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NI 5412 Specifications

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Waveform and Instruction Memory Utilization

Table 9.  

Specification

Value

Comments

Memory Usage

The NI 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 mode and Arbitrary Sequence mode

Arbitrary 
Waveform 
Mode

In Arbitrary Waveform mode, a single waveform is selected 
from the set of waveforms stored in onboard memory and 
generated.

Arbitrary 
Sequence 
Mode

In Arbitrary Sequence mode, a sequence directs the NI 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.

Minimum 
Waveform Size 
(Samples)

Trigger Mode

Arbitrary 

Waveform Mode

Arbitrary 

Sequence Mode

The Minimum 
Waveform Size 
is sample rate 
dependent in 
Arbitrary 
Sequence Mode.

Single 

16

16

Continuous

16

96 @ >50 MS/s

32 @ 

50 MS/s

Stepped

32

96 @ >50 MS/s

32 @ 

50 MS/s

Burst

16

512 @ >50 MS/s

256 @ 

50 MS/s

Summary of Contents for NI 5412

Page 1: ...access all the NI 5412 documentation including the NI Signal Generators Getting Started Guide which contains functional descriptions of the NI 5412 signals navigate to Start Programs National Instrum...

Page 2: ...he Main Output Path is selected depending on the Gain attribute DAC Resolution 14 bits Amplitude and Offset Amplitude Range Path Load Amplitude Vpk pk 1 Amplitude values assume the full scale of the D...

Page 3: ...AC Amplitude Accuracy 1 0 of desired Amplitude 1 mV 50 kHz sine wave Output Characteristics Output Impedance 50 or 75 nominal software selectable Output Coupling DC Output Enable Software selectable W...

Page 4: ...Response FIR filter Available interpolation factors are 2 4 or 8 Passband Flatness Low Gain and High Gain Amplifiers Path 1 0 dB from DC to 6 MHz Pulse Response Path All values are typical Measured w...

Page 5: ...National Instruments Corporation 5 NI 5412 Specifications Figure 1 Pulse Response Low Gain Amplifier Path 50 Load 2 0 1 6 0 4 1 2 0 0 0 8 0 4 0 8 1 2 1 6 2 0 0 0 2 0 4 0 6 0 8 1 0 Time s Amplitude V...

Page 6: ...ge SFDR without Harmonics Path Amplitude 1 dBFS Measured from DC to 50 MHz SFDR without harmonics at low amplitudes is limited by a 148 dBm Hz noise floor All values are typical Low Gain Amplifier Hig...

Page 7: ...n 2 10 45 134 144 High Gain 12 25 6 251 119 145 Table 2 Specification Value Comments Sources 1 Internal Divide by N N 1 2 Internal DDS based High Resolution 3 External CLK IN SMB front panel connector...

Page 8: ...g 0 7 10 S s to 20 MS s NI PCI 5412 RTSI 0 7 10 S s to 20 MS s Effective Sample Rate Sample Rate MS s Interpolation Factor Effective Sample Rate Effective Sample Rate Interpolation Factor Sample Rate...

Page 9: ...rms NI PCI 5412 90 110 120 7 ps rms External Sample Clock Input Jitter Tolerance Cycle Cycle Jitter 300 ps Period Jitter 1 ns Sample Clock Exporting Exported Sample Clock Destinations 1 PFI 0 1 SMB f...

Page 10: ...412 RTSI_7 RTSI_CLK 2 CLK IN SMB front panel connector The PLL Reference Clock provides the reference frequency for the phase locked loop Frequency Accuracy When using the PLL the Frequency Accuracy o...

Page 11: ...s 1 Sample Clock 2 PLL Reference Clock Frequency Range 1 MHz to 105 MHz Sample Clock destination and sine waves 200 kHz to 105 MHz Sample Clock destination and square waves 5 MHz to 20 MHz PLL Referen...

Page 12: ...C 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 k As an Output Event Sources 1 Sample Clock divided by integer K 1 K...

Page 13: ...lue Comments Sources 1 PFI 0 1 SMB front panel connectors 2 NI PXI 5412 PXI_Trig 0 7 backplane connector NI PCI 5412 RTSI 0 7 3 NI PXI 5412 PXI Star trigger backplane connector 4 Software use function...

Page 14: ...ock Periods 110 ns 8 64 Sample Clock Periods 110 ns Trigger Exporting Exported Trigger Destinations A signal used as a trigger can be routed out to any destination listed in the Destinations specifica...

Page 15: ...ment Quantum Marker position must be placed at an integer multiple of four samples Width 150 ns Refer to tm2 at NI Signal Generators Help Devices NI 5412 NI bus 5412 Waveform Generation Marker Events...

Page 16: ...aveform mode a single waveform is selected from the set of waveforms stored in onboard memory and generated Arbitrary Sequence Mode In Arbitrary Sequence mode a sequence directs the NI 5412 to generat...

Page 17: ...amples Arbitrary Sequence Mode Maximum Waveform Memory 4 194 120 Samples 16 777 008 Samples 134 217 520 Samples Condition One or two segments in a sequence Arbitrary Sequence Mode Maximum Waveforms 65...

Page 18: ...are and takes approximately 75 seconds to complete External Calibration The External Calibration calibrates the VCXO voltage reference DC gain and offset Appropriate constants are stored in nonvolatil...

Page 19: ...Software NI FGEN provides programming interfaces for the following application development environments LabVIEW LabWindows CVI Measurement Studio Microsoft Visual C NET Microsoft Visual C C Microsoft...

Page 20: ...C 60068 2 2 Operating Relative Humidity 10 to 90 noncondensing Meets IEC 60068 2 56 Storage Relative Humidity 5 to 95 noncondensing Meets IEC 60068 2 56 Operating Shock 30 g half sine 11 ms pulse Meet...

Page 21: ...Comments Operating Temperature 0 C to 45 C Meets IEC 60068 2 1 and IEC 60068 2 2 Storage Temperature 25 C to 85 C Meets IEC 60068 2 1 and IEC 60068 2 2 Operating Relative Humidity 10 to 90 noncondens...

Page 22: ...safety certifications refer to the product label or to ni com certification search by model number or product line and click the appropriate link in the Certification column Emissions EN 55011 Class...

Page 23: ...ke adequate measures to reduce the interference This product meets the essential requirements of applicable European Directives as amended for CE marking as follows Low Voltage Directive safety 73 23...

Page 24: ...rinput sample clock output exported trigger output and PLL reference clock output SMB jack PFI 1 Markeroutput triggerinput sample clock output exported trigger output and PLL reference clock output SM...

Page 25: ...ss your support needs For telephone support in the United States create your service request at ni com support and follow the calling instructions or dial 512 795 8248 For telephone support outside th...

Page 26: ...nal Instruments trademarks Other product and company names mentioned herein are trademarks or trade names of their respective companies For patents covering National Instruments products refer to the...

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