surge protected power strip (this model is unlikely to incorporate an inductor-capacitor network, due to lack of internal physical space) Many power strips have built-in
surge protectors or
EMI/RFI filters: these are sometimes described as
surge suppressors or
electrical line conditioners. Some also provide surge suppression for phone lines,
TV cable coax, or network cable. Unprotected power strips are often mistakenly called "surge suppressors" or "surge protectors" even though they may have
no ability to suppress surges. Surge suppression is usually provided by one or more metal-oxide
varistors (MOVs), which are inexpensive two-terminal
semiconductors. These act as very high speed switches, momentarily limiting the peak
voltage across their terminals. By design, MOV surge limiters are selected to trigger at a voltage somewhat above the local mains supply voltage, so that they do not clip normal voltage peaks, but clip abnormal higher voltages. Mains electrical power circuits are generally
grounded (earthed), so there will be a live (hot) wire, a neutral wire, and a ground wire. Low-cost power strips often come with only one MOV mounted between the live and neutral wires. More complete (and desirable) power strips will have three MOVs, connected between each possible pair of wires. Since MOVs degrade somewhat each time they are triggered, power strips using them have a limited, and unpredictable, protective life. Some power strips have "protection status" lights which are designed to turn off if protective MOVs connected to the live wire have failed, but such simple circuits cannot detect all failure modes (such as failure of a MOV connected between neutral and ground). The surge-induced triggering of MOVs can cause damage to an upstream device, such as an
uninterruptible power supply (UPS), which typically sees an overload condition while the surge is being suppressed. Therefore, it is recommended not to connect a surge-protected power strip to a UPS, but instead to rely solely on surge protection provided by the UPS itself. More-elaborate power strips may use inductor-capacitor networks to achieve a similar effect of protecting equipment from high voltage spikes on the mains circuit. These more-expensive arrangements are much less prone to silent degradation than MOVs, and often have monitoring lights that indicate whether the protective circuitry is still connected. In the European Union, power strips with surge suppression circuits can demonstrate compliance with the (LVD) Low Voltage Directive 2006/95/EC by complying with the requirements of EN 61643-11:2002+A1. The standard covers both the performance of the surge suppression circuit and their safety. Likewise, power strips with telecoms surge suppression circuits can demonstrate compliance with the LVD by complying with the requirements of EN 61643-21:2001. Newer models include indicator LEDs or app-based alerts that notify users when surge protection is no longer functioning. In regions like Europe and the UK, surge protectors must comply with EN 61643-11:2012+A1:2017, while UL 1363–2022 applies in North America.
Daisy chaining and surge protection Connecting MOV-protected power strips in a "
daisy chain" (in a series, with each power strip plugged into a previous one in the chain) does not necessarily increase the protection they provide. Connecting them in this manner effectively connects their surge protection components in parallel, in theory spreading any potential surge across each surge protector. However, due to manufacturing variations between the MOVs, the surge energy will not be spread evenly, and will typically go through the one that triggers first. Daisy chaining of power strips (known in building and electric codes as multi-plug adapters or relocatable power taps), whether surge protected or not, is specifically against most codes. As an example, the
International Code Council's
International Fire Code 2009 Edition in 605.4.2 states, "Relocatable power taps shall be directly connected to permanently installed receptacles." == Overload Protection ==