If a surge (ie 20,000 amps) connects harmlessly low impedance to earth, well, an IEEE Standard defines that as 99.5% to 99.9% protection. Only then can a plug-in (ie series mode) protector do something useful - add maybe 0.2% additional protection.
Surges are defined by the independent variable: current; not by a dependent variable: volts. One must know that before making even subjective recommendations.
Series mode protection is for one type of surge. And literally connects a surge directly into attach appliance once it has absorbed it maximum energy - typically 600 joules. Series mode protectors are hyped without numbers (ie a near zero 600 joules). Also ignored: another wire connects a surge directly into electronics - bypassing a series mode protector that cannot do anything about it.
Electronics already have protection superior to tiny protection provided by a series mode protector. Even simple numbers (that are ignored to promote a tens or hundred times more expensive solution) make it obvious. Proven protection is defined by an answer to a simple question: where do hundreds of thousands of joules harmlessly dissipate.
How does its 600 joules absorb a surge that is hundreds of thousands of joules? Series mode protector promoted again by one who constantly ignores and never provides relevant numbers. Including current, joules and an IEEE number: 99.5% of the protection.
Series mode filters are for a completely different anomaly - noise.
Surges are defined by the independent variable: current; not by a dependent variable: volts. One must know that before making even subjective recommendations.
Series mode protection is for one type of surge. And literally connects a surge directly into attach appliance once it has absorbed it maximum energy - typically 600 joules. Series mode protectors are hyped without numbers (ie a near zero 600 joules). Also ignored: another wire connects a surge directly into electronics - bypassing a series mode protector that cannot do anything about it.
Electronics already have protection superior to tiny protection provided by a series mode protector. Even simple numbers (that are ignored to promote a tens or hundred times more expensive solution) make it obvious. Proven protection is defined by an answer to a simple question: where do hundreds of thousands of joules harmlessly dissipate.
How does its 600 joules absorb a surge that is hundreds of thousands of joules? Series mode protector promoted again by one who constantly ignores and never provides relevant numbers. Including current, joules and an IEEE number: 99.5% of the protection.
Series mode filters are for a completely different anomaly - noise.