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* ÄÚÀÏÁ¢Á¡
°£ÀÇ 2,000VAC ³ôÀº ³»Àü¾Ð
* 2A 30VDCÀÇ ³ôÀº Á¢Á¡
¿ë·®
*
ÄÚÀÏÁ¢Á¡ °£ÀÇ 2,500VAC ³ôÀº ³»¼ÅÁöÀü¾Ð
* SMT Çü, DIPÇü °¡´É
* ½ÖÀÚ
Á¢Á¡ ±¸Á¶
* À¯±Ø¼º
ÀϹÝÇü ¹× ·¡ÄªÇü °¡´É
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BC2 RELAYS
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1. Á¢Á¡ »ç¾ç
|
¸ð µ¨
|
BC2
|
BC2V
|
BC2VI
|
BC2I
|
|
Á¢Á¡ ±¸Á¶
|
DPDT (2
Form C)
|
DPDT, DPST
|
DPDT
|
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Á¢ÃË ÀúÇ× (ÃʱâÄ¡)
|
100m ohm (10mA 30m VDC)
|
|
Á¢Á¡ ÀçÁú
|
AgNi + Au plated
|
Ag Alloy + Au plated
|
|
Á¤°Ý
Àü¾Ð (ÀúÇ× ºÎÇÏ)
|
2A,3A 30VDC,
0.5A 125VAC
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2A 30VDC, 0.5A 125VAC,1A 277VAC,10mA1,000VDC
|
2A 30VDC, 1A 277VAC,10mA1500VD
|
4A2A 30VDC, 1A 277VAC,10mA1500VDC
|
|
ÃÖ´ë
°³Æó·Â
|
90W, 62.5VA
|
60W, 277VA
|
60W, 277VA
|
120W, 277VA
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ÃÖ´ë
°³Æó Àü¾Ð
|
220VDC, 277VAC
|
400VAC/600VDC 1500VDC, 1000VAC(2pairs connected in
series).
|
600VAC/800VDC 1500VDC, 1100VAC(2pairs connected in
series)
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220VDC, 277VAC
|
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ÃÖ´ë
°³Æó Àü·ù
|
4A
|
4A, 7.5A(parallel connected)
|
|
ÃÖ¼Ò
°¡¿ë Àü·ù
|
10mV
10 micro A
|
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ÃÖ¼Ò ¼ö¸í
|
Àü±âÀû
|
1 x 105 ops (0.5A 125VAC) Resistive load
at 85°C. 1sec on 9sec off
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1 x 105 ops (0.5A 125VAC) Resistive load at 85°C. 1sec on 9sec off
|
100000ops (2A 30VDC
50000ops (1A 277VAC) 50000ops(10mA1000VDC)
30000ops(10mA1500VDC)
|
100000ops (4A 30VDC 40°C) 100000ops (2A 30VDC) 100000ops(1A277VAC)
200000ops(250ms inrush 7.5A)
|
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±â°èÀû
|
1 x 108 ops (at 0.5A 125VAC)
|
1 x 107 ops
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Notes:1)The data shownabove are initial values. 2)Min. applicable load is reference value.
Pleaseperform the confirmation test with the actual load before production since
reference value may change according to switching frequencies,
environmentalconditions and expected contact resistance and reliability,
3)Two sets of opencontacts or two sets of closed contacts in series. Two sets of open contacts in
series.
2. ÀÏ¹Ý »ç¾ç
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MODEL
|
BC2
|
BC2V
|
BC2VI
|
BC2I
|
|
Àý¿¬ ÀúÇ× (ÃʱâÄ¡)
|
1000M ohm 500VDC
|
|
³»
Àü ¾Ð
|
ÄÚÀÏ Á¢Á¡ °£
|
2,000VAC
1min.
|
3000VAC/4200VDC
|
4000VAC
|
2000VAC
|
|
Á¢Á¡ °£
|
1,000VAC 1min.
|
1500VAC/2100VDC
|
1500VAC
|
1000VAC
|
|
Á¢Á¡ Á¶ °£
|
1,500Vrms,
1min
|
1500VAC/2100VDC
|
1500VAC
|
1500VAC
|
|
Surge Àü¾Ð ÀúÇ×·Â
|
Á¢Á¡°£(10/160m s) |
1500VAC
|
2500VAC
|
2500VAC
|
1500VAC
|
| ÄÚÀÏ-Á¢Á¡°£(2/10m s) |
2500VAC
|
6000VAC
|
6000VAC
|
2500VAC
|
|
µ¿ÀÛ
½Ã°£ (Á¤°Ý Àü¾Ð¿¡¼)
|
Max.
4ms
|
Max.
6ms
|
Max. 64ms
|
Max.
4ms
|
|
º¹±Í
½Ã°£ (Á¤°Ý Àü¾Ð ¿¡¼)
|
Max.
4ms
|
Max.
6ms
|
Max.
6ms
|
Max.
4ms
|
|
ÁÖÀ§
¿Âµµ
|
-40°C~+85°C
|
|
ÁÖÀ§
½Àµµ
|
35% to 85% R.H.
|
|
翵ÀúÇ×
|
±â´ÉÀû
|
10
to 55Hz 3.3mm DA
|
10
to 55Hz 3.3mm DA
|
10
to 55Hz 3.3mm DA
|
10
to 55Hz 3.3mm DA
|
|
Æı«Àû
|
10
to 55Hz 5mm DA
|
10
to 55Hz 5mm DA
|
10
to 55Hz 5mm DA
|
|
Ãæ°Ý ÀúÇ×
|
±â´ÉÀû
|
735m/s2(75g)
|
|
Æı«Àû
|
980m/s2(100g)
|
|
´ÜÀÚ ÇüÅÂ
|
DIP, SMT
|
|
´ÜÀ§
Áß·®
|
¾à
2g
|
|
Moisture sensitivity levels(Only for SMT type,JEDEC-STD-020)
|
MSL-3
|
|
¿Ü°ü º¸È£ ±¸Á¶
|
¹ÐºÀÇü IP67
|
Notes:1)The data shownabove are initial values.
2)UL insulation system : Class A for BC2
3) Product with 907 suffix meet ITU-TK21 requirement on surge voltage for BC2VI.
4)Product with 888 suffix is forapplication at 105°C for BC2VI.
3. Çؿܱ԰ݽÂÀÎ(UL&CUR)
|
UL & CUR
|
BC2
|
BC2V
|
BC2VI
|
BC2I
|
2A 30VDC at 85°C
3A 30VDC at 85°C
0.5A 125VAC at 85°C |
2A 30VDC at 85°C
0.5A 125VAC
1A 277VAC
10mA 1000VDC at105 °C |
2A 30VDC at 85°C
1A 277VAC
10mA 1500VDC at105 °C |
4A 30VDC at 40°C
2A 30VDC at 85°C
1A 277VAC at 85°C |
4. ÄÚ ÀÏ
|
ÄÚÀÏ
power
|
Single side stable
|
140mW
|
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Latching 1 coil
|
100mW
|
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Latching 2 coil
|
200mW
|
|
ÄÚÀÏ
¿Âµµ »ó½Â
|
Max.
50°C
|
|
ÄÚÀÏ Àü¾Ð
|
Çϱâ Ç¥ ÂüÁ¶
|
5. ÄÚÀÏ »ç¾ç
|
Single side stable Ç¥ÁØ (140mW) 20°C
|
|
Á¤°ÝÀü¾Ð
(VDC)
|
Á¤°ÝÀü·ù
(mA)
|
µ¿ÀÛÀü¾Ð
VDC (Max.)
|
º¹±ÍÀü¾Ð
VDC (Min.)
|
ÄÚÀÏÀúÇ×
¥Ø
(10%)
|
ÄÚÀÏ
¼ÒºñÀü·ù
(mW)
|
ÃÖ´ëÄÚÀÏ
°¡¿ëÀü¾Ð
VDC(Max.)
|
|
BC2(I)-1.5
|
93.8
|
1.13
|
0.15
|
16
|
140
|
3
|
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BC2(I)-3
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46.7
|
2.25
|
0.3
|
64.3
|
140
|
6
|
|
BC2(I)-4.5
|
31
|
3.38
|
0.45
|
145
|
140
|
9
|
|
BC2(I)-5
|
28.1
|
3.75
|
0.5
|
178
|
140
|
10
|
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BC2(I)-6
|
23.3
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4.5
|
0.6
|
257
|
140
|
12
|
|
BC2(I)-9
|
15.5
|
6.75
|
0.9
|
579
|
140
|
18
|
|
BC2(I)-12
|
11.7
|
9
|
1.2
|
1,028
|
140
|
24
|
|
BC2(I)-24
|
5.8
|
18
|
2.4
|
4,114
|
140
|
48
|
|
BC2-48
|
5.6
|
36
|
4.8
|
8,533
|
270
|
96
|
|
Latching (1 coil) Ç¥ÁØ (100mW) 20°C
|
|
Á¤°ÝÀü¾Ð
(VDC)
|
Á¤°ÝÀü·ù
(mA)
|
Set/Reset
Àü¾Ð
VDC (Max.)
|
ÄÚÀÏÀúÇ×
¥Ø
(10%)
|
ÄÚÀÏ
¼ÒºñÀü·ù
(mW)
|
ÃÖ´ëÄÚÀÏ
°¡¿ëÀü·ù
VDC(Max.)
|
|
BC2(I)-1.5L
|
66.7
|
1.13
|
22.5
|
100
|
3
|
|
BC2(I)-3L
|
33.3
|
2.25
|
90
|
100
|
6
|
|
BC2(I)-4.5L
|
22.2
|
3.38
|
203
|
100
|
9
|
|
BC2(I)-5L
|
20
|
3.75
|
250
|
100
|
10
|
|
BC2(I)-6L
|
16.7
|
4.5
|
360
|
100
|
12
|
|
BC2(I)-9L
|
11.1
|
6.75
|
810
|
100
|
18
|
|
BC2(I)-12L
|
8.3
|
9
|
1,440
|
100
|
24
|
|
BC2(I)-24L
|
4.2
|
18
|
5,760
|
100
|
48
|
|
Latching (2 coil) Ç¥ÁØ (200mW) 20°C
|
|
Á¤°ÝÀü¾Ð
(VDC)
|
Á¤°ÝÀü·ù
(mA)
|
Set/Reset
Àü¾Ð
VDC (Max.)
|
ÄÚÀÏÀúÇ×
¥Ø
(10%)
|
ÄÚÀÏ
¼ÒºñÀü·ù
(mW)
|
ÃÖ´ëÄÚÀÏ
°¡¿ëÀü·ù
VDC(Max.)
|
|
BC2(I)-1.5K
|
133.9
|
1.13
|
11.2
|
200
|
2.7
|
|
BC2(I)-3K
|
66.7
|
2.25
|
45
|
200
|
5.4
|
|
BC2(I)-4.5K
|
44.5
|
3.38
|
101
|
200
|
6.7
|
|
BC2(I)-5K
|
40
|
3.75
|
125
|
200
|
7.5
|
|
BC2(I)-6K
|
33.3
|
4.5
|
180
|
200
|
9.0
|
|
BC2(I)-9K
|
22.2
|
6.75
|
405
|
200
|
13.5
|
|
BC2(I)-12K
|
16.7
|
9
|
720
|
200
|
18
|
|
BC2(I)-24K
|
8.3
|
18
|
2,880
|
200
|
36
|
|
Latching (2 coil) Ç¥ÁØ (200mW) 20°C
|
|
Á¤°ÝÀü¾Ð
(VDC)
|
µ¿ÀÛÀü¾Ð
VDC (Max.)
|
º¹±ÍÀü¾Ð
VDC (Min.)
|
ÄÚÀÏÀúÇ×
¥Ø
(10%)
|
ÄÚÀÏ
¼ÒºñÀü·ù
(mW)
|
ÃÖ´ëÄÚÀÏ
°¡¿ëÀü¾Ð
VDC(Max.)
|
|
BC2(VI)-1.5
|
1.13
|
0.15
|
11.2
|
200
|
3
|
|
BC2(VI)-2.4
|
1.8
|
0.24
|
28.8
|
200
|
4.8
|
|
BC2(VI)-3
|
2.25
|
0.3
|
45
|
200
|
6
|
|
BC2(VI)-4.5
|
3.38
|
0.45
|
101
|
200
|
9
|
|
BC2(VI)-5
|
3.75
|
0.5
|
125
|
200
|
10
|
|
BC2(VI)-6
|
4.5
|
0.6
|
180
|
200
|
12
|
|
BC2(VI)-9
|
6.75
|
0.9
|
405
|
200
|
18
|
|
BC2(VI)-12
|
9
|
1.2
|
720
|
200
|
24
|
|
BC2(VI)-24
|
18
|
2.4
|
2,880
|
200
|
48
|
|
Á¤°ÝÀü¾Ð
(VDC)
|
Set
Àü¾Ð
VDC (Max.)
|
Reset
Àü¾Ð
VDC (Max.)
|
ÄÚÀÏÀúÇ×
¥Ø
(10%)
|
ÄÚÀÏ
¼ÒºñÀü·ù
(mW)
|
ÃÖ´ëÄÚÀÏ
°¡¿ëÀü¾Ð
VDC(Max.)
|
|
BC2(VI)-1.5L
|
1.13
|
1.13
|
16
|
140
|
3
|
|
BC2(VI)-2.4L
|
1.8
|
1.8
|
41
|
140
|
4.8
|
|
BC2(VI)-3L
|
2.25
|
2.25
|
64.3
|
140
|
6
|
|
BC2(VI)-4.5L
|
3.38
|
3.38
|
145
|
140
|
9
|
|
BC2(VI)-5L
|
3.75
|
3.75
|
178
|
140
|
10
|
|
BC2(VI)-6L
|
4.5
|
4.5
|
257
|
140
|
12
|
|
BC2(VI)-9L
|
6.75
|
6.75
|
579
|
140
|
18
|
|
BC2(VI)-12L
|
9
|
9
|
1028
|
140
|
24
|
|
BC2(VI)-24L
|
18
|
18
|
4114
|
140
|
48
|
Notes:1)Energizing coil
with rated voltage is basic for normal operation of a relay. Please make surethe energized voltage to relay coil have
reached the rated voltage. 2).In case5V of transistor drive circuit, it is recommended to use 4.5V type relay, and3V to use 2.4V relay. 3).
For monostable relays, if you need to drop downvoltage and hold mode after reliably operating, make sure that the effectivevalue of holding
voltage is not less than 60% of the rated voltage. 4) Max.voltage refers to the max. voltage which relay coil could endure in a shortperiod of time.
5) When user¡¯s requirements can¡¯t be found in the above table,special order allowed.
6. ÁÖ¹® ÄÚµå
Notes:1)R type(tape andreel) packing is moisture-proof which meets requirement of MSL-3. Please chooseR type packing for SMT products.
For R type, the letter ¡°R¡± will only beprinted on packing tag but not on relay cover. Tube packing is normally not
available for SMT products
unless specially required by customer. But please
note that tube packing is not moisture-proof so, please bake the products
before use
according to description of notice 11 herewith. In addition, tube
packaging will be adopted when the ordering quantity of R type is equal to
or
less than 100 pieces unless otherwise specified. 2) When coil sort, contact
material, terminal type or packing style are needed,
please add ¡°-¡° after coilvoltage is selected. For instance, BC2I-12N-R. 3) The customer specialrequirement express as special code
after evaluating by Handouk. 4) For
products that should meet the explosion-proof requirements of ¡°IEC60079 series¡±.
Please note [Ex] after the specification while placing orders. Not all products
have explosion-proof certification, so please contact us
if necessary, in order
to select the suitable products.
7. ¿Ü°ü ¹× Ä¡¼ö
8. Ư¼º °î¼±
Notes:1)This relay is highly sensitive polarized relay, if correct
polarity is not applied to the coil terminals, the relay does not operate
properly. 2) To avoid using relays under strong magnetic field this will change
the parameters of relays such as pick-up voltage and drop-out voltage. 3) Relay
is on the ¡°reset¡± status when being released from stock, with the consideration
of stock risen from transit and relay mounting, it should be changed to the ¡°set¡±
status when application(connecting to power supply).please reset the relay to ¡°set¡±
or ¡°reset¡± status on request. 4) Energizing coil with rated voltage is basic
for normal operation of a relay, please make sure the energized voltage to relay
coil have reached the rated voltage. Regarding latching relay, in order to
maintain the ¡°set¡± or ¡°reset¡± status, impulse width of the rated voltage
applied to coil should be more than 5 times of ¡°set¡± or ¡°reset¡± time. 5) For a
mono-stable state relay, after the relay is reliably operated, if it needs to
be kept under pressure, make sure that the effective value of voltage is not
less than 60% of the rated voltage; 6) the relay may be damaged because of
failing or when shocking conditions exceed the requirement. 7) For SMT
products, validation with real application should be done before your series
production, if the reflow-soldering temperature curve is out of our
recommendation. Generally, two-time reflow-soldering is not recommended for the
relay. However, if two-time reflow-soldering is required, a 60-min. Interval
should be guaranteed and a validation should be done before production. 8) Please
use wave soldering or manual soldering for straight-in relay. If you need
reflow welding, please confirm the feasibility with us. 9) Contact is
recommended for suiable condition and specifications if water cleaning or
surface process is involved in assembling relays on PCB. 10) Regarding the
plastic sealed relay, we should leave it cooling naturally until below 40°C after welding, then clean it and deal with cooling, remarkably
the temperature of solvents should also be controlled below 40°C. please avoid
cleaning the relay by ultrasonic, avoid using the solvents like gasoline,
Freon, and so on, which would affect the configuration of relay or influence
the environment. 11) Relays packaged in moisture barrier bags meet MSL-3
requirements. The relays should be stored at ambient conditions of ¡Â30°C and ¡Â60%RH after the relay are
removed from their packaging, and should be used within 168hours. If the relays
cannot be used within 168hours, please repack them or store them in a drying
oven at 25°C±5°C, ¡Â10%RH. Otherwise, relays
may be subjected to a soldering test to check their performance, or they may be
used after keeping them in an oven for 72 hours at with 50°C±5°C, ¡Â30%RH. 12) when applied
with continues current, the heat from rely coil will age its isolation. Thus,
please do not ground connected the coil to reduce electrical erosion if
possible. And please provide protection circuit to avoid broken wire and
losses. 13) please make usre that there are no silicon-based substances(Such as
silicon rubber, silicon oil, silicon-based coating agents, silicon filters,
etc.) around the relay, because it will generate silicon-containing volatile
gas, which may cause poor contact in case of silicon-containing volatile gas
sticking on contact. 14) About preferable condition of operation, storage and
transportation, please refer to ¡°Explanation to terminology and guide lines of
relay¡±.
Declaimer
The specification is for reference only. See to ¡°Terminology and
Guidelines¡± for more information. Specifications subject to change without
notice. We could not evaluate all the performance and all the parameters for
every possible application. Thus the user should be in a right position to
choose the suitable product for their own application. If there is any quiry,
please contact HANDOUK for the technical service. However, it is the user¡¯s responsibility
to determine which product should be used only. HANDOUL Electronics Co., Ltd. All right of HANDOUK are reserved.
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