2024年3月25日发(作者：蹉新柔)

Datasheet

OIC-2021 HMS 3.0 Server

With a marine background dating back to 1924 and a

worldwide experience in meteorological stations, it is clear

that Observatorsystems are widely used in offshore

applications. Meteorological measurements are critical for

daily operations in harsh conditions like this. Examples

include (un)loading at sea and crane and installation works,

which all depend on wind, but also approaching

thunderstorms that may affect general operations.

Taking crew members and other people to and from moving

or non-moving offshore objects is often done with the aid of

helicopters. Here too, meteorological information is of

critical importance. To this end, Observator has been

supplying its widely used Helideck Monitoring Systems

(HMS) for many years. These meet the most stringent

standards, such as those of the UK CAA CAP437,

Norwegian CAA BSL D 5-1 and the Brazilian DPC

Normam-27.

For this purpose Observator developed her completely new

HMS 3.0 line. Now that the hard-and software is available,

all users have the opportunity to update their systems on

time.

However, the HCA, which certifies helidecks worldwide,

tightens these standards when it comes to moving objects.

Especially when it comes to the parameter 'movement'.

Recently she published the HCA 9.x ‘Standard Helideck

Monitoring Systems’ which describes new algorithms,

calculations and new pages to be used. This guideline will

become mandatory as of 1 April 2021 for FPSO's, FSO's,

offshore installation vessels, mega yachts, offshore supply

vessels, diving support vessels etc., which are equipped

with a helideck.

General

The OIC-2021 is Observator’slatest HMS / MetOcean/

EMS Server, provided with dedicated software to meet the

HCA (Helideck certification agency) Standard Helideck

Monitoring System

Obviously the complete system fully complies with CAP437,

Normam-27 and BSL D 5-1 and others as well.

The unit comes in a 19” sub-rack of 3 HE only and

comprises an industrial PC and all required i/o, based on

Observator’sMeteoLinkconcept.

Integrated I/O

In previous standards of the HCA a traffic light was already

described which was mandatory on the software pages.

Within the last 9.x standard not only the algorithms have

changed how to control this, it has also become an

obligation to send these warnings to the helideck itself.

So-called helideck-repeater lights at four points on the deck

display the status. At this point the OIC-2021 is equipped

with 3 contact outputs which can control these lights as

follows:

Helideck StatusHMS HMS HMS Repeater Light Mode

output output output

HMS HMS HMS Repeater Light Mode

#1#2#3

000N/A

Helideck Status

output output output

#1#2#3

safe toland

MSI/WSI exceedance

safe toland

do notland

MSI/WSI exceedance

do notland

RWD withinlimits

Mitigationact considered

RWD withinlimits

Mitigation

act considered

act required

Mitigation

Mitigationact required

Backside of the OIC-2021, on the left sensor or MeteoLinkinputs, right

on this the Auxiliary ports and ports to dedicated displays and

contact outputs for the helideck repeater lights.

0

0

1

0

1

1

0

1

0

0

1

0

1

1

1

1

0

0

1

1

0

0

1

1

0

0

1

1

0

1

0

0

0

0

0

0

1

0

1

1

1

1

1

1

1

N/A

N/A

N/A

As helideck repeater lights the OrgaL430 can be used in

combination with the controller. The lights have an

integrated photocell to automatically control the required

dimming at twilight and at night. No separate photocell is

required. They also include failure monitoring so that the

control panel can show any errors that may occur.

The server is anindustrialDNV 2.4 compliant, IEC 60945

certified, head-lessPC withIntel® Core™ i5-7300U 2.6

GHz*/i5-6300U 2.4 GHz processor, Chipset: SoCintegrated;

System Memory 2 x DDR4-1866/2133 SO-DIMM,

4GB(32GB max); BIOS: AMI; Memory SSD 128GB.

The 2 swappable2.5” SAT drives are easy acceptableat the

front of theOIC-2021 whileremovingthecover plate. The

OIC-2021 usesa Linux operationsystem whiletheHMS 3.0

willcomeas pre-installedsoftware.

The OIC-2021 HMS 3.0 Server further contains two

accurate high accurate barometric pressure sensors which

can be accessed by the same cover plate, for calibration

purposes. A common air-pressure inlet (conform CAP-

regulations) is available on the back side as well. The

barometric pressure sensors are specified as follows:

•Range: 750..1.150 hPa

•Accuracy: 0,2 hPa(typical 0,1 hPa)

•Drift: max 0,1 hPa/year

•Temp.: -40°C..+85°C (fully compensated over the

temperature range)

•Number of sensors: 2

HMS CIP Modbuscontrol module,

suitableforDIN rail installation

HMS repeaterlight L430,

suitableforsafe area

HMS repeaterlight L430,

suitableforsafe area

Power 24VDC 500W (max)

forDIN rail installation

I/ONMEA input(6 ports)

Rain (pulse) input

LAN(UTP) (2)

NMEA output (2 ports)

Helideck Lights (HCA 9.x) output

HDMI (service only)

USB 2.0(2 ports)

Baroport for poly flow 6/4mm

IP ratingIP2x according to IEC EN 60529

IndicationGreen Power led in front

ButtonsATX power button (back)

Service button (back)

Fuses10 A slow for external sensors (accessible on the back)

5 A slow internal (service only)

Housing19” rack mount

Height: 3U

Weight: approx. 12 kg

EnvironmentIndoor use only

Operating Temperature: -25 .. 55 degC

Humidity: 5-95% RH non condensing

CertificatesEN IEC 61162-1:2016

EN IEC 60945

EN IEC 60297-100:2009

Specifications

control module, suitable

HMS CIP Modbus

Integrated I/O

The OIC-2021 is provided with a fully wired MeteoLink

Smart node with NMEA extension PCB resulting in: 6 NMEA

(or MeteoLink) inputs MeteoLinkis an Observator concept

enabling sensors to be linked through to each other,

creating one industrial standard for all parameters

(M

at their right locations.

Within a standard HMS system a wind sensor (or two) will

be connected to a temperature humidity probe OIC-406

resulting in the first link to the main unit. Observator’smost

common wind sensors are:

Integrated I/O (II)

The third sensor/NMEA port will standard be used for one of

the most critical parameters of HMS 3.0, and is reserved for

a Motion Reference Unit. Our R&D department has chosen

to use the MRU3000 which fully comply with required

specifications.

MRU3000 Motion Reference Unit

A fourth sensor/NMEA port will commonly be used to offer

vessels position, speed and direction by means of on board

installed GPS/Gyro.

This leaves at least two non-used and available NMEA

inputs. Other I/O:

OMC-118

ultrasonic

anemometer

OMC-160

cupand vane

type wind sensor

•2 NMEA outputs (e.g. to connect OMC-140 Display units)

•Variety of aux ports

•Pulse input (rain sensor)

•Ethernet

•Server/service ports USB connectors

•3 helideck status outputs to be used for Helideck

repeaters

The above may be used to add non-mandatory sensors to

OMC-116m

ultrasonic

anemometer

OIC-406

temperature

humidity node

the HMS server as well. As example Observator can

implement these underneath sensors to her system. Please

note that in case wave is measured on board it is mandatory

conform CAP437 to offer the data to the used HMS.

A second MeteoLinkis often created for the parameters

visibility, present weather and cloud base/coverage. Since

these sensors are often installed close to each other,

Observator offers a field combiner with one common serial

output which takes care of the power supply as well.

Radac

WaveGuide

direction

MirosSM-140 wave radar

VPF-730 visibility /

present weather sensor

CBME-80

cloud ceilometer

BTD-350

thunderstorm

detector

The pre-installedHMS 3.0 software

Pre-landing page

Within Observator’sHMS 3.0 software this will

probably be the most used screen: the pre-landing

page, mandatary conform HCA. The name of the

vessel or installation should be mentioned on this

page, as well as the helideck category. These are

obviously pre-set by Observator while the user may

select incoming helicopter type and category and

day/night by means of this page all

meteorological parameters are available as per

CAP and BSL requirements, motion is given as per

latest HCA recommendations while the relation

between MSI and WSI is given in the graph.

On-deck page

While landing the helicopter the operator enters the

heading (reported by the pilot, relative magnetic

North). The on-deck page will appear automatically

given the Relative Wind Direction (RWD). Stoplight

algorithm will change as well, in stead of MSI/WSI

relation the stoplight is controlled by the wind

direction relative to the helicopter in combination

with wind meteorological parameters

required for a safe take off will still be available.

Parameter (EMS/MetOcean) pages

As standard or as option all measured parameters,

or group of parameters, have their own specific

pages with clear trend graphs. A selection can be

made to show combined trends or single

parameters while a date/time selection can be made

to act as play-back function. On thelefttheoptional

availablelightningpage.

Welcome to the world of Observator

Since 1924 Observatorhas evolved to be a trend-setting developer

and supplier in a wide variety of industries. Originating from the

Netherlands, Observatorhas grown into an internationally

oriented company with a worldwide distribution network and offices

in Australia, Germany, the Netherlands,

Singapore and the United Kingdom.

2024年3月25日发(作者：蹉新柔)

Datasheet

OIC-2021 HMS 3.0 Server

With a marine background dating back to 1924 and a

worldwide experience in meteorological stations, it is clear

that Observatorsystems are widely used in offshore

applications. Meteorological measurements are critical for

daily operations in harsh conditions like this. Examples

include (un)loading at sea and crane and installation works,

which all depend on wind, but also approaching

thunderstorms that may affect general operations.

Taking crew members and other people to and from moving

or non-moving offshore objects is often done with the aid of

helicopters. Here too, meteorological information is of

critical importance. To this end, Observator has been

supplying its widely used Helideck Monitoring Systems

(HMS) for many years. These meet the most stringent

standards, such as those of the UK CAA CAP437,

Norwegian CAA BSL D 5-1 and the Brazilian DPC

Normam-27.

For this purpose Observator developed her completely new

HMS 3.0 line. Now that the hard-and software is available,

all users have the opportunity to update their systems on

time.

However, the HCA, which certifies helidecks worldwide,

tightens these standards when it comes to moving objects.

Especially when it comes to the parameter 'movement'.

Recently she published the HCA 9.x ‘Standard Helideck

Monitoring Systems’ which describes new algorithms,

calculations and new pages to be used. This guideline will

become mandatory as of 1 April 2021 for FPSO's, FSO's,

offshore installation vessels, mega yachts, offshore supply

vessels, diving support vessels etc., which are equipped

with a helideck.

General

The OIC-2021 is Observator’slatest HMS / MetOcean/

EMS Server, provided with dedicated software to meet the

HCA (Helideck certification agency) Standard Helideck

Monitoring System

Obviously the complete system fully complies with CAP437,

Normam-27 and BSL D 5-1 and others as well.

The unit comes in a 19” sub-rack of 3 HE only and

comprises an industrial PC and all required i/o, based on

Observator’sMeteoLinkconcept.

Integrated I/O

In previous standards of the HCA a traffic light was already

described which was mandatory on the software pages.

Within the last 9.x standard not only the algorithms have

changed how to control this, it has also become an

obligation to send these warnings to the helideck itself.

So-called helideck-repeater lights at four points on the deck

display the status. At this point the OIC-2021 is equipped

with 3 contact outputs which can control these lights as

follows:

Helideck StatusHMS HMS HMS Repeater Light Mode

output output output

HMS HMS HMS Repeater Light Mode

#1#2#3

000N/A

Helideck Status

output output output

#1#2#3

safe toland

MSI/WSI exceedance

safe toland

do notland

MSI/WSI exceedance

do notland

RWD withinlimits

Mitigationact considered

RWD withinlimits

Mitigation

act considered

act required

Mitigation

Mitigationact required

Backside of the OIC-2021, on the left sensor or MeteoLinkinputs, right

on this the Auxiliary ports and ports to dedicated displays and

contact outputs for the helideck repeater lights.

0

0

1

0

1

1

0

1

0

0

1

0

1

1

1

1

0

0

1

1

0

0

1

1

0

0

1

1

0

1

0

0

0

0

0

0

1

0

1

1

1

1

1

1

1

N/A

N/A

N/A

As helideck repeater lights the OrgaL430 can be used in

combination with the controller. The lights have an

integrated photocell to automatically control the required

dimming at twilight and at night. No separate photocell is

required. They also include failure monitoring so that the

control panel can show any errors that may occur.

The server is anindustrialDNV 2.4 compliant, IEC 60945

certified, head-lessPC withIntel® Core™ i5-7300U 2.6

GHz*/i5-6300U 2.4 GHz processor, Chipset: SoCintegrated;

System Memory 2 x DDR4-1866/2133 SO-DIMM,

4GB(32GB max); BIOS: AMI; Memory SSD 128GB.

The 2 swappable2.5” SAT drives are easy acceptableat the

front of theOIC-2021 whileremovingthecover plate. The

OIC-2021 usesa Linux operationsystem whiletheHMS 3.0

willcomeas pre-installedsoftware.

The OIC-2021 HMS 3.0 Server further contains two

accurate high accurate barometric pressure sensors which

can be accessed by the same cover plate, for calibration

purposes. A common air-pressure inlet (conform CAP-

regulations) is available on the back side as well. The

barometric pressure sensors are specified as follows:

•Range: 750..1.150 hPa

•Accuracy: 0,2 hPa(typical 0,1 hPa)

•Drift: max 0,1 hPa/year

•Temp.: -40°C..+85°C (fully compensated over the

temperature range)

•Number of sensors: 2

HMS CIP Modbuscontrol module,

suitableforDIN rail installation

HMS repeaterlight L430,

suitableforsafe area

HMS repeaterlight L430,

suitableforsafe area

Power 24VDC 500W (max)

forDIN rail installation

I/ONMEA input(6 ports)

Rain (pulse) input

LAN(UTP) (2)

NMEA output (2 ports)

Helideck Lights (HCA 9.x) output

HDMI (service only)

USB 2.0(2 ports)

Baroport for poly flow 6/4mm

IP ratingIP2x according to IEC EN 60529

IndicationGreen Power led in front

ButtonsATX power button (back)

Service button (back)

Fuses10 A slow for external sensors (accessible on the back)

5 A slow internal (service only)

Housing19” rack mount

Height: 3U

Weight: approx. 12 kg

EnvironmentIndoor use only

Operating Temperature: -25 .. 55 degC

Humidity: 5-95% RH non condensing

CertificatesEN IEC 61162-1:2016

EN IEC 60945

EN IEC 60297-100:2009

Specifications

control module, suitable

HMS CIP Modbus

Integrated I/O

The OIC-2021 is provided with a fully wired MeteoLink

Smart node with NMEA extension PCB resulting in: 6 NMEA

(or MeteoLink) inputs MeteoLinkis an Observator concept

enabling sensors to be linked through to each other,

creating one industrial standard for all parameters

(M

at their right locations.

Within a standard HMS system a wind sensor (or two) will

be connected to a temperature humidity probe OIC-406

resulting in the first link to the main unit. Observator’smost

common wind sensors are:

Integrated I/O (II)

The third sensor/NMEA port will standard be used for one of

the most critical parameters of HMS 3.0, and is reserved for

a Motion Reference Unit. Our R&D department has chosen

to use the MRU3000 which fully comply with required

specifications.

MRU3000 Motion Reference Unit

A fourth sensor/NMEA port will commonly be used to offer

vessels position, speed and direction by means of on board

installed GPS/Gyro.

This leaves at least two non-used and available NMEA

inputs. Other I/O:

OMC-118

ultrasonic

anemometer

OMC-160

cupand vane

type wind sensor

•2 NMEA outputs (e.g. to connect OMC-140 Display units)

•Variety of aux ports

•Pulse input (rain sensor)

•Ethernet

•Server/service ports USB connectors

•3 helideck status outputs to be used for Helideck

repeaters

The above may be used to add non-mandatory sensors to

OMC-116m

ultrasonic

anemometer

OIC-406

temperature

humidity node

the HMS server as well. As example Observator can

implement these underneath sensors to her system. Please

note that in case wave is measured on board it is mandatory

conform CAP437 to offer the data to the used HMS.

A second MeteoLinkis often created for the parameters

visibility, present weather and cloud base/coverage. Since

these sensors are often installed close to each other,

Observator offers a field combiner with one common serial

output which takes care of the power supply as well.

Radac

WaveGuide

direction

MirosSM-140 wave radar

VPF-730 visibility /

present weather sensor

CBME-80

cloud ceilometer

BTD-350

thunderstorm

detector

The pre-installedHMS 3.0 software

Pre-landing page

Within Observator’sHMS 3.0 software this will

probably be the most used screen: the pre-landing

page, mandatary conform HCA. The name of the

vessel or installation should be mentioned on this

page, as well as the helideck category. These are

obviously pre-set by Observator while the user may

select incoming helicopter type and category and

day/night by means of this page all

meteorological parameters are available as per

CAP and BSL requirements, motion is given as per

latest HCA recommendations while the relation

between MSI and WSI is given in the graph.

On-deck page

While landing the helicopter the operator enters the

heading (reported by the pilot, relative magnetic

North). The on-deck page will appear automatically

given the Relative Wind Direction (RWD). Stoplight

algorithm will change as well, in stead of MSI/WSI

relation the stoplight is controlled by the wind

direction relative to the helicopter in combination

with wind meteorological parameters

required for a safe take off will still be available.

Parameter (EMS/MetOcean) pages

As standard or as option all measured parameters,

or group of parameters, have their own specific

pages with clear trend graphs. A selection can be

made to show combined trends or single

parameters while a date/time selection can be made

to act as play-back function. On thelefttheoptional

availablelightningpage.

Welcome to the world of Observator

Since 1924 Observatorhas evolved to be a trend-setting developer

and supplier in a wide variety of industries. Originating from the

Netherlands, Observatorhas grown into an internationally

oriented company with a worldwide distribution network and offices

in Australia, Germany, the Netherlands,

Singapore and the United Kingdom.