Series MAFS Metal Averaging Flow Sensor

Series MAFS Metal Averaging Flow Sensor

Series PAFS-1000 Averaging Flow Sensor

Ideal for Sensing Fan Flow Rates

The Series PAFS-1000 Averaging Flow Sensors are ideal for sensing velocity pressure in the inlet section of variable air volume terminal units and fan terminal units.

Product Applications

  • Zone control in HVAC systems
  • Retrofit HVAC air flow measurement
Starting at $9.90
Grouped product items
Model Description Availability* Qty Price
PAFS-1002 Averaging flow sensor, 3-5/32" (8.02 cm) insertion length. 1-3 days*
$9.90
PAFS-1003 Averaging flow sensor, 5-13/32" (13.73 cm) insertion length. 1-3 days*
$11.85
PAFS-1004 Averaging flow sensor, 7-21/32" (19.55 cm) insertion length. 1-3 days*
$14.70
PAFS-1005 Averaging flow sensor, 9-29/32" (25.26 cm) insertion length. 1-3 days*
$19.10
PAFS-1006 Averaging flow sensor, 12-1/2" (31.75 cm) insertion length. 1-2 Weeks*
$38.95
PAFS-1007 Averaging flow sensor, 14-3/4" (37.47 cm) insertion length. 1-2 Weeks*
$45.90
PAFS-1008 Averaging flow sensor, 17-1/8" (43.50 cm) insertion length. 1-2 Weeks*
$45.90
PAFS-1009 Averaging flow sensor, 19-13/32" (49.29 cm) insertion length. 1-2 Weeks*
$58.30
PAFS-1010 Averaging flow sensor, 21-21/32" (55.01 cm) insertion length. 1-2 Weeks*
$62.95
PAFS-1011 Averaging flow sensor, 23-29/32" (60.72 cm) insertion length. 1-2 Weeks*
$70.70

Specifications

Service:
Air and compatible gases.
Wetted Materials:
ABS/polycarbonate (UL94-5V).
Temperature Limits:
Operating: 40 to 120°F (4 to 49°C); Storage: -40 to 140°F (-40 to 60°C).
Process Connection:
1/4" (6 mm) ID, 3/8" (10 mm) OD tubing.
Mounting Orientation:
Integral flange with gasket.
Weight:
1 oz (28 g).
Compliance:
Meets the technical requirements of EU Directive 2011/65/EU (RoHS II).

Features

  • Simple mounting flange works with both round or rectangular ducts

Product Literature

Manuals

Catalog Pages

Product Data Sheet

Questions

Question
My quesiton is regarding PAFS-1000 series averaging flow sensor. Is the K factor provided in the instruction manual a direct multiplier to the velocity measured? i.e. v_actual = v_measured * K.
Answer
You are correct. V_actual = V_measured * K.
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Model Description Availability* Price