The material contained in this document is the property of Electronics & Innovation Ltd., it is
subject to change without notice.
August 2012
Revision B
7
Single character commands can be sent to the amplifier to achieve the following:
"1" key enables telemetry (readback similar to LCD display) - this is the default
mode at power up
“2” key clears any faults and tries to start the supply.
“0” key disables telemetry (Complement to “1” key)
Custom commands and display lists can be implemented upon customer
request.
Chapter 3 Technical Description
3.1 GENERAL DESCRIPTION
The 2400L is designed to amplify signals by 55 dB in the frequency band of 10
KHz to 10 MHz. The signal from the front panel N connector is fed via a length of
50 ohm coaxial cable into the a splitter and the two outputs are fed to the input of
the driver amplifier modules. The signal from the input of the driver is coupled to
the input of the MMIC front end. The output signal of the MMIC is coupled to the
gate of transistor Q1. The further amplified signal appearing at the drain of Q1 is
coupled to the input of Q2. This is transformed to 50
and fed to the driver
output BNC port.
The driver output signal is fed through a length of coaxial cable to the input of the
two power splitters, the four outputs of this are each fed to the four amplifier
modules. In each PA module the signal is split into two equal phase and
amplitude signals. These signals are fed to the inputs of transistors Q1 and Q2.
The amplified signals appearing at the drains of Q1 and Q2 are then fed to the
output BNC port via the impedance matching network. The output of the modules
is then fed to the combiner to produce a single signal.
The power signal is then fed into a length of 50 ohm coaxial cable to the RF bi-
directional coupler. The output of the coupler is then fed directly to the N
connector on the front panel, this is the unit output.
The forward and reverse coupled ports of the bi-directional coupler are fed to the
RF detector which is situated on the main control board. The RF detector feeds a
voltage, which is representative of the true RMS power to the control board
proper. The control board in turn drives the front panel display.
