HARTLEY OSCILLATOR

2-17 Figure 2-12.—Collector current and voltage waveforms of a class C oscillator. HARTLEY OSCILLATOR The HARTLEY OSCILLATOR is an improvement over the Armstrong oscillator. Although its frequency stability is not the best possible of all the oscillators, the Hartley oscillator can generate a wide range of frequencies and is very easy to tune. The Hartley will operate class C with self-bias for ordinary operation. It will operate class A when the output waveform must be of a constant voltage level or of a linear waveshape. The two versions of this oscillator are the series-fed and the shunt-fed. The main difference between the Armstrong and the Hartley oscillators lies in the design of the feedback (tickler) coil. A separate coil is not used. Instead, in the Hartley oscillator, the coil in the tank circuit is a split inductor. Current flow through one section induces a voltage in the other section to develop a feedback signal. Series-Fed Hartley Oscillator One version of a SERIES-FED HARTLEY OSCILLATOR is shown in figure 2-13. The tank circuit consists of the tapped coil (L1 and L2) and capacitor C2. The feedback circuit is from the tank circuit to the base of Q1 through the coupling capacitor C1. Coupling capacitor C1 prevents the low dc resistance of L2 from placing a short across the emitter-to-base junction and resistor R_E. Capacitor C3 bypasses the sine-wave signal around the battery, and resistor R_E is used for temperature stabilization to prevent thermal runaway. Degeneration is prevented by C_E in parallel with R_E. The amount of bias is determined by the values of R_B, the emitter-to-base resistance, the small amount of dc resistance of coil L1, and the resistance of R_E. Figure 2-13.—Series-fed, tuned-base Hartley oscillator.