Pin Configuration of Wago connectors
As requested by some viewers here is the pin description of Wago.
Rx Tx N/C | Output GND |
Friday, 8 June 2012
Pin Configuration of Wago Connectors
Thursday, 7 June 2012
Troubleshoot tricks for Focal 903
Troubleshoot Focal 903
I recommend before you start reading this post please read the post about basic Information of Focal 903.
I will first start with surface unit as this unit is easily accessible to techs and discuss various LED's and indicator and their use while troubleshooting.
Fuse-There is a 1 Amp fuse at the back of this unit and if you are running on fluctuating power supply this is the only protection this unit has so if this unit is not turning on,Please check this fuse.
I will first start with surface unit as this unit is easily accessible to techs and discuss various LED's and indicator and their use while troubleshooting.
Fuse-There is a 1 Amp fuse at the back of this unit and if you are running on fluctuating power supply this is the only protection this unit has so if this unit is not turning on,Please check this fuse.
Power Supply Indicator-The Power supply module has 3 LED's on it which displays three out put voltages of power supply,As this unit comes with different types of power supply depending on model and requirement but most commonly used one is the one with 240 V input supply and output of +12v,-12v,+5v and you can check the output by looking at the glowing led's.
Note-Power supply for focal unit can be operated on 120v or 240v,Some power supply models comes with auto selector function while some power supply has manual switch in it to select the voltage and to access this switch you need to open power supply cover.
Tx and Rx LED's on data channel-This is my favorite as from this you can tell which side of focal 903 has problem.
When telemetry is working fine both RED and GREEN led's will blink continuously telling you that focal is receiving and transmitting data.
In surface focal unit RED led represents local computer and Green led represents remote computer(POD),So if your green led is blinking and red is not,This condition represents that pod is sending data but computer in control van has problem.
This logic applies for both surface and Subsea unit as for subsea unit POD will become local computer and control van computer will become remote computer and logic will remain the same
RED LOCAL -GREEN REMOTE
So just by looking at these led's a technician can tell which part has problem surface or subsea.
Note-These LED's should be blinking and not solid on, As blinking led represents data transfer and some systems have high data rate and led blinks at such a fast rate that led appears to be solid, so watch it carefully.
LINK LED-Link LED represents that focal unit is receiving enough optical power from other end and fiber is GOOD but this does not represents that telemetry is working.
Diagnostic Port-There is a separate post about using focal 903 diagnostic port,Please refer to that post.
Video Signal-when focal receives a video signal led related to that particular channel will blink and indicates video signal is being received.
How to test daughter card on AIB backplane-Take a Fluke multimeter(Only fluke) and select diode mode place black lead on the bottom most pin and red lead on the second pin (Last two pins) and red led will glow and indicates daughter card is working fine.
Note-This is only applicable for RS-232 data card.
Note-This is only applicable for RS-232 data card.
If daughter card has gone bad you need to replace it,Please make sure you take precautions while handling cards as daughter boards are sensitive towards electrostatic interference.
Note-when replacing daughter card on AIB module please align the white dot on card as well as on backplane as daughter card can be fitted both ways.
Now Lets talk about Subsea unit
Subsea unit has a 3Amp fuse on back plane and when this fuse blows and you don't have spare one no need to worry,Open backplane and there will be another fuse fitted as SPARE fuse.
Link LED and Video led's have same function as on top unit.the only difference you will find that the subsea unit is a high density unit,Hence smaller in size.
Now Lets talk about Subsea unit
Subsea unit has a 3Amp fuse on back plane and when this fuse blows and you don't have spare one no need to worry,Open backplane and there will be another fuse fitted as SPARE fuse.
Link LED and Video led's have same function as on top unit.the only difference you will find that the subsea unit is a high density unit,Hence smaller in size.
Wednesday, 6 June 2012
How to Use Power Meter
Power Meter
Another measuring instrument for fiber optics and much easier to use as compare to OTDR but will not give you much details as OTDR.So Power meter box comes with 3 major components-
1) Light Source
2) Power meter
3) Fiber of small length-Calibration cable
Most of the light source can transmit laser at 850nm,1310nm and 1550nm and depending on your system you can choose the wavelength required.
I will choose 1550nm because all the systems i worked on has Focal 903 and downlink wavelength in focal 903 is 1550nm.
Once you have selected wavelength in light source choose the same wavelength in power meter as well.
Take calibration cable and fix between light source and power meter,Switch ON both devices and note the reading in dB,I prefer it in dB because its easier for me to calculate but you can do it in dBm as well but make sure to do calculations accordingly.
Note-Techs taking reading in dBm will get readings between -2dBm to -8dBm
You must see reading of about 65dB-75dB and if battery of any device is low you might get an error reading so be aware of this.
Note down the reading as this is our benchmark lets suppose 70dB(Benchmark reading) in this case.
Now Connect Light source at starting point in this case i am measuring total system loss by connecting light source at start of fiber in control van by disconnecting fiber at surface FO
and Power meter at the subsea end as this for illustration purpose only you can even place a particular junction box in between.
**Important Note-Do not disconnect calibration cable from the circuit while performing test
Now the reading in power meter will be suppose 60dB(Final Reading)
Total Loss in a System= Benchmark Reading - Final reading
10dB =70dB - 60dB
So in this case we have loss of 10dB in whole system from Surface to subsea.
You can use this method for a particular connector as well, by placing a connector in between instead of whole system.
I hope i have explained it well on how to use power meter but if you still have any question please use the comment section.Next post i will explain how to troubleshoot FO 903
Welcome to My Blog
Hello All,
Welcome to my blog as i have just started this blog yesterday(06/06/2012) only and able to do 4-5 topics only.
I will keep posting something new everyday as i have lot to share regarding ROV's as this keeps me busy when i am not working offshore.
If anyone needs information on a particular topic or wants to contribute to this blog,You are more than welcome.
I am always ready to learn something new regarding ROV's.
Keep visiting the blog or subscribe for updates.
Thanks and Regards
Deepanshu Giri
Welcome to my blog as i have just started this blog yesterday(06/06/2012) only and able to do 4-5 topics only.
I will keep posting something new everyday as i have lot to share regarding ROV's as this keeps me busy when i am not working offshore.
If anyone needs information on a particular topic or wants to contribute to this blog,You are more than welcome.
I am always ready to learn something new regarding ROV's.
Keep visiting the blog or subscribe for updates.
Thanks and Regards
Deepanshu Giri
Loss in a Fiber System
Loss in a Fiber System
So its a big question when taking measurements what loss i should see when measuring a loss in a connector or a Fiber optic slipring below are some ballpark figures which will help you out in a field.
Fiber cable- 0.4dB/Km - 0.7dB/Km
Slip-Ring/FORJ - As depending on which channel of fiber optic slip ring you are using loss will be considered if we consider a 5 channel slipping and loss will be minimum in channel no-1 and maximum loss will be in channel no 5.
Channel no # 1 - 2 dB
Channel no # 2 - 2.5 dB
Channel no # 3 - 3 dB
Channel no # 4 - 3.5 dB
Channel no # 5 - 4 dB
Connector -0.25 dB
Barrel or Union Connector- 0.5 dB-1 dB
I have calculated on papers with 4km of umbilical and 600 mt of tether taking in consideration all connectors, The maximum and minimum loss in a system should be
ROV
Maximum Loss-16dB
Minimum Loss-11dB
CAGE/TMS
Maximum Loss -12dB
Minimum Loss - 7 dB
You have all the figures you can calculate on your own by taking all the connectors in consideration.
Channel no # 1 - 2 dB
Channel no # 2 - 2.5 dB
Channel no # 3 - 3 dB
Channel no # 4 - 3.5 dB
Channel no # 5 - 4 dB
Connector -0.25 dB
Barrel or Union Connector- 0.5 dB-1 dB
I have calculated on papers with 4km of umbilical and 600 mt of tether taking in consideration all connectors, The maximum and minimum loss in a system should be
ROV
Maximum Loss-16dB
Minimum Loss-11dB
CAGE/TMS
Maximum Loss -12dB
Minimum Loss - 7 dB
You have all the figures you can calculate on your own by taking all the connectors in consideration.
Diagnostic port of Focal 903
Diagnostic Port of Focal 903
Focal 903 is very robust fiber optic unit and with the facility to remotely monitor temperature and DB loss in fibers of subsea unit with the help of Diagnostic port.
So while sitting in control Van we know temperature of both units and Db loss in our fibers.
We can record a log when telemetry is good and compare during troubleshooting like fiber loss and temperature of units.
Procedure to Use Diagnostic port.
DB9 female connector on console unit is the diagnostic port of focal 903.
Prepare a short whip between your PC to Focal connector, It will be straight connection
Install Focal software (Which comes in Focal Disk )on your laptop or PC."This Software cannot be installed without internet connection"
Switch on Focal 903
Click on VDM icon on desktop. If you can’t see VDM icon on desktop please go to C drive -Program files-VDM (Folder)-VDM icon.
Once you click on icon it will start monitoring all parameters like Db loss in fiber and uplink loss/downlink loss. and temperature of both subsea and console unit.
So if we make a log of parameters during normal condition’s it will be easy when we have to troubleshoot system.
The readings which you see regarding loss in uplink and downlink will not be accurate until and unless to calibrate your software,You need to take dBm readings from both transmitter and receiver and enter it manually in software by clicking on calibrate,After this only loss readings will be accurate.
FOCAL 903 Basics
FOCAL 903 Basics
Before i teach you troubleshooting its important to learn some basics about this wonderful unit.
SO there are two units Surface and Subsea at first i will talk about surface unit only and later on about subsea unit.
High Speed and Medium Speed unit
There are two types of surface units available one is High speed and another is Medium speed unit,The only difference between the two is number of data and Video channels available in a unit.
As Shown in figure is a medium speed unit and has 8 data channels and 4 video channels while the high speed unit has 16 data channels and 8 video channels,Mostly in Vehicle is a high speed unit and for cage or TMS is a medium speed unit due to less number of camera's and equipments.
Now in Medium speed unit there are 2 backplanes also known as AIB (Adaptable interface board) 1 AIB has 4 data channels slots to place daughter cards in it, One backplane is dedicated to RS-232 and cannot be configured for any other protocol.So we have 4 RS-232 data channels
The second backplane also has daughter card slots,User can place any daughter card according to requirement e.g. RS422/485, Arcnet or even RS-232.
While in High speed unit there are 4 backplanes out of which 2 backplanes are dedicated for RS-232 and other 2 backplanes can be configured for any other protocol according to requirement.Please refer to fig below to see which backplanes are dedicated for RS-232.
Now we have learned some basics about Surface unit let's talk about subsea,Subsea units are also referred as HD (High Density) units as well because of shortage of space subsea units are compact and smaller in size so they can be fit in POD.The difference of High and medium speed and allotment of AIB backplanes are same as it was in Surface units.
Operation of FOCAL 903
As One of the biggest advantage of Focal 903 is a backup fiber and Diagnostic port that gives the real time monitoring of Fiber loss,These is a separate post on how to use diagnostic port.
So lets talk about back up fiber as there is a selector switch to select between Fiber 1 or Fiber 2 or leave it on automatic mode and fiber with minimum loss will be selected.(See post Loss in a FO).
Always remember when you do bench test for these units it is recommended to have minimum 5dB of loss between surface and Subsea unit.
The maximum loss between Surface and Subsea Unit can be around 20dB,For more information on losses please refer to blog post Loss in a FO.
In my next post i will write about Troubleshooting Focal 903.
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