HAFUHT0015L7AXT 概述
Honeywell ZephyrTM Digital Airflow Sensors
HAFUHT0015L7AXT 数据手册
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PDF下载Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10 SLPM, 15 SLPM, 20 SLPM,
50 SLPM, 100 SLPM, 200 SLPM, 300 SLPM
008268
Issue 5
Datasheet
FEATURES
• Fast response time (1 ms) allows the customer’s application
to respond quickly to a change in airflow, important in
critical medical (e.g., anesthesia) and industrial (e.g., fume
hood) applications.
• High stability reduces errors due to thermal effects and
null shift, providing accurate readings over time and often
eliminating the need for system calibration after PCB mount
and periodically over time.
• High sensitivity at very low flows provides a fast response
time at the onset or cessation of flow.
• High 12-bit resolution increases the ability to sense small
airflow changes, allowing customers to more precisely
control their application.
• Wide airflow range: The industry’s broadest airflow range
measures mass flow with standard flow ranges of 0 to10,
0 to 15, 0 to 20, 0 to 50, 0 to 100, 0 to 200 and 0 SLPM to
300 SLPM, or custom flow ranges, increasing the options to
integrate the sensor into the application.
• Choice of port styles: Manifold mount, 22 mm OD tapered
male fitting, and G 3/8 female threaded fitting provide
flexibility to choose the pneumatic connection that is best
for the customer’s application.
DESCRIPTION
Honeywell Zephyr™ HAF Series sensors provide a digital
interface for reading airflow over specified full-scale flow and
compensated temperature ranges. The thermally isolated
heater and temperature sensing elements help these sensors
provide a fast response to air or gas flow. Zephyr sensors are
designed to measure mass flow of air and other non-corrosive
gases. Standard flow ranges are 10 SLPM, 15 SLPM, 20
SLPM, 50 SLPM, 100 SLPM, 200 SLPM and 300 SLPM,
with custom flow ranges available. The sensors are fully
calibrated and temperature compensated with an onboard
Application Specific Integrated Circuit (ASIC). The HAF Series
>10 SLPM is compensated over the calibrated temperature
range of 0°C to 50°C [32°F to 122°F]. The state-of-the-art
ASIC-based compensation provides digital (I2C) outputs with
a response time of 1 ms. These sensors operate on the heat
transfer principle to measure mass airflow. They consist of
a microbridge Microelectronic and Microelectromechanical
System (MEMS) with temperature-sensitive resistors
deposited with thin films of platinum and silicon nitride.
The MEMS sensing die is located in a precise and carefully
designed airflow channel to provide repeatable response to
flow. Zephyr sensors provide the customer with enhanced
reliability, high accuracy, repeatable measurements and the
ability to customize sensor options to meet many specific
application needs. The combination of rugged housings with
a stable substrate makes these products extremely robust.
They are designed and manufactured according to ISO 9001
standards.
• Linear output provides a more intuitive sensor signal than
the raw output of basic airflow sensors, which can help
reduce production costs, design, and implementation time.
• Wide supply voltage range (3 Vdc to 10 Vdc) provides a
flexible regulated power circuit which allows the designer the
flexibility to choose the supply voltage that works best in the
system.
• ASIC-based I2C digital output simplifies integration
to microprocessors or microcontrollers, reducing PCB
complexity and component count.
• RoHS-compliant materials Meet Directive 2002/95/EC.
POTENTIAL APPLICATIONS
• Medical: Anesthesia delivery machines, ventilators,
ventricular assist devices (heart pumps), spirometers,
laparoscopy
• Industrial: Analytic instrumentation (spectrometry,
chromatrography), air-to-fuel ratio, fuel cells, fume hoods,
gas leak detection, process control gas monitoring, vacuum
pump monitoring
PORTFOLIO
The Honeywell Zephyr Digital Airflow Sensors join an
extensive line of airflow sensors for potential use in medical,
industrial, and consumer applications.
VALUE TO CUSTOMERS
• Precise measurement: The industry’s smallest Total Error
Band, fast response time, and high accuracy provide precise
measurement and high performance in the customer’s
application.
• Saves time: Configurable and customizable with a choice of
port styles simplifies design and reduces production time.
• Cost-effective: Reduces printed circuit board (PCB) size and
overall design and production costs.
Sensing and Internet of Things
Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Figure 1. Total Error Band vs. Accuracy
Other airflow sensor manufacturers only report on accuracy, while Honeywell reports Total Error Band.
Sources of Error
Offset
Full Scale Span
Pressure Non-Linearity
Total
Error
Band
Accuracy
BFSL
Pressure Hysteresis
Pressure Non-Repeatability
Thermal Effect on Offset
Thermal Effect on Span
Thermal Hysteresis
HIGH ACCURACY
TOTAL ERROR BAND (TEB)*
Ideal for use in demanding applications that require high
accuracy.
Honeywell specifies TEB, the most comprehensive, clear,
and meaningful measurement that provides the sensor’s
true accuracy (see Figure 1). TEB allows for precise airflow
measurement, often ideal for demanding applications with high
accuracy requirements for precise airflow measurement.
• 10, 15, 20, 50, 100, 200 SLPM:
– 0%FS to 14.3%FS = 0.5%FS
– 14.3%FS to 100%FS = 3.5%reading
– 0%FS to 12.5%FS = 0.5%FS
– 12.5%FS to 100%FS = 4.0%reading
• 300 SLPM only:
– 0%FS to 12.5%FS = 0.5%FS
– 12.5%FS to 66.7%FS = 4.0%reading
– 66.7%FS to 100%FS = 7.0%reading
Table 1. Absolute Maximum Ratings1
Characteristic
Parameter
-0.3 Vdc to 11.0 Vdc
Supply voltage
Voltage on digital I/O output pins
Storage temperature range
Maximum flow change
Maximum common mode pressure
Maximum flow
-0.3 Vdc to 3.0 Vdc2
-40°C to 100°C [-40°F to 212°F]
10,000 SLPM/s
4 bar | 60 psi at 25°C [77°F]
350 SLPM
1Absolute maximum ratings are the extreme limits that the device will withstand without damage to the device. However, the electrical and
mechanical characteristics are not guaranteed as the maximum limits (above recommended operating conditions) are approached, nor will
the device necessarily operate at absolute maximum ratings.
2Digital I/O pins are diode protected at this voltage up to 2 mA. Digital bus voltage may exceed this value if the maximum digital bus current is
limited to 2 mA or less. The maximum bus current is generally determined by the bus pull-up resistors
CAUTION
CAUTION
IMPROPER USE
PRODUCT DAMAGE
Do not dissamble these products.
Do not use these products to sense liquid flow.
Failure to comply with these instructions may result in
product damage.
Failure to comply with these instructions may result in
product damage.
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Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Table 2. Operating Specifications
Characteristic
Supply voltage
Supply current
Parameter
3 Vdc to 10 Vdc
20 mA max.
Power:
3 Vdc
10 Vdc
60 mW max.
200 mW max.
Calibrated temperature range1
Operating temperature range
Full scale (FS) flow2
0°C to 50°C [32°F to 122°F]
-20°C to 70°C [-4°F to 158°F]
10, 15, 20, 50, 100, 200, 300 SLPM
0 to 10, 0 to 15, 0 to 20, 0 to 50, 0 to 100, 0 to 200, 0 SLPM to 300 SLPM
clean, dry air
Calilbrated flow range
Calibration gas
Accuracy3
0%FS to 14.3%FS
14.3%FS to 100%FS
0.5%FS
3.5%reading
Total Error Band:4
10, 15, 20, 50, 100, 200 SLPM:
0%FS to 12.5%FS
12.5%FS to 100%FS
300 SLPM only:
0%FS to 12.5%FS
0.5%FS
4.0%reading
0.5%FS
12.5%FS to 66.7%FS
66.7%FS to 100%FS
4.0%reading
7.0%reading
Null accuracy5
Flow response time6
Warm up time7
0.5%FS
1 ms
35 ms
Resolution:
10 SLPM
15 SLPM
20 SLPM
50 SLPM
100 SLPM
200 SLPM
300 SLPM
0.002 SLPM
0.003 SLPM
0.003 SLPM
0.008 SLPM
0.015 SLPM
0.029 SLPM
0.043 SLPM
Proof pressure
10.3 bar | 150 psig
13.7 bar | 200 psig
I2C fast mode (up to 400 kHz)
no
Burst pressure
Bus standards8
Reverse polarity protection
1 Custom and extended temperature compensated ranges are possible. Contact Honeywell for details.
2 Honeywell standard for mass flow rate units is SLPM, which has reference conditions of 0°C and 1 atm. Custom units are given as LPM with listed
reference conditions at the first mention.
3 Accuracy is the maximum deviation in output from nominal over the entire calibrated flow range at 25ºC. Errors include Offset, Full Scale Span,
Linearity, Flow Hysteresis, and Repeatability.
4 Total Error Band (TEB) is the maximum deviation in output from nominal over the entire calibrated flow range and temperature range. Total Error
Band includes all Accuracy errors, as well as all temperature effects over the compensated temperature range, including Temperature Offset,
Temperature Span and Thermal Hysteresis.
5 Null Accuracy is the maximum deviation in output from nominal at null flow over the entire calibrated temperature range.
6 Response time: time to electrically respond to any mass flow change at the microbridge airflow transducer (response time of the transducer may be
affected by the pneumatic interface).
7 Warm-up time: time to the first valid flow measurement after power is applied.
8 Refer to the Technical Note “I2C Communications with Honeywell Digital Airflow Sensors” for I2C protocol information.
Sensing and Internet of Things
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Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Table 3. Environmental Specifications
Characteristic
Humidity
Shock
Parameter
0% to 95% RH, non-condensing
30 g, 6 ms
Vibration
ESD
1,33 g at 10 Hz to 500 Hz
ESD IEC6100-4-2 air discharge up to 8 kV, or direct contact discharge up to 4 kV
Radiated immunity:
20 , 50, 100 , 200, 300 SLPM
10, 15 SLPM
Level 3 from 80 MHz to 1000 MHz per IEC61000-4-3
1 m shielded cable with 3 cm exposed leads at connector
1 m shielded cable with 3 cm exposed leads at connector and 280 Ohm at MHz ferrite bead
Table 4. Materials Specifications
Characteristic
Parameter
glass reinforced (GR) thermoplastic polymer, gold, silicon, silicon dioxide, silicon nitride, epoxy,
PCB epoxy composite
Wetted materials
Housing
GR thermoplastic polymer
PCB
Substrate
Adhesives
epoxy
Electronic components
Compliance
silicon, gold
RoHS, WEEE
Table 5. Recommended Mounting and Implementation
Characteristic
Parameter
Mounting screw size
Mounting screw torque
Electrical connection
Pneumatic connection
10-32
1,13 N m [20 in-lb]
6 pin SIP connector
manifold mount, 22 mm OD tapered male fitting, G 3/8 female threaded fitting
Sensing and Internet of Things
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Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Figure 2. Nomenclature and Order Guide1
For example, HAFUHM0020L4AXT defines a Honeywell ZephyrTM Airflow Sensor, unidirectional flow, long port, manifold mount, 20 SLPM, I2C output with
custom 0x49 address, 10% to 90% transfer function, 3 Vdc to 10 Vdc supply voltage.
HAF
U
HM
Port Style
0020
Flow Range
L
Unit
4
A
X
T
Product Series Flow Direction
Output Format
Transfer
Function
Reserved for Supply Voltage
Future Use
HAF Series—
High Accuracy
Airflow Sensor
Digital I2C address:
0x29
Digital I2C address:
0x39
10
Unidirectional
SLPM
10% to 90% of input
U
0010
L
2
3
4
5
6
7
A
X
T
XXXXX
3 Vdc to 10 Vdc
Manifold
mount
HM
15
0015
Digital I2C address:
0x49
22 mm OD
tapered male
fitting per
20
0020
HH
HT
Digital I2C address:
0x59
ISO 5356
50
0050
Digital I2C address:
0x69
G 3/8 female
threaded
fitting per
ISO 1179
100
0100
Digital I2C address:
0x79
200
0200
300
0300
1Apart from the general configuration required, other customer-specific requirements are also possible. Please contact Honeywell.
Figure 3. All Available Standard Configurations
Manifold mount
22 mm OD tapered male fitting
G 3/8 female threaded fitting
Sensing and Internet of Things
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Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Figure 4. Nominal Digital Output: 10, 15, 20, 50, 100, 200, 300 SLPM
18018
16380
14742
13104
11466
9828
8190
6552
4914
3276
1638
0
0
100
Full Scale Flow (%)
Figure 5. Accuracy and Total Error Band
10, 15, 20, 50, 100, 200 SLPM
300 SLPM only
8.00%
7.00%
6.00%
5.00%
4.00%
3.00%
2.00%
1.00%
0
4.00%
3.00%
2.00%
1.00%
0
TEB = 7.00%
at 300 SLPM
TEB = 4.67%
at 200 SLPM
TEB = 2.65%
at 200 SLPM
TEB = 0.5%
at 43 SLPM
-1.00%
-2.00%
-3.00%
-4.00%
0
10 20 30 40 50 60 70 80 90 100
-1.00%
-2.00%
-3.00%
-4.00%
-5.00%
-6.00%
-7.00%
-8.00%
%FS
Ideal
Accuracy:
0%FS to 14.3%FS = 0.5%
14.3%FS to 100%FS = 3.5%
Total Error Band:
0%FS to 12.5%FS = 0.5%
12.5%FS to 100%FS = 4.0%
0
10 20 30 40 50 60 70 80 90 100
%FS
Ideal
Accuracy:
0%FS to 14.3%FS (0 SLPM to 43 SLPM) = 0.5%
14.3%FS to 100%FS (43 SLPM to 300 SLPM) = 3.5%
Total Error Band:
0%FS to 14.3%FS (0 SLPM to 43 SLPM) = 0.5%
14.6%FS to 66.7%FS (44 SLPM to 200 SLPM) = 4.0%
66.7%FS to 100%FS (200 SLPM to 300 SLPM) = 7.0%
Sensing and Internet of Things
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Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Figure 6. Flow vs Pressure Drop: 10, 15, 20, 50, 100, 200, 300 SLPM
Flow
Typical Pressure Drop
inH2O
(SLPM)
mbar
kPa
0
1
0.000
0.000
0.042
0.082
0.159
0.322
0.412
0.513
0.621
0.676
0.730
0.853
0.980
1.332
3.736
3.736
3.736
3.736
22.017
28.546
35.907
43.873
52.568
61.936
71.904
0.000
0.010
0.021
0.040
0.080
0.103
0.128
0.155
0.169
0.182
0.213
0.244
0.332
0.931
1.755
2.798
4.053
5.488
7.116
0.103
0.206
2
4
0.396
8
0.803
10
1.027
20.684
17.237
13.790
10.342
6.895
12
1.279
14
1.549
15
1.686
16
1.820
18
2.126
20
2.444
3.447
25
3.320
50
9.314
0.000
75
17.553
27.979
40.533
54.881
71.158
89.506
109.363
131.037
154.389
179.235
0
50
100 150 200 250 300 350
100
125
150
175
200
225
250
275
300
Flow (SLPM)
8.951
10.936
13.104
15.439
17.924
Table 6. Ideal Transfer Function
Item
Equation
Digital Output Code
Flow Applied
16384 * [0.1 + 0.8 * (Flow Applied/Full Scale Flow)]
Full Scale Flow * [(Digital Output Code/16384) - 0.1]/0.8
Digital Interface
For additional details on the use of Zephyr with digital output see the Technical Note “I2C Communications with Honeywell
Digital Airflow Sensors”.
The sensor uses the I2C standard for digital communication with a slave address specified in the Nomenclature and Order Guide
in Figure 2. Following sensor power-up, each of the first two read sequences shown in Figure 7 will respond with 2 bytes of the
unique 4-byte Serial Number. The first read after power-up will respond with the two most significant bytes of the Serial Number,
while the second read will respond with the two least significant bytes of the Serial Number. For reliable performance, allow
sensor to be powered for the sensor startup time before performing the first read, then allow a 10 ms command response time
before performing the second read.
Sensing and Internet of Things
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Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Figure 7. Sensor I2C Read and Write Sequences
I2C Read: Slave responds to Master with data
Data Byte 0 (Most Significant)
Data Byte 1 (Least Significant)
S
A6 A5 A4 A3 A2 A1 A0
1
SA D7 D6 D5 D4 D3 D2 D1 D0 MA D7 D6 D5 D4 D3 D2 D1 D0 MN S
SDA
SCL
I2C Read: Master sends data to Slave
Command Byte
S
A6 A5 A4 A3 A2 A1 A0
1
SA D7 D6 D5 D4 D3 D2 D1 D0 SA S
SDA
SCL
Bit Name
Description
Start condition Master pulls SDA from high to low while SCL remains high
S
Stop condition Master allows SDA to float from low to high while SCL remains high
S
I2C Slave Address is the 7 Most Significant Bits for the first transmitted byte
Address bit
A6
1
Read/write bit Read = 1, Write = 0
Data bit
Read = 1, Write = 0
D7
SA
Slave ACK
Master ACK
Master NACK
Slave pulls SDA low
Master pulls SDA low
Master allows SDA to float high
MA
MN
After the power-up read sequence described above, the sensor will respond to each I2C read request with a 16-bit (2 byte)
digital flow reading. Read requests taken faster than the Response Time (1 ms) are not guaranteed to return fresh data. The first
two bits of each flow reading will be ‘00’, while non-flow responses (such as error and status codes) will begin with ‘11’. There
are several user commands available as shown in Table 8. Following an I2C write sequence of a user command, the sensor will
respond to the next I2C read request with a 16-bit response. Possible responses to user commands can be seen in Table 9.
Table 8. User Command Descriptions
Command Byte
(Hexadecimal)
Command Response Time
(Max.)
Command Name Command Description
Next two read requests will each return two bytes of
the sensor’s unique 4-byte Serial Number.
0x01
0x02
GetSerialNumber
PowerOnReset
10 ms
20 ms
Force Power-On reset of sensor microcontroller.
Calculates EEPROM Checksum and compares to
production Checksum value. If the values match,
the next read request will respond with 0xCCA5.
Otherwise, the next read will respond with 0xCC90.
0x03
Checksum
1 s
1
Table 9. Sensor Response Descriptions
Sensor Response
Response Name
(Hexadecimal)
Response Description
0xCCA5
0xCC99
0xCC9A
0xCC9B
0xCC90
0xCCBB
POSACK
non-response command was executed successfully
command byte was not recognized
BadCommand
BadParam
Failure
command sent with incorrect parameter bytes
command failed during execution
BadChecksum
Busy
checksum did not match stored value
sensor is busy calculating the checksum value
The maximum sink current on SCL or SDA is 2 mA. Therefore, if the pull-up resistors are biased by VDD, and if VDD reaches
the maximum supply voltage of 6 V, then the pull-up resistors for SCL and SDA must be greater than 3.0 kOhm to limit the sink
current to 2 mA. The typical value for SCL and SDA pull-up resistors is 4.7 kOhm (this value depends on the bus capacitance and
the bus speed).
Sensing and Internet of Things
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Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Figure 8. Mounting Dimensions (For reference only: mm [in].)
Port Style: Manifold Mount
8
71,2
Mounting Footprint
[0.3]
[2.80]
55,2
[2.17]
71,2
[2.80]
16,0
[0.63]
30,0
[1.2]
55,2
[2.17]
4X 5,60
[0.220]
30,6
14,6
[0.58]
[1.20]
4X 15,0
[0.59]
4X 5,20
[0.205]
16,0
[0.63]
A
A
22,0
[0.87]
54,4
[2.14]
44,0
[1.73]
33,0
[1.30]
14,5
[0.57]
54,4
[2.14]
44,0
[1.73]
8
[0.3]
B
63,2
[2.49]
87
4,0
[0.16]
2X 13,0 DIA.
[0.51]
51,5
[2.03]
[3.4]
D
54
[2.1]
34,5
[1.36]
Pin 1.
A
B
C
33
[1.3]
4X 4,50
[0.177]
4X 10-32 pan head screws 1,13 N m [20 in-lb] torque.
42,4
[1.67]
2X Gland for O-Ring AS568-113, 13,94 mm ID x 2,62 mm
[0.549 in ID x 0.103 in W. Two O-rings, AS568A-113 Durometer
A65 to A80 Silicon or Viton, are required to seal sensor to
manifold. O-rings are not included.
22,0
[0.87]
C
4,0
[0.16]
63,2
[2.49]
Flow channel.
D
87
[3.4]
Port Style: 22 mm OD Tapered Male Fitting per ISO 5356
14
[0.6]
39,5
[1.56]
18,3
[0.72]
Mounting Footprint
2X 5,70
[0.22]
21,0
[0.83]
39.5
14
[1.56]
[0.6]
14,8
[0.58]
14,8
[0.58]
2X 5,20
[0.205]
14,5
[0.57]
A
A
54,4
[2.14]
44,0
[1.73]
35,1
[1.38]
14,5
[0.57]
44,0
[1.73]
54,4
[2.14]
2X 18,3
[0.72]
2X 21,0
[0.83]
68
[2.7]
B
C
54
[2.1]
18,0
[0.71]
51,5
[2.03]
Pin 1.
A
B
C
2X 10-32 pan head screws 1,13 N m [20 in-lb] torque.
15 mm ID/22 mm OD tapered fitting per ISO 5356.
30
[1.2]
35
2X 4,50
[0.177]
[1.4]
42,4
[1.67]
68
[2.7]
110
[4.3]
Sensing and Internet of Things
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Honeywell ZephyrTM Digital Airflow Sensors
HAF Series—High Accuracy: 10, 15, 20, 50, 100, 200, 300 SLPM
Figure 8. Mounting Dimensions (For reference only: mm [in], continued.)
Port Style: G 3/8 Female Threaded Fitting per ISO 1179
39,5
[1.56]
16
[0.63]
Mounting Footprint
2X 18,3
[0.72]
39,5
16
2X 1,5
[0.06]
[1.56]
[0.63]
2X 5,70
[0.22]
14,8
[0.58]
2X 1.5
[0.06]
14,8
[0.58]
A
A
44,0
[1.73]
35,1
[1.38]
14,5
[0.57]
2X 5,20
[0.205]
54,4
[2.14]
44,0
[1.73]
54,4
[2.14]
14,5
[0.57]
2X 18,3
[0.72]
71
[2.8]
B
C
Pin 1.
A
B
C
51,5
2X 10-32 pan head screws 1,13 N m [20 in-lb] torque.
[2.03]
18,0
[0.71]
54
[2.1]
ISO 1179 G3/8, recommended torque is 1,7 0,6 N m
[15 5 in lb]. Electrical connector part number is JST
(Japan Solderless Terminals) B6B-PH-K-S. Mating
connector part numbers are JST PHR-6 (socket) and
JST SPH-002T-P0.5L (crimp terminal).
34,5
[1.36]
30,0
[1.18]
35
[1.4]
2X 4,50
[0.177]
71,4
[2.81]
42,4
[1.67]
Table 7. Pinout (Digital Function)
Pin 1
Pin 2
Pin 3
Pin 4
Pin 5
Pin 6
NC
SCL
VVDD
ground
SDA
NC
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ADDITIONAL INFORMATION
The following associated literature is available on the
Honeywell web site at sensing.honeywell.com:
WARNING
PERSONAL INJURY
DO NOT USE these products as safety or emergency stop
devices or in any other application where failure of the
product could result in personal injury.
• Product line guide
• Product range guide
• Technical Information
– I2C Communications with Honeywell Digital Airflow
Failure to comply with these instructions could result in
death or serious injury.
Sensors
– Gas Media Compatibility and Correction Factors
• Application Specific Information
WARNING
MISUSE OF DOCUMENTATION
•
The information presented in this datasheet is for
reference only. Do not use this document as a product
installation guide.
•
Complete installation, operation, and maintenance
information is provided in the instructions supplied with
each product.
Failure to comply with these instructions could result in
death or serious injury.
Warranty/Remedy
Honeywell warrants goods of its manufacture as being free
of defective materials and faulty workmanship during the
applicable warranty period. Honeywell’s standard product
warranty applies unless agreed to otherwise by Honeywell in
writing; please refer to your order acknowledgment or consult
your local sales office for specific warranty details. If warranted
goods are returned to Honeywell during the period of coverage,
Honeywell will repair or replace, at its option, without charge
those items that Honeywell, in its sole discretion, finds defective.
The foregoing is buyer’s sole remedy and is in lieu of all
other warranties, expressed or implied, including those of
merchantability and fitness for a particular purpose. In no
event shall Honeywell be liable for consequential, special, or
indirect damages.
For more information
Honeywell Sensing and Internet of
Things services its customers through a
worldwide network of sales offices and
distributors. For application assistance,
current specifications, pricing or the
nearest Authorized Distributor, visit
sensing.honeywell.com or call:
While Honeywell may provide application assistance personally,
through our literature and the Honeywell web site, it is buyer’s
sole responsibility to determine the suitability of the product in
the application.
Specifications may change without notice. The information we
supply is believed to be accurate and reliable as of this writing.
However, Honeywell assumes no responsibility for its use.
Asia Pacific
Europe
+65 6355-2828
+44 (0) 1698 481481
+1-800-537-6945
USA/Canada
Honeywell Sensing and Internet of Things
9680 Old Bailes Road
Fort Mill, SC 29707
008268-5-EN | 5 | 02/18
© 2018 Honeywell International Inc.
www.honeywell.com
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