產品明細

AWG-2000 脈波產生器

    產品簡述
    ♦ 取樣率: 600 MS/s (1.2 GS/s 2x interleaved)
    ♦ 垂直解析可達16 Bit
    ♦ Edge time最小可達 2.2 ns
    ♦ 最大動態範圍可達 12Vpp (50 ohms)/ (24V on open)
    ♦ 記憶深度: 每個通道高達256 Mpts
    ♦ 最多可提供8個數位通道與類比通道同步輸出
    ♦ 軟體使用者介面: AWG模式使用Simple TrueArb Rider; AFG模式使用Simple Rider
     

      產品詳細介紹Product Introduction

      ARB RIDER AWG-2000 4 CHANNEL PULSE GENERATOR

      2 and 4 Channel Pulse Generator
      The ARB Rider AWG-2000 is the cost-effective and powerful 2 or 4 channel Pulse Generator with programmable rise and fall time.
      Thanks to the extremely easy to use interface, it’s possible set a pulse train in few clicks. AWG-2000 is the ideal choice for physic experiment, automotive test validation, IoT & sensor emulation.
      The 8 channel digital option combined with 2 or 4 analog channels make the AWG-2000 a full featured mix 
      signal generator. It’s now possible generate 2 o 4 analog signals fully synchronized with 8 digital lines (LVTTL or LVDS standards).


      Models

      ModelsNo. of ChannelsMin. Rise/Fall Time (20%-80%)AmplitudeBaseline OffsetMin. Pulse Width
      AWG-218222.2ns6Vpp into 50 Ohm (std) | 12Vpp into 50 Ohm (HV Opt.)05 ns
      AWG-218442.2ns6Vpp into 50 Ohm (std) | 12Vpp into 50 Ohm (HV Opt.)05 ns


      3-IN-1 Instrument

      The AWG-2000 Series instruments are multifunctional signal generators that combine three functions in one instrument, including Function Generator, Arbitrary Waveform Generator and Digital Pattern Generator.

      These three-different features expand the capabilities of the HW adopting two different technologies: Improved DDS in AFG mode and  variable clock, true-arbitrary technology in AWG mode. The AFG mode allows the user to change glitch free on-the-fly all the pulse parameters preserving the waveform shape and you can generate pulses in a glance.
      The AWG mode lets the user create complex waveform scenarios of analog and digital patterns, insert them in a sequence, apply loops, jumps and conditional branches.

      Highlights

      • Up to 512 Mpoints of waveform memory on each channel

      • 16384 sequencer entries

      • Analog and Digital signals fully synchronized

      • Cost-effective price per channel

      • Extremely Easy To Use and versatile functionality



      Features

      • Sample rate can be programmed in from 1 S/s to 600 MS/s (1 S/s to 1.2 GS/s with 2x interpolation), with 16-bit vertical resolution, ensuring exceptional signal integrity

      • Arbitrary waveform memory up to 512 Mpts for each analog channel

      • Mixed Signal Generation – 2 or 4 Analog channels with 8 synchronized Digital Channels for debugging and validating digital design

      • Two operation modes – Simple Rider AFG (DDS AFG mode) and True Arb (variable clock Arbitrary AWG mode)

      • Digital outputs provide up to 600Mb/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 7” touch screen, front panel buttons and knob

      • Compact form factor, convenient for bench top and fully fit with 3U – 10” rackmount standard

      • LAN interfaces for remote control


      Application Areas

      Automotive

      Today’s cars are including lots of highly sophisticated electronic control units (ECU) with very sensitive electronic components. The 16-bits vertical resolution combined with the 600 MS/s Real Time (1.2 GS/s 2x interpolated) fast sampling rate and 12Vpp output amplitude range, make the AWG-2000 Series instruments indispensable tools for successfully and efficiency addressing the new testing challenges in automotive.

      Highlights

      • CAN, CAN-FD, LIN, Flexray, SENT emulation and troubleshooting

      • 100BASE-T1, 1000BASE-T1, BroadR-Reach emulation and immunity from interference signal and noise

      • EMI debugging, troubleshooting and testing

      • Electrical standards emulation up to 24 V

      • Power MOSFET circuitry in automotive electronics optimization and characterizatio


      IoT and Ind 4.0 perfect RF Modulator

      Arb and Function Riders will be the iconic instrument for this application. The possibility to emulate complex RF I/Q modulation for simulation and Test vs wireless devices or working on Internet of things of industry 4.0 applications. Each engineer may use the possibility to import waveform to emulate devices under test, impose distortion on the waveform (such noise) to test the ability of devices to be compliant to the standards.

      Highlights

      • Sensors signals generation: emulation of ideal signals or generation of real world signals after acquisition with an High Definition Oscilloscope.

      • Integrated Attenuator for Low Amplitude signals generation

      • MOSFET gate drive amplitude signal emulation for MOSFET characterization and optimization

      • Power up sequences of IC using the low impedance feature (0 Ω output impedance).


      Very Low Amplitude Signals Generation
      The Active Technologies AWG-2000 Series instrument is provided with an internal 10x Attenuator that lets the user generate signals with a very low amplitude without sacrificing the DAC resolution.
      Real-world cardiac signals typically are very low in amplitude — often only a couple of millivolts or even less. Active Technologies AWG-2000 Series overcome this generation challenge with the built-in internal 10x attenuator and by using an analog output stage able to provide an extremely high signal fidelity.

      Highlights

      • 10x Internal Attenuator

      • Real-world signals generation: cardiac, EEG

      • 16 Bits vertical resolution with low-amplitude signals


      Semiconductors Test

      The AWG-2000 Series AFG user interface includes the capability of the Double Pulse function required for testing the dynamic behavior of power devices such as MOSFETs and IGBTs. Each of the two pulses can have a different amplitude, rise-time, fall-time and width.
      Researches and Scientists require to emulate pulses adding amplitude and timing variation imperfections in an accurate, detailed and repeatable controlled manner: with up to 512 Mpoints of waveform memory per channel, you can easily acquire real-world signals from the oscilloscope and playback them with the AWG-2000 Arbitrary Waveform Generator.

      Highlights

      • Double Pulse Mode

      • Oscilloscope Record & Playback

      • PRBS sequences

      • Physics, electronics, chemistry, mechanics experiments


      Specifications

      General Specifications
      Model No.AWG-2182AWG-2184
      Number of Channels
      Analog out / DPG out
      24
      Digital out
      0/8 optional0/8 optional
      Marker out
      11
      Operating ModeAFG Mode
      True Arb Mode
      Amplitude
      Range (50 Ω into 50 Ω) 1
      0 to 6Vpp (12 Vp-p optional)
      Accuracy (1kHz sine wave, 0V offset, 
      > 5mVp-p amplitude, 50Ω load) (guaranteed)
      ±(1% of setting [Vp-p] + 5 mV)
      Resolution
      <0.5 mVp-p or 5 digits
      Output impedance
      Single-ended: 50 Ω, Low Impedance: 0 Ω
      DC
      Amplitude range (50Ω into 50Ω) 1
      -3V to 3V (-6V to 6V opt.)
      Amplitude accuracy (guaranteed)
      ±(1% of |setting| + 10 mV)
      Output attenuator0dB or 20dB selectable
      1 Amplitude doubles on HiZ load
      AFG Mode Specifications
      Output Channels
      Connectors
      BNC on front panel
      Output type
      Single-ended
      Output Impedance
      50Ω or 0Ω (low impedance) programmable
      General Specifications
      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: 16-bit
      Waveform length: 16,384 points
      Internal Trigger Timer
       
      Range
      13.4ns to 100s
      Resolution
      104ps
      Accuracy
      ±(0.1% setting + 5ps)
      Sine Waves
      Frequency Range (50 Ω into 50 Ω) 
      1 μHz to ≤ 150 MHz: 6 Vp-p
      >150 MHz to ≤ 180 MHz: 5 Vp-p
      HV option:
      1 μHz to ≤ 50 MHz: 12 Vp-p
      >50 MHz to ≤ 60 MHz: 10 Vp-p
      >60 MHz to ≤ 100 MHz: 8 Vp-p
      >100 MHz to ≤ 150 MHz: 6 Vp-p
      >150 MHz to ≤ 180 MHz: 5 Vp-p
      Max Frequency Value
      180 MHz
      Flatness(1 Vp-p, relative to 1 kHz)
      DC to 180 MHz: ±0.5 dB
      Harmonic Distortion (1 Vp-p)
      1 μHz to ≤ 20 kHz: <-75dBc
      >20 kHz to ≤ 1 MHz: <-70dBc
      >1 MHz to ≤ 10 MHz: <-65dBc
      >10 MHz to ≤ 50 MHz: <-55dBc
      >50 MHz to ≤ 120 MHz: <-45dBc
      >120 MHz to ≤ 180 MHz: <-40dBc
      Total Harmonic Distortion(1 Vp-p)
      10 Hz to 20 kHz: < 0.04%
      Spurious (1 Vp-p) (excluding fSa - fout, fSa - 2*fout)
      1 µHz to ≤ 10 MHz: < -80 dBc
      >10 MHz to ≤ 180 MHz: < -80 dBc+ 6dBc/octave
      Phase Noise(1 Vp-p, 10 kHz offset)
      10 MHz: < -127 dBc/Hz typ.
      100 MHz: < -115 dBc/Hz typ.
      Square Waves
      Frequency Range
      1 μHz to 80 MHz: 6Vp-p
      HV option:
      1 μHz to ≤ 30 MHz: 12Vp-p
      >30 MHz to ≤ 50 MHz: 11Vp-p
      >50 MHz to ≤ 70 MHz: 10Vp-p
       >70 MHz to ≤ 80 MHz: 9Vp-p
      Rise/fall time
      4ns
      Overshoot (1 Vp-p)
      <1%
      Jitter (rms)
      <2ps
      Pulse Waves
      Frequency Range
      1 μHz to 80 MHz: 6Vp-p
      HV option:
       1 μHz to ≤ 3 MHz: 12Vp-p
      >3 MHz to ≤ 10 MHz: 11Vp-p
      >10 MHz to ≤ 70 MHz: 10Vp-p
      >70 MHz to ≤80 MHz: 9Vp-p
      Pulse width
      5ns to (Period – 5ns)
      Pulse width Resolution
      20ps or 15 digits
      Leading/trailing edge transition time
      4ns to 1000s
      Transition time Resolution
      2ps or 15 digits
      Pulse duty
      0% to 100% 14 digits (limitations of pulse width apply)
      Overshoot (1Vp-p)
      <1%
      Jitter (rms, with rise and fall time ≥4ns)
      <2ps
      Double Pulse Waves
      Frequency Range
      1 μHz to ≤ 3 MHz: 12Vp-p
      >3 MHz to ≤ 50 MHz: 6Vp-p
      where Vp-p = |Vp-p1| + |Vp-p2|
      HV option:
      1 μHz to ≤ 3 MHz: 24Vp-p
      >3 MHz to ≤ 10 MHz: 11Vp-p
      >10 MHz to ≤ 50 MHz: 10Vp-p
      where Vp-p = |Vp-p1| + |Vp-p2|
      Other Pulse Parameters
      Same as Pulse Waves
      Ramp Waves
      Frequency Range
      1 µHz to 5 MHz
      Linearity(< 10 kHz, 1 Vp-p, 100%)
      ≤ 0.1%
      Symmetry
      0% to 100%
      Other Waves
      Frequency Range
      Exponential Rise, Exponential Decay
      1 µHz to 5 MHz
      Sin(x)/x, Gaussian, Lorentz, Haversine
      1 µHz to 10 MHz
      Additive Noise
      Bandwidth (-3 dB)
      > 200 MHz
      Level
      0 V to 6 V – | carrier max value [Vpk] |
      Resolution
      1 mV
      Arbitrary
      Number of Samples
      2 to 16,384
      Frequency range
      1 µHz to ≤ 80 MHz
      Analog Bandwidth (-3 dB)
      87.5 MHz
      Rise/fall time
      4ns
      Jitter (rms)
      <2ps
      Frequency Resolution
      Sine, Square, Pulse, Arbitrary, Sin(x)/s Gaussian, Lorentz, Exponential Rise, Exponential Decay, Haversine
      1 µHz or 15 digits
      1 µHz or 14 digits
      Frequency Accuracy
      Non-ARB
      ±2.0 x 10-6 of setting
      ARB
      ± 2.0 x 10-6 of setting ±1 µHz
      Modulations
      Amplitude Modulation (AM)
      Carrier waveforms
      Standard waveforms
      (except Pulse, DC and Noise), ARB
      Modulation source
      Internal
      Internal modulating waveforms
      Sine, Square, Ramp, Noise, ARB
      Modulating frequency
      500 µHz to 48 MHz
      Depth
      0.00% to 120.00%
      Frequency Modulation (FM)
      Carrier waveforms
      Standard waveforms
      (except Pulse, DC and Noise), ARB
      Modulation source
      Internal
      Internal modulating waveforms
      Sine, Square, Ramp, Noise, ARB
      Modulating frequency
      500 µHz to 48 MHz
      Peak deviation
      DC to 180 MHz
      Phase Modulation (PM)
      Carrier waveforms
      Standard waveforms
      (except Pulse, DC and Noise), ARB
      Modulation source
      Internal
      Internal modulating waveforms
      Sine, Square, Ramp, Noise, ARB
      Modulating frequency
      500 µHz to 48 MHz
      Phase deviation range
      0° to 360°
      Frequency Shift Keying (FSK)
      Carrier waveforms
      Standard waveforms
      (except Pulse, DC and Noise), ARB
      Modulation source
      Internal
      Internal modulating waveforms
      Square
      Key rate
      500 µHz to 48 MHz
      Hop frequency
      1 µHz to 180 MHz
      Number of keys
      2
      Phase Shift Keying (PSK)
      Carrier waveforms
      Standard waveforms
      (except Pulse, DC and Noise), ARB
      Modulation source
      Internal
      Internal modulating waveforms
      Square
      Key rate
       500 µHz to 48 MHz
      Hop phase
      0° to +360°
      Number of keys
      2
      Pulse Width Modulation (PWM)
      Carrier waveforms
      Pulse
      Modulation source
      Internal
      Internal modulating waveforms
      Sine, Square, Ramp, Noise, ARB
      Modulating frequency
      500 µHz to 48 MHz
      Deviation range
      0% to 50% of pulse period
      Sweep
      Type
      Linear, Logarithmic, staircase, and user defined
      Waveforms
      Standard waveforms
      (except Pulse, DC and Noise), ARB
      Sweep time
      40ns to 2000s
      Hold/return times
      0 to (2000s – 40ns)
      Sweep/hold/return time resolution
      20ns or 12digits
      Total sweep time accuracy
      ≤ 0.4%
      Start/stop frequency range
      Sine: 1 µHz to 180 MHz,
      Square: 1 µHz to 80 MHz
      Trigger source
      Internal / External / Manual
      Burst
      Waveforms
      Standard waveforms (except DC and Noise), ARB
      Type
      Triggered or Gated
      Burst count
      1 to 4,294,967,295 cycles or Infinite
      True Arb mode Specifications
      Output Channels
      Connectors
      BNC on front panel
      Output type
      Single-ended DC coupled
      Output Impedance
      50 Ω or 0 Ω (low impedance)
      General specifications
      Operating Mode
      Variable clock (True Arbitrary)
      Run Modes
      Continuous, Triggered Continuous,
      Single/Burst, Stepped, Advanced
      Vertical Resolution
      16 bit
      Waveform Length
      16 to 2M samples per channel
       (up to 512M samples optional)
      Waveform Granularity
      1 if the entry length is > 384 samples
      8 if entry length is ≥ 16 and ≤ 384 samples
      Sequence Length
      1 to 16,384
      Sequence Repeat Counter
      1 to 4,294,967,295 or infinite
      Timer
       
      Range
      23.52ns to 7s
      Resolution
      ±1 sampling clock period
      Analog Channel to Channels skew
      Range
      0 to 6.59 us (depending on internal sampling rate)
      Resolution
      Channel 1/2 to Channel 3/4: ≤ 5ps,
      Channel 1/3 to Channel 2/4: 1 DAC sampling period
      Accuracy
      ±(1% of setting + 20ps)
      Initial skew
      < 200 ps
      Calculated bandwidth (0.35 / rise or fall time)
      ≥160 MHz
      Harmonic distortion (Sine wave 32 points, 1 Vp-p)< -62dBc (@ 600MS/s, 18.75 MHz)
      Spurious (Sine wave 32 points, 1 Vp-p)< -80dBc (@ 600MS/s, 18.75 MHz)
      SFDR (Sine wave 32 pts, 1Vp-p, including Harmonics)< -62dBc (@ 600MS/s, 18.75 MHz)
      Rise/fall time (1Vp-p single-ended 10% to 90%) 2≤2.2ns
      Overshoot (1Vp-p single-ended) 2< 2%
      Timing and Clock
      Sampling Rate
      Range
      1 S/s to 600 MS/s (1 S/s to 1.2 GS/s with x2 interpolation)
      Resolution
      16 Hz
      Accuracy
      ±2.0ppm
      Random jitter on clock pattern (rms)
      <2ps
      2 2x interpolation OFF
      Digital outputs (Optional)
      Output Channels
       
      Connectors
      Mini-SAS HD connector on rear panel
      (Non-standard pin-out)
      Number of connectors
      1
      Number of outputs
      8 bits
      Output impedance
      100Ω differential
      Output type
      LVDS
      Rise/fall time (10% to 90%)
      <1ns
      Jitter (rms)
      20ps
      Maximum update rate
      600 Mbps
      Memory depth
      2MSamples per digital channel
      (up to 512MSamples optional)

      8 bit LVDS to LVTTL Converter Probe (Optional AT-DTTL8)
      Output connector20 position 2.54 mm 2 Row IDC Header
      Output type
      LVTTL
      Output Impedance
      50Ω nominal
      Output voltage0.8V to 3.8V programmable
      Maximum Update Rate125Mbps@0.8V and 400Mbps@3.6V
      DimensionsW 52mm – H 22mm – D 76mm
      Input ConnectorProprietary standard
      Cable Length1 meter
      Cable TypeProprietary standard
      Proprietary Mini SAS HD to SMA cable (Optional)
      Output connectorSMA
      Output typeLVDS
      Number of SMA16 (8 bits)
      Cable typeProprietary standard
      Cable Length1 meter
      Auxiliary input and output characteristics
       AWG-2182AWG-2184
      Marker Output
      Connector type
      BNC on front panelBNC on rear panel
      Number of connectors
      1
      Output impedance
      50 Ω
      Output level (into 50 Ω)
      Amplitude
      1V to 2.5V
      Resolution
      10mV
      Accuracy
      ±(2% setting + 10mV)
      Rise/fall time (10% to 90%, 2.5Vp-p)
      <700ps
      Jitter (rms)
      20ps
      Marker out to analog channel skew
      Range
      True Arb Mode: 0 to 3µs
      AFG Mode: 0 to 14s in Continuous Mode
      0 to 3µs in Triggered Mode
      Resolution
      True Arb Mode: 78ps,
      AFG Mode: 39ps
      Accuracy
      ±(1% of setting + 140 ps)
      Initial skew
      < 1 ns
      Trigger/Gate input
      Connector
      BNC on front panelBNC on rear panel
      Input impedance
      50Ω / 1kΩ programmable
      Slope/Polarity
      Positive or negative or both
      Input damage level
      <-15V or+15V
      Threshold control level
      -10V to 10V
      Resolution
      10mv
      Threshold control accuracy
      ±(10% of |setting| + 0.2V)
      Input voltage swing
      0.5Vp-p minimum
      Minimum pulse width (1Vp-p)
      3ns
      Initial trigger/gate delay to Analog Output
      AFG mode: <400 ns (<460 ns in triggered sweep mode)
      True Arb mode: <131*DAC sampling period + 22.5 ns
      (<143*DAC sampling period+22.5 ns with 2x interpolation)
      Trigger In to output jitter
      AFG mode: <45ps
      True Arb mode: 0.29*DAC sampling period
      Maximum Frequency
      AFG mode: 55 MTps on Rising/Falling Edge,
      80 MTps on Both Edges
      True Arb mode: 42.5 MTps on Rising/Falling Edge,
      42.5 MTps on Both Edges
      where MTps = Mega Transitions per second
      Reference clock input
      Connector type
      SMA on rear panel
      Input impedance
      50Ω, AC coupled
      Input voltage range
      -4 dBm to 11dBm sine or square wave
      (rise time T10-90 <1ns and duty cycle from 40% to 60%)
      Damage level
      +14dBm
      Frequency range
      5 MHz to 100 MHz
      Reference clock output
      Connector type
      SMA on rear panel
      Output impedance
      50Ω, AC coupled
      Frequency
      10 MHz
      Accuracy
      ±2.0x10-6
      Aging
      ±1.0x10-6 /year
      Amplitude
      1.65V
      Jitter (rms)
      <20ps
      Power
      Source Voltage and Frequency
      100 to 240VAC ±10% @ 45 Hz to 66 Hz
      Max. power consumption
      100W
      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 ). Non-condensing.
      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. Non-condensing.
      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
      Compliance
      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”, 1024x600, capacitive touch LCD
      Operative System
      Windows 10
      External Dimensions
      W 362 mm – H 143 mm – D 258 mm
      (3U 10” rackmount)
      Weight
      6.25 kg
      Front panel connectors
      CH1, CH2 OUTPUT (BNC)
      MARKER OUT (BNC)
      TRIGGER IN (BNC)
      CH1, CH2 OUTPUT (BNC)
      CH3, CH4 OUTPUT (BNC)
      Rear panel connectors
      REF CLK IN (SMA)
      REF CLK OUT (SMA)
      External Monitor ports
      DIGITAL POD A[7..0]
      1 USB 2.0 ports or more
      Ethernet port (10/100/1000BaseT
      Ethernet, RJ45 port)
      2 PS/2 keyboard and mouse ports
      REF CLK IN (SMA)
      REF CLK OUT (SMA)
      MARKER OUT (BNC)
      TRIGGER IN (BNC)
      External Monitor ports
      DIGITAL POD A[7..0]
      1 USB 2.0 ports or more
      Ethernet port (10/100/1000BaseT Ethernet, RJ45 port)
      2 PS/2 keyboard and mouse ports
      Hard Disk
      240 GB SSD or better
      Processor
      Intel® Celeron J1900, 2 GHz (or better)
      Processor Memory
      4 GB or better