A high voltage pulse power delivery system is provided that includes dedicated safety features including fault detection and fault management. Alongside normal communications cabling, the pulse power delivery system provides remote power over standard multi-conductor cabling without dedicated conduit or separation. This simplifies installation of equipment, increases overall speed of deployment, and significantly reduces cost for deployment. The pulse power delivery system is further configured to transport power through a pulse current waveform.

A high voltage pulse power delivery system is provided that includes dedicated safety features including fault detection and fault management. Alongside normal communications cabling, the pulse power delivery system provides remote power over standard multi-conductor cabling without dedicated conduit or separation. This simplifies installation of equipment, increases overall speed of deployment, and significantly reduces cost for deployment. The pulse power delivery system is further configured to transport power through a pulse current waveform.

A differential voltage-to-time converter (VTC) architecture and method of providing VTC signals are disclosed. The VTC includes a ramp generator that generates a ramp voltage, capacitors having a bottom plate coupled with the ramp generator to receive the ramp voltage, and inverters having inputs coupled to top plates of the capacitors to provide signals based on a sampled signal. A threshold voltage or supply voltage of the inverters tracks a minimum input signal voltage.

A differential voltage-to-time converter (VTC) architecture and method of providing VTC signals are disclosed. The VTC includes a ramp generator that generates a ramp voltage, capacitors having a bottom plate coupled with the ramp generator to receive the ramp voltage, and inverters having inputs coupled to top plates of the capacitors to provide signals based on a sampled signal. A threshold voltage or supply voltage of the inverters tracks a minimum input signal voltage.

A high voltage pulse power delivery system is provided that includes dedicated safety features including fault detection and fault management. Alongside normal communications cabling, the pulse power delivery system provides remote power over standard multi-conductor cabling without dedicated conduit or separation. This simplifies installation of equipment, increases overall speed of deployment, and significantly reduces cost for deployment. The pulse power delivery system is further configured to transport power through a pulse current waveform.

A high voltage pulse power delivery system is provided that includes dedicated safety features including fault detection and fault management. Alongside normal communications cabling, the pulse power delivery system provides remote power over standard multi-conductor cabling without dedicated conduit or separation. This simplifies installation of equipment, increases overall speed of deployment, and significantly reduces cost for deployment. The pulse power delivery system is further configured to transport power through a pulse current waveform.