1
D2SW-P Sealed Subminiature Basic Switch
Sealed Basic Switch with Simplified
Construction, Mounting Compatible with
SS and D2SW Series.
Sealing by using rubber packing means the switch
can be used in dust-proof or in temporary water-
proof environments (IEC IP67).
Switch rating of 2A at 250 VAC possible with a
single-leaf movable spring. Models for micro loads
are also available.
Solder, quick-connect terminals (#110), PCB ter-
minals and molded lead
wires
are
available.
Even-pitched
PCB
terminals
are
also
standard-
ized.
Ordering Information
Model Number Legend
1. Ratings
2: 2A at 250 VAC
01: 0.1A at 30 VDC
2. Actuator
None: Pin plunger
L1: Hinge lever
L2: Hinge roller lever
L3: Simulated roller lever
3. Contact Form
None: SPDT
-2: SPST-NC (Molded lead wire models only)
-3: SPST-NO (Molded lead wire models only)
4. Terminals
H : Solder terminals
D : PCB terminals (Uneven pitch)
T : Quick-connect terminals (#110)
M: Molded lead wires
RoHS Compliant
D2SW-P @@@@
1 2 3 4
2
D2SW-PD2SW-P
List of Models
Note Consult your OMRON sales representative for details on SPST-NO and SPST-NC models.
Specifications
Ratings
Note The ratings values apply under the following test conditions.
Ambient temperature: 20±2°C
Ambient humidity: 65±5%
Operating frequency: 20 operations/min
Characteristics
Note: 1. The data given above are initial values.
2. The dielectric strength shown in the table indicates a value for models with a Separator.
3. For the pin plunger models, the above values apply for both the free position and total travel position. For the lever models, the
values apply at the total travel position. Contact opening or closing time is within 1ms.
4. Consult your OMRON sales representative for testing conditions.
5. The test to meet standards checks for water intrusion after immersion for 30 minutes. The test does not check for switching op-
eration underwater. Refer to "Degree of Protection" of "Instructions for Correct Use".
Terminal Solder terminals PCB terminals Quick-connect terminals
(#110) Molded lead wires
Rating Actuator
2A Pin plunger D2SW-P2H D2SW-P2D D2SW-P2T D2SW-P2M
Hinge lever D2SW-P2L1H D2SW-P2L1D D2SW-P2L1T D2SW-P2L1M
Hinge roller le-
ver D2SW-P2L2H D2SW-P2L2D D2SW-P2L2T D2SW-P2L2M
Simulated roll-
er lever D2SW-P2L3H D2SW-P2L3D D2SW-P2L3T D2SW-P2L3M
0.1A Pin plunger D2SW-P01H D2SW-P01D D2SW-P01T D2SW-P01M
Hinge lever D2SW-P01L1H D2SW-P01L1D D2SW-P01L1T D2SW-P01L1M
Hinge roller le-
ver D2SW-P01L2H D2SW-P01L2D D2SW-P01L2T D2SW-P01L2M
Simulated roll-
er lever D2SW-P01L3H D2SW-P01L3D D2SW-P01L3T D2SW-P01L3M
Model Rated voltage Resistive load
D2SW-P2 30 VDC 2 A
250 VAC
D2SW-P01 30 VDC 0.1 A
125 VAC
Item Model D2SW-P2 D2SW-P01
Operating speed 0.1 mm to 500 mm/s (pin plunger models)
Operating frequency Machanical : 120 operations/min max.
Electrical : 20 operations/min max.
Insulation resistance 100 M min. (at 500 VDC)
Contact resistance (initial value) Terminal models : 50 m max.
Molded lead wire models : 100 m max.
Terminal models : 100 m max.
Molded lead wire models : 150 m max.
Dielectric strength (see note 2) 1,000 VAC, 50/60 Hz for 1 min between terminals
of the same polarities
600 VAC, 50/60 Hz for 1 min between terminals
of the same polarities
1,500 VAC, 50/60 Hz for 1 min between current-carrying metal parts and ground, and between each
terminal and non-current-carrying metal parts
Vibration resistance (see note 3) Malfunction: 10 to 55 Hz, 1.5-mm double amplitude
Shock resistance (see note 3) Destruction: 1,000 m/s2 {approx. 100G} max.
Malfunction: 300 m/s2 {approx.30G} max.
Durability (see note 4) Mechanical: 1,000,000 operations min.
(60 operations/min.)
Electrical: 50,000 operations min.
(20 operations/min.)
Mechanical: 1,000,000 operations min.
(60 operations/min.)
Electrical: 200,000 operations min.
(20 operations/min)
Degree of protection IEC IP67 (see note 5)
(excluding the terminals on terminal models)
Degree of protection against electric shock Class 1
Proof tracking index (PTI) 175
Ambient operating temperature 20°Cto 70°C (at ambient humidity of 60% max.) (with no icing or condensation)
Ambient operating humidity 85% max. (for 5°C to 35°C)
Weight Approx. 2 g (pin plunger models with terminals)
3
D2SW-PD2SW-P
Approved Standards
Consult your OMRON sales representative for specific models
with standard approval.
UL1054 (File No. E41515)
/CSA C22.2 No. 55 (UL approval)
EN61058-1 (File No.85002, VDE approval)
Testing condition: 5E4 (50,000 operating), T55 (0°C to 55°C)
Contact Specifications
Note For more information on the minimum applicable load, re-
fer to Using Micro Loads on page 6.
Contact Form
Note Lead wire colors are indicated in parentheses.
Dimensions
Terminals
Note: 1. All units are in millimeters unless otherwise indicated.
2. Terminal plate thickness is 0.5 mm for all models.
Solder Terminals
PCB Terminals (Uneven pitch)
PCB Mounting Dimensions (Reference)
Rated voltage D2SW-P2 D2SW-P01
125 VAC
250 VAC
---
2 A
0.1 A
---
30 VDC 2 A 0.1 A
Rated voltage D2SW-3 D2SW-01
125 VAC --- 0.1 A
250 VAC 2 A ---
30 VDC 2 A 0.1 A
Item Model D2SW-P2 D2SW-P01
Contact Specification Rivet Crossbar
Material Silver alloy Gold alloy
Gap
(Standard value)
0.5 mm
Minimum applicable load
(see note)
160 mA at 5
VDC
1 mA at 5 VDC
SPDT
SPST-NC
(Molded lead wire models only)
SPST-NO
(Molded lead wire models only)
COM NO NC
(Black) (Blue) (Red)
COM NC
(Black) (Red)
COM NO
(Black) (Blue)
NC
NCC
0.5
6.4±
0.2
3.2
2.15 8.55
9.5±
0.1
19.8±
0.2
3.3±
0.1
5.15
7.3
15.5
Three, 1.6-dia. Holes
0.5
1.3
6.4±
0.2
3.3±
0.1
3-1.2
3-0.8
1.85
16.1±
0.2
9.5±
0.1
5.15
19.8±
0.2
8.8
±
0.2
3.9
1.8
16.1±0.1
8.8±0.1 Three,-1.35 to 1.5 dia.
4
D2SW-PD2SW-P
Quick-connect Terminals (#110)
PCB Terminals (Even pitch)
PCB Mounting Dimensions (Reference)
Molded Lead Wires
Mounting Holes
Dimensions and Operating Characteristics
Note: 1. All units are in millimeters unless otherwise indicated.
2. The following illustrations and drawings are for solder terminal models. Refer to page 3 for details on models with quick-connect
terminals (#110) or PCB terminals or molded lead wires.
3. The @ in the model number is for the contact form code or the terminal code.
4. Unless otherwise specified, a tolerance of ±0.4 mm applies to all dimensions.
0.5
6.4±
0.
2
7.6±
0.2
7.6±
0.2
9.5±
0.1
19.8±
0.2
3.3±
0.1
3-2.8
5.15
11 7.1
3.3±0.1
3-1.2
3-0.8
19.8±0.2
7.62
±
0.2
7.62
±
0.2
0.5
1.3
6.4±0.2
3.9
1.8
9.5±0.1
5.15
7.62±0.1 7.62±0.1 Three, 1.35 to 1.5 dia.
300±10
6.4±
0.2
9.2
(5)
21.2
9.5±
0.1
5.15
Normally closed
terminal (red)
Normally open
terminal (blue)
Common terminal (black)
0.7
Insulator
Stranded annealed
copper wites
9.5±
0.1
Two, M2.3 screw hole
5
D2SW-PD2SW-P
5. The operating characteristics are for operation in the A direction ( ).
0.5
6.4±
0.2
3.2
2.15 8.55
9.5±
0.1
7.55±
0.2
A
19.8±
0.2
2.5±
0.07
dia.
3.3±
0.1
5.15
15.5
Three, 1.6 dia. holes
7.76.9
1.8
dia.
2.35
dia.
+0.075
0.05
2.35
+0.075
0.05
PT
OP
7.3
0.5
6.4±0.2
A
3.2
2.15 8.55
9.5±0.1
2.5±0.07 dia.
19.8±0.2
5.15
15.5
Three, 1.6 dia. holes
2.35+0.075
0.05
2.35 dia.
+0.075
0.05
7.3
t=0.3 Stainless-steel lever 14.5±0.6
3.3±0.1
FP
OP
7.7
6.9
Pin Plunger Models
D2SW-P2@@
D2SW-P01@@ OF max.
RF min.
1.8 N {183 gf}
0.2 N {20 gf}
PT max.
OT min.
MD max.
0.6 mm
0.4 mm
0.15 mm
OP 8.4±0.3 mm
OF max.
RF min.
0.6 N {61 gf}
0.05 N {5 gf}
OT min.
MD max.
0.8 mm
0.8 mm
FP max.
OP
13.6 mm
8.8±0.8 mm
Hinge Lever Models
D2SW-P2L1@@
D2SW-P01L1@@
0.5
6.4±0.2
A
3.2
2.15 8.55
9.5±0.1
2.5±0.07 dia.
19.8±0.2
5.15
15.5
Three, 1.6 dia. holes
2.35+0.075
-0.05
2.35 dia.
+0.075
-0.05
7.3
t=0.3 Stainless-steel lever 14.5±0.6
3.3±0.1
FP
OP
7.7
6.9
dia. 4.8 x 3.2
Polyacetal resin roller OF max.
RF min.
0.6 N {61 gf}
0.05 N {5 gf}
OT min.
MD max.
0.8 mm
0.8 mm
FP max.
OP
19.3 mm
14.5±0.8 mm
OF max.
RF min.
0.6 N {61 gf}
0.05 N {5 gf}
OT min.
MD max.
0.8 mm
0.8 mm
FP max.
OP
15.5 mm
10.7±0.8 mm
Hinge Roller Lever Models
D2SW-P2L2@@
D2SW-P01L2@@
Simulated Roller Lever Models
D2SW-P2L3@@
D2SW-P01L3@@
0.5
6.4±
0.2
A
3.2
2.15 8.55
9.5±
0.1
2.5±
0.07
dia.
19.8±
0.2
5.15
15.5
Three, 1.6 dia. holes
2.35
+0.075
0.05
2.35
dia.
R1.3
+0.075
0.05
7.3
t=0.3 Stainless-steel lever 15.8±
0.6
3.3±
0.1
FP
OP
7.7
6.9
6
D2SW-PD2SW-P
Precautions
Refer to General Information.
Cautions
Degree of Protection
Do not use this product in water. Although this models satisfy the
test conditions for the standard given below, this test is to check
the ingress of water into the switch enclosure after submerging
the Switch in water for a given time. Satisfying this test condition
does not mean that the Switch can be used in water.
IEC 60529: 2001 Degrees of protection provided by enclosures
(IP Code)
Code: IP67 (The test to meet the standard checks for water intru-
sion after immersion for 30 minutes.)
Do not operate the Switch when it is exposed to water spray, or
when water drops adhere to the Switch surface, or during sudden
temperature changes, otherwise water may intrude into the inte-
rior of the Switch due to a suction effect.
Prevent the Switch from coming into contact with oil and chemi-
cals. Otherwise, damage to or deterioration of Switch materials
may result.
Do not use the Switch in areas where it is exposed to silicon
adhesives, oil, or grease, otherwise faulty contact may result due
to the generation of silicon oxide.
The environment-resistant performance of the switch differs
depending on operating loads, ambient atmospheres, and instal-
lation conditions, etc. Please perform an operating test of the
switch in advance under actual usage conditions.
Connecting to Terminals
Connecting to Solder Terminals
When soldering the lead wire to the terminal, first insert the lead
wire conductor through the terminal hole and the conduct solder-
ing.
Make sure that the temperature at the tip of the soldering iron is
350 to 400°C. Do not take more than 3 seconds to solder the
switch terminal, and do not impose external force on the terminal
for 1 min after soldering. Improper soldering involving an exces-
sively high temperature or excessive soldering time may deterio-
rate the characteristics of the Switch.
Connecting to Quick-connect Terminals
Wire the quick-connect terminals (#110) with receptacles. Insert
the terminals straight into the receptacles. Do not impose exces-
sive force on the terminal in the horizontal direction, otherwise the
terminal may be deformed or the housing may be damaged.
Connecting to PCB Terminal Boards
When using automatic soldering baths, we recommend soldering
at 260±5°C within 5 seconds. Make sure that the liquid surface of
the solder does not flow over the edge of the board.
When soldering by hand, as a guideline, solder with a soldering
iron with a tip temperature of 350 to 400°C within 3 seconds, and
do not apply any external force for at least 1 minutes after solder-
ing. When applying solder, keep the solder away from the case of
the Switch and do not allow solder or flux to enter the case.
Side-actuated (Cam/Dog) Operation
When using a cam or dog to operate the Switch, factors such as
the operating speed, operating frequency, push-button indenta-
tion, and material and shape of the cam or dog will affect the
durability of the Switch. Confirm performance specifications under
actual operation conditions before using the Switch in applica-
tions.
Correct Use
Mounting
Turn OFF the power supply before mounting or removing the
Switch, wiring, or performing maintenance or inspection. Failure
to do so may result in electric shock or burning.
Use M2.3 mounting screws with plane washers or spring washers
to securely mount the Switch. Tighten the screws to a torque of
0.23 to 0.26 N·m {2.3 to 2.7 kgf·cm}. Exceeding the specified
torgue may result in deterioration of the sealing or damage.
Mount the Switch onto a flat surface. Mounting on an uneven sur-
face may cause deformation of the Switch, resulting in faulty oper-
ation or damage.
Operating Body
Use an operating body with low frictional resistance and of a
shape that will not interfere with the sealing rubber, otherwise the
plunger may be damaged or the sealing may deteriorate.
With the pin plunger models, set the Switch so that the plunger
can be pushed in from directly above. Since the plunger is cov-
ered with a rubber cap, applying a force from lateral directions
may cause damage to the plunger or reduction in the sealing
capability.
Handling
Do not handle the Switch in a way that may cause damage to the
sealing rubber.
When handling the Switch, ensure that uneven pressure or, as
shown in the following diagram, pressure in a direction other than
the operating direction is not applied to the Actuator, otherwise
the Actuator or Switch may be damaged, or durability may be
decreased.
Wiring Molded Lead Wire Models
When wiring molded lead wire models, ensure that there is no
weight on the wire or that there are no sharp bends near the parts
where the wire is drawn out. Otherwise, damage to the Switch or
deterioration in the sealing may result.
Operating Stroke Setting
Set the operating stroke so that the actuator is completely disen-
gaged when the switch is in the free position (FP), and is pushed
to a point between 60% and 90% of the OT distance after the
switch is operated.
Insufficient or excessive pushing of the actuator may result in
decreased switch durability or damage to the switch.
Using Micro Loads
Using a model for ordinary loads to open or close the contact of a
micro load circuit may result in a faulty contact. Use models that
operate in the following range. However, even when using micro
load models within the operating range shown below, if inrush
current occurs when the contact is opened or closed, it may
increase contact wear and so decrease durability. Therefore,
insert a contact protection circuit where necessary. The minimum
applicable load is the N-level reference value. This value indicates
the malfunction reference level for the reliability level of 60%
(λ60).
Incorrect Incorrect
Correct
7
D2SW-PD2SW-P
The equation, λ60 = 0.5 × 10 -6/operations indicates that the esti-
mated malfunction rate is less than 1/2,000,000 operations with a
reliability level of 60%.
30
24
12
5
0
1 10 100 1,0000.1
1mA
26mA0.16mA
100mA 160mA
100mA
Voltage (V)
Operating range for
micro load models
D2SW-P01
Operating
range for
general-load
models
D2SW-P2
Inoperable
range
Current (mA)
ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.
To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527.
Cat. No. B109-E1-03