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BA-en-3021-1912_R23ATR
• The high voltage cable is connected to the bar via a plug. Work on the
male connector must be carried out under offload conditions (see
ter 3.3.2 "Version with detachable cable connection”, page 16
• The high voltage cable must be pushed up to the stop (90 mm for
KNH34/KNH35 and 120 mm for KNH64/KNH65) into the cable inlet!
The connec-ting area of the high voltage cable must be kept clean (see
• The high voltage cable must be pushed up to the stop (150 mm) into
the cable inlet! The connecting area of the high voltage cable must be
kept clean (see
chapter 3.5 "Connecting the high voltage cable of the
charging bar to the high voltage generator POWER CHARGER PCSC”,
page 18
• Uncontrolled sparking on the charging bar must be avoided.
Reduce the high voltage or increase the distance from the substrate
(see
chapter 5 "Maintenance”, page 21
• When cleaning the bars do not soak the bars and the high voltage cable
in solvent and do not damage the emission tips; allow the solvent to
evaporate completely before restarting the unit. No continuous sparking
(electric arc) must be visible on the bar tips (see
• Check the units and the high voltage cables at regular intervals and
before startup for any damage. Any damaged components must be
repaired or replaced professionally before continuing to operate the
unit, or the units must be disabled.
• Do not touch the emission tips - risk of injury.
If the high voltage supply is connected, reflex responses to electrical
irritation can lead to secondary accidents; the charging bar as such is
safe to touch. If contact is made, the energy transferred is so low
(
≤
20 tips) that there is no risk of injury.
• Potential dangers for persons with cardiac pacemakers
The contact of several emission tips with the hand can trigger or sup-
press a single impulse. Such a single influence is irrelevant. A repeated
contact during a short period can be excluded because the electrical
irritation causes a warning effect. The charging bar as such is safe to
touch. If contact is made, the energy transferred is so low that there is
no risk of injury.
• The operation of the bars can generate ozone. The ozone concentra-
tion levels developing near the bars depend on many different factors
such as site of installation, bar current and voltage, air circulation, etc.,
and can therefore not be specified in general terms.
If the maximum allowable concentration of ozone must be observed at