Garmin AT COMM25-10 25 kHz VHF Comm User Manual SL40 Install 560 0956 03 Rev A
Garmin AT, Inc. 25 kHz VHF Comm SL40 Install 560 0956 03 Rev A
Contents
- 1. Installation Manual
- 2. Users Guide
Installation Manual
Apollo£ Model SL40 VHF COMM Transceiver Installation Manual September 2003 560-0956-03a ¤ 2003 by Garmin AT, Inc. All rights reserved. Printed in the USA No part of this document may be transmitted, reproduced, or copied in any form or by any means without the prior written consent of Garmin AT, Inc. Due to Garmin AT, Inc.’s commitment to constantly improve the quality and performance of our products, information contained in this document is subject to change without notice. NAVNET and Flybrary are trademarks of Garmin AT, Inc. II Morrow, Garmin AT, and Apollo are registered trademarks of Garmin AT, Inc. Garmin AT, Inc. PO Box 13549 Salem, OR 97309 Phone (503) 581-8101 1-800-525-6726 In Canada 1-800-654-3415 FAX (503) 364-2138 2345 Turner Rd., SE Salem, OR 97302 USA HISTORY OF REVISIONS Revision -00A -01 -02 -02a -03 Date 12/18/96 1/30/97 3/14/97 6/26/98 9/22/99 10/1/02 -03a 9/15/03 Description Initial release. Modified selectivity value to 7 kHz. Change recommended coax from RG-58 to RG-142B New software version Added new connector pins and crimping tools Updated ship kit information and changed II Morrow to Garmin AT. Company name change IMPORTANT NOTE “The conditions and tests required for TSO approval of this article are minimum performance standards. It is the responsibility of those desiring to install this article on or within a specific type or class of aircraft to determine that the aircraft operating conditions are within TSO standards. The article may be installed only if further evaluation by the user/installer documents an acceptable installation and is approved by the Administrator.” Source: FAA TSO-C37d, TSO-C38d, and TSO-C128 ORDERING INFORMATION To receive additional copies of this publication, order part # 560-0956-03a, Apollo SL40 VHF COMM Installation Manual. NOTES Table of Contents TABLE OF CONTENTS SECTION 1 - INTRODUCTION................................................................................................. 1 ABOUT THIS MANUAL ...................................................................................................................... 1 APOLLO SL40 DESCRIPTION ............................................................................................................. 1 FEATURES ......................................................................................................................................... 1 REGULATORY COMPLIANCE ............................................................................................................. 2 UNPACKING THE EQUIPMENT............................................................................................................ 3 PACKAGE CONTENTS ........................................................................................................................ 3 OTHER REQUIRED MATERIALS ......................................................................................................... 4 SPECIAL TOOLS REQUIRED ............................................................................................................... 4 LICENSE REQUIREMENTS .................................................................................................................. 4 SECTION 2 - INSTALLATION .................................................................................................. 5 PRE-INSTALLATION INFORMATION.................................................................................................... 5 INSTALLATION OVERVIEW ................................................................................................................ 5 INSTALLATION CONSIDERATIONS...................................................................................................... 5 MOUNTING CONSIDERATIONS .................................................................................................................................... 5 MINIMUM SYSTEM CONFIGURATION.......................................................................................................................... 5 EQUIPMENT MOUNTING .................................................................................................................... 5 ELECTRICAL CONNECTIONS .............................................................................................................. 7 POWER ...................................................................................................................................................................... 7 SPEAKER AND HEADPHONE OUTPUTS ........................................................................................................................ 7 MICROPHONE INPUTS ................................................................................................................................................ 7 TRANSMIT KEY INPUT ............................................................................................................................................... 7 INTERCOM SELECTOR SWITCH ................................................................................................................................... 7 SERIAL INTERFACE .................................................................................................................................................... 8 ANTENNA INSTALLATION AND CONNECTIONS .................................................................................. 8 POST INSTALLATION CHECKOUT..................................................................................................... 12 SECTION 3 - SPECIFICATIONS............................................................................................. 15 ELECTRICAL ................................................................................................................................... 15 PHYSICAL ....................................................................................................................................... 15 ENVIRONMENTAL ........................................................................................................................... 15 RECEIVER PERFORMANCE............................................................................................................... 16 TRANSMITTER PERFORMANCE ........................................................................................................ 16 INTERCOM PERFORMANCE .............................................................................................................. 17 CONTROL INPUTS ............................................................................................................................ 17 ANTENNA REQUIREMENTS.............................................................................................................. 17 SERIAL INTERFACE ......................................................................................................................... 17 REAR CONNECTOR PINOUT............................................................................................................. 18 SECTION 4 - LIMITATIONS ................................................................................................... 19 INSTALLATION ................................................................................................................................ 19 OPERATIONAL ................................................................................................................................ 19 APPENDIX A - TROUBLESHOOTING.................................................................................. 21 CONTACTING THE FACTORY FOR ASSISTANCE ................................................................................ 21 Apollo SL40 Installation Manual Table of Contents APPENDIX B - PERIODIC MAINTENANCE ....................................................................... 23 EQUIPMENT CALIBRATION ............................................................................................................. 23 REFERENCE OSCILLATOR .........................................................................................................................................23 CLEANING THE FRONT PANEL ........................................................................................................ 23 APPENDIX C - ENVIRONMENTAL QUALIFICATIONS .................................................. 25 APPENDIX E - SERIAL INTERFACE SPECIFICATIONS................................................. 27 RS-232 INPUTS .............................................................................................................................. 27 RS-232 OUTPUTS ........................................................................................................................... 29 LIST OF TABLES TABLE 1 PACKAGE CONTENTS ........................................................................................................ 3 TABLE 2 CONNECTOR PINOUT ....................................................................................................... 18 TABLE 3 TROUBLESHOOTING GUIDE ............................................................................................. 21 LIST OF ILLUSTRATIONS FIGURE 1 FIGURE 2 FIGURE 3 FIGURE 4 FIGURE 5 FIGURE 6 FIGURE 7 ii SL40 FRONT PANEL ......................................................................................................... 2 MOUNTING FRAME ASSEMBLY ........................................................................................ 6 CABLE ROUTING .............................................................................................................. 6 COAX CONNECTOR ASSEMBLY ........................................................................................ 9 SL40 STANDALONE WIRING DIAGRAM .......................................................................... 10 SL40 TYPICAL AUDIO PANEL CONNECTIONS ................................................................. 11 UNIT DIMENSIONS .......................................................................................................... 16 Apollo SL40 Installation Manual Introduction SECTION 1 - INTRODUCTION ABOUT THIS MANUAL This manual describes the installation of the Apollo SL40 Comm. It is intended for use by persons certified by the Federal Aviation Administration (FAA) to install aircraft navigation devices. It includes installation and checkout procedures for the SL40 unit to standards described in FAA advisory circular AC 20-67B. Section 1 Provides an introduction to the Apollo SL40 unit. TSO certification information is also included in this section. Section 2 Includes installation and checkout procedures. Section 3 Includes complete specifications. Section 4 Includes limitations for the equipment and installation. Appendix A Includes troubleshooting information. Appendix B Includes periodic maintenance requirements. Appendix C Includes the environmental qualification form. Appendix E Includes serial data specifications. APOLLO SL40 DESCRIPTION The Apollo SL40 is a 760 channel VHF Comm transceiver. It is one member of the Apollo slimline series, which includes the SL40 Comm, the SL50 GPS, and the SL60 GPS/Comm. FEATURES The features of the SL40 Comm include: x 760 channels x Frequency range of 118.000 to 136.975MHz x Active and standby frequency display x 16 character high-intensity alphanumeric LED display x Automatic display intensity x Back-lit buttons x Transmit status indicator Apollo SL40 Installation Manual Introduction Frequency memory and recall functions from remote source eight last used eight user stored Weather channels Frequency monitor function Built-in intercom function Stuck mic time-out Two microphone inputs Internal non-volatile memory - no battery required Full range input supply voltage 12 watt audio amplifier Figure 1 SL40 Front Panel REGULATORY COMPLIANCE The Apollo SL40 is designed and tested to meet the following TSOs: FAA TSO-C37d for transmit FAA TSO-C38d for receive FAA TSO-C128 for unintentional transmission (stuck mic) The Apollo SL40 complies with the FCC requirements specified in: CFR 47, Part 87, Aviation Services, Subpart D, Technical Requirements CFR 47, Part 15, Radio Frequency Devices, Subpart B, Unintentional Radiators The Apollo SL40 software is designed and tested to RTCA/DO-178B, level C. Apollo SL40 Installation Manual Introduction The Apollo SL40 meets the additional standards as detailed in the Declaration of Conformity included on page 31. Note: Unauthorized changes or modifications to the SL40 may void the compliance to required regulatory agencies and authorization for continued equipment usage. UNPACKING THE EQUIPMENT Carefully unpack the equipment. Visually inspect the package contents for any evidence of shipping damage. Retain all shipping containers and packaging material in case reshipment is necessary. PACKAGE CONTENTS As shipped from the Garmin AT, Inc. factory, the Apollo SL40 package includes most necessary items for installation other than supplies normally available at the installation shop, such as wire and cable ties, and required input and output equipment. The items included in the package are listed in Table 1. Table 1 Package Contents Part # Comm unit 430-6040-2xx Description Qty Apollo SL40 Comm Transceiver Apollo SL40 Installation Kit, Part # 424-2006-2xx 162-0100 or 15 pin dsub connector shell 162-1575 162-1008 Right angle coax plug 202-0001 Cable tie 204-2100 Shoulder bushing 221-0400 4-40 x 1/4 SS pan head Phillips machine screw with lock washer 224-0404 4-40 x 1/4 SS flat head Phillips machine screw 245-0022 or Crimp contact for dsub, 20 to 24 awg wire 245-0027 310-5181-01 Mounting frame 310-5187-01 Connector mounting plate 998-0048 3/32 hex driver 204-0037 Edge grommet 6” Apollo SL40 Manual Kit, Part # 564-0064-2xx 560-0954-xx SL40 User’s manual 560-0956-xx SL40 Installation manual Apollo SL40 Installation Manual 15 Introduction OTHER REQUIRED MATERIALS The SL40 is intended for use with standard aviation accessories. The following items are required for the installation: x comm antenna with cables x a microphone x a speaker or headphone These items may be installed dedicated to the SL40 comm or by connections to an audio panel. SPECIAL TOOLS REQUIRED Crimp Tool A crimp tool meeting MIL specification M22520/1-01 and a positioner/locater are required to ensure consistent, reliable crimp contact connections for the rear d-sub connectors. These tools are available from: For pin p/n 245-0022 Astro Tool Corp. 21615 SW TV Highway Beaverton, OR 97006 Phone (503) 642-9853 Fax (503) 591-7766 Crimp tool: Positioner: Astro Tool part #615708 Astro Tool part #616356 For pin p/n 245-0027 ITT Cannon 1851 E. Deere Ave. Santa Ana, CA 92705-6500 Insertion tool: Regular duty Crimp tool: Regular duty Locator tool: Heavy duty Crimp tool: Heavy duty Locator tool: Phone (714) 261-5300 Fax (714) 575-8324 ITT part # 274-7006-000 (Desc. CIET-20HD) ITT part #995-0001-585 (Desc. M22520/1-01) ITT part #995-0001-244 (Desc. TH25) ITT part #995-0001-584 (Desc. M22520/2-01) ITT part #995-0001-604 (Desc. M22520/2-08) LICENSE REQUIREMENTS An aircraft radio station license is required for operation of the transmitter once installed in the aircraft. An application must be submitted on FCC Form 404, which may be obtained from the FCC in Washington, DC, or any of its field offices. Procedures for applications are in CFR 47, Part 87, Aviation Services, Subpart B, Applications and Licenses. Apollo SL40 Installation Manual Installation SECTION 2 - INSTALLATION This section describes the installation of the Apollo SL40 including mounting, wiring, and connections. A post installation check-out procedure is included at the end of this section. PRE-INSTALLATION INFORMATION Always follow good avionics installation practices per FAA Advisory Circulars (AC) 43.131A, 43.13-2A, and AC 20-67B, or later FAA approved revisions of these documents. Follow the installation procedure in this section as it is presented for a successful installation. Read the entire section before beginning the procedure. Perform the post installation checkout before closing the work area in case problems occur. INSTALLATION OVERVIEW A successful installation should start with careful planning including determination of mounting location for the SL40, antenna mounting, connections to microphones, speakers, and headphones, cable routing, and other required modifications. Once the mounting location has been determined, prepare the mounting frame for installation. It may be easier to complete the wiring harness and attach the connectors to the mounting frame before installing the mounting frame. INSTALLATION CONSIDERATIONS MOUNTING CONSIDERATIONS The SL40 is designed to mount in the avionics stack in the aircraft instrument panel within easy view and reach of the pilot. The standard package includes a mounting frame for ease of mounting, connections, and service of the unit. Allow an additional one inch clearance to the rear of the mounting frame for connectors and cables. For typical installations, the SL40 does not require external cooling. When mounting the SL40, leave a clearance of 1/8 to 1/4 inch between avionics to allow for circulation. MINIMUM SYSTEM CONFIGURATION The SL40 requires connections to the following equipment as a minimum: x power input x speaker or headphone output x microphone input x an antenna EQUIPMENT MOUNTING Once the cable assemblies have been made, attach the 15 pin dsub and coaxial cable connectors to the rear connector mounting plate and the mounting frame as illustrated in Figure 2 and Figure 3. Route the wiring bundle as appropriate. The rear connector plate should be attached to the mounting frame before installing the frame in the instrument panel. The rear connector plate can be used to tie down the cable assemblies. Connect the shield grounds directly to the connector mounting plate. Apollo SL40 Installation Manual Installation Figure 2 Mounting Frame Assembly Figure 3 Cable Routing Once the cable assemblies are complete and the connectors are attached to the mounting frame, install the mounting frame assembly in the instrument panel. Be sure to use low profile Apollo SL40 Installation Manual Installation head screws so the unit will slide in and out freely. Attach the front of the mounting frame to the instrument panel. Use support brackets to attach the rear of the frame to the aircraft. To install the unit in the mounting frame, make sure the cam lock is rotated so the rear part is up, then slide the unit into the frame and tighten with the 3/32 hex tool. The unit will be pulled into the frame by the cam lock and the connectors will fully engage. To remove the unit from the mounting frame, use the hex tool and turn the tool CCW. The unit will be pushed out of the frame by the cam lock assembly. No special extraction tools are required. ELECTRICAL CONNECTIONS The SL40 installation kit includes a 15 pin dsub shell and crimp contacts. The crimp contacts are specified for 20 to 24 AWG wire. Make the crimp connections with a crimp tool as specified in the Special Tools Required section on page 4. All wires should be 20 to 24 AWG unless otherwise specified. A wiring diagram is included as Figure 5. POWER The SL40 is internally fused at 7 amps. A separate 5 amp (maximum) circuit breaker or fuse should be installed for downline overload or short circuit protection. Make the power connections to the SL40 using 20 awg wire. Note: Circuits should be protected in accordance with guidelines in AC 43.13-1A, chapter 11, section 2, paragraph 429. SPEAKER AND HEADPHONE OUTPUTS Connect the speaker and headphones to the output pins on the rear connector. MICROPHONE INPUTS Microphone input connections should be made using a twisted pair shielded cable. Attach the signal ground to the mic ground pin on the rear connector and connect the shield to the rear connector plate. TRANSMIT KEY INPUT The TxKey input on the rear connector must be pulled low to ground to enable the transmitter. This input should be connected to a microphone or yoke mounted momentary push button switch. INTERCOM SELECTOR SWITCH The SL40 includes an intercom function that can be enabled by an external control switch. This is an optional connection. When making connection for the intercom selection, connect the intercom selection input to a remote mounted normally open switch. A momentary toggle or alternate action switch can be Apollo SL40 Installation Manual Installation used. Connect the other terminal of the switch to ground. The intercom function is enabled when the input is pulled low to ground. SERIAL INTERFACE The SL40 includes an RS232 serial port, which can be used for inputting frequency and function control commands and outputting transceiver status. This is an optional connection. When making serial connections to the SL40, use a shielded three conductor cable. Make the RxD, TxD, and ground connections on the 15 pin connector. Connect the shield to the rear of the mounting frame on the connector plate. The SL40 can be connected to the RS-232 serial data outputs on the Apollo 2001GPS (requires software version 5.1 or later), the SL50, SL60, GX50, GX55, GX60, or the 360 Map/GPS for receiving remote frequency information from the GPS navigation data base. Refer to the installation manuals for those units for connections and serial data output selections. Complete serial interface specifications are included in Appendix E. ANTENNA INSTALLATION AND CONNECTIONS The SL40 requires a standard 50: vertically polarized antenna. Follow the antenna manufacturer’s installation instructions for mounting the antenna. The antenna should be mounted on a metal surface or a ground plane with a minimum area of 18 x 18 inches. The antenna should be mounted a minimum of 24 inches away from GPS antennas. The comm antenna should also be mounted as far apart as practical from the ELT antenna, preferably one on top and the other on the bottom of the aircraft fuselage. Some ELTs have exhibited re-radiation problems generating harmonics that may interfere with GPS signals. This can happen when the comm (SL40 or any other comm) is transmitting on certain frequencies such as 121.15 or 121.175 MHz, which may cause the ELT output circuit to oscillate from the signal coming in on the ELT antenna coax. The antenna coax cable should be made of RG-142B or a comparable quality 50: coax. Assembly instructions for the rear coax connector are included in Figure 4. Apollo SL40 Installation Manual Installation Clamp Nut Slit 1/4" (2X) Step 1. 0.125 0.031 - Slide clamp nut over coax. - Strip coax as illustrated. - Cut two 1/4" slits in jacket 180 degrees apart. 0.375 Step 2. Braid Clamp - Slide braid clamp over end of coax and under the braid. Cap Step 3. Solder Center Conductor - Insert coax with braid clamp into connector and tighten clamp nut securely. - Solder the center conductor of the coax to the contact as illustrated. - Attach the cap and secure tightly. Assembly instructions for right angle connector part #162-1008 Figure 4 Coax Connector Assembly Apollo SL40 Installation Manual Installation Figure 5 SL40 Standalone Wiring Diagram 10 Apollo SL40 Installation Manual Installation Figure 6 SL40 Typical Audio Panel Connections Apollo SL40 Installation Manual 11 Installation POST INSTALLATION CHECKOUT Once the unit is installed, complete the checkout procedure to verify proper operation. Refer to the User’s Guide for operating instructions. Mounting / Wiring Check Verify that all cables are properly secured and shields are connected to the rear of the mounting frame. Check the movement of the aircraft controls to verify that there is no interference. Receiver / Transmitter Operation Tune the unit to a local frequency and verify the receiver output produces a clear and understandable audio output. Verify the transmitter by contacting another station and getting a report of reliable communications. Antenna Check The antenna VSWR can be checked using an inline watt meter in the antenna coax using frequencies near both ends of the band. The VSWR should be < 2:1, and is not to exceed 3:1. A VSWR of 2:1 will cause a drop in output power of approximately 12%, and 3:1 causes approximately a 26% drop. Interference Check Check the SL40 while operating the other avionics and electrical systems on the aircraft to verify that no significant interference exists, and that the SL40 does not cause significant interference with other systems. Performance should be checked using low, high, and mid band frequencies. Repeat during the flight test for equipment that is not checked on the ground. Sidetone Level Adjustment The sidetone volume was preset at the factory to what should be an acceptable level. The level can be adjusted in the System Functions mode. To adjust the sidetone level: 1. Press and hold the MON button for about two seconds. This will access the System Functions mode. 2. Rotate the LARGE knob to display the SIDETONE LVL page. 3. Rotate the SMALL knob to change the level number. The range of the number is 000 to 255, with 128 producing one half of full rated output. A setting of 000 slaves the level to the Volume knob. 4. Press any key to exit the Setup Functions mode. 5. Select an appropriate frequency, key the transmitter, and talk into the microphone to check the level. Receiver Squelch Adjustment Adjustments to the receiver squelch level may be performed by using the RCVR SQELCH page in the Test Mode. Values may be adjusted between 25 and 100. 1. Press and hold the and RCL keys while switching the unit on. 2. Turn the LARGE knob to the RCVR SQELCH page. 3. Press the key to start selection (the number will flash). 4. Turn the SMALL knob to change the value. Press MEM to store the value. 12 Apollo SL40 Installation Manual Installation 5. Turn the unit off to exit the Test Mode. Mic Level Adjustment Those units with audio board p/n 415-7008-01, or later, have the ability to make adjustments to microphone sensitivity by using the MIC 1 LEVEL and MIC 2 LEVEL pages in the Test Mode. 1. Press and hold the and RCL keys while switching the unit on. 2. Turn the LARGE knob to the MIC 1 LEVEL and MIC 2 LEVEL pages. 3. Press the key to start selection (the number will flash). 4. Turn the SMALL knob to change the value. Press MEM to store the value. 5. Turn the unit off to exit the Test Mode. Display Test It is possible to perform a simple test to observe all segments of the display for a quick checkout of the display functions. 1. Press and hold the and RCL keys while switching the unit on. 2. Turn the LARGE knob to the DISPLAY TEST page. 3. Press MEM to perform the test. A series of “#” symbols will advance across the display testing each LED. 4. Turn the unit off to exit the Test Mode. Mic Squelch Adjustments to the squelch levels for Mic1 and Mic2 are available in the System Functions mode. To adjust the Microphone Squelch level: 1. Press and hold the MON button for about two seconds. This will access the System Functions mode. 2. Rotate the LARGE knob to display the MIC1 OR MIC2 SQLCH pages. 3. Rotate the SMALL knob to change the level number. The range of the number is 000 to 127. 4. Press any key to exit the Setup Functions mode. 5. Select an appropriate frequency, key the transmitter, and talk into the microphone to check the level. Transmit Mic The Transmit Microphone page allows you to control which microphone is permitted to transmit. You may choose Mic 1, 2, or both. To adjust the Transmit Mic control: 1. Press and hold the MON button for about two seconds. This will access the System Functions mode. 2. Rotate the LARGE knob to display the TRANSMIT MIC page. 3. Rotate the SMALL knob to select MIC1, MIC2, or MIC1+MIC2. 4. Press any key to exit the Setup Functions mode. 5. Select an appropriate frequency, key the transmitter, and talk into the microphones to check for the intended operation. Apollo SL40 Installation Manual 13 Installation Flight Test Check A flight test is recommended as a final installation verification. The performance may be verified by contacting a ground station at a range of at least 50 nm while maintaining an appropriate altitude and over all normal flight attitudes. Performance should be checked using low, high, and mid band frequencies. 14 Apollo SL40 Installation Manual Specifications SECTION 3 - SPECIFICATIONS This section includes detailed electrical, physical, environmental, and performance specifications for the Apollo SL40. ELECTRICAL Input voltage ............................................. 10 VDC to 40 VDC, reverse polarity protected Input current.............................................. 300 mA typical, 2 A max. at 13.75 VDC, receive 140 mA typical, 900 mA max. at 27.5 VDC, receive 2.1A typical, 3.2A max. at 13.75 VDC, transmit 1.0 A typical, 1.4 A max. at 27.5 VDC, transmit Note: receive max. at full receive audio, transmit max. at 90% modulation at 1000Hz Input power............................................... 4 watts typical, receive 28 watts typical, transmit Internal fuse .............................................. 7 amp fast blow, soldered in board Power control connection ......................... Pulled low to turn unit ON; floating (high) for unit OFF PHYSICAL Height ....................................................... 1.30 inches (3.30 cm) Width ........................................................ 6.25 inches (15.88 cm) Depth ........................................................ 11.452 inches (29.09 cm) behind panel, including mounting frame and connectors Weight (with mounting frame) ................. 2.1 lb. (0.953 kg) ENVIRONMENTAL The Apollo SL40 unit is designed and tested to meet appropriate categories of RTCA/DO160C. The Environmental Qualification Form is included in Appendix C. Operating temperature .............................. -20qC to +55qC Storage temperature .................................. -55qC to +85qC Temperature variation............................... 2qC per minute Humidity................................................... 95% at 50qC for 6 hours (2 day cycle) Maximum altitude..................................... 35,000 feet Cooling ..................................................... Not required Apollo SL40 Installation Manual 15 Specifications Figure 7 Unit Dimensions RECEIVER PERFORMANCE Class ......................................................... D Frequency range ....................................... 118.000 to 136.975 MHz, 760 channels Sensitivity................................................. 1PV (2PV hard) for 6 dB S+N/N with 30% modulation at 1000Hz Selectivity................................................. < 6 dB variation at r 7 kHz, > 60 dB at r 22 kHz Speaker audio output level ....................... 12 watts into 4:, 8 watts into 8: Headphone audio output level.................. 280mW into 100:, 120mW into 500: Distortion.................................................. < 5% at rated output at 1000Hz AGC characteristics.................................. < 3 dB variation in audio output from 5PV to 100mV input, 15% to 90% modulation Squelch control......................................... Automatic squelch with manual override TRANSMITTER PERFORMANCE Class ......................................................... 4 Output power............................................ 8 watts minimum carrier at >12VDC input, 6 watts minimum at 10VDC input (transmit is locked out below 9 volts input) Frequency range ....................................... 118.000 to 136.975 MHz, 760 channels Frequency tolerance.................................. r15ppm from -20qC to +70qC 16 Apollo SL40 Installation Manual Specifications Microphone input ..................................... Two inputs, standard carbon or dynamic mic with integrated preamp providing minimum 70mv rms into 1000: load Modulation capability............................... 85% with 100mv to 1000mv rms microphone input at 1000 Hz Audio frequency distortion ....................... < 10% at 85% modulation at 350 to 2500 Hz Audio frequency response ........................ < 4db variation with 350 to 2500 Hz, 85% modulation Carrier noise level..................................... > 35 dB down Sidetone output ......................................... up to 280mW into 100:, 120mW into 500: Duty cycle ................................................. 100% Stuck mic time-out.................................... 35 second time-out, reverts to receive INTERCOM PERFORMANCE Microphone input ..................................... Two inputs, standard carbon or dynamic mic with integrated preamp providing minimum 70mv rms into 1000: load Headphone audio output level .................. 280 mW into 100:, 120 mW into 500: AGC characteristic.................................... output varies < 3 dB with input of 100mv rms to 1000mv rms CONTROL INPUTS Transmit key ............................................. Input pulled low to ground to enable the transmitter Intercom select.......................................... Input pulled low to ground to enable the intercom function ANTENNA REQUIREMENTS The Apollo SL40 requires an antenna meeting the following specifications. Standard 50: vertically polarized antenna with a VSWR < 2.5:1. SERIAL INTERFACE RS-232 ...................................................... Defined in Appendix E - Serial Interface Specifications Apollo SL40 Installation Manual 17 Specifications REAR CONNECTOR PINOUT Table 2 Connector Pinout Pin # I/O Connection Function 10 11 12 -O Power + Reserved TxD TxKey NC Speaker Mic ground Mic 1 Power ground RxD Serial ground Intercom select 13 14 15 Audio ground Headphone Mic 2 main DC power input Do not connect RS232 serial data output transmit enable key, pulled low to transmit Do not connect speaker terminal output microphone input ground connection microphone input #1 main power ground input RS232 serial data input RS232 signal ground intercom function select, pulled low to turn on the intercom function speaker and headphone ground connection headphone terminal output microphone input #2 15 Viewed from rear of unit 18 Apollo SL40 Installation Manual Limitations SECTION 4 - LIMITATIONS INSTALLATION Installations are to be made in accordance with AC 20-67B or other appropriate FAA approved guidelines. OPERATIONAL An aircraft radio station license is required for transmitting. Apollo SL40 Installation Manual 19 Limitations NOTES 20 Apollo SL40 Installation Manual Troubleshooting APPENDIX A - TROUBLESHOOTING This appendix provides information to assist troubleshooting if problems occur after completing the installation. Use Table 3 to assist in troubleshooting. Table 3 Troubleshooting Guide Problem Cause Solution The SL40 does not power on. The unit is not getting power. The unit does not transmit. The TxKey input is not being pulled low. A weather channel is selected. Check power connections, breakers, and main avionics switch. Check the TxKey (mic key) input, pulled low for transmit. Select a different frequency, the unit will not transmit on a weather channel. Increase input supply voltage to > 9 volts DC. See the Mic Level Adjustment on page 13 See the Sidetone Level Adjustment on page 12. The intercom select input must be pulled to ground to turn on the intercom function. The input voltage is too low. Mic Sensitivity varies Mic Levels need adjustment The sidetone and intercom levels are too low or high. The intercom doesn’t function. Wrong type of headsets, or level needs adjustment. Control input not connected. No voice activation, or have to talk too loud. Change the intercom squelch threshold using the setup function described in the user’s manual. CONTACTING THE FACTORY FOR ASSISTANCE If the Apollo SL40 unit fails to operate despite troubleshooting efforts, contact the Garmin AT factory for assistance. Garmin AT, Inc. 2345 Turner Rd. SE Salem, Oregon 97302 USA Phone (503) 581-8101 or 1-800-525-6726 http://www.garminat.com Be prepared to offer the following information about the installation: x Installation configuration (accessories, antenna, ...) x Model number, part number with mod levels, and serial number x Software version x Description of problem x Efforts made to isolate the problem Apollo SL40 Installation Manual 21 Troubleshooting NOTES 22 Apollo SL40 Installation Manual Periodic Maintenance APPENDIX B - PERIODIC MAINTENANCE EQUIPMENT CALIBRATION The SL40 design requires very few adjustments or calibration to be made. In fact, there are no internal manual adjustments. REFERENCE OSCILLATOR The reference oscillator frequency should be checked approximately every 3 to 5 years to ensure the units transmit frequency is within allowable tolerance. The oscillator frequency can be checked by connecting the transmitter output through an appropriate load to a calibrated frequency counter. The transmit frequency should be within 15ppm of the selected channel frequency. Contact the Garmin AT, Inc. factory for instructions on adjusting the frequency if required. CLEANING THE FRONT PANEL The front bezel, keypad, and display can be cleaned with a soft cotton cloth dampened with clean water. DO NOT use any chemical cleaning agents. Care should be taken to avoid scratching the surface of the display. Apollo SL40 Installation Manual 23 Periodic Maintenance NOTES 24 Apollo SL40 Installation Manual Environmental Qualifications APPENDIX C - ENVIRONMENTAL QUALIFICATIONS The Apollo SL40 has been tested to the following environmental categories per procedures defined in RTCA/DO-160C. Environmental Qualification Form Nomenclature: SL40 Manufacturer: Part No.: 430-6040-200 Garmin AT, Inc. TSO No.: TSO-C37d, TSO-C38d, and 2345 Turner Road SE TSO-C128 Salem, Oregon 97302 Conditions Section Description of Conducted Tests Temperature and Altitude In-flight Loss of Cooling Altitude Overpressure Temperature Variation Humidity Operational Shocks and Crash Safety 4.0 4.5.4 4.6.1 4.6.3 5.0 6.0 Vibration 8.0 Explosion Proofness Waterproofness Fluids Susceptibility Sand and Dust Fungus Resistance Salt Spray Magnetic Effect Power Input Voltage Spike Audio Frequency Conducted Susceptibility - Power Inputs Induced Signal Susceptibility Radio Frequency Susceptibility (Radiated and Conducted) Emission of Radio Frequency Energy Lightning Induced Transient Susceptibility Lightning Direct Effects Icing Remarks: 9.0 10.0 11.0 12.0 13.0 14.0 15.0 16.0 17.0 18.0 Apollo SL40 Installation Manual 19.0 20 21 22.0 23.0 24.0 Equipment tested to Category C1 with No cooling required Equipment tested to 35,000 feet Equipment tested for overpressure Equipment tested to Category C, 2GC/min Equipment tested to Category A, standard humidity environment Equipment tested for both operational and crash safety shocks. (Equipment operated normally after the crash safety shocks.) Equipment tested without shock mounts to Categories B, M, &N Equipment identified as Category X, no test required Equipment identified as Category X, no test required Equipment identified as Category X, no test required Equipment identified as Category X, no test required Equipment identified as Category X, no test required Equipment identified as Category X, no test required Equipment is Class Z Equipment tested to Categories A & B Equipment tested to Category A Equipment tested to Categories A & B Equipment tested to Category Z Equipment tested to Category V for conducted, Category U for radiated. Equipment tested to Category Z Equipment tested to Categories A3 and B2. RS-232 input/output tested to A3 and B1. Equipment identified as Category X, no test required Equipment identified as Category X, no test required 25 Environmental Qualifications NOTES 26 Apollo SL40 Installation Manual Serial Data Specifications APPENDIX E - SERIAL INTERFACE SPECIFICATIONS This appendix includes the interface specifications for the RS-232 serial port. The RS-232 port can be used to input active and standby frequencies, and is used to input frequencies from a remote source, such as the SL50 and 2001GPS. The interface format conforms to NMEA 0183 message format specifications. The format of the RS-232 serial port is as follows: Baud rate............................................ 9600 Data bits............................................. 8 Stop bits............................................. 1 Parity.................................................. none The data format is as follows: $PMRRCThe checksum is computed by an 8 bit addition of the msg_id and msg_data characters, ignoring carry if any. The resulting 8 bit checksum is converted to two ascii characters by taking the upper and lower nibbles, adding 30h to each, and placing the most significant character first in the data message. RS-232 INPUTS SET ACTIVE FREQUENCY Message Format $PMRRC00mka 00 ....... message id mk...... active frequency: m = desired frequency in MHz in hexadecimal, where m = desired frequency 30h , with desired frequency in range of 118 to 136 MHz, or 162 MHz. k = desired frequency in kHz where k = (desired frequency / 25 kHz) + 30h, with desired frequency in range of 000 to 975 kHz in 25 kHz steps, or 0 to 39. a ......... transceiver function: N = normal receive operation M = enable monitor function 0 = no change Example Message $PMRRC00G4N29 Set the active frequency to 119.100MHz, normal receive mode. “G” = 119d - 30h = 77h 30h = 47h, or an ascii “G”; “4” = 100 kHz/25 kHz + 30h = 4 + 30h = 34h, or an ascii “4.” Apollo SL40 Installation Manual 27 Serial Data Specifications SET STANDBY FREQUENCY Message Format $PMRRC01mka 01....... message id mk...... standby frequency: m = desired frequency in MHz in hexadecimal, where m = desired frequency 30h , with desired frequency in range of 118 to 136 MHz, or 162 MHz. k = desired frequency in kHz where k = (desired frequency / 25 kHz) + 30h, with desired frequency in range of 000 to 975 kHz in 25 kHz steps, or 0 to 39. a......... transceiver function: N = normal receive operation M = enable monitor function 0 = no change Example Message $PMRRC01LFM40 Set the standby frequency to 124.550 MHz, monitor function selected REMOTE IDENT INPUT This message is used to input a new ident, and reset the remote frequency input pointer. Message Format $PMRRC04tiiii 04....... message id t.......... list type, input 1 iiii ...... ident, four character ascii Example Message $PMRRC041SLE 99 Set the remote frequency ident to “SLE.” REMOTE FREQUENCY LIST INPUT This message is used to input frequencies for the remote recall function. Up to 10 frequencies are accepted. Message Format $PMRRC05tfmk 05....... message id t.......... list type, input 1 f ......... frequency type: 0 = TWR, tower frequency 1 = GND, ground frequency 2 = ATS, for ATIS 3 = ATF, air traffic frequency 4 = APP, for approach 28 8 = CTF, common traffic advisory frequency 9 = DEP, departure : (3Ah) = FSS, flight service station ; (3Bh) = RFS, for remote flight service station < (3Ch) = UNI, for unicom Apollo SL40 Installation Manual Serial Data Specifications 5 = ARR, for arrival 6 = AWS, automatic weather station 7 = CLR, clearance/delivery = (3Dh) = MF, mandatory frequency > (3Eh) = not defined, do not use ? (3Fh) = undefined, for other frequency types mk...... frequency: m = desired frequency in MHz in hexadecimal, where m = desired frequency 30h , with desired frequency in range of 118 to 136 MHz, or 162 MHz. k = desired frequency in kHz where k = (desired frequency / 25 kHz) + 30h, with desired frequency in range of 000 to 975 kHz in 25 kHz steps, or 0 to 39. Example Message $PMRRC0511IT64 Input a ground frequency type, 121.900 MHz. REQUEST OUTPUT MESSAGE This message is used to request data output messages. Message Format $PMRRC06iidda 06 ....... message id ii......... requested message ident: 03 = software version message dd ....... set to 00 a ......... set to 0 Example Message $PMRRC060300059 This message requests the software version message to be output. RS-232 OUTPUTS TRANSCEIVER STATUS This message is used to output the current transceiver frequencies and status. Message Format $PMRRC01mkmkas 01 ....... message id mk ...... active frequency (first mk): m = frequency in MHz in hexadecimal, where m = frequency - 30h , with frequency in range of 118 to 136 MHz, or 162 MHz. k = frequency in kHz where k = (frequency / 25 kHz) + 30h, with frequency in range of 000 to 975 kHz in 25 kHz steps, or 0 to 39. mk...... standby frequency (second mk): m = frequency in MHz in hexadecimal, where m = frequency - 30h , with frequency in range of 118 to 136 MHz, or 162 MHz. k = frequency in kHz where k = (frequency / 25 kHz) + 30h, with frequency in range of 000 to 975 kHz in 25 kHz steps, or 0 to 39. Apollo SL40 Installation Manual 29 Serial Data Specifications a......... transceiver status: R = normal receive M = monitor selected T = transmit enabled S = stuck mic s ......... squelch test setting: 0 = automatic 1 = test selected Example Message $PMRRC01G4LFR0F0 The active frequency is 119.100 MHz, the standby frequency is 124.550 MHz, normal receive function, automatic squelch selected. This message is output once/second. SOFTWARE VERSION This message is used to output the com software version. Message Format $PMRRC03vvvv 03....... message id vvvv... software version Example Message $PMRRC03010024 The software version is 01.00. This message is output once at power up and by request. 30 Apollo SL40 Installation Manual Declaration of Conformity Manufacturer’s name: Manufacturer’s address: Garmin AT, Inc. 2345 Turner Rd. SE Salem, Oregon, 97302 USA declares that the following product: Type of equipment: VHF Comm transceiver for aircraft Product name: Apollo SL40 Comm Part number: 430-6040-2xx conforms to the following Directives and Standards: Application of Council Directives: 89/336/EEC, 93/68/EEC Standards: EN50081-1, EN50082-1 Quality Department Garmin AT, Inc. Apollo SL40 Installation Manual 31
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