Difference between revisions of "OR3X Hardware Instruments"

From OROS Wiki
Jump to navigation Jump to search
 
(13 intermediate revisions by 2 users not shown)
Line 5: Line 5:
[[Image:hardware.png|framed|none]]
[[Image:hardware.png|framed|none]]


Dear customer, thank you for purchasing an OROS Teamwork instrument. The Teamwork instruments are designed to fulfill industrial applications of noise and vibration measurement and analysis.
Dear customer, thank you for purchasing an OROS Teamwork instrument. The Teamwork instruments are designed to fulfill industrial applications of noise and vibration measurement and analysis. Your new instrument covers most of the measurement situations in the Automotive, Manufacturing and Automation, Energy & Process, Aerospace and Marine industries. It applies for real-time/Post-analyses as well as recording/playback of a raw signal. These instruments are suitable for field, on board and laboratory operations. They are also capable of remote/standalone measurements without any operator at their side.
 
Your new instrument covers most of the measurement situations in the Automotive, Manufacturing and automation, Energy & Process, Aerospace and Marine industries. It applies for real-time/Post-analyses as well as recording/playback of a raw signal.
 
These instruments are suitable for field, on board and laboratory operations. They are also capable of remote/standalone measurements without any operator at their side.
 
OROS Teamwork analyzers mainly run while connected to a Windows PC that drives the control and analysis software.
OROS Teamwork analyzers mainly run while connected to a Windows PC that drives the control and analysis software.


Line 16: Line 11:
O4 is a compact analyzer. It offers 2 or 4 dynamic inputs with 2 ext. sync.
O4 is a compact analyzer. It offers 2 or 4 dynamic inputs with 2 ext. sync.


[[Image:O4_description.png|400px|none]]
                                                                            [[Image:O4_description.png|400px|none]]


====Back Panel====
====Back Panel====
The back panel includes:
The back panel includes:


USB-C connector for data and power supply  
* USB-C connector for data and power supply  
USB-C connector for back-up power supply
* USB-C connector for back-up power supply
Mini-LEMO connector for Generator (Mini-LEMO-to-BNC adaptor is provided)  
* Mini-LEMO connector for Generator (Mini-LEMO-to-BNC adaptor is provided)  


*  
*  
[[Image:O4_back_.png|400px|none]]
[[Image:O4_back_2.png|400px|none]]


===DC POWER SUPPLY AND POWERING ON===
====DC POWER SUPPLY AND POWERING ON====
O4 instrument is DC power supplied through USB 3.0 Power Delivery protocol, provided by USB computer port or external DC supply.
O4 instrument is powered by DC power through USB 3.0 Power Delivery protocol, which can be provided through a USB computer port or external DC supply.
When computer is able to power O4 (8 W) through one cable, the LEDs in the back panel are lighted as shown below:
When the computer can power O4 (8 W) with a single cable, the LEDs on the back panel are lit as shown below:


[[File:O4_power_1.png|100px]]
[[File:O4_power_1.png|100px]]


====OLD PC====
=====OLD PC=====
When the computer port is not powerful enough to supply O4, this could happen witj old PC withour USb 3.0 port. Then a back-up power is required, with 5 volts and 2 amperes max. specification.
When the computer port is not powerful enough to supply O4, this could happen with old PCs without a USB 3.0 port. Then a backup power source is required, with a maximum of 5 volts and 2 amps.
*
In case of back-up powering, please follow the instructions:
In case of back-up powering, please follow the instructions:
*
1. Connect the back-up power first and wait until the LED turns green
1. Connect the back-up power first and wait until the LED turns green


Line 44: Line 41:


[[File:O4_power_3.png|100px]]
[[File:O4_power_3.png|100px]]
All the connections of O4 instruments comply with SELV (Safety Extra Low Voltage) conditions.
All the connections of O4 instruments comply with SELV (Safety Extra Low Voltage) conditions.


Line 137: Line 135:


====Lateral panel====
====Lateral panel====
With the universal inputs and the adapted connection kit<ref>Not available for ORMP</ref>, the OR35, OR36 and OR38 can hold signal conditioning modules called XPod (dockable e'''XP'''ander m'''od'''ule).
With the universal inputs and the adapted connection kit (Not available for ORMP), the OR35, OR36 and OR38 can hold signal conditioning modules called XPod (dockable e'''XP'''ander m'''od'''ule).


[[Image:Usersmanual_32.jpg|framed|none]]
[[Image:Usersmanual_32.jpg|framed|none]]


The XPod is a device that can be fixed on the OR35/OR36/OR38 side. Each XPod is associated to a block of 8 inputs.
The XPod is a device that can be fixed on the OR35/OR36/OR38 side. Each XPod is associated to a block of 8 inputs.


The following optional XPod are available:
The following optional XPod are available:
Line 167: Line 165:
</u>
</u>


'''Note''': When travelling, fix the XPod on the analyzer to avoid any damages. When there is no XPod, fix the rubber cover on the analyzer. There are two rubber covers on the XPod which allows having a cover left if one is lost.
'''Note''': When travelling, fix the XPod to the analyzer to avoid any damage. In the absence of an XPod, secure the rubber cover on the analyzer. There are two rubber covers on the XPod, which allows having a cover left if one is lost.


====Back Panels====
====Back Panels====
Line 181: Line 179:


=====Back panel connectors description=====
=====Back panel connectors description=====
* 2 Ethernet (1 Gb/s) connectors for connection to PC and cascade of analyzers.
* '''A''': Two Ethernet (1 Gb/s) connectors: One for connection to PC and one for cascade of analyzers.
* Connect the PC to IN
Connect the PC to IN. In cascade mode connect the PC to first analyzer (master) to IN. Next units are daisy chained (OUT -<nowiki>></nowiki> IN, OUT- <nowiki>></nowiki> IN, etc…) in cascaded mode. The cables required are Category 5 un-shielded twisted-pair. Use the blue cables.
* In cascade mode connect the PC to first analyzer (master) to IN. Next units are daisy chained (OUT -<nowiki>></nowiki> IN, OUT- <nowiki>></nowiki> IN, etc…) in cascaded mode.
* '''B''': 2 clock synchronization connectors (100 Mb/s Ethernet). Please do not use while using a sole analyzer. Daisy chain from Master unit to the next one in cascaded mode (OUT -<nowiki>></nowiki> IN, OUT- <nowiki>></nowiki> IN, etc…). On the Mobi-Pack, synchronization connectors are on the front panel
* Cable required Category 5 unshielded twisted-pair. Use the blue cables.
*'''C''':  DC power in XLR connector (Not available on ORMP ). To be plug with the external power supply. Warning, do not mix the instrument power supply types.
* 2 clock synchronization connectors (100 Mb/s Ethernet)
* '''D''': Mobi-disk. The Mobi-Disk holds the recorded raw data. So please power off the analyzer prior removing or inserting it. When using the analyzer without the Mobi-disk plugged in, use the obturator cover to protect the internal parts of the analyzer.
* Do not use while using a sole analyzer
* '''E''': Disk activity LED: The LED will flash while data are written on or read from the disk.
* Daisy chain from Master unit to the next one in cascaded mode (OUT -<nowiki>></nowiki> IN, OUT- <nowiki>></nowiki> IN, etc…)
* '''F''': USB 2.0 for raw data recording: To record on an external disk, power off the analyzer, remove the Mobi-Disk (put the obturator cover), plug your USB memory device and power on. The raw data will be saved on the memory device. Caution, the write speed on your memory device may lead to a throughput error, check the performance before using it for actual measurements
* On the Mobi-Pack, synchronization connectors are on the front panel
* '''G''': Interface connector: RS-232 for remote control through RJ11 connector
* DC power in XLR connector<ref>Not available on ORMP </ref>. To be plug with the external power supply.  
*'''H''':  Reset. To be used when your analyzer does no respond to any command. Insert a paper clip in the hole and press smoothly.
 
* '''I''': Accessory Power supply. This connector provides power supply for external use (transducer, tachometer, etc… power supply). The available voltage and power are:
Warning, do not mix the instrument power supply types.
1. <nowiki>+</nowiki>5V, 3W, 1.6 A
* Mobi-disk. The Mobi-Disk holds the recorded raw data.
*
*
2. <nowiki>+</nowiki>9V, 6W, 650 mA
, Caution, power off the analyzer prior removing or inserting it.
*
* When using the analyzer without the Mobi-disk plugged-in, use the obturator cover to protect the internal part of the analyzer
3. <nowiki>+</nowiki>15V, 6W, 25 mA
* Disk activity LED. The LED will flash while data are written on or read from the disk.
*'''J''':  High speed port: Used for connection the CAN bus probe
* USB 2.0 for raw data recording. To record on a external disk, power off the analyzer, remove the Mobi-Disk (put the obturator cover), plug you USB memory device and power on. The raw data will be saved on the memory device.  
*'''K''':  Ground connection. Use this screw to connect the analyzer to the ground potential
Caution, the write speed on your memory device may lead to a throughput error, check the performance before using it for actual measurements
* Interface connector: RS-232 for remote control through RJ11 connector
* Reset. To be used when your analyzer does no respond to any command. Insert a paper clip in the hole and press smoothly.
* Accessory Power supply. This connector provides power supply for external use (transducer, tachometer, etc… power supply). The available voltage and power are:
* <nowiki>+</nowiki>5 V, 3 W, 1.6 A
* <nowiki>+</nowiki>9 V, 6 W, 650 mA
* <nowiki>+</nowiki>15 V, 6 W, 25 mA
* High speed port: Used for connection the CAN bus probe
* Ground connection. Use this screw to connect the analyzer to the ground potential


====DC Power supply====
====DC Power supply====

Latest revision as of 10:49, 24 October 2023

OROS Teamwork instruments Range

This manual applies to the whole OROS Teamwork instruments range.

Hardware.png

Dear customer, thank you for purchasing an OROS Teamwork instrument. The Teamwork instruments are designed to fulfill industrial applications of noise and vibration measurement and analysis. Your new instrument covers most of the measurement situations in the Automotive, Manufacturing and Automation, Energy & Process, Aerospace and Marine industries. It applies for real-time/Post-analyses as well as recording/playback of a raw signal. These instruments are suitable for field, on board and laboratory operations. They are also capable of remote/standalone measurements without any operator at their side. OROS Teamwork analyzers mainly run while connected to a Windows PC that drives the control and analysis software.

O4 analyzer

O4 is a compact analyzer. It offers 2 or 4 dynamic inputs with 2 ext. sync.

O4 description.png

Back Panel

The back panel includes:

  • USB-C connector for data and power supply
  • USB-C connector for back-up power supply
  • Mini-LEMO connector for Generator (Mini-LEMO-to-BNC adaptor is provided)
O4 back 2.png

DC POWER SUPPLY AND POWERING ON

O4 instrument is powered by DC power through USB 3.0 Power Delivery protocol, which can be provided through a USB computer port or external DC supply. When the computer can power O4 (8 W) with a single cable, the LEDs on the back panel are lit as shown below:

O4 power 1.png

OLD PC

When the computer port is not powerful enough to supply O4, this could happen with old PCs without a USB 3.0 port. Then a backup power source is required, with a maximum of 5 volts and 2 amps.

In case of back-up powering, please follow the instructions:

1. Connect the back-up power first and wait until the LED turns green

O4 power 2.png

2. Connect the first USB port to PC and wait until the LED turns green.

O4 power 3.png

All the connections of O4 instruments comply with SELV (Safety Extra Low Voltage) conditions.

OR35/OR36/ORMP/OR38 Teamwork instruments

OR35, OR36, ORMP & OR38 cover high end applications with multi-channels chassis. They offer from 4 to 32 universal inputs, 2 ext. synch, 2 generators and optional auxiliary channels supporting generators, trigger/tach and parametric inputs.

Front Panels

  OR38 OR36/MP OR35
Inputs 1 to 32 Universal 1 to 16 Universals
4 or 8 Universal + 2 Dynamic
Outputs Generators 1 & 2 Generators 1 & 2 Generators 1 & 2
Triggers External Sync.1 & 2 External Sync 1 & 2 External Sync 1 & 2 in // with Dynamic 9 & 10
Auxiliaries 4 DC, GEN or Ext synch (Depending on the purchased options) 4 DC, GEN or Ext synch No
Overview
Usersmanual 56.jpg
Usersmanual 57.jpg
Usersmanual 58.gif

The universal inputs gather both dynamics and parametric input in the same board and connectors. The type of use of the universal inputs is selectable by software (NVGate®) during the analyzer operations. The universal inputs fulfill all the performances, precision and operability of each specific input type. All the connections are Very Low Safety Voltage.

Inputs LED colors

For each input connector LED shows the current status:

Color Input type Signal level
Green Dynamic FS<ref>Full scale</ref>-30 dB < Signal < FS
Cyan Dynamic 0 < Signal < FS-30 dB
Red Dynamic/Parametric Signal > FS (Overload)
Yellow Parametric FS-30 dB < Signal < FS
Purple Parametric 0 < Signal < FS-30 dB
Off Inactive N.A.

Lateral panel

With the universal inputs and the adapted connection kit (Not available for ORMP), the OR35, OR36 and OR38 can hold signal conditioning modules called XPod (dockable eXPander module).

Usersmanual 32.jpg

The XPod is a device that can be fixed on the OR35/OR36/OR38 side. Each XPod is associated to a block of 8 inputs.

The following optional XPod are available:

  • Bridge signal conditioning for strain gauges, dynamic pressure and force measurements.
  • Thermocouple and RTDs for temperature measurements.

To fix the XPod on the analyzer:

1. Warning: do not plug or unplug the XPod when the analyzer is powered on, shut it down for this operation.

2. Lock the XPod hook in the notch on the back of the analyzer,

3. Lower the XPod to the corresponding connector on the top of the analyzer,

4. Secure the XPod on the analyzer with the screw on the extension key of the XPod

1 2 3
Usersmanual 60.gif
Usersmanual 61.gif
Usersmanual 62.gif

Note: When travelling, fix the XPod to the analyzer to avoid any damage. In the absence of an XPod, secure the rubber cover on the analyzer. There are two rubber covers on the XPod, which allows having a cover left if one is lost.

Back Panels

The back panel supports the connectivity, power supply and accessories connections.

Usersmanual 63.png

OR35 instrument complies with SELV (Safety Extra Low Voltage) conditions.

Usersmanual 64.png

All the connections of OR36, ORMP and OR38 instruments comply with SELV (Safety Extra Low Voltage) conditions.

Back panel connectors description
  • A: Two Ethernet (1 Gb/s) connectors: One for connection to PC and one for cascade of analyzers.

Connect the PC to IN. In cascade mode connect the PC to first analyzer (master) to IN. Next units are daisy chained (OUT -> IN, OUT- > IN, etc…) in cascaded mode. The cables required are Category 5 un-shielded twisted-pair. Use the blue cables.

  • B: 2 clock synchronization connectors (100 Mb/s Ethernet). Please do not use while using a sole analyzer. Daisy chain from Master unit to the next one in cascaded mode (OUT -> IN, OUT- > IN, etc…). On the Mobi-Pack, synchronization connectors are on the front panel
  • C: DC power in XLR connector (Not available on ORMP ). To be plug with the external power supply. Warning, do not mix the instrument power supply types.
  • D: Mobi-disk. The Mobi-Disk holds the recorded raw data. So please power off the analyzer prior removing or inserting it. When using the analyzer without the Mobi-disk plugged in, use the obturator cover to protect the internal parts of the analyzer.
  • E: Disk activity LED: The LED will flash while data are written on or read from the disk.
  • F: USB 2.0 for raw data recording: To record on an external disk, power off the analyzer, remove the Mobi-Disk (put the obturator cover), plug your USB memory device and power on. The raw data will be saved on the memory device. Caution, the write speed on your memory device may lead to a throughput error, check the performance before using it for actual measurements
  • G: Interface connector: RS-232 for remote control through RJ11 connector
  • H: Reset. To be used when your analyzer does no respond to any command. Insert a paper clip in the hole and press smoothly.
  • I: Accessory Power supply. This connector provides power supply for external use (transducer, tachometer, etc… power supply). The available voltage and power are:

1. +5V, 3W, 1.6 A

2. +9V, 6W, 650 mA

3. +15V, 6W, 25 mA

  • J: High speed port: Used for connection the CAN bus probe
  • K: Ground connection. Use this screw to connect the analyzer to the ground potential

DC Power supply

Usersmanual 68.png
OR35 connector
Usersmanual 31.jpg

OR35 features a coaxial connector. Center is positive terminal; outer ring is negative and ground terminal:

The analyzers may be powered from an external DC voltage6 to replace the external power supply. The power voltage and current must fulfill the following conditions:


OR35 Power supply
Power < 30 VA
External AC Power supply Voltage 110 to 220 VAC 1.7 A max
Frequency 50/60 Hz
DC in Range 10 V to 28 V
Overload protection Absolute maximum < 40 V / > 31 V poles are disconnected
Battery Type Built-in 89 Wh Li-ion 8 modules (UN38.3 certified)
Autonomy 3 h (4 ch 1 DSP 12.8 kS/s)
Charge time 3 h (typical)
Charge conditions DC power supply > 12V
OR36/ORMP Power supply
Power < 60 VA
External AC Power supply Voltage 110 to 220 VAC / 1.7 A max
Frequency 50/60 Hz
DC in (Not applicable to the ORMP) Range 12 V to 28 V (DC voltage < 17 V will discard the battery)
Overload protection 31 V (over this voltage DC poles are short-circuited)
Battery Type NiMh 11 modules (no memory effect)
Autonomy 2 h (4 ch 1 DSP 12.8 kS/s)
Charge time 2 h 30 min (typical)
Charge conditions DC power supply > 18 V
OR38 power supply
Power < 100 VA
External AC Power supply Voltage 110 to 220 VAC / 2.0 A max
Frequency 50/60 Hz
DC in Range 15 V to 28 V (DC voltage < 22 V will discard the battery)
Overload protection 31 V (over this voltage DC poles are short-circuited)
Battery Type NiMh 17 modules (no memory effect)
Autonomy 2 h (8 ch 1 DSP 12.8 kS/s)
Charge time 3 h (typical)
Charge conditions DC power supply > 24 V

Note: All External power supplies accept mains supply voltage fluctuations up to ±10 % of the nominal voltage; Transient overvoltage up to the levels of Cat II; Temporary overvoltage occurring on the mains power supply.

Note: Externals power supplies provided by OROS must operate in the range of -10°C to +40 °C

Batteries

OROS Teamwork instruments contains an internal battery block particularly useful for autonomous operations (except for OR34) or in case of temporary power failure (all OROS Teamwork instruments).

The batteries of OROS Teamwork instruments are designed to provide maximum trouble-free life. To obtain the longest battery life, please follow the following advice:

  • Caution: Temperature above normal room temperature will shorten battery life. If OROS Teamwork instruments is stored or shipped at more than 40°C (104°F), recharge it before running the system.
  • Charge the battery in cool area. The battery is charging when an OROS Teamwork instrument is plugged to a power supply. Charge stops when the Front Panel indicates 100%.
  • Caution: Never store OROS Teamwork instruments with a discharged battery.

All batteries gradually lose their charge (the higher the temperature is, the quicker the batteries lose their charge). If you store your system for a long time without using it, recharge the batteries every two or three months. This practice will extend battery life.

Fan

The cooling fan is used to reduce the temperature inside OROS Teamwork instruments. From the Front Panel the user can manually switch it on or switch off (for very sensitive acoustic measurements).

The fan operation will be automatically forced when the temperature inside the OROS Teamwork instruments reaches 50°C and stops at 43°C.

Warning: Do not cover the Teamwork instrument in order to let the ventilation operate properly.

Temperature and fan management

Internal temp System status Fan
70°C (158 °F) Absolute maximum rating Off
65°C (149 °F) Forced shutdown, do not operate Off
60°C (140 °F) Normal Forced max
50°C (122 °F) Normal Automatic Fast
45°C (113 °F)
40°C (104 °F) Normal Automatic Slow
35°C (95 °F)
30°C (86 °F) Normal Off
0°C (32 °F)
-5°C (23 °F) OK with 1 min/°C Warmup Off
-20°C (-4 °F)
-25°C (-13 °F) Storage, do not operate Off
-35°C (-31 °F) Absolute minimum rating Off


Powering on/off OR35- OR36/ORMP - OR38

The Teamwork instrument feature an LCD screen on the front panel.

To start OR35/OR36/ORMP/OR38 instruments, press the On/Off button of the Front Panel. "OROS-3 Series Powering up" is displayed on the LCD screen.

Usersmanual 72.png

Instrument auto-tests are performed until "System OK " appears on the screen or "Ready D-rec" if the D-rec option is available.

If auto-tests return an error message, please contact your OROS Support.

Power off OR35/OR36/ORMP/OR38 instruments by pressing on the On/Off button of the front panel for a few seconds until "Shutdown" appears on the screen or by pressing on the right-hand button of the front panel «", then on the second button for "S" (Shutdown) and confirm by pressing "Y" (Yes).

From the LCD screen:

Usersmanual 73.png

Press the right-hand button for "". The following menu is displayed:

Usersmanual 74.png

This menu allows to:

  • shutdown the analyzer (second button for "S")
  • reset the analyzer (third button for "R")
  • go back to the first menu (fourth button for "").
Usersmanual 75.png

Answer "Y" for Yes

If Instrument does not respond, press the On/Off button until it turns off. Then, power it on again after a few minutes.