Vectronics VEC-1290K User Manual

Technical Circuit Description:

RF oscillator section:

One section of six-section inverter CMOS IC package is

used for the oscillator (UID). The oscillator tank coil is made of four inductors
in series. Two sets of shorting jumpers allow the inductance value to be set
from 122 uH to 552 uH. Each of the three possible jumper configurations
covers a portion of the 530 to 1710 kHz AM broadcast band. Fine tuning to an
exact channel is done via a 100-pF ceramic trimmer across the tank coil.

Buffer and driver stages:

The oscillator output is buffered by section UIB of

the 4049 inverter chip. The output of UIB drives two inverter gates in parallel-
U 1 D and U 1 E.

The paralleled operation insures sufficient drive level the final transistor for
Class C operation.

Final amplifier stage:

A 2N3904 transistor is used for the power amplifier

stage. The transistor is biased for Class C 'operation. ``Class C operation
permits the use of high-level modulation for best linearity and efficiency. Note
that many inexpensive AM transmitter kits use modulated oscillators, with
resulting

FM'ing of

the carrier and a maximum modulation level

of

perhaps 25

to 30 percent.

Audio Amplifier and Modulator stage:

Low level microphone or line-level

audio is amplified by a LM386 audio amplifier IC. The audio level to the IC is
set by gain control R1. The output from the IC is directly applied to the RF
power stage, the 2N3904 transistor.

The DC output

of

the LM386 is normally at

''/s

of

the supply voltage with no

signal. The DC level follows the audio signal; at maximum modulation (100%)
the instantaneous output voltage will vary from near zero to almost the full
supply voltage. In a true Class C stage, doubling the supply voltage will
produce a peak power level (PEP)

of

four times the carrier power.

Direct coupling:

After C1, all audio stages up to the PA transistor collector are

DC coupled, with no interstage coupling capacitors or modulation transformers
to limit or tailor the audio response.

Antenna and matching:

The VEC-1290K is supplied with an attached 6-foot

wire radiator. This antenna meets current FCC Part 15 requirements for
unlicensed RF transmitters. The antenna is extremely capacitive reactive at
broadcast band frequencies, and presents a very high impedance to the
transmitter. Capacitor C8, inductors L3, L4 and L5, and trimmer capacitor C11
form a pi-network impedance transformation network to match the

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