
Quantum Computing
Quantum Computing

Laser Radar

Nuclear Magnetic Resonance Spectroscopy
Nuclear Magnetic Resonance Spectroscopy

Semiconductor Test
Support the synchronous operation for multiple devices that expands more channels
With flexible playing modes to support both independent and combination playing
Each channel can output Marker signals independently and input Trigger signals independently.
Each channel has a 1.2 GSa/s sampling rate with 330MHz analog bandwidth
Four-Channel independent output
Maximum output amplitude 5Vpp
Resolution up to 16 bits
Support sequential playing of complicated waveform
Support the synchronous operation for multiple devices that expands more channels
With flexible playing modes to support both independent and combination playing
Each channel can output Marker signals independently and input Trigger signals
Four-Channel Independent Output
Maximum Output Swing 1Vpp
Resolution up to 16 bits
Each channel has a 1.2 GSa/s sampling rate with 330MHz analog bandwidth
Support sequential playing of complicated waveform
Quantum Computing
Quantum Computing
Laser Radar
Nuclear Magnetic Resonance Spectroscopy
Nuclear Magnetic Resonance Spectroscopy
Semiconductor Test
Arbitrary Waveform Generator |
|
Number of Channels |
4 |
Vertical Resolution |
16 |
Each Channel’s Waveform Storage Depth |
512 MSa |
Analog Bandwidth |
330 MHz |
Waveform Granularity |
4 Samples |
Minimum Waveform Length |
8 Samples |
Clock Frequency of Sequence Programmer |
Sampling Rate Divided by 4 |
Mark Output |
One Mark/Channel, SMA Connector (front panel) |
Waveform Output Channel |
|
Connector Type |
SMA |
Output Impedance |
50 Ω |
Output Coupling |
DC |
Output Mode |
Direct Output, Amplifier Output |
Output Range |
Direct Output: 1 Vpp (into 50 Ω) Amplifier Output: 5 Vpp (into 50 Ω) |
Offset Voltage |
< 1 mV (into 50 Ω) |
Phase Noise |
<-110 dBc/Hz @100 MHz offset 10 kHz |
Voltage Noise |
< 20 nV/√Hz @100 kHz (1 Vpp) |
Input |
|
Trigger Input |
One Input/Channel , SMA Connector (front panel) |
Trigger Input Impedance |
50 Ω |
Trigger Input Amplitude Range |
0 ~ 3.3 V (into 50 Ω) Adjustment accuracy: 0.1 mV |
Reference Clock Input |
BNC Connector (back panel) |
Reference Clock Input Frequency |
10/100 MHz |
Time- and Frequency-domain Characteristics |
|
Sampling rate |
1.2 GSa/s |
Rise time (20% to 80%) |
< 1 ns (± 500 mV) |
Skew between outputs |
< 150 ps |
Connectivity and Others |
|
Host connection |
LAN / Ethernet,1 Gbps |
Size |
258 mm * 291.88 mm * 93 mm |
Weight |
2.9kg |
Arbitrary Waveform Generator |
|
Number of channels |
4 |
Vertical resolution |
16 bit |
Waveform memory for each channel |
512 MSa |
Analog bandwidth |
330 MHz |
Waveform granularity |
4 samples |
Minimum waveform length |
8 samples |
Sequence programmer clock frequency |
Sampling rate divided by 4 |
Marker outputs |
1 per channel, SMA connector (front panel) |
Wave Signal Output |
|
Connector |
SMA |
Output impedance |
50 Ω |
Output coupling |
DC |
Output mode |
Direct output |
Output range |
5 Vpp (into 50 Ω) |
Offset voltage |
< 1 mV (into 50 Ω) |
Phase noise |
< -110 dBc/Hz @100 MHz |
Voltage noise |
< 20 nV/√Hz @100 kHz |
Inputs |
|
Trigger input |
channel, SMA connector (front panel) |
Trigger input impedance |
50 Ω |
Trigger input amplitude range |
3.3 V (into 50 Ω) |
Reference clock input |
BNC connector (rear panel) |
Reference clock input frequency |
10/100 MHz |
Time- and Frequency-domain Characteristics |
|
Sampling rate |
1.2 GSa/s |
Rise time (20% to 80%) |
< 1 ns (± 500 mV) |
Skew between outputs |
< 150 ps |
Connectivity and Others |
|
Host connection |
LAN / Ethernet,1 Gbps |
Size |
258 mm * 291.88 mm * 93 mm |
Weight |
2.9kg |