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9.2.3 LO

The LO provides the reference frequency for frequency conversion. When tuning across a band, the LO frequency must always remain offset from the desired RF by exactly the IF. Frequency stability of the LO determines tuning accuracy and receiver drift. In an AM broadcast receiver, coarse tuning by ear suffices, but SSB or ISB communications receivers require LO stability better than ±20 Hz.

Early receivers used crystal oscillators for fixed frequencies or switched-crystal banks for multiple channels. Modern tunable receivers employ frequency synthesizers—most commonly phase-locked loops (PLLs) or direct digital synthesizers (DDS)—to generate precise, agile LO signals with sub-hertz resolution.

In high-performance receivers, LO phase noise is a dominant factor in reciprocal mixing, where oscillator noise sidebands degrade weak-signal reception near strong interferers. The LO provides one of the two input signals required by the mixer, and its frequency accuracy, phase noise, and stability directly influence conversion accuracy, adjacent-channel performance, and reciprocal mixing behavior.