PicoSource PG900 Series

USB differential picosecond pulse generators

PicoSource PG900 Series specifications

PicoSource PG911 and PG914

INTEGRATED STEP RECOVERY DIODE PULSE OUTPUTS
Pulse outputs Positive-going (fast rise) and negative-going (fast fall) outputs returning to 0 V.
Adjustable amplitude and timing parameters. Fast transition on leading edge.
Output impedance 50 Ω
Output connector SMA(f)
Output amplitude Adjustable 2.5 V to 6 V in 10 mV steps
Output accuracy ±10%
Output amplitude limit 2.5 V to 6 V, adjustable in 100 mV increments
Duty cycle limit 50% maximum (for 2.5 V to 4 V amplitude)
20% maximum (up to 6 V amplitude)
Differential deskew range Adjustable in 1 ps steps over 2 ns range
  Positive or negative-going, smooth mode: Negative-going, fast mode:
Pulse transition time < 60 ps (10% to 90%) (smooth mode) < 50 ps (10% to 90%)
Pulse aberrations < +20%, –10% for first 2 ns
< ±7% to 10 ns
< ±2% to pulse width –50 ns

< (+40%, –10%)

Trailing edge transition time < 8 ns (10% to 90%)

PicoSource PG912 and PG914

DRIVE OUTPUTS WITH TUNNEL DIODE PULSE HEADS
PS9040 Positive tunnel diode pulse head Positive-going (fast rise) output on < 70 mV pedestal.
Fixed amplitude and adjustable timing parameters.
Fast transition on leading edge.
PS9041 Negative tunnel diode pulse head Negative going (fast fall) output on < –70 mV pedestal.
Fixed amplitude and adjustable variable timing parameters.
Fast transition on leading edge.
Output impedance 50 Ω, ±2 Ω
Output connector N(m)
Output amplitude Fixed 200 mV
Output accuracy ±25%
Differential deskew range Adjustable in 1 ps steps over 200 ps minimum, 300 ps typical
Pulse transition time < 40 ps (10 % to 90%)
Pulse aberrations < ±20%, for first 2 ns
< ±7% to 15 ns
< ±2% to (pulse width – 50 ns)
Trailing edge transition time < 8 ns (10% to 90%)
Dimensions (each pulse head) 80 mm x 28 mm x 25 mm
Weight (each pulse head) 125 g

All models and outputs

PULSE TIMING
Pulse trigger source External input, manual single shot event or internal clock
Jitter relative to leading edge 3.0 ps RMS typical. 3.5 ps RMS maximum.
Post-trigger delay to pulse leading edge Fixed 42 ns ±2 ns
Allows leading-edge capture on sampling oscilloscopes
Pulse width and accuracy 200 ns to 4 µs ± 10% ± 50 ns, user adjustable in steps of 25 ns
Pulse width jitter < 150 ppm of width RMS
External trigger hold-off Adjustable 1 μs to 1.3 ms in steps of 200 ns, to maximum of 345 ms in steps of < 15 ppm
INTERNAL CLOCK SPECIFICATION
Period and accuracy Adjustable 1 µs to 1 s, ±100 ppm ±10 ns in steps of 200 ns
EXTERNAL TRIGGER INPUT SPECIFICATION
Impedance 50 Ω ±1%
Connector SMA(f)
Maximum input level +16 dBm, or ±2 V DC or AC pk
Bandwidth 1 GHz, DC coupled
Trigger polarity Selectable rising or falling edge
Trigger level Selectable –1 V to +1 V in steps of 1 mV
Sensitivity < 50 mV pk-pk DC to 100 MHz, rising linearly to 100 mV pk-pk at 1 GHz
Minimum pulse width 500 ps at 100 mV pk-pk
EXTERNAL TRIGGER OUTPUT SPECIFICATION
Trigger output pulse Fixed amplitude and timing parameters, positive edge polarity, trigger is leading edge
Impedance 50 Ω, ±0.5 Ω
Connector SMA(f)
Amplitude and offset > 700 mV fixed, on logic low of 0 V ± < 100 mV
Pulse width 500 ns, ±100 ns
Trigger to trigger output delay 4 ns, ±1 ns
Trigger to trigger output jitter 2.5 ps rms typical. 3 ps rms maximum.
Transition time < 400 ps (10% to 90%)
GENERAL SPECIFICATIONS
AC to DC adaptor 5 V ±5% at 1.6 A, 8 W, universal plug (adaptor included)
PC connection USB 2.0 (USB 1.1 and USB 3.0 compatible), 1.8 m USB 2.0 lead included
PC requirements Windows XP SP3 to Windows 8
Operating temperature range +5 °C to +35 °C
Storage temperature range –20 °C to +50 °C
Temperature range for stated specifications +15 °C to +25 °C or TCAL (temperature of calibration) ±5 °C
Operating humidity range < 85% RH (non-condensing) at +25 °C
Storage humidity range < 95% RH (non-condensing)
Dimensions (instrument) 190 mm W x 180 mm D x 40 mm H
Weight (instrument) 560 g
Warranty 5 years

Specifications describe guaranteed performance over the stated temperature range and apply after the instrument’s temperature has been stabilized in 1 hour of continuous operation. All specifications are subject to change without notice.

Factory calibration cycle. For optimum performance, the instrument should have a complete verification of specifications once every 12 months.