MOTOROLA, the Stylized M Logo, and Radius are registered in the US Patent & Trademark Office. All other product or service names are the property of their respective owners. © 2002 Motorola, Inc. All rights reserved. Printed in U.S.A.
i Table of Contents Product Safety and RF Exposure Compliance ........................iii Information for Vehicles with Electronic Anti-Lock/Anti-Skid Brakes .......................................iv Installation Warnings .............................................................................................iv Installation Precautions ..........................................................................................iv Braking System Tests .....................................................
ii 5.2 External Speaker Installation ...............................................................................11 5.3 Visor Microphone Installation ...............................................................................12 5.3.1 Connecting to the Mobile Radio ............................................................. 12 Chapter 6 Accessory Connections 6.1 Accessory Connector Pin Functions ....................................................................13 6.
Safety-iii PRODUCT SAFETY AND RF EXPOSURE COMPLIANCE ! Before using this product, read the operating instructions for safe usage contained in the Product Safety and RF Exposure booklet enclosed with your radio. Caution ATTENTION! This radio is restricted to occupational use only to satisfy FCC RF energy exposure requirements.
iv Information for Vehicles with Electronic Anti-Lock/Anti-Skid Brakes The following installation suggestions and test procedures are recommended for vehicles with electronic antilock/anti-skid brakes. Refer to your vehicle service manual for your vehicle’s braking system, or contact your dealer directly. Installation Warnings ! WARNING Disruption of the anti-skid/anti-lock braking system by the radio transmitter may result in unexpected vehicle motion.
Information for Vehicles with Electronic Anti-Lock/Anti-Skid Brakes 8. Repeat Step 7, except do so while speaking into the microphone. 9. Release the brake pedal completely and accelerate the vehicle to a speed of 20 miles (30 kilometers) per hour. Ensure that a minimum of two vehicle lengths is maintained between the front of the vehicle and any object in the vehicle’s forward path.
vi Information for Vehicles with Electronic Anti-Lock/Anti-Skid
1 Chapter 1 Introduction 1.1 General Information There are two methods of installing your mobile radio: 1. The standard radio package contains a direct mounting trunnion and power cables. 2. CM200/CM300 mobile radios may be mounted in the dashboard of a car using the required DIN Mount Kit FTN6083. An accessory connector on the rear of the radio (see Figure 4-1) enables you to attach different accessories required for the installation.
2 Chapter 2 DC Power Cable Installation 2.1 ! Planning the Power Cable Installation CAUTION: This radio must be operated only in negative ground electrical systems. Operating the radio on a positive ground system will cause the cable fuse to short-circuit. Check the vehicle ground polarity before you begin the installation. The 10 foot (3 m) DC power cable shipped with the radio should be long enough to be installed in most vehicles.
DC Power Cable Installation 3 To Radio Black Lead Firewall Red Lead Grommet Engine Compartment FL08302460 Figure 2-1. Power Cable Routing into the Engine Compartment 4. Connect the black lead of the power cable to the nearest vehicle chassis ground point, which is usually the central ground point near the battery (using the provided ring lug if necessary). Shorten the black lead to remove any excess cable. (See Figure 2-2.) NOTE Locate a good vehicle ground point.
4 DC Power Cable Installation Fuse Molded In-Line Fuse Holder Cover Adapter Red Lead Red Lead Red Lead Mounting Hole Firewall Black Lead Ring Lugs Engine Compartment To Vehicle Chassis Ground To Battery (+) FL08302470 Figure 2-2.
5 Chapter 3 Trunnion Installation 3.1 Planning the Mounting Trunnion Installation Planning is the key to fast, easy radio installation. Before a hole is drilled or a wire is run, inspect the vehicle and determine how and where you intend to mount the antenna, radio, and accessories. If you are using any of the optional accessories, obtain them and plan for their installation using the detailed instructions included with each accessory.
6 Trunnion Installation TRANSMISSION HUMP MOUNTING Thumb Screw (2) Tab Tab Mounting Surface Trunnion Mounting Bracket Tab 1.12" (28mm) 1.84" (46mm) 2.92" (73mm) 1.84" (46mm) 2.92" (73mm) BELOW DASH MOUNTING Mounting Surface Sheet Metal Screws Trunnion Mounting Bracket Thumb Screw (2) FL0830250O -1 Figure 3-1.
Trunnion Installation 7 Thumb Screw Trunnion Thumb Screw Figure 3-2. Radio into Trunnion Figure 3-3.
8 Chapter 4 Antenna Installation 4.1 Mobile Radio Operation and EME Exposure Observe the following caution and electromagnetic energy exposure (EME) statements when installing antennas: ! CAUTION: Use caution when installing antennas with mobile radio equipment using transmitter power in excess of 7 Watts. NOTE For low-power mobile radios (7 Watts, or less), there are no antenna type or installation restrictions. 4.2 Selecting an Antenna Site 1.
Antenna Installation 4.3 9 Antenna Installation Procedure 1. Mount the antenna according to the instructions provided with the antenna kit. Run the coaxial cable to the radio mounting location. If necessary, cut off the excess cable and install the cable connector. 2. Connect the antenna cable connector to the radio antenna connector on the rear of the radio. (See Figure 4-1.) Accessory Connector Connector Housing Power Connector Antenna Connector Figure 4-1. 4.
10 Chapter 5 Installation Options 5.1 Mobile Dashboard Mounting 5.1.1 Installing the Mounting Frame into the Dashboard 1. Open the radio cut-out in the dashboard to ISO 7736 specification (182mm x 53mm). 2. Insert the mounting frame into the dashboard cut-out and retain it by bending back the tabs (using all 6 where possible). Check that the orientation of the frame is correct by ensuring that the word "TOP" is facing upward. NOTE 1.
Installation Options 5.1.3 11 Removing the Radio from the Mounting Frame 1. Push the two demounting tools through the openings in the mounting frame until the two springs release the radio. 2. Slide out the radio. NOTE 1. The fixing tabs should be checked for tightness each time the radio is removed. The tabs are easily tightened by twisting a large flat-bladed screwdriver in the slot behind the tabs. 2. The mounting frame is not designed for regular mounting and demounting. 5.
12 5.3 Installation Options Visor Microphone Installation 1. Carefully select the installation location for the visor-mounted microphone. Achieve optimum performance of the microphone’s hands-free circuitry by mounting the microphone in one of two locations: • on the sun-visor directly above the driver, or • on the headliner just above the driver. The microphone should never be mounted near the window or in a place where the road and ambient background noise would be substantially high (above 85 dB SPL).
Accessory Connections 13 Chapter 6 Accessory Connections 6.1 Accessory Connector Pin Functions This section gives a description of the accessory connector pin functions. CAUTION: The accessory connections shown are not compatible to some other models of Motorola radios. Check the appropriate accessory or technical manual for further information. ! Table 6-1: Connector Pin Functions Pin Function Description 1 External Speaker (-) Connect external 8 or 4 Ohm speaker to pins 1 and 16.
14 Accessory Connections Table 6-1: Connector Pin Functions Pin Function Description 11 Receiver Audio Output Programmable (using CPS in the Rx Audio Type): 660 mV rms (de-emphasized/ muted) or 330 mV rms (non-de-emphasized/unmuted) at 60% deviation at 1 kHz. Default is de-emphasized/ muted. Minimum load resistance: 5 k Ohms.. 12 Programmable I/O Input or output. 13 Switched B+ (Switched Battery Voltage) 13.8 Vdc (500 mA max.) when radio is ON. 14 Programmable I/O Input or output.
Accessory Connections 6.2 ! 15 Connection Plan for Accessories CAUTION: Do Not short pin 1, 13, or 16 on the accessory connector to Ground; this may damage the radio. 1. Plug the lead with the crimped-on terminal into the #4 socket of the accessory plug. (See Figure 6-1a). 2. Screw the circular terminal into the vehicle chassis. 3. Make all remaining wiring connections per wiring diagram. (See Figure 6-1b).
16 Chapter 7 Noise Sources 7.1 Introduction Electrical noise generated by the electrical system of a vehicle, as well as local ambient noise, can interfere with normal operation of mobile radios. Satisfactory operation of a mobile radio may require slight or heavy noise reduction, depending upon the relative strength of the radio signal, and upon the ability of the radio to reject undesired noise.
Noise Sources 17 It is impractical to prevent all arcing in the standard vehicle electrical system. In an 8-cylinder engine running at 2,000 RPM, arcing occurs across the spark plugs at a rate of 8,000 sparks per minute or 133 sparks per second. Electrical motors and generators also produce arcs.
18 Chapter 8 Operation of a Conventional Ignition System 8.1 Introduction To effectively reduce ignition interference in a vehicle, it is necessary to understand the operation of an automobile ignition system. Ignition is necessary in a gasoline engine to ignite the gasoline vapor and the air mixture in its cylinders. The system is made up of the battery, distributor, breaker points, coil, condenser, and spark plugs.
Operation of a Conventional Ignition System 19 The battery is connected to the primary winding of the coil through the ignition switch. The primary circuit is returned to the battery through the breaker points, which are bypassed by the condenser. The points are normally closed. As the cam shaft is rotated by the engine, it’s lobes or corners open and close the points in proper synchronization with the piston in each cylinder.
20 Chapter 9 Detection of Noise Sources 9.1 Noise Detection Procedure Detection of offending noise sources is the heart of noise suppression because, after the noise source is identified, the solution becomes obvious. A logical step-by-step procedure is basic to effective noise suppression. Use your available equipment to best advantage.
Detection of Noise Sources 9.2 21 Sources of Noise Some interference is due to geographic location. This interference does not need to be eliminated since it is possible for the vehicle to be moved away from the interfering noise source. Noise from power lines, fluorescent lights, and other vehicles (emitting high levels of radiated noise) are examples of noise which depend upon location. Make certain that you are not attempting to suppress noise in a vehicle while it is in a noisy location.
22 Chapter 10 Noise Reduction Techniques 10.1 General There are three basic ways to suppress noise. The first is the addition of resistance in circuits subject to ringing. This method is used for the ignition coil HV cable, spark plug wires, and spark plugs. The second is to filter noise from low voltage wiring using coaxial bypass capacitors. The third is to control static charge build-up using wipers for movable parts such as automobile hoods and trunk lids, or flexible bonding leads for fixed members.
Noise Reduction Techniques 23 10.2.3 Ignition Coil Interference This type of interference is characterized by a popping sound which is most noticeable when the engine is running slowly. To suppress the noise, connect a 0.1 µF coaxial capacitor (Motorola Part No. 0882571B02) from the battery side of the ignition coil to vehicle ground (see Figure Figure 10-1). This keeps the distributor noise from being conducted through the battery lead into the electrical system of the vehicle.
24 10.3 Noise Reduction Techniques Alternator This type of interference is characterized by a high-pitched whine which varies with engine speed. A 0.5 µF coaxial capacitor (Motorola Part No. 0882571B01) can be used to bypass the whine. For generators, the capacitors is connected in the armature lead. Never use a capacitor in the field lead. Use the field suppressor assembly supplied in the TLN5277 Noise Reduction Kit.
Noise Reduction Techniques 10.4 25 Voltage Regulator Noise This type of interference is characterized by erratic popping noises which change only slightly with changes in engine speed. The noise is generated by arcing in the vibrating breaker contacts of the voltage regulator. It can be suppressed by connecting a 0.5 µF coaxial capacitor (Motorola Part No. 0882571B01) in the battery and armature leads of the voltage regulator (see Figure 10-4).
26 Noise Reduction Techniques 3. Ignition Switch 4. Lamp bulbs (headlamps, tail lamps, dome lamps, etc.) 5. Accessory wiring (electrical fuel pump, electric windshield wipers, heater fan motor, window openers, etc.) 10.7 Ground Bonding If a vehicle is not properly bonded to ground, static charges can increase. This increase can cause noise from electrical arcing. This type of noise is suppressed by bonding the part using one-inch wide ground straps (keep them as short as possible).
MOTOROLA, the Stylized M Logo, and Radius are registered in the US Patent & Trademark Office. All other product or service names are the property of their respective owners. © 2002 Motorola, Inc. All rights reserved. Printed in U.S.A.