Waters Andrew+Robot User Manual Download Page 16 | Manualshive

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Waters Andrew+Robot User Manual Download Page 16

Waters Corporation

34 Maple Street
Milford, MA 01757 U.S.A.
T: 1 508 478 2000
F: 1 508 872 1990
waters.com

[ ROBOT USER GUIDE ]

Waters, The Science of What’s Possible,

, and OneLab

are trademarks of Waters

Corporation. All other trademarks are the property of their respective owners.

©2021 Waters Corporation. Produced in the U.S.A.

December

2022 72000

7741

EN

KK-PDF

Andrew Alliance S.A

(Headquarters)
Chemin Grenet 21 1214 Vernier
(Genève) Switzerland
T: +41 22 518 0357

VIII. UNIT END OF LIFE

IX. CERTIFICATION

■

Electrical safety

—

IEC61010 Issued: 2010/06/10 Ed:3 +

IEC61010-2-081 Issued: 2015/01

—

UL61010 Issued: 2004/07/12 Ed:2

Rev:208/10/28

—

CAN/CSA C22.2#61010-1

Issued:2004/07/12 Ed:2 (R2009)

■

EMC

—

CENELEC EN 61326-1 Issued :2006/05/01

—

ETSI EN 301 489-17

■

RADIO

—

ETSI EN 300 328, V1.9.1

■

EMF

—

EN 62479:2010

When a unit reaches the
end of its useful life, contact
Waters for directions and
information on the end-of-
life policy.

This is in accordance
with the European Union
Directive 2002/96/EC
on Waste Electrical and
Electronic Equipment
(WEEE).

—

FCC 47 CFR Part 18

—

This Class A digital apparatus complies with Canadian
ICES- 003

■

RoHS 2 2011/65/EU

X. CONTACT

i. How to contact the Robot’s support team

■

Chat with support directly in OneLab software

■

Send us an email to

[email protected]

—

We will reply within 1 business day

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 these equipment in a residential area
is likely to cause harmful interference in which case
the user will be required to correct the interference
at his own expense. Modifications not expressly
approved by the manufacturer could void the user’s
authority to operate the equipment under FCC rules.

■

FCC

—

FCC 47 CFR 15B cl A Issued: 2011/04/21

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Summary of Contents for Andrew+Robot

Page 1: ...of the tip rack E External tool docking station F Liquid handling operations i Volumes in consumables G How to use the Andrew Robot H Maintenance i General information ii Recommended maintenance if t...

Page 2: ...on module LLD Liquid level detector TIS Tip insertion system ROW Rest of the world III ABBREVIATIONS USED I INSTRUCTION ICONS IV GLOSSARY Term Definition Tool Device which can be automatically handled...

Page 3: ...the Andrew Robot workspace so that the Andrew Robot can identify them Depending on your protocol you can have 2 Dominos for a small experiment and up to 11 Dominos compatible with multi channel pipet...

Page 4: ...oved only when the Andrew Robot is switched off or when its arm is folded back into the idle position The hand should be close to the shoulder The laboratory tools compatible with the Andrew Robot can...

Page 5: ...emperatures up to 37 C Altitude Up to 2000 m above mean sea level Safe operating conditions for the system Fluctuation of the supply voltage up to 10 of the rated voltage Transient overvoltage Degree...

Page 6: ...ut one of your hands on the base and the other hand on the top of the body then lift up the Andrew Robot DO NOT grab the Andrew Robot from its arms doing so will cause irreversible damage to the unit...

Page 7: ...to the power plug 2 Wait for the LED present on the Andrew Robot s body to turn blue and start blinking 3 Connect your computer tablet or smartphone to the Wi Fi name of the Andrew Robot 4 Go to you...

Page 8: ...ptor Position the pipette inside the pipette adaptor Once the pipette is correctly positioned close the pipette adaptor Use the two clamps to secure the tightness of the pipette inside the pipette ada...

Page 9: ...in the picture on the right Please be sure that the metallic pins present on the side of the pipette are in contact with the metallic pins present in the slot of the tool stand iv Labware gripper The...

Page 10: ...g execution of the experiment The waste Domino hosts a foldable silicone waste designed by Waters and capable of containing up to 900 pipette tips 1 mL VII HOW TO INSTALL THE WASTE DOMINO Facing the A...

Page 11: ...tional docking station capable of hosting up to 3 tools The power and data connections with the Andrew Robot are established via an electronic connector placed in the Waste Domino The docking station...

Page 12: ...unit is no longer accessible via OneLab The machine is in Standby status The machine is turned ON and it is put in Booting status 5 times 5 times press for 20 sec press for 5 sec press for 30 sec Eme...

Page 13: ...Dominos in its workbench It is composed of different steps Green fast heartbeat Different sounds depending on the step Start An experiment is starting Green fast heartbeat Experiment start Running An...

Page 14: ...notification Error Dead PC Communication with the PC is not possible Red horizontal line Error notification Standby PC Waste Domino and Arm are powered down Tool stand stand is powered Green fast hea...

Page 15: ...guaranteed The bench to which the Andrew Robot will be moved must be cleaned as well iii Compatible solvents with the Andrew Robot To clean all the parts of the Andrew Robot the compatibility with the...

Page 16: ...96 EC on Waste Electrical and Electronic Equipment WEEE FCC 47 CFR Part 18 This Class A digital apparatus complies with Canadian ICES 003 RoHS 2 2011 65 EU X CONTACT i How to contact the Andrew Robot...

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