- Compact, robust and easy to-
use automatic weather
station for meteorological and
hydrological applications
- Easy and economical to install,
maintain and upgrade
- Field-proven reliability and
accuracy in harsh environments
- Low power consumption for
extended remote operations
- Telemetry options include
satellite telemetry in addition to
landline, wireless, and built-in
TCP/IP connectivity
- Extensive calculation and data
logging capacity
- Low Total-Life-Cycle Cost
|
| MAWS110 provides quality controlled
data in different applications in
the areas of meteorology and
hydrology. It is especially designed
for unmanned operations at remote
sites requiring high reliability
and low power consumption with
expandability. MAWS110 uses a
field-proven and high accuracy
Vaisala data logger technology with
advanced software. Each system
provides the most economical
and optimized product for your
application. |
| The system architecture is specially
designed to support a broad range
of analog and serial sensors. In
MAWS110 all sensors and telemetry
devices are connected to the system
using high-quality polyurethane
cables with IP68 connectors allowing
quick and trouble-free installation.
Sensor measurements, statistical
calculations, data logging and
data transmissions are performed
according to a user-configured setup
made with the user-friendly Vaisala
Setup Software Lizard. All LRU
modules inside the enclosure are
mounted on DIN rails or replaceable
units. |
| MAWS110 enclosures feature IP66
(NEMA4X) protection. All the inputs
have transient protection and all
mains power and RF inputs are surge
protected. |
| MAWS110 has low power
consumption - the average power
consumption is only 10 mA. In many
cases a solar panel with backup
batteries up to 18 Ah is enough for
powering a basic MAWS110 system.
A mains (AC) power supply is
optional to power extended systems
with frequently sending (powered)
telemetry devices. |
| The basic system provides interfaces
with almost any type of telemetry,
terminal, displays as well as smart
sensors. With optional plug-in
modules the number of serial ports
can be enhanced from 2 up to 8
ports, enabling multiple RS-232,
RS-485 and SDI-12 connections.
MAWS110 can be connected directly
to a LAN network using Ethernet
Communication Module DSE101
offering a 10/100Base-T Ethernet.
Other options for telemetry include
various wireless, landline, and
satellite devices. |
| MAWS110 is expandable with, e.g., the
Vaisala Sensor Multiplexer QMU101
offering additional 10 differential
analog channels. The Vaisala Digital
I/O Unit QMI118 adds 8 digital outputs
and 8 digital inputs for sensors,
power optimizing, and unmanned
control functions based on userdefined
requirements. |
| MAWS110 can be equipped with
innovative installation aids that
significantly lower installation
and maintenance costs. A single
maintenance person can easily and
safely tilt the Vaisala Tiltable Masts. |
| Data Collection Platform with Vaisala Setup Software Lizard |
Vaisala Data Logger QML201 |
| Temperature |
Operating *) -50 ... +60 °C (-58 ... 140 °F)
Storage -50... +70 °C (-58 ... 158 °F) |
| Humidity |
0 ... 100 % RH |
| EMC |
In compliance with EN 61326-1 (2001-12) |
| Electrical equipment for measurement, control and laboratory
use - EMC requirements - for use in industrial locations |
| IP rating |
NEMA-4X / IP-66 |
| Materials |
Stainless steel
Plastic |
| Mast |
Tiltable 2/3/4/6/10 m (6/9/12/24/30 ft) pole mast |
| Enclosure |
400(H) x 300 (W) x 200 (D) mm |
| Weight |
Enclosure approx 10 kg
Mast with sensors approx 20... 200 kg |
| Maximum wind speed |
With one set of guy wires 50 m/s (90 kt)
With two sets of guy wires 75 m/s (130 kt) |
| Powering |
90 ... 264 VAC, 45 ... 65 Hz
8 ...14 VDC recommended (30 VDC max.) |
| Solar panel |
11/ 33 W |
| Internal battery |
7 Ah/12 V/18 Ah/12 V |
| Battery regulator |
Charge/recharge control
Temperature compensation
Deep discharge protection
Simultaneous inputs from solar and AC power allowed |
| Data quality control |
Upper / lower climatological limits
Step change validation
Sensor status indication |
| Statistical calculations |
Averaging over user set periods
Minimum / maximum values
Standard deviation
Cumulative values |
| Other calculations |
Dew point
Frost point
QNH, QFE, QFF
Gust, Squall, wind chill
Evapotranspiration
Sunshine duration |
| Weather transmitter |
WXT520 |
| Wind speed & direction |
WM30, WA15, WA25, WINDSONIC,
WMT52, WS425 |
| Atmospheric pressure |
PMT16A
PTB330 with modifications |
| Air temperature, relative humidity & dew point |
QMH102 |
| Rain / precipitation |
QMR102, RG13, RG360, VRG101 |
| Global solar radiation |
QMS101, SK01-D2, SK08, CMP3, CMP6,
CMP11, CMP21, EQ08, EQ08-S |
| Net solar radiation |
QMN101 |
| Albedometers |
QMS101(x2), CMP3(x2), CMA6, CMA11, EQ16 |
| UV radiation / PAR |
CUV4, UVR1-A, UVR1-B, PAR Lite |
| Sun duration |
CSD3, SD4 |
| Ground / water temperature |
QMT103, QMT110 |
| Soil / fuel moisture |
EHC20, ML2X, QFM101 |
| Evaporation |
255 Series |
| Leaf wetness |
QLW102 |
| Cloud height & sky condition |
CL31 |
| Visibility & present weather |
PWD10/20/12/22, FD12, FD12P, FS11 |
| Snow depth |
IRU-9429S |
| Water level |
PR-36XW/H, PAA-36XW/H, IRU-9429S, QHR102,
QSE104, 436BD |
| Satellite communication |
GOES, METEOSAT, Inmarsat-C
Argos/SCD, Iridium, Autotrac |
| Wireless communication |
GSM, GPRS, CDMA, UHF, VHF, ISM |
| Landline communication |
RS232, RS485 bus, Fixed line,
PSTN, LAN, MODBUS |
| Data displays |
DD50, WD30(TU), WD50, Pocket / Laptop /
Tabletop PC |
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