A2 Input - Agilent Technologies 35670A Service Manual

ICP Source
Input Relays
Relay Select &
Energize
High Buffer
Low Buffer
+10 dB Differential
Amplifier
0 /–12 dB Amplifier
0 /+14 dB Amplifier
Step Attenuator
+2 dB Amplifier
Circuit Descriptions

A2 Input

A2 Input
The A2 Input assembly is the input assembly for the four channel analyzer. The four
channel analyzer contains two A2 Input assemblies. The A2 Input assembly
connected to J1 on the Motherboard conditions the channel 1 and channel 3 input
signals before they are sent to the analog-to-digital converter on the A5 Analog
assembly. The A2 Input assembly connected to J2 on the Motherboard conditions the
channel 2 and channel 4 input signals before they are sent to the analog-to-digital
converter on the A5 Analog assembly. The Input assembly sets the voltage ranges,
conditions the input signals, and filters out alias components. Signal conditioning is
done with relays, high and low buffers, and a series of amplifiers and attenuators. In
addition, autozero DACs compensate for any dc offset added to the signals by the
circuits on this assembly. The assembly also monitors the input signals for common
mode or differential overloads and for half-range conditions. Unless stated otherwise,
the following description applies to the block diagrams for all four channels.
Supplies power to transducers such as accelerometers when enabled. The ICP Source is a 4.25
1.5 mA floating current source. The power for the current source is obtained by switching the
15 V supplies at the sample frequency (262 kHz), isolating through a 1:1 transformer,
rectifying and filtering. When disabled, the source is disconnected by a relay and the switching
power supply is disabled.
Select one of the 0 dB, 20 dB, or 40 dB pads and configure the input. The relays are controlled
by Relay Select & Energize.
Selects and energizes the input relays. Relay Select & Energize is controlled by the IIC
Interface.
Buffers the HIGH input signal (BNC center conductor). The High Buffer contains a bootstrap
circuit that prevents harmonic distortion and large common mode signals from saturating the
buffer.
Buffers the LOW input signal (BNC shell). The operation of the Low Buffer is identical to the
High Buffer.
Begins the gain and attenuation stages. This amplifier subtracts the HIGH and LOW input
signals from the high and low buffers. The common mode rejection adjustment, adjusts the
+10 dB Differential Amplifier to reject common mode signals.
Can attenuate the signal by 12 dB.
Can amplify the signal by 14 dB.
Can attenuate the input signal from 0 dB to –14 dB, in 2 dB steps.
Adds a gain of 2 dB and allows the DC Offset DAC to vary the dc offset of the input signal.
The purpose of the amplifiers and attenuators up to this point is to ensure that the input signal
does not overdrive the anti-alias filter or analog-to-digital converter.
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Agilent 35670A