National Instruments Portable Generator NI 5412 User Manual

NI 5412 Specifications  
NI PXI/PCI-5412 14-Bit 100 MS/s Arbitrary Waveform Generator  
Unless otherwise noted, the following conditions were used for each  
specification:  
Interpolation set to maximum allowed factor for a given sample rate.  
Signals terminated with 50 .  
Low-Gain Amplifier Path set to 2 Vpk-pk, and High-Gain Amplifier  
Path set to 12 Vpk-pk  
.
Sample clock set to 100 MS/s.  
Typical values are representative of an average unit operating at room  
temperature. Specifications are subject to change without notice. For the  
most recent NI 5412 specifications, visit ni.com/manuals.  
To 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  
Instruments»NI-FGEN»Documentation.  
Caution Hot Surface Allow the NI 5412 to cool before removing it from the chassis to reduce  
Power ...................................................................................................... 18  
Software .................................................................................................. 19  
Environment............................................................................................ 20  
Safety, Electromagnetic Compatibility, and CE Compliance................. 22  
Physical ................................................................................................... 24  
Where to Go for Support......................................................................... 25  
 
Table 1. (Continued)  
Specification  
Value  
Comments  
Maximum Output Voltage  
Maximum  
Output  
Voltage  
Path  
Load  
Maximum Output Voltage (Vpk-pk  
)
The Maximum  
Output Voltage  
of the NI 5412 is  
determined by  
the Amplitude  
Range and the  
Offset Range.  
Low-  
Gain  
Amplifier  
50 Ω  
1 kΩ  
Open  
50 Ω  
1 kΩ  
Open  
1.000  
1.905  
2.000  
6.000  
11.43  
12.00  
High-  
Gain  
Amplifier  
Accuracy  
DC Accuracy  
0.2% of Amplitude 0.05% of Offset 500 µV  
(within 10 °C of self-calibration temperature)  
Calibrated for  
high impedance  
load.  
0.4% of Amplitude 0.05% of Offset 1 mV  
(0 °C to 55 °C)  
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. When the Output Path is disabled, the  
CH 0 Output is terminated to ground with a 1 W resistor  
equal to the selected output impedance.  
Maximum  
Output  
Overload  
The CH 0 output can be connected to a 50 , 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 outputs of multiple NI 5412  
signal generators can be connected directly together.  
© National Instruments Corporation  
3
NI 5412 Specifications  
 
Table 1. (Continued)  
Specification  
Value  
Comments  
Frequency and Transient Response  
Bandwidth  
20 MHz  
–3 dB  
Digital  
Interpolation  
Filter  
Software-selectable Finite Impulse 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 with a  
1 m RG-223  
cable.  
Low-Gain Amplifier  
<20 ns  
High-Gain Amplifier  
Rise/Fall Time  
Aberration  
<20 ns  
<5%  
<5%  
NI 5412 Specifications  
4
ni.com  
 
2.0  
1.6  
1.2  
0.8  
0.4  
0.0  
–0.4  
–0.8  
–1.2  
–1.6  
–2.0  
0
0.2  
0.4  
0.6  
0.8  
1.0  
Time (µs)  
Figure 1. Pulse Response, Low-Gain Amplifier Path 50 Load  
© National Instruments Corporation  
5
NI 5412 Specifications  
 
Table 1. (Continued)  
Specification  
Value  
Comments  
Suggested Maximum Frequencies for Common Functions  
Function Path  
Low-Gain Amplifier  
20 MHz  
High-Gain Amplifier  
20 MHz  
Sine  
Square  
Ramp  
5 MHz  
5 MHz  
1 MHz  
1 MHz  
Triangle  
1 MHz  
1 MHz  
Spectral Characteristics  
Spurious-Free  
Dynamic  
Range  
(SFDR)  
without  
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  
Harmonics  
Low-Gain Amplifier  
High-Gain Amplifier  
–70 dBc  
1 MHz  
–70 dBc  
–65 dBc  
–60 dBc  
10 MHz  
20 MHz  
–65 dBc  
–60 dBc  
typical.  
0 ºC to 40 ºC  
Total  
Harmonic  
Distortion  
(THD)  
Path  
Amplitude  
–1 dBFS.  
Includes the 2nd  
through the 6th  
harmonic. All  
values are  
Low-Gain Amplifier  
–59 dBc  
High-Gain Amplifier  
–51 dBc  
1 MHz  
10 MHz  
20 MHz  
typical.  
–52 dBc  
–40 dBc  
–45 dBc  
–37 dBc  
NI 5412 Specifications  
6
ni.com  
 
Table 1. (Continued)  
Specification  
Value  
Comments  
Spectral Characteristics (Continued)  
AverageNoise  
Density  
Amplitude  
Range  
Average Noise  
Density at small  
amplitudes is  
limited by a  
–148 dBm/Hz  
noise floor.  
Average Noise Density  
nV  
dBFS/  
Hz  
----------  
Path  
Vpk-pk  
2
dBm  
10  
Hz  
dBm/Hz  
–134  
Low-Gain  
45  
–144  
–145  
High-  
Gain  
12  
25.6  
251  
–119  
Sample Clock  
Table 2.  
Specification  
Value  
1. Internal, Divide-by-N (N 1)  
Comments  
Sources  
Refer to the  
Onboard Clock  
section for more  
information  
2. Internal, DDS-based, High-Resolution  
3. External, CLK IN (SMB front panel connector)  
about Internal  
Clock Sources.  
4. NI PXI-5412: External, PXI Star trigger  
(backplane connector)  
5. NI PXI-5412: External, PXI_Trig<0..7>  
(backplane connector)  
NI PCI-5412: External, RTSI<0..7>  
© National Instruments Corporation  
7
NI 5412 Specifications  
 
 
Table 2. (Continued)  
Specification  
Value  
Comments  
Sample Rate Range and Resolution  
Sample Clock  
Source  
Sample Rate Range  
Sample Rate Resolution  
Divide-by-N  
23.84 S/s to 100 MS/s  
Settable to (100 MS/s) / N  
(1 N 4,194,304)  
High-  
10 S/s to 100 MS/s  
1.06 µHz  
Resolution  
CLK IN  
200 kS/s to 105 MS/s  
10 S/s to 105 MS/s  
Resolution determined by  
external clock source.  
NI PXI-5412  
PXI Star  
Trigger  
External Sample Clock duty  
cycle tolerance 40% to 60%.  
NI PXI-5412  
PXI_Trig<0..7>  
10 S/s to 20 MS/s  
10 S/s to 20 MS/s  
NI PCI-5412  
RTSI<0..7>  
Effective Sample Rate  
Sample Rate  
Interpolation  
Factor  
Effective Sample Effective Sample  
(MS/s)  
Rate  
Rate =  
(Interpolation  
Factor)*(Sample  
Rate)  
10 S/s to  
105 MS/s  
1 (Off)  
10 S/s to  
105 MS/s  
12.5 MS/s to  
105 MS/s  
2
4
8
25 MS/s to  
210 MS/s  
10 MS/s to  
100 MS/s  
40 MS/s to  
400 MS/s  
10 MS/s to  
50 MS/s  
80 MS/s to  
400 MS/s  
Sample Clock Delay Range and Resolution  
Sample Clock  
Source  
Delay Adjustment  
Resolution  
Delay Adjustment Range  
1 sample clock period  
1 sample clock period  
Divide-by-N  
<10 ps  
High-  
Resolution  
Sample Clock  
Period/16,384  
NI 5412 Specifications  
8
ni.com  
 
Table 2. (Continued)  
Specification  
Value  
Comments  
System Phase Noise and Jitter (10 MHz Carrier)  
Sample Clock  
Source  
System Phase Noise  
Density  
(dBc/Hz) Offset  
1. High-  
Resolution  
specifications  
vary with  
System Output Jitter  
(Integrated from  
100 Hz to 100 kHz)  
100 Hz 1 kHz 10 kHz  
Sample Rate.  
NI PXI-5412  
NI PCI-5412  
–100  
–90  
–118  
–110  
–120  
–120  
<6 ps rms  
<7 ps rms  
2. All values are  
typical.  
External  
Cycle-Cycle Jitter 300 ps  
Period Jitter 1 ns  
Sample Clock  
Input Jitter  
Tolerance  
Sample Clock Exporting  
Exported  
Sample Clock  
Destinations  
1. PFI<0..1> (SMB front panel connectors)  
Exported Sample  
Clocks can be  
dividedbyinteger  
K (1 K ≤  
2. NI PXI-5412: PXI_Trig<0..6> (backplane connector)  
NI PCI-5412: RTSI<0..6>  
4,194,304).  
Exported  
Sample Clock  
Destinations  
Maximum Frequency  
105 MHz  
Duty Cycle  
25% to 65%  
PFI<0..1>  
NI PXI-5412  
20 MHz  
PXI_Trig<0..6>  
NI PCI-5412  
20 MHz  
RTSI<0..6>  
© National Instruments Corporation  
9
NI 5412 Specifications  
 
Onboard Clock  
(Internal VCXO)  
Table 3.  
Specification  
Value  
Comments  
Clock Source  
Internal sample clocks can either be locked to a Reference  
Clock using a phase-locked loop or be derived from the  
onboard VCXO frequency reference.  
Frequency  
Accuracy  
25 ppm  
Phase-Locked Loop (PLL) Reference Clock  
Table 4.  
Specification  
Value  
Comments  
Sources  
1. NI PXI-5412—PXI_CLK10 (backplane connector)  
The PLL  
NI PCI-5412—RTSI_7 (RTSI_CLK)  
Reference Clock  
provides the  
reference  
2. CLK IN (SMB front panel connector)  
frequency for the  
phase-locked  
loop.  
Frequency  
Accuracy  
When using the PLL, the Frequency Accuracy of the  
NI 5412 is solely dependent on the Frequency Accuracy  
of the PLL Reference Clock Source.  
Lock Time  
200 ms.  
Frequency  
Range  
5 MHz to 20 MHz in increments of 1 MHz.  
Default of 10 MHz.  
The PLL Reference Clock Frequency has to be accurate  
to 50 ppm.  
Duty Cycle  
Range  
40% to 60%  
Exported PLL  
Reference  
Clock  
1. PFI<0..1> (SMB front panel connectors)  
2. NI PXI-5412—PXI_Trig<0..6> (backplane connector)  
NI PCI-5412—RTSI<0..6>  
Destinations  
NI 5412 Specifications  
10  
ni.com  
 
   
CLK IN  
(Sample Clock and Reference Clock Input, Front Panel Connector)  
Table 5.  
Specification  
Connector  
Value  
Comments  
SMB (jack)  
Direction  
Input  
Destinations  
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 Reference Clock destination)  
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  
© National Instruments Corporation  
11  
NI 5412 Specifications  
 
 
PFI 0 and PFI 1  
(Programmable Function Interface, Front Panel Connectors)  
Table 6.  
Specification  
Connectors  
Direction  
Value  
Comments  
Two SMB (jack)  
Bi-directional  
Frequency  
Range  
DC to 105 MHz  
As an Input (Trigger)  
Destinations  
Start Trigger  
Maximum  
–2 V to +7 V  
Input Overload  
VIH  
VIL  
2.0 V  
0.8 V  
1 kΩ  
Input  
Impedance  
As an Output (Event)  
Sources  
1. Sample Clock divided by integer K (1 K 4,194,304)  
2. Sample Clock Timebase (100 MHz) divided by  
integer M (2 M 4,194,304)  
3. PLL Reference Clock  
4. Marker  
5. Exported Start Trigger (Out Start Trigger)  
Output  
Impedance  
50 Ω  
Maximum  
Output  
–2 V to +7 V  
Overload  
NI 5412 Specifications  
12  
ni.com  
 
 
Table 6. (Continued)  
Specification  
Value  
Comments  
VOH  
Minimum: 2.9 V (open load), 1.4 V (50 load)  
Outputdriversare  
+3.3 V TTL  
compatible.  
Measured with a  
1 m cable.  
VOL  
Maximum: 0.2 V (open load), 0.2 V (50 load)  
Rise/Fall Time 2.0 ns  
(20% to 80%)  
Load of 10 pF.  
Start Trigger  
Table 7.  
Specification  
Value  
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 call)  
5. Immediate (does not wait for a trigger). Default.  
Modes  
1. Single  
2. Continuous  
3. Stepped  
4. Burst  
Edge Detection Rising  
Minimum  
25 ns. Refer to ts1 at NI Signal Generators Help»Devices»  
NI 5412»NI <bus>-5412»Triggering»Trigger Timing.  
Pulse Width  
© National Instruments Corporation  
13  
NI 5412 Specifications  
 
 
Table 7. (Continued)  
Specification  
Value  
Comments  
Delay from  
Start Trigger to  
CH 0 Analog  
Output  
Interpolation Factor  
Typical Delay  
Refer to ts2 at  
NI Signal  
Generators  
Help»Devices»  
NI 5412»  
NI <bus>-5412»  
Triggering»  
Trigger Timing.  
Digital Interpolation Filter  
disabled.  
43 Sample Clock  
Periods + 110 ns  
2
4
8
57 Sample Clock  
Periods + 110 ns  
63 Sample Clock  
Periods + 110 ns  
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 specification  
of Table 8.  
Exported  
Trigger Delay  
65 ns (typical). Refer to ts3 at NI Signal Generators Help»  
Devices»NI 5412»NI <bus>-5412»Triggering»Trigger  
Timing.  
Exported  
Trigger Pulse  
Width  
>150 ns. Refer to ts4 at NI Signal Generators Help»  
Devices»NI 5412»NI <bus>-5412»Triggering»Trigger  
Timing.  
NI 5412 Specifications  
14  
ni.com  
 
Markers  
Table 8.  
Specification  
Value  
Comments  
Destinations  
1. PFI<0..1> (SMB front panel connectors)  
2. NI PXI-5412—PXI_Trig<0..6> (backplane connector)  
NI PCI-5412—RTSI<0..6>  
Quantity  
Quantum  
One Marker per Segment.  
Marker position must be placed at an integer multiple of  
four samples.  
Width  
Skew  
>150 ns. Refer to tm2 at NI Signal Generators Help»  
Devices»NI 5412»NI <bus>-5412»Waveform  
Generation»Marker Events.  
With Respect to Analog  
Refer to tm1 at  
NI Signal  
Generators  
Help»Devices»  
NI 5412»  
NI <bus>-5412»  
Waveform  
Destination  
PFI<0..1>  
Output  
2 Sample Clock Periods  
2 Sample Clock Periods  
NI PXI-5412  
PXI_Trig<0..6>  
NI PCI-5412 RTSI<0..6>  
Generation»  
Marker Events.  
© National Instruments Corporation  
15  
NI 5412 Specifications  
 
   
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 268,435,456 bytes  
256 MB option:  
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  
WaveformSize  
(Samples)  
Arbitrary  
Waveform Mode  
Arbitrary  
Sequence Mode  
The Minimum  
Waveform Size  
is sample rate  
dependent in  
Arbitrary  
Trigger Mode  
Single  
16  
16  
16  
Continuous  
96 @ >50 MS/s  
32 @ 50 MS/s  
96 @ >50 MS/s  
32 @ 50 MS/s  
512 @ >50 MS/s  
256 @ 50 MS/s  
Sequence Mode.  
Stepped  
Burst  
32  
16  
NI 5412 Specifications  
16  
ni.com  
 
 
Table 9. (Continued)  
Specification  
Value  
Comments  
Loop Count  
1 to 16,777,215.  
Burst trigger: Unlimited  
Quantum  
Waveform size must be an integer multiple of four samples.  
Memory Limits  
8 MB Standard  
32 MB Option  
256 MB Option  
All trigger modes  
except where  
noted.  
Arbitrary  
Waveform  
Mode,  
Maximum  
Waveform  
Memory  
4,194,176  
Samples  
16,777,088  
Samples  
134,217,600  
Samples  
Arbitrary  
Sequence  
Mode,  
4,194,120  
Samples  
16,777,008  
Samples  
134,217,520  
Samples  
Condition: One  
or two segments  
in a sequence.  
Maximum  
Waveform  
Memory  
Arbitrary  
Sequence  
Mode,  
65,000  
Burst trigger:  
8,000  
262,000  
Burst trigger:  
32,000  
2,097,000  
Burst trigger:  
262,000  
Condition: One  
or two segments  
in a sequence.  
Maximum  
Waveforms  
Arbitrary  
Sequence  
Mode,  
104,000  
Burst trigger:  
65,000  
418,000  
Burst trigger:  
262,000  
3,354,000  
Burst trigger:  
2,090,000  
Condition:  
Waveform  
memory is  
Maximum  
Segments in a  
Sequence  
<4,000 samples.  
© National Instruments Corporation  
17  
NI 5412 Specifications  
 
Calibration  
Table 10.  
Specification  
Value  
Comments  
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  
The External Calibration calibrates the VCXO, voltage  
reference, DC gain, and offset. Appropriate constants are  
stored in nonvolatile memory.  
Calibration  
Interval  
Specifications valid within 2 years of External Calibration.  
Warm-up Time 15 minutes  
Power  
Table 11.  
Overload Operation  
26 W  
Specification  
Normal Operation  
22 W  
Comments  
Total Power  
Typical.  
Overload  
operation occurs  
when CH 0 is  
shorted to  
ground.  
NI 5412 Specifications  
18  
 
ni.com  
   
Software  
Table 12.  
Specification  
Value  
Comments  
Driver  
Software  
NI-FGEN 2.3 or later version. NI-FGEN is an  
IVI-compliant driver that allows you to configure, control,  
and calibrate the NI 5412. NI-FGEN provides application  
programming interfaces for many development  
environments.  
Application  
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 Visual Basic  
Soft Front  
Panel/  
Interactive  
Configuration  
The FGEN Soft Front Panel 2.3 or later supports interactive  
control of the NI 5412. The FGEN Soft Front Panel is  
included on the NI-FGEN driver CD.  
Measurement & Automation Explorer (MAX) also provides  
interactive configuration and test tools for the NI 5412.  
MAX is also included on the NI-FGEN CD.  
© National Instruments Corporation  
19  
NI 5412 Specifications  
 
 
Environment  
NI PXI-5412 Environment  
Note To ensure that the NI PXI-5412 cools effectively, follow the guidelines in the  
Maintain Forced-Air Cooling Note to Users included in the NI 5412 kit. The NI PXI-5412  
is intended for indoor use only.  
Table 13.  
Specifications  
Value  
Comments  
Operating  
0 ºC to +55 ºC in all NI PXI chassis except the following:  
Temperature  
0 ºC to +45 ºC when installed in an NI PXI-101x or  
NI PXI-1000B chassis.  
Meets IEC-60068-2-1 and IEC-60068-2-2.  
Storage  
Temperature  
–25 ºC to +85 ºC. Meets IEC-60068-2-1 and  
IEC-60068-2-2.  
Operating  
Relative  
10% to 90%, noncondensing. Meets IEC-60068-2-56.  
Humidity  
Storage  
5% to 95%, noncondensing. Meets IEC-60068-2-56.  
Relative  
Humidity  
Operating  
Shock  
30 g, half-sine, 11 ms pulse. Meets IEC-60068-2-27. Test  
profile developed in accordance with MIL-PRF-28800F.  
Spectral and jitter  
specifications  
could degrade.  
Storage Shock  
50 g, half-sine, 11 ms pulse. Meets IEC-60068-2-27. Test  
profile developed in accordance with MIL-PRF-28800F.  
Operating  
Vibration  
5 Hz to 500 Hz, 0.31 grms. Meets IEC-60068-2-64.  
Spectral and jitter  
specifications  
could degrade.  
Storage  
Vibration  
5 Hz to 500 Hz, 2.46 grms. Meets IEC-60068-2-64. Test  
profile exceeds requirements of MIL-PRF-28800F, Class B.  
Altitude  
2,000 m maximum (at 25 °C ambient temperature)  
2
Pollution  
Degree  
NI 5412 Specifications  
20  
ni.com  
 
 
NI PCI-5412 Environment  
Note To ensure that the NI PCI-5412 cools effectively, follow the guidelines in the  
Maintain Forced-Air Cooling Note to Users included in the NI 5412 kit. Also, to maximize  
airflow and extend the life of the device, leave any adjacent PCI slots empty. The  
NI PCI-5412 is intended for indoor use only.  
Table 14.  
Specifications  
Value  
Comments  
Operating  
0 ºC to +45 ºC. Meets IEC-60068-2-1 and IEC-60068-2-2.  
Temperature  
Storage  
Temperature  
–25 ºC to +85 ºC. Meets IEC-60068-2-1 and  
IEC-60068-2-2.  
Operating  
Relative  
10% to 90%, noncondensing. Meets IEC-60068-2-56.  
Humidity  
Storage  
5% to 95%, noncondensing. Meets IEC-60068-2-56.  
Relative  
Humidity  
Storage  
Shock  
50 g, half-sine, 11 ms pulse. Meets IEC-60068-2-27. Test  
profile developed in accordance with MIL-PRF-28800F.  
Storage  
Vibration  
5 Hz to 500 Hz, 2.46 grms. Meets IEC-60068-2-64. Test  
profile exceeds requirements of MIL-PRF-28800F, Class B.  
Altitude  
2,000 m maximum (at 25 °C ambient temperature)  
2
Pollution  
Degree  
© National Instruments Corporation  
21  
NI 5412 Specifications  
 
Safety, Electromagnetic Compatibility, and  
CE Compliance  
Table 15.  
Specification  
Safety  
Value  
Comments  
The NI 5412 meets the requirements of the following For UL and  
standards for safety and electrical equipment for  
measurement, control, and laboratory use:  
other safety  
certifications,  
refer to the  
product label or  
to ni.com/  
certification,  
search by model  
number or  
IEC 61010-1, EN 61010-1  
UL 61010-1  
CAN/CSA C22.2 No. 61010-1  
product line,  
and click the  
appropriate  
link in the  
Certification  
column.  
Emissions  
Immunity  
EN 55011 Class A at 10 m  
FCC Part 15A above 1 GHz  
EN 61326:1997 + A2:2001, Table 1  
Up to 4 mVpp noise (about –44 dBm) may be present  
on the output during the conducted immunity test. Use  
of the product at levels below –44 dBm will result in  
self-recoverable errors.  
Good screening (shielding) techniques must be  
employed throughout the user’s data acquisition  
system.  
NI 5412 Specifications  
22  
ni.com  
 
 
Table 15. (Continued)  
Specification  
EMC/EMI  
Value  
CE, C-Tick, and FCC Part 15 (Class A) Compliant  
Notes:  
Comments  
1. This device is not intended for, and is restricted  
from, use in residential areas.  
2. For EMC compliance, operate this device with  
shielded cabling.  
3. When connected to other test objects, this product  
may cause radio interference. If this occurs, you  
may be required to take 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  
73/23/EEC  
Directive (safety)  
Electromagnetic  
Compatibility  
89/336/EEC  
Directive (EMC)  
Note: Refer to the Declaration of Conformity (DoC) for this product for any additional regulatory  
compliance information. To obtain 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.  
© National Instruments Corporation  
23  
NI 5412 Specifications  
 
Physical  
Table 16.  
Specification  
Value  
Comments  
NI PXI-5412  
NI PCI-5412  
Dimensions  
Single 3U PXI slot.  
CompactPCI compatible.  
34.07 × 10.67 × 2.03 cm  
(13.4 × 4.20 × 0.8 inches)  
2.0 × 13.0 × 21.6 cm  
(0.8 × 5.1 × 8.5 inches)  
Weight  
340 g  
(11 oz)  
480 g  
(17 oz)  
Front Panel Connectors  
Label  
Function(s)  
Analog Output  
Connector Type  
SMB (jack)  
CH 0  
CLK IN  
Sample clock input and PLL SMB (jack)  
reference clock input.  
PFI 0  
PFI 1  
Markeroutput, triggerinput, SMB (jack)  
sample clock output,  
exported trigger output, and  
PLL reference clock output.  
Markeroutput, triggerinput, SMB (jack)  
sample clock output,  
exported trigger output, and  
PLL reference clock output.  
NI PXI-5412 Only—Front Panel LED Indicators  
Label Function  
For more  
information, refer  
to the NI Signal  
Generators Help.  
ACCESS LED The ACCESS LED indicates the status of the PCI bus and  
the interface from the NI 5412 to the controller.  
ACTIVE LED The ACTIVE LED indicates the status of the onboard  
generation hardware of the NI 5412.  
Included Cable  
1 (NI part number 763541-01), 50 , BNC Male to SMB  
Plug, RG223/U, Double Shielded, 1 m cable.  
NI 5412 Specifications  
24  
ni.com  
 
 
Where to Go for Support  
The National Instruments Web site is your complete resource for technical  
support. At ni.com/support you have access to everything from  
troubleshooting and application development self-help resources to email  
and phone assistance from NI Application Engineers.  
A Declaration of Conformity (DoC) is our claim of compliance with the  
Council of the European Communities using the manufacturer’s  
declaration of conformity. This system affords the user protection for  
electronic compatibility (EMC) and product safety. You can obtain the DoC  
for your product by visiting ni.com/certification. If your product  
supports calibration, you can obtain the calibration certificate for your  
product at ni.com/calibration.  
National Instruments corporate headquarters is located at  
11500 North Mopac Expressway, Austin, Texas, 78759-3504.  
National Instruments also has offices located around the world to help  
address 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 the United  
States, contact your local branch office:  
Australia 1800 300 800, Austria 43 0 662 45 79 90 0,  
Belgium 32 0 2 757 00 20, Brazil 55 11 3262 3599,  
Canada (Calgary) 403 274 9391, Canada (Ottawa) 613 233 5949,  
Canada (Québec) 450 510 3055, Canada (Toronto) 905 785 0085,  
Canada (Vancouver) 604 685 7530, China 86 21 6555 7838,  
Czech Republic 420 224 235 774, Denmark 45 45 76 26 00,  
Finland 385 0 9 725 725 11, France 33 0 1 48 14 24 24,  
Germany 49 0 89 741 31 30, India 91 80 51190000,  
Israel 972 0 3 6393737, Italy 39 02 413091, Japan 81 3 5472 2970,  
Korea 82 02 3451 3400, Malaysia 603 9131 0918,  
Mexico 01 800 010 0793, Netherlands 31 0 348 433 466,  
New Zealand 0800 553 322, Norway 47 0 66 90 76 60,  
Poland 48 22 3390150, Portugal 351 210 311 210,  
Russia 7 095 783 68 51, Singapore 65 6226 5886,  
Slovenia 386 3 425 4200, South Africa 27 0 11 805 8197,  
Spain 34 91 640 0085, Sweden 46 0 8 587 895 00,  
Switzerland 41 56 200 51 51, Taiwan 886 2 2528 7227,  
Thailand 662 992 7519, United Kingdom 44 0 1635 523545  
© National Instruments Corporation  
25  
NI 5412 Specifications  
 
 
National Instruments, NI, ni.com, and LabVIEW are trademarks of National Instruments Corporation.  
Refer to the Terms of Use section on ni.com/legal for more information about National  
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  
appropriate location: Help»Patents in your software, the patents.txt file on your CD, or  
ni.com/patents.  
© 2004 National Instruments Corporation. All rights reserved.  
371468A-01  
Nov04  
 

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