Table Of Contents

PXI-5412 Specifications

Version:
    Last Modified: May 4, 2017

    Definitions

    Warranted specifications describe the performance of a model under stated operating conditions and are covered by the model warranty.

    Characteristics describe values that are relevant to the use of the model under stated operating conditions but are not covered by the model warranty.

    • Typical specifications describe the expected performance met by a majority of the models.
    • Nominal specifications describe parameters and attributes that may be useful in operation.

    Specifications are Nominal unless otherwise noted.

    Conditions

    Specifications are valid under the following conditions unless otherwise noted:

    • Ambient temperature range of 0 °C to 55 °C
    • Interpolation set to maximum allowed factor for a given sample rate
    • Signals terminated with 50 Ω
    • Low-gain amplifier path set to 2 Vpk-pk
    • High-gain amplifier path set to 12 Vpk-pk
    • Sample Clock set to 100 MS/s

    Typical specifications are valid under the following conditions unless otherwise noted:

    • Ambient temperature range of 23 °C±5 °C

    CH 0

    Number of channels

    1

    Connector type

    SMB jack

    Output Voltage

    Full-scale voltage

    Main output path[1]

    12.00 Vpk-pk to 5.64 mVpk-pk into a 50 Ω load

    DAC resolution

    14 bits

    Maximum output voltage[2]
    Low-gain amplifier path

    50 Ω load

    ±1.000 Vpk

    1 kΩ load

    ±1.905 Vpk

    Open load

    ±2.000 Vpk

    High-gain amplifier path

    50 Ω load

    ±6.000 Vpk

    1 kΩ load

    ±11.43 Vpk

    Open load

    ±12.00 Vpk

    Amplitude and Offset

    Amplitude range[3], low-gain amplifier path
    50 Ω load

    Minimum amplitude

    0.00564 Vpk-pk

    Maximum amplitude

    2.00 Vpk-pk

    1 kΩ load

    Minimum amplitude

    0.0107 Vpk-pk

    Maximum amplitude

    3.81 Vpk-pk

    Open load

    Minimum amplitude

    0.0113 Vpk-pk

    Maximum amplitude

    4.00 Vpk-pk

    Amplitude range[3], high-gain amplifier path
    50 Ω load

    Minimum amplitude

    0.0338 Vpk-pk

    Maximum amplitude

    12.0 Vpk-pk

    1 kΩ load

    Minimum amplitude

    0.0644 Vpk-pk

    Maximum amplitude

    22.9 Vpk-pk

    Open load

    Minimum amplitude

    0.0676 Vpk-pk

    Maximum amplitude

    24.0 Vpk-pk

    Amplitude resolution

    <0.06% (0.004 dB) of amplitude range

    Offset range

    Span of ±25% of amplitude range with increments <0.0014% of amplitude range

    Accuracy

    DC accuracy (calibrated for high-impedance load)[4]

    Within ±10 °C of self-calibration temperature

    ±0.2% of amplitude range ±0.05% of offset ±500 µV

    0 °C to 55 °C

    ±0.4% of amplitude range ±0.05% of offset ±1 mV

    AC amplitude accuracy[5]

    (+2.0% + 1 mV), (-1.0% - 1 mV)

    (+0.8% + 0.5 mV), (-0.2% - 0.5 mV), typical

    Output Characteristics

    Output impedance

    Software-selectable: 50 Ω or 75 Ω

    Output coupling

    DC

    Output enable

    Software-selectable: When the output path is disabled, the CH 0 output is terminated to ground with a 1 W resistor with a value equal to the selected output impedance

    Maximum output overload

    The CH 0 output can be connected to a 50 Ω, ±12 V source without sustaining any damage. No damage occurs if the CH 0 output is shorted to ground indefinitely.

    Waveform summing

    The CH 0 output supports waveform summing among similar paths—specifically, the output terminals of multiple PXI-5412 waveform generators can be connected directly together

    Frequency and Transient Response

    Bandwidth[6]

    20 MHz

    Digital interpolation filter[7]

    Software-selectable: Finite impulse response (FIR) filter. Available interpolation factors are 2, 4, or 8.

    Passband flatness[8]

    ±1.0 dB from DC to 6 MHz

    Pulse response[9]
    Low-gain amplifier path

    Rise/fall time

    <20 ns, typical

    Aberration

    <5%, typical

    High-gain amplifier path

    Rise/fall time

    <20 ns, typical

    Aberration

    <5%, typical

    Figure 1. Pulse Response, Low-Gain Amplifier Path 50 Ω Load

    Suggested Maximum Frequencies for Common Functions

    Suggested maximum frequencies[10]
    Low-gain amplifier path

    Sine

    20 MHz

    Square

    5 MHz

    Ramp

    1 MHz

    Triangle

    1 MHz

    High-gain amplifier path

    Sine

    20 MHz

    Square

    5 MHz

    Ramp

    1 MHz

    Triangle

    1 MHz

    Spectral Characteristics

    Spurious-free dynamic range (SFDR)[11] without harmonics[12]
    Low-gain amplifier path

    1 MHz

    70 dB, typical

    10 MHz

    65 dB, typical

    20 MHz

    60 dB, typical

    High-gain amplifier path

    1 MHz

    70 dB, typical

    10 MHz

    65 dB, typical

    20 MHz

    60 dB, typical

    Total harmonic distortion (THD)[13] (0 °C to 40 °C)
    Low-gain amplifier path

    1 MHz

    -59 dBc, typical

    10 MHz

    -52 dBc, typical

    20 MHz

    -45 dBc, typical

    High-gain amplifier path

    1 MHz

    -51 dBc, typical

    10 MHz

    -40 dBc, typical

    20 MHz

    -37 dBc, typical

    Average noise density[14]
    Low-gain amplifier path

    2 Vpk-pk, 10 dBm amplitude range

    45 nV √Hz , -134 dBm/Hz, -144 dBFS/Hz, typical

    High-gain amplifier path

    12 Vpk-pk, 25.6 dBm amplitude range

    251 nV √Hz , -119 dBm/Hz, -145 dBFS/Hz, typical

    Sample Clock

    Sources[15]

    Internal, Divide-by-N (N ≥ 1)

    Internal, DDS-based, High-Resolution

    External, CLK IN (SMB front panel connector)

    External, PXI Star Trigger (backplane connector)

    External, PXI_Trig<0..7> (backplane connector)

    Sample Rate Range and Resolution

    Sample rate range

    Divide-by-N

    23.84 S/s to 100 MS/s

    High-Resolution

    10 S/s to 100 MS/s

    CLK IN

    200 kS/s to 105 MS/s

    PXI Star Trigger

    10 S/s to 105 MS/s

    PXI_Trig<0..7>

    10 S/s to 20 MS/s

    Sample rate resolution

    Divide-by-N

    Configurable to (100 MS/s)/N (1 ≤ N ≤ 4,194,304)

    High-Resolution

    1.06 µHz

    CLK IN, PXI Star Trigger, and PXI_Trig<0..7>

    Resolution determined by External Clock source. External Sample Clock duty cycle tolerance 40% to 60%.

    Effective Sample Rate

    (Interpolation factor) * (Sample rate) = Effective sample rate
    Interpolation factor Sample rate Effective sample rate
    1 (Off) 10 S/s to 105 MS/s 10 S/s to 105 MS/s
    2 12.5 MS/s to 105 MS/s 25 MS/s to 210 MS/s
    4 10 MS/s to 100 MS/s 40 MS/s to 400 MS/s
    8 10 MS/s to 50 MS/s 80 MS/s to 400 MS/s

    Sample Clock Delay Range and Resolution

    Delay adjustment range

    Divide-by-N

    ±1 Sample Clock period

    High-Resolution

    ±1 Sample Clock period

    Delay adjustment resolution

    Divide-by-N

    <10 ps

    High-Resolution

    Sample Clock period/16,384

    System Phase Noise Jitter (10 MHz Carrier)

    System phase noise density offset[16]

    100 Hz

    -100 dBc/Hz, typical

    1 kHz

    -118 dBc/Hz, typical

    10 kHz

    -120 dBc/Hz, typical

    System output jitter (integrated from 100 Hz to 100 kHz)[16]

    <6 ps rms, typical

    External Sample Clock input jitter tolerance

    Cycle-cycle jitter

    ±300 ps, typical

    Period jitter

    ±1 ns, typical

    Exported Sample Clock Destinations

    Destinations[17]

    PFI<0..1> (SMB front panel connectors)

    PXI_Trig<0..6> (backplane connector)

    Maximum frequency

    PFI<0..1>

    105 MHz

    PXI_Trig<0..6>

    20 MHz

    Duty cycle

    PFI<0..1>

    25% to 65%

    Onboard Clock (Internal VCXO)

    Source

    Internal Sample Clocks can either be locked to a Reference Clock using a phase-locked loop or derived from the onboard VCXO frequency reference

    Frequency accuracy

    ±25 ppm

    Phase-Locked Loop (PLL) Reference Clock

    Sources[18]

    PXI_CLK10 (backplane connector)

    CLK IN (SMB front panel connector)

    Frequency accuracy

    When using the PLL, the frequency accuracy of the PXI-5412 is solely dependent on the frequency accuracy of the PLL Reference Clock source

    Lock time

    ≤200 ms

    Frequency range[19]

    5 MHz to 20 MHz, in increments of 1 MHz. The default is 10 MHz.

    Duty cycle range

    40% to 60%

    Destinations

    PFI<0..1> (SMB front panel connectors)

    PXI_Trig<0..6> (backplane connector)

    CLK IN

    Connector type

    SMB jack

    Direction

    Input

    Destinations

    Sample Clock

    PLL Reference Clock

    Frequency range

    Sample Clock destination and sine waves

    1 MHz to 105 MHz

    Sample Clock destination and square waves

    200 kHz to 105 MHz

    PLL Reference Clock destination

    5 MHz to 20 MHz

    Input voltage range

    Sine wave

    0.65 Vpk-pk to 2.8 Vpk-pk into 50 Ω (0 dBm to +13 dBm)

    Square wave

    0.2 Vpk-pk to 2.8 Vpk-pk into 50 Ω

    Maximum input overload

    ±10 V

    Input impedance

    50 Ω

    Input coupling

    AC

    PFI 0 and PFI 1

    Connector type

    SMB jack (x2)

    Direction

    Bidirectional

    Frequency range

    DC to 105 MHz

    As an input (trigger)

    Destinations

    Start Trigger

    Maximum input overload

    -2 V to +7 V

    VIH

    2.0 V

    VIL

    0.8 V

    Input impedance

    1 kΩ

    As an output (event)

    Sources

    Sample Clock divided by integer K (1 ≤ K ≤ 4,194,304)

    Sample Clock Timebase (100 MHz) divided by integer M (2M ≤ 4,194,304)

    PLL Reference Clock

    Marker

    Exported Start Trigger (Out Start Trigger)

    Output impedance

    50 Ω

    Maximum output overload

    -2 V to +7 V

    Minimum VOH[20]

    Open load

    2.9 V

    50 Ω load

    1.4 V

    Maximum VOL[20]

    Open load

    0.2 V

    50 Ω load

    0.2 V

    Rise/fall time (20% to 80%)[21]

    ≤2.0 ns

    TClk Synchronization

    National Instruments TClk synchronization method and the NI-TClk instrument driver are used to align the Sample Clocks on any number of SMC-based modules in a chassis.

    • Specifications are valid for any number of PXI modules installed in one PXI-1042 chassis
    • All parameters are set to identical values for each SMC-based module
    • Sample Clock is set to 100 MS/s, Divide-by-N, and all filters are disabled
    • For other configurations, including multichassis systems, contact NI Technical Support at ni.com/support

    Intermodule SMC Synchronization Using NI-TClk for Identical Modules

    Skew[22]

    500 ps, typical

    Average skew after manual adjustment[23]

    <10 ps, typical

    Sample Clock delay/adjustment resolution

    ≤10 ps, typical

    spd-note-note
    Note  

    Although you can use NI-TClk to synchronize nonidentical modules, these specifications apply only to synchronizing identical modules.

    Start Trigger

    Sources

    PFI<0..1> (SMB front panel connectors)

    PXI_Trig<0..7> (backplane connector)

    PXI Star Trigger (backplane connector)

    Software (use node or function call)

    Immediate (does not wait for a trigger). The default is Immediate.

    Modes

    Single

    Continuous

    Stepped

    Burst

    Edge detection

    Rising

    Minimum pulse width

    25 ns

    Delay from Start Trigger to CH 0 analog output

    Digital interpolation filter disabled

    43 Sample Clock periods + 110 ns, typical

    Interpolation factor of 2

    57 Sample Clock periods + 110 ns, typical

    Interpolation factor of 4

    63 Sample Clock periods + 110 ns, typical

    Interpolation factor of 8

    64 Sample Clock periods + 110 ns, typical

    Destinations

    A signal used as a trigger can be routed out to any destination listed in the Destinations specification of the Markers section

    Exported trigger delay

    65 ns, typical

    Exported trigger pulse width

    >150 ns

    Markers

    Destinations

    PFI<0..1> (SMB front panel connectors)

    PXI_Trig<0..6> (backpane connector)

    Quantity

    One marker per segment

    Quantum

    Marker position must be placed at an integer multiple of four samples

    Width

    >150 ns

    Skew
    PFI<0..1>

    With respect to analog output

    ±2 Sample Clock periods

    PXI_Trig<0..6>

    With respect to analog output

    ±2 Sample Clock periods

    Arbitrary Waveform Generation Mode

    Memory usage

    The PXI-5412 uses the Synchronization and Memory Core (SMC) technology in which waveforms and instructions share onboard memory. Parameters, such as number of segments in sequence list, maximum number of waveforms in memory, and number of samples available for waveform storage, are flexible and user-defined.

    Onboard memory size

    8 MB standard

    8,388,608 bytes

    32 MB option

    33,554,432 bytes

    256 MB option

    268,435,456 bytes

    Output modes

    Arbitrary waveform[24]

    Arbitrary sequence[25]

    Minimum waveform size
    Arbitrary waveform mode

    Single Trigger mode

    16 samples

    Continuous Trigger mode

    16 samples

    Stepped Trigger mode

    32 samples

    Burst Trigger mode

    16 samples

    Arbitrary sequence mode[26]

    Single Trigger mode

    16 samples

    Continuous Trigger mode

    96 samples at >50 MS/s

    32 samples at ≤50 MS/s

    Stepped Trigger mode

    96 samples at >50 MS/s

    32 samples at ≤50 MS/s

    Burst Trigger mode

    512 samples at >50 MS/s

    256 samples at ≤50 MS/s

    Loop count

    1 to 16,777,215

    Burst trigger: Unlimited

    Quantum

    Waveform size must be an integer multiple of four samples

    Memory Limits[27]

    Maximum waveform memory, arbitrary waveform mode

    8 MB standard

    4,194,176 samples

    32 MB option

    16,777,088 samples

    256 MB option

    134,217,600 samples

    Maximum waveform memory, arbitrary sequence mode[28]

    8 MB standard

    4,194,120 samples

    32 MB option

    16,777,008 samples

    256 MB option

    134,217,520 samples

    Maximum waveforms, arbitrary sequence mode[28]

    8 MB standard

    65,000

    Burst trigger: 8,000

    32 MB option

    262,000

    Burst trigger: 32,000

    256 MB option

    2,097,000

    Burst trigger: 262,000

    Maximum segments in a sequence, arbitrary sequence mode[29]

    8 MB standard

    104,000

    Burst trigger: 65,000

    32 MB option

    418,000

    Burst trigger: 262,000

    256 MB option

    3,354,000

    Burst trigger: 2,090,000

    Calibration

    Self-calibration

    An onboard, 24-bit ADC and precision voltage reference are used to calibrate the DC gain and offset. The self-calibration is initiated by the user through the software and takes approximately 75 seconds to complete.

    External calibration[30]

    External calibration calibrates the VCXO, voltage reference, DC gain, and offset. Appropriate constants are stored in nonvolatile memory.

    Calibration interval

    Specifications valid within two years of external calibration

    Warm-up time

    15 minutes

    Power

    Total power

    Normal operation

    22 W, typical

    Overload operation[31]

    26 W, typical

    Environment

    Maximum altitude

    2,000 m (at 25 °C ambient temperature)

    Pollution Degree

    2

    Indoor use only.

    Operating Environment

    Ambient temperature range

    0 °C to 55 °C (Tested in accordance with IEC 60068-2-1 and IEC 60068-2-2.)

    0 °C to 45 °C (Tested in accordance with IEC 60068-2-1 and IEC 60068-2-2.) when installed in a PXI-101x or PXI-1000 chassis

    Relative humidity range

    10% to 90%, noncondensing (Tested in accordance with IEC 60068-2-56.)

    Storage Environment

    Ambient temperature range

    -25 °C to 85 °C (Tested in accordance with IEC 60068-2-1 and IEC 60068-2-2.)

    Relative humidity range

    5% to 95%, noncondensing (Tested in accordance with IEC 60068-2-56.)

    Shock and Vibration

    Shock

    Operating[32]

    30 g peak, half-sine, 11 ms pulse (Tested in accordance with IEC 60068-2-27. Test profile developed in accordance with MIL-PRF-28800F.)

    Storage

    50 g peak, half-sine, 11 ms pulse (Tested in accordance with IEC 60068-2-27. Test profile developed in accordance with MIL-PRF-28800F.)

    Random vibration

    Operating[32]

    5 Hz to 500 Hz, 0.31 grms (Tested in accordance with IEC 60068-2-64.)

    Nonoperating

    5 Hz to 500 Hz, 2.46 grms (Tested in accordance with IEC 60068-2-64. Test profile exceeds the requirements of MIL-PRF-28800F, Class 3.)

    Physical Characteristics

    Dimensions

    3U, one-slot, PXI/cPCI module

    21.6 cm × 2.0 cm × 13.0 cm (8.5 in. × 0.8 in. × 5.1 in.)

    Weight

    340 g (11 oz)

    Compliance and Certifications

    Safety

    This product is designed to meet the requirements of the following electrical equipment safety standards for measurement, control, and laboratory use:

    • IEC 61010-1, EN 61010-1
    • UL 61010-1, CSA C22.2 No. 61010-1
    spd-note-note
    Note  

    For UL and other safety certifications, refer to the product label or the Online Product Certification section.

    Electromagnetic Compatibility

    This product meets the requirements of the following EMC standards for electrical equipment for measurement, control, and laboratory use:
    • EN 61326-1 (IEC 61326-1): Class A emissions; Basic immunity
    • EN 55011 (CISPR 11): Group 1, Class A emissions
    • AS/NZS CISPR 11: Group 1, Class A emissions
    • FCC 47 CFR Part 15B: Class A emissions
    • ICES-001: Class A emissions
    spd-note-note
    Note  

    In the United States (per FCC 47 CFR), Class A equipment is intended for use in commercial, light-industrial, and heavy-industrial locations. In Europe, Canada, Australia, and New Zealand (per CISPR 11), Class A equipment is intended for use only in heavy-industrial locations.

    spd-note-note
    Note  

    Group 1 equipment (per CISPR 11) is any industrial, scientific, or medical equipment that does not intentionally generate radio frequency energy for the treatment of material or inspection/analysis purposes.

    spd-note-note
    Note  

    For EMC declarations and certifications, refer to the Online Product Certification section.

    CE Compliance

    This product meets the essential requirements of applicable European Directives, as follows:

    • 2014/35/EU; Low-Voltage Directive (safety)
    • 2014/30/EU; Electromagnetic Compatibility Directive (EMC)

    Online Product Certification

    Refer to the product Declaration of Conformity (DoC) for additional regulatory compliance information. To obtain product certifications and the DoC for this product, visit ni.com/certification, search by model number or product line, and click the appropriate link in the Certification column.

    Environmental Management

    NI is committed to designing and manufacturing products in an environmentally responsible manner. NI recognizes that eliminating certain hazardous substances from our products is beneficial to the environment and to NI customers.

    For additional environmental information, refer to the Minimize Our Environmental Impact web page at ni.com/environment. This page contains the environmental regulations and directives with which NI complies, as well as other environmental information not included in this document.

    Waste Electrical and Electronic Equipment (WEEE)

    spd-note-weee
    EU Customers  

    At the end of the product life cycle, all NI products must be disposed of according to local laws and regulations. For more information about how to recycle NI products in your region, visit ni.com/environment/weee.

    电子信息产品污染控制管理办法(中国RoHS)

    spd-note-china-rohs
    中国客户  

    National Instruments符合中国电子信息产品中限制使用某些有害物质指令(RoHS)。关于National Instruments中国RoHS合规性信息,请登录 ni.com/environment/rohs_china。(For information about China RoHS compliance, go to ni.com/environment/rohs_china.)

    • 1 Depending on the value of the Gain property or NIFGEN_ATTR_GAIN attribute, either the low-gain amplifier or the high-gain amplifier is used when the main output path is selected.
    • 2 The maximum output voltage of the PXI-5412 is determined by the amplitude range and the offset range.
    • 3 Amplitude values assume the full scale of the DAC is utilized. NI-FGEN uses waveforms less than the full scale of the DAC to create amplitudes smaller than the minimum value. NI-FGEN compensates for user-specified resistive loads.
    • 4 For DC accuracy, amplitude range is defined as two times the gain setting. For example, a DC signal with a gain of eight has an amplitude range of 16 V. If this signal has an offset of 1.5, DC accuracy is calculated by the following equation: ±0.2% * (16 V) ± 0.05% * (1.5 V) ± 500µV = ±33.25 mV
    • 5 50 kHz sine wave. Signals terminated with high impedance.
    • 6 Measured at -3 dB.
    • 7 The digital filter is not available for use for Sample Clock rates below 10 MS/s. Refer to Effective Sample Rate for more information about the effect of interpolation on sample rates.
    • 8 With respect to 50 kHz.
    • 9 Measured with a 1 m RG-223 cable.
    • 10 The minimum frequency is <1 mHz. The value depends on memory size and instrument configuration.
    • 11 Dynamic range is defined as the difference between the carrier level and the largest spur.
    • 12 Amplitude -1 dBFS. Measured from DC to 50 MHz.
    • 13 Amplitude -1 dBFS. Includes the 2nd through the 6th harmonics.
    • 14 Average noise density at small amplitudes is limited by a -148 dBm/Hz noise floor.
    • 15 Refer to the Onboard Clock section for more information about internal clock sources.
    • 16 Specified at two times DAC oversampling. High-Resolution specifications vary with sample rate.
    • 17 Exported Sample Clocks can be divided by integer K (1 ≤ K ≤ 4,194,304).
    • 18 The PLL Reference Clock provides the reference frequency for the PLL.
    • 19 The PLL Reference Clock frequency must be accurate to ±50 ppm.
    • 20 Output drivers are +3.3 V TTL compatible.
    • 21 Load of 10 pF.
    • 22 Caused by clock and analog path delay differences. No manual adjustment performed.
    • 23 For information about manual adjustment, search ni.com for NI-TClk Synchronization Repeatability Optimization or for help with the adjustment process, contact NI Technical Support at ni.com/support.
    • 24 In arbitrary waveform mode, a single waveform is selected from the set of waveforms stored in onboard memory and generated.
    • 25 In arbitrary sequence mode, a sequence directs the PXI-5412 to generate a set of waveforms in a specific order. Elements of the sequence are referred to as segments. Each segment is associated with a set of instructions. The instructions identify which waveform is selected from the set of waveforms in memory, how many loops (iterations) of the waveform are generated, and at which sample in the waveform a marker output signal is sent.
    • 26 The minimum waveform size is sample rate dependent in arbitrary sequence mode.
    • 27 All trigger modes except where noted.
    • 28 Condition: One or two segments in a sequence.
    • 29 Condition: Waveform memory is <4,000 samples.
    • 30 Also known as factory calibration.
    • 31 Overload operation occurs when CH 0 is shorted to ground.
    • 32 Spectral and jitter specifications could degrade.

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