Siglent SDG6022X

23862 Visitors viewed Valuetronics International Inc ads in the last 30 Days

Condition: New

Quick Reference

In summary, the Siglent SDG6022X is a 200 MHz, dual-channel Pulse / Arbitrary Waveform Generator built on a 2.4 GSa/s, 16-bit sampling architecture. It is a multi-function signal generator that produces continuous sine, pulse, arbitrary, noise, and PRBS waveforms — with an optional IQ Signal Generator function — and uses proprietary TrueArb and EasyPulse technology to deliver low-jitter square, pulse, and arbitrary waveforms that traditional DDS architectures cannot match. 20 Vpp maximum output amplitude and 80 dB dynamic range qualify it as a professional bench AWG for R&D, education, semiconductor characterization, and signal-simulation applications.

What is the Siglent SDG6022X used for?

The SDG6022X is used by hardware design engineers, embedded systems developers, signal-integrity teams, and educators as the stimulus source in a stimulus-response test setup — the signal that goes into the device under test so that the response measured by an oscilloscope, spectrum analyzer, or network analyzer is meaningful. The 200 MHz bandwidth places this configuration at the entry point of the high-performance AWG class — embedded systems debug below 200 MHz, education labs, motor control and power electronics simulation, and general purpose bench stimulus where 20 Vpp output amplitude is required.

How does the Siglent SDG6022X compare to a traditional DDS function generator?

The SDG6022X uses proprietary TrueArb and EasyPulse signal-generation architectures alongside DDS — not in place of it. Traditional DDS designs can lead to additional jitter and distortion when sourcing arbitrary, square, and pulse waveforms because the sampling rate is rarely an integer-related multiple of the output frequency, producing one-clock-period jitter. TrueArb generates arbitrary waveforms point-by-point with linear or zero-order-hold interpolation, never skipping a sample, and EasyPulse delivers cycle-to-cycle jitter typical of 35 ps RMS on square and pulse outputs. The commercial consequence: a customer doing PLL characterization, serial-interface eye-diagram testing, or radar pulse simulation can use the SDG6022X as the stimulus source without the generator's own internal jitter contaminating the measurement floor.

Factual Grounding — Specifications and Performance

The Siglent SDG6022X delivers 200 MHz maximum bandwidth on sine output, 80 MHz maximum bandwidth on pulse output with a minimum pulse width of 3.4 ns and minimum edge of 2 ns, 80 MHz maximum bandwidth on square output, 5 MHz maximum bandwidth on ramp, and 50 MHz maximum bandwidth on arbitrary waveform output. The 2.4 GSa/s sampling rate (2X interpolation) and 16-bit vertical resolution define the high-performance class. Frequency resolution is 1 μHz across all waveform types, with initial accuracy of ±1 ppm at 25°C and 10-year aging of ±3.5 ppm. Maximum output amplitude is 20 Vpp into a HiZ load at ≤40 MHz on sine. Harmonic distortion is –65 dBc at 0 dBm, 0~1 MHz, improving the signal-to-noise ratio of every downstream measurement. Calibration interval is 1 year. Power consumption is 32.5 W typical at dual channels, sine, 1 kHz, 10 Vpp into 50 Ω load — modest enough that the SDG6022X fits any bench power budget.

Entity Authority — Siglent and the High-Performance AWG Market

Siglent Technologies is an international high-tech company concentrating on R&D, sales, production, and services of electronic test and measurement instruments. Founded with digital oscilloscope development beginning in 2002, Siglent has extended its product line across oscilloscopes, function/arbitrary waveform generators, RF generators, digital multimeters, DC power supplies, spectrum analyzers, vector network analyzers, isolated handheld oscilloscopes, electronic loads, and other general-purpose test instrumentation. The SDG6000X series represents Siglent's high-performance AWG line, with the SDG6052X (500 MHz) directly addressing applications that historically required Keysight 81160A-class or Tektronix AFG31000-class instruments. Compliance certifications include IEC 61010-1:2010 (LVD) and EN 61326-1:2013 (EMC).

How does the SDG6022X compare to industry baseline function generators?

• Bandwidth class: 200 MHz sine output — four times the bandwidth of a typical $300–$600 value-tier function generator capped at 30–60 MHz.
• Sample rate: 2.4 GSa/s — substantially above the 1 GSa/s standard of competing professional AWGs in this bandwidth tier.
• Vertical resolution: 16-bit — exceeds the 14-bit standard of most competing professional AWGs, reducing quantization noise and improving small-signal fidelity at low amplitudes.
• Architecture: TrueArb point-by-point arbitrary output and EasyPulse low-jitter pulse output — Siglent's proprietary answer to the DDS-jitter problem that affects every traditional function generator design.
• Integration: Multi-function — Sine, Pulse, Arbitrary, Noise, PRBS, plus optional IQ — in a single chassis. A standalone function generator does not include PRBS or IQ capability; matching the SDG6000X feature set with separate instruments would require a function generator, a pattern generator, and a vector signal generator.
• Output amplitude: 20 Vpp into HiZ load — twice the 10 Vpp standard of competing professional AWGs, enabling direct stimulus of higher-voltage circuits without an external amplifier.

Standard Configurations and Optional Accessories

The Siglent SDG6022X ships with everything needed to begin generating signals on day one. Optional configurations expand the instrument's capability into IQ signal generation, higher-power output, automated test integration, and rack installation.

Standard Configurations (included)

• Quick start × 1
• Power cord × 1
• Calibration certificate × 1
• USB cable × 1
• BNC coaxial cable × 2

Optional Configurations

Recommended Pairing — The Stimulus-Response Setup

An arbitrary waveform generator is a stimulus instrument. It creates the signal that goes into the device under test, and a response instrument is required to measure what comes out. The most common pairings for the SDG6022X:

• Oscilloscope — to display the device's time-domain response. Scope bandwidth should equal or exceed the 200 MHz bandwidth of the SDG6022X; for the SDG6052X, a 500 MHz–1 GHz scope is the right match.
• Spectrum Analyzer — to measure frequency-domain response when using the SDG6022X for RF stimulus up to its IQ carrier maximum.
• Power Amplifier (SPA1010) — to drive higher-power devices when the 20 Vpp standard output is not enough.
• Attenuator (ATT-20dB) — to inject calibrated low-level signals for receiver-sensitivity work.

Product Overview — Siglent SDG6022X

Signal generators are the stimulus instruments of the engineering bench. They create the known, controlled signals that make every downstream measurement meaningful — and they almost never appear in isolation, because every meaningful test setup requires both a stimulus source and a response instrument. Siglent's SDG6000X is a series of dual-channel Pulse / Arbitrary Waveform Generators that feature up to 500 MHz bandwidth, a maximum sample rate of 2.4 GSa/s, and 16-bit vertical resolution. They include proprietary TrueArb and EasyPulse technology that help to solve the weaknesses inherent in traditional DDS generators when generating arbitrary, square, and pulse waveforms. In addition, the SDG6000X is a multi-function device that can generate Noise, IQ signals, and PRBS patterns. These features enable the SDG6000X to provide a variety of high-fidelity and low-jitter signals, meeting the growing requirements of complex and intensive applications.

The Siglent SDG6022X is the 200 MHz configuration in this family. At 200 MHz bandwidth, the SDG6022X sits at the entry point of the SDG6000X family — the right configuration for general analog and digital design work below 200 MHz, embedded systems debug, education and training labs, and any application where the customer needs serious signal fidelity but is unlikely to push past 200 MHz fundamentals. Up to 80 MHz Pulse is supported on this model, with minimum pulse width of 3.4 ns and minimum rise/fall edge of 2 ns at full frequency range.

The Six-Function Multi-Generator Architecture

What separates the SDG6000X from a conventional function generator is integration. A single SDG6022X chassis includes six distinct signal-generation capabilities, eliminating the need for separate function generator, pattern generator, noise source, and vector signal generator instruments on the bench:

1. Continuous Wave Generator (Sine)

Up to 200 MHz sine wave, supporting sweep and user-defined harmonics. Harmonics function gives the ability to add higher-order elements (Even, Odd, All — up to 10th order) to the signal.

2. Pulse Generator

Up to 80 MHz Pulse, with finely adjustable width, rising edge and falling edge; 3.4 ns minimum width and 2 ns minimum edge at full frequency range. The pulse width can be fine-tuned to the minimum of 3.4 ns with an adjustment step as small as 100 ps, at any frequency. The rise/fall times can be set independently to the minimum of 2 ns at any frequency with a minimum adjustment step as small as 100 ps. EasyPulse technology overcomes the cycle-to-cycle jitter that affects traditional DDS-based square/pulse outputs.

3. Function / Arbitrary Waveform Generator

Basic Function / Arbitrary Waveform Generator and complex signals generating capability including modulation, sweep, burst, and waveform combination. TrueArb generates arbitrary waveforms point-by-point — it never skips any point so that it can reconstruct all the details of the waveform, as defined. Two interpolation modes are available: linear and zero-order hold. 2 to 20 Mpts waveform length, 196 built-in arbitrary waveforms, and the EasyWaveX waveform-creation software platform support manual drawing, line, equation, and coordinate editing modes.

4. IQ Signal Generator (optional, requires SDG-6000X-IQ)

Base Band and IF IQ signals supporting basic modulation and an arbitrary symbol rate between 250 Symb/s ~ 37.5 MSymb/s. Supports popular modulation types including 2ASK, 4ASK, 8ASK, BPSK, QPSK, 8PSK, DBPSK, DQPSK, D8PSK, 8QAM, 16QAM, 32QAM, 64QAM, 128QAM, 256QAM, 2FSK, 4FSK, 8FSK, 16FSK, MSK, MultiTone, and custom modulation. Proprietary resampling technology provides excellent EVM performance at arbitrary symbol rates. Built-in digital quadrature modulator provides the possibility to generate IQ signals from baseband to 200 MHz intermediate frequency. Pattern support includes PN7, PN9, PN15, PN23, User file, and Custom (supported by EasyIQ software).

5. Noise Generator

Up to 200 MHz bandwidth White Gaussian Noise with adjustable bandwidth. The repetition period is more than 100 years. Wideband Gaussian noise can be easily added to other waveforms via the Waveform Combining function to simulate real-world scenarios in which the signal contains a large degree of noise.

6. PRBS Generator

Up to 160 Mbps PRBS3 ~ PRBS32 with fine bit rate (10⁻⁶ bps minimum) and edge adjustments (2 ns ~ 1 μs rise/fall times). Preset common logic levels such as TTL, LVCMOS, LVPECL, and LVDS. An added differential mode provides an easy way to generate differential signals using both channels.

Why TrueArb & EasyPulse Matter — Low-Jitter Signal Fidelity

When a square or pulse waveform is generated by traditional DDS, there can be additional jitter if the sampling rate is not an integer-related multiple of the output frequency. EasyPulse technology successfully overcomes this weakness in DDS designs and helps to produce low-jitter square / pulse waveforms with cycle-to-cycle jitter typical of 35 ps RMS. As with EasyPulse, TrueArb effectively overcomes the clock jitter that can affect traditional DDS generators when sourcing arbitrary waveforms. The commercial consequence: a customer characterizing a PLL, an SerDes channel, or a precision timing circuit can use the SDG6022X without the generator's own internal jitter contaminating the measurement of the jitter being characterized in the DUT.

Complex Signals Generation — Modulation, Sweep, Burst, and Waveform Combining

The SDG6022X supports a full suite of complex signal generation modes that extend a basic sine into the modulated and time-varying signals required for real test scenarios:

• Modulation types: AM, FM, PM, FSK, ASK, PSK, DSB-AM, PWM. The modulation source can be configured as "Internal" or "External."
• Sweep modes: "Linear" and "Log." Sweep time 1 ms to 500 s. Directions: Linear (Up, Down, Up & Down), Logarithmic (Up, Down).
• Burst modes: "N cycle" (Count 1–1,000,000 periods), Infinite, and "Gated." Both Sweep and Burst can be triggered by "Internal," "External," or "Manual" source.
• Waveform Combining: Superimposes CH1 and CH2 waveforms internally and provides the combined waveform to a user-selected output. Easily combine basic waveforms, random noise, modulation signals, sweep signals, burst signals, EasyPulse waveforms, and TrueArb waveforms.
• Channel Coupling, Copy and Tracking function — for two-channel coordination.
• Two Dual-channel Operation Modes: "Phase-Locked" mode automatically aligns the phases of each output (both DDSs reset when changing frequency, phase deviation between CH1 & 2 is maintained). "Independent" mode permits the two channels to be used as two independent generators; no DDS resets when changing frequency, phase deviation between CH1 & 2 is random. Independent mode also smooths parameter (frequency, amplitude) changes made to an active channel.

Complete Specifications — Siglent SDG6022X

All specifications apply to both channels. Unless otherwise stated, all specifications are not guaranteed unless the following conditions are met: the generator is within the valid calibration period; the generator has been working continuously for at least 30 minutes at a specified temperature (18 °C ~ 28 °C).

Frequency

Sine

Note: The specification will be divided by 2 while applied to a 50Ω load.

Pulse

Note: The specification will be divided by 2 while applied to a 50Ω load.

Square

Note: The specification will be divided by 2 while applied to a 50Ω load.

Ramp

Note: The specification will be divided by 2 while applied to a 50Ω load.

Arbitrary Wave

Note: The specification will be divided by 2 while applied to a 50Ω load.

Noise

Note: The specification will be divided by 2 while applied to a 50Ω load.

DC

IQ (optional — requires SDG-6000X-IQ)

PRBS