Tabor 9100 300Vp-p Single-Channel Signal Amplifier
Model 9100 is a Single/Dual Channel, 2U, half-rack size, bench-top power amplifier designed for signal amplification. With unprecedented signal purity, Model 9100 amplifies signals from DC to over 500kHz. The unit has a fixed gain of x15 however the same amplifier is available with custom gain and no signal purity or performance degradation whatsoever.
High voltage output to 300Vp-p (±150V)
Output current to 150 mA
Full power bandwidth from DC to >500kHz
Slew rate to 200V/µs
Custom Configuration of:
Solves Common Problems
Model 9100 operates as an amplifying buffer for signals emitted from waveform, function, or pulse generators. Most of these generators produce signals limited to 20Vp-p into high impedance. Model 9100 can convert these voltages to levels as high as 300Vp-p. The amplifier has a current driving capability of ±150mA from a 0.1Ω source. While the output can drive small capacitive or inductive loads, for full high speed potential it is recommended that the load characteristics should be mainly resistive. Model 9100 can withstand load capacitance and inductance up to 0.01µF and 0.5 mH without any performance deterioration.
The advanced power amplifier is supplied with floating input and output connectors allowing flotation from ground level up to 250VDC. The only limitation is that both the input and output grounds must connect to the same level. This capability is extremely important in applications where the amplifying device must reside on the same ground level as its source. The floating capability can be added or removed using a simple, user-accessible, jumper connection.
The amplifier case was designed to stack on top or below other Tabor products. It can also be mounted alongside a Tabor generator in a standard 19" rack. The waveform-amplifier combo is an ideal solution for virtually any high-voltage, wide bandwidth application.
Cost Effective Solution
Model 9100 power amplifier is yet another of Tabor`s cost-effective solutions for a full range of high voltage applications.