The Behlke Fast Square Wave Pulser FQD-60-03-C is a device that is widely used in the field of electronic measurement and testing. It uses advanced circuit design and signal processing technology to generate high-speed, high-precision square wave pulses to meet the needs of various experiments and applications.
The device is mainly composed of the following core components: oscillator, amplifier, comparator and output buffer. The oscillator is responsible for generating the original pulse signal, the amplifier is used to amplify the signal amplitude, the comparator is used to generate the square wave signal, and the output buffer is responsible for outputting the square wave signal to an external load. These components work together to achieve the high-performance output of the FQD-60-03-C through precise circuit design and parameter adjustment.
During the operation of the FQD-60-03-C, the raw pulse signal generated by the oscillator is processed by the amplifier and comparator to form a square wave signal. This process involves several physical and electrical principles, such as the stability of the oscillation frequency, the control of the magnification, and the setting of the comparison threshold. By precisely controlling these parameters, the FQD-60-03-C is able to generate high-speed, high-precision square wave pulses.
The FQD-60-03-C has several advantages over other similar devices. First of all, it uses advanced circuit design and signal processing technology to produce higher frequency and higher precision square wave pulses. Secondly, the FQD-60-03-C has lower noise and less distortion, which can meet the needs of higher precision measurement and testing. In addition, it has stronger driving capacity and higher stability, and can adapt to a variety of different application scenarios.
In practical applications, FQD-60-03-C can be widely used in electronic measurement, testing, communication, control and other fields. For example, in the field of electronic measurement, it can be used to measure the parameters of components such as capacitance, inductance, resistance, etc.;In the field of communication, it can be used to modulate and demodulate signals;In the field of control, it can be used to achieve precise control systems. Whether in the scientific research laboratory or in the actual production site, the FQD-60-03-C can play its high performance and high stability, and provide strong support for various experiments and applications.
fqd-30-04-c
Compact series. Plastic flange housing with pigtail. Cooling options are not applicable.
Voltage kv: 3 Current A: 40 High voltage pulse width 100 ns. 1 ms.
fqd-40-02-c
Compact series. Plastic flange housing with pigtail. Cooling options are not applicable.
Voltage kv: 4 Current A: 20 High voltage pulse width 100 ns. 1 ms.
fqd-40-03-c
Compact series. Plastic flange housing with pigtail. Cooling options are not applicable.
Voltage kv: 4 Current A: 30 High voltage pulse width 100 ns. 1 ms.
fqd-50-02-c
Compact series. Plastic flange housing with pigtail. Cooling options are not applicable.
Voltage kv: 5 Current A: 20 High voltage pulse width 100 nanoseconds. 1 ms.
fqd-60-03-c
Compact series. Plastic flange housing with pigtail. Cooling options are not applicable.
Voltage kv: 6 Current A: 30 High voltage pulse width 100 nanoseconds. 1 ms.
fqd-80-02-c
Compact series. Plastic flange housing with pigtail. Cooling options are not applicable.
Voltage kv: 8 Current A: 25 High voltage pulse width 100 nanoseconds. 1 ms.
fqd 40-03
Based on HTS 40-03 with 200 mm long pigtail for direct connection to Pockels batteries.
Voltage kv: 4 Current A: 35 High voltage pulse width 100 nanoseconds. 1 ms.
fqd 40-06
Based on HTS 40-06 with 200 mm long pigtail for direct connection to Pockels batteries.
Voltage kv: 4 Current A: 60 High voltage pulse width 100 nanoseconds. 1 ms.