ADP42510 - Aromat Corporation

ULTRA SMALL

HIGHLY SEMICONDUCT OR

PRESSURE SENSOR

PS PRESSURE

SENSOR

PS (ADP4)

FEATURES

• Ultra-miniature size: much more

compact than the PF pressure sen-

sors offered in the past

• Base area:

7.2(W) x 7.2(D) mm

.283(W) x .283(D)

inch

• Only 60% in mounting

area and 91% in over-

all height of previous

models (PF)

• High-level precision and linearity

A high degree of precision and linear detector

response have been achieved by applying the

semiconductor strain gauge system. Highly

reproducible based on repeated pressure.

• Impressive line-up of models

• Taking their place alongside the standard

5kΩbridge resistance models are those

with a 3.3kΩresistance which is optimally

suited to 5V drive circuits.

• Economy model (no glass base) gives out-

standing value for consumer appliances

40 kPa (0.4 kgf/cm2) and 49 kPa (0.5

Example of pressure characteristics

(when the rated pressure is between 98.1 kPa

{1.0 kgf/cm2})

Drive current: 1.5 mA rated current; ambient temperature: 25°C 77°F

0 {0}

100

49 {0.5} 98.1 {1}

Output voltage, mV

Pressure (gauge pressure), (kPa {kgf/cm2})

TYPICAL APPLICATIONS

• Medical equipment: Electronic hemody-

namometer

• Home appliance: Vacuum cleaner

• Gas equipment: Microprocessor gas

meter, gas leakage detector

• Industrial equipment: Absorption

device, etc.

<Cross-section of Sensor Chip>

Silicon Piezo resistance

strain gauge

Anode

junction

Glass

base

Pressure

High reliability

die bonding

technology

Very strong,

heat resistant body

Highly reliable wire

bonding technology

Bridge resistance 5.0kΩ3.3kΩ

DIP terminal:

Direction opposite

the pressure inlet

direction

Terminal

Pressure

DIP terminal:

Pressure inlet

direction

DIP terminal:

Direction opposite

the pressure inlet

direction

DIP terminal:

Pressure inlet

direction

approx. 0.05kgf/cm2

approx. 0.15kgf/cm2

approx. 0.35kgf/cm2

approx. 0.5kgf/cm2

approx. 1.0kgf/cm2

approx. 2.0kgf/cm2

approx. 3.5kgf/cm2

approx. 5.0kgf/cm2

approx. 8.5kgf/cm2

approx. 10.0kgf/cm2

approx. 0.4kgf/cm2

approx. 0.5kgf/cm2

Standard

type

(With glass

base)

Economy type

(Without glass

base)

ADP41010

ADP41110

ADP41210

ADP41310

ADP41410

ADP41510

ADP41610

ADP41710

ADP41810

ADP41910

——

ADP41320

ADP42010

ADP42110

ADP42210

ADP42310

ADP42410

ADP42510

ADP42610

ADP42710

ADP42810

ADP42910

——

ADP42320

——

ADP41413

——

ADP41913

ADP41A23

——

ADP42413

——

ADP42913

ADP42A23

——

4.9kPa

14.7kPa

34.3kPa

49.0kPa

98.1kPa

196.1kPa

343.2kPa

490.3kPa

833.6kPa

980.7kPa

40.0kPa

49.0kPa

ADP4:

PS pressure sensor

Terminal profile and direction

1: DIP terminal: Direction opposite the

pressure inlet direction

2: DIP terminal: Pressure inlet direction

Rated pressure

0: 4.9 kPa {approx. 0.05 kgf/cm2}

1: 14.7 kPa {approx. 0.15 kgf/cm2}

2: 34.3 kPa {approx. 0.35 kgf/cm2}

3: 49.0 kPa {approx. 0.5 kgf/cm2}

4: 98.1 kPa {approx. 1.0 kgf/cm2}

5: 196.1 kPa {approx. 2.0 kgf/cm2}

6: 343.2 kPa {approx. 3.5 kgf/cm2}

7: 490.3 kPa {approx. 5.0 kgf/cm2}

8: 833.6 kPa {approx. 8.5 kgf/cm2}

9: 980.7 kPa {approx. 10.0 kgf/cm2}

A: 40.0 kPa {approx. 0.4 kgf/cm2}

Type

1 : Standard type

(With glass base)

2: Economy type

(Without glass

base)

ORDERING INFORMATION

Ex. ADP

Bridge resistance

0 : 5.0kΩ

3 : 3.3kΩ

Part No.

Ultra-small

miniature

7.2 .283

7.2

.283

8.6 .339

10.0

.394

Existing products

kgf/cm2) units are also available.

• Improved ease of DIP pin insertion

into printed circuit boards

The ends of the DIP pins are chamfered to

ensure easy insertion into printed circuit

PS PRESSURE SENSOR 2002.10.23 7:58 PM Page 23

PS (ADP4)

DATA

1. Characteristics data

1-<1> Output characteristics

ADP41913

Drive current: 1.0 mA; temperature: 30°C 86°F

1-<2> Offset voltage – temperature

characteristics

ADP41913

Drive current: 1.0 mA; rating ±3.5%FS

1-<3> Sensitivity – temperature

characteristics (%FS)

ADP41913

Drive current: 1.0 mA; rating ±2.5%FS

0980.7/2 {5}0 980.7 {10}

kpa {kgf/cm2}

Output voltage (mV)

Rated pressure

–2

–1

+86

+32 60

+140

Temperature (°C °F)

Offset voltage – temperature characteristics (%FS)

–2

–1

Sensitivity – temperature characteristics (%FS)

+86

+32 60

+140

Temperature (°C °F)

2. Pressure cycle range (0 to rated pressure)

Tested sample: ADP41913, temperature: 100°C 212°F, No. of cycle: 1×106

–3

–2

–1

5×1051×106

Pressure cycle (cycle)

Offset voltage range (%FS)

–3

–2

–1

5×1051×106

Output span voltage range (%FS)

Pressure cycle (cycle)

Even after testing for 1 million times, the vari-

ations in the offset voltage and output span

voltage are minimal.

2-<1> Offset voltage range 2-<2> Output span voltage range

SPECIFICATIONS

Gauge pressure

Standard type (With glass base) Economy type

(Without glass base)

Type of pressure

Type

Air (For other medium, please consult us.)

Pressure medium

4.9

Rated

pressure

0.05 14.7

0.15 34.3

0.35 49.0

0.5 98.1

1.0 196.1

2.0 343.2

3.5 490.3

5.0 833.6

8.5 98.1

1.0 980.7

10.0

1.5 times

the rated pressure

1.5 times the

rated pressure

980.7

10.0 40.0

0.4 Twice

the rated pressure

49.0

0.5

Unit: kPa

Unit: kgf/cm2 (approx.)

Twice the rated pressure

Twice the

rated pressure

Max. applied pressure

–20 to 100°C –4 to 212°F (no freezing or condensation)

Ambient temperature

–40 to 120°C –40 to 248°F (no freezing or condensation)

Storage temperature

0 to 50°C 32 to 122°F0 to 60°C

32 to 140°F5 to 45°C

41 to 113°F

0 to 50°C

32 to 122°F

–20 to +70°C

–4 to +158°F–40 to +120°C

–40 to +248°F

–5 to +50°C

+23 to +122°F–20 to +100°C

–4 to +212°F

Temperature compensation range

1.5 mA DC 1.0 mA DC 1.5 mA DC

Drive current (constant current)

100±40 mV 65±25 mV

43.5±22.5 mV

85±45 mV40±20 mV

Output span voltage

±20 mV ±15 mV ±25 mV

Offset voltage

5000±1000 Ω3300±700 Ω

3300±600 Ω5000±1000 Ω

Bridge resistance

±0.7%FS

±0.6%FS

±15%FS

±10%FS

±5.0%FS ±3.5%FS

±2.5%FS

±10%FS

±1.3%FS

±8%FS

±2.5%FS

±0.5%FS

±0.4%FS ±0.3%FS ±1.0%FS

±0.2%FS ±1.0%FS

±0.5%FS ±0.6%FS ±0.3%FS

±0.4%FS ±0.7%FS

Linearity

Pressure hysteresis

Offset voltage-temperature

characteristics (0 to 50°C 32 to 122°F)

Sensitivity-temperature

characteristics (0 to 50°C 32 to 122°F)

Notes) 1. Unless otherwise specified, measurements were taken with a drive current of ±0.01 mA and humidity ranging from 25% to 85%.

2. Please consult us if a pressure medium other than air is to be used.

3. This is the regulation which applies within the compensation temperature range.

4. Please consult us if the intended use involves a negative pressure.

PS PRESSURE SENSOR 2002.10.23 7:58 PM Page 24

PS (ADP4)

DIMENSIONS

1. Terminal direction: Direction opposite the pressure inlet

derection ADP41mmm

2. Terminal direction: Pressure inlet direction ADP42mmm

General tolerance: ±0.3 ±.012 mm inch

3. Terminal connection diagram

+Input −Input

−Output

+Output

R2R1

R4R3

Terminal No. Name

1Power supply (+)

2Output (+)

3Power supply (−)

4Power supply (−)

5Output (−)

6No connection

Note: Leave terminal 6 unconnected.

Tolerance: ±0.1 .004

Tested item Tested condition Result

Environmental

characteristics

Endurance

characteristics

Storage at high

temperature Left in a 120°C 248°F constant temperature bath

1,000 hrs. Passed

Temperature:

Time:

High temperature/high

humidity operation 40°C 104°F, 90% RH

106, rated voltage applied Passed

Temperature/humidity:

Operation times:

Dropping resistance 75 cm 29.528 inch

2 times Passed

Dropping height:

Times:

Terminal strength 9.8 N {1 kgf}, 10 sec.

4.9 N {0.5 kgf}, left and right 90° 1 time Passed

Pulling strength:

Bending strength:

Mechanical

characteristics

Vibration resistance

1.5 mm .059 inch

10 to 55 Hz

X, Y, Z 3 directions

2 hrs each Passed

Double amplitude:

Vibration:

Applied vibration direction:

Times:

Storage at low

temperature Left in a –40°C –40°F constant temperature bath

1,000 hrs. Passed

Temperature:

Time:

Humidity Left at 40°C 104°F, 90% RH

1,000 hrs. Passed

Temperature/humidity:

Time:

Temperature cycle –40°C to 120°C –40°F to 248°F

30 min.

100 Passed

Temperature:

1 cycle:

Times of cycle:

Soldering

Resistance

Soldered in

DIP soldering bath 230°C 446°F

5 sec. Passed

Temperature:

Time:

Temperature 260°C 500°F

10 sec. Passed

Temperature:

Time:

3. Evaluation test

Note: For details other than listed above, please consult us.

JAPAN

654

R0.2

R.008

7.2

.283

7.2

.283

.157 5

.197

3.5

.138

4.6

.181

Pressure

inlet hole

1.1 dia.

.043 dia.

2.5 dia.

–0.1

.098 dia.

–.004

4 dia.

.157 dia.

±0.1

0.5 ±.004

.020

±0.25

2.5 ±.010

.098

±.010

.098

±0.25

2.5

Atmospheric

Pressure

inlet hole

8.2Max

.323Max

±0.1

0.25

±.004

.010

9.5±1.5

.374±.059

Tolerance: ±0.1 .004

456

JAPAN

R0.2

R.008

8.2Max

.323Max

4 dia.

.157 dia.

±.059

.374±1.5

9.5

Pressure

inlet hole

1.1 dia.

.043 dia.

Atmospheric

Pressure

inlet hole

7.2

.283

3.7

.164

7.2

.283

±.010

.098

±0.25

2.5 ±.010

.098

±0.25

2.5

±0.1

0.5 ±.004

.020

.157 5

.197

3.5

.138

2.5 dia.

–0.1

.098 dia.

–.004

±0.1

0.25±.004

.010

Recommended PC board pattern

(BOTTOM VIEW)

7.5

.295

6-0.9 dia.

6-.035 dia.

2.52.5 .098.098

Recommended PC board pattern

(BOTTOM VIEW)

5 dia.

.197 dia.

6-0.9 dia.

6-.035 dia.

7.5

.295

2.52.5 .098.098

PS PRESSURE SENSOR 2002.10.23 7:58 PM Page 25

PS (ADP4)

NOTES

1. Mounting

Use lands on the printed-circuit boards to

which the sensor can be securely fixed.

2. Soldering

1) Due to its small size, the thermal

capacity of the pressure sensor DIP type

is low. Therefore, take steps to minimize

the effects of external heat.

Dip soldering bath: Max. 260°C 500°F, 5

sec.

Soldering iron: 260 to 300°C 500 to

572°F (30W) within 5 sec.

2) Use a non-corrosive resin type of flux.

Since the pressure sensor DIP type is

exposed to the atmosphere, do not allow

flux to enter inside.

3. Cleaning

1) Since the pressure sensor chip is

exposed to the atmosphere, do not allow

cleaning fluid to enter inside.

2) Avoid ultrasonic cleaning since this

may cause breaks or disconnections in

the wiring.

4. Environment

Consult with us before using or storing

the pressure sensor chip in a place

exposed to corrosive gases (such as the

gases given off by organic solvents, sul-

fites, hydrogen sulfides, etc.) which will

adversely affect the performance of the

pressure sensor chip.

5. Quality check under actual loading

conditions

1) To assure reliability, check the sensor

under actual loading conditions. Avoid

any situation that may adversely affect

its performance.

2) As for test data, please contact us.

6. Other handling precautions

1) That using the wrong pressure range

or mounting method may result in acci-

dents.

2) Air can be used directly as a pressure

medium. Consult with us before using a

corrosive gas (such as a gas given off by

an organic solvent, sulfite or hydrogen

sulfide) as the pressure medium.

3) The pressure sensor chip is posi-

tioned inside the pressure inlet. Never

poke wires or other foreign matter

through the pressure inlet since they

may damage the chip or block the inlet.

Avoid use when the atmospheric pres-

sure inlet is blocked.

4) Leave pin No. 6 unconnected since

the pressure sensor chip may be dam-

aged if a voltage is applied to this pin.

5) Use an operating pressure which is

within the rated pressure range. Using a

pressure beyond this range may cause

damage.

6) Since this pressure sensor chip does

not have a water-proof construction, con-

sult with us if it is to be used in a location

where it may be sprayed with water, etc.

7) Avoid using the pressure sensor chip

in an environment where condensation

may form. Furthermore, its output may

fluctuate if any moisture adhering to it

freezes.

8) The pressure sensor chip is construct-

ed in such a way that its output will fluc-

tuate when it is exposed to light.

Especially when pressure is to be

applied by means of a transparent tube,

take steps to prevent the pressure sen-

sor chip from being exposed to light.

9) Avoid using the pressure sensor chip

where it will be susceptible to ultrasonic

or other high-frequency vibration.

10) Since static charge can damage the

pressure sensor chip, bear in mind the

following handling precautions.

•When storing the pressure sensor

chips, use a conductive material to

short the pins or wrap the entire chip in

aluminum foil. Plastic containers

should not be used to store or transport

the chips since they readily become

charged.

•When using the pressure sensor chips,

all the charged articles on the bench

surface and the work personnel should

be grounded so that any ambient static

will be safely discharged.

11) Due to the pressures involved, give

due consideration to the securing of the

pressure sensor DIP type and to the

securing and selection of the inlet tube.

Consult us if you have any queries.

APPLICATION CIRCUIT

DIAGRAM (EXAMPLE)

The pressure sensor is designed to con-

vert a voltage by means of constant cur-

rent drive and then, if necessary, it

amplifies the voltage for use. The circuit

shown below is a typical example of a

circuit in which the pressure sensor is

used.

AMP

Constant current

circuit unit Pressure

sensor

Amplifier circuit unit

MOUNTING METHOD

The general method for transmitting air

pressures differs depending on whether

the pressure is low or high.

• Checkpoints for use

<1> Select a pressure inlet pipe which is

sturdy enough to prevent pressure

leaks.

<2> Fix the pressure inlet pipe securely

so as to prevent pressure leaks.

<3> Do not block the pressure inlet pipe.

Methods of transmitting air pressures

When the pressure

is low When the pressure

is high

(4.9 to 98.1 kPa) (196.1 to 980.7 kPa)

If a tube is used as the pressure inlet pipe,

it may become disengaged. Therefore, use

a sturdy tube and secure it using O-rings.

Tube

Printed-

circuit

board

Printed-

circuit

board

O-ring

Pressure

inlet pipe

PS PRESSURE SENSOR 2002.10.23 7:58 PM Page 26