4.1.5 Low Frequency Circuit:
The low frequency signal re-modulated by IC307 obtains -6dB/oct characteristic by going through the de-emphasis circuit which contains BUFF (IC13A) and LPF (Q25). Then the signal is input to the low frequency section of CPU AF board.
4.1.6 Squelch Circuit:
If no signal is input to the antenna, noise signal is amplified by the amplifier (IC 13B), As the result of receiving the amplified noise signal, the squelch circuit of IC307 outputs BUSY signal. Squelch level is controlled by VR101.
4.1.7 Low Frequency Treatment Circuit (CPU AF Board):
The re-modulated low frequency signal is amplified in AMP (Q7). Its volume can be adjusted by the tone volume (VR 102).
BUSY signal, output from the squelch circuit (6), becomes a MUTE signal after being conditioned in CPU circuit. The low frequency signal is turned on and off by the transistor switch (Q6) which is driven by this MUTE signal.
The low frequency signal further undergoes power-amplification in the low- frequency-power-amplifier (IC 305) to drive the speaker. With the amplifier circuit (IC6, Q8, Q10), which drives the microphone speaker, it is possible to monitor the receiving tone heard from the microphone speaker. This driving circuit can be turned on and off by key operation.
4.1.8 WX Alert Detection:
The tone selector (IC10 RF Board) detects the 1050Hz alert tone if it is contained in the re-modulated receiving signal. The operating mode is changed to WX receiving mode when CPU confirms that the alert tone has been detected.
4.2 TRANSMITTING CIRCUIT OPERATION
4.2.1 Microphone Amplifier Circuit:
Voice signal from the microphone is amplified by TX MIC AMP (IC5AJC5B) in the CPU AF Board. At the same time, the voice signal obtains pre-emphasis characteristic of 6 dB/oct in the range from 300Hz to 3KHz. The oscillation width of this signal is limited by LIMITER circuit (D5) of the RF board. The harmonic wave distortion generated by this oscillation width limitation is removed by TX MOD LPF (IC31). Then the voice signal is input to VCO section of PLL circuit as a modulation signal. This modulation signal frequency is modulated directly by the variable capacity diode D11 of VCO.