A16-1NGN Omron, A16-1NGN Datasheet - Page 30

A16-1NGN

Manufacturer Part Number

A16-1NGN

Description

NEON LAMP 110V GREEN FOR A16

Manufacturer

Omron

Type

Neon Lamp, 110 VoltsACr

Series

A16r

Datasheets

1.M2DA-7001.pdf (265 pages)

2.A16-1NRN.pdf (30 pages)

3.A16-2.pdf (27 pages)

4.A165-CAA.pdf (17 pages)

Specifications of A16-1NGN

Accessory Type

Neon Lamp Replacement

Supply Voltage

110V

Base Type

Bi-Pin

Colour

Green

Current Rating

1.5mA

Svhc

No SVHC (15-Dec-2010)

Illumination Colour

Green

Operating Lifetime

10000h

Voltage Rating Vac

110V

Average Bulb Lif

RoHS Compliant

Color

Green

Illumination

Illuminated

Height

13 mm

Illumination Color

Green

Mounting Style

Snap In

Termination Style

Tabs

Lamp Base Type

Bi-Pin

Rohs Compliant

Yes

Average Bulb Life

10000h

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

A16 Series

For Use With

Z1396 - SWTCH KNOB RND 3POS DPDT ILL GRNZ1393 - SWTCH KNOB RND 2POS SPDT ILL GRNZ1390 - SWTCH KNOB RND 2POS SPDT ILL GRNZ1384 - SWITCH KNB RECT 3POS DPDT ILLZ1381 - SWITCH KNB RECT 2POS SPDT ILLZ1378 - SWITCH KNB RECT 2POS SPDT ILLZ1372 - SWITCH KNOB SQ 3-POS DPDT ILLZ1369 - SWITCH KNOB SQ 2-POS SPDT ILLZ1366 - SWITCH KNOB SQ 2-POS SPDT ILLZ1308 - SWITCH PB RND MOM DPDT ILLUM GRNZ1304 - SWITCH PB RECT MOM DPDT ILLUMZ1300 - SWITCH PB SQ MOM DPDT ILLUM GRN

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

A161NGN
Z1343

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A3D

Precautions

Refer to the Common Precautions for Pushbutton Switches on

page 14.

Correct Use

Mounting

Always make sure that the power is turned OFF before mounting,

removing, or wiring the Switch, or performing maintenance.

Do not tighten the mounting ring excessively using pliers or a similar

tool. Excessive tightening may damage the mounting ring. (Tighten-

ing torque: 0.20 to 0.29 N⋅m)

Wiring

When wiring, use wires of a size appropriate for the applied voltage

and carry current. Perform soldering correctly under the conditions

given below. Using the Switch with the wires soldered incorrectly

may cause the terminals to become abnormally hot and cause a fire.

Wait for one minute after soldering before exerting any external

force on the solder.

Use a non-corrosive rosin liquid for the flux.

Perform wiring so that the wire sheaths do not come into contact

with the Switch. If this is unavoidable, use wires that can withstand

temperatures of 100°C min.

After wiring to the Switch has been completed, ensure an appropri-

ate insulation distance.

LED

The polarity of the LED is indicated on the back of the Switch. Wire

the LED correctly according to the polarity.

The built-in LED does not have a limiting resistor. Connect a limiting

resistor.

Make sure that the limiting resistor satisfies the characteristics of

the built-in LED. The forward current of the built-in LED must be

8 mA minimum.

The resistance can be calculated by using the following expression.

Recommended Values for Limiting Resistance

Note: The above values are calculated values that can be used as

Cat. No. A031-E1-05

5 VDC

12 VDC

24 VDC

1. Hand soldering: At 30 W within 5 seconds.

2. Dip soldering: At 240°C within 3 seconds.

R = (E –V

Voltage

: LED forward voltage (V)

reference.

Operating voltage (V)

LED forward current (A)

)/I

165 Ω

515 Ω

1,100 Ω

(Ω)

ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.

To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527.

Red

140 Ω

490 Ω

1,090 Ω

(White)

Yellow

145 Ω

495 Ω

1,095 Ω

Green

Calculation Example for Limiting Resistance

Conditions: Red LED with an I

From the red LED characteristic given previously, V

when I

Thus the recommended resistance is 1.1 kΩ at 1 W (2 x I

note)

Note: A factor of 2 is applied because the permissible wattage of

Operating Environment

Ensure that dust, metal powder, or oil do not enter the interior of the

Switch.

Using Microloads

Using a standard load switch for opening and closing a microload

circuit may cause wear on the contacts. Use the switch within the

operating range. (Refer to the diagram below.) Even when using mi-

croload models within the operating range shown below, if inrush

current occurs when the contact is opened or closed, it may cause

the contact surface to become rough, and so decrease life expec-

tancy. Therefore, insert a contact protection circuit where neces-

sary. The minimum applicable load is the N-level reference value.

This value indicates the malfunction reference level for the reliability

level of 60% (λ 60) (conforming to JIS C5003). The equation, λ 60 =

0.5 x 10

than 1/2,000,000 with a reliability level of 60%.

–4

the resistor must be twice as large as the required wattage.

is 20 mA. Therefore, R = (24 V – 1.7 V)/0.02 A = 1,100 Ω.

/times indicates that the estimated malfunction rate is less

Invalid

area

Microload

area

of 20 mA at 24 V and a Ta of 25°C.

Current (mA)

Standard

load area

will be 1.7 V

R). (see

A3D

A16-1NGN Omron, A16-1NGN Datasheet - Page 30

A16-1NGN

Specifications of A16-1NGN

Related parts for A16-1NGN