Quick Start Guide

ManualsBrandsLab Gruppen ManualsPower Amplifiers1600W 4-Channel Amplifier with NomadLink Network Monitoring and Dedicated Control for Install Applications

16 C Series Quick Start Guide 17

NomadLink / Ethernet networksetup

The amplier includes, as a standard feature, internal facilities for the NomadLink monitoring and control network. All features of the NomadLink network are

accessible via a PC running Lab Gruppen’s proprietary DeviceControl software. A single rackspace NLB 60E NomadLink Bridge & Network Controller accepts the TCP/IP

data stream from the computer and converts it to the NomadLink protocols. Even when no computer is connected, the NLB 60E can initiate stand-alone power on/o

and muting functions, as well as report any fault or warningconditions.

The PC is connected to the NLB 60E using a standard Ethernet interface and a crossed Cat-5 cable (peer-to-peer setup). If a hub or switch is in the network, standard

“straight” Cat-5 cables must be used. The front and rear Ethernet connections on the NLB 60E can be used individually, but only one PC at a time running DeviceControl

can access the subnet.

NOTE: Many newer laptop computers will allow peer-to-peer connection with the NLB 60E using a standard “straight” Cat-5 cable instead of a crossed cable.

The default xed TCP/IP address of the NLB 60E is 192.168.1.166. The subnet mask is 255.255.255.0. For further system conguration details, please refer to instructions

supplied with the NLB 60E unit.

The NomadLink connections between ampliers use standard “straight” Cat-5/RJ45 equipped cables.

NOTE: US National Dierences cl.16.3 requires that NomadLink network cables must be rated VW-1.

The OUT port from the NLB 60E must be connected to the IN port of the rst amplier. The OUT port from the rst amplier in turn connects to the next amplier’s IN

port to form a daisy-chain The OUT port on the last amplier is connected to the IN port on the NLB 60E to close the loop.

NOTE: There are performance limitations to cable lengths on a NomadLink network, both in terms of total cable length in the loop and between any two devices.

These limitations follow standard Ethernet cabling protocols. Read the Operation and Performance chapter in this manual, or the Operation Manual supplied with the

NLB 60E, to ensure the network is congured within theseconstraints.

TIP: Although the network will function as an open loop under most circumstances, it is strongly recommended that the loop be closed by connecting the last

amplier’s OUT port to the NLB 60E’s IN port. Doing so will improve redundancy and communication speed.

External contact closures and 24V low/high triggers can be connected to the GPI connectors on the NLB 60E for control of re-alarm systems or external power

sequencers. For more details read the instructions supplied with the NLB 60E.

(1)

(2)

Crossed RJ45 Ethernet cable between

NLB 60E and PC. If bridge is connected

to switch of HUB, use "straight" cable.

PC can also be connected on front panel.

"Straight" RJ45 cables between

bridge and ampliers

ETHERNET

GENERAL

PURPOSE

INPUT, GPI

NOMADLINK

IN OUT

NOMADLINK

IN OUT

NOMADLINK

IN OUT

Operation and performance

Introduction

The following sections provide comprehensive information on amplier connection, setup, operation, and performance. The detailed information included here is

essential to realizing the full functionality of the CSeriesampliers.

Operation precautions

• Make sure that the Power switch and the Remote switch on the amplier front-panel are set to “o” before making any input, output or network connections,

and also before manipulating the DIP-switches on the rear-panel.

• Make sure that the AC mains voltage is correct and matches the voltage printed on the rear-panel of the amplier (115V or 230V).

• Make sure that no signal is present at the input to the amplier when powering up. This could produce an unintentionally loud initial volume from the speakers.

Signal ow and headroom

Signal ow blocks

All C Series ampliers have the same signal ow and feature set. The only dierence is the amplier’s maximum output current per channel.

The input stage of all C Series ampliers has a high sensitivity to provide ample system headroom. This in eect means that the input stage is almost impossible to clip.

Overall amplier input gain is adjusted using the input stage DIP-switches. Please note that the gain setting is global, aecting all four channels. Following the input

stage, the dedicated level control on each channel allows signal attenuation from 0dB to minus innity.

The CPL (Current Peak Limiter) section dynamically limits the input signal based on three parameters: sensed current level, feedback from the output stage, and

sensed voltage clip from the VPL (and output amplier voltage clip if “Soft Clip” activated). This ensures that power output is maintained within the design limits of

the amplier.

The adjustable VPL (Voltage Peak Limiter) sets the maximum output voltage and therefore also the maximum output power. Eight (8) dierent voltage stages are

available using the DIP-switches on the rear-panel. See table in Appendix section with VPL ratings at typical loads.

The sophisticated output section monitors faults and generates appropriate warnings, which are displayed on the amplier front-panel and transmitted through the

NomadLink network. These alerts allow the operator to adjust system settings and thereby avoid problems. In the rare event that conditions are extraordinarily severe,

the amplier will shut down until the fault or problem setting has been rectied or adjusted. These sensing circuits are also employed to feed back voltage and current

level information, via a side chain, to the limiters. Sensing circuits also transmit local amplier module temperature and power supply temperature to the appropriate

protection mechanisms. Read the Protection, Faults and Warnings section for further details.

Headroom, sensitivity and VPL / Gain settings

The input amplier and limiter system is designed to accommodate extremes of performance. Typically, exceeding maximum input by much as +10dB will only result

in a 1% increase in distortion. The following schematics illustrate how the adjusable VPL and Gain circuitry aect input sensitivity and output power:

The tables to the left of the drawing below show input sensitivity for a C 68:4 with an 8ohm load and 141V peak (max.) and 42V peak (min.) respectively for the

eight dierent gain stages between +23dB and +44dB. The resulting output power is displayed in dBu, Vrms and Watts in the tables to the far right. Complete input

sensitivity tables for all VPL and Gain settings for as applicable to C Series models can be found at www.labgruppen.com.

The headroom available through the input stage to the clip limiter is shown by the dotted lines as +10dB at 141V peak and +20.4dB at 42V peak. These lines

illustrate the additional signal level that can be accepted at the input before any signicant distortion will appear at the input stage.

NOTE: If you use the level potentiometer in the signal chain to reduce the level by an amount greater than the headroom relative to input sensitivity, AND you drive the

amplier to clip level, you are in danger of clipping the input stage before the current or voltage peak limiters are activated.