Quick Start Guide

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

20 C Series Quick Start Guide 21

Constant voltage 70V and 100V systems setup

and operation

When using C Series ampliers to drive constant voltage (high-impedance)

speaker systems at 70Vrms or 100V peak, you can in most cases simply connect

the speakers to the amplier output terminals, select the correct VPL setting, and

place the amplier in service.

Output Current Peak Limiter (CPL)

The Current Peak Limiter (CPL) ensures that the amplier will not be damaged

by trying to deliver current to the outputs exceeding the physical limitations the

transistors. The CPL keeps the amplier within the Safe Operating Area. The CPL

is non-adjustable and has dierent limit values depending on model type. The

maximum output current values for the four C…X models are:

• C 88:4, 35.5Arms per channel

• C 68:4, 24.5Arms per channel

• C 48:4, 17.5Arms per channel

• C 28:4, 12Arms per channel

• C 16:4, 8.5Arms per channel

CPL activity is indicated by illumination of an orange LED for each channel on the

front-panel. Warnings also are shown in the DeviceControl software’s GUI.

A steadily illuminated orange CPL LED indicates a short circuit situation (or very

low impedance). The output will mute for 6seconds before measuring the output

impedance again. This will continue until the short circuit is xed, at which time

the output will automatically un-mute. An input signal must be present to allow

detection of short circuit or low impedance conditions.

TIP: If the CPL LED is steadily illuminated orange while the output is muted and

the -4dB signal LED is NOT on, then the amplier output is detecting a short

circuit or low impedance condition. The problem can be solved by checking input

and output cables and examining the state of the loudspeaker load. If there is no

short circuit present, then the condition may be rectied by lowering the VPL or

input levels.

If the CPL indicator is lit continuously, then the amplier is delivering excessive

current and is being forced into a current limiting state (output muted).

GPIO connection and operation

Introduction

The C Series ampliers incorporate a sophisticated and comprehensive set of

protection features. Faults and warnings are indicated on the front-panel and

reported via the NomadLink network for indication on the DeviceControl GUI.

Safe Operating Area Detector (SOAD)

The Safe Operating Area Detector (SOAD) compares output voltage against

output current to ensure that the output transistors are working inside their safe

operatingarea.

The SOAD provides fault monitoring and input to the Current Peak Limiter

(CPL). The SOAD has no dedicated indicator, and its operation is revealed only in

conjunction with features such as the CPL.

Very High Frequency protection

All C Series ampliers include protection circuits that detect continuous Very

High Frequency (VHF) content in the input signals. The detection begins at

approximately 10kHz and moves upwards to include ultrasonic signals. If VHF

signals are detected, the output will mute for 6seconds before re-measuring.

Once no continuing VHF signal is detected, the output un-mutes and returns to

normal operation.

This feature recognizes that continuous full-scale VHF signals do not appear in

“natural” sources such as music. Any such signals can therefore be considered as

a fault when present. VHF protection is essential for avoiding damage to high

frequency drivers.

The VHF protection operational area is dependent on output power level and

frequency. The illustration below shows a decreasing threshold on the output

power level, starting at approximately 10kHz and rising with a -6dB slope.

This denes the VHF protection area. When continuous output power above the

threshold line is detected the VHF protection becomes active.

20 Hz 10 kHz 20 kHz

30 kHz

20 Hz 10 kHz 20 kHz 30 kHz

-6 dB slope

VHF protection

operation area

Max. Peak

output power

Max. Continous

output power

Output

power

Attack time

VHF protection

Slow

Fast

The Attack time for the VHF protection is increasingly shorter at higher

frequencies. For example, an ultrasonic continuous signal will cause the outputs

to mute rapidly, where it will take several milliseconds for a 10kHz continuous

signal to trigger the output mute. This is shown in the illustration above.

The VHF protection is NOT a limiter and does not alter the amplier’s frequency

response. It is implemented solely to detect continuous VHF content.

The amplier will always pass VHF peaks at full power, with no eect on

musical“transients”.

The VHF protection is indicated by a yellow LED on the amplier front-panel,

with output muting for six seconds when in action. It is reported as a fault via the

NomadLink network on the DeviceControl GUI.

TIP: If you bench test the amplier using a continuous, full scale sine-wave input

above 10kHz, the VHF protection will activate and prevent measurement of full

peak output power. (Output will be muted long before maximum output power

is attained.) To measure the true peak output power, use a burst signal.

DC protection

DC protection is implemented on each output to prevent damage to connected

loudspeakers. DC present at the output will trigger muting and illuminate

the fault LED indicator. Any DC present at the output indicates a hardware

malfunction that requires servicing of the amplier.

High-impedance warning (open load)

A high-impedance (open load) condition is indicated when an input signal above

approximately -29dB is detected and no functioning loudspeakers are connected

to the amplier. The fault in indicated by a red Sig/Hi-imp LED. The indicator is

green when a valid load is present under the same input signal conditions.

NOTE: Since the high-impedance detection initially triggers only when the input

signal rises above -29dB, it might cause the indicator to rst turn green, and then

red, even in situations where no speaker is connected.

Low-impedance protection (short circuit)

A low-impedance or short-circuit fault is detected when current draw is high

(Current Peak Limiter active) and when, simultaneously, output signal is low

(-4dB LED does not illuminate). When this occurs, the amplier protects the

output stage from damage by muting the output signal and bypassing the

circuits. Indication of this fault is a constant orange illumination of the Current

Peak Limiter (CPL) LED on the front-panel. The protection will sequence at six

second intervals to re-measure conditions. If the low-impedance fault is no

longer detected, the amplier will un-mute.

NOTE: If the CPL turns constant orange, the output is muted, and the -4dB signal

LED is ON, then the amplier has gone into maximum current protection. This

situation is caused by an excessive input signal and is not due to a short circuit.

Turn down the input signal to avoid or remedy this situation.

Temperature protection

Thermal measurement points are provided on each output channel as well as

on the power supply. If these sensors detect temperatures above the specied

maximums, a high temperature warning will be indicated by a ashing Temp LED

on the front panel. The warning also will be transmitted to the Device Control GUI

via the NomadLink network.

As the amplier approaches a thermal protection threshold, the warning LED

sequence will start with short “on-time” bursts. If the amplier continues to

overheat and approaches the temperature limit, the ashing sequence will

be dened by longer and longer on-time bursts until the protection mode

isactivated.

If the temperature becomes too high to continue safe operation, the

overheated output channel(s) will be muted until the temperature returns to an

acceptablelevel.

Fully active temperature protection (with muting) is indicated by a constantly

illuminated Temp LED. It will also be indicated as a fault via the NomadLink

network on the DeviceControl GUI.

Temperature measurements will continue at six second intervals. The

output will un-mute when the channel or power supply returns to a safe

operatingtemperature.

Power Average Limiter (PAL)

The Power Average Limiter (PAL) controls the current-drawing relationship

between the power supply and the mains inlet. PAL limits the maximum average

power consumption according to the power supply capabilities, ensuring that the

PSU will not overload. In addition, in the larger models that potentially could pull

more current from the mains than the mains fuses are specied to handle (more

than 16 A), PAL limits the amplier’s maximum current draw to prevent blowing

the mainsfuse.

Soft-Start

High powered ampliers with inadequate inrush limiting can pull considerable

current from the mains at turn-on. This can result in fast acting mains breakers

tripping. Such is not the case with C Series ampliers in most circumstances.

The C Series ampliers have very low inrush power as the capacitors are charged

slowly, and in a controlled manner, ensuring that breakers will not trip.

Several ampliers will, under normal conditions, be able to be powered up

simultaneously. If you do experience problems powering up multiple ampliers

simultaneously (normally experienced only in very large installations), use the

NomadLink network and the NLB60E to establish a power sequence with pre-set

delays before the start-up of each subsequent amplier.

Front-panel monitoring

Level indicators

Four signal/level/clip LEDs per channel are contained on the C Series front panels

• Orange CPL (Current Peak Limiter) ashing indicates signal exceeds the limits

of the output devices and limiting is in eect.

• Red VPL/CLIP indicates that the signal has exceeded maximum output

voltage. (Maximum voltage is determined by rear-panel VPL settings.)

• Green - 4dB indicates output signal has reached this level.

• Green - 10dB indicates output signal has reached this level.

• Signal / Hi-Imp (Green/red) indicates an output signal above -44dB. If it

turns RED, this indicates that a high-impedance (“open” connection) has been

detected at the output. This can be a fault such as a disconnected cable or

malfunctioning loudspeaker driver. However, it could indicate acceptable high

impedance, such as a sub-bass enclosure with high impedance at a certain

frequency. When the -10dB signal LED is on AND the Hi-Imp LED turns red

then the amplier has detected an open load (no speaker is connected).

For more detailed signal level indications use the DeviceControl

softwareapplication.

Level adjust

Level adjust potentiometers (one per channel) are located behind the removable

dust-lter cover on the amplier’s front-panel. It is not possible to adjust the

level settings with the cover in place.

Step Attenuation Step Attenuation

1 (Min) -Inf. dB 12 -8.7dB

2 -Inf. dB 13 -7.4dB

3 -50dB 14 -6.0dB

4 -40dB 15 -4.5dB

5 -35dB 16 -2.7dB

6 -21.5dB 17 -0.6dB

7 -21.5dB 18 -0.3dB

8 -14.7dB 19 -0.1dB

9 -12.9dB 20 0dB

10 -11.4dB 21 (Max) 0dB

11 -10.0dB

Level adjust potentiometers (one per channel) are located behind the removable

dust-lter cover on the amplier’s front-panel. It is not possible to adjust the

level settings with the cover in place.

The potentiometer’s operational range is 0dB to -innity in 31steps. Attenuation

is logarithmic, with 12 o’clock position being -10dB. See table to the above

withincrements.