Basic Board Mount Pressure
Sensors: NBP Series–
Uncompensated/Unamplified
1 Bar to 10 Bar [15 psi to 150 psi]
DESCRIPTION
Honeywell’s Basic Board Mount Pressure Sensors: NBP
Series Uncompensated/Unamplified are designed for
customers who require a simple, cost-effective, basic
performance, mV output, unamplified, uncompensated, high
quality, high resolution solution for medical and industrial
applications.
These unamplified and uncompensated sensors offer infinite
resolution of the pressure signal. They will operate as specified
from -40 °C to 125 °C [-40 °F to 257 °F].
The NBP Series is ideal for those customers who want to do
their own compensation, calibration, and amplification in order
to make use of the maximum resolution of the bare sensor
output, leveraging a custom algorithm required for the
application.
VALUE TO CUSTOMERS
Cost-effective:
These devices provide a cost-effective
pressure sensing solution with a variety of options that
allow customers to meet their specific application needs
Honeywell brand:
–
Manufacturing excellence:
Honeywell has more than
100 years of manufacturing and engineering
excellence
–
Fast Request for Quotes (RFQs):
Responding
quickly to your RFQs and product sample needs is a
hallmark of Honeywell. Our experienced engineers
understand the importance of timely quotes. And
because Honeywell is a manufacturer, you can depend
on a quick response to your prototype needs.
–
Fast response for samples:
Dedicated teams and
manufacturing processes ensure that product samples
are shipped quickly and delivered in time to support
your demanding product development cycle
Additionally, the NBP Series offers several package styles and
mounting options, making it easier for device manufacturers to
integrate the product into their applications.
The NBP Series measures absolute and gage pressures. The
absolute versions have an internal vacuum reference and an
output value proportional to absolute pressure. Gage versions
are referenced to atmospheric pressure and provide an output
proportional to pressure variations from atmosphere.
The NBP Series sensors are intended for use with non-
corrosive, non-ionic gases, such as air and other dry gases
and for non-corrosive, non-ionic liquids. All products are
designed and manufactured according to ISO 9001.
–
Reliable supply chain:
Honeywell’s effective
inventory management and dependable supply chain is
there throughout your development cycle
–
Designed to Six Sigma standards:
Six Sigma
standards provide the highest level of product quality,
performance, and consistency. Six Sigma provides
confidence that the sensor will perform to specification.
Many competitive products are produced to lower
Sigma tolerances, which may result in some products
not performing to the specification to which they were
designed.
–
Supporting documentation:
Honeywell’s website
provides numerous technical materials to assist you in
your application needs
FEATURES AND BENEFITS
Small Size:
Package size (as small as 7 mm x 7 mm
[0.276 in x 0.276 in]) is very small when compared to most
board mount pressure sensors, occupying less space on
the PCB and typically allowing for easy placement on
crowded PCBs or in small devices
Durable:
Many features allow for use in tough
environments, including:
–
Wide operating temperature range from -40 °C to
125 °C [-40 °F to 257 °F]
–
Media compatibility options:
o
Non-gel coating: The input port is limited to non-
corrosive, non-ionic media such as dry air and
gases and should not be exposed to
condensation; the gases are limited to media that
are compatible with high temperature polyamide,
silicone, alumina ceramic, silicon, gold, and glass
o
Gel coating: Uses the same materials in the
wetted media path but is protected from
condensation by a silicone-based gel coating;
allows use in applications where condensation can
occur
Table 1. Absolute Maximum Ratings
Parameter
Supply voltage (V
supply
)
ESD susceptibility (human body model)
Storage temperature
Soldering time and temperature:
lead solder temperature ( DIP)
peak reflow temperature (Leadless SMT, SMT)
Table 2. Operating Specifications
Parameter
2
Supply voltage (V
supply
)
Supply current (at 5.0 Vdc supply)
4
Specified temperature range
5
Accuracy
Input resistance
7
Thermal effect on resistance (TCR)
Table 3. Environmental Specifications
Parameter
Humidity:
all external surfaces
internal surfaces of gel coating option
internal surfaces of non-gel coating option
Vibration
Shock
8
Life
ESD
Solder reflow
1
–
ISO 9001 compliance
Flexible:
Numerous package styles, pressure ranges,
housings, gel coating, and porting options simplify
integration into the device manufacturer’s application
Robust:
Reflow mounting J-STD-020D, MSL 1 and rapid
stabilization after reflow soldering allow calibration
immediately after mounting
POTENTIAL APPLICATIONS
Medical:
Industrial:
Hospital beds
HVAC Transmitters
Oxygen concentrators
Air movement control
Wound therapy
Environmental control
Blood pressure
Level indicators
monitoring
Leak detection
Industrial controls
Pneumatic controls
Other commercial
applications
Min.
-12.0
2
-40 [-40]
Max.
12.0
125 [257]
4 s max. at 250 °C [482 °F]
15 s max. at 250 °C [482 °F]
Unit
Vdc
kV
C [ F]
Min.
1.8
-40 [-40]
2.4
1200
Typ.
3
5.0
1.5
3.0
Max.
12.0
2.5
125 [257]
0.25
5.5
3200
Unit
Vdc
mA
C [ F]
6
%FSS BFSL
kOhm
ppm/ C
Characteristic
0 %RH to 95 %RH, non-condensing
0 %RH to 100 %RH, condensing
0 %RH to 95 %RH, non-condensing
MIL-STD-202F, Method 214A, Condition 1E (15 g, 10 Hz to 2 kHz)
MIL-STD-202F, Method 213B, Condition F (100g, 6 ms duration)
1 million pressure cycles min.
MIL-STD-883 Method 3015.7, Class 2, 2kV, human body model
J-STD-020D, MSL 1, unlimited storage life
2
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Table 4. Wetted Materials
Parameter
Covers
Substrate
Adhesives
Electronic components
9
Non-Gel Coating Option
high temperature polyamide
alumina ceramic
epoxy, RTV
ceramic, silicon, gold, glass
Gel Coating Option
high temperature polyamide
silicone gel
epoxy
Notes:
1. Absolute maximum ratings are the extreme limits the device will withstand without damage.
2. Ratiometricity of the sensor (the ability of the device output to scale to the supply voltage) is achieved within the specified operating voltage.
3. Incorrect application of supply voltage or ground to the wrong pin may cause electrical failure.
4. The specified temperature range is the temperature range over which the sensor will produce an output proportional to pressure within the
specified performance limits.
5. Accuracy: The maximum deviation in output from a Best Fit Straight Line (BFSL) fitted to the output measured over the pressure range at
25 °C [77 °F]. Includes all errors due to pressure non-linearity, pressure hysteresis, and non-repeatability.
6. Full Scale Span (FSS) is the algebraic difference between the output signal measured at the maximum and minimum limits of the pressure
range. (See Figure 1 for ranges.)
7. TCR (Thermal Effect on Resistance): The deviation in input resistance due to change in temperature over the specified temperature range,
relative to input resistance measured at °C.
8. Life may vary depending on specific application in which sensor is utilized.
9. Contact Honeywell Customer Service for detailed material information.
CAUTION
MISUSE OF GEL COATING OPTION
Non-gel coating option: The input port is limited to non-corrosive, non-ionic media such as dry air and gases and should not
be exposed to condensation. The gases are limited to media that are compatible with the following wetted materials of
construction: high temperature polyamide, silicone, alumina ceramic, silicon, gold, and glass.
Gel coating option: The gel coated sensors use the same materials in the wetted media path but are protected from
condensation by a silicone-based gel coating. The gel coating option allows use in applications where condensation can
occur.
Failure to comply with these instructions may result in product damage.
Figure 1. Nomenclature and Order Guide
NBP
_ _ _ _
Series
Package
D
= DIP (Dual Inline Pin)
L
= Leadless SMT (Surface Mount
Technology)
M
= SMT (Surface Mount Technology)
Pressure Port
DIP
Leadless SMT
SMT
Pressure Range
AN
= Single
axial barbed
port
LN
= Single
axial barbless
port
AN
= Single
axial barbed
port
LN
= Single
axial barbless
port
AN
= Single
axial barbed
port
LN
= Single
axial barbless
port
600 mbar to 10 bar
Absolute
001BA
= 0 bar to 1 bar
1.6BA
= 0 bar to 1.6 bar
2.5BA
= 0 bar to 2.5 bar
004BA
= 0 bar to 4 bar
006BA
= 0 bar to 6 bar
010BA
= 0 bar to 10 bar
Gage
600MG
= 0 mbar to 600 mbar
001BG
= 0 bar to 1 bar
1.6BG
= 0 bar to 1.6 bar
2.5BG
= 0 bar to 2.5 bar
004BG
= 0 bar to 4 bar
006BG
= 0 bar to 6 bar
010BG
= 0 bar to 10 bar
15 psi to 150 psi
Absolute
015PA
= 0 psi to 15 psi
030PA
= 0 psi to 30 psi
060PA
= 0 psi to 60 psi
100PA
= 0 psi to 100 psi
150PA
= 0 psi to 150 psi
Gage
015PG
= 0 psi to 15 psi
030PG
= 0 psi to 30 psi
060PG
= 0 psi to 60 psi
100PG
= 0 psi to 100 psi
150PG
= 0 psi to 150 psi
_____
U N V
Supply Voltage
V
= Constant
Compensation
N
= Uncompensated
Amplification
U
= Unamplified
PN
= Low-
profile port
PN
= Low-
profile port
PN
= Low-
profile port
Gel Coating Option
N
= No gel in media path
S
= Gel coating in media path
Note:
See Table 7 for an explanation of sensor pressure types.
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3
Figure 2. Completed Catalog Listing Example
NBPDANN100PGUNV
DIP package, AN pressure port, non-gel coating option,
100 psi gage
Table
5.
Pressure Range Specifications for 600 mbar to 10 bar
Over
Pressure
Pressure
Range
(see
Figure 1)
Unit
Pressure
Range
Pmin.
Pmax.
Burst
Pressure
Offset
10
(mV/V)
Min.
Max.
Sensitivity
(mV/V/Full Scale Span)
Min.
Nom.
Max.
TCO
11
(%FSS/25 C)
Min.
Nom.
Max.
TCS
12
(%FSS/25 C)
Min.
Nom.
Max.
Absolute
001BA
1.6BA
2.5BA
004BA
006BA
010BA
600MG
001BG
1.6BG
2.5BG
004BG
006BG
010BG
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1.6
2.5
4
6
10
600
1
1.6
2.5
4
6
10
bar
bar
bar
bar
bar
bar
2
4
4
8
16
16
4
8
8
16
20
20
-7.0
-7.0
-7.0
-7.0
-7.0
-7.0
-7.0
-7.0
-7.0
-7.0
-7.0
-7.0
-7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
10.0
12.0
18.8
16.8
12.6
21.0
Gage
mba 2000 4000
bar
2
4
r
bar
4
8
bar
4
8
bar
8
16
bar
16
20
bar
16
20
6.0
10.0
12.0
18.8
16.8
12.6
21.0
9.0
15.0
16.0
25.0
20.0
15.0
25.0
12.0
20.0
20.0
31.3
23.2
17.4
29.0
-2.5
-1.5
-1.5
-1.0
-1.0
-1.5
-1.0
-1.0
-0.5
-0.5
-0.3
-0.3
-0.4
-0.3
2.5
1.5
1.5
1.0
1.0
1.5
1.0
-6.0
-6.0
-6.0
-6.0
-6.0
-6.0
-6.0
-5.0
-5.0
-5.0
-5.0
-5.0
-5.0
-5.0
-3.8
-3.8
-3.8
-3.8
-3.8
-3.8
-3.8
15.0
16.0
25.0
20.0
15.0
25.0
20.0
20.0
31.3
23.2
17.4
29.0
-1.5
-1.5
-1.5
-1.5
-1.75
-1.5
0.0
0.0
0.0
0.0
0.0
0.0
1.5
1.5
1.5
1.5
1.75
1.5
-6.0
-6.0
-6.0
-6.0
-6.0
-6.0
-5.0
-5.0
-5.0
-5.0
-5.0
-5.0
-3.8
-3.8
-3.8
-3.8
-3.8
-3.8
Table 6
.
Pressure Range Specifications for 15 psi to 150 psi
Pressure
Range
(see
Figure 1)
Over
Pressure
Unit
Pressure
Range
Pmin.
Pmax.
Burst
Pressure
Offset
10
(mV/V)
Min.
Max.
Sensitivity
(mV/V/Full Scale Span)
Min.
Nom.
Max.
TCO
11
(%FSS/25 C)
Min.
Nom.
Max.
TCS
12
(%FSS/25 C)
Min.
Nom.
Max.
Absolute
015PA
030PA
060PA
100PA
150PA
0
0
0
0
0
15
30
60
100
150
psi
psi
psi
psi
psi
30
60
120
240
240
60
120
240
300
300
-7.0
-7.0
-7.0
-7.0
-7.0
7.0
7.0
7.0
7.0
7.0
10.3
15.5
17.4
14.5
21.7
Gage
15.0
21.0
21.0
17.2
26.0
20.7
26.0
24.0
20.0
30.0
-1.5
-1.0
-1.0
-1.0
-1.0
-0.6
-0.4
-0.3
0.4
0.3
1.5
1.0
1.0
1.0
1.0
-6.0
-6.0
-6.0
-6.0
-6.0
-5.0
-5.0
-5.0
-5.0
-5.0
-3.8
-3.8
-3.8
-3.8
-3.8
015PG
0
15
psi
30
60
-7.0
7.0
10.3
15.0
20.7
-1.5
-0.6
1.5
-6.0
-5.0
-3.8
030PG
0
30
psi
60
120
-7.0
7.0
15.5
21.0
26.0
-1.0
-0.4
1.0
-6.0
-5.0
-3.8
060PG
0
60
psi 120 240
-7.0
7.0
17.4
21.0
24.0
-1.0
-0.3
1.0
-6.0
-5.0
-3.8
100PG
0
100
psi 240 300
-7.0
7.0
14.5
17.2
20.0
-1.0
0.4
1.0
-6.0
-5.0
-3.8
150PG
0
150
psi 240 300
-7.0
7.0
21.7
26.0
30.0
-1.0
0.3
1.0
-6.0
-5.0
-3.8
Notes:
10. Offset: The output signal obtained when the reference pressure is applied to all available pressure ports. Also known as “null” or “zero”.
11. TCO (Thermal Effect on Offset): The deviation in offset due to changes in temperature over the specified temperature range, relative to offset
measured at 25 C.
12. TCS (Thermal Effect on Span): The deviation in full scale span due to changes in temperature over the specified temperature range, relative
to full scale span measured at 25 C.
4
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Table 7. Pressure Types
Pressure Type
Absolute
Gage
Description
Output is proportional to the difference between applied pressure and a built-in reference to vacuum.
Reference pressure is absolute zero pressure (full vacuum).
Output is proportional to the difference between applied pressure and atmospheric (ambient) pressure.
Reference pressure is atmospheric pressure.
Table 8. Pinout for DIP and SMT Packages
Pin 1
Vsupply
Pin 2
Vout-
Pin 3
GND
Pin 4
Vout+
Table 9. Pinout for Leadless SMT Pressure Packages
Pad 1
Vsupply
Pad 2
NC
Pad 3
Vout-
Pad 4
GND
Pad 5
NC
Pad 6
Vout+
Figure 3. DIP Package Dimensional Drawings (For reference only: mm [in])
AN: Single axial barbed port
4
5,50
[0.217]
3,50
[0.138]
3
10,94 MAX.
[0.430]
3,56
[0.140]
11,50
[0.45]
Ø 1,91
[0.075]
Ø 2,74
[0.108]
Ø 2,32
[0.091]
Ø 6,50
[0.256]
1.02
[0.040]
8,64
[0.340]
4X 0,46
[0.018]
0,25
[0.010]
2
1
7,00
[0.276]
3
4
Recommended PCB Pad Layout
2,54
[0.100]
2,23
[0.088]
1
2
11,50
[0.45]
2,54 TYP.
[0.100]
LN: Single axial barbless port
4
3,50
[0.138]
3
10,94 MAX.
[0.430]
5,83
[0.230]
3,84
[0.151]
3
7,00
[0.276]
4
Ø 0,813
[0.032]
5,50
[0.217]
Ø 3,18
[0.125]
0,25
[0.010]
1
2
Ø 6,50
[0.256]
1.02
[0.040]
8,64
[0.340]
4X 0,46
[0.018]
2
1
11,5
[0.45]
2,23
[0.088]
2,54 TYP.
[0.100]
PN: Low-profile port
3
5,50
[0.217]
Ø 6,50
[0.256]
11,5
[0.45]
0,25
[0.010]
1
2
4X 0,46
[0.018]
2
1
3,50
[0.138]
4
3,84
[0.151]
2,10
[0.083]
7,00
[0.276]
3
4
2,23
[0.088]
2,54 TYP.
[0.100]
1.02
[0.040]
8,64
[0.340]
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