A & E Specifications
Architects’ and Engineers’ Specification
PLM+
™
Series: Powered Loudspeaker Management
™
W W W . L A B G R U P P E N . C O M
Connectors, Network, and User Interfaces
Power Supply, Protection, and Cooling
The power supply shall be a universal regulated switch mode
type operating at voltages from 70 V to 265 V at line frequencies of
45 Hz to 66 Hz. Under-voltage limiting shall enable continued
operation with line sags as low as 65 V. A soft start circuit shall
limit current inrush at power-up to 8 A. A power average limiter
shall incorporate a software-control breaker emulation to prevent
tripping of mains fuses. The amplier shall be cooled by three
temperature-controlled, variable-speed fans, with air ow from front
to back
Physical
The unit shall be 483 mm (19 in.) wide, 88 mm (3.5 in / 2 U)
high, and 498 mm (19.6 in.) deep including handles and rear
support. The weight shall be 16.5 kg (36 lbs). The chassis housing
shall be black painted steel with a black painted steel and aluminum
front surround and handles. The unit shall be approved for use as
specied by CE, ANSI / UL 60065 (ETL), CSA C22.2 NO. 60065,
PSE, RCM, FCC and BIS India. The unit shall be the Lab.gruppen
PLM 12K44.
PLM 12K44
Overview and Functions
The unit shall comprise a four-in/four-out digital loudspeaker drive
processor
A d ditional capabilities and
facilities shall include load verication and real-time
performance monitoring; low-latency, Ethernet-based audio
networking; third-party control system compatibility using
custom middleware; control and monitoring of internal para-
meters from a remote computer; and optional software
integration of industry-standard acoustical measurement tools. All
control, monitoring and measurement facilities shall be remotely
accessible via a custom PC software interface supplied with the
unit. The included integrated software package also shall include a
custom amplier conguration interface and additional features to
expedite system design, specication and commissioning.
Digital Loudspeaker Processing
Power Amplier
Maximum total power output (all channels driven) shall be 12,000
W or 3,000 W per channel nominal at 4 ohms. The amplier
topology shall allow exibility in output power management, with the
capability to allocate total available power across output channels
as needed for the application. Any channel shall be capable of being
signicantly scaled up in order to distribute the output power, up to
5900 W into optimal impedance. Maximum peak output voltage shall
be 194 V and maximum output current shall be 67 A. When
adjacent channels are bridged, power output per channel shall be
8800 watts into 8 ohms, 9600 watts into 4 ohms and 10000 watts
into 4.4 to 6.6 ohms. The amplier shall incorporate power factor
correction (PFC) to reduce requirements on the mains distribution
system. Amplier
gain shall be digitally congurable from 22 dB to
44 dB. The unit shall exhibit the following performance parameters:
Frequency response shall be 20 Hz – 20 kHz ± 0.05 dB (1 W into
8 ohms). Dynamic range shall be >114 dB. Propagation delay shall
not exceed 1.61 ms for AES3 input (96 kHz) or 1.68 ms for analog
input. The unit shall incorporate a DSP-implemented zero overshoot
voltage peak limiter adjustable per channel for voltage threshold and
prole.
Load Verication and Circuit Protection
The unit’s DSP and on-board rmware, in conjunction with
supplied PC control software and loudspeaker database, shall
enable the unit to verify that loudspeaker loads are connected as
intended, and to identify defective drivers or faulty wiring. The
DSP and associated software also shall allow real-time monitoring
of critical performance parameters for both the power amplier
section and connected loudspeakers. Circuits and sensors shall be
provided for warning and protection against VHF (Very High
Frequencies), DC at output, over-temperature, open load, excessive
current, and voltage peak clipping.
Item no. AES-PLM12K44_V2 - 21.02.2018
The unit shall include four discrete modules of digital loudspeaker
processing. Audio inputs shall be analog with oating ground isolation,
AES3 digital, AES67 and dual redundant Dante Ethernet-based
network. Auto failover switching among inputs shall be user program-
mable. Facilities shall be provided for exible input mixing and routing.
DSP capabilities shall include raised cosine equalization, FIR, linear-
phase and classical crossovers, and peak and RMS limiters.
The rear panel shall provide inputs for analog signals on four XLR-F
connectors and for AES3 digital signals on two XLR-F connectors. In
addition, two etherCON
®
housed RJ45 Ethernet jacks shall be
provided for AES67 and Dante networked digital audio as well as
monitoring and control via remote PC. The unit shall be compatible
with use as part of a low-latency, self-conguring digital audio network
that supports sampling frequencies of 48 and 96 kHz. Output
connectors on the unit shall be either binding post or Neutrik
®
speakON
®
(2 x NLT4 and 1 x NLT8). The front panel user interface
shall include a high-brightness 2.5-inch LCD panel, a
moisture-resistant silicone touch pad, and a rotary encoder. The user
interface shall be menu-driven, with screen displays and soft-keys
accessing functions of the digital loudspeaker processor and the
power amplier. Dedicated keys shall be provided for Mute Enable,
Meter and Menu functions. Multicolor LEDs shall indicate presence of
any warning or fault conditions. The unit shall be supplied with a
custom software program for comprehensive monitoring of system
status and operating parameters, as well as control of DSP and
amplier functions. The software program shall be compatible with
use on a Tablet PC, and shall offer plug-in integration of proprietary
audio and acoustical measurement tools in the same user interface.