|
|
|
Arbitrary Waveform Generators
AWG5000B Series
|
Features & Benefits
- 370 MHz Effective RF Frequency
Output
- 1.2 GS/s and 600 MS/s Models
- 14-bit Vertical
Resolution
- 2 or 4 Arbitrary Waveform Differential/Single-ended
Outputs
- Up to 4.5 Vpk-pk Single-ended and
9 Vpk-pk at Differential Output into 50 Ω
- 0.95 ns Tr/Tf
(10 - 90%) at 0.6 Vpk-pk
- ±5 ns Range (50 ps Resolution)
Interchannel Skew Control
- SFDR: 80 dBc (1 MHz), 64 dBc (10 MHz)
- 4 or 8 Variable Level Marker Outputs
- Up
to 3.7 Vpk-pk Single-ended Output into 50 Ω
- 300 ps Tr/Tf
(20 - 80%) at 0 to 1 V
- Up to 1 ns Range (50 ps Resolution)
Delay Control
- 28-bit CH1/CH2 Variable-level Digital
Data Output
- Up to 3.7 Vpk-pk Single-ended
Output into 50 Ω
- 300 ps Tr/Tf (20 - 80%) at 0 to 1 V
- Up to 32 Mpoint Record Length For Longer Data Streams
- 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
- Intuitive User Interface Based on Windows XP
- Convenient Benchtop Form Factor
- Integrated PC Supports
Network Integration and Provides a Built-in DVD, Removable Hard Drive,
LAN, and USB Ports
Applications
- Designing, Testing, and Deploying
- Wireless Communications:
- High-fidelity Quadrature
Modulation I&Q Baseband Signals (Polar Modulation: I/Q + Magnitude
Control, Two Pair of I/Q for MIMO)
- Imaging
- Stimulus Signals for Imaging Display and Recording Devices (CCD,
LCD)
- Data Conversion
- Stimulus Signals
for Data Conversion Devices (ADC, DAC)
- Mixed-signal
Design and Test
- 2/4 ch Analog + 4/8 ch Marker Outputs
+ 28 bit Digital Data Outputs
- Real-world, Ideal, or
Distorted Signal Generation – Including all the Glitches, Anomalies,
and Impairments
- Enhanced/Corrupted Playback of DSO Captured
Signals
- Waveform Vectors Imported from Third-party Tools
such as MathCAD, MATLAB, Excel, and Others
EVM/Constellation Measurement
Industry’s
Best Mixed-signal Stimulus Solution for Today’s Complex Measurement
Challenges
The AWG5000B Series of Arbitrary Waveform Generators
delivers the optimal combination of industry leading sample rate,
vertical resolution, signal fidelity, and waveform memory length,
all in an easy-to-use self-contained package. The series offers the
industry’s best solution to the challenging signal stimulus issues
faced by designers verifying, characterizing, and debugging sophisticated
electronic designs.
Meeting the needs of today’s design engineers,
the series provides excellent signal dynamic range and integrity.
AWG5000B Series models, with a 14 bit DA-converter-based sample rate
from 600 MS/s to 1.2 GS/s, 2 to 4 output channels, synchronized 4
to 8 digital marker outputs, and 28 channels of digital data outputs,
easily solve the toughest measurement challenges in wireless baseband
I/Q communications, digital consumer product design such as imaging
devices, data conversion equipment, and semiconductor design and test.
The open windows (Windows XP) based instruments are easy and
convenient to use and connect easily with peripherals and third-party
software.
Typical Signal Injection
Wireless I/Q and IF Signal Generation
Tektronix AWGs support
“Wireless Everywhere” by enabling the latest Digital RF technology,
increasing wireless network capacity, and delivering the performance
that supports higher modulation bandwidth and modulation schemes.
The AWG5000B Series addresses narrowband IQ to broadband IF applications
with up to 1.2 GS/s, 14-bit resolution, and sufficient SFDR. The AWG5000B
is able to generate not only analog IQ/IF signals, but digital data
IQ/IF. The MIMO (Multiple Input Multiple Output) system that supports
W-LAN/Wi-Max using space multiplex with multiple antennas is a leading-edge
technology for reliable and faster data rate communication. The AWG5000B
Series generates up to 4 analog channels (8 channels through two instruments)
to simultaneously generate MIMO signals. The series can generate two
pairs of IQ signals (4 pairs with two instruments) as an IQ generator,
and four pairs of IF signals (8 pairs with two instruments) as an
IF generator. With the two channel models, CH1 and CH2, digital data
output is available as an option.
RTSA Spectrum view
Spurious Performance
The 14-bit vertical
resolution and sophisticated design of the AWG5000B Series provides
ample signal dynamic range and purity. The SFDR performance is 80 dBc
for 1 MHz signal and 64 dBc for 10 MHz signal.
Multilevel
Logic Signal
9-PAM with 250 Mb/s
One technique to increase the data rate without increasing
the transition rate is applying multilevel signals, wherein a signal
can assume more than the standard binary 2 levels. In multilevel signaling,
one can think of multilevel discrete amplitudes of a signal. This
phenomenon is known as Pulse Amplitude Modulation or PAM. A 9-PAM
signal, a signal with 9 different amplitudes, increases the data rate
by four without increasing the transition rate of the signal.
The AWG5000B Series enables you to test your latest design by generating
any kind of mixed or multilevel signal.
Mixed-signal Generation
Mixed-signal test by TDS/TLA iView
AWG5012B and AWG5002B models can generate two analog signals
with four digital marker outputs, supporting 28 digital outputs (CH1 and
CH2 data) as an option. They deliver a mixed analog and digital signal
generator and the most versatile solution for a broad range of applications,
including consumer electronics such as ADC/DAC converter and imaging
or display devices.
Additional Software Application Tools
to Extend Waveform Generation
RFXpress® (RFX100)
RFXpress® is a software package that synthesizes digitally
modulated baseband IQ and IF signals. It takes IQ and IF signal generation
to the next level and fully exploits the wideband signal generation
capabilities of Arbitrary Waveform Generators (AWGs). Supporting a
wide range of modulations, as well as the symbol map functions, the
software allows you to define your own modulation.
SPARA is an option for RFXpress that provides emulation of RF components
from touchstone files. You can cascade multiple touchstone files to
emulate a RF chain. The effect of the RF component can also be de-embedded
by selecting the Inversion option.
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 and multipath effects.
RFXpress is a powerful easy-to-use software package to synthesize
IQ and IF signals for Arbitrary Waveform Generators (AWG). It runs
as an integral part of the AWG5000B Series arbitrary waveform generators
or from an external PC.
Characteristics
Arbitrary Waveform Output
|
Characteristic
|
AWG5014B
|
AWG5012B
|
AWG5004B
|
AWG5002B
|
|
Digital-to-Analog Converter
|
|
Resolution
|
14 bit
|
|
Number of Outputs
|
4
|
2
|
4
|
2
|
|
Output Type
|
Differential
|
|
Output Impedance
|
50 Ω
|
|
Output Connector Type
|
BNC (front panel)
|
|
Sampling Rate
|
10 MS/s to 1.2 GS/s
|
10 to 600 MS/s
|
|
Frequency
|
|
Effective RF Frequency (Fmax)
|
Fmax determined as the lower of “Effective bandwidth
(-6 dB)” or “Max sampling rate / 2.5 points per cycle”
|
|
(Typical)
|
370 MHz
|
240 MHz
|
|
Effective Freq Switching Time
|
Minimum frequency switching time (from selected
frequencies F1 to F2) is determined as ”1 /
Fmax”
|
|
Standard (typical)
|
400 ns
|
800 ns
|
|
Option 08 (typical)
|
2.7 ns
|
4.2 ns
|
|
Sinewave
|
1.2 GS/s clock, 32 points per waveform
37.50 MHz carrier frequency, 1.0 Vpk-pk
|
0.6 GS/s clock, 32 points per waveform
18.75 MHz carrier frequency, 1.0 Vpk-pk
|
|
Amplitude
|
|
Rise Time Bandwidth (-3 dB)
|
Analog bandwidth converted from rise time characteristics
through analog output and filtering circuitry
|
|
(typical)
|
Normal: 250 MHz
Direct: 370 MHz
|
|
Low Pass Filter
|
Normal: 20 MHz, 100 MHz (Bessel type)
Direct:
N/A
|
|
Amplitude
|
|
Range
|
Normal: 20 mV to 4.5 Vpk-pk
Direct: 20 mV to 0.6 Vpk-pk
|
|
Resolution
|
1 mV
|
|
Accuracy
|
±(2.0% of amplitude ±2 mV) at offset = 0 V
|
|
Offset
|
|
Range
|
Normal: -2.25 V to +2.25 V
Direct: N/A
|
|
Resolution
|
1 mV
|
|
Accuracy
|
±(2% of offset ±10 mV) at minimum amplitude
|
|
Distortion
|
|
Harmonic Distortion
|
Normal: ≤ -40 dBc
Direct: ≤ -49 dBc
|
Normal: ≤ -46 dBc
Direct: ≤ -55 dBc
|
|
Nonharmonic Spurious
|
≤ -60 dBc (DC to 600 MHz)
|
≤ -60 dBc (DC to 300 MHz)
|
|
Spurious Free Dynamic Range
|
1.2 GS/s clock, Amplitude: 1 Vpk-pk, Offset: 0 V
14 bit DAC operational mode, DC to 600 MHz
|
0.6 GS/s clock, Amplitude: 1 Vpk-pk, Offset: 0 V
14 bit DAC operational mode, DC to 300 MHz
|
|
(Typical)
|
50 dBc (Normal: 37.5 MHz, 1.2 GS/s, 2.0 Vpk-pk)
60 dBc (Normal: 10 MHz, 600 MS/s, 1.0 Vpk-pk)
80 dBc (Normal: 1 MHz, 600 MS/s, 1.0 Vpk-pk)
64 dBc (Direct: 10 MHz, 600 MS/s, 0.6 Vpk-pk)
80 dBc (Direct: 1 MHz, 600 MS/s, 0.6 Vpk-pk)
|
56 dBc (Normal: 18.75 MHz, 600 MS/s, 2.0 Vpk-pk)
60 dBc (Normal: 10 MHz, 600 MS/s, 1.0 Vpk-pk)
80 dBc (Normal: 1 MHz, 600 MS/s, 1.0 Vpk-pk)
64 dBc (Direct: 10 MHz, 600 MS/s, 0.6 Vpk-pk)
80 dBc (Direct: 1 MHz, 600 MS/s, 0.6 Vpk-pk)
|
|
Phase Noise
|
1.2 GS/s clock, Amplitude: 1 Vpk-pk, Offset: 0 V
Carrier Frequency: 37.50 MHz
|
0.6 GS/s clock, Amplitude: 1 Vpk-pk, Offset: 0 V
Carrier Frequency: 18.75 MHz
|
|
(typical)
|
≤ -85 dBc/Hz at 10 kHz offset
|
|
Random Jitter
|
1010 clock pattern
|
|
RMS (typical)
|
Normal: 5 ps
|
|
Total Jitter
|
2-15 - 1 PN data pattern (at 10-12 BER)
|
|
Peak-to-Peak (typical)
|
Normal: 150 ps
|
|
Pulse
|
|
Pulse Response
|
|
|
Rise/Fall Time (10 to 90%)
|
Normal: 1.4 ns (at 2.0 Vpk-pk)
Direct: 0.95 ns (at 0.6 Vpk-pk)
|
|
Overshoot
|
Less than 10% (at 0.6 Vpk-pk)
|
|
Characteristic
|
AWG5014B
|
AWG5012B
|
AWG5004B
|
AWG5002B
|
|
Arbitrary Waveforms
|
|
Waveform Length
|
1 to 16,200,000 points (or 1 to 32,400,000 points,
Option 01)
|
|
Number of Waveforms
|
1 to 16,000
|
|
Sequence Length
|
1 to 8,000 steps total
|
|
Sequence Repeat Counter
|
1 to 65,536 or infinite
|
|
Sequence Control
|
Repeat count, Wait for Trigger, Go-to-N and Jump
The standard model requires “wait for trigger ON” for all sequence
step definition, the Option 08 (fast sequence switching) selectable
On or Off for each sequence step.
|
|
Jump Mode
|
Synchronous and Asynchronous
|
|
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 external,
internal, GPIB, LAN, or manual trigger is received
|
|
Gated
|
Waveform begins output when gate is true and resets
to beginning when false
|
|
Sequence
|
Waveform is output as defined by the sequence
|
|
Sampling Clock
|
|
|
Resolution
|
8 digits
|
|
Internal Clock
|
|
|
Accuracy
|
Within ±(1 ppm + Aging)
Aging: within ±1 ppm/year
|
|
Internal Trigger Generator
|
|
Internal Trigger Rate
|
|
Range
|
1.0 µs to 10.0 s
|
|
Resolution
|
3 digits, 0.1 µs minimum
|
|
Skew Control Between Outputs
|
|
Range
|
-5 ns to +5 ns
|
|
Resolution
|
5 ps
|
Auxiliary Outputs
|
Characteristic
|
AWG5014B
|
AWG5012B
|
AWG5004B
|
AWG5002B
|
|
Marker Output
|
|
Number of Outputs
|
8 (2 per ch)
|
4 (2 per ch)
|
8 (2 per ch)
|
4 (2 per ch)
|
|
Output Style
|
Single Ended
|
|
Output Impedance
|
50 Ω
|
|
Connector
|
BNC Front
|
|
Level (into 50 Ω) (Twice for Hi_Z input)
|
|
Output Windows
|
-1.00 V to +2.7 V
|
|
Amplitude
|
0.10 Vpk-pk to 3.7 Vpk-pk
|
|
Resolution
|
10 mV
|
|
DC Accuracy
|
±(10% of setting +120 mV)
|
|
Maximum Output Current
|
±54 mA/ch
|
|
Rise/Fall Time (20% to 80%)
|
300 ps (1.0 Vpk-pk, Hi: +1.0 V, Low:
0 V)
|
|
Skew Adjust Between Markers
|
|
Range
|
0 to 1000 ps
|
|
Resolution
|
50 ps
|
|
Random Jitter (Typical)
|
1010 clock pattern
|
|
RMS (Typical)
|
5 psRMS
|
|
Total Jitter
|
215 - 1 PN data pattern
|
|
Peak-to-Peak (pk-pk) (Typical)
|
80 pspk-pk
|
|
Clock (VCO) Out
|
|
Range
|
600 MHz to 1.2 GHz
|
|
Amplitude
|
0.4 Vpk-pk into 50 Ω to GND
|
|
Impedance
|
50 Ω, AC coupling
|
|
Connector
|
BNC Rear
|
|
10 MHz Reference Out
|
|
Amplitude
|
1.2 Vpk-pk into 50 Ω. Max 2.5 Vpk-pk open
|
|
Impedance
|
50 Ω, AC coupling
|
|
Connector
|
BNC Rear
|
|
DC Outputs
|
|
Number of Outputs
|
4: independently controlled outputs
|
|
Range
|
-3.0 to +5.0 V
|
|
Resolution
|
10 mV
|
|
Output Voltage Accuracy
|
±(3% of the setting + 120 mV)
|
|
Max Current
|
±100 mA
|
|
Connector
|
2×4 pin header on front panel
|
|
Digital Data Output (Option 03)
|
|
Number of Output
|
NA
|
14 bit output on channel 1 and channel 2 (28 total)
|
NA
|
14 bit output on channel 1 and channel 2 (28 total)
|
|
Output Style
|
|
Single ended
|
|
Single ended
|
|
Output Impedance
|
|
50 Ω
|
|
50 Ω
|
|
Connector
|
|
SMB rear
|
|
SMB rear
|
|
Level (into 50 Ω) (Twice for Hi_Z Input)
|
|
Output Windows
|
|
-1.00 V to +2.7 V
|
|
-1.00 V to +2.7 V
|
|
Amplitude
|
|
0.10 Vpk-pk to 3.7 Vpk-pk
|
|
0.10 Vpk-pk to 3.7 Vpk-pk
|
|
Resolution
|
|
10 mV
|
|
10 mV
|
|
DC Accuracy
|
|
±(10% of setting +120 mV)
|
|
±(10% of setting +120 mV)
|
|
Maximum Output Current
|
|
±54 mA/ch
|
|
±54 mA/ch
|
|
Rise/Fall Time (20% to 80%)
|
|
300 ps (1.0 Vpk-pk, Hi: +1.0 V, Low: 0 V)
|
|
300 ps (1.0 Vpk-pk, Hi: +1.0 V, Low: 0 V)
|
|
Delay from Marker
|
|
-41 ns to -82 ns
|
|
-41 ns to -82 ns
|
|
Skew Between Digital Outputs
|
|
Less than 400 ps
|
|
Less than 400 ps
|
Auxiliary Inputs
|
Characteristic
|
AWG5014B/AWG5012B
|
AWG5004B/AWG5002B
|
|
Trigger In
|
|
Impedance
|
1 kΩ or 50 Ω
|
|
Polarity
|
POS or NEG
|
|
Connector
|
BNC Front
|
|
Input Voltage Range
|
1 kΩ: ±10 V
50 Ω: ±5 V
|
|
Threshold
|
|
|
Level
|
-5.0 V to 5.0 V
|
|
Resolution
|
0.1 V
|
|
Trigger Jitter
|
2.0 ns to 4.5 ns (Typical)
|
|
Asynchronies Between Internal/External Clock and Trigger Timing
(Typical)
|
2.0 ns to 4.5 ns
|
|
Trigger Mode
|
|
Minimum Pulse Width
|
20 ns
|
|
Trigger Holdoff
|
160 * sampling_period - 200 ns
|
|
Delay to Analog Out
|
48 * sampling_period + 500 ns
|
|
Gate Mode
|
|
Minimum Pulse Width
|
1024 * sampling_period + 10 ns
|
|
Delay to Analog Out
|
240 * sampling_period + 500 ns
|
|
Event Input
|
|
Impedance
|
1 kΩ or 50 Ω
|
|
Polarity
|
POS or NEG
|
|
Connector
|
BNC Front
|
|
Input Voltage Range
|
1 kΩ: ±10 V
50 Ω: ±5 V
|
|
Threshold
|
-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 (Jump timing: Asynchronous
jump)
|
|
Delay to Analog Out
|
260 * Sampling Period + 300 ns
|
|
External Clock IN
|
|
Input Voltage Range
|
0.2 Vpk-pk to 0.8 Vpk-pk
|
|
Impedance
|
50 Ω, AC coupled
|
|
Frequency Range
|
600 MHz to 1.2 GHz
|
|
Clock Divider
|
1/1, 1/2, 1/4……1/32
|
1/2, 1/4……1/32
|
|
Connector
|
BNC Rear
|
|
Reference Clock IN
|
|
Input Voltage Range
|
0.2 Vpk-pk to 3.0 Vpk-pk
|
|
Impedance
|
50 Ω, AC coupled
|
|
Frequency Range
|
10 MHz, 20 MHz, 100 MHz (with ±0.5%)
|
|
Connector
|
BNC Rear
|
|
Phase Lock IN
|
|
Input Ranges
|
5 MHz to 600 MHz (acceptable frequency drift is
±0.5%)
|
|
Input Voltage Range
|
0.2 Vpk-pk to 3 Vpk-pk
|
|
Impedance
|
50 Ω, AC coupled
|
|
Multiple Rate
|
1 to 240
|
1 to 120
|
|
Connector
|
BNC Rear
|
|
Add IN
|
For each analog channel
|
|
Impedance
|
50 Ω, DC coupled
|
|
DC Gain
|
1
|
|
Bandwidth
|
DC to 100 MHz at -3 dB
|
|
Input Voltage Range
|
±1.0 V
|
|
Connector
|
BNC Rear
|
AWG5000B Series Common Features
|
Characteristic
|
Description
|
|
Waveform File Import Capability
|
Tektronix TDS5000/6000/7000, DPO4000/7000/70000, DSA70000
(*.wfm). TDS3000 (*.wfm) AWG400s/500s/610/615/710/710B (*.wfm, *.pat,
*.seq), DTG5000s (*.DAT) Text data file (third-party software creation
waveform data: MATLAB, MathCad, Excel)
|
|
S/W Driver for Third-party S/W
|
IVI-com driver and MATLAB library
|
|
Instrument Control / Data Transfer Ports
|
|
GPIB
|
Remote control and data transfer. (Conforms to IEEE-Std 488.1,
compatible with IEEE 488.2 and SCPI-1999.0).
|
|
Ethernet (10/100/1000Base-T)
|
Remote control and data transfer. (Conforms to IEEE 802.3).
RJ-45
|
|
Computer System and Peripherals
|
Windows XP Professional, 2 GB SDRAM, 80 GB removable Hard
Drive at rear (available front mount kit), CD-RW/DVD drive at front,
included USB compact keyboard and mouse
|
|
PC I/O Ports
|
USB 2.0 compliant ports (6 total, 2 front, 4 rear), PS/2 mouse
and keyboard connectors (rear panel), RJ-45 Ethernet connector (rear
panel) supports 10/100/1000 BASE-T, XGA out
|
|
Display
|
10.4 inch, LCD color display with touch screen, 1024 (H) ×
768 (V) (XGA).
|
|
Power Supply
|
100 to 240 VAC, 47 to 63 Hz
|
|
Power Consumption
|
450 W
|
|
Safety
|
UL61010-1, CAN/CSA-22.2, No.61010-1-04, EN61010-1, IEC61010-1
|
|
Emissions
|
EN 55011 (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
|
Physical Characteristics
|
Dimension
|
mm
|
in.
|
|
Height
|
245
|
9.6
|
|
Width
|
465
|
18.0
|
|
Length
|
500
|
19.7
|
|
Weight (approx.)
|
kg
|
lb.
|
|
Net
|
19.5
|
43.0
|
|
Net with Package
|
28.5
|
62.8
|
|
Mechanical Cooling
|
|
Required Clearance
|
cm
|
in
|
|
Top and Bottom
|
2
|
0.8
|
|
Side
|
15
|
6
|
|
Rear
|
7.5
|
3
|
Environmental
|
Characteristic
|
Operating
|
Nonoperating
|
|
Temperature
|
+10° C to +40° C
|
-20° C to +60° C
|
|
Humidity
|
5% to 80% relative humidity (% RH) at up to +30° C, 5% to
45% RH above +30° C up to +50° C,
|
5% to 90% RH (Relative Humidity) at up to +30° C, 5% to 45%
RH above +30° C up to +50° C,
|
|
Altitude
|
Up to 3,048 meters (10,000 feet)
|
Up to 12,192 meters (40,000 feet)
|
|
Random Vibration
|
0.27 GRMS, 5 to 500 Hz, 10 minutes per axis
|
2.28 GRMS, 5 to 500 Hz, 10 minutes per axis
|
|
Sine Vibration
|
0.33 mmpk-pk (0.013 inchpk-pk) constant
displacement, 5 to 55 Hz
|
NA
|
|
Mechanical Shock
|
Half-sine mechanical shocks, 30 g peak amplitude, 11 ms duration,
3 drops in each direction of each axis
|
NA
|
Ordering Information
Arbitrary Waveform Generator
Mainframe
AWG5014B
1.2 GS/s, 14-bit resolution, 16 Mpoint
per channel, 4-channel arbitrary waveform generator
AWG5012B
1.2 GS/s, 14-bit resolution, 16 Mpoint per channel, 2-channel
arbitrary waveform generator
AWG5004B
600 MS/s, 14-bit
resolution, 16 Mpoint per channel, 4-channel arbitrary waveform generator
AWG5002B
600 MS/s, 14-bit resolution, 16 Mpoint per
channel, 2-channel arbitrary waveform generator
All Models Include: Accessory pouch, front cover, USB mouse,
compact USB keyboard, lead set for DC output, stylus for touch screen
(2 ea), AWG5000B Series product software CD and instructions, documentation
CD with browser, Quick Start User Manual and registration card, Certificate
of Calibration, and power cable.
Note: Please specify
power cord and language option when ordering.
Instrument
Options
|
Option
|
Description
|
|
AWG5014B/AWG5012B/AWG5004B/AWG5002B
|
|
Opt. 01
|
Waveform Length Expansion (from 16 M to 32 M)
|
|
Opt. 08
|
Fast sequence switching (requires export control license)
ECCN:3A002
|
|
AWG5012B/AWG5002B
|
|
Opt. 03
|
28 bit digital data outputs (digital data of CH1 and CH2)
|
|
AWG5012B
|
|
Opt. 09
|
Subsequencing and table jump functionality (includes LVDS
to TTL TekLink Connector Adapter)
|
Common Options
Note: Please specify
power cord and language option at time of order.
International
Power Plugs
|
Option
|
Description
|
|
Opt. A0
|
North America
|
|
Opt. A1
|
Universal EURO
|
|
Opt. A2
|
United Kingdom
|
|
Opt. A3
|
Australia
|
|
Opt. A5
|
Switzerland
|
|
Opt. A6
|
Japan
|
|
Opt. A10
|
China
|
|
Opt. A11
|
India
|
|
Opt. A99
|
No power cord or AC adapter
|
Language Options
|
Option
|
Description
|
|
Opt. L0
|
English
|
|
Opt. L5
|
Japanese
|
|
Opt. L7
|
Simplified Chinese
|
|
Opt. L8
|
Traditional Chinese
|
|
Opt. L10
|
Russian
|
Application Software
|
Model
|
Option
|
Description
|
|
RFX100
|
|
General-purpose IQ, IF, and RF Signal Creation Software Package
|
|
Opt. UWBCF
|
RFXpress plug-in for UWB-WiMedia IQ, IF, and RF conformance
signal creation
(requires RFX100 as prerequisite)
|
|
Opt. UWBCT
|
RFXpress plug-in for UWB-WiMedia IQ, IF, and RF custom and
conformance signal creation (requires RFX100 as prerequisite and includes
Opt. UWBCF)
|
|
Opt. RDR
|
RFXpress plug-in for Radar signal creation
(requires
RFX100 as prerequisite)
|
|
Opt. SPARA
|
S-Parameter emulation and DUT characterization
(requires
RFX100 as prerequisite)
|
|
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
|
Option
|
Description
|
|
Opt. CA1
|
A single calibration event
|
|
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
|
|
Opt. R5
|
Repair service 5 years
|
|
Post-sales Service Options: (e.g. AWG5012-CA1)
|
|
CA1
|
A single calibration event
|
|
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
|
Product
|
Options to Upgrade
|
Description
|
|
AWG5014B
|
AWG50BUP
|
Opt. M14
|
Waveform Length Expansion from 16 Mpoint to 32 Mpoint
|
|
Opt. S48
|
Upgrade from standard to Option 08 (fast sequence switching)
requires export license
|
|
AWG5012B
|
AWG50BUP
|
Opt. M12
|
Waveform Length Expansion from 16 Mpoint to 32 Mpoint
|
|
Opt. D13
|
Digital Data Outputs
|
|
Opt. S38
|
Upgrade from Standard to Option 08 (fast sequence switching)
requires export license
|
|
Opt. S09
|
Upgrade from Standard to Option 09 (Subsequencing and table
jump functionality, includes LVDS to TTL TekLink Connector Adapter)
|
|
AWG5004B
|
AWG50BUP
|
Opt. M04
|
Waveform Length Expansion from 16 Mpoint to 32 Mpoint
|
|
Opt. S28
|
Upgrade from Standard to Option 08 (fast sequence switching)
requires export license
|
|
AWG5002B
|
AWG50BUP
|
Opt. M02
|
Waveform Length Expansion from 16 Mpoint to 32 Mpoint
|
|
Opt. D03
|
Digital Data Outputs
|
|
Opt. S18
|
Upgrade from Standard to Option 08 (fast sequence switching)
requires export license
|
Recommended Accessories
|
Item
|
Description
|
Part Number
|
|
Pin Header Cable
|
|
|
|
SMA Cable
|
102 cm (40 inch)
|
012-1690-xx
|
|
SMB Cable
|
51 cm (20 inch)
|
012-1503-xx
|
|
Rackmount Kit
|
Rackmount Kit with instruction
|
016-1983-xx
|
|
Front Removable HDD Bay
|
Front Removable HDD Bay
|
016-1979-xx
|
|
Replacement Hard Disk for AWG5000/7000 Series
|
SATA disk assembly (no software installation), instruction
sheet
|
065-0811-xx
|
|
Quick Start User Manual
|
English
|
071-2481-xx
|
|
Japanese
|
071-2482-xx
|
|
Simplified Chinese
|
071-2483-xx
|
|
Traditional Chinese
|
071-2484-xx
|
|
Russian
|
020-2971-xx
|
|
Programmer Manual
|
English
|
077-0061-xx
|
|
Option 09 User Manual
|
English
|
071-2674-xx
|
|
Service Manual
|
English
|
Visit Tektronix website
|
Warranty
One-year parts and labor.
|
|
Product(s) are manufactured in ISO registered facilities.
|
|
Product(s) complies with IEEE Standard 488.1-1987, RS-232-C,
and with Tektronix Standard Codes and Formats.
|
76W-22260-4, 28-JUL-2009
|
|
 |
(WebID: 14055)
|
