Omron G9SE-221-T, G9SE-201, G9SE-401 User Manual

(1) Handle with care

Do not drop G9SE to the ground or expose to excessive vibration or

mechanical shocks. G9SE may be damaged

and may not function properly.

(2) Adhesion of solvent such as alcohol, thinner, trichloroethane or gasoline on the product should be

avoided. Such solvents make the marking on G9SE illegible and cause deterioration of parts.
(3) Conditions of storage
Do not store in such conditions stated below.

1) In direct sunlight

2) At ambient temperatures out of the range of -10 to 55 ℃

3) At relative humidity out of the range of 25% to 85% or under such temperature change that causes

condensation.

4) At atmospheric pressure out of the range 86 to 106 kPa.

5) In corrosive or combustible gases

6) With vibration or mechanical shocks out of the rated values.

7) Under splashing of water, oil, chemicals

8) In the atmosphere containing dust, saline or metal powder.
G9SE may be damaged and may not function properly.
(4) At least 50 mm

above top face of G9SE and below bottom face of G9SE

should be available to apply rated

current to outputs of G9SE and for enough ventilation.

(5) Mounting multiple units
　 When mounting multiple units close to each other, the rated current will be 3 A. Do not apply a current
higher than 3 A. If the output current is 3 A or more, make sure that there is a minimum distance of
10mm each between all adjacent G9SE units.

(6) DIN rail mounting

Mount G9SE to DIN rails with attachments (TYPE PFP-M, not incorporated to this product), not to
drop out of rails by vibration etc.

especially when the length of DIN railing is short compared to the widths of G9SE.

(7) Wire correctly according to 8 Wiring.

(8) Use cables with length less than 100 m to connect to Safety Inputs, Feed-back/Reset inputs, respectively.
(9) G9SE may malfunction due to electro-magnetic disturbances. Be sure to connect the negative terminal of
DC power supply to ground. When using a DC power supply with light curtains, use DC power supply
which has no interruption by a power failure of 20 ms.
(10)This is a class A product. In residential areas it may cause radio interference, in which case the user may be
required to take adequate measures to reduce interference.

(11) Do NOT mix AC load and DC load to be switched in the following terminals.

　　　- G9SE-201 : between 13-14 terminal and 23-24 terminal

　　　- G9SE-401 : between 13-14 terminal and 23-24 terminal, 33-34 terminal and 43-44 terminal

　　　- G9SE-221-T□ : between 13-14 terminal and 23-24 terminal, 37-38 terminal and 47-48 terminal

(12)

Start entire system after more than 2s have passed since applying supply voltage to G9SE.

(13) Set the time duration of OFF-delay (Type

G9SE-221-T□

)

1) Set the time duration of OFF-delay to an appropriate value
that does not cause the loss of safety function of system.

2)

Set both of the two O-delay Time Preset Switches, one each

on the front and back, to the same value.

When setting the

dierent value, it is detected as a fault.

After setting, make sure G9SE operating time is correct

.

(14) To determine safety distance to hazards, take into account the

delay of Safety outputs caused by the following time:

1) Response time

2) Preset o-delay time and accuracy of o-delay time
(15) Before G9SE outputs become in ON-state, non-regular self­ diagnosis for Safety output circuit may be executed.
On this occasion, the operating noise of internal relays occurs.
(16) In the place subjected to strong vibration or shock, mount G9SE
to a mounting surface with screws and the screw mounting attachment.
Otherwise, G9SE may not function properly due to vibration or
mechanical shocks out of the rated values caused by sympathetic
vibration of G9SE and the mounting parts, and so on.

Appearance and Explanation of Each Parts

3

Ratings and Specications

4

G9SE-201 G9SE-401 G9SE-221-T□

Contact output
250 VAC 5 A 30 VDC 5 A (resistance load)

AC15: 240 VAC 2 A
DC13: 24 VDC 1.5 A

Switching specication for
Inductive load (IEC/EN60947-5-1)

●Ratings

●Specications and performance

Operating time (OFF to ON state) (See Note2)

100 ms Max. (See Note3)

3 W max.

Type G9SE-221-T□

4 W max.

4 W max.

300 m/s

2

Ambient humidity

Surround Air Temperature

Mechanical
shock resistance
(See Note7)

Vibration resistance (See Note7)

25% to 85%RH

-10 to 55℃ (No freezing or condensation)

Frequency:10 to 55 to 10 Hz
Amplitude:0.35 mm half amplitude (0.7 mm double amplitude)

15 ms Max.

1

Rated supply voltage 24 VDC

-15% to 10% of rated supply voltage

SuitabilityforUse

Omron Companies shall not be responsible for conformity with any standards, codes or regulations
which apply to the combination of the Product in the Buyer’ s application or use of the Product. At
Buyer’ s request, Omron will provide applicable third party certification documents identifying ratings
and limitations of use which apply to the Product. This information by itself is not sufficient for a
complete determination of the suitability of the Product in combination with the end product, machine,
system, or other application or use. Buyer shall be solely responsible for determining appropriateness
of the particular Product with respect to Buyer’ s application, product or system. Buyer shall take
application responsibility in all cases.
NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR
PROPERTY OR IN LARGE QUANTITIES WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE
HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT(S) IS
PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL
EQUIPMENT OR SYSTEM.

PNP transistor output Load current：100 mA DC max.

G9SE-201 G9SE-401 G9SE-221-T□

Contact resistance (See Note5)

100 mΩ Max.

Maximum cable length 100 m Max.
Reset input time

250 ms Min.

Accuracy of OFF-delay time

Within plus or minus 10% of
the set value (See Note4)

ー

Impulse
withstand
voltage
(IEC/EN
60947-5-1)

Insulation resistance 100 MΩ Min.

5,000,000 operations Min.

Mechanical durability

50,000 operations Min.

Minimum applicable load

Pollution degree 2
Over voltage category (IEC/EN60664-1) Safety output: Class Ⅲ, the others: Class Ⅱ

Degree of protection

IP20

Weight

approx. 150 g approx.180 g approx.180 g

Note:
(1) Power consumption of loads not included .

(2) This does not include the bounce time of internal relay in the G9SE.
(3) This is in normal operation. When executing

non-regular self-diagnosis for Safety output circuit,

G9SE operating time become 500 ms max..
(4) This is initial value using the voltage-drop method with 1A at 5VDC.
(5) Use an 8A fuse that conforms to IEC 60127 as a short-circuit protection device. This fuse is not
included with the G9SE.
(6) Condition: G9SE is mounted to

mounting surface with screw and the screw mounting attachment.

In the case of DIN rail mounting, mount DIN rail with G9SE to the place without big vibration.
(Amplitude guideline: Less than 0.15 mm half amplitude (0.3 mm double amplitude))

Conditional short-circuit current
(IEC/EN60947-5-1)

100 A (See Note6)

●Preset Switches (only applies to Type G9SE-221-T□)

Change the value of the preset switches only when G9SE is disconnected from power supply.

Function
Presets OFF-delay
time (duplicate)
(*1)

Name
OFF-delayed
time preset
switch

Value
For Type G9SE-221-T05

0(default setting value)/0.1/0.2/0.3/0.4/0.5/0.6/0.7/0.8/1.0/1.5/2.0/2.5/3.0/4.0/5.0(s)(*2)

For Type G9SE-221-T30

0(default setting value)/1/2/4/5/6/7/8/9/10/12/14/16/20/25/30(s)(*2)

(*1)

Set both of the two O-delay Time Preset Switches, one each on the front and back, to the same value.

When setting the dierent value, it is detected as a fault.
(*2)

See following illustration for setting position of O-delay Time Preset Switch. Make sure that the direction of cutting

edge of preset switch is correctly pointed to the o-delay time value which must be set.

ex.1) 0 second o-delay setting

ex.2) 1.5 second o-delay setting

OFF-DELAY

0

5.0

4.0

3.0

2.0

1.5

1.0

0.8

0.7

0.6

0.5

0.4

0.3

0.1

0.2

2.5

OFF-DELAY

0

5.0

4.0

3.0

2.0

1.5

1.0

0.8

0.7

0.6

0.5

0.4

0.3

0.1

0.2

2.5

cutting edge

●LED Indicators

Marking

Color Name Function

PWR Green

Power supply
Indicator

Lightsupwhilepowerissupplied.
Blinkscorrespondingtotheoccurringerror

IN1 Orange

Safety Input
#1 indicator

LightsupwhilehighsignalisinputtoT12
BlinkswhenerrorrelatingtoSafetyinput#1occurs.

IN2

OUT
OUT1

LightsupwhileSafetyoutputs(13-14,23-24,33-34,43-44)areinON-state.
BlinkswhenanerrorrelatingtoSafetyoutputoccurs.

OUT2

Lightsupwhileoff-delayedSafetyoutputs(37-38,47-48)areinON-state.
BlinkswhenanerrorrelatingtoSafetyoff-delayedsolid-stateoutputoccurs.

Input current

ON voltage

Type G9SE-401 Type G9SE-221-T

□

Type G9SE-201

Reset/Feedback
Input

Safety Outputs
(Instantaneous)

Safety Outputs (OFF-delay)

OFF-delay
time preset
switch

Power Supply

Safety Input1

Safety Input2

Auxiliary output

Precautions for Correct Use

6 kV

24 VDC 4 mA

ー

Inputs

OFF voltage
OFF current

11 VDC Min.

5 mA Min.

5 VDC Max.

1 mA Max.

Electrical durability
Contact
outputs

Insulation
specication

Dielectric
strength

1,500 VAC

Destruction

Malfunction

100 m/s

2

22.5

124

109

4

111.6

4

3

6.6

3

17.5

Type G9SE-201

Type G9SE-401

Type G9SE-221-T□

5.6

5.6

R2.3

11.4

9.9

71 73.5

Mounting holes

133 ±0.3

Two, 4.2 dia.
or M4

Screw mounting
attachment

Insert

(1) Use G9SE within an enclosure with IP54 protection or higher of IEC/EN60529.
(2) When ready for wiring, the power source should be disconnected rst. Further, at operating this unit, do not touch
the terminals in order to prevent an electrical shock.
(3) Do not apply any excessive voltage or current to the input or output circuit the G9SE. Doing so may result in damage
to the G9SE or cause a re.
(4) Incorrect wiring may lead to loss of safety function. Wire conductors correctly and verify the operation of G9SE
before commissioning the system in which G9SE is incorporated.
(5) Do not apply DC voltages exceeding the rated voltages, or AC voltages to G9SE.
(6) Use DC supply satisfying requirements below to prevent electric shock.

- DC power supply with double or reinforced insulation, for example, according to IED/EN60950 or EN50178 or
a transformer according to IEC/EN61558.

- DC supply satises the requirement for class 2 circuits or limited voltage/current circuit stated in UL 508.

(7) The lifetime of G9SE depends on the conditions of switching of its outputs. Be sure to conduct its test operation
under actual operating conditions in advance and use it within appropriate switching cycles. Apply protection
circuitry against back electromotive force in case connecting inductive loads to safety outputs.
(8) Do not operate the G9SE with ammable or explosive gas. An arc with operation and the heat of relay will cause
a re or an explosion.
(9) Do not

drop G9SE to the ground or ,

dismantle, repair, modify G9SE,

otherwise an electric shock may occur or

the G9SE may malfunction

. It may lead to loss of its safety functions.
(10) Use protective device (Fuse etc.) for short-circuit protection and ground fault protection, otherwise a re may occur
or the G9SE may malfunction.
(11)

Auxiliary monitoring outputs are NOT safety outputs.

Do not use auxiliary outputs as any safety output.

Such incorrect use causes loss of safety function of G9SE and its relevant system.
(12) After installation of G9SE, qualied personnel should conrm the installation, and should conduct test
operations and maintenance.
The qualied personnel should be qualied and authorized to secure the safety on each phases of design,
installation, running, maintenance and disposal of system.
(13) A person in charge, who is familiar to the machine in which G9SE is to be installed, should conduct and verify
the installation.

Type G9SE-201
Type G9SE-221-T□

Type G9SE-401

4022078-4 A

Original instructions

Safety Relay Unit

USER'S MANUAL

English

Thank you for purchasing G9SE Safety Relay Unit.
Please read and understand this manual before using the products.

Keep this manual ready to use whenever needed.
Only qualied person trained in professional electrical technique should handle G9SE.

Please consult your OMRON representative if you have any questions or comments.

EC Declaration of Conformity

OMRON declares that G9SE series are in conformity with the requirements of the following
EC Directives:

- EMC Directive: 2004/108/EC

- Machinery Directive: 2006/42/EC

G9SE series are designed and manufactured in accordance with the following standards:

- EN ISO13849-1: 2008 PL e Category 4

- IEC/EN 60947-5-1, - IEC/EN 62061 SIL3,

- EN81-1 - EN81-2

- UL508 - CAN/CSA C22.2 No.14

Standards

Precaution for Safe Use

WARNING

Indicates a potentially hazardous situation which, if not avoided, will
result in minor or moderate injury, or may
result in serious injury or death.
Additionally there may be signicant property damage.

Meanings of Signal Words
The following signal words are used in this manual.

Indicates prohibited actions

Meaning of Alert Symbols
The following alert symbols are used in this manual.

Indicates mandatory actions

Alert Statements

Serious injury may possibly occur due to breakdown of safety outputs.
Do not connect loads beyond the rated value tothe safety outputs.

Serious injury may possibly occur due to loss of required safety functions.
Wire G9SE properly so that supply voltages or voltages for loads do NOT touch the
safety inputs accidentally or unintentionally.

WARNING

Seriousinjurymaypossiblyoccurduetolossofsafetyfunctions.
Useappropriatedevicesreferringtotheinformationshownbelow.

Controlling Devices
Emergency stop switch

Door interlocking switch
Limit switch
Safety Sensor

Relay with forcibly guided
contacts

Contactor

Other devices

Requirements
Use approved devices with Direct Opening Mechanism complying with
IEC/EN 60947-5-1
Use approved devices with Direct Opening Mechanism complying with
IEC/EN 60947-5-1 and capable of switching micro loads of 24VDC, 5mA.
Use approved devices complying with the relevant product standards,
regulations and rules in the country where it is used.
Use approved devices with forcibly guided contacts complying with
EN 50205.
For feedback purpose use devices with contacts capable of switching
micro loads of 24VDC, 5mA.
Use contactors with forcibly guided mechanism to input the signal to
Feedback/Reset input of G9SE through the NC contact of the contactor.
For feedback purpose use devices with contacts capable of switching
micro loads of 24VDC, 5mA.
Failure to open contacts of a contactor cannot be detected by monitoring
its auxiliary NC contact without forcibly guided mechanism.
Evaluate whether devices used are appropriate to satisfy the requirements
of safety category level.

Precautions for Safe Use

(14) Perform daily and 6-month inspections for the G9SE. Otherwise, the system may fail to work properly,
resulting in serious injury. Turn OFF the signal to Safety input and make sure G9SE operates without fault by
checking the state of the LED indicator in inspection.
(15)

Conformity to requirements of performance level is determined as an entire system.

It is recommended to consult
a certication body regarding assessment of conformity to the required safety level.
(16) OMRON shall not be responsible for conformity with any safety standards regarding to customer's entire
system.

(17) Dispose of the Units according to local ordinances as they apply.

Internal Connection

2

●　Type G9SE-201

●　Type G9SE-４01

●　Type G9SE-221-T□

A1A2T11 T12 T32 T33

13 23

Safety
Outputs
(instanta

neous)

37 47

14 24 38 48

T21 T22

Reset/

Feedback

Input

Safety
Input 1

Power
supply
circuit

Safety
Input 2

T31

X1

Auxiliary
Output

Safety
Outputs

(OFF-

delay)

A1A2T11 T12 T32 T33

13 23

Safety
Outputs

(instanta

neous)

33 43

14 24 34 44

T21 T22

Reset/

Feedback

Input

Safety
Input 1

Power
supply
circuit

Safety
Input 2

T31

X1

Auxiliary
Output

A1

A2

T11 T12 T32 T33

13 23

Safety
Outputs

(instanta

neous)

14 24

T21 T22

Reset/

Feedback

Input

Safety
Input 1

Power
supply
circuit

Safety
Input 2

T31

X1

Auxiliary

Output

Dimensions

Orange

Orange

Orange

Safety Input
#2 indicator
Safety Output
indicator
OFF-delayed
Safety Output
indicator

LightsupwhilehighsignalisinputtoT22
BlinkswhenerrorrelatingtoSafetyinput#2occurs.

cutting edge

Power
input

Outputs

Item

Operating voltage range

Rated power consumption (See Note1)

Safety output
OFF-delayed Safety output

Auxiliary output

Response time (ON to OFF state) (See Note2)

Note: Specications subject to change without notice.

OMRON Corporation (Manufacturer)

Shiokoji Horikawa, Shimogyo-ku, Kyoto, 600-8530 JAPAN

RegionalHeadquarters

OMRONEUROPEB.V.(ImporterinEU)

Wegalaan 67-69, 2132 JD Hoofddorp
The Netherlands
Tel: (31)2356-81-300/Fax: (31)2356-81-388

Contact:www.ia.omron.com

OMRONASIAPACIFICPTE.LTD.

No. 438A Alexandra Road # 05-05/08
(Lobby 2), Alexandra Technopark,
Singapore 119967
Tel: (65) 6835-3011/Fax: (65) 6835-2711

OMRON(CHINA)CO.,LTD.

Room 2211, Bank of China Tower,
200 Yin Cheng Zhong Road,
PuDong New Area, Shanghai, 200120, China
Tel: (86) 21-5037-2222/Fax: (86) 21-5037-2200

OMRONSCIENTIFICTECHNOLOGIESINC.

6550 Dumbarton Circle Fremont
CA 94555 U.S.A
Tel: (1) 510-608-3400/Fax: (1) 510-744-1442

[mm]

Type G9SE-221-T□Type G9SE-221-T□

Between input
and output
Between
dierent poles
of output
Between input
and output
Between
dierent poles
of output

2,200 VDC

6 kV (between 13-14/23-24 and 33-34/43-44(37-38/47-48))
4 kV (between 13-14 and 23-24,

between 33-34(37-38) and 43-44(47-48))

LED indicator

Wiring

Recommended driver:
Type XW4Z-00B manufactured by Omron
Type SZF0-0.4mmx2.5mm
manufactured by Phoenix contact

8

- Insulated ferrule: AWG24 to AWG16 (0.25 to 1.5 mm2)

- Crimp height(H): 2.0 mm max Width(W): 2.7 mm max. Conductor length: 8 to 10 mm
When using the twin type ferrule, use equal-sized wires and preferred insulated ferrule.
The twin type ferrule should not be above the adjoining release hole.

●How to insert solid wire and insulated ferrule

The wire should be pushed into the terminal block straight. No need to use the driver.
After inserting, make sure wire is fastened on to terminal block.

●How to release wire

Use the following minus drive to release wire from terminal block.
And

When releasing wire, the power source should be disconnected rst.

1. Push the driver lightly into the taper of release hole.

2. Pull out the wire while the driver is pushed into release hole.

3. Pull out the driver.

Terminal block may be damaged.

1. Not push the driver into the release hole straight.

2. Not push the driver into the release hole by force of 30N and over.

3. Not tip or twist the driver pushed into release hole.

●Precautions for Correct wiring

Fault Detection

When G9SE detects a fault, LED indicators blink to show the information of the fault.

When PWR indicator blinks, check and take needed measures referring to the following table. And then
apply supply voltage to G9SE.

7

PWR

1) Failures involving the wiring of
Safety input 1

1) Failures involving the wiring of
Safety input 2

1) Supply voltage outside the
rated value.

Expected causes of

the faults

Checking points and

measures to take

1) Check the wiring to T11 and T12.

When using stranded wire, insulated ferrule should be used. Use below insulated ferrule.
But do not use ferrule terminals if G9SE is used as UL Listing. Insert the strand or solid wire directly into the
holes on the terminal block.

■Recommended insulated ferrule: manufactured by Phoenix contact

Type

Single

AI 0,34-8TQ
AI 0,5-10WH
AI 0,75-10WH

AI 1-10RD
AI 1.5-10BK

Twin

AI TWIN2x0.75-10WH

Wire size

Cross section(mm

2

) AWG

0,34
0,5

0,75
1,0

1,5

2 x 0.75

22
20

18

18
16

Type G9SE-221-T□
＜Guard lock safety door switch (Mechanical Lock)・ 2-channel Safety limit switch inputs
/ Manual reset＞

A1

A2

T11 T12 T32 T33

13 23

14 24

T21 T22

T31

X1

24V

PLC etc.

M

KM2

KM1

S1

S3

M

:Safety limit switch

:Contactor
:3-phase motor

Device

Guard lock safety

door switch S2

Operation command

KM1,KM2 N.C. contact

KM1,KM2 N.O. contact

Reset switch S3

Timing chart

37

47

38 48

KM1 KM2

KM2

KM1

S2

KM1,KM2

:Guard lock safety
door switch
(Mechanical Lock)
:Reset switch

S3

Safety limit switch S1

14

Motor controller

Motor controller

(Operation command)

OFF-delay time

Rotation of motor

Blink

2)

Failures of the parts of the circuits

of Safety input 1.

2)

Failures of the parts of the circuits

of Safety input 2.

2) Replace with a new product.

H

W

Release hole

Wire

Front

φ2.5mm

2.5mm

Side

0.4mm

8～12°

Driver

Performance level and safety category (EN ISO13849-1)

Type G9SE can construct the condition conforming to PL=e and category 4 requested by EN ISO13849-1
European standard. This category class is recognized and based on the circuits we made, so we would like you
to conform the category class with G9SE at your application once. Category is judged by the condition of the
whole control system.

・ In order to category 4（EN ISO13849-1）

1) Input the signals to both of the Safety inputs (T11-T12 and T21-T22)

2) Input a signal to the Safety inputs (T11-T12 and T21-T22) through switches with Direct Opening
Mechanism. When using limit switches, at least one of them must have Direct Opening Mechanism.

And wiring must be done in a way that a short circuit between the wires of safety input can be
excluded.

3) When connecting Safety sensor with G9SE, use TYPE 4 safety sensor.

4) Input the signal through a NC contact of the contactor to Feedback/Reset input (T31-T32 for manual
reset or T31-T33 for auto reset).(Refer to '5.Examples of Application')

5) Be sure to connect

the negative terminal of DC power supply

to ground.

6) Use two safety outputs (e.g. 13-14 and 23-24) for the system construction.

6

To set Safety outputs in ON state, HIGH
state signals must be input to both of
Safety input 1 and Safety input 2.
Otherwise Safety outputs cannot be
inON state.

To set Safety outputs in ON state, ON
state signal must be input to T33.
Otherwise Safety outputs cannot be in
ON state.

To set Safety outputs in ON state, the
signal input to T32 must change from
OFF state to ON state, and then to OFF
state.

Otherwise Safety outputs cannot

be in ON state.

Turns ON/OFF according to the state of
safety inputs, Feedback/Reset inputs.
During o-delay state, safety outputs
are not able to turn ON.

O-delayed safety outputs.
(See Note1)
O-delay time is set by o-delay preset
switch.
When the delay time is set to zero,
these outputs can be used as
non-delay outputs.

Outputs a signal of the same logic as
Safety outputs

●Wiring of inputs and outputs

Signal
Name

Safety
input 1

Power
supply
input

Terminal
Name

T11,

T12

A1,
A2

Safety
input 2

T21,

T22

Reset/
Feedback
input

T31,

T32,

T33

WiringDescription of operation

1-channel

Safety input

2-channel

Safety input

Auto reset

Manual
reset

Safety
output

13-14,

O­delayed
Safety
output

Auxiliary
output

X1

Keep these outputs Open when NOT used.

Keep these outputs Open when NOT used.

Keep these outputs Open when NOT used.

The input terminals for power supply.
Connect the power source to the A1 and A2
terminals.

Connect the power supply plus to the A1
terminal.
Connect the power supply minus to the
A2 terminal.

Feedback loop

Feedback loop

T11 T12 T21 T22

+24V

T11 T12 T21 T22

T11 T12 T21 T22

KM

+24V

T31 T33T32

KM

+24V

T31 T33T32

Reset
Switch

23-24,
33-34,
43-44,

37-38,
47-48

●Connecting Safety Sensors and G9SE

640µsMax.

In many case, Safety Sensor outputs include the o-shot pulse for its self test.
The following condition of test pulse is applicable as safety inputs for G9SE.

- O-shot pulse width of the sensor, during the ON-state : 640 μs

(1) When the inputs of G9SE-221-T□ are restored during o-delay time, G9SE-221-T□ will operate
as below. Depending on the reset mode.

- Auto reset mode: Outputs turn o after o-delay time, then immediately turens on.

- Manual reset mode: Outputs turn o after o-delay time, then turn on when reset input is given.

IN1 IN2

OUT
OUT1

OUT2

Blink

Blink

Blink

Blink

The all indicators Blink

Blink

Safety inputs: ON-state

Light

Light

Safety inputs: OFF-state

Light Light

Blink

LED indicator

PWR

IN1 IN2

OUT

OUT1

OUT2

Use the following to wire to G9SE.

- Solid wire: AWG24 to AWG16 (0.25 to 1.5 mm

2

)

- Stranded wire: AWG24 to AWG16 (0.25 to 1.5 mm2)
Strip the cover of wire no longer than 8 to 10 mm

Blink

Blink

L

−

Safety sensor

OSSD1 OSSD2

S2

OPEN

S4

S1

KM2

KM1

Guard

Stop signal

Lock
release
signal

S4

:Lock release switch

Lock release signal

Lock release switch S4

Stop signal

Guard closed → opened

Guard can be opened.

●TerminalarrangementandLEDindicators

T33

T32

T31

X1

24

14

T21

23

T22

13

T12

T11

A1

A2

Type G9SE-401 Type G9SE-221-T□Type G9SE-201

PWR

IN1

IN2

OUT

PWR

IN1

IN2

OUT

PWR

IN1

IN2
OUT1

OUT2

T33

T32

T31

X1

44

34

T21

43

T22

33

T12

T11

A1

A2

24

14

23

13

T33

T32

T31

X1

48

38

T21

47

T22

37

T12

T11

A1

A2

24

14

23

13

5

Examples of application

Type G9SE-201
＜2-channel emergency stop switch input / Manual reset＞

A1

A2

T11 T12 T32 T33

13 23

Safety
Output
(Instant

aneous)

14 24

T21 T22

Reset/

Feedback

Input

Safety
Input1

Power

supply

circuit

Safety
Input2

T31

X1

Auxiliary

output

KM1 KM2

24V

PLC etc.

S1

KM2

KM1

Feedback loop

S2

M

KM2

KM1

S1

KM1,KM2
M

:Emergency stop switch

S2 :Reset switch

:Contactor
:3-phase motor

Device

Note1 : This example is corresponding to category 4

Emergency stop switch S1

KM1,KM2 NC contact

KM1,KM2 NO contact

Reset switch S2

Timing chart

Type G9SE-401
＜2-channel safety sensor / Auto reset＞

A1

A2

T11 T12 T32 T33

13 23

Safety

Output
(Instant
aneous)

14 24

T21 T22

Reset/

Feedback

Input

Safety
Input1

Power

supply

circuit

Safety
Input2

T31

X1

Auxiliary

output

KM1 KM2

24V

PLC etc.

KM4

KM3

Feedback loop

M1

KM2

KM1

KM1〜KM4
M1,M2

Safety sensor

:Contactor
:3-phase motor

Device

Note1 : This example is corresponding to category 4

Safety sesor outputs

KM1〜KM4 NC contact
KM1〜KM4 NO contact

Timing chart

33 43

34 44

KM3 KM4

M2

KM4

KM3

KM2

KM1

NC

NC

Safety
sensor

ReceiverEmitter

OSSD1

OSSD2

Reset/

Feedback

Input

Safety
Input1

Power
supply
circuit

Safety
Input2

Auxiliary

output

Safety
Output
(Instant
aneous)

Safety
Output

(OFF-

delay)

Feedback loop

Note1 : This example is corresponding to category 4

The all indicators Light o

up

up

o o

1) Check the wiring to T21 and T22.

2) Replace with a new product.

2)

Failures of the parts of the circuits

of Feedback/Reset input.

1)

Failures involving the wiring of

Feedback/Reset input.

1)

Check the wiring to T31, T32, and T33

2) Replace with a new product.

1) Replace with a new product.

1)

Failures of the parts or relays of the
circuits of instantaneous Safety
Output.

1) Mismatch

of the two O-delay

Time Preset Switches.

2)

Failures of the parts or relays of the
circuits of OFF-delay Safety Output.

1) Check

both of the two O-delay Time

Preset Switches.

2) Replace with a new product.

1) Check the supply voltage to G9SE.

1) By excessive electro-magnetic
disturbance.

2) Failures of the parts of internal
circuits

2) Replace with a new product.

1) Check the disturbance level around
G9SE and its related system.

When indicators other than PWR indicator blink while PWR indicator lights up, check and take needed
measures referring to the following table. After removing the fault, turn both safety inputs to OFF state.

Light

up

Safety inputs: ON-state

Light

o

Light

o

Expected causes of

the faults

Checking points and

measures to take

1) Mismatch

between Safety input 1
and Safety input 2.
(OFF timing)

1)

Check the wiring from safety input devices

to G9SE.

Or check the inputs sequence of

safety input devices.