1 |
1.5 mm pitch |
|
Series |
ZIM connector
|
|
Type |
Crimp style, With inner type secure locking device, Inertial lock structure |
Shopping Site |
Rate(AC/DC) |
Current: | 2A (AWG#24) | Voltage: | 100V |
|
This is wire-to-wire connector with 1.5 mm pitch dual-row construction. It is hardly affected by external forces and prevents the lock from coming off. |
2 |
2.0 mm pitch |
|
Series |
PLI connector
|
|
Type |
Crimp style, Compact type, With secure locking device, Crimp style, Compact type, Low-profile type |
Shopping Site |
Rate(AC/DC) |
Current: | 3A (AWG#22) | Voltage: | 100V |
|
This is a 2.0 mm pitch wire-to-board connector with a mechanism to prevent incomplete mating, and designed as low profile type connector with mounting height of 9.6 mm. |
3 |
2.0 mm pitch |
|
Series |
PNI connector (Wire-to-Board)
|
|
Type |
Crimp style, With inertia force mechanism with secure locking device, Compact type, |
Shopping Site |
Rate(AC/DC) |
Current: | 3A (AWG#22) | Voltage: | 100V |
|
This is a 2.0 mm pitch wire-to-board connector with a mechanism to prevent incomplete mating. |
4 |
2.0 mm pitch |
|
Series |
PNI connector (Wire-to-Wire)
|
|
Type |
Crimp style, With secure locking device, Inertial lock structure |
Shopping Site |
Rate(AC/DC) |
Current: | 3A (AWG#22) | Voltage: | 100V |
|
This connector is a 2.0 mm pitch wire-to-wire connector, having incomplete mating prevention mechanism. |
5 |
2.5 mm pitch |
|
Series |
XMA connector
|
|
Type |
Crimp style, With locking device |
Shopping Site |
Rate(AC/DC) |
Current: | 3A (AWG#22) | Voltage: | 250V |
|
This connector is a 2.5mm pitch wire-to-wire connector, having incomplete mating prevention mechanism. 2-circuit and 3-circuit connectors have control key to prevent connector from mating with incorrect circuits, thus, several same circuit connectors can be used. |
6 |
2.5 mm pitch |
|
Series |
XNI connector
|
|
Type |
Crimp style, With secure locking device, Inertial lock structure |
Shopping Site |
Rate(AC/DC) |
Current: | 3A (AWG#22) | Voltage: | 250V |
|
This connector is 2.5mm pitch wire-to-board connector that has a mechanism to prevent an incomplete mating by utilizing the inertial force when mating connector. In all circuits of connector, controlled key for preventing mismatching of mating is added. |
7 |
3.3 mm pitch |
|
Series |
BNI connector
|
|
Type |
Inertial lock structure, |
Shopping Site |
Rate(AC/DC) |
Current: | 4A (AWG#20) | Voltage: | 300V |
|
This is a 3.3 mm pitch wire-to-board connector with a mechanism to prevent incomplete mating. Three different key patterns per number of circuits in the same model are provided to prevent incorrect mating when multiple pieces of connector are used in close proximity. |
8 |
3.3 mm pitch |
|
Series |
HIL connector
|
|
Type |
Crimp style, With inertia force mechanism with secure locking device |
Shopping Site |
Rate(AC/DC) |
Current: | 5A (2 circuits/AWG#18) | Voltage: | 300V |
|
This HIL connector is 3.3mm pitch wire-to-wire connector that has a mechanism to prevent an incomplete mating when mating connector. |
9 |
4.5 mm pitch |
|
Series |
YLN connector
|
|
Type |
Crimp style, With inertia force mechanism with secure locking device |
Shopping Site |
Rate(AC/DC) |
Current: | 10A (7A when retainers are mounted) | Voltage: | 300V |
|
The YLN connector adds variation in shape to the existing color variations of the YL connector in order to improve identification of connectors. Moreover, this connector has a mechanism to prevent incomplete mating by utilizing the inertia force generated when the plug and receptacle are mated and therefore, ensures complete mating. |
10 |
5.0 mm pitch |
|
Series |
HYV connector
|
|
Type |
Disconnectable type, Inertial lock structure |
Shopping Site |
Rate(AC/DC) |
Current: | 10A | Voltage: | 300V |
|
This is a 5.0 mm pitch wire-to-board connector with a mechanism to prevent incomplete mating. The box-shaped structure of the contacts, which prevents the influence of external force, enhances the safety of high-current circuit connections, and the four types of key patterns prevent incorrect mating when using more than one piece of the same circuit types in narrow areas. |