ATS CWT-100 Controlled open loop wind tunnel Datasheet

OPEN LOOP WIND TUNNEL
CWT-100™
FEATURES:
» Component Temperature Testing
CONTROLLED OPEN LOOP WIND TUNNEL
The CWT-100™ is a research quality wind tunnel designed for PCB
and component level testing. It is used in air flow characterization
and flow visualization, thermal resistance measurements and
generation of P-Q curves.
The wind tunnel can be used to characterize different heat sink
sizes for natural and forced convection cooling. Two heat sinks
can be tested side by side to determine their thermal performance
in the same environment. Actual or simulated PCBs can be tested
for air flow distribution and pressure drop characterization.
CWT-100™ fans are tray-mounted and easily replaced with another
tray to accommodate larger or smaller fans. If other flow ranges are
required, the air velocity in the test section can be varied from 0.5 m/s
(100 ft/min) to 10 m/s (2000 ft/min) with the fan tray that is provided.
The CWT-100™ has 18 sensor ports on the front and sides of the test
section, which allows for the insertion of a variety of probes, such as
thermocouples, Pitot tubes, velocity measuring sensors, etc. It can
be operated both vertically and horizontally. The test section is
made of PlexiglasTM for ease of flow visualization.
PCBs are mounted on a flexible railing in the test section. The
flexibility of the movable mounting plate allows users to design
and build their own modifications to suit specific needs. The mounting
plate can be adjusted in two directions using appropriate length standoffs.
The wind tunnel has honeycombs and screens to suppress turbulence and provide
uniform and near homogeneous flow at the test section. A mounted diffuser at the
exit and before the fans helps with pressure recovery to provide a smooth flow.
An optional heat slug (HP-97) will provide the thermal
performance for devices or heat sinks under test for thermal
analysis. The heat slug is mounted flush with the surface,
so there is no dimensional change to the objects under test.
* Power supply not included.
197.6 x 81.3 x 68.6 cm
(77.8 x 32 x 27")
TEST SECTION
61 x 40.6 x 8.3 cm
(24 x 16 x 3.3")
NUMBER OF SENSOR PORTS
RECOMMENDED ACCESSORIES:
Candlestick
Sensor
OVERALL DIMENSIONS (L X W X H)
18
WTC-100TM
Wind Tunnel
Controller
FLOW RANGE
0 to 10 m/s (0 to 2000 ft/min)
WEIGHT
51.7 kg (114 lbs.)
HP-97TM
Component
Simulator
ATVS-NxTTM
Hot Wire
Anemometer
POWER SUPPLY REQUIREMENTS
24VDC at 4.3 Amps
For further technical information, please contact Advanced Thermal
Solutions, Inc. at 1-781-769-2800 or www.qats.com
Evaluate the effects of airflow on
components, temperature and
PCB response and reliability
» H eat Sink Characterization
Characterize a variety of
heat sink sizes for natural
and forced convection cooling
» Sensor Calibration
Uniform velocity profile at the
test section allows accurate
calibration of sensors
» H eat Sink Comparison
Test two heat sinks
side by side and compare
their thermal performance
in the same environment
» P ressure Drop Testing
Measure pressure drop
across components or
PCB for a given flow
» Multiple PCB Testing
Test actual or simulated PCBs
for thermal and flow distribution
» Flow Visualization
Observe air flow distribution
in the tunnel by smoke or
buoyant bubbles through
the all PlexiglasTM test section
» Variable Speed
Change flow rates by controlling
the fan RPM
» Quick Access
Quickly change the test
specimen through the front
access test section
» Sensor Ports
Measure pressure, velocity
and temperature through
the sensor ports
» Orientation
Wind tunnel can be operated
horizontally or vertically
» Free Lifetime Tech Support
89-27 ACCESS ROAD, NORWOOD, MA 02062 USA | T: 781.769. 2800 F: 781.769.9979 | WWW.QATS.COM
R3_0215
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