VERY LARGE TELESCOPE

lynxfatkidneyedNetworking and Communications

Oct 26, 2013 (3 years and 9 months ago)

92 views




VERY LARGE TELESCOPE



Requirement for the upgrade of the UT Bodegas

and
coude room

for the 2
nd

generation of inst
ru
ments


Doc. No.:
VLT
-
SPE
-
ESO
-
10000
-
XXXX

Issue
draft

Date:
MAY
2013


Prepared:

F. Gonte,




P. Hagu
e
n
auer

Jean Francois Pirard




Name

Date

Signature

Approved:

A. Carlier




Name

Date

Signature

Released:

A. Kaufer




Name

Date

Signature

VLT PROGRAMME * TELEPHONE: (089) 3 20 06
-
0 * FAX: (089) 3 20 23 62


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

1


Change record


Issue

Date

Section / Page affected

Reason / Initiation/Remarks

Draft 1

01.09.2012

All

First Draft

Issue 1.0


All

First Issue



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

2


TABLE OF CONTENTS

1

SCOPE

................................
................................
................................
..........................

3

2

DOCUMENTS & ACRONYMS

................................
................................
......................

4

2.1

Applicable Documents

................................
................................
................................
...........

4

2.2

Reference Documents

................................
................................
................................
.............

4

2.3

Applicable Drawings

................................
................................
................................
..............

5

2.4

Convention and Acronyms

................................
................................
................................
....

5

3

INSTRUMENTS CONCERNE
D BY THE IMPLEMENTAT
ION OF CABINETS
INSIDE THE UT BODEGA
S AND

COUDE ROOM

................................
.............................

8

3.1

General safety information

................................
................................
................................
....

8

3.2

General ICD information

................................
...................

Er
ror! Bookmark not defined.

3.2.1

SCP

................................
................................
................................

Error! Bookmark not defined.

3.2.1.1

SCP A (electrical connection)

Error! Bookmark not defined.

3.2.1.1.1

Power connection

Error! Bookmark not defined.

3.2.1.2

SCP B

Error! Bookmark not defined.

3.2.1.2.1

LAN

Error! Bookmark not defined.

3.2.1.2.2

Time reference system

Error! Bookmark not defined.

3.2.1.3

SCP C

Error! Bookmark not defined.

3.2.1.3.1

Compressed air

Error! Bookmark not defined.

3.2.1.3.2

Coolant

Error! Bookmark not defined.

3.2.2

Environmental conditions in UT bodega

................................
................................
...............

8

3.2.3

Impact on the environment

................................
................................
................................
.....

8

3.3

Information to be collected for each cabinet

................................
................................
.......

8

3.4

Equipment concerned by GRAVITY

................................
................................
....................

9

3.4.1

Cabinet 3 (coude room
)

................................
................................
................................
...........

9

3.4.2

Cabinet 1

................................
................................
................................
................................
.

10

3.4.3

Cabinet 2

................................
................................
................................
................................
.

11

3.4.4

Nitrogen Tank

................................
................................
................................
.........................

11

3.5

Equipment concerned by ESPRESSO

................................
................................
.................

12

3.6

Equipment concerned by SPHERE

................................
................................
.....................

13

3.7

Equipment concerned by MACAO
-
VLTI

................................
................................
..........

14

3.8

Equipment concerned by PRIMA (STS)

................................
................................
.............

15

3.9

Equipment concerned by MUSE

................................
.......

Error! Bookmark not defined.

3.10

Equipment concerned by ERIS

................................
................................
..........................

18


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

3


3.11

Equipment concerned by AOF

................................
................................
..........................

20

3.11.1

GRAAL

................................
................................
................................
................................
....

20

3.11.2

GALACSI

................................
................................
................................
................................
.

21

4

IMPLEMENTATION REQUI
REMENT OF THE UT BOD
EGAS

................................
..

23

4.1

UT1 to UT3

................................
................................
................................
.............................

24

4.1.1

Equipment proposed to be implemented

................................
................................
............

24

4.1.1.1

Local Power distribution cabinet

24

4.1.1.2

Cooling distribution

26

4.1.1.3

Network distribution

27

4.1.2

UT1 Bodega implementation map

................................
................................
........................

28

4.1.2.1

Proposed Implementation:

28

4.1.3

UT2 Bodega implementation map

................................
................................
........................

29

4.1.3.1

Proposed Implementation:

29

4.1.4

UT3 Bodega implementati
on map

................................
................................
........................

31

4.1.4.1

Proposed Implementation:

31

4.2

UT4 Bodega

................................
................................
................................
............................

32

4.2.1

Proposed Implementation:

................................
................................
................................
...

33

5

ANNEX

................................
................................
................................
........................

35

5.1

Information concerning UT4

................................
................................
...............................

36

5.2

Information Concerning UT3

................................
................................
..............................

39

5.3

Information Concerning UT2

................................
................................
..............................

41

5.4

Information concerning UT1

................................
................................
...............................

43

5.5

NAP model

................................
................................
................................
.............................

45






1

S
COPE


This document
details the requirements for the implementation of the electronics
cabinets and nitrogen tank of the second generation of instruments in the UT bodegas.





Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

4


2

D
OCUMENTS
&

A
CRONYMS


This
section provides the complete reference of the documents cited in the text.

The
Applicable Documents

contain requ
irements which apply to the Instruments

as
defined in the present document.

The
Reference Documents

contain background or detailed information,

which can be
useful for the reader.

2.1

Applicable Documents

AD
1

VLT Specification: Basic telescope definitions,

VLT
-
SPE
-
ESO
-
10000
-
0016
, Issue

2, 07.10.92

AD
2

Installation of electronic cabinets
,

VLT
-
CRE
-
GRA
-
15881
-
5505
, Issue

2, 07.10.92

AD
3

ICD for UT coude area
,

VLT
-
ICD
-
15000
-
5398
, Issue

1

AD
4

UT4 upgrade Electrical Modification Design Ch 5.1.3
,

VLT
-
TRE
-
ESO
-
22100
-
548
4
, Issue

1



2.2

Reference D
ocuments

This
list of document is given for internal reference only.

RD
1

AOF basement cabinet design

VLT
-
TRE
-
ESO
-
22000
-
5574

RD
2

Service Connection Point

VLT
-
SPE
-
ESO
-
10
000
-
0013 Iss.
4.1

RD
3

ICD between
VLTI and its instruments part II

VLT
-
ICD
-
15000
-
480 Iss.
1.0

RD
4

EMC and power quality specification part 2

VLT
-
SPE
-
10000
-
0003 Iss. 2

RD
5

VLT electronic design specifications

VLT
-
SPE
-
10000
-
0015 Iss. 6

RD
6

MACAO VLTI control Electronics

VLT
-
TRE
-
15600
-
2270 Iss. 6



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

5


2.3

Applicable Drawings

DWG
1

Interferometric laboratory Optical Layout,

VLT
-
DWG
-
ESO
-
15000
-
1738
, Issue D, 12.05.06


2.4

Convention and Acronyms

In all the
chapters, the measured data and the specified/expected data are
distinguished by the style of the font used with the following convention:



Bold

for specified or expected data



Italic

for measured data

This document employs several abbreviations and acronyms

to refer concisely to an
item, after it has been introduced. The following list is aimed to help the reader in
recalling the extended meaning of each short expression:


ACU

Alignment and Compensation Unit

AIT

Assembly, Integration and Testing

AIV

Assembly, Integration and Verification

AD xx

Applicable Document # xx

ATS

Auxiliary Telescope System

CC

Combined Coudé

CCS

Central Control Software

COTS

Commercial Of The Shelf

CPU

Central Processing Unit

DBMS

Data Base Management System

DCMU

Delay

Constant Metrology Unit

DELIRIUM

Delay Line Rail alignment Monitoring system

DICB

Data Interface Control Board

DWG xx

Applicable Drawing # xx

EMC

Electromagnetic Compatibility

ESO

European Southern Observatory

FNFD

Folded Nasmyth Focus Device

GUI

Graphical User Interface

HW

Hardware


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

6


IBC

Imaging Beam Combiner

ICD

Interface Control Document

IOT

Instrument Operation Team

IRACE

InfraRed Array Control Electronics

I/F

Interface

I/O

Input/Output

LAN

Local Area Network

LCC

LCU Common Software

LCU

Local Control Unit

LESS

Local Emergency Stop Systems

LGSF

Laser Guide Star Facility

LRU

Line Replaceable Unit

MACAO

Multiple Applications Curvature Adaptive Optics

MARCEL

Multi
-
beam Alignment, Reference and Calibration
(
IR
)

Emitter for the
(
VLTI
)

Laboratory

MIDAS

Munich Image Data Analysis System

MIDI

Mid
-
Infrared Interferometric Instrument

MTBF

Mean Time Between Failure

N/A

Not Applicable

PA

Product Assurance

PCB

Printed Circuit Board

PRIMA

Phase Referenced Imaging and
Micro
-
arcsecond
Astrometry

facility

RAMS

Reliability, Availability, Maintainability, and Safety

RD xx

Referenced Document # xx

RMS

Root Mean Square (

where

is the variance
and

is the mean value)

RTAP

Real Time Application Platform

SCP

Service Connection Point

SMS

Seismic Monitoring System

STS

Star Separator

SRS

Software Requirements Specification

SW

Software


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

7


TBC

To Be Confirmed

TBD

To Be Defined

TCP/IP

Transmission Control Protocol / Internet
Protocol

TCS

Telescope Control Software

TIM

Time Interface Module

U, V, W

General VLT co
-
ordinate systems

UT

Unit Telescope
(8.0 m diameter)

UTC

Universal Time Coordinated

VLT

Very Large Telescope

VLTI

Very Large Telescope Interferometer

VLTICS

VLTI Control Software

VME

Versa Module Eurocard

WAN

Wide Area Network

w.r.t.

with respect to

WS

Workstation



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

8


3


I
NSTRUMENTS CONCERNED

BY THE IMPLEMENTATIO
N OF
CABINETS INSIDE THE
UT

BODEGAS

AND
C
OUDE
R
OOM


Several change request have been
submitted

by the different consortium of the second
generation of instruments to be implemented in the UT bodegas, at the moment it concerns:



GRAVITY (GRAVITY wavefront sensors)



ESPRESSO



SPHERE



MACAO VLTI



PRIMA (STS)



ERIS



AOF (GRAAL, GALACSI)



MOONS ?


Each
Consortium is responsible for the integration of its cabinet in the dedicated area and for
the routing of the cables up to the SCP dedicated to its SCP.


3.1

General safety information

To be completed

3.1.1

Environmental conditions in UT bodega

They are given in
AD3
, we give here the temperature pressure and humidity for information:



Coude room

UT bodega

Pressure (mb)

743

743

Min temp (deg C)

10

10.5

Max temp (deg C)

15

14.5

Min dew point (deg C)

-
15

-
15

Max dew point (deg C)

10

10

Min relative humidity (%)

10

10

Max relative humidity (%)

80

80

Table
1

3.1.2

Impact on the environment

Please read AD3.


3.2

Information to be collected for each cabinet

Cabinet

location
:

Cabinet Name or code:

Cabinet model


Size:



Doors closed:


width*depth
*height m
m
^3



Doors opened:


width*depth
*height m
m
^3


Weight:



Kg



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

9


Mechanical interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety



Damping system


Cooling:



Number of lines:



Connector types:



l/min per line

Power:



UPS

average:



KW



UPS peak



KW



non UPS average


KW



non UPS peak



KW

Circuit Breaker:



UPS:






Non
-
UPS:






Requested number sockets:



3 phase
s

Non UPS:




1 phase Non UPS:




1 phase UPS





1 phase non UPS

Network
:

Network switch location
:




LAN

o

Fiber monomode

o

Fiber multimode



T
ime

reference:


3.3

Equipment concerned by GRAVITY

This equipment is to be installed in the 4 UT bodegas

and coude room
.

A change request
()
have been made for the size of the cabinets
, this CRE doe not give the
new power and cooling consumption the nbr of sockets etc… then at the moment it is not
possible to implement the required values

3.3.1

Cabinet 3 (coude room)

Cabinet

Location
:



Coude room

Cabinet Name or code:

GWFS NGC Cabinet

Cabi
net model

Size:



Doors closed:


width*depth*height mm^3



Doors opened:


width*depth*height mm^3

Weight:



Kg

Mechanical interfaces:



Number of points



Surface of the points


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

10




Distances between points



Earthquake safety



Damping system

Cooling:



Number of lines:



Connector types:



l/min per line

Power:



UPS average:



KW



UPS peak



KW



non UPS average


KW



non UPS peak



KW

Circuit Breaker:



UPS:






Non
-
UPS:






Requested number sockets:



3 phase Non UPS:




1 phase Non UPS:




1 phase UPS



Network:

Network switch location:

in the rack



Ethernet



Fiberlink


3.3.2

Cabinet 1

Cabinet Location: UT Bodega

Cabinet Name or code: GWFS Cabinet 1

Cabinet model

Size:



Doors closed:


600*800*2200

mm^3



Doors opened:


600*2000*2200
mm^3

Weight:



Kg

Mechanical
interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety


JLL attachment system



Damping system
:


JLL damping system

Cooling:



Number of lines:


1



Connector types:



l/min per line

Power:



UPS average:



KW



UPS peak



KW



non

UPS average


KW



non UPS peak



KW

Circuit Breaker:



UPS:





Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

11




Non
-
UPS:






Requested number sockets:



3 phase Non UPS:




1 phase Non UPS:




1 phase UPS



Network:

Network switch location:

in the rack



Ethernet



Fiberlink


3.3.3

Cabinet 2

Cabinet Location: UT Bodega

Cabinet Name or code: GWFS Cabinet 2

Cabinet model

Size:



Doors closed:


600*800*2200 mm^3



Doors opened:


600*2000*2200 mm^3

Weight:



Kg

Mechanical interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety


JLL attachm
ent system



Damping system


JLL Damping system

Cooling:



Number of lines:


1



Connector types:



l/min per line

Power:



UPS average:



KW



UPS peak



KW



non UPS average


KW



non UPS peak



KW

Circuit Breaker:



UPS:






Non
-
UPS:






Requested number sockets:



3 phase

Non UPS:




1 phase Non UPS:




1 phase UPS



Network:

Network switch location:

in the rack



Ethernet



Fiberlink


3.3.4

Nitrogen Tank

Weight:



Kg


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

12


Size:

Mechanical interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety



Damping
system


3.4

Equipment concerned by ESPRESSO

It is planned to inst
all the following cabinets in the coude room. Because there is a cooling unit
using fan associated to it. We propose to install the cabinets in the UT bodega.


Figure
1
:

ESPRESSO cabinet


Cabinet location:

Cabinet Name or code:

Cabinet model

Size:



Doors closed:


400
*
210
*
500

mm^3

(WITHOUT THE COOLING UNIT)



Doors opened:


400*610*500
mm^3


Weight:



Kg


Mechanical interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety



Damping system


Cooling:



Number of lines:



Connector types:



l/min per line

Power:



UPS average:



30
W

+ 25 W (COOLING)



UPS peak


58
W

+ 25 W (COOLING)


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

13




non UPS average


KW



non UPS peak



KW

Circuit Breaker:



UPS:






Non
-
UPS:






Requested number sockets:



3 phase Non UPS:




1 phase Non UPS:




1 phase UPS



Network:

Network switch location:




LAN

o

Fiber monomode

o

Fiber multimode
:

1 ST connection



Time reference:



3.5

Equipment concerned by SPHERE

This equipment is to be
installed in the UT3 bodega. This is one electronic cabinet called big


Cabinet location:UT3 Bodega

Cabinet Name or code: SPHERE BIG Cabinet

Cabinet model

Size:



Doors closed:


900
*
1000
*
2000

mm^3



Doors opened:


900*2200*2000
mm^3


Weight:



515
Kg


Mechanical interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety



Damping system


Cooling:



Number of lines:



Connector types:



l/min per line
:


15



Cooling capacity

8 KW

Power:



UPS average:



3250
KW



UPS peak



3000
KW



non UPS average


KW



non UPS peak



KW

Circuit Breaker:



UPS:




20 A


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

14




Non
-
UPS:


20 A




Requested number sockets:



3 phase Non UPS:

0



1 phase Non UPS:

1



1 phase UPS


1

Network:

Network switch location:




LAN

o

Fiber monomode

o

Fiber multimode



Time reference:


Height : 2.0m

Depth : 1.m

With : 0.9m : 0.6m for electronic devices + 0,3 for cooling.

All the external panel are plain. The cabinet must have a relative air tightness.

3.6

Equipment concerned by MACAO
-
VLTI

This equipment is to be installed in the 4 UT bode
gas
.
A single cabinet (VARISTAR) will
replace

the two existing cabinets

in the context of the MACAO
-
VLTI obsolescence project
started this year. This new cabinet will not be connected anymore to th
e

SCP in the coude
room

b
ut to the new installation in the
UT bodegas.

The two cabinets of the MACAO in the
bodega are described in
RD6.



Figure
2
: VARISTAR cabinet


Cabinet location:

UT1 to UT3 in Sector D and in UT4 Sector E

Cabinet Name or code:
MACAO
-
VLTI cabinet

Cabinet model
VARISTAR


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

15


Size:



Doors closed:


600*800*2000

mm^3



Doors opened:


2000*8000*2000

mm^3


Weight:



around 300
Kg


Mechanical interfaces:



Number of points
:


TBD



Surface of the points


TBD



Distances between points

TBD



Earthquake safety
:


TBD



Damping system
:


ne
w standard developed by Jean
-
Louis Lizon (RD TBD)


Cooling:



Number of lines:

1



Connector types:


self sealing



l/min per line
:


TBD for 1.6 KW

Power:



UPS average:


N.A




UPS peak


1.6

KW



non UPS average

N.A



non UPS peak


N.A.


Circuit Breaker:



UPS:



16A,

30 mA.



Non
-
UPS:


N.A




Requested number sockets:



3 phase Non UPS:

N.A



1 phase Non UPS:

N.A



1 phase UPS


1

Network:

Network switch location:




LAN

o

Fiber monomode

o

Fiber multimode
:

1

ST



Time reference:


1 ST ()


3.7

Equipment concerned by PRIMA (STS)

STS has two

cabinets, once installed on the tower of the M9 (to be confirmed) and one to be
installed in the UT. bodegas
At the moment the electronic cabinet of the STS is installed on the
tower of the M9
.


3.7.1

Cabinet 1

The main concern for this cabinet is that it seem
s to contain a fan which is not authorised in the
coude room. It has to be confirmed


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

16



Figure
3
: Front end piezo electronics STS cabinet


Cabinet location:

coude room UT1 to UT4 on M9 tower

Cabinet Name or code:
Front end piezo

electronic cabinet

Cabinet model

Size:



Doors closed:


400*600*500

mm^3



Doors opened:


NA


Weight:




25
Kg


Mechanical interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety



Damping system


Cooling:



Number of
lines:



Connector types:



l/min per line

Power:



UPS average:


0.3

KW



UPS peak



0.4
KW



non UPS average

NA



non UPS peak


NA

Circuit Breaker:



UPS:






Non
-
UPS:


NA




Requested number sockets:



3 phase Non UPS:



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

17




1 phase Non UPS:




1 phase UPS



Network:

Network switch location:




LAN

o

Fiber monomode

o

Fiber multimode



Time reference:


3.7.2

Cabinet 2

The main concern with this cabinet is that it seems that it is not equipped to be cooled when it
can deliver more than 500 W. We would suggest to use a standard cabine
t as the one
proposed for the MACAO VLTI (see chapter before) and connect it to a cooling system. It is
proposed also not to connect this cabinet to the SCP inside the coude room by to use the
implementation in the UT bodegas.


Figure
4
: STS LCU cabinet


Cabinet location: UT bodega 1to 3 Sector D, UT4 bodega sector E

Cabinet Name or code: LCU Cabinet

Cabinet model :

KNUER SMARACT 19” rack ref: 02.110.069.1


Size:


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

18




Doors closed:


600*800*745 mm^3



Doors opened:


2
000*800*745 mm^3


Weight:




120
Kg


Mechanical interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety



Damping system


Cooling:



Number of lines:



Connector types:



l/min per line

Power:



UPS average:


0.3 KW



UPS peak



0.4 KW



non UPS average

NA



non UPS peak


NA

Circuit Breaker:



UPS:






Non
-
UPS:


NA




Requested number sockets:



3 phase Non UPS:




1 phase Non UPS:




1 phase UPS



Network:

Network switch location:




LAN

o

Fiber monomode

o

Fiber multimode



Time reference:


3.8

Equipment concerned by ERIS

This equip
ment is to be installed in the


Cabinet location:

UT4 bodega

Cabinet Name or code: SPARTA ERIS Cabinet

Cabinet model
Knuerr CoolLoop

Size:



Doors closed:


900*1200*2200 mm^3



Doors opened:


900*2400*2200 mm^3


Weight:



Kg


Mechanical interfaces:



Number of points


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

19




Surface of the points



Distances between points



Earthquake safety



Damping system


Cooling:



Number of lines:

1



Connector types:

o

Feed:


1 ¼ “, male thread

o

Return:

1 ¼ “, male thread






l/min per line

Power:



UPS
average:



KW



UPS peak



KW



non UPS average


KW



non UPS peak



KW

Circuit Breaker:



UPS:



Min. 2A, Curve C, class 3, differential protection of 30mA type HI



Non
-
UPS:


16A, 3ph, Curve C, class 3, differential protection of 30mA type HI




Requested number s
ockets:



3 phases Non UPS:




1 phase Non UPS:




1 phase UPS



Network:

Network switch location:




LAN

o

Fiber monomode

o

Fiber multimode



Time reference:




Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

20



Figure
5
: SPARTA ERIS cabinet


3.9

Equipment concerned by AOF

3.9.1

GRAAL

Cabinet location:

UT4 bodega

Cabinet Name or code: SPARTA GRAAL Cabinet

Cabinet model
Knuerr CoolLoop

Size:



Doors closed:


900*1200*2200 mm^3



Doors opened:


900*2400*2200 mm^3



Removing the servers: they have to be considered from free spaces: size TBD


Weight:



472.5
Kg


Mechanical interfaces:



Number of points

(at the moment 8 but could change due to the damping system)



Surface of the points



Distances between points



Earthquake safety



Damping system

(System

of damping are under the responsibility of Jean
-
Louis)


Cooling:



Number of lines:

1 line



Connector types:

o

Feed:


1 ¼ “, male thread

(to be verified)

o

Return:

1 ¼ “, male thread

(to be verified)



10
l/min per line

(this is actually an estimate, it means 1 SCP)

Power:


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

21




UPS average:


not estimated

KW



UPS peak


1

KW



non UPS

average

not estimated

KW



non UPS peak



3.55
+0.810
KW

Circuit Breaker:



UPS:



Min. 2A, Curve C, class 3, differential protection of 30mA type HI

(10A if possible)



Non
-
UPS:


16A, 3ph, Curve C, class 3, differential protection of 30mA type HI

Requested
number sockets:



3 phases Non UPS:

1



1 phase Non UPS:

0



1 phase UPS


1

Network:

Network switch location:




LAN
: (Check the document AOF fiber network, OM4 is multi mode, there are 3 bundle
of fibre 1 multi and 2 mono (single mode) connected to the NAP bodeg
a in UT4)

o

Fiber monomode

o

Fiber multimode



Time reference:

included in the above doc


3.9.2

GALACSI

Cabinet location:

UT4 bodega

Cabinet Name or code: SPARTA GALACSI Cabinet

Cabinet model
Knuerr CoolLoop

Size:



Doors closed:


900*1200*2200 mm^3



Doors opened:


900*2400*2200 mm^3


Weight:



472.5
Kg


Mechanical interfaces:



Number of points



Surface of the points



Distances between points



Earthquake safety



Damping system


Cooling:



Number of lines:



Connector types:

o

Feed:


1 ¼ “, male thread

o

Return:

1 ¼ “, male
thread






l/min per line

Power:



UPS average:



KW



UPS peak


0.1
+0.810
KW



non UPS average


KW



non UPS peak



3.55KW

Circuit Breaker:


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

22




UPS:



Min. 2A, Curve C, class 3, differential protection of 30mA type HI



Non
-
UPS:


16A, 3ph, Curve C, class 3,
differential protection of 30mA type HI

Requested number sockets:



3 phases Non UPS:

1



1 phase Non UPS:

0



1 phase UPS


1

Network:

Network switch location:




LAN

o

Fiber monomode

o

Fiber multimode



Time reference:



Figure
6
: SPARTA
cabinet type (GRAAL and GALACSI)



This equipment is to be installed in the UT4 bodega



10kW cooling capacity



Control, monitoring and safety integrated on local PLC


Where the width of the server cabinet is 600mm and the width of the cooling unit is 300mm.



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

23



Figure
7
: Cabinet dimensions



The following table shows the total weight of the cabinets per instrument:



GRAAL

GALACSI

Cabinet

202 kg

202 kg

Equipment

211.5 kg

211.5 kg

Cables

10 kg

10 kg

Mounting rails, blinds

40 kg

40
kg

Cooling liquid

9 kg

9 kg

TOTAL

472.5 kg

472.5 kg

Table
2



4

I
MPLEMENTATION REQUIR
EMENT

OF THE
UT

BODEGAS

It is proposed to make
the same type of equipment from
UT1 to UT3
based on what was
designed for UT4 upgrade to keep as
much as possible the same standard for the four UTs
.
Only the equipment which is clearly oversized for UT1 to UT3 will not be repeated.


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

24


4.1

UT1 to UT3

4.1.1

Equipment proposed to be implemented

4.1.1.1

Local
Power distribution

cabinet

The power distribution is given in
AD4, here is given a summary:

The local power distribution cabinet (approx. 2000x800x400 mm) will be placed in

a
Sector
for
each UT (See UT map implementation)
bodega.
Cables Ladders will be needed to be
implemented.

The power cabinet will be separated in

2 zones: 1 for UPS and 1 for non
-
UPS with a

3
-
phases
main breaker of 40A (QS
-
1) for UPS and 100A (QS
-
2) for non
-
UPS. Each

instrument cabinet
will be connected on a separated breaker, curve C, class 3, with

differential protection of 30mA
type HI + interlo
ck. Each breaker will be labelled as

UPS or NORMAL (for Non
-
UPS), and with
his number (QS
-
x, or QF
-
x).


UPS zone:

1. breaker 1ph/16A on L2 for GRAVITY (QF
-
1)

2. breaker 1ph/16A on L3 for GRAVITY (QF
-
2)

3. breaker 1ph/16A on L1 for Network (QF
-
3)

4. breaker

1ph/16A on L2
as spare

(QF
-
4)

5. breaker 1ph/16A on L3 as spare (QF
-
5)

6. breaker 3ph/16A for Provision 1 (QF
-
6)

7. breaker 3ph/16A for Provision 2 (QF
-
7)

8. breaker 3ph/16A as spare (QF
-
8)

Phases

distribution can be modified after measurements to balance the distribution of

currents.


Non
-
UPS zone:

9. breaker 1ph/10A on L1 for STS
-
UT (QF
-
9)

10. breaker 1ph/20A on L2 for GRAVITY (QF
-
10)

11. breaker 1ph/20A on L3 for GRAVITY (QF
-
11)

12. breaker 1ph/
10A on L1 for ESPRESSO (QF
-
12)

13. breaker 1ph/16A on L2 as spare (QF
-
13)

14. breaker 1ph/16A on L3 as spare (QF
-
14)

15. breaker 3ph/16A
as spare

(QF
-
15)

16. breaker 3ph/16A
as spare

(QF
-
16)

17. breaker 3ph/16A
as spare

(QF
-
17)

18. breaker

3ph/16A for Provision 1 (QF
-
18)

19. breaker 3ph/16A for Provision 2 (QF
-
19)

20. breaker 3ph/16A as spare (QF
-
20)


Phases distribution can be modified after measurements to balance the distribution of

currents.


The input and output of power distribution c
ables will be made on the top of the cabinet. The
Input cables for UPS (5x16 mm2) and Non
-
UPS (5x35 mm2) will be connected directly on their
respective breaker (QS
-
1 for UPS and QS
-
2 for Non
-

UPS). Then the main breakers (QS
-
1 and
QS
-
2) will feed a bus bar

(3ph distribution bus bar) from which each individual breaker will be
fed. Finally all individual breakers will feed the output terminals (Power distribution bus bar) in
the top of the cabinet.

The connections will be made with cables of 2.5 mm2, excepted

for the breakers of 20A it must
be cables of 4 mm2.

At the top of the cabinet a bus bar for earth connection will be placed (at around 80 mm from
the top) then at around 200 mm from the top bus of terminals will be placed, 1 bus for UPS (X
-

Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

25


1) and 1 bus fo
r Non
-
UPS (X
-
2). On the rail below other bus of terminals will be placed for the
interlocks (1 bus for UPS (X
-
3), and 1 bus for Non
-

UPS(X
-
4)); the connections to this
interlocks bus will be made with wires of 1.5 mm2

(colour must be orange).

The distance
between 2 rails will be 200 mm. The rails will be surrounded by a plastic

ladder, of
65 mm height and 60 mm width, excluded the upper side of the first rail on

the top of the
cabinet.

All wires must be
labeled

at both ends.

All cables and wires must be
low
-
smoke zero
-
halogen (LSZH) type.

All power wires must comply with Standard EN 60445:



Figure
8
: Cabinet dimensions


Because the feeding of the cabinet is done with 3

phases, the cabling inside the

cabinet (until
the distributi
on bus bar, X
-
1 and X
-
2) will respect the colour of each

phase.

All the instrument
cabinets will be connected, to the power distribution cabinet, with

cables 3x2.5 mm2 for 1ph,
and 5x2.5 mm2 for 3ph; excluded the 1ph Non
-
UPS for

GRAVITY, which

must be done

with
cables of 3x4 mm2.

The length of the cables will be different for each UTs


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

26



Figure
9
: example of power distribution cabinet


4.1.1.2

Cooling distribution

It is proposed to use the same panel distribution than the one already implemented for the UT4.
Here are the number of panels to be implemented:


UT1:

2 panels (1 in sector
D and
E)

UT2:

2 panels (1 in sector C and D)

UT3:

3 panels (1 in sector, A, C, an
d D)

UT4:

already implemented


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

27



Figure
10
: cooling distribution panel

4.1.1.3

Network distribution

1 NAP cabinet shall be implemented per UT bodega (already implemented in UT4 )


Figure
11
: nap cabinet


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

28



4.1.2

UT1 Bodega

implem
en
tation map

The Concerned instruments are:



MACAO
-
VLTI



GRAVITY Wavefront sensor



STS



ESPRESSO


4.1.2.1

Proposed Implementation:

Sector: A



N/A

Sector: B



N/A

Sector: C



ESPRESSO Cabinet

Sector: D



MACAO
-
VLTI cabinet



STS Cabinet

Sector: E



GWFS Cabinet 1



GWFS
Cabinet 2

Sector: F



N/A

Sector: G



N/A

Sector: H



GWFS Nitrogen Tank

Coude Room



GWFS NGC Cabinet




Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

29



Figure
12
: UT1 Bodega

with wrong

and missing

footprint for several cabinet, it has to be corrected

4.1.3

UT2 Bodega

implementation map

The

Concerned instruments are:



MACAO
-
VLTI



GRAVITY Wavefront sensor



STS



ESPRESSO



MOONS ?


4.1.3.1

Proposed Implementation:

Sector: A



N/A


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

30


Sector: B



ESPRESSO Cabinet

Sector: C



GWFS Cabinet 1



GWFS Cabinet 2

Sector: D



MACAO
-
VLTI cabinet



STS Cabinet

Sector: E



MOONS Cabinet
?

Sector: H



GWFS Nitrogen Tank

Coude Room



GWFS NGC Cabinet




Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

31


Figure
13
: UT2 Bodega

with wrong

and missing

footprint for several cabinet, it has to be corrected

4.1.4

UT3 Bodega

implementation map

The Concerned instruments are:




SPHERE



MACAO
-
VLTI



GRAVITY Wavefront sensor



STS



ESPRESSO


4.1.4.1

Proposed Implementation:

Sector: A



SPHERE Cabinet

Sector: B



ESPRESSO Cabinet

Sector: C



GWFS Cabinet 1



GWFS Cabinet 2

Sector: D



MACAO
-
VLTI cabinet



STS Cabinet

Sector: E



N/A

Sector: F



N/A

Sector: G



N/A

Sector: H



GWFS Nitrogen Tank

Coude Room



GWFS NGC Cabinet



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

32



Figure
14
: UT3 Bodega: worng
with wrong

and missing

footprint for several cabinet, it has to be
corrected

4.2

UT4 Bodega

The Concerned instruments are:



GRAAL



GALACSI



ERIS



MACAO
-
VLTI



GRAVITY Wavefront sensor



STS



ESPRESSO



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

33


4.2.1

Proposed Implementation:

Sector: A



N/A

Sector: B



GWFS Nitrogen tank

Sector: C



GRAAL Cabinet

(to be remained so cable already bought)



GALACSI cabinet

(to be remained so cable already bought)

Sector: D



ERIS



E
SPRESSO

Sector: E



MACAO
-
VLTI



STS

Sector: F



GWFS Cabinet 1



GWFS Cabinet 2

Sector: G

Sector: H



N/A




Coude Room



GWFS NGC Cabinet



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

34



Figure
15
: UT4 Bodega
:
with wrong

and missing

footprint for several cabinet, it has to be corrected


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

35



Figure
16
: Example of cabinet implementation in one sector


5

A
NNEX



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

36


5.1

Information concerning UT4


Figure
17
: UT4

Sector B


Figure
18
: UT4

Sector C


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

37



Figure
19
: UT4

Sector D


Figure
20
: UT4

Sector E


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

38



Figure
21
: UT4

Sector F


Figure
22
: UT4

Sector G



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

39


5.2

Information Concerning UT3


Figure
23
: UT3 Sector D


Figure

24
: UT3 Sector E


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

40



Figure
25
: UT3 Sector F


Figure
26
: UT3 Sector G


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

41



Figure
27
: UT3 Sector H


5.3

Information Concerning UT2


Figure
28
: UT2 Sector H


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

42



Figure
29
: UT2 Sector G



Figure
30
: UT2 Sector C



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

43



Figure
31
: UT2 Sector D



5.4

Information concerning UT1


Sector D


Figure
32
: UT1
Sector D


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

44



Figure
33
: UT1 Sector E



Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

45


5.5

NAP model


Figure
34
: NAP fiber for UT1 to UT3


Requirement for the upgrade of the
UT Bodegas and coude room for
the 2
nd

generation of instruments

Doc:

Issue

Date

Page

VLT
-
SPE
-
ESO
-
10000
-
xxxx

Issue Draft

01.05.2013

46