1 |
0.5 mm pitch |
|
Series |
FHHS connector
|
|
Type |
High-speed transmission, Back flip mechanism |
|
Rate(AC/DC) |
Current: | 0.5A | Voltage: | 50V |
|
This is 0.5 mm pitch, back flip type FPC connector for 0.3 mm thick FPC. Realized space saving with thin of 1.0 mm mounting height. Considering the transmission of various high-speed interfaces such as ThunderboltTM , the differential impedance shall be matched at 90Ω. |
2 |
0.5 mm pitch |
|
Series |
FWG connector (Connectors for FPC and FFC)
|
|
Type |
Space saving |
|
Rate(AC/DC) |
Current: | 0.3A | Voltage: | 50V |
|
This is crimp style disconnectable connector with 0.5 mm pitch lock for high-speed transmission which can be chosen discrete wires, FPC or FFC depending on usage. By assuming the use of multiple pieces of connector in the vicinity, prevention of mis-mating is provided by 4 kinds of key pattern in each circuit and 4 different colors of housing. |
3 |
0.5 mm pitch |
|
Series |
FWG connector (W to B)
|
|
Type |
Space saving |
|
Rate(AC/DC) |
Current: | 0.3A | Voltage: | 50V |
|
This is crimp style disconnectable connector with 0.5 mm pitch lock for high-speed transmission which can be chosen discrete wires, FPC or FFC depending on usage. By assuming the use of multiple pieces of connector in the vicinity, prevention of mis-mating is provided by 4 kinds of key pattern in each circuit and 4 different colors of housing. |
4 |
|
|
Series |
JRF connector (Wire-to-Board)
|
|
Type |
For board to wire connection, High-speed transmission |
|
Rate(AC/DC) |
Current: | 1A | Voltage: | Withstanding voltage: 800 VAC/minute |
|
Fully compatible and designed based on requirements from the FAKRA RF and USCAR standards for telematics and automotive communications technology. |
5 |
|
|
Series |
JRF connector (Wire-to-Wire)
|
|
Type |
Crimp style, High-speed transmission |
|
Rate(AC/DC) |
Current: | 1A | Voltage: | Withstanding voltage: 800 VAC/minute |
|
Fully compatible and designed based on requirements from the FAKRA RF and USCAR standards for telematics and automotive communications technology. |