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USG5022V-P 22 GHz Vector RF Signal Generator with Mechanical Attenuator

USG5022V-P 22 GHz Vector RF Signal Generator with Mechanical Attenuator

$29,999.00
$29,999.00
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22 GHz vector RF signal generator with mechanical attenuator for enhanced level accuracy. Suited for automotive radar, mmWave 5G, K-band satellite, and aerospace applications.

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Overview

The USG5022V-P is a 22 GHz vector signal generator covering 9 kHz to 22 GHz with 0.001 Hz frequency resolution and a level range of −135 dBm to +25 dBm. Single-sideband phase noise typically < −122 dBc/Hz at 1 GHz / 20 kHz offset, amplitude accuracy ≤0.7 dB (Typ.), and frequency switching ≤40 ms make it suitable for both bench R&D and automated test workflows. The USG5022V-P supports full vector modulation with a 150 MHz real-time baseband bandwidth.

As a vector signal generator, the USG5022V-P adds a full real-time digital modulation engine to the analog signal-source foundation. With 150 MHz of baseband bandwidth, real-time QAM/PSK/FSK/ASK generation, ARB waveform-file playback, multi-carrier and multi-tone modes, and AWGN noise injection for receiver testing, the USG5022V-P addresses protocol-aware wireless R&D and commercial production test for 5G NR, WLAN, LTE, Bluetooth, ZigBee, and Z-Wave devices. Typical QPSK EVM is 0.4% at a 1 GHz carrier; 5G NR ACPR is typically < −55 dBc at a 3.8 GHz carrier. With the 22 GHz CW carrier ceiling, the USG5022V-P reaches commercial 5G NR FR2 IF stages, Wi-Fi 7 6 GHz unlicensed band test, and commercial automotive ADAS radar IF-chain stimulus.

Key Features

  • 9 kHz to 22 GHz CW Frequency Range — >5 MHz to 6 GHz in I/Q mode; 0.001 Hz resolution across the full band.
  • −135 dBm to +25 dBm Level Range — 160 dB dynamic range with 0.01 dB resolution and ≤0.7 dB amplitude accuracy typical.
  • Phase Noise < −122 dBc/Hz at 1 GHz — single-sideband phase noise typical at 20 kHz offset for sensitive vector measurement.
  • Mechanical Step Attenuator Standard — 0 to 110 dB range with 10 dB steps; mechanical attenuator delivers maximum absolute output power across all bands.
  • Vector Modulation Accuracy — QPSK EVM 0.4% at 1 GHz typical; 5G NR ACPR < −55 dBc at 3.8 GHz typical.
  • 150 MHz Real-Time Baseband Bandwidth — internal vector engine covers wideband modulation envelopes including Wi-Fi 6/7 channel widths.
  • Real-Time Digital Modulation — QAM, PSK, FSK, ASK with custom filter shapes (RRC, Gaussian, user-defined) and filling settings.
  • ARB Playback, Multi-Carrier, and Multi-Tone Modes — user-defined waveform replay with carrier-aggregated and multi-tone test signal generation.
  • Real-Time AWGN Injection — precise SNR control for receiver sensitivity and dynamic-range characterization.
  • Native ZigBee and Z-Wave IoT Generation — protocol-aware signal generation for IoT module test and incoming inspection.
  • Mobile-Comm Protocol Simulation — 5G NR, WLAN, LTE, Bluetooth, IoT waveform support with UNI-T SignalStudio software (sold separately).
  • AM, FM, and ΦM Analog Modulation — internal, external, or internal + external sources alongside the digital engine.
  • OCXO High-Stability Clock Source Standard — ≤±0.2 ppm/year aging, ≤±10 ppb temperature effects.
  • Built-in 50 MHz Function/Arbitrary Waveform Generator — standard waveforms, sweep, and modulation from a separate LF output.
  • NMD 2.92 mm RF Output Connector — 50 Ω 40 GHz-capable connector for full-band cable compatibility.
  • 5-Inch Touch Screen with Signal-Flow Interface — full touch control with intuitive signal-flow-diagram interaction.
  • LAN, USB Host, USB Device Standard — GPIB optional; full SCPI automation via LabVIEW, Python, MATLAB, Excel.
  • Web Control + Device Manager — browser-based remote access plus free PC management software (V2.5.0+).
  • Optional Pulse Modulation — 80 dB on-off ratio with customizable pulse trains.
  • Optional Narrow-Pulse Generator — 40 ns minimum width with 10 ns resolution for radar component test.
  • Optional USB Power Sensor Support (USG5000-PK) — license-activated readback and flatness correction with a user-supplied USB power sensor.
  • CE | cETLus | RoHS Compliant — meets common North American and European safety and environmental standards.

Detailed Features

High Spectral Purity for Sensitive Receiver and Component Test

Single-sideband phase noise typically below −122 dBc/Hz at 1 GHz with a 20 kHz offset is the headline spectral-purity figure that determines whether a generator can stimulate the device under test without contaminating the measurement. Low close-in phase noise matters for adjacent-channel rejection testing on receivers, image-rejection on mixers, and narrowband filter characterization where the stimulus must be cleaner than the device's own passband behavior. Phase noise degrades with the band multiplier (N) architecture: typically −102 dBc/Hz at 10 GHz and −98 dBc/Hz at 22 GHz.

The clock-source architecture supports ≤±0.2 ppm/year aging rate and ≤±10 ppb temperature effects — stable enough for calibration-cycle use without external 10 MHz lock. Rear-panel 10 MHz reference input and output are available for multi-instrument synchronization.

Phase noise measurement plot for USG5000-series RF generator
Single-sideband phase noise typical < -122 dBc/Hz at 1 GHz
× Phase noise measurement plot for USG5000-series RF generator Single-sideband phase noise typical < -122 dBc/Hz at 1 GHz
USG5000V vector modulation display
QPSK EVM 0.4% at 1 GHz, 5G NR ACPR <-55 dBc at 3.8 GHz (Typ.)
× USG5000V vector modulation display QPSK EVM 0.4% at 1 GHz, 5G NR ACPR <-55 dBc at 3.8 GHz (Typ.)

Real-Time Vector Modulation with 150 MHz Baseband Bandwidth

The internal vector engine provides 150 MHz of real-time baseband bandwidth and generates real-time QAM, PSK, FSK, and ASK modulation with configurable filter shapes (RRC, Gaussian, custom) and user-defined custom modulation types with adjustable filling settings. With QPSK at a 1 GHz carrier, measured EVM is 0.4% typical — calibration-grade. For 5G NR at 3.8 GHz, ACPR is < −55 dBc typical, so the instrument's own spectral regrowth doesn't dominate measurements on 5G receiver and transmitter validation work.

USG5000V front panel showing level control
160 dB output range with three ALC modes
× USG5000V front panel showing level control 160 dB output range with three ALC modes

Wide Output Range — +25 dBm Maximum, −135 dBm Minimum

Output settable range is −135 dBm to +25 dBm with 0.01 dB resolution. Maximum output power varies by frequency band and attenuator type; the mechanical attenuator on this variant covers 0 to 110 dB in 10 dB steps.

Three ALC (Automatic Level Control) modes are available: ALC Auto selects the optimum mode for the current operating state; ALC On runs closed-loop level control for CW, FM, and ΦM operation; ALC S&H (Off) freezes the closed-loop value on frequency or amplitude transitions, useful for AM and pulse modulation work where ALC interaction with the modulation envelope is undesirable.

USG5000V ARB and multi-carrier mode displays
ARB playback with multi-carrier and multi-tone modes
× USG5000V ARB and multi-carrier mode displays ARB playback with multi-carrier and multi-tone modes

ARB Playback, Multi-Carrier, and Multi-Tone Modes

ARB playback mode plays back user-defined arbitrary waveform data at variable sampling rates with baseband preview in both time and frequency domains. ARB multi-carrier mode splits wideband signals into multiple narrowband subcarriers, each independently modulated — simplifying carrier-aggregated LTE/5G NR signals and multi-channel interference environments without external combiners. Multi-tone mode generates multiple frequency components simultaneously for intermodulation distortion testing and multi-channel receiver characterization.

Real-Time AWGN Injection for Receiver Sensitivity Testing

The instrument provides pure-noise output and real-time additive white Gaussian noise injection with precise signal-to-noise power control — no separate noise measurement step required before each test. For receiver sensitivity verification, blocking and selectivity testing, and dynamic-range characterization, AWGN injection is the workhorse stimulus. Controlling SNR digitally inside the same instrument that generates the modulated signal removes a measurement-uncertainty drift source on long-running production sequences.

USG5000V AWGN spectrum display
Real-time AWGN injection with precise SNR control
× USG5000V AWGN spectrum display Real-time AWGN injection with precise SNR control
USG5000V SignalStudio software upper-computer interface
Native ZigBee, Z-Wave + 5G NR/WLAN/LTE/Bluetooth via SignalStudio
× USG5000V SignalStudio software upper-computer interface Native ZigBee, Z-Wave + 5G NR/WLAN/LTE/Bluetooth via SignalStudio

IoT and Mobile Communication Protocol Generation

Native ZigBee and Z-Wave signal generation is built into the instrument's vector engine with flexible modulation parameter settings per protocol — eliminating third-party IoT signal source dependencies for incoming inspection, R&D prototyping, and production-line stimulus. For 5G NR, WLAN, LTE, and Bluetooth waveforms, the instrument pairs with UNI-T's SignalStudio software (sold separately) for protocol-compliant signal simulation across commercial wireless-device R&D and compliance pre-screen.

Optional Pulse and Narrow-Pulse Generation

The optional pulse modulation package adds an on-off ratio of up to 80 dB with customizable pulse-train definitions, enabling single-instrument pulsed RF for radar component test, time-gated stimulus, and EMC pulsed-emission work. The narrow-pulse generator option extends capability to a 40 ns minimum width with 10 ns resolution, addressing test requirements of millimeter-wave radar components used in commercial automotive ADAS suppliers and short-range industrial radar systems.

USG5000V pulse modulation output waveform
Pulse modulation with 80 dB on-off ratio and narrow-pulse generation
× USG5000V pulse modulation output waveform Pulse modulation with 80 dB on-off ratio and narrow-pulse generation

USB Power Sensor Support — Flatness Correction at the DUT Plane (Option USG5000-PK)

The optional USG5000-PK software license enables the instrument to read and display power measurements from a user-supplied USB power sensor connected to the front-panel USB Host port. The license is delivered as a file that installs from a USB stick via the instrument's Option Install menu, following the same activation workflow as the Pulse Modulation and GPIB options. A USB power sensor is not included; the user supplies a compatible sensor.

Once activated, the Power Sensor menu provides measurement frequency entry, frequency coupling to the current RF carrier (with multiplier and offset for harmonic and IF-shifted measurements), measurement averaging, and amplitude offset entry — the standard tools for flatness correction and cable-loss compensation at the DUT plane. The amplitude offset entry is particularly useful when the signal path between the generator and the device under test includes cables, attenuators, or amplifiers: the displayed power reflects what the DUT actually sees, not what leaves the generator's output connector.

USG5000V USB power sensor measurement and path-loss compensation
License-activated USB power sensor support — user supplies sensor
× USG5000V USB power sensor measurement and path-loss compensation License-activated USB power sensor support — user supplies sensor

5-Inch Touch UI with Signal-Flow Interface

A 5.0-inch high-resolution touch screen provides full touch control over every function except the power switch. The interface is built around a signal-flow diagram — the user sees modulation source, modulation type, sweep mode, and RF carrier as a connected chain rather than as scattered menu items. For an instrument with this much configurable surface area (multiple modulation paths, multiple sweep modes, multiple digital protocols, ARB and multi-carrier work, optional pulse and power-sensor options), the signal-flow paradigm meaningfully cuts setup time on R&D benches where the test configuration changes hour-to-hour.

USG5000V touch UI with flat signal-flow interface
5-inch touch screen with signal-flow-guided interface
× USG5000V touch UI with flat signal-flow interface 5-inch touch screen with signal-flow-guided interface
USG5000V computer interface and automation
LAN, USB, optional GPIB with SCPI, Web Control, and Device Manager
× USG5000V computer interface and automation LAN, USB, optional GPIB with SCPI, Web Control, and Device Manager

Full Automation — SCPI, Web Control, Device Manager

LAN, USB Host, and USB Device are standard rear-panel interfaces; GPIB is optional. All ports speak the standard SCPI command set, enabling remote operation from any automation-capable host. Test engineers commonly drive the instrument from LabVIEW, Python, MATLAB, or even Excel macros for batch command execution.

Web Control provides browser-based remote access — point a PC or mobile browser at the instrument's IP address and the full front-panel UI is available remotely, with no client install. Device Manager (UNI-T's free PC software, V2.5.0 and higher) manages the instrument via LAN (VXI-11, Socket), USB Device (USB-TMC), or GPIB, and handles batch instrument inventories on a multi-station test floor.

Detailed Specifications

Frequency range (CW mode) 9 kHz to 22 GHz (CW mode)
Frequency range (I/Q mode) >5 MHz to 6 GHz (I/Q mode)
Frequency resolution 0.001 Hz
Phase offset step 0.1°
Frequency switching speed ≤40 ms (SCPI / list / step sweep)
Level settable range -135 dBm to +25 dBm
Level resolution 0.01 dB
Amplitude accuracy (Typ.) ≤0.7 dB
Attenuator type Mechanical step attenuator standard (0 to 110 dB, 10 dB steps)
Phase noise (Typ., 20 kHz offset) <-122 dBc/Hz @ 1 GHz, 20 kHz offset
Oscillator aging rate ≤ ±0.2 ppm/year
Temperature effects ≤ ±10 ppb
Initial calibration accuracy ≤ ±40 ppb
Analog modulation AM, FM, ΦM (internal / external / internal+external)
Digital modulation QAM, PSK, FSK, ASK (real-time digital standard formats; custom modulation supported)
Baseband bandwidth 150 MHz real-time baseband bandwidth
Vector modulation EVM (Typ.) QPSK EVM 0.4% at 1 GHz carrier (Typ.)
5G NR ACPR (Typ.) 5G NR ACPR <-55 dBc at 3.8 GHz carrier (Typ.)
ARB modes ARB playback, ARB multi-carrier, multi-tone
Noise injection AWGN (additive white Gaussian noise) for receiver testing
IoT protocols (native) ZigBee, Z-Wave (IoT signal generation and playback)
Mobile-comm protocol simulation 5G NR, WLAN, LTE, Bluetooth, IoT (with SignalStudio software, sold separately)
Pulse modulation (option) 80 dB on-off ratio, customizable pulse trains
Narrow pulse (option) Min width / resolution: 40 ns / 10 ns
USB power sensor (option USG5000-PK) License-activated; flatness correction with user-supplied USB power sensor
Sweep modes Step sweep, list sweep (frequency, amplitude)
Step sweep points 2 to 65535
List sweep points 1 to 500
Dwell time 100 μs to 100 s
Built-in AWG 50 MHz function / arbitrary waveform generator
Reference (10 MHz) 10 MHz (in/out, 50 Ω)
RF output connector NMD 2.92 (50 Ω) — supports DC to 40 GHz with 2.92 mm-compatible cabling
Display 5.0-inch touch screen, signal-flow-guided interface
Standard interfaces LAN, USB Host, USB Device (GPIB optional)
Remote control SCPI, Web Control (browser), Device Manager (PC software, V2.5.0+)
Certifications CE | cETLus
RoHS Compliant

Specifications subject to change without notice. "Typ." values represent typical performance and are not warranted.

Applications

Protocol-Aware Wireless Device Development

  • Flagship 22 GHz Wireless and IF-Stage R&D — 22 GHz CW coverage with full vector modulation in the I/Q band (>5 MHz to 6 GHz) — addresses 5G NR FR2 IF stages, Wi-Fi 7 6 GHz unlicensed band, and commercial automotive radar IF chains with mechanical-attenuator output headroom.
  • QAM, PSK, FSK, ASK Real-Time Digital Modulation — Custom filter shapes (RRC, Gaussian, user-defined) for protocol-specific test signal generation.
  • ARB Multi-Carrier Mode — Carrier-aggregated LTE / 5G NR test signals without external combiners.
  • AWGN Injection — Real-time noise injection for receiver sensitivity and dynamic-range characterization.

Commercial Production Test and Calibration Labs

  • 22 GHz Cal Lab and Spec Verification — Mechanical attenuator and 22 GHz CW range with full vector modulation in the baseband band — covers vector signal analyzer and signal generator commercial calibration work.
  • Calibration-Grade Vector Modulation Accuracy — QPSK EVM 0.4% typical at 1 GHz supports commercial cal-lab spec verification.
  • USB Power Sensor Integration — Optional USG5000-PK license activates flatness correction at the DUT plane with a user-supplied USB power sensor.
  • OCXO Clock Source Standard — ≤±0.2 ppm/year aging suits calibration-cycle scheduling.

IoT Device R&D and Compliance Pre-Screen

  • Flagship IoT and Industrial Wireless Test — 22 GHz coverage with mechanical attenuator, vector modulation, AWGN injection, and built-in IoT protocol generation in one chassis — suited to next-generation industrial wireless and commercial compliance pre-screen.
  • Native ZigBee and Z-Wave Generation — Flexible modulation parameter control (modulation count, modulation method) per protocol.
  • SignalStudio Protocol Simulation — 5G NR / WLAN / LTE / Bluetooth waveform support via UNI-T SignalStudio software (sold separately).
  • Multi-Tone Mode — IoT mesh-network coexistence and interference testing.

Accessories & In the Box

Included

  • USG5022V-P RF signal generator
  • AC power cord (region-specific)
  • USB data cable (UT-D14)
  • Quick start guide and certificate of conformity

Recommended Accessories

  • USG5000-PM — Pulse modulation option (license-activated; 80 dB on-off ratio, customizable pulse trains).
  • USG5000-PG — Narrow-pulse generator option (license-activated; 40 ns minimum width, 10 ns resolution).
  • USG5000-PK — USB power sensor support option (license-activated; user supplies a compatible USB power sensor).
  • USG5000-GPIB — GPIB interface option (license-activated; activates the rear-panel GPIB port for legacy automation systems).
  • SignalStudio + waveform licenses — UNI-T SignalStudio software (sold separately) with optional waveform-playback license packages: BT (Bluetooth), OFDM (custom OFDM), DM (custom digital modulation), VIOT (extended IoT).
  • 2.92 mm cables and adapters — UT-W03-40GHz-2.92J RF cable, UT-C04-40GHz 2.92-KKG connector, UT-CK02 (2 × UT-C04-40GHz 2.92-KKG connectors), UT-C03-18GHz RF adapter SMA-N.

Family Members

  • USG5014M — 14 GHz analog, electronic attenuator.
  • USG5014M-P — 14 GHz analog, mechanical attenuator.
  • USG5022M-P — 22 GHz analog flagship, mechanical attenuator.
  • USG5014V — 14 GHz vector, electronic attenuator.
  • USG5014V-P — 14 GHz vector, mechanical attenuator.

Frequently Asked Questions

What is the difference between the V-series and the M-series?

The M-series is an analog RF signal generator (AM, FM, ΦM with optional pulse and narrow-pulse modulation) suited to amplifier and filter R&D, receiver calibration, and pulsed-RF component test. The V-series adds a full real-time digital modulation engine on the same analog foundation: 150 MHz baseband bandwidth, QAM/PSK/FSK/ASK, ARB playback with multi-carrier, AWGN injection, and native ZigBee/Z-Wave IoT generation. SignalStudio software (sold separately) extends V-series coverage to 5G NR/WLAN/LTE/Bluetooth. M addresses component-level stimulus; V addresses protocol-aware wireless device development.

Is there a non-−P 22 GHz variant of the USG5022V-P?

No. At 22 GHz the USG5022V-P is offered only with the mechanical step attenuator standard — UNI-T does not produce an electronic-attenuator 22 GHz variant. The mechanical attenuator delivers maximum absolute output power across the full 22 GHz band, the typical requirement for Ku-band and K-band component and receiver test. For high-cycle automation at lower bands, the 14 GHz USG5014V with electronic attenuator standard or the USG5014V-P with mechanical attenuator are the options.

What automation interfaces are standard?

LAN, USB Host, and USB Device are standard rear-panel interfaces. GPIB is optional. All ports support the standard SCPI command set, so the instrument drops into any existing automated test station (LabVIEW, Python, MATLAB, Excel) without protocol translation. Web Control provides browser-based remote access via the instrument's IP address — no client install required, works from PC and mobile. UNI-T's free Device Manager PC software (V2.5.0 and higher) handles batch instrument inventories via LAN (VXI-11, Socket), USB Device (USB-TMC), or GPIB.

What does the USG5000-PK power sensor option provide?

USG5000-PK is a software license that activates USB power sensor support. The user connects a compatible USB-TMC power sensor (sold separately) to the front-panel USB Host port; the instrument displays power measurements on its own screen with menu controls for measurement frequency, frequency coupling (multiplier + offset), amplitude offset for path-loss compensation, and averaging. The primary use case is flatness correction and cable-loss compensation at the DUT plane. License is activated via UNI-T's standard option-install workflow.

Warranty

This instrument is backed by UNI-T's 3+2 Year Warranty — 3 years of standard coverage, plus 2 additional years free when you register your product. That's 5 years of total protection at no extra cost.

The warranty covers manufacturing defects and component failures under normal use conditions. UNI-T instruments are built for professional daily use, and our warranty reflects that commitment to long-term reliability.