33210A /002 AGILENT TECHNOLOGIES, 33210A /002 Datasheet - Page 2

WAVEFORM GENERATOR ARB / FUNCTION, 10MHZ

33210A /002

Manufacturer Part Number
33210A /002
Description
WAVEFORM GENERATOR ARB / FUNCTION, 10MHZ
Manufacturer
AGILENT TECHNOLOGIES
Datasheet
1.33210A.pdf (4 pages)

Specifications of 33210A /002

Signal Generator Type
Pulse
Bandwidth
10MHz
Modulation Type
Amplitude/Frequency/Phase
Supply Voltage Range
100V To 240V
External Height
103.8mm
External Width
261.1mm
Lead Free Status / RoHS Status
na
Easy-to-use functionality
Front-panel operation of the
33210A is straight-forward and
user friendly. You can access all
major functions with a single
key or two. The knob or numeric
keypad can be used to adjust
frequency, amplitude, offset, and
other parameters. You can even
enter voltage values directly in
Vpp, Vrms, dBm, or as high and
low levels. Timing parameters
can be entered in Hertz (Hz)
or seconds.
Internal AM, FM, and PWM
modulation make it easy to
modulate waveforms without the
need for a separate modulation
source. Linear and logarithmic
sweeps are also built in, with
sweep rates selectable from 1 ms
to 500 s. Burst mode operation
allows for a user-selected number
of cycles per trigger. GPIB, LAN,
and USB interfaces are all stan-
dard, plus you get full program-
mability using SCPI commands.
External frequency reference
(Option 001)
The 33210A external frequency
reference lets you synchronize
to an external 10 MHz clock, to
another 33210A, or to an Agilent
33220A or Agilent 33250A. Phase
adjustments can be made from
the front panel or via a computer
interface, allowing precise phase
calibration and adjustment.
Waveforms
Standard
Built-in arbitrary wave-
forms (available only
with Option 002 ARB)
Waveform Characteristics
Sine
Frequency range
Amplitude
Flatness
Harmonic distortion
Total harmonic distortion
Spurious (non-harmonic)
1 MHz to 10 MHz
Phase noise
Square
Frequency range
Rise/fall time
Overshoot
Variable duty cycle
Asymmetry
Jitter (RMS)
Ramp, Triangle
Frequency range
Linearity
Variable symmetry
Pulse
Frequency range
Pulse width
Variable edge time
Overshoot
Jitter (RMS)
Noise
Bandwidth
Measurement Characteristics
DC to 20 kHz
20 kHz to 100 kHz
100 kHz to 1 MHz
1 MHz to 10 MHz
DC to 20 kHz
DC to 1 MHz
(10 kHz offset)
(@ 50% duty)
(period ≤ 10 s)
[1], [2]
[2], [3]
Sine, Square, Ramp,
Triangle, Pulse, Noise, DC
Exponential rise,
Exponential fall, Negative
ramp, Sin(x)/x, Cardiac
1 mHz to 10 MHz
(relative to 1 kHz)
< 100 kHz
100 kHz to 5 MHz 0.2 dB
5 MHz to 10 MHz 0.3 dB
< 1 Vpp
-70 dBc
-65 dBc
-50 dBc
-40 dBc
0.04%
-70 dBc
-70 dBc + 6 dB/octave
-115 dBc / Hz, typical
1 mHz to 10 MHz
20 ns
< 2%
20% to 80% (to 5 MHz)
40% to 60% (to 10 MHz)
1% of period + 5 ns
1 ns + 100 ppm of period
1 mHz to 100 kHz
< 0.1% of peak output
0.0% to 100.0%
1 mHz to 5 MHz
40 ns minimum
10 ns resolution
20 ns to 100 ns
< 2%
300 ps +
0.1 ppm of period
7 MHz typical
2
[2],[4]
[2],[3]
-70 dBc
-60 dBc
-45 dBc
-30 dBc
≥ 1 Vpp
0.1 dB
8K-point Arbitrary Waveform Generator
(Option 002)
Frequency range
Waveform length
Amplitude resolution
Sample rate
Min. rise/fall time
Linearity
Settling time
Jitter (RMS)
Non-volatile memory 4 waveforms
Common Characteristics
Frequency
Accuracy
Resolution
Amplitude
Range
Accuracy
Units
Resolution
DC Offset
Range
(peak AC + DC)
Accuracy
Resolution
Main Output
Impedance
Isolation
Protection
External Frequency Reference (Option 001)
Rear Panel Input
Lock range
Level
Impedance
Lock time
Rear Panel Output
Frequency
Level
Impedance
Phase Offset
Range
Resolution
Accuracy
(at 1 kHz)
[5]
[1],[2]
[1],[2]
1 mHz to 3 MHz
2 to 8 k points
14 bits (including sign)
50 MSa/s
70 ns typical
< 0.1% of peak output
< 500 ns to 0.5% of final
value
6 ns + 30 ppm
± (10 ppm + 3 pHz)
± (20 ppm + 3 pHz)
1 µHz (internal)
1 mHz (user)
10 mVpp to 10 Vpp into
20 mVpp to 20 Vpp into
± 2% of setting
± 1 mVpp
Vpp, Vrms, dBm
3 digits
± 5 V into 50 Ω
± 10 V into open circuit
± 2% of offset setting
± 0.5% of amplitude
± 2 mV
3 digits
50 Ω typical
42 Vpk maximum to earth
Short-circuit protected,
overload automatically
disables main output
10 MHz ± 500 Hz
100 mVpp to 5 Vpp
1 kΩ, typical
< 2 seconds
10 MHz
632 mVpp
(0 dBm), typical
50 Ω, typical
AC coupled
+360° to -360°
0.001°
20 ns
in 90 days
in 1 year
50 Ω
open circuit