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Generadores de Señal
Modelo
Channels (max)
Sample Rate and Bandwidth (max)
Memory Depth (max)
Vertical Resolution (bits)

AWG7000-Series
2
20 GS/s, Up to 5.8GHz
64 M
10

AWG5000-Series

4 analogicos

28 digitales

1.2 GS/s, Up to 370MHz
32 M
14

AWG710B
1
4.2 GS/s, Up to 2GHz
64 M
8

AWG615
1
2.7 GS/s, Up to 2GHz
64 M
8

AWG400-Series
3
200 MS/s, Up to 100MHz
16 M
16

AWG2005-Series
4
20 MS/s, Up to 10MHz
64 K
12

AFG3000-Series
2
2 GS/s, Up to 240MHz
128 K
14
AWG5000 Series (AWG5014 • AWG5012 • AWG5004 • AWG5002)

Features & Benefits

  • 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 Vp-p Single-ended and 9 Vp-p at Differential Output into 50 Ω
    • 0.95 ns Tr/Tf (10 - 90%) at 0.6 Vp-p
    • +/– 5 ns Range (50 ps Resolution) Inter Channel Skew Control
    • SFDR: 80 dBc (1 MHz), 64 dBc (10 MHz)
  • 4 or 8 Variable Level Marker Outputs
    • Up to 3.7 Vp-p 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 bits ch1/ch2 Variable Level Digital Data Output
    • Up to 3.7 Vp-p Single-ended Output into 50 Ω
    • 300 ps Tr/Tf (20 - 80%) at 0 to 1 V
  • Up to 32 M Point Record Length For Longer Data Streams
  • Down to 800 ps Resolution Edge Timing Shift Control
  • 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 2000 XP
  • Convenient Bench Top 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 Base-band 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
    • 2/4ch analog + 4/8ch Marker outputs + 28bit 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 Other

 

DATASHEET

AWG7000 Series (AWG7102 • AWG7101 • AWG7052 • AWG7051)

Features & Benefits

  • 10 GS/s (20 GS/s) and 5 GS/s models
  • 1 or 2 Arbitrary Waveform Outputs
    • Accurate Timing with only 20 psp-p Total Jitter (at 10-12 BER, Typical)
    • 45 ps Tr/Tf (20% to 80%)
    • ±100 ps Range (1 ps Resolution) Inter Channel Skew Control
  • 2 or 4 Variable Level Marker Outputs
    • Accurate Timing with only 30 psp-p Total Jitter (at 10-12 BER, Typical)
    • 45 ps Tr/Tf (20% to 80%)
    • Up to 300 ps Range (1 ps Resolution) Delay Control
  • Vertical Resolution up to 10-Bit Available: 10-Bits (No Marker Output) or 8-Bits (with Two Marker Outputs)
  • Up to 64 M (64,800,000) Point Record Length Provides Longer Data Streams
  • Down to 100 fs Resolution Edge Timing Shift Control
  • Real-time Sequencing Creates Infinite Waveform Loops, Jumps, and Conditional Branches
  • Intuitive User Interface Shortens Test Time
  • Integrated PC Supports Network Integration and Provides a Built-in DVD, Removable Hard Drive, LAN, and USB Ports

Applications

  • Disk Drive (Magnetic/Optical) Read/Write:
    • Up to 5 Gb/s Data Rate (2-point/cell) or 50 ps Timing Resolution
  • Telecom/Data Communications:
    • Up to 10 Gb/s Data Rate (Binary, Pre-/De-emphasis and Multi-level Logic)
  • Wireless Communications:
    • Up to 5 GHz (4-waveform points/cycle) Arbitrary RF/IF and Wide-bandwidth Modulation I and Q Baseband Signals
  • Mixed Signal Design and Test:
    • 2-channel Analog plus 4-channel Marker Outputs
  • High-speed, Low-jitter Data/Pulse and Clock Source
  • 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

 

DATASHEET

AWG710B

Features & Benefits

  • 4.2 GS/s Sample Rate Simulates Real-world Signals Up To 2.1 GHz
  • 2 Markers With 2.0 psRMS (@ 4.2GS/s, Typical) Jitter Deliver stable Timing to the Device-under-test (DUT)
  • 32.4M (32,400,000) or 64.8M (64,800,000) Point Record Length Provide Longer Data Streams
  • Analog Bandwidth to 2 GHz (Option 02, Calculated Based on Rise Time) Provides the Highest Signal Fidelity of All High-speed AWGs
  • Direct External clock input allows Jittered and non-jittered signals for high-speed data stream timing margin test up to 4.2Gb/s
  • Synchronous operation mode supports two AWG710B outputs (2: analog, 4: marker) synchronization for high data rate wireless and data communication test and optical write channel strategy signal test.
  • Waveform Quick Editor with 300 fs Edge Timing Resolution Delivers Output Edge Control with Near Real-time Precision
  • Allows two-signal mix function digitally to support disk drive noise performance test and Pre/De-emphasis serial data communication test
  • Real-time Sequencing Creates Infinite Waveform Loops, Jumps, Patterns and Conditional Branches

Applications

  • Disk Drive Read/Write Design and Test
  • Communications Design and Test
  • Arbitrary IF and IQ Base-band Signals
  • Standard Waveforms for Communications
  • Pulse Generation
  • High-speed, Low-jitter Data and Clock Source
  • Mixed Signal Design and Test
  • Real-world Simulations
  • Corruption and Enhancement of Ideal Waveforms
  • Timing and Amplitude Signal Impairments
  • Waveforms Imported from MathCad, MATLAB, Excel and Others

 

DATASHEET

AWG615

Features & Benefits

  • 2.7 GS/s Sample Rate Simulates Real-world Signals Up To 1.35 GHz
  • 2 Markers With 2.1 psRMS (@ 2.7 GS/s, Typical) Jitter Deliver stable Timing to the Device-under-test (DUT)
  • 32.4M (32,400,000) or 64.8M (64,800,000) Point Record Length Provide Longer Data Streams
  • Analog Bandwidth to 2 GHz (Option 02, Calculated Based on Rise Time) Provides the Highest Signal Fidelity of All High-speed AWGs
  • Direct External clock input allows Jittered and non-jittered signals for high-speed data stream timing margin test up to 2.7 Gb/s
  • Synchronous operation mode supports two AWG615 outputs (2: analog, 4: marker) synchronization for high data rate wireless and data communication test and optical write channel strategy signal test.
  • Waveform Quick Editor with 400 fs Edge Timing Resolution Delivers Output Edge Control with Near Real-time Precision
  • Allows two-signal mix function digitally to support disk drive noise performance test and Pre/De-emphasis serial data communication test
  • Real-time Sequencing Creates Infinite Waveform Loops, Jumps, Patterns and Conditional Branches

Applications

  • Disk Drive Read/Write Design and Test
  • Communications Design and Test
  • Arbitrary IF and IQ Base-band Signals
  • Standard Waveforms for Communications
  • Pulse Generation
  • High-speed, Low-jitter Data and Clock Source
  • Mixed Signal Design and Test
  • Real-world Simulations
  • Corruption and Enhancement of Ideal Waveforms
  • Timing and Amplitude Signal Impairments
  • Waveforms Imported from MathCad, MATLAB, Excel and Others

 

DATASHEET

AWG400 Series

Features & Benefits

  • 2 or 3 Independent Waveform Channels
  • 16-Bit Vertical Resolution
  • 200 MS/s Sample Rate
  • Up to 16 M Point Record Length
  • Optional 32/48-Bit 100 MHz (CMOS) Digital Data Generator for Mixed-signal Device Testing
  • 4 or 6 Digital Marker Outputs
  • Independent Channel Internal Noise Generator
  • Independent Channel Skew Control
  • Independent Channel External Signal ADD-INPUT
  • External Clock and External Reference Inputs

Applications

Designing, Testing and Deploying:
  • Quadrature Digitally Modulated I&Q Signals and Displays
  • Mixed (Analog/Digital) Signals
  • Stimulus Signals for Imaging Display and Recording Devices (CCD, LCD)
  • Enhanced/Corrupted Playback of DSO Captured Signals
  • Simulation Waveform Vectors Imported from Mathcad, Matlab, Excel and others
Network Communications Physical Layer Testing:
  • ITU-T (E1, E2, E3)
  • TI.102 (DS1, DS1A, DS1C)
  • Fibre Channel (FCI33E)
  • SDH/SONET (OC1/STM0, OC3/STM1)
  • D2
  • 100Base-TX

 

DATASHEET

AWG2005

Features & Benefits

  • 20 MS/s (50 ns) Clock Rate Provides up to 10 MHz Waveforms
  • Up to Four Channels of 64 k Record Length
  • 12-Bit (1/4096) Vertical Resolution
  • Direct DSO Waveform Transfers
  • Region Shift Provides 50 ps Edge Placement
  • 24-Bit Channel, TTL Digital Data Generator (Opt. 04)
  • Linear, Log and User Definable Sweep Generation TBR (Opt. 05)
  • Built-in 1.44 MB, 3.5 in. Floppy Disk
  • FFT Editor (Opt. 09) Frequency Domain Editing
  • Real-time Waveform Sequencer to Easily Create Automatic Test Sequences and Extremely Long Patterns
  • Formula Entry Waveforms
  • Fully Programmable from Front Panel, RS-232 and GPIB (IEEE 488.2)

Applications

  • Analog & Digital Modulation
  • Digital Baseband Modulation
  • Sonar Testing
  • Transducer Simulation
  • Motor Control
  • Automotive
  • Education
  • Industrial
  • Sensors
  • Semiconductor/Logic

 

DATASHEET

AFG3021 • AFG3022 • AFG3101 • AFG3102 • AFG3251 • AFG3252

Features & Benefits

  • 25 MHz, 100 MHz or 240 MHz Sine Waveforms
  • 14 bits, 250 MS/s, 1 GS/s, or 2 GS/s Arbitrary Waveforms
  • 5.6" Display for Full Confidence in Settings and Waveform Shape
  • Multi-language and Intuitive Operation Saves Set-up Time
  • Pulse Waveform with Variable Edge Times
  • AM, FM, PM, FSK, PWM
  • Sweep and Burst
  • Dual Channel Models Save Cost and Bench Space
  • USB Connector on Front Panel for Waveform Storage on Memory Device
  • USB, GPIB and LAN

Applications

  • Electronic Test and Design
  • Sensor Simulation
  • Functional Test
  • Education and Training

 

DATASHEET

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2006 AFC-INGENIEROS