APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Operational or User’s Manual The manual should include instruction, installation, operator, or technical manuals with required ‘information to the users’. This manual should include a statement that cautions the user that changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Manual Front Matter (Draft) EXHIBIT D1-1
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Manual Front Matter (Draft, Continued) EXHIBIT D1-1
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Manual Front Matter (Draft, Continued) EXHIBIT D1-1
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Manual Front Matter (Draft, Continued) EXHIBIT D1-1
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Specifications (Draft) General Performance Model Number of Channels Frequency Generation HxWxD Weight Power Requirements T3000 16 Synthesized 5.25" x 19" x 16.5" (133x483x419mm) 40 lbs (19 kg) AC: 85-264 VAC, 47-63 Hz DC: 21.6 - 32 Volts DC Standy 0.4A, Rated Power 3.3A @ 117 VAC Standy 1.0A, Rated Power 11.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Field Replaceable Units and Orderable Parts (Draft) Motorola provides the following approved accessories to improve the productivity of your base station / repeater. For a list of Motorola-approved accessories, visit the following web site: http://www.motorola.com/governmentandenterprise.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Field Replaceable Units and Orderable Parts (Draft) (Continued) MOTOTRBO MTR3000 Field Replaceable Units Model Description Model Description DLN6710_ DLN6712_ DLN6713_ DLN6714_ DLN6715_ DLN6716_ 100W PA, VHF 136-174 MHz Exciter, VHF 136-174 MHz Receiver, VHF 136-174 MHz 100W PA, 800/900 MHz Exciter, 800/900 MHz Receiver, 800/900 MHz DLN6701_ DLN6702_ DLN6703_ DLN6704_ DLN6705_ DLN6706_ 100W PA, UHF 403–470 MHz 100W PA, UHF 4
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Tune-Up Procedure (Draft) See the following manual excerpts (Chapter 10 and Chapter 13 of MOTOTRBO MTR3000 Base Station / Repeater, Basic Service Manual) for instruction on performing the field digital upgrade, operational verification, and programming / tuning. All adjustments are software controlled and are pre-set at the factory.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 Chapter 10 MTR2000 MOTOTRBO Digital Upgrade 10.1 Overview The MTR3000 platform supports a digital upgrade kit which allows fielded analog MTR2000 radios to be upgraded for enhanced system capability. The T2003 digital upgrade kit upgrades the station control module (SCM), Receiver, and Exciter modules in order to migrate the radio to a digital MOTOTRBO product. These modules are not assembled together when it is shipped.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 10-2 MTR2000 MOTOTRBO Digital Upgrade: Unpacking The information below is an overview for installing the base station/repeater and ancillary equipment.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR2000 MOTOTRBO Digital Upgrade: Unpacking 10-3 10.2.1.3 Analog to Digital Migration Path – Removal and Replacement 1. Remove the MTR2000 Base Station/Repeater front bezel from its chassis locking clip by carefully pulling the bezel forward (Refer to Figure 10-1). Chassis locking clip Figure 10-1 Removing Front Bezel 2. Disconnect the Exciter-to-PA Coaxial Cable and Rx Input Cable (Refer to Figure 10-2).
APPLICANT: MOTOROLA 10-4 EQUIPMENT TYPE: ABZ89FC3795 MTR2000 MOTOTRBO Digital Upgrade: Unpacking Figure 10-3 Removing two screws securing the Transceiver Assembly 4. Remove the Wireline and Auxiliary I/O Card(s) (if any are installed) as the card(s) will not be supported in an upgraded MTR2000. 5.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR2000 MOTOTRBO Digital Upgrade: New Connections 10-5 7. Secure the Transceiver Assembly to the bottom plate by fastening the screws in Step 3 (Refer to Figure 10-3). 8. Affix the provided T2003 Digital Upgrade Kit label to the area noted in Figure 10-5. Designated area Figure 10-5 Location to affix the Digital Upgrade Kit label Note The label must not cover the serial number of the MTR2000 Base Station/Repeater. 9.
APPLICANT: MOTOROLA 10-6 EQUIPMENT TYPE: ABZ89FC3795 MTR2000 MOTOTRBO Digital Upgrade: New Connections • Ethernet to support the following MOTOTRBO features - IP Site Connect - RDAC - Capacity Plus - Connect Plus Note 1. It is not recommended to perform a digital upgrade and use the upgraded base station/ repeater in analog mode as certain analog functionality will be lost. Refer to Product Planner for details. 2. 14.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR2000 MOTOTRBO Digital Upgrade: New Connections 10-7 10.3.1 AUX Connector The location of the AUX connector is located at the base station/repeater rear panel. The following cables are the reference cables used for this connector: • Auxiliary System Cable, Part no. X244AJ • System Connector Cable, Part no. C540AD 10.3.2 System Connector For details on the system connectors, refer to "Chapter 6". 10.3.
APPLICANT: MOTOROLA 10-8 EQUIPMENT TYPE: ABZ89FC3795 MTR2000 MOTOTRBO Digital Upgrade: Operational Verification 10.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 Chapter 13 MTR3000 Programming and Tuning 13.1 Introduction This chapter provides an overview of the MOTOTRBO Customer Programming Software (CPS) for the MTR3000 and MTR2000 MOTOTRBO Digital Upgrade, as well as the MOTOTRBO Tuner application for use on Windows XPTM, Windows Vista Home PremiumTM or Windows Vista Business EditionTM 32 bit and 64 bit operating system. Note Refer to the appropriate program on-line help files for the programming procedures.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Customer Programming Software Setup 13-2 USB port Figure 13-2 Front view (without front bezel) of MTR3000 Base Station/Repeater Tx port DC connector Rx port AC connector Figure 13-3 Rear view of MTR3000 Base Station/Repeater EXHIBIT D1-4
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Base Station/Repeater Tuning Setup 13-3 13.3 Base Station/Repeater Tuning Setup A personal computer (PC), Windows TM operating system, and the MOTOTRBO Tuner application are required to tune the Station. To perform the tuning procedures, the base station/repeater must be connected to the PC and test equipment setup as shown in Figure 13-4.
APPLICANT: MOTOROLA 13-4 EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (MTR2000 MOTOTRBO Digital Upgrade) 13.4.1.1 Tuning Procedure 1. Power the Station from either an AC or DC source. 2. Launch the MOTOTRBO Tuner application on the computer. Figure 13-5 Tx Menu tree (Tuning Procedure) 3. Click the “Read” button in the Tuner to read the current code values from the radio’s tuning codeplug. 4. Select “Power” under the Tx menu in the tree view (Refer to Figure 13-5).
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-5 13.4.1.2 Verification or Test Procedure for Low/High Power 1. Power the Station from either an AC or DC source. 2. Connect the radio’s Tx antenna port, through an attenuation pad and calibrate the path loss, to the Communication Analyzer. 3. Via the CPS, program the radio with all user frequencies supported by the base station/ repeater in analog mode. 4.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-6 5. Set the Communication Analyzer to output a -47 dBm RF signal modulated with a 1 kHz tone at 60% of full deviation on the tuning frequency. The tuning frequency is the value displayed on the Tuner GUI under the heading of “Frequency Points”. Note The Tuner aligns this parameter in a 12.5 kHz channel spacing, so 60% is 1.5 kHz of deviation.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-7 13.5.2.1 Tuning Procedure 1. Connect the radio’s receiver antenna port to the Communication Analyzer. 2. Power the base station/repeater from either an AC or DC source. 3. Launch the Tuner application and click the “Read” button to read the softpot values. 4. Select “Wireline Rx Equalization – 2800 Hz” under the Rx menu in the tree view (Refer to Figure 13-7).
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-8 6. Adjust the softpot value until the best equalization is achieved across line two of the J6 Wireline backplane connector terminals. Best equalization is achieved when the far side of the Wireline cable measures a flat response across the upper region of the audio spectrum. Compare the response at 2800 Hz with the response measured at 1000 Hz. The values should be approximately equal.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-9 13.5.3 Wireline Rx Equalization – 400 Hz Tuning The Rx Equalization feature allows the frequency response adjustment of the Rx Audio relative to a specified rated system deviation, to compensate (equalize) for the response of the Wireline backhaul network itself. This section outlines the procedure for low frequency adjustment. Perform this procedure only after setting the Wireline Receive Level.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-10 6. Adjust the softpot value until the best equalization is achieved across line two of the J6 Wireline backplane connector terminals. Best equalization is achieved when the far side of the Wireline cable measures a flat response across the lower region of the audio spectrum. Compare the response at 400Hz with the response measured at 1000 Hz. The values should be approximately equal.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-11 5. Select “Wireline Transmit Level” under the Tx menu in the tree view (Refer to Figure 13-9). Figure 13-9 Tx Menu tree (Wireline Transmit Level) 6. Enter the tuning frequency into the Communication Analyzer (the value displayed on the Tuner GUI under the heading of “Frequency Points”). 7. Click the “PTT Toggle” button within the Tuner environment to key up the radio.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-12 13.5.5 Wireline Squelch Level Tuning The Wireline Squelch feature is used to mute Wireline Tx audio when the audio level falls below a designated threshold. The procedure in this section is used to set the nominal squelch threshold.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Tuning Setup (Wireline) 13-13 5. Select “Wireline Squelch Level” under the Tx menu in the tree view (Refer to Figure 13-10). Figure 13-10 Tx Menu tree (Wireline Squelch Level) 6. Enter the tuning frequency into the Communication Analyzer (the value displayed on the Tuner GUI under the heading of “Frequency Points”). 7. Click the backplane “PTT Toggle” button within the Tuner environment to key up the radio.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Modulation Limit Alignment 13-14 13.6 Modulation Limit Alignment This feature is to set the modulation limit of the radio for MTR3000 and MTR2000 MOTOTRBO Digital Upgrade. Note A modulation limit alignment is not needed if the radio is used in repeat mode. This is always the case when the radio is in digital mode. 13.6.1 Tuning Procedure (with no Tx Data and no PL) Note 1.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Modulation Limit Alignment 13-15 8. Adjust the softpot value until the maximum deviation is 92% of the rated system deviation (RSD). This will be tested in a 12.5 kHz channel spacing, so 92% of 2.5 kHz is 2.3 kHz. Note Set the modulation limit to 92% so that any additional deviation incurred by the transmitter VCOs over temperature is compensated for. Channel Spacing 12.5 kHz RSD 2.5 kHz 92% of RSD 2.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 MTR3000 Programming and Tuning: Modulation Limit Alignment 13-16 13.6.3 Tuning Procedure (with Tx Data or PL) 1. Connect the radio’s antenna port to the attenuation pad, if necessary, before connecting to the Communication Analyzer. 2. Turn on the base station/repeater using an AC or DC source. 3. Click the “Read” button on the Tuner application to read the radio’s softpot values. 4. Select “Modulation Limit” under the Tx menu in the tree view. 5.
APPLICANT: MOTOROLA MTR3000 Programming and Tuning: Modulation Limit Alignment EQUIPMENT TYPE: ABZ89FC3795 13-17 13.6.4 Verification (with Tx Data or PL) Refer to Section 13.6.2 on page 13-15 with the following exceptions: • The same Tx data signal level determined (obtained from Step 8 in Section 13.6.3 on page 1316), is applied to Pin 13 during the validation process. • Pin 22 may be used instead of Pin 1, depending on the recommendation by the manufacturer of the third party controller.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Racking Configurations (Draft) There are various equipment racking configurations available to customers. The following section depicts some of the racking alternatives. Floor-Mount Cabinet The front, side and top views for all available floor-mount cabinets are shown below.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Racking Configurations (Draft, Continued) Modular Racks The front, side and top views for all available floor-mount cabinets are shown below.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Base Radio Module Overview The Motorola MTR3000 Base Station / Repeater (BR) provides a modular, flexible analog and digital station design for today's communication systems and of the future.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Front Bezel LED Indicators External Connections - Electrical Connections for the base station / repeater external connectors and line cord are located on the back panel and are shown below. Location of External Connectors at Rear of Base Station / Repeater The connection to external devices on the back panel is the J7 Auxiliary System Connector.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) The locations of the connectors on the front of the station control module are shown below. Control Overview The Station Control Module (SCM) is described in this section. A general description, identification of controls, indicators, and inputs/outputs, a functional block diagram, and functional theory of operation are provided.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) and slave modes, programmable clock rate, phase, polarity, programmable word size, programmable bit ordering, and loopback. Before an SPI data transfer can take place, the SPI master (initiator) must assert the select line of the slave (target) device. The OMAP1710 is always the SPI master for MTR3000 BR.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) the MAKO codec (demodulated audio), and RX Audio is the sum of the MAKO codec output and the microphone audio. A block diagram of the audio paths follows: Ethernet Interface - Since OMAP1710 does not support a direct Ethernet interface, a bridge device is needed to support Ethernet on the SCM. The bridge device is a high performance hi-speed USB2.0 to 10/100 Ethernet controller.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Receiver Overview The Receiver Module consists of a Receiver RF board in a clamshell housing assembly. It provides the Receiver functionality for the MTR3000 Base Station/Repeater and performs highly-selective bandpass filtering and dual down-conversion of the desired RF signal.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Specifications The following table shows the specifications of MTR3000 Base Station / Repeater’s Receiver.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Custom Backend Receiver IC Circuitry The custom backend Receiver IC provides additional amplification, filtering, and a second downconversion. The second IF signal is converted to a digital signal, and output via either a differential or single-ended driver to the digital signal processor (DSP) in the SCM.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Exciter Overview The Exciter Modules (in conjunction with the Power Amplifier Module) provides the transmitter functions for the station. Contained within a metal clamshell housing, the Exciter board generates a low-level modulated Radio Frequency (RF) signal which is input to the power amplifier module for further amplification and output to the transmit antenna.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Functional Theory of Operation The following theory of operation describes the operation of the Exciter circuitry at a functional level. The information is presented to give the service technician a basic understanding of the functions performed by the module in order to facilitate maintenance and troubleshooting to the module level.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Communications with Station Control Module Data communications between the Exciter and the Station Control Module microprocessor (μP) is performed via a Serial Peripheral Interface (SPI) bus. This bus allows the SCM μP to send data to the synthesizer PLL IC (to select frequency) and to read the ADC Converter IC.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Power Amplifier Module Overview The Power Amplifier (PA) is a forced convection-cooled RF power amplifier. It accepts a low-level modulated RF signal from the Exciter Module and amplifies the signal for transmission via the site transmit antenna.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) The following table shows the specifications of MTR2000 Power Amplifier (PA). Specifications of Power Amplifier Parameter Operational Frequency Range Minimum Input Return Loss (TX mode) Rated RF Output Power Range Rated RF Input Power Range 28.6V Supply Nominal Voltage (AC Power) 14.2V Supply Nominal Voltage 28.6V Supply Maximum Current Draw 14.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Power Supply Module Overview The Power Supply is described in this section. The information provided is sufficient to give service personnel a functional understanding of the module, allowing maintenance and troubleshooting to the module level.
APPLICANT: MOTOROLA EQUIPMENT TYPE: ABZ89FC3795 User / Operational Manual Functional Description / Operation of Modules (Draft) Power Supply Module DC Performance Specifications: Parameter Value or Range Input Voltage Range 21.6 - 32 VDC Operating Temperature –30° to +60° C (–22° to +140° F) 28.6 V @ 13 A, Input Voltage Dependent 14.2 V @ 8 A, Regulated 5.1 V @ 2 A, Regulated 500 W Steady State Output Voltage Output Power (Rated) Output Ripple: +28.6 VDC +14.2 VDC +5.