MODELS SE5081/2
5GS/s Single/Dual Channel Arbitrary Waveform Generators
• Single or Dual channel 5Gs/s (10GS/s equivalent in RF mode),
12 bit waveform generators
• Directly generate RF signals higher than 7GHz
• Extremely fast rise and fall time of under 100ps
• Multi-Nyquist zone operation, up to the 4th Nyquist zone
• Inter-channel skew control from -3ns to +3ns with 10ps resolution
• Independent or synchronized channels configurations
• 32M waveform memory and up to 64M memory optional
• AM, FM, FSK, PSK, ASK, Amp. Hop, Freq. Hop, Sweep & Chirp
• Powerful pulse composer for analog, digital and mixed signals
• Advanced sequencer for step, loop, nest and jumps scenarios
……
Specification
CONFIGURATION
Output Channels
1/2, Synchronized/fully separated
STANDARD WAVEFORMS
Type:
Sine, triangle, square, ramp, pulse, sin(x)/x, exponential rise, exponential decay, gaussian, noise and DC.
Frequency Range:
Sine
1Hz to 2.5GHz
Square, Pulse
1Hz to 1.25GHz
All others
1Hz to 300MHz
PULSE
Pulse Mode:
Single or double, programmable
Polarity:
Normal, inverted or complement
Period:
DC/DAC Module
800ps to 1.6s
HV Module
4ns to 1.6s
Resolution:
DC/DAC Module
200ps
HV Module
1ns
Pulse Width:
DC/DAC Module
200ps to (1.6s-200ps)
HV Module
2ns to (1.6s-2ns)
Rise/Fall Time:
Fast
DC/DAC Module
200ps (typical < 150ps)
HV Module
600ps (typical < 500ps)
Linear
DC/DAC Module
200ps to (1.6s-200ps)
HV Module
1ns to (1.6s-1ns)
Delay:
DC/DAC Module
200ps to (1.6s-200ps)
HV Module
1ns to (1.6s-1ns)
Double Pulse Delay:
DC/DAC Module
1ns to 1s
HV Module
200ps to 1s
Amplitude Range:
DAC Module
50mVp-p to 0.54Vp-p into 50Ω
DC Module
50mVp-p to 1Vp-p into 50Ω
HV Module
50mVp-p to 2Vp-p into 50Ω
High/Low Levels:
DAC Module
-0.27 to +0.27 V
DC Module
-0.75 to +0.75 V
HV Module
-1.5 to +1.5 V
NOTES:
1. All pulse parameters, except rise and fall times, may be freely programmed within the selected pulse period provided that the ratio between the period and the smallest incremental unit does not exceed the ratio of 32,000,000 to 1.
2. Rise and fall times, may be freely programmed provided that the ratio between the rise/fall time and the smallest incremental unit does not exceed the ratio of 1,000,000 to 1.
3. The sum of all pulse parameters must not exceed the pulse period setting.
PULSE / PATTERN COMPOSER
MULTI-LEVEL / LINEAR-POINTS
Number of Levels:
1 to 1000
Dwell Time:
400ps to 1s
Transition type:
Fast or Linear
Memory:
100k
Amp. Resolution:
4 digits
Time Resolution:
200ps to 100ns (auto or user)
PATTERN
Pattern Source:
PRBS or user-defined PRBS Type: PRBS7, PRBS9, PRBS11, PRBS15, PRBS23, PRBS31, USER
Data Rate:
1Bit/s to 1GBit/s
Number of Levels:
2, 3, 4, 5
High/Low Levels:
±0.27V DAC ±0.75V DC ±1.5V HV
Resolution:
4 digits
Loops:
1 to 16e6
Preamble:
1 to 16e6
Length:
1 to 16e6
ARBITRARY WAVEFORMS
Sample Rate:
50MS/s to 5GS/s
Vertical Resolution:
12 bits
Waveform Memory:
32M/64M points optional
Min. Segment Size:
384 points
Resolution:
32 points
No. of Segments:
1 to 32k
Waveform Granularity:
1 point
Dynamic control:
Software command or rear panel segment control port
Jump Timing:
Coherent or asynchronous
SEQUENCED WAVEFORMS
Multi Sequence:
1 to 1,000 unique scenarios
Sequencer Steps:
3 to 49,152 steps.
Segment Loops:
1 to 16M cycles, each segment
Sequence Loops:
1 to 1M (“Once” mode only)
Step Advance Modes:
Continuous, once (x “N”) and stepped
SEQUENCED SEQUENCES
Sequence Scenarios:
1 Scenario
Dynamic Control:
Software command or rear panel sequence control port
Table Length:
3 to 1k steps
Advance Control:
Continuous, once and stepped
Sequence Loops:
1 to 1,000,000 cycles
MODULATION
COMMON CHARACTERISTICS
Carrier Waveform:
Sine, square, triangle
Carrier Frequency:
10kHz to 2.5GHz
Modulation Source:
Internal
FM
Modulation Shape:
Sine, square, triangle, ramp
Modulation Freq.:
100Hz to 250MHz
Deviation Range:
10MHz to 1.25GHz
FSK / FREQUENCY HOPPING
FSK Baud Rate:
100mbps to 1Gbps
Hop Table Size:
2 to 256
Hop Type:
Fast or Linear
Dwell Time Mode:
Fixed or programmable per step
Dwell Time:
1ns to 10s
Dwell Time Res.:
1ns
SWEEP / CHIRP
Sweep Type:
Linear or log
Sweep Direction:
Up or down
Sweep Time:
0.5 µs to 9.999ms
Modulation Shape:
Pulse
Pulse Repetition:
Range
200ns to 20s
Resolution
3 digits
Accuracy
100ppm
AM
Modulation Shape:
Sine, square, triangle, ramp
Modulation Freq.:
100Hz to 100MHz
Modulation Depth:
0 to 200%
ASK / AMPLITUDE HOPPING
ASK Baud Rate:
100mbps to 1Gbps
Hop Table Size:
2 to 256
Hop Type:
Fast or Linear
Dwell Time Mode:
Fixed or programmable per step
Dwell Time:
1ns to 10s
Resolution
1ns
COMMON CHARACTERISTICS
FREQUENCY
Resolution:
12 digits
Accuracy/Stability:
Same as reference
ACCURACY REFERENCE CLOCK
Internal
1 ppm from 19°C to 29°C; 1ppm/°C below 19°C or above 29°C; 1 ppm/year aging rate
External
Same as accuracy and stability of the external ref.
OUTPUTS
MAIN OUTPUTS
Type of output:
Single-ended(1) or differential
Impedance:
50Ω typical
Connectors:
Front panel SMAs
DAC OUTPUT MODULE (DEFAULT)
Coupling:
AC-coupled
Amplitude control(2)
Range, single-ended
400 mV to 540 mV
Range, differential
800 mV to 1080 mV
Resolution
4 digits
Accuracy, (offset = 0 V)
±(1% +5 mV)
RMS Jitter (typical):
<1psec
Phase Noise (typical,@10kHz)(5):
-120 dBc/Hz
Bandwidth (3 dB)(3):
4 GHz
IMD3(4):
-70dBc
Harmonics(10) (typical)
Up to 650 MHz
<-65 dBc
650 MHz to 2.5 GHz
<-55 dBc
SFDR (NRZ Mode, typical)
Up to 625 MHz
<-80 dBc
625 MHz to 1.5 GHz
<-65 dBc
1.5 GHz to 2.5 GHz
<-60 dBc
DC OUTPUT MODULE
Coupling:
DC-coupled
Amplitude control(2)
Window, single-ended(8)
-0.75 V to 0.75 V
Window, differential
-1.5 V to 1.5 V
Range, single-ended
100 mV to 1.2 Vp-p
Range, differential
200 mV to 2.4 Vp-p
Resolution
4 digits
Accuracy, (offset = 0 V)
±(1% +5 mV)
Offset control(2)
Range
-500 mV to +500 mV
Resolution
4 digits
Accuracy
± (5% +5 mV)
Rise/fall time, (typical, 20% to 80%):
<100 ps, @0.6-1.2Vpp
Overshoot (typical):
6%,@0.6-1.2Vpp
RMS Jitter (typical):
<1psec
Phase Noise (typical,@10kHz)(7):
-120 dBc/Hz
Bandwidth (3 dB)(3):
3 GHz
Harmonics(6) (typical)
Up to 650 MHz
<-60 dBc
650 MHz to 1.6 GHz
<-55 dBc
1.6 GHz to 2.5 GHz
<-45 dBc
SFDR (NRZ Mode, typical)
Up to 650 MHz
<-80 dBc
650 MHz to 1.5 GHz
<-70 dBc
1.5 GHz to 2.5 GHz
<-58 dBc
HV OUTPUT MODULE
Coupling:
DC-coupled
Amplitude control(2)
Window, single-ended(8)
-2.25 V to 2.25 V
Window, differential
-4.5 V to 4.5 V
Range, single-ended
50 mVp-p to 2 Vp-p
Range, differential
100 mVp-p to 4 Vp-p
Resolution
4 digits
Accuracy, (offset = 0 V)
±(2% +2 mV)
Offset control(2)
Range
-0.1 V to + 0.1 V
Resolution
4 digits
Accuracy
± (2% +15 mV)
Rise/Fall Time (20% to 80%):
500ps
Overshoot:
5%, typical
Phase Noise(@10kHz)(7):
-115 dBc/Hz
Bandwidth (3 dB,typical)(3):
600MHz (calculated)
Harmonic distortion(9):
<-42 dBc
Non harmonic distortion(9):
<-70 dBc
NOTES:
1. The unused output must be terminated with 50Ω to ground
2. specified into 50Ω, levels double into high impedance
3. Calculated bandwidth for NRZ mode
4. 400 MHz±1MHz Arbitrary Mode, DAC, NRZ Mode with 4.992 GS/s clock
5. Amplitude=540 mVp-p, offset=0 V, SCLK=4.5 GS/s, arbitrary 32 points sine waveforms, typical values
6. 1 Vp-p, Offset=0 V, SCLK=5 GS/s, sine waveform, typical values measured using balun
7. Amplitude=1 Vp-p, offset=0 V, SCLK=4.5 GS/s, arbitrary 32 points sine waveforms, typical values
8. Exceeding the amplitude window is allowed but may cause excessive signal distortion
9. Amplitude=1 Vp-p , offset=0 V, SCLK=4 GSa/s, 40 points sine waveform (100 MHz output frequency)
10. 540 mVp-p, Offset=0 V, SCLK=5 GS/s, sine waveform, typical values measured using balun
MARKER OUTPUTS
Number of Markers:
Two markers per channel
Type:
Differential (+) and (-) outputs
Connectors:
SMB
Skew Between
Markers:
100ps, typical
Impedance:
50Ω
Amplitude Voltage:
Window
0V to 1.25V, single-ended; 0V to 2.5V, differential
Low level
0V to 0.8V, single-ended; 0V to 1.6V, differential
High level
0.5V to 1.25V, single-ended;0V to 2.5V, differential
Resolution:
10mV
Accuracy:
10% of setting
Width control:
2 SCLK to segment length;
Position control:
Range
0 to (segment length-4)
Resolution
4 points
Initial delay:
3.5ns±1 sample clock (Output to marker)
Variable delay:
Control
Separate for each channel
Range
0 to 3ns
Resolution
10ps
Accuracy
±(10% of setting +20ps)
Rise/Fall Time:
<1ns, typical
SYNC OUTPUT
Connector:
Front panel SMA
Source:
Channel 1 or channel 2
Type:
Single ended
Waveform Type:
Pulse
32 points width
WCOM
Waveform complete
Impedance:
50Ω
Amplitude:
1.2V, typical; doubles into high impedance
Variable Position Control:
Range
0 to (segment length-32)
Resolution
32 points
Rise/Fall Time:
2ns, typical
Variable Width control:
Range
32 points to (segment length-32)
Resolution
32 points
REFRENCE CLOCK OUTPUT (OPTION)
Connector:
Rear panel BNC
Frequency:
100 MHz if using internal reference, 10MHz or 100MHz if using external reference
Output impedance:
50Ω, typical
Output voltage:
1 Vp-p
INPUTS
TRIGGER INPUT
Connector:
Front panel SMA
Input Impedance:
10kΩ or 50Ω, selectable
Polarity:
Positive, negative, or both
Damage Level:
±20Vdc
Frequency Range:
0 to 15MHz
Trigger Level Control:
Range
-5V to 5V into 50Ω;-10V to 10V into 1kΩ
Resolution
12 bit (2.5mV)
Accuracy
±(5% of setting + 2.5mV)
Sensitivity
0.2Vp-p
Min. Pulse Width: 10 ns
EVENT INPUT
Connector:
Rear panel BNC
Input Impedance:
10kΩ typical
Polarity:
Positive, negative or either
Damage Level:
±20Vdc
Frequency Range:
0 to 15MHz
Trigger Level Control:
Range
-5V to 5V
Resolution
12 bit (2.5mV)
Accuracy
±(5% of setting + 2.5mV)
Sensitivity
0.2 Vp-p minimum
Min. Pulse Width:
10 ns
SEQUENCE/SEGMENT CONTROL INPUT
Connectors:
Rear panel D-sub, 8 bit lines, per channel
Switching Rate:
20ns + waveform duration minimum
Input Impedance:
10kΩ, typical
Input Level:
TTL
EXTERNAL REFERENCE INPUT
Connector:
Rear panel BNC
Input Frequency:
10/20/50/100 MHz, programmable
Input Impedance:
50Ω
Voltage Swing:
-5dBm to 5dBm
Damage Level:
10dBm
EXTERNAL SAMPLE CLOCK INPUT
Connector:
Rear panel SMA
Input Impedance:
50Ω
Voltage Swing:
0dBm to 10dBm
Input Frequency:
10kHz to 5GHz
Clock Divider:
1/1, 1/2, 1/4, 1/64, separate for each channel
Damage Level:
15dBm
更多资料请联系我们
商品属性 [频率] 1Hz to 2.5GHz [通道数] 1