
fed to the SQ IN (IC109 pin 12) through R200. When the mute is activated, (IC109 pin9) goes low to pull
the base of inverter Q131 low. Q131 collector goes high thereby signalling the microprocessor to mute the
receiver audio.
Low Pass Filter
The audio output of (IC109 pin9) is fed to a LPF (Low Pass Filter) consisting of R206 and C201. This RC
attenuates 455 kHz IF energy which normally appears at the output of the FM receiver chip. The audio is
then routed to the input of IC406A LPF for audio processing.
Speaker Audio Amplifier
After signal detection and audio filtering, the low level audio is returned to pin 1 of IC108, the Audio PA.
IC108, a TDA2003 device, provides sufficient power gain to drive the mobile speaker. Digital transistor
Q137 mutes the audio amplifier by grounding R157 when the transistor turns on. When Q137 base is high,
the transistor is on and the mobile is muted. Conversely when Q137 is off, the mute is released and audio is
heard.
Page-20-
December 98
MAXON SM-2000 MOBILE
TEST SETUP
TEST SETUP
TRANSMIT TESTS
VARIABLE POWER
SUPPLY WITH DC
VOLT/CURRENT
METER
POWER
METER
FREQUENCY
COUNTER
DEVIATION
METER
SM-2000
OSCILLOSCOPE
TEST BOX
DISTORTION
ANALYZER
DUMMY LOAD
ATTENUATOR
AUDIO
GENERATOR
RECEIVER TESTS
COMMUNICATION
MONITOR OR
FM SIGNAL
SINAD
METER
OSCILLOSCOPE
GENERATOR
SM-2000
VARIABLE
POWER
SUPPLY
AC
VTVM
DISTORTION
ANALYZER
PAD
Page-21-
December 98
MAXON SM-2000 MOBILE
SM-2150/VHF ALIGNMENT PROCEDURE
SM-2150/VHF ALIGNMENT PROCEDURE
It is important that the TCXO be on the correct frequency before performing a complete alignment of the
radio. An incorrect TCXO frequency can impair the performance and even cause mis-alignments.
Normally the transmitter is monitored with a frequency counter or service monitor while the transmitter is
keyed at it’s highest frequency. The TCXO is adjusted for the least frequency error. Typically the
frequency is 470MHz with a frequency error of +/-750Hz or less. TC701 adjusts the center frequency if
necessary.
PLL Alignment
•
NOTE: If the PLL is out- of- lock, an audible warning will be heard and the front panel red
LED will flash.
1. Connect an RF power meter to the ANT socket.
2. Using the channel switch, select channel with the lowest transmit frequency.
3. Connect a DC voltmeter to test point 1 (TP1) accessed via the hole in the VCO cover.
4. Set the PTT switch to transmit.
•
Note:The transmitter switching band width of this radio is 25MHz. A transmitter frequency
range of more than 26MHz may be programmed and used if the voltage specification in step 5 is
met.
5. Adjusting L353, set the voltage measured at TP1, measure and check that the voltage is above 2.1
volts. If the voltage is below 2.1 volts the transmitter frequency programmed is too high for the
operating bandwidth of the radio.
6. Set the PTT switch to receive.
7. Using the channel switch select channel with the lowest receive frequency.
8. Adjusting L356, set the voltage measured at TP1. Measure and check that the voltage is above 1.5
volts. If the voltage is below 1.5 volts the receive frequency programmed is too high for the
operating bandwidth of the radio.
•
Note:The receiver switching bandwidth of this radio is 26MHz. A receiver frequency range of
more than 26MHz may be programmed and used if the voltage specification in Step 8 is met.
There may be some degradation in actual receiver performance, if bandwidth of more than
26MHz is used.
Page-22-
December 98
MAXON SM-2000 MOBILE
SM-2150/VHF ALIGNMENT PROCEDURE
Receiver Alignment RF
•
NOTE: The Receiver front end is a pre-aligned module. There are no available field
adjustments.
1. Connect an RF signal generator to the ANT socket and a SINAD meter to the external speaker
jack ( J1 ) located at the rear panel.
2. Adjust RV103 to the fully open position to hear receiver noise.
3. Adjust the VOLUME control to mid position.
4. Using the channel switch, select the programmed middle receive frequency.
5. Set the RF signal generator to the same receive channel frequency.
6. Set the audio frequency to 1kHz at 3K deviation for wide band (25kHz).
6B. Set the audio frequency to 1kHz at 1.5K deviation for narrow band (12.5kHz).
7. Adjust the RF output voltage level of the RF signal generator until the 1kHz signal is heard.
• NOTE: The RF output voltage level and the SINAD reading.
8. Adjust T102 for an improvement in SINAD.
9. Adjust the RF output voltage level of the RF signal generator keeping the SINAD meter readings
between 6dB and 12dB.
10. Adjust T101 for an improvement in SINAD.
11. Adjust the RF output voltage level of the RF signal generator keeping the SINAD meter readings
between 6dB and 12dB .
12. Check for an RF voltage signal level of 0.31uV and a SINAD meter reading of 12dB or greater.
13. Select the highest receive frequency and check for a SINAD meter reading of 12dB or greater, at
0.42uV . (Sensitivity at the operational band edge).
14. Select the lowest receive frequency and check for a SINAD meter reading of 12dB or greater, at
0.42uV.
Discriminator Tuning
1. Set the RF level to 1.0mV .
2. Adjust T103 for a maximum audio output and on the oscilloscope monitor the sinewave distortion.
Adjust T101 and T102 for lowest distortion as observed on a distortion analyzer. This is normally
less than 3%.
Page-23-
December 98
MAXON SM-2000 MOBILE
SM-2150/VHF ALIGNMENT PROCEDURE
Squelch Adjustment
1. Select a receiver channel that is programmed for narrow band (12.5 kHz) operation.
2. Set the RF signal generator to the receiver frequency. Set the AF modulation signal to 1 kHz at
1.5k deviation.
3. Adjust the RF output level of the RF signal generator until the 1 kHz signal is heard.
4. Adjust the RF signal to the level desired for squelch sensitivity as you monitor SINAD. This is
usually 8dB to 12dB SINAD.
5. On the main board adjust RV103 until the squelch is just unmuted (open)
6. Switch off the RF generator (squelch should close).
7. Switch on the RF generator. Squelch should open at the SINAD point where RV103 was adjusted.
This completes the narrow band adjustment.
8. Select a receiver channel that is programmed for wide band operation (25 kHz).
9. Set the RF signal generator to the receiver frequency. Set the AF modulation signal to 1 kHz at 3k
deviation.
10. Adjust the RF output level of the RF signal generator until the 1 kHz signal is heard.
11. Adjust the RF signal to the level desired for squelch sensitivity as you monitor SINAD. This is
usually 8dB to 12dB SINAD.
12. On the main board adjust RV102 until the squelch is just unmuted (open).
13. Switch off the RF generator (squelch should close).
14. Switch on the RF generator. Squelch should open at the SINAD point where RV102 was
adjusted.
15. Disconnect the test equipment.
Automatic Power Adjustment
• Continuous transmit periods longer than 5 minutes are to be avoided.
1. Connect the antenna output to a RF power meter or service monitor.
2. Set the PTT switch to the ON position.
3. Adjust the variable resistor RV104 to give the appropriate transmit power. Normally this is
25watts.
4. Set the PTT switch to the OFF position.
5. Select a channel programmed to low transmit power.
6. Set PTT to ON and adjust RV105 for desired low power.
7. Set PTT to OFF.
Page-24-
December 98
MAXON SM-2000 MOBILE
SM-2150/VHF ALIGNMENT PROCEDURE
CTCSS/DCS Deviation Adjustment
•
Note:The following adjustment should be preset with factory alignment. If an adjustment must
be made the following procedures must be followed:
1. Program the radio with a 67.0Hz tone on one channel and 250.3Hz on another channel.
2. Connect a power meter and modulation meter to the radio antenna jack.
3. Adjust RV101 to the center of its adjustment.
•
Note:Release the PTT button when changing channels.
4. Alternately select the channel with tone 250.3Hz and the channel with tone 67Hz. Key up and
note the level for each. If necessary, adjust RV101 until a balance occurs between tone 250.3Hz
and tone 67Hz.
• Note:This adjustment also sets DCS balance even if a DCS tone is not programmed at this time.
5. Select tone 250.3Hz or tone 67Hz and adjust RV403 for the tone level, typically between 500Hz
to 1kHz.
6. Release the PTT button.
Modulation Deviation Adjustment
1. Connect a power meter and a coupler to the radio.
2. Connect an AF generator to the test box.
3. Set the audio output to 30mV and the audio frequency to 1kHz .
4. Using the channel switch, select the highest transmit channel that does not have CTCSS or DCS
programmed.
5. Press and hold the PTT switch.
6. Adjust RV402 for 90% of maximum, system deviation.
6a. Adjust RV402 for 2.25kHz for narrow band (12.5kHz).
6b. Adjust RV402 for 4.5kHz for wide band (25kHz).
7. Using the channel switch, select the lowest transmit channel that does not have CTCSS or DCS
programmed.
8. Press and hold the PTT switch.
9. Measure and check that the deviation is not below 3.8k . If the deviation is below 3.8k, adjust
RV402 to 3.8k .
10. Return to highest transmit channel having a sub- audible tone and verify deviation does not exceed
5k.
11. At the channel that highest deviation is found, sweep the audio frequency between 300kHz and
3kHz . Adjust RV402 to ensure deviation is below peak system deviation at all frequencies.
12. Set the PTT switch to the OFF position.
Page-25-
December 98
MAXON SM-2000 MOBILE
ALIGNMENT POINTS DIAGRAM (SM-2150/VHF)
ALIGNMENT POINTS DIAGRAM (SM-2150/VHF)
RV103
SQUELCH 12.5 KHz CH/SP
RV105
TX LOW POWER
RV104
TX HI POWER
T103
DISCRIMINATOR
ANT
RV102
SQUELCH 25 KHz CH/SP
T101
T102
L356
L353
RV101
CTCSS
TC701
TP1
TCXO1
RV403
DCS
RV402
MODULATION
Page-26-
December 98
MAXON SM-2000 MOBILE
SM-2450/UHF ALIGNMENT PROCEDURE
SM-2450/UHF ALIGNMENT PROCEDURE
It is important that the TCXO be on the correct frequency before performing a complete alignment of the
radio. An incorrect TCXO frequency can impair the performance and even cause mis-alignments.
Normally the transmitter is monitored with a frequency counter or service monitor while the transmitter is
keyed at its highest frequency. The TCXO is adjusted for the least frequency error. Typically the frequency
is 470MHz with a frequency error of +/- 750Hz or less. TC701 adjusts the center frequency if necessary.
PLL Alignment
•
NOTE: If the PLL is out- of- lock, an audible warning will be heard and the front panel red
LED will flash.
1. Connect an RF power meter to the ANT jack.
2. Using the channel switch, select the channel with the highest transmit frequency.
3. Connect a DC voltmeter to test point 1 ( TP1 ), accessed via the hole in the VCO cover.
4. Set the PTT switch to transmit.
5. Adjusting TC101 , set the voltage measured at TP1 to 12.0 (+/- 0.05) volts.
6. Release the PTT switch.
7. Using the channel switch, select the channel with the lowest receive frequency.
8. At TP1 measure and check that the voltage is 1.4 volts or more. If the voltage is below 1.4 volts
the VCO may not lock because the lowest RX frequency is programmed too far below the TX
frequency.
Receiver Alignment RF
•
NOTE: The Receiver front end is a pre-aligned module. There are no available field
adjustments.
1. Connect an RF signal generator to the ANT socket and a SINAD meter to the external speaker
jack ( J1 ) located at the rear panel.
2. Adjust RV103 to the fully open position to hear receiver noise.
3. Adjust the VOLUME control to mid position.
4. Using the channel switch, select the programmed middle receive frequency.
5. Set the RF signal generator to the same receive channel frequency.
6. Set the audio frequency to 1kHz at 3K deviation for wide band (25kHz).
6B. Set the audio frequency to 1kHz at 1.5K deviation for narrow band (12.5kHz).
7. Adjust the RF output voltage level of the RF signal generator until the 1kHz signal is heard.
• NOTE: The RF output voltage level and the SINAD reading.
8. Adjust T102 for an improvement in SINAD.
9. Adjust the RF output voltage level of the RF signal generator keeping the SINAD meter readings
between 6dB and 12dB .
10. Adjust T101 for an improvement in SINAD.
Page-27-
December 98
MAXON SM-2000 MOBILE
SM-2450/UHF ALIGNMENT PROCEDURE
11. Adjust the RF output voltage level of the RF signal generator keeping the SINAD meter readings
between 6dB and 12dB .
12. Check for an RF voltage signal level of 0.31uV and a SINAD meter reading of 12dB or greater.
13. Select the highest receive frequency and check for a SINAD meter reading of 12dB or greater, at
0.42uV . (Sensitivity at the operational band edge).
14. Select the lowest receive frequency and check for a SINAD meter reading of 12dB or greater, at
0.42uV.
Discriminator Tuning
1. Set the RF level to 1.0mV .
2. Adjust T103 for a maximum audio output and on the oscilloscope monitor the sinewave distortion.
Adjust T101 and T102 for lowest distortion as observed on a distortion analyzer. This is normally
less than 3%.
Squelch Adjustment
1. Select a receiver channel that is programmed for narrow band (12.5 kHz) operation.
2. Set the RF signal generator to the receiver frequency. Set the AF modulation signal to 1 kHz at
1.5k deviation.
3. Adjust the RF output level of the RF signal generator until the 1 kHz signal is heard.
4. Adjust the RF signal to the level desired for squelch sensitivity as you monitor SINAD. This is
usually 8dB to 12dB SINAD.
5. On the main board adjust RV103 until the squelch is just unmuted (open)
6. Switch off the RF generator (squelch should close).
7. Switch on the RF generator. Squelch should open at the SINAD point where RV103 was adjusted.
This completes the narrow band adjustment.
8. Select a receiver channel that is programmed for wide band operation (25 kHz).
9. Set the RF signal generator to the receiver frequency. Set the AF modulation signal to 1 kHz at 3k
deviation.
10. Adjust the RF output level of the RF signal generator until the 1 kHz signal is heard.
11. Adjust the RF signal to the level desired for squelch sensitivity as you monitor SINAD. This is
usually 8dB to 12dB SINAD.
12. On the main board adjust RV102 until the squelch is just unmuted (open).
13. Switch off the RF generator (squelch should close).
14. Switch on the RF generator. Squelch should open at the SINAD point where RV102 was
adjusted.
15. Disconnect the test equipment.
Page-28-
December 98
MAXON SM-2000 MOBILE
SM-2450/UHF ALIGNMENT PROCEDURE
Automatic Power Adjustment
• NOTE: Continuous transmit periods longer than 5 minutes are to be avoided.
1. Connect the antenna output to an RF power meter or service monitor.
2. Set the PTT switch to the ON position.
3. Adjust the Variable resistor RV104 to give the appropriate transmit power. Nominally this is
25watts .
4. Set the PTT switch to the OFF position.
5. Select a channel programmed to low transmit power.
6. Set PTT to ON and adjust RV105 for desired low power .
7. Set PTT to OFF.
CTCSS/DCS Deviation Adjustment
•
NOTE: The following adjustment should be preset with factory alignment. If an adjustment
must be made the following procedures must be followed:
1. Program the radio with a 67.0Hz tone on one channel and 250.3Hz on another channel.
2. Connect a power meter and modulation meter to the radio antenna jack.
3. Adjust RV101 to the center of its adjustment.
•
Note: Release the PTT button when changing channels.
4. Alternately select the channel with tone 250.3Hz and the channel with tone 67Hz . Key up and
note the level for each. If necessary, adjust RV101 until a balance occurs between tone 250.3Hz
and tone 67Hz .
• Note:This adjustment also sets DCS balance even if a DCS tone is not programmed at this time.
5. Select tone 250.3Hz or tone 67Hz and adjust RV403 for the tone level, typically between 500Hz
to 1kHz.
6. Release the PTT button.
Page-29-
December 98
MAXON SM-2000 MOBILE
SM-2450/UHF ALIGNMENT PROCEDURE
Modulation Deviation Adjustment
1. Connect a power meter and a coupler to the radio.
2. Connect an AF generator to the test box.
3. Set the audio output to 30mV and the audio frequency to 1kHz .
4. Using the channel switch, select the highest transmit channel that does not have CTCSS or DCS
programmed.
5. Press and hold the PTT switch.
6. Adjust RV402 for 90% of maximum, system deviation.
6a. Adjust RV402 for 2.25kHz for narrow band (12.5kHz).
6b. Adjust RV402 for 4.5kHz for wide band (25kHz).
7. Using the channel switch, select the lowest transmit channel that does not have CTCSS or DCS
programmed.
8. Press and hold the PTT switch.
9. Measure and check that the deviation is not below 3.8k . If the deviation is below 3.8k, adjust
RV402 to 3.8k .
10. Return to highest transmit channel having a sub- audible tone and verify deviation does not exceed
5k.
11. At the channel that highest deviation is found, sweep the audio frequency between 300kHz and
3kHz . Adjust RV402 to ensure deviation is below peak system deviation at all frequencies.
12. Set the PTT switch to the OFF position.
Page-30-
December 98
MAXON SM-2000 MOBILE
ALIGNMENT POINTS DIAGRAM (SM-2450/UHF)
ALIGNMENT POINTS DIAGRAM (SM-2450/UHF)
TX HI PWR
RV103
RV104
SQUELCH 12.5 kHz CH/SP
T103
DISCRIMINATOR
RV105
TX LO PWR
SQUELCH 25 kHz CH/SP
RV102
T101
T102
TC101
CNTR FREQ
TP1
RV101
TC701
CTCSS
DCS
RV403
RV402
TX DEVIATION
J1
Page-31-
December 98
MAXON SM-2000 MOBILE
COMPONENT REPLACEMENT
COMPONENT REPLACEMENT
SURFACE MOUNT COMPONENTS
Surface mount components should always be replaced using a temperature controlled soldering system.
The soldering tools may be either a temperature controlled soldering iron or a temperature controlled
hot-air soldering station. A hot-air system is recommended for the removal of components on these boards.
With either soldering system, a temperature of 700° F (371° C) should be maintained.
The following procedures outline the removal and replacement of surface mount components. If a hot-air
soldering system is employed, see the manufacturer’s operating instructions for detailed information on the
use of your system.
•
CAUTION: Avoid applying heat to the body of any surface mount component using standard
soldering methods. Heat should be applied only to the metalized terminals of the components.
Hot-air systems do not damage the components since the heat is quickly and evenly distributed to
the external surface of the component.
•
CAUTION: The CMOS Integrated Circuit devices used in this equipment can be destroyed by
static discharges. Before handling one of these devices, service technicians should discharge
themselves by touching the case of a bench test instrument that has a 3-prong power cord
connected to an outlet with a known good earth ground. When soldering or desoldering a CMOS
device, the soldering equipment should have a known good earth ground.
SURFACE MOUNT REMOVAL
1. Grip the component with tweezers or small needle nose pliers.
2. Alternately heat the metalized terminal ends of the surface mount component with the soldering iron. If
a hot-air system is used, direct the heat to the terminals of the component. Use extreme care with the
soldering equipment to prevent damage to the printed circuit board (PCB) and the surrounding
components.
3. When the solder on all terminals is liquefied, gently remove the component. Excessive force may
cause the PCB pads to separate from the board if all solder is not completely liquefied.
4. It may be necessary to remove excess solder using a vacuum de-soldering tool or Solder wick . Again,
use great care when de-soldering or soldering on the printed circuit boards. It may also be necessary to
remove the epoxy adhesive that was under the surface mount component and any flux on the printed
circuit board.
Page-32-
December 98
MAXON SM-2000 MOBILE
COMPONENT REPLACEMENT
SURFACE MOUNT COMPONENT REPLACEMENT
1. “Tin” one terminal end of the new component and the corresponding pad of the PCB. Use as little
solder as possible.
2. Place the component on the PCB pads, observing proper polarity for capacitors, diodes, transistors, etc.
3. Simultaneously touch the “tinned” terminal end and the “tinned” pad with the soldering iron. Slightly
press the component down on the board as the solder liquefies. Solder all terminals, allowing the
component time to cool between each application of heat. Do not apply heat for an excessive length of
time and do not use excessive solder.
With a hot-air system, apply hot air until all “tinned” areas are melted and the component is seated in place.
It may be necessary to slightly press the component down on the board. Touch-up the soldered connections
with a standard soldering iron if needed. Do not use excessive solder.
•
CAUTION: Some chemicals may damage the internal and external plastic parts of the radio.
4. Allow the component and the board to cool and then remove all flux from the area using alcohol or
another approved flux remover.
SURFACE MOUNTED INTEGRATED CIRCUIT REPLACEMENT
Soldering and de-soldering techniques of the surface mounted IC’s are similar to the above outlined
procedures for the surface mounted chip components. Use extreme care and observe static precautions
when removing or replacing the defective (or suspect) IC’s. This will prevent any damage to the printed
circuit board or the surrounding circuitry.
The hot-air soldering system is the best method of replacing surface mount IC’s. The IC’s can easily be
removed and installed using the hot-air system. See the manufacturer’s instructions for complete details on
tip selection and other operating instructions unique to your system.
If a hot-air system is not available, the service technician may wish to clip the pins near the body of the
defective IC and remove it. The pins can then be removed from the PCB with a standard soldering iron and
tweezers, and the new IC installed following the Surface Mount Component Replacement procedures. it
may not be necessary to “tin” all (or any) of the IC pins before the installation process.
Page-33-
December 98
MAXON SM-2000 MOBILE
PARTS LIST COMMON TO SM-2000
PARTS LIST COMMON TO SM-2000
REF #
DESCRIPTION
PART #
REF #
DESCRIPTION
PART #
650-100-0002 TCXO PCB ASSY. (SEE NOTE 1)
650-090-0003 MA-4472 MIC ASSY. (SEE NOTE 1)
650-050-0003 CONTROL HEAD PCB ASSY.
CON1
HEADER PIN
Z422-492-1
420-709-9
CON801 JACK MODULAR
C801
C802
C803
C804
C805
C806
C807
C808
C809
C815
C821
C823
D801
D802
D803
D804
D807
D808
D810
D811
LED1
LED2
LED3
LED4
LED5
Q821
Q822
R801
R821
R822
SP1
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
47PF
47PF
47PF
47PF
47PF
47PF
47PF
47PF
47PF
134-722-1Z
134-722-1Z
134-722-1Z
134-722-1Z
134-722-1Z
134-722-1Z
134-722-1Z
134-722-1Z
134-722-1Z
DISK CERAMIC (FOR SP1) 470PF 134-710-8
CHIP CERAMIC 0.001UF
ELECT CAPACITOR 10UF
130-A17-6Z
101-025-9
243-052-6
243-052-6
243-052-6
243-051-5
241-099-9
241-099-9
241-099-9
241-099-9
251-160-3
251-160-3
251-160-3
251-160-3
251-168-1
202-106-5
202-106-5
060-471-0Z
060-220-0Z
060-472-1Z
420-108-4A
432-063-7
436-038-8
430-070-5
450-523-5
892-390
DIODE SI CHIP
DIODE SI CHIP
DIODE SI CHIP
DIODE SI CHIP
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
KDS193
KDS193
KDS193
KDS184S
LED LAMP GRN 3 V 75MW
LED LAMP GRN 3 V 75MW
LED LAMP GRN 3 V 75MW
LED LAMP GRN 3 V 75MW
LED LAMP RED/GRN 3 V
TRANSISTOR
TRANSISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
SPEAKER
470 OHM
22 OHM
4.7K
4 OHM
SW3
SW PUSH
SW4
TACT SWITCH
SW ROTARY
SW405
VR801
VR
20KA
HOLDER(LED)
HOLDER(LED)
892-540
P.C.B. CONTROL HEAD
416-988-C
NOTES:
1. Components are not available, assembly is non-repairable.
Page-34-
December 98
MAXON SM-2000 MOBILE
650-000-0001 SM-2150/VHF MAIN BOARD
650-000-0001 SM-2150/VHF MAIN BOARD
DIGITAL SECTION
Digital Parts Common on Both VHF & UHF
REF #
C401
DESCRIPTION
PART #
130-A17-6Z
REF #
C450
DESCRIPTION
0.047UF
PART #
130-424-0Z
CHIP CERAMIC
0.001UF
0.22UF
0.01UF
CHIP CERAMIC
C402
C403
C404
C405
C406
C407
C408
C409
C410
C411
C412
C413
C414
C415
C416
C417
C418
C419
C420
C421
C422
C423
C424
C425
C426
C428
C429
C430
C431
C432
C433
C434
C435
C436
C437
C438
C440
C441
C442
C443
C445
C446
C447
C448
CHIP CERAMIC
CHIP CERAMIC
130-270-7Y
130-172-2Z
101-025-9
C452
C453
C454
C455
C456
C457
C458
C460
C464
C550
C551
C552
C553
C554
C555
C558
C559
CHIP TANTALUM
CHIP CERAMIC
CHIP TANTALUM
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
1UF
141-036-1Z
130-172-2Z
141-036-1Z
130-314-5Z
130-A17-6Z
130-424-0Z
130-172-2Z
130-170-0Y
130-314-5Z
131-816-6Z
131-816-6Z
130-172-2Z
130-172-2Z
130-172-2Z
130-172-2Z
101-025-9
130-172-2Z
421-677-7
422-746-1
243-051-5
243-063-6
243-049-4
243-049-4
223-224-9
220-378-0
222-018-5
231-064-4
222-018-5
231-073-3
229-463-8A
220-130-2
222-018-5
223-261-2
223-261-2
202-095-8Z
202-095-8Z
202-095-8Z
202-095-8Z
202-095-8Z
202-095-8Z
202-095-8Z
202-091-4
202-095-8Z
202-106-5
0.01UF
1UF
ELECT CAPACITOR 10UF
CHIP CERAMIC
CHIP CERAMIC
220PF
220PF
132-220-2Z
132-220-2Z
101-025-9
0.033UF
0.001UF
0.047UF
0.01UF
0.1UF
ELECT CAPACITOR 10UF
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
0.033UF
0.0068UF
47PF
130-314-5Z
130-602-4Y
134-722-1Z
130-170-0Y
130-A44-0Y
134-722-1Z
130-424-0Z
132-220-2Z
130-172-2Z
134-719-7Z
130-263-1Z
130-A22-0Z
134-761-4Z
134-761-4Z
132-220-2Z
132-220-2Z
132-220-2Z
130-A60-4Y
130-263-1Z
130-172-2Z
134-722-1Z
130-A60-4Y
130-315-6Z
130-624-4
0.033UF
18PF
0.1UF
0.015UF
47PF
18PF
0.01UF
0.01UF
0.01UF
0.01UF
0.047UF
220PF
0.01UF
0.0047UF
0.022UF
0.0018UF
470PF
ELECT CAPACITOR 10UF
CHIP CERAMIC 0.01UF
CON403 PROG CONNECTOR
CON404 OPTION BOARD CONNECTOR
470PF
D401
D402
D551
D552
IC401
IC402
IC404
IC405
IC406
IC407
IC408
IC409
IC410
IC411
IC412
Q131
Q401
Q402
Q403
Q404
Q405
Q406
Q407
Q409
Q504
DIODE SI CHIP
DIODE SWITCHING
DIODE SI CHIP
DIODE SI CHIP
I.C.
220PF
220PF
220PF
0.1UF
0.022UF
0.01UF
47PF
I.C. REGULATOR
I.C. OP AMP
I.C. OP AMP
I.C. OP AMP
I.C.
0.1UF
0.0033UF
0.68UF
0.082UF
120PF
I.C. EEPROM
I.C.
130-808-4Y
131-107-9Z
101-006-2
I.C. OP AMP
I.C.
ELECT CAPACITOR 1UF
CHIP CERAMIC
CHIP CERAMIC
0.1UF
0.1UF
130-170-0Y
130-A60-4Y
101-025-9
I.C.
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
BRT
ELECT CAPACITOR 10UF
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
15PF
131-511-0Z
131-511-0Z
130-424-0Z
130-424-0Z
130-314-5Z
130-314-5Z
130-314-5Z
130-314-5Z
15PF
0.047UF
0.047UF
0.033UF
0.033UF
0.033UF
0.033UF
TRANSISTOR
TRANSISTOR
Page-35-
December 98
MAXON SM-2000 MOBILE
650-000-0001 SM-2150/VHF MAIN BOARD
DIGITAL SECTION (continued)
Digital Parts Common on Both VHF & UHF
REF #
Q550
DESCRIPTION
TRANSISTOR
PART #
202-113-1
REF #
R447
DESCRIPTION
PART #
060-124-6Z
CHIP RESISTOR
120K
220K
820
22K
2.2K
1M
Q551
Q552
Q553
R186
R401
R402
R403
R404
R405
R406
R407
R408
R410
R411
R412
R414
R415
R416
R417
R418
R419
R420
R421
R422
R423
R424
R425
R426
R427
R428
R429
R430
R431
R433
R434
R435
R436
R437
R438
R439
R440
R441
R442
R443
R444
R445
R446
TRANSISTOR
202-113-1
R448
R449
R450
R451
R452
R453
R454
R455
R456
R457
R458
R459
R460
R461
R462
R463
R464
R465
R466
R469
R470
R471
R472
R473
R474
R490
R550
R551
R552
R553
R554
R555
R556
R559
RLK3
RLK4
RLK5
RLK7
RLK8
RLK10
RLK11
RLK12
RLK13
RLK14
RV402
RV403
X401
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
060-224-4Z
060-821-3Z
060-223-3Z
060-222-2Z
060-105-0Z
060-302-1Z
060-472-1Z
060-362-5Z
060-273-8Z
060-473-2Z
060-473-2Z
060-242-0
TRANSISTOR
202-113-1
TRANSISTOR
202-113-1
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
47K
680K
47K
10K
56K
7.5K
18K
330K
3.3K
220K
100K
39K
8.2K
8.2K
220K
8.2K
8.2K
47K
10K
10K
43K
47K
560
060-473-2Z
060-684-6Z
060-473-2Z
060-103-8Z
060-563-0Z
060-752-4Z
060-183-0Z
060-334-0Z
060-332-8Z
060-224-4Z
060-104-9Z
060-393-3Z
060-822-4Z
060-822-4Z
060-224-4Z
060-822-4Z
060-822-4Z
060-473-2Z
060-103-8Z
060-103-8Z
060-433-6Z
060-473-2Z
060-561-8Z
060-103-8Z
060-473-2Z
060-393-3Z
060-203-5Z
060-104-9Z
060-103-8Z
060-223-3Z
060-473-2Z
060-473-2Z
060-473-2Z
060-223-3Z
060-472-1Z
060-472-1Z
060-473-2Z
060-105-0Z
060-433-6Z
060-333-9Z
060-203-5Z
060-224-4Z
060-124-6Z
060-823-5Z
3K
4.7K
3.6K
27K
47K
47K
2.4K
470
470
47K
47K
47K
47K
100K
10K
30K
36K
30K
4.7K
360K
47K
7.5K
27K
27K
7.5K
2.2K
4.7K
2.2K
470
0
060-471-0Z
060-471-0Z
060-473-2Z
060-473-2Z
060-473-2Z
060-473-2Z
060-104-9Z
060-103-8Z
060-303-2Z
060-363-6Z
060-303-2Z
060-472-1Z
060-364-7
060-473-2Z
060-752-4Z
060-273-8Z
060-273-8Z
060-752-4Z
060-222-2Z
060-472-1Z
060-222-2Z
060-471-0Z
060-000-8Z
060-000-8Z
060-000-8Z
060-000-8Z
060-000-8Z
060-000-8Z
060-000-8Z
060-000-8Z
060-000-8Z
060-000-8Z
067-223-8Y
067-473-7Y
262-228-0Z
10K
47K
39K
20K
100K
10K
22K
47K
47K
47K
22K
4.7K
4.7K
47K
1M
0
0
0
0
0
0
43K
33K
20K
220K
120K
82K
0
0
0
RES.CHIP SEMIFIXED 22K
RES.CHIP SEMIFIXED 47K
CRYSTAL
Page-36-
December 98
MAXON SM-2000 MOBILE
650-000-0001 SM-2150/VHF MAIN BOARD
BAND CHART
SM-2150L VHF BAND 1 (136-162 MHz)
SM-2150H VHF BAND 2 (148-174 MHz)
REF #
DESCRIPTION
PART #
REF #
DESCRIPTION
PART #
FRONT-END PCB ASSEMBLY
650-110-0011
FRONT-END PCB ASSEMBLY
650-110-0002
MAIN BOARD PARTS
MAIN BOARD PARTS
C155
C160
C164
C165
C245
C248
C249
C253
C254
C269
C270
C273
C275
C277
C278
C280
C281
C283
C354
C356
C357
C358
C365
C367
C368
L353
L356
R182
CHIP CERAMIC 4PF
CHIP CERAMIC 24PF
CHIP CERAMIC 18pF
CHIP CERAMIC 9pF
CHIP CERAMIC 5PF
CHIP CERAMIC 27PF
CHIP CERAMIC 20PF
CHIP CERAMIC 75PF
CHIP CERAMIC 33PF
CHIP CERAMIC 9PF
CHIP CERAMIC 4PF
CHIP CERAMIC 43PF
CHIP CERAMIC 47PF
CHIP CERAMIC 43PF
CHIP CERAMIC 82PF
CHIP CERAMIC 24PF
CHIP CERAMIC 36pF
CHIP CERAMIC 18PF
CHIP CERAMIC 39PF
CHIP CERAMIC 4PF
CHIP CERAMIC 4.7PF
CHIP CERAMIC 4.7PF
CHIP CERAMIC 16PF
CHIP CERAMIC 3.3PF
CHIP CERAMIC 3.3PF
COIL CORE CHIP
134-007-7Y
132-407-5Y
131-816-6Y
139-003-8Y
135-010-4Y
132-714-2Y
132-012-1Y
137-504-4Y
133-336-9Y
139-003-8Y
134-013-2Y
134-302-2Y
134-773-5Y
134-302-2Y
138-216-9Z
132-408-6Y
133-611-7Y
131-829-8Y
133-932-7Y
134-007-7Y
134-767-0Y
134-767-0Y
131-603-0
C155
C160
C164
C165
C245
C248
C249
C253
C254
C269
C270
C273
C275
C277
C278
C280
C281
C283
C354
C356
C357
C358
C365
C367
C368
L353
L356
R182
CHIP CERAMIC 11PF
CHIP CERAMIC 24PF
CHIP CERAMIC 24PF
CHIP CERAMIC 16PF
CHIP CERAMIC 8PF
CHIP CERAMIC 27PF
CHIP CERAMIC 18PF
CHIP CERAMIC 75PF
CHIP CERAMIC 43PF
CHIP CERAMIC 2.7PF
CHIP CERAMIC 6PF
CHIP CERAMIC 51PF
CHIP CERAMIC 56PF
CHIP CERAMIC 47PF
CHIP CERAMIC 75PF
CHIP CERAMIC 20PF
CHIP CERAMIC 56PF
CHIP CERAMIC 27PF
CHIP CERAMIC 30PF
NOT USED
131-103-5Y
132-407-5Y
132-407-5Y
131-603-0
138-004-4Y
132-714-2Y
131-816-6Y
137-504-4Y
134-302-2Y
132-725-2Y
136-015-4Y
135-106-8Y
135-639-1Y
134-773-5Y
137-512-1Z
132-021-9
135-613-9Y
132-723-0Y
133-010-4Y
NOT USED
135-627-2Y
135-627-2Y
131-816-6Y
134-767-0Y
134-767-0Y
320-859-9
CHIP CERAMIC 5.6PF
CHIP CERAMIC 5.6PF
CHIP CERAMIC 18PF
CHIP CERAMIC 4.7PF
CHIP CERAMIC 4.7PF
COIL CORE CHIP
133-321-5Y
133-321-5Y
311-117-4
COIL CORE CHIP
311-117-4
COIL CORE CHIP
311-117-4
CHIP RESISTOR 120 OHM
060-121-4Z
CHIP RESISTOR 150 OHM
060-151-1Z
650-XXX-XXXX FRONT END ASSY.
Page-37-
December 98
MAXON SM-2000 MOBILE
650-000-0001 SM-2150/VHF MAIN BOARD
REF #
FRONT-END PCB ASSEMBLY (REFER TO BAND CHART)
DESCRIPTION
PART #
REF #
C183
DESCRIPTION
47PF
PART #
134-722-1Y
CHIP CERAMIC
C1
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP TANTALUM
470PF
220PF
220PF
220PF
220PF
5PF
134-761-4Y
132-220-2Y
132-220-2Y
132-220-2Y
132-220-2Y
135-010-4Y
134-761-4Y
130-170-0Y
131-089-7Y
132-220-2Y
130-A17-6Y
141-036-1Z
111-022-9
C184
C185
C186
C187
C188
C189
C190
C191
C192
C193
C194
C195
C196
C197
C198
C200
C201
C202
C203
C207
C209
C211
C212
C214
C216
C217
C219
C220
C221
C222
C223
C224
C225
C226
C227
C228
C230
C232
C233
C234
C235
C236
C237
C238
C239
C240
C241
C244
C247
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
DIP TANTALUM
DIP TANTALUM
CHIP CERAMIC
33PF
133-306-2Y
132-012-1Y
130-A60-4Y
130-A60-4Y
132-220-2Y
130-624-4
C101
C102
C103
C104
C105
C106
C107
C108
C109
C110
C113
C114
C115
C119
C120
C121
C122
C129
C139
C144
C145
C147
C148
C149
C150
C151
C152
C156
C157
C158
C159
C161
C162
C167
C168
C169
C170
C172
C173
C174
C175
C176
C177
C178
C179
C180
C181
C182
20PF
0.1UF
0.1UF
220PF
0.68UF
0.033UF
0.1UF
470PF
0.1UF
1UF
130-314-5Y
130-A60-4Y
130-314-5Y
130-A60-4Y
130-315-6Y
131-039-1Y
130-172-2Y
134-722-1Y
130-A17-6Y
130-A60-4Y
130-172-2Y
130-172-2Y
130-A17-6Y
130-A17-6Y
130-A60-4Y
130-172-2Y
130-172-2Y
132-220-2Y
132-220-2Y
132-220-2Y
132-220-2Y
132-220-2Y
141-008-6Z
141-012-9Z
132-220-2Y
101-A02-8
0.033UF
0.1UF
220PF
0.001UF
1UF
0.0033UF
10PF
MYLAR CAPACITOR 0.1UF
0.01UF
47PF
CHIP CERAMIC
CHIP CERAMIC
0.1UF
10PF
130-170-0Y
131-039-1Y
111-008-7Z
134-761-4Y
130-A60-4Y
131-025-8Y
132-220-2Y
131-559-4Y
130-A17-6Y
104-713-2
0.001UF
0.1UF
MYLAR CAPACITOR 0.01UF
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
470PF
0.1UF
0.01UF
0.01UF
0.001UF
0.001UF
0.1UF
0.001UF
220PF
1.5PF
0.001UF
0.01UF
0.01UF
220PF
220PF
220PF
220PF
220PF
1UF
ELECT CAPACITOR 47UF
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
220PF
220PF
220PF
470PF
132-220-2Y
132-220-2Y
132-220-2Y
134-761-4Y
102-278-6
ELECT CAPACITOR 2200UF
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
DIP TANTALUM
CHIP CERAMIC
0.001UF
15PF
130-A17-6Y
131-511-0Y
130-A17-6Y
130-A17-6Y
130-170-0Y
132-220-2Y
138-210-3Y
130-A17-6Y
130-172-2Y
132-220-2Y
131-511-0Y
135-613-9Y
133-321-5Y
132-012-1Y
133-932-7Y
130-A17-6Y
130-A17-6Y
138-210-3Y
130-172-2Y
141-012-9Z
130-A17-6Y
10UF
0.001UF
0.001UF
0.1UF
220PF
ELECT CAPACITOR 1000UF
CHIP CERAMIC 0.1UF
ELECT CAPACITOR 1000UF
130-A60-4Y
101-048-0R
130-A17-6Y
130-A17-6Y
130-A17-6Y
101-023-7
220PF
82PF
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
0.001UF
0.001UF
0.001UF
0.001UF
0.01UF
220PF
15PF
ELECT CAPACITOR 100UF
ELECT CAPACITOR 220UF
102-224-7
56PF
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
220PF
132-220-2Y
130-A17-6Y
132-220-2Y
130-A17-6Y
102-278-6
3.3PF
0.001UF
220PF
20PF
39PF
0.001UF
0.001UF
0.001UF
82PF
ELECT CAPACITOR 2200UF
ELECT CAPACITOR 10UF
101-025-9
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
39PF
133-932-7Y
138-210-3Y
130-A17-6Y
132-220-2Y
0.01UF
10UF
82PF
0.001UF
220PF
0.001UF
Page-38-
December 98
MAXON SM-2000 MOBILE
650-000-0001 SM-2150/VHF MAIN BOARD
REF #
C247
DESCRIPTION
220PF
PART #
132-220-2Y
REF #
C355
DESCRIPTION
1.2PF
PART #
131-216-4Y
CHIP CERAMIC
CHIP CERAMIC
C248
C250
C251
C252
C253
C255
C256
C257
C258
C259
C260
C261
C262
C263
C264
C265
C266
C267
C268
C271
C272
C274
C279
C282
C285
C286
C287
C288
C289
C290
C292
C295
C296
C297
C298
C299
C300
C301
C302
C310
C311
C312
C313
C314
C315
C351
C352
C353
CHIP CERAMIC
27PF
132-714-2Y
104-713-2
C356
C359
C360
C361
C362
C363
C364
C369
C370
C371
C372
C373
C374
C375
C376
CF101
CF103
CF104
D102
D103
D104
D106
D107
D108
D120
D124
D125
D126
D127
D128
D129
D351
D352
D353
FB101
IC101
IC102
IC104
IC105
IC107
IC108
IC109
IC113
J1
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP TANTALUM
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
FILTER CRYSTAL
FILTER CERAMIC
FILTER CERAMIC
DIODE SI CHIP
DIODE
4PF
134-007-7Y
130-A17-6Y
132-011-0Y
130-A17-6Y
130-A17-6Y
130-A17-6Y
130-A17-6Y
131-030-2Y
130-A17-6Y
130-A60-4Y
130-172-2Y
143-312-0Z
130-A17-6Y
130-A17-6Y
130-A60-4Y
271-053-6
270-007-0Z
270-027-8Z
243-051-5
243-012-0
243-012-0
243-052-6
249-005-4
243-081-2
243-087-8
245-008-7Z
243-052-6
243-063-6
243-073-5
243-063-6
243-052-6
243-054-8
243-054-8
243-054-8
320-423-8
220-131-3
220-375-7
231-064-4
220-378-0
222-013-0A
229-289-8
223-421-0
231-064-4
420-728-5
310-657-0
311-079-3
310-861-7
310-706-1
ELECT CAPACITOR 47UF
0.001UF
2PF
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
470PF
0.001UF
75PF
134-761-4Y
130-A17-6Y
137-504-4Y
134-761-4Y
137-504-4Y
130-172-2Y
134-761-4Y
130-172-2Y
130-172-2Y
133-937-2Y
137-512-1Z
130-A17-6Y
130-A60-4Y
130-A17-6Y
130-A17-6Y
130-A17-6Y
132-225-7Z
131-025-8Y
131-539-6Z
131-025-8Y
101-025-9
0.001UF
0.001UF
0.001UF
0.001UF
1PF
470PF
75PF
0.01UF
470PF
0.01UF
0.01UF
39PF
0.001UF
0.1UF
0.01UF
3.3UF
75PF
0.001UF
0.001UF
0.1UF
0.001UF
0.1UF
0.001UF
0.001UF
0.001UF
22PF
0.001UF
15PF
DIODE
0.001UF
DIODE SI CHIP
ELECT CAPACITOR 10UF
DIODE SCHOTTKY CHIP
DIODE CHIP
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
CHIP CERAMIC
470PF
0.001UF
0.001UF
0.001UF
220PF
82PF
134-761-4Y
130-A17-6Y
130-A17-6Y
130-A17-6Y
132-220-2Y
138-210-3Y
130-424-0Y
132-220-2Y
130-172-2Y
134-722-1Y
134-722-1Y
132-216-9Y
134-722-1Y
134-761-4Y
132-220-2Y
130-170-0Y
133-010-4Y
131-025-8Y
137-011-5Y
131-847-4Y
131-847-4Y
131-539-6Z
130-A17-6Y
137-007-1Y
139-003-8Y
DIODE CHIP
DIODE RECTIFIER
DIODE SI CHIP
DIODE SWITCHING
DIODE PIN
0.047UF
220PF
0.01UF
47PF
DIODE SWITCHING
DIODE SI CHIP
DIODE
DIODE
47PF
DIODE
22PF
FERITE BEAD
I.C PLL
47PF
470PF
220PF
0.1UF
30PF
DBM MIXER MODULE
I.C OP AMP
I.C REGULATOR
I.C REGULATOR
I.C
0.001UF
7PF
I.C POWER FM IF
I.C OP AMP
180PF
180PF
15PF
JACK MINIATURE
L107
L108
L110
L111
COIL CHIP
COIL CHIP
COIL CHIP
COIL CHIP
1UH
0.001UF
7PF
1.0UH
47NH
0.15UH
9PF
Page-39-
December 98
MAXON SM-2000 MOBILE
650-000-0001 SM-2150/VHF MAIN BOARD
REF #
L113
DESCRIPTION
COIL SPRING
PART #
310-794-0
REF #
Q127
DESCRIPTION
TRANSISTOR
PART #
202-095-8Z
L115
L116
L117
L118
L119
L120
L121
L122
L123
L124
L125
L126
L127
L128
L129
L130
L131
L132
L134
L135
L225
L226
L227
L228
L229
L351
L352
L354
L356
L357
L358
Q101
Q102
Q103
Q104
Q105
Q106
Q108
Q113
Q114
Q116
Q117
Q118
Q120
Q121
Q122
Q123
Q124
Q125
COIL SPRING
COIL SPRING
COIL SPRING
COIL CHOKE 1K
310-793-9
310-224-2
310-368-9
310-218-7
310-706-1
310-218-7
310-275-8
509-772
Q128
Q130
Q132
Q133
Q134
Q135
Q137
Q139
Q140
Q219
Q351
Q352
Q353
Q354
Q360
R100
R1001
R101
R102
R103
R104
R105
R106
R107
R108
R110
R111
R112
R113
R114
R116
R117
R118
R119
R130
R131
R132
R133
R134
R135
R136
R137
R138
R139
R140
R141
R142
R143
R144
BRT
202-092-5
TRANSISTOR
200-003-5
TRANSISTOR
202-113-1
TRANSISTOR
202-113-1
COIL CHIP
0.15UH
TRANSISTOR
202-095-8Z
202-095-8Z
202-095-8Z
202-092-5
COIL CHOKE 1K
COIL SPRING
COIL ASS’Y
COIL CHIP
TRANSISTOR
TRANSISTOR
BRT
47NH
310-861-7
310-711-5
310-368-9
310-627-3
311-224-7
311-214-8
310-536-4
311-214-8
311-214-8
311-305-7
509-772
TRANSISTOR
202-095-8Z
202-095-8Z
203-116-9
COIL CHIP
0.68UH
TRANSISTOR
COIL SPRING
COIL SPRING
COIL SPRING
COIL SPRING
COIL SPRING
COIL SPRING
COIL SPRING
COIL SPRING
COIL ASS’Y
COIL ASS’Y
COIL AXIAL
COIL CHIP
TRANSISTOR
TRANSISTOR
203-116-9
TRANSISTOR
202-099-2Z
202-098-1
TRANSISTOR
TRANSISTOR
202-113-1
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
2.2K
470
1.8K
0
060-222-2Z
060-471-0Z
060-182-9Z
060-000-8Z
060-000-8Z
060-182-9Z
060-471-0Z
060-182-9Z
060-471-0Z
060-000-8Z
060-122-5Z
060-272-7Z
060-752-4Z
060-104-9Z
060-103-8Z
060-103-8Z
060-243-1Z
060-103-8Z
060-103-8Z
060-122-5Z
060-913-3Z
060-472-1Z
060-203-5Z
060-682-4Z
060-390-8Z
060-272-7Z
060-272-7Z
060-471-0Z
060-223-3Z
060-100-5Z
060-471-0Z
060-103-8Z
060-182-9Z
060-510-2
509-013
0
2.2UH
1UH
310-378-7
310-657-0
310-862-8Y
310-381-0
310-381-0
311-079-3
311-078-2
311-083-6
311-117-4
311-083-6
311-079-3
202-113-1
202-106-5
202-106-5
202-113-1
218-057-7Z
203-096-4
202-095-8Z
200-003-5
200-003-5
203-181-7
200-045-3
203-043-6Z
203-087-6
202-095-8Z
203-111-4
202-095-8Z
202-113-1
202-066-2
1.8K
470
1.8K
470
0
COIL CHIP
220UH
1MH
COIL AXIAL
COIL AXIAL
COIL CHIP
1MH
1.0UH
0.82UH
2.2UH
1.2K
2.7K
7.5K
100K
10K
10K
24K
10K
10K
1.2K
91K
4.7K
20K
6.8K
39
COIL CHIP
COIL CHIP
COIL CHIP
COIL CHIP
2.2UH
1.0UH
COIL CHIP
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
2.7K
2.7K
470
22K
10
470
10K
1.8K
51
Page-40-
December 98
MAXON SM-2000 MOBILE
650-000-0001 SM-2150/VHF MAIN BOARD
REF #
R146
DESCRIPTION
PART #
060-153-3Z
REF #
R206
DESCRIPTION
PART #
060-272-7Z
CHIP RESISTOR
15K
560K
15K
10
CHIP RESISTOR
2.7K
100
100
68K
22K
22K
10K
10K
10K
39K
56K
22K
22K
2.2K
0
R147
R148
R149
R150
R151
R152
R153
R154
R156
R157
R158
R159
R160
R161
R162
R163
R164
R168
R170
R172
R173
R174
R175
R176
R177
R178
R180
R181
R182
R182
R183
R184
R185
R187
R190
R191
R192
R193
R194
R195
R196
R197
R198
R200
R201
R202
R203
R204
R205
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
FILM RESISTOR
FILM RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
FILM RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
060-564-1Z
060-153-3Z
060-100-5Z
060-564-1Z
060-223-3Z
060-470-9Z
060-392-2Z
060-229-9Z
060-682-4Z
060-301-8Z
060-332-8Z
060-479-8Z
060-220-0Z
060-182-9Z
060-689-5Z
060-470-9Z
060-151-1Z
060-103-8Z
060-471-0Z
060-332-8Z
060-332-8Z
060-100-5Z
030-331-8Z
030-121-5Z
060-122-5Z
060-122-5Z
060-103-8Z
030-121-5Z
060-121-4Z
060-151-1Z
060-474-3Z
060-100-5Z
060-473-2Z
060-103-8Z
060-223-3Z
060-272-7Z
060-223-3Z
060-272-7Z
060-103-8Z
060-183-0Z
060-823-5Z
060-104-9Z
060-102-7Z
060-473-2Z
060-334-0Z
060-272-7Z
060-154-4Z
060-102-7Z
060-101-6Z
R207
R210
R211
R213
R214
R215
R217
R218
R219
R220
R221
R222
R223
R224
R250
R251
R252
R253
R351
R352
R353
R354
R355
R356
R357
R358
RV101
RV102
RV103
RV104
RV105
T101
T102
T103
T104
TH101
X101
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
CHIP RESISTOR
060-101-6Z
060-101-6Z
060-683-5Z
060-223-3Z
060-223-3Z
060-103-8Z
060-103-8Z
060-103-8Z
060-393-3Z
060-563-0Z
060-223-3Z
060-223-3Z
060-222-2Z
060-000-8Z
060-123-6Z
060-202-4Z
060-102-7Z
060-182-9Z
060-103-8Z
060-331-7Z
060-470-9Z
060-103-8Z
060-331-7Z
060-470-9Z
060-122-5Z
060-103-8Z
071-223-1
560K
22K
47
3.9K
2.2
6.8K
300
3.3K
4.7
22
1.8K
6.8
12K
2K
47
150
10K
470
3.3K
3.3K
10
1K
1.8K
10K
330
47
10K
330
47
330
120
1.2K
1.2K
10K
120
120
150
470K
10
1.2K
10K
RESISTOR SEMIFIXED 22KB
RESISTOR SEMIFIXED 1KB
RESISTOR SEMIFIXED 10KB
RESISTOR SEMIFIXED 10KB
RESISTOR SEMIFIXED 4.7KB
071-102-5
071-103-6
071-103-6
071-472-9
COIL IFT
COIL IFT
COIL
600NH 45MHZ
600NH 45MHZ
321-014-7
47K
10K
22K
2.7K
22K
2.7K
10K
18K
82K
100K
1K
321-014-7
455KHZ DETECTOR 320-232-2
TRANSFORMER
THERMISTOR CHIP 33K
CRYSTAL NR2B 44.545M
CHOKE
300-008-1
098-333-8
261-932-7Z
47K
330K
2.7K
150K
1K
100
Page-41-
December 98
MAXON SM-2000 MOBILE
650-000-0002 SM-2450/UHF MAIN BOARD
650-000-0002 SM-2450/UHF MAIN BOARD
BAND CHART
SM-2450A UHF BAND 1
(400-430 MHz)
SM-2450C UHF BAND 2
(420-450 MHz)
SM-2450D UHF BAND 3
(440-470 MHz)
REF #
PART #
VALUE
REF #
PART #
VALUE
REF #
PART #
VALUE
FRONT-END PCB ASSEMBLY
650-110-0007
FRONT-END PCB ASSEMBLY
650-110-0008
FRONT-END PCB ASSEMBLY
650-110-0001
MAIN BOARD PARTS
MAIN BOARD PARTS
MAIN BOARD PARTS
C130
C133
C134
133-932-7Y
131-039-1Y
134-767-0Y
39pF
10pF
4.7pF
C130
C133
C134
C135
C136
C158
C242
C243
C272
C273
C275
C277
C281
C283
IC103
R180
R182
R210
133-932-7Y
138-004-4Y
134-767-0Y
138-004-4Y
138-004-4Y
135-010-4Y
138-004-4Y
134-767-0Y
135-019-3Y
131-029-2Y
131-029-2Y
131-029-2Y
137-007-1Y
136-015-4Y
220-348-3
39pF
8pF
C130
C133
C134
C135
C136
C158
C242
C243
C272
C273
C275
C277
C281
C283
IC103
R180
R182
R210
132-714-2Y
136-833-6Y
134-007-7Y
138-004-4Y
131-208-7Y
135-010-4Y
138-004-4Y
134-767-0Y
135-019-3Y
137-011-5Y
139-006-1Y
131-029-2Y
137-007-1Y
136-015-4Y
220-350-5
27pF
6.8pF
4pF
4.7pF
8pF
C135
C136
C158
C242
C243
C272
C273
C275
C277
C281
C283
IC103
R180
R182
R210
139-003-8Y
139-003-8Y
131-039-1Y
131-039-1Y
131-039-1Y
136-015-4Y
131-029-2Y
131-029-2Y
131-029-2Y
131-039-1Y
137-011-5Y
220-347-2
9pF
8pF
9pF
8pF
12pF
5pF
10pF
10pF
10pF
6pF
5pF
8pF
8pF
4.7pF
5pF
4.7pF
5pF
10PF
10PF
10PF
10pF
7pF
10PF
10PF
10PF
7pF
7PF
9PF
10PF
7pF
6pF
6pF
M57729L
4.7K
M57729
4.7K
M57729H
3.9K
060-472-1Z
060-221-1Z
060-470-9Z
060-472-1Z
060-221-1Z
060-470-9Z
060-392-2Z
060-101-6Z
060-470-9Z
220 OHM
47 OHM
220 OHM
47 OHM
100 OHM
47 OHM
650-XXX-XXXX
Page-42-
December 98
MAXON SM-2000 MOBILE
650-000-0002 SM-2450/UHF MAIN BOARD
BAND CHART(continued)
SM-2450E UHF BAND 4
(470-490 MHz)
SM-2450B UHF BAND 5
(490-512 MHz)
REF #
PART #
VALUE
REF #
PART #
VALUE
FRONT-END PCB ASSEMBLY
650-110-0009
FRONT-END PCB ASSEMBLY
650-110-0010
MAIN BOARD PARTS
MAIN BOARD PARTS
C130
C133
C134
C135
C136
C158
C242
C243
C272
C273
C275
C277
C281
C283
IC103
R180
R182
R210
131-829-8Y
136-015-4Y
133-321-5Y
135-019-3Y
137-007-1Y
133-321-5Y
137-007-1Y
133-321-5Y
134-007-7Y
137-011-5Y
139-006-1Y
138-230-1Y
131-039-1Y
135-019-3Y
220-349-4
18pF
6pF
C130
C133
C134
C135
C136
C158
C242
C243
C272
C273
C275
C277
C281
C283
IC103
R180
R182
R210
132-407-5Y
134-007-7Y
133-321-5Y
135-019-3Y
138-004-4Y
134-007-7Y
135-019-3Y
133-321-5Y
135-019-3Y
131-029-2Y
131-029-2Y
131-029-2Y
131-039-1Y
134-007-7Y
220-346-1
24pF
4pF
3.3pF
5pF
3.3pF
5pF
7pF
8pF
3.3pF
7pF
4pF
5pF
3.3pF
4pF
3.3pF
5pF
7PF
10PF
10PF
10PF
10pF
4pF
9PF
8PF
10pF
5pF
M57729UH
2.7K
M57729SH
4.7K
060-272-7Z
060-101-6Z
060-470-9Z
060-472-1Z
060-221-1Z
060-470-9Z
100 OHM
47 OHM
220 OHM
47 OHM
Page-43-
December 98
MAXON SM-2000 MOBILE
650-000-0002 SM-2450/UHF MAIN BOARD
REF #
FRONT-END PCB ASSEMBLY (REFER TO BAND CHART)
DESCRIPTION
PART #
REF #
C163
DESCRIPTION
CHIP CERAMIC 6PF
PART #
136-005-5Y
ANT1
ANT1
ANT1
C101
C102
C103
C104
C105
C106
C107
C108
C109
C110
C113A
C114
C115
C118
C119
C120
C121
C122
C125
C126
C127
C128
C129
C131
C137
C138
C139
C140
C141
C142
C143
C144
C145
C146
C147
C148
C149
C150
C151
C152
C155
C156
C157
C159
C160
C162
CONNECTOR ANT
422-907-0
C164
C165
C167
C168
C169
C172
C173
C174
C175
C176
C177
C178
C179
C180
C181
C182
C183
C184
C185
C186
C187
C188
C189
C190
C191
C192
C193
C194
C195
C196
C197
C198
C199
C200
C201
C202
C203
C204
C207
C209
C210
C211
C212
C214
C216
C217
C218
C218
C219
CHIP CERAMIC 12PF
CHIP CERAMIC 6PF
131-208-7Y
136-005-5Y
138-210-3Y
130-A17-6Y
134-722-1Y
131-511-0Y
135-613-9Y
133-321-5Y
132-012-1Y
133-932-7Y
130-A17-6Y
130-A17-6Y
138-210-3Y
130-172-2Y
141-012-9Z
130-A17-6Y
134-722-1Y
133-010-4Y
131-511-0Y
130-A60-4Y
130-A60-4Y
132-220-2Y
130-170-0Y
130-314-5Y
130-A60-4Y
130-314-5Y
130-A60-4Y
130-315-6Y
131-039-1Y
130-172-2Y
134-722-1Y
130-A17-6Y
131-208-7Y
130-A60-4Y
130-172-2Y
130-172-2Y
130-A17-6Y
136-005-5Y
130-A17-6Y
130-A60-4Y
112-211-8Z
130-172-2Y
130-172-2Y
132-220-2Y
132-220-2Y
132-220-2Y
101-025-9
CONNECTOR SW-1456(BNC-R)
PIN CU &1.1X13(101-01)
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 5PF
421-655-7
860-129
CHIP CERAMIC 82PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 47PF
CHIP CERAMIC 15PF
CHIP CERAMIC 56PF
CHIP CERAMIC 3.3PF
CHIP CERAMIC 20PF
CHIP CERAMIC 39PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 82PF
CHIP CERAMIC 0.01UF
DIP TANTALUM 10UF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 47PF
CHIP CERAMIC 30PF
CHIP CERAMIC 15PF
CHIP CERAMIC 0.1UF
CHIP CERAMIC 0.1UF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.1UF
CHIP CERAMIC 0.033UF
CHIP CERAMIC 0.1UF
CHIP CERAMIC 0.033UF
CHIP CERAMIC 0.1UF
CHIP CERAMIC 0.0033UF
CHIP CERAMIC 10PF
CHIP CERAMIC 0.01UF
CHIP CERAMIC 47PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 12PF
CHIP CERAMIC 0.1UF
CHIP CERAMIC 0.01UF
CHIP CERAMIC 0.01UF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 6PF
132-220-2Y
132-220-2Y
132-220-2Y
132-220-2Y
135-010-4Y
134-761-4Y
130-170-0Y
132-220-2Y
132-220-2Y
130-A17-6Y
120-313-6
CHIP CERAMIC 470PF
CHIP CERAMIC 0.1UF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.001UF
POLY CAPACITOR 0.33UF
MYLAR CAPACITOR 0.01UF
CHIP CERAMIC 220PF
CHIP CERAMIC 4.7PF
CHIP CERAMIC 15PF
MYLAR CAPACITOR 0.01UF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.1UF
CHIP TANTALUM 1UF
CHIP CERAMIC 220PF
CHIP CERAMIC 470PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 0.1UF
CHIP CERAMIC 220PF
CHIP CERAMIC 68PF
CHIP CERAMIC 2.2PF
CHIP CERAMIC 220PF
CHIP CERAMIC 47PF
CHIP CERAMIC 5PF
111-008-7Z
132-220-2Y
134-767-0Y
131-511-0Y
111-008-7Z
132-220-2Y
130-170-0Y
141-036-1Z
132-220-2Y
134-761-4Y
130-A17-6Y
130-170-0Y
132-220-2Y
136-816-5Y
132-266-4Y
132-220-2Y
134-722-1Y
135-010-4Y
131-208-7Y
132-220-2Y
130-504-9Y
130-A17-6Y
131-208-7Y
104-713-2
CHIP CERAMIC 12PF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.5PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 12PF
ELECT CAPACITOR 47UF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 470PF
ELECT CAPACITOR 2200UF
CHIP CERAMIC 2.2PF
CHIP CERAMIC 47PF
CHIP CERAMIC 5.6PF
CHIP CERAMIC 6PF
132-220-2Y
132-220-2Y
132-220-2Y
134-761-4Y
102-278-6
CHIP CERAMIC 0.001UF
CHIP CERAMIC 0.1UF
MYLAR CAPACITOR 0.022UF
CHIP CERAMIC 0.01UF
CHIP CERAMIC 0.01UF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
ELECT CAPACITOR 10UF
ELECT CAPACITOR 10UF
CHIP CERAMIC 220PF
132-266-4Y
134-722-1Y
135-627-2Y
136-005-5Y
130-A17-6Y
133-321-5Y
CHIP CERAMIC 0.001UF
CHIP CERAMIC 3.3PF
101-025-9
132-220-2Y
Page-44-
December 98
MAXON SM-2000 MOBILE
650-000-0002 SM-2450/UHF MAIN BOARD
REF #
C219
DESCRIPTION
CHIP CERAMIC 220PF
PART #
132-220-2Y
REF #
C288
DESCRIPTION
CHIP CERAMIC 220PF
PART #
132-220-2Y
C220
C221
C222
C223
C224
C225
C226
C227
C230
C231
C232
C233
C234
C235
C236
C237
C238
C239
C240
C247
C249
C250
C251
C252
C253
C255
C256
C257
C258
C259
C260
C261
C262
C263
C264
C265
C266
C267
C269
C271
C273
C279
C280
C282
C284
C285
C286
C287
CHIP CERAMIC 220PF
DIP TANTALUM 1UF
132-220-2Y
141-008-6Z
141-012-9Z
132-220-2Y
101-A02-8
130-A60-4Y
101-048-0
C289
C290
C292
C294
C295
C296
C297
C298
C299
C300
C301
C303
C407
C435
C438
C558
CHIP CERAMIC 82PF
CHIP CERAMIC 0.047UF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.01UF
CHIP CERAMIC 47PF
CHIP CERAMIC 12PF
CHIP CERAMIC 22PF
CHIP CERAMIC 47PF
CHIP CERAMIC 470PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
ELECT CAPACITOR 10UF
ELECT CAPACITOR 1UF
ELECT CAPACITOR 10UF
ELECT CAPACITOR 10UF
138-210-3Y
130-424-0Y
132-220-2Y
132-220-2Y
130-172-2Y
134-722-1Y
131-208-7Y
132-216-9Y
134-722-1Y
134-761-4Y
132-220-2Y
132-220-2Y
101-025-9
101-006-2
101-025-9
101-025-9
427-335-8
181-005-5
271-054-7
270-007-0Z
270-027-8Z
421-677-7
242-022-4
242-022-4
243-012-0
243-012-0
243-051-5
243-052-6
249-005-4
243-081-2
243-058-2
243-012-0
245-008-7Z
243-052-6
243-063-6
243-073-5
243-063-6
243-052-6
320-536-5
220-131-3
220-375-7
231-064-4
220-378-0
222-013-0A
229-289-8
223-421-0
223-224-9
420-728-5
DIP TANTALUM 10UF
CHIP CERAMIC 220PF
ELECT CAPACITOR 1000UF
CHIP CERAMIC 0.1UF
ELECT CAPACITOR 1000UF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 220PF
ELECT CAPACITOR 100UF
ELECT CAPACITOR 220UF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.001UF
ELECT CAPACITOR 2200UF
ELECT CAPACITOR 10UF
CHIP CERAMIC 10PF
CHIP CERAMIC 470PF
CHIP CERAMIC 220PF
ELECT CAPACITOR 47UF
CHIP CERAMIC 470PF
CHIP CERAMIC 220PF
CHIP CERAMIC 33PF
CHIP CERAMIC 470PF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 220PF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 0.001UF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 4PF
130-A17-6Y
130-A17-6Y
132-220-2Y
101-023-7
102-224-7
132-220-2Y
130-A17-6Y
132-220-2Y
130-A17-6Y
102-278-6
CABLE1 COAXIAL UT85 SEMI-RIGID
101-025-9
CF1
FEED THROUGH CAP 0.001UF
FILTER CRYSTAL
131-039-1Y
134-761-4Y
132-220-2Y
104-713-2
CF101
CF103
CF104
FILTER CERAMIC
FILTER CERAMIC
CON405 CONNECTOR BOX SOCKET
134-761-4Y
132-220-2Y
133-306-2Y
134-761-4Y
132-220-2Y
130-A17-6Y
132-220-2Y
132-220-2Y
130-A17-6Y
132-220-2Y
130-A17-6Y
131-025-8Y
132-220-2Y
132-220-2Y
132-220-2Y
132-220-2Y
134-007-7Y
131-025-8Y
131-029-2Y
104-713-2
D101
D102
D103
D104
D105
D106
D107
D108
D120
D121
D124
D125
D126
D127
D128
D129
FB
DIODE VARICAP CHIP
DIODE VARICAP CHIP
DIODE
DIODE
DIODE SI CHIP
DIODE SI CHIP
DIODE SCHOTTKY CHIP
DIODE PIN
DIODE
DIODE
DIODE RECTIFIER
DIODE SI CHIP
DIODE SWITCHING
DIODE PIN
DIODE SWITCHING
DIODE SI CHIP
CORE BEAD
CHIP CERAMIC 0.001UF
CHIP CERAMIC 10PF
ELECT CAPACITOR 47UF
CHIP CERAMIC 5PF
IC101
IC102
IC104
IC105
IC107
IC108
IC109
IC401
J1
I.C PLL
DBM MIXER MODULE
I.C OP AMP
135-019-3Y
134-761-4Y
134-761-4Y
132-220-2Y
132-220-2Y
132-220-2Y
I.C REGULATOR
I.C REGULATOR
I.C
CHIP CERAMIC 470PF
CHIP CERAMIC 470PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
CHIP CERAMIC 220PF
I.C POWER FM IF
I.C
JACK MINIATURE
Page-45-
December 98
MAXON SM-2000 MOBILE
650-000-0002 SM-2450/UHF MAIN BOARD
REF #
L101
DESCRIPTION
COIL CHIP 0.68UH
PART #
310-711-5
REF #
Q132
DESCRIPTION
TRANSISTOR
PART #
202-113-1
L102
L103
L104
L106
L107
L108
L110
L111
L113
L114
L115
L116
L118
L119
L120
L121
L122
L123
L124
L125
L225
L226
L227
L228
L229
Q101
Q102
Q103
Q104
Q105
Q106
Q107
Q108
Q110
Q111
Q113
Q114
Q116
Q117
Q119
Q121
Q122
Q123
Q124
Q125
Q127
Q128
Q130
COIL CHIP 0.68UH
COIL CHIP 47NH
COIL CHIP 27NH
COIL CHIP 27NH
COIL SPRING
COIL CHIP 18NH
COIL CHIP 18NH
COIL CHIP 0.15UH
COIL SPRING
COIL CHIP 0.15UH
COIL SPRING
COIL SPRING
COIL SPRING
COIL CHIP 0.15UH
COIL SPRING
COIL SPRING
COIL SPRING
COIL CHIP 18NH
COIL CHIP 18NH
COIL SPRING
COIL AXIAL 2.2UH
COIL CHIP 1UH
COIL CHIP 220UH
COIL AXIAL 1MH
COIL AXIAL 1MH
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
BRT
310-711-5
310-861-7
310-860-6
310-860-6
310-304-1
310-859-6
310-859-6
310-706-1
311-158-1
310-706-1
311-158-1
311-178-9
311-180-1
310-706-1
311-180-1
311-180-1
311-179-0
310-859-6
310-859-6
311-180-1
310-378-7
310-657-0
310-862-8Y
310-381-0
310-381-0
202-113-1
202-106-5
202-106-5
202-113-1
218-057-7Z
203-096-4
202-113-1
203-104-8
200-003-5
200-003-5
200-003-5
200-003-5
200-003-5
200-045-3
202-092-5
202-095-8Z
203-111-4
202-095-8Z
202-113-1
202-066-2
202-095-8Z
202-092-5
200-003-5
Q133
Q134
Q135
Q137
Q140
Q219
R100
R101
R102
R103
R104
R105
R106
R107
R108
R109
R110
R111
R112
R113
R114
R115
R116
R117
R118
R119
R120
R121
R122
R123
R124
R125
R126
R127
R128
R130
R131
R132
R133
R134
R135
R136
R137
R138
R139
R140
R141
R142
TRANSISTOR
202-113-1
TRANSISTOR
202-095-8Z
202-095-8Z
202-095-8Z
202-095-8Z
202-095-8Z
060-222-2Z
060-182-9Z
060-000-8Z
060-000-8Z
060-911-1Z
060-101-6Z
060-911-1Z
060-101-6Z
060-000-8Z
060-103-8Z
060-302-1Z
060-272-7Z
060-272-7Z
060-104-9Z
060-103-8Z
060-101-6Z
060-220-0Z
060-562-9Z
060-332-8Z
060-101-6Z
060-470-9Z
060-100-5Z
060-151-1Z
060-682-4Z
060-100-5Z
060-221-1Z
060-123-6Z
060-392-2Z
060-122-5Z
060-274-9Z
060-122-5Z
060-752-4Z
060-123-6Z
060-392-2Z
060-122-5Z
060-272-7Z
060-272-7Z
060-471-0Z
060-223-3Z
060-100-5Z
060-471-0Z
060-103-8Z
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
CHIP RESISTOR 2.2K
CHIP RESISTOR 1.8K
CHIP RESISTOR 0
CHIP RESISTOR 0
CHIP RESISTOR 910
CHIP RESISTOR 100
CHIP RESISTOR 910
CHIP RESISTOR 100
CHIP RESISTOR 0
CHIP RESISTOR 10K
CHIP RESISTOR 3K
CHIP RESISTOR 2.7K
CHIP RESISTOR 2.7K
CHIP RESISTOR 100K
CHIP RESISTOR 10K
CHIP RESISTOR 100
CHIP RESISTOR 22
CHIP RESISTOR 5.6K
CHIP RESISTOR 3.3K
CHIP RESISTOR 100
CHIP RESISTOR 47
CHIP RESISTOR 10
CHIP RESISTOR 150
CHIP RESISTOR 6.8K
CHIP RESISTOR 10
CHIP RESISTOR 220
CHIP RESISTOR 12K
CHIP RESISTOR 3.9K
CHIP RESISTOR 1.2K
CHIP RESISTOR 270K
CHIP RESISTOR 1.2K
CHIP RESISTOR 7.5K
CHIP RESISTOR 12K
CHIP RESISTOR 3.9K
CHIP RESISTOR 1.2K
CHIP RESISTOR 2.7K
CHIP RESISTOR 2.7K
CHIP RESISTOR 470
CHIP RESISTOR 22K
CHIP RESISTOR 10
CHIP RESISTOR 470
CHIP RESISTOR 10K
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
BRT
TRANSISTOR
Page-46-
December 98
MAXON SM-2000 MOBILE
650-000-0002 SM-2450/UHF MAIN BOARD
REF #
R140
DESCRIPTION
CHIP RESISTOR 10
PART #
060-100-5Z
REF #
R202
DESCRIPTION
CHIP RESISTOR 2.7K
PART #
060-272-7Z
R141
R142
R143
R144
R146
R147
R148
R149
R150
R151
R152
R153
R154
R156
R157
R158
R159
R160
R161
R162
R163
R164
R165
R166
R168
R170
R172
R173
R175
R176
R177
R178
R181
R183
R184
R185
R187
R190
R191
R192
R193
R194
R195
R196
R197
R198
R200
R201
CHIP RESISTOR 470
CHIP RESISTOR 10K
CHIP RESISTOR 1.8K
CHIP RESISTOR 51
CHIP RESISTOR 15K
CHIP RESISTOR 560K
CHIP RESISTOR 15K
CHIP RESISTOR 10
CHIP RESISTOR 560K
CHIP RESISTOR 22K
CHIP RESISTOR 47
CHIP RESISTOR 3.9K
CHIP RESISTOR 2.2
CHIP RESISTOR 15K
CHIP RESISTOR 300
CHIP RESISTOR 10K
CHIP RESISTOR 68
CHIP RESISTOR 10
CHIP RESISTOR 560
CHIP RESISTOR 2.2K
CHIP RESISTOR 470
CHIP RESISTOR 10
CHIP RESISTOR 470
CHIP RESISTOR 0
060-471-0Z
060-103-8Z
060-182-9Z
060-510-2
R203
R204
R205
R206
R207
R211
R213
R214
R215
R217
R218
R219
R220
R221
R222
R223
R225
R250
R251
R252
R253
R458
R601
R602
RV101
RV102
RV103
RV104
RV105
T101
T102
T103
T104
TC101
TH101
TP1
CHIP RESISTOR 150K
CHIP RESISTOR 1K
CHIP RESISTOR 100
CHIP RESISTOR 2.7K
CHIP RESISTOR 100
CHIP RESISTOR 68K
CHIP RESISTOR 22K
CHIP RESISTOR 22K
CHIP RESISTOR 10K
CHIP RESISTOR 10K
CHIP RESISTOR 10K
CHIP RESISTOR 39K
CHIP RESISTOR 56K
CHIP RESISTOR 22K
CHIP RESISTOR 22K
CHIP RESISTOR 2.2K
CHIP RESISTOR 470
CHIP RESISTOR 12K
CHIP RESISTOR 2K
CHIP RESISTOR 1K
CHIP RESISTOR 1.8K
CHIP RESISTOR 47K
CHIP RESISTOR 56K
CHIP RESISTOR 100
RESISTOR SEMIFIXED 22KB
RESISTOR SEMIFIXED 1KB
RESISTOR SEMIFIXED 10KB
RESISTOR SEMIFIXED 10KB
RESISTOR SEMIFIXED 4.7KB
COIL IFT 600NH 45MHZ
COIL IFT 600NH 45MHZ
COIL 455KHZ DETECTOR
TRANSFORMER CHOKE
DIP TRIMMER 10PF
060-154-4Z
060-102-7Z
060-101-6Z
060-272-7Z
060-101-6Z
060-683-5Z
060-223-3Z
060-223-3Z
060-103-8Z
060-103-8Z
060-103-8Z
060-393-3Z
060-563-0Z
060-223-3Z
060-223-3Z
060-222-2Z
060-471-0Z
060-123-6Z
060-202-4Z
060-102-7Z
060-182-9Z
060-473-2Z
05B-563-7Z
05B-101-3Z
071-223-1
071-102-5
071-103-6
071-103-6
071-472-9
321-014-7
321-014-7
320-232-2
300-008-1
171-013-9
098-333-8
860-129
060-153-3Z
060-564-1Z
060-153-3Z
060-100-5Z
060-564-1Z
060-223-3Z
060-470-9Z
060-392-2Z
060-229-9Z
060-153-3Z
060-301-8Z
060-103-8Z
060-680-2Z
060-100-5Z
060-561-8Z
060-222-2Z
060-471-0Z
060-100-5Z
060-471-0Z
060-000-8Z
060-103-8Z
060-471-0Z
060-332-8Z
060-332-8Z
030-331-8Z
030-121-5Z
060-122-5Z
060-122-5Z
030-121-5Z
060-474-3Z
060-100-5Z
060-473-2Z
060-103-8Z
060-223-3Z
060-272-7Z
060-223-3Z
060-272-7Z
060-103-8Z
060-183-0Z
060-823-5Z
060-104-9Z
060-102-7Z
060-473-2Z
060-334-0Z
CHIP RESISTOR 10K
CHIP RESISTOR 470
CHIP RESISTOR 3.3K
CHIP RESISTOR 3.3K
FILM RESISTOR 330
FILM RESISTOR 120
CHIP RESISTOR 1.2K
CHIP RESISTOR 1.2K
FILM RESISTOR 120
CHIP RESISTOR 470K
CHIP RESISTOR 10
CHIP RESISTOR 47K
CHIP RESISTOR 10K
CHIP RESISTOR 22K
CHIP RESISTOR 2.7K
CHIP RESISTOR 22K
CHIP RESISTOR 2.7K
CHIP RESISTOR 10K
CHIP RESISTOR 18K
CHIP RESISTOR 82K
CHIP RESISTOR 100K
CHIP RESISTOR 1K
CHIP RESISTOR 47K
CHIP RESISTOR 330K
THERMISTOR CHIP 33K
PIN CU
X101
CRYSTAL
261-932-7Z
406-194-C
P.C.B. MAIN (SM-2450)
Page-47-
December 98
MAXON SM-2000 MOBILE
COMPONENT PINOUT
COMPONENT PINOUT
= SM-2150/VHF
= SM-2450/UHF
Unless otherwise indicated all parts are common to the SM-2000 Series Radio.
MANUFACTURER'S
BASE DIAGRAM
REFERENCE NO.
TYPE
PART NUMBER
41
40
60
61
21
20
CPU
IC409
HD4074818
80
5
1
IC104, IC105
IC408
OP Amp
LM358M
8
4
EEPROM
AT93C56-10S1
1
11
20
IC101
MC14519IF
MC14053
PLL
10
1
IC411,412
Analog SW IC
9
16
MC14066
MC3371D
IC401
IC109
Analog SW IC
IF IC
8
1
8
14
OP Amp
KIA324F
IC404,406,410
7
1
8
14
MF6CWM-100
IC407
Switched Cap Filter
7
1
1
Audio AMP
TDA2003V
KIA7808PI
KIA78L05F
IC108
3
5
1:IN
2:GND
3:OUT
Regulator
Regulator
IC107
1
2
3
1:OUT
2:GND
3:IN
IC105,402
3
2
1
Page-48-
December 98
MAXON SM-2000 MOBILE
COMPONENT PINOUT
= SM-2150/VHF
Unless otherwise indicated all parts are common to the SM-2000 Series Radio.
= SM-2450/UHF
MANUFACTURER'S
PART NUMBER
REFERENCE NO.
BASE DIAGRAM
3 (GATE)
*Q351,*352
MMBFJ309LT1
1 (DRAIN)
2 (SOURCE)
Q102,103,504,821,822
*Q122
KTA1504S(ASG)
BCX-18LT1
MMBC1321(Q4)
MMBC1321
**Q130
*Q106
KTC3875S(ALG)
KRA110S(PK)
Q101,104,360,550-553
C
**Q119,*139,128
E
B
*Q353
KRC111S
*Q105,*407
*Q116
KRA104S
MMBR951
KRC104S(ND)
Q121,123,127,131,134,135
Q137,140,219,401-406,409
*Q108,*Q354,
**Q105,**Q407
BFG35
Q117
E
C
B
KTB1367
KTA1658
**Q125,135
*Q125
B
C
E
B
C
E
B
C1971
*Q118
E
C
3
4
MRF5711
**Q108
1
2
Q113,114,
*Q130,
**Q110,**Q111,**Q116
BFR92A
C
MMBR951
*Q800
E
B
2SC5084
**Q601
Q701,702
MMBR9426
Page-49-
December 98
MAXON SM-2000 MOBILE
COMPONENT PINOUT
= SM-2150/VHF
= SM-2450/UHF
Unless otherwise indicated all parts are common to the SM-2000 Series Radio.
MANUFACTURER'S
BASE DIAGRAM
REFERENCE NO.
Schematic
PART NUMBER
D103-105,121
C
MMBV3401(4D)
NC
A
KRS193S(F3)
1SS241(TY)
D106,125,129,801,803
D805
C
D127
A
BZX84C-5V
MI402
D807,808,810,811
**D108
ZENER
A
C
MI301
**D120
D124
A
IN5404
C
C
1SV229
D101,102
Varicap Diode
A
Diode Switching
A
A
D402,*126,*128
KDS181(A3)
KDS226(C3)
C
C
C
C
COM
COMMON
D551,552
*D800
**D601
C
A
A
C
C
C
KDS184S(B3)
MMBV105
D401
D701
A
A
A
A
C
D107
D702
MMBD101
MMBD101
NC
A
Page-50-
December 98
MAXON SM-2000 MOBILE
VOLTAGE CHARTS (SM-2150/VHF)
VOLTAGE CHARTS (SM-2150/VHF)
IC409
PIN
1
DESCRIPTION
DATA
TX
0
RX
0
PIN
21
22
23
24
25
26
27
28
29
30
72
73
74
75
76
77
78
79
80
DESCRIPTION
CH-4
CH-8
TX
RX
2
EEPROM ENABLE
PLL ENABLE
CHANNEL SPACING
DATA IN
RED L.E.D.
BUSY
0
0
3
5
5
MONITOR
PTT
5
0
5/0
3.9
5
4
5/0
0
5/0
0
5
PROG. ENABLE
TX ENABLE
ALERT TONE
MF6 CLK
CALL DETECT
SEND UP CONTROL
GND
5
6
5
0
5
0
7
5/0
5
0
0
0
8
EXT OPTION
HOOK SW
LOCK DET
TEST
5
CL
0
CL
0
9
0/3.7
0
0/3.7
0
10
11
12
13
14
15
16
17
18
19
20
0
0
5
5
0
0
X1
5
5
VCC
OSC1
5
5
X2 (OPEN)
GND
D TO A
0
0
2.3
2.3
0
2.3
2.3
0
0
0
OSC2
RESET
5/0
5/0
5/0
5/0
0
D TO A
0
AUDIO ENABLE
GREEN L.E.D.
RX ENABLE
CLK
5
5/0
5
TONE ENABLE
D TO A
CH-1
0
0
0
0
5
CH-2
IC411
PIN
RX VOLTAGE
TX VOLTAGE
1
0
0
2
4
3
4
5
0
6
0
0
7
0
0
8
0
2
1.9
1.9
1.9
2.75
1.2
2.75
PIN
RX VOLTAGE
TX VOLTAGE
9
5
0
10
5
11
0
12
1.9
1.9
13
3.7
4
14
1.9
1.9
15
0.5
1.2
16
5
0
0
5
IC412
IC401
PIN
1
TX
RX
0
PROGRAM
0
PIN
1
TX
0
RX
0
2
0
0
2
0
0
3
3.7
3.7
3.7
3.7
0
0
3
2
1.8
2
4
0
0
4
2
5
5
5
0
6
GND
GND
GND
5
GND
GND
GND
0
6
0
0
7
7
0
SAT 1.9
SAT 1.9
0
8
8
2
9
9
2
10
11
12
13
14
15
16
5
0
10
11
12
13
14
0
0
0
5
5
0
5
0
0
0
0
5
0
0
0
3.8
3.8
0
3.6
3.6
0
5
5
5
5
Page-51-
December 98
MAXON SM-2000 MOBILE
VOLTAGE CHARTS (SM-2150/VHF)
IC404
IC407
PIN
1
TX UNMODE
RX MODE
VOICE 1.9
VOICE 1.9
VOICE 1.9
5
PIN
1
NORMAL
OPTION
XT2
XT2
XT2
XT2
1.9
1.9
1.9
1.9
5
1.9
0
2
2
3
3
3.6
0
4
4
5
1.9
1.9
1.9
1.9
1.9
1.9
GND
1.9
1.9
1.9
VOICE 1.9
VOICE 1.9
VOICE 1.9
VOICE 1.9
VOICE 1.9
VOICE 1.9
GND
5
2
6
6
5
5
1.9
7
7
1.9
1.05
5
8
8
XT2
CLK
GND
CLK
0
9
9
10
11
12
13
14
10
11
12
13
14
GND
5
VOICE 1.9
VOICE 1.9
VOICE 1.9
0
2
1.9
1.9
2
IC405
IC410
PIN
1
TX
1.93
1.93
1.8
RX
2.00
2.00
2.00
0
PIN
1
BUSY
AUDIO
AUDIO
AUDIO
5
RX
1.9
1.9
1.9
5
2
2
3
3
4
0
4
5
1.92
1.92
1.92
5.00
2.00
2.00
2.10
5.00
5
AUDIO
AUDIO
AUDIO
AUDIO
1.9
1.9
1.9
1.9
6
6
7
7
8
8
IC406
9
AUDIO
1.9
PIN
1
TX
3.05
1.9
1.9
5
RX
AF 1.05
1.9
10
11
12
13
14
AUDIO
GND
1.9
GND
1.9
2
AUDIO
AUDIO
AUDIO
3
1.9
5
1.9
1.9
4
5
6
7
1.9
1.9
1.9
1.9
1.9
1.9
8
1.9
1.9
IC107 IC105 IC402
9
1.9
1.9
1.9
1.9
PIN
IC107
IC105/402
1
13.7
8
2
0
0
3
8
5
10
11
12
13
14
GND
1.9
1.9
GND
1.9
1.9
1.9
1.9
Page-52-
December 98
MAXON SM-2000 MOBILE
VOLTAGE CHARTS (SM-2150/VHF)
IC109
PIN
BUSY
RX (MUTE)
1
7
7
2
3
6
6
4
5
6
6
6
6
6
7
6
6
8
OSC
OSC
7.2
7.2
7.2
7.2
PIN
BUSY
RX (MUTE)
9
10
0.8
0.8
11 12
NOISE 2.5
13
7
14
4.5
0
15
GND
GND
16
2
AUDIO
AUDIO
NOISE
0
7
2
IC101
PIN
RX VOLTAGE
TX VOLTAGE
1
0
2
5
3
5
5
4
5
5
5
5
5
6
PD
0
7
GND
0
8
0
2
2.5
PIN
RX VOLTAGE
TX VOLTAGE
9
5
10
2
11
2.7
2.7
12
5
13
3.5
3.5
14
5
15
0
16
0
2.7
3
5
5
0
0
PIN
RX VOLTAGE
TX VOLTAGE
17
5
18
0
19
0
20
OSC
2.3
5
0
0
TRANSISTOR VOLTAGE CHART
RX
TX
REF.NO
Q108
Q113
Q114
Q116
Q117
Q125
Q106
Q140
Q130
Q122
Q121
Q127
Q128
Q120
Q118
Q139
B
7.5
0.7
3.1
0
C
3.5
2.5
5
E
GND
1.5
2.3
0
B
0
C
3.5
2.5
5
E
GND
1.3
2.3
0.7
3.1
2
0
7
1.2
0
0
13.72 13.7
0
0.7
12
1
7.2
12.5
1.5
0
GND
13.2
GND
GND
0
12
7
2.5
7.5
5
GND
GND
0
5
0.7
8
0
0
2.5
8
0
8
0
7.3
5
8
GND
0
8.1
0
0
5
GND
8
13.8 GND
0
8
0
0
0
0
13.8
6
GND
GND
8
0
7.5
9.5
0
GND
8
8
Page-53-
December 98
MAXON SM-2000 MOBILE
VOLTAGE CHARTS (SM-2450/UHF)
VOLTAGE CHARTS (SM-2450/UHF)
IC409
PIN
1
DESCRIPTION
DATA
TX
0
RX
0
PIN
21
22
23
24
25
26
27
28
29
30
72
73
74
75
76
77
78
79
80
DESCRIPTION
CH-4
CH-8
TX
RX
2
EEPROM ENABLE
PLL ENABLE
CHANNEL SPACING
DATA IN
RED L.E.D.
BUSY
0
0
3
5
5
MONITOR
PTT
5
0
5/0
3.9
5
4
5/0
0
5/0
0
5
PROG. ENABLE
TX ENABLE
ALERT TONE
MF6 CLK
CALL DETECT
SEND UP CONTROL
GND
5
6
5
0
5
0
7
5/0
5
0
0
0
8
EXT OPTION
HOOK SW
LOCK DET
TEST
5
CL
0
CL
0
9
0/3.7
0
0/3.7
0
10
11
12
13
14
15
16
17
18
19
20
0
0
5
5
0
0
X1
5
5
VCC
OSC1
5
5
X2 (OPEN)
GND
D TO A
0
0
2.3
2.3
0
2.3
2.3
0
0
0
OSC2
RESET
5/0
5/0
5/0
5/0
0
D TO A
0
AUDIO ENABLE
GREEN L.E.D.
RX ENABLE
CLK
5
5/0
5
TONE ENABLE
D TO A
CH-1
0
0
0
0
5
CH-2
IC411
PIN
RX VOLTAGE
TX VOLTAGE
1
0
0
2
4
3
4
1.9
5
0
6
0
0
7
0
0
8
0
2
1.9
1.9
1.2
2.75
2.75
PIN
RX VOLTAGE
TX VOLTAGE
9
5
0
10
2
11
2.7
2.7
12
5
13
3.5
3.5
14
5
15
0
16
3
5
5
0
0
IC412
IC401
PIN
1
NORMAL
PROGRAM
PIN
1
TX
RX
0
0
0
0
2
0
0
2
0
0
3
0
0
3
2
1
4
0
0
0
0
4
2
2
5
5
5
0
6
GND
GND
GND
5
GND
GND
GND
0
6
5
0
5
7
7
0
8
8
SAT
SAT
0
2
9
9
2
10
11
12
13
14
15
16
5
0
10
11
12
13
14
0
5
0
0
0
0
0
0
0
3.6
3.6
0
3.6
3.6
0
5
5
5
5
5
5
Page-54-
December 98
MAXON SM-2000 MOBILE
VOLTAGE CHARTS (SM-2450/UHF)
IC404
IC407
PIN
1
TX UNMODE
RX MODE
VOICE
VOICE
VOICE
5
PIN
1
NORMAL
1.9
OPTION
XT2
XT2
XT2
XT2
1.9
1.9
1.9
1.9
5
2
2
0
3
3
0
4
4
3
5
1.9
1.9
1.9
1.9
1.9
1.9
GND
1.9
1.9
1.9
VOICE
VOICE
VOICE
VOICE
VOICE
VOICE
GND
5
2
6
6
5
1.9
5
1.9
7
7
8
8
0
XT2
CLK
GND
CLK
0
9
9
5
GND
10
11
12
13
14
10
11
12
13
14
5
0
2
2
VOICE
VOICE
VOICE
1.9
1.9
IC405
IC410
PIN
1
TX
1.93
1.93
1.8
RX
2.00
2.00
2.00
0
PIN
1
BUSY
AUDIO
AUDIO
AUDIO
5
RX
1.9
1.9
1.9
5
2
2
3
3
4
0
4
5
1.92
1.92
1.92
5.00
2.00
2.00
2.10
5.00
5
AUDIO
AUDIO
AUDIO
AUDIO
1.9
1.9
1.9
1.9
6
6
7
7
8
8
IC406
9
AUDIO
1.9
PIN
1
TX
RX
AF
10
11
12
13
14
AUDIO
GND
1.9
GND
1.9
2
1.9
1.9
5
1.9
1.9
AUDIO
AUDIO
AUDIO
3
1.9
1.9
4
1.9
5
6
1.9
1.9
1.9
1.9
7
1.9
1.9
IC107 IC105 IC402
8
1.9
1.9
PIN
IC107
IC105/402
1
13.2
5
2
0
0
3
8
8
9
10
11
12
13
14
1.9
GND
1.9
1.9
GND
1.9
1.9
1.9
1.9
1.9
Page-55-
December 98
MAXON SM-2000 MOBILE
VOLTAGE CHARTS (SM-2450/UHF)
IC109
PIN
BUSY
RX (MUTE)
1
7
7
2
3
6
6
4
5
6
6
6
6
6
7
6
6
8
OSC
OSC
7.2
7.2
7.2
7.2
PIN
BUSY
RX (MUTE)
9
10
0.8
0.8
11
12
13
7
14
0
15
GND
GND
16
2
AUDIO
AUDIO
NOISE 0.6
NOISE 1.8
7
8
2
IC101
PIN
VOLTAGE
1
0
2
5
3
5
4
5
5
6
PD
7
GND
8
0
5
PIN
VOLTAGE
PIN
9
10
2
11
2
12
5
13
OSC
14
5
15
0
16
0
TEST
17
18
19
20
VOLTAGE
5
0
0
OSC
TRANSISTOR VOLTAGE CHART
RX
TX
REF.NO
Q108
Q110
Q111
Q113
Q114
Q116
Q117
Q125
Q106
Q140
Q119
Q130
Q122
Q121
Q127
Q128
B
C
E
0.6
B
1.2
0.6
3.6
0.7
3.1
1.5
0.7
12
2
C
3.5
1.8
4.3
2.5
5
E
0.6
1.2
0.6
3.6
0.7
3.1
3.5
1.8
4.3
2.5
5
GND
2
GND
2
GND
2.3
GND
2.3
1.2
7.5
7.5
12.5
5
GND
13.2
1.4
2
5
5
1.4
0
5
0
GND
8
0
8
0.5
7
5
6.7
0
6.8
GND
5
0
0
8
GND
8
Page-56-
December 98
MAXON SM-2000 MOBILE
TROUBLE SHOOTING CHART (SM-2000)
TROUBLE SHOOTING CHART (SM-2000)
Status Indications & Audible Tones
STATUS
DESCRIPTION
Power on ready
Busy
LED COLOR
AUDIBLE TONE
N/A
Melody
Yellow
N/A
Correct Tone
Transmit
Green
N/A
NORMAL
Red
N/A
Scan
Green, Flashing
Yellow, Flashing
N/A
N/A
Busy Lock
Single Tone
Single Tone
Four Tone, Repeated
Single Tone Repeated
Double Tone Repeated
Three Tone Repeated
Time Out Timer
Battery Low
EEPROM Error
PLL Error
Filtering Error
WARNING
ERROR
Red, Flashing
Red, Flashing
Red, Flashing
Red, Flashing
Unit Does Not Program
1. Defective Programming Lead
2. Wrong Programming Mode
3. Defective MIC Connector
4. Defective IC412
Unit Does Not Work
1. Open DC fuse in Power Cable
2. Defective Volume Switch
3. Defective Regulator IC107, 105, 402
4. Broken DC Cable
No Output from Speaker
Squelch Does Not Work
1. Defective internal speaker and external jack
2. Defective IC108
3. Defective VR801
1. Wrong alignment of squelch resistor RV103
2. Defective IC109
3. Defective CPU IC409
No Sub Audio Decode
CTCSS/DCS
1. Wrong Programming
2. Defective Switch Filter IC406 (MF-6)
3. Defective CPU IC409
Page-57-
December 98
MAXON SM-2000 MOBILE
TROUBLE SHOOTING CHART (SM-2000)
No TX
1. Defective MIC
2. Defective CPU IC409
3. Defective IC412
No TX Power
1. Defective TX enable Q122
2. Defective APC Control Circuit Q125
3. Defective TX Power Buffer AMP Q116 and Q117
4. Defective TX Power Amp (SM-2150) Q118,Q120
5. Defective TX Power Module (SM-2450) IC103
6. Defective ANT SW D108 and D120
7. Defective ANT Connector
Over Power
1. Programming
2. Q125 Short
3. Defective D107 and APC Circuit
Low TX Power Output
1. Wrong Programming
2. Defective TX AMP (SM-2150) Q116 , Q117 , Q118, Q120 and D108
3. Defective TX AMP (SM-2450) Q116 , Q117 , IC103 , and D108
4. Defective Antenna Connector
No Modulation
1. Defective MIC
2. Defective Analog SW IC412 and IC411
3. Defective 300Hz HPF IC410
4. Defective MIC AMP and Splatter Filter IC404
5. Defective Audio Buffer IC405
6. Wrong Alignment of RV402
7. Defective Analog IC401
No Encode of CTCSS/DCS
1. Wrong Programming
2. Defective CPU IC409
3. Defective IC407 and IC411
No Sensitivity
1. Defective Antenna Switch D108 , D120 , and D121
2. Defective Front-End Module
3. Defective DBM IC102
4. Defective 45MHz IF Filter CF101
5. Defective IF IC109
Wrong Frequency
1. Wrong Alignment of 12.8MHz TCXO
2. Wrong Programming
Page-58-
December 98
REPLACEMENT MODULE SCHEMATICS
R706
47K
TH703
150K
TH701
10K
4
R710
2.2K
R713
47K
R708
47K
R714
2.2K
4
3
L804
4T
D702
MMBV109
C816
0.001
R801
56K
2
C813
33P
D701
MMBV
105
6
5
C802
11P
C816
7P
C815
15P
C813
18P
C808
20P
C806
7P
C805
7P
C803
8P
C819
6.8P
C818
6.8P
R804
180
(470)
C821
27P
C810
0.001
X701
R801
6.8K
C705
100pF
R702
12.8MH
C821
270P
RF OUT
IN
C817
56P
L804
6T
LK701
R800
820
R704
6
5
1
2
Q702
MMBR9426
L800
6T
Q800
MMBR951
Q801
2SC5084
C807
33P
C803
33P
L802
6T
C805
6P
C811
100P
Q701
MMBR9426
L805
6T
L806
6T
C800
560P
R705
47K
R707
47K
L803
6T
R701
R703
C802
100P
C822
18P
L806
4T
C817
18P
L805
4T
C814
12P
C820
N/A
C804
20P
C809
20P
C807
N/A
L802
4T
1
2
C702
100pF
D801
KDS226
C703
91pF
C704
180pF
C822
39P
C818
100P
C815
150P
C806
C804
C814
33P
R715
2.2K
D800
KDS226
C801
39P
C812
39P
C706
220pF
R709
39K
C824
4P
R711
4.7K
C812
470P
L801
4T
C823
18P
L803
4T
C801
10P
L807
4T
R802
100
TH702
33K
C701
100pF
TC701
20pF
R712
39K
R803
2.2
R802
3.3K
C808
100P
L801
6T
RX 5V
1
4
3
3
SM-2150/VHF FRONT-END
770-110-0002 Rev. B
SM-2000 TCXO
770-100-0002 Rev. C
SM-2450/UHF FRONT-END
770-110-0001 Rev. B
(VHF Band 2 shown)
(UHF Band 2 shown)
Note 1: Schematics are for reference only. Reference designators and part values may not reflect product configuration.
Note 2: Refer to band chart for specific Front-End PCB assemblies.
Page-59-
December 98
SW1
SW2
SP
CORD901
SP1
4 OHM
4W
C815
470P
B+ (RED)
N/C
N/C
1
5
GROUND
AUDIO
(GREEN)
(WHITE)
GND
3
2
6
TX
(YELLOW)
VRT2
AUDIO
GND (SHIELD)
(BLACK)
4
MON/HOOK
MIC901
+
-
CURRENT LIMITER
R822
4.7K
Q821
KRA1504S
VR801
10KR
C808
47P
C903
470P
TEL
PLUG
C821
0.001
TX
RX
MIC
R821
22
C823
10/25(E)
SW POWER
Q822
KRA1504S
CS
PTT
SWITCH
PTT
MIC
HANGER
13.8
PTT
MIC
6
5
4
3
2
1
CON801
MIC
L901
1MH
HANGER
CS
HOOK
C801-805
47P
C901
0.001(M)
D808
5.1V
D810
5.1V
D811
5.1V
D807
5.1V
VRT 1
LK1
TX/CALL/BUSY
LED 5
C807
47P
LED3
LED4
LED1
LED2
LK4
LK2
LK3
R801
470
SM-2000
SW4
MONITOR
SW3
AUX
MA-4472 MICROPHONE SCHEMATIC
770-090-0003
8V
MONITOR
LED GRN
LED RED
CALL
C809
47P
C806
47P
D801
KDS193
D804
KDS184
BCD 1
BCD 8
BCD 4
BCD 2
GND
SW405
4CH
D803
KDS193
3CH
2CH
1CH
D802
KDS193
CH SW
SM-2000
CONTROL HEAD SCHEMATIC
770-050-0003 Rev. B
Page-60-
December 98
REVISIONS
DESCRIPTION
BY
REV
A
CHG
RELEASED TO MANUFACTURING
JPW
9/96
V0100003.CDR
CORELDRAW
09-10-96
R
UNLESS OTHERWISE NOTED
DIMENSIONS ARE IN MILLIMETERS
TOLERENCES:
A World of Communications
10828 NW Air World Drive
Kansas City, Missouri 64153
HOLES
ANGLES
LINEAR
+
+
.XX
+
-
NA
-
NA
-
.XXX
NA
+
TITLE
-
SM-2000 BLOCK DIAGRAM
DATE
DATE
DATE
DWN
CHK
DOCUMENT
NUMBER
SIZE
060-010-0003
SHEET
B
SCALE
PROD ENGR
OF
NA
1
1
Page-61-
December 98
REVISIONS
DESCRIPTION
BY
REV
A
CHG
RELEASED TO MANUFACTURING
JPW
9/96
4/97
B
C
D
ECO 97014 Change to Sheet 1, Digital Section Onl
ECO 97020
JPW
JPW
JPW
4/97
ECO 98017 Change to Sheet 2, RF Section Onl
11/98
DIGITAL.DWG
AUTOCAD R13c4
11-18-98
R
UNLESS OTHERWISE NOTED
DIMENSIONS ARE IN MILLIMETERS
TOLERENCES:
A World of Communications
10828 NW Air World Drive
Kansas City, Missouri 64153
HOLES
ANGLES
LINEAR
+
+
.XX
+
-
NA
-
NA
-
.XXX
NA
+
TITLE
SM-2000
MAIN BOARD SCHEMATIC
(DIGITAL SECTION)
-
DATE
DATE
DATE
DWN
CHK
DOCUMENT
NUMBER
SIZE
770-000-0001 VHF
770-000-0002 UHF
SHEET
B
SCALE
PROD ENGR
OF
NA
1
2
Page-62-
December 98
REVISIONS
DESCRIPTION
BY
REV
A
CHG
RELEASED TO MANUFACTURING
JPW
9/96
4/97
B
C
D
ECO 97014 Change to Sheet 1, Digital Section Onl
ECO 97020
JPW
JPW
JPW
4/97
ECO 98017 Change to Sheet 2, RF Section Onl
11/98
770-000-0001re D.DWG
AUTOCAD R13c4
12-05-98
R
UNLESS OTHERWISE NOTED
DIMENSIONS ARE IN MILLIMETERS
TOLERENCES:
A
orld of Communications
10828 NW Air World Drive
Kansas City, Missouri 64153
HOLES
ANGLES
LINEAR
+
+
.XX
+
-
NA
-
NA
-
.XXX
NA
+
TITLE
-
SM-2150/VHF
DATE
DATE
DATE
RF SCHEMATIC DIAGRAM
DWN
CHK
DOCUMENT
NUMBER
SIZE
770-000-0001
SHEET
B
SCALE
PROD ENGR
OF
NA
2
2
Page-63-
December 98
REVISIONS
DESCRIPTION
BY
REV
A
CHG
RELEASED TO MANUFACTURING
JPW
9/96
R
UNLESS OTHERWISE NOTED
DIMENSIONS ARE IN MILLIMETERS
TOLERENCES:
A
orld of Communications
10828 NW Air World Drive
Kansas City, Missouri 64153
HOLES
ANGLES
LINEAR
+
+
.XX
+
-
NA
-
NA
-
.XXX
NA
+
TITLE
-
SM-2450/UHF
DATE
DATE
DATE
RF SCHEMATIC DIAGRAM
DWN
CHK
DOCUMENT
NUMBER
SIZE
770-000-0002
SHEET
B
SCALE
PROD ENGR
OF
NA
2
2
Page-64-
December 98
SPKR
LED4
LED3
D804
D801
D805
LED2
LED1
R801
C807
C809
SW4
C283
SW3
LED5
CON801
SM-2000 CONTROL HEAD
SM-2000 CONTROL HEAD
650-050-0003
650-050-0003
Page-65-
December 98
SM-2150/VHF MAIN BOARD ASSY.
SM-2150/VHF MAIN BOARD ASSY.
650-000-0001
650-000-0001
Page-66-
December 98
R181
R219
D127
L227
RV105
RV104
C187
C186
Q135
L228
Q219
TH101
C185
C184
Q134
R210
ANT
R175
L226
R176
C127
R117
C133
C134
C141
Q108
C136
L103
R122
C137
D102
D101
R128
L104
C279
R123
R124
R126
C140
IC102
C218
TC101
R115
R127
C143
RV101
C238
TP1
L107
R106
C114
C210
R108
R111
R103
PWR2
Q103
Q102
R107
R105
R104
C110
C108
FB1
C146
C142
R113
C121
PLL1
C239
C558
C407
Q553Q554
R556
L113
Q552
Q550
C409
R405
R402
R404
C405 IC405
C147
R403
R551
C550
Q551
R559
C554
RV403
R458
R142
R143
C424
IC408
C437
IC411
IC401
IC412
IC407
CON403
CON401
R457
LK3
C250
C568
C438
C404
C428
R462
R465
X401
IC402
R464
R463
R434
Q407
R437
Q406
C152
PWR1
C435
Q405
IC409
R460
R461
R435
D124
C222
C221
R433
T104
C367
LK11
LK5
RV402
LK12
LK13
+
R444
C454
C453
PWR
C442
R411 R416
LK9
C232
R453
C443
R454
R456
C464
C445
R455
-
R415
C226
R448
C417
C403
R446
C447
R459
C233
CON
LK15
R148
C224
SM-2450/UHF MAIN BOARD ASSY.
SM-2450/UHF MAIN BOARD ASSY.
650-000-0002 Rev. C
650-000-0002 Rev. C
Page-67-
December 98
SM-2000
EXPLODED VIEW
Page-68-
December 98
SM-2150/VHF EXPLODED VIEW PARTS LIST
SM-2450/UHF EXPLODED VIEW PARTS LIST
REF #
1
PART #
801-282-A
905-510
795-654
826-137
826-120
650-346
650-335
661-701
662-901
894-650
895-095
611-388
895-040
420-709-9
650-050-0003
420-108-4A
623-034
853-078
752-732
613-174
622-039
895-044
702-416-AB
623-760
427-411-4
427-411-4A
772-181
723-844
895-047
613-040-S
650-000-0001
772-298
752-729
772-243
895-041
421-677-7
772-179
613-755-SF
895-043
723-823
612-289
504-367-B
719-020
895-075
660-449
613-764
893-700
613-369
508-085-A
660-449
662-310
613-299
723-834
600-051
661-605
662-606
625-007
772-241
772-242
772-132-A
752-769
895-247
662-305
DESCRIPTION
QTY
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
3
1
1
1
2
1
1
2
1
1
1
2
1
12
1
1
1
1
1
1
1
4
1
1
6
1
1
4
4
4
4
1
1
2
2
2
1
2
2
2
2
1
1
1
1
1
4
REF #
1
PART #
801-282-A
905-510
795-654
826-137
826-120
650-346
650-335
661-701
662-901
894-650
895-095
611-388
895-040
420-709-9
650-050-0003
420-108-4A
623-034
853-078
752-732
613-174
622-039
895-044
702-416-AB
623-760
427-411-4
427-411-4A
772-181
723-844
895-047
613-040-S
650-000-0002
771-989
752-729
772-243
895-041
421-677-7
772-179
613-755-SF
895-043
723-823
612-289
504-367-B
719-020
895-075
660-449
613-764
893-700
613-369
508-085-A
660-449
662-310
613-299
723-834
600-051
661-605
662-606
625-007
772-241
772-242
772-132-A
752-769
895-247
662-305
DESCRIPTION
QTY
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
3
1
1
1
2
1
1
2
1
1
1
2
1
11
1
1
1
1
1
1
1
4
1
1
6
1
1
4
4
4
4
1
1
2
2
2
1
2
2
2
2
1
1
1
1
1
4
E.S.C NORYL N190J-7002
E.S.C NORYL N190J-7002
2
FELT 30-R16.5 (2) XT0.3 FELT BLK
OVERLAY LEXAN T0.5
2
FELT 30-R16.5 (2) XT0.3 FELT BLK
OVERLAY LEXAN T0.5
3
3
4
KNOB (FOR VOL) ABS 94HB BLK
KNOB (FOR CH) ABS 94HB BLK
NUT RING (FOR VOL) M7X0.75 (P) &9.9 BSBM
NUT RING (FOR CH) M9X0.75 (P) &11 BSBM
WASHER (FOR VOL) T0.5 SPC
4
KNOB (FOR VOL) ABS 94HB BLK
KNOB (FOR CH) ABS 94HB BLK
NUT RING (FOR VOL) M7X0.75 (P) &9.9 BSBM
NUT RING (FOR CH) M9X0.75 (P) &11 BSBM
WASHER (FOR VOL) T0.5 SPC
5
5
6
6
7
7
8
8
9
WASHER (FOR CH) 13X9.3XT0.5 SPC
RING (FOR VOL) &10X&6.9XT0.8 SILI.RUBB BLK
RING (FOR CH) &9.3X&12.5 CR BLK
(+) MACHINE SCREW (FH) M3X8 (+) FH BLK
KEY PAD SILICONE RUBBER
9
WASHER (FOR CH) 13X9.3XT0.5 SPC
RING (FOR VOL) &10X&6.9XT0.8 SILI.RUBB BLK
RING (FOR CH) &9.3X&12.5 CR BLK
(+) MACHINE SCREW (FH) M3X8 (+) FH BLK
KEY PAD SILICONE RUBBER
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
JACK MODULAR 1130-662
JACK MODULAR 1130-662
CONTROL HEAD P.C.B. ASSY.
CONTROL HEAD P.C.B. ASSY.
SPEAKER 4 OHM 5.0W 71MM PB7401A3Y26
(+) TAPPING SCREW (PH) T3X6-1S (+) PH ZN-PLAT
POST BSBM NI-PLAT
SPEAKER 4 OHM 5.0W 71MM PB7401A3Y26
(+) TAPPING SCREW (PH) T3X6-1S (+) PH ZN-PLAT
POST BSBM NI-PLAT
PLATE (ESC MTG) SPC T2
PLATE (ESC MTG) SPC T2
(+) MACHINE SCREW (FH) M3X5 (+) FH NI-PLAT
(+) TAPPING SCREW (BH) T2X6-1S (+) BH ZN-PLAT
GASKET (ESC) CR BLK
(+) MACHINE SCREW (FH) M3X5 (+) FH NI-PLAT
(+) TAPPING SCREW (BH) T2X6-1S (+) BH ZN-PLAT
GASKET (ESC) CR BLK
FRAME ALDC12 (SM-2450)
FRAME ALDC12 (SM-2450)
(+) TAPPING SCREW (BH) T3X18-2S (+) BH NI-PLAT
WIRE EMI GASKET 43SM15 (SM-2450)
WIRE EMI GASKET 43SM20 (SM-2450)
SHIELD CAN SPTE T0.3
(+) TAPPING SCREW (BH) T3X18-2S (+) BH NI-PLAT
WIRE EMI GASKET 43SM15 (SM-2450)
WIRE EMI GASKET 43SM20 (SM-2450)
SHIELD CAN SPTE T0.3
BRACKET TR SK5 T0.5 NI-PLAT
GASKET (EXT JACT) CR BLK
BRACKET TR SK5 T0.5 NI-PLAT
GASKET (EXT JACT) CR BLK
(+) MACHINE SCREW (PH) M3X6 (+) PH ZN-PLAT 1
MAIN P.C.B. ASSY. SM-2150/VHF
SHIELD COVER SPTE T0.5
(+) MACHINE SCREW (PH) M3X6 (+) PH ZN-PLAT 1
MAIN P.C.B. ASSY. SM-2450/UHF
SHIELD COVER SPTE T0.5
CLIP (FOR TR) SUS304 T0.5
CLIP (FOR TR) SUS304 T0.5
SHIELD CAN NSP T0.3
SHIELD CAN NSP T0.3
RING CR BLK
RING CR BLK
CONNECTOR BOX SOCKETBCS-110-P-D-HE
SHIELD CASE (FOR VCO)
CONNECTOR BOX SOCKETBCS-110-P-D-HE
SHIELD CASE (FOR VCO)
(+) MACHINE SCREW (PH) M3X7 (+) PH NI-PLAT
GASKET (BRKT) CR BLK
(+) MACHINE SCREW (PH) M3X7 (+) PH NI-PLAT
GASKET (BRKT) CR BLK
BRACKET ALDC12
BRACKET ALDC12
(+) MACHINE SCREW (BH) M2X5 (+) BH BLK
2P PLUG ASS’Y SH-50101 (SM-2450)
COVER TOP ALDC12
(+) MACHINE SCREW (BH) M2X5 (+) BH BLK
2P PLUG ASS’Y SH-50101 (SM-2450)
COVER TOP ALDC12
RUBBER WASHER &6.2X&3.1XT0.5 N.B.R BLK
WASHER 6X3.2X0.5T SPC NI-PLAT
(+) MECHINE SCREW (PH) M3X20 (+) PH SUS
FOOT &11X5 RUBB.STIC.
RUBBER WASHER &6.2X&3.1XT0.5 N.B.R BLK
WASHER 6X3.2X0.5T SPC NI-PLAT
(+) MECHINE SCREW (PH) M3X20 (+) PH SUS
FOOT &11X5 RUBB.STIC.
(+) MACHINE SCREW (BH) M3X15 (+) BH ZN-PLAT
MIC BRACKET ASS’Y
(+) MACHINE SCREW (BH) M3X15 (+) BH ZN-PLAT
MIC BRACKET ASS’Y
WASHER 6X3.2X0.5T SPC NI-PLAT
WASHER SPRING M3 NI-PLAT
(+) MACHINE SCREW (BH) M3X6 (+) BH NI-PLAT
BRACKET SPC T2.0
WASHER 6X3.2X0.5T SPC NI-PLAT
WASHER SPRING M3 NI-PLAT
(+) MACHINE SCREW (BH) M3X6 (+) BH NI-PLAT
BRACKET SPC T2.0
SECURING SCREW M6X9 (P:1) BLK
WASHER FLAT M6 ZN-PLAT
SECURING SCREW M6X9 (P:1) BLK
WASHER FLAT M6 ZN-PLAT
WASHER SPRING M6 ZN-PLAT
(+) TAPPING SCREW (TH) T5X12-1S (+) TH ZN-PLAT
SHIELD PLATE SPTE T0.3
WASHER SPRING M6 ZN-PLAT
(+) TAPPING SCREW (TH) T5X12-1S (+) TH ZN-PLAT
SHIELD PLATE SPTE T0.3
SHIELD CAN SPTE T0.5
SHIELD CAN SPTE T0.5
SHIELD CAN (FR-P) NSP T0.2
SHIELD CAN (FR-P) NSP T0.2
FINGER STRIP SUS304 T0.3
FINGER STRIP SUS304 T0.3
CAP (FOR EXT. JACK)
CAP (FOR EXT. JACK)
WASHER SPRING M3 ZN-PLAT
WASHER SPRING M3 ZN-PLAT
Page-69-
December 98
Intentionally Left Blank
Page-70-
December 98
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