UBS Axcera LU500AL 500-Watt UHF Translator User Manual 382671
UBS-Axcera 500-Watt UHF Translator 382671
Contents
- 1. Section 5 Users Manual Page
- 2. Title Page External Amplifier
- 3. Table of Contents External Amplifier
- 4. Chapter 1 External Amplifier
- 5. Chapter 2 External Amplifier
- 6. Chapter 3 External Amplifier
- 7. Chapter 4 External Amplifier
- 8. Chapter 5 External Amplifier
- 9. Appendix Pages External Amplifier
- 10. Drawings List External Amplifier
- 11. Title Page Exciter
- 12. Table of Contents Exciter
- 13. Chapter 1 Exciter
- 14. Chapter 2 Exciter
- 15. Chapter 3 Exciter
- 16. Chapter 4 Exciter
- 17. Chapter 5 Exciter
- 18. Appendix Pages Exciter
- 19. Drawings List Exciter
- 20. Data Sheet Exciter and Amplifier
Chapter 2 Exciter
Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections Chapter 2 System Description & Remote Control Connections The Innovator LX Series of drivers/translators are complete 10W to 100W analog UHF translators that operate at nominal visual output power of 10 to 100 watts peak sync and an aural output power of 1 to 10 watts at an A/V ratio of 10dB, 10% sound or .5 to 5 watts at 13 dB, 5% sound. 2.1 System Overview The Innovator LX Series translator is made up of a Receiver Tray and an exciter amplifier chassis assembly. The modules and assemblies that make up the translator are listed in Table 2-1. Table 2-1: Innovator LX Series Translator Trays and Assemblies IF Processor Module Controller/ Power Supply Module Power Amplifier Module LO/Upconverter Module Receiver Tray ASSEMBLY DESIGNATOR A3 A4 A5 A6 A11 A12 A20 LX Series, Rev. 0 TRAY/ASSEMBLY NAME Receiver Tray IF Processor Module Control & Monitoring/Power Supply Module LO/Upconverter Module Power Amplifier Module, 100 Watt Translator Backplane Board Switch Board LCD Display Board 2-1 PART NUMBER 1265-1100 1301938 1301936 1301930 1301923 1301941 1527-1406 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections 2.1.1 8 Receiver Tray (1265-1100; Appendix B) RECEIVER TRAY The Receiver Tray receives a VHF or UHF Channel input at Jack (J1) and converts it to an internally diplexed Visual + Aural IF Output (+0 dBm) at J4. The Visual + Aural IF output of the Receiver Tray at J4 is fed to J6 the IF Input Jack of the exciter. INPUT LEVEL: -61 dBm to –16dBm OUTPUT LEVEL: 0 dBm POWER REQUIREMENTS: 110 or 220 VAC Table 2-5. Receiver Samples SAMPLE Front panel sample – f (IF) Front panel sample – f (s) DESCRIPTION Sample of the IF output Sample of the channel oscillator Exciter Amplifier Chassis Assembly directly into a backplane board, which provides module to module interconnection as well as interconnection to remote command and control connectors. All of the modules except the power amplifier module and the power supply section, located in the Control & Monitoring/Power Supply Module, plug LX Series, Rev. 0 2-2 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections 2.1.2 (A3) IF Processor Module Assembly (1301938; Appendix B) (full off) and 105% (full power plus). A front panel IF Processor module potentiometer sets the upper limit of RF power at 120%. The system's Control Monitoring board compares the RF Power Monitoring module RF power level with the desired level and uses the IF Power Control PWM line to correct for errors. In digital systems, a digital level control (DLC) voltage is generated on the IF Processor module and sent to an external digital modulator (DT1C or DT2B). RF power control is implemented by changing the DLC voltage provided to the external digital modulator. The 'RF High' potentiometer sets the upper adjusted range of RF control circuit output to 120%. The (A3) IF Processor Assembly contains the IF Processor Board (1301977). The IF Processor provides pre-correction to ensure broadcast quality output signal. The pre-correction consists of amplitude linearity correction, Incidental Carrier Phase Modulation (ICPM) correction and frequency response correction. The IF Processor module provides a reference ALC voltage to the system's Upconverter. When the ALC voltage decreases, the Upconverter automatically lowers the system output power through the AGC circuits. The IF Processor module has a front panel switch to select Auto or Manual ALC. When Manual ALC is selected, the reference ALC voltage is set by a front panel potentiometer. In this condition, the RF power level control circuit is removed from use. When the ALC select switch is changed to Auto, the RF power level control circuit will start at low power and increase the RF output until the desired output power is attained. The IF Processor module is configured either for an analog or digital system. Pin 13C of the IF Processor module is grounded in analog systems and left not connected in digital systems. An IF Processor Interlock signal is used to report the presence of the IF Processor module to the Control Monitoring board. If the IF Processor interlock signal is not present, the Innovator LX 100 Watt Translator/Exciter Driver RF output is Muted (turned off). If an analog IF Processor module is installed and the Modulation Present signal is not true, the Innovator LX 100 Watt Translator / Exciter Driver output is Muted (turned off). The IF Processor module Modulation Present signal is monitored. If the modulation level is too low or nonexistent, a Modulation Present fault is reported to the Control Monitoring board. When the controller detects this fault, it can be set to Automatically Mute the translator or in Manual mode the translator will continue to operate at 25% output. The Control & Monitoring/Power Supply module uses the IF Processor module for System output power control. Through the front panel display or a remote interface, an operator can set the translator's RF output power. The range of RF power adjustment is between 0% LX Series, Rev. 0 The IF Processor module Input Signal level is monitored. If the signal level is too low or non-existent, an Input fault is 2-3 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections reported on the Control Monitoring board. When the IF Processor board detects an Input Signal fault it automatically Mutes the translator. The system controller does not Mute on an IF Processor Input fault. Table 2-6. IF Processor Front Panel Switch SWITCH FUNCTION When Manual ALC is selected, the reference ALC voltage is set by the ALC Gain front panel potentiometer. MAN/AUTO ALC When Auto ALC is selected, the IF level control circuit will automatically increase the IF output until the desired output power is attained. Table 2-7. IF Processor Front Panel Status Indicators LED INPUT FAULT (Red) ALC Fault (Red) MUTE (Red) FUNCTION When lit it indicates that there is a loss of the IF Input signal to the IF Processor. Translator can be set to Mute on an IF Input Fault. When lit it indicates that the required gain to produce the desired output power level has exceeded the operational range of the ALC circuit. The LED will also be lit when ALC is in Manual. When lit it indicates that the IF input signal is cut back but the enable to the Power Supply is present and the +32 VDC remains on. Table 2-8. IF Processor Front Panel Control Adjustments POTENTIOMETERS FREQUENCY RESPONSE EQUALIZER ALC GAIN MAN GAIN LINEARITY CORRECTION DESCRIPTION These three variable resistors, R103, R106 & R274, adjust the depth of gain for the three stages of frequency response correction. Adjusts the gain of the translator when the translator is in the Auto ALC position. Adjusts the gain of the translator when the translator is in the Manual ALC position. These three variable resistors adjust the threshold cut in for the three stages of linearity pre-correction. R211 and R216, the top two pots, are adjusted to correct for in phase amplitude distortions. R 231, the bottom pot, is adjusted to correct for quadrature phase distortions. Table 2-9. IF Processor Front Panel Sample SMA CONNECTOR IF SAMPLE LX Series, Rev. 0 DESCRIPTION Sample of the pre-corrected IF output of the IF Processor 2-4 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections 2.1.3 (A5) LO/Upconverter Module Assembly, Digital (1301954; Appendix B) Upconverter module potentiometer. When an over-drive condition is detected, the Upconverter module reduces its RF output level. For values less than 0.9 VDC, the Upconverter uses the AGC #1 voltage for automatic gain control by setting it's RF output to maintain AGC #1 equal to the AGC voltage set by another front panel potentiometer. When the Upconverter is set for manual gain, the RF output of the Upconverter is set by the front panel AGC potentiometer. In manual gain operation, the AGC #1 feedback voltage from the PA is not used to adjust the RF level unless an over-drive condition is detected. AGC #2 is provided by each of the optional external amplifier modules. Diodes are used in each of the external amplifier forward power circuits to capture the highest detected sample voltage. This voltage is used by the Upconverter to maintain a constant RF output of the system. As with AGC #1, the Upconverter module reduces its RF output level if AGC #2 is too high. AGC #1 and ACG #2 are diode ORed together in the Upconverter gain circuit. Both AGC voltages are first reduced by an onboard potentiometer before being amplified. If an over-drive condition does not exist, the higher of the two AGC voltages is used to control the Upconverter gain circuit. The (A5) LO/Upconverter Module Assembly contains a front panel LED display board (1303033), a UHF Filter (1007-1101), a UHF Generator Board (1585-1265) and a LO/Upconverter Assembly (1303039). The LO/Upconverter Assembly contains the LO/Upconverter Board (1302132). The Innovator LX Upconverter converts an IF input signal to a RF output signal on the desired channel frequency using a high stability oven controlled oscillator with very low phase noise and an Automatic Level Control (ALC) for stable output signal level. An AFC Voltage is generated to control the VCXO of the UHF Generator portion of the Upconverter module. The typical AFC voltage is 1.5 VDC but it can be as high as +5 VDC. Several control voltages are used for translator power control. Automatic gain control (AGC) circuits set the RF output level of the translator system. The Upconverter can operate on either it's internal 10 MHz source or on a 10 MHz external reference signal. When an external 10 MHz source is present on J10, it is automatically selected. An external reference present signal is provided to the controller for display purposes. The selected 10 MHz signal from the Upconverter is buffered then sent to the backplane on two ports. One AGC #1 is provided by the 50 Watt Translator/Exciter Driver Power Amplifier module. This voltage is used by the Upconverter to maintain a constant RF output level at the Power Amplifier module output. If this voltage exceeds 0.9 VDC, the system is in an over-drive condition. The 0.9 VDC over-driver threshold is set by a front panel LX Series, Rev. 0 2-5 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections port is sent to the Modulator module, if present, and the other is routed to a BNC connector (J11) on the backplane for a system 10 MHz output signal. / 5 kHz. The maximum LO frequency setting with these parameters is 1310.715 MHz. Example: A National Semiconductor frequency synthesizer IC is used in the frequency conversion of the IF signal to a RF signal. The frequency synthesizer IC uses a 10MHz reference frequency for signal conversion. Typically the IF input frequency is 45.75 MHz for analog system and 44 MHz for DTV. To obtain different output RF frequencies, the synthesizer IC is serial programmed by the Control Monitoring board. The part is programmed to use a 5 kHz phase detection frequency. With a 10 MHz input signal, the R counter is set to 2000. With these settings the N counter is set to the desired LO frequency in kHz For a Frequency RF Out = 517.125 MHz, N = 517125 kHz / 5 kHz = 103425 An Upconverter PLL Lock indicator is used to insure that the frequency control circuits are operating properly. When the Upconverter PLL is locked, the frequency synthesizer IC is programmed and the Power Amplifier module(s) can be enabled. The RF output of the LO/Upconverter Module is at J23 on the rear chassis. Table 2-10. LO/Upconverter Front Panel Switch SWITCH MAN/AUTO AGC FUNCTION When Manual AGC is selected, the reference AGC voltage is set by the AGC Manual Gain front panel potentiometer. When Auto AGC is selected, the RF power level control circuit will automatically increase the RF output until the desired output power is attained. Table 2-11. LO/Upconverter Front Panel Status Indicator LED AGC CUTBACK (Red) FUNCTION When lit it indicates that the required gain to produce the desired output power level has exceeded the level set by the AGC Cutback (Override) adjust. Translator will cut back power to 25% Table 2-12. LO/Upconverter Front Panel Control Adjustments POTENTIOMETERS MAN GAIN ADJ AGC CUTBACK ADJ (AGC OVERRIDE) DESCRIPTION Adjusts the gain of the translator when the translator is in the Manual AGC position. Adjusts the point at which the translator will cut back in power when the Translator is in the Auto AGC position. Table 2-13. LO/Upconverter Front Panel Samples SMA CONNECTOR LO SAMPLE RF SAMPLE LX Series, Rev. 0 DESCRIPTION Sample of the LO signal to the Upconverter as generated by the UHF Generator Board. Sample of the On Channel RF Output of the Upconverter 2-6 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections The (A4) Control & Monitoring/Power Supply Assembly is made up of a Control Board (1302021), a Power Protection Board (1302837) and a Switch Board (1527-1406). The Assembly also contains a switching power supply that provides ±12 VDC to the rest of the modules in the chassis and +32 VDC to the Power Amplifier module. 2.1.4 (A4) Control & Monitoring/ Power Supply Module Assembly (1301936; Appendix B) The Assembly provides all translator control and monitoring functions. The Front panel LCD allows monitoring of system parameters, including forward and reflected power, transistor currents, module temperatures and power supply voltages. 8A 4A Table 2-14. Controller/Power Supply Display DISPLAY LCD FUNCTION A 4 x 20 display providing a four-line readout of the internal functions, external inputs, and status. See Chapter 3, Controller/Power Supply Display Screens, for a listing of displays. Table 2-15. Controller/Power Supply Status Indicator LED OPERATE ( green ) FAULT ( red or green ) DC OK ( red or green ) FUNCTION When lit it indicates that the translator is in the Operate Mode. If translator is Muted the Operate LED will stay lit, the translator will remain in Operate, until the input signal is returned. Red indicates that a problem has occurred in the translator. The translator will be Muted or placed in Standby until the problem is corrected. Green indicates that the switchable fuse protected DC outputs that connect to the modules in the translator are OK. Table 2-16. Controller/Power Supply Control Adjustments POTENTIOMETERS DISPLAY CONTRAST LX Series, Rev. 0 DESCRIPTION Adjusts the contrast of the display for desired viewing of screen. 2-7 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections 2.1.5 (A6) Power Amplifier Module Assembly, Exciter, 5W-50W Translator (1301923; Appendix B) The 50 Watt Translator/Exciter Driver Power Amplifier module and any External Amplifier modules contain the same control and monitoring board. This board monitors RF output power, RF reflected power, the current draw of amplifier sections, the supply voltage, and the temperature of the PA heat sink. The RF power detector circuit outputs vary with operating frequency. These circuits must be calibrated at their intended operating frequency. Front panel adjustment potentiometers are used to calibrate the following: Table 1: Power Amplifier Calibration Adjustments in Analog Systems R201 R202 R203 R204 R205 The (A6) Power Amplifier Module Assembly is made up of a Coupler Board Assembly (1301949), an Amplifier Control Board (1301962), a 1 Watt Module Assembly (1302891), a TFS 40W UHF Module (1206693) and a RF Module Pallet, Philips (1300116). In analog systems, the Aural power of an Exciter Driver Power Amplifier and the Aural power of any external amplifier will not be reported by the system Control Monitoring module. Additionally the Visual power of these amplifiers, is reported as Forward Power just like in digital systems. In analog systems, aural and visual power will only be reported for the final system RF output. The Power Amplifier Module contains Broadband LDMOS amplifiers that cover the entire UHF band with no tuning required. They amplify the RF to the 10W to 50W output power level of the translator. The Power Amplifier of the Translator/Exciter Driver is used to amplify the RF output of the Upconverter module. A cable, located on the rear chassis, connects the RF output from the LO/Upconverter at J23 to J24 the RF input to the PA Assembly. This module contains RF monitoring circuitry for both an analog and a digital system. Control and monitoring lines to the Power Amplifier module are routed through the floating blind-mate connector of the Control & Monitoring/Power Supply module. LX Series, Rev. 0 Reflected Power Cal Visual / Forward Power Cal Aural Power Cal Visual Offset Zero Aural Null In digital systems, the Forward power of an Exciter Driver Power Amplifier and the Forward power of any external amplifier, is reported by the system Control Monitoring module. If the Control Monitoring module is monitoring a 5-50 Watt Translator, system power is measured in the Power Amplifier module. The wired connections are transferred through the power supply connector to the backplane board on a five position header. All four positions of control board switch SW1 must be set on to 2-8 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections route these lines as the system's RF power signals. In systems of output power greater than 50 Watts, system power is monitored by an external module that is connected to TB31 and control board SW1 switches must be set off. module is routed to the Upconverter module as AGC #1. A system overdrive condition is detected when this value rises above 0.9 VDC. When an over-drive condition is detected, the Upconverter module reduces its RF output level. For values less than 0.9 VDC, the Upconverter uses this voltage for automatic gain. The Forward Power of the Translator/Exciter Driver Power Amplifier Table 2-17. Power Amplifier Status Indicator LED ENABLED (Green) DC OK (Green) TEMP (GREEN) MOD OK (Green) FUNCTION When lit Green, it indicates that the PA is in the Operate Mode. If a Mute occurs, the PA will remain Enabled, until the input signal is returned. When lit Green, it indicates that the fuse protected DC inputs to the PA module are OK. When lit Green, it indicates that the temperature of the heatsink assembly in the module is below 78˚C. When lit Green, it indicates that the PA Module is operating and has no faults. Table 2-18. Power Amplifier Control Adjustments POTENTIOMETERS RFL CAL VISUAL CAL AURAL CAL VISUAL ZERO AURAL NULL DESCRIPTION Adjusts the gain of the Reflected Power monitoring circuit Adjusts the gain of the Visual / Forward Power monitoring circuit Adjusts the gain of the Aural Power monitoring circuit Adjusts the offset of the Forward Power monitoring circuit Adjusts the offset of the Forward Power monitoring circuit based on the Aural signal level.. Table 2-19. Power Amplifier Sample DISPLAY FWD SAMPLE FUNCTION RF sample of the amplified signal being sent out the module on J25. 2.1.6 RF Output Assemblies and a reflected power sample for test purposes. Modulated IF from the Receiver Tray connects to the rear of the Innovator LX chassis assembly at J6, Modulated IF Input. The power amplifiers RF output jack is at a “N” connector J25, PA RF Output. 2.2 Control and Status The control and status of the exciter/amplifier Chassis assembly is found by operating the front panel display screens. Detailed information on the use of the screens is found in chapter 3. The RF output of the PA module is connected to a band-pass and trap filter and then to an output coupler assembly. The coupler assembly provides a forward LX Series, Rev. 0 2-9 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections 2.2.1 Front Panel Display Screen 2.3.1 Principles of Operation A 4 x 20 display located on the front of the Control & Monitoring/Power Supply Module is used in the Innovator LX translator for control of the operation and display of the operating parameters of the translator. Operating Modes This translator is either operating or in standby mode. The sections below discuss the characteristics of each of these modes. Operate Mode 2.3 System Operation When the translator is in operate, as set by the menu screen located on the Control & Monitoring Module. The IF Processor will be enabled, the mute indicator on the front panel will be extinguished. The +32 VDC stage of the Power Supply in the Control & Monitoring Module is enabled, the operate indicator on the front panel is lit and the DC OK on the front panel should also be green. The enable and DC OK indicators on the PA Module will also be turned to green. Operate mode is the normal mode for the translator when it is providing RF power output. To provide RF power to the output, the translator will not be in mute. Mute is a special case of the operate mode where the power supply's +32 VDC section is enabled but there is no RF output power, because of a fault condition that causes the firmware to hold the IF Processor module in a mute state. Operate Mode with Mute Condition When the translator is in standby. The IF Processor will be disabled, the mute indicator on the front panel will be red. The +32 VDC stage of the Power Supply in the Control & Monitoring Module is disabled, the operate indicator on the front panel will be extinguished and the DC OK on the front panel should remain green. The enable and indicator on the PA Module is also extinguished. The translator will remain in operate mode but will be placed in mute when the following fault conditions exists in the translator. If the translator does not switch to Operate when the operate menu is switched to Operate, check that all faults are cleared and that the remote control terminal block stand-by signal is not active. Entering Operate Mode The translator can be controlled by the presence of the modulated input signal. If the input signal to the translator is lost, the translator will automatically cutback and the input fault indicator on the IF Processor module will light. When the video input signal returns, the translator will automatically return to full power and the input fault indicator will be extinguished. LX Series, Rev. 0 • • • • Upconverter is unlocked Upconverter module is not present IF Processor module is not present Modulator (if present) is in Aural/Visual Mute Entering the operate mode can be initiated a few different ways by the translator control board. A list of the actions that cause the operate mode to be entered is given below: • • • 2-10 A low on the Remote Translator Operate line. User selects "OPR" using switches and menus of the front panel. Receipt of an “Operate CMD” over the serial interface. Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections There are several fault or interlock conditions that may exist in the translator that will prevent the translator from entering the operate mode. These conditions are: • • • • • • Power Amplifier heat sink temperature greater than 78˚C. Translator is Muted due to conditions listed above. Power Amplifier Interlock is high indicating that the amplifier is not installed. Operating Frequency The Innovator LX translator controller is designed to operate on UHF and VHF frequencies. The exact output frequency of the translator can be set to one of the standard UHF or VHF frequencies, or it can be set to a custom frequency using software set-up menus. Since RF performance of the translator requires different hardware for different frequency bands, not all frequency configurations are valid for a specific translator. Power detectors have frequency dependency, therefore detectors of power amplifiers are calibrated at their frequency of use. The detectors for System RF monitoring are also calibrated at the desired frequency of use. Standby Mode The standby mode in the translator indicates that the translator’s output amplifier is disabled. Entering Standby Mode Similar to the operate mode, the standby mode is entered various different ways. These are: Table 2-22: VHF Television Frequencies CH BAND FREQUENCY BAND VHF LOW 02 54-60 MHz VHF HIGH VHF LOW 03 60-66 MHz VHF HIGH VHF LOW 04 66-72 MHz VHF HIGH VHF LOW 05 76-82 MHz VHF HIGH VHF LOW 06 82-88 MHz VHF HIGH VHF HIGH VHF HIGH Table 2.23: UHF Television Frequencies CH CH FREQUENCY FREQUENCY 14 470-476 MHz 38 614-620 MHz 15 476-482 MHz 39 620-626 MHz 16 482-488 MHz 40 626-632 MHz 17 488-494 MHz 41 632-638 MHz 18 494-500 MHz 42 638-644 MHz 19 500-506 MHz 43 644-650 MHz 20 506-512 MHz 44 650-656 MHz 21 512-518 MHz 45 656-662 MHz 22 518-524 MHz 46 662-668 MHz 23 524-530 MHz 47 668-674 MHz LX Series, Rev. 0 A low on the Remote Translator Stand-By line. Depressing the “STB” key on selected front panel menus. Receipt of a “Standby CMD” over the serial interface. CH 07 08 09 10 11 12 13 CH 61 62 63 64 65 66 67 68 69 70 2-11 FREQUENCY 174-180 MHz 180-186 MHz 186-192 MHz 192-198 MHz 198-204 MHz 204-210 MHz 210-216 MHz FREQUENCY 752-758 MHz 758-764 MHz 764-770 MHz 770-776 MHz 776-782 MHz 782-788 MHz 788-794 MHz 794-800 MHz 800-806 MHz 806-812 MHz Analog UHF Driver/Translator CH 24 25 26 27 28 29 30 31 32 33 34 35 36 37 FREQUENCY 530-536 MHz 536-542 MHz 542-548 MHz 548-554 MHz 554-560 MHz 560-566 MHz 566-572 MHz 572-578 MHz 578-584 MHz 584-590 MHz 590-596 MHz 596-602 MHz 602-608 MHz 608-614 MHz CH 48 49 50 51 52 53 54 55 56 57 58 59 60 Chapter 2, System Description & Remote Control Connections FREQUENCY 674-680 MHz 680-686 MHz 686-692 MHz 692-698 MHz 698-704 MHz 704-710 MHz 710-716 MHz 716-722 MHz 722-728 MHz 728-734 MHz 734-740 MHz 740-746 MHz 746-752 MHz 2.4 Customer Remote Connections The remote monitoring and operation of the translator is provided through jacks TB30 and TB31 located on the rear of the chassis assembly. If remote connections are made to the translator, they must be LX Series, Rev. 0 CH 71 72 73 74 75 76 77 78 79 80 81 82 83 FREQUENCY 812-818 MHz 818-824 MHz 824-830 MHz 830-836 MHz 836-842 MHz 842-848 MHz 848-854 MHz 854-860 MHz 860-866 MHz 866-872 MHz 872-878 MHz 878-884 MHz 884-890 MHz made through plugs TB30 and TB31 at positions noted on the translator interconnect drawing and Table 2-25. 2-12 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections Table 2-25: Innovator LX Chassis Assembly Hard Wired Remote Interface Connections to TB30 or TB31, 18 pos. Terminal Blocks Located on the Rear of the Assembly Signal Name Pin Designations RMT Translator State TB30-1 RMT Translator Interlock TB30-2 RMT Translator Interlock Isolated Return TB30-3 RMT AUX IO 1 TB30-4 RMT AUX IO 2 TB30-5 RMT Translator Operate RMT Translator Stand-By TB30-6 TB30-7 RMT Power Raise TB30-8 RMT Power Lower TB30-9 RMT System Reflect Power TB30-10 RMT System Visual/Forward Power TB30-11 RMT System Aural Power TB30-12 RMT Spare 1 RMT Spare 2 TB30-13 TB30-14 LX Series, Rev. 0 Signal Type/Description Discrete Open Collector Output - A low indicates that the translator is in the operate mode. Discrete Open Collector Output - A low indicated the translator is OK or completes a interlock daisy chain. When the translator is not faulted, the interlock circuit is completed. Ground - Configurable ground return which can be either jumpered directly to ground or it can be the “source” pin of an FET so that the translator interlock can be daisy chained with other translators. This signal does not directly interface to the microcontroller. Discrete Open Collector Inputs, Discrete Open Drain Outputs, or 0 - 5 VDC Analog Input - When used as an output, this line is pulled to +5 VDC with a 1.0 kΩ resistor for logic high and pulled to ground for a low. A diode allows this line to be pulled up to 12 VDC. When used as a digital input, this line considers all values over 2 Volts as high and those under 1 volt as low. As an analog input, this line is protected by a 5.1 zener diode. Discrete Open Collector Input - A pull down to ground on this line indicates that the translator is to be placed into the operate mode. Discrete Open Collector Input - A pull down to ground on this line indicates that the translator is to be placed into the standby mode. Discrete Open Collector Input - A pull down to ground on this line indicates that the translator power is to be raised. Discrete Open Collector Input - A pull down to ground on this line indicates that the translator power is to be lowered. Analog Output - 0 to 4.0 V- This is a buffered loop through of the calibrated “System Reflected Power ” and indicates the translator's reflected output power. The scale factor is 25 % / 3.2V. Analog Output - 0 to 4.0 V- This is a buffered loop through of the calibrated “System Visual/Avg. Power ”. Indicates the translator's Visual / Average power. Scale factor is 100 % / 3.2V. Analog Output - 0 to 4.0 V- This is a buffered loop through of the calibrated “System Aural Power ”. Indicates the translator's forward Aural output power. The scale factor is 100 % / 3.2V. Remote connection to spare module - Use is TBD. Remote connection to spare module - Use is TBD. 2-13 Analog UHF Driver/Translator Signal Name Pin Designations System Reflect Power TB31-13 System Visual / Forward Power TB31-14 System Aural Power TB31-15 IF Processor IF Signal Select TB31-3 IF Processor DLC Voltage TB31-4 UC AGC #2 Voltage TB31-5 RMT Ground RMT Ground RMT +12 VDC RMT -12 VDC LX Series, Rev. 0 TB30-15, and 17 TB31-1, 2, 6 to 12, and 17 TB30-16 TB31-16 TB30-18 TB31-18 Chapter 2, System Description & Remote Control Connections Signal Type/Description Analog Input - 0 to 1.00 V- This is the input of the “System Reflected Power ” indicating the translator's reflected output power. The scale factor is 25 % / 0.80V. Analog Input - 0 to 1.00 V- This is the input of the “System Visual / Forward Power ” indicating the translator's forward Visual / Forward output power. The scale factor is 100 % / 0.80V. Analog Input - 0 to 1.00 V- This is the input of the “System Aural Power ” indicating the translator's forward Aural output power. The scale factor is 100 % / 0.80V. Discrete Open Collector Input - A low indicates that the modulator IF source is to be used by the IF Processor module. When floating an analog IP Processor module may use the Modulated IF Input if the IF Processor sled is so configured. Analog Output - 0 to 5.00 V- This is the input of IF Processor module for digital system RF output power control. Auxiliary Analog Input - 0 to 1V- This voltage is used by the Upconverter for gain control. Linear signal with display resolution of 0.01 %. Primary signal source is J34-1. Ground pins available through Remote Ground pins available through Remote +12 VDC available through Remote w/ 2 Amp re-settable fuse -12 VDC available through Remote w/ 2 Amp re-settable fuse 2-14 Analog UHF Driver/Translator Chapter 2, System Description & Remote Control Connections J3 Remote Connections Table 2-26. Receiver Tray hard wired Remote Connections thru J3 a 15-pin, D-Connector located on the rear of the tray Signal Name ALC Voltage (+) ALC Voltage (-) Pin Designations LX Series, Rev. 0 Signal Type/Description J3-3 ALC Voltage output J3-4 ALC Voltage output ground return 2-15
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