| Number of input channels |
4 |
| Analog bandwidth (–3 dB) |
Full: DC to 16 GHz
Middle: DC to 450 MHz
Narrow: DC to 100 MHz |
| Passband flatness |
Full: ±1 dB to 5 GHz |
| Calculated rise time (tR), typical |
Calculated from the bandwidth.
10% to 90%: calculated from tR = 0.35/BW
20% to 80%: calculated from tR = 0.25/BW
Full: 10% to 90%: ≤ 21.9 ps, 20% to 80%: ≤ 15.6 ps
Middle: 10% to 90%: ≤ 780 ps, 20% to 80%: ≤ 560 ps
Narrow: 10% to 90%: ≤ 3.5 ns, 20% to 80%: ≤ 2.5 ns |
| Step response, typical |
NA |
| RMS noise |
Full: 2.4 mV, maximum, 2.2 mV, typical
Middle: 0.8 mV, maximum, 0.65 mV, typical
Narrow: 0.6 mV, maximum, 0.45 mV typ. |
| Scale factors (sensitivity) |
10 mV/div to 250 mV/div
Full scale is 8 vertical divisions
Adjustable in a 10-12.5-15-20-25-30-40-50-60-80-100-125-150-200-250 mV/div sequence.
Also adjustable in 1% fine increments or better.
With manual or calculator data entry the increment is 0.1 mV/div. |
| DC gain accuracy |
±2% of full scale. ±1.5% of full scale, typical |
| Position range |
±4 divisions from center screen |
| DC offset range |
Adjustable from –1 V to +1 V in 10 mV increments (coarse). Also adjustable in fine increments of 2 mV.
With manual or calculator data entry the increment is 0.01 mV for offset between –99.9 and 99.9 mV, and 0.1 mV for offset between –999.9 and 999.9 mV.
Referenced to the center of display graticule |
| Offset accuracy |
±2 mV ±2% of offset setting (±1 mV ±1% typical) |
| Operating input voltage |
±800 mV |
| Vertical zoom and position |
For all input channels, waveform memories, or functions
Vertical factor: 0.01 to 100
Vertical position: ±800 divisions maximum of zoomed waveform |
| Channel-to-channel crosstalk (channel isolation) |
≥ 50 dB (316:1) for input frequency DC to 1 GHz
≥ 40 dB (100:1) for input frequency > 1 GHz to 3 GHz
≥ 36 dB (63:1) for input frequency > 3 GHz to ≤ 16 GHz |
| Delay between channels |
≤ 10 ps, typical
Between any two channels, full bandwidth, random sampling |
| ADC resolution |
12 bits |
| Hardware vertical resolution |
0.4 mV/LSB without averaging |
| Overvoltage protection |
±1.4 V (DC + peak AC) |
| Input impedance |
50 Ω ±1.5 Ω (50 Ω ±1 Ω typical) |
| Input match |
Reflections for 50 ps rise time: 10% or less. |
| Input coupling |
DC |
| Input connectors |
SMA female |
| Internal probe power |
6.0 W total maximum with PSU as supplied. |
| Probe power per probe |
3.3 V: 100 mA maximum
12 V: 500 mA maximum to total probe power stated above. |
| Attenuation |
Attenuation factors may be entered to scale the oscilloscope for external attenuators connected to the channel inputs
Range: 0.0001:1 to 1 000 000:1
Units: ratio or dB
Scale: volt, watt, ampere, or unknown |
| Timebase |
Internal timebase common to all input channels. |
| Timebase range |
Full horizontal scale is 10 divisions
Real time sampling: 10 ns/div to 1000 s/div
Random equivalent time sampling: 20 ps/div to 5 µs/div
Roll: 100 ms/div to 1000 s/div
Segmented: Total number of segments: 2 to 1024. Rearm time between segments: <1 μs (trigger hold-off setting dependent) |
| Horizontal zoom and position |
For all input channels, waveform memories, or functions
Horizontal factor: From 1 to 2000
Horizontal position: From 0% to 100% non-zoomed waveform |
| Timebase clock accuracy |
Frequency: 500 MHz
Initial set tolerance: ±10 ppm @ 25 °C ±3 °C
Overall frequency stability: ±50 ppm over operating temperature range |
| Aging |
±7 ppm over 10 years @ 25 °C |
| Timebase resolution |
0.4 ps |
| Delta time measurement accuracy |
±(50 ppm * reading + 0.1% * screen width + 5 ps) |
| Pre-trigger delay |
Record length ÷ current sampling rate (when delay = 0) |
| Post-trigger delay |
0 to 4.28 s. Coarse increment is one horizontal scale division, fine increment is 0.1 horizontal scale division, manual or calculator increment is 0.01 horizontal scale division. |
| Channel-to-channel deskew range |
±50 ns range. Coarse increment is 100 ps, fine increment is 10 ps. With manual or calculator data entry the increment is four significant digits or 1 ps. |
| Trigger sources |
Internal from any of four channels.
External Prescaled. |
| Trigger mode |
Freerun: Triggers automatically but not synchronized to the input in absence of trigger event.
Normal (triggered): Requires trigger event for oscilloscope to trigger.
Single: SW button that triggers only once on a trigger event. Not suitable for random equivalent-time sampling |
| Internal trigger coupling |
DC |
| Internal trigger style |
Edge: Triggers on a rising and falling edge of any source from DC to 2.5 GHz.
Divider: The trigger source is divided down four times (/4) before being applied to the trigger system. It has a trigger frequency range up to 5 GHz.
Clock recovery (optional): This trigger is used when the trigger signal is an NRZ data pattern with any data rate between 6.5 Mb/s and 8 Gb/s |
| Trigger holdoff mode |
Time or random |
| Trigger holdoff range |
Holdoff by time: Adjustable from 500 ns to 15 s in a 1-2-5-10 sequence or in 4 ns fine increments
Random: This mode varies the trigger holdoff from one acquisition to another by randomizing the time value between triggers. The randomized time values can be between the values specified in the Min Holdoff and Max Holdoff. |
| Bandwidth and sensitivity |
Low sensitivity: 100 mV p-p DC to 100 MHz. Increasing linearly from 100 mV p-p at 100 MHz to 200 mV p-p at 5 GHz. Pulse width: 100 ps @ 200 mV p-p typical.
High sensitivity: 30 mV p-p DC to 100 MHz. Increasing linearly from 30 mV p-p at 100 MHz to 70 mV p-p at 5 GHz. Pulse width: 100 ps @ 70 mV p-p. |
| Internal trigger level range |
–1 V to 1 V in 10 mV increments (coarse). Also adjustable in fine increments of 1 mV. |
| Edge trigger slope |
Positive: Triggers on rising edge
Negative: Triggers on falling edge
Bi-slope: Triggers on both edges of the signal |
| RMS internal trigger jitter |
Combined trigger and interpolator jitter + delay clock stability
Edge and divided trigger: 2 ps + 0.1 ppm of delay, maximum
Clock recovery trigger (optional): 2 ps + 1.0% of unit interval + 0.1 ppm delay, maximum |