產品明細

AWG-7000 脈波產生器

產品簡述

♦ 取樣率: 20 GS/s
♦ 垂直解析可達14 Bit
♦ Edge time最小可達 50 ps
最小脈衝頻寬: 100 psps
♦ 最大動態範圍可達 5 Vpp (50 ohms)
♦ 記憶深度: 每個通道高達9 Gpts
♦ 最多可提供32個數位通道與類比通道同步
♦ 軟體使用者介面: AWG模式使用Simple TrueArb Rider; AFG模式使用Simple Rider

詢價

產品詳細介紹Product Introduction

ARB RIDER AWG-7000 FAST PULSE GENERATOR

Ultra Fast Pulse Generator – 50 ps Rise/Fall time and 5 Vpp Amplitude

The ARB Rider AWG-7000 Series is the World’s Fastest 2 and 4 analog channels pulse generator equipped with a 14 bit resolution Digital to Analog converter.
Single pulse or double pulse can be programmed in few seconds thanks to the most easy-to-use user interface on the market.

AWG-7000 Pulse Generator Series offers 20 GS/s update rate, 5 Vpp output voltage range, 50 ps Rise/Fall time, and up to 9 GSamples memory depth, making this product the ideal choice for Optics & Photonics, Quantum, Advanced Research, Aerospace & Defense and Semiconductor Test applications.

Up to 4 analog channels per unit and up to 32 digital lines (TTL or LVDS standards) allow the user to create a mixed-signal generation setup to generate analog and digital stimuli.

No Compromise on analog performances: the fast rise time of 50 ps can be achieved at a maximum amplitude of 5Vpp

Moreover, the Pulse Pattern Generator option, allows you to generate a stream of binary information through the front end SMA connectors with an update rate of 6.5 Gbps: built-in PRBS sequences, modulation features, transition shaping, and the flexibility of a powerful analog front-end makes the SPG the perfect tool for the most challenging applications.

A dedicated intra-chassis synchronization bus, allow multi-instrument synchronization up to 4 units: 16 analog channels and 128 digital channels for the most powerful mixed-signal generator in the world.

Models

Models	No. of Channels	Min. Rise/Fall Time (20%-80%)	Amplitude	Baseline Offset	Min. Pulse Width
AWG-7202	2	50 ps	5Vpp into 50 Ohm	+/-2.5V	100 ps
AWG-7172	2	50 ps	5Vpp into 50 Ohm	+/-2.5V	100 ps
AWG-7102	2	100 ps	5Vpp into 50 Ohm	+/-2.5V	200 ps
AWG-7204	4	50 ps	5Vpp into 50 Ohm	+/-2.5V	100 ps
AWG-7204-S	4	50 ps	5Vpp into 50 Ohm	+/-2.5V	100 ps
AWG-7174	4	50 ps	5Vpp into 50 Ohm	+/-2.5V	100 ps
AWG-7174-S	4	50 ps	5Vpp into 50 Ohm	+/-2.5V	100ps
AWG-7104-S	4	100 ps	5Vpp into 50 Ohm	+/-2.5V	200ps

* 20 GSa/s models are subjected to export license to be exported outside EU. Please contact Active Technologies for more information.

Pulses for All Your Needs | Advanced Research & Semiconductors

The AWG-7000 has the best overall Amplitude*Bandwidth product in the market: you can generate 5Vpp pulses with more than 6.5 GHz of analog bandwidth.
AWG-7000’s key features meet the scientists and engineers working on large experiments such Accelerators, Tokamak or synchrotrons to emulate signals without creating specifics test boards.

About the latest semiconductors technologies, consumers take advantage of today such as SATA, USB, and PCI Express in terms of much smaller footprints, much higher data throughput, and lower power requirements.

The AWG-7000 Series allows the testing of these high-speed devices, since it can provide up to 16 analog output channels with a maximum data rate of 8 Gbps and it can perform PCI-Express Gen. 3 debugging.

The fast edges and pulse generation can be used to provide characterization in fast power devices.

Highlights

Up to 5Vpp into 50 Ohm Pulse Amplitude with ± 2.5V hardware offset
50 ps Rise and Fall Time
Minimum Pulse Width: 100 ps
Emulation of detectors
Generation/playback of real-world signals
High-speed serial testing
Semiconductors characterization
Frequency response, intermodulation distortion and noise-figure measurements.
Pulse Pattern generation

Features

Sample rate can be programmed in from 1 S/s up to 6.16 GS/s (12.32 GS/s in RF mode in 506x models only), with 16-bit vertical resolution, ensures exceptional signal integrity
Arbitrary waveform memory up to 4 Gpts for each analog channel
Mixed Signal Generation – 2, 4 or 8 Analog channels with 8, 16 or 32 synchronized Digital Channels for debugging and validating digital design.
Three operation modes – Simple Rider AFG (DDS AFG mode), True Arb (variable clock Arbitrary AWG mode) and SPG (Serial Pattern Generator).
Digital outputs provide up to 1.54 Gb/s data rate in LVDS format. LVDS to LVTTL adapter is available
Advance sequencer with up to 16384 user defined waveforms provides the possibility of generating complex signal scenarios with the most efficient memory usage
Windows based platform with 7in touch screen, front panel buttons and knob
Compact form factor, convenient for bench top and fully fit with 3U – 19” rackmount standard
LAN,USB-TMC and GPIB interfaces for remote control

Apllication Areas

Optics & Photonics, RF Wireless
The AWG-7000 is the ideal choice for the frontier of science & technology experiments and cutting-edge 1 Digital output channels are available in the 7204 and 7174 model only challenges like High Energy Physics, Optical, laser and photonics and RF Wireless Communication. The AWG-7000 Series instrument can create virtually any signal - analog or digital, ideal or distorted, standard or custom. You can easily build complex RF/IF/IQ waveform, extremely small width, high amplitude pulses to drive electro/acousto-optic modulators, pulsed laser diode or it can be used in quantum optics experiments like manipulating nitrogen vacancy color center in diamond.

Highlights

Drive electro-optic modulator.
Modulating and driving laser diode.
Quantum optics emitters testing.
RF Wireless Digital modulation

Quantum, Optics & Photonics, RF Wireless
The AWG-7000 is the ideal choice for the frontier of science and technology experiments and cutting-edge challenges like Quantum Communication & Encryption (QKD), Quantum Sensing, High Energy Physics, Optical, laser and photonics and RF Wireless Communication.
The AWG-7000 Series instrument can create virtually any signal – analog or digital, ideal or distorted, standard or custom. You can easily build complex RF/IF/IQ waveform, extremely small width and high amplitude pulses to drive electro-optic modulators or generate serial data streams on your PC and transfer it to the AWG.

Highlights

Minimum delay between Trigger In and Analog Out
Up to 16 analog channels and 128 digital channels fully synchronized
Built-in sequencer with conditional/unconditional/dynamic jump features, two independent Trigger Inputs, up to 4 Marker outputs
QKD, Quantum Sensing and Quantum emitters testing
Electro-optic Modulator driver
Cold Atoms testing
PRBS signal generation

Radar, LiDAR Design, Automotive and EW

Wideband radar and electronic warfare systems need high fidelity signals to replicate real-world situations and complex environment scenarios.

Today’s cars are including a lot of highly sophisticated electronic control unit with very sensitive electronic components.
As demands go up, next-generation advanced driver-assistance systems (ADAS) require camera and radar systems with increasingly high resolution.

Camera, LIDAR, Radar and Ultrasound devices need higher bandwidth and lower latency networking and complex automotive technologies to come.

Key Features

Generate Radar test signals with excellent spurious performance
Create Electronic Warfare complex scenarios with up to 16384 sequencer entries and Advanced Sequencer conditional/unconditional jumps.
Build up LiDAR signal testing for aerospace & defense, automotive and mobile devices solutions
Electrical standards emulation up to 5V
Physical layer testing.
Sensor testing
Create test waveforms using the Waveform Editor software or import them using third-party applications like MatLab, Labview, .NET languages, etc.

Automotive

Today's cars are including a lot of highly sophisticated electronic control unit with very sensitive electronic components. As demands go up, next-generation advanced driver-assistance systems (ADAS) require camera and radar systems with increasingly high resolution. Camera, LIDAR, Radar and Ultrasound devices need higher bandwidth and lower latency networking and complex automotive technologies to come. Physical layer testing, transmit & receiver testing and channel testing need a high performance and easyto-use tools to satisfy the latest automotive challenges. The Arb-Rider 7000 Series combining 20 GS/s with 14-bits vertical resolution, represents the ideal instrument for generating the real-world signals that are necessary to emulate the most demanding testing cases.

Highlights

Electrical standards emulation up to 5V.
Physical layer testing. • Sensor testing.
EMI debugging, troubleshooting and testing.

Advanced Research Applications
The AWG-7000 has the best overall product in the market between signal amplitude and bandwidth: you can generate 5Vpp pulses with more than 6.5 GHz of analog bandwidth. The combination of ultra-fast edge & minimum pulse width generation, excellent dynamic range and easy to use interface perfectly meet the scientists and engineers working on large experiments such Accelerators, Tokamak or synchrotrons to emulate signals without creating specifics test boards. Pulses may be easily generated for applications such Pulse Electron Beam or X Ray Sources, Flash X-ray Radiography, Lighting pulse simulators, high Power Microwave modulators.

Highlights

Emulation of detectors.
Emulation of signal sources adding noise.
Generation/playback of real-world signals.

Aerospace and Defense applications

The AWG-7000 has the best overall product in the market between signal amplitude and bandwidth: you can generate 5Vpp pulses with more than 6.5 GHz of analog bandwidth. The combination of ultra-fast edge & minimum pulse width generation, excellent dynamic range and easy to use interface perfectly meet the scientists and engineers working on large experiments such Accelerators, Tokamak or synchrotrons to emulate signals without creating specifics test boards. Pulses may be easily generated for applications such Pulse Electron Beam or X Ray Sources, Flash X-ray Radiography, Lighting pulse simulators, high Power Microwave modulators.

Highlights

Emulation of detectors.
Emulation of signal sources adding noise.
Generation/playback of real-world signals.

Semiconductors Test

Consumers continually demand better performance in a smaller form factor with reduced power requirements. This in turn has led to devices with much smaller footprints, much higher data throughput, and lower power requirements. These features enable many of the technologies that consumers take advantage of today such as SATA, USB, and PCI Express. The AWG-7000 Series allows the testing of these high-speed devices, since it can provide up to 16 analog output channels with a maximum data rate of 8 Gbps and it can perform PCI-Express Gen. 3 debugging. Emulation of complex signals generated with inclusion of noise or distortions may became an excellent way to provide Compliance Components Test to help semiconductors engineers. The fast edges and pulse generation can be used to provide characterization in fast power devices.

Highlights

High-speed serial testing.
Semiconductors characterization.
High-speed clock generation.
Frequency response, intermodulation distortion and noise-figure measurements.
Pulse Pattern generation.

Waveform Editor: Powerful and Easy

The Waveform Editor allows you to create easily the most complex shapes for your radar pulses, physical research pulses, real-world signals, and complex environment signals. It is included in the standard software package.

Key Features

Generate easily the most complex analog and digital signals
Create your waveforms remotely on your PC
Full integration with the True-Arb software

Multi-Instrument Synchronization

You can synchronize up to 4 units to build a system made of 16 analog channels and 128 digital channels fully synchronized and integrated with the True-Arb software.

Main Features

Synchronize up to 4 units: 32 Analog channels and 128 Digital channels
Affordable price per channel
Easy to use Multi-Instrument control through True-Arb software

Specifications

General Specifications
Model No.	AWG-7202 AWG-7202D AWG-7172 AWG-7172D AWG-7102 AWG-7102D	AWG-7204 AWG-7204D AWG-7204S AWG-7204D-S AWG-7174 AWG-7174D AWG-7174-S AWG-7174D-S AWG-7104 AWG-7104D
Operating Mode	AFG Mode - True Arb Mode - SPG Mode (optional)
Number of Markers and Analog Channels	2	4
Analog channels	2	4

Model No.	AWG-7202 AWG-7202D AWG-7172 AWG-7172D AWG-7102 AWG-7102D AWG-7204-S AWG-7204D-S AWG-7174-S AWG-7174D-S	AWG-7204 AWG-7204D AWG-7174 AWG-7174D AWG-7104 AWG-7104D
Number of Digital Channels
Digital channels	—	32

Model No.	AWG-7202 AWG-7204 AWG-7204-S AWG-7172 AWG-7174 AWG-7174-S AWG-7102 AWG-7104	AWG-7202D AWG-7204D AWG-7204D-SD AWG-7172D AWG-7174D AWG-7174D-S AWG-7102D AWG-7104D
Output Channels
Output type	Single ended DC coupled	Differential DC coupled
Output impedance	Single ended: 50 Ω	Single ended: 50 Ω Differential: 100 Ω
Connectors	SMA on front panel
DC Amplitude
Amplitude range	±2.5 V (into 50 Ω)	±0.625 V Se. (into 50 Ω) ±1.25 V Diff. (into 100 Ω)
Resolution	500µV (nom), 5 digits	100µV (nom), 5 digits
Amplitude accuracy	±(1.5% of \|setting\| + 15mV)³	±(1% of \|setting\| + 2mV)³
DC Baseline Hardware Offset (Common mode offset)
Resolution	< 4 mV or 4 digits
Range (50 Ω into 50 Ω)	-2.5 V to +2.5 V	-2 V to +2 V
Range (50 Ω into High Z load)	-2.5 V to +2.5 V	-4 V to +4 V
Accuracy (50 Ω into 50 Ω) (guaranteed)	±(1% of \|setting\| + 15 mV)	±(1% of \|setting\| + 5 mV)
AC Accuracy (1 kHz sine wave, 0 V offset, > 5 mVp-p amplitude, 50 Ω load) (guaranteed)	± (1% of setting [Vpp] + 5mV) ³
³ The specification is guarantee in the range 0% to 80% of full scale output

True Arb - Baseband mode specifications
Model No.	AWG-7202 AWG-7204 AWG-7204-S AWG-7172 AWG-7174 AWG-7174-S AWG-7102 AWG-7104	AWG-7202D AWG-7204D AWG-7204D-S AWG-7172D AWG-7174D AWG-7174D-S AWG-7102D AWG-7104D
General specifications
Operating Modes	Full Rate Mode (Variable clock) Half Rate Mode (Variable clock)
Sampling Rate
*AWG-720x(D) / AWG717x(D)* Model:
- Full Rate Mode	1 S/s to 20 GS/s⁴ (AWG-720x(D)) 1 S/s to 17 GS/s⁴ (AWG-717x(D))
- Half Rate Mode	1 S/s to 10 GS/s⁴
AWG-7204(D)-S / AWG7174(D)-S Model:	1 S/s to 20 GS/s⁴ (AWG-7204(D)-S) 1 S/s to 17 GS/s⁴ (AWG-7174(D)-S)
AWG-710x(D) Model:	1 S/s to 10 GS/s⁴
Sin(x)/x	8.85 GHz @ 20GS/S (AWG-7202(D) / AWG7204(D)(-S)) 7.52 GHz @ 17GS/S (AWG-7172(D) / AWG7174(D)(-S)) 4.425 GHz @ 10GS/S (AWG-710x / AWG710xD)
Run Modes	Continuous, Triggered Continuous, Single/Burst, Stepped, Advanced
Vertical Resolution	14 bit
⁴ The entire Sample Rate interval is not continuous (see the corresponding section in the User manual)
Max Waveform Memory
AWG-720x(D) / AWG717x(D) Models:
- Full Rate Mode (20 GS/s)	AWG7202 / AWG7202D and AWG7172 / AWG7172D: CH1: 9.6 Gsamples; CH2: 1.17 Msamples AWG7204 / AWG7204D and AWG7174 / AWG7174D: CH1, CH3: 9.6 Gsamples; CH2, CH4: 589 ksamples
- Half Rate Mode (10 GS/s)	4.8 Gsamples for channel
AWG-7204(D)-S / AWG7174(D)-S Models:
- 4 Channel:
Full Rate SHORT MEMORY (20 GS/s)	512 ksamples for every channel
- 2 Channel:
Full Rate Mode (20 GS/s)	CH1: 9.6 Gsamples; CH2: 1.17 Msamples
Half Rate Mode (10 GS/s)	4.8 Gsamples for channel
AWG-710x(D) Models:	4.8 Gsamples for channel
Waveform Granularity
AWG-720x(D) / AWG717x(D) Models:
- Full Rate Mode (20 GS/s)	AWG7202 / AWG7202D and AWG7172 / AWG7172D: CH1: 9.6 Gsamples; CH2: 1.17 Msamples AWG7204 / AWG7204D and AWG7174 / AWG7174D: CH1, CH3: 9.6 Gsamples; CH2, CH4: 589 ksamples
- Half Rate Mode (10 GS/s)	4.8 Gsamples for channel
AWG-7204(D)-S / AWG7174(D)-S Models:
- 4 Channel:
Full Rate SHORT MEMORY (20 GS/s)	512 ksamples for every channel
- 2 Channel:
Full Rate Mode (20 GS/s)	CH1: 9.6 Gsamples; CH2: 1.17 Msamples
Half Rate Mode (10 GS/s)	4.8 Gsamples for channel
AWG-710x(D) Models:	4.8 Gsamples for channel
Waveform Granularity	For AWG 720x / 720xD and AWG 717x / 717xD: 1 if the entry length is > 8928 samples 288 if entry length is ≥ 288 and ≤ 8928 samples For AWG 7204-S / 7204D-S: 1 if the entry length is > 512 samples 64 if entry length is ≥ 256 and ≤ 512 samples For AWG 710x / 710xD: 1 if the entry length is > 4464 samples 288 if entry length is ≥ 288 and ≤ 4464 samples
Sequence Length	1 to 16384
Sequence Repeat Counter	1 to 4294967294 or infinite
Timer
Range	17.6 ns to 429 ms
Resolution	± 1 sampling clock cycle
Analog Channel to Channels skew
Range	0 to 1.63 us
Resolution	4CH Model: CHx to CHx (x=1,2,3,4): 1 sampling Clock Cycle CH1/CH2 couple to CH3/CH4 couple: 100 fs 2CH Model: CHx to CHx (x=1,2): 100 fs
Accuracy	±(1% of setting + 20 ps)
Initial skew	< 20 ps
Calculated bandwidth (0.35 / rise or fall time_10-90)
- For 20 or 17 GSa/s model:	≥ 5 GHz	≥ 5.8 GHz
- For 10 GSa/s model:	≥ 2.6 GHz	≥ 3.25 GHz
Measured 3dB bandwidth (sin(x)/x compensated)
- For 20 or 17 GSa/s model:	5.8 GHz	—
- For 10 GSa/s model:	3 GHz	—
SFDR @ 100 MHz⁵
Measured across DC to Fs/2 where Fs is: Fs= 20 Gsa/s for AWG-720x(D) models Fs= 17 Gsa/s for AWG-717x(D) models Fs= 10 Gsa/s for AWG-710x(D) models	< - 65 dBc	—
⁵ Measured excluding Fs - 2fout and Fs- 3fout and excluding harmonic. For AWG-7202/7204(-S) models the SFDR is evaluated @ 2.5Vpp single ended nominal output amplitude.
SFDR
Measured across DC to Fs/2 where Fs is: Fs= 20 Gsa/s for AWG-720x(D) models Fs= 17 Gsa/s for AWG-717x(D) models Fs= 10 Gsa/s for AWG-710x(D)models	18mHz to ≤ 100MHz: < -65dBc 100MHz to ≤ 500MHz: < -60dBc 500MHz to ≤ 5GHz: < -55dBc 5GHz to ≤ 10GHz: < -50dBc	—
Rise/fall time (1 V_p-p single-ended 20% to 80%)
- For 20 or 17 GSa/s model:	≤ 50 ps	≤ 45 ps
- For 10 GSa/s model:	≤ 85 ps	≤ 77 ps
Rise/fall time (1 V_p-p single-ended 10% to 90%)
- For 20 or 17 GSa/s model:	≤ 70 ps	≤ 60 ps
- For 10 GSa/s model:	≤ 130 ps	≤ 110 ps
Overshoot (1 V_p-p single-ended)	<8%	<6%
Random jitter on clock pattern (rms, typical)	< 2 ps

AFG Mode Specifications
Model No.	AWG-7202 AWG-7204 AWG-7204-S AWG-7172 AWG-7174 AWG-7174-S AWG-7102 AWG-7104	AWG-7202D AWG-7204D AWG-7204D-S AWG-7172D AWG-7174D AWG-7174D-S AWG-7102D AWG-7104D
General Specifications
Amplitude
Range	0 to 5Vpp (into 50 Ω)	0 to 2.5Vpp Diff. (into 100 Ω) 0 to 1.25Vpp Se. (into 50 Ω)
Resolution	500µV (nom), 5 digits	100µV (nom), 5 digits
Operating mode	DDS mode
Standard Waveforms	Sine, Square, Pulse, Ramp, more (Noise, DC, Sin(x)/x, Gaussian, Lorentz, Exponential Rise, Exponential Decay, Haversine
Run Modes	Continuous, modulation, sweep, burst
Arbitrary Waveforms	Vertical resolution: 14-bit Waveform length: 16,384 points
Internal Trigger Timer
Range	6.5 ns to 100 s
Resolution	31.25 ps
Accuracy	±(0.1% setting + 5 ps)
Sine Waves
Max Frequency	6.5 GHz (for 20 Gsps and 17 Gsps models) 3.25 GHz _{(for 10 Gsps models)}
Frequency Range Sine (50 Ω into 50 Ω)	18 mHz to ≤ 3.5 GHz: 5V_pp 3.5 GHz to ≤ 4.5 GHz: 4V_pp 4.5 GHz to ≤ 6.5 GHz: 3V_pp	18 mHz to ≤ 6.5 GHz: 2.5V_pp Diff. 18 mHz to ≤ 6.5 GHz: 1.25V_pp Se.
Flatness	DC to 6 GHz: ±0.5 dB _{(1 Vpp, relative to 1 kHz)}	DC to 6.5 GHz: ±0.5 dB _{(1 Vpp diff., relative to 1 kHz)}
Harmonic Distortion (1 V_p-p)	18mHz to ≤ 1MHz < -60dBc 1MHz to ≤ 1GHz < -50dBc 1GHz to ≤ 6.5GHz < -40dBc	—
Total Harmonic Distortion (1 V_p-p)	10 Hz to 20 kHz < 0.2%	—
Spurious ⁶
Measured across DC to Fs/2 where Fs is: Fs= 20 Gsa/s for AWG-720x(-D) models Fs= 17 Gsa/s for AWG-717x-D models Fs= 10 Gsa/s for AWG-710x-D models	18mHz to ≤ 1MHz < -60dBc 1MHz to ≤ 1GHz < -50dBc 1GHz to ≤ 6.5GHz < -40dBc	—
Phase Noise (1 V_p-p, 10 kHz offset)	20 MHz: < -127 dBc/Hz typ. 100 MHz: < -124 dBc/Hz typ. 1 GHz: < -105 dBc/Hz typ.
⁶ For Single ended models the spurious are evaluated @ 1Vpp single ended nominal output amplitude.
Square Waves
Channels with Square Wave	All Channels (for all models excluding -S models) Only on CH1 and CH2 (for -S models)
Frequency Range	18 mHz to ≤ 2.5 GHz (for 20 Gsps and 17 Gsps models) 18 mHz to ≤ 1.25 GHz (for 10 Gsps models)
Rise/fall time (10% to 90%)	120 ps (for 20 Gsps and 17 Gsps models) 240 ps (for 10 Gsps models)
Rise/fall time (20% to 80%)	90 ps (for 20 Gsps and 17 Gsps models) 180 ps (for 10 Gsps models)
Overshoot (1 V_p-p)	<2%
Jitter (rms)	<2 ps
Pulse Waves
Channel with Pulse Wave	All Channels (for all models but -S models) CH1 and CH2 (for -S models)
Frequency Range	18 mHz to ≤ 2.5 GHz (for 20 Gsps and 17 Gsps models) 18 mHz to ≤ 1.25 GHz (for 10 Gsps models)
Pulse width	150 ps to (Period – 150 ps)⁷ _{(for 20 Gsps and 17 Gsps models)} 300 ps to (Period – 300 ps)⁷ _{(for 10 Gsps models)}
⁷ Below 150 ps width ((for 20 Gsps and 17 Gsps models)) or below 300 ps ((for 10 Gsps models)), the pulse amplitude will have some reduction with respect to the set value.
Pulse width Resolution	20 ps or 15 digits
Pulse duty	0.1% to 99.9% (limitations of pulse width apply)
Leading/trailing edge transition time (10% to 90%) Leading/trailing edge transition time (20% to 80%)	120 ps to 1000 s (for 20 Gsps and 17 Gsps models) 240 ps to 1000 s (for 10 Gsps models) 90 ps to 1000 s (for 20 Gsps and 17 Gsps models) 180 ps to 1000 s (for 10 Gsps models)
Transition time Resolution	2 ps or 15 digits
Overshoot (1 V_p-p)	< 2%
Jitter (rms, with rise and fall time ≥ 400ps)	<2 ps
Double Pulse Waves
Frequency Range (Vpp= \|Vpp1\| + \|Vpp2\|)	for 20 Gsps and 17 Gsps models: 18 mHz to ≤ 1.25 GHz: 10Vpp for 10 Gsps models: 18 mHz to ≤ 625 MHz: 10Vpp	for 20 Gsps and 17 Gsps models: 18 mHz to ≤ 1.25 GHz: 5Vpp Diff. (18 mHz to ≤ 1.25 GHz: 2.5Vpp Se) for 10 Gsps models: 18 mHz to ≤ 625 MHz: 5Vpp Diff. (18 mHz to ≤ 625 MHz: 2.5Vpp Se)
Other Pulse Parameters	Same as Pulse Waves
Ramp Waves
Frequency Range	18 mHz to 250 MHz (for 20 Gsps and 17 Gsps models) 18 mHz to 125 MHz (for 10 Gsps models)
Linearity (< 10 kHz, 1 V_p-p, 100%)	≤ 0.1%
Symmetry	0% to 100%
Other Waves
Frequency Range
Exponential Rise, Exponential Decay	18 mHz to 250 MHz (for 20 Gsps and 17 Gsps models)
Sin(x)/x, Gaussian, Lorentz, Haversine	18 mHz to 500 MHz (for 20 Gsps and 17 Gsps models) 18 mHz to 250 MHz (for 10 Gsps models)
Additive Noise
Bandwidth (-3 dB)	4 GHz
Level	0 V to 2.5 V - abs(carrier max value [V_pk])	0 V to 0.625 V Single Ended - abs(carrier max value [V_pk]) 0 V to 1.25 V Differential - abs(carrier max value [V_pk])
Resolution	1 mV
Arbitrary
Number of Samples	2 to 16384
Frequency range	1 μHz to 2.5 GHz (for 20 Gsps and 17 Gsps models) 1 μHz to 1.25 GHz (for 10 Gsps models)
Analog Bandwidth (-3 dB)	2.9 GHz (for 20 Gsps and 17 Gsps models) 1.45 GHz (for 10 Gsps models)
Rise/fall time (10% to 90%)	120 ps (for 20 Gsps and 17 Gsps models) 240 ps (for 10 Gsps models)
Rise/fall time (20% to 80%)	90 (for 20 Gsps and 17 Gsps models) 180 ps (for 10 Gsps models)
Jitter (rms)	< 2 ps
Frequency Resolution
Sine, square, pulse, arbitrary, Sin(x)/X Gaussian, Lorentz, Exponential Rise, Exponential Decay, Haversine	18 mHz or 15 digits 18 mHz or 14 digits
Frequency Accuracy
Non-ARB ARB	± 2.0 ppm of setting \| ± 500 ppb of setting (Opt.) ± 2.0 ppm of setting ±1 μHz \| ± 500 ppb of setting ±1 μHz(Opt.)
Modulations
Amplitude Modulation (AM)
Carrier waveforms Modulation source Internal modulating waveforms Modulating frequency Depth	Standard waveforms (except Pulse, DC and Noise), ARB Internal or external Sine, Square, Ramp, Noise, ARB Internal: 18 mHz to 80 MHz, External: 1 GHz max. 0.00% to 120.00%
Frequency Modulation (FM)
Carrier waveforms Modulation source Internal modulating waveforms Modulating frequency	Standard waveforms (except Pulse, Square, DC and Noise), ARB Internal or external Sine, Square, Ramp, Noise, ARB Internal: 18 mHz to 80 MHz, External: 1 GHz max.
Peak deviation	DC to 6.5 GHz (for 20 Gsps and 17 Gsps models) DC to 3.25 GHz (for 10 Gsps models)
Phase Modulation (PM)
Carrier waveforms Modulation source Internal modulating waveforms Modulating frequency Phase deviation range	Standard waveforms (except Pulse, Square, DC and Noise), ARB Internal or external Sine, Square, Ramp, Noise, ARB Internal: 18 mHz to 80 MHz, External: 1 GHz max. 0° to 360°
Frequency Shift Keying (FSK)
Carrier waveforms Modulation source Internal modulating waveforms Key rate	Standard waveforms (except Pulse, Square, DC and Noise), ARB Internal or external Square Internal: 18 mHz to 80 MHz, External: 1 GHz max.
Hop frequency	1 μHz to 6.5 GHz (for 20 Gsps and 17 Gsps models) 1 μHz to 3.25 GHz (for 10 Gsps models)
Number of keys	2
Phase Shift Keying (PSK)
Carrier waveforms Modulation source Internal modulating waveforms Key rate Hop phase Number of keys	Standard waveforms (except Pulse, Square, DC and Noise), ARB Internal or external Square Internal: 18 mHz to 80 MHz, External: 1 GHz max. 0° to +360° 2
Pulse Width Modulation (PWM)
Carrier waveforms Modulation source Internal modulating waveforms Modulating frequency Deviation range	Pulse Internal or external Sine, Square, Ramp, Noise, ARB Internal: 18 mHz to 80 MHz, External: 1 GHz max. 0% to 50% of pulse period
Sweep
Type Waveforms Sweep time Rise/Hold/return times Rise/hold/return time resolution Total sweep time accuracy	Linear, Logarithmic, staircase, and user defined Standard waveforms (except Pulse, DC and Noise), ARB 4ns ≤ Rise time + Hold time + Fall time ≤ 2000s 0 to 2000 s 1ps or 12 digits ≤ 0.4%
Start/stop frequency range	18 mHz to Max Waveform frequency (see Frequency Range for the Specific Waveform)
Trigger source	Internal/External/Manual
Burst
Waveforms Type Burst count	Standard waveforms (except DC and Noise), ARB Trigger or gated 1 to 4,294,967,295 cycles or Infinite

Pulse Pattern Generator (PPG) Specifications – Optional
Model No.	AWG-7202 AWG-7204 AWG-7204-S AWG-7172 AWG-7174 AWG-7174-S AWG-7102 AWG-7104	AWG-7202D AWG-7204D AWG-7204D-S AWG-7172D AWG-7174D AWG-7174S-S AWG-7102D AWG-7104D
General Specifications
Operating mode	NRZ, RZ or R1 bitstream Pattern generator
Pattern types	Clock Pattern, Custom Pattern, PRBS pattern, Go-Through Pattern, Pulse Pattern
Run Modes	Continuous, modulation, burst (Triggered, Gated, Continuous triggered)
Internal Trigger Timer
Range	6.5 ns to 100 s
Resolution	31.25 ps
Accuracy	±(0.1% setting + 5 ps)
Transition Specifications
Tansition peculiarity	Arbitrarily user defined transition shapes Programmable duration for any transition
Transitions types	Arbitrary, predefined
Transitions memory length	64 points
Predefined transition Shapes	Sine, Square, Pulse, Ramp_up, Ramp_down, DC, Sin(x)/x, Gaussian, Lorentz, Exponential Rise, Exponential Decay, Haversine
Transition duration [0-100%]	For 20 Gsps and 17 Gsps models: 150ps to Symbol duration for Custom, PRBS and Go-Through pattern 150ps to Period/2 for Clock Pattern 150ps to (Period-150ps) for Pulse Pattern
	For 10 Gsps models: 300ps to Symbol duration for Custom, PRBS and Go-Through pattern 300ps to Period/2 for Clock Pattern 300ps to (Period-300ps) for Pulse Pattern
Clock Pattern
Max clock pattern frequency	3.25 GHz (for 20 Gsps and 17 Gsps models) 1.625 GHz (for 10 Gsps models)
Pattern levels	2 levels
Overshoot (1 V_p-p)	< 2 %
Jitter (rms)	< 2 ps
Custom Pattern
Max custom pattern rate	Up to 6.5 Gbaud (for 20 Gsps and 17 Gsps models) Up to 3.25 Gbaud (for 10 Gsps models)
Pattern levels	2, 3 or 4 levels
Predefined custom patterns	Zero, one, clock, counter
Pattern memory channel	Up to 12 MBit (2 levels) Up to 6 MSymbols (3 or 4 levels) (For 2 channel models) Up to 6 MBit (2 levels) Up to 3 MSymbols (3 or 4 levels) (For 4 channel models)
Pattern length resolution	1 bit
Min pattern length	16 bits
Overshoot (1 V_p-p)	< 2%
PRBS Pattern
Max PRBS pattern rate	Up to 6.5 Gbaud (for 20 Gsps and 17 Gsps models) Up to 3.25 Gbaud (for 10 Gsps models)
Pattern levels	2 levels
PRBS types	PRBS -7,9,11,15,23,31
Overshoot (1 V_p-p)	< 2%
Go-Through Pattern
Max Go-Through pattern rate	Up to 6.5 Gbaud (for 20 Gsps and 17 Gsps models) Up to 3.25 Gbaud (for 10 Gsps models)
Pattern levels	2,3 or 4 levels
Max External Pattern Rate	Up to 1 Gbit/s
Overshoot (1 V_p-p)	< 2%
Pulse Pattern
Max Pulse pattern frequency	Up to 3.25 GHz (for 20 Gsps and 17 Gsps models) Up to 1.625 GHz (for 10 Gsps models)
Pattern levels	2 Levels
Min Rise/Fall time (0-100%)	150 ps
Min Pulse Width	300 ps
Overshoot (1 V_p-p)	< 2%
Pattern Modulation
Amplitude Modulation (AM)
Carrier patterns	All types
Modulation source	Internal or external
Internal modulating waveforms	Sine, Square, Triangular, Ramp_up, Ramp_down, DC, Sin(x)/x, Gaussian, Lorentz, Exponential Rise, Exponential Decay, Haversine, Noise, ARB
Modulating frequency	Internal: 18 mHz to 80 MHz, External: 1 GHz max.
Depth	0.00% to 120.00%
Frequency Modulation (FM)
Carrier patterns	All types
Modulation source	Internal or external
Internal modulating waveforms	Sine, Square, Triangular, Ramp_up, Ramp_down, DC, Sin(x)/x, Gaussian, Lorentz, Exponential Rise, Exponential Decay, Haversine, Noise, ARB
Modulating frequency	Internal: 18 mHz to 80 MHz, External: 1 GHz max.
Peak deviation	DC to 6.5 GSymbols/s (for 20 Gsps and 17 Gsps models) DC to 3.25 GSymbols/s (for 10 Gsps models)
Phase Modulation (PM)
Carrier patterns	All types
Modulation source	Internal or external
Internal modulating waveforms	Sine, Square, Pulse, Ramp_up, Ramp_down, DC, Sin(x)/x, Gaussian, Lorentz, Exponential Rise, Exponential Decay, Haversine, Noise, ARB
Modulating frequency	Internal: 18 mHz to 80 MHz, External: 1 GHz max.
Phase deviation range	0° to 360°
Frequency Shift Keying (FSK)
Carrier patterns	All types
Modulation source	Internal or external
Internal modulating waveforms	Square
Key rate	Internal: 18 mHz to 80 MHz, External: 1 GHz max.
Hope Symbol Rate	1uSymbols/s to 6.5 GSymbols/s for Custom and PRBS pattern 18 mHz to 3.25 GHz for Clock pattern (for 20 Gsps and 17 Gsps models) 1uSymbols/s to 3.25 GSymbols/s for Custom and PRBS pattern 1uHz to 1.625 GHz for Clock pattern (for 10 Gsps models)
Number of keys	2
Phase Shift Keying (PSK)
Carrier patterns	All types
Modulation source	Internal or external
Internal modulating waveforms	Square
Key rate	Internal: 18 mHz to 80 MHz, External: 1 GHz max.
Hop phase	0° to +360°
Number of keys	2
Burst
Patterns	All types
Type	Block mode or Bit mode
Burst count	1 to 4,294,967,295 cycles or Infinite
Timing and Clock
Sampling Rate
Range⁴
- For 20 or 17 GSa/s models:	Full Rate mode: 1 S/s to 20 GS/s for 20GSa/s models 1 S/s to 17 GS/s for 17GSa/s models Half Rate mode: 1 S/s to 10 GS/s
- For 10 GSa/s models:	1 S/s to 10 GS/s
Resolution	64 Hz
Accuracy	± 2.0 ppm \| ± 500 ppb (Opt.)
⁴ The entire Sample Rate interval is not continuous (see the corresponding section in the User manual)

Digital outputs (Optional for AWG7204(D) / AWG7174(D) / AWG7104(D) models only)
Output Channels
Connectors	Mini-SAS HD connector on rear panel (custom pin-out)
Number of connectors	4
Number of outputs	32-bits
Output impedance	100 Ω differential
Output type	CML with programmable pk-pk amplitude
Maximum update rate	10 Gbps per channel
Memory depth	4.5 Gbit per digital channel

8 bit CML to LVTTL Converter Probe (Optional AT-DTLL8)
Output connector	20 position 2.54 mm 2 Row IDC Header
Output type	LVTTL
Output impedance	50 Ω nominal
Output voltage	0.8V to 3.8V programmable in group of 8 bits
Maximum Update Rate	125 Mbps@0.8V and 400 Mbps@3.6V
Dimensions	W 52 mm – H 22 mm – D 76 mm
Input Connector	Proprietary standard
Cable Length	1 meter
Cable Type	Proprietary standard

Proprietary Mini SAS HD to SMA cable (Optional) (TBD)
Output connector	SMA
Output type	CML
Number of SMA	16 (8 differential bits)
Cable type	Proprietary standard
Cable Length	1 meter
Rise/fall time (10% to 90%)	< 300 ps
Jitter (rms)	< 5ps

Auxiliary input and output characteristics
Sync in/out
Connector type	QSFP connector on rear panel (custom pinout)
Master to Slave delay (typical)	—
Modulation Input (MOD_IN)
Connector type	SMA on front panel
Number of connectors	2 (for 2 channel models) 4 (for 4 channel models)
Input impedance	50 Ω
Voltage Window	± 1 V
Marker Output
Connector type	SMA on front panel
Number of connectors	2 (for 2 channel models) 4 (for 4 channel models)
Output impedance	50 Ω
Output level (into 50 Ω)
Voltage Window	-0.5V to 1.65V
Amplitude	100 mVpp to 2.15 Vpp
Resolution	1 mV
Accuracy	±(5% setting + 25 mV)
Switching characteristics
Max Update Rate (True Arb Mode)	20 Gbps
Max Data Rate (True Arb Mode)	>4 Gbps @ 1Vpp swing
Max Frequency (AFG Mode)	125 MHz (continuous mode)
Rise/fall time (10% to 90%, 2 Vpp)	<150 ps
Jitter (rms)	<10 ps
Marker out to analog channel skew
Range	True Arb Mode: 0 to 1.368 µs AFG Mode: 0 to 8.5 sec. in Contin. Mode, 0 to 1.8 µs in Trig. Mode
Resolution	True Arb Mode: 1/64 of DAC sampling period (for 20 Gsps and 17 Gsps models) 1/128 of DAC sampling period (for 10 Gsps models) AFG Mode: 1.5625 ps
Accuracy	±(1% of setting + 50 ps)
Initial skew	< 20 ps
Marker Width
Value/Range	True Arb Mode: (Marker Automatic Mode) 36 sampling clock cycles (Full Rate Mode) 18 sampling clock cycles (Half Rate Mode) AFG Mode (Continuous Mode): 50% of waveform period (Automatic Marker Width Mode), 500ps to waveform period – 2,1ns (Manual Marker Width Mode) AFG Mode (Burst/Sweep Mode): Burst Duration or half of sweep duration
Trigger/Event Inputs
Connector	SMA on the Front Panel
Number of Trigger Inputs	2 (for 2 channel models) 4 (for 4 channel models)
Input impedance	50Ω / 1kΩ
Slope/Polarity	Positive or negative or both
Range	± 3.5 V (50 Ohm input impedance) ± 10 V (1K Ohm input impedance)
Threshold control level	-8 V to 8 V
Threshold control Resolution	10 mV
Threshold control accuracy	± 100 mV
Minimum pulse width (1 V_p-p)	1 ns
Trigger/gate input to Analog Output delay	Slow (synchronous) trigger AFG mode: < 205 ns (< 240 ns in triggered sweep mode) True Arb mode: <4392 * DAC clock period(ns) + 17.6 ns Fast (asynchronous) trigger AFG mode: < 195 ns (< 230 ns in triggered sweep mode) True Arb mode: <4392 * DAC clock period(ns) + 17.6 ns
Trigger In to output jitter (rms)	AFG mode: < 20 ps True Arb mode: 0.29*DAC clock period
Trigger In programmable delay range	0ps to 2418 ps
Trigger In programmable delay resolution	78ps
Maximum Frequency	AFG: 75 MTps on Rising/Falling Edge, 100 MTps on Both Edges True Arb mode: 1/ (Period of the Analog Waveform + 293 DAC Clock period) MTps = Mega Transitions per second
Reference clock input
Connector type	SMA on rear panel
Input impedance	50 Ω, AC coupled
Input voltage range	0.2Vpp to 3.3Vpp
Damage level	Maximum Input voltage: 3.6Vpp Maximum input power: 15 dBm (50 Ω)
Frequency range	5 MHz to 500 MHz
Frequency Resolution	1 Hz
Reference clock output
Connector type	SMA on rear panel
Output impedance	50 Ω, AC coupled
Frequency	10 MHz TCXO \| 100 MHz VCOCXO (Optional)
Initial accuracy @ 25 °C	± 1.0 ppm \| ± 500 ppb (Opt.)
Aging	± 1.0 ppm/year \| ± 500 ppb/year (Opt.)
Stability vs. temperature	± 1 ppm \| ± 50 ppb(Opt.)
Amplitude	1.65 Vpp
Phase Noise @ 10 MHz carrier	-120 dBc/Hz at 100 Hz ; -140 dBc/Hz at 1KHz;-150 dBc/Hz at 10 KHz
External Clock Input
Connector type	SMA on rear panel
Input impedance	50 Ω, AC coupled
Frequency⁸	True Arb: SampleRate / N where: N = 8, 16, 32, 64 for every SampleRate ^{8 - 9} AFG: 312.5 MHz, 625 MHz, 1250 MHz or 2500 MHz (selectable)
⁸When using the External Clock Input the SampleRate must be in the range 0÷20 GHz, but the entire Sample Rate interval is not continuous (see the corresponding section in the User manual) ⁹ For AWG-717x(D) and AWG-7174(D)-S models the max Sampling rate is limited to 17Gsps
Input Power Range	+0 dBm to +10 dBm
Damage Level	15 dBm
Sync Clk Out
Connector type	SMA on rear panel
Output impedance	50 Ω, AC coupled
Frequency	AFG Mode: 20Ghz / N where N=40, 80, 160, …, 5120 AWG Mode: Sampling Rate/N, N=64, 128,.., 8192⁹
⁹ For AWG-717x(D) and AWG-7174(D)-S models the max Sampling rate is limited to 17Gsps
Amplitude	1Vpp into 50 Ohm
External Modulation input (AFG only)
Connector type	SMA on front panel (MOD.IN)
Input impedance	50 Ω
Number of inputs	2 (for 2 channel models) 4 (for 4 channel models)
Bandwidth	1 GHz
Input voltage range	1 Vpp (0,5V to 0.5V)
Vertical resolution	14-bit
Pattern Jump In (optional)
Connector type	DSUB15
Input signals	DATA[0..7] + Data_Select + Load
Internal Data Width	14 bit, multiplexed using Data_Select
Number of addressable entries	16384
Data Rate	DC to 1 MHz
Input Range	VIL = 0V to 0.8V / VIH= 2V to 3.3V
Impedance	Internal 1kΩ pull-up resistor to Vcc (3.3V)
Power
Source Voltage and Frequency	100 to 240 VAC ±10% @ 45-66 Hz
Max. power consumption	Max. 250W
Environmental characteristics
Temperature (operating)	+5 °C to +40 °C (+41 °F to 104 °F)
Temperature (non-operating)	-20 °C to +60 °C (-4 °F to 140 °F)
Humidity (operating)	5% to 80% relative humidity with a maximum wet bulb temperature of 29°C at or below +40°C, (upper limit de–rates to 20.6% relative humidity at +40C). Noncondensing.
Humidity (non-operating)	5% to 95% relative humidity with a maximum wet bulb temperature of 40°C at or below +60°C, upper limit de–rates to 29.8% relative humidity at +60°C. Noncondensing.
Altitude (operating)	3,000 meters (9,842 feet) maximum at or below 25°C
Altitude (non-operating)	12,000 meters (39,370 feet) maximum
EMC and safety	CE compliant
Safety	EN61010-1
Main Standards	EN 61326-1:2013 – Electrical equipment for measurement, control and laboratory use – EMC requirements – Part 1: General requirements
Immunity	EN 61326-1:2013
System specifications
Display	7 inch, 1024x600, capacitive touch LCD
Operative System	Windows 10
External Dimensions	W 445 mm – H 135 mm – D 320 mm (3U 19” rackmount)
Weight	Max. 26.45 lbs (12 Kg)
Front panel connectors	CH N OUTPUT (SMA) where N=2,4 depending on the model MOD N INPUT (SMA) where N=2,4 depending on the model MARKER N OUT (SMA) where N=2,4 depending on the model TRG IN N(SMA) where N=2,4 depending on the model 2 USB 3.0 ports
Rear panel connectors	Ref. Clk. IN (SMA) Ref. Clk. Out (SMA) Sync Clk Out (SMA) Ext Clk IN(SMA) Sync IN (QSFP cable) Sync OUT (QSFP cable) Pattern Jump In (DSUB15) (AWG-7000-FSS opt. only) POD X[7..0] where X=A,B,C,D (Customized Mini SAS HD) External Monitor ports (one or more) 2 USB 2.0 ports or more 4 USB 3.0 ports Ethernet port (10/100/1000BaseT Ethernet, RJ45 port) 2 PS/2 keyboard and mouse ports 2 DPI ports 1 DVI port
Hard Disk	1 TB SSD or better
Processor	Intel® Pentium Gold G6400 4 GHz (or better)
Processor Memory	32 GB or better