Perkinelmer STA 8000 User Manual

THERMAL ANALYSIS

STA 8000
Installation and Hardware
Guide

Release History

Part Number Release Publication Date

09931395 B March 2018

Any comments about the documentation for this product should be addressed to:

User Assistance
PerkinElmer, Inc.
710 Bridgeport Avenue
Shelton, Connecticut 06484-4794
U.S.A.

Or email http://www.perkinelmer.com/contactus/

Notices

The information contained in this Help file is subject to change without notice.

Except as specifically set forth in its terms and conditions of sale, PerkinElmer makes no
warranty of any kind with regard to this Help file, including, but not limited to, the implied
warranties of merchantability and fitness for a particular purpose.

PerkinElmer shall not be liable for errors contained herein for incidental consequential damages in
connection with furnishing, performance or use of this material.

Copyright Information

This Help file contains proprietary information that is protected by copyright.
All rights are reserved. No part of this file may be reproduced in any form whatsoever or translated into

any language without the prior, written permission of Perk inElme r, Inc.
Copyright © 2018 PerkinElmer, Inc.

Trademarks

Registered names, trademarks, etc. used in this Help file, even when not specifically marked as such,
are protected by law.

PerkinElmer is a registered trademark of PerkinElmer, Inc.
Pyris is a trademark of PerkinElmer, Inc.

Microsoft and Windows are registered trademarks of Microsoft Corporation in the United States and
other countries.

Contents

Introduction ............................................................................................... 7

Pyris Installation ............................................................................................... 8

Safety and Regulatory Information ........................................................... 9

Symbols Used in this Help .................................................................................10

Notes, Cautions and Warnings ....................................................................10

Symbols Used on the Instruments .....................................................................13

Electrical Warnings ...........................................................................................14

Electromagnetic Compatibility (EMC) .................................................................16

Europe ......................................................................................................16

South Korea ..............................................................................................16

United States (FCC) ...................................................................................16

Electrical Safety ...............................................................................................17

WEEE Instructio ns for PerkinElmer Products ......................................................18

Prepare the Laboratory ............................................................................ 21

Prepare the Laboratory .....................................................................................22

Electrical Requirements ..............................................................................22

Environmental Requirements ......................................................................22

Purge Gas and Pneumatic Supply ...............................................................23

Space Requirements ..................................................................................23

Install Multiple Analyzers ........................................................................ 25

Install Multiple Analyzers ..................................................................................26

Install an STA 8000 .................................................................................. 29

Safety Precautions for the STA 8000 .................................................................30

Important Specifications ............................................................................32

Decontamination and Cleaning ..........................................................................33

Decontamination .......................................................................................33

Cleaning the Instr ument ............................................................................33

General Laboratory Safety ..........................................................................33

STA 8000 Warning Labe ls .................................................................................34

Warning Labels on the Upper Ring Around the Furnace................................34

Warning Labels on the Back of the STA 8000 ..............................................35

Installing an STA 8000 .....................................................................................37

Unpacking the STA 8000 ..................................................................................38

Set Up the STA 8000 System Components .........................................................40

Connect the Purge Gas Supply to the STA 8000 ...........................................40

Connect the Purge Gas and System Purge Gas Lines to the STA 8000 ...........41

Removal of the Shipp ing/Alignment T ool .....................................................42

Install the Sensor ......................................................................................42

Connect the Cooling Device to the STA 8000 ...............................................44

Connect the STA 8000 Components ..................................................................48

Configure the STA 8000 ....................................................................................49

Calibration of the STA 8000 ..............................................................................51

Weight Calibration .....................................................................................51

Weight Verification ....................................................................................51

DTA Baseline Optimization .........................................................................52

TG Drift Optimization .................................................................................52

Temperature and Heat Flow Verification......................................................52

STA 8000 Hardware ................................................................................. 55

STA 8000 Hardware Overview ...........................................................................56

Sample Handling ..............................................................................................57

Sample Preparation ...................................................................................57

Sample Pans .............................................................................................58

Sample Atmosphere ...................................................................................58

Loading Samples into the STA 8000 ............................................................59

Heating ...........................................................................................................60

STA 8000 Maintenance .....................................................................................61

Cleaning the Furnace and Sensor ............................................................... 61

Cleaning the Cover .................................................................................... 61

STA 8000 Part Numbers ................................................................................... 62

Introduction

8 . STA 8000 Installation and Hardware Guide

Pyris Installation

NOTE: If you are going to install multiple analyzers, or just want to install a universal serial

bus, see

This user’s guide gives information on the installation of your PerkinElmer Thermal Analysis
System, and details about the operation and maintenance of the hardware. This information
can also be found in the Pyris Installation and Har d ware Help provided with your Pyris
software.

Information on the operation of the Pyris software can be found in the softw are Help.
In general, the installation procedure consists of the following steps:

• Prepare the laboratory

• Unpack the thermal analysis system

• Set up the required system components (for example, purge gases, cooling supply, and

analyzer-specific items)

Install Multiple Analyzers

before you begin to install an analyzer.

• Connect the system components

• Configure the analyzer

• Calibrate the analyzer

Safety and Reg ul at ory

Information

10 . STA 8000 Installation and Hardware Guide

Symbols Used in this Help

Bold text refers to text that is displayed on the screen.
UPPERCASE text, for exampl e ENTER or ALT, refers to keys on the computer keyboard. '+' is

used to show that you have to press two keys at the same time, for example, ALT+F.
All eight-digit numbers are PerkinElmer par t numbers unless stated otherwise.

Notes, Cautions and Warnings

Three terms, in the following standard formats, are also used to highlight special
circumstances and warnings.

NOTE: A note indicates additional, significant information that is provided with some

procedures.

CAUTION

einen Geräteschaden zu vermeiden.

undgå en beskadigelse af apparatet.

este tipo de circunstancias.

figurent dans un encadré semblable à celui-ci.

riquadro come questo.

opgevolgd, om beschadiging van het instrument te voorkomen.

Safety and Regulatory Informati on . 11

We use the term CAUTION to inform you about situations that could
result in serious damage to the instrument or other equipment. Details
about these circumstances are in a box like this one.

Caution (Achtung)

Bedeutet, daß die genannte Anleitung genau befolgt werden muß, um

Caution (Bemærk)

Dette betyder, at den nævnte vejledning skal overholdes nøje for at

Caution (Advertencia)

Utilizamos el término CAUTION (ADVERTENCIA) para advertir sobre
situaciones que pueden provocar averías graves en este equipo o en
otros. En los recuadros como éste se proporciona información sobre

Caution (Attention)

Nous utilisons le terme CAUTION (ATTENTION) pour signaler les
situations susceptibles de provoquer de graves détériorations de

l'instrument ou d'autre matériel. Les détails sur ces circonstances

Caution (Attenzione)

Con il termine CAUTION (ATTENZIONE) vengono segnalate
situazioni che potrebbero arrecare gravi danni allo strumento o ad
altra apparecchiatura. Troverete informazioni su tali circostanze in un

Caution (Opgelet)

Betekent dat de genoemde handleiding nauwkeurig moet worden

Caution (Atenção)

Significa que a instrução referida tem de ser respeitada para evitar a
danificação do aparelho.

12 . STA 8000 Installation and Hardware Guide

Verletzung des Benutzers kommen kann.

overholdes.

este tipo de circunstancias.

dans un encadré semblable à celui-ci.

informazioni su tali circostanze in un riquadro come questo.

genomen, dit kan leiden tot verwondingen van de gebruiker.

We use the term WARNING to inform you about situations that could
result in personal injury to yourself or other persons. Details about
these circumstances are in a box like this one.

WARNING

Warning (Warnung)

Bedeutet, daß es bei Nichtbeachten der genannten Anweisung zu einer

Warning (Advarsel)
Betyder, at brugeren kan blive kvæstet, hvis anvisningen ikke

Warning (Peligro)

Utilizamos el término WARNING (PELIGRO) para informarle sobre
situaciones que pueden provocar daños personales a usted o a otras
personas. En los recuadros como éste se proporciona información sobre

Warning (Danger)

Nous utilisons la formule WARNING (DANGER) pour avertir des
situations pouvant occasionner des dommages corporels à l'utilisate u r
ou à d'autres personnes. Les détails sur ces circonstances sont données

Warning (Pericolo)

Con il termine WARNING (PERICOLO) vengono segnalate situazioni
che potrebbero provocare incidenti alle persone. Troverete

Warning (Waarschuwing)

Betekent dat, wanneer de genoemde aanwijzing niet in acht wordt

Warning (Aviso)

Significa que a não observância da instrução referida poderá causar um

ferimento ao usuário.

Safety and Regulatory Informati on . 13

Caution

off

Symbols Used on t he Ins truments

Caution, hot surface.
Attention surface chaude.

Caution, risk of electric shock.
Attention, risque d'électrocution.

Documentation must be consulted to determine
the nature of the potential hazard a nd any actions which have to be
taken.

Attention
La documentation doit être consultée pour déterminer
La nature du risque potentiel et des actions qui doit être pris.

Caution – Cold surface
Attention, Surface froide

The following additional graphic symbols used on the instrument:

Indicates alternating current

Indicates the primary protective gr ounding terminal

Indicates the

Indicates the on position of the main power switch

position of the main power switch

14 . STA 8000 Installation and Hardware Guide

connected to true electrical ground. Any interruption of the protective

terre de protection peut nuire à la protection fournie pa r l'instrument.

Electrical Warnings

Connect the instrument to an AC line p ower outlet that has a
protective ground connection. To ensure satisfactory and safe

WARNING

operation of the instrument, it is essential that the protective ground
conductor (the green/yellow lead) of the line power cord is

AVERTISSEMENT

WARNING

ground conductor, inside or outside the instrument, o r disconnection
of the protective ground terminal may impair the protection provided
by the instrument.

Connectez l'instrument à une prise de courant de ligne AC qui a une
connexion de terre de protection. Pour assurer un fonctionnement
satisfaisant et sécurisé de l'instrument, il est essentiel que le
conducteur de terre de protection (le fil vert / jaune) du cordon
d'alimentation de la ligne soit connecté à une vraie terre électrique.
Toute interruption du conducteur de terre de protection, à l'intérieur
ou à l'extérieur de l'instrument, ou la déconnexion de la borne de

Do not operate the instrument with any covers or parts removed.

Ne pas utiliser l'instrument avec des couvertures ou des pièces
retirees.

AVERTISSEMENT

Do not attempt to make adjustments, replacements, or repairs to
this instrument except as described in this help file. Only a

WARNING

PerkinElmer service representative should be permitted to service
the instrument.

N'essayez pas de faire des ajustements, des remplacements ou des
réparations à cet instrument, sauf comme décrit dans ce fichier

AVERTISSEMENT

d'aide. Seul un représentant du service PerkinElmer devrait être
autorisé à servir l'instrument.

Safety and Regulatory Informati on . 15

N'utilisez que des fusibles avec la note de courant requise et du type

Use only fuses with the required current rating and of the specified
type for replacement.

WARNING

AVERTISSEMENT

spécifié pour le remplacement.

16 . STA 8000 Installation and Hardware Guide

Electromagnetic Compatibility (EMC)

Europe

All information concerning EMC standards is in the Declaration of Conformity, and these
standards may change as the European Union adds new requirements.

PerkinElmer instruments have been designed and manufactured, having regard to the state
of the art, to ensure that:

• the electromagnetic disturbance generated does not exceed the level above which
radio and telecommunications equipment or other equipment cannot operate as
intended;

• it has a level of immunity to the electromagnetic disturbance to be expected in its
intended use which allows it to operate without unacceptable degradation of its
intended use.

South Korea

This device complies with MSIP (Ministry 0f Science, ICT, and Future Planning) EMC
Registration requirements. This instrument is reg istered as a Class A instrument for buiness
use only. Product seller and user should notice that this equipment is not for house hold use.

A급 기기 (업무용 방송통신기자재)
이 기기는 업무용(A급) 전자파적합기기로서 판
매자 또는 사용자는 이 점을 주의하시기 바라
며, 가정외의 지역에서 사용하는 것을 목적으
로 합니다.

United States (FCC)

United States (FCC) 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
business/industrial/commercial environment is likely to cause harmful interference in which
the user will be required to correct the interference at your own expense. Changes or
modifications not expressly approved by the manufacturer could void your aut hority to
operate the equipment in compliance with FCC rules.

NOTE: Changes or modifications not expressly approved by PerkinElmer could cause the

instrument to violate FCC (U.S. Federal Communicat ions Commission) emission
regulations, and because of this violation could void the user’s authority to operate
this equipment.

Safety and Regulatory Informati on . 17

Electrical Safety

This analyzer conforms to IEC publication 61010-1 (“Safety requirements for electrical
equipment for measurement, control and laboratory use”) as it applies to IEC Class 1
(earthed) appliances, and therefore meets the requirements of the Low Voltage Directive
2006/95/EC.

Pollution Degree 2

This product will operate safely in environments that co ntain nonconductive foreign matter
up to Pollution Degree 2 in EN/IEC 61010-1.

Normally only non-conductive POLLUTION occurs. Occasionally, however, a temporary
conductivity caused by condensation must be expected.

Use of Hazardous Substances

This product meets the requirements of the Restriction of Hazardous Substances Directive
2011/65/EU.

18 . STA 8000 Installation and Hardware Guide

WEEE Instructions for PerkinElmer Products

or

A label with a crossed-out wheeled bin symbol and a rectangular bar indicates that the
product is covered by the Wa ste Electrical and Electro nic Equipment (WEEE) Directive and is
not to be disposed of as unsorted municipal waste. Any products marked with this symbol
must be collected separately, according to the regulatory guidelines in your area.

The objectives of this program are to preserve, protect and improve the quality of the
environment, protect human health, and utilize natural resources prudently Requirements for
waste collection, reuse, recycling, and recovery programs vary by regulatory authority at
your location. Contact your local responsible body (for example, your laboratory manager) or
authorized representative for information regarding applicable disposal regulations. Contact
PerkinElmer at the web site listed below for information specific to PerkinElmer products.

Web address:

www.perkinelmer.com/WEEE

For Customer Care telephone numbers select “Contact us” on the web page.
Products from other manufacturers may also form a part of your PerkinElmer system. These

other producers are directly responsible for the collection and processing of their own waste
products under the terms of the WEEE Directive. Please contact these producers directly
before discarding any of their products.

Consult the PerkinElmer web site (above) for producer names and web addresses.

Safety and Regulatory Informati on . 19

Prepare th e Lab orat ory

22 . STA 8000 Installation and Hardware Guide

Prepare the Laboratory

The following sections describe requirements for your Thermal Analysis System. Make sure
your laboratory meets all of the requirements before you try to install the system. You should
step through the topics in the order presented below.

Before starting installation, please read the Safety and Regulatory Information.

• Electrical Requirements

• Environmental Requirements

• Purge Gas and Pneumatic Supply Requirements

• Space Requirements

Electrical Requirements

Power Source

An independent power source should be provided for the system, including the computer.
The power source should not be associa ted with heavy-duty equipment such as large motors,
or with possible sources of high-frequency interference such as photocopying systems,
discharge lamps, or radio transmitters. The power supply should be fused at a maximum o f
20 A (120 V systems) or 16 A (200–240 V systems).

Line Voltage

PerkinElmer analyzers and their associated inst ruments are designed to operate within a line
voltage range of 10% of the nameplate voltage or other such voltage selected at installation
to suit the particular country or region. (The range for 240 V systems is +6%, –10%.) The
supply must be smooth, clean, earthed and free of transient voltages over 40 V.

The frequency range is ±1% for 50 Hz and 60 Hz systems.

Instrument Maximum Power Requirements

Refer to the Safety Precautions for the instrument.

Environmental Requirements

You must provide the following laboratory conditions for your Thermal Analysis System:

• A clean area, free from vibration and strong ma gnetic fields.

• An adequate and stable power source for all system components.

• The area must have a relative humidity of 20–75% (without condensation).

The furnace in the STA 6000/8000 must be protected from condensation, for example,
by using a dry box.

• For optimum performance, the temperature of the area should be between 10 °C and
35 °C (50 °F and 95 °F).

Prepare the Laboratory . 23

• Place the system components in an area that is not in direct sunlight or direct contact
with heating and co oling ducts or units.

• The instruments are for indoor use only.

• The storage temperature is between −20 °C and 60 °C.

• The altitude limitation for the operation of this instrument is 2000 m.

• The altitude for storage of this instrument is 0–12000 m.

• The installation overvoltage ca tegory for all instruments is Category II.

• The pollution degree is 2 for all instruments. (This product will operate safely in

environments that contain nonconductive foreign matter up to Pollution Degree 2 in
EN/IEC 61010-1.)

• The instrument must be positioned so that the appliance coupler can be removed to
completely disconnect the power from the instrument.

NOTE: If the equipment is used in a manner not specified by PerkinElmer, the protection

provided by the equipment may be impaired.

Purge Gas and Pneumatic Supply

The recommended purge gas for all Thermal Analyzers at ambient temperatures is argon or
nitrogen with a minimum purity of 99.9%. Other gases, such as air or oxygen, may also be
used. Air or oxygen is recommended for the purge gas when performing oxidation studies
(DSC analyses).

The purge gas for any instrument must b e dry. Use a size 1A cylinder equipped with a
pressure regulator that has a shutoff valve at the outlet. The shutoff valve should have
1/4 in. NPT male threads on the outlet side for connection to the analyzer’s pur ge gas line.

Space Requirements

Refer to the Safety Precautio ns for the instrument.
Once all of the above requirements are met, you can install your analyzer.

24 . STA 8000 Installation and Hardware Guide

Install Multiple Analyzers

26 . STA 8000 Installation and Hardware Guide

Install Multiple Analyzers

The only way to attach multiple instruments to your computer is via a universal serial bus.
PerkinElmer no longer supports the Multiport RS-232 Card (P/N 09402018). Installation of
the universal serial bus MUST be done before insta lling any analyzer.

A Pyris Series USB Multiport is an RS-232 m odule that uses the USB port on the PC and
features plug-and-play intelligent connectivity. The USBs supported by PerkinElmer are the
EdgePort/4 (P/N 09402020) and EdgePort/8 (P/N 09402019). They eliminate the need to
install cards into dedicated computer slots and reconfigure the system. Computers with
standard USB allow peripherals to be automatically configured as soon as they are physically
attached without the need to reboot or run setup.

NOTE: Some PerkinElmer analyzers now have USB ports in addition to, or sometimes in

place of, RS-232 ports. If you are working with these analyzers, you will need to use
a USB hub device instead of the Edgeport to con nect multiple analyzers to a single
computer. A suitable 7-port USB hub is available (P/N HH10151008). Contact your
PerkinElmer Service Representative for further information.

To install an EdgePort:

1. Attach one end of the USB cable to one of the USB connectors at the back of the
computer.

Install Multiple Analyzers . 27

2. Attach the other end of the connector cable to the USB port on the EdgePort.

EdgePort/4

EdgePort/8

DO NOT connect any instruments to the EdgePort at this time.

If your computer is connected to the Internet, it will now download the software drivers
for the EdgePort. Once this process is completed, you can install the individual analyzers
by connecting them to the RS-232 ports on the EdgePort and configuring them in the
Pyris software.

28 . STA 8000 Installation and Hardware Guide

Install an STA 8000

30 . STA 8000 Installation and Hardware Guide

Be sure that all instrument operators read and understand
the following precautions. It is advisable to post a copy of
these precautions on or near the instrument itself.

Assurez-vous que tous les opérateurs d' instr uments lisent
et comprennent les précautions suivantes. Il est conseillé
de publier une copie de ces précautions sur ou près de
l'instrument l ui -même.

Never touch the outer and inner furnace lid s. The
temper at ur e o f the furnac e c a n re a c h a s h ig h as 445 ° C. Use
tweezers to remove the lids.

Ne touchez jamais les couvercles extérieurs et intérieurs du
four. La température du four peut atteindre 445 ° C. Utiliser
une pince à épiler pour enlever les couvercles.

Safety Precautions for the STA 8000

WARNING

AVERTISSEMENT

The following precautions must be observed before and during use of the STA 8000:

• Before connecting the STA 8000 to the main outlet, check the main voltage setting and
fuse.

• The STA 8000 requires a good earth ground that is common to the earth ground of the
computer.

• Check that the power cord supplied is appropriate for your country and is undamaged
before connecting it to the main voltage supply.

• Use proper lifting posture when lifting the analyzer. The STA 8000 weighs 16 kg. Never
attempt to lift the analyzer with any cables attached.

• When cleaning the instrument, consul t PerkinElmer if there is any doubt about the
compatibility of decontamination or cleaning agents with parts of the equipment or with
material contained in it.

WARNING

AVERTISSEMENT

Install an STA 8000 . 31

Do not touch the inside of the fur nace; it might be hot.

Ne pas toucher l'intérieur du four; il pourrait être chaud.

Always ensure that there is adequate ventilation when
oper a t ing t he STA 8000. Oper a te the STA 8000 in a f ume
hood when running samples that give off toxic gases,
because the reaction gases escape through the furnace lids.

Veillez toujours à ce qu'il y ait une ventilation adéquate
lorsque vous utilisez le STA 8000. Utilisez le STA 8000 dans
une hotte lorsqu'il e xécute des é chanti llons qui dégagent
des gaz toxiques, car les gaz de réaction s'échappent par les
couvercles du four.

Never operate the STA 8000 in a conde ns i ng atmos p he r e .
Any liquid water present could reach the ele ctroni cs a t the
base of the sensor.

Ne faites jamais fonctionne r le STA 8000 dans une
atmosphère de condensatio n. T out l' e au liquide pré s ente
pourrait atteindre l'électronique à la base du capteur.

écaniques. Si

000

au-dessus de 50 °.

WARNING

AVERTISSEMENT

WARNING

AVERTISSEMENT

WARNING

AVERTISSEMENT

CAUTION

ATTENTION

Do NOT expose the sensor surfaces to mechanical stress. If no external
cooling is applied, do not operate the STA 8000 above 50 °C.

NE PAS exposer les surfaces du capteur au x contraintes m
aucun refroidissement externe n'est appliqué, ne pas utiliser le STA 8

32 . STA 8000 Installation and Hardware Guide

CAUTION

ATTENTION

Do not exert excessive forces on the sensor disks.
Ne pas exercer de forces excessives sur les disques du capteur.

Important Specifications

Maximum power consumption 450 W

Supply voltage 100-240VAC (+5%, -10%)

Supply voltage frequency 50–60 Hz

Fuses T6.3A ( 250VAC type only)
Safe temperature range 10–40 °C

Dimensions L x H x D 36 x 20 x 35 cm

Weight 16 kg

Install an STA 8000 . 33

Decontamination and Cleaning

Decontamination

Before using any cleaning or decontamination methods except those specified by
PerkinElmer, users should check with PerkinElmer that the proposed method will not damage
the equipment.

Customers wishing to return instrumentation and/or associated materials to PerkinElmer for
repair, maintenance, warranty or trade-in purposes are advised that all returned goods must
be certified as clean and free from contamination.

The customer's responsible body is required to follow the “Equipment Decontaminat ion
Procedure” and complete the “Certificate of Decontamination”. These documents are
available on the PerkinElmer public website:

http://www.perkinelmer.com/Content/technicalinfo/dts_instrumentdeconprocedure.pdf
If you do not have access to the internet contact Customer Care:

Customer Care USA:

(8:30 a.m. – 7 p.m. EST)

1-800-762-4000 (inside the USA)
(+1) 203-925-4602 (outside the USA)

Customer Care Canada: 800-561-4646
Customer Care EU: 0800 40 858 (Brussels)

0800 90 66 42 (Monza)

If you are located outside of these regions, please call your local PerkinElmer sales office for
more information.

Cleaning the Instr ument

Exterior surfaces may be cleaned with a soft cloth, dampened with a mild detergent and
water solution. Do not use abrasive cleaners or solvents.

General Laboratory Safety

Your laboratory should have all equipment ordina r ily required for the safety of individuals
working with chemicals (fire extinguishers, first-aid equipment, safety shower and eye-wash
fountain, spill cleanup equipment, etc.).

34 . STA 8000 Installation and Hardware Guide

HOT SURFACE
The furnace at the center of the ring may be hot.

SURFACE CHAUDE
Le four au centre de l 'anneau peut être chaud.

STA 8000 Warning Labels

Warning Labels on the Upper Ring Around the Furnace

WARNING

AVERTISSEMENT

WARNING

Toxic Gases – Fume Ventilation System

.

Gaz toxiques - Système de ventilation des fumées

.

Always keep airflow unobstructed

Toujours garder le flux d'air dégagé

Install an STA 8000 . 35

Without adequate ventilation, potentially toxic vapors can build up
in the laboratory. Your laboratory must have a relia ble fume
ventilation system before you use this instr ument

Sans ventilation adéquate, des vapeurs potentiellement toxiques
peuvent s'accumuler en laborat oire. Votre laboratoire doit disposer

AVERTISSEMENT

d'un système de ventilation fiable avant d'utiliser cet instrument

Warning Labels on the Back of the STA 8000

WARNING

To maintain adequate ventilation do not block the back of the
instrument.

AVERTISSEMENT

Pour maintenir une ventilation adéquate, ne bloquez pas l'arrière de
l'instrument.

36 . STA 8000 Installation and Hardware Guide

For protection against fire hazard replace only with the
same type and rating of fuse

Pour la protection contre les risques d'incendie, remplacer
uniquement par le même type et le même type de fusible

Grounding circuit continuity is vital for the safe operation of
equipment. Never operate equipment with the grounding
connector disconnected. Disconnect supply cord before
operating

La continuité du circuit de mise à la terre est essentielle
pour la sécurité de fonctionnement de l'équipement.
N'utilisez jamais d'équipement avec le conne cteur de mise à
la terre déconnecté. Débranchez le cordon d'alimentation
avant d'utiliser.

.

WARNING

AVERTISSEMENT

WARNING

AVERTISSEMENT

.

.

Install an STA 8000 . 37

Installing an STA 8000

The installation procedure for the STA 8000 consists of the following steps:

• Prepare the Laboratory (refer to page 22)

• Unpack the STA 8000

• Set Up the STA 8000 System Components

• Connect the STA 8 000 System Compone nts

• Configure the STA 8000

• Calibrate the STA 8000

38 . STA 8000 Installation and Hardware Guide

Use the proper lifting posture when taking the analyzer out
of the shipping ca rton base. Bend your knees when lifting
and securely hold on to the analyzer as you lift

Utilisez la position de levage appropriée lorsque vous retirez
l'analyseur de la base du carton d'expédition. Pliez vos
genoux lors du levage et maintenez-le bien sur l'analyseur
lorsque vous soulevez

Unpacking the STA 8000

The STA 8000 system consist s of the following components:

• STA 8000

• Personal Computer

• Printer (Optional)

• Chiller (Optional)

The STA 8000 is able to operate using mains supply voltages of 100–120 VAC or
200–240 VAC. The analyzer automatically adjusts for the supplied voltage; no manual
adjustments are needed.

The STA 8000 comes wrap p ed in plastic and is surrounded by foam on all sides of the
analyzer. To unpack the analyzer, follow the steps below:

1. Remove the foam inserts from the box.

2. Remove the analyzer from the box.

WARNING

.

.

AVERTISSEMENT

3. Remove the foam from all sides, resting the analyzer on its left or right side as
necessary.

4. Remove the tape and plastic from around the analyzer.

5. Remove the tape from the outer furnace lid and remove the lid. Place it to the side.

6. Remove the packing material from inside the furnace area.

7. Remove the tape from the connectors on the rear of the instrument.

It is recommended that you save the shipping foam should the analyzer require shipment to
another facility in the future.

Parts Included

The STA 8000 comes in two boxes and consists of the following components:

• STA 8000

• Pyris software

• Spares and Accessories Kit

Install an STA 8000 . 39

The Spares and Accessories Kit contains the f ollowing parts:

Item Part Number Quantity

Sensor N5202007 1

Indium calibration standard 03190033 1

Aluminum calibration standard N5380057 1

Gold calibration standard N5380058 1

Palladium calibration standard N5380071 1

Aluminum oxide powder (1 oz bottle) 04190197 1

Tweezers (for sensor installation and
loading pans)

Tweezers (for sensor removal) N5202093 1

Calibration weight N5200042 1

Ceramic sample pans (pack of 3) N5200040 2

Ceramic lids (p ack of 6) N5202032 1

Tubing adaptor (1/8 in. to 1/4 in.) 09903906 1

Gas restrictor 01541498 1

Also included with the STA 8000 are:

• Tygon tubing for connection of liquid coolant to the cooli ng chamber.

• Hose clamps.

• Teflon tubing for purge gas connection.

• Nickel-plated 5/16 in. tubing (2 pieces) for use on Swageloks on the cooling liquid

connections.

09908400 1

• Level indicator.

• RS-232 cable for communicating to the computer.

• Spare fuses.

• Power cord.

• CD containing calibration information.

The procedure for unpacking the STA 8000 is complete.

40 . STA 8000 Installation and Hardware Guide

Set Up the STA 8000 System Components

Place the STA 8000 on your laboratory bench. Do not plug in the power cord until instructed.
The computer and printer should already be on the bench and installed according to each
instrument’s instructions.

Be sure to set up all of the system components listed below before configuring the
STA 8000:

• Install the purge gases

• Remove the shipping/alignment tool

• Install the sensor

• Install the cooling device

Connect the Purge Gas Supply to the STA 8000

The STA 8000 has a system purge gas inlet and two sample purge gas inlets at the back of
the analyzer. The system purge gas p urges the outer portion of the sensor/heat exchanger
assembly with dry gas. This facility must ALWAYS be used when working with the analyzer.
The purge gas, preferably dry nitrogen, prevents condensation of water vapor on the
measuring cell. The system purge gas flow is controlled by a needle valve inside the
analyzer, and is preset to a flow rate of 45 m l/min.

NOTE: The gas pressure must be regulated by the user to a maximum of 90 psi (6.2 bar). A

pressure of 30–45 psi (2–3 bar) is suitable for most experiments.

The sample purge gas inlets (A and B) are used to purge the furnace, and are part of the
internal gas selector (which has two inlets and one outlet). Argon or nitrogen of 99.9%
minimum purity is recommended for purging the sample area. Other gases such as a ir or
oxygen may also be used. The flow rate of the sample purge gas is controlled using the Pyris
software, and can be between 0 and 200 ml/min.

NOTE: The gas must be dry. A flow rate of 20–40 ml/min is recommended.

The procedure for connecting the purge gas supply includes the following steps:

• Connect the purge gas line to the system gas supply.

• Install a filter dryer (optional).

• Connect the purge gas and system purg e gas lines to the STA 8000.

For more information on the purge gases, see

Sample Handling

on page 57.

Install an STA 8000 . 41

Check that the regulated gas pre ss ure doe s not excee d 90
psi (6.2 bar) before switching on the gas supply

Vérifiez que la pression de gaz réglementée ne dépasse pas
90 psi (6,2 bar) avant d'allumer l'alimentation en gaz.

Connect the Purge Gas and System Purge Gas Lines to the STA 8000

Perform the following procedure to connect your sample purge gas and system purge gas
lines to the STA 8000 analyzer regardless of the other components in the purge gas line.
Assuming all the other components of the purge gas line are installed, you will now connect
1/8 in. Teflon tubing to the STA 8000 using a female connector.

The STA 8000 System Purge Gas (1 pc) and Sample Purge Gas (2 pcs) connectors are
mounted to the back of the analyzer.

1. Place the 1/8 in. Teflon tubing from your dry purge gas line onto the inlet labelled
System Purge ALWA YS REQUIRED.

2. Place the 1/8 in. Teflon tubing from your Sample Purge Gas line onto the inlet labelled
sample purge A.

If required, a second sample purge line (1/8 in. Teflon tubing) can be connected to the
purge B inlet.

WARNING

AVERTISSEMENT

.

When using the STA 8000 in environments of high relative humidity, a mini dry box
(P/N N5202070) is re c ommended to prevent condensation. This acts simply to protect the
furnace from cond ensation, and is not connected to the dry box purge inlet.

NOTE: The dry box purge inlet is non-functional in the STA 8000.

42 . STA 8000 Installation and Hardware Guide

Le capteur STA 8000 est une partie fragile en raison de la céramique

e et doit être manipulé avec précaution. Jusqu'à ce que le

capteur soit placé dans l'analyseur, il doit être conservé dans sa boîte..

Removal of the Shipping/Alignment Tool

The STA 8000 is shipp ed with a tool inserted through the furnace into the balance
mechanism to minimize vibration during transportation. This tool is also used to align the
system after replacing a furnace or balance. It is important that you keep this tool in a safe
place. It is also recommended that you save the shipping foam should the analyzer require
shipment to another facility in the future.

1. Remove the furnace cover and the foam inserts.

2. Grip the upper part of the shipping/alignment tool using flat tweezers and carefully lift it
straight upwards and out of the furnace.

To replace the shipping/alignment tool:
 Insert the tool into the hole in the bottom of the furnace.

The flat plate must be pointing towards the front of the analyzer.

To prepare the analyzer for shipment:

1. Position the two-part foam insert on top of the shipping/alignment tool within the
furnace.

2. Place the cylindrical foam insert on top of the first foam insert.

3. Replace the furnace cover and tape it shut.

Install the Sensor

1. Switch on the STA 8000.

2. Ensure that the shipping/alignment tool is removed.

CAUTION

ATTENTION

3. Remove the sensor from its box.
Avoid touching it with bare hands.

4. Using the pointed tweezers provided (P/N 099084 00) , grip the sensor by the thicker
area at the top of the rod.

The STA 8000 sensor is a fragile part due to the breakable ceramics
used, and must be handled with care. Until the sensor is placed in the
analyzer, it should be kept in its box.

cassable utilisé

Install an STA 8000 . 43

uf le haut de la

5. Position the sensor just above the hole in the bottom of the furnace.
The three electrical contacts must point towards the front of the analyzer.

6. Carefully lower the sensor into the hole, keeping it in an upright position.
Do not rub the electrical contacts against the furnace insulation.

7. When the sensor encounters resistance, release the rod.

8. Press the top of the rod GENTLY with the tweezers and push the sensor downward a
further 2–3 mm until it does not g o any further.

As the sensor makes contact with the bala nce mechanism, a beep will sound.

CAUTION

ATTENTION

Do not push down on any pa rt of the sensor except the top of the rod.

Ne poussez pas sur n'importe quelle partie du capt eur, sa
tige.

To remove the sensor:

 Grip the sensor at the top of the rod with tweezers, and pull it str aight upwards and out

of the furnace.
Two short beeps will sound.

NOTE: Always place the sensor in its box if it is not going to be put back in the instrument

immediately. Replace the shipping/alignment tool if the analyzer is to be moved.

44 . STA 8000 Installation and Hardware Guide

sé qu'avec

000, car toute condensation dans la zone du four

pourrait endommager les circuits électroniques.

vous que les évents d'air de refroidissement à l'avant et à

loqués. Maintenir un espace

minimum de 15-20 cm.

Connect the Cooling Device to the STA 8000

The STA 8000 ha s an integrated cooling jacket t hat accepts various types of cold gases and
liquids. The recommended cooling system is the Polyscience Chiller, which operates between
–20 and 200 °C. The recommended temperature range of the coolant is 15–25 °C.

CAUTION

ATTENTION

NOTE: A mini dry box accessory (P/N N5202070) is available which sits on top of the furnace

and is recommended to help prevent condensation forming when the furnace is at
low temperature in a humid atmosphere.

Low temperature cooling should only be used with ca ution on the STA
8000, as any condensation in the furnace area could damage the
electronic circuits.

Le refroidissement à basse température ne doit être utili
prudence sur le STA 8

Connecting to the Chiller

NOTE: An appropriate fluid must be used with the chille r . Distilled water is recommended for

operation at temperatures between 10 °C and 90 °C. Alternatively, normal tap water
can be used. For op eration at –20 °C to 100 °C, 50% ethylene glycol in wa ter is
recommended.

CAUTION

ATTENTION

When using the chiller, connect the cooling supply to the STA 8000 as follows:

1. Make sure that the chiller is switched off but that its power cord is plugged into a power
supply.

Ensure that the cooling air vents at the front and rear of the cooler are
not blocked. Maintain a minimum space of 15–20 cm.

Assurez­l'arrière du refroidisseur ne sont pas b

Install an STA 8000 . 45

2. Screw one of the barbed hose couplings shipped with the chiller into the OUTLET
connection on the chiller unit, and t ighten with a suitable wrench.

Couplings suitable for several different hose sizes are provided with the chiller.

3. Push a hose (compatible with the desired coolant) onto the OUTLET coupling and
secure with a hose clamp.

4. Slide the other end of the hose over the metal tube labelled COOLING LIQUID IN on the
thermal analyzer.

Place a hose clamp around the hose and metal tube to secure the hose in place.

5. Screw a barbed hose coupling into the INLET connectio n o n the chiller unit, and tighten
with a suitable wrench.

6. Push a hose onto the INLET coupling and secure with a hose clamp.

7. Connect the other end of the hose to the COOLING LIQUID OUT connector on the
analyzer.

Place a hose clamp around the hose and the metal tube to secure the hose in place.

Setting Up The Chiller

1. Fill the reservoir with coolant.
Ensure that the cooling coils are completely covered. The maximum coolant level is

25 mm below the top of the reservoir.

2. Switch the chiller on at the mains supply and at the switch on the rear of the control
unit (NOT using the Power switch on the front of the control unit).

3. When switching on the chiller for the first time, select the display language by rotating
the Select/Set control on the front panel, and then pressing to select the desired opt ion.

The chiller control unit will continue with its start-up sequence and then display
“Standby” when ready.

4. Set the Safety Set Point on the control unit using a flat screwdriver to rotate the control
to the maximum temperature to which the bath should be heated.

To ensure that the analyzer performs correctly, we recommend a maximum
temperature of 45 °C for the cooling supply.

5. Press the Power switch on the front panel.
The pump will begin operating.

6. Top up the coolant reservoir as needed to compensate for the fluid in the external
circuit.

7. Rotate the Select/Set control on the front panel until the Pump/AutoTune menu is
displayed.

8. Press the Select/Set control until the pump speed bar is highlighted.

9. Rotate the Select/Set control to adjust the pump speed, and press the control to accept
the new setting.

46 . STA 8000 Installation and Hardware Guide

La gaine de refroidissement du STA 8000 n'acceptera PAS la pression.
Utilisez le débit le plus bas qui procure un refroidissement suf fisant pour
votre expérience afin de minimiser la pression dans le système.

CAUTION

ATTENTION

The cooling jacket of the STA 8000 will NOT accept pressure. Use the
lowest flow rate that provides sufficient cooli ng for your experiment to
minimize the pressure in the system.

NOTE: It is essential to maintain a very constant flow rate of coolant. The liquid should be

free of air bubbles. Changes in the liquid flow rate or the presence of air bubbles will
reduce the quality of the measurement signal.

Setting the Coolant Temperature

When using a circulator, the temperature must be controlled to within 0.2 °C (set point
± 0.1 °C).

1. Press and release the Select/Set control on the front panel.
The set point temperature value is highlighted.

2. Turn the control to set the temperature to the nearest whole degree Celsius.
A value of 20 °C is recommended.

3. Press the control again.
The degree fraction figures are highlighted.

4. Turn the control to select the desired fraction of a degree.

5. Press the control to accept the value.

Connecting to tap water

When using tap water:

1. Make sure the tap water is conveniently located near the STA 8000.

2. Connect a hose to the COOLING LIQUID IN connector.
Secure with a clamp.

3. Connect the other end of this hose to the tap.

4. Connect the other hose to the COOLING LIQUID OUT connector.
Secure with a clamp.

5. Connect the other end of the hose to a suitable drain.

The cooling inlet and outlet are located at the rear of the analyzer and are correspondingly
marked Cooling Liquid In and Cooling Liquid Out. In order to connect the cooli ng supply to
the STA 8000, connect the black tubing supplied to the i nlet and outlet (outer diameter is
8 mm). When using tap water, connect the inlet to the tap and the outlet to a suitable drain.
When using a circ ulator, connect the inlet of the STA 8000 to the outlet of the circulator, and
the outlet of the STA 8000 to the inlet of the circulator.

Install an STA 8000 . 47

La gaine de refroidissement du STA 8000 n'acceptera PAS la pression.

qui procure un refroidissement suffisant pour

votre expérience afin de minimiser la pression dans le système.

When using tap water, the temperature should not change more than 0.4 °C/hour.

CAUTION

ATTENTION

NOTE: It is essential to maintain a very constant flow rate of water. The liquid should be

free of air bubbles. Changes in the liquid flow rate or the presence of air bubbles will
reduce the quality of the measurement signal.

The cooling jacket of the STA 8000 will NOT accept pressure. Use the
lowest flow rate that provides sufficient cooling for your experiment to
minimize the pressure in the system.

Utilisez le débit le plus bas

48 . STA 8000 Installation and Hardware Guide

vous que tous les com posants sont éte ints et débranchés ava nt

Connect the STA 8000 Components

The computer and optional printer should already be connected together and the Pyris
software already installed. To complete the connection of the system components, the
STA 8000 has t o be connecte d to the computer.

CAUTION

ATTENTION

The image below shows the connections on the STA 8000:

Make sure all components are turned off and unplugged before you
begin.

Assurez­de commencer.

1. Connect one end of the R S-232 cable to the back of the STA 8000.

2. Connect the other end of the RS-232 cable t o COM1 on the back of the computer.

3. Connect the printer cable to the USB port.

4. Connect the analyzer, printer and comput er power cords to AC o utlets.

5. Once the system conne ctions are made, switch on the system in the following order:

– Computer
– STA 8000
– Printer

6. Turn on the purge gas supply, and the water for the STA 8000 cooling system or any
other accessories for the cooling device you are using.

Install an STA 8000 . 49

Configure the STA 8000

The Pyris software must be configured for the STA 8000. This must be done before the
STA 8000 Application can be recognized.

1. Select Pyris Config from the Pyris group under PerkinElmer Ap plications in the
Programs menu accessed from the Start button.

OR
Select Configure Analyzer from the Pyris Manager Start but ton menu.

The Pyris Configuration dialog box appears on t he screen.

2. Click the Ad d Analyz e r button.
The Add Analyzer dialog box appears.

3. From the list of available ports, select the port to which you connected the analyzer.
Remember that COM5 appears when an analyzer is connected to port 1 of an EdgePort

USB Converter.

4. Click the Add button.
The STA 8000 Configuration dialog box is displayed. The system detects the type of

analyzer that is attached and displays the default name and other information for an
STA 8000 in this dialog box.

5. Select the accessories that are attached to the analyzer.

6. Click OK to accept the selections.

7. Click OK to exit the Configuration dialog box.
OR
Select Add Analyzer to add another analyzer to the configuration.

Remember that the analyzer must be connected to the communications port and
switched on, otherwise it will not be recognized by the Pyris software.

50 . STA 8000 Installation and Hardware Guide

Once Pyris Software has been configured for the STA 8000, the STA 8000 Application can be
started from Pyris Manager.

Starting the Pyris Manager

1. Select Pyris Manager from the Pyris Software group in Programs on the Start menu.
The Pyris Manager is displayed on t he screen.

2. Select STA 8000 from the Pyris Manager.
The STA 8000 control panel is displayed.

3. Heat the sensor to approximately 150 °C to burn off any excess moisture.

Enter 150 in the box beneath the Go To Temp button
and click the button.

4. After 10–15 minutes, cool the analyzer to ambient temperature.

The configuration for the STA 8000 is complete. The analyzer is ready to be calibrated.

on the control panel

Install an STA 8000 . 51

Calibration of the STA 8000

The STA 8000 has been calibrated at the factory for both temperature and heat flow. As a
result of the use of high-precision sensors, the temperature accuracy does not vary over the
temperature range and remains constant for long periods of time. Under normal conditions,
the only calibrations required at installat ion ar e the weight calibration and baseline
optimization. The weight calibration should also be performed if the analyzer is physically
moved, and the baseline optimization should be repeated whenever there is a substantial
change in chiller temperature or purge gas flow rate, or when the sensor is replaced.

We do recommend that the temperature and heat flow calibrations are verified using the
samples of indium and gold (which are provided in the Spares and Accessory Kit) before
obtaining data. When installing a new analyzer, ca r ry out these steps in order:

1. Weight Calibration and Verification

2. DTA Baseline Optimization

3. Temperature Verification

4. Heat Flow Verification

For general guidance on loading samples into the analyzer, see

Sample Handling

on page 57.

Weight Calibration

1. Once all the system components are installed and the system purge and coolant flow
have been turned on, leave the instrument for 4–8 hours to fully equilibrate and
stabilize the balance to the laboratory environment.

2. Place a ceramic pan on each platform of the sensor.

3. Open the calibrati on routine and click Start Calibration.

4. Enter the value of the calibration weight.
Use a Class '0' 100 mg weight or the weight provide d with the STA 8000.

5. Click Run Calibration and follow the instructions on the screen.

6. At the end of the calibration, save and close the calibration.

7. Remove the weight.

Weight Verification

1. After the balance has stabilized and the weight has been calibrated, tare an empty pan,
place the calibration reference weight provided into the sample pan and record the
weight displayed in the status panel.

2. Verify that the weight reading is in good agreement with the certified value of the
calibration reference weight.

52 . STA 8000 Installation and Hardware Guide

DTA Baseline Optimization

This optimizes the Differential Thermal Analyser scanning baseline between two
temperatures selected by the user. The resultant DTA curve is fitted to an equation that
flattens the baseline. The process takes 1–2 hours.

 In the DTA Baseline Optimization screen, enter the Start Temperature, End

Temperature and the Scan Rate, and then click Run Calibration.

Select start and end temperatures which include the range you will use for your
measurements. It is important to choose a start temperature below that which you will
use in experiments to ensure that the baseline optimization covers the full range of
temperatures needed. Use a scan rate that you plan to use for most analyses;
suggested values are 10–20 °C/m in.

TG Drif t Opt imi zat ion

This process corrects for the variation in w eight measurement that occurs as the temperature
of the balance alters during an experiment. The balance temperature is affected by the
cooling device used with the analyzer. We recommend that you carry out the TG Drift
Optimization when the instrument is first insta lled. Subsequently, it should only be repeated
if you change the co oling system.

 In the DTA Baseline Optimization screen, click the box marked Perform TG drift

optimization (~8 hours).

The optimization routine will be performed using a predefined method (not the same
method as the DTA Baseline Optimization). Since the procedure takes approximately
8 hours to complete, we recommend that you run it overnight. If the option is selected,
Pyris will run the TG Drift Optimization followed automatically by the DTA Baseline
Optimization.

Temperature and Heat Flow Verification

During normal use, it is usually only necessary to verify that the existing calibration gives
accurate data by running a test with a standard and checking that the temperature and heat
flow measurements agree with the accepted values. An example of a suitable procedure is
given below.

NOTE: The recommended calibration standards for temperature in the STA 8000 are indium,

aluminum and gold. The user can substitute these for different standards using the
calibration wizard in the Pyris software. Palladium should be used instead of gold for
experiments where the temperature exceeds 1300 °C. The recommended calibration
standards for heat flow are indium and gold/palladium. Refer to the Pyris software
Help for more information.

1. Place empty sample pans onto both platforms of the sensor, and tare the weights.

2. Place a piece of the standard (10–20 mg) into the sample pan (on the left side of the
sensor) and record the w eight.

The weight can also be entered manually in the Method Editor.

3. Create and run a method to heat the sample in excess of its melting temperature at a
scan rate of 20 °C/min.

Install an STA 8000 . 53

4. After the data have been collected, calculate the onset temperature and heat flow for
the melting peak as follows:

– Click

the standards.

– Perform a peak area and onset calculation by clicking Calc > Peak Area and

selecting the Onset box.

– Move the X markers o n the chart into position at the beginning and end of the

melt peak and click Calculate.
If the peak does not show a straight leading ed g e (which makes it difficult to
accurately measure the onset temperature), rerun the method after equilibrating
at the start temperature.

– Record the results for each standard.

5. Verify that the melting temperature and heat flow data are in good agreement with the
values in the table below.

6. Remove the reference sample for future use.

The recommended standard materials have the following values for melting temperature and
heat flow (from

Standard Melting Temperature (°C) Energy (Heat Flow) (J/g)

Indium 156.6 28.6

to open Data Analysis, and open the files of the experiments run using

CRC Handbook of Chemistry and Physics

, 81st edition, 2000, p.12-197):

Aluminum 660.3 399.9

Gold 1064.2 64.6

Palladium 1554.9 157.3

If the results for the standards give temperature or heat flow data that do not correspond to
these values, then a new calibration must be performed. Refer to the Pyris software Help for
further details.

The installation of the STA 8000 is now complete.

54 . STA 8000 Installation and Hardware Guide

STA 8000 Hardw are

56 . STA 8000 Installation and Hardware Guide

STA 8000 Hardware Overview

The STA 8000 Simultaneous Thermal Analyzer offers performance, reliability and productivity
you can depend on. Designed with routine and research applications in mind, the STA 8000
applies leading edge sensor technology to yield higher accura cy and quality results.

The STA 8000 is controlled by PerkinElmer's Pyris software on the computer to which t he
analyzer is connected. The information it provides is essential to industries such as plastics
and polymers; automotive; semiconductors and electronic s; adhesives; paints and coati ngs;
fuels; ceramics, clays, and soil; food; pharmaceuticals; and medical devices and equipment.

The STA 8000 has an integrated cooling jacket, in which you can use various types of cooling
liquids with temperatures higher than 15 °C (non-condensing). During operation, the cooling
liquid flow rate should be between 0.5 and 1 l/min. The cooling liquid should be at a
temperature such that there is no condensation inside the analyzer. The recommended
cooling device is the Polyscience Chiller (P/N N5370220/N537-0221 for 120 V and 220 V
respectively).

The STA 8000 ha s a top-loading microbalance. There are two platforms that connect to the
microbalance via the sensor. When seen from the front of the analyzer, the right-hand
platform is for a reference pan, and the left-hand platform is for the sample pan. The top­loading balance has many advantages over a hangdown wire design. With this design,
however, placement of the sample in the sample pan and of the sample pan on the pla tform
is very important. The microbalance is very sensitive to sample positioning.

The furnace has a large isothermal zone. The sample and reference positions in the
STA 8000 are approximately in the middle of the isothermal zone. This increases
reproducibility of temperature measurements.

The rapid cooling r ate of the furnace is achieved by mounting the furnace in a liquid-cooled
jacket. To reduce the heating power at high temperatures, the cooling jacket is nickel-plated.
Also, there is forced air cooling. A small air pump is mounted inside the instrument and
activated by clicking the Cooling Air button on the control panel. Liquid cooling is also used to
keep the temperature of the balance housing constant. The cooling jacket is mounted on and
thermally insulated from the balance housing. Temperature gradients are eliminated as much
as possible.

For more information on the STA 8000, refer to the topics below:

• Sample Handling

• Heating

• STA 8000 Maintenance

• STA 8000 Part Numbers

STA 8000 Hardware . 57

Vérifiez que l'alimentation en liquide de refroid isseme nt e st en cir culatio n

vous que les gaz de purge sont réglés sur les débits

ieur du

four.

Sample Handling

The STA 8000 measures the change in temperature (relative to a reference) and weight of a
sample as a function of temperature and/or time. The materials and techniques used to
obtain data with an STA 8000 are discussed below.

CAUTION

ATTENTION

CAUTION

ATTENTION

Check that the cooling liquid supply is circulating before starting a run.

avant de commencer une course.

Ensure the purge gases are set to the recommended flow rates. A rate
that is too high will disturb the inner furnace lid.

Assurez­recommandés. Un taux trop élevé perturbera le couvercle intér

CAUTION

ATTENTION

Do not open the furnace when it is at an elevated temperature
(>100 °C).

Ne pas ouvrir le four lorsqu'il est à une température élevée (> 100 ° C).

Sample Preparation

The instrument analyzes solid samples in powder, crys tal, or granular form. Although
quantitative weight loss accuracy is mostly unaffected by sample shape, the qualitative
appearance of a run may be affected by the sample configuration. The best sample form for
optimum performance is powder or fine granules. Bulk solids can be sliced into small pieces
with a razor or knife. For precise work, such as calibrating the instrument using metal
standards, melting and then cooling the sample in the pan before running the test improves
thermal contact and gives more repeatable results. A sample weight of 10–20 mg is
recommended for most experiments, but the balance can weigh up to 1500 mg, although
this must include the weight of the ceramic pans (approximately 200 mg).

To improve the quality of the data further, cover the sample in a layer of aluminum oxide
(P/N 04190197) within the sample pan. Place a similar quantity inside the reference pan so
that the levels of the material are approximately the same. The aluminum oxide equalizes the
reflectivity of the two pans, which reduces the effect of the sample's surface emissivity on
the heat flow data.

Alternatively, you can place ceramic lids (N520-2032) on to the sample and reference pans to
equalize their reflectivities without the use of the aluminum oxide powder. This approach also
makes it easier to determine the sample weight, because you can measure the empty weight
of the pan and lid before adding the sample.

58 . STA 8000 Installation and Hardware Guide

Sample Pans

The preferred sample pan is the self-centering, thin-walled, ceramic sample pan provided
with the instrument. The sample centers itself in the pan and the pan centers itself on the
platform of the sensor, which optimizes the sample weight data obtained by the STA 8000.
Three sample pans are provided in the spares kit.

Other sample pans can also be used. The only requirements that the pans must meet are
that they do not react or melt within the temperature range of interest, and that the sample
does not form alloys with the material of the sample pan.

Sample Atmosphere

The STA 8000 is ab le to operate in various gas atmospheres. There is one system purge gas
inlet and two sample purge gas inlets at the back of the analyzer.

The system purge gas should be a dry, relatively inert gas that flows through the
microbalance chamber and exits through the sample chamber. This keeps the environment of
the balance constant, prevents absorption or desorption of vapors, and protects the bala nce
against gaseous products evolving from the samples. The system purge gas flow rate is fixed
at 45 ml/min. To prevent delays due to equilibration of the analyzer, we strongly recommend
that the system purge gas is present at all times.

You can control the atmosphere in which the sample is run by using a sample purge gas to
augment the system purge, or to introduce reactive gases into the sample furnace.
Recommended purge gases are air, nitrogen, argon, oxygen, and helium. When changing
from one purge gas to another or cha nging flow rates, we recommend that you check the
temperature calibration. A sample purge flow rate of 20–40 ml/min is recommended
(controlled by the Pyris software). A p urge gas inlet pressure of 2–3 bar (30–45 psi) is
suitable, with a maximum pressure of 6.2 bar (90 psi).

The sample purge gas enters the furnace/sample area directly, just below the sample, and
flows via the furnace wall to the sample. Thus, dead volume can be low, resulting in a small
gas change time co nstant. The time constant depends on the flow rate.

The gas atmosphere should be pure (99.9% minimum), especially if you use nitrogen. If the
analysis calls for an inert purge, there should be no trace of oxygen because this could lead
to unwanted reacti ons. The gas must be dry. A size 1A cylinder equipped with a suitable
regulator is recommended.

The degradation byproducts from the sample leave the instrument directly via a small hole in
the furnace cover. These byproducts could be harmful so you should use adequate protection
such as placing the instrument in a fume hood. There is some condensation of less volatile
products on the cold spots of the analyzer: the lower side of the cover and the upper inner
side of the cooling jacket. These spots can be cleaned easily with a suitable solvent.
Condensation may also occur on the top inner side of the cooling jacket.

STA 8000 Hardware . 59

Prenez des soins exceptionnels pour ne pas laisser tomber les poêles

. Si cela se produit, arrêtez

l'expérience immédiatement et refroidissez le four.

Loading Samples into the STA 8000

NOTE: Good quality results require uniform thermal contact between the pans and the

platforms. Avoid spilling sample mate rials onto the platforms.

Use the following procedure to load samples into an STA 8000:

1. Ensure that the furnace is at a stable temperature below 100 °C.

2. Click the Pause Temperature Control button on the control panel
This prevents problems with temperature control when the furnace tries to compensate

for rapid changes in heat capacity during sample loading and unloading. If the function
is operating correctly, a short beep is heard every four seconds and the thermometer in
the icon becomes blue in color. If the temperature is above 100 °C or the status of the
instrument is not At Temp, this button is unavailable.

3. Remove the furnace lid using tweezers.

4. Using tweezers, place empty pans on both the reference (right) and sample (left)
platforms.

Ensure that the pans are upright and centered on the platforms.

5. Replace the furnace lid and wait for the weight and temperature to stabilize.

6. Click the Zero Weight button

7. Remove the furnace lid, and place the sample in the sample pan on the left platform.
It may be easier to remove the pan first to prevent sample being spilled into the

furnace.

8. Replace the furnace lid and wait for the weight and temperature to stabilize.

.

.

9. Click the Sample Weight button

10. Click the Pause Temperature Control button again to restart normal temperature
control.

Two short beeps will be heard, followed by silence.

.

CAUTION

ATTENTION

See the software Help for more details of the control panel functions.

Take exceptional care not to drop sample pans or sample material into
the furnace. If this should happen, stop the experiment immediately and
cool the furnace.

d'échantillons ou les échantillons da ns le four

60 . STA 8000 Installation and Hardware Guide

Heating

The basic temperature range of the STA 8000 is from ambient to 1600 °C. Since the system
is liquid-cooled, it is possible, in principle, t o begin a run at subambient temperature s.
However, conde nsation of water vapor on the cooling tubes around the furnace could occur
and should be avoided. Reducing condensation is the user’s responsibility.

The heating rate of the STA 8000 depends on the temperature range, as follows:

• Ambient to 1000 °C: maximum 100 °C/min

• 1000 to 1600 °C: maximum 25 °C/min

The heating rate can be set in 0.1 °C/min increments. In general, lower heating rates lead to
better separation of transitions. For most experiments, a heating rate of 20 °C/min is
optimal.

STA 8000 Hardware . 61

Ne pas enlever le couvercle du four lorsqu'il chauffe à des températures

STA 8000 Mainte nanc e

The STA 8000 anal yzer needs little r outine maintenance other than giving it the proper
treatment of a sensitive electromechanical device. Avoid contamination of the furnace by
always using a system purge gas and, ideally, a sample purge gas. If the furnace should
become contaminated, clean it as soon as possible (refer to
on page 33 for more information).

When cleaning the analyzer, use the following procedures:

• Cleaning the Furnace and Sensor

• Cleaning the Cover

Cleaning the Furna ce and Sensor

When the furnace and sensor have become contaminated with reaction products, the best
method of cleaning them is to heat the furnace up to 1400 °C in an air or oxygen
atmosphere for approximately 10 minutes. This should remove all products that can be
oxidized.

Cleaning and Decontamination

CAUTION

ATTENTION

If the sensor becomes contaminated, remove it from the furnace and clean it
small brush.

When a sample has dropped into the furnace, remove the sensor first, if present, and then
remove the sample material, preferably with a vacuum. Take care that material does not fall
into the hole for t he sensor.

Do not remove the furnace lid when he ating at high temperatures.

élevées.

gently

with a

Cleaning the Cover

The reaction byproducts from the samples run inside the STA 8000 furnace and condense on
cold spots of the instrument: the bottom side of the cover and the top inner part of the
cooling jacket. The bottom side of the cover can be cleaned easily with a tissue and some
solvent. This should be done on a regular basis. The top inner side of the cooling jacket can
be cleaned in a similar manner.

62 . STA 8000 Installation and Hardware Guide

STA 8000 Part Numbers

Supplies, accessories, and replacement par ts can be ordered directly from PerkinElmer.

www.perkinelmer.com/supplies

selection of high-quality thermal analysis supplies.
To place an order, request a free catalog, or ask for information:

• If you are located within the U.S., call toll free at 1-800-762-4000, 8:30 a.m.–7 p.m.
EST. Your order will be shipped promp tly, usually within 24 hours.

• If you are located outside the U.S., call your local PerkinElmer sales office.

, PerkinElmer's web-based catalog service, offers a full

or go on-line to
Below is a list of the part numbers that tools , spare parts and materials for the STA 8000:

Part Number Description

N5202007 Sensor

N5200040 Ceramic sample pans (pack of 3)

N5202032 Ceramic lids (pack of 6)

03190033 Indium calibration standard

N5380057 Aluminum calibration standard

N5380058 Gold calibration standard

N5380071 Palladium calibration standard

03190034 Tin calibration standard

www.perkinelmer.com

.

03190035 Lead calibration standard

03190036 Zinc calibration standard

N5370438 Silver calibration standard

04190197 Aluminum oxide (1 oz bottle)

09908400 Tweezers (flat-tipped)

N5202093 Tweezers (flat, serrated)

N5361078 Tweezers (narrow-tipped)

01541498 Gas restrictor

Part Number Description

02506519 Tygon tubing (5 m)

02506483 Teflon tubing (6 m)

09903906 Connector (1/8 in. to 1/4 in.)

N5202088 Level indicator

N5200042 Calibration weight

STA 8000 Hardware . 63

64 . STA 8000 Installation and Hardware Guide