SSCSSND025MG5A3_技术文档

TruStability^®Board Mount

Pressure Sensors:

SSC Series–Standard

Accuracy

DESCRIPTION

The TruStability^®Standard Accuracy Silicon Ceramic (SSC)

Series is a piezoresistive silicon pressure sensor offering a

digital output for reading pressure over the specified full scale

pressure span and temperature range.

These sensors measure differential and gage pressures.

Differential versions allow application of pressure to either side

of the sensing diaphragm. Gage versions are referenced to

atmospheric pressure and provide an output proportional to

pressure variations from atmosphere.

The SSC Series is fully calibrated and temperature

compensated for sensor offset, sensitivity, temperature effects,

and non-linearity using an on-board Application Specific

Integrated Circuit (ASIC). Calibrated output values for pressure

are updated at approximately 2 kHz.

The SSC Series sensors are intended for use with non-

corrosive, non-ionic working fluids. They are designed and

manufactured according to standards in ISO 9001.

The SSC Series is calibrated over the temperature range of

-20 °C to 85 °C [-4 °F to 185 °F]. The sensor is characterized

for operation from a single power supply of either 3.3 Vdc or

5.0 Vdc.

FEATURES AND BENEFITS (=competitive differentiator)



Proprietary Honeywell technology: Combines high

sensitivity with high overpressure and burst pressure—two

performance factors that are difficult to achieve in the

same product; this gives the customer more flexibility in

sensor implementation and reduces the customer design

requirements for protecting the sensor without sacrificing

the ability to sense very small changes in pressure

Industry-leading long-term stability: Even after long-

term use and thermal extremes, these sensors perform

substantially better relative to stability than any other

pressure sensor available in the industry today:

Minimizes system calibration needs



Industry-leading Total Error Band (TEB): Honeywell

specifies TEB—the most comprehensive, clear, and

meaningful measurement—that provides the sensor’s true

accuracy over a compensated range of -20 °C to 85 °C

[-4 °F to 185 °F].

Eliminates individually testing and calibrating every

sensor, which can increase their manufacturing time

and process

Supports system accuracy and warranty requirements

Helps to optimize system uptime

Provides excellent sensor interchangeability—there is

minimal part-to-part variation in accuracy



Maximizes system performance

Helps support system uptime by eliminating the need to

service or replace the sensor during its application life



Industry-leading accuracy: Extremely tight accuracy of

±0.25 %FSS BFSL (Full Scale Span Best Fit Straight

Line):

Allows unlimited floor life when stored as specified

(<30 ºC/85 %RH), simplifying storage and reducing

scrap



Insensitive to mounting orientation:

Allows customers to position the sensor in the most

optimal point in the system, eliminating the concern for

positional effects

Increases flexibility of use within the application

Insensitive to vibration: Reduces susceptibility to

application-specific vibration that occurs with changes in

pressure, minimizing inaccurate pressure readings

Custom calibration: Typically allows for the removal of

additional components associated with signal conditioning

from the PCB, reducing PCB size as well as costs often

associated with those components (e.g., acquisition,

inventory, assembly)

Reduces software needs to correct system

inaccuracies, minimizing system design time

Supports system accuracy and warranty requirements

Helps to optimize system uptime

High burst pressures above 415 inH₂O (1034 mbar):

Allows the sensor to endure a wide range of conditions

while maintaining a high level of sensitivity which

measures even the smallest change in pressure

Can simplify the design process

High working pressure ranges above 135 inH₂O

(336 mbar): Allows ultra-low pressure sensors to be used

continuously well above the calibrated pressure range

Industry-leading flexibility



Internal diagnostic functions: Increases system

reliability

Energy efficient: Extremely low power consumption (less

than 10 mW, typ.):

Modular, flexible design with many package styles

(with the same industry-leading stability), pressure

ports, and options simplify integration into the device

manufacturer’s application

Available soon: single side liquid media option allows

the end customer to use one port of the sensor with

condensing humidity or directly with non-corrosive

liquid media

Reduces power consumption

Provides extended battery life

Promotes energy efficiency

Output: I²C- or SPI-compatible 14-bit digital output (min.

12-bit sensor resolution) accelerates performance through

reduced conversion requirements and the convenience of

direct interface to microprocessors or microcontrollers;

analog output also available



Repeatability: Provides excellent repeatability, high

accuracy and reliability under many demanding conditions

Onboard signal conditioning: Typically allows for the

removal of signal conditioning components from the PCB,

reducing costs and simplifying production processes

Wide variety of pressure ranges: From ±2.5 mbar to

±40 mbar [±1 inH₂O to ±30 inH₂O] provide support for

many unique applications

Small size: Miniature 10 mm x 10 mm [0.39 in x 0.39 in]

package is very small when compared to most board

mount pressure sensors:



Occupies less area on the PCB

Meets IPC/JEDEC J-STD-020D.1 Moisture Sensitivity

Level 1 requirements:

Typically allows for easy placement on crowded PCBs

or in small devices

RoHS compliant

Protected by multiple global patents

Allows the customer to avoid the thermal and

mechanical damage during solder reflow attachment

and/or repair that lesser rated products would incur

POTENTIAL APPLICATIONS

Medical:

Industrial:

Ventilators

Anesthesia machines

Spirometers

Nebulizers

Hospital room air pressure

VAV (Variable Air Volume) control

Static duct pressure

Clogged HVAC (Heating, Ventilation, and Air

Conditioning) filter detection

HVAC transmitters

Indoor air quality

For more information on these potential applications, please see the application note “Honeywell TruStability® Board Mount

Pressure Sensors: HSC Series and SSC Series, Amplified Compensated Digital or Analog Output, ±2.5 mbar to ±40 mbar

[±1 inH₂O to ±30 inH₂O]”.

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Table 1. Absolute Maximum Ratings¹

Parameter

Min.

-0.3

Max.

6.0

Unit

Vdc

V

Supply voltage (Vsupply)

Voltage on any pin

Vsupply + 0.3

Digital interface clock frequency:

I²C

SPI

100

50

400

800

kHz

ESD susceptibility (human body model)

Storage temperature

2

kV

-40 [-40]

85 [185]

C [ F]

Soldering time and temperature:

Lead solder temperature (SIP, DIP)

Peak reflow temperature (SMT)

4 s max. at 250 °C [482 °F]

15 s max. at 250 °C [482 °F]

Table 2. Operating Specifications

Parameter

Min.

Typ.

Max.

Unit

Supply voltage (Vsupply)²:

3.3 Vdc

3.27

4.95

3.3³

5.0³

3.33

5.05

Vdc

5.0 Vdc

Sensors are either 3.3 Vdc or 5.0 Vdc based on listing selected.

Supply current:

3.3 Vdc supply

5.0 Vdc supply

1.6

2

2.1

3

mA

-

Compensated temperature range⁴

Operating temperature range⁵

Startup time (power up to data ready)

Response time

-20 [-4]

-40 [-40]

85 [185]

7.3

C [ F]

ms

2.8

0.46

ms

SPI/I²C voltage level low

SPI/I²C voltage level high

Pull up on SDA/MISO, SCL/SCLK, SS

Accuracy⁶

Orientation sensitivity ( 1 g)⁷

Output resolution

-

0.8

1

-

0.2

-

Vsupply

kOhm

%FSS⁸

%FSS

bits

-

0.25

0.15

12

Honeywell Sensing and Control

3

Table 3. Environmental Specifications

Parameter

Characteristic

Humidity:

Gases only (See “Options N and D” in Figure 1.)

0% to 95% RH, non-condensing

Liquid media (See “Options T and V” in Figure 1.)

100% condensing or direct liquid media on Port 1

MIL-STD-202F, Method 214, Condition F (20.7 g random)

MIL-STD-202F, Method 213B, Condition F

1 million cycles to working pressure min.¹⁰

Vibration

Shock

Life⁹

Solder reflow

J-STD-020D.1, Moisture Sensitivity Level 1 (unlimited floor life

when stored as specified (<30 ºC/85 %RH))

Table 4. Wetted Materials¹¹

Parameter

Port 1 (Pressure Port)

high temperature polyamide

Port 2 (Reference Port)

high temperature polyamide

alumina ceramic

Covers

Substrate

alumina ceramic

epoxy, silicone

Adhesives

epoxy, silicone

Electronic components

Notes:

ceramic, glass, solder, silicon

silicon, glass, gold, solder

1. Absolute maximum ratings are the extreme limits the device can withstand without damage to the product. Stresses above these ratings may

cause permanent damage. Exposure to absolute maximum conditions for extended periods may degrade device reliability.

2. Ratiometricity of the sensor (the ability of the digital device to maintain performance parameters independent of supply voltage) is achieved

when the supply voltage is within the operating specification range.

3. The sensor is not reverse polarity protected. Incorrect application of supply voltage or ground to the wrong pin may cause electrical failure.

4. The compensated temperature range is the temperature range over which the sensor will produce an output proportional to pressure within the

specified performance limits.

5. The operating temperature range is the temperature range over which the sensor will produce an output proportional to pressure but may not

remain within the specified performance limits.

6. 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. (See Figure 3.)

7. Orientation sensitivity: The maximum change in offset of the sensor due to a change in position or orientation relative to Earth’s gravitational

field.

8. Full Scale Span (FSS): The algebraic difference between the output signal measured at the maximum (Pmax.) and minimum (Pmin.) limits of

the pressure range. (See Figure 1 for ranges.)

9. Life may vary depending on specific application in which sensor is utilized. Contact Honeywell Sales and Service for Mean Time to Failure

(MTTF) data.

10. Working Pressure: The maximum pressure that may be applied to any port of the sensor in continuous use. This pressure may be outside the

operating pressure range limits (Pmin. to Pmax.) in which case the sensor may not provide a valid output until pressure is returned to within the

operating pressure range. Tested to 1 million cycles, min. (See Figure 5.)

11. Contact Honeywell Sales and Service for detailed material information.

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Figure 1. Nomenclature and Order Guide

_

_ _ _ _ _ _ _ _ _

A

SSC

Supply Voltage

3 = 3.3 Vdc

5 = 5.0 Vdc

Series

Package

D = DIP (Dual Inline Pin)

M = SMT (Surface Mount Technology)

S = SIP (Single Inline Pin)

Transfer Function¹²

A = 10% to 90% of 2¹⁴counts

Output Type¹³

S = SPI (not available in SIP package)

2 = I²C, Address 0x28

3 = I²C, Address 0x38

4 = I²C, Address 0x48

5 = I²C, Address 0x58

6 = I²C, Address 0x68

7 = I²C, Address 0x78

Pressure Port

SMT

DIP

SIP

NN = No ports

AA = Dual

axial barbed

ports, opposite

sides

Pressure Range^{14, 15}

-

inH₂O (at 4 °C)

mbar

Differential

AN = Single

axial barbed

port

AN = Single

axial barbed

port

AN = Single

axial barbed

port

001ND = ±1 inH₂O

002ND = ±2 inH₂O

004ND = ±4 inH₂O

005ND = ±5 inH₂O

010ND = ±10 inH₂O

020ND = ±20 inH₂O

030ND = ±30 inH₂O

2.5MD = ±2.5 mbar

004MD = ±4 mbar

006MD = ±6 mbar

010MD = ±10 mbar

016MD = ±16 mbar

025MD = ±25 mbar

040MD = ±40 mbar

LN = Single

axial barbless

port

LN = Single

axial barbless

port

LN = Single

axial barbless

port

Gage

FF = Fastener

mount, dual axial

barbed ports,

002NG = 0 inH₂O to 2 inH₂O 004MG = 0 mbar to 4 mbar

004NG = 0 inH₂O to 4 inH₂O 006MG = 0 mbar to 6 mbar

005NG = 0 inH₂O to 5 inH₂O 010MG = 0 mbar to 10 mbar

010NG = 0 inH₂O to 10 inH₂O 016MG = 0 mbar to 16 mbar

020NG = 0 inH₂O to 20 inH₂O 025MG = 0 mbar to 25 mbar

030NG = 0 inH₂O to 30 inH₂O 040MG = 0 mbar to 40 mbar

-

opposite sides

FN = Fastener

mount, single axial

barbed port

-

Options

GN = Ribbed

fastener mount,

single axial

N = Gases only, no special options

D = Gases only, diagnostics on

T = Liquid media on Port 1, no diagnostics*

V = Liquid media on Port 1, diagnostics on*

barbed port

NB = Fastener

mount, dual axial

ports, same side

-

CAUTION

PRODUCT DAMAGE

RN = Single

radial barbed

port

RN = Single

radial barbed

port

RN = Single

radial barbed

port

· Ensure liquid media is applied to Port 1 only; Port 2 is

not compatible with liquids.

RR = Dual

radial barbed

ports, same

side

RR = Dual

radial barbed

ports, same

side

RR = Dual

radial barbed

ports, same

side

· Ensure liquid media contains no particulates. All

TruStability^®sensors are dead-ended devices.

Particulates can accumulate inside the sensor, causing

damage or affecting sensor output.

DR = Dual

radial barbed

ports, opposite

sides

DR = Dual radial

barbed ports,

opposite sides

DR =Dual radial

barbed ports,

opposite sides

· Recommend that the sensor be positioned with Port 1

facing downwards; any particulates in the system are

less likely to enter and settle within the pressure sensor

if it is in this position.

HH = Fastener

mount, dual

radial barbed

ports, same

side

· Ensure liquid media does not create a residue when

dried; build-up inside the sensor may affect sensor

output. Rinsing of a dead-ended sensor is difficult and

has limited effectiveness for removing residue.

-

HN = Fastener

mount, single

radial barbed

port

· Ensure liquid media are compatible with wetted

materials. Non-compatible liquid media will degrade

sensor performance and may lead to sensor failure.

Failure to comply with these instructions may result in

product damage.

MN = Manifold

mount, outer

diameter seal

-

SN = Manifold

mount, inner

diameter seal

*Indicates available soon.

Notes:

12. The transfer function limits define the output of the sensor at a given pressure input. By specifying Pmin. and Pmax., the output at Pmin. and

Pmax., the complete transfer function of the sensor is defined. See Figure 2 for a graphical representation of the transfer function. Other

transfer functions are available. Contact Honeywell Customer Service for more information.

13. Analog output is also available. Contact Honeywell Customer Service for more information.

14. Custom pressure ranges are available. Contact Honeywell Customer Service for more information.

15. See Table 5 for an explanation of sensor pressure types.

Honeywell Sensing and Control

5

Figure 2. Completed Catalog Listing Example for SSCSANN010NGSA3

Compensated Pressure Range

100

90

80

70

60

50

40

30

20

10

0

Ideal

2% Total Error Band

SIP package, AN pressure

port, no diagnostics, 10 inH₂O

gage, SPI output, 10% to

90% calibration at 3.3 Vdc.

0

7

9

1

2

3

4

5

6

8

10

P_max.

P_min.

Pressure (inH₂0)

80%

P_max.– P_min.

Output (% of 2¹⁴counts) =

x (Pressure_applied– P_min.) + 10%

Table 5. Pressure Types

Pressure Type

Description

Output is proportional to the difference between the pressures applied to each port (Port 1 Port 2).

50% point of transfer function set at Port 1 = Port 2.

Differential

Output is proportional to the difference between applied pressure and atmospheric (ambient)

pressure. Pmin. is set at atmospheric pressure.

Gage

Table 6. Sensor Output at Significant Percentages

% Output

Digital Counts (decimal)

Digital Counts (hex)

0x0000

0

10

50

90

100

1638

8192

14746

16383

0x0666

0x2000

0x399A

0x3FFF

Table 7. Pressure Range Specifications for ±1 inH₂O to ±30 inH₂O

Order

Code

(See

Long-term

Stability

(1000 hr,

Pressure Range

Total Error

Band after

Auto-Zero¹⁷

Common

Mode

Total Error

Band¹⁶

Working

Over-

Burst

Pressure¹⁰pressure¹⁸Pressure¹⁹

Pressure²⁰

Pmin.

Pmax.

Fig. 1)

25 °C [77 °F])

Differential

0.5 %FSS

0.35 %FSS

Gage

001ND

002ND

004ND

005ND

010ND

020ND

030ND

5 %FSS

2.5%FSS

2 %FSS

-1 inH₂O 1 inH₂O

-2 inH₂O 2 inH₂O

-4 inH₂O 4 inH₂O

-5 inH₂O 5 inH₂O

-10 inH₂O 10 inH₂O

-20 inH₂O 20 inH₂O

-30 inH₂O 30 inH₂O

135 inH₂O 270 inH₂O 415 inH₂O 1400 inH₂O

150 inH₂O 300 inH₂O 500 inH₂O 2200 inH₂O

175 inH₂O 350 inH₂O 550 inH₂O 4200 inH₂O

1.25 %FSS

002NG

004NG

005NG

010NG

020NG

030NG

5 %FSS

2 %FSS

0.5 %FSS

0.35 %FSS

0 inH₂O

2 inH₂O

4 inH₂O

5 inH₂O

135 inH₂O 270 inH₂O 415 inH₂O 1400 inH₂O

150 inH₂O 300 inH₂O 500 inH₂O 2200 inH₂O

175 inH₂O 350 inH₂O 550 inH₂O 4200 inH₂O

2.5 %FSS 1.25 %FSS

0 inH₂O 10 inH₂O

0 inH₂O 20 inH₂O

0 inH₂O 30 inH₂O

2 %FSS

1.25 %FSS

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Table 8. Pressure Range Specifications for ±2.5 mbar to ±40 mbar

Order

Code

(See

Long-term

Stability

(1000 hr,

Pressure Range

Total Error

Band after

Auto-Zero¹⁷

Common

Mode

Total Error

Band¹⁶

Working

Over-

Burst

Pressure¹⁰pressure¹⁸Pressure¹⁹

Pressure²⁰

Pmin.

Pmax.

Fig. 1)

25 °C [77 °F])

Differential

0.5 %FSS

0.35 %FSS

Gage

2.5MD

004MD

006MD

010MD

016MD

025MD

040MD

5 %FSS

2 %FSS

-2.5 mbar 2.5 mbar

335 mbar

375 mbar

435 mbar

675 mbar 1000 mbar 3450 mbar

750 mbar 1250 mbar 5450 mbar

850 mbar 1350 mbar 10450 mbar

-4 mbar

-6 mbar

4 mbar

6 mbar

3.5 %FSS

1.5 %FSS

2.5 %FSS 1.25 %FSS

-10 mbar 10 mbar

-16 mbar 16 mbar

-25 mbar 25 mbar

-40 mbar 40 mbar

2 %FSS

1.25 %FSS

004MG

006MG

010MG

016MG

025MG

040MG

5 %FSS

2 %FSS

0.5 %FSS

0 mbar

4 mbar

6 mbar

335 mbar

375 mbar

675 mbar 1000 mbar 3450 mbar

750 mbar 1250 mbar 5450 mbar

10 mbar

16 mbar

25 mbar

40 mbar

2.5 %FSS 1.25 %FSS

2 %FSS

1.25 %FSS

Notes:

16. Total Error Band: The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range.

Includes all errors due to offset, full scale span, pressure non-linearity, pressure hysteresis, repeatability, thermal effect on offset, thermal

effect on span, and thermal hysteresis. (See Figures 3 and 4.)

17. Total Error Band After Auto-Zero: The maximum deviation from the ideal transfer function over the entire compensated pressure range at a

constant temperature and supply voltage for a minimum of 24 hours after an auto-zero operation. Includes all errors due to full scale span,

pressure non-linearity, pressure hysteresis, and thermal effect on span.

18. Overpressure: The absolute maximum rating for pressure which may safely be applied to the product for it to remain in specification once

pressure is returned to the operating pressure range. Exposure to higher pressures may cause permanent damage to the product. Unless

otherwise specified this applies to all available pressure ports at any temperature with the operating temperature range. Tested to 10,000

cycles, minimum. (See Figure 5.)

19. Burst Pressure: The maximum pressure that may be applied to any port of the product without causing escape of pressure media. Product

should not be expected to function after exposure to any pressure beyond the burst pressure. (See Figure 5.)

20. Common Mode Pressure: The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without

causing changes in specified performance.

Table 9. Pinout for SMT and DIP Packages

Output Type

Pin 1

GND

Pin 2

Vsupply

Pin 3

SDA

Pin 4

SCL

Pin 5

NC

Pin 6

NC

Pin 7

NC

Pin 8

NC

I²C

SPI

MISO

SCLK

SS

NC

Table 10. Pinout for SIP Package

Output Type

Pin 1

Pin 2

Pin 3

Pin 4

I²C

GND

Vsupply

SDA

SCL

Honeywell Sensing and Control

7

Figure 3. Total Error Band Explanation

All Possible Errors

Total Error Band should not be confused with accuracy, which is actually

a component of Total Error Band, as shown to the right.

Offset

+

Full Scale Span

Many competitors simply specify the accuracy of their device; however,

the specification may exclude errors, or may be calculated over a very

narrow range, at only one point in the range, or at their absolute best

accuracy level. It is then up to the customer to calibrate the device to

make sure it has the accuracy needed for the life of the application.

+

Pressure Non-Linearity

+

Pressure Hysteresis

= Accuracy

Total

Error

Band

=

+

Pressure Non-Repeatability

Honeywell provides the Total Error Band to its customers so that they

can implement the TruStability® sensors quickly and easily without

having to calculate the effects of individual errors that might be

encountered in their application.

+

Thermal Effect on Offset

+

Thermal Effect on Span

+

All TruStability^®products are designed to remain within Total Error Band

after exposure to the environmental conditions in Table 3, including the

solder reflow process.

Thermal Hysteresis

Figure 5. Calibrated Pressure Range, Working

Pressure, Overpressure and Burst Pressure

Relationship

Figure 4. SSC Series Total Error Band Values for Full Scale Span

Pressure Ranges

The graphic below shows the relationship of the four

pressure types at three locations: 30 inH₂0, 10 inH₂O

and 4 mbar.

SSC Differential

SSC Gage

550 inH₂0

150 psi

10 bar

150 psi

10 bar

500 inH₂0

Low to Mid

Pressure

Low to Mid

Pressure

1000 mbar

18x

11x

50x

30x

1 psi

250x

60 mbar

16x

20 inH₂0

159x

Ultra-Low

Pressure

Ultra-Low

Pressure

40 mbar

25 mbar

40 mbar

25 mbar

10 inH₂0

5x

15x

84x

16 mbar

10 mbar

16 mbar

10 mbar

5 inH₂0

6 mbar

4 mbar

2.5 mbar

0 mbar

6 mbar

4 mbar

0 mbar

2 inH₂0

0 inH₂0

2 inH₂0

0 inH₂0

4 mbar

30 inH₂0

10 inH₂0

0

±2

Ideal

Accuracy (%FSS)

±2

±2.5

±5

Calibrated Pressure Range

±2.5

±3.5

±5

Burst Pressure

(minimum)

Total Error Band (%FSS)

Overpressure

(maximum)

Working Pressure

Range

Calibrated

Pressure Range (x)

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Figure 6. DIP Pressure Port Dimensional Drawings (For reference only: mm [in])

DIP NN: No ports

DIP AN: Single axial barbed port

13,75

0,25

[0.010]

0,25

[0.541]

10,0

[0.39]

5,44

[0.214]

[0.010]

10,0

[0.39]

8

7

6

5

8

7

6

5

7,95

[0.313]

6,2

[0.24]

13,35

[0.525]

13,35

[0.525]

6,99

[0.275]

6,99

[0.275]

4,93 DIA.

[0.194]

PORT 2

PORT 1

PORT 2

PORT 1

1

2

3

4

9,24

[0.364]

11,21

[0.441]

1

2

3

4

9,24

[0.364]

10,85

[0.427]

2,54 TYP.

[0.100]

2,54 TYP.

[0.100]

8X 0,46

[0.018]

8X 0,46

[0.018]

DIP LN: Single axial barbless port

DIP RN: Single radial barbed port

5,80

0,25

[0.010]

[0.228]

[0.010]

5,80

[0.228]

10,0

[0.39]

10,0

[0.39]

8

7

6

5

8

7

6

5

2,47 DIA.

[0.097]

4,2

[0.17]

13,35

[0.525]

13,35

[0.525]

6,99

[0.275]

6,99

[0.275]

PORT 1

PORT 2

PORT 1

1,93 DIA.

[0.076]

1

2

3

4

1

2

3

4

9,24

[0.364]

9,24

[0.364]

2,54 TYP.

[0.100]

2,54 TYP.

[0.100]

11,21

[0.441]

11,21

[0.441]

13,75

[0.541]

6,95

[0.274]

1,00

[0.039]

8X 0,46

[0.018]

8X 0,46

[0.018]

DIP RR: Dual radial barbed ports, same side

DIP DR: Dual radial barbed ports, opposite sides

,25

0,25

15,76

[0.620]

10,0

[0.39]

6,16

[0.242]

6,16

[0.242]

[0.010]

10,0

[0.39]

4,0

[0.16]

8

7

6

5

2X 1,93 DIA.

[0.076]

2X 1,93 DIA.

[0.076]

8

7

6

5

13,35

PORT 1

PORT 2

13,35

[0.525]

6,99

[0.275]

6,99

PORT 2

[0.275]

PORT 1

PORT 2

PORT 1

4,65

[0.183]

PORT 1

PORT 2

1

2

3

4

9,24

[0.364]

9,24

[0.364]

2,54 TYP.

[0.100]

1

2

3

4

11,21

[0.441]

2,54 TYP.

[0.100]

11,21

[0.441]

3,78

[0.149]

3,78

[0.149]

8X 0,46

[0.018]

8X 0,46

[0.018]

Honeywell Sensing and Control

9

Figure 7. SMT Pressure Port Dimensional Drawings (For reference only: mm [in])

SMT NN: No ports SMT AN: Single axial barbed port

13,75

[0.541]

10,0

[0.39]

5,44

[0.214]

10,0

[0.39]

8

7

6

5

8

7

6

5

7,95

[0.313]

13,4

[0.53]

6,99

[0.275]

13,4

[0.53]

PORT 1

PORT 2

4,93 DIA.

[0.194]

6,99

[0.275]

PORT 2

PORT 1

1

2

3

4

8X 0,46

[0.018]

4,80

1

2

3

4

4,80

[0.189]

8X 0,46

[0.018]

2,54 TYP.

[0.100]

[0.189]

2,54 TYP.

[0.100]

6,41

[0.252]

6,77

[0.266]

SMT LN: Single axial barbless port

SMT RN: Single radial barbed port

5,80

[0.228]

5,80

[0.228]

10,0

[0.39]

10,0

[0.394]

8

7

6

5

8

7

6

5

4,2

[0.17]

2,47 DIA.

[0.097]

13,3

[0.53]

13,35

[0.525]

6,99

[0.275]

6,99

[0.275]

PORT 1

PORT 2

1,93 DIA.

[0.076]

PORT 1

1

2

3

4

1

2

3

4

4,80

8X 0,46

[0.018]

4,80

8X 0,46

[0.018]

2,54 TYP.

[0.100]

[0.189]

2,54 TYP.

[0.100]

[0.189]

6,77

[0.266]

6,77

[0.266]

13,75

[0.541]

SMT RR: Dual radial barbed ports, same side

SMT DR: Dual radial barbed ports, opposite sides

15,8

10,0

[0.39]

6,16

[0.242]

[0.62]

4,0

[0.16]

10,0

[0.39]

6,16

[0.242]

8

7

6

5

2X 2,93

[0.115]

2X 1,93 DIA.

[0.076]

8

7

6

5

13,35

[0.525]

PORT 1

PORT 2

6,99

[0.275]

13,4

[0.53]

PORT 1

PORT 2

2X 1,93 DIA.

[0.076]

6,99

[0.275]

4,6

[0.18]

PORT 2

PORT 1

1

2

3

4

4,80

8X 0,46

[0.018]

1

2

3

4

2,54 TYP.

[0.100]

[0.189]

4,80

8X 0,46

[0.018]

2,54 TYP.

[0.100]

[0.189]

6,77

[0.266]

6,77

[0.266]

3,78

[0.149]

3,78

[0.149]

10

www.honeywell.com/sensing

Figure 8. SIP Package Dimensional Drawings (For reference only: mm [in])

SIP NN: No ports

SIP AA: Dual axial barbed ports, opposite sides

10,0

22,06

4,87

[0.192]

[0.39]

[0.869]

10,0

[0.39]

PORT 1

PORT 2

10,0

[0.39]

PORT 2

PORT 1

2X 4.93 DIA.

[0.194]

15,2

[0.60]

15,2

[0.60]

1

2

3

4

1

2

3

4

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

0,25

[0.010]

4X 0,51

[0.020]

2,54 TYP.

[0.100]

SIP AN: Single axial barbed port

SIP LN: Single barbless port

13,75

10,0

13,75

[0.541]

[0.39]

10,0

[0.39]

10,0

[0.39]

PORT 1

PORT 2

PORT 1

4.93 DIA.

[0.194]

2,47 DIA.

[0.097]

15,2

[0.60]

15,2

[0.60]

1

2

3

4

1

2

3

4

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

SIP FF: Fastener mount, dual axial barbed ports, opposite sides

29,48

[1.161]

27,20

[1.071]

23,12

[.910]

10,44

[0.411]

17,78

[0.700]

PORT 2

PORT 1

2X 3.94 DIA.

[0.155]

2X 4,78 DIA.

[0.188]

20,16

[0.794]

1

2

3

4

0,25

[0.010]

2,54 TYP.

[0.100]

4X ,51

[.020]

SIP FN: Fastener mount, single axial barbed port

29,48

[1.161]

16,38

[0.645]

23,12

[.910]

17,78

[0.700]

PORT 2

PORT 1

2X 3.94 DIA.

[0.155]

4.78 DIA.

[0.188]

20,16

[0.794]

1

2

3

4

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

Honeywell Sensing and Control

11

Figure 8. SIP Package Dimensional Drawings (continued)

SIP GN: Ribbed fastener mount, single axial barbed port

27,96

[1.101]

21,60

[0.850]

16,51

[0.650]

19,06

[0.750]

PORT 2

PORT 1

2X 3,94 DIA.

[0.155]

4.78 DIA.

[0.188]

10,63

[0.418]

1

2

3 4

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

SIP NB: Fastener mount, dual axial ports, same side

27,31

[1.075]

25,3

[0.996]

21,60

[0.850]

2X 4,80 DIA.

[0.189]

PORT 2

PORT 1

22,87

[0.900]

2X 3.50 DIA.

[0.138]

13

[0.52]

4

3

2

1

0,25

[0.010]

4X 0,51

[0.020]

2,54 TYP.

[0.100]

SIP RN: Single radial barbed port

10,0

[0.39]

5,80

[0.228]

PORT 1

10,0

[0.39]

PORT 2

1,92 DIA.

[0.076]

15,2

[0.60]

1

2

3

4

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

SIP RR: Dual radial barbed ports, same side

10,0

[0.39]

6,16

[0.243]

PORT 1

10,0

[0.39]

PORT 2

2X 1,92 DIA.

[0.076]

15,2

[0.60]

1

2

3

4

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

12

www.honeywell.com/sensing

Figure 8. SIP Package Dimensional Drawings (continued)

SIP DR: Dual radial barbed ports, opposite side

SIP HH: Fastener mount, dual radial barbed ports, same side

29,62

10,58

15,8

[1.166]

[0.416]

[0.62]

23,12

[0.910]

6,64

[0.261]

10,0

[0.39]

6,16

[0.243]

PORT 2

PORT 1

PORT 2

10,0

[0.39]

PORT 1

PORT 2

28,96

[1.140]

2X 4.93 DIA.

[0.194]

15,2

[0.60]

1

2

3

4

0,25

[0.010]

11,27

[0.444]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

1

2

3 4

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

SIP HN: Fastener mount, single radial barbed port

SIP MN: Manifold mount, outer diameter seal

23,12

[0.910]

5,36

[0.211]

7,97

PORT 2

PORT 1

[0.314]

4,78 DIA.

[0.188]

15,24 DIA.

[0.600]

PORT 1

28,96

[1.140]

PORT 2

12,5

[0.49]

2X 3,94 DIA.

[0.155]

11,27

[0.444]

1

2

3

4

0,25

[0.010]

1

2

3

4

4X 0,51

[0.020]

2,54 TYP.

[0.100]

0,25

[0.010]

2,54 TYP.

[0.100]

4X 0,51

[0.020]

SIP SN: Manifold mount, inner diameter seal

PORT 2

5,1

[0.20]

12,57

[0.495]

PORT 1

13,11

[0.516]

15,6

[0.61]

1

2

3

4

2,54 TYP.

[0.100]

4X 0,51

[0.020]

Honeywell Sensing and Control

13

WARNING

PERSONAL INJURY

MISUSE OF DOCUMENTATION

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.

The information presented in this product sheet is for

reference only. DO NOT USE this document as a

product installation guide.

Failure to comply with these instructions could result

in death or serious injury.

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. Honeywell s

standard product warranty applies unless agreed to otherwise

by Honeywell in writing; please refer to your order

acknowledgement 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 it 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.

SALES AND SERVICE

Honeywell serves its customers through a worldwide network

of sales offices, representatives and distributors. For

application assistance, current specifications, pricing or name

of the nearest Authorized Distributor, contact your local sales

office or:

E-mail: info.sc@honeywell.com

Internet: www.honeywell.com/sensing

Phone and Fax:

While we provide application assistance personally, through

our literature and the Honeywell web site, it is up to the

customer to determine the suitability of the product in the

application.

Asia Pacific

Europe

+65 6355-2828; +65 6445-3033 Fax

+44 (0) 1698 481481; +44 (0) 1698 481676 Fax

+1-305-805-8188; +1-305-883-8257 Fax

+1-800-537-6945; +1-815-235-6847

+1-815-235-6545 Fax

Latin America

USA/Canada

Specifications may change without notice. The information we

supply is believed to be accurate and reliable as of this

printing. However, we assume no responsibility for its use.

Sensing and Control

Honeywell

1985 Douglas Drive North

50066345 Rev. B EN

November 2011

Golden Valley, MN 55422

www.honeywell.com/sensing


型号：	SSCSSND025MG5A3
厂家：	Honeywell
描述：	Peizoresistive Sensor, Gage, 0Psi Min, 0.363Psi Max, 0.25%, 0.20-0.80V, Rectangular, Through Hole Mount, ROHS COMPLIANT, CERAMIC, SIP-4
文件：	总14页 (文件大小：1117K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SSCSSND025MG5A3 [HONEYWELL]

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