Model A10150 150MHz 16Vp-p Single Channel Signal Amplifier0 pages
MODEL A10150
150MHz 16Vp-p Single Channel
Signal Amplifier
•t 150MHz bandwidth
•t High amplitude to 20Vp-p into 50Ω
•t Fast transition time of <1.8ns
•t Small footprint, all metal case
•t Low distortion
•t Custom Configuration of:
tt Gain (x5 or x10)
tt Maximum output (16Vp-p or 20Vp-p)
Model A10150 is an ultra-small footprint,
wideband, DC coupled amplifier designed
for high frequency, low distortion, signal
amplification. With a high bandwidth of
150MHz, 20Vp-p into 50 ohms and a
fast transition time of less than 1.8ns, the
A10150 is the ideal complimentary amplifier
to any high speed signal source that needs
a supporting power boost for demanding
applications.
Optional Configurations
The A10150’s standard configuration enables
a maximum output voltage of 16Vp-p into 50
ohms with a gain of x5. Custom gain of x10
and/or maximum voltage of 20Vp-p into 50
ohms options can be ordered at the time of
the purchase, enabling clients’ even wider
variety of choices to solve their application.
Enhancing Performance
The A10150 was designed as a “Snap-On”
accessory for the Tabor WaveXciter series
and models WS8351/2, both having a
maximum amplitude of 4Vp-p, which can
be limiting for some applications, requiring
higher voltage to drive their UUT. Combined
with the A10150 the WX and WS models
will now offer even higher abilities to solve
demanding application requiring up to
32Vp-p into high impedance loads, without
compromising their signal integrity.
Cost Effective Versatile Solution
While the A10150 was designed with the
Tabor units in mind, it can be used as a
standalone amplifier for any signal source.
The A10150 offers a compatible, compact
and cost effective solution for extending any
signal source’s power performance.
Target Applications
While target applications include Ethernet
testing, characterization and verification of
ASICs, FPGAs and DACS and many more,
the new A10150 is an ideal solution for
virtually any high-voltage, wide bandwidth
application.