Detailed instructions for use are in the User's Guide.
[. . . ] Higher and higher data rates are required, and the performance of cables and circuits is moving closer to their theoretical limits. One technique to increase the data rate without increasing the transition rate is by 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. [. . . ] The latest digital RF technologies often exceed the capabilities of current test equipment to generate wide-bandwidth and fast-changing signals that are increasingly seen in many wireless applications such as radar, UWB, and others. The AWG7000 Series enables the direct generation of RF signals and their output through the D/A converter for signals up to a carrier frequency of 5 GHz and a bandwidth of 5. 8 GHz. The direct generation of IF or RF signals avoids I/Q degradations and lengthy adjustments associated with traditional generation using I/Q modulators. The AWG7000 Series with its maximum sample rate of 20 GS/s is the sole solution that allows a direct RF signal generation for up to 5 GHz. See Figure 4.
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Data Sheet
Additional Software Application Tools Extending Waveform Generation
RFXpress (RFX100)
RFXpress is a software package that synthesizes digitally modulated baseband, IF, and RF signals. It takes IQ, IF, and RF 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. UWB-WiMedia signal creation, a software module for RFXpress, has the capability to digitally synthesize and generate RF signals in Band Groups 1 and 2 of the UWB spectrum. As per the latest WiMedia specification, signals will band hop in real-time over 1. 5 GHz modulation bandwidth including all
the different preamble synchronization sequences, cover sequences, TFCs, and band groups. All six band groups (BG1 to BG6) can be generated with band hopping in either IQ or IF. The conformance mode enables you to generate all signals that conform to WiMedia's specifications, while the custom mode allows you to adjust the signals for stress and margin testing.
SerialXpress® (SDX100) SerialXpress enables creation of exact waveforms required for thorough and repeatable design validation, margin/characterization, and conformance testing of high-speed serial data receivers. It considerably simplifies the signal creation and Jitter simulations, thus reducing overall development and test time. In addition to supporting generation of Jitter (Random, Periodic (sinusoidal), ISI, and DCD) SerialXpress also supports SSC, pre-emphasis, and noise addition. This allows the user to create a combination of various impairments simultaneously to stress the receiver. Both RFXpress and SerialXpress are powerful easy-to-use software packages to synthesize RF and high-speed serial data signals respectively for arbitrary waveform generators (AWG). It runs as an integral part of the AWG7000 Series arbitrary waveform generators or from an external PC.
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Arbitrary Waveform Generator -- AWG7102 · AWG7101 · AWG7052 · AWG7051
Characteristics
Arbitrary Waveforms
Characteristic AWG7102 AWG7101 AWG7052 AWG7051
Waveform Length
2 to 32, 400, 000 points (or 2 to 64, 800, 000 points, Option 01) in multiples of 64 Interleave: 2 to 64, 800, 000 points (or 2 to 129, 600, 000 points, Option 01) in multiples of 128
2 to 32, 400, 000 points (or 2 to 64, 800, 000 points, Option 01) in multiples of 64
Number of Waveforms Sequence Length Sequence Repeat Counter Sequence Control Jump Mode Run Modes Continuous Triggered Gated Sequence Interleave operation Clock Generator Sampling frequency Resolution Internal Clock Accuracy Clock phase noise
Internal Trigger Generator
1 to 16, 000 1 to 4, 000 steps 1 to 65, 536 or infinite Repeat count, Wait for Trigger, Go-to-N, and Jump Synchronous and Asynchronous Waveform is iteratively output. current Connector
4 (2 per channel)
2 Differential 50 SMA Front
4 (2 per channel)
2
-1. 4 V to +1. 4 V 0. 5 Vp-p to 1. 4 Vp-p 10 mV -2. 8 V to +2. 8 V ±(10% of setting + 50 mV) 45 ps (1. 0 Vp-p, Hi +1. 0 V, Lo 0 V) <13 ps (between each channel (+) Pos and () Neg output) (typical) <30 ps (between Marker 1 and Marker 2 output) (typical) 0 to 300 ps 1 ps ±(5% of setting + 50 ps) 1010 clock pattern 1 ps 215-1 PN data pattern (at 10-12 BER) 30 psp-p 1. 2 Vp-p into 50 . Max 2. 5 Vp-p open 50 , AC coupling BNC Rear 4: Independently controlled outputs -3. 0 to +5. 0 V 10 mV ±30 mA 2×4 Pin Header on front panel 30 psp-p 1 ps
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Data Sheet
Auxiliary Inputs
Characteristic AWG7102 AWG7101 AWG7052 AWG7051
Trigger/Gate In Impedance Polarity Connector Input Voltage Range Threshold Level Resolution Trigger to output uncertainly Asynchronies between internal/external clock and trigger timing (typical) Synchronize between external clock and trigger timing (typical) Synchronize between external 10 MHz reference and trigger timing (typical) Trigger Mode Minimum pulse width Trigger hold-off Delay to analog out Gated Mode Minimum pulse width Delay to analog out Event Input Impedance Polarity Connector Input voltage range Threshold level Resolution Sequence Mode Minimum pulse width Event hold-off Delay to analog out External Clock IN Input voltage swing Impedance Frequency range Clock divider Connector Fixed Reference Clock IN Input voltage range Impedance Frequency range Connector Variable Reference Clock IN Input ranges Input voltage range Impedance Multiplier rate Connector
1 k or 50 POS or NEG BNC Front 1 k: ±10 V 50 : ±5 V -5. 0 V to 5. 0 V 0. 1 V 2. 2 ns at 10 GS/s, 2. 6 ns at 7 GS/s, 3. 4 ns at 5 GS/s 10 GS/s x1 clock divider: 8 clock + 50 psp-p 10 GS/s x1 clock divider with specific timing: 50 psp-p, 10 psRMS The ambient temperature variant allows only ±5 10 GS/s setting: 8 clock + 150 psp-p 10 GS/s setting with specific timing: 150 psp-p, 30 psRMS The ambient temperature variant allows only ±5 20 ns 832 × sampling_period - 100 ns 128 × sampling_period + 250 ns 1024 × sampling_period + 10 ns 640 × sampling_period + 260 ns 1 k or 50 POS or NEG BNC Front 1 k: ±10 V 50 : ±5 V -5. 0 V to 5. 0 V 0. 1 V 20 ns 900 × sampling_period + 150 ns 1024 × sampling_period + 280 ns (Jump timing: Asynchronous jump) +5 to +11 dBm 50 , AC coupled 5 GHz to 10 GHz: (acceptable frequency drift is ±0. 5%) 1/1, 1/2, 1/4. . . . . . 1/256 1/2, 1/4. . . . . . 1/256 SMA Rear 0. 2 Vp-p to 3. 0 Vp-p 50 , AC coupled 10 MHz, 20 MHz, 100 MHz (with ±0. 1%) BNC Rear 5 MHz to 800 MHz (acceptable frequency drift is ±0. 1%) 0. 2 Vp-p to 3 Vp-p 50 , AC coupled 1 to 2000 1 to 1000 BNC Rear
1 to 2000 (2 to 4000 at interleave)
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Arbitrary Waveform Generator -- AWG7102 · AWG7101 · AWG7052 · AWG7051
AWG7000 Series Common Features
Characteristic Description
Physical Characteristics
Dimension mm in.
Tektronix DPO7000/TDS5000/6000/7000 (*. wfm), TDS3000 (*. ISF) AWG400s/500s/610/615/710/710B (*. wfm, *. pat, *. seq) Text data file (third-party software creation waveform data: MATLAB, MathCad, Excel) S/W Driver for Third-party IVI-COM driver S/W Instrument Control / Data Transfer Ports GPIB*1 Remote control and data transfer. [. . . ] C3)
Instrument Options
Product Options
Option
AWG7102
Description Waveform Length Expansion (from 32 M to 64 M) High-bandwidth output with 20 GS/s interleaved including Opt. 02 features (alternative for standard output) Waveform Length Expansion (from 32 M to 64 M) High-bandwidth output (alternative for standard output)
Opt. Opt.
CA1 C3 C5 D1 D3 D5 R3 R5
A single calibration event Calibration Service 3 Years Calibration Service 5 Years Calibration Data Report Calibration Data Report 3 Years (with Opt. [. . . ]