Pag e 9 – Australian Monitor IS600 User Manual

PAG E 9

O P E R AT I O N

H U M P R O B L E M S

Most equipment is designed for minimum hum when used under ideal

conditions. When connected to other equipment and to a safety earth

in an electrically noisy environment, problems may occur. The three

"E"s of hum and hum related noise which can plague your audio

system are:

a) Electrostatic radiation,

b) Electromagnetic radiation, and

c) Earth loops

Electrostatic radiation capacitively couples to system elements,

causing an interference voltage that mainly affects higher impedance

paths, such as amplifier inputs. The source is generally a nearby high

voltage, such as a mains lead or a speaker lead. The problem can

usually be reduced by moving the offending lead away, or by providing

additional electrostatic shielding (i.e. an earthed conductor which

forms a barrier to the field).

Electromagnetic radiation induces interference currents into system

elements that mainly effect lower impedance paths. Radio transmitters

or stray magnetic fields from mains transformers are often the cause of

this problem. It is generally more difficult to eliminate this kind of

interference, but again, moving the source away or providing a

magnetic shield (i.e. a steel shield) should help.

Earth loops can arise from the connection of the various pieces of

equipment and their connections to various safety earths. This is by far

the most common cause of hum and it occurs when source equipment

and the amplifier are plugged into different points along the safety

earth where the safety earth wiring has a current flowing through it.

The current flowing through the wire produces a voltage drop due to

the wire’s resistance. This voltage difference between the amp earth

and source equipment earth appears to the amplifier’s input as a signal

and is amplified as hum.

There are three things you can do to avoid earth loop problems:

1. Ensure the mains power for the audio system is "quiet" i.e.

without equipment on it such as air-conditioning, refrigeration

or lighting which may generate noise in the earth circuit.

2. Ensure all equipment within the system shares a common

ground/ safety earth point. This will reduce the possibility of

circulating earth currents, as the equipment will be referenced

to the same ground potential.

3. Ensure that balanced signal leads connecting to the amplifier

are connected to earth at one end only.

S I G N A L G R O U N D - L I F T S W I T C H

When proper system hook-up has been made, you may still have some

hum or hum related noise. This may be due to any of the previously

mentioned gremlins. Your IS Series amplifier has a "Signal Ground Lift"

switch which disconnects the input ground wiring from the amplifier. A

substantial drop in hum and/or hum related noise can result from the

judicious use of this switch.

NOTE: If the input ground lift switch is used, you must

ensure adequate shielding of the input wiring. If the

signal source equipment does not provide adequate

shielding (i.e. a definitive connection to ground), you

must disconnect the shield from the input connector s

ground pin (Pin-1) and re-connect it to the "drain"

contact on the input connector. This will ensure the

shield on your input wiring actually goes to the

amplifier chassis and subsequently to earth.

DO NOT CONNECT PIN-1 DIRECTLY TO THE DRAIN

CONNECTION.

You will defeat the amplifiers internal grounding scheme and possibly

cause instability in the amplifier. Always ensure that your amplifier is

off and the attenuators are down when you engage this switch. This

switch should only be used when the amplifier is operated from a

balanced signal source.

NOTE: Be wary of quasi-balanced outputs, these are

often no more than floating unbalanced outputs.

I S S E R I E S I N S TA L L AT I O N & O P E R AT I O N M A N UA L