Data Sheet
3
Exceptional Signal Fidelity with
16-bit VerticalResolution
Highest signal accuracy and precise waveform details
generation are key contributors for developing quality
products with a reduced design time. Indeed, the pressure
is to get products to market faster with a shortest design
cycle and with the increase of the quality goals. The
exceptional Signal Fidelity of the T3AWG3252 with the
4V
pp
Sine Wave and 5 x 10 mV
pp
Square Wave Sequencing
12 V
pp
waveform can be shifed of ±6 V from -12 V to 0 V
to 0 V to +12 V
Pulse from 0 V to 24 V MOSFET gate voltage-driven
16-bit Vertical Resolution give the capability to emulate
the thinnest details of your waveform making your testing
highly ef cient and increasing the con dence in your
results as more stable and reliable.
Output Voltage Window ± 12 V (50 Ω into 50 Ω)
or ± 24 V (50 Ω into High Impedance)
(option T3AWG-HV)
Output voltage swing is a compulsory requirement for
key applications for the IC and Semiconductor Test or
Defense marker segment. The T3AWG3252 generator
has unmatched outstanding voltage swing capability
leveraging on two different combined features. The 12 V
pp
(50 Ω into 50 Ω) amplitude range and the ±6V (50 Ω into
50 Ω) hardware offset voltage. The following images show
a 12 V
pp
sinewave (50 Ω into 50 Ω) shifted from -12 V to
0 V to 0 V to +12 V using the hardware base voltage offset
setting and a 24 V
pp
pulse from 0 V to 24 V (50 Ω into high
Impedance).
Output Voltage Window: ± 12 V (50 Ω into 50 Ω) (option T3AWG-HV)
Output Voltage Window: ± 24 V (50 Ω into High Impedance) (option T3AWG-HV)
●
Output Voltage peak-to-peak (12 V
pp
)
●
Baseline Voltage Hardware Offset (± 6 V)
●
Output Voltage peak-to-peak (24 V
pp
)
●
Baseline Voltage Hardware Offset (± 12 V)
HW offset +6 V
Sinewave
-6 V to +6 V
Pulse from 0 V to +24 V
Sinewave
0 V to +12 V
Sinewave
-12 V to 0 V
HW offset -6 V
Baseline Voltage Hardware Offset (± 12 V)