ORD2212-2030 MEDER electronic, ORD2212-2030 Datasheet - Page 2

ORD2212-2030

Manufacturer Part Number

ORD2212-2030

Description

REED SWITCH 100VDC 10W AXL

Manufacturer

MEDER electronic

Series

ORDr

Type

Glass Bodyr

Datasheet

1.ORD213S-1-1015.pdf (2 pages)

Specifications of ORD2212-2030

Circuit

SPST-NO

Must Operate

20 ~ 30AT

Switching Current (dc) (max)

200mA

Switching Voltage (dc) (max)

100V

Switching Power (max)

10W

Magnet

Not Specified

Mounting Type

Non-Standard (Axial)

Termination Style

Axial (2 Leads)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Must Release

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Since the leads of a reed switch comprise

part of the magnetic circuit, shortening the

leads by cutting will cause the required

ampere turns for pull-in and drop-out to

increase as shown in Fig.3. When bending

the leads, make sure that the portion nearest

to the glass tube be gripped tightly by a jig as

shown in Fig.4, so that application of a

mechanical stress may not disfigure the

sealed portion.

Pull-in values differ from one manufacturer to next, due to differences in the

methods used to measure characteristic values stipulated by each individual

manufacturer. Therefore, differences also exist in the measurement conditions

(standard coils and lengths of reed switches may be different). Should there be

a need to compare the characteristic values of our reed switches, with those

produced by other manufacturers, it would be necessary to correlate the values.

Correlation of product attributes with the characteristic

values provided by other manufacturers for their products

Cutting or Bending of Leads

Electrical

Characteristics

Operating

Characteristics

Standard coil

Contact material

Features

Specifications

Contact

Pull-in

Drop-out

Contact resistance ( Initial )

Breakdown voltage

Insulation resistance

Electrostatic capacitance

Contact rating

Maximum carry current

Maximum switching voltage

Maximum switching current

Operate time

Bounce time

Release time

Resonant frequency

Maximum operating frequency

Type No.

Rh: Rhodium Ir: Iridium

Reed Switches

[AT]

[VA,W]

[ms]

[DCV]

[Hz]

[Ω]

Lead length to be cut

[mΩ]

[pF]

[A]

[V]

[A]

[Hz]

ORD234

20∼60

6min

100max

600min(PI≧35)

0.5max

DC50(W)/AC70(VA)

2.5

DC350/AC300

DC0.7/AC0.5

0.6max

0.5max

0.05max

2500±250

500

High breakdown

voltage

ORD229

min

ORD228VL

The pull-in values (four digit numbers) indicated on the

individual packaging of reed switches, are the range

values determined at the time of product sorting. The

certified pull-in values have a tolerance of ±2AT on

these range values. For example, the certified pull-in

value for ORD211 (2025) is 18 to 27AT.

Certified characteristic values of

reed switches

Fig.3

15∼60

7min

1000max

250min(PI≧20)

0.5max

DC50(W)/AC70(VA)

2.5

DC200/AC150

DC1.0/AC0.7

0.6max

0.5max

0.05max

2500±250

500

High power

ORD2210

min

Bending a lead

Cutting a lead

20∼60

7min

100max

1000min

0.5max

100

2.5

DC350/AC300

DC1.0

0.6max

0.5max

0.05max

2500±250

500

Vacuum

High power

ORD2210V

min

ORD2211

20∼60

8min

100max

200min(PI≧20)

0.3max

50(12V-3.4W Lamp)

2.5

DC100/AC100

0.5 In rush 3A

0.6max

0.4max

0.05max

4600±500

500

Lamp load

Jig

min

Fig.4

15∼45

DO/PI>0.8(PI>20)

100max

150min(PI≧20)

0.5max

0.5

DC100/AC100

DC0.2

0.4max

1.0max

0.05max

3900±500

500

Closed differential

type, Low sound

ORD2212

min

It is absolutely imperative that reed switches are not dropped.

Dropping a reed switch onto a hard surface, from a height of 30cm or more, can result in the

fatal deterioration of its features, so please be careful when handling reed switches. Further,

care should also be taken when machine processing the reed switches, as an impact arising

from such processes, can cause harm as well.

An ordinary soldering iron can be used (at 250 to 300 degrees Celsius) on the lead, as they

are processed with tin-plating. Please make sure that the soldering is performed at least 1mm

away from the edge of the glass. Please try to minimize the amount of processing time, as

prolonged application of heat by the soldering iron may cause abnormalities at the lead seals.

When installing on a printed circuit board, either lift the reed switch above the board surface,

as shown in Fig.5, or drill holes on the board to ensure that the glass on the reed switch does

not come into contact with the board.

Installation of reed switches

Dropping reed switches

15∼50

6min

100max

250min(PI>20)

0.5max

2.0

DC200/AC100

DC0.5

0.5max

0.05max

2200±300

500

Long life

ORD234

min

ORD9215

10∼50

4min

100max

150min

0.3max

1.0

DC100/AC100

DC0.4

0.4max

0.05max

3700±300

500

General purpose

miniature-type

min

ORD9216

10∼50

5min

100max

150min

0.3max

1.0

DC100/AC100

DC0.5

0.4max

0.3max

0.05max

5000±400

500

General purpose

miniature-type

min

ORT551

10∼30

4min

100max

200min(PI>20)

1.5max

0.5

DC30/AC30

DC0.2

1.0max

NO1.0,NC1.5max

0.5max

6000±4000

200

Ultra-miniature

transfer

min

ORD311

10∼30

5min

200max

250min

0.4max

1.0

DC100/AC100

DC0.5

0.3max

0.05max

13000±2000

500

Super ultra-

miniature long-life

min

ORD312

10∼30

5min

100max

250min

0.3max

1.0

DC200/AC100

DC0.5

0.4max

0.3max

0.05max

5900±400

500

High-power

long-life

min

board

Notes

Table 1

Fig.5

ORD2212-2030 MEDER electronic, ORD2212-2030 Datasheet - Page 2

ORD2212-2030

Specifications of ORD2212-2030

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