產品明細

AWG-1102/1104

2和4通道任意波形產生器

    產品簡述
    ♦ 支援2和4通道機種
    ♦ 內差取樣率: 1 GS/s; 即時取樣率: 250 MS/s (1 GS/s Sample Rate Interpolated – 250 MS/s Real Time)
    ♦ 支援頻寬: 125 MHz
    ♦ 記憶深度: 2 Mpts/ch
    ♦ 解析度: 16 bit
    ♦ 支援Arbitrary及Direct Digital Synthesis (DDS)模式
    ♦ 支援Sweep及Burst模式
    ♦ 支援調變方式: AM,FM,PM,ASK,FSK,PSK
    ♦ 可同步多台設備最多支援32路通道
    ♦ 輕鬆存取basic function generator模式
    ♦ 支援數位圖像產生: 18或36路通到
    ♦ 支援PWM模式
    ♦ 針對Microsoft Visual Studio 及 LabView介面, 提供SDK software package
    ♦ 具備USB 2.0 PC介面
     

      產品詳細介紹Product Introduction

      AWG-1102 / 1104 – 2 AND 4 CHANNEL ARBITRARY WAVEFORM GENERATORS

      16 Bit – 1 GS/s Arbitrary Waveform Generator

      A waveform generator must provide flexibility to cover a wide range of applications, high-performance to meet demanding signal requirements and be easy to use.

      AT-AWG 1102/1104 meet the needs of today’s engineers and technicians with uncompromised performance, a wide variety of signal types, modulation schemes and generation modes all controlled through an intuitive, easy to use interface.


      Models

      ModelsANALOG CHDIGITAL CHSAMPLE RATERECORD LENGTHVERTICAL RES.MAX FREQUENCYMAX. OUTPUT VOLTAGEOUTPUT VOLTAGE WINDOW
      AWG-11022-250 MS/s2 Mpts16 bits125 MHz12Vpp12Vpp
      AWG-1102D218250 MS/s2 Mpts16 bits125 MHz12Vpp12Vpp
      AWG-11044-250 MS/s2 Mpts16 bits125 MHz12Vpp12Vpp
      AWG-1104D436250 MS/s2 Mpts16 bits125 MHz12Vpp12Vpp

      High-Performance Pulses for Your Tests

      Whether it is generating a complex pulse train, a series of radar pulses, pulses for Advanced Research, laser and optical experiments and semiconductor tests, the PG-1500 is the ideal partner for all your most complex tests and cutting-edge applications.


      Applications

      • University education and research

      • UWB signal source and communication

      • Ground-Penetrating Radar (GPR) testing

      • Semiconductor characterization

      • Pulsed Laser Diode Drivers

      • Fast Electro-optical modulators

      • LIDAR

      Multiple Pulses

      You can combine multiple pulses together to obtain double, triple and quadruple pulses that are very useful in semiconductor testing, radar design and laser/optical experiments. Using this feature you can create clock-like signals with frequencies up to 400 MHz.

      Highlights

      • Double, triple and quadruple pulse mode

      • Up to 400 MHz frequency

      • Semiconductor test, radar, lidar and laser application


      UWB Radar Design and Testing

      Active Technologies Pulse Rider PG-1500 Series pulse generators allow creating pulses with different pulse width, repetition rate and amplitude easily using the graphical interface and the touch screen display.
      Following this solution, it is possible to save the time to develop the pulse system and concentrate the efforts on the UWB radar design and test goals.

      Highlights

      • Easy to use Pulse Rider User Interface

      • Simplify tour Radar design and testing

      • Primary radar and secondary radar pulse generation and multiple target simulation


      Ground-Penetrating Radar (GPR) Testing

      Ground-penetrating radar (GPR) is a geophysical method that uses radar pulses to image the subsurface.
      The performance of GPR is mainly determined by the pulse generator and evaluated by the resolution, detection distance and so on.

      A pulse with narrow width, high repetition frequency and high amplitude usually brings a better resolution.
      The PG-1500 Series allows to generate up to 50 Vpp pulses with a narrow width of 1 ns and a maximum repetition rate of 400 MHz.

      Highlights

      • Earth science, military, vehicle localization applications

      • Nondestructive (NDT) testing of structures and pavements

      • Archeology and burial sites application

      Semiconductor Applications

      Newer technologies applied on the Non-Volatile RAM require faster pulses every day: Active Technologies Pulse Rider with transition time under 70 ps, an amplitude up to 5 Vpp, and a time resolution of 10 ps combined to the vertical resolution of 10 mV is the perfect choice for those kinds of requirements.

      Developing modern MOSFET transistor, the challenge is to use high κ material for the dielectric in MOS capacitor, this give the advantage of reduce the leakage current through the isolator but at the same time, it causes some problem due to charge trapping. Short and Slow Pulses tests are fundamental techniques to study those kinds of problems.

      The Active Technologies Pulse Rider PG-1000 Series pulse generators supply fast edges under 70 ps, a baseline offset of +-2.5 V and a pulse width from 300 ps up to 1 s, so it may be the ideal instrument to generate the pulses for Short and Slow Pulse tests.

      Highlights

      • Non-Volatile Memory Cells Characterization

      • Mosfet Test

      • Short, Slow and Narrow Pulses tests


      LiDAR Design and Advanced Research Applications

      Nowadays automotive solutions need to create accurate and reliable tests to prove safety under a variety of test conditions is key: LiDAR is one of the strategic components for these kinds of solutions.

      In big physics experiments, photomultipliers are fundamental since they allow to convert photons in electric charge that can be received by the acquisition system allowing the detecting photons.Using Active Technologies Pulse Rider PG-1500 Series pulse generators it is possible to generate a pulse with different width, period and amplitude used as a Laser Driver signal.

      Highlights

      • Build up LiDAR signal testing for aerospace & defense, automotive and mobile devices solutions

      • Advanced Research and Big Physics applications

      • Laser drivers, klystron drivers



      Specifications

      Model No.AWG-1102AWG-1104
      SpecificationsLimitsLimits
      Channel operating modeArbitraryDDSArbitraryDDS
      Number of Channels24
      WaveformsSine, Cosine, Triangle, Rectangle, Sawtooth, Ramp, Pulse, Sinc, Exponential,Sweep, DC, Noise, From File, Arbitrary
      Sine Waves
      Frequency Range
      2 µHz to 125 MHz3.7 mHz to 110 MHz
      (@ Max sample rate)
      2 µHz to 125 MHz3.7 mHz to 110 MHz
      (@ Max sample rate)
      Amplitude Flatness
      (1 Vp-p), typical
      DC to 125 MHz
      < ± 0.1 dB< ± 0.1 dB
      DC to 110 MHz
      < ± 0.1 dB< ± 0.1 dB
      Harmonics Distortion
      (1 Vp-p), typical
      ≤ 1 MHz
      < -66dBc< -66dBc< -66dBc< -66dBc
      1 MHz to 5 MHz to
      < -63dBc< -63dBc< -63dBc< -63dBc
      5 MHz to 10 MHz
      < -59dBc< -59dBc< -59dBc< -59dBc
      10 MHz to 25 MHz
      < -53dBc< -53dBc< -53dBc< -53dBc
      25 MHz to 75 MHz
      < -38dBc< -38dBc< -38dBc< -38dBc
      75 MHz to 125 MHz
      < -28dBc< -28dBc
      75 MHz to 110 MHz
      < -31dBc< -31dBc
      Non Harmonic Distortion (1 Vp-p, Frequency range DC to 200 MHz), typical
      ≤ 1 MHz
      < -71dBc< -63dBc< -71dBc< -63dBc
      1 MHz to 5 MHz to
      < -71dBc< -63dBc< -71dBc< -63dBc
      5 MHz to 10 MHz
      < -71dBc< -63dBc< -71dBc< -63dBc
      10 MHz to 25 MHz
      < -66dBc < -63dBc< -66dBc < -63dBc
      25 MHz to 75 MHz
      < -53dBc < -61dBc< -53dBc < -61dBc
      75 MHz to 125 MHz
      < -47dBc< -47dBc
      75 MHz to 100 MHz
      < -61dBc< -61dBc
      100 MHz to 110MHz
      < -30dBc< -30dBc
      THD (100 KHz, 1 Vp-p), typical
      < 0.15%< 0.15%
      Phase noise (20 MHz, 1 Vp-p), typical
      10 KHz offset
      -130 dBc/Hz-130 dBc/Hz
      100 KHz offset
      -132 dBc/Hz-132 dBc/Hz
      1 MHz offset
      -133 dBc/Hz-133 dBc/Hz
      Analog Bandwith
      125 MHz 110 MHz125 MHz 110 MHz
      Arbitrary Mode Specifications
      Square Wave, Pulse (1 Vp-p)
      Frequency Range
      2 µHz to 62.5 MHz2 µHz to 62.5 MHz
      Duty Cycle Range
      1% to 99%1% to 99%
      Rise/Fall Time, typical
      < 3.5 ns< 3.5 ns
      Overshoot, typical
      < 5.5%< 5.5%
      Random jitter (rms), typical
      < 20 ps< 20 ps
      Triangle
      Frequency Range
      2 µHz to 31.25 MHz2 µHz to 31.25 MHz
      Start Phase Range
      0 to 360°0 to 360°
      Ramp
      Frequency Range
      2 µHz to 31.25 MHz2 µHz to 31.25 MHz
      Sinc (Sine(x)/x)
      Frequency Range
      2 µHz to 15.5 MHz2 µHz to 15.5 MHz
      Minimum Lobe Width
      8 ns8 ns
      Amplitude Modulation
      Modulation type
      Arbitrary AM, ASKArbitrary AM, ASK
      Carrier waveform
      All, From File, ArbitraryAll, From File, Arbitrary
      Modulating waveforms
      All, From File, ArbitraryAll, From File, Arbitrary
      Modulating source
      InternalInternal
      Modulating waveform sample clock (@ Max. sampling rate)
      0.46 S/s to 125 MS/s0.46 S/s to 125 MS/s
      Memory size
      2047 entries2047 entries
      Waveform sequencing
      Waveforms
      All, From File, ArbitraryAll, From File, Arbitrary
      Waveform repetitions
      1 to (2^33 – 1)1 to (2^33 – 1)
      Start source
      Software, Internal, ExternalSoftware, Internal, External
      No. of waveforms
      1 to 5111 to 511
      General
      Sample rate real time
      4 S/s to 250 MS/s4 S/s to 250 MS/s
      Vertical res.
      16 Bit16 Bit
      Waveform memory
      2 MSamples / Ch.2 MSamples / Ch.
      Min. waveform length
      8 points8 points
      Waveform resolution
      2 points2 points
      Noise bandwidth (-3 dB gaussian noise), typical
      100 MHz100 MHz
      Run Modes
      Single, Continuous, Stepped, BurstSingle, Continuous, Stepped, Burst
      DDS Mode Specifications
      Phase/Frequency Modulation
      Modulation type
      Arbitrary FM/PM, FSK, PSKArbitrary FM/PM, FSK, PSK
      Carrier waveform
      All, From File, ArbitraryAll, From File, Arbitrary
      Modulating waveforms
      All, From File, ArbitraryAll, From File, Arbitrary
      Modulating source
      InternalInternal
      Carrier frequency (@ Max. sample rate)
      Sine wave
      3.7mHz to 110 MHz3.7mHz to 110 MHz
      Square
      3.7mHz to 62.5 MHz3.7mHz to 62.5 MHz
      Triangle
      3.7mHz to 31.25 MHz3.7mHz to 31.25 MHz
      Ramp
      3.7mHz to 31.25 MHz3.7mHz to 31.25 MHz
      Modulating waveform sample clock (@ Max. sample rate)
      From 119.2S/s to 125 MS/s (per sample programmable)From 119.2S/s to 125 MS/s (per sample programmable)
      Memory size
      511 entries511 entries
      Frequency resolution
      0.0019 Hz (FSK), 2.15E-5° (PSK) @ 125 MS/s sample rate
      0.0037 Hz (FSK), 4.30E-5° (PSK) @ 250 MS/s sample rate
      0.0019 Hz (FSK), 2.15E-5° (PSK) @ 125 MS/s sample rate
      0.0037 Hz (FSK), 4.30E-5° (PSK) @ 250 MS/s sample rate
      Frequency sweep
      Carrier waveform
      All, From File, ArbitraryAll, From File, Arbitrary
      Sweep type
      All waveformsAll waveforms
      Sweep direction
      Up or DownUp or Down
      Sweep range (@ Max. sample rate)
      Sine wave
      3.7mHz to 110 MHz3.7mHz to 110 MHz
      Square
      3.7mHz to 62.5 MHz3.7mHz to 62.5 MHz
      Triangle
      3.7mHz to 31.25 MHz3.7mHz to 31.25 MHz
      Ramp
      3.7mHz to 31.25 MHz3.7mHz to 31.25 MHz
      Sweep time (@ Max. sample rate)
      100ns to 4.2s100ns to 4.2s
      General
      Sample Rate Real Time
      125 MS/s to 250 MS/s125 MS/s to 250 MS/s
      Run Modes
      Single, Continuous, BurstSingle, Continuous, Burst
      Carrier Waveform Memory
      2048 Samples / Ch.2048 Samples / Ch.
      Pulse Width Modulation
      Carrier waveform
      PulsePulse
      Carrier frequency
      100 mHz to 20 MHz100 mHz to 20 MHz
      Duty cycle modulating waveform
      Sine, Triangle, Ramp, Noise, ManualSine, Triangle, Ramp, Noise, Manual
      Duty cycle modulating frequency
      10 µHz to 6.67 MHz10 µHz to 6.67 MHz
      Source
      InternalInternal
      Duty cycle deviation
      0 % to 100 % of pulse period0 % to 100 % of pulse period
      Frequency accuracy
      Stability
      < ± 5 ppm
      < ± 5 ppm
      Aging
      < ± 2 ppm / year< ± 2 ppm / year
      Max Interpolated Sample Rate
      1 GS/s (4x interpolation)1 GS/s (4x interpolation)
      Interpolation Factors
      1x, 2x, 4x1x, 2x, 4x
      Sampling Frequency Resolution
      15 digits limited by 1 nHz15 digits limited by 1 nHz
      Amplitude, 50 Ω Load (1 KHz)
      0V to +12 Vpp0V to +12 Vpp
      Amplitude, Open Circuit
      0V to +24Vpp0V to +24Vpp
      Amplitude Resolution
      < 1mV< 1mV

      DC Accuracy, Open circuit 
      (± 12 V range)
      ± 0.25% of amplitude range (within ±10 °C of calibration temperature T=25 °C, Humidity ≤ 80%)
      ± 0.3% of amplitude range (0 to 50°C)
      ± 0.25% of amplitude range (within ±10 °C of calibration temperature T=25 °C, Humidity ≤ 80%)
      ± 0.3% of amplitude range (0 to 50°C)
      DC Accuracy, 50 Ω Load (± 6 V range)
      ± 0.25% of amplitude range (within ±10 °C of calibration temperature T=25 °C, Humidity ≤ 80%)
      ± 0.3% of amplitude range (0 to 50°C)
      ± 0.25% of amplitude range (within ±10 °C of calibration temperature T=25 °C, Humidity ≤ 80%)
      ± 0.3% of amplitude range (0 to 50°C)
      AC Accuracy, Open circuit (0 Vpp to +24 Vpp range, 1 KHz sine wave)
      ± 0.25% of amplitude range (within ±10 °C of calibration temperature T=25 °C, Humidity ≤ 80%)
      ± 0.3% of amplitude range (0 to 50°C)
      ± 0.25% of amplitude range (within ±10 °C of calibration temperature T=25 °C, Humidity ≤ 80%)
      ± 0.3% of amplitude range (0 to 50°C)
      AC Accuracy, 50 Ω Load (0 Vpp to +12 Vpp range, 1 KHz sine wave)
      ± 0.25% of amplitude range (within ±10 °C of calibration temperature T=25 °C, Humidity ≤ 80%)
      ± 0.3% of amplitude range (0 to 50°C)
      ± 0.25% of amplitude range (within ±10 °C of calibration temperature T=25 °C, Humidity ≤ 80%)
      ± 0.3% of amplitude range (0 to 50°C)
      Output Impedance
      Selectable: 50 Ohm, Low or High ImpedanceSelectable: 50 Ohm, Low or High Impedance
      Short Circuit Protection
      Signal outputs are robust against permanent shorts against floating groundSignal outputs are robust against permanent shorts against floating ground
      CH1, CH2
      Output connector
      Front panel BNCFront panel BNC
      Voltage range (open circuit)
      VOmin = -12V
      VOmax = +12V
      VOmin = -12V
      VOmax = +12V
      Output impedance
      50 Ohm, Low or High Impedance50 Ohm, Low or High Impedance
      Io max (only 1 channel loaded)
      ± 200mA max per channel± 200mA max
      Io max (1 or 2 channels loaded)
      ± 120mA max per channel
      Io max (all channels loaded)
      ± 120mA max per channel± 60mA max per channel
      External Clock
      Input connector
      Front panel BNCFront panel BNC
      Frequency range
      5 MHz to 125 MHz5 MHz to 125 MHz
      Min. input voltage swing
      ΔVINmin > 2VΔVINmin > 2V
      Damage level
      VINmax < 5V
      VINmin > -5V
      VINmax < 5V
      VINmin > -5V
      External Trigger Input
       
       
      Input connector
      Front panel BNCFront panel BNC
      Frequency range
      DC to 125MhzDC to 125Mhz
      Threshold level
      VILmax = 0.8V, VIHmin=2VVILmax = 0.8V, VIHmin=2V
      Voltage range
      -0.5V to 4V-0.5V to 4V
      Damage level
      VINmax < 6V
      VINmin > -2V
      VINmax < 6V
      VINmin > -2V
      Slope
      Rising Edge or FallingRising Edge or Falling
      Trigger IN to Output Delay
      <400 ns<400 ns
      Trigger IN to Output Jitter
      ±2 ns±2ns
      External Trigger Output
      Output connector
      Front panel BNCFront panel BNC
      Output level
      TTL compatible into > 1 KOhmTTL compatible into > 1 KOhm
      Output impedance
      50 Ohm nominal50 Ohm nominal
      Digital I/O
      Connector
      50 pin high density (1.27mm) SCSI connector50 pin high density (1.27mm) SCSI connector
      Connector count
      11
      Multi Channel Specifications
      Sampling rate tuning
      Programmable per channel couple (Ch1-2)Programmable per channel couple (Ch1-2)
      Skew between channels (all channels at the same sampling rate)
      Average, typical
      < 300 ps< 300 ps
      Standard deviation, typical
      < 35 ps< 35 ps
      Math
      Sum, Difference, Multiply between the two channels (Ch1-2)Sum, Difference, Multiply between the two channels (Ch1-2)
      General
      Power supply voltage range
      100 +/- 10% to 240 +/- 10% VAC100 +/- 10% to 240 +/- 10% VAC
      Power consumption
      35 W max.35 W max.
      Power Frequency range
      50/60 Hz +/- 5%50/60 Hz +/- 5%
      PC interface
      USB 2.0USB 2.0
      External dimensions
      335 x 175 x 43 mm335 x 175 x 43 mm
      Weight
      1.8 Kg1.8 Kg
      Front panel connectors
      - CH1 BNC
      - CH2 BNC
      - Trigger Input BNC
      - Trigger Output BNC
      - External clock input BNC
      - Digital I/O Pod A, 50 pin high density (1.27mm)
      - CH1 BNC
      - CH2 BNC
      - Trigger Input BNC
      - Trigger Output BNC
      - External clock input BNC
      - Digital I/O Pod A, 50 pin high density (1.27mm)
      Rear panel connectors
      - DC power jack
      - USB
      - DC power jack
      - USB
      Minimum PC Requirements
      Operative system
      Microsoft Windows 2000/XP
      SP2/Vista/7 32Bit Editions
      Microsoft Windows 2000/XP
      SP2/ Vista / 7 / 10 – 32 & 64Bit Editions
      Processor
      Pentium III processor, or equivalentPentium III processor, or equivalent
      Memory
      512Mbytes RAM512Mbytes RAM
      Hard Disk
      150Mbytes available free space150Mbytes available free space
      Display Resolution
      800x600
      800x600
      Ports
      USB 2.0 or 1.1USB 2.0 or 1.1