Arbitrary Waveform Generators

AWG5000 Series Data Sheet

The AWG5000 Series of arbitrary waveform generators offers the industry's best solution to the challenging signal stimulus issues faced by designers who need to verify, characterize, and debug sophisticated electronic designs.

With an excellent dynamic range over all modulation bandwidths, the AWG5000 Series models provide a 14-bit DAC, sample rates up to 1.2 GS/s, 2 to 4 output channels, synchronized 4 to 8 digital marker outputs, and 28 channels of digital data outputs. These instruments easily solve the toughest measurement challenges in wireless communications, defense electronics, digital consumer product design, data conversion equipment, test system synchronization, and semiconductor design and test.

The open windows (Windows 7) based instruments are easy, convenient to use, and connect with peripherals and other third-party software.

Notice to EU customers

This product is not updated to comply with the RoHS 2 Directive 2011/65/EU and will not be shipped to the EU. Customers may be able to purchase products from inventory that were placed on the EU market prior to July 22, 2017 until supplies are depleted. Tektronix is committed to helping you with your solution needs. Please contact your local sales representative for further assistance or to determine if alternative product(s) are available. Tektronix will continue service to the end of worldwide support life.

Key performance specifications

480 MHz carrier, high dynamic range RF signals
High dynamic range IF signals with up to 180 MHz modulation bandwidth
180 MHz modulation bandwidth with -58 dBc SFDR

Key features

Only stand-alone AWG with 4 channels simplifies test setup and reduces uncertainty
RFXpress software enables quick creation of digitally modulated and radar signals
Waveform sequencing and sub-sequencing
- Enables creation of infinite waveform loops, jumps, and conditional branches
- Enhance the ability to replicate real-world signal behavior
Dynamic jump capability
- Enables the creation of complex waveforms that respond to changing external environment
2 or 4 differential/single-ended outputs provide testing flexibility
Up to 8 marker outputs ideal for system synchronization
28 digital output channels create highly precise digital signals
Deep memory enables the creation of long complex waveform sequences
Playback of signals captured on scopes and real-time spectrum analyzers allows for simulation of real-world environments
Down to 800 ps resolution edge timing shift control
8,000 steps real-time sequencing creates infinite waveform loops, jumps, and conditional branches
Easy to use and learn, shortens test time
Convenient bench-top form factor
Integrated PC supports network integration and provides a built-in DVD, removable hard drive, LAN, and USB ports

Applications

High-resolution wireless communications and defense electronics
Education and research
ADC/DAC testing
Mixed-signal design and test
Real-world, ideal, or distorted signal generation – including all the glitches, anomalies, and Impairments
System synchronization and timing control for large-scale test systems

Industry's best mixed signal stimulus solution for today's complex measurement challenges

AWG5000-Arbitrary-Waveform-Generator-Datasheet-EN_US-9-L

EVM/Constellation Measurement

The AWG5000 series delivers the optimal combination of sample rate, vertical resolution, signal fidelity, and waveform memory length, all in an easy-to-use self-contained package.

The capabilities of the series are further enhanced by the addition of key features:

Equation Editor

The Equation Editor is an ASCII text editor that uses text strings to create waveforms by loading, editing, and compiling equation files. The editor provides control and flexibility to create more complex waveforms using customer-defined parameters.

Waveform sequencing and sub-sequencing

Real-time sequencing creates infinite waveform loops, jumps, and conditional branches for longer pattern-length generation suitable for replicating real-world behavior of serial transmitters.

Dynamic Jump

The Dynamic Jump capability enables the creation of complex waveforms by enabling the ability to dynamically jump to any predefined index in a waveform sequence. Users can define up to 16 distinct jump indexes that respond to changing external environments.

LXI Class C

Using the LXI Web Interface, you can connect to the AWG5000 Series through a standard web browser by simply entering the AWG's IP address in the address bar of the browser. The web interface enables viewing of instrument status and configuration, as well as status and modification of network settings. All web interaction conforms to the LXI Class C specification.

Wireless I/Q wideband and IF signal generation

The AWG5000 Series provides good SFDR over modulation bandwidths up to 180 MHz, meeting the demands of IQ and IF signal generation.

The RFXpress (RFX100) software package utilizes the raw AWG performance to simplify the creation of RF signals. Supporting a wide range of modulation schemes, the software is flexible enough to create either generic or propriety signals for digital communication systems. Power ramping, frequency hopping, and impairments can easily be added to generate the desired signal.

Radar signal creation

Radar Signal Creation is a software module for RFXpress that gives you the ultimate flexibility in creating pulsed radar waveforms. It gives you the ability to build your own radar pulse suite starting from pulse-to-pulse trains to pulse groups. It supports a variety of modulation schemes including LFM, Barker and Polyphase Codes, User-defined Codes, Step FM, Nonlinear FM, User-defined FM, and Custom modulation. It also has the ability to generate pulse trains with staggered PRI to resolve range and doppler ambiguity, frequency hopping for Electronic Counter-Counter Measures (ECCM), and pulse-to-pulse amplitude variation to simulate Swerling target models including antenna scan patterns, clutter, and multipath effects. RFXpress is a powerful easy-to-use software package to synthesize IQ and IF signals for arbitrary waveform generators. It runs as an integral part of the AWG5000 Series or from an external PC.

Environment signal generation

Radar signals must coexist with other commercial standard signals sharing the same spectrum, yet are still expected to perform with no performance degradation. This isn't unreasonable given its mission-critical operations. To meet this expectation, a radar designer has to thoroughly test all the corner cases at the design/debug stage. The AWG5000 and RFXpress Environment plug-in offers extreme flexibility to define and create these worst-case scenarios.

You can specify up to 25 signals to define your environment, including WiMAX, WiFi, GSM, GSM-EDGE, EGPRS 2A, EGPRS2B, CDMA, W-CDMA, DVB-T, Noise, and CW Radar. This plug-in also allows you to seamlessly import signals from other RFXpress plug-ins (including Radar, Generic Signal, etc.), as well as from Matlab^®and from Tektronix spectrum analyzers and oscilloscopes, into your environment. You can also configure PHY parameters of your standard-specific signals. You can define the carrier frequency, power, start time, and duration for all the signals in your environment, so you have full control over the way these signals interact/interfere with each other.

Mixed-signal generation

The AWG5012 and AWG5002 models have optional 28 digital output channels with high-resolution edge placement, making them a great solution for digital signal generation applications, such as digital design and validation, system synchronization, and ADC/DAC testing.

AWG5000-Arbitrary-Waveform-Generator-Datasheet-EN_US-10-L

Mixed-signal test by TDS/TLA iView.

Specifications

All specifications are guaranteed unless noted otherwise. All specifications apply to all models unless noted otherwise.

Model overview

		AWG5014C	AWG5002C
Digital to analog converter
	Sample rate	10 MS/s to 1.2 GS/s	10 MS/s to 600 MS/s
	Resolution	14 bit
Sin (x)/x roll-off
	Sin (x)/x (-1 dB)	300 MHz	150 MHz
	Sin (x)/x (-3 dB)	520 MHz	260 MHz

Frequency domain characteristics

Effective frequency output

Fmaximum (specified) is determined as "sample rate / oversampling rate" or "SR/2.5"

Fmaximum

AWG5014C, AWG5012C	AWG5002C
480 MHz	240 MHz

Fmaximum (typical)

AWG5014C, AWG5012C	AWG5002C
540 MHz	275 MHz

Effective frequency switching time, standard

Minimum frequency switching time from selected frequencies F₁ to F₂ is determined as "1/Fmaximum".

Ts

AWG5014C, AWG5012C	AWG5002C
2.1 ns	4.2 ns

Ts (typical)

AWG5014C, AWG5012C	AWG5002C
1.8 ns	3.7 ns

Modulation bandwidth

Modulation bandwidth is a combination of sin(x)/x and rise time bandwidths, defined as the lower of the sin(x)/x bandwidth or the calculated percentage of rise time bandwidth (as shown).

-1 dB BW = 0.932 × (-1 dB TrBW), typical

AWG5014C, AWG5012C	WG5002C
Normal: Up to 130 MHz Direct: Up to 180 MHz	Normal: Up to 100 MHz Direct: Up to 130 MHz

-3 dB BW = 0.913 × (-3 dB TrBW), typical

AWG5014C, AWG5012C	WG5002C
Normal: Up to 230 MHz Direct: Up to 300 MHz	Normal: Up to 180 MHz Direct: Up to 230 MHz

Output amplitude

Amplitude levels are measured as single-ended outputs. Amplitude level will be 3 dBm higher when using differential (both) outputs.

Range (typical)

Normal: -30 dBm to 17 dBm

Direct: -30 dBm to 0 dBm

Resolution (typical)

0.01 dB

Accuracy (typical)

At 0 dBm level, with no offset, ±0.3 dB

Output flatness, typical: Mathematically corrected for characteristic Sin (x)/x roll-off, uncorrected by external calibration methods.
±1.0 dB, from 10 MHz to 480 MHz

Digital data out (option 3)

Number of outputs: 14-bit output on Ch1 and Ch2 (28 total)
Output connector: SMB (rear panel), single ended
Output impedance: 50 Ω

Digital data out levels (into 50 Ω)

Window: -1.0 V to 2.7 V
Amplitude: 0.1 V_p-p to 3.7 V_p-p
Resolution: 10 mV
Accuracy: ±(10% of setting + 120 mV)
Current (max): ±54 mA per channel
Rise/fall time (20% to 80%): 300 ps (1.0 V_p-p, Hi: 1.0 V, Lo: 0 V)
Delay from marker: -41 ns to -82 ns
Skew between outputs: <400 ps

Time domain characteristics

Data rate

Bit rate is determined as "sample rate / 4 points per cycle", allowing full impairment generation

Bit rate (typical)

AWG5014C, AWG5012C	AWG5002C
300 Mb/s	150 Mb/s

Rise/fall time

Rise/fall time measured at 10% to 90% levels

Tr/Tf

Normal: 1.4 ns

Direct: 0.95 ns

Rise time bandwidth

Rise-time bandwidth converted from rise-time (0.34/Tr, assumed Gaussian transition) characteristics through analog output circuitry and cabling.

Tr bandwidth (-1 dB) (typical)

Normal: 140 MHz

Direct: 210 MHz

Tr bandwidth (-3 dB) (typical)

Normal: 250 MHz

Direct: 370 MHz

Low-pass filter

Normal: Bessel type, 50 and 100 MHz

Output amplitude

Amplitude levels are measured between differential outputs (+) and (-). For single-ended output (+) the amplitude level will be one-half the levels below.

Range

Normal: 40 mV_p-pto 9.0 V_p-p

Direct: 40 mV_p-pto 1.2 V_p-p

Resolution

1.0 mV

Accuracy

At 0.5 V, with no offset, ±(2% of amplitude + 2 mV)

Offset

Range: Normal: ±2.25 V
Resolution: 1.0 mV
Accuracy: At minimum amplitude, ±(2.0% of offset +15 mV)

Output distortion characteristics

Spurious Free Dynamic Range (SFDR), direct, typical

SFDR is determined as a function of the directly generated carrier frequency. Harmonics not included

DC to 10 MHz carrier

AWG5014C, AWG5012C Clock: 1.2 GS/s, 14-bit operation Frequency: 10 MHz to 480 MHz Level: 4 dBm (1 V_p-p) Offset: None	AWG5002C Clock: 0.6 GS/s, 14-bit operation Frequency: 10 MHz to 240 MHz Level: 4 dBm (1 V_p-p) Offset: None
-70 dBc	-74 dBc

AWG5014C, AWG5012C

Clock: 1.2 GS/s, 14-bit operation

Frequency: 10 MHz to 480 MHz

Level: 4 dBm (1 V_p-p)

Offset: None

AWG5002C

Clock: 0.6 GS/s, 14-bit operation

Frequency: 10 MHz to 240 MHz

Level: 4 dBm (1 V_p-p)

Offset: None

-70 dBc

-74 dBc

10 to 20 MHz carrier


-70 dBc	-70 dBc

20 to 40 MHz carrier


-62 dBc	-62 dBc

40 to 80 MHz carrier


-62 dBc	-57 dBc

80 to 150 MHz carrier


-58 dBc	-54 dBc

150 to 300 MHz carrier


-58 dBc	-54 dBc

300 to 480 MHz carrier


-56 dBc

Spurious Free Dynamic Range (SFDR), direct, typical

When viewed as a modulation bandwidth and used with external frequency up-conversion, the specifications will hold and be independent of carrier frequency with proper conversion circuitry design. Harmonics not included

DC to 10 MHz carrier

AWG5014C, AWG5012C Clock: 1.2 GS/s, 14-bit operation Modulation Bandwidth: Up to 180 MHz Level: 4 dBm (1 V_p-p) Offset: None	AWG5002C Clock: 0.6 GS/s, 14-bit operation Modulation Bandwidth: Up to 130 MHz Level: 4 dBm (1 V_p-p) Offset: None
-70 dBc	-74 dBc

AWG5014C, AWG5012C

Clock: 1.2 GS/s, 14-bit operation

Modulation Bandwidth: Up to 180 MHz

Level: 4 dBm (1 V_p-p)

Offset: None

AWG5002C

Clock: 0.6 GS/s, 14-bit operation

Modulation Bandwidth: Up to 130 MHz

Level: 4 dBm (1 V_p-p)

Offset: None

-70 dBc

-74 dBc

DC to 20 MHz carrier


-70 dBc	-70 dBc

DC to 40 MHz carrier


-62 dBc	-62 dBc

DC to 80 MHz carrier


-62 dBc	-57 dBc

DC to 150 MHz carrier


-58 dBc	-54 dBc

DC to 180 MHz carrier


-58 dBc

Harmonic distortion

Harmonics

AWG5014C, AWG5012C Clock: 1.2 GS/s, 14-bit operation 32-point waveform 37.5 MHz output Normal: 10 dBm (2.0 V_p-p) Direct: 0 dBm (0.6 V_p-p) Offset: None	AWG5002C Clock: 0.6 GS/s, 14-bit operation 32-point waveform 18.7 MHz output Normal: 10 dBm (2.0 V_p-p) Direct: 0 dBm (0.6 V_p-p) Offset: None
Normal: <40 dBc Direct: <49 dBc	Normal: <46 dBc Direct: <55 dBc

AWG5014C, AWG5012C

Clock: 1.2 GS/s, 14-bit operation

32-point waveform

37.5 MHz output

Normal: 10 dBm (2.0 V_p-p)

Direct: 0 dBm (0.6 V_p-p)

Offset: None

AWG5002C

Clock: 0.6 GS/s, 14-bit operation

32-point waveform

18.7 MHz output

Normal: 10 dBm (2.0 V_p-p)

Direct: 0 dBm (0.6 V_p-p)

Offset: None

Normal: <40 dBc
Direct: <49 dBc

Normal: <46 dBc
Direct: <55 dBc

Non-harmonic distortion

Spurious

AWG5014C, AWG5012C Clock: 1.2 GS/s, 14-bit operation Frequency: 10 MHz to 480 MHz Level: 4 dBm (1 V_p-p) Offset: None	AWG5002C Clock: 0.6 GS/s, 14-bit operation Frequency: 10 MHz to 240 MHz Level: 4 dBm (1 V_p-p) Offset: None
< -60 dBc

AWG5014C, AWG5012C

Clock: 1.2 GS/s, 14-bit operation

Frequency: 10 MHz to 480 MHz

Level: 4 dBm (1 V_p-p)

Offset: None

AWG5002C

Clock: 0.6 GS/s, 14-bit operation

Frequency: 10 MHz to 240 MHz

Level: 4 dBm (1 V_p-p)

Offset: None

< -60 dBc

Phase noise distortion

AWG5014C, AWG5012C	AWG5002C
Clock: 1.2 GS/s, 14-bit operation 32-point waveform 37.5 MHz output Amplitude: 10 dBm (2 V_p-p) at 0 offset, < -85 dBc/Hz at 10 kHz offset	Clock: 0.6 GS/s, 14-bit operation 32-point waveform 18.7 MHz output Amplitude: 10 dBm (2 V_p-p) at 0 offset, < -85 dBc/Hz at 10 kHz offset

AWG5000-Arbitrary-Waveform-Generator-Datasheet-EN_US-11-L

AWG5014C/AWG5012C phase noise (typical)

AWG5000-Arbitrary-Waveform-Generator-Datasheet-EN_US-12-L

AWG5002C phase noise (typical)

Jitter

Random jitter (typical): 1010 clock pattern, RMS value
Normal: 5.0 ps
Total jitter (typical): 2¹⁵ - 1 data pattern (at 10^-12 BER), peak-peak value
Normal: 150 ps at 0.5 Gb/s

Hardware characteristics

Number of outputs

AWG5014C, AWG5012C: 4 channels

AWG5002C 2 channels

Output connector: Differential, BNC (front panel)
Output impedance: 50 Ω

Waveform length

Standard - to 16M points

Extended memory - to 32M points

Number of waveforms: 1 to 16,200

Sequence length/counter

1 to 8,000 steps

1 to 65,536 count

Run modes

Continuous: Waveform is iteratively output. If a sequence is defined, the sequence order and repeat functions are applied.
Triggered: Waveform is output only once when an internal, external, programmatic (GPIB, LAN), or manual trigger is received.
Gated: Waveform begins output when gate is "True" and resets when gate is "False".
Sequence: Waveform is output as defined by the sequence selected.
Jump: Synchronous and asynchronous.

Sampling clock

Resolution

8 digits

Accuracy

Within ±(1 ppm + Aging)

Aging: Within ±1 ppm per year

Internal trigger generator

Range: 1.0 µs to 10.0 s
Resolution: 3 digits, 0.1 µs minimum

Output skew control

Range: -5 ns to 5 ns
Resolution: 5 ps

Software characteristics

Operating system / peripherals / IO

Windows 7

4 GB memory CD/DVD drive (front panel)

300 GB Solid State Drive (std) / 1 TB Mechanical Hard Disk Drive (opt) (rear-panel removable, optional front mount kit)

USB compact keyboard and mouse

USB 2.0 compliant ports (6 total - 2 front, 4 rear)

PS/2 mouse and keyboard connections (rear panel)

RJ-45 Ethernet connector (rear panel) supports 10/100/1000BASE-T

eSATA (rear panel)

DVI/I Video (rear panel)

Display characteristics: LED backlit monitor with touch screen, 10.4 in. (264 mm) 1024 × 768 (V) XGA

Waveform file import capability

Import waveform format by series:

*.AWG file created by Tektronix AWG5000 or AWG7000 Series

*.PAT, *.SEQ, *.WFM, and *.EQU file formats created by Tektronix arbitrary waveform generators such as the AWG400/500/600/700 Series

*.TIQ and *.IQT files created by Tektronix real-time spectrum analyzers

*.TFW file created by Tektronix AFG3000 Series arbitrary/function generators

*.DTG file created by Tektronix DTG5000 Series data timing generators

*.WFM or *.ISF file created by Tektronix TDS/DPO Series oscilloscopes text file (*.TXT)

Waveform file export capability

Export waveform format by series:

Tektronix AWG400/500/600/700 (*.wfm or *.pat) and text format

Software driver for third-party applications: IVI-COM driver, MATLAB library

Instrument control / data transfer

GPIB: Remote control and data transfer (conforms to IEEE-Std 488.1, compatible with IEEE-Std 488.2 and SCPI-1999.0)
Ethernet: Remote control and data transfer (conforms to IEEE-Std 802.3)
TekLink: Remote control and data transfer (proprietary bus for Tektronix product high-speed interconnection and communication)

LAN eXtensions for Instrumentation (LXI): Class LXI Class C, version 1.3

Auxiliary output characteristics

Markers

Number

AWG5014C: Total of 8 (2 per channel)

AWG5012C, AWG5002C: Total of 4 (2 per channel)

Style

Single-ended

Connector

BNC (front panel)

Impedance

50 Ω

Level (into 50 Ω)

Amplitude levels are measured between differential outputs (+) to (-). Single-ended output amplitude level will be one-half the voltage levels below.

Window	-2.0 V to 5.4 V
Amplitude	0.2 V_p-p to 7.4 V_p-p
Resolution	10 mV
Accuracy	±(10% of setting + 120 mV)
Rise/fall time (20% - 80%)	300 ps (1.0 V_p-p, Hi: 1.0 V, Lo: 0.0 V)

Timing skew

Range	0 to 1000 ps
Resolution	50 ps

Delay control

Range	0 to 300 ps
Resolution	1 ps
Accuracy	±(5% of setting + 50 ps)

Jitter

Random RMS (typical)	5 ps
Total p - p (typical)	80 ps (2¹⁵ - 1 PN pattern at 10^-12 BER)

10 MHz reference out

Amplitude: 1.2 V_p-p into 50 Ω, maximum 2.5 V open
Connector: BNC (rear panel)
Impedance: 50 Ω, AC coupled

Clock output (VCO)

Range: 600 MHz, 1.2 GHz
Amplitude: 0.4 V_p-p into 50 Ω to ground
Connector: BNC (rear panel)
Impedance: 50 Ω, AC coupled

DC outputs

Number: 4, independently controlled
Range: -3.0 V to 5.0 V
Resolution: 10 mV
Accuracy: ±(3% of setting + 120 mV)
Connector: 2×4 pin header (front panel)
Current (max): ±100 mA

Auxiliary input characteristics

Trigger / gate in

Polarity

Pos or neg

Range

50 Ω: ±5 V

1 kΩ: ±10 V

Jitter (typical)

2.0 ns to 4.5 ns

Connector

BNC (front panel)

Impedance

50 Ω, 1 kΩ

Threshold

Level: -5.0 V to 5.0 V

Resolution: 0.1 V

Trigger to output uncertainty

Asynchronous (typical):

Between internal/external clock and trigger timing: 2.0 ns to 4.5 ns

Trigger mode

Minimum pulse width	20 ns
Trigger hold-off	160 × sampling period - 200 ns
Delay to output	48 × sampling period + 500 ns

Gated mode

Minimum pulse width	1024 × sampling period + 10 ns
Delay to output	240 × sampling period + 500 ns

Event in

Polarity

Pos or neg

Range

50 Ω: ±5 V

1 kΩ: ±10 V

Connector

BNC (front panel)

Impedance

50 Ω, 1 kΩ

Threshold

Level: -5.0 V to 5.0 V

Resolution: 0.1 V

Sequence mode

Minimum pulse width	20 ns
Event hold-off	200 × sampling period + 500 ns
Delay to output	260 × sampling period + 300 ns (Jump timing: asynchronous jump)

External clock in

Input voltage range: 0.2 V_p-p to 0.8 V_p-p, -10 dBm to 2 dBm
Frequency range: 600 MHz to 1.2 GHz (acceptable frequency drift of ±5%)
Clock divider: 1/1, 1/2, 1/4...1/256
Connector: BNC (rear panel)
Impedance: 50 Ω, AC coupled

Fixed reference clock in

Input voltage range: 0.2 V_p-p to 3.0 V_p-p, -10 dBm to 14 dBm
Frequency range: 10 MHz, 20 MHz, 100 MHz (within ±0.1%)
Connector: BNC (rear panel)
Impedance: 50 Ω, AC coupled

Phase lock in

Input voltage range: 0.2 V_p-p to 3.0 V_p-p, -10 dBm to 14 dBm
Frequency range: 5 MHz to 600 MHz (acceptable frequency drift is ±0.1%)
Multiplier rate: 1 to 240
Connector: BNC (rear panel)
Impedance: 50 Ω, AC coupled

Add in

Input voltage range: ±1.0 V
DC gain: 1
Bandwidth: DC to 100 MHz (-3 dB)
Connector: BNC (rear panel)
Impedance: 50 Ω, AC coupled

Physical characteristics

Dimensions

Height

mm	inches
245	9.6

Width

mm	inches
465	18.0

Depth

mm	inches
500	19.7

Weight

Net (instrument)

kg	lb.
19.5	43

Net (with packaging)

kg	lb.
28.5	62.7

Mechanical cooling

Clearance

Top/bottom

cm	inches
2	0.8

Side

cm	inches
15	6

Rear

cm	inches
7.5	3

Power supply

Rating: 100 to 240 V AC, 47 to 63 Hz
Consumption: 450 Watts

EMC environment and safety

Temperature

Operational: 10 to 40 °C
Non-operational: 20 to 60 °C

Humidity

Operational: 5% to 80% relative humidity (% RH) at up to 30 °C, 5% to 45% relative humidity above 30 °C up to 50 °C
Non-operational: 5% to 90% relative humidity (% RH) at up to 30 °C, 5% to 45% relative humidity above 30 °C up to 50 °C

Altitude

Operational: Up to 10,000 ft. (3,048 m)
Non-operational: Up to 40,000 ft. (12,192 m)

Vibration

Sine

Operational	0.33 mm p-p (0.013 in p-p) constant displacement, 5 to 55 Hz
Non-operational	NA

Random

Operational	0.27 g RMS, 5 to 500 Hz, 10 minutes per axis
Non-operational	2.28 g RMS, 5 to 500 Hz, 10 minutes per axis

Mechanical

Operational: Half-sine mechanical shocks, 30 g peak, 11 ms duration, 3 drops in each direction of each axis
Non-operational: Half-sine mechanical shocks, 10 g peak, 11 ms duration, 3 drops in each direction of each axis

Regulatory

Safety

UL61010-1, CAN/CSA-22.2, No.61010-1-04, EN61010-1, IEC61010-1

Emissions

EN55011 (Class A), IEC61000-3-2, IEC61000-3-3

Immunity

IEC61326, IEC61000-4-2/3/4/5/6/8/11

Regional certifications

Europe	EN61326
Australia/New Zealand	AS/NZS 2064

Ordering information

Arbitrary waveform generator mainframe

AWG5014C: 1.2 GS/s, 14-bit resolution, 16M point per channel, 4-channel arbitrary waveform generator
AWG5012C: 1.2 GS/s, 14-bit resolution, 16M point per channel, 2-channel arbitrary waveform generator
AWG5002C: 600 MS/s, 14-bit resolution, 16M point per channel, 2-channel arbitrary waveform generator

Instrument options

Product options

AWG5014C, AWG5012C, AWG5002C

Opt. 01: Waveform record length expansion (from 16M point to 32M point)
Opt. 05: Removable mechanical HDD (1 TB)
Opt. 09: Sub-sequencing and Dynamic Jump option (sub-sequencing files created for legacy AWG400, AWG500, AWG600, and AWG700 instrument are compatible with this option)
Opt. RFX: Adds RFXpress (RFX100) software to the AWG
Opt. RDR: Adds radar signal generation to RFXpress¹
Opt. SPARA: Adds S-parameter emulation to RFXpress¹
Opt. OFDM: Adds OFDM signal generation to RFXpress¹
Opt. ENV: Adds environment signal generation to RFXpress¹
Opt. ENV01: Bundling option - Opt. ENV + Opt. RDR¹
Opt. ENV02: Bundling option - Opt. ENV + Opt. RDR + Opt. OFDM¹
Opt. ENV03: Bundling option - Opt. ENV + Opt. RDR + Opt. OFDM + Opt. SPARA¹
Opt. ENV04: Bundling option - Opt. ENV + Opt. RDR + Opt. OFDM + Opt. SPARA + Opt. UWBCT¹
Opt. UWBCF: Adds UWB-WiMedia conformance signal generation to RFXpress¹
Opt. UWBCT: Adds UWB-WiMedia custom and conformance signal generation to RFXpress¹

AWG5012C, AWG5002C

Opt. 03

28-bit digital data outputs (digital data of CH1 and CH2)

Note: Must be ordered at time of purchase

Opt. 0309

Combination of Opt. 03 and Opt. 09

Note : Must be ordered at time of purchase

¹Requires Opt. RFX

Power plug options

Opt. A0: North America power plug (115 V, 60 Hz)
Opt. A1: Universal Euro power plug (220 V, 50 Hz)
Opt. A2: United Kingdom power plug (240 V, 50 Hz)
Opt. A3: Australia power plug (240 V, 50 Hz)
Opt. A4: North America power plug (240 V, 50 Hz)
Opt. A5: Switzerland power plug (220 V, 50 Hz)
Opt. A6: Japan power plug (100 V, 50/60 Hz)
Opt. A10: China power plug (50 Hz)
Opt. A11: India power plug (50 Hz)
Opt. A99: No power cord

Language options

Opt. L0: English manual
Opt. L5: Japanese manual
Opt. L7: Simplified Chinese manual
Opt. L8: Traditional Chinese manual
Opt. L10: Russian manual

Language options include translated front-panel overlay for the selected language(s).

Application software

SDX100

Jitter-generation software package (includes USB dongle)

Opt. ISI: S-parameter and ISI creation (requires SDX100 as prerequisite)
Opt. SSC: Spread Spectrum Clock addition option (requires SDX100 as prerequisite)

Service options

Opt. CA1: Single calibration or functional verification
Opt. C3: Calibration Service 3 Years
Opt. C5: Calibration Service 5 Years
Opt. D1: Calibration Data Report
Opt. D3: Calibration Data Report 3 Years (with Opt. C3)
Opt. D5: Calibration Data Report 5 Years (with Opt. C5)
Opt. R3: Repair Service 3 Years (including warranty)
Opt. R5: Repair Service 5 Years (including warranty)

Post sales service options (e.g. AWG5014C-CA1)

CA1: Single calibration or functional verification
R3DW: Repair service coverage 3 years
R5DW: Repair service coverage 5 years
R2PW: Repair service coverage 2 years post warranty
R1PW: Repair service coverage 1 year post warranty

Product upgrade options

AWG50CUP
Option	Product	Description
M01	AWG5002C models	Waveform record length expansion from 16M point to 32M point
M02	AWG5012C models	Waveform record length expansion from 16M point to 32M point
M03	AWG5014C models	Waveform record length expansion from 16M point to 32M point
D01	All AWG5000C models	Additional removable disk - solid state
D02	All AWG5000C models	Additional removable disk - mechanical

Note: To add any RFXpress software as an upgrade, please refer to the RFX100 data sheet.

Standard accessories

Accessories

200-4963-xx: Front cover
119-7054-xx: USB mouse
119-7083-xx: Compact USB keyboard
012-1697-xx: Lead set for DC output
020-3099-xx: AWG5000C Series product software CD and instructions
063-4134-xx: Documentation CD with browser
071-3174-xx: Installation and safety manual
—: Certificate of calibration
As ordered: Power cord

Warranty

One-year parts and labor.

	Tektronix is registered to ISO 9001 and ISO 14001 by SRI Quality System Registrar.
	Product(s) complies with IEEE Standard 488.1-1987, RS-232-C, and with Tektronix Standard Codes and Formats.

Arbitrary Waveform Generators

AWG5000 Series Data Sheet

詳細情報

Notice to EU customers

Key performance specifications

Key features

Applications

Industry's best mixed signal stimulus solution for today's complex measurement challenges

Equation Editor

Waveform sequencing and sub-sequencing

Dynamic Jump

LXI Class C

Wireless I/Q wideband and IF signal generation

Radar signal creation

Environment signal generation

Mixed-signal generation

Specifications

Model overview

Frequency domain characteristics

Time domain characteristics

Output distortion characteristics

Hardware characteristics

Software characteristics

Auxiliary output characteristics

Auxiliary input characteristics

Physical characteristics

EMC environment and safety

Ordering information

Arbitrary waveform generator mainframe

Instrument options

Product options

Power plug options

Language options

Application software

Service options

Post sales service options (e.g. AWG5014C-CA1)

Product upgrade options

Standard accessories

Accessories

Warranty

Recommended accessories