No. | Partie # | Fabricant | Description | Fiche Technique |
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Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
|
|
|
Panasonic |
TX-S RELAYS 1. Nominal operating power: High sensitivity of 50 mW By using the highly efficient polar magnetic circuit “seesaw balance mechanism”, a nominal operating power of 50 mW (minimum operating power of 32 mW) has been achieved. 2. Compact size 15.0(L) |
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