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There are currently no product reviews.
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The purchased manual is an high-quality scan of the original JVC paper-based Service Manual. The Service Manual includes the Owner´s Manual, so you do not have to buy both of them.
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It paid to find this Service Manual, couldn't find it anywhere else. Exactly what I wanted. Received within 24 hours.
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Complete manual with clear schematic diagrams and printed circuit board layouts of two variants of the headset and the transmitter an old and a new version.
Also shows how the headset and the transmitter is opened and how transmitter and receivers can be adjusted and where to measure.
I had no problems to repair the headset using this service manual.
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Excellent printing quality. A complete and very useful manual with all details.
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This is a great site. I placed my order and by the next am it was available for download. Had some problems with some missing copy on some pages. Once I brought the error to the OMC's attention, the issue was resolved. I'll come back again.
2-2-3. Transmitter Circuit The modulator generates transmit signal with VCO and to fed the discrete switch circuit. The output signal of the discrete switch circuit is fed to the power amplifier (U402). The output signal of the power amplifier is fed to the directional coupler (U401) and then the duplexer filter (FL401). A sample of the RF output power is coupled off, and passed through the detector (CR401) and fed to the logic circuit for APC loop. The p-cont signal from the logic circuit controls power amplifier level controllers (Q403, Q405) to control the power amplifier (U402) output level. 2-2-4. Receiver Circuit The receiver is a double conversion super-heterodyne receiver, capable of receiving frequencies from 869 MHz to 894 MHz. The RX signal from duplexer filter (FL401) is amplified by LNA (Q301) with band-pass filter (FL301) and fed to the double balanced mixer (U301). The synthesizer output signal is also fed to the mixer to obtain the first IF signal (72.06 MHz). The first IF signal is fed to the second mixer through first amplifier (Q303) and x�tal filter (FL302) and then heterodyned with a fixed 72 MHz second local VCO signal obtain a 60 kHz second IF signal. The second local oscillator signal is produce by signal synthesizer (U304) and discrete VCO. After this frequency conversion, the signal second IF fed to the monolithic low-power IF system (U302) incorporating two limiting IF amplifiers quadrature detector, logarithmic signal strength indication (RSSI) and voltage regulator. The detected output signal and RSSI signal are fed to the logic circuit.
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