QUEST-X GX1500S

25 Watt VHF/FM ITU Class D DSC Marine Transceiver

Owner's Manual

Waterproof construction Commercial grade ITU Class D DSC VHF Independent Channel 70 receiver built-in for continuous DSC watching Capable of connecting up to one second station microphone Intercom between radio and second station microphone DSC position request and send functions with compatible STANDARD HORIZON GPS Chart plotters Versatile user-programmable scanning, priority scan and Dual Watch One-button access to Channel 16 and 9 Oversized rotary channel knob, backlit display and keys. Navigation information shown on display when optional GPS connected

GX1500S

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TABLE OF CONTENTS

GENERAL INFORMATION.... 4 PACKING LIST.... 4 OPTIONS..... 4 SAFETY / WARNING INFORMATION... 5 FCC RADIO LICENSE INFORMATION... 6 FCC NOTICE.... 7 GETTING STARTED.... 8 7.1 ABOUT VHF RADIO.... 8 7.2 SELECTING AN ANTENNA.... 8 7.3 COAXIAL CABLE.... INSTALLATION.... 10 8.1 LOCATION.... 10 8.2 ELECTRICAL CONNECTIONS.... 10 8.3 ACCESSORY CABLE.... 11 8.4 CONNECTION OF GPS WITH NMEA OUTPUT... 12 8.5 CHECKING GPS CONNECTIONS... 12 8.6 CHANGING THE GPS TIME... 13 8.7 CHANGING THE TIME LOCATION... 14 8.8 CHANGING COG TO TRUE OR MAGNETIC... 14 8.9 OPTIONAL MMB-84 FLUSH MOUNT INSTALLATION.. 15 8.10 OPTIONAL ENHANCED RAM+ SECOND STATION MIC AND/OR VH-310 HANDSET INSTALLATION.. CONTROLS AND INDICATORS... BASIC OPERATION.... 24 10.1 RECEPTION.... 24 10.2 TRANSMISSION.... 24 10.3 TRANSMIT TIME-OUT TIMER (TOT)... 24 10.4 SIMPLEX / DUPLEX CHANNEL USE... 25 10.5 USA, CANADA, AND INTERNATIONAL MODE.. 25 10.6 NOAA WEATHER CHANNELS... 25 10.6.1 NOAA Weather Alert... 25 10.6.2 NOAA Weather Alert Testing... 26 10.7 EMERGENCY (CHANNEL 16 USE)... 26 10.8 CALLING ANOTHER VESSEL (CHANNEL 16 OR 9).. 27 10.9 MAKING TELEPHONE CALLS... 27 10.10 OPERATING ON CHANNELS 13 AND 67... 28 10.11DUAL WATCH (TO PRIORITY CHANNEL)... 28 10.12 SCANNING.... 29 10.12.1 Selecting the Scan Mode.... 29 10.12.2 Memory Scanning (M-SCAN)... 29 10.12.3 Priority Scanning (P-SCAN).... 30 10.13 NAVIGATION INDICATION... 30 10.14 INTERCOM OPERATION... 31 10.14.1 Communication... 31 10.14.2 Calling.... DIGITAL SELECTIVE CALLING... 32 11.1 GENERAL.... 32 11.2 MARITIME MOBILE SERVICE IDENTITY (MMSI)... 33 11.2.1 What is an MMSI?.... 33 11.2.2 Programming the MMSI... 33 11.3 DSC DISTRESS CALL.... 34 11.3.1 Tansmitting a DSC Distress Call... 34 11.3.2 Receiving a DSC Distress Call... 36 11.4 ALL SHIPS CALL... 36 11.4.1 Transmitting an All Ships Call... 37 11.4.2 Receiving an All Ships Call.... 6 7

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11.5 INDIVIDUAL CALL.... 38 11.5.1 Setting up the Individual / Position Call Directory... 38 11.5.2 Setting up Individual Ringer.... 39 11.5.3 Setting up Individual / Group Call Ringer.. 40 11.5.4 Transmitting an Individual Call... 41 11.5.5 Receiving an Individual Call.... 43 11.5.6 Setting up the Call Waiting Function... 43 11.6 GROUP CALL.... 44 11.6.1 Setting up a Group Call... 44 11.6.2 Transmitting a Group Call... 45 11.6.3 Receiving a Group Call... 47 11.7 POSITION REQUEST... 48 11.7.1 Setting up Position Reply... 48 11.7.2 Transmitting a Position Request to Another Vessel.. 49 11.7.3 Receiving a Position Request... 51 11.8 POSITION SEND.... 52 11.8.1 Setting up Position Send Ringer... 52 11.8.2 Transmitting a DSC Position Send Call.. 53 11.8.3 Receiving a DSC Position Send Call... 54 11.9 MANUAL INPUTTING OF THE GPS LOCATION (LAT/LON).. 55 RADIO SETUP MODE.... 56 12.1 LAMP ADJUSTING.... 56 12.2 LCD CONTRAST.... 56 12.3 TIME OFFSET... 57 12.4 TIME LOCATION.... 58 12.5 TRUE MAGNETIC CHANGE (NAV display).. 58 12.6 PRIORITY CHANNEL SET... 59 12.7 SCAN TYPE.... 59 12.8 SCAN RESUME TIME.... 60 12.9 KEY BEEP (ON/OFF)... 60 12.10 WX ALERT.... 61 12.11 CHANNEL NAME CHANGE... 62 12.12 NAMING THE RADIO OR RAM+ STATIONS.. 63 ENHANCED RAM+ MIC OPERTION... 64 13.1 RAM+ MIC CONTROLS.... 64 13.2 INTERCOM OPERTION... 67 13.2.1 Communication.... 67 13.2.2 Calling.... 67 13.3 DSC / RADIO SETUP MODE... 68 VH-310 HANDSET OPERATION... 70 14.1 VH-310 HANDSET CONTROLS... 70 14.2 INTERCOM OPERTION... 74 14.2.1 Communication.... 74 14.2.2 Calling.... 74 14.3 MANUAL INPUTTING OF THE GPS LOCATION (LAT/LON).. 75 14.4 DSC / RADIO SETUP MODE... 76 14.4.1 Changing GPS Information to Vessel position or COG.. 77 14.4.2 External Speaker AF Selection... 77 MAINTENANCE.... 78 15.1 REPLACEMENT PARTS.... 78 15.2 FACTORY SERVICE... 79 15.3 TROUBLESHOOTING CHART.... 80 CHANNEL ASSIGNMENTS.... 82 WARRANTY.... 88 SPECIFICATIONS.... 91

8.2 ELECTRICAL CONNECTIONS
CAUTION Reverse polarity connections will damage the radio! Connect the power cord and antenna to the radio. Antenna and Power Supply connections are as follows (see Figure 1):
Optional Speaker Optional CMP25 RAM+ Mic. GPS Navigation Receiver
Antenna Accessory Cable Water proof Deck Outlet Fuse

Power Source

Figure 1. General Installation
1. Mount the antenna at least 3 feet away from the radio. At the rear of the radio, connect the antenna cable. Page 10 GX1500S
2. Connect the red power wire to a 13.8 VDC 20% power source. Connect the black power wire to a negative ground. 3. If an optional remote extension speaker is to be used, refer to next section for connections. 4. It is advisable to have a Certified Marine Technician check the power output and the standing wave ratio of the antenna after installation.

8.3 ACCESSORY CABLE

External speaker (+) External speaker () NMEA IN (+) from GPS navigation receiver NMEA IN () from GPS navigation receiver NMEA OUT (+) to GPS navigation receiver When connecting the external speaker or GPS navigation receiver, strip off about 1 inch (2.5 cm) of the specified wires insulation, then splice the ends together using proper waterproofing techniques.

PA Speaker

Shield White Blue Green Gray NMEA OUT ( ) NMEA OUT ( ) NMEA IN ( )

GPS Receiver

Wire Color/Description WHITE - External Speaker (+) SHIELD - External Speaker () BLUE- NMEA Input (+) GREEN - NMEA Input () GRAY- NMEA Output (+) BROWN-NMEA Output ()
Connection Examples Connect to external 4 Ohm audio speaker Connect to external 4 Ohm audio speaker Connect to NMEA (+) output of GPS Connect to NMEA () output of GPS Connect to NMEA (+) input of GPS No connection

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8.4 CONNECTION OF GPS WITH NMEA OUTPUT
Wires Green Blue STANDARD HORIZON Brown Furuno GP30, 36 White Blue Furuno GP1650, 1850 White Black Garmin Fixed Mounts Blue Black (GND) Garmin Portables Brown Black (GND) JRC GPS500 Yellow Green JRC 100 SERIES Green Black JRC 200 SERIES White Black Lowrance Fixed Mount White Black (GND) Manufacturer/Model GX3500S Green Gray Blue Blue Green Blue Green Blue Green Blue Green Blue Green Blue Green Blue Green Blue Green Manufacturer/Model Lowrance Portable Wires Orange Black (GND) Magellan Fixed Mount Gray Black (GND) Magellan Portable Orange Black (GND) Northstar Yellow Black (GND) Raytheon 420 Yellow Brown Raytheon 520 / 620 Blue Brown Raytheon RL SERIES White Brown Simrad White Brown Sitex Neptune, Nautilus Gray Brown GX3500S Blue Green Blue Green Blue Green Blue Green Blue Green Blue Green Blue Green Blue Green Blue Green

The GPS must have the NMEA Output turned on and set to 4800 Baud in the setup menu. If there is a selection for parity select none. For further information on interfacing /setting up your GPS. Please contact the manufacturer of the GPS receiver. GX1500S can read NMEA-0183 version 2.0 or higher. The NMEA supported sentences are: Input: GLL, GGA, RMC and GNS (RMC sentence is recommended) Output: DSC and DSE (DSC sentences to Standard Horizon Plotter for Position Polling)
If you have further inquires, please feel free to contact Product Support at: Phone: (800) 767-2450 Email: marinetech@vxstdusa.com
8.5 CHECKING GPS CONNECTIONS
After connections have been made between the GX1500S and the GPS, a small satellite icon will appear on the top right corner of the LCD display. To see the additional GPS information, press and hold the [H/L(NAV)] key. The GX1500S shows the Date, Time, SOG and COG.

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8.6 CHANGING THE GPS TIME
From the Factory the GX1500S shows GPS satellite time or UTC time. A time offset is needed to show the local time in your area. 1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Press the [ENT] key, then select Time Set with the CHANNEL selector knob. 3. Press the [ENT] key. 4. Turn the CHANNEL selector knob to select time offset from UTC. See illustration below to find your offset time from UTC. If 0:00 is assigned, the time is the same as UTC (Universal Time Coordinated or GMT Greenwich Mean Time). 5. Press the [ENT] key to store the time offset. 6. Press the [16/9] key or turn the CHANNEL selector knob to select Exit, then press the [ENT] key to return to the Radio Setup menu, select Exit and press the [ENT] key to return to radio operation.
OFFSET TIME TABLE GX1500S Page 13
8.7 CHANGING THE TIME LOCATION
Sets the radio to show UTC time or local time with the offset inputted in section 8.6 Changing the GPS Time. 1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Press the [ENT] key, then select Time Disp in the Radio Setup menu with the CHANNEL selector knob. 3. Press the [ENT] key. 4. Turn the CHANNEL selector knob to select UTC or Local. 5. Press the [ENT] key to store the selected setting. 6. To exit this menu and return to radio operation mode press the [16/9] key. In the local time mode, the display shows the time by the 12-hour system. Meanwhile, the display shows the time by the 24-hour system in the UTC mode.

(UTC mode)

(LOCAL mode)
8.8 CHANGING COG TO TRUE OR MAGNETIC
Allows customizing the NAV data showing GPS Course Over Ground (COG). Factory default is True however following the steps below the COG can be changed to Magnetic. 1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Press the [ENT] key, then select Magnetic with the CHANNEL selector knob. 3. Press the [ENT] key. 4. Turn the CHANNEL selector knob to select On (representing Magnetic) or Off (representing True). 5. Press the [ENT] key to store the selected setting. 6. Turn the CHANNEL selector knob to select Exit, then press the [ENT ] key to return to the Radio Setup menu, select Exit and press the [ENT] key to return to radio operation. Page 14 GX1500S
8.9 OPTIONAL MMB-84 FLUSH MOUNT INSTALLATION
1. To assist in flush mounting, a template has been included. Use this template to find the mounting location. 2. Use the template to mark the location where the rectangular hole is to be cut. Confirm the space behind the dash or panel is deep enough to accommodate the transceiver (at least 6 inches or 15 cm deep). There should be at least 1/2 inch (1.3 cm) between the transceivers heatsink and any wiring, cables or structures. 3. Cut out the rectangular hole and insert the transceiver. 4. Fasten the brackets to the sides of the transceiver with the lock washer nut combination; so that the mounting screw base faces the mounting surface (see Figure 2). 5. Turn the adjusting screw to adjust the tension so that the transceiver is tight against the mounting surface.

Bracket Adjusting Screw

Lock-washer nut combination
Figure 2. MMB-84 Flush Mount Installation

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8.10 OPTIONAL ENHANCED RAM+ SECOND STATION MIC AND/OR VH-310 HANDSET INSTALLATION
The GX1500S is capable of using a Enhanced RAM+ mic or VH-310 Handset to remotely control the Radio, DSC, and Distress functions. In addition the GX1500S can operate as a full function intercom system. 1. Connect the Routing Cable to the Remote Mic eight pin connector on the rear panel, then tighten the Cable Nut (See Figure 3). 2. Referring to Figure 4, make a 1.2 (30 mm) hole in the wall, then insert the Routing Cable into this hole. Connect the Gasket and Mount Base to the Routing Cable Connector using the Nut. 3. Drill the four Screw holes (approx. 2 mm) on the wall, then install the Mounting Base to the wall using four screws. 4. Put the Rubber Cap on to the Nut. The installation is now complete. 5. Wires for a external speaker are provided on the Routing Cable. Connect any 8 Ohm external speaker. When connected the RAM+ (or VH-310 Handset) controls the volume level of this speaker.

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MICROPHONE Transmits the voice message with reduction of background noise, using Clear Voice Noise Reduction Technology. NOTE: Be sure your mouth is about 1/2 inch from the mic hole for best performance. [UP( )] / [DOWN( )] KEYS The [UP( )] and [DOWN( )] on the microphone function the same as the CHANNEL selector knob on the front panel of the transceiver. [16/9] Key The [16/9] key on the microphone function the same as the [16/9] key on the front panel of the transceiver. Immediately recalls channel 16 from any channel location. Holding down this key recalls channel 9. Pressing the [16/9] key again reverts to the previous selected working channel.

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10 BASIC OPERATION

10.1 RECEPTION
1. After the transceiver has been installed, ensure that the power supply and antenna are properly connected. 2. Press and hold the VOL/PWR knob until the radio turns on. 3. Turn the SQL knob fully counterclockwise. This state is known as squelch off. 4. Turn up the VOL knob until noise or audio from the speaker is at a comfortable level. 5. Turn the SQL knob clockwise until the random noise disappears. This state is known as the squelch threshold. 6. Turn the CHANNEL selector knob to select the desired channel. Refer to the channel chart on page 83 for available channels. 7. When a message is received, adjust the volume to the desired listening level. The indicator in the LCD is displayed indicating that the channel is being used.

10.2 TRANSMISSION

1. Perform steps 1 through 6 of RECEPTION. 2. Before transmitting, monitor the channel to ensure it is clear. THIS IS AN FCC REQUIREMENT! 3 Press the PTT (push-to-talk) switch. The indicator in the LCD is displayed. 4. Speak slowly and clearly into the microphone. 5. When the transmission is finished, release the PTT switch. NOTE This is a noise-canceling microphone. The oval slot on the bottom of microphone should be positioned within 1/2 inch (1.3 cm) from the mouth for optimum performance.
10.3 TRANSMIT TIME - OUT TIMER (TOT)
When the PTT switch on the microphone is held down, transmit time is limited to 5 minutes. This limits unintentional transmissions due to a stuck microphone. About 10 seconds before automatic transmitter shutdown, a warning beep will be heard from the speaker(s). The transceiver will automatically go to receive mode, even if the PTT switch is continually held down. Before transmitting again, the PTT switch must first be released and then pressed again.

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10.4 SIMPLEX/DUPLEX CHANNEL USE
Refer to the VHF MARINE CHANNEL CHART (page 83) for instructions on use of simplex and duplex channels. NOTE All channels are factory-programmed in accordance with International, Industry Canada (Canada), and FCC (USA) regulations. Mode of operation cannot be altered from simplex to duplex or vice-versa.

10.9 MAKING TELEPHONE CALLS
To make a radiotelephone call, use a channel designated for this purpose, The fastest way to learn which channels are used for radiotelephone traffic is to ask at a local marina. Channels available for such traffic are designated Public Correspondence channels on the channel charts in this manual. Some examples for USA use are Channels 24, 25, 26, 27, 28, 84, 85, 86, and 87. Call GX1500S Page 27
the marine operator and identify yourself by your vessels name, The marine operator will then ask you how you will pay for the call (telephone credit card, collect, etc.) and then link your radio transmission to the telephone lines. The marine telephone company managing the VHF channel you are using may charge a link-up fee in addition to the cost of the call.
10.10 OPERATING ON CHANNELS 13 AND 67
Channel 13 is used at docks and bridges and by vessels maneuvering in port. Messages on this channel must concern navigation only, such as meeting and passing in restricted waters. Channel 67 is used for navigational traffic between vessels. By regulation, power is normally limited to 1 Watt on these channels. Your radio is programmed to automatically reduce power to this limit on these channels. However, in certain situations it may be necessary to temporarily use a higher power. See page 20 ([H/L(NAV)] key) for means to temporarily override the low-power limit on these two channels.
10.11 DUAL WATCH (TO PRIORITY CHANNEL)
Dual watch allows the radio to monitor one channel and the assigned Priority channel. By default the priority channel is set to 16, however the priority channel may be changed by referring to section 12.6 PRIORITY CHANNEL SET. 1. Adjust the SQL knob until the background noise disappears. 2. Select the channel you wish to dual watch to Priority channel. 3. Press the [DW(IC)] key. The display will scan between Priority channel and the channel that was selected in step 2. If a transmission is received on the channel selected in step 2, the GX1500S will dual watch between the working channel and the Priority channel. 4. To stop Dual Watch, press the [DW(IC)] key again.

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10.12 SCANNING
Allows the user to select the scan type from Memory scan or Priority scan. Memory scan scans the channels that were programmed into memory. Priority scan scans the channels programmed in memory with the priority channel.
10.12.1 Selecting the Scan Type
1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Press the [ENT] key, then select SCAN Type in the Radio Setup menu with the CHANNEL selector knob. 3. Press the [ENT] key. 4. Turn the CHANNEL selector knob to select Priority or Memory. 5. Press the [ENT] key to store the selected setting. 6. To exit this menu and return to radio operation mode press the [16/9] key.

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11.2 MARITIME MOBILE SERVICE IDENTITY (MMSI)

11.2.1 What is an MMSI?

An MMSI is a nine digit number used on Marine Transceivers capable of using Digital Selective Calling (DSC). This number is used like a telephone number to selectively call other vessels. THIS NUMBER MUST BE PROGRAMMED INTO THE RADIO TO OPERATE THE GX1500S DSC FUCTIONS. How can I obtain an MMSI assignment? Boat US offers online registration of a MMSI. Visit www.boatus.com/mmsi
11.2.2 Programming the MMSI
WARNING User MMSI can be input only twice. If the user tries to input an MMSI more than twice, the radio will show the display on the right. If the user needs to change the MMSI more than twice, the transceiver will have to be sent to Factory Service. Refer to the section 15.2. FACTORY SERVICE. 1. Press and hold down the [CALL(MENU)] key until the Radio Setup menu appears. 2. Turn the CHANNEL selector knob to the left to select DSC Setup menu. 3. Press the [ENT] key, then select User MMSI with the CHANNEL selector knob. 4. Press the [ENT] key. The display will show a series of dashes or the last MMSI number if programmed. 5. Turn the CHANNEL selector knob or press the [UP( )] / [DOWN( )] key on the microphone to select the first number of your MMSI, then press the [ENT] key to step to the next number. 6. Repeat step 5 to set your MMSI (up to nine digits). 7. When finished programming the number, press and hold the [ENT] key to store the number in memory. 8. To exit this menu and return to radio operation mode press the [16/9] key.

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11.3 DSC DISTRESS CALL
The GX1500S is capable of transmitting and receiving DSC Distress messages to all DSC radios. The GX1500S may be connected to a GPS to also transmit the Latitude, Longitude of the vessel.
11.3.1 Transmitting a DSC Distress Call
NOTE To be able to transmit a DSC distress call an MMSI number must be programmed, refer to section 11.2.2 Programming the MMSI. In order for your ships location to be transmitted a GPS must be connected to the GX1500S, refer to section 8.4 CONNECTION OF GPS WITH NMEA OUTPUT. 1. Lift the red spring loaded DISTRESS cover and press the [DISTRESS] key. The DISTRESS menu will appear on the LCD. 2. Press and hold the [DISTRESS] key. The radios display will count down (5-4-3-2-1) and then transmit the Distress call. 3. When the distress signal is sent, CH70 and icon will appear on the LCD. After the message has been sent, the radio will sound a Distress Alarm. 4. The transceiver will watch for a DSC acknowledgment transmission on CH70 and also receive calls on CH16. 5. If an acknowledgement is received, select channel 16 and advise your distress situation. 6. If no acknowledgment is received, the distress call is repeated in 4 minute intervals until a DSC acknowledgment is received. 7. When a DSC Distress acknowledgment is received, a distress alarm sounds and channel 16 is automatically selected. The LCD shows the MMSI of the ship responding to your distress. RECEIVED ACK: acknowledgment signal is received. RECEIVED RLY: relay signal is received from another vessel or coast station. 8. To cancel the DSC distress alarm signal from the speaker, press any key.

11. If a mistake was made entering in the name or the MMSI number repeat pressing the [H/L(NAV)] key until the wrong character is selected, then move the channel knob to correct the entry. 12. To store the data entered, press and hold the [ENT] key. 13. To enter another individual address, repeat steps 4 through 12. 14. To exit this menu and return to radio operation mode press the [16/9] key.
11.6.2 Transmitting a Group Call
Pre-Programmable Calling 1. Press the [CALL(MENU)] key. The DSC Operation menu will appear. 2. Turn the CHANNEL selector knob to select Group. (To cancel, select Exit with the CHANNEL selector knob or press [16/9] key.) 3. Press the [ENT] key. The transceiver will beep, and the Group Directory will appear. 4. Turn the CHANNEL selector knob to select the Group you want to contact. 5. Press the [ENT] key, then turn the CHANNEL selector knob to select the operating channel you want to communicate on and press the [ENT] key. 6. Press the [ENT] key again to transmit the Group Call signal. 7. After the GROUP CALL is transmitted, all the radios in the group will switch to the designated channel. 8. Listen to the channel to make sure it is not busy, then key the microphone and call the other vessels you desire to communicate with.

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Manual Calling You may enter an MMSI number manually to contact without the Setting up the Group call number. 1. Press the [CALL(MENU)] key. The DSC Operation menu will appear. 2. Turn the CHANNEL selector knob to select Group. (To cancel, select Exit with the CHANNEL selector knob or press [16/9] key.) 3. Press the [ENT] key. The transceiver will beep, and the Group Directory will appear. 4. Turn the CHANNEL selector knob to select Manual, then press the [ENT] key. 5. Turn the CHANNEL selector knob to scroll through numbers, 0-9. To enter the desired number and move one space to the right press the [ENT] key. Repeat this procedure until all nine space of the MMSI number which you want to contact are entered. 6. If a mistake was made entering in the MMSI number repeat pressing the [H/L(NAV)] key until the wrong nunber is selected, then move the channel knob to correct the entry. 7. When finish the entering the MMSI number, press and hold the [ENT] key. 8. Press the [ENT] key to transmit the Group Call signal. 9. After the GROUP CALL is transmitted, all the radios in the group will switch to the designated channel. 10. Listen to the channel to make sure it is not busy, then key the microphone and call the other vessels you desire to communicate with.

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11.6.3 Receiving a Group Call
1. When a group call is received, the GX1500S will produce a ringing alarm sound. 2. The radio automatically switches to the requested channel. 3. Press any key to stop the alarm. 4. Monitor the channel for the person calling the Group for a message. 5. If you want to respond, monitor the channel to make sure it is clear, then press the PTT on the mic and talk to the calling ship(s). NOTE After a Group call is received, the time the call was made and the ships MMSI or vessels name will appear on the LCD.

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11.8 POSITION SEND
The feature is similar to Position Request, however instead of requesting a position of another vessel this function allows you to send your position to another vessel. Your vessel must have an operating GPS receiver connected for the GX1500S to send the position.
11.8.1 Setting up a Position Send Ringer
The GX1500S has the capability to turn off the Position Send ringer. 1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Turn the CHANNEL selector knob to select DSC Setup menu. 3. Press the [ENT] key, then select DSC Beep with the CHANNEL selector knob. 4. Press the [ENT] key. 5. Turn the CHANNEL selector knob to select POS Send. 6. Turn the CHANNEL selector knob to select Off. 7. Press the [ENT] key to store the selected setting. 8. To exit this menu and return to radio operation mode press the [16/9] key. If you wish to return to enabling the ringer tone, just repeat the above procedure, turning the CHANNEL selector knob to select On in step 6 above.

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11.8.2 Transmitting a DSC Position Send Call
Pre-Programmable Calling 1. Press the [CALL(MENU)] key. The DSC Operation menu will appear in the display. 2. Turn the CHANNEL selector knob to select the POS Send. 3. Press the [ENT] key to select the Individual directory. 4. Turn the CHANNEL selector knob to select a name in the directory, then press the [ENT] key. 5. Press the [ENT] key to send your position to the selected vessel.
Manual Calling You may enter an MMSI number manually to contact without the Setting up the Individual / Position Call Directory. 1. Press the [CALL(MENU)] key. The DSC Operation menu will appear in the display. 2. Turn the CHANNEL selector knob to select the POS Send. 3. Press [ENT] key to show the Position Send directory. This directory uses the INDIVIDUAL Directory information. 4. Turn the CHANNEL selector knob to select Manual, then press the [ENT] key. 5. Enter the MMSI number (nine digits) which you want to contact, then press the [ENT] key. 6. Press the [ENT] key to send your position to the selected vessel.

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11.8.3 Receiving a DSC Position Send Call
When another vessel transmits their location to the GX1500S the following will happen: 1. A ringing sound will be produced when the call is received. 2. Press the [16/9] key to stop ringing 3. The position from the calling vessel will be shown on the display of the radio and also transferred to any Standard Horizon GPS Chart plotter if connected.

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11.9 MANUAL INPUTTING OF THE GPS LOCATION (LAT/LON)
You may send the Latitude/Longitude of your vessel manually even if the GX1500S is not connected the GPS receiver unit. After the position is entered, transmitting a DSC Distress, Position Request, or Position Send will contain the manually entered position. 1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Turn the CHANNEL selector knob to select DSC Setup menu. 3. Press the [ENT] key, then select POS Input with the CHANNEL selector knob. 4. Press the [ENT] key. The transceiver will beep, and the display will be as shown in the illustration on the right. 5. Enter the your local time by the 24-hour system on the UTC time. Use the [ENT] and [H/L(NAV)] key to navigate to each column of the time, then use the CHANNEL selector knob to select the desired numbers in each colum. Repeat for each column, to complete the time. 6. Enter the Latitude/Longitude of your vessel location with the same procedure as description above. 7. To store the data entered, press the [ENT] key. To exit this menu and return to radio mode press the [16/9] key.

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12.10 WX ALERT
This selection allows the radios NOAA Weather alert to be turned off. Default setting is ON. 1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Press the [ENT] key, then select WX Alert in the Radio Setup menu with the CHANNEL selector knob. 3. Press the [ENT] key. 4. Turn the CHANNEL selector knob to select the desired WX alert mode. The WX alert mode can be set to On WX, On SCAN, On SCAN/WX, or Off. 5. Press the [ENT] key to store the selected setting. 6. To exit this menu and return to radio operation mode press the [16/9] key.

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12.11 CHANNEL NAME CHANGE
This selection allows you to customize the name of a channel from the default name. 1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Press the [ENT] key, then select CH Name in the Radio Setup menu with the CHANNEL selector knob. 3. Press the [ENT] key. 4. Turn the CHANNEL selector knob to select the channel to be named, then press the [ENT] key. 5. Turn the CHANNEL selector knob to scroll through the first letter of the channel name. 6. Press the [ENT] key to store the first letter in the name and step to the next letter to the right. 7. Repeat step 6 and 7 until the name is complete. The name can consist of up to twelve characters, if you do not use all twelve characters press the [ENT] key to move to the next space. This method can also be used to enter a blank space in the name. To clear the previous letter, press the [CLR] key. 8. Press and hold the [ENT] key to enter the name and exit from the CH Name menu. The LCD will return to the Radio Setup menu. 9. If you want to enter the name of another channel, select Next then press the [ENT] key. Otherwise, select Exit then press the [ENT] key. 10. To exit this menu and return to radio operation mode press the [16/9] key.

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12.12 NAMING THE RADIO OR SECOND STATION MIC OR HANDSET
This selection allows you to provide the name to the radio and optional RAM+ Mics when connected. 1. Press and hold down the [CALL(MENU)] key until Radio Setup menu appears. 2. Press the [ENT] key, then select Unit Name in the Radio Setup menu with the CHANNEL selector knob. 3. Press the [ENT] key. 4. Turn the CHANNEL selector knob to select the Unit (Radio or RAM1) to be named, then press the [ENT] key. 5. Turn the CHANNEL selector knob to scroll through the first letter of the channel name. 6. Press the [ENT] key to store the first letter in the name and step to the next letter to the right. 7. Repeat step 6 and 7 until the name is complete. The name can consist of up to twelve characters, if you do not use all twelve characters press the [ENT] key to move to the next space. This method can also be used to enter a blank space in the name. To clear the previous letter, press the [CLR] key. 8. Press and hold the [ENT] key to enter the name and return to the Unit Name menu. 9. If you want to enter the name of another unit, repeat steps 4 through 8. 10. To exit this menu and return to radio operation mode press the [16/9] key.

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13 ENHANCED RAM+ MIC OPERATION
When the RAM+ microphone is connected to the GX1500S, most VHF, DSC, and setup menus can be remotely operated. The RAM+ Mic is supplied with 23 feet (7 m) of routing cable and can be extended up to 70 feet (21 m) using three 23 feet extension cables model CT-100. The intercom operation can be used between the RAM+ Mic and the transceiver.

13.1 RAM+ MIC CONTROLS

CALL SET
SQUELCH CONTROL (SQL) Activates the squelch adjusting mode. Press this key to activate the squelch adjusting mode. Press the microphones [ ] or [ ] key to adjust the squelch. When this key is pressed and held down for 1 second or more, the squelch is turned off. VOLUME KEY (VOL) Activates the volume adjusting mode. Press this key to activate the volume adjusting mode. Press the microphones [ ] or [ ] to adjust the volume. Page 64 GX1500S
POWER SWITCH (PWR) Press and hold down this key to turn to the transceiver and RAM+ Mic on and off. PTT (Push-To-Talk) SWITCH Activates transmission. [H/L] KEY Toggles between high and low power. When the [H/L] key is pressed while the transceiver is on channel 13 or 67, the power will temporarily switch from LO to HI power until the PTT is released. The [H/L] key does not function on transmit inhibited and low power only channels. [ ](UP)/[ ](DOWN) KEY These keys are used to select channels, adjust the volume and squelch level, and to choose the item selection of different functions (such as the DSC operation). In many ways, these keys emulate the function of the transceivers CHANNEL selector knob. [16/9] KEY Immediately recalls channel 16 from any channel location. Holding down this key recalls channel 9. Pressing the [16/9] key reverts to the previous selected working channel. Secondary use Please see secondary use for the [WX] and [MEM] key. KEY PAD [SCAN] Key 1. Starts and stops scanning of programmed channels. 2. If held while the [UP( )] or [DOWN( )] key on the microphone are pressed, the radio will show the channels programmed in scan memory. This function will not work if the unit is scanning. NOTE: The priority channel by default is Channel 16, however the priority channel can be changed. To select a different priority channel refer to section 12.7 SCAN TYPE. [CALL/SET] Key The [CALL/SET] key functions as the enter key. Secondary use Press the [CALL/SET] key to access the DSC OPERATION menu. Press and hold the [CALL/SET] key to access the SETUP menu.

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[DW] Key Watches for a transmission on CH16 and another selected channel until either signal is received. (Dual watch) Secondary use Press and hold [DW] key, intercom operation will operate between radio and RAM+ Mic. [NAV] Key Press this key, when connected to the GPS receiver, the LCD displays Position Data and Time from the GPS. [WX] Key Immediately recalls the previously selected US NOAA weather channel from any channel location. Secondary use Holding down the [16/9] key while pressing the [WX] key switch the Channel Group. NOTE: If position is displayed, this icon will be hidden. [DISTRESS] KEY Used to send a DSC Distress Call. To send the distress call refer to section 11.3.1. Transmitting a DSC Distress Call.

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15.3 TROUBLESHOOTING CHART
SYMPTOM Transceiver fails to power up. PROBABLE CAUSE REMEDY No DC voltage to the a. Check the 12VDC battery connections and transceiver, or blown the fuse. fuse. b. The PWR key needs to be pressed and held to turn the radio on. Reversed power wires. Check the power cable for DC voltage, or replace the fuse (6A 250V). Make sure the red wire is connected to the positive (+) battery post, and the black wire is connected to the negative (-) battery post. If the fuse still blows, contact your Dealer. Reroute the DC power cables away from the engine. Add noise suppressor on power cable. Change to resistive spark plug wires and/or add an alternator whine filter. Check the connections of the accessory cable (Possible short circuit on the External speaker cable WHITE/SHIELD). Have the antenna checked or test the transceiver with another antenna. If the problem persists, contact your Dealer for servicing. Confirm that the connected power supply voltage is not 17 volts or lower than 10 volts. Confirm that the generator has not malfunctioned. Check the accessory cable connection. Some GPS use the battery ground line for NMEA connection. Check the output signal format of the GPS navigation receiver. This radio requires NMEA0183 format with GLL, RMB, GGA, or GNS sentence as an output signal. If the GPS has a baud rate setting make sure to select 4800 and parity to NONE.
Transceiver blows fuse when connected to power supply.
Popping or whining noise from the speaker while engine runs. Sound is not emitted from the internal or external speaker. Receiving station report low transmit power, even with transceiver set to HI power. HI BATTERY or LO BATTERY message is appeared when the power is turned on. Your position is not displayed.

Engine noise.

Accessory cable.

Antenna.

The power supply voltage is too high or too low. Accessory cable.
Setting of the GPS navigation receiver.

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16 CHANNEL ASSIGNMENTS

Tables on the following columns list the VHF Marine Channel assignments for U.S.A. and International use. Below are listed some data about the charts. 1. VTS. Where indicated, these channels are part of the U.S. Coast Guards Vessel Traffic System. 2. Alpha channel numbers, that is, channel numbers followed by the letter A (such as Channel 07A) are simplex channels on the U.S.A. or Canadian channel assignments whose counterparts in the International assignments are duplex channels. International channels do not use alpha numbers. If you call the Coast Guard on Channel 16, they will sometimes ask you to go to channel 22 Alpha. This is a channel assigned to U.S.A, and Canadian Coast Guards for handling distress and other calls. If your radio is set for International operation you will go to Channel 22 instead of 22A, and will not be able to communicate with the Coast Guard. To use Channel 22A, your radio must be set for USA or Canada operation, usually by a U/I/C (USA/International/Canada) control or combination of controls. Channel 22 (without an A) is an International duplex channel for port operations. Some radios indicate an A adjacent to the alpha channels on the display; on others alpha is not indicated but the proper channel is selected based on the U/I/C setting. 3. Bridge-to-Bridge channels (for example, Channel 13) are for use by bridge operators on intercoastal waterways and rivers. It is also used by marine vessels in the vicinity of these bridges for navigation and for communicating with the bridge operators. Note that a limit of 1 Watt is specified for these channels. See page 28 for additional information. 4. The S/D column on the chart indicates either S (simplex) or D (duplex). Simplex means transmitting and receiving on the same frequency. Only one party at a time can talk, unlike a telephone. Be sure to say over and release your microphone push-to-talk switch at the end of each transmission. Duplex operation involves the use of one frequency for transmitting and a separate frequency for receiving. On channels specified as duplex on the charts, correct mode of operation is established automatically by your radio when you select a channel; you cannot change the mode. And you still must release the push-to-talk switch after each transmission in order to listen to the radio. 5. Channels normally used by recreational boaters are those that include the term non-commercial in the Channel Use column of the chart. Some of these are shared with other users and some are used only in certain geographic regions. Page 82 GX1500S

Points of communication (Intership and beChannel tween coast and ship designator Coast u n l e s s o t h e r w i s e Ship transmit transmit iandicated) Noncommercial 156.425 156.0916 156.450 156.156.475 156.156.575 156.156.625. Intership only. 78A 156.925 156.925 79A 156.975 156.975 Great Lakes only. 80A 157.025 157.025 Do. 156.375. Internship only. Distress, Safety and Calling 16 156.800 156.800 EPRIB Intership Safety 06 156.300. a. Intership, or b. For SAR: Ship and aircraft for the U.S. Coast Guard. Environmental 1513. 156.750 Coast to ship only. Maritime Control 156.850 156.850 179,10 Liaison, U.S. Coast Guard 22A11 157.100 157.100 Ship, aircraft, and coast stations of the U.S. Coast Guard and at Lake Mead, Nev., ship and coast stations of the National Park Service, U.S. Department of the Interior. Carrier frequency (MHz)
1: 156.050 MHz and 156.175 MHz are available for port operations and commercial communications purposes when used only within the U.S. Coast Guard designated Vessel Traffic Services (VTS) area of New Orleans, on the lower Mississippi River from the various pass entrances in the Gulf of Mexico to Devils Swamp Light at River Mile 242.4 above head of passes near Baton Rouge. 2: 156.250 MHz is available for port operations communications use only within the U.S. Coast Guard designated VTS radio protection areas of New Orleans and Houston described in Sec. 80.383. 156.250 MHz is available for intership port operations communications used only within the area of Los Angeles and Long Beach harbors, within a 25nautical mile radius of Point Fermin, California. 3: 156.550 MHz, 156.600 MHz and 156.700 MHz are available in the U.S. Coast Guard designated port areas only for VTS communications and in the Great Lakes available primarily for communications relating to the movement of ships in sectors designated by the St. Lawrence Seaway Development Corporation or the U.S. Coast Guard. The use of these frequencies outside VTS and ship movement sector protected areas is permitted provided they cause no interference to VTS and ship movement communications in thier respective designated sectors.

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4: Use of 156.875 MHz is limited to communications with pilots regarding the movement and docking of ships. Normal output power must not exceed 1 watt. 5: 156.375 MHz and 156.650 MHz are available primarily for intership navigational communications. These frequencies are available between coast and ship on a secondary basis when used on or in the vicinity of locks or drawbridges. Normal output power must not exceed 1 watt. Maximum output power must not exceed 10 watts for coast stations or 25 watts for ship stations. 6: On the Great Lakes, in addition to bridge-to-bridge communications, 156.650 MHz is available for vessel control purposes in established vessel traffic systems. 156.650 MHz is not available for use in the Mississippi River from South Pass Lighted Whistle Buoy 2 and Southwest Pass entrance Midchannel Lighted Whistle Buoy to mile 242.4 above Head of Passes near Baton Rouge. Additionally it is not available for use in the Mississippi River-Gulf Outlet, the Mississippi River-Gulf Outlet Canal, and the Inner Harbor Navigational Canal, except to aid the transition from these areas. 7: Use of 156.375 MHz is available for navigational communications only in the Mississippi River from South Pass Lighted Whistle Buoy 2 and Southwest Pass entrance Midchannel Lighted Whistle Buoy to mile 242.4 above head of Passes near Baton Rouge, and in addition over the full length of the Mississippi River-Gulf Outlet Canal from entrance to its junction with the Inner Harbor Navigation Canal, and over the ull length of the Inner Harbor Navigation Canal from its junction with the Mississippi River to its entry to Lake Pontchartrain at the New Seabrook vehicular bridge. 8: Within 120 km (75 miles) of the United States/Canada border, in the area of the Puget Sound and the Strait of Juan de Fuca and its approaches, 157.425 MHz is half of the duplex pair designated as Channel 88. In this area, Channel 88 is available to ship stations for communications with public coast stations only. More than 120 km (75 miles) from the United States/Canada border in the area of the Puget Sound and the Strait of Juan de Fuca, its approaches, the Great Lakes, and the St. Lawrence Seaway, 157.425 MHz is available for intership and commercial communications. Outside Puget Sound area and its approaches and the Great Lakes, 157.425 MHz is also available for communications between commercial fishing vessels and associated aircraft while engaged in commercial fishing activities. 9: When the frequency 156.850 MHz is authorized, it may be used additionally for search and rescue training exercises conducted by state or local governments. 10: The frequency 156.850 MHz is additionally available to coast stations on the Great Lakes for transmission of scheduled Coded Marine Weather Forecasts (MAFOR), Great Lakes Weather Broadcast (LAWEB) and nscheduled Notices to Mariners or Bulletins. F3C and J3C emissions are permitted. Coast Stations on the Great Lakes must cease weather broadcasts which cause interference to stations operating on 156.800 MHz until the interference problem is resolved. 11: The frequency 157.100 MHz is authorized for search and rescue training exercises by state or local government in conjunction with U.S. Coast Guard stations. Prior U.S. Coast Guard approval is required. Use must cease immediately on U.S. Coast Guard request. 12: The duplex pair for channel 20 (157.000/161.600 MHz) may be used for ship to coast station communications. 13: Available for assignment to coast stations, the use of which is in accord with an agreed program, for the broadcast of information to ship stations concerning the environmental conditions in which vessels operate, i.e., weather; sea conditions; time signals; notices to mariners; and hazards to navigation. 14: Available only in the Puget Sound and the Strait of Juan de Fuca. 15: The frequency 156.525 MHz is to be used exclusively for distress, safety and calling using digital selective calling techniques. No other uses are permitted. 16: The frequency 156.450 MHz is available for intership, ship and coast general purpose calling by noncommercial vessels, such as recreational boats and private coast stations. 17: The frequency 156.425 MHz is assigned by rule to private coast stations in Alaska for facsimile transmissions as well as voice communications.

25 Watt VHF/FM Marine Transceiver

QUEST-X

GX1500S

SERVICE MANUAL

EM017N90A

Specifications

GENERAL
Channels: Input Voltage: Current Drain: All USA, International, and Canadian 13.8 VDC 20% Standby 0.4 A Receive 1.5 A Transmit 5.5 A (Hi); 1.5 A (Lo) Dimensions (H x W x D): 3.1 x 7 x 5.7 (80 x 180 x 145 mm) Flush-Mount Dimensions (H x W x D): 2.5 x 6.3 x 5.1 (64 x 160 x 130 mm) Weight: 2.2 lbs (1 kg)

TRANSMITTER

Frequency Range: RF Output: Conducted Spurious Emissions: Audio Response: Audio Distortion: Modulation: Frequency Stability: FM Hum and Noise: 156.025 to 157.425 MHz 25 W (Hi); 1 W (Lo) 80 dB (Hi); 60 dB (Lo) within +1/3 of a 6 dB/octave pre-emphasis characteristic at 300 to 3000 Hz 5% 16K0G3E, for DSC 16K0G2B 0.0005% (20C to +50C) 50 dB

RECEIVER

Frequency Range: Sensitivity: 156.050 to 163.275 MHz 12 dB SINAD 0.25 V 12 dB SINAD (70 CH Receiver) 0.3 V Squelch Sensitivity (Threshold) 0.2 V 7.5 kHz better than 80 dB (Spurious and Image Rejection) better than 75 dB (Intermodulation and Rejection at 12 dB SINAD) 4.5 W within +2/8 of a 6 dB/octave de-emphasis characteristic at 300 to 3000 Hz 0.0005 % (20C to +50C) 25 kHz ITU Class D Output - DSC, DSE Input - GLL, GGA, RMC, and GNS
Modulation Acceptance Bandwidth: Selectivity: Audio Output: Audio Response: Frequency Stability: Channel Spacing: DSC Format: NMEA Input/Output:
Performance specifications are nominal, unless otherwise indicated, and are subject to change without notice. Measurements are made in accordance with EN301 025. All stated specifications are subject to change without notice or obligation.
Exploded View & Miscellaneous Parts
RA0747100 (WHITE) RA0765100 (BLACK) HOOK RA0745700 (WHITE) RA0745800 (BLACK) REAR CASE RA0423200 LOCK PLATE RA0493800 LOCK PLATE (DC CABLE) I J MAIN UNIT G1094216 POWER MODULE (S-AV37) RA0758500 SHIELD CASE (PM) RA0422900 O RING RA0292100 SHEET RA0745900 RUBBER KNOB RA0684000 LOCK PLATE RA0746700 O RING RA057000A REFLECTOR SHEET (L) RA0569700 LIGHT GUIDE RA0631800 INTER CONNECTOR (TOP2) G6090150 LCD RA0757800 LCD HOLDER RA0760300 SPONGE LCD RA0756400 RUBBER KNOB (7 KEY) RA0684000 LOCK PLATE (MIC) T9207267 WIRE ASSY CP8538001 COVER ASSY (DISTRESS) C CNTL UNIT RA080350A REFLECTOR SHEET (S) RA0631900 INTER CONNECTOR (BOTTOM) RA0756500 RUBBER KNOB (2 KEY) F RAM UNIT T9207270 WIRE ASSY E 1 RA0421500 (x2 pcs) O RING (SCREW) RA0756800 RUBBER PACKING (R) RA0757400 (WHITE) RA0758400 (BLACK) SLEEVE
H D RA0746800 RUBBER PACKING RA0746100 HOLDER (PTT) RA0746000 PTT KNOB MIC UNIT RA0434100 SHEET

P1091172 CONNECTOR

RA0748300 MIC HOLDER RUBBER

RA0747000 WEIGHT (MIC)

RA0292100 SHEET
RA0757100 (WHITE) RA0757200 (BLACK) FRONT CASE
T9207247 (WHITE) T9207249 (BLACK) WIRE ASSY (CURL CABLE)
A T9207269 WIRE ASSY H F G
S6000422 CAP J RA0756600 CHASSIS I G C B E

T9207265A WIRE ASSY

RA0493900 RUBBER PACKING (DC CABLE)
Non-designated parts are available only as part of a designated assembly.
VXSTD P/N RA0777900 T9023306 RA0436000 RA0458800 RA0784100 RA0784000 RA043770A RA045910A U9900147 REF. VXSTD P/N U05212020 U05307020 U20306020 U24208001 U24212020 U24306002 U24308002 U24316002 U24316020 U70002001 ACCESSORIES DESCRIPTION PANEL COVER DC CABLE MIC HOLDER (WHITE) MIC HOLDER (BLACK) MOBILE BRACKET (WHITE) MOBILE BRACKET (BLACK) BRACKET SCREW (WHITE) BRACKET SCREW (BLACK) SCREW SET

Receiver

Incoming RF signals from the antenna connector are delivered to the RF Unit, and pass through a low-pass filter (LPF) consisting of coils L1001 & L1002 and capacitors C1002, C1004, & C1007, and antenna switching diode D1004 (XB15A308) for delivery to the receiver front end. Signals within the frequency range of the transceiver are then passed through a bandpass filter consisting of coils L1010 & L1013 and capacitors C1059, C1060, C1062, C1094, & C1095, before RF amplification by Q1022 (3SK294). The amplified RF is then passed through a bandpass filter again consisting of coils L1027, L1028, & L1031 and capacitors C1165, C1166, C1167, C1168, C1169, C1191, & C1192, the pure in-band input signal is delivered to 1st mixer Q1031 (3SK131). Buffered output from the MAIN VCO is amplified by Q1032 (2SC5006) and low-pass filtered by coils L1038, L1040, & L1055 and capacitors C1216, C1217, C1245, and C1246, to provide a pure 1st local signal between 125.65 and 131.625 MHz for delivery to the 1st mixer Q1031 (3SK131). The 30.4 MHz 1st mixer product then passes through monolithic crystal filters XF1003 and XF1004 (6.5 kHz BW), and is amplified by Q1037 (2SC4400-3) and delivered to the input of the FM IF subsystem IC Q1039 (TA31136FN). This IC contains the 2nd mixer, 2nd local oscillator, limiter amplifier, FM detector, noise amplifier, and squelch gates. The 2nd local in the FM IF subsystem IC is produced from crystal X1001 (29.950 MHz), and the 1st IF is converted to 450 kHz by the 2nd mixer and stripped of unwanted components by ceramic filter CF1001. After passing through a limiter amplifier, the signal is demodulated by the FM detector. Demodulated receive audio from the FM IF subsystem IC is amplified by Q1046

Transmitter

Voice audio from the microphone is delivered to the MAIN Unit. After passing through microphone amplifier Q1002 (NJM12902V), a pre-emphasis network, limiter (IDC: instantaneous deviation control), and low-pass filter network Q1052 (LM2902PW), the audio is adjusted for optimum deviation level and delivered to the next stage. Voice or DSC (Digital Selective Calling) encode signal inputs from the low-pass filter network Q1052 (LM2902PW) is by the TX & SUB VCO Q1025 (2SK520-K4) and varactor diode D1010, D1011, D1012, & D1013 (all 1SV286B), which oscillates the fundamental transmit frequency with direct frequency-modulation using varactor diode D1009 (1SV325). The modulated signal passes through buffer amplifier Q1024 and Q1020 (both 2SC5006), diode switch D1007 (DAN235U) to drive amplifiers Q1014 (2SC5006) and RF power amplifier module Q1005 (S-AV37). The RF energy then passes through antenna switch D1002 (XB15A30B) and low-pass filter (LPF) consisting of coils L1001 & L1002 and capacitors C1002, C1004, & C1007, and finally to the antenna connector. RF output power from the RF power amplifier module Q1012 (S-AV37) is sampled by C1005 and C1006 and is rectified by D1001 (1SS321). The resulting DC is fed through Automatic Power Controllers Q1002 (LM2904PW) to RF power amplifier module Q1012 (SAV37), thus providing positive control of the power output. Generation of spurious products by the transmitter is minimized by the fundamental carrier frequency being equal to the final transmitting frequency, modulated directly in the transmit VCO. Additional harmonic suppression is provided by a low-pass filter consisting of coils and capacitors, resulting in more than 70 dB of harmonic suppression prior to delivery of the RF energy to the antenna. Buffered output from the TX & SUB VCO Q1025 (2SK520) is amplified by Q1024 and Q1020 (both 2SC5006) and bandpass filtered by coils L1021 & L1022 and capacitors C1106, C1107, C1121, C1122, & C1123, to provide a pure 1st local signal (134.225 MHz) for delivery to the SUB-RX 1st mixer Q1023 (3SK131). The 22.3 MHz 1st mixer product then passes through monolithic crystal filters XF1001 and XF1002 (6.5 kHz BW) and buffer amplifier Q1028 (2SC4400-3), then delivere to the SUB-RX FM IF subsystem IC Q1045 (TA31136FN). This IC contains the 2nd mixer, 2nd local oscillator, limiter amplifier, FM detector, noise amplifier, and squelch gates. The 2nd local is produced by crystal X1002 (21.850 MHz) then deliver to the 2nd mixer in the SUB-RX FM IF subsystem IC Q1045 (TA31136FN). The 1st IF is converted to 450 kHz by the 2nd mixer and stripped of unwanted components by ceramic filter CF1002. Filtered signal from the ceramic filter CF1002 is applied to the limiter amplifier in the SUB-RX FM IF subsystem IC Q1045 (TA31136FN), and then demodulate by the FM detector in the SUB-RX FM IF subsystem IC Q1045 (TA31136FN). Demodulated signal from the SUB-RX FM IF subsystem IC Q1045 (TA31136FN) is passes through the low-pass filter Q1044 (2SC4154E) to the DSC Decoder IC Q1045 (NJM2211M) which the receiving DCS code is decoded. The decoded DCS signal delivered to the 16bit MPU IC Q2004 (M30624FGAGP). The SUB-RX 1st Local signal maintains stability from the PLL synthesizer by using a 29.950 MHz reference signal from crystal X1001. PLL synthesizer IC Q1035 (TB31202FNG) consists of a prescaler, reference counter, swallow counter, programmable counter, a serial data input port to set these counters based on the external data, a phase comparator, and a charge pump. The PLL synthesizer IC divides the 29.950 MHz reference signal by 2396 using the reference counter (12.5 kHz comparison frequency). The reference oscillator feeds to the PLL synthesizer IC Q1035 (TB31202FNG). for the 2nd local signal. The VCO output is divided by the prescaler, swallow counter and programmable counter. These two signals are compared by the phase comparator, and applied to the charge pump. A voltage proportional to their phase difference is delivered to the low-pass filter circuit, then fed back to the VCO as a voltage with phase error, controlling and stabilizing the oscillating frequency. The TX & SUB VCO is consisted of Q1025 (2SK520-K4) and varactor diode D1010, D1011, D1012, and D1013 (all 1SV286B), which oscillates at 134.225 MHz. The TX & SUB

DSC Encoder/ Decoder

Encoder The DCS (Digital Selective Calling) encode signal which D/A converted in the 16-bit MPU IC Q2003 (M30624FGPGP) on the CNTL Unit is fed through the low-pass filter Q1052 (LM2902PW) on the MAIN Unit to the TX & SUB VCO Q1025 (2SK520-K41). Decoder Incoming the receiving DSC code on the CH70 from the antenna connector are passed through a SUB-RX RF amplifier Q1013 (3SK294) to the bandpass filter consisting of coils L1014, L1015, & L1016 and capacitors C1066, C1068, C1099, C1100, C1101, C1102, C1103, & C1104, then the filtered signal deliver to SUB-RX 1st mixer Q1023 (3SK131).
VCO output passes through buffer amplifier Q1024 (2SC5006) to obtain stable output.
Operation is controlled by 16-bit MPU IC Q2003 (M30624FGPGP). The system clock uses a 14.74560 MHz crystal for a time base. IC Q2002 (PST597CN) resets the MPU when the power is on, and monitors the voltage of the regulated 5V power supply line.
1050 Hz Weather Alert Decoder
1050 Hz Weather Alert signal from the FM IF subsystem IC Q1039 (TA31136FN) is demodulated by Q1049 (2SC4154E) then is applied to 16-bit MPU IC Q2003 (M30624FGPGP) on the CNTL Unit.

EEPROM

The EE-PROM Q2004 (AT24C128N) retains TX and RX data for all memory channels, prescaler dividing, IF frequency, local oscillator injection side, and reference oscillator data.

Alignment

The GX1500S has been carefully aligned at the factory for the specified performance across the marine band. Realignment should therefore not be necessary except in the event of a component failure. All component replacement and service should be performed only by an authorized Standard Horizon representative, or the warranty policy may be voided. The following procedures cover the sometimes critical and tedious adjustments that are not normally required once the transceiver has left the factory. However, if damage occurs and some parts are replaced, realignment may be required. If a sudden problem occurs during normal operation, it is likely due to component failure; realignment should not be done until after the faulty component has been replaced. We recommend that servicing be performed only by authorized Standard Horizon service technicians who are experienced with the circuitry and fully equipped for repair and alignment. Therefore, if a fault is suspected, contact the dealer from whom the transceiver was purchased for instructions regarding repair. Authorized Standard Horizon service technicians realign all circuits and make complete performance checks to ensure compliance with factory specifications after replacing any faulty components. Those who do undertake any of the following alignments are cautioned to proceed at their own risk. Problems caused by unauthorized attempts at realignment are not covered by the warranty policy. Also, Standard Horizon, a division of Vertex Standard must reserve the right to change circuits and alignment procedures in the interest of improved performance, without notifying owners. Under no circumstances should any alignment be attempted unless the normal function and operation of the transceiver are clearly understood, the cause of the malfunction has been clearly pinpointed and any faulty components replaced, and the need for realignment determined to be absolutely necessary. The following test equipment (and thorough familiarity with its correct use) is necessary for complete realignment. Correction of problems caused by misalignment resulting from use of improper test equipment is not covered under the warranty policy. While most steps do not require all of the equipment listed, the interactions of some adjustments may require that more complex adjustments be performed afterwards. Do not attempt to perform only a single step unless it is clearly isolated electrically from all other steps. Have all test equipment ready before beginning, and follow all of the steps in a section in the order presented.

Required Test Equipment

RF Signal Generator with calibrated output level at 200 MHz Deviation Meter (linear detector) AF Millivoltmeter SINAD Meter Inline Wattmeter with 5% accuracy at 200 MHz Regulated DC Power Supply: 13.8 VDC, 10A 50-ohm Non-reactive Dummy Load: 30W at 200 MHz Frequency Counter: >0.1 ppm accuracy at 200 MHz AF Signal Generator DC Voltmeter: high impedance VHF Sampling Coupler AF Dummy Load: 4 Ohms, 10 W Oscilloscope Spectrum Analyzer CP160 GPS/Chart Plotter GX2360S Marine Transceiver
Alignment Preparation & Precautions
A dummy load and inline wattmeter must be connected to the main antenna jack in all procedures that call for transmission. Correct alignment is not possible with an antenna. After completing one step, read the following step to determine whether the same test equipment will be required. If not, remove the test equipment (except dummy load and wattmeter, if connected) before proceeding. Correct alignment requires that the ambient temperature be the same as that of the transceiver and test equipment, and that this temperature be held constant between 68 F and 86 F (20 C and 30 C). When the transceiver is brought into the shop from hot or cold air it should be allowed some time for thermal equalization with the environment before alignment. If possible, alignments should be made with oscillator shields and circuit boards firmly affixed in place. Also, the test equipment must be thoroughly warmed up before beginning. Note: Signal levels in dB referred to in this procedure are based on 0 dB = 0.5 V (closed circuit).
Reference Frequency Adjustment
Setup the test equipment as shown below.
50-ohm Dummy Load Sampling Coupler
Sub Receiver/Transmitter VCV Adjustment

50-ohm Dummy Load

TP1007

DC Voltmeter

Frequency Counter
Set the channel to CH16. Use the [H/L(NAV)] key to set the transceiver to LOW power. With the PTT switch pressed, adjust TC1003 so that the Frequency Counter reading is 156.800 MHz 100 Hz. Release the PTT switch.
Set the channel to CH16. With the PTT switch pressed, adjust TC1001 so that the DC voltmeter reading is 3.0 V 0.1 V. Release the PTT switch.
Transmit Power Adjustment

50-ohm Dummy Load Inline Wattmeter

Receiver VCV Adjustment

TP1010
Set the channel to CH16. Adjust TC1002 so that the DC voltmeter reading is 1.5 V 0.1 V.
Set the channel to CH16. Use the [H/L(NAV)] key to set the transceiver to HI power. With the PTT switch pressed, adjust VR1001 so that RF output power is 24 W 0.3 W. Release the PTT switch, then set the transceiver to LOW power by the [H/L(NAV)] key. With the PTT switch pressed, adjust VR1002 so that RF output power is 0.8 W 0.1 W. Release the PTT switch.
L1013 / L1010 TC1001 L1027 / L1014 L1028 / L1015 L1031 / L1016
VR1001 VR1002 VR1003 VR1004 TP1011

TP1006 TC1002

JP1001
MAIN UNIT ALIGNMENT POINT

TX Deviation Adjustment

Receiver Front-end Adjustment

Tracking Generator

J1001 Pin 2

AF Signal Generator

TP1006

Spectrum Analizer

Deviation Meter
Set the AF Signal Generator output to 100 mVrms at 1 kHz. Set the channel to CH16. With the PTT switch pressed, adjust VR1003 so that the maximum deviation is 4.4 kHz 0.1 kHz. Release the PTT switch, then set the AF Signal Generator output to 1 Vrms at 100 Hz. With the PTT switch pressed, adjust VR1004 so that the maximum deviation is 4.4 kHz 0.1 kHz. Release the PTT switch
Set the spectrum analyzer as shown below: CENTER: 159.000 MHz SPAN: 20.000 MHz RBW, VBW: 30 kHz SWP: 200 ms Set the channel to CH01A. Adjust L1010, L1013, L1027, L1028, and L1031 until the wave form shown in below is obtained.
ATTEN 10dB RL 10.0dBm 10dB/ GX1500S-FRONT-END
CENTER 159.00 MHz RBW 300 kHz VBW 300 kHz
SPAN 20.00 MHz SWP 200 ms

PIN 2 of J1001

Sub Receiver Front-end Adjustment

RF Signal Generator

BOTTOM VIEW

TP1011

Set the RF Signal Generator output to 156.525 MHz, at a level of +10dB, 3.0 kHz deviation with a 1 kHz audio tone. Adjust L1016, L1015, and L1014 in order for maximum indication on the DC voltmeter.
Software Alignment/Confirmation Mode
The Software Alignment/Confirmation Mode has been build in the microprocessor in order to adjust and confirm the performance of transceiver. The purpose is to adjust transceiver simply and to confirm the performance of transceiver smoothly. STARTING SOFTWARE ALIGNMENT MODE Confirm that the transceivers power is turned off. Short the TEST points (JP1001). Press and hold the VOL/PWR knob until the radio turns on while press and holding the [CALL(MENU)] and [DISTRESS] keys. The LCD will be as shown in the illustration at the right. Squelch Adjustment Setup the test equipment as shown below.
STARTING SOFTWARE CONFIRMATION MODE Confirm that the transceivers power is turned off. Short the TEST points (JP1001). Press and hold the PWR key until the radio turns on while press and holding the [ DW ( IC )] and [DISTRESS] keys. Release the keys, the LCD will be as shown for one second in the illustration at the right. DSC Encoder Confirmation Setup the test equipment as shown below.

Press the [SCAN(MEM)] key to recall the Alignment Item 04: THRESHOLD. Set the RF Signal Generator output to 156.800 MHz, at a level of 10dBV, 3.0 kHz deviation with a 1 kHz audio tone. Press the [DW(IC)] key. Press the [ENT] key to save the new setting. Press the [SCAN(MEM)] key to recall the Alignment Item 05: TIGHT. Set the RF Signal Generator output to 156.800 MHz, at a level of +4dB 3.0 kHz deviation with a 1 kHz audio tone. Press the [DW(IC)] key. Press the [ENT] key to save the new setting. Press the [SCAN(MEM)] key to recall the Alignment Item 07: DC VOLT. Press the [DW(IC)] key. Press the [ENT] key to save the new setting. This completes the Software Alignment Mode. To save all settings and exit, press and hold the [DISTRESS] key for 2 seconds.
Set the channel to CH70. Press the PTT switch, confirm that the first tone deviation is 4.0 kHz 0.3 kHz. Note: In CH70 while Software Confirmation Mode, ever time you are in transmit mode, (every time you press PTT), the following test tone can be outputted: 1st transmission: Synthetic tone of 1300 Hz and 2100 Hz 2nd transmission: 1300 Hz 3rd transmission: 2100 Hz 4th transmission: No Modulation 5th transmission: Return to 1st transmission This completes the Software Alignment/Confirmation Mode. Turn the transceivers power off, then disconnect the Jumper from the TEST points (JP1001).

MAIN Unit

Circuit Diagram
RX: 5.75 V RX: 2.75 V RX: 7.00 V RX: 7.50 V RX: 1.00 V

RX: 7.70 V RX: 5.30 V

RX: 5.40 V RX: 0.70 V RX: 7.00 V RX: 7.70 V RX: 1.82 V RX: 5.70 V RX: 2.75 V RX: 7.40 V RX: 5.59 V RX: 0.74 V RX: 6.86 V RX: 0.25 V RX: 0.30 V

RX: 0.50 V

RX: 7.00 V TX HI: 4.13 V TX LO: 0.55 V RX: 0.73 V TX HI: 4.50 V TX LO: 2.33 V TX: 6.51 V RX: 4.35 V TX: 0 V RX: 0 V TX: 4.35 V 3.88 V RX: 5.50 V TX: 2.00 V TX: 1.26 V 3.45 V 3.34 V 4.60 V 4.60 V 4.30 V 5.55 V 7.00 V 0.74 V 1.76 V 0.99 V RX: 3.00 V RX: 0.22 V RX: 1.06 V RX: 2.30 V RX: 5.60 V

TX: 1.70 V

RX: 4.90 V TX: 0 V

3.58 V

RX: 2.43 V
1.57 V RX: 7.80 V TX: 0 V TX HI: 0 V TX LO: 4.88 V RX: 0 V TX: 8.00 V 5.00 V 5.00 V VCO LOCK: 0.92 V VCO UNLOCK: 5.00 V

RX: 5.30 V

8.00 V 8.00 V

RX: 0 V TX: 5.00 V

13.10 V RX: 5.00 V 4.90 V TX: 0 V

13.75 V 8.00 V

REF C 1095 C 1097 C 1098 C 1099 C 1100 C 1101 C 1102 C 1103 C 1104 C 1105 C 1106 C 1107 C 1108 C 1109 C 1110 C 1111 C 1113 C 1114 C 1115 C 1116 C 1117 C 1119 C 1120 C 1121 C 1122 C 1123 C 1124 C 1125 C 1126 C 1128 C 1129 C 1130 C 1131 C 1132 C 1133 C 1134 C 1135 C 1136 C 1137 C 1138 C 1139 C 1140 C 1141 C 1142 C 1144 C 1145 C 1147 C 1148 C 1149 C 1150 C 1151 C 1152 C 1153 C 1154 C 1155 C 1156 C 1157 C 1158 C 1159 C 1160 C 1161 C 1162 C 1163 C 1165 C 1166 C 1167 C 1168 C 1169 C 1170 C 1172 C 1173 C 1174 C 1175 DESCRIPTION CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. VALUE 10pF 10pF 10pF 6pF 0.5pF 6pF 0.5pF 3pF 4pF 0.001uF 0.001uF 12pF 0.001uF 0.001uF 0.01uF 0.001uF 0.01uF 0.001uF 0.001uF 0.001uF 0.001uF 22pF 0.001uF 39pF 12pF 22pF 4pF 10pF 0.001uF 1pF 10uF 10uF 0.001uF 0.1uF 0.1uF 10uF 0.0056uF 1uF 0.1uF 1uF 0.1uF 0.001uF 0.001uF 0.001uF 0.001uF 0.001uF 0.001uF 0.01uF 33pF 0.001uF 0.001uF 0.001uF 0.1uF 1pF 15pF 1uF 0.0068uF 15pF 1uF 1uF 0.001uF 0.1uF 0.1uF 4pF 4pF 0.5pF 5pF 0.5pF 0.01uF 10pF 0.001uF 22pF 22pF V/W 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 10V 10V 50V 16V 16V 10V 50V 10V 16V 10V 16V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 16V 50V 50V 10V 50V 50V 10V 10V 50V 16V 16V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V TOL. CH CH CH CH CK CH CK CJ CH B B CH B B B B B B B B B CH B CH CH CH CH CH B CK B B B B F B F B B B B B B B B CH B B B B CK CH F B CH F F B B B CH CH CK CH CK B CH B CH CH MFR'S DESIG GRM1882C1H100JA01D GRM1882C1H100JA01D GRM1882C1H100JA01D GRM1882C1H6R0DZ01D GRM1884C1HR50CZ01D GRM1882C1H6R0DZ01D GRM1884C1HR50CZ01D GRM1883C1H3R0CZ01D GRM1882C1H4R0CZ01D GRM188B11H102KA01D GRM188B11H102KA01D GRM1882C1H120JA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H103KA01D GRM188B11H102KA01D GRM188B11H103KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM1882C1H220JA01D GRM188B11H102KA01D GRM1882C1H390JA01D GRM1882C1H120JA01D GRM1882C1H220JA01D GRM1882C1H4R0CZ01D GRM1882C1H100JA01D GRM188B11H102KA01D GRM1884C1H1R0CZ01D TEMSVA1A106M-8R TEMSVA1A106M-8R GRM188B11H102KA01D GRM188B11C104KA01D GRM188B11C104KA01D TEMSVA1A106M-8R GRM188B11H562KA01D GRM188F11A105ZA01D GRM188B11C104KA01D GRM188F11A105ZA01D GRM188B11C104KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H103KA01D GRM1882C1H330JA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11C104KA01D GRM1884C1H1R0CZ01D GRM1882C1H150JA01D GRM188F11A105ZA01D GRM188B11H682KA01D GRM1882C1H150JA01D GRM188F11A105ZA01D GRM188F11A105ZA01D GRM188B11H102KA01D GRM188B11C104KA01D GRM188B11C104KA01D GRM1882C1H4R0CZ01D GRM1882C1H4R0CZ01D GRM1884C1HR50CZ01D GRM1882C1H5R0CZ01D GRM1884C1HR50CZ01D GRM188B11H103KA01D GRM1882C1H100JA01D GRM188B11H102KA01D GRM1882C1H220JA01D GRM1882C1H220JA01D VXSTD P/N K22174211 K22174211 K22174211 K22174207 K22174201 K22174207 K22174201 K22174204 K22174205 K22174821 K22174821 K22174213 K22174821 K22174821 K22174823 K22174821 K22174823 K22174821 K22174821 K22174821 K22174821 K22174219 K22174821 K22174225 K22174213 K22174219 K22174205 K22174211 K22174821 K22174202 K78100028 K78100028 K22174821 K22124805 K22124805 K78100028 K22174818 K22105001 K22124805 K22105001 K22124805 K22174821 K22174821 K22174821 K22174821 K22174821 K22174821 K22174823 K22174223 K22174821 K22174821 K22174821 K22124805 K22174202 K22174215 K22105001 K22174834 K22174215 K22105001 K22105001 K22174821 K22124805 K22124805 K22174205 K22174205 K22174201 K22174206 K22174201 K22174823 K22174211 K22174821 K22174219 K22174219 VERS. LOT SIDE LAY ADR 1- B i2 1- B i2 1- B i2 1- B h3 1- B h3 1- B h3 1- B h4 1- B h4 1- B h4 1- B d2 1- B g3 1- B h3 1- B g3 1- A E2 1- A E2 1- B g2 1- B a3 1- B a3 1- B i2 1- B i2 1- A B4 1- B h4 1- B g4 1- B h3 1- B h4 1- B g4 1- B g6 1- B h2 1- B g2 1- B g2 1- B g2 1- B g3 1- B g3 1- A F3 1- A F4 1- B c3 1- A F3 1- A G3 1- A G3 1- A G3 1- B b3 1- B b3 1- A A2 1- B i2 1- B i2 1- A A2 1- B g4 1- B g4 1- B g4 1- B g4 1- A B2 1- A B2 1- A B2 1- A C2 1- A F4 1- A F3 1- A F3 1- A F3 1- A F3 1- A G3 1- B d3 1- B c3 1- A G3 1- B i2 1- B i3 1- B i3 1- B i3 1- B i4 1- B g4 1- B g4 1- A B4 1- A C3 1- A C2

REF C 1176 C 1179 C 1180 C 1182 C 1183 C 1184 C 1185 C 1186 C 1187 C 1188 C 1190 C 1191 C 1192 C 1195 C 1196 C 1197 C 1198 C 1199 C 1200 C 1202 C 1203 C 1204 C 1205 C 1206 C 1207 C 1208 C 1209 C 1210 C 1211 C 1212 C 1214 C 1216 C 1217 C 1218 C 1219 C 1220 C 1221 C 1222 C 1223 C 1224 C 1225 C 1226 C 1227 C 1228 C 1229 C 1230 C 1231 C 1232 C 1233 C 1234 C 1239 C 1240 C 1241 C 1242 C 1243 C 1244 C 1245 C 1246 C 1247 C 1248 C 1249 C 1250 C 1251 C 1252 C 1253 C 1254 C 1255 C 1256 C 1260 C 1261 C 1262 C 1263 C 1264 DESCRIPTION CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP TA.CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. VALUE 15pF 1pF 0.001uF 330pF 0.0056uF 1uF 0.001uF 10uF 0.1uF 10uF 0.001uF 3pF 3pF 0.01uF 0.01uF 33pF 2pF 47pF 0.22uF 0.001uF 10uF 15pF 0.1uF 15pF 0.001uF 0.1uF 0.001uF 10uF 22pF 0.001uF 10uF 7pF 12pF 33pF 0.001uF 10pF 10uF 5pF 0.001uF 2.2uF 0.47uF 10uF 0.001uF 1uF 15pF 1uF 1uF 1uF 10uF 0.001uF 0.001uF 0.01uF 22pF 0.001uF 0.01uF 0.001uF 39pF 12pF 0.001uF 1pF 0.1uF 6pF 0.001uF 56pF 33pF 0.001uF 10pF 5pF 0.01uF 1uF 1uF 1uF 1uF V/W 50V 50V 50V 50V 50V 10V 50V 10V 16V 10V 50V 50V 50V 50V 50V 50V 50V 50V 10V 50V 10V 50V 16V 50V 50V 16V 50V 10V 50V 50V 10V 50V 50V 50V 50V 50V 10V 50V 50V 6.3V 35V 10V 50V 6.3V 50V 10V 10V 10V 10V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 16V 50V 50V 50V 50V 50V 50V 50V 50V 10V 10V 10V 10V TOL. CH CK B B B F B B B CJ CJ B B CH CK CH B B CH B CH B B B CH B CH CH CH B CH CH B MFR'S DESIG GRM1882C1H150JA01D GRM1884C1H1R0CZ01D GRM188B11H102KA01D GRM188B11H331KD01D GRM188B11H562KA01D GRM188F11A105ZA01D GRM188B11H102KA01D TEMSVA1A106M-8R GRM188B11C104KA01D TEMSVA1A106M-8R GRM188B11H102KA01D GRM1883C1H3R0CZ01D GRM1883C1H3R0CZ01D GRM188B11H103KA01D GRM188B11H103KA01D GRM1882C1H330JA01D GRM1884C1H2R0CZ01D GRM1882C1H470JA01D GRM188B11A224KA01D GRM188B11H102KA01D TEMSVA1A106M-8R GRM1882C1H150JA01D GRM188B11C104KA01D GRM1882C1H150JA01D GRM188B11H102KA01D GRM188B11C104KA01D GRM188B11H102KA01D TEMSVA1A106M-8R GRM1882C1H220JA01D GRM188B11H102KA01D TEMSVA1A106M-8R GRM1882C1H7R0DZ01D GRM1882C1H120JA01D GRM1882C1H330JA01D GRM188B11H102KA01D GRM1882C1H100JA01D TEMSVA1A106M-8R GRM1882C1H5R0CZ01D GRM188B11H102KA01D TESVA0J225M1-8R TEMSVA1V474M-8R TEMSVA1A106M-8R GRM188B11H102KA01D GRM188B10J105KA01D GRM1882C1H150JA01D GRM188F11A105ZA01D GRM188F11A105ZA01D GRM188F11A105ZA01D TEMSVA1A106M-8R GRM188B11H102KA01D GRM188B11H102KA01D GRM188B11H103KA01D GRM1882C1H220JA01D GRM188B11H102KA01D GRM188B11H103KA01D GRM188B11H102KA01D GRM1882C1H390JA01D GRM1882C1H120JA01D GRM188B11H102KA01D GRM1884C1H1R0CZ01D GRM188B11C104KA01D GRM1882C1H6R0DZ01D GRM188B11H102KA01D GRM1882C1H560JA01D GRM1882C1H330JA01D GRM188B11H102KA01D GRM1882C1H100JA01D GRM1882C1H5R0CZ01D GRM188B11H103KA01D GRM188F11A105ZA01D GRM188F11A105ZA01D GRM188F11A105ZA01D GRM188F11A105ZA01D VXSTD P/N K22174215 K22174202 K22174821 K22174820 K22174818 K22105001 K22174821 K78100028 K22124805 K78100028 K22174821 K22174204 K22174204 K22174823 K22174823 K22174223 K22174203 K22174227 K22104801 K22174821 K78100028 K22174215 K22124805 K22174215 K22174821 K22124805 K22174821 K78100028 K22174219 K22174821 K78100028 K22174208 K22174213 K22174223 K22174821 K22174211 K78100028 K22174206 K22174821 K78080009 K78160029 K78100028 K22174821 K22084801 K22174215 K22105001 K22105001 K22105001 K78100028 K22174821 K22174821 K22174823 K22174219 K22174821 K22174823 K22174821 K22174225 K22174213 K22174821 K22174202 K22124805 K22174207 K22174821 K22174229 K22174223 K22174821 K22174211 K22174206 K22174823 K22105001 K22105001 K22105001 K22105001 VERS. LOT SIDE LAY ADR 1- A B3 1- A B3 1- A C3 1- B d3 1- A F3 1- A F3 1- B d3 1- B d4 1- B d3 1- B d4 1- A A5 1- B i4 1- B i4 1- B f3 1- B f3 1- B f3 1- B g3 1- B g3 1- B f3 1- B d3 1- B d3 1- A F3 1- A F2 1- A F4 1- B d4 1- B d4 1- B d4 1- B d5 1- B i5 1- B i5 1- B g5 1- B h5 1- B h5 1- B g3 1- B f5 1- B g3 1- B f5 1- B g3 1- B g5 1- B f4 1- B f4 1- A D3 1- A D4 1- A E3 1- A F4 1- A F4 1- A F4 1- A F4 1- B c5 1- B c4 1- B i5 1- B i5 1- B h5 1- B h5 1- B i5 1- A A5 1- B h5 1- B h5 1- B h5 1- A C5 1- A B5 1- B g5 1- A C5 1- B g4 1- B g4 1- A B5 1- B g4 1- B g5 1- A D4 1- A G4 1- A G4 1- A G4 1- A G4

B B CH F F F B B B CH B B B CH CH B CK B CH B CH CH B CH CH B F F F F
REF C 1265 C 1277 C 1279 C 1280 C 1281 C 1282 C 1283 C 1285 C 1287 C 1288 C 1289 C 1290 C 1291 C 1305 C 1306 C 1307 C 1308 C 1309 C 1310 C 1312 C 1313 C 1314 C 1315 C 1316 C 1317 C 1318 C 1319 C 1320 C 1321 C 1325 C 1326 C 1328 C 1330 C 1331 C 1332 C 1334 C 1336 C 1337 C 1338 C 1339 C 1340 C 1342 C 1343 C 1344 C 1345 C 1346 C 1347 C 1348 C 1349 C 1350 C 1351 C 1352 C 1354 C 1355 C 1356 C 1357 C 1358 C 1359 C 1360 C 1361 C 1362 C 1363 C 1364 C 1365 C 1366 C 1367 C 1368 C 1369 C 1370 C 1371 C 1372 C 1373 C 1374 DESCRIPTION CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. CHIP TA.CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. AL.ELECTRO.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. AL.ELECTRO.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. FILM CAP. CHIP CAP. CHIP TA.CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP CAP. CHIP TA.CAP. VALUE 10uF 10pF 22pF 22pF 12pF 7pF 56pF 0.1uF 0.01uF 0.01uF 1uF 0.01uF 0.1uF 0.01uF 0.01uF 22pF 0.1uF 0.001uF 0.47uF 0.33uF 10uF 0.01uF 5pF 22pF 8pF 0.1uF 1uF 1uF 0.001uF 0.01uF 0.001uF 47uF 0.1uF 82pF 0.1uF 0.01uF 47uF 0.001uF 0.1uF 0.01uF 0.01uF 100pF 10pF 82pF 10pF 82pF 1pF 0.0068uF 0.0022uF 0.1uF 0.027uF 0.1uF 10uF 0.1uF 82pF 0.1uF 0.001uF 0.1uF 1uF 330pF 0.001uF 82pF 0.1uF 0.001uF 82pF 18pF 18pF 0.1uF 0.1uF 0.01uF 820pF 0.01uF 10uF V/W 10V 50V 50V 50V 50V 50V 50V 16V 50V 50V 6.3V 25V 16V 50V 50V 50V 16V 50V 35V 20V 10V 50V 50V 50V 50V 16V 10V 10V 50V 50V 50V 16V 16V 50V 16V 50V 16V 50V 16V 50V 50V 50V 50V 50V 50V 50V 50V 50V 50V 16V 16V 16V 10V 16V 50V 16V 50V 16V 10V 50V 50V 50V 16V 50V 50V 50V 50V 16V 16V 50V 50V 50V 10V TOL. CH CH CH CH CH CH B B B B B B B B CH B B MFR'S DESIG TEMSVA1A106M-8R GRM1882C1H100JA01D GRM1882C1H220JA01D GRM1882C1H220JA01D GRM1882C1H120JA01D GRM1882C1H7R0DZ01D GRM1882C1H560JA01D GRM188B11C104KA01D GRM188B11H103KA01D GRM188B11H103KA01D GRM188B10J105KA01D GRM39B103M25PT GRM188B11C104KA01D GRM188B11H103KA01D GRM188B11H103KA01D GRM1882C1H220JA01D GRM188B11C104KA01D GRM188B11H102KA01D TEMSVA1V474M-8R TEMSVA21D334M-8R TEMSVA1A106M-8R GRM188B11H103KA01D GRM1883U1H5R0CZ01D GRM1883U1H220JZ01D GRM1883U1H8R0DZ01D GRM188B11C104KA01D GRM188F11A105ZA01D GRM188F11A105ZA01D GRM188B11H102KA01D GRM188B11H103KA01D GRM188B11H102KA01D RE2-16V470MMA GRM188B11C104KA01D GRM1882C1H820JA01D GRM188B11C104KA01D GRM188B11H103KA01D RE2-16V470MMA GRM188B11H102KA01D GRM188B11C104KA01D GRM188B11H103KA01D GRM188B11H103KA01D GRM1882C1H101JA01D GRM1882C1H100JA01D GRM1882C1H820JA01D GRM1882C1H100JA01D GRM1882C1H820JA01D GRM1884C1H1R0CZ01D GRM188B11H682KA01D GRM188B11H222KA01D GRM188B11C104KA01D ECHU1C273JX5 GRM188B11C104KA01D TEMSVA1A106M-8R GRM188B11C104KA01D GRM1882C1H820JA01D GRM188B11C104KA01D GRM188B11H102KA01D GRM188B11C104KA01D GRM188F11A105ZA01D GRM188B11H331KD01D GRM188B11H102KA01D GRM1882C1H820JA01D GRM188B11C104KA01D GRM188B11H102KA01D GRM1882C1H820JA01D GRM188B11C104KA01D GRM188B11C104KA01D GRM188B11H103KA01D GRM188B11H821KA01D GRM188B11H103KA01D TEMSVA1A106M-8R VXSTD P/N K78100028 K22174211 K22174219 K22174219 K22174213 K22174208 K22174229 K22124805 K22174823 K22174823 K22084801 K22144802 K22124805 K22174823 K22174823 K22174219 K22124805 K22174821 K78160029 K78130018 K78100028 K22174823 K22174305 K22174316 K22174308 K22124805 K22105001 K22105001 K22174821 K22174823 K22174821 K40129054 K22124805 K22174233 K22124805 K22174823 K40129054 K22174821 K22124805 K22174823 K22174823 K22174235 K22174211 K22174233 K22174211 K22174233 K22174202 K22174834 K22174822 K22124805 K57120041 K22124805 K78100028 K22124805 K22174233 K22124805 K22174821 K22124805 K22105001 K22174820 K22174821 K22174233 K22124805 K22174821 K22174233 K22174217 K22174217 K22124805 K22124805 K22174823 K22174808 K22174823 K78100028 VERS. LOT SIDE LAY ADR 1- B c4 1- B g6 1- A C5 1- A B5 1- A B5 1- A B5 1- A B5 1- B g5 1- A D4 1- A D4 1- A E3 1- A E3 1- B c4 1- B g6 1- B f6 1- B f5 1- B f5 1- B f5 1- B g5 1- B h5 1- A E3 1- A E4 1- A E3 1- A E3 1- A D3 1- B c5 1- A G4 1- A G4 1- B c5 1- B f5 1- A C5 1- A D5 1- A C5 1- A C5 1- A D6 1- B f3 1- A D2 1- B e3 1- B e3 1- A D3 1- A E4 1- A E4 1- A E4 1- A E4 1- A E4 1- A E4 1- A E4 1- B d6 1- B d5 1- B d6 1- B e5 1- B d5 1- B e5 1- B b4 1- A D5 1- A D5 1- A D5 1- A E6 1- A E5 1- A E6 1- A E5 1- A D5 1- A C3 1- A C3 1- A C3 1- A D3 1- A D3 1- A D3 1- B e3 1- B e3 1- B e3 1- B f3 1- B e3

50k 10k

REF VR1003 VR1004 X 1001 X 1002 XF1001 XF1002 XF1003 XF1004 DESCRIPTION POT. POT. XTAL DSX531S XTAL TOP-B XTAL FILTER XTAL FILTER XTAL FILTER XTAL FILTER SHIELD CASE VCO SHIELD CASE VCO SHIELD CASE COVER GASKET LEAF SPRING VALUE 100k 50k 29.95MHz 21.85MHz V/W TOL. MFR'S DESIG EVN-5ESX50B15 EVN-5ESX50B54 DSX531S 29.950MHZ 21.85000MHZ UM-5 22.300MHZ UM-5 22.300MHZ 1Q30413BD1 1Q30413BD1 VXSTD P/N J51811104 J51811503 H0103316 H0103270 H1102393 H1102393 H1102396 H1102396 RA0752700 RA0752700 RA0798700 RA0797100 R0140031 VERS. LOT SIDE LAY ADR 1- A E2 1- A E3 1- A E3 1- A D3 1- A B4 1- A C4 1- A B6 1- A B6 11111-

CNTL Unit

4.90 V
CPU5V RESET 90 msec CONTRAST Min. 0.90 V Max. 2.64 V
CONTRAST Min. 1.50 V Max. 3.24 V
CONTRAST "15" 3.97 V 2.94 V 0.40 V 0.63 V 1.66 V 13.74 V 2.47 V

4.6 Vp-p

3.5 Vp-p 3 sec

Max. 4.5 Vp-p

DIMMER OFF: 0 V DIMMER ON: 5.65 V ~ 8.19 V

KEY BEEP: 0.5 Vp-p

DIMMER OFF: 0 V DIMMER ON: 3.47 V ~ 4.77 V

A B C D E F G H I J

HD66712SA (Q2008)

SN74HC14APW (Q2014)

2SC4154 (LE) (Q2007

SEGMENT LCD (DS2001)

COMMON

a b c d e f g h i j

M30620FCAGP (Q2003)

AT24C128N (Q2004)

2SA1602A (MF) (Q2009, 2011)

CPH6102 (AB) (Q2006)

2SC4154 (LE) (Q2005, 2010, 2012)

PST597CNR (7C) (Q2002)

HZM27WA (27A) (D2010, 2011)

UA78L05ACPK (Q2001)

DESCRIPTION PCB with Components Printed Circuit Board C 2001 CHIP CAP. C 2002 CHIP TA.CAP. C 2033 CHIP CAP. C 2034 CHIP CAP. C 2035 CHIP CAP. C 2041 CHIP CAP. C 2042 CHIP CAP. C 2043 CHIP TA.CAP. C 2044 CHIP CAP. C 2045 CHIP TA.CAP. C 2046 CHIP CAP. C 2047 CHIP TA.CAP. C 2048 CHIP CAP. C 2049 CHIP CAP. C 2050 CHIP CAP. C 2052 CHIP CAP. C 2053 CHIP CAP. C 2054 CHIP TA.CAP. C 2055 CHIP CAP. C 2056 CHIP CAP. C 2057 CHIP CAP. C 2058 CHIP CAP. C 2059 CHIP TA.CAP. C 2060 CHIP TA.CAP. C 2061 CHIP CAP. C 2062 CHIP CAP. C 2063 CHIP CAP. C 2064 CHIP CAP. C 2066 CHIP CAP. C 2067 CHIP CAP. C 2069 CHIP CAP. C 2072 CHIP CAP. C 2073 CHIP CAP. C 2074 CHIP CAP. C 2076 CHIP CAP. C 2080 CHIP TA.CAP. C 2081 CHIP CAP. C 2082 CHIP CAP. C 2087 CHIP CAP. C 2088 CHIP CAP. C 2090 CHIP TA.CAP. C 2091 CHIP CAP. C 2092 CHIP TA.CAP. C 2093 CHIP TA.CAP. D 2001 LED D 2002 LED D 2003 LED D 2004 LED D 2005 LED D 2006 LED D 2007 LED D 2008 LED D 2009 DIODE D 2010 DIODE D 2011 DIODE D 2012 LED DS2001 LCD J 2001 CONNECTOR J 2002 CONNECTOR J 2003 CONNECTOR J 2004 CONNECTOR J 2005 CONNECTOR Q 2001 IC Q 2002 IC Q 2003 IC Q 2004 IC Q 2005 TRANSISTOR Q 2006 TRANSISTOR Q 2007 TRANSISTOR Q 2008 IC Q 2009 TRANSISTOR : Please contact Vertex Standard REF VALUE V/W TOL. MFR'S DESIG AM017N000 GRM188B11H103KA01D TEMSVC1E106M12R GRM188B11C104KA01D GRM188B11C104KA01D GRM188B11C104KA01D GRM188B11H102KA01D GRM188B11H103KA01D TEMSVA0J106M-8R GRM188B11H102KA01D TEMSVA0J106M-8R GRM188B11H103KA01D TEMSVA0J106M-8R GRM188B11H103KA01D GRM1882C1H101JA01D GRM188B11H222KA01D GRM188B11H103KA01D GRM188B11H103KA01D TEMSVA0J106M-8R GRM188B11H103KA01D GRM1882C1H220JA01D GRM188B11H103KA01D GRM1882C1H220JA01D TEMSVA0J106M-8R TEMSVA0J106M-8R GRM188B11H103KA01D GRM188B11C104KA01D GRM188B11C104KA01D GRM188B11C104KA01D GRM188B11C104KA01D GRM188B11H103KA01D GRM188B11H103KA01D GRM188B11H103KA01D GRM188B11H103KA01D GRM188B11H103KA01D GRM188B11H103KA01D TEMSVA0J106M-8R GRM188B11H103KA01D GRM188B11C104KA01D GRM188B11H102KA01D GRM188B11H102KA01D TESVA1C105M1-8R GRM188B11H103KA01D TESVA1C105M1-8R TESVA1C105M1-8R FY1111C-722-TR FY1111C-722-TR FY1111C-722-TR FY1111C-722-TR FY1111C-722-TR FY1111C-722-TR FY1111C-722-TR FY1111C-722-TR 1SS355 TE-17 HZM27WA-TR HZM27WA-TR FY1111C-722-TR TNL1023P-A 40FLT-SM2-TB(LF)(SN) B9B-ZR-SM3-TFT B3B-PH-SM3-TB B4B-PH-SM3-TB 06FLT-SM2-TB(LF)(SN) UA78L05ACPK PST597CNR M30624FGPGP(FLASH) AT24C128N-10SU-2.7 2SC4154-T11-1E CPH6102-TL 2SC4154-T11-1E HD66712SA00FS 2SA1602A-T11-1F VXSTD P/N CS1859001 FR0139200 K22174823 K78140021 K22124805 K22124805 K22124805 K22174821 K22174823 K78080027 K22174809 K78080027 K22174823 K78080027 K22174823 K22174235 K22174822 K22174823 K22174823 K78080027 K22174823 K22174219 K22174823 K22174219 K78080027 K78080027 K22174823 K22124805 K22124805 K22124805 K22124805 K22174823 K22174823 K22174823 K22174823 K22174823 K22174823 K78080027 K22174823 K22124805 K22174821 K22174821 K78120009 K22174823 K78120009 K78120009 G2070916 G2070916 G2070916 G2070916 G2070916 G2070916 G2070916 G2070916 G2070470 G2070530 G2070530 G2070916 G6090150 P1091251 P0091374 P0091336 P0091184 P1091255 G1094156 G1092589 G1093516 G3341548E G3070223 G3341548E G1093817 G3116028F VERS. LOT SIDE LAY ADR 111111111111111111111111111111111111111111111111111111111111111111111111-

0.01uF 10uF 0.1uF 0.1uF 0.1uF 0.001uF 0.01uF 10uF 0.001uF 10uF 0.01uF 10uF 0.01uF 100pF 0.0022uF 0.01uF 0.01uF 10uF 0.01uF 22pF 0.01uF 22pF 10uF 10uF 0.01uF 0.1uF 0.1uF 0.1uF 0.1uF 0.01uF 0.01uF 0.01uF 0.01uF 0.01uF 0.01uF 10uF 0.01uF 0.1uF 0.001uF 0.001uF 1uF 0.01uF 1uF 1uF
50V 25V 16V 16V 16V 50V 50V 6.3V 50V 6.3V 50V 6.3V 50V 50V 50V 50V 50V 6.3V 50V 50V 50V 50V 6.3V 6.3V 50V 16V 16V 16V 16V 50V 50V 50V 50V 50V 50V 6.3V 50V 16V 50V 50V 16V 50V 16V 16V
B B B B B B B B B CH B B B B CH B CH B B B B B B B B B B B B B B B B
B B B B B B B B B B B B B B B B B B B B B B B B B B A B B B B B A B B A A A B B A A A A A A A A A A A A A B B A A B B B B B B B B B B B A A B
c5 c5 d1 d1 c1 b5 b5 c5 g4 h3 h3 h4 h4 j3 h3 b1 b1 h2 h2 h4 i3 i4 i3 i4 i4 i4 C2 b4 b4 b4 b5 b4 G2 c3 c4 C1 C1 C1 i5 j4 C2 C2 C2 C2 E5 C5 B4 I3 H3 F5 H2 H2 J2 c4 c4 H1 E2 e4 c1 j5 a3 d5 c5 j4 h3 j4 b5 b4 C2 D2 b3
REF Q 2010 Q 2011 Q 2012 Q 2013 Q 2014 R 2001 R 2002 R 2003 R 2006 R 2007 R 2008 R 2009 R 2010 R 2011 R 2012 R 2013 R 2014 R 2015 R 2016 R 2017 R 2018 R 2019 R 2020 R 2021 R 2022 R 2023 R 2024 R 2025 R 2026 R 2027 R 2028 R 2029 R 2030 R 2031 R 2033 R 2034 R 2035 R 2036 R 2037 R 2038 R 2039 R 2040 R 2041 R 2043 R 2044 R 2045 R 2046 R 2047 R 2048 R 2049 R 2050 R 2051 R 2052 R 2053 R 2054 R 2055 R 2056 R 2057 R 2058 R 2059 R 2060 R 2061 R 2062 R 2063 R 2064 R 2065 R 2066 R 2067 R 2068 R 2069 R 2070 R 2071 R 2072 DESCRIPTION TRANSISTOR TRANSISTOR TRANSISTOR PHOTO COUPLER IC CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. VALUE V/W TOL. MFR'S DESIG 2SC4154-T11-1E 2SA1602A-T11-1F 2SC4154-T11-1E TLP281(GB-TP) SN74HC14APW(TAPE) RMC1/16 104JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 103JATP RMC1/16 223JATP RMC1/16 104JATP RMC1/16 104JATP RMC1/16 101JATP RMC1/16 103JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 471JATP RMC1/16 472JATP RMC1/16 471JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 102JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 103JATP RMC1/16 103JATP RMC1/16 103JATP RMC1/16 103JATP RMC1/16 473JATP RMC1/16 473JATP RMC1/16 473JATP RMC1/16 101JATP RMC1/16 471JATP RMC1/16 101JATP RMC1/16 103JATP RMC1/16 472JATP RMC1/16 472JATP RMC1/16 473JATP RMC1/16 103JATP RMC1/16 474JATP RMC1/16 473JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 101JATP RMC1/16 000JATP RMC1/16 000JATP RMC1/16 103JATP RMC1/16 474JATP RMC1/16 471JATP RMC1/16 222JATP RMC1/16 471JATP RMC1/16 471JATP RMC1/16 471JATP RMC1/10T 221J RMC1/10T 221J RMC1/16 471JATP RMC1/16 473JATP RMC1/16 473JATP RMC1/16 223JATP VXSTD P/N G3341548E G3116028F G3341548E G0090037 G1094227 J24185104 J24185101 J24185101 J24185101 J24185101 J24185101 J24185101 J24185101 J24185101 J24185103 J24185223 J24185104 J24185104 J24185101 J24185103 J24185101 J24185101 J24185101 J24185101 J24185101 J24185101 J24185471 J24185472 J24185471 J24185101 J24185101 J24185101 J24185101 J24185102 J24185101 J24185101 J24185101 J24185103 J24185103 J24185103 J24185103 J24185473 J24185473 J24185473 J24185101 J24185471 J24185101 J24185103 J24185472 J24185472 J24185473 J24185103 J24185474 J24185473 J24185101 J24185101 J24185101 J24185101 J24185000 J24185000 J24185103 J24185474 J24185471 J24185222 J24185471 J24185471 J24185471 J24205221 J24205221 J24185471 J24185473 J24185473 J24185223 VERS. LOT SIDE LAY ADR 1- B b3 1- B c4 1- B c4 1- A J2 1- A G2 1- B f3 1- B e3 1- B e4 1- B g3 1- B g3 1- B g3 1- B g3 1- B e4 1- B g3 1- A C3 1- B g3 1- A C3 1- A C3 1- B f4 1- A C3 1- B f5 1- B e4 1- B i4 1- A C3 1- B e3 1- B e3 1- B j5 1- B i3 1- B c3 1- B e4 1- B e4 1- B e4 1- B e3 1- B h3 1- B e4 1- B f4 1- B e4 1- B h3 1- B d1 1- B b1 1- B b1 1- B b1 1- B b1 1- B i3 1- B e4 1- A B3 1- B f4 1- A B3 1- B i4 1- B i4 1- A B3 1- A C2 1- A C2 1- A B3 1- B i3 1- B i3 1- B i3 1- B i3 1- B i3 1- B i3 1- B b4 1- B b4 1- B b4 1- B b4 1- B b4 1- A C2 1- B b4 1- B c2 1- B c2 1- B b4 1- A B3 1- A G2 1- B c4

100k 10k 22k 100k 100k 100 10k 470 4.7k 100 1k 100 10k 10k 10k 10k 47k 47k 47k 100 10k 4.7k 4.7k 47k 10k 470k 47k 10k 470k 470 2.2k 47k 47k 22k
1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/10W 1/10W 1/16W 1/16W 1/16W 1/16W
5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5%
REF R 2073 R 2074 R 2075 R 2076 R 2077 R 2078 R 2079 R 2080 R 2081 R 2082 R 2083 R 2084 R 2085 R 2086 R 2087 R 2088 R 2089 R 2090 R 2091 R 2092 R 2093 R 2094 R 2095 R 2096 R 2097 R 2098 R 2099 R 2100 R 2101 R 2102 R 2103 R 2104 R 2105 R 2115 S 2001 X 2001 DESCRIPTION CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. CHIP RES. ROTARY ENCODER XTAL 94SMX LCD HOLDER LIGHT GUIDE REFLECTOR SHEET REFLECTOR SHEET INTER CONNECTOR INTER CONNECTOR SPONGE RUBBER VALUE 2.2k 47k 2.2k 2.2k 2.2k 3.3k 3.3k 10k 82k 3.9k 470 100k 470 22k 10k 8.2k 3.3k 3.3k 220 22k 14.7456MHz V/W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/4W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/4W 1/4W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/10W 1/16W TOL. 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% MFR'S DESIG RMC1/16 222JATP RMC1/16 473JATP RMC1/16 222JATP RMC1/16 222JATP RMC1/16 222JATP RMC1/16 332JATP RMC1/16 332JATP RMC1/16 103JATP RMC1/16 823JATP RMC1/16 392JATP RMC1/16 471JATP RMC1/16 104JATP RMC1/16 471JATP RMC1/4 121JATP RMC1/16 471JATP RMC1/16 223JATP RMC1/16 103JATP RMC1/16 822JATP RMC1/16 332JATP RMC1/16 332JATP RMC1/4 121JATP RMC1/4 331JATP RMC1/16 000JATP RMC1/16 000JATP RMC1/16 000JATP RMC1/16 000JATP RMC1/16 471JATP RMC1/16 000JATP RMC1/16 000JATP RMC1/16 000JATP RMC1/16 000JATP RMC1/16 000JATP RMC1/10T 221J RMC1/16 223JATP EC11B20204 94M147-18(D) 14.74560MHZ (LCD) (L) (S) (TOP2) (BOTTOM2) (LCD) VXSTD P/N J24185222 J24185473 J24185222 J24185222 J24185222 J24185332 J24185332 J24185103 J24185823 J24185392 J24185471 J24185104 J24185471 J24245121 J24185471 J24185223 J24185103 J24185822 J24185332 J24185332 J24245121 J24245331 J24185000 J24185000 J24185000 J24185000 J24185471 J24185000 J24185000 J24185000 J24185000 J24185000 J24205221 J24185223 Q9000799 H0103271 RA0757800 RA0569700 RA057000A RA0803500 RA0631800 RA0631900 RA0760300 VERS. LOT SIDE LAY ADR 1- B b3 1- A G2 1- B b3 1- B c4 1- B c4 1- A D3 1- A D3 1- A C1 1- A D1 1- A G2 1- B c4 1- B c4 1- B d4 1- B c5 1- B d4 1- B j4 1- B j4 1- A C3 1- A C3 1- A C2 1- B b2 1- B b3 1- B b3 1- B b3 1- B b2 1- B a2 1- B d4 1- B d5 1- B d5 1- B d4 1- B d4 1- B d5 1- B c2 1- B h2 1- A I1 1- B i4 1111111-