Operation Manual

5. Operation and performance

PLM+ SERIES Operation Manual rev 3.0.4

Desired power can be specied in several domains: burst and peak power; peak and RMS voltage; and also

the speaker’s AES power rating. By specifying the nominal impedance of the load, the RPM algorithms have all

input data required to calculate resulting RPM settings. If the desired RPM settings taken together allow total

output higher than the capabilities of the amplier, RPM will reduce actual RPM conguration evenly based on a

proportional reduction in dB. Once applied, the RPM functionality will ensure that the channel is not delivering more

power than specied. The ISVPL limiter algorithm performs the actual limitation. As default, the smaller models in

the range have an RPM conguration detailing an equal shared power allocation cross the channels at a voltage

(default voltage limitation) given in the specication sheet. To prevent the risk of over allocating the power supply

for varying or incorrect load impedances, RPM has a limitation for the smaller models in the range of the number of

channels that can be lifted above the default voltage limitation. RPM can be congured in two modes.

PLM+ Series - Amp channels power adjusted to match the loudspeaker requirements

3000 W

MIDSUB

LOW

HIGH

Figure 5.2: Amp channels power adjusted to match the loudspeaker requirements

Auto RPM: The frame will automatically allocate power per output channel according to the ISVPL settings in the

speaker preset (per module output) in Lake Controller. Auto RPM assumes a nominal impedance of the Load and

applies an approximate power allocation. Auto RPM is default for PLM+.

Custom RPM: The CAFÉ software allows users to create an advanced custom power allocation scheme.

Switching to Custom mode disables the Automatic mode. Additional information is available in documentation

supplied with the CAFÉ software download.

5. Operation and performance

PLM+ SERIES Operation Manual rev 3.0.4