Characteristics
- Type
- pulse
- Other characteristics
- digital, picosecond
Description
PG911 and PG914
• Integral 50 Ω SMA(f) Step Recovery Diode outputs
• < 60 ps transition time
• Dual 2.5 to 6 V variable amplitude outputs
• ±1 ns in 1 ps steps timing deskew
• 200 ns to 4 μs pulse width
• 1 μs to 1 s internal clock period
• < 3 ps RMS jitter relative to external trigger
• –20 dB 10 GHz SMA(m-f) attenuator included with Step Recovery Diode outputs
PG912 and PG914
• External 50 Ω N(m) positive and negative Tunnel Diode pulse heads
• 200 mV fixed amplitude outputs
• ±200 ps in 1 ps steps timing deskew
• Inter-series N(f) – SMA(m) adapter included with Tunnel Diode pulse heads
The fast-transition pulse can stimulate a transmission path, device or network with a broad spectrum signal in a single instant. Such a pulse is very useful for many of the high-speed broadband measurements that we need to make; for instance in time-domain reflectometry, semiconductor test, gigabit interconnect and port test and in radar.
Differential high-speed data in particular dominates the measurement challenge in our digital, computing, interconnect and telecommunications systems. Surprisingly, cost-effective fast-transition differential pulse generators have been very hard to find … until now!
Typical applications include:
• TDR/TDT network and match analysis
• Spectral and flatness measurements
• Timing, jitter and crosstalk determinations
The PG900 Pulse Generators can partner the PicoScope 9300 20 GHz Sampling Oscilloscope in many of these applications.
