M9336A [KEYSIGHT]
M9336A PXIe I/Q Arbitrary Waveform Generator;型号: | M9336A |
厂家: | Keysight Technologies |
描述: | M9336A PXIe I/Q Arbitrary Waveform Generator |
文件: | 总25页 (文件大小:6432K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Keysight Technologies
M9336A PXIe I/Q Arbitrary Waveform
Generator
540 MHz bandwidth, 16-bit, 3 scalar channels
Data Sheet
Exceptional performance in a single-slot PXIe module
The Keysight Technologies, Inc. M9336A PXIe Arbitrary Waveform Generator (AWG)
provides multiple independent or synchronized signal outputs with exceptional perfor-
mance in a single-slot PXIe module. It is ideal for creating digitally modulated waveforms
for wideband communication systems and high resolution waveforms for radar and satellite
test. Industry standard waveforms for the AWG can be easily generated using Keysight
software applications tools such as Signal Studio or Waveform Creator. In addition to these
tools, users can generate their own waveforms using MATLAB or custom tools. The AWG
provides standard IVI compliant drivers for integration with multiple application develop-
ment environments.
Applications
– Generation of wide-bandwidth baseband I/Q communication signals with synchronized
envelope tracking signals
– High bandwidth, small sample size control signals used for quantum computing
– DOCSIS upstream signals
– Satellite and radar signals
– General purpose, multi-channel arbitrary waveform generation
Key Features
– Single PXIe slot
– 3 differential or single-ended signal channels with SMB connectors
– 16-bit amplitude resolution
– Up to 540 MHz bandwidth per channel (1080 MHz I/Q modulation bandwidth)
– Per channel control of channel skew, gain, and offset
– Highly flexible waveform definition and sequencing with up to 4 GB of waveform sample
and waveform sequencing memory
– Up to 8 marker signals per channel
– Front panel and PXIe backplane triggers and markers
– Keysight exclusive Trueform waveform generation
– Simple to use soft front panel
03 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
M9336A PXIe I/Q Arbitrary Waveform Generator
The M9336A AWG delivers exceptional performance for creation of complex wideband
waveforms. Multiple, 540 MHz bandwidth channels with 16-bit resolution and up to a
1.28 GSa/s sampling rate are provided in a single-slot PXIe instrument. This enables
the AWG to generate wide bandwidth signals with low Error Vector Magnitude (EVM),
making it ideal for creating baseband waveforms for wireless communications, radar, and
satellite. The AWG can also be combined with a wideband I/Q upconverter/modulator,
resulting in modulation bandwidths of 1 GHz at RF frequencies for signal simulations
employed in functional testing of chip sets designed for modern digital communications
radios.
The AWG includes advanced sequencing and triggering modes which can be used to
create complex waveforms and event-based signal simulations. In addition to the driver
API provided with the instrument, the AWG provides a comprehensive soft front panel
(SFP) which speeds test development and debug by enabling the user to interactively
control the module.
Figure 1. M9336A AWG block diagram.
04 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
2) and individual channels can be adjusted with a resolution of
.001 ps. When used in I/Q applications, the channel-to-channel
delay can be used to compensate for modulator behavior which
can improve channel matching resulting in a better EVM of the
test signal. In addition, the third synchronized channel can be
used as a very accurate marker output or as a third signal such as
a synchronized envelope tracking signal.
Exceptional signal quality
The M9336A AWG provides exceptional signal quality which is
essential for reliable and repeatable measurements on today’s
advanced wireless designs. With 16-bit resolution, it generates
full bandwidth SFDR (without harmonics) of >67 dBc on
differential channels. Selectable amplitude flatness correction
can be used to achieve a DC to 540 MHz flatness of ±0.15 dB.
Corrected phase flatness is ±1 degree, also from DC to 540 MHz.
This results in an EVM as low as 75 m% RMS (20 MHz bandwidth
LTE-A signal).
Channel filtering and gain
The AWG has the capability to provide real-time correction
filtering on each of the three analog output channels. This
filter provides a flatter frequency response for each channel
over the entire channel bandwidth. The user can bypass this
filtering, if required. In addition to the digital correction filter,
the instrument provides a high performance reconstruction filter
on each channel that is tuned to the DAC sample rate. For the
real-time correction filter, the AWG uses a unique technique
to match the filter response to the user defined sample rate in
order to maximize the available signal level for the specific signal
bandwidth required. Each channel can be adjusted individually
using the digital or analog gain controls. This is required in
applications where each channel needs to be adjusted to meet
the test system’s requirements. Channel 3 also has an additional
analog amplifier for higher signal levels than channel 1 and 2. This
is provided for envelope tracking standards.
Individual channel capability
The AWG provides three scalar channels with SMB connections
and up to 540 MHz bandwidth. Each channel utilizes a high-res-
olution DAC and can drive both single-ended and balanced
designs. The I/Q channels (channels 1 and 2) are not amplified
and provide an output range of up to 2 Vp-p for differential
signals (1 Vp-p for single-ended). Common mode offsets ranging
from -0.3 to +0.8 V can be added to each channel. The third
channel does include an amplifier and its output range is 3.4 Vp-p
for differential signals (1.7 Vp-p for single-ended) with a common
mode offsets of ±1.2 V. All single-ended channels have a nominal
output impedance of 50 ohms (100 ohms differential).
Each channel has its own waveform sequencer and can operate
independently. The channels can also be synchronized with a
typical channel-to-channel alignment of <20 ps (channels 1 and
Figure 2. Generate complex, wide bandwidth signals with exceptional EVM performance.
05 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Waveform Sequencing
The AWG utilizes a very flexible and powerful waveform sequencer to play simple or
complex waveforms which can be built from several common waveform segments.
Each output channel has its own independent sequencer. Channel sequencers can be
synchronized as required to create tightly aligned channels required for I/Q baseband
signals.
The waveform sequencer gives the user the ability to create long, complex waveforms
while using minimal sample memory. The sequencer operates as follows (see figure 3):
– Each waveform segment is composed of waveform samples.
– Waveform sequences are built by combining waveform segments.
– Segments and sequences can also be combined as needed to create desired
signals.
– Repeat loops can be used to repeat individual segments or the entire waveform
sequence itself. These repeat loops can be nested up to 8 deep.
– The sample rate for the waveform samples is based on the channel sample rate
setting which can be different for each channel.
– Both hardware and software triggers can be used to control how to advance from
one waveform segment to the next within a sequence.
Figure 3. M9336A AWG waveform sequencing
06 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Module memory
The AWG has up to 4 GB of memory which is managed as a single shared storage
space for waveforms, markers, and sequencer programs. The memory segments for the
data that shares this storage space are dynamically allocated. This generally results in
>500 MSa of waveform storage (depending on memory option).
Triggers and markers
The AWG can accept hardware or software triggers which are primarily used to:
– Control the starting of waveform segments/sequences
– Control internal operation of waveform sequences, e.g. loop until trigger and wait for
trigger
Triggers sources include the front panel Ext 1/2 connectors and PXI backplane. Software
triggers are also allowed.
Output markers are used to identify points in time that are correlated to a waveform as it
is played. Each marker is typically aligned with a particular sample of the waveform. The
marker can be output on:
– An analog channel. A marker being output on an analog channel goes through the
same DSP signal chain as other channels and results in the most accurate place-
ment relative to another analog channel.
– Through the front panel Ext 1/2 connectors
– Through the PXI trigger lines
Keysight Trueform signal generation
The AWG includes Keysight’s exclusive Trueform technology that allows waveforms to
be expressed with the same shape, regardless if the signal is 1 Sa/s or the maximum
rate of 1.28 GSa/s. Waveforms are always anti-aliased for exceptional accuracy, and can
be played at the selectable sample rate, without the chance of missing short-duration
anomalies that are critical for testing device reliability. Digital waveforms with transients
and pulses can be reproduced with the same characteristics every time.
Many arbitrary waveform generators store points in memory and then read those points
out one after another and clock them into a DAC. This requires a low-noise variable-fre-
quency clock which adds to complexity and cost. Trueform technology instead uses a
patented virtual variable clock with advanced filtering techniques that track the sample
rate of the arbitrary waveform. This exclusive digital sampling technique results in overall
better signal integrity with more efficient memory use. It also enables the waveform
segment to be scaled in time to produce different frequency shifted versions of the same
waveform simply by changing the waveform sample rate.
07 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
M9336A AWG Software Toolset
Soft front panel interface
An easy-to-use soft front panel (SFP) in-
terface for the AWG is a standard interface
provided with the product (Figure 4). The
SFP can be used to control the AWG and
has the following functions:
– Provide an interactive soft front panel
to allow the user to quickly learn how
to use the instrument
– Configure individual channel physical
connections: differential, single-ended
– Load waveform files
– Develop simple or complex waveform
sequences created using waveform
files
– Control the operation of the module
and how to execute the waveforms:
continuous, burst, immediate or
triggered using software or hardware
inputs, sample rate, synchronous or
independent channel operation.
– Configure channel trigger and marker
source and destination
Figure 4. M9336A AWG soft front panel
Waveform development
There are different ways to develop waveforms for the M9336A AWG:
– M9099A Waveform Creator: supported via a .csv file
– MATLAB and Keysight IQtools Software: the AWG supports .NET driver access or
through a .csv file format.
– SystemVue: the data for the waveform segment created by SystemVue can be
exported to a .csv file compatible with the AWG
– File import: import a .csv or .bin (N5110) file
– Monitor driver calls as the AWG is
controlled via the SFP to allow the
user to quickly integrate API calls into
the test development environment
– Provides module utilities such as
self-test and firmware upgrade
– Signal Studio: uses a waveform license that enables the M9336A to accept the
downloading of Signal Studio waveforms (.wfm format). The license supports four
M9336A modules. Order the M9950A to support up to eight M9336A modules.
IVI drivers
The following Signal Studio products are supported:
– N7600B W-CDMA/HSPA+
– N7601B CDMA2000®/1xEV-DO
– N7602B GSM/Edge/Evo
– N7608C Custom modulation
– N7612B TD-SCDMA/HSPA
– N7617B WLAN 802.11a/b/g/j/p/n/ac/ah/ax
– N7624B LTE/LTE-Advanced FDD
– N7625B LTE/LTE-Advanced TDD
– N7630C Pre-5G
The AWG provides IVI.NET, IVI-C,
and LabVIEW drivers to enable easy
integration into common test development
environments. These drivers are used with
IDE and test development tools such as
Command Expert, LabVIEW, MATLAB, and
Visual Studio.
– N7650B Signal Studio Waveform Licenses
08 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
Definitions and Conditions
Specification
Warranted performance. Specifications include guardbands to account for the expected statistical performance distribution, measurement uncertainties,
and changes in performance due to environmental conditions. All specifications apply over the operating environment outlined in “Environmental and
Regulatory” sections of this data sheet. In addition, the following conditions must be met:
– Instrument is within its calibration cycle if calibration is required.
– Instrument has been stored for a minimum of 1 hour within the operating temperature range prior to turn-on and after a 30 minute warm-up period.
- Open a driver session to intialize the power supplies. This can be donen programatically or by opening SFP and connecting to the instruument
Characteristic
A performance parameter that the product is expected to meet before it leaves the factory, but that is not verified in the field and is not covered by the
product warranty. A characteristic includes the same guardbands as a specification.
Typical
Expected performance of an average unit when operated over a 20 to 30 °C temperature range. Typical performance is not warranted. The instrument
must be within its calibration cycle if calibration is required.
Nominal
Nominal describes representative performance that is useful in the application of the product when operated over a 20 to 30 °C temperature range.
Nominal performance is not warranted.
Additional Information
All data are measured from multiple units at room temperature and are representative of product performance within the operating temperature range
unless otherwise noted.
The specifications contained in this document are subject to change.
09 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
General Characteristics
Module characteristics
Bus interface and compatibility
Number of slots
PXIe peripheral module (x8 Gen 2)
1
Module memory (option dependent)
Supported waveform file formats
Front panel connectors
Ext1 and Ext2
2 or 4 GB
M9336A binary format (.bin), CSV, Signal Studio (.wfm), and N5110 (.bin)
SMB male
Channel 1+ and 1-
Channel 2+ and 2-
Channel 3+ and 3-
Ext Clk In
SMB male
SMB male
SMB male
Reserved for future use
Reserved for future use
Reserved for future use
Sync
Aux port
Mechanical
Size
3U/1-slot PXIe standard
130.1 x 21.7 x 210 mm; includes connectors and handle extensions
Weight
544 g (1.2 lbs)
DC Power Requirements
DC supply
DC supply current:
+3.3V
Typical
Maximum
2.7 A
3.3 A
48 W
3.0 A
3.8 A
54 W
+12V
Power dissipation
Channel Characteristics
Characteristic
Value
3
Comments
Number of channels
Resolution
Option dependent
16-bit
540 MHz
1080 MHz
DC
Maximum channel bandwidth
Maximum modulation (I/Q) bandwidth
Output coupling
Option dependent
Option dependent
Ch-ch alignment
Between channels 1 and 2
Between channels 3 and other channels
Channel delay
< 20 ps
< 40 ps
Delay range
±0.5*(sample period) or ±1.6 µs whichever is greater Sample period = 1/sample rate
Delay resolution
0.1 ps for sample rates ≥ 2.5 KSa/s
250 ps @ 1 Sa/s
Delay resolution varies with sample rate below
2.5 KSa/s
10 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
Analog Outputs
Characteristic 1
Amplitude resolution
16-bit
Amplitude DC accuracy
±0.5% of setting ±5 mV
Jitter 5
Fc = 10 MHz
Fc ≥ 50 MHz
<1 ps rms
<0.25 ps rms
Rise/fall time (10% to 90%)
Without corrections
With corrections
<1.2 ns, typical
<900 ps, typical
Single-ended output characteristics 1
Characteristic
Channels 1 & 2
Channel 3
Nominal output impedance
Nominal amplitude range 2, 4
Without corrections
With corrections 3
Offset
50 ohm
50 ohm
0 Vpp to 1 Vpp
0 Vpp to 0.8 Vpp
0 Vpp to 1.65 Vpp
0 Vpp to 1.26 Vpp
Range
-0.3 to +0.81 V
100 uV
±1.2 V
Adjustment resolution
Analog gain
100 uV
Range
15 dB (min=0.11, max=0.66)
0.0001
15 dB (min=0.18, max=1.08)
0.0001
Adjustment resolution
Digital gain
Range
min=0, max=1
0.0001
min=0, max=1
0.0001
Adjustment resolution
1. Each output terminated with 50 ohms to ground.
2. With maximum analog and default digital gain settings. Higher levels of digital gain are possible depending on signal type. For example, channels 1 and 2
can output a with a 1.3 Vpp sinewave. Using maximum digital gain on complex waveforms with high crest factors may cause signal overload.
3. At maximum sample rate. Reducing sample rate will allow for higher amplitude settings.
4. For channel 3, it is recommended to keep (Vpp X Frequency) <2.5x108 and offsets = 0V to minimize harmonic distortion. If offsets are used, it is recommend-
ed to keep (Vp X Frequency) <4x107
5. 1 kHz to 10 MHz integration bandwidth
11 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
Analog Outputs (cont’d)
Differential output characteristics 1
Characteristic
Channels 1 & 2
Channel 3
Nominal output impedance
Nominal amplitude range 2, 4
Without corrections
With corrections 3
Differential offset
Range
100 ohm
100 ohm
0 Vpp to 2 Vpp
0 Vpp to 3.6 Vpp
0 Vpp to 2.5 Vpp
0 Vpp to 1.6 Vpp
±0.35 V
100 uV
±2.40 V
100 uV
Adjustment resolution
Common mode offset
Range
-0.3 to +0.81 V
100 uV
±1.20 V
100 uV
Adjustment resolution
Analog gain
Range
15 dB (min=0.22, max=1.32)
0.0001
15 dB (min=0.36, max=2.1)
0.0001
Adjustment resolution
Digital gain
Range
min=0, max=1
0.0001
min=0, max=1
0.0001
Adjustment resolution
1. Each output terminated with 50 ohms to ground.
2. With maximum analog and default digital gain settings. Higher levels of digital gain are possible depending on signal type. For example, channels 1 and 2
can output a with a 1.3 Vpp sinewave. Using maximum digital gain on complex waveforms with high crest factors may cause signal overload.
3. At maximum sample rate. Reducing sample rate will allow for higher amplitude settings.
4. For channel 3, it is recommended to keep (Vpp X Frequency) <2.5x108 and offsets = 0V to minimize harmonic distortion. If offsets are used, it is recommend-
ed to keep (Vp X Frequency) <4x107
12 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
Analog Outputs (cont’d)
Output Frequency Response
Ch 1 and Ch 2 corrected amplitude flatness
±0.1 dB DC - 400 MHz
±0.15 dB >400MHz - 540 MHz
Corrected phase flatness
Analog reconstruction filter
±1 degree DC - 540 MHz
540 MHz, 9th order elliptical, low pass
Figure 5. Nominal frequency response plot: nominal freq response, channel 1-3
13 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Spectral Characteristics (Channels 1 and 2) - Typical
Characteristic
Single-ended
Differential
Comments
Harmonic distortion
Fc ≤ 200 MHz: 1 Vpp, 0.5 Voff (SE) or 2 Vpp, 0.8 Vcm (Diff)
Fc ≤ 200 MHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
Fc ≤ 200 MHz: 0.5 Vpp, 0 Voff (SE) or 1 Vpp, 0 Vcm (Diff)
Fc ≤ 50 MHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
SFDR without harmonics
≤ -44 dBc
≤ -52 dBc
≤ -54 dBc
≤ -58 dBc
≤ -47 dBc
≤ -64 dBc
≤ -69 dBc
≤ -69 dBc
Fc = 500 MHz: 0.8 Vpp, 0 Voff (SE) or 1.6 Vpp, 0 Vcm (Diff)
Fc = 200 MHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
Fc = 50 MHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
SFDR with harmonics
≥ 37 dBc
≥ 58 dBc
≥ 52 dBc
≥ 58 dBc
≥ 67 dBc
≥ 67 dBc
Measured DC to 540 MHz
Measured DC to 540 MHz
Measured DC to 135 MHz
Fc ≤ 200 MHz: 1 Vpp, 0.5 Voff (SE) or 2 Vpp, 0.8 Vcm (Diff)
Fc ≤ 200 MHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
Fc ≤ 200 MHz: 0.5 Vpp, 0 Voff (SE) or 1 Vpp, 0 Vcm (Diff)
Fc ≤ 50 MHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
Intermod distortion (IMD3)
≥ 44 dBc
≥ 52 dBc
≥ 53 dBc
≥ 57 dBc
≥ 47 dBc
≥ 63 dBc
≥ 67 dBc
≥ 67 dBc
Measured DC to 540 MHz
Measured DC to 540 MHz
Measured DC to 540 MHz
Measured DC to 135 MHz
Fc = 100 MHz ± 500 KHz: 1 Vpp, 0.5 Voff (SE) or 2 Vpp, 0.8 Vcm (Diff)
Fc = 100 MHz ± 500 KHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
Fc = 10 MHz ± 500 KHz: 1 Vpp, 0.5 Voff (SE) or 2 Vpp, 0.8 Vcm (Diff)
Fc = 10 MHz ± 500 KHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
Third order intercept (TOI)
< -71 dBc
< -73 dBc
< -87 dBc
< -83 dBc
< -60 dBc
< -75 dBc
< -73 dBc
< -85 dBc
Fc = 100 MHz ± 500 KHz: 1 Vpp, 0.5 Voff (SE) or 2 Vpp, 0.8 Vcm (Diff)
Fc = 100 MHz ± 500 KHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
Fc = 10 MHz ± 500 KHz: 1 Vpp, 0.5 Voff (SE) or 2 Vpp, 0.8 Vcm (Diff)
Fc = 10 MHz ± 500 KHz: 1 Vpp, 0 Voff (SE) or 2 Vpp, 0 Vcm (Diff)
Output phase noise (100 MHz output)
> 34 dBm
> 35 dBm
> 43 dBm
> 41 dBm
> 28 dBm
> 36 dBm
> 35 dBm
> 41 dBm
1 kHz offset
10 kHz offset
100 kHz offset
1 Mhz offset
-130 dBc/Hz
-135 dBc/Hz
-137 dBc/Hz
-152 dBc/Hz
-162 dBc/Hz
≤ -159 dBm/Hz
-130 dBc/Hz
-135 dBc/Hz
-137 dBc/Hz
-152 dBc/Hz
-162 dBc/Hz
≤ -159 dBm/Hz
10 Mhz offset
Noise floor
100 MHz tone, spot noise
measured at 133 MHz
Figure 6. Typical Channel 1-2, 10 MHz tone spectrum
Figure 7. Typical Channel 1-2, 500 MHz tone spectrum
14 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Spectral Characteristics (Chan 1 and 2) (cont'd)
Figure 8. Typical 2nd harmonic distortion, channel 1 and 2, single-ended
Figure 9. Typical 3rd harmonic distortion, channel 1 and 2, single-ended
15 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
Spectral Characteristics (Chan 1 and 2) (cont’d)
Figure 10. Typical 2nd harmonic distortion, channel 1 and 2, differential
Figure 11. Typical 3rd harmonic distortion, channel 1 and 2, differential
16 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Spectral Characteristics (Chan 1 and 2) (cont'd)
Figure 12. Typical Channel 1-2, 100 MHz two tone intermod
Figure 13. Typical Channel 1-2 noise floor
Figure 14. Typical phase noise, channel 1 and 2
17 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Spectral Characteristics (Channel 3) - Typical
Characteristic
Single-ended
Differential
Comments
Harmonic distortion
Fc ≤ 200 MHz: 0.5 Vpp, 0.5 Voff (SE) or 1.0 Vpp, 0.5 Vcm (Diff)
Fc ≤ 200 MHz: 1.0 Vpp, 0 Voff (SE) or 2.0 Vpp, 0 Vcm (Diff)
Fc ≤ 200 MHz: 0.5 Vpp, 0 Voff (SE) or 1.0 Vpp, 0 Vcm (Diff)
Fc ≤ 50 MHz: 1.5 Vpp, 0 Voff (SE) or 3.0 Vpp, 0 Vcm (Diff)
SFDR without harmonics
≤ -31 dBc
≤ -41 dBc
≤ -48 dBc
≤ -64 dBc
≤ -38 dBc
≤ -47 dBc
≤ -60 dBc
≤ -64 dBc
Fc = 500 MHz: 0.25 Vpp, 0 Voff (SE) or 0.5 Vpp, 0 Vcm (Diff)
Fc = 200 MHz: 0.5 Vpp, 0 Voff (SE) or 1.0 Vpp, 0 Vcm (Diff)
Fc = 50 MHz: 1.5 Vpp, 0 Voff (SE) or 3.0 Vpp, 0 Vcm (\Diff)
SFDR with harmonics
≥ 54 dBc
≥ 66 dBc
≥ 64 dBc
≥ 54 dBc
≥ 71 dBc
≥ 69 dBc
Measured DC to 540 MHz
Measured DC to 540 MHz
Measured DC to 135 MHz
Fc ≤ 200 MHz: 0.5 Vpp, 0.5 Voff (SE) or 1.0 Vpp, 0.5 Vcm (Diff)
Fc ≤ 200 MHz: 1.0 Vpp, 0 Voff (SE) or 2.0 Vpp, 0 Vcm (Diff)
Fc ≤ 200 MHz: 0.5 Vpp, 0 Voff (SE) or 1.0 Vpp, 0 Vcm (Diff)
Fc ≤ 50 MHz: 1.5 Vpp, 0 Voff (SE) or 3.0 Vpp, 0 Vcm (Diff)
Intermod distortion (IMD3)
≥ 32 dBc
≥ 41 dBc
≥ 48 dBc
≥ 60 dBc
≥ 39 dBc
≥ 47 dBc
≥ 58 dBc
≥ 64 dBc
Measured DC to 540 MHz
Measured DC to 540 MHz
Measured DC to 540 MHz
Measured DC to 135 MHz
Fc = 100 MHz ± 500 KHz: 1.0 Vpp, 0.5 Voff (SE) or 2.0 Vpp, 0.5 Vcm (Diff)
Fc = 100 MHz ± 500 KHz: 1.0 Vpp, 0 Voff (SE) or 2.0 Vpp, 0 Vcm (Diff)
Fc = 10 MHz ± 500 KHz: 1.0 Vpp, 0.5 Voff (SE) or 2.0 Vpp, 0.5 Vcm (Diff)
Fc = 10 MHz ± 500 KHz: 1.0 Vpp, 0 Voff (SE) or 2.0 Vpp, 0 Vcm (Diff)
Third order intercept (TOI)
< -56 dBc
< -71 dBc
< -76 dBc
< -79 dBc
< -59 dBc
< -72 dBc
< -78 dBc
<-81 dBc
Fc = 100 MHz ± 500 KHz: 1.0 Vpp, 0.5 Voff (SE) or 2.0 Vpp, 0.5 Vcm (Diff)
Fc = 100 MHz ± 500 KHz: 1.0 Vpp, 0 Voff (SE) or 2.0 Vpp, 0 Vcm (Diff)
Fc = 10 MHz ± 500 KHz: 1.0 Vpp, 0.5 Voff (SE) or 2.0 Vpp, 0.5 Vcm (Diff)
Fc = 10 MHz ± 500 KHz: 1.0 Vpp, 0 Voff (SE) or 2.0 Vpp, 0 Vcm (Diff)
Output phase noise (100 MHz output)
> 27 dBm
> 34 dBm
> 37 dBm
> 38 dBm
> 27 dBm
> 34 dBm
> 37 dBm
> 39 dBm
1 kHz offset
10 kHz offset
100 kHz offset
1 Mhz offset
-130 dBc/Hz
-135 dBc/Hz
-137 dBc/Hz
-150 dBc/Hz
-152 dBc/Hz
≤ -151 dBm/Hz
-130 dBc/Hz
-135 dBc/Hz
-137 dBc/Hz
-150 dBc/Hz
-152 dBc/Hz
≤ -151 dBm/Hz
10 Mhz offset
Noise floor
100 MHz tone, spot noise
measured at 133 MHz
Figure 15. Typical Channel 3, 10 MHz tone spectrum
Figure 16. Typical Channel 3, 500 MHz tone spectrum
18 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Spectral Characteristics (Chan 3) (cont’d)
Figure 17. Typical 2nd harmonic distortion, channel 3, single-ended
Figure 18. Typical 3rd harmonic distortion, channel 3, single-ended
19 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Spectral Characteristics (Chan 3) (cont’d)
Figure 19. Typical 2nd harmonic distortion, channel 3, differential
Figure 20. Typical 3rd harmonic distortion, channel 3, differential
20 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Spectral Characteristics (Chan 3) (cont’d)
Figure 21. Typical Channel 3, 100 MHz two tone intermod
Figure 22. Typical Channel 3 noise floor
Figure 23. Typical pahse noise, channel 3
21 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
Modulation Format Specific Data
Typical EVM performance 1
802.11ax
EVM (80MHz, 1024 QAM)
LTE/LTE advanced
0.2%
EVM (20MHz, 64 QAM)
EVM (100MHz, 64 QAM)
OFDM
0.075%
0.3%
EVM (700MHz, 64 QAM)
0.7%
1. With differential outputs and matched cables. Individual channel adjustments for gain and delay may be required to achieve best EVM performance
Clocks
Sample Clock
User sample rate (Fs) - option B12
User sample rate (Fs) - option B50
1 Sa/s to 320 MSa/s, 1µSa/s resolution
1 Sa/s to 1.28 GSa/s, 1µSa/s resolution
Reference Clock
Reference clock sources
Reference clock lock range
PXIe_CLK100 (100 MHz)
±25 ppm
Sequencer, Triggers
Sequencer
Waveform memory (option dependent)
Waveform granularity (quantum)
Waveform segment length
Minimum - burst
Up to 500 MSa/ch
4 samples
12 samples
Minimum - looped
512 samples
Maximum
2,145,300,000 samples
Maximum segments per sequence
Maximum number of sequences
227
225
Input Triggers
Number of triggers
Trigger sources
Trigger types
12 hardware and 12 software
Software, PXI_TRIG, PXI_STAR, DSTARB, Ext 1, Ext 2, and immediate
Start and sequence
Positive or negative
3.125 ns
Trigger polarity
Trigger timing resolution
Trigger Jitter
±3.125 ns
Trigger latency
Correction filter off
Correction filter on
Minimum trigger width
Programmable delay
Range
322 ns + (24 * User sample period in ns)
2960 ns + (24 * User sample period in ns)
20 ns
10 s
Resolution
3.125 ns
22 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
Markers
Markers
Maximum number of markers
Marker type
8 per channel
Sample (data marker)
Marker polarity
Positive or negative
Marker destinations
Marker placement accuracy
Marker to waveform jitter
Programmable delay
Range
PXI_TRIG, PXI_STAR, PXIe_DSTARC, Ext 1, and Ext 2
3.125 ns
Up to 3.125 ns, depending on waveform sample rate
20 ms
Resolution
3.125 ns
Channel Markers
Number of markers
Marker type
Up to 3 depending on number of available channels
Precise data marker (timed precisely with waveform characteristics of another output channel)
Positive or negative
Marker polarity
Marker destinations
Marker placement accuracy
Marker on channels 1 and 2
Marker on channel 3
Marker to waveform jitter
Programmable delay
Range
Analog output channels not being used for waveform output
20 ps
40 ps
25 ps
±0.5 x (user sample period)
.001 ps
Resolution
Marker width
4 user samples
Ext1 and Ext2 Characteristics
Direction Control
Input or output (configurable)
Output level
0 to 3.3 V
50 Ω
Output impedance (output mode)
Maximum input level
Input impedance (input mode)
Programmable trigger input threshold
Range
±5.5 V
10 kΩ
-4 to 4V
10 mV
Programming resolution
Accuracy
±100 mV
100 mV
10 ns
Minimum input swing
Minimum input pulse width
23 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Technical Specifications
Environmental Characteristics 1,2
Operating and Storage Conditions
Operating
Storage
Temperature3
0˚C to 50˚C
-40˚C to 70˚C
Altitude
Up to 10,000 ft (3048 m)
Up to 15,000 ft (4572 m)
Humidity
Type-tested at 95%, +40˚C (non-condensing)
Calibration interval
Warm-up time
Vibration
1 year
30 minutes
Operating random vibration: type-tested at 5 to 500 Hz, 0.21 g rms
Survival random vibration: type-tested at 5 to 500 Hz, 2.09 g rms
Regulatory Characteristics
Safety
Complies with the essential requirements of the European Low Voltage Directive as well as the current versions of the following standards (dates and
editions are cited in the Declaration of Conformity):
– IEC/EN 61010-1
– Canada: CSA C22.2 No. 61010-1
– USA: UL std no. 61010-1
EMC
Complies with the essential requirements of the European EMC Directive as well as the current editions of the following standards (dates and editions are
cited in the Declaration of Conformity):
– IEC/EN 61326-1
– CISPR Pub 11 Group 1, class A
– AS/NZS CISPR 11
– ICES/NMB-001
This ISM device complies with Canadian ICES-001.
Cet appareil ISM est conformea la norme NMB-001 du Canada
South Korean Class A EMC declaration
Information to the user:
This equipment has been conformity assessed for use in business environments. In a residential environment this equipment may cause radio
interference.
– This EMC statement applies to the equipment only for use in business environment.
사 용 자 안 내 문
이 기기는 업무용 환경에서 사용할 목적으로 적합성평가를 받은 기기로서
가정용 환경에서 사용하는 경우 전파간섭의 우려가 있습니다.
※ 사용자 안내문은 “업무용 방송통신기자재”에만 적용한다.
1. Samples of this product have been type tested in accordance with the Keysight Environmental Test Manual and verified to be robust against the environ-
mental stresses of Storage, Transportation and End-use; those stresses include but are not limited to temperature, humidity, shock, vibration, altitude and
power line conditions.
2. Test methods are aligned with IEC 60068-2 and levels are similar to MIL-PRF-28800F Class 3.
3. De-rate max temperature by 5 °C above 2000 m.
24 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
Ordering Information
Software information
Hardware information
Supported operating systems
Microsoft Windows 7 (64-bit only)
Microsoft Windows 10 (64-bit only)
Model
Description
M9336A
PXIe I/Q arbitrary waveform generator:
500 MHz BW, 16-bit, 3 scalar channels
Standard compliant drivers
IVI.NET, IVI-C, and LabVIEW
Supported application
development environments
(ADE)
LabVIEW, MATLAB, Visual Studio.NET
(C/C++, C#, VB.NET), Command Expert
M9336A-001
M9336A-B12
M9336A-B50
M9336A-M02
M9336A-M04
Related Products
M9037A
Enable I/Q channels (all 3 channels)
Channel Bandwidth, 135 MHz
Channel Bandwidth, 540 MHz
Memory, 2 GB
Keysight IO libraries
Supported versions: 17.3 and 18.0
(or greater)
Includes: VISA Libraries, Keysight
Connection Expert, IO Monitor
Memory, 4 GB
PXIe embedded controller: Intel i7, 4 GB
RAM, 240 GB SSD
Signal Studio software
(Playback on up to four channels N7601B cdma2000®/1xEV-DO
N7600B W-CDMA/HSPA+
M9010A
M9018B
M9019A
PXIe chassis: 10-slot, 3U, 24GB/s
PXIe chassis: 18-slot, 3U, 8GB/s
PXIe chassis: 18-slot, 3U, 24GB/s
per license):
N7602B GSM/EDGE/Evo
– N76xxB/C-9TP, transport- N7608C Custom modulation
able perpetual license
– N76xxB/C-9FP, fixed
perpetual license
N7612B TD-SCDMA/HSDPA
N7617B WLAN 802.11a/b/g/n/ac
N7624B LTE/LTE-Advanced FDD
– N7650B-2xx provides 5/50 N7625B LTE/LTE-Advanced TDD
waveform pack licenses
– M9950A Signal Studio
software extension from 4
to 8 channels
N7630C Pre-5G
25 | Keysight | M9336A I/Q Arbitrary Waveform Generator - Data Sheet
For more information on Keysight
Evolving Since 1939
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reach your next breakthrough. We are unlocking the future of technology.
From Hewlett-Packard to Agilent to Keysight.
Technologies’ products, applications or
services, please contact your local Keysight
office. The complete list is available at:
www.keysight.com/find/contactus
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United States
(877) 894 4414
55 11 3351 7010
001 800 254 2440
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Taiwan
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www.keysight.com/find/mykeysight
A personalized view into the information most relevant to you.
Other AP Countries
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Register your products to get up-to-date product information and
find warranty information.
Europe & Middle East
Austria
Belgium
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France
Germany
Ireland
Israel
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Russia
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+32 800 58580
0800 0233200
8800 5009286
800 000154
0200 882255
0800 805353
Opt. 1 (DE)
Keysight Services
www.keysight.com/find/service
Keysight Services can help from acquisition to renewal across your
instrument’s lifecycle. Our comprehensive service offerings—one-
stop calibration, repair, asset management, technology refresh,
consulting, training and more—helps you improve product quality
and lower costs.
Keysight Assurance Plans
www.keysight.com/find/AssurancePlans
Up to ten years of protection and no budgetary surprises to ensure
your instruments are operating to specification, so you can rely on
accurate measurements.
Spain
Sweden
Switzerland
Opt. 2 (FR)
Opt. 3 (IT)
0800 0260637
Keysight Channel Partners
www.keysight.com/find/channelpartners
United Kingdom
Get the best of both worlds: Keysight’s measurement expertise and
product breadth, combined with channel partner convenience.
For other unlisted countries:
www.keysight.com/find/contactus
(BP-9-7-17)
www.keysight.com/find/M9336A
DEKRA Certified
ISO9001 Quality Management System
www.keysight.com/go/quality
Keysight Technologies, Inc.
DEKRA Certified ISO 9001:2015
Quality Management System
This information is subject to change without notice.
© Keysight Technologies, 2017
Published in USA, November 18, 2017
5992-2140EN
www.keysight.com
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