Spektrum SPMAR12110 Benutzerhandbuch

EN

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Battery Voltage

NOTICE: D0 NOT use a 4-cell 4.8-volt battery to power the PowerSafe.

Four-cell 4.8-volt batteries do not provide enough voltage headroom (additional

margin needed) necessary to power the system when heavily loaded. Under load

the system voltage can drop below the voltage system’s minimum operating voltage

threshold (3.5 volts) and cause loss of control.
The PowerSafe is capable of handling voltages from 6.0 to 10.0 volts. The voltage

limitations are generally the servos. Most servos are compatible with 5-cell 6-volt

packs. Five-cell 6-volt NiMH packs have become the standard for many giant-scale

applications.

CAUTION: NiMH batteries have a tendency to false peak when being fast

charged. Be especially careful when using NiMH batteries that they are fully

charged and have not false peaked.

Many pilots are using 2-cell LiPo batteries to power their aircraft. LiPo’s offer

greater capacity for their size and weight, and are easier to manage when charging.

Before using LiPo batteries, please check the voltage specifications of your servos.

Use of a voltage regulator, such as the Spektrum VR6007 (SPMVR6007), might be

necessary.
NOTICE: When a battery is connected to the PowerSafe, a low current drain of less

than 1mA occurs even when the switch is turned off. If the system is going to be

stored for any length of time, it’s important that the battery(s) be disconnected from

the PowerSafe to prevent over discharge.

Installation

The PowerSafe requires a minimum of three remote receivers to operate, and

one receiver must be plugged into the A receiver port. Four remote receivers

are included and, in most cases, it is recommended that three or four receivers

be used. Each receiver functions independently and additional receivers (up to

four) offer a more secure RF link in difficult environments. The added security of

redundancy should a failure occur will outweigh the slight additional penalties of

cost and weight.