Qass Optimizer4D User manual
QASS GmbH
Quality Automation Systems Software
Schoellinger Feld 28
58300 Wetter, Germany
Tel.: +49 (0) 2335 8020-0
Fax: +49 (0) 2335 8020-20
www.qass.net
Ust-IdNr.: DE215478481
Volksbank Bochum Witten eG
BLZ: 430 601 29
Kto.: 861 482 400
Commercial Register:
Hagen HRB 5423
CEO: Ulrich Seuthe
BIC: GENODEM1BOC
IBAN:
DE21430601290861482400
Optimizer4D Technical Specifications
Please find the detailed Manual on www.qass.net/wp/support/downloads/?lang=en
Optimizer4D Technical Specifications
2 / 27
Table of contents
Overview 3
QASS Optimizer4D electrical characteristics 4
Connectivity options 5
I/O-Port allocation 6
Harddrive exchange 7
Measuring chain 8
Uninterrupted power supply (UPS) 8
Vcc Power port allocation 8
QASS Optimizer4D & µmagnetic pre-amplifier 9
QASS Optimizer4D sensors & adapter 11
QASS µmagnetic sensor 13
QASS µmagnetic power amplifier 14
QASS µmagnetic electrical characteristics 15
QASS µmagnetic connectivity options 16
Screen 17
Installation of screen 18
Installing Optimizer4D into a wall cabinet 19
Installing Optimizer4D into control cabinet 22
Casing varieties 23
Measurements / weight 23
Carrying casing „QASE“ 24
Memory options 25
Spare parts 27
Optimizer4D Technical Specifications
3 / 27
Overview
Optimizer4D
Many parts of Optimizer4D (but not all) consist of standard components. This
ensures quick availability if spare parts are needed.
The device can be integrated into a control cabinet. It‘s also possible to use the
unit with a separate case, for example, if the device is used with a manual mode
machine.
It‘s possible to connect Optimizer4D to a notebook via USB or Ethernet, in order
to transfer measuring data.
Casing of Optimizer4D. From left to right: Back, upside, front and isometrical view. Dimensions are shown in millimeters.
131,4 197,8
273,1
131,4 197,8
273,1
Optimizer4D Technical Specifications
4 / 27
Electrical characteristics
Basic specifications
Device Optimizer4D Measuring device
Power supply DC 10 - 28 V
Nominal current 6,25 - 12 A
Performance 150 W
Ambient temperature 0 - 50° Celsius
Type of protection IP 3X Casing
Protection class (IEC 417) 1
Isolation voltage 1000 V DC
Excess voltage class II
Contamination class II
EMC Standards CISPR 22 ( EN 55022);
IEC 1000-4-2,3,4,5;
IEC 1000-3-2, 3 certification
Machine-side main supply
Protection against indirect contact
Excess current protection device B 10 A
Protection against excess voltage
Protection against short circuit
I/O-Interfaces
Signal input voltage normal 24 V DC / ca. 10 mA
Signal output voltage 24 V DC max. 20mA
Optimizer4D Technical Specifications
5 / 27
1. GB Ethernet
2. Power connector (for use with power adapter or for direct
connection to power supply via machine)
3. PLC connectors and I/O-Ports
4. Power switch - power - only use software to turn o the
system
5. RJ45-connectors for pre-amplifiers
6. USB 3.0-connectors
7. HDMI
8. USB 2.0-connectors for display
9. Power supply for display
10. Profibus connector
11. Analogue out
The display comes with four connectors: a. the HDMI-port
(7, do not use the lower port that comes with specific
versions); b. the USB-2.0-connector (8, marked with black
color inside of the socket; do not use the blue sockets); c.
the power supply (9).
Connectivity options
I/O-Ports: If you use an output-port of any kind (I/O 4 or
Output 3), it‘s essential to bridge the three GND (ground)
connectors.
In order to power the device on you can use the power
switch (4) or briefly connect the unmarked sockets in Input
1 and Input 2.
Attention! Do not confuse the RJ45-Ports (5) with the
Ethernet port (1)! Malfunction or even destruction of the
device is possible if a ethernet plug is connected to the
pre-amplifier-ports (5)!
3
2
1
4
5
6
7
8 8
9
10
11
Optimizer4D Technical Specifications
6 / 27
I/O-Port allocation
Port # PLC feature Comment
Input 1 - Power Switch ON1 Works as Power-on-switch when combined with ON2
Input 1 1.1 Start Measuring at position 1
Input 1 1.2 Start Measuring at position 2
Input 1 1.3 Start Measuring at position 3
Input 1 1.4 Start Measuring at position 4
Input 1 1.5 Start Measuring at position 5 /
Measuring Ins. Strobe
Input 1 1.6 Next work piece
Input 1 1.7 Crack acknowledge
Input 1 1.8 Plug test
Input 1 GND
Input 2 Power Switch ON2 Works as Power-on-switch when combined with ON1
Input 2 2.1 Select work piece Strobe
Input 2 2.2 Select work piece 0
Input 2 2.3 Select work piece 1
Input 2 2.4 Select work piece 2
Input 2 2.5 Select work piece 3
Input 2 2.6 Select work piece 4
Input 2 2.7
Input 2 2.8
Input 2 GND
Output 3 24 V 24 V Input / VCC
Output 3 3.1 Ready for measuring
Output 3 3.2 Busy
Output 3 3.3 Measuring running
Output 3 3.4 Crack
Output 3 3.5 Break
Output 3 3.6
Output 3 3.7
Output 3 3.8
Output 3 GND
In/Output 4 24 V
In/Output 4 4.1
In/Output 4 4.2
In/Output 4 4.3
In/Output 4 4.4
In/Output 4 4.5
In/Output 4 4.6
In/Output 4 4.7
In/Output 4 4.8
In/Output 4 GND
Optimizer4D Technical Specifications
7 / 27
Harddrive exchange
1. Remove the cover of the PLC connectors
at the back of the device by loosening 2
screws (1).
2. Unscrew the screws that hold the
harddrives in place (2).
3. Remove and exchange harddrives (3).
Attention!
Mind the correct positions of the harddri-
ves while remounting.
1 1
2
3
2
Optimizer4D Technical Specifications
8 / 27
Measuring chain
The measuring chain of Optimizer4D
consists of a sensor (shown left in the
image), a connector from sensor to
pre-amplifier, the pre-amplifier itself and
a pre-amplifier-cable (green) from pre-
amplifier to Optimizer4D.
Vcc Power port allocation
Uninterrupted power supply (UPS)
Integrated uninterrupted power supply,
UPS: This component consists of several
supercapacitors (Super Caps). In case of a
blackout, the UPS enables the measuring
device to shutdown properly. This will
prevent loss of data to a major extent.
Just the measuring data of the work piece
which was processed in the moment of
the blackout will be lost.
Vcc Power port allocation
Pos. Function
1 GND
212/24 V Input
3 Potential equalization
1 2 3
Optimizer4D Technical Specifications
9 / 27
Pre-amplifier The pre-amplifier is installed between
measuring computer and sensor.
As the cable connection to the sensor is
maximum 50 m, the mounting of the pre-
amplifier is done close to the sensors.
Do not mount the pre-amplifier to
rotating machine parts! Three LED lamps
with the same colour serve as a display
for reports and flash when ready to
operate. The preamplifier has protection
class IP67.
Preamplifier cable
A cable connection with an Ethernet
cable is established from the preamplifier
to the measuring computer. The cable
type is Unitronic Etherline Pflex Lat. 5
with 4x2x0,26 mm. Both ends have a RJ45
plug. The connection to the preamplifier
is sealed with a M16x1,5 screw connec-
tion.
Optimizer4D pre-amplifier with six inputs. Dimensions are shown in millimeters.
Cable allocation of ethernet cable
from preamplifier to measuring
computer
1 Analogue signal,
differential signal pair
2
3 GND
4+15 V
5-15 V
6 GND
7 Serial signal,
output of commands
8
RJ45
1
A
2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
B
C
D
E
F
A
B
C
D
E
F
Dept. Technical reference Created by Approved by
Document type Document status
Title DWG No.
Rev. Date of issue Sheet
18.10.2017
1/1
2023 000553
QPA
Olaf Specht
67
106.55
80
46
55
10
4.4
20
36
25.8
8
1
A
2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
B
C
D
E
F
A
B
C
D
E
F
Dept. Technical reference Created by Approved by
Document type Document status
Title DWG No.
Rev. Date of issue Sheet
18.10.2017
1/1
2023 000553
QPA
Olaf Specht
67
106.55
80
46
55
10
4.4
20
36
25.8
8
1
A
2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
B
C
D
E
F
A
B
C
D
E
F
Dept. Technical reference Created by Approved by
Document type Document status
Title DWG No.
Rev. Date of issue Sheet
18.10.2017
1/1
2023 000553
QPA
Olaf Specht
67
106.55
80
46
55
10
4.4
20
36
25.8
8
Optimizer4D Technical Specifications
10 / 27
Sensors consists of a piezo-ceramic
element which detects high frequen-
cy impulses, also known as acoustic
emission or structure borne noise. The
piezo-ceramic element is placed into
a cylindrical housing of heat-treatable
aluminium.
Do not expose the sensors to tempera-
tures above 130° Celsius.
Mount the sensors with a torx wrench
(size t-25), use a force of 6 newton-
meters. If the surface is not flat, a tin
washer is used. You can also use a
magnetic adapter, but the signal trans-
mission is better if you use screws.
Attach the sensor as close to the tool or
work piece as possible to ensure signal
strength.
Following installation and commissio-
ning, Optimizer4D executes a self-test,
in order to determine if the sensors are
correctly installed, among other things.
This test is done with 550 V. There is
no danger for persons, for the galvanic
isolation between sensor housing and
the sensor itself.
The sensor cable (from sensor to pre-
amplifier) is equipped with MCX (or
Microdot for CiS.01) plugs, standard
has one straight and one angled plug.
Depending on the kind of usage you
can choose between several lines:
• dierent lenghts
• dierent line sheathings, e.g.
teflon or synthetic material.
Acoustic emission sensors
1
A
2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
B
C
D
E
F
A
B
C
D
E
F
Dept. Technical reference Created by Approved by
Document type Document status
Title DWG No.
Rev. Date of issue Sheet
18.12.2017
1/1
QWT-MCX
QWT Zusammenbau
Olaf Specht
Ø23
15.5
ISO M5
5
26
ähnl. ISO 10642 Torx M5x20 T25
MCX Buchse
1
A
2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
B
C
D
E
F
A
B
C
D
E
F
Dept. Technical reference Created by Approved by
Document type Document status
Title DWG No.
Rev. Date of issue Sheet
18.12.2017
1/1
QWT-MCX
QWT Zusammenbau
Olaf Specht
Ø23
15.5
ISO M5
5
26
ähnl. ISO 10642 Torx M5x20 T25
MCX Buchse
1
A
2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
B
C
D
E
F
A
B
C
D
E
F
Dept. Technical reference Created by Approved by
Document type Document status
Title DWG No.
Rev. Date of issue Sheet
18.12.2017
1/1
QWT-Microdot
QWT Zusammenbau
Olaf Specht
Ø23
15.5
ISO M5
5
32
ähnl. ISO 10642 Torx M5x20 T25
10-32 female (Microdot compatible)
MCX-Sensor (QWT-MCX - Optimizer4D)
Microdot-Sensor (QWT-Micro - CiS.01)
1
A
2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
B
C
D
E
F
A
B
C
D
E
F
Dept. Technical reference Created by Approved by
Document type Document status
Title DWG No.
Rev. Date of issue Sheet
18.12.2017
1/1
QWT-Microdot
QWT Zusammenbau
Olaf Specht
Ø23
15.5
ISO M5
5
32
ähnl. ISO 10642 Torx M5x20 T25
10-32 female (Microdot compatible)
Optimizer4D Technical Specifications
11 / 27
Magnetic adapter for sensor
Dimensions are shown in millimeters.
Magnetic Adapter.
Optimizer4D Technical Specifications
12 / 27
Sensor (MCX)
Sensors
Sensors consists of a piezo-ceramic
element which detects high frequency
impulses, also known as acoustic emissi-
on or structure borne noise. The piezo-ce-
ramic element is placed into a cylindrical
housing of heat-treatable steel.
Do not expose the sensors to temperatu-
res above 170° Celsius.
Mount the sensors with a wrench size
SW 19, use a force of 6 newtonmeters.
You can also use a magnetic adapter, but
the signal transmission is better if you
use screws. Attach the sensor as close
to the tool or work piece as possible to
ensure signal strength.
Following installation and commissio-
ning, Optimizer4D executes a self-test,
in order to determine if the sensors are
correctly installed, among other things.
Sensor cable with MCX connectors
Sensor (M5, previous version) with creamic
adapter (no electrical noises)
Sensor (M5, previous version) with
magnetic adapter
Sensor (M5, previous version) with cable
Pos. Name Type Order-Nr. Weight (kg)
1 Sensor with thread (M5) Standard SW19 QWT-MCX
<0,065
2 Ceramic adapter (without sensor) Standard SW19 O-WT ADAPTER-003
3 Magnetic adapter (without sensor) Standard SW22 O-WT ADAPTER-002
4 Sensor cable,
straight connectors
5,0 m O-CC WTS 0500 0,076
5 3,5 m O-CC WTS 0350 0,054
6 2,5 m O-CC WTS 250 0,038
7 Sensor cable,
angled connectors
5,0 m O-CC WTA 0500 0,076
8 3,5 m O-CC WTA 0350 0,054
9 2,5 m O-CC WTA 0250 0,038
1 2
3
4-6 7-9
The standard cable will be delivered with an
angled connector.
Optimizer4D Technical Specifications
13 / 27
QASS µmagnetic Sensor The sensor itself consists of a coil that
collects high-frequency Barkhausen Noise
and of a magnetic field coil that produces
the excitation field. During the hardness
testing, QASS µmagnetic magnetizes the
compenent. Consequently, jumps occur
in the strength of the magnetic field. The
system records these jumps in real-time.
Attention
Do not expose the sensor to a tempera-
ture above 70° Celsius (186° Fahrenheit).
To prevent overheating, turn of the excita-
tion field between measurings.
Recommended settings for the excitation
field that can be done in the signal gene-
rator of Optimizer4D:
Step Value
Amplitude 40,25 V
Frequency 1000 100 Hz
The cable that connects the sensor and
the pre-amplifyer comes with MCX plugs.
It comes with several options for length
and surface coating.
Dimensions are shown in millimeters.
Magnetic field sensor for hardness testing
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
1
A2
Aufbau und Komponenten
µM
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
03.08.2017 Nilges
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
µM Komponenten und Verkabelung.idw
1 : 2
Maßstab:
Rev.:
190,5
233,1
90,3
86,6
Füße demontierbar
µM-PA
93,50
16,00
63,70
R20,00
20,8
M5x0.8
M5x0.8
20,00
1/4-20 UNC
30,00
1/4-20 UNC
1/4-20 UNC
15,00
UMS 5-5-15
103,70
74,20
50,00
21,00
30,00
O-PA
4xM3
6,77
Optimizer4D Technical Specifications
14 / 27
QASS µmagnetic power amplifyer
Power amplifyer for hardness testing
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
1
A2
Aufbau und Komponenten
µM
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
03.08.2017 Nilges
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
µM Komponenten und Verkabelung.idw
1 : 2
Maßstab:
Rev.:
190,5
233,1
90,3
86,6
Füße demontierbar
µM-PA
93,50
16,00
63,70
R20,00
20,8
M5x0.8
M5x0.8
20,00
1/4-20 UNC
30,00
1/4-20 UNC
1/4-20 UNC
15,00
UMS 5-5-15
103,70
74,20
50,00
21,00
30,00
O-PA
4xM3
6,77
Dimensions are shown in millimeters.
This power amplifyer is installed bet-
ween measuring computer and sensor.
The connection cable has a length of up
to five meters.
Power amplifyer cable
Connection is established with a scree-
ned 8-pin cable. This enables DC power
supply as well as AC power supply of
QASS µmagnetic sensors.
Connection to power amplifyer is
established with a Lumberg SV80 plug,
connected to the Lumberg KFV80 socket
of the power amplifyer.
Attention!
Line voltage MUST be adjusted to local
voltage with this switch. In Europe: 230
Volt, in North America: 115 Volt.
Do not attach this pre amplifyer to move-
able machine parts!
Switch for local voltage
Pin assignment of KFV80 connection
1 -
2 -
3 -
4+ AC
5- AC
6 GND
7VCC
8 -
Optimizer4D Technical Specifications
15 / 27
Electrical characteristics
QASS µmagnetic sensor
General characteristics
Device QASS µmagnetic sensor
Supply Voltage DC 10 - 20 V (typ. 12 V)
AC 10 - 18 V
Signal Out Max. 30 mA
Saturation magnetic field Max. 1,2 T
Sensor temperature range -20°C to +70°C (-4° Fahrenheit to 158°)
Environmental temperature 0 - 50° Celsius (32° Fahrenheit to 122°)
QASS µmagnetic power amplifyer
General characteristics
Device QASS µmagnetic power amplifyer
Supply Voltage AC 230 V (4 A) / 115 V (2 A)
Output Voltage AC 10 - 18 V
DC 12 V
Output Current AC 2 - 4 A
DC 200 mA
Amplifying factor 18-fach
Band width 100 kHz
Source resistant 0,1 Ω
Load resistance 0,5 - 8,0 Ω (typ. 1,0 Ω)
Optimizer4D Technical Specifications
16 / 27
A ( 1 : 1 )
B ( 1 : 1 )
C ( 1 : 1 ) D ( 1 : 1 ) E ( 1 : 1 )
A
BCD
E
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
2
A2
Aufbau und Komponenten
µM
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
03.08.2017 Nilges
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
µM Komponenten und Verkabelung.idw
1 : 5
Maßstab:
Rev.:
Längen: 1,0 / 2,5 / 5,0 m
O-CC WTA
Längen: 1,0 / 2,5 / 5,0 m
O-CC WTA
Längen: 1,0 / 2,5 / 5,0 m
O-CC VVK
Längen: 3,0 / 5,0 / 10 m
O-CC WTA
O-CC VVK
A ( 1 : 1 )
B ( 1 : 1 )
C ( 1 : 1 ) D ( 1 : 1 ) E ( 1 : 1 )
A
BCD
E
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
2
A2
Aufbau und Komponenten
µM
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
03.08.2017 Nilges
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
µM Komponenten und Verkabelung.idw
1 : 5
Maßstab:
Rev.:
Längen: 1,0 / 2,5 / 5,0 m
O-CC WTA
Längen: 1,0 / 2,5 / 5,0 m
O-CC WTA
Längen: 1,0 / 2,5 / 5,0 m
O-CC VVK
Längen: 3,0 / 5,0 / 10 m
O-CC WTA
O-CC VVK
A ( 1 : 1 )
B ( 1 : 1 )
C ( 1 : 1 ) D ( 1 : 1 ) E ( 1 : 1 )
A
BCD
E
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
2
A2
Aufbau und Komponenten
µM
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
03.08.2017 Nilges
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
µM Komponenten und Verkabelung.idw
1 : 5
Maßstab:
Rev.:
Längen: 1,0 / 2,5 / 5,0 m
O-CC WTA
Längen: 1,0 / 2,5 / 5,0 m
O-CC WTA
Längen: 1,0 / 2,5 / 5,0 m
O-CC VVK
Längen: 3,0 / 5,0 / 10 m
O-CC WTA
O-CC VVK
A ( 1 : 1 )
B ( 1 : 1 )
C ( 1 : 1 ) D ( 1 : 1 ) E ( 1 : 1 )
A
BCD
E
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
2
A2
Aufbau und Komponenten
µM
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
03.08.2017 Nilges
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
µM Komponenten und Verkabelung.idw
1 : 5
Maßstab:
Rev.:
Längen: 1,0 / 2,5 / 5,0 m
O-CC WTA
Längen: 1,0 / 2,5 / 5,0 m
O-CC WTA
Längen: 1,0 / 2,5 / 5,0 m
O-CC VVK
Längen: 3,0 / 5,0 / 10 m
O-CC WTA
O-CC VVK
QASS µmagnetic connectivity
Optimizer4D Technical Specifications
17 / 27
Screen
Depiction of Optimizer4D-Screen. Front-, side- and rear-view.
X: rear view
Y: Details - connectivity
Z: view from underneath
„Y“
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
2
A2
TechData-Bildschirm
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
13.12.2016 Nilges
Maßstab: 1 : 2
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
Rev.:
Bildschirmanschlüsse
A 12 V DC
BDisplayPort
C HDMI
D VGA
E
USB 3.1
Connection to
the Optimizer
FUSB-C 3.1
Peripherie,
USB-Stick, Hub
G Power Button
„X“
Q A S S
VESA MIS-B
100 C
31,00 31,50 100,00
100,00
110,00
41,00
M3
„X“
„Z“
„Z“
A
B
C
D
E
F
G
„Y“
320,00
182,00
31,50
„Y“
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
2
A2
TechData-Bildschirm
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
13.12.2016 Nilges
Maßstab: 1 : 2
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
Rev.:
Bildschirmanschlüsse
A 12 V DC
BDisplayPort
C HDMI
D VGA
E
USB 3.1
Connection to
the Optimizer
FUSB-C 3.1
Peripherie,
USB-Stick, Hub
G Power Button
„X“
Q A S S
VESA MIS-B
100 C
31,00 31,50 100,00
100,00
110,00
41,00
M3
„X“
„Z“
„Z“
A
B
C
D
E
F
G
„Y“
320,00
182,00
31,50
„Y“
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
2
A2
TechData-Bildschirm
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
13.12.2016 Nilges
Maßstab: 1 : 2
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
Rev.:
Bildschirmanschlüsse
A 12 V DC
BDisplayPort
C HDMI
D VGA
E
USB 3.1
Connection to
the Optimizer
FUSB-C 3.1
Peripherie,
USB-Stick, Hub
G Power Button
„X“
Q A S S
VESA MIS-B
100 C
31,00 31,50 100,00
100,00
110,00
41,00
M3
„X“
„Z“
„Z“
A
B
C
D
E
F
G
„Y“
320,00
182,00
31,50
„Y“
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
2
A2
TechData-Bildschirm
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
13.12.2016 Nilges
Maßstab: 1 : 2
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
Rev.:
Bildschirmanschlüsse
A 12 V DC
BDisplayPort
C HDMI
D VGA
E
USB 3.1
Connection to
the Optimizer
FUSB-C 3.1
Peripherie,
USB-Stick, Hub
G Power Button
„X“
Q A S S
VESA MIS-B
100 C
31,00 31,50 100,00
100,00
110,00
41,00
M3
„X“
„Z“
„Z“
A
B
C
D
E
F
G
„Y“
320,00
182,00
31,50
Screen Connectivity
A12 V DC
B Display Port
CHDMI
DVGA
E USB 3.1 Connection to
Optimizer4D
F USB-C 3.1 Periphery, USB
flash drive, Hub
G Power Button
Optimizer4D Technical Specifications
18 / 27
Installation of screen
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
3
A2
TechData-Bildschirm
Status Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
13.12.2016 Nilges
Maßstab: 1 : 2
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Oberfläche:
ISO 1302
Härte:
Rev.:
4x M4
4x M5
Optimizer4D Technical Specifications
19 / 27
Dimensions are shown in millimeters.
Installing Optimizer4D into a wall cabinet - horizontal
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
1
A2
Zwischenblech-Waagerecht
Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
07.06.2017 Nilges
Maßstab: 1 : 1
Generisch
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Härte:
Rev.:
Oberfläche:
224,00
3,30
4,4
143,41
100,00
5,50
14,4
258,38
17,4
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
1
A2
Neue Wandhalterung Waagerecht mit Zwischenblech
Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
30.05.2017 Nilges
Maßstab: 1 : 1
Generisch
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Härte:
Rev.:
Oberfläche:
120
258
69,2
19,5
143,4
4,4
11
90
5,50
M3x0.5
In a first step, mount this metal plate
to the wall and the lower on this page
depicted metal plate to Optimizer4D.
If you insert a screw into the flap, it will
serve as a fixation.
Optimizer4D Technical Specifications
20 / 27
Installing Optimizer4D into a wall cabinet - vertical
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
1
A2
Neue Wandhalterung Senkrecht mit Zwischenblech
Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
07.06.2017 Nilges
Maßstab: 1 : 1
Generisch
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Härte:
Rev.:
Oberfläche:
129,00
272,8
90,00
120
69,2
M3x0,5
5,50
10,00
11
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
1
A2
Neue Wandhalterung Senkrecht mit Zwischenblech
Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
07.06.2017 Nilges
Maßstab: 1 : 1
Generisch
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Härte:
Rev.:
Oberfläche:
129,00
272,8
90,00
120
69,2
M3x0,5
5,50
10,00
11
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
A A
B B
C C
D D
E E
F F
1
A2
Zwischenblech-Senkrecht
Änderungen Datum Name
Gezeichn.
Kontroll.
Norm
Datum Name
07.06.2017 Nilges
Maßstab: 1 : 1
Generisch
Angaben in Millimeter
Schutzvermerk ISO 16016 beachten
Toleranz: ISO 2768 -
Härte:
Rev.:
Oberfläche:
272,8
14,4
4,4
129
3,30
5,50
Same conditions apply as mounting the device in a horizontal way.
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