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The AWG5200 Series arbitrary waveform generator (AWG) leads the way in signal generation by enabling bleeding-edge innovation for engineers and researchers. The AWG5200 Series of AWGs delivers unparalleled signal fidelity coupled with class-leading sample rate and memory depth, giving you the industry’s best signal stimulus solution for complex RF baseband signal generation and precision experimental applications. With up to 5 GS/s sample rate (10 GS/s with interpolation) and 16-bit vertical resolution, the AWG5200 Series offers easy generation of complex signals as well as accurate playback of existing captured signals.
Up to 2 GSamples of Waveform Memory plays 400 ms of data at 5 GS/s and 800 ms of data at 2.5 GS/s
Synchronize multiple units to achieve a multi-channel high speed AWG system
Waveforms captured with Oscilloscopes or Real-Time Spectrum Analyzers can be played back, edited or re-sampled on the AWG
Output RF signals directly up to 4 GHz
If a waveform can be defined or captured, then the AWG5200 can reproduce this signal. The creation of the waveform can happen in many ways. An extensive and growing library of waveform generation plugins which are optimized to work specifically with the Tektronix AWG family, provide specific waveform creation capabilities, while 3rd party solutions like MATLAB, Excel, or others, have the flexibility to create and import any waveform you desire. Waveforms created in any of these packages can be imported and played back in the AWG5200, seamlessly transitioning from the simulation world to the real world.
The new SourceXpress platform brings all of your AWG instrument control and waveform generation capabilities to your Microsoft® Windows PC. Load waveforms, create sequences, and enable playback without ever having to touch an AWG. All waveform creation plug-ins run natively on the SourceXpress platform, allowing you to quickly iterate through test signals without having to set foot in the lab.
RF signals are becoming more and more complex, making it difficult for RF engineers to accurately create the signals required for conformance and margin testing. When combined with the RF Generic waveform creation plug-in, the AWG5200 Series can address these tough design challenges. The RF Generic plug-in is a software package that digitally synthesizes modulated baseband, IF, and RF signals taking signal generation to new levels by fully exploiting the advanced signal generation capabilities of the AWG5200 Series arbitrary waveform generators.
Reducing the size and cost for telecommunication and military systems is driving the evolution of modern DAC’s to integrate more functionality into a single chip. Some of the more advanced high-speed DAC’s also incorporate digital signal processing and conditioning functionalities such as digital interpolation, complex modulation, and numerically controlled oscillators (NCO). This enables direct generation of complex RF signals in an efficient and compact way.
The Tektronix AWG5200 series features a digital complex modulator and multi-rate interpolation. With this internal IQ modulation feature, you remove the IQ mismatches that are attributed to external modulators and mixers. Also with this modulator, there is no in-band carrier feed-through, and there are no images. With its built in interpolators, it also affords the ability to create waveforms most efficiently reducing waveform size and compilation times as well as extending playback time.
With the AWG5200 DAC there are several modes that enable you to output your signal at the cleanest portion of the DAC BW and frequency roll off positions.
The mission-critical nature of many radar signals requires that they coexist with standards-based commercial signals sharing the same spectrum without performance degradation. To meet this expectation, a radar designer has to thoroughly test all the corner cases at the design/debug stage. The AWG5200 offers the extreme flexibility and precision needed to play back these worst-case scenarios.
All specifications are typical unless noted otherwise. All specifications apply to all models unless noted otherwise.
USB 2.0 compliant ports (2 front)
USB 3.0 compliant Host ports (4 rear)
USB 3.0 compliant Device port (1 rear)
RJ-45 Ethernet connector (rear panel) supports 10/100/1000BASE-T
VGA video (rear panel) for external monitor
eSATA (rear panel)
IVI-C driver
25 mVp-p to 0.75 Vp-p (single ended, 50 Ω terminated)
50 mVp-p to 1.5 Vp-p (differential mode, 100 Ω terminated)
±2% of setting ≥ 100 mVp-p
±5% of setting < 100 mVp-p
±(2% of |offset| + 10 mV); into 50 Ω to Gnd. (Common mode, guaranteed.)
±25 mV; into 100 Ω differential. (Differential mode.)
At 750 mVp-p: DC to 2 GHz (3 dB), DC to 4 GHz (6 dB)
Rise/fall time measured at 20% to 80% levels.
< 115 ps at 750 mVp-p single-ended termination
25 mVp-p to 1.5 Vp-p (single ended, 50 Ω terminated)
50 mVp-p to 3.0 Vp-p (differential mode, 100 Ω terminated)
±2% of setting ≥ 100 mVp-p
±5% of setting < 100 mVp-p
±(2% of |offset| + 10 mV); into 50 Ω to Gnd. (Common mode, guaranteed.)
±25 mV; into 100 Ω differential. (Differential mode.)
At 750 mVp-p: DC to 2 GHz (3 dB), DC to 4 GHz (6 dB)
At 1.5 Vp-p: DC to 1.3 GHz (3 dB)
Rise/fall time measured at 20% to 80% levels.
< 180 ps at 1.5 Vp-p single-ended
10 mVp-p to 5.0 Vp-p (single ended, 50 Ω terminated)
20 mVp-p to 10.0 Vp-p (differential mode, 100 Ω terminated)
±2% of amplitude ≥ 160 mVp-p
±5% of amplitude < 160 mVp-p
±(2% of |offset| + 1% of amplitude + 20 mV). (50 Ω-to-Gnd) (Common mode guaranteed.)
± 88 mV; into 100 Ω. (Differential mode.)
Rise/fall time measured at 20% to 80% levels.
< 1.3 ns, at 5 Vp-p single-ended.
< 1.1 ns, at 4 Vp-p single-ended.
< 0.8 ns, at 3 Vp-p single-ended.
< 0.6 ns, at 2 Vp-p single-ended.
±0.5 dBm at 100 MHz
-85 dBm to +10 dBm (10 MHz to 3.5 GHz)
-50 dBm to +10 dBm (>3.5 GHz to 5 GHz)
±0.5 dBm at 100 MHz
Output path | Specification |
---|---|
DC High Bandwidth (including DCHB Amplified option) |
DC to 1 GHz < 1.25:1 1 GHz to 3 GHz < 1.9:1 3 GHz to 4 GHz < 2.3:1 |
DC High Voltage |
DC to 400 MHz < 1.6:1 400 MHz to 1 GHz < 1.75:1 1 GHz to 2 GHz < 2.3:1 |
AC Direct |
10 MHz to 300 MHz < 2.0:1 300 MHz to 1.4 GHz < 1.6:1 1.4 GHz to 3 GHz < 2.2:1 3 GHz to 4 GHz < 2.5:1 |
AC Amplified, +3 dBm |
10 MHz to 500 MHz < 2.4:1 500 MHz to 1.5 GHz < 1.75:1 1.5 GHz to 4 GHz < 1.9:1 |
1.25 Gb/s at 5 GS/s
±25 ps
SFDR is determined as a function of the directly generated carrier frequency.
Harmonics not included. Measured with a balun and with output amplitude set to 500 mV.
500 mVpp
2.5 GS/s | In band performance | Adjacent band performance | |||
---|---|---|---|---|---|
Analog channel output frequency | Measured across | Specification | Measured across | Specification | |
100 MHz | 10 to <1250 MHz | –80 dBc | – | – | |
10 to <155 MHz | 10 to <1250 MHz | –80 dBc | – | – | |
155 to <1000 MHz | 10 to <1000 MHz | –53 dBc | 1000 to <1250 MHz | –60 dBc | |
1000 to <1250 MHz | 1000 to <1250 MHz | –50 dBc | 10 to <1000 MHz | –50 dBc |
5 GS/s | In band performance | Adjacent band performance | |||
---|---|---|---|---|---|
Analog channel output frequency | Measured across | Specification | Measured across | Specification | |
100 MHz | 10 to <1250 MHz | –80 dBc | 1250 to <2500 MHz | –75 dBc | |
10 to <310 MHz | 10 to <1250 MHz | –80 dBc | 1250 to <2500 MHz | –70 dBc | |
310 to <1250 MHz | 10 to <1250 MHz | –67 dBc | 1250 to <2500 MHz | –64 dBc | |
1250 to <2000 MHz | 1250 to <2000 MHz | –53 dBc | 10 to <1250 MHz | –38 dBc | |
– | – | 2000 to <2500 MHz | –58 dBc | ||
2000 to <2500 MHz | 2000 to <2500 MHz | –33 dBc | 10 to <2000 MHz | –31 dBc |
10 GS/s | In band performance | Adjacent band performance | |||
---|---|---|---|---|---|
Analog channel output frequency | Measured across | Specification | Measured across | Specification | |
100 MHz | 10 to <1250 MHz | –80 dBc | 1250 to <5000 MHz | –69 dBc | |
10 to <625 MHz | 10 to <1250 MHz | –74 dBc | 1250 to <5000 MHz | –63 dBc | |
625 to <1250 MHz | 10 to <1250 MHz | –69 dBc | 1250 to <5000 MHz | –59 dBc | |
1250 to <2000 MHz | 1250 to <2000 MHz | –63 dBc | 10 to <1250 MHz | –60 dBc | |
– | – | 2000 to <5000 MHz | –54 dBc | ||
2000 to <3500 MHz | 2000 to <3500 MHz | –50 dBc | 10 to <2000 MHz | –47 dBc | |
– | – | 3500 to <5000 MHz | –50 dBc | ||
3500 to <4000 MHz | 3500 to <4000 MHz | –53 dBc | 10 to <3500 MHz | –43 dBc | |
– | – | 4000 to <5000 MHz | –54 dBc |
–5.0 dBm. Harmonics not included. Measured at the maximum output amplitude.
2.5 GS/s | In band performance | Adjacent band performance | |||
---|---|---|---|---|---|
Analog channel output frequency | Measured across | Specification | Measured across | Specification | |
100 MHz | 10 to <1250 MHz | –80 dBc | – | – | |
10 to <155 MHz | 10 to <1250 MHz | –80 dBc | – | – | |
155 to <1000 MHz | 10 to <1000 MHz | –62 dBc | 1000 to <1250 MHz | –66 dBc | |
1000 to <1250 MHz | 1000 to <1250 MHz | –60 dBc | 10 to <1000 MHz | –62 dBc |
5 GS/s | In band performance | Adjacent band performance | |||
---|---|---|---|---|---|
Analog channel output frequency | Measured across | Specification | Measured across | Specification | |
100 MHz | 10 to <1250 MHz | –80 dBc | 1250 to <2500 MHz | –75 dBc | |
10 to <310 MHz | 10 to <1250 MHz | –80 dBc | 1250 to <2500 MHz | –70 dBc | |
310 to <1250 MHz | 10 to <1250 MHz | –67 dBc | 1250 to <2500 MHz | –60 dBc | |
1250 to <2000 MHz | 1250 to <2000 MHz | –58 dBc | 10 to <1250 MHz | –55 dBc | |
– | – | 2000 to <2500 MHz | –60 dBc | ||
2000 to <2500 MHz | 2000 to <2500 MHz | –62 dBc | 10 to <2000 MHz | –51 dBc |
10 GS/s | In band performance | Adjacent band performance | |||
---|---|---|---|---|---|
Analog channel output frequency | Measured across | Specification | Measured across | Specification | |
100 MHz | 10 to <1250 MHz | –80 dBc | 1250 to <5000 MHz | –64 dBc | |
10 to <625 MHz | 10 to <1250 MHz | –78 dBc | 1250 to <5000 MHz | –59 dBc | |
625 to <1250 MHz | 10 to <1250 MHz | –71 dBc | 1250 to <5000 MHz | –57 dBc | |
1250 to <2000 MHz | 1250 to <2000 MHz | –67 dBc | 10 to <1250 MHz | –60 dBc | |
– | – | 2000 to <5000 MHz | –55 dBc | ||
2000 to <3500 MHz | 2000 to <3500 MHz | –52 dBc | 10 to <2000 MHz | –48 dBc | |
– | – | 3500 to <5000 MHz | –56 dBc | ||
3500 to <4000 MHz | 3500 to <4000 MHz | –55 dBc | 10 to <3000 MHz | –41 dBc | |
– | – | 4000 to <5000 MHz | –58 dBc |
50 Ω: <5 Vrms
1 kΩ: ±10 V
Range | -5.0 V to 5.0 V |
Resolution | 0.1 V |
Accuracy | ±(5% +100 mV) |
Synchronous | 8275 / fclk + 30 ns ±20 ns |
Synchronous mode |
50 Ω or 1 kΩ |
Frame synchronized |
< 100 ps peak-to-peak |
2432/FCLK + 20 ns
506.4 ns at 5 GS/s
992.8 ns at 2.5 GS/s
AWG5204: 4
AWG5208: 8
High 2.0 V into 50 Ω
Low 0.7 V when sinking 10 mA
AWG5204: Total of 16 (4 per channel)
AWG5208: Total of 32 (4 per channel)
Amplitude: 200 mV to 1.75 V
Resolution: 100 μV
Pin | Pin | Pin | |||
---|---|---|---|---|---|
1 | GND | 6 | GND | 11 | Jump bit 5, input |
2 | Jump bit 0, input | 7 | Strobe, input | 12 | Jump bit 6, input |
3 | Jump bit 1, input | 8 | GND | 13 | Jump bit 7, input |
4 | Jump bit 2, input | 9 | GND | 14 | GND |
5 | Jump bit 3, input | 10 | Jump bit 4, input | 15 | GND |
3.3 V LVC
5 V TTL compliant
Setup: 20 ns
Hold: 20 ns
.AWGX file created by Tektronix AWG5200/70000 Series
.AWG file created by Tektronix AWG5000 or AWG7000 Series
.PAT and *.WFM file formats created by Tektronix AWG400/500/600/700 Series
.IQT file format created by Tektronix RSA3000 Series
.TIQ file format created by Tektronix RSA6000/5000 Series or MDO4000 Series
.WFM or *.ISF file formats created by Tektronix TDS/DPO/MSO/DSA Series
.TXT file format
.MAT Matlab file format
.SEQX file format created by Tektronix AWG5200 Series
.SEQ file format created by the Tektronix AWG400/500/600/700 Series
.TMP or .PRM file formats; Midas Blue (Data Type 1000/1001; Scalar and complex data; 8-,16-, 32-, and 64-bit integer and 32- and 64-bit float data format types)
.WFM file format, AWG400/500/600/700 waveform file
.TIQ file format, RSA6000 IQ Pair
.TXT file format
5% to 90% relative humidity (% RH) at up to 30 °C
5% to 45% relative humidity above 30 °C up to 50 °C
Non-condensing
5% to 90% relative humidity (% RH) at up to 30 °C
5% to 45% relative humidity above 30 °C up to 60 °C
Non-condensing
Up to 3,000 meters (9,843 feet)
Derate maximum operating temperature by 1 °C per 300 meters above 1500 meters.
Europe | Australia/New Zealand |
EN61326 | AS/NZS 2064 |
AWG5202 16 bit, 2 GSamples/channel record length, 2-channel arbitrary waveform generator
AWG5204 16 bit, 2 GSamples/channel record length, 4-channel arbitrary waveform generator
AWG5208 16 bit, 2 GSamples/channel record length, 8-channel arbitrary waveform generator
AWG5200-825 2.5 GS/s
AWG5200-850 5 GS/s (10 GS/s interpolated)
Specify power cord and language option at time of order
Item | Description | Part number |
---|---|---|
GPIB to Ethernet Instrument Interface | GPIB to USB Adapter enables GPIB control through USB B port | ICS Model 4865B |
Power Splitters | 1.5 kHz – 18 GHz | Mini-Circuits ZX10-2-183-S+ |
DC-18 GHz | Varies | |
Amplifiers | 2.5 kHz – 10 GHz, 26 dB gain | Varies |
0.01 – 20 GHz, 30 dB gain | RF-Lambda RAMP00G20GA | |
Adapter | SMB female to SMA female | Mouser 565-72979 |
Pelican case | Hard transit case for AWG5200 series, AWG70000 series | 016-2127-00 |
Programmer manual | Programming commands, English only | Visit Tektronix website |
Plug-ins increase the capabilities of the arbitrary waveform generators. Various plug-ins are available providing unique types of waveforms or additional compensation. Each plug-in has its own installation file which installs seamlessly into the generators. After installation, it simply becomes a new menu selection. No other configuration is necessary.
Plug-in | Description | Nomenclature | Licensed enhancements |
---|---|---|---|
Multitone & Chirp plug-in | Create chirps, notches, and tones | MTONENL-SS01
MTONEFL-SS01 |
|
PreCompensation plug-in | Create correction coefficients that can be applied on waveforms to get flat frequency and linear phase response | PRECOMNL-SS01
PRECOMFL-SS01 |
|
High Speed Serial plug-in | Create pre-distorted waveforms to test a device’s conformance to standards | HSSNL-SS01
HSSFL-SS01 |
S-Parameters and Intersymbol Interference unlocked with S-Parameters plug-in license |
RF Generic plug-in | Create digitally modulated signals with multiple carrier groups | RFGENNL-SS01
RFGENFL-SS01 |
S-Parameters unlocked with S-Parameters plug-in license |
Optical plug-in | Create waveforms with complex modulation schemes for optical testing | OPTICALNL-SS01
OPTICALFL-SS01 |
S-Parameters unlocked with S-Parameters plug-in license
Spread Spectrum Clocking unlocked with Spread Spectrum Clocking plug-in license |
OFDM plug-in | Create Single or Multiple OFDM based Frames with one or more bursts | OFDMNL-SS01
OFDMFL-SS01 |
S-Parameters unlocked with S-Parameters plug-in license |
RADAR plug-in | Create RADAR pulsed waveforms with various modulations and impairments | RADARNL-SS01
RADARFL-SS01 |
S-Parameters unlocked with S-Parameters plug-in license |
Environment plug-in | Create real world scenarios for commercial, electronic warfare, and simulations for monitoring and receiver testing | ENVNL-SS01
ENVFL-SS01 |
|
Spread Spectrum Clocking plug-in | Adds SSC capability to the High Speed Serial and Optical plug-ins | SSCFLNL-SS01
SSCFLFL-SS01 |
|
S-Parameters plug-in | Adds S-Parameter capability to the RF Generic, High Speed Serial, Optical, OFDM, and RADAR plug-ins | SPARANL-SS01
SPARAFL-SS01 |
|
Pattern Generator, Pulse, & LVDS Video Signal Generator plug-ins | Free web download |
Plug-ins require the purchase of a license before they are fully functional.
There are two types of licenses available for each plug-in: node-locked (NL) and floating (FL).
Node Locked Licenses (NL) provide your own copy of the application on your instrument and are permanently assigned to a product model/serial number.
Floating Licenses (FL) can be moved between product models.