Waveform Generator

One of twelve instruments available on Moku:Lab

Waveform Generator

One of twelve instruments
available on Moku:Lab

Frequency range

DC to 250 MHz

External triggering

Flexible

Output voltage range

± 1 V into 50 Ω

Modulation

Cross-channel

How can we assist?

How can we assist?

Waveform Generator overview

Moku:Lab’s Waveform Generator enables users to generate two independent waveforms with a sampling rate of 1 GSa/s, a maximum frequency of 250 MHz and a output voltage range of ± 1 V into 50 Ω. Select between sine, square, ramp, pulsed or DC waveform shapes. Modulate the phase, frequency or amplitude, or generate triggered bursts or sweeps from an internal or external source.

Features

Generate 2 independent waveforms from DC to 250 MHz
Wideband modulation (AM, FM, and PM) from internal or external source
Triggered burst and sweep modes
Synchronize via 10 MHz input/output
Powerful and flexible waveform triggering options
iPad, Python, MATLAB and LabVIEW control

Specifications

Analog output bandwidth 300 MHz
Modulation bandwidth 62.5 MHz
SFDR > 50 dBc for frequencies below 20 MHz
Total harmonic distortion < 0.1% (1.5 MHz, 5 harmonics)
2 Vpp output into a 50 Ω load
< 1 ppm oscillator stability

Waveform Generator overview

Features

Generate 2 independent waveforms from DC to 250 MHz
Wideband modulation (AM, FM, and PM) from internal or external source
Triggered burst and sweep modes
Synchronize via 10 MHz input/output
Powerful and flexible waveform triggering options
iPad, Python, MATLAB and LabVIEW control

Specifications

Analog output bandwidth 300 MHz
Modulation bandwidth 62.5 MHz
SFDR > 50 dBc for frequencies below 20 MHz
Total harmonic distortion < 0.1% (1.5 MHz, 5 harmonics)
2 Vpp output into a 50 Ω load
< 1 ppm oscillator stability

Wirelessly configure and upload your waveforms, all from an
intuitive iPad interface, or with Python, MATLAB, and LabVIEW.

Wirelessly configure and upload your waveforms, all from an intuitive iPad interface, or with Python, MATLAB, and LabVIEW.

Generate up to two independent waveforms at
a time with the following characteristics

Sine waves from 1 mHz to 250 MHz (4 µHz resolution)
Square, triangle, and sawtooth waves from 1 mHz to 100 MHz
Pulse (4 ns minimum with 1 ns resolution)
DC coupled output voltage range of ± 1 V into 50 Ω

Standard modulation

Modulate the amplitude, frequency or phase of the generated waveform at up to 62.5 MHz with an internally generated sinewave. Alternatively, modulate using an external waveform sampled by Moku:Lab’s 200 MHz inputs.

Cross-channel modulation

Moku:Lab’s Waveform Generator features cross-channel modulation, enabling the output on one channel to be modulated using the output of the other channel. Need to modulate the phase of a 10 MHz carrier with a 1 kHz triangle waveform that is itself amplitude modulated at 1 kHz? You can do that with cross-channel modulation.

Generate up to two independent waveforms at a time with the following characteristics

Sine waves from 1 mHz to 250 MHz (4 µHz resolution)
Square, triangle, and sawtooth waves from 1 mHz to 100 MHz
Pulse (4 ns minimum with 1 ns resolution)
DC coupled output voltage range of ± 1 V into 50 Ω

Standard modulation

Cross-channel modulation

F.A.Q.

What are my options for triggered burst mode?

• Start mode: start generating a signal from a trigger event.
• N cycle mode: Output a predefined number of oscillations for a given signal.
• Gated mode: Turn your output on/off depending on your trigger.

What is triggered sweep mode?

Triggered Sweep Mode allows you to automatically sweep the frequency of your signal by setting a start frequency, a stop frequency and sweep duration. The source of trigger events can be selected from the following options:

• Internal: Trigger from an internally generated signal.
• Channel: Trigger from the waveform characteristics of the other channel
• ADC: Trigger from the analog inputs
• External: Trigger from the TTL compatible EXT input on the back panel.

F.A.Q.

What are my options for triggered burst mode?

• Start mode: start generating a signal from a trigger event.
• N cycle mode: Output a predefined number of oscillations for a given signal.
• Gated mode: Turn your output on/off depending on your trigger.

What is triggered sweep mode?

Triggered Sweep Mode allows you to automatically sweep the frequency of your signal by setting a start frequency, a stop frequency and sweep duration. The source of trigger events can be selected from the following options:

• Internal: Trigger from an internally generated signal.
• Channel: Trigger from the waveform characteristics of the other channel
• ADC: Trigger from the analog inputs
• External: Trigger from the TTL compatible EXT input on the back panel.