Overview
PLM 20000Q Powered Loudspeaker Management System
- The PLM 20000Q Powered Loudspeaker Management system
seamlessly integrates an extraordinarily powerful four-channel
amplifier platform with Lake® Processing, Dante networked signal
distribution, accurate load verification and real-time performance
monitoring. Engineered as a unified system, the PLM 20000Q affords
significant advantages – in sonic performance, user functionality,
inventory utilization, and long-term cost savings – when compared to conventional approaches using separate components
Power Amplifier
- The power amplifier platform of the PLM 20000Q integrates
several new developments to maintain reliable, sustained output at
unprecedented power levels. The Regulated Switch Mode Power Supply (R.SMPS) is
a new universal design that connects to any mains supply in the world.
(Operating range is 100 V - 265 V, but new Under Voltage Limiting extends
operation down to 65 V with reduced output power.) The design also incorporates
power factor correction (PFC) to reduce peak current draw from the mains.
Load Verification and Continuous Performance Monitoring
- The PLM 20000Q includes a revolutionary set of tools for
accurate load verification and real-time performance monitoring. The key to
both features is LoadLibrary, a comprehensive database that provides unique
“Fingerprints” (load characteristics) for each loudspeaker model in the system.
Lake Processing
- The PLM 20000Q contains two Lake Processing modules, each
offering precise settings for gain, delay, crossover slope, equalization, and
limiting. Exclusive Lake Processing algorithms are included for Raised Cosine
Equalization, linear phase crossovers, LimiterMax loudspeaker protection, and
Iso-Float ground isolation. Raised Cosine Equalization is the foundation for
the Lake Mesa EQ and the Ideal Graphic EQ. Mesa EQ offers asymmetric filtering
to match the asymmetric responses of many loudspeaker systems; the Ideal
Graphic EQ offers true sum-to-flat response, so the adjustments provide uniform
boost and cut along with greater selectivity.
Lake Controller Software
- Lake Controller software provides a unified interface for
control and monitoring of all functions of the PLM 20000Q. In addition to
controlling all parameters of standard Lake Processing, new versions also
provide control and monitoring of exclusive PLM features: digital input gain
and attenuation, and load verification and performance monitoring via LoadSmart
and SpeakerSafe. The Lake Controller software is optimized for a wireless
Tablet PC. The same Lake Controller interface can be used to operate Dolby Lake
Processors, Lake Contour, and Lake Mesa Quad EQ processors as part of a unified
system.
Dante Digital Audio Network
- PLM Series Powered Loudspeaker Management systems are
equipped with Dante, a self-configuring digital audio networking solution from
Audinate® of Australia. Based on the newest developments in networking
technology, Dante provides reliable, sampleaccurate audio distribution over
Ethernet with extremely low latency. Dante incorporates Zen™, an automatic
device discovery and system configuration protocol which enables PLM Series
products and other Dante-enabled products to find each other on the network and
configure themselves.
Features:
- 5000 W per channel @ 2.2 – 3.3 ohms
- 4400 W per channel @ 4 ohms
- 2U chassis weighing only 17 kg (37 lbs)
- Class TD® output stage
- Universal (70 - 265 V) Regulated Switch Mode Power Supply
(R.SMPS™) works anywhere in the world
- Power factor correction (PFC) helps maintain full output
during extended power bursts
- Copper-finned Intercooler® with transverse-mounted output
devices
- Comprehensive loudspeaker preset database
- LoadSmart™ load verification and SpeakerSafe™ continuous
loudspeaker performance monitoring
- Dante™ low-latency digital network included as standard
- Compatible with Lake LM 26, Dolby® Lake Processor and other
legacy Lake devices
- Primary and secondary network connections
- Digitally controlled “amplifier gain” adjustable in 0.1 dB
steps
- Digital output attenuation in 0.25 dB steps from -inf to 0
dB
- Binding post or Neutrik® speakON® output connectors
- Digitally implemented, zero-overshoot Inter-Sample Voltage
Peak Limiting (ISVPL™) adjustable in 0.1 V steps from 17.8 to 194 V
- Power Average Limiter (PAL) with software-controlled Breaker
Emulation Limiter (BEL™) prevents mains fuse tripping
- Under-Voltage Limiting (UVL™) enables continued operation
with mains voltage sags as low as 65 V
- High-brightness front-panel LCD display
- Moisture resistant silicone touchpad
Lake Processing Technology
- Raised Cosine Equalization™
- Linear phase and classical crossovers
- LimiterMax™ – peak and RMS limiters
- Iso-Float™ ground isolation
- Super Module capability
- Integration of third party frequency measurement and analysis system via the Lake Analyzer Bridge
- Analog and AES digital inputs with loop-thru outputs
- Auto-select input router for all inputs with user definable priorities
The PLM 20000Q is available with either binding posts or an
“embedded patch panel” with Neutrik speakON connectors (2 x NLT4 and 1 x NLT8). Common connectors include; 2 x analog input XLR
with switchable Iso-Float, 2 channels of AES/EBU with link-through capability for daisy chaining, 2 x etherCON® for linking or redundancy.
A 32 amp powerCON® connector is used for mains supply
Front Panel Features:
The front panel is the “local control center” for the PLM 10000Q. An intuitive, menu driven interface allows quick access to key functions using the moisture resistant silicone touchpad. Information is clearly displayed on the daylight-readable, 2.5-inch LCD panel. The soft-button keypad and precision rotary encoder provide control of processing and amplification functions, with key lock available.
- 1.) Standby power toggles the frame between Standby and On modes
- 2.) Eight "soft "buttons allow sub-branches and parameters (shown in the display ) in the menu system to be selected when in Menu Mode
- 3.) Module "ME" Buttons. In meter mode these two multifunction selection and indication buttons access processing modules A and B respectively.
- 4.) In meter mode these four "soft " multifunction selection and indication buttons identify, monitor and control output channels. Order is dependent on module routing
- 5.) ID LED indicates communication between the modules in the PLM and the Lake Controller Software
- 6.) Rotary encoder is used to edit parameters in the menu system. The ring around the encoder lights up when the encoder has functionality
- 7.) Exit Button provides escape functions in both Menu and meter view navigation
- 8.) Display . High brightness monochrome 128x128 pixels
- 9.) Menu accesses Frame control utilizing a menu-driven navigation interface. The buttons around the display and the exit button are used for control and selection options in the menu
- 10.) Meter toggles through Home,Module and Temperature Meter views
- 11.) Mute Enable allows module inputs and output channels to be muted. Flashes when mute enabled . Can be disengaged manually.
Rear Panel Features:
Specifications:
General
- Number of input channels..................................2
- Number of output channels................................4
- Peak total output all channels driven............. 20000 W
- Peak output voltage per channel.....................194 V
- Max output current per channel....................... 67 A peak
Max output power all channels driven
- 16 ohms.....................1150
W
- 8 ohms....................... 2300 W
- 4 ohms 1......................4400
W
- 2 ohms 1 .....................4800
W
- All channels driven into optimal impedance interval.............. >5000 W into 2.2 - 3.3 ohms
Max output power bridged
- 8 ohms................... 8800 W
- 4 ohms .....................9600 W
- Bridged into optimal impedance interval..............>10000 W into 4.4 – 6.6 ohms
Performance
- THD + N 20 Hz - 20 kHz for 1 W ................................................ < 0.05 %
- THD + N at 1 kHz and 1 dB below clipping .....................................< 0.04 %
- Dynamic range with digital inputs (for all supported sample
rates) ........ >114 dB
- Dynamic range with analog inputs......................................................>110 dB
- Frequency response (1 W into 8 Ohm, 20 Hz - 20kHz).......................+/- 0.05 dB
- Common Mode Rejection (CMR)................................................... >74
dB, 20 Hz to 20 kHz
- Internal Sample Rate / Data path....................................................96 kHz / 32 bit floating point
- Product propagation delay (straight path analog server input
-> amp).........1.61 ms
- Product propagation delay AES 96 kHz / analog input.............................. 1.68 ms
Sample Rate Converters
- THD + Noise ................................0.00003
%, 20 Hz - 20 kHz, unweighted
Analog to Digital inputs
- Inputs.......................................2 inputs x 2
link
- Input sensitivity settings............ +12
or +26 dBu
- THD + Noise.............................. 0.00022
%, typical at 1 kHz unweighted at +26 dBu headroom setting
- THD + Noise .............................. 0.00033
%, typical at 20 Hz and 20 kHz unweighted at +26 dBu headroom setting
Gain, Sensitivity and Limiters
- Adjustable Inter-Sample Voltage Peak Limiter (ISVPL) ............17.8 - 194 V, step size 0.1 V
- Current Peak Limiter < 300 ms............................ 67 A peak
- Current Average Limiter (CAL) > 300 ms....................33 Arms
- MaxRMS (rms voltage limiter)...................... Yes
- MaxPeak (peak voltage limiter)......................... Yes
- Output attenuator ......................................-Inf
to 0 dB, step size 0.25 dB
AES3/EBU (sample rate converters available as desired)
- Support redundant paths................... Yes
- Flexible topology ............................. yes
- Network latency ........................... 0.8,
1.3 and 4 ms
Back panel Interface
- AES / EBU / I/O (input + link) ........................... 2 x 3-pin XLR
- Analog, 2-channel I/O (input + link)....................4 x 3-pin XLR, electronically balanced
- Output connectors.............................. Neutrik
speakON (1 x NLT8, 2 x NLT4) or 4 Binding Posts (pairs)
- Auto 10/100, Auto Uplink........................2
x RJ45 etherCON
- Control and monitoring interface..................Via Ethernet for Lake Controller software, or DLM (the
3rd party protocol)
- Detachable mains cord..............................Neutrik
PowerCon rated at 250V/32A
- Cooling.......................................... Three fans,
front-rear airflow, temperature controlled speed
Device presets
- Local memory locations for the settings of the product ............... 100
Front-panel user interface
- Display .............................................. 2.5 inch,
daylight readable LCD
- Fault/Warning/Limit/Clip indicators............ RGB LEDs and detailed fault description on display
- Mute and soft function buttons ................ 8 provided
- Standby Power button ................... On/Standby
- Meter button................................Toggles
through meter views
- Menu........................................... Provides a menu
driven interface for full function front panel control
- Rotary Encoder ............................Yes
- Exit Button....................................Provides
a “back” function
Power
- Operating voltage................................70-265
V AC
- Soft start / Inrush power ...................... Yes/
Max 8 A
- Power Average Limiter (PAL)................ Yes
- Power Factor Correction (PFC)....................Yes
- Breaker Emulation Limiter (BEL) ...................Yes, selectable breaker profile
- Under Voltage Limiter (UVL).......................... Yes
Dimensions
- Rack rail to rear panel..................... W:
483 mm (19"), H: 88 mm (2 U), D: 424 mm (16")
Weight
- Weight...................... 17 kg (37 lbs)
Finish
- Finish........................ Black painted
steel chassis with black painted steel / aluminum front
Approvals
- Approvals....................CE,
ANSI/UL 60065 (ETL), CSA C22.2 NO. 60065, FCC
NOTES
1: Asymmetrical loading of the outputs will yield even
higher ratings. If one (or two) channel(s) has reduced power requirements, then
the voltage drop from the power supply will be reduced, resulting in higher
power availability for the other channel(s).