Larcan T2500U 2500 Watt UHF Transmitter User Manual RTU5000T

Larcan Inc 2500 Watt UHF Transmitter RTU5000T

Contents

user manual for tx part2

Unit 1 – Introduction - 1 - Meridian 2.5 kW UHF Model T2500U Technical Service Manual TSM20-342 Rev. 00 August/2004
Unit 1 – Introduction - 2 - Contents Unit I Introduction 1. External Layout: Page 05 2. General technical descriptive: Page 06 3. Technical Characteristics: Page 08 4. Block Diagram: Page 09 Unit II IF Modulator 1. Audio and Video Modulator Page 02 2. Technical Characteristics: Page 04 3. Reference mask: Page 06 4. Front and Back panel: Page 08 5. Circuit Diagram MAV001: Page 10 6. Layout MAV001: Page 14 7. Parts List MAV001: Page 15 8. Power Supply: Page 18 9. Power Supply (optional): Page 20 10. Measurement Circuit: Page 23 Unit III Channel UP Converter 1. Channel UP Converter: Page 02 2. Frontal and Back Panel: Page 03 3. IF Filter Amplifier: Page 06 4. IF Pre-dirtortion linearity Page 11 5. Automatic Level Control (ALC): Page 16 6. Channel UP Converter: Page 20 7. PLL Protection: Page 27 8. UP Converter supply –12, +12 and +24V: Page 29
Unit 1 – Introduction - 3 - Unit IV UHF 50W Amplifier 1. UHF 50W Amplifier: Page 02 2. Frontal and Back Panel: Page 03 3. Switched Power Supply +32V 14 A: Page 05 4. 50W UHF Amplifier Protections: Page 10 5. Power Detecting and Power Limiting Protection: Page 14 6. 2W UHF Amplifier: Page 16 7. 50W Output Amplifier: Page 19 8. 50W UHF Amplifier Circuit Diagram Page 23 Unit V 625W Amplifier 1. 625W Amplifier: Page 02 2. Frontal and Back Panel: Page 03 3. +32V 25 A Switched Power Supply: Page 05 4. 625W Amplifier Protections: Page 09 5. Output Supply: Page 13 6. 625W Final Amplifier: Page 15 7. 625W UHF Amplifier: Page 19 Unit VI cabling e attributes 1. Protection and Command: Page 02 2. Transient Suppressor main AC: Page 07 3. Temperature Sensor: Page 09 4. TV Monitor: Page 11 5. Meter Panel: Page 16 6. Remote monitoring: Page 20 7. Notch Filter: Page 23 8. Command and Protection Board: Page 26 9. Rack Cabling: Page 27
Unit 1 – Introduction - 4 -
Unit 1 – Introduction - 5 -
Unit 1 – Introduction - 6 - 1. External Layout:
Unit 1 – Introduction - 7 - 2. General Technical Descriptive: 2.1. IF Modulator (for transmitter): This is the input module. It is a professional audio and video modulator. The audio and video signals are applied to their respective input for the modulation process in IF (41 to 47 MHz]. The audio and video input impedances are 600 balanced Ohms and 75 unbalanced Ohms, respectively. 2.1.1. Video processing: The video signal passes through linearity correction circuits and then is applied to the 45.75 MHz video modulator. There are Synchronizing Separation circuits that generate the auxiliary outputs to “Automatic Circuits”. The video signal is also applied to a group delay predistortion circuit. 2.1.2. Audio processing: The Mono-audio signal or stereo base band is applied to the module and modulates a 41.25 MHz audio carrier. 2.1.3 Module output: Both carriers, audio and video modulated (41.25 and 45.75 MHz), are applied to the “Vestigial Side Band Filter” (SAW Filter). At the output there is a circuit to control the IF output level. 2.2. UHF UP Converter: 2.2.1. Introduction: This module converts an IF frequency signal into an UHF band channel, keeping its characteristics and the same bandwidth. 2.2.2. IF filter and AGC amplifier (for transposer): The IF amplifier and filter module establishes the adequate bandwidth for the input signal and supply the gain in this signal, keeping the level constant through an AGC loop. 2.2.3. Technical Descriptive: The 2nd UHF converter has an oscillator controlled by PLL (Phase Locked Loop Integrated Circuit), which frequency is selected through the DIP switch from the Oscillator control board. When the modulated signal in IF is received in the 2nd converter, it is filtered and applied to a mixer. The result of this mixing is filtered (channel filter) and supplied to the following modules of the equipment, in the selected channel.
Unit 1 – Introduction - 8 - 2.3. Amplifier Levels: 2.3.1. Comment/Composition/Origin: The T2500U is composed for 4 625W amplifier modules combined through 3dB hybrid couplers. The final modules are drived by a 50W amplifier and 3 dB hibrid couplers as splitters. All the amplifiers are in solid state. 2.3.2. Protections/Signaling: Each 625W amplifier has a VSWR protection, temperature and a power limiting circuit. The output power, VSWR, temperature, current and module voltage can be monitored through a DB9 connector in the front panel. In the frontal panel there are the normal power indication (Green Led), low power (red led) and excessive VSWR (red led). There is, also, a BNC connector for monitoring the output signal of each module. At the transmitter output, there is the video and audio power monitoring, antenna VSWR, power supply antenna, current and voltage and indications of excessive VSWR, excessive filter VSWR, power supply temperature alarm, video absence, phase fail and others. There is at the transmitter top, a DB25 connector with transmitter signals, for remote monitoring. 2.4. Notch filter: It is used to attenuate out channel spurious generated by the transmitter. It is composed by 11 cavities, 10 are syntonized in the spurious frequencies and 1 in the 2nd harmonic.
Unit 1 – Introduction - 9 - 3. Technical Characteristics: 3.1. Main Characteristics: Model: _____________________________________________________________________________________ T2500U Operation Band: ____________________________________________________________14 to 59 / 470-746 MHz Intermodulation: __________________________________________________________ better than 53 dB (in red) Power Supply: __________________________________________________________________ 220Vca three phase Harmonic and spurious attenuation: _______________________________________________ better than 60 dB Dimensions: ____________________________________ Width = 555mm; Height = 2100mm; Depth = 870mm Weight: ______________________________________________________________________________________ 180Kg Operating: ________________________________________________________________________ 2000 m (sea level) Maximum relative humidity: _______________________________ 95% non condensing (temperature < 25°C) Operating temperature: _________________________________________________________________ 0°C to 40°C Recommended operating temperature: __________________________________________________ 20°C to 28°C 3.2. Video Characteristics: Input Level: ___________________________________________________________________________ 0.7 to 1.5Vpp Input impedance: ____________________________________________________________ 75 Ohms (asymmetric) Output power: ____________________________________________________________________ 2500W peak sync Output impedance: _______________________________________________________________________ 50 Ohms Frequency Stability: ____________________________________________________________________ + or –500Hz Harmonic and Spurious attenuation:_____________________ better than 60 dB below of the video carrier Periodic Signal Noise ratio: _______________________________ better than 40 dB below of the video carrier Differential Gain: _______________________________________________________ <5% to 87.5% of modulation Differential phase: _______________________________________________________ <5° to 87.5% of modulation Synchronism compression: ________________________________________________________ 0.5 dB maximum Luminance and chrominance delay__________________________________________ better than + or – 30 ns 3.3. Audio Characteristics: Input level: ___________________________________________________________ 0 dBm to 25 KHz of deviation Input impedance: ______________________________________________________________ 600 Ohms balanced Output power: ________________________________________________________________________________ 250W Output impedance: _______________________________________________________________________ 50 Ohms Frequency Stability: ___________________________________________________________________ + or – 500 Hz Audio Response: ___________________________ + or – 1 dB, 50 Hz to 15 KHz (with 75 µs of pre-emphasis) AM Noise: _________________________________ 50 dB below the correspondent level for 100% modulation FM Noise: _________________________________ 53 dB below the correspondent level for 100% modulation Harmonic Attenuation: ____________________________________________________________ better than 60 dB 3.4. Supplementary Characteristics: Input Connector: ______________________________________________________ audio = cannon; video = BNC Output Connector:_________________________________________________________________ flange EIA 1 5/8” Maximum consumption:______________________________________________________________________ 15 kVA Final Stage: ________________________________________________________________ 64 x MRF373A (LDMOS)
Unit 1 – Introduction - 10 - 4. Block Diagram:

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