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1
J2R0002-41-31
REED SWITCHData Book2010 Introduction
Application Notes
Data Sheet
�
�
�
CONTENTS
REED SWITCH
J2R0003-41-31
1. INTRODUCTION ....................................................................................................................... 1REED SWITCH TYPICAL CHARACTERISTICS ................................................................... 3GENERAL DESCRIPTION ........................................................................................................ 6
1. Reed Switch Characteristics ................................................................................................ 62. Applications ......................................................................................................................... 63. Structure and Operating Principles ..................................................................................... 74. Permanent Magnet Drive .................................................................................................... 84-1. Permanent Magnet Drive Method ................................................................................... 84-2. Permanent Magnet Drive Characteristics ........................................................................ 94-3. ORD228VL Magnet Drive Characteristics Example ...................................................... 10
REED SWITCH RELIABILITY ................................................................................................ 12PRECAUTIONS AND APPLICATIONS ................................................................................... 20DESCRIPTION OF SYMBOLS AND TERMS ......................................................................... 24
2. APPLICATION NOTES ............................................................................................................. 293. DATA SHEETS ........................................................................................................................... 37
ORD213 ....................................................................................................................................... 39ORD311 ....................................................................................................................................... 47ORD211 ....................................................................................................................................... 55ORD219 ....................................................................................................................................... 63ORD312 ....................................................................................................................................... 71ORD221 ....................................................................................................................................... 79ORD2221 ..................................................................................................................................... 87ORD228VL .................................................................................................................................. 95ORD324 ....................................................................................................................................... 103ORD324H .................................................................................................................................... 111ORD325 ....................................................................................................................................... 119ORD229 ....................................................................................................................................... 127ORD2210 ..................................................................................................................................... 135ORD2210V .................................................................................................................................. 143ORD2211 ..................................................................................................................................... 151ORD2211H .................................................................................................................................. 159ORT551 ........................................................................................................................................ 167RA-901 ......................................................................................................................................... 175RA-903 ......................................................................................................................................... 183
1
�INTRODUCTION
GENERAL DESCRIPTION, RELIABILITY, PRECAUTIONS, DESCRIPTION OF SYMBOLS AND TERMS
3
�
lREED SWITCH TYPICAL CHARACTERISTICS
J2R0005-41-31
UL File # E70063
OR
D32
4H
OR
D32
4 O
RD
228V
L O
RD
2221
O
RD
221
OR
D31
2 O
RD
219
OR
D21
1 O
RD
311
OR
D21
3 Pa
rt N
o.1A
1A1A
1A(
OFF
SET)
1A(
OFF
SET)
1A1A
1A1A
1AC
onta
ct fo
rm
Electri
cal Cha
racteris
tics
10~
4010~
4010~
4010~
3010~
3010~
4010~
4010~
4010~
4010~
40Pu
ll-in
[A
T]3m
in4m
in5m
in5m
in5m
in5m
in5m
in5m
in5m
in5m
inD
rop-
out
[AT]
100m
ax10
0max
100m
ax10
0max
100m
ax10
0max
100m
ax10
0max
200m
ax20
0max
Conta
ct res
istan
ce (I
nitial
) [mΩ
]25
0min
250m
in20
0min(
PI≧
20)
200m
in(
PI≧
20)
200m
in(
PI≧
20)
250m
in20
0min(
PI≧
20)
150m
in25
0min
150m
inBr
eakd
own
volta
ge [
DCV]
1010m
in10
10m
in10
9 min
109 m
in10
9 min
109 m
in10
9 min
109 m
in10
9 min
109 m
inIn
sula
tion
resi
stan
ce [
Ω]
0.3m
ax0.
3max
0.3m
ax0.
3max
0.3m
ax0.
3max
0.3m
ax0.
2max
0.4m
ax0.
4max
Elec
trosta
tic ca
pacit
ance
[pF
]10
1010
1010
3010
1.0
101.
0C
onta
ct ra
ting
[VA
, W]
DC
200/
AC
150
DC
200/
AC
150
DC
100/
AC
100
DC
100/
AC
100
DC
100/
AC
100
DC
200/
AC
100
DC
100/
AC
100
DC
24/A
C24
DC
100/
AC
100
DC
24/A
C24
Maxim
um sw
itchin
g volt
age
[V]
DC
0.5
DC
0.5
DC
0.5
DC
0.3
DC
0.3
DC
0.5
DC
0.5
DC
0.1
DC
0.5
DC
0.1
Maxim
um sw
itchin
g curr
ent
[A]
1.0
1.0
1.0
1.0
1.0
1.0
1.0
0.3
1.0
0.3
Max
imum
carry
curre
nt [
A]
0.4m
ax0.
4max
0.4m
ax1.
0max
0.4m
ax0.
4max
0.4m
ax0.
3max
0.3m
ax0.
3max
Ope
rate
tim
e [m
s]
Operati
ng Cha
racteris
tics
0.3m
ax0.
3max
0.3m
ax1.
0max
0.5m
ax0.
3max
0.3m
ax0.
3max
0.3m
ax0.
3max
Bou
nce
time
[ms]
0.05
max
0.05
max
0.05
max
0.05
max
0.05
max
0.05
max
0.05
max
0.05
max
0.05
max
0.05
max
Rel
ease
tim
e [m
s]50
00±
400
5000±
400
5000±
400
2750±
250
2750±
250
5900±
400
5900±
400
7500±
500
1300
0±
2000
1100
0±
2000
Res
onan
t fre
quen
cy [H
z]50
050
050
050
050
050
050
050
050
050
0Ma
ximum
opera
ting f
requen
cy [H
z]45
045
045
045
045
045
045
060
060
060
0C
oil r
esis
tanc
e [Ω
]St
anda
rdCo
il50
0050
0050
0050
0050
0050
0050
0050
0050
0050
00N
umbe
r of t
urns
[T
]Φ
3.7×
15Φ
3.7×
15Φ
3.7×
15Φ
3.7×
15Φ
3.7×
15Φ
3.7×
15Φ
3.7×
15Φ
3.3×
10Φ
3.3×
10Φ
3.3×
10D
imen
sion
[m
m]
66
66
66
68
88
Part
No.
[N
o.]
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
Ope
ratin
g Te
mpe
ratu
re R
ange
Gen
eral
pu
rpos
e m
inia
ture
-type
, lo
ng
reed
(Rh)
Gen
eral
pu
rpos
e m
inia
ture
-type
(Rh)
Min
iatu
re
high
-pe
rform
ance
(Rh)
Min
iatu
re
Offs
et,
Long
Le
ad
Type
(Rh)
Min
iatu
re
offs
et-
type
(Rh)
Hig
h-po
wer
lon
g-lif
e (I
r)M
inia
ture
hi
gh-
perfo
rman
ce (R
h)U
ltra-
min
iatu
re (R
h)Su
per u
ltra-m
inia
ture
lo
ng-li
fe (I
r : Ir
idiu
m)
Supe
r ultr
a-m
inia
ture
(Rh
: Rho
dium
)Fe
atur
es [C
onta
ct m
ater
ial]
111
103
9587
7971
6355
4739
Page
4
�
l REED SWITCH TYPICAL CHARACTERISTICS
UL File # E70063
RA
-903
R
A-9
01
ORT
551
OR
D22
11H
O
RD
2211
O
RD
2210
V
OR
D22
10
OR
D22
9 O
RD
325
Part
No.
1A1A
1C1A
1A1A
1A1A
1AC
onta
ct
Electri
cal Cha
racteris
tics
16~
4615~
4910~
3020~
4020~
4020~
6015~
6020~
6010~
40Pu
ll-in
[A
T]10
min
10m
in4m
in8m
in8m
in7m
in7m
in6m
in4m
inD
rop-
out
[AT]
200m
ax10
0max
100m
ax10
0max
100m
ax10
0max
100m
ax10
0max
100m
axCo
ntact
resist
ance
(Init
ial) [
mΩ]
150m
in20
0min
200m
in(
PI≧
20)
200m
in20
0min
1000
min
250m
in(
PI≧
20)
600m
in(
PI≧
35)
250m
inBr
eakd
own
volta
ge [
DCV]
109 m
in10
9 min
109 m
in10
9 min
109 m
in10
10m
in10
10m
in10
10m
in10
10m
inIn
sula
tion
resi
stan
ce [
Ω]
0.4m
ax0.
3max
1.5m
ax0.
3max
0.3m
ax0.
5max
0.5m
ax0.
5max
0.3m
axEl
ectro
static
capa
citan
ce [
pF]
1.0
103
50(
12V-
3.4W
Lam
p)50(
12V-
3.4W
Lam
p)10
0D
C50
W/A
C70
VAD
C50
W/A
C70
VA10
Con
tact
ratin
g [V
A, W
]D
C24
/AC
24D
C10
0/A
C10
0D
C30
/AC
30D
C10
0/A
C10
0D
C10
0/A
C10
0D
C35
0/A
C30
0D
C20
0/A
C15
0D
C35
0/A
C30
0D
C20
0/A
C15
0Ma
ximum
switc
hing v
oltag
e [V
]D
C0.
1D
C0.
5D
C0.
2D
C0.
50.
5 In
rush
3A
DC
1.0
DC
1.0/
AC
0.7
DC
0.7/
AC
0.5
DC
0.5
Maxim
um sw
itchin
g curr
ent
[A]
0.3
1.0
0.5
2.5
2.5
2.5
2.5
2.5
1.0
Max
imum
carry
curre
nt [
A]
0.3m
ax0.
4max
1.0m
ax0.
6max
0.6m
ax0.
6max
0.6m
ax0.
6max
0.4m
axO
pera
te ti
me
[ms]
Operati
ng Cha
racteris
tics
0.3m
ax0.
3max
NO1.
0max、
NC1.
5max
0.4m
ax0.
4max
0.5m
ax0.
5max
0.5m
ax0.
4max
Bou
nce
time
[ms]
0.05
max
0.05
max
0.5m
ax0.
05m
ax0.
05m
ax0.
05m
ax0.
05m
ax0.
05m
ax0.
05m
axR
elea
se ti
me
[ms]
1300
0typ
5400
typ
6000±
4000
4600±
400
4600±
400
2500±
250
2500±
250
2500±
250
3700±
300
Res
onan
t fre
quen
cy [H
z]50
050
020
050
050
050
050
050
050
0Ma
ximum
opera
ting f
requen
cy [H
z]93
053
055
045
045
050
050
050
045
0C
oil r
esis
tanc
e [Ω
]St
anda
rdCo
il50
0050
0050
0050
0050
0050
0050
0050
0050
00N
umbe
r of t
urns
[T
]Φ
4.4×
5Φ
5.0×
12Φ
4.6×
10Φ
3.7×
15Φ
3.7×
15Φ
4.6×
21Φ
4.6×
21Φ
4.6×
21Φ
3.7×
15D
imen
sion
[m
m]
903
901
106
63
33
6Pa
rt N
o.
[No.
]-
40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
-40℃~+
125℃
Ope
ratin
g Te
mpe
ratu
re R
ange
Ultr
a-min
iatu
re S
MD
(Rh)
Min
iatu
re S
MD
(Rh)
Ultr
a-min
iatu
re
trans
fer (
Rh)
Lam
p Lo
ad,
Long
Le
ad T
ype
(Rh)
Lam
p lo
ad (R
h)Va
cuum
Hig
h po
wer
(R
h)H
igh
pow
er (R
h)H
igh
brea
kdow
n Vo
ltage
(Rh)
Gen
eral
pu
rpos
e m
inia
ture
-type
(Rh)
Feat
ures
[Con
tact
mat
eria
l]
183
175
167
159
151
143
135
127
119
Page
5
�
Environmental Characteristics Environmental conditions are the same for all models of reed switches.
Remark
Characteristics (common to all types)
Shock
Vibration
Temperature range
Lead tensile strength
Test Conditions Remarks
1
2
3
4
lREED SWITCH TYPICAL CHARACTERISTICS
1. If shock in excess of 294m/s2 is applied to a reed switch the pull-in value is subject to change from standard specifications.
2. Due to resonant frequency a reed switch may not operate properly if vibration is applied in excess of 2KHz (even minute acceleration).
3. Although a reed switch can operate beyond its specified range, mounting conditions need to be verified. Demagnetization may also occur due to temperature characteristics of permanent magnets (even at lower temperature ranges).
4. ORD213 and ORD311 will withstand a tensile static load of 14.7 N.
The UL recognition number for our reed switches is E70063.
Our reed switches comply with the ELV Directive (2000/53/EC) and the RoHS Directive (2002/95/EC).
Will operate normally with vibration of up to 196m/s2 (10-2000Hz)
Will operate normally with shock of up to 294m/s2 (11 msec)
Will operate normally between temperatures of -40℃ ~ +125℃
Will withstand 22.2N static load
MIL-STD-202G METHOD 213B-J
MIL-STD-202G METHOD 204D-D
–
MIL-STD-202G METHOD 211A
6
�
J2R0006-38-21
GENERAL DESCRIPTIONl
GENERAL DESCRIPTION The reed switch was invented by Dr. W. B.
Ellwood at Bell Telephone Laboratories in 1936. The first application was made during 1938 when the reed switch was used as a selector switch in coaxial carrier equipment. Later, reed switch improvements were made in parallel with the development of the telecommunications technology. At the same time, the advantages of reed switches such as speedy response time, hermetically sealed contacts, compact size and long mechanical life have contributed greatly to the development of telecommunications technology.
From 1956, when research and development on reed switches began in Japan, innovations have been made in improving contact performance, reducing overall size, improving manufacturing methods and reducing manufacturing cost. In addition to applications in switching systems, broad applications have been developed as sensors and controllers in automobile electrical devices, reed relays, and other instruments of various types.
Boasting extreme superior quality, our reed switches are manufactured by adopting our very own surface deactivation technology, high performance automatic sealing machines, and contact resistance technology employing our reputed magnetic flux scanning method. In particular, our pivotal surface deactivation technology suppresses the problematic issue of increased contact resistance caused by organic contamination common in conventional rhodium plated reed switches. Owing to this
breakthrough, it is now possible to produce a reed switch with stabilized contact resistance. In fact, we received the prestigious Schneider Award at the 21st Annual National Relay Conference for this technology in 1973. Thereafter, we were awarded the Schneider Award at the 36th and 38th conference for our research into reed switch contact phenomena.
1. Reed Switch CharacteristicsReed switches display the following characteristics.
(1) Hermetically sealed within a glass tube with inert gas, reeds contacts are not influenced by the external atmospheric environment.
(2) Quick response because of small mass of moving parts
(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are suited to high-frequency applications.
(4) Compact and light weight. (5) Superior corrosion resistance and wear resistance
of the contacts assures stable switching operation and long life.
(6) With a permanent magnet instal led, reed switches economically and easily become proximity switches.
2. Applications
Reed switch
Reed relay
Permanent magnet
Energized coil
Rotation detector
Proximity switch
Key switch
Switching system
Automation
Inspection equipment
Others
Others
• Various rotation detectors• Tape deck automatic stop circuit • Automobile electronic circuit
• Temperature detector• Gasoline tank volume monitor • Cargo handling equipment • Float switch
• Toys • Facsimile• Leisure products
• Hydraulic pressure equipment • Consumer electronic equipment • Pressure detection equipment • Security equipment• Machine tools
• Data terminal equipment • Automatic balance• Computer I/O circuits• Electronic calculators (keyboards)
• Answer phone • Electronic switching system
• Ordinary control system• Automatic measuring equipment • Plant system control • Traffic control system• Process control
• Various types of digital equipment • Subassembly for synchronous and other types of equipment
• Digital circuit • Radio frequency relay• Data logger • Various special purpose relays• Analog circuit • Vending machines• D/A converter • Transmission equipment • Radio equipment • Broadcasting equipment
7
�
SSN
N
NS
S
N
N
S
S
N S
GENERAL DESCRIPTION l
3. Structure and Operating PrinciplesAs shown in Figure 3.1, reed switches comprise
of two ferromagnetic reeds placed with a gap in between and hermetically sealed in a glass tube. The glass tube is filled with inert gas to prevent the activation of the contacts. The surfaces of the reed contacts are plated with rhodium.
As shown in Figure 3.2, reed switches are
operated by the magnetic field of an energized coil or a permanent magnet which induces north (N) and south (S) poles on the reeds. The reed contacts are closed by this magnetic attractive force. When the magnetic field is removed, the reed elasticity causes the contacts to open the circuit.
Basic Reed Switch Structure
Reed Switch Operating Principles
Glass TubeGlass Tube
Inert Gas Inert Gas
Normally Closed Lead(N.C)
(N.O)Normally Open Lead
Reed Contact Reed Contact Lead Common Lead
Make Type Changeover Type
Make Type Changeover Type
Magnetic Flux Magnetic Flux
(N)
The changeover type reed switch is normally ON, due to mechanical bias of the common (COM) lead, which is between the normally closed (N.C) reed contact and the normally open (N.O) reed contact.
When an external magnetic field is induced, the N.C blade is not affected because it is non-magnetic but the COM lead is attracted by the N.O lead and moves. When the magnetic field is removed, COM lead again moves to the N.C lead by mechanical bias.
Figure 3.1
Figure 3.2
Permanent Magnet
Energized Coil
(COM)Common Lead
Normally Closed Lead(N.C)
(N.O)Normally Open Lead
8
�
431 2
N S OFFOFF
ON
OFF
ON OFFN S
N S
N
S
OFFON OFF ON
N
ON
OFF
S
OFF
ON
OFF
ON ON
N
S
OFF
OFF
OFF OFF
N
N
ON
S S
OFF
ON
ON ON
ON
OFFN S
S N
N S S
OFF ON
GENERAL DESCRIPTIONl
4. Permanent Magnet DriveWhen a permanent magnet is to be used for
driving a reed switch, the following steps are generally taken to select the type of magnet to be
used and determining the relative distance of it to the reed switch.
4-1 Permanent Magnet Drive MethodThe following examples show the four basic
patterns to drive a reed switch with a permanent magnet.
Determining theDetection
Mechanism
Simple go and return, Rotate, Bias system, Shield system, etc.
Confirming if space is sufficient
Dimensions and features
Shape, Material, Pole composition, on-off stroke check, etc.
Confirming theMounting Space
Selecting theReed Switch
Determining MagnetType & PI Value
1) Go and Return Method
Ring Magnet
Figure 4.1
2) Rotating Method
3) Bias Method 4) Shielding Method
Figure 4.2
Bar Magnet Two Pole Ring Magnet Four Pole Ring Magnet
Figure 4.3
Bias MagnetShield Plate (Magnetic Material)
9
�
0—Ymm
Origin
* With a Strong Magnet, 3-Point Operation May Occur.
Ymm
ON
HOLDOFF
Xmm
* *
N S—Y Y
X
0—Zmm
Zmm
ON
HOLD
OFF
Xmm
—Z Z
SX
0—Ymm
Ymm
ON
HO
LD
OFF
Xmm
HO
LD
OFF
ON
NS
–Y Y
X
GENERAL DESCRIPTION l
4-2 Permanent Magnet Drive CharacteristicsWhen a reed switch is operated by a permanent
magnet, its ON-OFF domains will differ according to the type of the reed switch, its pull-in and drop out values, read forming conditions as well as the
permanent magnet material, its shape, and magnetizing conditions.
Typical drive characteristics are shown below.
(1) X-Y Characteristic H (Horizontal)
(2) X-Z Characteristic H (Horizontal)
(3) X-Y Characteristic V (Vertical)
Figure 4.4
Figure 4.5
Figure 4.6
Origin
Origin
10
�
N5
5
6
Unit: mm
05101520 1510 205
2
4
6
8
10
12
ON
OFF
Xm
m
N S–Y Y mmX
2
4
6
8
10
12
—Z ZSX
ON
OFF
Xm
m
OFF
ONON
Xm
m
NS–Y Y mm
X
S
01520 510 15 20105
1414141414HOLDHOLD14HOLD
HOLDHOLDHOLD
6
8
10
12
01520 510 15 20105
141414
HOLDHOLDHOLDHOLD HOLDHOLD
2
4
2
4
GENERAL DESCRIPTIONl
4-3 ORD228VL Magnet Drive Characteristics Example
Magnet: 5×5×6mm Anisotropic barium ferriteSurface magnetic flux: 120mT
Reed switch: ORD228VL: Pull-in Value 10.0 (AT)Drop-out Value 7.3 (AT)
(1) X-Y Characteristics H (2) X-Z Characteristics H
(4) X-Y Characteristics V
Figure 4.7 Figure 4.8
Figure 4.9
1414
14
HOLDHOLD
2
4
8
10
Xm
m
8
10
2
1414HOLD
HOLD
14
HOLDHOLD
2
4
1414
14
HOLDHOLD
2
4
8
10
Xm
m
8
10
2
1414HOLD
HOLD
14
HOLDHOLD
2
4
1414
14
HOLDHOLD
2
4
8
10
Xm
m
8
10
2
11
�
1414HOLD
HOLD
14
HOLDHOLD
2
4
05101520 1510 205
2
4
6
12
ON
OFF
N S–Y Y mmX
2
4
6
12
—Z ZSX
ON
OFF
Xm
m
OFF
ONON
Xm
m
NS–Y Y mm
X
01520 510 15 20105
141414141414
HOLD HOLD
6
8
10
12
01520 510 15 20105
141414
HOLDHOLDHOLDHOLD HOLDHOLD
2
44
8
1010
8
10
Xm
mX
mm
Xm
m
8
1010
8
10
22
GENERAL DESCRIPTION l
Magnet: 5×5×6mmAnisotropic barium ferriteSurface magnetic flux120 mT
Reed switch: ORD228VL: Pull-in Value 20.0 (AT)Drop-out Value 15.7 (AT) N5
5
6
Unit: mm
S
(2) X-Z Characteristics H(1) X-Y Characteristics H
(4) X-Y Characteristics V
Figure 4.10 Figure 4.11
Figure 4.12
4-3 ORD228VL Magnet Drive Characteristics Example
12
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J2R0007-38-21
REED SWITCH RELIABILITYl
REED SWITCH RELIABILITY
IntroductionIn recent years, both the demand and application
of the humble reed switch have continued to rapidly expand along with rapid developments in electronics and mechatronics. Some of the more prominent applications include automobile, communications, office automation, control, and customer electronics. In this fast-paced, all-crucial environment, a failure, for example, could have immeasurable consequences. With this in mind, we believe it is the obligation of the manufacture to ensure a steady supply of reliable, high quality products.
Based on this recognition, we have adopted the following comprehensive quality assurance system based on ISO9001 with integrated product policy in development, manufacturing, marketing and sales, which allows us to supply products with consistent and reliable quality.
We are committed to further expand our efforts to meet the ever-increasing demands for improvements in the performance and reliability of our products.
Below is an outline of our quality assurance system and its underlying concepts. Here, we will briefly explain our reliability testing methods and unique technologies which enable us to maintain high reliability in our reed switches.
1. Quality Assurance System and Underlying ConceptsThe quality policy pursued by our company is as
follows:Based on the trust and sympathy from our clients
across the world, we will continuously improve our management system to ensure:
• Stable supply of products• Reliable and high quality products• Products that offer value to our customers
Our product quality assurance process can be broadly divided into four stages consisting of the product planning stage, development and prototype production stage, trial mass production stage, and mass production stage. The entire process is illustrated in the flow chart shown in Figure 1.1, and we will explain each stage in sequential order.
1-1 Product planning stageTo manufacture products that meet market
demand and satisfy customer needs, we carefully study functional and failure rate requirements,
product applications, environment and other conditions. After these studies, we specify the material, structure and the sizes of the products planned. We then proceed to the design plan, manufacturing engineering plan, process capacity requirement plan, and level adjustment plan. At this point, we prepare the development plans and time schedules.
1-2 Development and prototype production stageAt this stage, we concretely establish the
required structure, dimensions, processes and assembly techniques. We also manufacture actual prototypes, on which testing is carried out to ensure reliability. Since most product quality is determined at the design stage, we, from the perspective of building quality into product design, pay particular attention to quality confirmation at this stage.
Specifically,1) After completing basic design, our design
engineering, production engineering and product reliability departments perform design reviews.
2) Prototypes are subjected to repeated characteristics and reliability evaluation. At this point, characteristics and reliability are confirmed while the stability and capacity of manufacturing processes are also evaluated.
1-3 Trial mass production stageHere, similar to that above, various tests are
performed on mass production prototypes to check the characteristics and reliability of products at factory level. After confirming that the product quality is satisfactory, we start mass production after conducting mass production preparation reviews.
1-4 Mass production stageAt this stage, careful management of purchased
materials and parts, management of product quality during the manufacturing process, management of our facilities and measuring equipment as well as careful management of manufacturing conditions and the environment is implemented to ensure that product quality stipulated during the designing stage is achieved and maintained. The general description of our in-process quality control and assurance is shown in Figure 1.2.
13
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14
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REED SWITCH RELIABILITYl
Mar
ket a
nd
Cus
tom
ers
Business plan
Market research
Corporate policy setting
Customer
requirement
Mid-term business plan
Annual business plan
Requ
irem
ent f
or
com
mer
cializ
atio
n
◎◯
◯◯ ◯
◯◯
App
rova
lA
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ecific
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s stu
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oval
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et sp
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ation
s de
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Act
ual d
esig
n
Pilo
t pro
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spec
ifica
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Pilot
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awing
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nditio
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r pi
lot p
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Cha
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uatio
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Valid
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Deliv
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ica-
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Mas
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Envir
onme
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Faci
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Proto
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Pro
toty
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New
pro
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and
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)
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ative
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Marke
ting a
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Dep
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Affilia
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Depa
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Business Planning Development/Design/Prototyping
15
�
REED SWITCH RELIABILITY l
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ting
prod
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pro
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nditio
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s re
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s pr
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kick
-off
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(issu
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ass
prod
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Facil
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anag
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Cal
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Crea
ting
Insp
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stan
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Sup
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sele
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Pro
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oces
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Acc
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insp
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l in
spec
tion
Pro
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ion
Tria
l pro
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tion
cont
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Tria
l mas
s pr
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Tria
l mas
s pr
oduc
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Faci
lity
calib
ratio
n
Pro
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/Insp
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sch
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stru
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ork s
ched
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da
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Del
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Preparation for Mass Production Mass Production Shipment/After Sales Service Other
16
� 1
REED SWITCH RELIABILITYl
All products are subjected to thorough quality checks as described above and shipped to the customers. If, by any chance, a failure does occur after delivery to the customers, defective products are processed and the problem is rectified immediately to minimize the inconvenience to the customers in accordance with the flow chart shown in Figure 1.3.
Quality improvement activities are employed to assure high quality product performance and reliability following the quality assurance and quality control flow shown in Figure 1.4.
Glass Tube Fe+Ni Alloy Wire
Press Working
Contact Plating
Sealing
Lead Plating
Characteristic Inspection
Completion Inspection
Shipment
Sampling inspection
Sampling inspection
Sampling inspection
Sampling inspection
Sampling inspection
Sampling inspection
Hundred percent inspection
Appearance Inspection Hundred percent inspection
Figure 1.2 Quality Control Flow Chart
17
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REED SWITCH RELIABILITY l
Figure 1.4 Quality Assurance and Quality Control Flow
Figure 1.3 Failure Report Process Flow Chart
Usage Quality
Production Quality Design Quality
Quality assurance and quality control
Target Quality
• Service• Failure analysis• Customer information
analysis
• Operation standards• Technical standards• Quality standards• Design review• Prototype review
• Transportation control
• Stock control• Packaging
•Marketing• Product planning•Quality objectives
• Reliability test• Product test• Screening• Process control• In-process inspection• Incoming inspection
• Quality and reliability information
• Quality evaluation• Failure analysis• Reliability engineering• Quality control and education
System Management
Failure report
Failure analysis report
Failure report and failed sample analysis request
Report of investigation and analysis
Request for technical improvement based on detailed analysis
Report on results of investigation and improvement
(Design and process engineering)
(Quality assurance and quality control)
Request for technical improvement
Technical improvement direction
Report on result of investigation and study
Request for manufacturing improvement
Sales & Marketing
Quality Management
Engineering
Cus-tomer
Production Management
18
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REED SWITCH RELIABILITYl
2. Our Original Technology Supports High Reliability
2-1 High-reliability contact materialsOur reed switches traditionally use rhodium as
their contact material, and are highly rated by our customers for their extremely high reliability.
Rhodium is a metal that belongs to the platinum group and has superior properties such as its extreme hardness, which is effective in preventing sticking, and its high melting point which gives it the ability to significantly reduce contact surface wear caused by joule heart and arc discharge. We have been employing rhodium as the contact material after overcoming its unfavorable property of absorbing organic impurities, by developing and applying our own original technology.*1
*1 Contact surface deactivation treatment (awarded Schneider Award)
Nevertheless, with the recent changes in the environment, there have been calls for even higher functionality and reliability in reed switches. We have been collaborating with material manufacturers in response to these demands, and have developed reed switches with iridium contacts, for which mass production technologies had previously been difficult to establish. We have manufactured several variations of reed switch products with iridium contacts, with more to be released at future dates.
While iridium is part of the platinum family as is rhodium, iridium has higher hardness and higher melting point than rhodium. These properties make it possible for reed switches with iridium contacts to achieve higher functionality, higher reliability and longer operating life than reed switches with rhodium contacts, even when both types of reed switches have the same shape.
2-2 High performance, automatic sealing equipmentSealing is the process of forming the reed switch
from the assembly of pressed and plated reed and glass tube. This is one of the most important processes that demands stringent quality control and management. At the time of sealing, working temperature reaches about 1000 degrees C, which induces any impurities on the glass tube to evaporate but causes contamination on the reed switch contacts. To prevent the effects of these phenomena,
we have developed strict standards for the selection of glass material and use our own unique and superior technology for automatic sealing. Such improvements in the manufacturing processes enable us to produce extremely high quality reed switches.
2-3 Magnetic flux scanning test (FS test) for measuring contact resistance
Sealing processes are performed under stringent quality control and management. However, there is still a slight possibility for magnetic foreign particles to enter into the glass tube. We have conducted extensive research into the detection of microparticles and have developed the "magnetic flux scanning test" as an extremely high reliability technique for measuring contact resistance.
A general description is shown in Figure 2.2 where the magnetic attractive force from a multilayered coil causes the magnetic foreign particles to move to the contact part of the reed switch. Foreign particles are detected by measuring changes in the contact resistance.
This new technology has allowed us to further improve reed switch reliability.
19
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Rh Au
OC HOC HOC HOC H O CHOC HOC HOC H
OC HOC HOC HOC H
H2O H 2O
CO2 H2O CO2 H2O O2
Polyme r
O 106 O
10.01.0
0.1
10.01.0
0.1
CR
CR
106
7 6 5 4 3 2 1 7 6 5 4 3 2 1
1
2
3
4
5
6
7
8
9
10
-10~+65
-55~+125125-40
℃
℃
℃
℃
GG
+25
+65℃
-10
-55
+25
+125℃
15 15
2.5
30 30
2.5 2.5 2.5 233 3 3
450˚C-15min
30G (11 msec)20G (10-2000Hz)
90~98 90~98 90~9880~ 98
80~ 98
REED SWITCH RELIABILITY l
Oxygen Treatment Untreated
Fe+Ni Fe+Ni
Fe+Ni
Fe+Ni Fe+Ni
Fe+Ni Fe+Ni
After Plating
Sealing
Oxygen Treatment
Oxide layer
Number of operations
CR: Contact resistance
Number of operations
After Life Expectancy Test
After Life Expectancy Test
Eva
luat
ion
Figure 2.1 Figure 2.2 Magnetic Flux Scanning Test (FS Test)
Figure 2.3 Temperature and Humidity Cycle Chart
Figure 2.4 Temperature Cycle Chart
3. Reliability Testing Methods
Parameter Specifications Unit Test methodTemperature and humidity cycle
Temperature cycleHigh temperature storage testLow temperature storage testShock ResistanceVibration Resistance
MIL-STD-202G 106E(Refer to Figure 2.3)Chart is shown in Figure 2.4.500H500HMIL-STD-202G 213B Condition JMIL-STD-202G 204D Condition D
Time (h)
Time (min)
Humidity (%)
10 cycles
5 cycles
(80~98) (%)
20
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+E+E
+E
R
C
+E
I (A)
RO
C
+E
RK
IS= < 0.1 (A) RK
+E
RO
C
R
RI
IS
J2R0008-27-50
PRECAUTIONS AND APPLICATIONSl
PRECAUTIONS AND APPLICATIONS
1. Contact Protection CircuitWhen a reed switch is to be connected to the
inductive load or the load where surge current or rush current flows (such as capacitance load, lamp, long cable, etc.), the following contract protection circuits are also required for the reed switch
1-1 Inductive loadsIn case an electromagnetic relay, electro-
magnetic solenoid, or electromagnetic counter which has inductance component is provided as a load in a circuit, the energy stored in the inductance will cause an inverse voltage when the reed contacts break. The voltage, although dependent on the inductance value, sometimes reaches as high as several hundred volts and becomes a major factor in deteriorating the contacts. In order to prevent this many protection circuits are provided, typical examples of which are shown in Figure 1.1.
Load
Load
Load
a) Contact Protection by Capaci-tor and Resistance (Also possible at the load terminal.)
a) Current limiting resistance (RK) is installed in the circuit to protect contacts.
d) Resistance (R) is installed in the circuit to protect contacts. R should be between 50 and 500 Ω
b) Contact Protection by VaristorWhen the contact open time is long, varistor should be put into the load terminal.
c) Contact Crotection by DiodeBreakdown voltage of diode should be larger than E volt.
Forward current of diode should be almost equal to 5E/coil resistance.
Figure 1.1
Figure 1.2
1-2 Capacitive loadsSignificant deterioration of reed contacts is
incurred when a capacitor is provided in series or in parallel with the reed switch contacts in a closed circuit due to rush current flowing at charge and discharge of capacitance.
Fig. 1.2 shows typical examples of the protection circuits to prevent the rush current.
Voltage stored across C
1-3 Lamp loadIn general, tungsten lamps are used and these
lamps display low resistance right before lighting up and high resistance as they begin to light up. They exhibit a steady current and when operating a reed switch under these conditions the contacts are prone to sticking because rush current (approximately 5-10 times larger) will run directly after the lamp initiates. As such, it is crucial to incorporate a contact protection circuit in circuits with lamp loads as the amount of current that runs through the circuit is reflective of that flowing to charge a capacitor.
Fig. 1.3 shows examples of protection circuits.
+E
2
10C= [mF]
E10 (1+50/E)
R= [W]
) )
)
21
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20
15
10
5
0 4 8 12 16 20
ORD234ORD228VL
+E
+E
R
RR <
Filament resistanceFixed Jig
Lead Cutting
AT
VA
LUE
(AT)
Fixed JigLead Bending
If no resistance is to be put into the circuit, use ORD2211.
3
IS
( )
lPRECAUTIONS AND APPLICATIONS
R: Current limiting resistanceR should be determined to satisfyIs < 0.5A~1 A
R: Parallel resistanceR is put into the circuit to preheat lamp filament and increase the resistance.
Figure 1. 3
Figure 2. 1
Figure 2. 2
1-4 Wiring capacitanceWhen wiring a load and reed switch over long
distance, electrostatic capacitance arising from the cable can influence the reed switch contact. Therefore, inductance LS should be used. Ls value differs according to the load current but should be in the range of 0.5 to 5 mH.
LoadWiring Capacitance
Ls
50 m or more
2-1 Cutting the leadsSince 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. 2.2.
Here in this figure, a standard coil was used in making measurements and there may be differences when the reed switch is driven by a permanent magnet depending on the shape of the magnet and orientation of magnetization. Therefore, it is necessary to actually examine the change of the pull-in and drop-out values by the magnet and drive method to be used. In some cases a reed switch may become more sensitive to a magnet than it was initially.
2. Reed Switch Lead FormingWhen reed switches are used, usually the leads
are cut or bent. However, precautions should be taken when performing these processes.
(1) Cutting and bending positions must be determined with reference to the center of the contact or to the end of the lead. If the position is measured from the end of the glass tube, the contact center position may move.
(2) When cutting or bending the leads, be sure to protect the sealing portions. As shown in Figure 2.1, the lead should be firmly secured by a jig.
(3) After the process, confirm that there is no crack or chipping in the glass tube.
LEAD CUTTING LENGTH 1+ 2mm
1 2
22
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PRECAUTIONS AND APPLICATIONSl
3-3 Ultrasonic weldingIt is important to take extra care when using
ultrasonic welding on a reed switch or using an ultrasonic welder in the vicinity of a reed switch as it can alter the contact gap and characteristics of a reed switch.
3-4 Mounting on a printed circuit boardWhen installing on a printed circuit board, either
elevate the reed switch above the board or drill holes in the board to ensure that the glass tube does not come into contact with the board (Fig. 3.1). Other methods can cause damage to the glass tube by way of mechanical influence or other adverse elements applied externally.
4. Reed Switch Resin MoldWhen reed switches are molded with resin, it is
possible for the resin stress to break or damage the glass tube. Therefore, the resin should be selected carefully. Moreover, it is necessary to perform temperature cycle testing to ensure selection of safe resin material.
On the other hand, there is no problem if silicone or other soft resin is used.
2-2 Bending the leadsAs in the case of cutting the leads, influence on
the pull-in and drop-out characteristics must be checked by actually using the magnet and the driving method planned.
2-3 Measuring the electrical characteristics of reed switches after cutting or bendingWhen the leads of a reed switch are cut, it is not
possible to measure electrical characteristics by using a standard test jig. However, it is possible to measure these characteristics after processing if a special jig is made. It is also possible to measure electrical characteristics of the reed switch with a bent lead by using a jig similar to the one used for a reed switch with cut leads. However, when both leads are bent, the reed switch cannot be inserted into a coil and therefore cannot be measured.
3. Reed Switch MountingGenerally, a reed switch is mounted by soldering
or welding. When the mounting space (including its vicinity) is non-magnetic, there is no influence on operation, but when the material is magnetic, operation characteristics do change. Therefore, it is necessary to check these in consideration of the assembling conditions.
3-1 SolderingLeads are tin plated and are soldered ordinarily
(250 to 360 ℃). When soldering, keep the soldering point at least 1 mm away from the edge of the glass. In addition, there is also a danger of causing the glass tube to be damaged by heat if the soldering is done for a long time. Keep the process to less than five seconds.
3-2 WeldingWhen welding, also keep the welding point at
least 1 mm away from the edge of the glass. When using a large power supply for welding, heat generated in the leads may cause damage to the glass tube. Precautions to prevent this are necessary.
Welding current may also induce magnetic field and cause the reed switch to operate. This may induce welding current to the reed switch and effectively melt the contacts together. Precautions are necessary.
Figure 3.1
Printed Circuit Board
23
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5. Dropping Reed SwitchesAvoid dropping reed switches. If a reed switch is
dropped onto a hard surface from a height more than 30 cm, it is possible to cause the characteristics to change. If a reed switch has been dropped, carefully inspect its characteristics and exterior appearance before use. If a reed switch has been subjected to shock more than 294m/s2, the pull-in value may change.
6. Relation to Characteristic Values Given byOther MakersMeasurement methods are manufacturer
dependent. Therefore, the pull-in value may be different depending on the measurement conditions (standard coils and overall length of the reed switch are different). Accordingly, it is necessary to correlate the characteristics.
7. Certified Pull-in Value for Reed SwitchesThe pull-in values (four digit numbers) indicated
on packaging refers to the range values determined at the time of product sorting. The guaranteed pull-in values have a tolerance of ±2AT on these range values. For example, the guaranteed pull-in value of ORD211 2025AT is 18 to 27AT.
can change without prior notice or warning owing to product and/or technical improvement. Before using any of our products, please make sure that the information being referred to is up-to-date.
lPRECAUTIONS AND APPLICATIONS
Figure 3.2
8.. Reed Switch Life Characteristi The life test data provided by our company is an example of test results when a reed switch is actuated by a coil (100 AT square wave excitation). When a reed switch is actuated by a permanent magnet, the life characteristics of the reed switch may vary depending on the transfer rate and distance of the permanent magnet.
The information contained in these specifications
24
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PI
DO
AT
AT
J2R0009-27-50
DESCRIPTION OF SYMBOLS AND TERMSl
DESCRIPTION OF SYMBOLS AND TERMSFollowing are some commonly used terms for the fundamental operating characteristics of a reed switch.
TermPull-in Value
Drop-out Value
Symbol Unit Description and Test MethodsThis is the most important operating characteristic of a reeds switch. Pull-in is the product of the current value necessary to operate the coil multiplied by the number of coil windings. This is the sensitivity of a reed switch. High sensitivity means low pull-in value.
Drop-out value is obtained by taking the product of the value of the current flowing in the coil at the time when the contacts are released and the number of turns of the coil windings. Drop-out value is correlative to pull-in value and is a secondary value.
Test method (1) Measurement circuits of pull-in and drop-out values
mA
-
+mA
-
+
Make Type
Beginning of Winding (top)
Beginning of Winding (top)
Detector
Detector
End of Winding (Bottom)
Oki Standard Coil
Change Over Type
Coil Saturation Current 20mA(SOAK) 100AT
Voltage Between Contacts2 to 10 V: DC
Current Between Contacts(less than 10 mA)
End of Winding (Bottom)
Oki Standard Coil
Coil Saturation Current 20mA(SOAK) 100AT
Voltage Between Contacts2 to 10 V: DC
Current Between Contacts(less than 10 mA)
100ATCoil Waveform
Contact Waveform
100ATCoil Waveform
N.O Contact Waver Form
Pull-in Value Drop-out Value
Pull-in Value Drop-out Value
Current at time of operation x number of turns in standard coil (5000T): Indicated in AT
Current at time of operation x number of turns in standard coil (5000T): Indicated in AT
COM
N. C N. O
•
•
•
25
�
CR mW
V
mA
mV
mA
mV
+
-
+
-
DESCRIPTION OF SYMBOLS AND TERMS l
Term
Contact Resistance
Symbol Unit Description and Test Methods
Note: Measure after making sure that the center of the coil and the center of the reed switch contacts are aligned. Initially, apply soak current (100 AT) then return to zero (AT). Next, apply the current in the same direction and measure it. The polarity of the current applied to the coil should be adjusted so that the magnetic field runs in the same direction as terrestrial magnetism. (The leading end of the coil-wire at the top should have positive polarity.)
Contact resistance is the resistance between contacts when the contacts are closed and includes conductor resistance.
Test method (2) Measurement circuit of contact resistance
Make Type
Change Over Type
Oki Standard Coil
Oki Standard Coil
COM
N. C N. O
Cons
tant
cur
rent
po
wer s
uppl
y Co
nsta
nt c
urre
nt
powe
r sup
ply
Microohmmeter (YHP-4328A or equivalent)
Microohmmeter (YHP-4328A or equivalent)
Applied voltage for measurement (less than 10V DC)Current for measurement (less than 10 mA)
Coil current 20 mA (100AT)
Breakdown voltage This value indicates the resistance voltage of the contacts. Breakdown voltage specifies the level of temporary overvoltage that a switch can withstand during a power surge or other similar phenomena generated externally or in the circuit.
•
•
•
{ }
Applied voltage for measurement (less than 10V DC)Current for measurement (less than 10 mA)
Coil current 20 mA (100AT) N.O 0 mA ( 0AT) N.C
{ }
or Microohmmeter
or Microohmmeter
26
�
pF
WVA
V
A
A
V
DESCRIPTION OF SYMBOLS AND TERMSl
Test method: MIL-STD-202G METHOD301Breakdown voltage varies depending on pull-in value. Breakdown voltage shown here is the value measured for the switch whose pull-in value is 20AT or more. The criterion of leak current is less than 0.1mA for one minute.Insulation resistance is the resistance between lead ends and the resistance against leak current across the reed switch glass tube or its surface.
Test method: MIL-STD-202G METHOD302 (Measurement is made by using a insulation resistance tester at 100V DC.)
Electrostatic capacitance is the value of capacitance between open contacts. The overlap of a reed switch is fixed to determine electrical performance. The wider the contact gap the lower the electrostatic capacitance. Electrostatic capacitance is measured at 1MHz-0.1V.
Term Symbol Unit Description and Test Methods
Insulation Resistance
Electrostatic Capacitance
Contact Rating
Maximum Switching Voltage
Maximum Switching Current
Maximum Carry Current
•
•
•
•
Contact rating is the maximum product of voltage and current and is a very important value when determining contact switching performance. In order to anticipate constant life expectancy and assure reliability when switching is performed, the contact rating must not be exceeded and must be less than the product of (maximum switching voltage) X (maximum switching current).Contact rating is also called contact capacitance or contact power allowance.
•
Maximum carry current is the maximum current which can flow continuously over the closed contact. In order to anticipate constant life expectancy and assure reliability, the maximum switching carry current must not be exceeded.Maximum carry current is also called rated contact carry current or allowable contact carry current.
•
Maximum switching current is the maximum current at which contacts can be switched and is a reference voltage for determining contact switching performance. In order to anticipate constant life expectancy and assure reliability when switching is performed, the maximum switching current must not be exceeded.Maximum switching current is also called rated contact current, maximum on-off contact current, or rated on-off current.
•
Maximum switching voltage is the maximum voltage at which contacts can be switched and is a reference voltage for determining contact switching performance. In order to anticipate constant life expectancy and assure reliability when switching is performed, the maximum switching voltage must not be exceeded.Maximum switching voltage is also called rated contact voltage, maximum working voltage, or allowable contact voltage.
•
27
�
Tb
V G Tr
1kW
1kW
T1 T2 T3
VG Tr
-
+
-
+
DESCRIPTION OF SYMBOLS AND TERMS l
Term Symbol Unit Description and Test MethodsOperate time refers to the time required for the contacts to close after applying voltage to the coil. Unless otherwise specified, operate time does not include bounce time.
•
Bounce time refers to the time between the contacts closing initially and the time they completely close.
•
Release time refers to the time taken for the contacts to return to their normal position after the voltage applied to the coil is removed.
Test method (3) Time characteristics measurement circuit
•
•
Operate Time
Bounce Time
Release Time
Top ms
ms
ms(ms)
Trls
Make Type
Coil Current20mA
Coil Current20mA
Mercury Wetted Relay
Oki Standard Coil
1.5V
1.5V
Change Over Type
25Hz DUTY 50 Pulse Generator
Mercury Wetted Relay
Oki Standard Coil
25Hz DUTY 50 Pulse Generator
Coil Waveform
T1: Operate TimeT2: Bounce TimeT3: Release Time
Contact Waveform
Oscilloscope
OscilloscopeCOM
N. C N. O
28
�
DESCRIPTION OF SYMBOLS AND TERMSl
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Coil Waveform
T4T1
T2
T7
T5T3 T6
T8
(N.O) Contact Waveform
N.O T1: Operate Time T2: Bounce Time T3: Release TimeN.C T4: Operate Time T5: Release Time T6: Bounce TimeT7: Transfer Time (N.C→N.O)T8: Transfer Time (N.C→N.O)
(N.C) Contact Waveform
Note: Measure after making sure that the center of the coil and the center of the reed switch contacts are aligned.
ABC ED
(mm)ABAB
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29
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アプリケーション l
Application Notes
31
�
APPLICATION NOTES
J2R0010-38-21
APPLICATION NOTES l
The potential applications for reed switches are very broad. The main applications for reed switches are in automotive electronic devices, various types of instruments and testers, household appliances and so forth. Here, some actual examples of reed switch applications are provided.
32
�
APPLICATION NOTESl
N
S
SN
N S
N S N S
Reciprocating Operation Reciprocating Operation
ONON
ON
OFF OFF
OFF
OFF
Key Switch
Magnet
Mag
net
MagnetReed Switch
Reed Switch
Reed Switch
Reed Switch
Position Sensor
Position Sensor Position Sensor
Application Examples: Various types of button switches(keyboards, etc.)
Application Examples: Various types of door sensors(security systems, etc.)
Application Examples: Various types of position sensors (conveyor control, etc.)
Application Examples: Automatic balance
Reed Switch Application Examples-I
MagnetMagnetMagnet
Magnet
Magnet
Magnet
Magnet
Magnet
33
�
Magnet
APPLICATION NOTES l
N S
N
S
N S ONON
OFF-ON-OFF
OFF
OFF
MagnetFloat
Reed Switch Reed Switch
Reed Switch
Reed Switch
Position Sensor
Position Sensor Rotating Detector
Rotating Detector
Finned Rotor
Position Sensor
Rotating Operation
Application Examples: Liquid level sensor, various float switches
Application Examples: Various types of rotation sensors
Application Examples:Pressure sensors and wind pressure sensors
Application Examples: Various types of fluid level sensors(flow measurement instruments for water, gas and wind)
Reed Switch Application Examples-II
N S
SN
MagnetMagnet
Pressure
Magnet
Fluid
Mag
net
Magnet
34
�
APPLICATION NOTESl
N S
NS
N
S
NS
ON
ON
ON
OFF
Shielding Operation
Magnetic Material(Shielding Plate)
OFF
OFF
ON
OFFOFF
OFF
MagnetON-OFF-
ON
Magnet
Magnet
Reed Switch
Reed Switch
Reed Switch
Thermal Reed Switch
Steaming-hot!
Reed Switch Application Examples-III
Application Examples: Pulse generator
Application Examples: Detecting the passing of various types of magnetic substances
Application Examples: Security system, seismic sensor
Application Examples: Electronic cooker, heat detector
☆ Tilt detection
☆ Security system
Miscellaneous reed switch application examples
☆ Temperature sensor (Combination of thermal ferrite)
MagnetMagnetMagnet
Change Over Type Reed SwitchChange Over Type Reed Switch
Thief
Guard
Change Over Type Reed Switch
Magnet
Change Over Type Reed Switch
Magnet
Change Over Type Reed Switch
35
�
Magnet
Change Over Type Reed Switch
APPLICATION NOTES l
Ree
d S
witc
h A
pplic
atio
n E
xam
ple:
Car
Ree
d S
witc
h
Rin
g M
agne
t
Floa
t Mag
net
Ree
d S
witc
h
Spe
ed S
enso
r •
Eng
ine
Con
trol
• A
utom
atic
Doo
r Loc
k •
Aut
omat
ic S
peed
Con
trol
• P
ower
Ste
erin
g
Bur
nout
Lig
ht B
ulb
Sen
sor
• M
onito
r
Ree
d S
witc
h
Bra
ke O
il Fl
oat
Air
Bag
Sen
sor
Pow
er S
eat S
enso
r
Eng
ine
Tem
pera
ture
Sen
sor
Eng
ine
Oil
Floa
t •
Mon
itor
• Fa
n •
Mon
itor
Ree
d S
witc
h
Sen
sor P
robe
Ther
mo
Ferr
ite
Bra
ke S
witc
h
36
�
Bicy
cle
Met
er
Tele
phon
e
Air C
ondi
tione
r
Sha
ver
Electr
onic T
ooth
Brush
Clinic
al Th
ermom
eter
Humi
difier
/Dehu
midif
ier
Inte
rcom
Gas
Met
er
Ped
omet
er
Mob
ile P
hone
Ric
e C
ooke
r
Ref
riger
ator
Ele
ctric
Ree
lWat
er H
eate
r
Ele
ctric
Pot
Healt
h Ap
plian
ces
Burgl
ar Ala
rm Se
nsor
App
licat
ion
for H
ome
APPLICATION NOTESl
37
�Data Sheets
39
�
REED SWITCHORD213Super ultra-miniature
J2R0012-38-22
GENERAL DESCRIPTIONThe ORD213 is a small single-contact reed switch designed for general control of low-level
loads less than 24V. The reed contacts are sealed within the glass tube with inert gas to maintain contact reliability.
FEATURES(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by
the external atmospheric environment.(2) Quick response (3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
EXTERNAL DIMENSIONS (Unit: mm)
APPLICATIONSl Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
n
n
n
n
35.8±0.3
MAX 7.0
MAX f1.8f0.3
40
�
100 120 140 160 180
99.9
99
95
90
80706050403020105
1
0.1
mW
l ORD213
n
ParameterPull-in Value (PI)Drop-out Value (DO)Contact Resistance (CR)Breakdown VoltageInsulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value10~40
1.0
0.10.3
UnitATATmWVDC
WpFVAVAA
24 ( )DCAC
5min200max150min109min0.4max
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
(Measurement length: 22mm)
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Dro
p-ou
t Val
ue
Pull-in Value Contact Resistance
ELECTRICAL CHARACTERISTICS
AT50
10 20 30 40 50 60
40
30
20
10
0
AT
41
�
0.4
0.3
0.2
0.1
0
pF
AT
DC:V
400
300
200
100
0
99.9
99
95
90
8070605040302010
5
1
0.11010 1011 1012 1013 1014 W
ORD213 l
10 20 30 40 50 60
(DC 100V)
(3) Breakdown Voltage (4) Insulation Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Bre
akdo
wn
Vol
tage
Insulation ResistancePull-in Value
AT10 20 30 40 50 60
Pull-in Value
(1MHz)
(5) Electrostatic Capacitance
Ele
ctro
stat
ic C
apac
itanc
e
42
�
AT
ms0.5
0.4
0.3
0.2
0.1
0
99.9
99
95
90
80706050403020105
1
0.10 ms
15
10
5
0
μs
99.9
99
95
90
8070605040302010
5
1
0.1Hz
l ORD213
10 20 30 40 50 0.1 0.2 0.3 0.4
9000 10000 11000 12000
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
msmsmsHzHz
0.3max0.3max0.05max
11000±2000500
Rated Value Unit
(1) Operate Time (2) Bounce Time
(25 Hz: 100AT energized)(25Hz: 100AT energized)
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in Value Bounce Time
(3) Release Time (4) Resonant Frequency
(25Hz: 100AT energized)
Rel
ease
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Resonant FrequencyDrop-out ValueAT10 20 30 40 50
n OPERATING CHARACTERISTICS
43
�
AT
mW
ORD213 l
60
50
40
30
20
10
0
200
150
100
PI
CR
DO
99.9
99
95
90
8070605040302010
5
1
0.10 20 40 60 80 100N
%
40
30
20
10
0
-10
-20
-30
-40 -20 0 20 40 60 80 100 120 ℃
CR
DO
PI
n MECHANICAL CHARACTERISTICS(2) Lead Tensile Strength(1) Lead Tensile Test (Static Load)
(14.7N-10sec)
Pul
l-in
Val
ue・
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Breaking Load
Before Test After Test
n
(1) Temperature Characteristics
Rat
e of
Cha
nge
Temperature
ENVIRONMENTAL CHARACTERISTICS
44
�
(2) Temperature Cycle (3) Temperature and Humidity Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
AT
mW
(-55°C to 125°C)
Before Test After Test Before Test After Test
Before Test After Test Before Test After Test
-10°C to 65°C80% to 98%
60
50
40
30
20
10
0
200
150
100
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
PI
CR
DO
AT
mW
60
50
40
30
20
10
0
200
150
100
PI
CR
DO
AT
mW
60
50
40
30
20
10
0
200
150
100
PI
CR
DO
AT
mW
l ORD213
60
50
40
30
20
10
0
200
150
100
PI
CR
DO
(+125°C-500H) (-40°C-500H)
45
�
1500
1000
500
G
AT
mW
60
50
40
30
20
10
0
200
150
100
AT
PI
CR
DO
mW
ORD213 l
60
50
40
30
20
10
0
200
150
100
AT
PI
CR
DO
100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n Misoperation Area
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
Pull-in Value
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
47
�
REED SWITCHORD311Super ultra-miniature long life
J2R0012-38-22
n GENERAL DESCRIPTION
n FEATURES
n
n
EXTERNAL DIMENSIONS (Unit: mm)
APPLICATIONSl Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD311 is a small single-contact reed switch designed for general control of medium level loads less than 100V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life. (6) Economically and easily becomes a proximity switch when paired with a magnet.
35.8±0.3
MAX 7.0
f0.33 MAX f1.8
48
�
mW
n
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Contact Resistance
(Measurement length: 22mm)
Dro
p-ou
t Val
ue
Pull-in Value
ParameterPull-in Value (PI) Drop-out Value (DO) Contact Resistance (CR) Breakdown Voltage Insulation Resistance Electrostatic Capacitance Contact Rating Maximum Switching Voltage Maximum Switching Current Maximum Carry Current
Rated Value Unit
l ORD311
100 120 140 160 180
99.9
99
95
90
807060504030201051
0.1
AT50
40
30
20
10
0 10 20 30 40 50 60AT
ATATmWV
WpFVAVAA
100( )DCAC
250min VDC
10~405min
200max
109min0.4max
10
0.51.0
ELECTRICAL CHARACTERISTICS
49
�
W
l
(3) Breakdown Voltage (4) Insulation Resistance
(5) Electrostatic Capacitance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Insulation Resistance
Bre
akdo
wn
Vol
tage
Pull-in Value
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
ORD311
(DC 100V)
(1MHz)
99.9
99
95
90
8070605040302010
51
0.11010 1011 1012 1013 101410 20 30 40 50
AT
400
300
200
100
0
DC:V
10 20 30 40 50 60AT
0.4
0.3
0.2
0.1
0
pF
50
�
ParameterOperate Time Bounce Time Release Time Resonant Frequency Maximum Operating Frequency
Rated Value UnitmsmsmsHzHz
(1) Operate Time (2) Bounce Time
(3) Release Time (4) Resonant Frequency
10 20 30 40 50 AT
15
10
5
0
(25Hz: 100AT energized)
Rel
ease
Tim
e
Drop-out Value
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
Ope
rate
Tim
e
Pull-in Value
(25Hz: 100AT energized)
99.9
99
95
90
807060504030201051C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
0.1
Resonant Frequency
99.9
99
95
90
807060504030201051
0.1
Bounce Time
(25Hz: 100AT energized)
11000 12000 13000 14000 Hz
l ORD311
0.1 0.2 0.3 0.4 ms0
0.3max0.3max0.05max
13000±2000500
ms
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
n OPERATING CHARACTERISTICS
51
�
PI
DO
n MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load) (2) Lead Tensile Strength
n
(1) Temperature Characteristics
CR
(14.7N-10sec)
40
30
20
10
0
-10
-20
-30
Rat
e of
Cha
nge
Temperature
lORD311
-40 -20 0 20 40 60 80 100 120 ℃
99.9
99
95
90
8070605040302010
51
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (
%)
Breaking Load
0 20 40 60 80 100N
AT60
50
40
30
20
10
0
80
60
40
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
CR
DO
PI
%
ENVIRONMENTAL CHARACTERISTICS
52
�
(2) Temperature Cycle (3) Temperature and Humidity Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(-55℃~+125 ℃)-10℃~+65℃80%~98%
PI
CR
DO
PI
CR
DO
PI
CR
DO
PI
CR
DO
l ORD311
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(+125℃-500H) (-40℃-500H)
53
�
(6) Shock Test
2) Misoperation Area
(7) Vibration Test
1500
1000
500
G
AT
Acc
eler
atio
n
Pull-in Value
MisoperationArea
PI
CR
DO
PI
CR
DO
lORD311
100 20 30 40 50 60
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
55
�
l
ORD211Ultra-miniature
n
n
n
n
J2R0011-38-21
REED SWITCH
GENERAL DESCRIPTIONThe ORD211 is a small single-contact reed switch designed for general control of low-level loads
less than 24V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
FEATURES(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by
the external atmospheric environment.(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
EXTERNAL DIMENSIONS (Unit: mm)
APPLICATIONSl Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
35.7±0.3
MAX 10.0
MAX f2.0f0.4
56
�
n ELECTRICAL CHARACTERISTICS
99.9
99
95
90
8070605040302010
5
1
0.1
ParameterPull-in Value (PI)Drop-out Value (DO)Contact Resistance (CR)Breakdown VoltageInsulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value10~40
1.0
0.10.3
UnitATATmWVDC
W
l
pFVAVAA
24 ( )DCAC
ORD211
5min100max150min109min0.2max
40 60 80 100 mW
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
(Measurement length: 22mm)
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Contact Resistance
AT0 10 20 30 40 50
AT50
40
30
20
10
Dro
p-ou
t Val
ue
Pull-in Value
57
�
400DC : V
300
200
100
0
99.9
99
95
90
8070605040302010
5
1
(DC 100V)
0.11010 1011 1012 1013 1014 W
0.4
pF
0.3
0.2
0.1
0
lORD211
10 20 30 40 50 AT
10 20 30 40 50 AT
(1MHz)
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Bre
akdo
wn
Vol
tage
Ele
ctro
stat
ic C
apac
itanc
e
Insulation ResistancePull-in Value
Pull-in Value
58
�
ms0.5
0.4
0.3
0.2
0.1
0
99.9
99
95
90
8070605040302010
5
1
0.1
15
l ORD211
10
5
0
99.9
99
95
90
80706050403020105
1
0.1
10 20 30 40 50 AT
10 20 30 40 50 AT
0 0.1 0.2 0.3 0.4 ms
7000 7500 8000 Hz
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
msmsmsHzHz
0.3max0.3max0.05max
7500±500500
Rated Value Unit
(1) Operate Time
(3) Release Time
(2) Bounce Time
(4) Resonant Frequency
(25 Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Ope
rate
Tim
eR
elea
se T
ime
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value Bounce Time
Resonant FrequencyDrop-out Value
μs
n OPERATING CHARACTERISTICS
59
�
n MECHANICAL CHARACTERISTICS
n
AT60
mW
lORD211
PI
CR
DO
50
40
30
20
10
0
80
60
40
99.9
99
95
90
80706050403020105
1
0.10 20 40 60 80 100N
40
℃
CR
DO
PI
%
30
20
10
0
-10
-20
-30
-40 -20 0 20 40 60 80 100 120
(2) Lead Tensile Strength(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(22.2N-10sec)
Pul
l-in
Val
ue・
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Breaking Load
Before Test After Test
Temperature
ENVIRONMENTAL CHARACTERISTICS
60
�
PI
CR
DO
AT60
mW
50
40
30
20
10
0
80
60
40
PI
CR
DO
AT60
mW
50
40
30
20
10
0
80
60
40
PI
CR
DO
AT60
mW
50
40
30
20
10
0
80
60
40
PI
CR
DO
AT60
mW
50
40
30
20
10
0
80
60
40
l ORD211P
ull-i
n V
alue・
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Pul
l-in
Val
ue・
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Pul
l-in
Val
ue・
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Pul
l-in
Val
ue・
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test Before Test After Test
Before Test After Test Before Test After Test
(-55℃ to 125℃)-10℃ to 65℃
80% to 98%
(2) Temperature Cycle (3) Temperature and Humidity Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(+125℃-500H) (-40℃-500H)
61
�
PI
CR
DO
AT60
mW
50
40
30
20
10
0
80
60
40
PI
CR
DO
AT60
mW
lORD211
50
40
30
20
10
0
80
60
40
1500
G
100 20 30 40 50 60 AT
1000
500
Pul
l-in
Val
ue・
Dro
p-ou
t Val
ue
Acc
eler
atio
n
Con
tact
Res
ista
nce
Pul
l-in
Val
ue・
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
Before Test After Test
(294m/s2 : 11ms)
(196m/s2 : 10~2000Hz)
(open→close)
(6) Shock Test1) Electrical Characteristics
(7) Vibration Test
2) Misoperation Area
Pull-in Value
MisoperationArea
63
�
REED SWITCHORD219Miniature high-performance
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONSl Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household Appliances
44.3±0.3
MAX 12.0
f0.5 MAX f2.0
J2R0013-38-21
The ORD219 is a small single-contact reed switch designed for general control of medium-level loads less than 100V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
64
�
n
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown VoltageInsulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value
100( )DCAC
10~40
10
0.51.0
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in Value
99.9
99
95
90
8070605040302010
51
0.1
l ORD219
Contact Resistance
5min100max
200min (PI≧20)109min0.3max
40 60 80 100 mW
(Measurement length: 32mm)
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 AT
Dro
p-ou
t Val
ue
UnitATATmWVDC
WpFVAVAA
65
�
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance
10 20 30 40 50AT
400
300
200
100
0
DC : V
Bre
akdo
wn
Vol
tage
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in Value
99.9
99
95
90
807060504030201051
(DC 100V)
0.11010 1011 1012 1013 1014
W
Insulation Resistance
10 20 30 40 50 AT
0.4
0.3
0.2
0.1
0
pF
(1MHz)
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
ORD219 l
66
�
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value UnitmsmsmsHzHz
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)99.9
99
95
90
8070605040302010
51
0.10.1 0.2 0.3 0.4 ms0
Bounce Time
10 20 30 40 50 AT
15
10
5
0
ms
Rel
ease
Tim
e
Drop-out Value
99.9
99
95
90
8070605040302010
51
0.15500 6000 6500 Hz
Resonant Frequency
l ORD219
n OPERATING CHARACTERISTICS
5900±400500
0.4max0.3max0.05max
67
�
n MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
n
AT60
50
40
30
20
10
0
80
60
40
mW
ORD219 l
PI
CR
DO
(22.2N-10sec)
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Before Test After Test
Temperature
Breaking Load
99.9
99
95
90
8070605040302010
51
0.10 20 40 60 80 100N
%
40
30
20
10
0
-10
-20
-30
℃
CR
DO
PI
-60 -40 -20 0 20 40 60 80 100 120 140
ENVIRONMENTAL CHARACTERISTICS
68
�
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
AT60
50
40
30
20
10
0
80
60
40
mW
(-55℃ to 125 ℃)-10℃ to 65℃80% to 98%
PI
CR
DOPul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
AT60
50
40
30
20
10
0
80
60
40
mW
l ORD219
PI
CR
DO
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)
69
�
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
1500
1000
500
G
AT
AT60
50
40
30
20
10
0
80
60
40
mW
ORD219 l
PI
CR
DO
100 20 30 40 50 60
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
MisoperationArea
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
71
�
REED SWITCHORD312High-power long-life
J2R0013-38-21
n GENERAL DESCRIPTION
n FEATURES
n
n
EXTERNAL DIMENSIONS (Unit: mm)
APPLICATIONSl Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD312 is a small single-contact reed switch designed for general control of medium level loads less than 200V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications. (4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life. (6) Economically and easily becomes a proximity switch when paired with a magnet.
44.3±0.3
MAX 12.0
f0.5 MAX f2.0
72
�
mW
n
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Contact Resistance
(Measurement length: 32mm)
Dro
p-ou
t Val
ue
Pull-in Value
ParameterPull-in Value (PI) Drop-out Value (DO) Contact Resistance (CR) Breakdown Voltage Insulation Resistance Electrostatic Capacitance Contact Rating Maximum Switching Voltage
Maximum Switching Current Maximum Carry Current
Rated Value Unit
l ORD312
100 120 140 160 180
99.9
99
95
90
807060504030201051
0.1
AT50
40
30
20
10
0 10 20 30 40 50 AT
ATATmWV
WpFVAVVAA
250min VDC
10~405min
100max
109min0.3max
30200DC
0.51.0
ELECTRICAL CHARACTERISTICS
100AC
73
�
W
l
(3) Breakdown Voltage (4) Insulation Resistance
(5) Electrostatic Capacitance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Insulation Resistance
Bre
akdo
wn
Vol
tage
Pull-in Value
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
ORD312
(DC 100V)
(1MHz)
99.9
99
95
90
8070605040302010
51
0.11010 1011 1012 1013 101410 20 30 40 50
AT
400
300
200
100
0
DC : V
10 20 30 40 50 AT
0.4
0.3
0.2
0.1
0
pF
74
�
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value UnitmsmsmsHzHz
(1) Operate Time (2) Bounce Time
(3) Release Time (4) Resonant Frequency
10 20 30 40 50 AT
15
10
5
0
(25Hz: 100AT energized)
Rel
ease
Tim
e
Drop-out Value
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
Ope
rate
Tim
e
Pull-in Value
(25Hz: 100AT energized)
99.9
99
95
90
807060504030201051C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
0.1
Resonant Frequency
99.9
99
95
90
807060504030201051
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Bounce Time
(25Hz: 100AT energized)
5500 6000 6500 Hz
l ORD312
0.1 0.2 0.3 0.4 ms0
0.4max0.3max0.05max
5900±400500
ms
n OPERATING CHARACTERISTICS
75
�
%
n MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load) (2) Lead Tensile Strength
n
(1) Temperature Characteristics
PI
CR
DO
(22.2N-10sec)
40
30
20
10
0
-10
-20
-30
Rat
e of
Cha
nge
Temperature
lORD312
-40 -20 0 20 40 60 80 100 140120 ℃
99.9
99
95
90
8070605040302010
51
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (
%)
Breaking Load
0 20 40 60 80 100N
AT60
50
40
30
20
10
0
80
60
40
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
CR
DO
PI
ENVIRONMENTAL CHARACTERISTICS
76
�
(2) Temperature Cycle (3) Temperature and Humidity Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(-55℃~+125 ℃)-10℃~+65℃80%~98%
PI
CR
DOPI
CR
DO
PI
CR
DO
PI
CR
DO
l ORD312
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(+125℃-500H) (-40℃-500H)
77
�
(6) Shock Test
2) Misoperation Area
(7) Vibration Test
1500
1000
500
G
AT
Acc
eler
atio
n
Pull-in Value
MisoperationArea
PI
CR
DO
PI
CR
DO
lORD312
100 20 30 40 50 60
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
BeforeTest After Test
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
79
�
REED SWITCHORD221Miniature offset-type
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONS
44.2±0.3
MAX 13.0
0.35×0.6 MAX f2.3
J2R0014-38-21
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD221 is a small single-contact reed switch designed for general control of medium-level loads less than 100V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
80
�
n
99.9
99
95
90
8070605040302010
51
0.140 60 80 100 mW
10~30
10
0.31.0
100( )DCAC
l ORD221
5min100max
200 min (PI≧20) 150min (10≦PI<20)
109min0.3max
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown Voltage
Insulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value Unit
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Contact Resistance
(Measurement length: 32mm)
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 AT
Dro
p-ou
t Val
ue
Pull-in Value
ATATmWVDC
WpFVAVAA
VDC
81
�
99.9
99
95
90
807060504030201051
(DC 100V)
0.11010 1011 1012 1013 1014 W10 20 30 40 50 AT
400
300
200
100
0
DC : V
10 20 30 40 50 AT
0.4
0.3
0.2
0.1
0
pF
ORD221 l
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance B
reak
dow
n V
olta
ge
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in ValueInsulation Resistance
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
(1MHz)
82
�
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
10 20 30 40 50 AT
15
10
5
0
ms
l ORD221
99.9
99
95
90
8070605040302010
5
1
0.12500 2750 3000 Hz
99.9
99
95
90
80706050403020
105
1
0.10.1 0.2 0.3 0.4 ms0
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Bounce Time
Rel
ease
Tim
e
Drop-out ValueResonant Frequency
n OPERATING CHARACTERISTICS
0.4max0.5max0.05max
2750±250500
msmsmsHzHz
83
�
n
n
AT60
50
40
30
20
10
0
80
60
40
mW
ORD221 l
PI
CR
DO
(22.2N-10sec)99.9
99
95
90
8070605040302010
51
0.10 100N80604020
%
40
30
20
10
0
-10
-20
-30
-40 -20 0 20 40 60 80 100 120 ℃
CR
DO
PI
MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Before Test After Test
Temperature
Breaking Load
ENVIRONMENTAL CHARACTERISTICS
84
�
AT60
50
40
30
20
10
0
100
80
60
mW
PI
CR
DO
AT60
50
40
30
20
10
0
100
80
60
mW
PI
CR
DO
AT60
50
40
30
20
10
0
100
80
60
mW
PI
DO
CR
AT60
50
40
30
20
10
0
100
80
60
mW
l ORD221
PI
CR
DO
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
(-55℃ to 125℃)-10℃ to 65℃80% to 98%
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)
85
�
1500
1000
500
G
AT
AT60
50
40
30
20
10
0
100
80
60
mW
PI
CR
DO
AT60
50
40
30
20
10
0
100
80
60
mW
ORD221 l
PI
CR
DO
100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
MisoperationArea
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
87
�
REED SWITCHORD2221
J2R0014-38-21
Miniature offset, long lead-type
n GENERAL DESCRIPTION
n FEATURES
n
n
EXTERNAL DIMENSIONS (Unit: mm)
APPLICATIONSl Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD2221 is a single-contact reed switch designed for general control of medium-level loads less than 100V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life. (6) Economically and easily becomes a proximity switch when paired with a magnet.
MAX 13.0
0.35×0.6 MAX f2.3
56.7±0.3
88
�
n
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
99.9
99
95
90
8070605040302010
51
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt
(Measurement length: 32mm)
Contact Resistance
ParameterPull-in Value (PI)Drop-out Value (DO)Contact Resistance (CR)Breakdown Voltage
Insulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value10~305min
100max200min (PI≧20)
109min0.3max
10
0.31.0
UnitATATmWVDC
WpFVAVAA
100( )DCAC
150min (10≦PI<20) VDC
l ORD2221
40 60 80 100 mW
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 60 70 AT
Dro
p-ou
t Val
ue
Pull-in Value
89
�
(3) Breakdown Voltage (4) Insulation Resistance
(5) Electrostatic Capacitance
99.9
99
95
90
807060504030201051
Cum
ulat
ive
Freq
uenc
y P
erce
nt
(DC 100V)
0.11010 1011 1012 1013 1014 W
Insulation Resistance
10 20 30 40 6050 70 AT
400
300
200
100
0
DC:V
Bre
akdo
wn
Vol
tage
Pull-in Value
10 20 30 40 6050 70 AT
0.4
0.3
0.2
0.1
0
pF
(1MHz)
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
lORD2221
90
�
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value1.0max1.0max0.05max
2750±250500
UnitmsmsmsHzHz
(1) Operate Time (2) Bounce Time
(3) Release Time (4) Resonant Frequency
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 6050 70AT
(25Hz: 100AT energized)
Ope
rate
Tim
e
Pull-in Value
10 20 30 40 50 AT
15
10
5
0
ms
(25Hz: 100AT energized)
Rel
ease
Tim
e
Drop-out Value
99.9
99
95
90
8070605040302010
5
1Cum
ulat
ive
Freq
uenc
y P
erce
nt (
%)
0.1
Resonant Frequency
99.9
99
95
90
80706050403020
105
1
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt
(25Hz: 100AT energized)
Bounce Time0 0.3 0.4 0.5 0.6 0.7 ms
l ORD2221
2500 2750 3000 Hz
n OPERATING CHARACTERISTICS
91
�
n MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load) (2) Lead Tensile Strength
n
(1) Temperature Characteristics
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
(22.2N-10 sec)
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
99.9
99
95
90
8070605040302010
51
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (
%)
Breaking Load
%
40
30
20
10
0
-10
-20
-30
CR
DO
PI
Rat
e of
Cha
nge
Temperature
lORD2221
0 20 40 60 80 100N
-40 -20 0 20 40 60 80 100 120 ℃
Before Test After Test
ENVIRONMENTAL CHARACTERISTICS
92
�
(2) Temperature Cycle (3) Temperature and Humidity Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
mW
PI
CR
DO
AT60
50
40
30
20
10
0
100
80
60
AT60
50
40
30
20
10
0
100
80
60
mW
(-55℃~+125℃)
PI
CR
DO
mW
PI
DO
CR
-10℃~+65℃80%~98%
mW
PI
CR
DO
l ORD2221
AT60
50
40
30
20
10
0
100
80
60
AT60
50
40
30
20
10
0
100
80
60
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(+125℃-500H) (-40℃-500H)
93
�
(6) Shock Test
2) Misoperation Area
(7) Vibration Test
1500
1000
500
G
AT
Acc
eler
atio
n
MisoperationArea
Pull-in Value
mW
PI
CR
DO
AT60
50
40
30
20
10
0
100
80
60
mW
PI
CR
DO
lORD2221
100 20 30 40 50 60
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
95
�
REED SWITCHORD228VLMiniature high-performance
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONS
44.3±0.3
MAX 14.0
f0.5 MAX f2.2
J2R0015-41-31
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD228VL is a small single-contact reed switch designed for general control of medium level loads less than 100V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
96
�
n
99.9
99
95
90
807060504030201051
0.140 60 80 100 mW
100( )DCAC
10~40
10
0.51.0
l ORD228VL
5min100max
200 min (PI≧20)150 min (10≦PI<20)
109min0.3max
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown Voltage
Insulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in Value Contact Resistance
(Measurement length: 32mm)
Unit
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 AT
Dro
p-ou
t Val
ue
ATATmWVDC
WpFVAVAA
VDC
97
�
99.9
99
95
90
8070605040302010
51
(DC 100V)
0.11010 1011 1012 1013 1014
W10 20 30 40 50AT
400
300
200
100
0
DC : V
10 20 30 40 50 AT
0.4
0.3
0.2
0.1
0
pF
(1MHz)
ORD228VL l
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance B
reak
dow
n V
olta
ge
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in ValueInsulation Resistance
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
98
�
10 20 30 40 50 AT
15
10
5
0
ms
l ORD228VL
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
4500 5000 5500 Hz
99.9
99
95
90
807060504030201051
0.10.1 0.2 0.3 0.4 ms0
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Bounce Time
Rel
ease
Tim
e
Drop-out ValueResonant Frequency
n OPERATING CHARACTERISTICS
msmsmsHzHz
0.4max0.3max0.05max
5000±400500
99.9
99
95
90
807060504030201051
0.1
99
�
n
n
99.9
99
95
90
8070605040302010
51
0.10 20 40 60 80 100N
AT60
50
40
30
20
10
0
80
60
40
mW
ORD228VL l
PI
CR
DO
(22.2N-10sec)
%
40
30
20
10
0
-10
-20
-30
-40 -20 0 20 40 60 80 100 120 ℃
CR
DO
PI
MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Before Test After Test
Temperature
Breaking Load
ENVIRONMENTAL CHARACTERISTICS
100
�
PI
CR
DO
PI
CR
DO
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
l ORD228VL
PI
CR
DO
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
(-55℃ to 125 ℃)-10℃ to 65 ℃80% to 98%
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
101
�
1500
1000
500
G
AT
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
ORD228VL l
PI
CR
DO
100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
MisoperationArea
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
AT60
50
40
30
20
10
0
80
60
40
mW
103
�
REED SWITCHORD324General purpose miniature-type
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONS
44.3±0.5
MAX 14.0
f0.5 MAX f2.2
J2R0015-41-31
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD324 is a small single-contact reed switch designed for general control of medium level loads less than 200V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
104
�
n
99.9
99
95
90
807060504030201051
0.140 60 80 100 mW
200DC
10~40
10
0.51.0
l ORD324
4min100max250 min1010min0.3max
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown VoltageInsulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching Voltage
Maximum Switching CurrentMaximum Carry Current
Rated Value
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in Value Contact Resistance
(Measurement length: 32mm)
Unit
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 AT
Dro
p-ou
t Val
ue
150AC
ATATmWVDC
WpFVAVVAA
105
�
99.9
99
95
90
8070605040302010
51
(DC 100V)
0.11010 1011 1012 1013 1014
W10 20 30 40 50AT
800
600
400
200
0
DC : V
10 20 30 40 50 AT
0.4
0.3
0.2
0.1
0
pF
(1MHz)
ORD324 l
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance B
reak
dow
n V
olta
ge
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in ValueInsulation Resistance
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
106
�
10 20 30 40 50 AT
30
20
10
0
ms
l ORD324
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
4500 5000 5500 Hz
99.9
99
95
90
807060504030201051
0.10.1 0.2 0.3 0.4 ms0
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Bounce Time
Rel
ease
Tim
e
Drop-out ValueResonant Frequency
n OPERATING CHARACTERISTICS
msmsmsHzHz
0.4max0.3max0.05max
5000±400500
99.9
99
95
90
807060504030201051
0.1
107
�
n
n
99.9
99
95
90
8070605040302010
51
0.10 20 40 60 80 100N
AT60
50
40
30
20
10
0
80
60
40
mW
ORD324 l
PI
CR
DO
(22.2N-10sec)
%
40
30
20
10
0
-10
-20
-30
-40 -20 0 20 40 60 80 100 120 ℃
CR
DO
PI
MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Before Test After Test
Temperature
Breaking Load
ENVIRONMENTAL CHARACTERISTICS
108
�
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
PI
CR
DO
PI
CR
DO
l ORD324
PI
CR
DO
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
(-55℃ to 125 ℃)-10℃ to 65 ℃80% to 98%
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)AT
60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
109
�
1500
1000
500
G
AT
PI
CR
DO
ORD324 l
PI
CR
DO
100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
Misoperation Area
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)AT
60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
111
�
REED SWITCHORD324H
MAX 14.0
f0.5 MAX f2.2
J2R0015-41-31
General purpose miniature-type, long lead
56.7±0.3
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONSl Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD324H is a small single-contact reed switch designed for general control of low-level loads less than 200V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications. (4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
112
�
n
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
99.9
99
95
90
807060504030201051
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Contact Resistance
(Measurement length: 32mm)
ParameterPull-in Value (PI)Drop-out Value (DO)Contact Resistance (CR)Breakdown VoltageInsulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching Voltage
Maximum Switching CurrentMaximum Carry Current
Rated value Unit10~403min
100max250min1010min0.3max
10200DC150AC
0.51.0
lORD324H
40 60 80 100 mW
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 AT
Dro
p-ou
t Val
ue
Pull-in Value
ATATmW
WpFVAVVAA
VDC
113
�
(3) Breakdown Voltage (4) Insulation Resistance
(5) Electrostatic Capacitance
99.9
99
95
90
8070605040302010
51
Cum
ulat
ive
Freq
uenc
y P
erce
nt
(DC 100V)
0.11010 1011 1012 1013 1014
W
Insulation Resistance
10 20 30 40 50AT
800
600
400
200
0
DC : V
Bre
akdo
wn
Vol
tage
Pull-in Value
Pull-in Value
10 20 30 40 50 AT
0.4
0.3
0.2
0.1
0
pF
(1MHz)
Ele
ctro
stat
ic C
apac
itanc
e
lORD324H
114
�
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
(1) Operate Time (2) Bounce Time
(3) Release Time (4) Resonant Frequency
10 20 30 40 50 AT
30
20
10
0
ms
(25Hz: 100AT energized)
Rel
ease
Tim
e
Drop-out Value
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
Ope
rate
Tim
e
Pull-in Value
(25Hz: 100AT energized)
99.9
99
95
90
807060504030201051C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
0.1
Resonant Frequency
99.9
99
95
90
807060504030201051
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Bounce Time
(25Hz: 100AT energized)
HZ550050004500
lORD324H
0.1 0.2 0.3 0.4 ms0
n OPERATING CHARACTERISTICS
msmsmsHzHz
0.4max0.3max0.05max
5005000±400
115
�
n MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load) (2) Lead Tensile Strength
n
(1) Temperature Characteristics
99.9
99
95
90
8070605040302010
51
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)Breaking Load
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
(22.2N-10sec)
Before Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Con
tact
Res
ista
nce
%
40
30
20
10
0
-10
-20
-30
CR
DO
PI
Rat
e of
Cha
nge
Temperature
lORD324H
0 20 40 60 80 100N
-40 -20 0 20 40 60 80 100 120 ℃
After Test
ENVIRONMENTAL CHARACTERISTICS
116
�
(2) Temperature Cycle (3) Temperature and Humidity Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(-55℃~+125℃)-10℃~+65℃80%~98%
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
AT
mW
PI
CR
DO
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
60
50
40
30
20
10
0
80
60
40
Before Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Con
tact
Res
ista
nce
After Test
Before Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Con
tact
Res
ista
nce
After Test
Before Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Con
tact
Res
ista
nce
After Test
Before Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Con
tact
Res
ista
nce
After Test
(+125℃-500H) (-40℃-500H)
l ORD324H
117
�
(6) Shock Test
2) Misoperation Area
(7) Vibration Test
1500
1000
500
G
AT
Acc
eler
atio
n
Pull-in Value
MisoperationArea
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
AT60
50
40
30
20
10
0
80
60
40
mW
PI
CR
DO
lORD324H
100 20 30 40 50 60
Before Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Con
tact
Res
ista
nce
After Test
Before Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Con
tact
Res
ista
nce
After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
119
�
REED SWITCHORD325General purpose miniature-type
J2R0015-41-31
n GENERAL DESCRIPTION
n FEATURES
n
n
EXTERNAL DIMENSIONS (Unit: mm)
APPLICATIONSl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD325 is a small single-contact reed switch designed for general control of medium-level loads less than 200V. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life. (6) Economically and easily becomes a proximity switch when paired with a magnet.
44.1±0.5
MAX 17.0
f0.5 MAX f2.8
120
�
n
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
99.9
99
95
90
807060504030201051
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Contact Resistance
ParameterPull-in Value (PI)Drop-out Value (DO)Contact Resistance (CR)Breakdown Voltage
Insulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching Voltage
Maximum Switching CurrentMaximum Carry Current
Rated Value Unit
200DC150AC
300min (PI≧15)250min (PI<15)
10~504min
100max
0.3max10
0.51.0
l ORD325
40 60 80 100 mW
(Measurement length: 32mm)
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 AT
Dro
p-ou
t Val
ue
Pull-in Value
1010min
ATATmW
WpFVAVVAA
VDCVDC
121
�
(3) Breakdown Voltage (4) Insulation Resistance
(5) Electrostatic Capacitance
99.9
99
95
90
8070605040302010
51C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
(DC 100V)
0.11010 1011 1012 1013 1014
W
Insulation Resistance
10 20 30 40 50AT
800
600
400
200
0
DC : V
Bre
akdo
wn
Vol
tage
Pull-in Value
10 20 30 40 50 AT
0.4
0.3
0.2
0.1
0
pF
(1MHz)
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
lORD325
122
�
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
(1) Operate Time (2) Bounce Time
(3) Release Time (4) Resonant Frequency
10 20 30 40 50 AT
15
10
5
0
ms
(25Hz: 100AT energized)
Rel
ease
Tim
e
Drop-out Value
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
Ope
rate
Tim
e
Pull-in Value
(25Hz: 100AT energized)
99.9
99
95
90
807060504030201051
Cum
ulat
ive
Freq
uenc
y P
erce
nt
0.1
Resonant Frequency
99.9
99
95
90
807060504030201051
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt
Bounce Time
(25Hz: 100AT energized)
3400 3700 4000 Hz
l ORD325
0.1 0.2 0.3 0.4 ms0
n OPERATING CHARACTERISTICS
msmsmsHzHz
0.4max0.4max0.05max
3700±300500
123
�
PI
DO
n MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load) (2) Lead Tensile Strength
n
(1) Temperature Characteristics
CR
(22.2N-10sec)
%
40
30
20
10
0
-10
-20
-30
CR
DO
PI
Rat
e of
Cha
nge
Temperature
lORD325
-40 -20 0 20 40 60 80 100 120 ℃
99.9
99
95
90
8070605040302010
51
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (
%)
Breaking Load
0 20 40 60 80 100N
AT60
50
40
30
20
10
0
80
60
40
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
ENVIRONMENTAL CHARACTERISTICS
124
�
(2) Temperature Cycle (3) Temperature and Humidity Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(-55℃~+125℃)-10℃~+65℃80%~98%
PI
CR
DO
PI
CR
DO
PI
CR
DO
PI
CR
DO
l ORD325
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(+125℃-500H) (-40℃-500H)
125
�
(6) Shock Test
2) Misoperation Area
(7) Vibration Test
1500
1000
500
G
AT
Acc
eler
atio
n
Pull-in Value
MisoperationArea
PI
CR
DO
PI
CR
DO
lORD325
100 20 30 40 50 60
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
AT60
50
40
30
20
10
0
100
80
60
mW
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
127
�
REED SWITCHORD229High breakdown voltage
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONS
55.4±0.3
MAX 21.0
f0.6 MAX f2.75
J2R0019-41-31
l Automotive electronic devices l Control equipment l Communication equipment l Measurement equipment l Household appliances
The ORD229 is a single-contact, high power reed switch (70VA AC or 50W DC) designed for high breakdown voltages up to 600V DC.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life. (6) Economically and easily becomes a proximity switch when paired with a magnet.
128
�
n
99.9
99
95
90
8070605040302010
51
0.1
l ORD229
40 60 80 100 mW
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown Voltage
Insulation ResistanceElectrostatic CapacitanceContact Rating
Maximum Switching Voltage
Maximum Switching Current
Maximum Carry Current
Rated Value
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Contact Resistance
(Measurement length: 32mm)
Unit
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 60AT
Dro
p-ou
t Val
ue
Pull-in Value
ATATmWVDC
WpFW
V
A
A
VDC
V
VA
A
20~606min
100max600 min (PI≧35)
1010min0.5max50DC
DC0.7AC0.5
2.5
350DC
500 min (20 PI 35)
300AC
70AC
129
�
99.9
99
95
90
8070605040302010
51
0.11010 1011 1012 1013 1014 W
(DC100V)
10 20 30 40 50 60AT
0.4
0.3
0.2
0.1
0
pF
10 20 30 40 50 60AT
DC : V800
600
400
200
0
ORD229 l
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance B
reak
dow
n V
olta
ge
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in ValueInsulation Resistance
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
(1MHz)
130
�
10 20 30 40 50 AT
15
10
5
0
m
l ORD229
s
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 60AT
99.9
99
95
90
807060504030201051
0.10.1 0.2 0.3 0.4 ms0
2250 2500 2750 Hz
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Bounce Time
Rel
ease
Tim
e
Drop-out Value Resonant Frequency
n OPERATING CHARACTERISTICS
0.6max0.5max0.05max
2500±250500
msmsmsHzHz
99.9
99
95
90
807060504030201051
0.1
131
�
n
n
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
(22.2N-10sec)
mW
ORD229 l
99.9
99
95
90
8070605040302010
51
0.1
%
40
30
20
10
0
-10
-20
-30
CR
DO
PI
0 20 40 60 80 100N
-40 -20 0 20 40 60 80 100 120 ℃
MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Temperature
Breaking Load
Before Test After Test
ENVIRONMENTAL CHARACTERISTICS
132
�
l ORD229
PI
CR
DO
CR
DO
PI
AT60
50
40
30
20
10
0
80
60
40
PI
DO
CR
mW
PI
DO
CR
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
(-55℃ to 125 ℃)-10℃ to 65 ℃80% to 98%
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
133
�
ORD229 l
1500
1000
500
G
AT
PI
CR
DO
PI
CR
DO
100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
Misoperation Area
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)AT
60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
135
�
REED SWTICHORD2210High power
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONS
f0.6
J2R0020-38-21
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD2210 is a single-contact reed switch designed for high current of 1.0A DC and 0.7A AC and high power of AC 70VA and DC 50W. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications. (4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life. (6) Economically and easily becomes a proximity switch when paired with a magnet.
MAX f2.75
MAX 21.0
55.4±0.3
136
�
n
15~607min
100max250min (PI≧20)
200min (15≦PI<20)1010min0.5max50DC
1.0DC
2.5
200DC150AC
70AC
0.7AC
l ORD2210
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown Voltage
Insulation ResistanceElectrostatic CapacitanceContact Rating
Maximum Switching Voltage
Maximum Switching Current
Maximum Carry Current
Rated Value
(1) Pull-in Value vs. Drop-out Value
AT50
40
30
20
10
0 10 20 30 40 50 60AT
(2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in Value Contact Resistance
(Measurement length: 32mm)
Unit
40 60 80 100 mW
99.9
99
95
90
8070605040302010
51
0.1
ELECTRICAL CHARACTERISTICS
Dro
p-ou
t Val
ue
ATATmW
W
VDCVDC
pF
VAW
VVAAA
137
�
99.9
99
95
90
8070605040302010
51
(DC 100V)
0.11010 1011 1012 1013 1014 W
10 20 30 40 50 60AT
0.4
0.3
0.2
0.1
0
pF
10 20 30 40 50 60AT
400
300
200
100
0
DC : V
ORD2210 l
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance B
reak
dow
n V
olta
ge
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in ValueInsulation Resistance
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
(1MHz)
138
�
10 20 30 40 50 AT
15
10
5
0
ms
l ORD2210
0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 60 AT
99.9
99
95
90
807060504030201051
0.10.1 0.2 0.3 0.40
2250 2500 2750 Hz
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Bounce Time
Rel
ease
Tim
e
Drop-out Value Resonant Frequency
ms
ms
n OPERATING CHARACTERISTICS
0.6max0.5max0.05max
2500±250500
msmsmsHzHz
99.9
99
95
90
807060504030201051
0.1
139
�
n
n
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
(22.2N-10sec)
mW
ORD2210 l
99.9
99
95
90
807060504030201051
0.1
%
40
30
20
10
0
-10
-20
-30
CR
DO
PI
-40 -20 0 20 40 60 80 100 120 ℃
0 20 40 60 80 100N
MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Temperature
Breaking Load
Before Test After Test
ENVIRONMENTAL CHARACTERISTICS
140
�
l ORD2210
PI
CR
DO
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
mW
AT60
50
40
30
20
10
0
80
60
40
mW
PI
DO
CR
PI
DO
CR
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
(-55℃ to 125 ℃)-10℃ to 65 ℃80% to 98%
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)AT
60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
141
�
ORD2210 l
1500
1000
500
G
AT
PI
CR
DO
PI
CR
DO
100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
MisoperationArea
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)AT
60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
143
�
REED SWITCHORD2210VVacuum high power
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONS
55.4±0.3
MAX 21.0
f0.6 MAX f2.75
J2R0021-38-21
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD2210V is a vacuum type, small single-contact reed switch designed for ultra high breakdown voltages up to 1000V DC.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life. (6) Economically and easily becomes a proximity switch when paired with a magnet.
144
�
n
l ORD2210V
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown VoltageInsulation ResistanceElectrostatic Capacitance
Maximum Switching Voltage
Maximum Switching CurrentMaximum Carry Current
Rated Value Unit
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Contact Resistance
(Measurement length: 32mm)
40 60 80 100 mW
99.9
99
95
90
8070605040302010
51
0.1
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 60AT
Dro
p-ou
t Val
ue
Pull-in Value
ATATmW
WVDC
pFVAVVAA
20~607min
100max
100
1000min1010min0.5max
350DC300AC
1.02.5
145
�
99.9
99
95
90
8070605040302010
51
(DC 100V)
0.11010 1011 1012 1013 1014 W
10 20 30 40 50 60AT
0.4
0.3
0.2
0.1
0
pF
10 20 30 40 50 60AT
5000
4000
3000
2000
1000
0
DC : V
ORD2210V l
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance
Bre
akdo
wn
Vol
tage
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in ValueInsulation Resistance
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
(1MHz)
146
�
10 20 30 40 50 AT
15
10
5
0
ms
l ORD2210V
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 60 AT
99.9
99
95
90
807060504030201051
0.10.1 0.2 0.3 0.4 ms0
2250 2500 2750 Hz
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated value Unit
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Bounce Time
Rel
ease
Tim
e
Drop-out Value Resonant Frequency
n OPERATING CHARACTERISTICS
msmsmsHzHz
0.6max0.5max0.05max
2500±250500
99.9
99
95
90
807060504030201051
0.1
147
�
n
n
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
(22.2N-10sec)
mW
ORD2210V l
99.9
99
95
90
807060504030201051
0.1
%
40
30
20
10
0
-10
-20
-30
CR
DO
PI
0 20 40 60 80 100N
-40 -20 0 20 40 60 80 100 120 ℃
MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Temperature
Breaking Load
Before Test After Test
ENVIRONMENTAL CHARACTERISTICS
148
�
l ORD2210V
PI
CR
DO
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
mW
PI
DO
CR
PI
DO
CR
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
(-55℃ to 125 ℃)-10℃ to 65 ℃80% to 98%
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)
AT60
50
40
30
20
10
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
149
�
ORD2210V l
1500
1000
500
G
AT
PI
CR
DO
PI
CR
DO
100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
Misoperation Area
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)AT
60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
151
�
REED SWITCHORD2211Lamp load
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONS
44.1±0.3
MAX 16.5
f0.6 MAX f2.8
J2R0017-38-21
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD2211 is a single-contact reed switch designed for direct opening or closing lamps of 12V - 3.4W. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
152
�
n
40 60 80 100 mW
20~40
50 (12V-3.4W lamp)
0.5 (Inrush 3A)2.5
100( )DCAC
l ORD2211
8min100max200min109min0.3max
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown VoltageInsulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in Value Contact Resistance
(Measurement length: 32mm)
Unit
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 60AT
Dro
p-ou
t Val
ue
ATATmWVDC
WpFVAVAA
99.9
99
95
90
807060504030201051
0.1
153
�
(DC 100V)
1010 1011 1012 1013 1014 W60
10 20 30 40 50 60AT
ORD2211 l
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance B
reak
dow
n V
olta
ge
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in ValueInsulation Resistance
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
(1MHz)
400
300
200
100
0
DC : V
10 20 30 40 50AT
99.9
99
95
90
8070605040302010
51
0.1
0.4
0.3
0.2
0.1
0
pF
154
�
10 20 30 40 50 60 AT
99.9
99
95
90
80706050403020
105
1
0.14100 4600 5100 Hz
l ORD2211
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Bounce Time
Rel
ease
Tim
e
Drop-out ValueResonant Frequency
n OPERATING CHARACTERISTICS
0.6max0.4max0.05max
4600±400500
msmsmsHzHz
ms0.5
0.4
0.3
0.2
0.1
0 0.1 0.2 0.3 0.4 ms0
99.9
99
95
90
807060504030201051
0.1
10 20 30 40 50 AT
15
10
5
0
ms
155
�
PI
DO
n
n
CR
(22.2N-10sec)
mW
ORD2211 l
99.9
99
95
90
8070605040302010
51
0.1100N0 20 40 60 80
℃
CR
DO
PI
-40 -20 0 20 40 60 80 100 120
MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Temperature
Breaking Load
Before Test After Test
ENVIRONMENTAL CHARACTERISTICS
AT60
50
40
30
20
10
0
80
60
40
%
40
30
20
10
0
-10
-20
-30
156
�
PI
DO
PI
DO
PI
DO
PI
DO
l ORD2211
CR CR
CR CR
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
(-55℃ to 125 ℃)-10℃ to 65 ℃80% to 98%
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
Misoperation areaMisoperation area
Misoperation area
157
�
PI
DO
PI
DO
ORD2211 l
AT
CR
CR100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
Misoperation Misoperation areaarea
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
Misoperation Area
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
1500
1000
500
G
159
�
REED SWITCHORD2211HLamp load, long lead-type
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONS
57.0±0.3
MAX 16.5
f0.6 MAX f2.7
J2R0017-38-21
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The ORD2211H is a long lead, single contact reed switch designed for direct opening or closing lamps of 12V - 3.4W. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life.(6) Economically and easily becomes a proximity switch when paired with a magnet.
160
�
n
40 60 80 100 mW
20~40
50 (12V-3.4W lamp)
0.5 (Inrush 3A)2.5
100( )DCAC
l ORD2211H
8min100max200min109min0.3max
ParameterPull-in Value (PI) Drop-out Value (DO)Contact Resistance (CR)Breakdown VoltageInsulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in Value Contact Resistance
(Measurement length: 32mm)
Unit
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 60AT
Dro
p-ou
t Val
ue
ATATmWVDC
WpFVAVAA
99.9
99
95
90
807060504030201051
0.1
161
�
(DC 100V)
1010 1011 1012 1013 1014 W10 20 30 40 50 60AT
800
600
400
200
0
DC : V
ORD2211H l
(3) Breakdown Voltage
(5) Electrostatic Capacitance
(4) Insulation Resistance B
reak
dow
n V
olta
ge
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Pull-in ValueInsulation Resistance
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
(1MHz)
99.9
99
95
90
8070605040302010
51
0.1
10 20 30 40 50 60AT
0.4
0.3
0.2
0.1
0
pF
162
�
4100 4600 5100 Hz
l ORD2211H
(1) Operate Time
(3) Release Time (4) Resonant Frequency
(2) Bounce Time
ParameterOperate TimeBounce TimeRelease TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
Ope
rate
Tim
e
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)C
umul
ativ
e Fr
eque
ncy
Per
cent
(%)
Pull-in Value
(25Hz: 100AT energized)
(25Hz: 100AT energized)
(25Hz: 100AT energized)
Bounce Time
Rel
ease
Tim
e
Drop-out ValueResonant Frequency
n OPERATING CHARACTERISTICS
0.6max0.4max0.05max
4600±400500
msmsmsHzHz
ms0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 50AT
99.9
99
95
90
807060504030201051
0.10.1 0.2 0.3 0.4 ms0
99.9
99
95
90
807060504030201051
0.1
15
10
5
0
ms
10 20 30 40 50 AT
163
�
n
n
CR
(22.2N-10sec)
mW
ORD2211H l
99.9
99
95
90
8070605040302010
51
0.1100N0 20 40 60 80
%
CR
DO
PI
MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load)
(1) Temperature Characteristics
(2) Lead Tensile Strength
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)
Con
tact
Res
ista
nce
Rat
e of
Cha
nge
Temperature
Breaking Load
Before Test After Test
ENVIRONMENTAL CHARACTERISTICS
PI
DO
AT60
50
40
30
20
10
0
80
60
40
40
30
20
10
0
-10
-20
-30
-40 -20 0 20 40 60 80 100 120 ℃
164
�
PI
DO
PI
DO
PI
DO
PI
DO
l ORD2211H
CR CR
CR CR
(2) Temperature Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
(3) Temperature and Humidity Cycle
(-55℃ to 125 ℃)-10℃ to 65 ℃80% to 98%
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
eP
ull-i
n V
alue
• D
rop-
out V
alue
Con
tact
Res
ista
nce
Before Test After Test
Before Test After Test Before Test After Test
Before Test After Test
(+125℃-500H) (-40℃-500H)
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
Misoperation areaMisoperation area
Misoperation area
165
�
PI
DO
PI
DO
ORD2211H l
1500
1000
500
G
AT
CR
CR100 20 30 40 50 60
(6) Shock Test
(7) Vibration Test
2) Misoperation Area
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ue
Acc
eler
atio
n
Misoperation Misoperation areaareaMisoperation Area
Pull-in Value
Con
tact
Res
ista
nce
Before Test After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)AT
60
50
40
30
20
10
0
80
60
40
mW
AT60
50
40
30
20
10
0
80
60
40
mW
167
�
REED SWITCHORT551Ultra-miniature transfer
n GENERAL DESCRIPTION
n FEATURES
n EXTERNAL DIMENSIONS (Unit: mm)
n APPLICATIONSl Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
56.1±0.3
MAX 14.0
f0.5 MAX f2.54 f0.5
51.6±0.3
f0.5
N.C
N.O
J2R0024-41-31
The ORT551 is a ultraminiature two-contact reed switch designed for changeover type operation. The contacts are sealed within the glass tube with inert gas to maintain contact reliability.
(1) Hermetically sealed within a glass tube with inert gas, reed contacts are not influenced by the external atmospheric environment.
(2) Quick response(3) Comprising of operating parts and electrical parts arranged coaxially, reed switches are
suited to high-frequency applications.(4) Compact and light weight.(5) Superior corrosion resistance and wear resistance of the contacts assures stable switching
operation and long life. (6) Economically and easily becomes a proximity switch when paired with a magnet.
168
�
n
ParameterPull-in Value (PI)Drop-out Value (DO)Contact Resistance (CR)Breakdown Voltage
Insulation ResistanceElectrostatic CapacitanceContact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry Current
Rated Value UnitATATmWVDCVDC
WpFVAVAA
(1) Pull-in Value vs. Drop-out Value (2) Contact Resistance
99.9
99
95
90
80706050403020105
1
0.1
Cum
ulat
ive
Freq
uenc
y Pe
rcen
t (%
) N.ON.C
(Measurement length: 30mm)
Contact Resistance
l ORT551
40 60 80 100 mW
10~304min
100max200min (PI≧20)
109min1.5max
3
0.20.5
30( )DCAC
150min (10≦PI<20)
ELECTRICAL CHARACTERISTICS
AT50
40
30
20
10
0 10 20 30 40 50 AT
Dro
p-ou
t Val
ue
Pull-in Value
169
�
(3) Breakdown Voltage (4) Insulation Resistance
(5) Electrostatic Capacitance
99.9
99
95
90
8070605040302010
51
(DC 100V)
0.110 1010 1110 1210 1310 W9
Cum
ulat
ive
Freq
uenc
y P
erce
nt
Insulation Resistance
10 20 30 40 50 AT
pF
(1MHz)
1.5
1.0
0.5
0
Ele
ctro
stat
ic C
apac
itanc
e
Pull-in Value
10 20 30 40 50 AT
400
300
200
100
0
DC : V
Bre
akdo
wn
Vol
tage
Pull-in Value
ORT551 l
170
�
ParameterOperate TimeBounce Time
Release TimeResonant FrequencyMaximum Operating Frequency
Rated Value Unit
(1) Operate Time (2) Bounce Time
(3) Release Time (4) Resonant Frequency
99.9
99
95
90
80706050403020105
1
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
ntN.O
N.C
Bounce Time
(25Hz: 100AT energized)
0.5
0.4
0.3
0.2
0.1
0 10 20 30 40 50 AT
ms
Pull-in Value
Ope
rate
Tim
e
(25Hz: 100AT energized)
AT
30
20
10
05 10 15 20 25
Rel
ease
Tim
e
Drop-out Value
(25Hz: 100AT energized)
ms
l ORT551
99.9
99
95
90
80706050403020105
1
Cum
ulat
ive
Freq
uenc
y P
erce
nt
0.1
Resonant Frequency
0.5 1.0 1.5 ms0
2000 6000 10000 Hz
n OPERATING CHARACTERISTICS
msms
msHzHz
ms
1.0maxNO 1.0max
0.5max6000±4000
200
NC 1.5max
171
�
n MECHANICAL CHARACTERISTICS(1) Lead Tensile Test (Static Load) (2) Lead Tensile Strength
n
(1) Temperature Characteristics
99.9
99
95
90
8070605040302010
5
1
0.1
Cum
ulat
ive
Freq
uenc
y P
erce
nt (%
)Breaking Load
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
(22.2N-10sec)
CR
N.O N .C
Pul
l-in
Val
ue
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
mW
ORT551 l
%
40
30
20
10
0
-10
-20
-30
CR
DO
PI
Rat
e of
Cha
nge
Temperature
20 40 60 80 100N
-40 -20 0 20 40 60 80 100 120 ℃
ENVIRONMENTAL CHARACTERISTICS
172
�
l ORT551
(2) Temperature Cycle (3) Temperature and Humidity Cycle
(4) High Temperature Storage Test (5) Low Temperature Storage Test
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
CR
N.O N .C
mW
(-55℃~+125℃)AT
60
50
40
30
20
10
0
80
60
40
PI
CR
DO
CR
N.O N .C
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test Before Test After Test
Before Test After Test Before Test After Test
mW
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
CR
N.O N .C
mW
-10℃~+65℃80%~98%
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
CR
N.O N .C
mW
(+125℃-500H) (-40℃-500H)
173
�
ORT551 l
(6) Shock Test
2) Misoperation Area
(7) Vibration Test
1500
1000
500
G
AT
MisoperationArea
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
CR
N.O N .C
mW
AT60
50
40
30
20
10
0
80
60
40
PI
CR
DO
CR
N.O N .C
mW
100 20 30 40 50 60
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Acc
eler
atio
n
Before Test
Pull-in Value
After Test
Pul
l-in
Val
ue •
Dro
p-ou
t Val
ueC
onta
ct R
esis
tanc
e
Before Test After Test
(196m/s2 : 10~2000Hz)
(294m/s2 : 11ms)
1) Electrical Characteristics
(open→close)
175
�
MOLDED SWITCHRA-901Miniature SMD
J2R0011-38-21
n GENERAL DESCRIPTION
n FEATURES
n
n
EXTERNAL DIMENSIONS (Unit: mm)
APPLICATIONS
n PAD LAYOUT SAMPLE
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The RA-901 is a molded ORD228VL reed switch with processed leads. While boasting the excellent characteristics of the ORD228VL, the molded exterior ensures ease of handling.
(1) Gull wing shape leads for SMT applications(2) Automatic mounting of component by tape and reel(3) Enhanced shock resistance due to resin mold protecting the glass tube(4) General purpose miniature
176
�
1A15~49AT
10AT (Min.)100mW (Max.)
10VA100V DC/AC
0.5A1.0A
200V (Min.)1×109W (Min.)0.4ms (Max.)0.3ms (Max.)0.05ms (Max.)
490m/s2-11ms490m/s2 (10~2000Hz)
-40~125℃-50~125℃0.3pF (Max.)5400Hz (typ)
500Hz
115~34
218~36
319~39
421~42
524~45
627~49
730~49
834~49
300
250
200
150
100
50
0
Tem
pera
ture
(℃)
Time
2~6℃/s 50~80 s
160~175℃
2~6℃/s
250~260℃30 s max.
60 s max.
220℃
n SPECIFICATION
n PULL-IN VALUE TABLE (After forming)
n Reflow Conditions
l RA-901
Contact FormPull-in Value (PI)Drop-out Value (DO)Contact Resistance (CR)Contact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry CurrentBreakdown VoltageInsulation ResistanceOperate TimeBounce TimeRelease TimeShock ResistanceVibration ResistanceOperating Temperature RangeStorage Temperature RangeElectrostatic CapacitanceResonant FrequencyMaximum Operating Frequency
Model No.
Pull-in Value (AT)
1414
HOLD
HOLD
14
HOLDHOLD
2
4
10OFF
10
1414
HOLD
HOLD
14
HOLDHOLD
2
4
10OFF
10
1414
HOLD
HOLD
14
HOLDHOLD
2
4
10OFF
10
177
�
Magnet:
Molded Switch: N5
5
6
Unit: mm
(1) X-Y Characteristic H (2) X-Z Characteristic H
05101520 1510 205
2
4
6
8
12
ON
OFF
Xm
m
N S–Y Y mmX
2
4
6
8
12
—Z ZSX
ON
Xm
m
(3) X-Y Characteristic V
OFF
ONON
Xm
m
NS–Y Y mm
X
Magnet Drive Characteristics Example (1)
5 x 5 x 6 mmAnisotropic barium ferriteSurface magnetic flux 120 mTRA-901-1Pull-in value 15.0 (AT)Drop-out value 13.5 (AT)
S
01520 510 15 20105
1414141414
HOLDHOLD
14
HOLD
HOLDHOLDHOLD
6
8
10
12
01520 510 15 20105
141414
HOLDHOLDHOLDHOLD HOLDHOLD
2
4
2
4
101010OFFOFFOFF
101010
lRA-901
n
178
�
n
Magnet:
Molded Switch: N5
5
6
Unit: mm
(1) X-Y Characteristic H (2) X-Z Characteristic H
(3) X-Y Characteristic V
RA-901 Magnet Drive Characteristics Example (2)
5 x 5 x 6 mmAnisotropic barium ferriteSurface magnetic flux 120 mTRA-901-1Pull-in value 34.0 (AT)Drop-out value 29.1 (AT)
S
05101520 1510 205
2
4
8
12
ON
OFF
N S–Y Y mmX
2
4
8
12
—Z ZSX
ON
Xm
m
OFF
ONON
Xm
m
NS–Y Y mm
X
01520 510 15 20105
1414141414
HOLDHOLD
14
HOLD HOLDHOLDHOLD
6
8
10
12
01520 510 15 20105
141414
HOLDHOLDHOLDHOLD HOLDHOLD
2
4
2
4
101010
OFFOFFOFF
101010
Xm
mX
mm
Xm
m
66 66
l RA-901
1414
HOLD HOLD
14
HOLDHOLD
2
4
10
OFF
10
Xm
m
6 6
1414
HOLD HOLD
14
HOLDHOLD
2
4
10
OFF
10
Xm
m
6 6
179
�
1414
HOLD HOLD
14
HOLDHOLD
2
4
10
OFF
10
Xm
m
6 6
n
(1) Temperature Cycle
(2) Temperature and Humidity Cycle
lRA-901
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20C
onta
ct R
esis
tanc
e (m
)Before Test After Test
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20
Con
tact
Res
ista
nce
(m)
Before Test After Test
(-55℃~+125℃)
(-10℃~+65℃ 80%~98%)
ENVIRONMENTAL CHARACTERISTICS
180
�
l RA-901
(3) High Temperature Storage Test (125℃ 500H)
(4) Low Temperature Storage Test (-40℃ 500H)
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20C
onta
ct R
esis
tanc
e (m
W)
Before Test After Test
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20
Con
tact
Res
ista
nce
(mW
)
Before Test After Test
181
�
lRA-901
(5) Shock Test (490m/s2 11msec)
(490m/s2 10~2000Hz)
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20
Con
tact
Res
ista
nce
(mW
)Before Test After Test
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20
Con
tact
Res
ista
nce
(mW
)
Before Test After Test
(6) Vibration Test
182
�
l RA-901
(7) Shock Resistance Test
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20C
onta
ct R
esis
tanc
e (m
W)
Before Test After Test
(φ10mm steel ball free fall impact height 230 mm)
183
�
MOLDED SWITCHRA-903Ultra-miniature SMD
J2R0011-38-21
n GENERAL DESCRIPTION
n FEATURES
n
n
EXTERNAL DIMENSIONS (Unit: mm)
APPLICATIONS
n PAD LAYOUT SAMPLE
l Automotive electronic devicesl Control equipmentl Communication equipmentl Measurement equipmentl Household appliances
The RA-903 is a molded ORD213 reed switch with processed leads. While boasting the excellent characteristics of the ORD213, the molded exterior ensures ease of handling.
(1) Gull wing shape leads for SMT applications(2) Automatic mounting of this component by tape and reel(3) Enhanced shock resistance due to resin mold protecting the glass tube(4) Ultra-compact and light weight
184
�
l
1A16~46AT
10AT (Min.)200mW (Max.)
1VA24V DC/AC
0.1A0.3A
150V (Min.)1×109W (Min.)0.3ms (Max.)0.3ms (Max.)0.05ms (Max.)
490m/s2-11ms490m/s2 (10~2000Hz)
-40~125℃-50~125℃0.4pF (Max.)
13000Hz (typ)500Hz
116~29
218~32
320~34
422~36
524~42
628~46
n SPECIFICATION
n PULL-IN VALUE TABLE (After forming)
n Reflow Conditions
RA-903
Contact FormPull-in Value (PI)Drop-out Value (DO)Contact Resistance (CR)Contact RatingMaximum Switching VoltageMaximum Switching CurrentMaximum Carry CurrentBreakdown VoltageInsulation ResistanceOperate TimeBounce TimeRelease TimeShock ResistanceVibration ResistanceOperating Temperature RangeStorage Temperature RangeElectrostatic CapacitanceResonant FrequencyMaximum Operating Frequency
Model No.
Pull-in Value (AT)
300
250
200
150
100
50
0
Tem
pera
ture
(℃)
Time
2~6℃/s 50~80 s
160~175℃
2~6℃/s
250~260℃30 s max.
60 s max.
220℃
1414
HOLD
HOLD
14
HOLDHOLD
2
4
10OFF
10
ON
1414
HOLD
HOLD
14
HOLDHOLD
2
4
10OFF
10
ON
1414
HOLD
HOLD
14
HOLDHOLD
2
4
10OFF
10
ON
185
�
Magnet:
Molded Switch: N5
5
6
05101520 1510 205
2
4
6
8
12
OFF
Xm
m
N S–Y Y mmX
2
4
6
8
12
—Z ZSX
ON
Xm
m
(3) X-Y Characteristic V
OFF
ONON
Xm
m
NS–Y Y mm
X
Magnet Drive Characteristics Example (1)
5 x 5 x 6 mmAnisotropic barium ferriteSurface magnetic flux 120 mTRA-901-1Pull-in value 16.8 (AT)Drop-out value 15.9 (AT)
S
01520 510 15 20105
1414141414
HOLDHOLD
14
HOLD
HOLDHOLDHOLD
6
8
10
12
01520 510 15 20105
141414
HOLDHOLDHOLDHOLD HOLDHOLD
2
4
2
4
101010OFFOFFOFF
101010
(2) X-Z Characteristic H(1) X-Y Characteristic H
Unit: mm
ONONON
lRA-903
n
186
�
Magnet:
Molded Switch: N5
5
6
(3) X-Y Characteristic V
RA-903 Magnet Drive Characteristics Example (2)
5 x 5 x 6 mmAnisotropic barium ferriteSurface magnetic flux 120 mTRA-901-1Pull-in value 27.9 (AT)Drop-out value 25.6 (AT)
S
05101520 1510 205
2
4
8
12
ON
OFF
N S–Y Y mmX
2
4
8
12
—Z ZSX
ON
Xm
m
OFF
ONON
Xm
m
NS–Y Y mm
X
01520 510 15 20105
1414141414
HOLDHOLD
14
HOLD HOLDHOLDHOLD
6
8
10
12
01520 510 15 20105
141414
HOLDHOLDHOLDHOLD HOLDHOLD
2
4
2
4
101010
OFFOFFOFF
101010
Xm
mX
mm
Xm
m
66 66
(1) X-Y Characteristic H (2) X-Z Characteristic H
Unit: mm
l RA-903
n
1414
HOLD HOLD
14
HOLDHOLD
2
4
10
OFF
10
Xm
m
6 6
1414
HOLD HOLD
14
HOLDHOLD
2
4
10
OFF
10
Xm
m
6 6
187
�
1414
HOLD HOLD
14
HOLDHOLD
2
4
10
OFF
10
Xm
m
6 6
n
(1) Temperature Cycle
(2) Temperature and Humidity Cycle
lRA-903
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
110
100
90
80
70
60C
onta
ct R
esis
tanc
e (m
W)
Before Test After Test
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
110
100
90
80
70
60
Con
tact
Res
ista
nce
(mW
)
Before Test After Test
(-55℃~+125℃)
(-10℃~+65℃ 80%~98%)
ENVIRONMENTAL CHARACTERISTICS
188
�
l RA-903
(3) High Temperature Storage Test (125℃ 500H)
(4) Low Temperature Storage Test (-40℃ 500H)
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
110
100
90
80
70
60C
onta
ct R
esis
tanc
e (m
W)
Before Test After Test
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
110
100
90
80
70
60
Con
tact
Res
ista
nce
(mW
)
Before Test After Test
189
�
lRA-903 lRA-903
(5) Shock Test (490m/s2 11msec)
(6) Vibration Test (490m/s2 10~2000Hz)
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20
Con
tact
Res
ista
nce
(mW
)Before Test After Test
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
70
60
50
40
30
20
Con
tact
Res
ista
nce
(mW
)
Before Test After Test
190
�
l RA-903
(7) Shock Resistance Test
50
40
30
20
10
0
Pul
l-in
Val
ue (A
T)
Before Test After Test
50
40
30
20
10
0
Dro
p-ou
t Val
ue (A
T)
Before Test After Test
110
100
90
80
70
60C
onta
ct R
esis
tanc
e (m
W)
Before Test After Test
(φ10mm steel ball, free fall impact height 230mm)