Studer Compact InfinityCore 300, Compact InfinityCore 600 Operating Instructions Manual

Studer Compact Infinity Core

(For Vista 5, Vista V and Vista X Systems)

Operating Instructions

Disclaimer

The information in this document has been carefully checked and is believed to be accurate at the time of publica­tion. However, no responsibility is taken by us for inaccuracies, errors, or omissions, nor is any liability assumed for

any loss or damage resulting either directly or indirectly from use of the information contained within it.

Prepared and edited by Copyright by Studer Professional Audio GmbH
Studer Professional Audio GmbH
Technical Documentation
Riedthofstrasse 214
CH-8105 Regensdorf - Switzerland

Order no. 5057249

http://www.studer.ch Subject to change

Studer is a registered trade mark of Studer Professional Audio GmbH, Regensdorf

Safety Information

I

For Your Own Safety and to Avoid Invalidation of the Warranty
Please Read This Section Carefully

• Read these instructions.

• Keep these instructions.

• Heed all warnings.

• Follow all instructions.

• Do not use this apparatus near water.

• Clean only with a dry cloth.

• Do not block any ventilation openings. Install in accordance with the
manufacturer's instructions.

• Do not install near any heat sources such as radiators, heat registers,
stoves, or other apparatus (including amplifiers) that produce heat.

• Do not defeat the safety purpose of a polarised or grounding type plug. A
polarised plug has two blades with one wider than the other. A grounding
type plug has two blades and a third grounding prong. The wide blade or
the third prong are provided for your safety. If the provided plug does not
fit into your outlet, consult an electrician for replacement of the obsolete
outlet

• Protect the power cord from being walked on or pinched particularly
at plugs, convenience receptacles and the point where they exit from the
apparatus.

• Only use attachments/accessories specified by the manufacturer.

• Use only with the cart, stand, tripod, bracket or table specified by the
manufacturer, or sold with the apparatus. When a cart is used, use cau­tion when moving the cart/apparatus combination to avoid injury from
tip-over.

• Refer all servicing to qualified service personnel. Servicing is required
when the apparatus has been damaged in any way, such as the power
supply cord or plug is damaged, liquid has been spilled or objects fallen
into the apparatus, the apparatus has been exposed to rain or moisture,
does not operate normally, or has been dropped.

Note: It is recommended that all maintenance and service on the product

should be carried out by Studer or its authorised agents. Studer cannot
accept any liability whatsoever for any loss or damage caused by service,
maintenance or repair by unauthorised personnel.

WARNING: To reduce the risk of fire or electric shock, do not expose this apparatus

to rain or moisture. Do not expose the apparatus to dripping or splashing
and do not place objects filled with liquids, such as vases, on the appara­tus.

• No naked flame sources, such as lighted candles, should be placed on the
apparatus.

• Ventilation should not be impeded by covering the ventilation openings
with items such as newspapers, table cloths, curtains etc.

WARNING: Do not use this apparatus in very dusty atmospheres, or in atmospheres

containing flammable gases or chemicals.

• THIS APPARATUS MUST BE EARTHED. Under no circumstances
should the safety earth be disconnected from the mains lead.

• The mains supply disconnect device is the mains plug. It must remain
accessible so as to be readily operable when the apparatus is in use.

• If any part of the mains cord set is damaged, the complete cord set should
be replaced. The following information is for reference only. The wires
in the mains lead are coloured in accordance with the following code:

Safety Information

Ensure that these colour codes are followed carefully in the event of the
plug being changed

Lithium Battery

!

!

Working Safely With Sound

Permissible Noise Exposure:

Duration per day [h] Sound level [dBA, slow response]

8 90
6 92
4 95
3 97
2 100

!

1.5 102
1 105

0.5 110

<0.25 115

II

• Protective Earth (Ground): Green/Yellow (US: Green or Green/
Yellow)

• Neutral: Blue (US: White)

• Live (Hot): Brown (US: Black)

As the colours of the wires in the mains lead may not correspond with
the coloured markings identifying the terminals in your plug, proceed
as follows:

• The wire which is coloured Green and Yellow must be connected to
the terminal in the plug which is marked with the letter E or by the
earth symbol.

• The wire which is coloured Blue must be connected to the terminal in
the plug which is marked with the letterN.

• The wire which is coloured Brown must be connected to the terminal
in the plug which is marked with the letter L.

• This unit is capable of operating over a range of mains voltages, as
marked on the rear panel.

Installed lithium batteries must be replaced by the same or an equivalent
type. Danger of explosion if batteries are incorrectly replaced or when
terminals are shorted.

Installed lithium batteries must not be exposed to excessive heat such as
direct sunshine, fire or thelike.

Note: This equipment has been tested and found to comply with the limits for a

Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference when
the equipment is operated in a commercial environment. This equipment gen­erates, uses and can radiate radio frequency energy and, if not installed and
used in accordance with the instruction manual, may cause harmful interfer­ence to radio communications. Operation of this equipment in a residential
area is likely to cause harmful interference in which case the user will be
required to correct the interference at his own expense.

This Class A digital apparatus meets the requirements of the Canadian
Interference-Causing Equipment Regulations.

Cet appareil numérique de la Classe A respecte toutes les exigences du Règle­ment sur le matériel brouilleur du Canada.

Although your new console will not make any noise until you feed it signals,
it has the capability to produce sounds that, when monitored through a moni­tor system or headphones, can damage hearing over time.The table below is
taken from the Occupational Safety & Health Administration directive on
occupational noise exposure (1926.52):

Safety Information

III

Conforming to this directive will minimise the risk of hearing damage caused
by long listening periods. A simple rule to follow is: The longer you listen, the
lower the average volume should be. Please take care when working with your
audio system – if you are manipulating controls which you don’t understand
(which we all do when we are learning), make sure your monitoring level is
turned down. Remember that your ears are the most important tool of your

trade. Look after them, and they will look after you. Most importantly: Don’t
be afraid to experiment to find out how each parameter affects the sound;
this will extend your creativity and help you to get the best results.

A1 Safety Symbol Guide

For your own safety and to avoid invalidation of the warranty, all text marked
with these symbols should be read carefully.

To reduce the risk of electric shock, do not remove covers. No user-serviceable
parts inside. Refer servicing to qualified service personnel (i.e., persons
having appropriate technical training and experience necessary to be aware
of hazards to which they are exposed in performing a repair action, and of
measures to minimize the danger of themselves).

The lightning flash with arrowhead symbol is intended to alert the user to the
presence of un-insulated “dangerous voltage” within the product’s enclosure
that may be of sufficient magnitude to constitute a risk of electric shock to
persons.

The exclamation point within an equilateral triangle is intended to alert the
user to the presence of important operating and maintenance (servicing)
instructions in the literature accompanying the appliance.

Headphones safety warnings contain important information and useful tips
on headphone outputs and monitoring levels.

Assemblies or sub-assemblies of this product can contain opto-electronic
devices. As long as these devices comply with Class I of laser or LED prod­ucts according to EN 60825-1:1994, they will not be expressly marked on
the product. If a special design should be covered by a higher class of this
standard, the device concerned will be marked directly on the assembly or
sub-assembly in accordance with the above standard.

A2 First Aid

In Case of Electric Shock: Separate the person as quickly as possible from the electric power source:

• By switching the equipment off,

• By unplugging or disconnecting the mains cable, or

• By pushing the person away from the power source, using dry insulating
material (such as wood or plastic).

• After having suffered an electric shock, always consult a doctor.

Warning! Do not touch the person or his clothing before the power is turned off,

otherwise you stand the risk of suffering an electric shock as well!

If the Person is Unco

nscious: • Lay the person down

• Turn him to one side

• Check the pulse

• Reanimate the person if respiration is poor

• Call for a doctor immediately.

!

!

CAUTION

RISK OF ELECTRIC SHOCK

DO NOT OPEN

ATTENTION

RISQUE DE CHOC ELECTRIQUE

NE PAS OUVRIR

ACHTUNG

GEFAHR: ELEKTRISCHER SCHLAG

NICHT ÖFFNEN

IV

Installation / EMC

B General Installation Instructions

Please consider besides these genera l ins truct ions al so any product-specific
instructions in the “Installation” chapter of this manual.

B1 Unpacking

Check the equipment for any transport damage. If the unit is mechanically
damaged, if liquids have been spilled or if objects have fallen into the unit,
it must not be connected to the AC power outlet, or it must be immediately
disconnected by unplugging the power cable. Repair must only be performed
by trained personnel in accordance with the applicable regulations.

B2 Installation Site

Install the unit in a place where the following conditions are met:

• The temperature and the relative humidity of the environment must be

within the specified limits during operation of the unit. Relevant values
are the ones at the air inlets of the unit (refer to Appendix 1).

• Condensation must be avoided. If the unit is installed in a location with

large variation of ambient temperature (e.g. in an OB-van), appropriate
precautions must be taken before and after operation (refer to Appendix

1).

• Unobstructed air flow is essential for proper operation. Air vents of the

unit are a functional part of the design and must not be blocked in any
way during operation (e.g. by objects placed upon them, placement of the
unit on a soft surface, or installation of the unit within a rack or piece of
furniture).

• The unit must not be heated up by external sources of heat radiation (sun-

light, spotlights).

B3 Earthing and Power Supply

Earthing of units with mains supply (class I equipment) is performed via
the protective earth (PE) conductor integrated in the mains cable. Units with
battery operation (< 60 V, class III equipment) must be earthed separately.
Earthing the unit is one of the measures for protection against electrical shock
hazard (dangerous body currents). Hazardous voltage may not only be caused
by a defective power supply insulation, but may also be introduced by the
connected audio or control cables.
If the unit is installed with one or several external connections, its earthing
must be provided during oper at io n as w el l as w hil e th e u nit is n ot op e rat ed.
If the earthing connection can be interrupted, for example, by unplugging
the mains plug of an external power supply unit, an additional, permanent
earthing connection must be installed using the provided earth terminal.
Avoid ground loops (hum loops) by keeping the loop surface as small as
possible (by consequently guiding the earth conductors in a narrow, parallel
way), and reduce the noise current flowing through the loop by inserting an
additional impedance (common-mode choke).

V

Installation

Class I Equipment (Mains Operation)

Should the equipment be delivered withou t a matching mains cable, the la tter
has to be prepared by a trained person using the attached femal e plug (IEC
320 / C13 or IEC 320 / C19) with respect to the applicable regulations in
your country.
Before connecting the equipment to the AC power outlet, check that the local
line voltage matches the equipment rating (voltage, frequency) within the
admissible tolerance. The equipment fuses must be rated in accordance with
the specifications on the equipment.
Equipment supplied with a 3-pole appliance inlet (protection conforming to
class I equipment) must be connected to a 3-pole AC power outlet in such a
way that the equipment cabinet is connected to the protective earth.
For information on mains cable strain relief, please refer to Appendix 2.

Female Plugs (IEC320), Front-Side View:

L N

L N

PE

PE

IEC 320 / C13 IEC 320 / C19

European Standard

(CENELEC)

North American Standard

(NAS)

Brown

L (Live)

Black

Blue

N (Neutral)

White

Green/Yellow

PE (Protective Earth)

Green (or Green/Yellow)

Class III Equipment (Battery Opera ti on up to 60 VDC )

Equipment of this protection class must be earthed using the provided earth
terminal if one or more external signals are connected to the unit (see expla­nation at the beginning of this paragraph).

B4 Electromagnetic Compatibility (EMC)

The unit conforms to the protection requirements relevant to electromagnetic
phenomena that are listed in guidelines 89/336/EC and FCC, part 15.

• The electromagnetic interference generated by the unit is limited in such
a way that other equipment and systems can be operated normally.

• The unit is adequately protected against electromagnetic interference so
that it can operate properly.

The unit has been tested and conforms to the EMC standards of the speci­fied electromagnetic e nvironm ent, as listed in the follo wing decla ration. The
limits of these standards ensure protection of the environment and cor­responding noise immunity of the equipment with appropriate probability.
However, a professional installation and integration within the system are
imperative prerequisites for operation without EMC problems.
For this purpose, the following measures must be followed:

• Install the equipment in accordance with the operating instructions. Use
the supplied accessories.

• In the system and in the vicinity where the equipment is installed, use only
components (systems, equipment) that also fulfill the EMC standards for
the given environment.

VI

ESD / Repair

• Use a system grounding concept that satisfies the safety requirements

(class I equipment must be connected with a protective ground conduc­tor) and that also takes into consideration the EMC requirements. When
deciding between radial, surface, or combined grounding, the advantages
and disadvantages should be carefully evaluated in each case.

• Use shielded cables where shielding is specified. The connection of the

shield to the corresponding connector terminal or housing should have a
large surface and be corrosion-proof. Please note that a cable shield con­nected only single-ended can act as a transmi tting or receiving antenna
within the corresponding frequency range.

• Avoid ground loops or reduce their adverse effects by keeping the loop

surface as small as possible, and reduce the noise current flowing through
the loop by inserting an additional impedance (e.g. common-mode choke).

• Reduce electrostatic discharge (ESD) of persons by installing an appropri-

ate floor covering (e.g. a carpet with permanent electrostatic filaments) and
by keeping the relative humidity above 30%. Further measures (e.g. con­ducting floor) are usually unnecessary and only effective if used together
with corresponding personal equipment.

• When using equipment with touch-sensitive operator controls, please take

care that the surrounding building structure allows for sufficient capacitive

coupling of the operator. This coupling can be improved by an additional,
conducting surface in the operator’s area, connected to the equipment
housing (e.g. metal foil underneath the floor covering, carpet with conduc­tive backing).

C Maintenance

All air vents and openings for operating elements (faders, rotary knobs) must
be checked on a regular basis, and cleaned in case of dust accumulation. For
cleaning, a soft paint-brush or a vacuum cleaner is recommended.
Cleaning the surfaces of the unit is performed with a soft, dry cloth or a soft
brush.
Persistent contamination can be treated with a cloth that is slightly humidified
with a mild cleaning solution, such as dishwashing detergent.
For cleaning display windows, commercially available computer/TV screen
cleaners are suited. Use only a slightly damp (never wet) cloth.
Never use any solvents for cleaning the exterior of the unit! Liquids must
nev

er be sprayed or poured on directly!
For equipment-specific maintenance information please refer to the corre­sponding chapter in the operating and service manuals.

D Electrostatic Discharge during Maintenance and Repair

Caution: Observe the precautions for handling devices sensitive to electrostatic

discharge!

Many semiconductor components are sensitive to electrostatic discharge
(ESD). The lifespan of assemblies containing such components can be dras­tically reduced by improper handling during maintenance and repair. Please
observe the following rules when handling ESD sensitive components:

• ESD sensitive components should only be stored and transported in the

packing material specifically provided for this purpose.

VII

EMC / Maintenance / ESD

• When performing a repair by replacing complete assemblies, the removed
assembly must be sent back to the supplier in the same packing material
in which the replacement assembly was shipped. If this should not be the
case, any claim for a possible refund will be null and void.

• Unpacked ESD sensitive components should only be handled in ESD
protected areas (EPA, e.g. area for field service, repair or service bench)
and only be touched by persons wearing a wristlet connected to the
ground potential of the repair or service bench by a series resistor. The
equipment to be repaired or serviced as well as all tools and electrically
semi-conducting work, storage, and floor mats should also be connected
to this ground potential.

• The terminals of ESD sensitive components must not come in uncontrolled
contact with electrostatically chargeable or metallic surfaces (voltage
puncture, discharge shock hazard).

• To prevent the components from undefined transient stress and possible
damage due to inadmissible voltages or compensation currents, electrical
connections should only be established or separated when the equipment
is switched off and after any capacitor charges have decayed.

E Repair

By removing housing parts or shields, energized parts may be exposed. For
this reason the following precautions must be observed:

• Maintenance may only be performed by trained personnel in accordance
with the applicable regulations.

• The equipment must be switched off and disconnected from the AC power
outlet before any housing parts are removed.

• Even if the equipment is disconnected from the power outlet, parts with
hazardous charges (e.g. capacitors, picture tubes) must not be touched until
they have been properly discharged. Do not touch hot components (power
semiconductors, heat sinks, etc.) before they have cooled off.

• If maintenance is performed on a unit that is opened while being switched
on, no un-insulated circuit components and metallic semiconductor hous­ings must be touched, neither with bare hands nor with un-insulated tools.

Certain components pose additional hazards:

• Explosion hazard from lithium batteries, electrolytic capacitors and power
semiconductors (Observe the component’s polarity. Do not short battery
terminals. Replace batteries only by the same type).

• Implosion hazard from evacuated display units.

• Radiation hazard from laser units (non-ionizing), picture tubes (ionizing).

• Caustic effect of display units (LCD) and components containing liquid
electrolyte.

Such components should only be handled by trained personnel who are prop­erly protected (e.g. protection glasses, gloves).

Repair / Disposal

VIII

E1 SMD Components

Studer has no commercially available SMD components in stock for service
purposes. For repair, the corresponding devices have to be purchased locally.
The specifications of special components can be found in the service manual.
SMD components should only be replaced by skilled specialists using appro­priate tools. No warranty claims will be accepted for circuit boards that have
been damaged. Proper and improper SMD soldering joints are illustrated
below.

Copper

Track

SMD

Component

Adhesive

Solder

PCB

Soldering Iron

Dismounting

Desoldering

Iron

Soldering

Iron

Desolder

Wick

Desolder

Wick

Heat and Remove

Cleaning

F Disposal

Mounting
Examples

Solder
Ø 0.5...0.8 mm

Heating Time < 3 s per Side

1

Packing Materials The packing materials have been selected with environmental and disposal

issues in mind. All packing material can be recycled. Recycling packing saves
raw materials and reduces the volume of waste.
If you need to dispose of the transport packing materials, please try to use
recyclable means.

Used Equipment Used equipment contains valuable raw materials as well as materials that

must be disposed of professionally. Please return your used equipment via an
authorized specialist dealer or via the public waste disposal system, ensuring
any material that can be recycled is.
Please take care that your used equipment cannot be abused. To avoid abuse,
delete sensitive data from any data storage media. After having disconnected
your used equipment from the mains supply, make sure that the mains con­nector and the mains cable are made useless.

Conformity

IX

G Declarations of Conformity

G1 Class A Equipment - FCC Notice

G2 CE Declaration of Conformity

We,

Studer Professional Audio GmbH,
CH-8105 Regensdorf,

declare under our sole responsibility that the prod u ct

Studer Compact Infinity Core

to which this declaration relates, according to following regulations of EU
directives and amendmen ts

• Low Voltage Directive (LVD): 2014/35/EU

• Electromagnetic Compatibility (EMC): 2014/30/EU

• Restriction of Hazardous Substances (RoHS 2): 2011/65/EU

is in conformity with the following standards or normative documents:

• EN 60065:2014

• EN 55032:2015

Regensdorf, May 28, 2018

This equipment has been tested and found to comply with the limits for a
Class A digital device, pursuant to Part 15 of the FCC Rules. These limits
are designed to provide a reasonable protection against harmful interfer­ence when the equipment is operated in a commercial environment. This
equipment generates, uses, and can radiate radio frequency energy and, if
not installed and used in accordance with the instruction manual, may cause
harmful interference to radio com munications. Operation of this equipment
in a residential area is likely to cause harmful interference, in which case the
user will be required to correct the interference at his own expense.

Caution: Any changes or modifications not expressly approved by the manufacturer

could void the user’s authority to operate the equipment. Also refer to relevant
information in this manual.

X

Appendix

Appendix 1: Air Temperature and Humidity

General

Normal operation of the unit or system is warranted under the ambient condi­tions defined by EN 60721-3-3, set IE32, value 3K3.
This standard consists of an extensive catalogue of parameters, the most
important of which are: ambient temperature +5...+40 °C, relative humidity

5...85% (i.e., no formation of condensation or ice); absolute humidity 1...25 g/
m³; rate of temperature change < 0.5 °C/min. These parameters are dealt with
in the following paragraphs.
Under these conditions the unit or system starts and works without any prob­lem. Beyond these specifications, possible problems are described below.

Ambient Temperature

Units and systems by Studer are generally designed for an ambient tempera­ture range (i.e. temperature of the incoming air) of +5 °C to +40 °C. When
rack mounting the units, the intended air flow and herewith adequate cooling
must be provided. The following facts must be considered:

• The admissible ambient temperature range for operation of the semicon-

ductor components is 0 °C to +70 °C (commercial temperature range for
operation).

• The air flow through the installation must provide that the outgoing air is

always cooler than 70 °C.

• Average heat increase of the cooling air shall be about 20 K, allowing for

an additional maximum 10 K increase at the hot components.

• In order to dissipate 1 kW with this admissible average heat increase, an

air flow of 2.65 m³/min is required.

Example: A rack dissipating P = 800 W requires an air flow of 0.8 * 2.65 m³/min which

corresponds to 2.12 m³/min.

• If the cooling function of the installation must be monitored (e.g. for fan

failure or illumination with spot lamps), the outgoing air temperature must
be measured directly above the modules at several places within the rack.
The trigger temperature of the sensors should be 65 °C to 70 °C.

Frost and Dew

The unsealed system parts (connector areas and semiconductor pins) allow
for a minute formation of ice or frost. However, formation of dew visible to
the naked eye will already lead to malfunctions. In practice, reliable opera­tion can be expected in a temperature range above –15 °C, if the following
general rule is considered for putting the cold system into operation:
If the air within the system is cooled do

wn, the relative humidity rises. If it
reaches 100%, condensation will arise, usually in the boundary layer between
the air and a cooler surface, together with formation of ice or dew at sensi­tive areas of the system (contacts, IC pins, etc.). Once internal condensation
occurs, trouble-free operation cannot be guaranteed, independent of tempera­ture.

Before putting into operation, the system must be checked for internal for­mation of condensation or ice. Only with a minute formation of ice, direct

Appendix

XI

evaporation (sublimation) may be expected; otherwise the system must be
heated and dried while switched off.
A system without visible internal formation of ice or condensation should be
heated up with its own heat dissipation, as homogeneously (and subsequently
as slow) as possible; the ambient temperature should then always be lower
than the one of the outgoing air.
If it is absolutely necessary to operate the cold system immediately within
warm ambient air, this air must be dehydrated. In such a case, the absolute
humidity must be so low that the relative humidity, related to the coldest
system surface, always remains below 100%.
Ensure that the enclosed air is as dry as possible when powering off (i.e. before
switching off in winter, aerate the room with cold, dry air, and remove humid
objects such as clothes from the room).
These relationships are visible from the following climatogram. For a con­trolled procedure, thermometer and hygrometer as well as a thermometer
within the system will be required.

Example 1: An OB-van having an internal temperature of +20 °C and a relative humidity

of 40% is switched off in the evening. If the temperature falls below +5 °C,
the relative humidity will rise to 100% (7 g/m³); dew or ice will be forming.

Example 2: An OB-van is heated up in the morning with air of +20 °C and a relative

humidity of 40%. On all parts being cooler than +5 °C, dew or ice will be
forming.

Appendix

XII

Appendix 2: Mains Connector Strain Relief

For anchoring connectors without a mechanical lock (e.g. IEC mains connec­tors), we recommend the following arrangement:

Proced

ure: The cable clamp shipped with your unit is auto-adhesive. For mounting please

follow the rules below:

• The surface to be adhered to must be clean, dry, and free from grease, oil,

or other contaminants. Recommended application temperature range is
+20 °C to +40 °C.

• Remove the plastic protective backing from the rear side of the clamp and

apply it firmly to the surface at the desired position. Allow as much time as
possible for curing. The bond continues to develop for as long as 24 hours.

• For improved stability, the clamp should be fixed with a screw. For this

purpose, a self-tapping screw and an M4 bolt and nut are included.

• Place the cable into the clamp as shown in the illustration above and firmly

press down the internal top cover until the cable is fixed.

Appendix

Compact Infinity Core XIII

Appendix 3: Software License

Use of the software is subject to the Studer Professional Audio Software
License Agreement set forth below. Using the software indicates your accep­tance of this license agreement. If you do not accept these license terms, you
are not authorized to use this software.

Under the condition and within the scope of the following Terms and Con­ditions, Studer Professional Audio GmbH (hereinafter ‘Studer’) grants the
right to use programs developed by Studer as well as those of third parties
which have been installed by Studer on or within its products. References
to the license programs shall be references to the newest release of a license
program installed at the Customer’s site.

Programs Covered by the Agreement

License Programs of Studer The following Terms and Conditions grant the right to use all programs of

Studer that are part of the System and/or its options at the time of its delivery
to the Customer, as well as the installation software on the original data disk
and the accompanying documentation (‘License Material’). In this Agreement
the word ‘Programs’ shall have the meaning of programs and data written in
machine code.
Using the software indicates your acceptance of this license agreement. If you
do not accept these license terms, you are not authorized to use this software.

Programs of Third Parties Programs of third parties are all programs which constitute part of the System

and/or its options at the time of delivery to the Customer but have not been
developed by Studer. The following conditions are applicable to programs of
third parties:

• The right to use third parties’ programs is governed by the License Agree­ment attached hereto (if applicable), which is an integral part of this
Agreement. The Customer shall sign any and all License Agreements for
all further programs of third parties installed on the system. The Customer
shall be deemed to have received all License Agreements upon delivery
of the system and/or its options.

• Studer shall accept no responsibility or liability for, and gives no warran­ties (express or implied) as to the programs of third parties. The Customer
waives any and all claims versus Studer for any consequential damages,
which might occur due to defects of these programs.

Right of Use

Principle Studer grants the Customer the non-exclusive right to use the License Ma-

terial in one copy on the system and/or its options as laid down by the Sales
Agreement concluded between the parties and all Terms and Conditions
which shall be deemed to form and be read and construed as part of the Sales
Agreement. This right is assignable according to the ‘Assignability’ paragraph
hereinafter.

Customized Configurations The Customer is not entitled to alter or develop further the License Material

except within the expressly permitted configuration possibilities given by the
software installed on the system or elsewhere. All altered programs, includ­ing but not limited to the products altered within the permitted configuration
possibilities, are covered by this License Agreement.

Appendix

XIV

Reverse Engineering Reverse engineering is only permitted with the express consent of Studer.

The consent of Studer can be obtained but is not limited to the case in which
the interface software can not be provided by Studer. In any case Studer has
to be informed immediately upon complete or partial reverse engineering.

Copying the License Material The Customer is entitled to make one copy of all or parts of the License

Material as is necessary for the use according to this Agreement, namely for
backup purposes. The Customer shall apply the copyright of Studer found on
the License Material onto all copies made by him. Records shall be kept by
the Customer regarding the amount of copies made and their place of keeping.
The responsibility for the original program and all copies made lies with the
Customer. Studer is entitled to check these records on first request. Copies
not needed anymore have to be destroyed immediately.

Disclosure of License Material The License Material is a business secret of Studer. The Customer shall not

hand out or in any way give access to parts of or the complete License Material
to third parties nor to publish any part of the License Material without prior
written consent of Studer. The Customer shall protect the License Material
and any copies made according to the paragraph above by appropriate defense
measures against unauthorized access. This obligation of non-disclosure is a
perpetual obligation.
Third parties are entitled to have access to the License Material if they use the
License Material at the Customer’s site in compliance with this Agreement.
Under no circumstance are third parties entitled to have access to the instal­lation software on the original data media. The Customer shall safeguard the
original data media accordingly.

Assignability The rights granted to the Customer according to this License Agreement shall

only be assignable to a third party together with the transfer of the system
and/or its options and after the prior written consent of Studer.

Rights to License Material

With the exception of the right of use granted by this License Agreement all
proprietary rights to the License Material, especially the ownership and the
intellectual property rights (such as but not limited to patents and copyright)
remain with Studer even if alterations, customized changes or amendments
have been made to the License Material.
Studer’s proprietary rights are acknowledged by the Customer. The Customer
shall undertake no infringements and make no claims of any patent, registered
design, copyright, trade mark or trade name, or other intellectual property
right.

Warranty, Disclaimer, and Liability

For all issues not covered herewithin, refer to the ‘General Terms and Condi­tions of Sales and Delivery’ being part of the sales contract.

Appendix

Compact Infinity Core 1

CONTENTSCONTENTS

1 General .............................................................................................................................................................. 2

1.1 Utilization for the Purpose Intended .................................................................................................................. 2

1.2

First Steps .......................................................................................................................................................... 2

1.2.1 Unpacking and Inspection ....................................................................................................................................... 2

1.2.2 Installation ............................................................................................................................................................... 2

1.2.3 Adjustments, Repair, Cleaning ................................................................................................................................ 4

2 Introduction ...................................................................................................................................................... 5

2.1

Key Features ...................................................................................................................................................... 6

2.2

Hardware ........................................................................................................................................................... 7

2.3

Connections ....................................................................................................................................................... 8

2.4

System Setup ..................................................................................................................................................... 9

2.5

Clocking concept of Infinity Core ................................................................................................................... 16

2.6

Redundancy ..................................................................................................................................................... 16

2.7

Service Mode ................................................................................................................................................... 17

2.8

Session Configuration Tool .................

......................................................................................................................... 18

2.9

Vista Surveyor Information ............................................................................................................................. 20

3 Modules ........................................................................................................................................................... 23

3.1 Core Link Card ................................................................................................................................................ 23

3.2

Primary Power Supply ..................................................................................................................................... 24

3.3 D23m and D21m I/O Subsystem ..................................................................................................................... 24

4 Dimensions ...................................................................................................................................................... 25

4.1 Compact Core 300 ........................................................................................................................................... 25

4.2

Compact Core 600 ........................................................................................................................................... 25

Disclaimer

The information in this document has been carefully checked and is believed
to be accurate at the time of publication. However, no responsibility is taken
by us for inaccuracies, errors, or omissions, nor is any liability assumed for
any loss or damage resulting either directly or indirectly from use of the
information contained within it.

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1 GENERAL

1.1 Utilization for the Purpose Intended

The Studer Compact Infinity Core system is intended for professional use.
It is presumed that the unit is operated only by trained personnel. Servicing
is reserved to skilled technicians.
The electrical connections may be connected only to the voltages and signals
designated in this manual.

1.2 First Steps

1.2.1 Unpacking and Inspection

Your new system is shipped in a special packing which protects the units
against mechanical shock during transit. Care should be exercised when
unpacking so that the surfaces do not get marred.
Check the condition of the equipment for signs of shipping damage. If there
should be any complaints you should immediately notify the forwarding agent
and your nearest Studer distributor.
Please retain the original packing material because it offers the best protection
in case your equipment ever needs to be transported.

1.2.2 Installation

Primary Voltage The power supply units are auto-ranging; they can be used for mains voltages

in a range of 90 to 264 VAC, 47 to 63 Hz.

Power Connection The attached female IEC 320/C13 mains cable sockets have to be connected

to appropriate mains cables by a trained technician, respecting your local
regulations. Refer to the ‘Installation, Operation, and Waste Disposal’ chapter
at the beginning of this document.

Earthing This equipment must be earthed, due to the mains input filter network being

connected to the mains earth.

Some consideration must be given to the earthing arrangement of the system,
at the center of which is the frame. The frame is earthed to the mains earth
via the power supply.

Thermal Considerations The unit must not be used in conditions of excessive heat or cold, near any

source of moisture, in excessively humid environments, or in positions where
it is likely to be subjected to vibration or dust. The ambient temperature range
for normal operation of the unit is +5...+40° C.

Principal Rule The cooler the better – a temperature increase of only 10° C (18° F) reduces

component lifetime by 50%!

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Heat dissipation The following table lists the required heat dissipation which is depending on

the type of the Compact Infinity Core ( Core 300, Core 600) :

Compact Infinity Core Type

Required Heat

Dissipation

Core 300

140 W

Core 600

250 W

If the unit is mounted in a climatised rack, please note that air intake must be
at the front and air outlet at the rear of the rack.
If two Compact Infinity Cores are mounted on top of each other, there is no
space required between the two units.

Single Compact Infinity Core

Rear Front

Air

Air

Compact Infinity Core

Dual Compact Infinity Core

Rear Front

Air

Compact Infinity Core

Air

Compact Infinity Core

Compact Infinity Core

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1.2.3 Adjustments, Repair, Cleaning

Danger! All internal adjustments as well as repair work on this product must be per-

formed by expert technicians!

Replacing the Supply Unit The primary fuse is located within the power supply module and cannot be

changed. In case of failure, the complete power supply unit must be replaced.
Please ask your nearest Studer representative.

Cleaning Do not use any liquids to clean the exterior of the unit. A soft, dry cloth or

brush will usually do.

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2 INTRODUCTION

The Compact Infinity Core system makes use of standard x86-CPUs for
audio signal processing. This has the great benefit that every new generation
of CPU increases the channel-count that can be processed by this system.
While audio processing is calculated by the CPUs, the actual mixing (sum­mation) is done on a fast FPGA hardware module. A Linux OS prov ides high
availability as well as shortest audio latency which both are important
requirements in professional audio.

The use of the current Intel® Xeon® processor series (End of 2017) allows the
following channel-counts (mono equivalent channels) for the two different
Compact Infinity Core systems :

Compact Infinity Core Type

MEQ channels

Core 300

300

Core 600

600

Note : One MEQ channel consists of channel input processing (gain, mono sum etc),

four band parametric EQ, notch, and HP/LP filters, four section dynamics,
insert, channel delay plus fader and pan/balance controls.

Summation is provided by the FPGA hardware where up to 768 mixing busses
can be processed at the same time.

The Compact Infinity Core system is housed in a self-containing unit and
occupies just 2U of rack space.

The Session Configuration Tool software, available as a standard, allows cli-

ents to take the factory-defined settings, and make their own adjustments on
a job-by-job basis, including changing the number of input channels, buses,
and outputs.

The Compact Infinity Core system maintains full redundancy, redundant

power supplies, redundant link between core and console, and even complete
core redundancy. In case of a hardware failure, the redundant core will take
over the processing immediately without any audible disturbance.

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2.1 Key Features

DSP • Configurable DSP Core via provided configuration tool

• Supported Channel Count:
Core 300: 300 MEQ+
Core 600: 600 MEQ+

• Supported Bus Count
Up to 768 summation busses

• Tie line patching does not consume DSP (Direct input to output patching)

I/O • Sampling Frequencies: 48 kHz, 96 kHz

• Ethernet tunneling via A-Link for connected D23m devices

• I/O Configuration
4 x A-Link, 1536 Channels each
1 x Ethernet connection for Ethernet tunneling via A-Link

Communication • 2 Ethernet Network Ports on Main Board

• Communication via UDP Broadcast or UDP Multicast (configurable)

• Static IP Addresses (configurable)

• Static Node identifiers (configurable)

Redundancy • System Level redundancy - Multiple cores in parallel

• Redundant Network connections

Service and Maintenance • VGA Port for external monitor

• USB Ports

• Web Interface for configuration and software updates

• Bootable USB stick for complete factory re-imaging (requires USB Key­board and Monitor connected)

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2.2 Hardware

The mainboard within the Compact Infinity Core is a high-end, standard form
factor industrial server mainboard with an Intel chip-set. It is fitted with up to
two Intel® Xeon® CPUs and one STUDER PCIe I/O card (Core Link Card).
Dual power supplies are fitted, with two separate AC inlets.

Power On/Off Switch The Power On/Off Switch is also located on the front panel of the unit.

To turn the system on, simply switch on the AC power by the switches above
the AC inlets and the core will start up. If the AC is already connected then
press the Power On/Off button to start up the core. To power down the core
simply press the Power On/Off button, the system will shut down (this may
take a few seconds).

Status LEDs The Status LEDs display the following information about the status of the

Compact Infinity Core :

Status LEDs

Off

Blink Green

Green

Blink Red

Red

I/O Link

Power off Power up Core Link Card OK Core Link Fan fail Core Link Card error

System

Power off

Waiting for

configuration

DSP Processing OK Sync Loss

DSP or Hardware

error

Active

Power off or Slave

DSP Processing

Offline Master DSP

Processing

Master DSP

Processing

- -

PSU 1

Power off - PSU 1 OK - PSU 1 power missing

PSU 2

Power off - PSU 2 OK - PSU 2 power missing

FAN

Power off - ALL FAN OK -

One or more FAN unit

failed

Power On/Off Switch

Status LEDs

AC Inlet

AC Inlet

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2.3 Connections

VGA Screen USB

Ethernet

connector connectors connectors

4 x A-Link Ethernet tunneling

connectors for D23m devices

Ethernet The two Ethernet control connections are normally directly linked to the two

Ethernet switches of the desk.

A-Link There are 4 A-Link ports to bring audio in-, as well as out of the Compact

Infinity Core. A-Link is a “super-fast” optical interface comprising a duplex

fibre pair of connections capable of carrying up to 1536 channels of 24 bit
audio. All 4 interfaces are configured to provide 1536 mono channels of
inputs and 1536 mono channels of outputs (@48 kHz).

SFP The A-Link interface uses SFP modules as connectors. SFP stands for Small

Form-factor Pluggable. These are small modules that plug into the carrier on
the card and are available in various optical frequencies and powers accord­ing to transmission distance, fibre type and data load. They use “LC” fibre
connectors. Fitted as standard are 4.25Gb/s 850nm Multimode SFPs, this will
allow distances of up to 150m with 50μm/125μm fibre between units. For

longer distances, Single mode (9μm) types should be used.

Multi-mode SFP Part No. 5042823
Single-mode SFP Part No. 5042824

USB USB ports can be used to connect USB memory sticks that contain SW images

to upgrade the SW of the core. Then, also a USB keyboard can be connected
to a USB port.

VGA The VGA port is also used for servicing only - a VGA screen can be connected

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2.4 System Setup

General terms

Node Id Each element (desk, core, D23m I/O frames) in the mixing console system

is connected via Ethernet. The so called “Node Id” is used to identify each
element uniquely so the software can communicate correctly. Thus each Node
Id must be unique.

Cloud Id It is often the case that several consoles will be connected together via Eth-

ernet for resource sharing (such as Studer’s Relink). It is therefore necessary
that each element must also have a second Id to allow each element to know
which mixing system it is a part of; each Vista desk must know which Infinity
Core (or Core) is processing its audio. This second Id is known as the “Cloud
Id” and must be set uniquely for each system.
There are two different parts of the network which have the same Id :

The network part on which desk and cores communicate.

Eventhough the Cloud Id’s of the Mixercloud and the IOCloud are the same
on one mixing system, the communication is kept separate between deks-core
and desk-IO by using different Portnumbers and different UDP Multicast
groups. This is what differntiates the Mixercloud from the IOCloud.

Numbering Rules The Node Id is normally used as the last byte of the elements IP-address.

Network configuration With a new ordered Vista Mixing System these settings are already configured

correctly. The diagram on the next page shows a complete overview of the
network configuration of a multi Vista system.

• Mixerclo

• IOClo The network part on which desk and I/O frames communicate.

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Multi system network configuration overview

Node ID : 42

Infinity Core

LAN1 : 192.168.1.42

LAN2 : 192.168.2.42

Node Id : 23

D23m Frame 1

LAN : 192.168.1.23

Node Id : 24

D23m Frame 2

LAN : 192.168.1.24

System A System B

Vista-

Main

Vista

Redundant

Meter

Redundant

Meter

Main

Vista Desk with 4 Control Systems

Node Id: 10

LAN2:192.168.1.10

LAN2:192.168.2.10

Node Id: 10

LAN2:192.168.1.10

LAN2:192.168.2.10

LAN1:192.168.5.30

Node Id: 20

LAN2:192.168.1.20

LAN2:192.168.2.20

Node Id: 20

LAN2:192.168.1.20

LAN2:192.168.2.20

LAN1:192.168.5.30

Node Id: 11

LAN2:192.168.1.11

LAN2:192.168.2.11

Node Id: 11

LAN2:192.168.1.11

LAN2:192.168.2.11

LAN1:192.168.5.30

Node Id: 21

LAN2:192.168.1.21

LAN2:192.168.2.21

Node Id: 21

LAN2:192.168.1.21

LAN2:192.168.2.21

LAN1:192.168.5.30

IO Cloud

Cloud Id : 1

Port : 3001

UDP MulticastGroup : 239.255.23.1

Mixer Cloud

Cloud Id : 1

Port : 3000

UDP MulticastGroup : 239.255.42.1

Config for

IO Cloud

Config for

Mixer Cloud

Ext.

Network

Vista-

Main

Vista

Redundant

Meter

Redundant

Meter

Main

Node Id : 23

D23m Frame 1

LAN : 192.168.1.23

Vista Desk with 4 Control Systems

Node Id : 24

D23m Frame 2

LAN : 192.168.1.24

Node Id: 10

LAN2:192.168.1.10

LAN2:192.168.2.10

Node Id: 10

LAN2:192.168.1.10

LAN2:192.168.2.10

LAN1:192.168.5.30

Node Id: 20

LAN2:192.168.1.20

LAN2:192.168.2.20

Node Id: 20

LAN2:192.168.1.20

LAN2:192.168.2.20

LAN1:192.168.5.30

Node Id: 11

LAN2:192.168.1.11

LAN2:192.168.2.11

Node Id: 11

LAN2:192.168.1.11

LAN2:192.168.2.11

LAN1:192.168.5.30

Node Id: 21

LAN2:192.168.1.21

LAN2:192.168.2.21

Node Id: 21

LAN2:192.168.1.21

LAN2:192.168.2.21

LAN1:192.168.5.30

IO Cloud

Cloud Id : 1

Port : 3001

UDP MulticastGroup : 239.255.23.1

Node ID : 42

Infinity Core Main

LAN1 : 192.168.1.42

LAN2 : 192.168.2.42

Mixer Cloud

Cloud Id : 1

Port : 3000

UDP MulticastGroup : 239.255.42.1

Config for

IO Cloud

Config for

Mixer Cloud

Ext.

Network

Node Id : 25

D23m Frame 3

LAN : 192.168.1.25

Node Id : 26

D23m Frame 4

LAN : 192.168.1.26

Node ID : 43

Infinity Core Red.

LAN1 : 192.168.1.43

LAN2 : 192.168.2.43

Relink

HiQnet

Network

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Setting up the Desk All system relevant settings of the Vista desk are configured in the D950Sys-

tem.ini file. With a new ordered Vista Mixing System these settings are
already configured correctly. This section is only to explain the single lines
in the file that are important for the correct configuration:

[d950systeminfo]

I sBridgeActive=Yes 

this must be set to Yes

IsScoreUsed=No
IsSpiderCoreUsed=No

IsPCCoreUsed=Yes

this must be set toYes

IsD19Active=No
IsD21Active=No

IsD23Active=Yes this must be set to Yes

[Mixercloud]

CloudId = 1 

the Cloud Id defines the whole mixing system

NodeId = 10 

here the Node Id of the mixer must be set - different from all other nodes

NodeName = “Vista X Desk” 

the name of the desk can be entered here

ReceivePort = 3000 

the default port for the mixercloud is always 3000

SendPort = 3000 

the default port for the mixercloud is always 3000

UseMulticast = Yes 

this must be set to Yes

MulticastGroup = 239.255.42.1 

this is the default address for the Mixercloud

Interfaces = “LAN 2” 

Name of network interfaces to be used for communication

AnnounceActive = Yes 

the default setting is Yes

AnnouncePeriodMs = 500 

the default setting is 500

NetworkExpirationTimeMs = 2000 

the default setting is 2000

LiveUpdateIntervalMs = 20 

the default setting is 2000

LiveUpdateSize = 5000 

the default setting is 5000

SyncUpdateIntervalMs = 1000 

the default setting is 1000

SyncUpdateSize = 20000 t he default setting is 20000

[IOCloud]

CloudId = 1 

defines the whole mixing system and is the same Id as the mixer cloud

NodeId = 10 

the Node Id of the mixer as set above in mixer cloud

NodeName = “Vista X Desk” v the name of the desk as above in mixer cloud
ReceivePort = 3001 

the default port for the IOCloud is always 3001

SendPort = 3001 

the default port for the IOCloud is always 3001

UseMulticast = Yes 

this must be set to Yes

MulticastGroup = 239.255.23.1  this is the default address for the IOCloud
Interfaces = “LAN 2” 

Name of network interfaces to be used for communication

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Setting up the Infinity Core Setting up a Infinity Core is done by using the browser based “Infinity

Panel” - which normally is started from the Vista desk.
Any Web browser can be started and the address of the core can be entered :

192.168.1.42:4000 (e.g. as this is the default address).

Then, the Infinity Panel appears - if the desk is connected to the core - and
the following five menu items can be accessed :

Setti

ngs, Network, Software, Control and Log

Settings On this page, the below described parameters are shown. All of these param-

eters can also be edited on this page :

Node Name The name of this Infinity Core - e.g. Main Core or Redundant Core.

Cloud Id The Cloud Id of the Mixer Cloud.

Node Id The Node Id of this Infinity Core.

Communication Port As a default, the communication Port for the communication with Cores is

Port 3000.

Use Multicast This enables to use IP multicast group communication, making use of the

UDP protocol.

Multicast Group Address Here the IP multicast group address is defined. As a default, the Multicast

Group Address for the communication with Cores is 239.255.42.1 .

Log level Here the level of details about the logged information is set. The dropdown

menu allows the shown choice. (Infomation being the default setting).

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Network Primary and secondary LAN network address can be viewn and configured

on this page.

Software This is the portal for software updates and information about the currently

installed SW. A software version that has been uploaded onto the Core but is
not currently installed, can also be deleted here by clicking the trashbin icon.

When clicking on any of the shown software versions, a detailed information
screen is displayed :

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Control On this page, the Infinity Core software service can be restarted, or a hardware

reboot of the Infinity Core can be executed.

Setting up the D23m frames Setting up a D23m frame is done by using the same browser based “Infinity

Panel” as it is used for setting up a core. The Infinity Panel normally is started
from the Vista desk.
Any Web browser can be started and the address of the D23m frame can be
entered : 192.168.1.23:4000 (e.g. as this is the default address).
Then, the Infinity Panel appears - if the D23m frame is connected to the desk

- and the same five menu items as when setting up a core can be accessed :

Log Here, the log files of the system can be shown or deleted. The level of details

of the log files is depending on the parameter Log Level which can be set
on the Settings page.

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Node Name The name of this D23m frame.

Cloud Id The Cloud Id of the IO Cloud.
Node Id The Node Id of this D23m frame.

Communication Port As a default, the communication Port for the communication with IO frames

is Port 3001.

Use Multicast This enables to use IP multicast group communication, making use of the

UDP protocol.

Multicast Group Address Here the IP multicast group address is defined. As a default, the Multicast

Group Address for the communication with IO frames is 239.255.23.1 .

Log level Here the level of details about the logged information is set.

Going to the Settings page and cl icking o n the Edit button, there is al so
the possibility to reset all parameters to the defualt values. This is done by
clicking on the red Reset to factory defaults button.

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2.5 Clocking concept of Infinity Core

The Sync source of the Infinity Core is alway s provided by a D23m frame.

The Sync signal of the D23m system is etiher internally generated by one of
the D23m frames, or an external sync signal is connected to on e of the D23m
frames. The sync signal is then transmitted to the core via A-Link. All other
frames will be synced from the core via their audio interface (MADI or A­Link).

The D23m system is able to connect to external sync sources to be synchro­nised. Following sync sources can be used:

• Video

• Word Clock

• AES/EBU

• A-Link (main or redundant)

For Video 50 Hz, 59.94 Hz, and 60 Hz are supported. For all other sync sources
48 kHz, 96 kHz, 44.1 kHz and 88.2 kHz are supported.

An automatic process is employed to ‘look’ for the best possible sync source.
This process has the following rules :

1. External Clocks have higher priorities then internal clocks.

2. The priorities of the external sync signals are in this order :

1. Video reference, 2. Word clock, 3. AES/EBU 4. A-Link

3. The lowest A-Link portnumber (on the core) has the highest priority.

4. Once a switchover to a different sync source has occured, the system
will automatically switch back to the original source, as soon as this sync
signal is restored.

If the D23m system consists of multiple frames and a redundant Infinity Core
system, the above process provides an audio clock redundancy. If the D23m
frame which is the sync source, fails, the system will switch over to the next
possible D23m frame that can be the sync master.

2.6 Redundancy

The redundancy concept of the Infinity Core closely interacts with the redun-
dancy of the D23m I/O system :

The D23m host card (A-Link HD card) offers two A-Link ports, main and
redundant with automatic switching - the D23m frame switches automatically
to the redundant connection, in case the main connection fails.

A-L ink Quality of Service Every A-Link carries its Qualtiy of Service indication, which is depending

on the state of the source that generates the A-Link signal.
Looking at this QoS, the D23m system can decide to switch from the main
A-Link to the redundant A-Link signal.
QoS is taking into account the following criterias of the source that generates
the A-Link signal :

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Document generated: 13.06.18

• Is the core currently controlled (e.g. by a desk) ? Or has it no control ?

• Are all SFP equipped A-Link ports active ?

• Are dropouts occuring in the audio processing ?

If at least one of these criterias is not met, the QoS of the A-Link signal gets
reduced. Each D23m frame then switches to the A-Link port (main or redun­dant) with the better QoS value.

With the Infinity Core, the customer can decide the level of redundancy.
If A-Link cable redundancy is desired, two Infinity Cores have to be deployed.
Then, of course also core redundancy is provided : should an audio dropout
occur within the main core, the QoS of the A-Link signal is reduced and
therefore the D23m frame switches to the redundant port where the redundant
core is connected. In this case, also the active core would be switched from
main to the redundant. Also in case of a hardware failure of the core, the red­undant core will take over the processing immediately without any audible
disturbance.

D21m Remote I/O Frame 1 D21m Remote I/O Frame 2 .. .. D21m Remote I/O Frame 12

Other Infinity Core system redundancy features are : redundant fan system,
redundant power supplies, redundant control link between core and console.

2.7 Service Mode

If a complete re-imaging or factory reset of the core is required, this can be
done using a bootable USB stick and connect a monitor to the VGA port and
a keyboard to the USB port. The USB stick contains software to re-image the
core and some further tools for diagnostic purposes like me mory checkers.
Software updates and general support is managed from the Vista desk using
the web interface described in chapter 2.4

D23m Frame

Main

Infinity

Core

Redundant
Infinity
Core

768

Ch

In

768

Ch

Out

0...64

Ch

Optical

MADI

0...64

Ch

Optical

MADI

(Redundant)

768

Ch

In

768

Ch

Out

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2.8 Session Configuration Tool

The Infinity Core uses almost the same concept of user configurable channel/
bus structures (Session Configura tions) as the SCoreLive.
In this chapter, the most obvious and most important differences to the Ses­sion Configuration Tool of the SCoreLive are explained.

Differences to the Session Configuration Tool of the SCoreLive

The Session Configuration Tool of the Infininty Core is not generating DSP
program code - as needed for the SCoreLive - but it is generating a number
of “simple” .xml files.

Out of this fact, two major advantages evolve :

1. No licence is required for the compiling process

2. To generate a Session Configuration takes only very little time

The resulting files of a compiled Session Configuration (“Generate All”) are
three new files :

• the XML Configuration : Configname.xml

• the Mixer Cloud paths : Configname-MixercloudPaths.txt

• the VMC Mappinginformation : Configname-VmcMappinginformation.xml

• CoreConfigTool.sCore

• CoreConfigTool.ini

CoreConfigTool.sCore è

This file must be renamed to .ini when used with SCoreLive systems.

CoreConfigTool.ini è

This file is ready to be used with the Infinity Core systems.

To doublecheck whether the correct version of the file is active, the file can
be opened with a text editor and the entry ‘

CoreType= ’ can be verified.

When the Session Configuration Tool is set-up for the Infinity Core, it can
be started with C:\CoreCfgTool\CoreCfgTool.exe.or with the shortcut on the
desktop refering to this file.

Then nam

e of the Session Configuration Tool then is “ICoreCfgTool” -

which is shown on he very top of the program window - and the GUI of the
tool looks as shown below.

Setup The Session Configuration Tool for the Infinity Core actually is the very

same Session Configuration Tool as used for the SCoreLive (starting from
SW 5.2.00). Whether it is used for the SCoreLive or for the Infinity Core is
decided by the CoreConfigTool.ini file.

There are two templates of the .ini files in the folder C:\CoreCfgTool :

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Core Version As a big change to the SCoreLive-version of the Session Configuration Tool,

here, the Infinity Core Version has to be chosen.

This is an important setting. The Core Version must match the actual Core
HW, as the load balancing of the Session Configuration Tool is set to this
specific core size. This means that when this setting is not matching the actua
HW core, the VMC configuration might not run at all.

By going to the Tree- or Shared-view and by right-clicking on the parameter
Core Version, the appropriate version can be chosen.

N-X channels There is a new N-X channel/bus structure for the Infinity Core. The N-X bus

now requires a master channel, as other busses do (e.g. Aux or Mst). This N-X
master channel can be chosen amongst all other channel types. It is available
in mono and stereo. So each N-X bus needs a N-X master channel.

Config Sync There is a process (which can be started with a batch file) that needs to run on

the Vista desk, in order to be able to load new configs into the Infinity Core.

More details Further details see in the Vista Operating Instructions, chapter 6, Session

Configuration Tool.

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2.9 Vista Surveyor Information

The statu s of the Infinity Core can be monitored through the Surveyor tool
on the Vista console. The core specific information shown in the Surveyor
tool is explained in this chapter.

The following lines are giving status information that is related to the Infinity
Core :

VMC Config Shows the currently loaded Session Configuration that the title loaded on the

Vista desk is refering to. When clicking on this item, also the Core type that
is required to run this Session Configuration is shown.
Shows the currently loaded Session Configuration that the Core is refering
to. Here, also the Session Configurations unique Id number is shown.
Shows the state of the Infinity Core(s). Clicking on this item shows more
detailed information as explained further below.

Mixer Config

Infinity Cores

Inout/Output hardware Here the state of the D23m frames that are connected to the Infinity Core is

shown. Clicking on this item, the view can be expanded to view the state of
every single I/O card.

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Clicking on the item Infinity Cores brings up the detailed state of the one
or two connected Infinity Cores :

Please note that Name1 is the name which has been configured via Infinity
Panel.
The Core that lists the status “Audio Master” is the Core that currently is
active e.g. processing the audio and handling all I/O signals. Both Cores
being “Online” means that they are either active, or ready to take-over from
the active Core.

Cloud Id Is the Cloud Id of the Core network cloud

Node Id Is the Node Id of the selected Core

IP Address Is the IP address of the selected Core

Mixer config Shows the Session Configuration that is actually loaded and running in the

Core.

Sampling Rate Shows the active sampling rate of the selected Core.

Core State Shows the state of the Core. The following states can be displayed :

Startup - Core is starting up
W ait for configuration - Wait for Session Configuration download

Ok - System is running, Session Configuration is valid

General Error - General Core failure, check the core logfile
Remote configuration download failed - Failed to download Session

Configuration

Config rejected : Invalid config - Session Configuration is invalid
Config rejected : Core Type mismatch - Core Type of the Session

Configuration doesn’t match with the Core Type of the Core

Corelink Error - Failure on the Core Link Card, check the core logfile
DSP Error - DSP failiure

PSU Shows the state of the power supplies.

Card Fan Shows the state of the Core Link Card fan.

I/O Ports Here, all active I/O ports are shown when clicking on this item.

Core Type The actual Core Version is shown here. It has to match or be greater as the

requirement listed under VMC Config / Core Requirement.

Infinity Core Name1 Here the status of the first connected Core is shown (lower IP Address). Please

note that Name1 is the name which has been configured via Infinity Panel.

Infinity Core Name2 Here the status of the second connected Core is shown (higher IP Address).

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CPU Type Shows the physical CPU type and specifications.

Software Version The version of the currently active software of the Core is listed here.

Hardware type Shows the hardware type of the fitted Core Link Card.

Hardware revision Shows the revision of the fitted Core Link Card.

Gateware type Shows the type of the gateware running on the fitted Core Link Card

Gateware Version Shows the gateware version of the fitted Core Link Card.

Plugin Catalog Shows a list of all available processing plugins, also each plugins version

number is listed.

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3 MODULES

Compact Infinity Core Modules

Compact Core Link Card 5092119-00

Primary Power Supply 5092150-00

3.1 Core Link Card 5092119-00

The Compact Core Link card which is installed in every Compact Infinity
Core provides two features. Firstly, an audio interface system to connectthe
huge number of audio channels into and out of the CPUs. Secondly, it also
provides the processing for the mix busses. The mixing or summing element
is not provided in the main CPU DSP but is processed in a fast FPGA on the
Compact Core Link card.

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A-Link STUDER has designed a digital audio interface called A-Link. This fibre

based audio interface uses a 3 Gb data rate to offer up to 1536 channels of 24
bit audio per connection. The Compact Core Link card is fitted with 4 A-Link
interfaces.

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3.2 Primary Power Supply 5045809

A dual redundant PSU is fitte

d, input 90-264VAC, 47-63Hz, 600 W with twin
AC power inputs on standard IEC fixed plugs. In the event that one power
supply fails, the other one takes over the full load without interruption.

3.3 D23m and D21m I/O Subsystem

The Compact Infinity Core connects via A-Link to the new Studer D23m I/O
system. From there, also MADI links to D21m frames are possible.

The D21m I/O subsystem consists of several different analog and digital I/O
cards, general-purpose I /O cards, and ca rds for seria l control.

The D23m I/O system is compatible and also allows D21m cards to be directly
inserted into D23m frames.

For more information on the D21m system please refer to the ‘D21m I/O
System Operating Instructions’ document available from www.studer.ch

in

the ‘Downloads’ - ‘User Guides’ - ‘Studer D21m I/O System’ area.

For more information on the D23m system please refer to the ‘D23m I/O
System Operating Instructions’ document available from www.studer.ch

in

the ‘Downloads’ - ‘User Guides’ - ‘Studer D23m I/O System’ area.

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4 DIMENSIONS

4.1 Compact Core 300

4.2 Compact Core 600

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Vista Digital Mixing System

Prepared and edited by
Studer Professional Audio GmbH
Technical Documentation
Riedthofstrasse 214
CH-8105 Regensdorf / Switzerland
http://www.studer.ch

Copyright by Studer Professional Audio GmbH

Order no. 5034313 (1014 )

Subject to change

Studer is a registered trade mark of Studer Professional Audio GmbH, Regensdorf