PF2W711-N06-27 - SMC Corporation of America

Series PF2



, IF



Diaphragm Style Flow Switch:

Series IFW

Paddle Style Flow Switch:

Series IF3



Flow Switches

Model Contacts Port size (Rc, NPT, G)

IFW510

IFW520

IFW550

Flow rate measuring range

(l/min)

1 to 10

10 to 20

20 to 50

1ab 3/8, 1/2, 3/4

Model Contacts Port size (Rc, NPT, G)

1F30

1F31

1F33

Flow rate measuring range

(l/min)

14 to 60

20 to 150

36 to 2600

1ab

3/4

Page

16-12-1

Page

16-12-6

Digital Flow Switch

Mechanical Flow Switch

Digital Flow Switch for Air:

Series PF2A

························································· Refer to page 16-11-7.

Digital Flow Switch for Water:

Series PF2W

··················································· Refer to page 16-11-17.

Digital Flow Switch for Deionized Water and Chemicals:

Series PF2D

······ Refer to page 16-11-37.

16-11-1

ZSE

ISE

PSE

ISE3

ISE 1

ZSP

ISA2

IS

ZSM

PF2

IF

Data

Design and Selection Mounting

Thread

1/8

1/4

3/8

1/2

3/4

Proper tightening torque (N·m)

7 to 9

12 to 14

22 to 24

28 to 30

36 to 38

Flow Switches

Precautions 1

Be sure to read before handling.

1. Make sure to use a switch by the specified voltage.

Use of a switch outside the range of the specified voltage can

cause not only malfunction and damage of the switch, but

also electrocution and fire.

2. Never use such a load, which exceeds the

maximum allowable load.

It may result in a damage to a switch.

3. Since the type of fluid varies depending on the

product, make sure to verify the specifications.

Never use flammable gases or fluids, since the switch is not

explosion proof construction. It may result in a fire.

[For air]

4. Make sure to use a switch within the specified flow

rate for measurement and the maximum operating

pressure.

Operating beyond the specified flow rate and operating pressure

can damage the switch.

If using a switch by exceeding the maximum operating pressure,

switch is damaged.

[For water]

5. Make sure to use a switch within the specified flow

rate for measurement and the maximum operating

pressure.

Operating beyond the specified flow rate and operating

pressure can damage the switch.

Damage to the switch may occur if the switch is subject to

higher pressure than its designed limit.

Avoid especially the application of pressure above

specifications through a water hammer.

a) Use a device such as a water hammer relief valve to slow

the valve's closing speed.

b) Absorb an impact pressure by using a rubber material

piping such as a rubber hose and an accumulator.

c) Keep the piping length as short as possible.

1. Mount a switch by observing the proper tightening

torque.

When a switch is tightened beyond the specified tightening

torque, a switch may be damaged. On the other hand,

tightening below the specified tightening torque may cause

the installation screws to come loose during operation.

2. Apply a wrench only to the metal part of the piping

when installing the flow switch in the system

piping.

Do not apply a wrench to the plastic part of the main housing

of the switch.

3. Monitor the flow direction of the fluid.

Install a switch in the direction as indicated on the body.

4. Remove solid foreign objects, etc. inside piping by

air blow before connecting a switch with piping.

5. Do not drop or bump.

Do not drop, bump, or apply excessive impacts (490 m/s2)

while handling. Although the external body of the switch

(switch case) may not be damaged, the inside of the switch

could be damaged and cause a malfunction.

6. Hold the body of a switch when handling.

The tensile strength of the cord is 49 N. Applying a greater

pulling force on it can cause a malfunction. When handling,

hold the body of the switch—do not dangle it from the cord.

7. Do not use until you can verify that equipment can

operate properly.

Verify whether it is mounted correctly by running fluids or

applying the electricity in order to conduct suitable function

and leakage tests when mounting for the first time or after

system repair or modification was made.

[For air]

8. Ever mount a switch in a place that will be used as

a scaffold during piping.

If an excessive weight is applied on a switch, switch may be

damaged.

9. Be sure to allow straight pipe length that is

minimum 8 times the port size upstream and

downstream of the switch piping.

Do not suddenly narrow the pipe size because doing so will

disturb the flow speed distribution in the pipe, making it

impossible to obtain the correct measurements.

[For water]

10. Never install a switch in such a place, where switch

is used as a foothold in the piping.

Damage may occur if an excessive load is applied to the

switch. Especially when the switch supports the piping, do not

apply a load of 15 N·m or more to the metal parts of the

switch.

Warning Warning

16-11-2

Operating Environment

Wiring

Maintenance

Warning

Fluid

1. Verify the color and terminal number when wiring.

Incorrect wiring can cause a switch to be damaged and may

result in a malfunction. Verify the color of wiring and the

terminal number in the instruction manual when wiring.

2. Avoid repeatedly bending or stretching the lead

wire.

Repeatedly applying bending stress or stretching force to the

lead wire will cause it to break.

3. Confirm proper insulation of wiring.

Make sure that there is no wiring insulation (contact with other

circuits, ground fault, improper insulation between terminals,

etc.). Overcurrent is flown and may result in a damage.

1. Never use in an environment, where explosive

gases are used.

The switches do not have an explosion-proof rating. Never use

in an environment, where explosive gases are used, as this

may cause a serious explosion.

2. Mount a switch in such locations, where no

vibration or shock (less than 98 m/s2) is affected.

[For air]

3. Use the switch within the specified fluid and

ambient temperature range.

Fluid and ambient temperatures are 0° to 50°C. Take

measures to prevent freezing fluid when below 5°C, since this

may cause damage to a switch and lead to a malfunction. The

installation of an air dryer is recommended for eliminating

condensate and moisture.

Never use a switch in an environment, where temperature

changes drastically even within the allowable ambient

temperature range.

1. Perform periodical inspections to ensure proper

operation of the switch.

Unexpected malfunctions and wrong operations may not

secure the safety.

2. Use caution when using a switch for an interlock

circuit.

When a pressure switch is used for an interlock circuit, devise

a multiple interlock system to prevent trouble or

malfunctioning. Verify the operation of the switch and interlock

function on a regular basis.

3. Do not disassemble or modify the main body.

Warning

1. Check regulators and the flow adjustment valves

before introducing the fluid.

If pressure or flow rate beyond the specified range are applied

to the switch, the sensor unit may be damaged.

[For air]

2. Fluids for measurement for this digital flow switch

are nitrogen and air.

Please note that accuracy cannot be guaranteed when other

fluids are used.

3. Never use flammable fluids.

4. Install a filter or mist separator on the upstream side

when there is a possibility of condensate and

foreign matter being mixed in with the fluid.

The rectifying device built into the switch will be clogged up

and accurate measurement will no longer be possible.

[For water]

5. Never use flammable fluids.

6. Install a filter in the inlet side when it is likely for

solid foreign objects to get mixed with fluids.

Flow Switches

Precautions 2

Be sure to read before handling.

16-11-3

ZSE

ISE

PSE

ISE3

ISE 1

ZSP

ISA2

IS

ZSM

PF2

IF

Data

Series PF2A

Series PF2W

Series PF2A

Series PF2W

Remote Type

Integrated Type

Digital Flow Switch

Series PF2A/PF2W

For Air

For Water

Flow rate setting and monitoring are possible

with the digital display.

Two types for different applications

Integrated and remote type displays

Three types of output:

Switch, accumulated pulse, and analog outputs.

Switching from real-time flow rate to

accumulated flow is possible.

Two independent flow rate settings are possible.

Water resistant construction conforming to IP65

Flow rate measurement

range (l/min)

For Air For Water For High Temperature

Fluid (Water 90°C)

1 to 10

5 to 50

10 to 100

20 to 200

50 to 500

150 to 3000

300 to 6000

600 to 12000

0.5 to 4

2 to 16

5 to 40

10 to 100

0.5 to 4

2 to 16

5 to 40

Flow control of cooling water for

wafer temperature regulation and

high frequency electric power supply

Application examples

Flow control of N2 gas to prevent

detection camera shimmering and

lead frame oxidation

Flow control of pressurized

cooling water for welding gun

MULTI COUNTER:CEU5

ACOM COM COM

DC12V

GND F.G. R.S.

HOLD

BANK1 BANK2

COM

S.STOP

OUT1OUT2OUT3OUT4OUT5

AC100~240V

COUNT

PRESET

FUNC.

SD SGRD

RS-232C

LEFT

RIGHT

DOWN

SEL. SET

MODE



The accumulated pulse output

function (100 l/pulse) enables remote

monitoring of accumulated flow.

Main line flow control

Flow control for each branch line

M/C

100 l/pulse

Pulse counter

Make possible the monitoring

of air flow from the main line

to each branch line.

For Air For Water

16-11-5

ZSE

ISE

PSE

ISE3

ISE 1

ZSP

ISA2

IS

ZSM

PF2

IF

Data

P. 16-11-7

P. 16-11-17

P. 16-11-26

1 to 10

5 to 50

10 to 100

20 to 200

50 to 500

150 to 3000

300 to 6000

600 to 12000

16 l/min

4 l/min

100 l/min40 l/min

PF2A710

750

711

721

751

703H

706H

712H

PF2W704T

720T

740T

: Output from integrated display type and remote display unit type

: Output from remote sensor unit type

: Output from integrated display type and remote display unit type

: Output from remote sensor unit type

: Output from integrated display type and remote display unit type

: Output from remote sensor unit type

For Air

For Water

For High Temperature

Fluid (Water 90°C)

50 l/min

10 l/min

500 l/min

200 l/min

100 l/min

12000 l/min

6000 l/min

3000 l/min

–

PF2A510

550

511

521

551

–

PF2A

30

31

Integrated

display type

Remote type

Display unit Sensor unit

Output specifications Port size (Rc, NPT, G)

1/8 1/4 3/8 1/2 11/2

Switch output Analog output

Accumulated

pulse output

0.5 to 4

2 to 16

5 to 40

10 to 100

Flow rate

measurement

range l/min

PF2W

30

33

PF2W704

720

740

711

PF2W504

520

540

511

Integrated

display type

Remote type

Display unit Sensor unit

Port size (Rc, NPT, G)

3/8 1/2 13/4

Output specifications

Switch output Analog output

Accumulated

pulse output

Flow rate

measurement

range l/min

Port size (Rc, NPT, G)

3/8 1/2

Integrated

display type

Remote type

Display unit Sensor unit

Flow rate

measurement

range l/min 3/4

Output specifications

Switch output Analog output

Accumulated

pulse output

0.5 to 4

2 to 16

5 to 40

PF2W

30

PF2W504T

520T

540T

16-11-6

PF2A7 10 01 27

Output specifications

NPN open collector 2 outputs

PNP open collector 2 outputs

Applicable model

PF2A710, PF2A750

PF2A711, PF2A721, PF2A751

PF2A710, PF2A750

PF2A711, PF2A721/PF2A751

For details about certified products

conforming to international standards,

visit us at www.smcworld.com.

Model

How to Order

Digital Flow Switch

For Air

Series PF2A

Nil

Wiring specifications

3 m lead wire with connector

Without lead wire

Flow rate range

1 to 10 l/min

5 to 50 l/min

10 to 100 l/min

20 to 200 l/min

50 to 500 l/min

Symbol

Port size

1/8

1/4

3/8

1/2



100



200



500



Applicable model

Flow rate (l/min) Output specifications

Nil

Thread type Unit specifications

NPT

PF2A710, PF2A750

PF2A711, PF2A721

PF2A751

Integrated

display type

With unit switching function

Fixed SI unit Note)

Note) Fixed unit:

Real-time flow rate: l/min

Accumulated flow: l

Port

size

Specifications

Measured fluid

Flow rate measurement range

Set flow rate range

Flow rate measuring range

Minimum set unit

Accumulated pulse flow rate exchange value (Pulse width: 50 ms)

Operating fluid temperature

Linearity

Repeatability

Temperature characteristics

Current consumption (No load)

Weight Note 3)

Port size (Rc, NPT, G)

Detection type

Display

Operating pressure range

Proof pressure

Accumulated flow range

Indicator light

Response time

Hysteresis

Power supply voltage

Real-time flow rate

Accumulated flow

Resistance Output

specifications

Enclosure

Operating temperature range

Withstand voltage

Insulation resistance

Vibration resistance

Impact resistance

Noise resistance

0.5 to 10.5 l/min

0.5 to 10.5l /min

1 to 10 l/min

0.1 l/min

0.1 l/pulse

2.5 to 52.5 l/min

5 to 50 l/min

0.5 l/min

0.5 l/pulse

5 to 105 l/min

10 to 100 l/min

1 l/min

1 l/pulse

10 to 210 l/min

20 to 200 l/min

2 l/min

2 l/pulse

25 to 525 l/min

50 to 500 l/min

5 l/min

5 l/pulse

PF2A710 PF2A750 PF2A711 PF2A721 PF2A751

Air, Nitrogen

l/min, CFM x 10–2 l/min, CFM x 10–1

±1% F.S. or less ±2% F.S. or less

290 g

150 mA or less

250 g

1/8, 1/4

160 mA or less

3/8

170 mA or less

1/2

l, ft3 x 10–1

0 to 50°C

±5% F.S. or less

Heater type

3-digit, 7-segment LED

1.0 MPa

0 to 999999 l

–50 kPa to 0.75 MPa

±3% F.S. or less (15 to 35°C, based on 25°C), ±5% F.S. or less (0 to 50°C, based on 25°C)

–50 kPa to 0.5 MPa

NPN or PNP open collector (same as switch output)

Lights up when output is ON OUT1: Green; OUT2: Red

1sec. or less

Hysteresis mode: Variable (can be set from 0), Window comparator mode: 3-digit fixed Note 5)

12 to 24 VDC (Ripple ±10% or less)

IP65

Operating: 0 to 50°C, Stored: –25 to 85°C (No condensation or freezing)

1000 VAC for 1 min. between external terminal and case

50 MΩ (500 VDC) between external terminal and case

10 to 500 Hz at whichever is smaller: 1.5 mm amplitude or 98 m/s2 acceleration, in X, Y, Z directions for 2 hrs. each (De-energized)

490 m/s2 in X, Y, Z directions 3 times each

1000 Vp-p, Pulse width 1 µs, Rise time 1 ns

Display unit

Note 1, 2)

Note 4)

Switch output

Accumulated pulse output

NPN open collector

Maximum load current: 80 mA; Internal voltage drop: 1 V or less (With load current of 80 mA)

Maximum applied voltage: 30 V; Two outputs

NPN open collector Maximum load current: 80 mA

Internal voltage drop: 1.5 V or less (With load current of 80 mA); Two outputs

Symbol

Note 1) For digital flow switch with unit switching function. (Fixed SI unit [(l/min, or l, m3 or m3 x 103)] will be set for switch type without the unit switching

function.)

Note 2) Flow rate display can be switched between the basic condition of 0°C, 101.3 kPa and the standard condition (ANR) of 20°C, 101.3 kPa, and 65%

RH.

Note 3) Without lead wire.

Note 4) Switch output and accumulated pulse output can be selected during initial setting.

Note 5) Window comparator mode — Since hysteresis will reach 3 digits, keep P_1 and P_2 or n_1 and n_2 apart by 7 digits or more. (In case of output

OUT2, n_1, 2 to be n_3, 4 and P_1, 2 to be P_3, 4.)

Note 6) The flow switch is comformed to CE mark.

16-11-7

ZSE

ISE

PSE

ISE3

ISE 1

ZSP

ISA2

IS

ZSM

PF2

IF

Data

PF2A721/521

PF2A711/511

PF2A751/551

Output (OUT1) Indicator: Green

Output (OUT2) Indicator: Red

DOWN

U P

OUT2OUT1

SET

Component Parts

Connectors

Connector

size

M12

Number

pins

Correns Corporation

OMRON Corporation

Yamatake Corporation

Hirose Electric Co., Ltd.

DDK Ltd.

VA-4D

XS2

PA5-4I

HR24

CM01-8DP4S

Connectors shown below are applicable

(female contact).

Contact each manufacturer for details.

Manufacturer Applicable

series

Flow Characteristics (Pressure loss)

Pressure loss (kPa)

Flow rate (l/min)

Pressure loss (kPa)

Flow rate (l/min)

PF2A710/510 PF2A750/550

01 10

0.2

0.4

0.6

0.8

1.0

52.5 7.5 0 5 10 15 20 25 30 4035 45 50

0.5

1.0

1.5

2.0

2.5

3.0

Pressure loss (kPa)

Flow rate (l/min)

0100

10 25 50 75

Pressure loss (kPa)

Flow rate (l/min)

0200

20 50 100 150

Pressure loss (kPa)

Flow rate (l/min)

050100 150200 250 300 400350 450 500

Sensor Unit Construction

PF2A710/750

PF2A510/550

PF2A711/721/751

PF2A511/521/551

Flow direction

Operating Unit Descriptions

RESET Buttons LED Display

UP Button ( Button)

SET Button ( Button)

DOWN Button ( Button)

Lights up when OUT1 is ON.

Blinks when an overcurrent error

occurs on OUT1.

Lights up when OUT2 is ON.

Blinks when an overcurrent error

occurs on OUT2.

Displays the real-time flow rate,

accumulated flow, and set value.

The mark blinks when the

accumulated flow is being

measured.

Use this button to increase a set

value.

Use this button to change a set

value or any of the modes.

Use this button to decrease a set

value.

Press the  and  buttons simultaneously

to activate the RESET function.

This clears the unit when an abnormality

occurs and resets the accumulated flow

display to “0”.

No.

Description

Attachment

Seal

Mesh

Body

Sensor

Material

ADC

NBR

Stainless steel

PBT

Material

ADC

NBR

PBT

Stainless steel

PBT

No.

Description

Attachment

Seal

Spacer

Mesh

Body

Sensor

16-11-10

Series PF2A

FLOW SWITCH

FOR AIR

OUT1 OUT2

SET

DOWN

U P

SET

OUT1

FOR AIR

OUT2

FLOW SWITCH

Dimensions: Integrated Display Type for Air

PF2A710/750

PF2A711/721/751

4-ø4.5

1.6

2-Port size

Internal circuit and

wiring example

PF2A7--27(-M)

OUT2

24 VDC

OUT1

Brown

Black

White

Blue

Load

–

PF2A7--67(-M)

24 VDC

OUT1

OUT2

Brown

Black

White

Blue

Load

–

2-ø3.4

Flow direction

(41.5)

4–ø4.5

116

40 2-Port size

1.6

(41.5)

Connector pin numbers

Pin no.

Pin description

DC (+)

OUT2

DC (–)

OUT1

Main circuitMain circuit

to are terminal numbers.

16-11-11

ZSE

ISE

PSE

ISE3

ISE 1

ZSP

ISA2

IS

ZSM

PF2

IF

Data

Series PF2A

Digital Flow Switch

For Air

Display

High Temperature Fluid Type (For Water)

Functions: PF2A, PF2W Refer to the operation manual how to set and to operate.

Flow rate measurement selection

Real-time flow rate and accumulated flow rate can be selected.

Up to 999999 of flow rate value can be accumulated.

Unit switching

Display

Real-time flow rate

l/min

CFM x 10–2, CFM x 10–1

Accumulated flow

ft3 x 10–1

For Air

CFM = ft3/min

High Flow Rate Type (For Air)

Display

Real-time flow rate

l/min

CFM

Accumulated flow

l, m3, m3 x 103

, ft

3 x

, ft

3 x

Real-time flow rate

l/min

GPM

Accumulated flow

gal (US)

GPM = gal (US)/min

Note) Fixed SI unit [l/min or l] will be set for the type

without the unit switching function.

Note 1) Applicable for all integrated display types other than series

PF2A7H and remote type sensor display units.

Note 2) Only for series PF2A7H.

Flow rate conversion

Basic state: 0°C, 101.3 kPa

Standard state: 20°C, 101.3 kPa, 65%RH (ANR)

Switchable between these states.

Flow rate measuring unit confirmation

This function allows to confirm the accumulated flow rate

when real-time flow rate is selected and to confirm the

real-time flow rate when accumulated flow rate is selected.

Error correction

LED display Contents Solution

Note 2)

Note 1)

Note 2)

A current of more than

80mA is flowing to OUT1

A current of more than

80mA is flowing to OUT2.

The setting data has

changed for whatever

reasons.

The flow rate is over the

flow rate measurement

range (for air only).

Check the load and wiring

for OUT1.

Check the load and wiring

for OUT2.

Perform the RESET

operation, and reset all

data again.

Reduce the flow rate until it

is within the flow rate

measurement range, using

an adjustment valve.

Key lock

This function prevents incorrect operations such as

changing the set value accidentally.

Accumulation clearance

This is to clear the accumulated value.

Initialization of setting (Only for series PF2A7H)

This is to restore the setting to the initial state when

dispatched from the factory.

Real-time switch output ( )

Output types

Real-time switch output, accumulated switch output, or

accumulated pulse output can be selected as an output type.

YES

“P”

OUT1 Output

mode

• Window comparator mode

H: Hysteresis

• Window comparator mode

H: Hysteresis

• Hysteresis mode

OFF

P-1P-2

OFF

n-1n-2

OFF P-1 P-2

OFF n-2n-1

High flow rate →

∗

OUT2 is the same.

“n”

Accumulated switch output ( )

“P”

OUT1 Output

mode

OFF P-3

High flow rate →

“n”

OFF n-3

High flow rate →

Note 1)

Accumulated pulse output ( )

50 msec

OFF

“P”

OUT1 Output

mode

“n”

Note 1)

Note 1) Output mode is set

to inverted output at

the factory before

shipment.

Note 1) Output mode is set to inverted output at the

factory before shipment.

Note 1) For digital flow switch with unit switching function.

(Fixed SI unit [l/min, or l, m3 or m3 x 103] will be set

for switch types without unit switching function.)

Refer to the specifications of display unit for the flow

rate value per pulse.

16-11-31

ZSE

ISE

PSE

ISE3

ISE 1

ZSP

ISA2

IS

ZSM

PF2

IF

Data

Digital Flow Switch Series PF2A/PF2W

Series

PF2A/PF2W

Specific Product Precautions 1

Be sure to read before handling.

Design and Selection

Warning

Mounting

Thread

Rc 1/8

Rc 1/4

Rc 3/8

Rc 1/2

Tightening torque N⋅m

7 to 9

12 to 14

22 to 24

28 to 30

1. Mount switches using the proper tightening

torque.

When a switch is tightened beyond the specified tightening

torque, the switch may be damaged. On the other hand,

tightening below the specified tightening torque may cause

the installation screws to come loose during operation.

2. Apply wrench only to the metal part of the

pipings when installing the flow switch onto

the system piping.

Do not apply wrench to anything other than the piping

attachment as this may damage the switch.

3. Monitor the flow direction of the fluid.

Install and connect piping so that fluid flows in the direction

of the arrow indicated on the body.

4. Remove dirt and dust from inside the piping

using an air blower before connecting piping

to the switch.

5. Do not drop or bump.

Do not drop, bump, or apply excessive impacts (490 m/s2)

while handling. Although the external body of the switch

(switch case) may not be damaged, the inside of the switch

could be damaged and cause a malfunction.

6. Hold the body of the switch when handling.

The tensile strength of the cord is 49N. Applying a greater

pulling force on it can cause a malfunction. When handling,

hold the body of the switch – do not dangle it from the cord.

7. Do not use until you can verify that

equipment can operate properly.

Following mounting, repair, or retrofit, verify correct

mounting by conducting suitable function and leakage tests

after piping and power connections have been made.

8. Avoid the mounting orientation with the

bottom of the body facing up.

The switch can be mounted in any way such as vertically or

horizontally, however, avoid the mounting orientation with the

bracket on the bottom of the body facing upward.

1. Operate the switch only within the specified

voltage.

Use of the switch outside the range of the specified voltage

can cause not only malfunction and damage of the switch but

also electrocution and fire.

2. Do not exceed the maximum allowable load

specification.

A load exceeding the maximum load specification can cause

damage to the switch.

3. Do not use a load that generates surge

voltage.

Although surge protection is installed in the circuit at the

output side of the switch, damage may still occur if a surge is

applied repeatedly. When a surge generating a load such as a

relay or solenoid is directly driven, use a type of switch with a

built-in surge absorbing element.

4. Since the type of fluid varies depending on the

product, be sure to verify the specifications.

The switches do not have an explosion proof rating. To prevent

a possible fire hazard, do not use with flammable gases or

fluids.

5. Monitor the internal voltage drop of the switch.

When operating below a specified voltage, it is possible that

the load may be ineffective even though the pressure switch

function is normal. Therefore, the formula below should be

satisfied after confirming the minimum operating voltage of the

load.

[For air]

6. Use the switch within the specified flow rate

measurement and operating pressure.

Operating beyond the specified flow rate and operating

pressure can damage the switch.

[For water]

7. Use the switch within the specified flow rate

measurement and operating pressure.

Operating beyond the specified flow rate and operating

pressure can damage the switch. Avoid especially the

application of pressure above specifications through a water

hammer.

a) Use a device such as a water hammer relief valve to slow

the valve’s closing speed.

b) Absorb impact pressure by using an accumulator or elastic

piping material such as a rubber hose.

c) Keep the piping length as short as possible.

8. Design the system so that the fluid always fills

the detection passage.

Especially for vertical mounting, introduce the fluid from the

bottom to the top.

9. Operate at a flow rate within the flow rate

measurement range.

If operated outside of the flow rate measurement range, the

Karman vortex will not be generated and normal

measurement will not be possible.

Warning

Caution

Design and Selection

1. Data of the flow switch will be stored even

after the power is turned off.

Input data will be stored in EEPROM so that the data will not

be lost after the flow switch is turned off. (Data can be

rewritten for up to one million times, and data will be stored

for up to 20 years.)

[Series PF2A7H]

10. Sudden increase of flow rate may destroy the

flow sensor. Ensure to open/close the flow

control valve not to exceed the maximum flow

rate measurement values.

Thread

Rc 3/4

Rc 1

Rc 1 1/2

Rc 2

Tightening torque N⋅m

28 to 30

36 to 38

48 to 50

Supply

voltage – >

Internal voltage

drop of switch

Minimum operating

voltage of load

16-11-32

Series PF2A/PF2W

Specific Product Precautions 2

Be sure to read before handling.

1. Verify the color and terminal number when

wiring.

Incorrect wiring can cause the switch to be damaged and

malfunction. Verify the color and the terminal number in the

instruction manual when wiring.

2. Avoid repeatedly bending or stretching the

lead wire.

Repeatedly applying bending stress or stretching force to

the lead wire will cause it to break.

3. Confirm proper insulation of wiring.

Make sure that there is no faulty wiring insulation (contact

with other circuits, ground fault, improper insulation between

terminals, etc.). Damage may occur due to excess current

flow into a switch.

4. Do not wire in conjunction with power lines

or high voltage lines.

Wire separately from power lines and high voltage lines,

avoiding wiring in the same conduit with these lines. Control

circuits including switches may malfunction due to noise

from these other lines.

5. Do not allow loads to short circuit.

Although switches indicate excess current error if loads are

short circuited, all incorrect wiring connections cannot be

protected. Take precautions to avoid incorrect wiring.

1. Never use in the presence of explosive gases.

The switches do not have an explosion proof rating. Never use

in the presence of an explosive gas as this may cause a

serious explosion.

2. Mount switches in locations where there is no

vibration greater than 98 m/s2, or impact

greater than 490 m/s2.

3. Do not use in an area where surges are

generated.

When there are units that generate a large amount of surge in

the area around pressure switches, (e.g., solenoid type lifters,

high frequency induction furnaces, motors, etc.) this may

cause deterioration or damage to the switches' internal

circuitry. Avoid sources of surge generation and crossed lines.

4. Switches are not equipped with surge

protection against lightning.

Flow switches are CE compliant; however, they are not

equipped with surge protection against lightning. Lightning

surge protection measures should be applied directly to

system components as necessary.

5. Avoid using switches in an environment where

the likelihood of splashing or spraying of

liquids exists.

Switches are dustproof and splashproof; however, avoid using

in an environment where the likelihood of heavy splashing or

spraying of liquids exists. Since the display unit of the remote

type switches featured here is not dust or splash proof, the

use in an environment where liquid splashing or spraying

exists must be avoided.

[For air]

6. Use the switch within the specified fluid and

ambient temperature range.

Fluid and ambient temperatures are 0° to 50°C. Take

measures to prevent freezing fluid when below 5°C, since this

may cause damage to the switch and lead to a malfunction.

The installation of an air dryer is recommended for eliminating

condensate and moisture. Never use the switch in an

environment where there are drastic temperature changes

even when these temperatures are operated within the

specified temperature range.

[For water]

7. Use the switch within the specified fluid and

ambient temperature range.

The fluid and ambient temperatures range for the switches is

0° to 50°C (and 0° to 90°C for high temperature fluid). Take

measures to prevent freezing fluid when below 5°C, since this

may cause damage to the switch and lead to a malfunction.

Never use the switch in an environment where there are

drastic temperature changes even when these temperatures

fall within the specified temperature range.

Operating Environment

Wiring

1. When using a switch for high temperature

fluid, the switch itself also becomes hot due to

the high temperature fluid. Avoid touching the

switch directly as this may cause a burn.

Warning

Usage

Warning

[For air]

9. Never mount a switch in a place that will be

used as a scaffold during piping.

Damage may occur if an excessive load is applied to the

switch.

10. Be sure to allow straight pipe length that is

minimum 8 times the port size upstream and

downstream of the switch piping.

When abruptly reducing the size of piping or when there is a

restriction such as a valve on the upstream side, the

pressure distribution in the piping changes and makes

accurate measurement impossible. Therefore, flow

restriction measures such as these should be implemented

on the downstream side of the switch.

[For water]

11. Never mount a switch in a place that will be

used as a scaffold during piping.

Damage may occur if an excessive load is applied to the

switch. Especially when the switch supports the piping, do

not apply a load of 15 N·m or more to the metal part of the

switch.

12. Be sure to allow straight pipe length that is

minimum 8 times the port size upstream and

downstream of the switch piping.

When abruptly reducing the size of piping or when there is a

restriction such as a valve on the upstream side, the

pressure distribution in the piping changes and makes

accurate measurement impossible. Therefore, flow

restriction measures such as these should be implemented

on the downstream side of the switch.

When used with the downstream side open, be careful of

the cavitation that is prone to occur.

Warning

Mounting

16-11-33

ZSE

ISE

PSE

ISE3

ISE 1

ZSP

ISA2

IS

ZSM

PF2

IF

Data

Series PF2A/PF2W

Specific Product Precautions 3

Be sure to read before handling.

1. Check regulators and flow adjustment valves

before introducing the fluid.

If pressure or flow rate beyond the specified range are applied

to the switch, the sensor unit may be damaged.

[For air]

2. The fluids that the switch can measure

accurately are nitrogen and dry air. However,

only dry air can be measured with the high

flow rate type.

Please note that accuracy cannot be guaranteed when other

fluids are used.

3. Never use flammable fluids.

The flow velocity sensor heats up to approximately 150°C.

4. Install a filter or mist separator on the

upstream side when there is a possibility of

condensate and foreign matter being mixed in

with the fluid.

The rectifying device built into the switch will be clogged up

and accurate measurement will no longer be possible.

[For water]

5. The fluid that the switch can measure

accurately is water.

Please note that accuracy cannot be guaranteed when other

fluids are used.

6. Never use flammable fluids.

7. Install a filter on the inlet side when there is a

possibility of condensate and foreign matter

being mixed in with the fluid.

If foreign matter adheres to the switch’s vortex generator or

vortex detector, accurate measurement will no longer be

possible.

1. Since switch output remains OFF while a

message is displayed after the power is turned

on, start measurement after a value is

displayed.

2. Perform settings after stopping control

systems.

When the switch’s initial setting and flow rate setting are

performed, output maintains the condition prior to the settings.

With the 100, 200, and 500 l/min type switches for air, output

turns OFF when the switch’s initial setting and flow rate setting

are preformed.

3. Do not apply excessive rotational force to the

display unit.

The integrated type display unit can rotate 360°. Rotation is

controlled by the stopper; however, the stopper may be

damaged if the display unit is turned with excessive force.

[For air]

4. Be certain to turn on the power when the flow

rate is at zero.

Allow an interval of 10 minutes after turning on the power, as

there are some changes in the display.

5. Flow rate unit

Switch measures at mass flow rates without being influenced

by temperature and pressure. The switches use l/min as the

flow rate indicator unit, in which the volumetric flow is

substituted for mass flow at 0°C and 101.3 kPa. The

volumetric flow rate at 20°C, 101.3 kPa, and 65% RH (ANR)

can be displayed with the high flow rate type switches for air.

Others

Measured Fluid

Warning

Detection principle of digital flow switch for air

A heated thermistor is installed in the passage, and fluid absorbs heat from

the thermistor as it is introduced to the passage. The thermistor's resistance

value increases as it loses heat. Since the resistance value increase ratio

has a uniform relationship to the fluid velocity, the fluid velocity can be

detected by measuring the resistance value. To further compensate the fluid

and ambient temperature, the temperature sensor is also built into the switch

to allow stable measurement within the operating temperature range.

Fluid velocity

detection element

Temperature

compensation element

Detection principle of digital flow switch for water

When an elongated object (vortex generator) is placed in the flow,

reciprocal vortexes are generated on the downstream side. These vortexes

are stable under certain conditions, and their frequency is proportional to

the flow velocity, resulting the following formula.

f = k x v

f: Frequency of vortex v: Flow velocity k: Proportional constant

(determined by the vortex generator's dimensions and shape).

Therefore, the flow rate can be measured by detecting this frequency.

Fluid

Vortex generator Vortex detector

This flow switch uses l/min

as the flow rate indicator

unit. The mass flow is

converted and displayed

under the conditions of 0°C

and 101.3 kPa.

The conversion conditions

can be switched to 20°C

and 101.3 kPa with high

flow type switches.

1. Perform periodical inspections to ensure

proper operation of the switch.

Unexpected malfunctions may cause possible danger.

2. Take precautions when using the switch for an

interlock circuit.

When a pressure switch is used for an interlock circuit, devise

a multiple interlock system to prevent trouble or

malfunctioning, verify the operation of the switch and interlock

function on a regular basis.

3. Do not disassemble or perform any conversion

work on flow switches.

Maintenance

Warning

Measured Fluid

Warning

∗ Top view

16-11-34

Sensor

/min 5 l/min

10 l/min

20 l/min

50 l/min 100 l/min 200 l/min 500 l/min

Flow rate range

PF2A510

PF2A550

PF2A511

PF2A521

PF2A551

Sensor Flow rate range

PF2W504

PF2W504T

PF2W520

PF2W520T

PF2W540

PF2W540T

PF2W511

Rated flow rate range of sensor

Set flow rate range of sensor

0.5 l/min 4 l/min

0.35 l/min

4.5 l/min

2 l/min

1.7 l/min

40 l/min

45 l/min

16 l/min

17l/min

5 l/min

3.5 l/min

10 l/min 100 l/min

110 l/min

7 l/min

1 l/min 10 l/min

0.5 l/min

10.5 l/min

5 l/min

2.5 l/min

100 l/min

105 l/min

50 l/min

52.5 l/min

10 l/min

5 l/min

20 l/min 200 l/min

210 l/min

10 l/min

50 l/min 500 l/min

525 l/min

25 l/min

0.5 l/min

2 l/min

5 l/min

10 l/min 20 l/min 40 l/min 100 l/min

Caution

Set Flow Rate Range and Rated Flow Rate Range

Set the flow rate within the rated flow rate range.

The regulating flow rate range is the range of flow rate that can be set on the controller.

The rated flow rate range is the range of flow rate that satisfies the specifications (accuracy, linearity, etc.) of the sensor.

Although it is possible to set a value outside the rated flow rate range, the specifications will not be guaranteed even if the value stays

within the regulating flow rate range.

Series PF2A/PF2W

Specific Product Precautions 4

Be sure to read before handling.

16-11-35

ZSE

ISE

PSE

ISE3

ISE 1

ZSP

ISA2

IS

ZSM

PF2

IF

Data