Kuhnke Ventura Vico 1000, Ventura Vico 1200, Ventura Vico 1500 Instruction Manual

Kuhnke Electronics

Instruction Manual

Ventura Vico 1000 / 1200 / 1500
Control and Display Monitor

E 811 GB 27/02/2013 / xxxxxx

This technical information is primarily directed to system designers, project engineers and device develop­ers. It does not contain any availability information. Specifications are for description only and are not to

be

understood as guaranteed product properties in a legal sense. Exact properties and characteristics shall be
agreed in the specific contract. Claims for damages against us

- on whatever grounds - are excluded, ex-

cept in instances of deliberate intent or

gross negligence on our part. Reproduction of any part of this docu-

ment is allowed with the author's consent only. We reserve the rights for errors, omissions and modific

a-

tions. Pictures are similar. Microsoft®, Windows® and the Windows® logo are registere

d trademarks of

Microsoft Corp. in the USA and other countries. EtherCAT® is a registered trademark and patented tec

h-

nology, licenced by Beckhoff Automation GmbH, Germany. Further information about the PLCopen organ

i-

sat

ion is available at www.plcopen.org. CiA® and CANopen® are registered Community trademarks of CAN

in Automation e.V. The companies mentioned herein own the property rights in their company, product and
trade names.

Table of Contents

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Table of Contents

1 Introduction ...................................................................................................................................................... 5

2 Reliabilit y, Saf ety ............................................................................................................................................. 6

2.1 Applicability .......................................................................................................................................... 6

2.2 Target Group ........................................................................................................................................ 6

2.3 Reliability .............................................................................................................................................. 6

2.4 Symbols ............................................................................................................................................... 6

2.4.1 Danger ................................................................................................................................................ 6

2.4.2 Attention ............................................................................................................................................. 7

2.4.3 Note .................................................................................................................................................... 7

2.4.4 Under Construction ............................................................................................................................ 7

2.4.5 Instruction ........................................................................................................................................... 7

2.5 Safety ................................................................................................................................................... 7

2.5.1 Project Planning and Ins tal lat ion ........................................................................................................ 8

2.5.2 Maintenance and Servicing ................................................................................................................ 8

2.6 Electromagnetic Compatibility .............................................................................................................. 9

2.6.1 Definition ............................................................................................................................................ 9

2.6.2 Interference Emission ........................................................................................................................ 9

2.6.3 General Notes on Installation ............................................................................................................. 9

2.6.4 Electrical Immission Safeguard ........................................................................................................ 10

2.6.5 Cable Routing and Wiring ................................................................................................................ 10

2.6.6 Location of Installation ..................................................................................................................... 10

2.6.7 Particular Sources of Interference.................................................................................................... 10

3 System Description ........................................................................................................................................ 11

3.1 Overview ............................................................................................................................................ 11

3.2 Application .......................................................................................................................................... 11

3.3 Technical Properties .......................................................................................................................... 12

3.4 Front Film ........................................................................................................................................... 13

3.5 Model Variants ................................................................................................................................... 13

3.6 Physical Desig n .................................................................................................................................. 14

3.7 Power Supply and Ports .................................................................................................................... 14

3.7.1 Power Supply "24VDC", "X1" ........................................................................................................... 14

3.7.2 Earth ................................................................................................................................................. 15

3.8 Brightness, "Potentiometer", "X2" ...................................................................................................... 15

3.8.1 "DVI" Graphics Interface, "X3" ......................................................................................................... 15

3.8.2 "USB" Port, "X4" (Touch Screen Info Output) .................................................................................. 16

3.8.3 "USB 1/2" Por t s , "X 5 " ....................................................................................................................... 16

4 Mounting and Installation............................................................................................................................... 17

4.1 Front Panel Opening .......................................................................................................................... 17

4.1.1 Installation ........................................................................................................................................ 18

4.1.2 Attaching the Cables ........................................................................................................................ 18

5 Start-up .......................................................................................................................................................... 20

5.1 TFT Monitor Calibration ..................................................................................................................... 20

5.1.1 Adjusting the Resolution .................................................................................................................. 20

5.1.2 Adjusting the Brightnes s .................................................................................................................. 20

5.2 Touch Screen Operation .................................................................................................................... 21

5.3 Configuring and Calibrating the Touch Sc reen .................................................................................. 22

5.3.1 Windows CE ..................................................................................................................................... 22

5.3.2 Windows XP, WEC7 ........................................................................................................................ 22

6 Maintenance and Servicing ........................................................................................................................... 27

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6.1

Cleaning the Ventura Vico Monitor .................................................................................................... 27

6.2 Disposal ............................................................................................................................................. 27

6.3 Troubleshooting Help / Repair ........................................................................................................... 27

7 Appendix ........................................................................................................................................................ 28

7.1 Technical Data ................................................................................................................................... 28

7.1.1 Basic Data ........................................................................................................................................ 28

7.1.2 Chemical Resistance ....................................................................................................................... 29

7.1.3 Dimensions of Ventura Vico 1000 .................................................................................................... 30

7.1.4 Dimensions of Ventura Vico 1200 .................................................................................................... 31

7.1.5 Dimensions of Ventura Vico 1500 .................................................................................................... 32

7.2 Order Specifications ........................................................................................................................... 33

7.2.1 Basic Units ....................................................................................................................................... 33

7.2.2 Accessories ...................................................................................................................................... 33

7.3 Sales & Service .................................................................................................................................. 34

7.3.1 Malente Headquarters ...................................................................................................................... 34

7.4 Index .................................................................................................................................................. 35

Introduction

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1 Introduction

Brilliant, fast and compact

Ventura Vico is a control and display monitor with a high-quality and long-life
TFT display backlit by LEDs for industrial applications. It features a digital
DVI interface for image information interchange, thus making cumbersome
video framing correction unnecessary. Touch screen input is transferred via
USB.
Ventura Vico is a range of built-in monitors of screen sizes 10.4", 12.1" and
15".

Robust industrial design
TFT monitors for industrial applications should be fail-safe, have a long life
and be designed with industrial requirements in mind. Ventura Vico is pow­ered with 24 VDC. At the front it has IP65 protection. The units' extended
temperature range gives operators a plus in safety.

Reliability, Safety

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2 Reliability, Safety

2.1 Applicability

Kuhnke products are designed as resources for use in industrial environ­ments.

All other applications need to be discussed with the factory first. The manu­facturer shall neither be liable for any other than the intended use of our
products nor for any ensuing damages. The risk shall be borne by the opera­tor alone. The use as intended includes that you read and apply all informa­tion and instructions contained in this manual.

2.2 Target Group

This instruction manual contains all information necessary for the use of the
described product (control device, control terminal, software, etc.) according
to instructions. It is written for design, project planning, servicing and com­missioning experts. For proper understanding and error-free application of
technical descriptions, instructions for use and particularly of notes of danger
and warning, extensive knowledge of automation technology is compulsory.

2.3 Reliability

Reliability of products is brought to the highest possible standards by exten­sive and cost-effective means in their design and manufacture.

These include:

• selecting high-quality components,

• quality agreements with our suppliers,

• actions to avoid static charges when handling MOS circuits,

• worst case planning and design of all circuits,

• visual inspections at various stages of fabrication,

• computer-aided tests of all assemblies and their interaction in the circuit,

• statistical assessment of the quality of fabrication and of all returned

goods for the immediate taking of appropriate cor rec t i ve act ions .

2.4 Symbols

Despite the actions described in section 2.3, the occurrence of faults or er­rors in electronic control units - even if most highly improbable - must be
taken into consideration.

Please pay particular attention to the additional notices which we have
marked by symbols throughout this instruction manual. While some of these
notices make you aware of possible dangers, others are intended as a
means of orientation. They are described further down below in descending
order of importance.

2.4.1 Danger

This symbol warns you of dangers which may cause death or grievous bodily
harm if operators fail to implement the precautions described.

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2.4.2 Attention

This symbol draws your attention to information you must take a look at to
avoid malfunctions, possible material damage or dangerous states.

2.4.3 Note

This symbol draws your attention to additional information concerning the
use of the described product. This may

include cross references to informa-

tion found elsewhere (e.g. in other manuals).

2.4.4 Under Construction

This symbol tells you that the function described was not or not fully avail­able at the time this document went to press.

2.4.5 Instruction

Wherever you see these symbols in the left margin, you will find a list of
steps instructing you to take the appropriate computer or hardware actions.

They are intended as a means of orientation wherever working steps and
b

ackground information alternate (e.g. in tutorials).

2.5 Safety

Our products normally become part of larger systems or installations. The in­formation below is intended to help you integrate the product into its envi­ronment without dangers to humans or material/equipment.

To achieve a high degree of conceptual safety in planning and installing an
electronic controller, it is essential to exactly follow the instructions given in
the manual because wrong handling could lead to

rendering measures

against dangers ineffective or to creating additional dangers.

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2.5.1 Project Planning and Installation

• 24 VDC power supply: generate as electrically safely separated low
voltage. Suitable devices include split-winding transformers built in com­pliance with European Standard EN 60742 (corresponds to VDE 0551).

• Power breakdowns or power fades: the program structure is to ensure
that a defined state at restart excludes all dangerous states.

• Emergency-off installations must comply with EN 60204/IEC 204 (VDE

0113). They must be operative at any time.

• Safety and precautions regulations for qualified applications have to be
complied with.

• Please pay particular attention to the notices of warning which, at rele­vant places, will make you aware of possible sources of dangerous mis­takes or faults.

• Relevant standards and VDE regulations are to be complied with in
every case.

• Control elements are to be installed in such a way as to exclude unin­tended operation.

• Lay control cables such that interference (inductive or capacitive) is ex­cluded if this interference could influence controller operation or its func­tionality.

2.5.2 Maintenance and Servicing

• Precautions regulation VBG 4.0 to be observed when measuring or
checking a controller after power-up. This applies to section 8 (Admissi­ble deviations when working on parts) in particular .

• Repairs must be carried out by specially trained Kuhnke staff only (usu­ally in the main factory in Malente). Warranty expires in every other
case.

Spare parts:

• Only use parts approved of by Kuhnke. Only genuine KUHNKE modules
must be used in modular controllers.

• Modular systems: always plug or unplug modules in a power-down state.
You may otherwise damage the modules or (possibly not immediately
recognisably!) inhibit their functionality.

• Always dispose of (rechargeable) batteries as hazardous waste.

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2.6 Electromagnetic Compatibility

2.6.1 Definition

Electromagnetic compatibility is the ability of a device to function satisfacto­rily in its electromagnetic environment without itself causing any electromag­netic interference that would be intolerable to other devices in this environ­ment.

Of all known phenomena of electromagnetic noise, only a certain range oc­curs at the location of a given device. These kinds of noise are specified in
the applicable product standards.

The design and immunity to interference of programmable logic controllers
are internationally governed by standard

IEC 61131-2 which, in Europe, has been the basis for European Standard
EN 61131-2.

Refer to IEC 61131-4, User's Guideline, for general installation instructions
to be complied with to ensure that hardware interface factors and the ens

u-

ing noise v

oltages are limited to tolerable levels.

2.6.2 Interference Emission

Interfering emission of electromagnetic fields, HF
compliant to EN 55011, limiting value class A, Group 1

If the controller is designed for use in residential areas, high-frequency emis­sions must comply with limiting value class B as described in EN 55011.
Fitting the controller into earthed metal cabinets and installing filters in the
supply lines may produce a shielding compliant to

the above standard.

2.6.3 General Notes on Installation

As component parts of machines, facilities and systems, electronic control
systems must comply with valid rules and regu lat ions, depe nd ing on the ir
field of application.

General requirements concerning the electrical equipment of machines and
aiming at the safety of these machines are contained in Part 1 of European
Standard EN 60204 (corresponds to VDE 0113).

For safe installation of our control system please observe the information
contained in the next chapters (



2.6.4 ff).

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2.6.4 Electrical Immission Safeguard

To eliminate electromagnetic interference, connect the control system to the
protective earth conductor. Practice best cable routing.

2.6.5 Cable Routing and Wiring

Keep power circuits separate from control circuits:

• DC voltages 60 V ... 400 V

• AC voltages 25 V ... 400 V

Joint laying of control circuits is allowed for:

• shielded data signals

• shielded analogue signals

• unshielded digital I/O lines

• unshielded DC voltages < 60 V

• unshielded AC voltages < 25 V

2.6.6 Location of Installation

Ensure that temperatures, contaminations, impact, vibration or electromag­netic interference are no impediment to the installation.

2.6.6.1 Temperature

Consider heat sources such as general heating of rooms, sunlight, heat ac­cumulation in assembly rooms or control cabinets.

2.6.6.2 Contamination

Use suitable casings to avoid possible negative influences due to humidity,
corrosive gas, liquid or conducting dust.

2.6.6.3 Impact and Vibrati o n

Consider possible influences caused by motors, compressors, transfer lines,
presses, ramming machines and vehicles.

2.6.6.4 Electromagnetic Interference

Consider electromagnetic interference from various local sources: motors,
switching devices, switching thyristors, radio-controlled devices, welding
equipment, arcing, switched-mode power supplies, converters / inverters.

2.6.7 Particular Sou rces of Interference

2.6.7.1 Inductive Actuators

Switching off inductances (such as from relays, contactors, solenoids or
switching magnets) produces surge voltages. It is necessary to reduce these
extra voltages to a minimum.
Throttling elements could be diodes, Z-diodes, varistors or RC elements.
Their rating should conform to the specifications provided by the manufac­turer or supplier of the actuators.

System Description

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3 System Description

3.1 Overview

Ventura Vico - brilliant operation...

3.2 Application

Ventura Vixo is an industry-scale TFT monitor with touch screen functional­ity.
If combined with the control PC Ventura, you get a powerful and flexible in­dustry PC system for a wide range of practical applications, specifically in
the fields of mechanical engineering and switching cabinet construction:

• operation and control of tool making and wood processing machines us­ing standardised software

• operation and visualisation with the display terminal taken down for use
in automatic machines and info terminals

• a single unit for the visualisation and real-time control of general­purpose machine systems

System Description

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3.3 Technical Properties

Ventura Vico 1000

Ventura Vico 1200

Ventura Vico 1500

Design

Control panel mounting at

the front and held by

screws at the back

Control panel mounting at

the front and held by

screws at the back

Control panel mounting at

the front and held by

screws at the back

Cooling

Passive

Passive

Passive

Controls

Touch film on screen
surface

Touch film on screen
surface

Touch film on screen
surface

Disp lay typ e

TFT 10.4", LED backlight

TFT 12.1", LED backlight

TFT 15.0", LED backlight
Display area (WxH )

249 mm x 187 mm

00

Resolution

VGA, 640x480

SVGA, 800x600

XGA, 1024x768

Colours

262k

262k

262k

Brightness

450 cd/m²

450 cd/m²

400 cd/m²

Contrast ratio

700:1

700:1

700:1

Aspect angle (L/R)

80/80

80/80

80/80

Aspect angle (U/L)

60/80

65/75

60/80

Response time

max. 30 ms

max. 35 ms

max. 8 ms

Error class

II

II

II

Life of backlighting

50,000 hr

50,000 hr

50,000 hr

Video port

DVI D

DVI D

DVI D

Touch type

4-wire analogue resistive

4-wire analogue resistive

4-wire analogue resistive

Touch screen port

USB

USB

USB

Protection (front)

IP 65

IP 65

IP 65

Protection (back)

IP20

IP20

IP20

Supply voltage

24VDC / (10 … 32)

24VDC / (10 … 32)

24VDC / (10 … 32)

Ambient temperature

0 ... 50 °C

0 ... 50 °C

0 ... 50 °C

Housing made of

stainless steel

stainless steel

stainless steel

Front film

Polyester

Polyester

Polyester

Weight

2050 g

3400g

Power consumption

xx

xx

xx

Storage/transp. temp.

-20 C° … +80C°

-20 C° … +70C°

-20 C° … +60C°

Dimensions (WxHxD)

280mm x 232mm x 48mm

320mm x 265mm x 49mm

394mm x 326mm x 53mm

Mounting depth

44 mm

45 mm

49 mm

System Description

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3.4 Front Film

The uninterrupted layer of front polyester film is highly resistant to abrasion
and provides excellent chemical resistance to cleaning agents and solvents.

The front film complies with DIN 42 115 Part 2 and withstands the following
chemicals

• Ketones

• Esters

• Alcohols

• Aromatic hydrocarbons

• Chlorinated hydrocarbons

• Organic acids

• Mineral acids (dilution)

• Bases (diluted)

• Oils and greases

• Food products

• Household cleaners

The front film will not resist the following chemicals and influences:

•

Benzoyl alcohol

•

Concentrated bases

•

Concentrated mineral acids

•

Methylene chloride

•

High pressure steam above 100 °C

For details please contact the product management of KUHNKE Automation
GmbH.

3.5 Model Variants

Ventura Vico sells as various model variants, giving users a good chance of
choosing the model that best matches the application. The features of a
model can be derived from its order no.

Order number

System Description

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3.6 Physical Design

3.7 Power Supply and Ports

3.7.1 Power Supply "24VDC", "X1"

Only attach the unit to a 24 VDC power supply source if the source is guar­anteed to meet safe extra low voltage requirements (SELV).

Please use the connector from the package to attach the unit to the power
supply.

The admissible diameter of the cord connecting the 24 VDC power is be­tween 0.2 mm

2

and 2.5 mm2.

Connector 2-pin, male, 2.5 mm

2

Pin

Function

L+

Supply voltage +24 VDC

L-

GND

Wrong voltage or wrong polarity of the connectors may destroy the unit.

DVI

Digital Visual Interface

Power suppl y

USB

(touch screen info

output)

Operative earth

+

-

USB 1/2

(USB 2.0)

External brightness

potentiometer

System Description

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3.7.2 Earth

The earth connector of Ventura Vico is connected to the protective earth
conductor of the cabinet or system / machine element. Use the flat plug (6.3
mm x 0.8 mm) at the back of the unit.

Verify that the cross section is not less than 2.5 mm

2

. Use fine-wire cords ­they are the best to dissipate fault currents. Try to keep the lead to the
earthing terminal as short as possible.

A low-impedance earth conductor improves the dissipation of interference
rece

ived via external power supply cables, signal cables or cables of periph-

eral units.

3.8 Brightness, "Potentiometer", "X2"

Connection 3-pin

Pin

Function

1

4.7 kΩ

A

2

Wiper 3 B

External and internal potentiometers work in parallel. To make use of the en­tire adjustment range, set the internal potentiometer to maximum brightness.
Verify that the external potentiometer's resistance is 4.7 kΩ.

3.8.1 "DVI" Graphics Interface, "X3"

The DVI-D port transfers the digital screen data and can thus be used for
monitors with a digital DVI port.
If attached to the Ventura controller PC, special leads support lengths of up
to 20 m. Use an optional DVI extender to bridge larger gaps.

To ensure that the control and display monitor is correctly detected and ac­tuated by the BIOS and operating system, it should be attached to the PC
when the PC is switched on.

Connecting leads

The rated EMC properties are best obtained if the following accessory sets
of cables are used.

Set of cables, Ventura Vico, 5m

639.800.03

DVI and USB adapter cable connecting Ventura and Ventura Vico, used for

transferring monitor data and touch screen information.
5 m

Set of cables, Ventura Vico, 2m

639.800.04

DVI and USB adapter cable connecting Ventura and Ventura Vico, used for

transferring monitor data and touch screen information.
2m

System Description

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3.8.2 "USB" Po rt, "X4" (Touch Screen Info Output)

The touch screen information is output to USB port "USB", type B. To prop­erly process the input signals on the screen, attach the outlet with one of the
controller PC's USB ports.

Connector USB port, type B

Pin

Signal

Function

1

VBUS (5 VDC)

+5V (fused) for external USB port

2

D-

data+, USB channel 0

3

D+

data-, USB channel 0

4

GND

GND for external USB port

Shell

Shield

shielding

If no other action is taken, the cable should be no longer than 5 m. Install an
active or passive repeater to extend the USB cable to up to 30 m.

Ventura Vico features a TSHARC-A2 touch screen microcontroller providing
12-bit resolution. The driver is installed in KUHNKE IPCs as delivered.

To find drivers for operating systems Windows® CE and Windows®, WIN7
and WEC7

, browse the web for www.kuhnke.com and go to the Downloads

page.

3.8.3 "USB 1/2" Ports, "X5"

The USB host adapter "USB" (USB port, type A) is the port for external pe­ripherals such as mass storage devices, a mouse or a keyboard. It houses a
passive hub, USB1 (touch screen port) feeds power to the devices con­nected to it. Verify that the power consumed by all USB stations together
does not exceed the capacity of the PC's USB controller (normally 500 mA).
The maximum length of USB cables (e.g. of the mouse or keyboard) is 1.5
m.

Connector USB port, type A
Specification USB 2.0 / USB 1.1
Max. length 1.5 m

Pin

Signal

Function

1

VBUS (5 VDC)

+5V (fused) for external USB port

2

D-

data+, USB channel 0

3

D+

data-, USB channel 0

4

GND

GND for external USB port

Shell

Shield

shielding

Hot Plug-ready peripherals can be attached to the USB port while the PC is
running.

Leave at least 10 seconds between unplugging and re-plugging

USB peripherals.

Please note that many commercially available USB peripherals provide of­fice

-level EMC immun it y only . This is enough for commissioning and service

purposes. Industrial applications, however, demand the use of industry

-level

peripherals.

USB full-speed hub

Mounting and Installation

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4 Mounting and Installation

Control and display monitor Ventura Vico is designed for installation into a
front panel or HM interface for machine and systems engineering. One con­straint is that the unit must not be used in explosive areas.

Heat dissipation

To enable sufficient heat dissipation through convection (heat exchange) at
the housing surface, the air should be allowed to flow freely around the
housing of Ventura Vico. This specifically applies to the rear of the unit.

Please note that excessive temperature could shorten the life expectancy of
the monitor.

4.1 Front Panel Opening

Model

Width A

Height B

Ventura Vico 1000

250 mm

202 mm

Ventura Vico 1200

296 mm

240 mm

Ventura Vico 1500

354 mm

277 mm

A

B

Mounting and Installation

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4.1.1 Installation

Ventura Vico is a modern electronic assembly. Handle - specifically mount,
operate and service - with care. The unit is operated by means of a touch
screen or, more specifically, a resistive touch screen.

Resistive touch screens consist of multiple circuit layers made of different
materials. Each of these layers will theref ore respond differently to changing
climatic or mechanical conditions.

Whereas resistive touch screens are generally very touch, you should still
take account of a couple of basic facts when installing them.

Generalities on installation

Check that the front of the housing is always flat and that the material is not
warped, irrespective of which material is used. Do not expose the front panel
to any mechanical pressure (bending stress). Non-conformity may cause the
touch screen layers to come apart and/or the electrical feed-throughs to be
stretched.

Even though this may not lead to a complete touch screen failure, you may
still experience an immediate or later loss of touch screen calibration.

In extreme case, the touch sensor may lose it electrical operability.

• Control panel opening:

Mark the area on the control panel where you wish to insta ll the unit,
then cut a hole into the control panel. Refer to the drawing to find the
correct dimensions.

•

Again look at the drawing to know where the holes for the screws should

be drilled.

•

Place the monitor in the opening and screw alternate nuts (included in

package) on the screws. To obtain the specified degree of protection
and to avoid twisting, the sealing around the monitor should be evenly
pressed against the panel all the way around.

Incipient or complete touch screen damage
Lea

kiness

Nuts, washers and tooth lock washers for Ventura Vico attachment are con­tained in the package.

Stability of installation opening
Verify that the material around the installation opening is hard enough to

ensure that the panel PC is mounted c

orrectly at all times.

In order to achieve the specified ingress protection, the material must not
warp under the load of the mounting bolts or operation.

4.1.2 Attaching the Cables

The connectors are located at the back of Ventura Vico as described in sec­tion 3.7 Power Supply and Ports.

Cables should be attached to the control and display monitor Ventura Vico in
the order described herebelow:

Mounting and Installation

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• Switch off the controller PC.

•

Unplug the controller PC from the mains/power supply.

•

Attach all cables to Ventura Vico and any peripherals.

•

Check that all cables are firmly attached at both ends.

•

Plug all units back into the power supply unit.

Start-up

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5 Start-up

Danger of damage to the unit!
If the device was exposed to condensation, allow it to rest for about 12 hours

before you start to use it.

5.1 TFT Monitor Calibration

5.1.1 Adjusting the Resolution

Mind that the Ventura Vico monitor must be attached to the controller PC be­fore you switch on the power supply to the system. At the boot-up stage, the
monitor configuration stored by Ventura Vico is read by the controller PC's
BIOS and output to the graphics adapter board. This sets the operative reso­lution and transfer parameters for this session.

There is no need for video framing correction as it would be normall y per­formed for a VGA interface.

In case the controller PC's BIOS does not support automatic download of the
monitor configuration, you can choose the "Control Panels / Monitor" func­tion of your operating system to change the settings manually.

5.1.2 Adjusting the Brightness

There is a potentiometer at the back of Ventura Vico which you can use to
adapt the brightness of screen backlighting. To change the potentiometer
setting, put a screwdriver through the round hole in the cover over the inter­face board.

Please use a flat-blade screwdriver max. 6 mm wide.

Brightness

- +

Start-up

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5.2 Touch Screen Operation

Control objects on the touch screen are operated by applying a slight but no­ticeable pressure on them with your finger or the touch stylus.

Always touch a single on-screen control object at a time. You may otherwise
start unintended actions

CAUTION

Touch screen operating errors
A touch screen does not exclude the possibility of operating errors which

may cause personal injury

or damage to the machine or facility.

Take the following precautions:

• Do not use the touch screen to run functions relevant to safety.

• Touch the screen with a suitable touch stylus only.

• Periodically calibrate the touch screen.

• Turn the unit off for cleaning and maintenance.

CAUTION

Damage to touch screen
Do not us pointed or sharp objects to operate the touch screen. Avoid su

d-

den or impact

-like contact by hard objects. Both may significantly reduce

touch screen life or provoke its complete failure.
To

uch the screen of Ventury Vico with your finger or the stylus only.

Under extreme ambient conditions such as high humidity and temperature,
the touch screen surface may sometimes develop some blistering. This is a
purely optical effect and no functiona

l constraint.

Start-up

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5.3 Configuring and Calibrating the Touch Screen

5.3.1 Windows CE

When you run Ventura on a CE platform for the first time, touch screen cali­bration will be performed automatically. Please follow the on-screen instruc­tions. Afterwards you can start using your Ventura Vico.

To recalibrate the touch screen at any later time, manually run HCECAL.exe.
On KUHNKE Ventura systems, the program is located in Start menu folder
"Programs / Kuhnke".

5.3.2 Windows XP, WEC7

To calibrate and configure the Ventura Vico monitor, run the "Microchip
TSHARC Control Panel" application. If you chose the "Default Installation"
option, browse the Start menu for folder "Programs".

Once the program is up and running, you can pick the Controller Inter­face/Monitor tab. Calibration will start automatically unless another tab is se­lected.

Start-up

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5.3.2.1 "Calibratio n" T ab

This tab lets you select the options for touch screen calibration:

Select

On this panel, you define the number of calibration points.
Basically, the more points you calibrate, the better the accuracy of touch

screen response. The "4 Point Calibration" default option yields very good
results.

Inset

This value sets the distance between calibration points and actual corners. It
allows you to compensate for screen frame and non-linearity effects.

• Click on "Begin Calibration" to start the touch screen calibration proce-

dure.

•

Touch the on-screen "Calibration Targets" using your finger or a blunt

object.

•

When all calibration points have been checked, control will be returned

to the above dialog screen.. Clicking on "Test" runs a paint utility which
lets you verify if the settings are ok.

•

Re-run the calibration process if you think the result is not satisfactory.

You should first adapt the "Calibration" settings, though.

Start-up

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5.3.2.2 "Click Settings" Tab

This tab allows you to enable and adapt the "Right Click" feature.

Right-Click Settings

You can instruct the touch screen to enable the right-click feature if a defined
point on the screen is touched for a defined period of time. Go to the "Right
Click Setting" panel to enable the function and set the time and area.

Right-Click Area

Since it may prove to be difficult to touch a screen at a minutely defined
point, this panel allows you to define a capture area around that point which
will still be accepted as a touching of that point.

Right-Click Delay

Sets the time it takes before a click is considered a right-click.

• Set the "Right Click Emulation" time to match your needs and prefer-

ences.

•

Select an area for enabling the right-click function.

•

Click on "Accept" to store your settings.

•

Set the double-click parameters as necessary.

Start-up

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5.3.2.3 "Touch Setting s" Ta b
Touch Mode

If "Enable Touch Sound" is ticked the speaker will sound an acknowledge
tone every time the screen is touched.

The "Normal" option supports "click", "double click", "drawing", drag and
drop" and "right click" functionality.

"Touch Down" supports "click events" only, i.e. you can neither use "draw"
nor "drag and drop".

"Touch Up" disables the "right-click" and "double-click" functions.

• Adapt the "Touch Mode" as appropriate.

•

Click on "Accept" to store your settings.

•

Click on "OK" to exit the utility program.

Start-up

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5.3.2.4 "Tools" Tab

The "Tools" tab provides touch screen testing and cleaning utilities and dis­plays details of Ventura Vico's touch screen controller.

Servicing and Repair

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6 Maintenance and Serv i cing

6.1 Cleaning the Ventura Vico Monitor

Switch off the controller and all peripherals attached to it to prevent any
touch commands from being processed unintentionally.

Use a soft, damp cloth to wipe the front of Ventura Vico. Neither use aggres­sive cleaning agents, nor dilutions, abrasive cleaners or hart objects that
might scratch the surface.

For chemical resistance information, please read ch.  7.1.2 Chemical Re­sistance

.

6.2 Disposal

Disassembly

Before disposing of Ventura Scout you must disassemble it and completely
take it apart. All metal components can be given to metal recycling.

Electronic scrap

Electronic components such as circuit boards, drives, etc. are kept and dis­posed of separately.
For details on proper disposal please check your national laws and regula­tions making sure that your method of disposal complies with them.

6.3 Troubleshooting Help / Repair

Problem

Cause

Action

No control panel function after

booting the IPC

Cable not attached

BIOS failed to find monitor data

Attach cable properly.

Measure the voltage supplied,
check pin wiring.

Run Control Panel utility or
KUHNKE tool to adjust the monitor
resolution.

Some screen areas do not work or

not all the time, e.g. no picture or
picture very dark.

Image information not available or

synchronisation lines broken

Verify that DVI plug are in properly

Check DVI cable

Appendix

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7 Appendix

7.1 Technical Data

7.1.1 Basic Data

Function........................................................ industrial monitor with touch functionality

Design ........................................................... control panel mounting at the front and held by screws at the

back

Dimensions ............................................... see Technical Properties  3.3

Weight ...................................................... see Technical Properties  3.3

Protection ................................................. IP 20 / front IP 65

Environment

Sound emission ............................................. <40dB (A) compliant to DIN 45635-1

Pixel defects .................................................. pixel defect class II (ISO 13406)

Permits ........................................................... CE

Power supply

Supply voltage (DC) ................................

24 VDC / (10 ... 32)

Brief voltage interruption

............................................................. min. 10 ms (at 19.2 V)

recovery min. 1s

Max. power consumption ......................... see Technical Properties

 3.3

Electromagnetic compatibility (EMC)

EMC .......................................................... pursuant to EN 61131-2, sections 8 to 10, zone B

Noise emission ......................................... EN 61000-6-4, -noise emission to industrial environments-

Noise immunity ......................................... EN 61000-6-2, -immunity for industrial environments-

noise voltage conducted by ................

power supply lines ............................... +/- 2 kV compliant to IEC 61000-4-4; burst

+/- 500 V compliant to IEC 61000-4-5; surge, symmetrical

+/- 500 V compliant to IEC 61000-4-5; surge, asymmetrical

signal lines ........................................... +/- 1 kV compliant to IEC 61000-4-4; burst; length > 3 m

static electricity discharge ................... +/- 4 kV contact discharge compliant to IEC 61000-4-2

+/- 8 kV air discharge compliant to IEC 61000-4-2

HF interference .................................... 10 V/m 80 – 1000 MHz, 80% AM compliant to IEC 61000-4-3

3 V 1.4 GHz – 2.0 GHz, to IEC 61000-4-3

1 V 2.0 GHz – 2.7 GHz to IEC 61000-4-3

10 V 150 kHz – 80 MHz, to IEC 61000-4-6

Admissible ambient conditions

Storage and transportation

Temperature ........................................ see Technical Properties  3.3

relative humidity .................................. 5% to 90% at 25°C (non-condensing)

Vibration (not frequent)........................ 5 Hz to 9 Hz: 3.5 mm, 9 Hz to 150 Hz: 9.8 m/s

2

Shock (not frequent) ............................ free fall from 1m height in original packaging

Operation

Ambient temperature ........................... horizontal installati on: 0...50 °C

vertical insta lla t io n: 0 ... 50 °C

relative humidity .................................. control cabinet or mounting space

5% to 90% at 25°C (non-condensing)

front after installation: 100%

Vibration (not frequent)........................ 10 Hz to 58 Hz: 0.075 mm, 58 Hz to 150 Hz: 9.8 m/s

2

Shock (not frequent) ............................ 15g for 11 ms

Appendix

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7.1.2 Chemical Resistance

The uninterrupted layer of front polyester film is highly resistant to abrasion
and provides excellent chemical resistance to cleaning agents and solvents.

The front film complies with DIN 42 115 Part 2 and withstands the following
chemicals

• Ketones

• Esters

• Alcohols

• Aromatic hydrocarbons

• Chlorinated hydrocarbons

• Organic acids

• Mineral acids (dilution)

• Bases (diluted)

• Oils and greases

• Food products

• Household cleaners

The front film will not resist the following chemicals and influences:

•

Benzoyl alcohol

•

Concentrated bases

•

Concentrated mineral acids

•

Methylene chloride

•

High pressure steam above 100 °C

For details please contact the product management of KUHNKE Automation
GmbH.

Appendix

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7.1.3 Dimensions of Ventura Vico 1000

To find a complete installation drawing (pdf file) browse the Internet for

www.kuhnke.com

"DOWNLOAD" or find the product descriptions available

on the "Electronics" pages.

Appendix

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7.1.4 Dimensions of Ventura Vico 1200

To find a complete installation drawing (pdf file) browse the Internet for

www.kuhnke.com

"DOWNLOAD" or find the product descriptions available

on the "Electronics" pages.

Appendix

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7.1.5 Dimensions of Ventura Vico 1500

To find a complete installation drawing (pdf file) browse the Internet for

www.kuhnke.com

"DOWNLOAD" or find the product descriptions available

on the "Electronics" pages.

Appendix

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7.2 Order Specifications

7.2.1 Basic Units

Ventura Vico 1000

639.310.10

10.4" TFT control and display monitor including touch screen functionality.

Interfaces: DVI, USB1/ USB2/ RS232 touch
24 VDC power pack
Resolution: 640x480 (VGA)

Ventura Vico 1200

639.320.11

12.1" TFT control and display monitor including touch screen functionality.

Interfaces: DVI, USB / RS232 touch
24 VDC power pack
Resolution: 800x600 (SVGA)

Ventura Vico 1500

639.340.10

15" TFT control and display monitor including touch screen functionality.

Interfaces: DVI, USB / RS232 touch
24 VDC power pack
Resolution: 1024x768 (XGA)

7.2.2 Accessories

Set of cables, Ventura Vico, 5m

639.800.03

DVI and USB adapter cable connecting Ventura and Ventura Vico, used for

transferring monitor data and touch screen information.
5 m

Set of cables, Ventura Vico, 2m

639.800.04

DVI and USB adapter cable connecting Ventura and Ventura Vico, used for

transferring monitor data and touch screen information.
2m

Monitor power cord 5 m

DisplayPort adapter cable,

DP to DVI (24+1)

5.0m, incl. locking mechanism

Monitor adapter

DisplayPort adapter,

DP to DVI (24+1)

0.25m, incl. locking mechanism

Sales & Service

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7.3 Sales & Service

Please visit us on the Internet to find a comprehensive overview of our sales
and service network including all the relevant addresses.

www.kuhnke.com

7.3.1 Malente Headquarters

Kuhnke Automation GmbH & Co. KG
Lütjenburger Straße 101
D-23714 Malente
Phone +49(0) 45 23-4 02-0
Fax +49(0) 45 23-4 0 2-247
Email automation@kuhnke.de
Web www.kuhnke.de

Index

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7.4 Index

application........................................................... 11

attention ................................................................ 7

cable routing and wiring ...................................... 10

chemical resistance ...................................... 13, 29

Chemicals ..................................................... 13, 29

cleaning .............................................................. 27

contamination ..................................................... 10

danger ................................................................... 6

earth .................................................................... 15

electromagnetic compatibility ............................... 9

electromagnetic interference .............................. 10

front film .............................................................. 13

impact and vibration ........................................... 10

inductive actuators .............................................. 10

installation ............................................................. 8

installation instructions ......................................... 9

instruction ............................................................. 7

Interference Emission ........................................... 9

limiting value class ................................................ 9

location of installation ......................................... 10

note ....................................................................... 7

notes ..................................................................... 6

order number ...................................................... 13

physical design ................................................... 14

ports .................................................................... 14

power supply ....................................................... 14

preventive maintenance........................................ 8

project planning .................................................... 8

reliability ................................................................ 6

safety .................................................................... 7

Sales & Service .................................................. 34

servicing ................................................................ 8

target group .......................................................... 6

technical properties ............................................. 12

temperature

........................................................ 10

under construction ................................................ 7

working steps ........................................................ 7