CN-F15-C1 - PANASONIC - Datasheet.Live

769

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FM-200

With analog

output

Integrated Display Type Digital Flow Sensor For Gas

FM-200 SERIES

Dual color with sub display at a glance

Easy-to-see dual color with sub display!

The setting conditions are displayed on the sub display, making it much easier to keep track of operations.

In addition, the digital display which switches between 2 colors lets you check the status of sensor operation at a

glance.

Digital

■General terms and conditions ............. F-3 ■Selection guide ............................. P.699~

■Glossary of terms........................ P.1569~ ■General precautions ................... P.1571~

Sub display

Main display

Setting value

Linked to output 1 Linked to output 2

Setting item

Main display

Sub display

Main display

Sub display

Setting values and setting items can be checked at the same time.

Easy to see with the sub display!

The display color changes in accordance

with output ON/OFF operations.

Dual color display at a glance

panasonic.net/id/pidsx/global

Integrated Display Type Digital Flow Sensor FM-200 SERIES

770

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FM-200

High precision of ±3 % F.S. One sensor for both intake and exhaust

A new rectication mechanism and Micro Electro

Mechanical System (MEMS) technology allow the sensor to

be mounted on a Si sensor chip (3 × 3.5 mm 0.118 × 0.138

in). This provides an extremely small heat capacity, high

precision of ±3 % F.S. and high-speed response. The two

temperature sensors on each side of the heater detect the

heat distribution to make bidirectional detection possible.

Equipped with a wide variety of functions for greater ease of use

• Integrated value reset function

During integrated mode, external input allows reset of

the integrated value.

• Analog voltage output

1 to 5 V analog voltage output is incorporated.

• Key lock function

Key operation can be disabled to prevent mis-

operation.

• Rattle prevention function (Response time setting)

The response time can be set to one of seven steps

from 50 ms to approximately 1,500 ms. This prevents

rattling from rapid changes in ow or from noise.

• Display rate setting

The display update period for the digital display can

be changed to 250 ms, 500 ms or 1,000 ms in order to

eliminate display ickering.

• ECO mode

After approx. one minute of no operation, sensor will

be switched to ECO mode.

Backlight will be turned off to reduce power

consumption.

A single sensor can detect ows bidirectionally. In

addition, it can be set to detect ows in either the

forward or reverse direction only, making it suitable for a

variety of applications.

APPLICATIONS

Controlling purge gas and air blowing

By controlling purge gas and air blowing,

performance and quality of the products

can be maintained, while contributing to

cost reduction.

Lead frame

Flexible printed circuit board

Collet

No straight pipes needed

The rectication method

used by the new

mechanism makes straight

pipes unnecessary at both

the intake and exhaust

sides.

Connection

Quick connection is

possible with a cover-

attached connector.

Flexible installation direction

Other than the ability to carry out bidirectional detection,

there are no limitations on the installation direction,

making the installation very exible.

Si substrate

New rectification mechanism

Si sensor chip

Temperature sensor 1

Heater

Temperature sensor 2Temperature sensor 1

Temperature distribution

Heater

Temperature sensor 2

Flow

When there is no flow When there is flow

Low High

Principle of Si sensor chip

Suction nozzle

Suction

For example, using a single sensor to check chip suction

Vacuum breakdown

ChipChip

Forward direction Reverse direction

One sensor detects both directions

Checking seating

Flow sensors can be used for stable detection of

transparent objects which were difcult to detect

using photoelectric sensors. The nozzle can be

extended for detection even in places where oil

spatter occurs.

Checking suction

Detection of objects is possible even on

conveyors with low suction pressures

where air is owing constantly (such as

collet conveyors and network conveyors).

771

Integrated Display Type Digital Flow Sensor FM-200 SERIES

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Flow

FM-200

Suitable for cost and quality control! Integrated output mode incorporated

The FM-200 series can control and manage ows in a wide variety of output modes such as integrated output mode,

depending on the required application.

INTEGRATED FLOW RATE DISPLAY

Integrated ow rate can be

displayed with 7 digits

• Integrated output mode

Quality control

When the volume of ow of the gas being measured reaches the set integrated value,

output switches to ON or OFF.

• Controls N2 charging volumes for electronic components

• Controls air blowing volumes, etc.

Integrated

flow value

Time

Comparative output

OFF

Comparative output

OFF

Integrated flow rate

• Integrated pulse output mode

Cost management

The pulse output is generated once at every specied integrated value*.

This lets you know the amount of air consumed per unit of time easily.

• Controls N2 purge volumes in reow furnaces

• Controls overall volumes of air consumed by equipment, etc.

ℓ: Specified integrated

value*

40 ms approx.

(Fixed value)

ℓ

2 ℓ

3 ℓ

Comparative output

OFF

Time

Integrated flow rate

* Integrated values are specied by range and can vary.

For details, refer to “SPECIFICATIONS” (p.773).

Energy-saving and environmental-friendly

The pulse output from the ow sensor can be inputted to the pulse counter of an Eco-Power Meter so that air

consumption and power consumption can both be measured simultaneously.

Integrated pulse output

(The pulse output is generated

according to the volume of gas flow.)

(Note 1)

FM-200 series

Equipment or facility

Dedicated current sensor

Eco-Power Meter

KW2G

(Note 2)

Air consumption

Power consumption

Air consumption measurement

Power consumption measurement

RS-485 communication

To upper-level

communication

Convert the data

according to the

measurement range

with a data logger, etc.

Notes: 1) Displayed value data is not outputted.

2) Refer to p.1372 for the Eco-Power Meter KW2G (AKW2010GB).

INSTANT FLOW RATE DISPLAY (FACTORY SETTING)

• Window comparator mode

This mode is used for setting

comparative output to ON or

OFF at ow rates within the

setting range.

• Hysteresis mode

This mode is used for setting

comparative output hysteresis to

the desired level and for carrying

out ON/OFF control.

• Output OFF mode

Comparative output is forcibly

maintained at OFF regardless of

the setting value.

H: 1 % F.S.(Factory setting)

Comparative

output

OFF

Comparative

output

OFF

H (Hysteresis)

Flow rate

H: 1 digit or more

Comparative

output

OFF

Comparative

output

OFF

H (Hysteresis)

Flow rate

Comparative

output

OFF

Output is turned off regardless

of whether the setting value is ON or OFF.

Flow rate

Integrated Display Type Digital Flow Sensor FM-200 SERIES

772

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FM-200

ORDER GUIDE

Type Appearance Applicable

uid

Flow rate

range Model No. Port size Comparative output

Resin body

Clean air (Note)

Compressed air

(Note)

Nitrogen gas

500 mℓ/min. FM-252-4

ø4 ø0.157 push-in

NPN Open-collector transistor

FM-252-4-P PNP Open-collector transistor

1,000 mℓ/min.

FM-213-4 NPN Open-collector transistor

FM-213-4-P PNP Open-collector transistor

5 ℓ/min. FM-253-4 NPN Open-collector transistor

FM-253-4-P PNP Open-collector transistor

10 ℓ/min. FM-214-4 NPN Open-collector transistor

FM-214-4-P PNP Open-collector transistor

50 ℓ/min. FM-254-8

ø8 ø0.315 push-in

NPN Open-collector transistor

FM-254-8-P PNP Open-collector transistor

100 ℓ/min. FM-215-8 NPN Open-collector transistor

FM-215-8-P PNP Open-collector transistor

Aluminum body

500 ℓ/min.

FM-255-AR2 Rc1/2 female thread

NPN Open-collector transistor

FM-255-AR2-P PNP Open-collector transistor

FM-255-AG2-P G1/2 female thread PNP Open-collector transistor

1,000 ℓ/min.

FM-216-AR2 Rc1/2 female thread

NPN Open-collector transistor

FM-216-AR2-P PNP Open-collector transistor

FM-216-AG2-P G1/2 female thread PNP Open-collector transistor

Note: The clean air complies with JIS B 8392-1.1.1 to 5.6.2, and the compressed air complies with JIS B 8392-1.1.1 to 1.6.2.

Accessory

• CN-F15-C1 (Connector attached cable 1 m 3.281 ft)

Designation Model No. Description

Sensor

mounting

bracket

MS-FM2-1 Allows resin body type sensor to be installed on the ooring.

MS-FM2-2 Allows aluminum body type sensor to be installed on the

ooring.

OPTIONS

Sensor mounting bracket

• MS-FM2-1 • MS-FM2-2

Recommended vacuum lter

Manufactured by Nihon Pisco Co., Ltd.

VFU1-44-15P (Element length 15 mm 0.591 in)

VFU1-44-25P (Element length 25 mm 0.984 in)

VFE015B01 Filter element for rell,

length 15 mm 0.591 in

VFE025B01 Filter element for rell,

length 25 mm 0.984 in

M3 screw

(Purchase separately.)

M3 (length 6 mm 0.236 in

) screw with washers

(Attached to MS-FM2-1)

M3 screw

(Purchase separately.)

M3 (length 6 mm 0.236 in

) screw with washers

(Attached to MS-FM2-2)

Note: Contact the manufacturer for details of the

recommended products.

( )

773

Integrated Display Type Digital Flow Sensor FM-200 SERIES

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FM-200

SPECIFICATIONS

Individual specications

Common specications

Type NPN output type

PNP output type

Item Model No. FM-2□FM-2□-P

CE marking directive compliance

EMC Directive, RoHS Directive

Rated pressure range −0.09 to +0.7 MPa

Pressure withstandability 1 MPa

Applicable uid Clean air (Note 3), compressed air (Note 3), nitrogen gas

Supply voltage 12 to 24 V DC ±10 % Ripple P-P10 % or less

Current consumption Normal mode: 60 mA or less, ECO mode: 40 mA or less

Comparative outputs

NPN open-collector transistor

• Maximum sink current: 50 mA or less

• Applied voltage: 26.4 V DC or less

(between comparative output and 0 V)

• Residual voltage: 2.4 V or less (at 50 mA sink current)

PNP open-collector transistor

• Maximum source current: 50 mA or less

• Applied voltage: 26.4 V DC or less

(between comparative output and +V)

• Residual voltage: 2.4 V or less (at 50 mA source current)

Output modes Output OFF mode, window comparator mode, hysteresis mode, integrated output mode, integrated pulse output mode

Short-circuit protection Incorporated

Hysteresis

Window comparator mode: 1 to 8 % F.S. approx. (variable) (Factory settings: approx. 1 % F.S.), Hysteresis mode: Variable (minimum 1 digit)

Response time 50 ms, 80 ms, 120 ms, 200 ms, 400 ms, 800 ms, 1,500 ms, selectable by key operation

Analog voltage output Output voltage: 1 to 5 V, Output impedance: 1 kΩ approx. [For details, refer to “Analog voltage output” (p.774)]

Repeatability Within ±1 % F.S.

Accuracy assurance range (Note 4)

Bi-direction : -100 to -3 % F.S., +3 to +100 % F.S., One-side direction : +3 to +100 % F.S.

External input ON voltage: 0 to +0.4 V, OFF voltage: +5 V to +V, or open

Input time: 80 ms or more

ON voltage: +5 V to +V, OFF voltage: 0 to +0.6 V, or open

Input time: 80 ms or more

Linearity Within ±3 % F.S. (Ambient temperature +25 °C +77 °F, ow rate range 3 to 100 % F.S., atmospheric criteria on secondary side)

Display 4 digits + 4 digits 2-color LCD display (Display refresh rate: 250 ms, 500 ms, 1,000 ms, selectable by key operation)

Environmental resistance

Protection IP40 (IEC)

Ambient temperature 0 to +50 °C +32 to +122 °F (No dew condensation allowed), Storage: -10 to +60 °C +14 to +140 °F

Ambient humidity 35 to 90 % RH, Storage: 35 to 90 % RH

Voltage withstandability 1,000 V AC for one min. between all supply terminals connected together and enclosure (Excluding the aluminum body type)

Insulation resistance

10 MΩ, or more, with 500 V DC megger between all supply terminals connected together and enclosure (Excluding the aluminum body type)

Vibration resistance

10 to 150 Hz frequency, 0.75 mm 0.030 in double amplitude or 49 m/s

max. acceleration, in X, Y and Z directions for two hours each

Shock resistance 100 m/s2 acceleration (10 G approx.) in X, Y and Z directions three times each

Temperature characteristics Within ±0.2 % F.S./°C (+25 °C +77 °F criteria, +15 to +35 °C +59 to +95 °F ambient temperature range)

Pressure characteristics Within ±5 % F.S. (-0.09 to +0.7 MPa, +25 °C +77 °F, atmospheric criteria on secondary side)

Enclosure earthing Floating (Note 5)

Material

Enclosure: ABS, Body: Polyamide (Aluminum body type: Aluminum), Switch: EPDM, Display: Acrylic, Mounting screw part (Resin body type): Brass

Current plate / Port lter: Stainless steel (used for the gas contact area),

Sensor chip: Silicon, Gasket: Fluorine rubber

Connecting method Connector

Cable length Total length up to 10 m 32.808 ft is possible with 0.3 mm2, or more, cable.

Accessory CN-F15-C1 (Connector attached cable 1 m 3.281 ft): 1 pc.

Comparative output 1 /

Comparative output 2

()

Notes: 1) Converted to volumetric ow at +20 °C +68 °F and 1 atmospheric pressure (101 kPa).

2) The display ow rate range is the case when setting to bi-direction at the ow direction setting. When the ow direction is set to one-side forward

direction or one-side reverse direction, the negative side of the display ow rate range shows 10 % of the full-scale (F.S.).

3) The clean air complies with JIS B 8392-1.1.1 to 5.6.2, and the compressed air complies with JIS B 8392-1.1.1 to 1.6.2.

4) Take care that if uid ows in the vicinity of zero-point which is out of the accuracy assurance range, the instant ow rate value may forcibly display “zero”,

or the integrated ow display value may not be counted up, or the integrated pulse output may not be outputted.

5) As a varistor (clamping voltage: approx. 40 V) is connected to the aluminum body type, do not apply voltage higher than the rated voltage of the sensor.

Type Aluminum body type

Item Model No. FM-255-AR2(-P)FM-255-AG2-P FM-216-AR2(-P)FM-216-AG2-P

Full scale ow rate (Note 1) 500 ℓ/min. 1,000 ℓ/min.

Instant

ow rate

Display range (Note 2) –550 to +550 ℓ/min. –1,100 to +1,100 ℓ/min.

Setting and display resolution

1 ℓ/min.

Integrated

ow rate

Display range (Note 2) ±9999999 ℓ

Setting and display resolution

1 ℓ

Specied integrated value 5 ℓ 10 ℓ

Port size Rc1/2 female thread G1/2 female thread Rc1/2 female thread G1/2 female thread

Weight Net weight: 155 g approx., Gross weight: 220 g approx.

Type Resin body type

Item Model No. FM-252-4(-P)FM-213-4(-P)FM-253-4(-P)FM-214-4(-P)FM-254-8(-P)FM-215-8(-P)

Full scale ow rate (Note 1) 500 mℓ/min. 1,000 mℓ/min. 5 ℓ/min. 10 ℓ/min. 50 ℓ/min. 100 ℓ/min.

Instant

ow rate

Display range (Note 2)

–550 to +550 mℓ/min.

–1,100 to +1,100 mℓ/min.

–5.5 to +5.5 ℓ/min.

–11 to +11 ℓ/min. –55 to +55 ℓ/min.

–110 to +110 ℓ/min.

Setting and display resolution

1 mℓ/min. 0.01 ℓ/min. 0.1 ℓ/min.

Integrated

ow rate

Display range (Note 2) ±9999999 mℓ ±99999.99 ℓ ±999999.9 ℓ

Setting and display resolution

1 mℓ 0.01 ℓ 0.1 ℓ

Specied integrated value 5 mℓ 10 mℓ 0.05 ℓ 0.1 ℓ 0.5 ℓ 1 ℓ

Port size ø4 ø0.157 push-in ø8 ø0.315 push-in

Weight Net weight: 50 g approx., Gross weight: 115 g approx.

Net weight: 70 g approx., Gross weight: 135 g approx.

Integrated Display Type Digital Flow Sensor FM-200 SERIES

774

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FM-200

I/O CIRCUIT AND WIRING DIAGRAMS

I/O circuit diagram Wiring diagram

Non-voltage contact or NPN open-collector transistor

High (+5 V to +V, or Open): Invalid

Low (0 to +0.4 V): Valid

Non-voltage contact or PNP open-collector transistor

High (+5 V to +V): Valid

Low (0 to +0.6 V, or Open): Invalid

Notes: 1) As for the aluminum body type, varistor (clamping voltage approx.

40 V) is connected between the internal power circuit and the

metal body to prevent breakdown of the sensor. Connect the metal

body to +V of power supply or to frame ground (F.G.) of a device

that is connected to 0 V. High potential and insulation resistance

tests between the internal power circuit and the metal body must

not be done.

2) Short-circuit protection is not incorporated into the analog voltage

output. Do not connect the power supply or capacitive load directly

to the analog voltage output.

* 1: When using CH2 as a comparative output 2

* 2: When using CH2 as an external input

* 1: When using CH2 as a comparative output 2

* 2: When using CH2 as an external input

Tr1

Tr3

Tr2

Internal circuit Users’ circuit

(Brown) +V

Load

(White) CH2 (Comparative output 2 / External input)

(Blue) 0 V

(Note 2)

1 kΩ approx.

* 1

* 2

(Black) CH1

(Comparative output 1)

50 mA max.

(Gray) Analog voltage output

12 to 24 V DC

±10 %

Terminal No. Color code of connector attached cable

Main circuit

Varistor (Note 1)

Load

* 1

* 2

12 to 24 V DC

±10 %

Brown

Black

White

Blue

Gray (Note 2)

Load

* 1

* 2

12 to 24 V DC

±10 %

Brown

Black

White

Blue

Gray (Note 2)

Tr1

Tr2

Tr3

Internal circuit Users’ circuit

(Brown) +V

Load

(Blue) 0 V

Approx. 1 kΩ

* 1

* 2

(Black) CH1 (Comparative output 1)

50 mA max. +

12 to 24 V DC

±10 %

Terminal No. Color code of connector attached cable

Main circuit

Varistor (Note 1)

(Gray) Analog

voltage output (Note 2)

(White) CH2 (Comparative output 2 /

External input)

Symbols… D1 to D4 : Reverse supply polarity protection diode

Tr1,Tr2 : NPN output transistor

Tr3 : PNP input transistor

FM-2□NPN output type

FM-2□-P PNP output type

Flow rate

(ℓ/min.)

Flow rate

(ℓ/min.)

F.S.

F.S.–F.S.

<One-side detection><Bi-direction detection>

Output

voltage (V)

Output

voltage (V)

Analog voltage output

Flow rate

(ℓ/min.)

Flow rate

(ℓ/min.)

F.S.

F.S.–F.S.

<One-side detection><Bi-direction detection>

Output

voltage (V)

Output

voltage (V)

Analog voltage output

Notes: 1) As for the aluminum body type, varistor (clamping voltage approx.

40 V) is connected between the internal power circuit and the

metal body to prevent breakdown of the sensor. Connect the metal

body to +V of power supply or to frame ground (F.G.) of a device

that is connected to 0 V. High potential and insulation resistance

tests between the internal power circuit and the metal body must

not be done.

2) Short-circuit protection is not incorporated into the analog voltage

output. Do not connect the power supply or capacitive load directly

to the analog voltage output.

Symbols… D1 to D4 : Reverse supply polarity protection diode

Tr1,Tr2 : PNP output transistor

Tr3 : NPN input transistor

775

Integrated Display Type Digital Flow Sensor FM-200 SERIES

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FM-200

Terminal arrangement diagram

PRESSURE LOSS CHARACTERISTICS (TYPICAL)

PRECAUTIONS FOR PROPER USE

• Never use this product as a sensing device

for personnel protection.

• In case of using sensing devices for

personnel protection, use products which

meet laws and standards, such as OSHA,

ANSI or IEC etc., for personnel protection

applicable in each region or country.

• This product is for use in air and nitrogen

only. Do not use the product for other uids

since the sensing accuracy cannot be

guaranteed.

• Take care that if foreign materials are mixed

in the sensing part, the product may break.

Part description

FM-252-4(-P)FM-213-4(-P)FM-253-4(-P)FM-214-4(-P)

FM-254-8(-P)FM-215-8(-P)FM-255-A□2(-P)FM-216-A□2(-P)

0.1 MPa

0.3 MPa

0.5 MPa

0.1 0.2 0.3 0.40

0.10

0.09

0.08

0.07

0.06

0.05

0.04

0.03

0.02

0.01

0.5

Pressure loss (kPa)

Flow rate (ℓ/min.)

0.1 MPa

0.3 MPa

0.5 MPa

0.2 0.4 0.6 0.80

0.20

0.18

0.16

0.14

0.12

0.10

0.08

0.06

0.04

0.02

1.0

Pressure loss (kPa)

Flow rate (ℓ/min.)

0.1 MPa

0.3 MPa

0.5 MPa

12340

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

Pressure loss (kPa)

Flow rate (ℓ/min.)

0.1 MPa

0.3 MPa

0.5 MPa

24680

4.5

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

Pressure loss (kPa)

Flow rate (ℓ/min.)

Pressure loss (kPa)

Flow rate (ℓ/min.)

0.1 MPa

0.3 MPa

0.5 MPa

10 20 30 400

0.1 MPa

0.3 MPa

0.5 MPa

20 40 60 800

100

Pressure loss (kPa)

Flow rate (ℓ/min.)

0.3 MPa

0.5 MPa

0.7 MPa

100 200 300 4000

500

Pressure loss (kPa)

Flow rate (ℓ/min.)

200 400 600 8000

1,000

0.3 MPa

0.5 MPa

0.7 MPa

Pressure loss (kPa)

Flow rate (ℓ/min.)

Notes: 1) Direction of the arrow indicates the forward direction of ow rate

when setting the ow direction to bi-direction or one-side forward

direction. When setting the flow direction to one-side reverse

direction, a direction opposite to the forward direction display will

be the forward direction of the ow rate.

2) ø4 mm ø0.157 in push-in joint / ø8 mm ø0.315 in push-in joint is

incorporated in FM-2□-4(-P) / FM-2□-8(-P), respectively.

The push-in joint is not incorporated in the aluminum body type.

MODE key

Forward direction display

(Note 1)

UP key

DOWN key

Connector area

for piping

(Note 2)

Connector area

for piping

(Note 2)

Comparative output 2 indicator (Green)

Comparative output 1 indicator (Green)

Main display

(Green / Red)

Sub display (Green / Red)

Connector area for

connector attached cable

12345

Connector

pin No.

Color code of the

connector attached

cable

Terminal

1 Brown +V

2 Black CH1 (comparative output 1)

3 White

CH2 (comparative output 2 / external input)

4 Gray Analog voltage output

5Blue 0 V

Terminal arrangement of the connectors of this product

(sensor body)

Refer to p.1571~ for general precautions.

Integrated Display Type Digital Flow Sensor FM-200 SERIES

776

FIBER

SENSORS

LASER

SENSORS

PHOTO-

ELECTRIC

SENSORS

MICRO

PHOTO-

ELECTRIC

SENSORS

AREA

SENSORS

SAFETY LIGHT

CURTAINS /

SAFETY

COMPONENTS

PRESSURE /

FLOW

SENSORS

INDUCTIVE

PROXIMITY

SENSORS

PARTICULAR

USE

SENSORS

SENSOR

OPTIONS

SIMPLE

WIRE-SAVING

UNITS

WIRE-SAVING

SYSTEMS

MEASURE-

MENT

SENSORS

STATIC

CONTROL

DEVICES

LASER

MARKERS

PLC

HUMAN

MACHINE

INTERFACES

ENERGY

MANAGEMENT

SOLUTIONS

COMPONENTS

MACHINE

VISION

SYSTEMS

CURING

SYSTEMS

Selection

Guide

Pressure/

Digital Display

Pressure/

Head-separated

Flow

FM-200

PRECAUTIONS FOR PROPER USE

Mounting

• This product can be installed facing up or down or to the

left or right.

• Install a filter, an air dryer and an oil mist filter (micro-

alescer) onto the primary side (upstream) of this product

since the compressed air from the compressor contains

drain (water, oil oxide and foreign materials, etc.). Mesh

(wire net) in this product is used to rectify the ow rate in

the pipe. Always install a lter to the primary side of this

product since this mesh is not a lter to remove foreign

materials.

Pneumatics

pressure

source

Filter Regulator Flow sensor

FM-200

Air dryer Oil mist filter

(Micro-alescer)

• When using a valve on the primary side of the product,

only use an oil-prohibit specication valve. This product

may malfunction or break if subject to splattering grease

or oil, etc.

• When using this product for suction verification, etc.,

always install an air filter whose filtration property is

10 µm 0.394 mil or less onto the suction side to prevent

suction of foreign materials and water. Furthermore,

consider atmospheric dew point and ambient temperature

of the product, use the product under the conditions that

dew condensations will not be formed in the inside of

pipe.

• In case of mounting commercial joint to the aluminum

body type, apply a spanner on the metal part of this

product and tighten by the tightening torque of 16 to

18 N·m. If excessive torque is applied, the commercial

joint or the main body may break.

• When piping, take care that foreign materials such as

sealing tape and adhesive must not enter into the inside

of the pipe. If foreign materials are entered, the product

may malfunction or break.

• Make sure to mount the joint when using the product with

its secondary side (downstream) open to the air. If the

joint is not mounted, the port lter of the product may fall

off.

Horizontal mounting

• The following specied tube should be used to insert to

the push-in joint type product.

Material of tube Tube diameter

(mm in)

Allowable diameter

Polyamide

ø4 ø0.157, ø8 ø0.315

Within ±0.1 mm ±0.004 in

Polyurethane

ø4 ø0.157 Within ±0.1 mm ±0.004 in

ø8 ø0.315

Within +0.1 / -0.15 mm ±0.004 in / -0.006 in

• Before using this product, make sure to check that the

tube is rmly inserted.

Piping

Vertical mounting

When using sensor mounting bracket

17 mm

0.669 in

M3 screw

(Purchase separately.)

M3 screw

(Purchase separately.)

M3 screw

(Purchase separately.)

M3 screw

(Purchase separately.)

M3 (length 6 mm 0.236 in

)

screw with washers

(Attached to MS-FM2-1)

M3 screw

(Purchase separately

M3 (length 6 mm 0.236 in)

screw with washers

(Attached to MS-FM2-2)

• Use M3 screws, and the tightening torque should be 0.5

N·m.

• Use M3 screws, and the tightening torque should be 0.5

N·m.

• When mounting the product on the sensor mounting

bracket MS-FM2-1 (optional) or MS-FM2-2 (optional), use

the M3 screws (length 6 mm 0.236 in) attached to the

sensor mounting bracket. The tightening torque should be

0.5 N·m. Use M3 screws to mount the sensor mounting

bracket on a sensing surface.

Use MS-FM2-1 Use MS-FM2-2 Wiring

• Make sure that the power supply is OFF during wiring.

• Take care that wrong wiring will damage this product.

• Take care if applying voltage exceeding the rated range,

or connecting to AC power supply, this product may break

or burn.

• If power is supplied from a commercial switching

regulator, ensure that the frame ground (F.G.) terminal of

the power supply is connected to an actual ground.

• In case noise generating equipment (switching regulator,

inverter motor, etc.) is used in the vicinity of this

sensor, connect the frame ground (F.G.) terminal of the

equipment to an actual ground.

• Do not run the wires together with high-voltage lines or

power lines or put them in the same raceway. This can

cause malfunction due to induction.

• Extension up to total 10 m 32.808 ft is possible with

0.3 mm2, or more, cable.

• Make sure that stress by forcible bend or pulling is not

applied directly to the sensor cable joint.

Refer to p.1571~ for general precautions.

777

Integrated Display Type Digital Flow Sensor FM-200 SERIES

FIBER

SENSORS

LASER

SENSORS

PHOTO-

ELECTRIC

SENSORS

MICRO

PHOTO-

ELECTRIC

SENSORS

AREA

SENSORS

SAFETY LIGHT

CURTAINS /

SAFETY

COMPONENTS

PRESSURE /

FLOW

SENSORS

INDUCTIVE

PROXIMITY

SENSORS

PARTICULAR

USE

SENSORS

SENSOR

OPTIONS

SIMPLE

WIRE-SAVING

UNITS

WIRE-SAVING

SYSTEMS

MEASURE-

MENT

SENSORS

STATIC

CONTROL

DEVICES

LASER

MARKERS

PLC

HUMAN

MACHINE

INTERFACES

ENERGY

MANAGEMENT

SOLUTIONS

COMPONENTS

MACHINE

VISION

SYSTEMS

CURING

SYSTEMS

Selection

Guide

Pressure/

Digital Display

Pressure/

Head-separated

Flow

FM-200

PRECAUTIONS FOR PROPER USE

• Do not use this product for commercial purposes since

the product does not comply with International System of

Units (SI).

• Do not apply pressure that exceed resistant-pressure.

• Do not use during the initial transient time (approx.

5 sec.) after the power supply is switched ON.

• The specifications may not be satisfied in a strong

magnetic eld.

• Accuracy of the display and the analog voltage output is

inuenced by self-heating by applying current other than

the temperature characteristics. Standby time (5 min. or

more after applying current) should be taken when using

the product.

• These sensors are only for indoor use.

• Do not use this product in places having excessive vapor,

dust, etc., or where it may come in contact with corrosive

gas, etc.

• Take care that the product does not come in contact with

water, oil, grease, or organic solvents such as thinner,

etc., strong acid or alkaline.

• Do not drop the product or apply hard shock. This can

cause product breakage.

Others

Refer to p.1571~ for general precautions.

: Vacuum

P1 : Atmosphere

pressure Suction

nozzle

: Pressurized

P2 : Atmospher

pressure

P1 : Pressurized

P2 :

Atmosphere

pressure Pinhole

● For P

≥ 1.89 × P

(acoustic velocity)

Q=113.2 × S × P1

● For

P1 < 1.89 × P2 (sub-acoustic velocity)

Q=226.4 × S × P2(P1–P2)

Q : Flow rate ℓ/min.

P1 : Absolute pressure at primary side (MPa)

P2 : Absolute pressure at secondary side (MPa)

S≥ : Effective cross-section area of nozzle (pinhole) mm2

• If using a ow sensor for tasks such as checking suction and release from suction nozzles and sensing leaks, use the ow

rate range setting table as a guide. The effective cross-section area of the nozzle (pinhole) and the difference in pressure

inside and outside the nozzle can be used to calculate the ow rate.

FLOW SENSOR SELECTION

The ow rate calculation value for a nozzle diameter of ø0.1 to ø2.0 mm ø0.004 to ø0.079 in when P2 is varied is shown in the table below.

Notes: 1) In case of any leakage from tubes, etc., actual values will differ greatly from calculated values. When measuring ows, make sure that there is no

leakage from any tubes.

2) In case of any points in the tubes which are narrower than the diameter of the suction nozzle, ow rate will be restricted and may turn out to be lower

than the calculated values.

In addition, suction verication may not be possible in such cases.

3) The effective cross-section area is a guide only. If the nozzle is long and narrow, the effective cross-section area may be smaller than the area at the tip

of the nozzle.

4) Response times are determined by the internal volume of the tube from the ow sensor to the suction nozzle (pinhole). If carrying out high-speed

sensing, reduce the internal volume of the tube as much as possible such as by locating the ow sensor as close as possible to the suction nozzle.

P1(MPa)

Absolute pressure

P1(MPa)

Gauge pressure

P2(MPa)

Absolute pressure

P2(MPa)

Gauge pressure

Acoustic velocity /

Sub-acoustic velocity

Calculated ow rate value (ℓ/min)

ø0.1 mm

ø0.004 in

ø0.2 mm

ø0.008 in

ø0.3 mm

ø0.012 in

ø0.4mm

ø0.016 in

ø0.5mm

ø0.020 in

ø0.7 mm

ø0.027 in

ø1.0 mm

ø0.039 in

ø1.5 mm

ø0.059 in

ø2.0 mm

ø0.079 in

Suction

0.1013 00.0313 –0.07

Acoustic velocity

0.090 0.360 0.810 1.440 2.250 4.411 9.002 20.254 36.007

0.1013 00.0413 –0.06

Acoustic velocity

0.090 0.360 0.810 1.440 2.250 4.411 9.002 20.254 36.007

0.1013 00.0513 –0.05

Acoustic velocity

0.090 0.360 0.810 1.440 2.250 4.411 9.002 20.254 36.007

0.1013 00.0613 –0.04

Sub-acoustic velocity

0.088 0.352 0.792 1.408 2.200 4.312 8.800 19.801 35.202

0.1013 00.0713 –0.03

Sub-acoustic velocity

0.082 0.329 0.740 1.315 2.055 4.028 8.220 18.494 32.878

0.1013 00.0813 –0.02

Sub-acoustic velocity

0.072 0.287 0.645 1.147 1.792 3.512 7.166 16.125 28.666

0.1013 00.0913 –0.01

Sub-acoustic velocity

0.054 0.215 0.483 0.859 1.343 2.631 5.370 12.083 21.480

Blow (leakage detection)

0.1113 0.01 0.1013 0

Sub-acoustic velocity

0.057 0.226 0.509 0.905 1.414 2.772 5.657 12.727 22.626

0.1213 0.02 0.1013 0

Sub-acoustic velocity

0.080 0.320 0.720 1.280 2.000 3.920 8.000 17.999 31.998

0.1413 0.04 0.1013 0

Sub-acoustic velocity

0.113 0.453 1.018 1.810 2.828 5.543 11.313 25.454 45.252

0.1613 0.06 0.1013 0

Sub-acoustic velocity

0.139 0.554 1.247 2.217 3.464 6.789 13.856 31.175 55.423

0.1813 0.08 0.1013 0

Sub-acoustic velocity

0.160 0.640 1.440 2.560 4.000 7.840 15.999 35.998 63.996

0.2013 0.1 0.1013 0

Acoustic velocity

0.179 0.716 1.610 2.862 4.472 8.765 17.888 40.248 71.552

0.3013 0.2 0.1013 0

Acoustic velocity

0.268 1.071 2.410 4.284 6.694 13.119 26.774 60.242 107.096

0.4013 0.3 0.1013 0

Acoustic velocity

0.357 1.426 3.209 5.706 8.915 17.474 35.660 80.236 142.641

0.5013 0.4 0.1013 0

Acoustic velocity

0.445 1.782 4.009 7.127 11.137 21.828 44.547 100.230 178.186

0.6013 0.5 0.1013 0

Acoustic velocity

0.534 2.137 4.809 8.549 13.358 26.182 53.433 120.224 213.731

Integrated Display Type Digital Flow Sensor FM-200 SERIES

778

FIBER

SENSORS

LASER

SENSORS

PHOTO-

ELECTRIC

SENSORS

MICRO

PHOTO-

ELECTRIC

SENSORS

AREA

SENSORS

SAFETY LIGHT

CURTAINS /

SAFETY

COMPONENTS

PRESSURE /

FLOW

SENSORS

INDUCTIVE

PROXIMITY

SENSORS

PARTICULAR

USE

SENSORS

SENSOR

OPTIONS

SIMPLE

WIRE-SAVING

UNITS

WIRE-SAVING

SYSTEMS

MEASURE-

MENT

SENSORS

STATIC

CONTROL

DEVICES

LASER

MARKERS

PLC

HUMAN

MACHINE

INTERFACES

ENERGY

MANAGEMENT

SOLUTIONS

COMPONENTS

MACHINE

VISION

SYSTEMS

CURING

SYSTEMS

Selection

Guide

Pressure/

Digital Display

Pressure/

Head-separated

Flow

FM-200

MS-FM2-1 Sensor mounting bracket (Optional) MS-FM2-2 Sensor mounting bracket (Optional)

R1.75 R0.069

2-ø3.5

2-ø0.138

15.5

0.610

0.197

1 t

0.039

14.5

0.571

3.5

0.138

18.5

0.278

6 0.236

30 1.181

55 0.217

1.063

9.5

0.374

0.157

8.4 0.331

17 0.609

R1.75 R0.069

2-ø3.5

2-ø0.138

0.512

1.575

0.236

30 1.181

65 2.559

1 t

0.039

0.197

1.969

1.181

3.5

0.138

1/2

female thread

(Note)

0.591

1.181

0.512

1.969

1.5

0.059

1.181

3.150

2-M3, 5 0.197 deep

1.457

( )

Material: Cold rolled carbon steel (SPCC)(Nickel plated)

Two M3 (length 6 mm 0.236 in) screws with washers are attached.

Material: Cold rolled carbon steel (SPCC)(Nickel plated)

Two M3 (length 6 mm 0.236 in) screws with washers are attached.

Assembly dimensions

CN-F15-C1 Connector attached cable (Accessory)

FM-2□-A□(-P)Sensor

Mounting drawing with FM-252-4

Assembly dimensions

Mounting drawing with FM-255-AR2

( )

1.654

R1.75

R0.069

6 0.236

30 1.181

3.150

2.559

0.787

0.984 30

1.181

1.575

2.165

1.378

1.5

0.059

1.969

0.039

0.197

0.787

( )

R1.75 R0.069

1.181

3.5

0.138

14.5

0.571

18.5

0.728

1.5

0.059

1.654

1.063

0.197

13.5

0.531

8.6

0.339

1.063 17

0.669

0.906

6 0.236

0.039

29.2

1.150

Note: FM-2□-AG2-P has G1/2 female thread.

30 1.181

or less

1,040

40.945

Housing: GHR-05V-S

manufactured by J.S.T. Mfg. Co., Ltd.

Contact: 5-SSHL-002T-P0.2

manufactured by J.S.T. Mfg. Co., Ltd.

Connector cover

Material: EPDM

( )

0.984

( )

3.7

0.146

DIMENSIONS (Unit:mm in)The CAD data can be downloaded from our website.

2-ø3.4 ø0.134 thru-hole

2-M3, 5 0.197 deep

ø4 ø0.157 push-in joint

0.669

2.165

0.591

1.5

0.059

1.457

3.6

0.142

1.063

8.5 0.335

9.5

0.374

15.5

0.610

( )

24.2

0.953

( )

2.520

FM-2□-8(-P)Sensor

FM-2□-4(-P)Sensor

2-ø3.4 ø0.134 thru-hole

2-M3, 5 0.197 deep

ø8 ø0.315 push-in joint

0.669

2.165

0.591

1.5

0.059

1.693

3.6

0.142

27 1.063

0.512

9.5

0.374

15.5

0.616

( )

70.6

2.780

( )

30.2

1.189