Product overview
- Part Number
- 15166-0267
- Manufacturer
- Molex
- Product Category
- FFC / FPC Jumper Cables
- Description
- FFC / FPC Jumper Cables FFC 0.50 Type A 24 ckts lgt 254
Documents & Media
- Datasheets
- 15166-0267
Product Attributes
- Cable Length :
- 254 mm
- Contact Location :
- Same Side Contacts
- Current Rating :
- 500 mA
- Number of Conductors :
- 24 Conductor
- Packaging :
- Bulk
- Pitch :
- 0.5 mm
- Series :
- 15166
- Voltage Rating :
- 60 VAC
Description
FFC / FPC Jumper Cables FFC 0.50 Type A 24 ckts lgt 254
Price & Procurement
Associated Product
You May Also Be Interested In
Part | Manufacturer | Stock | Description |
---|---|---|---|
1206Y2000103MXTE03 | Syfer / Knowles | 3,000 | Feed Through Capacitors 1206 200V .01uF 20% X7R X2Y Filter |
1206J1000220MCTE01 | Syfer / Knowles | 3,000 | Feed Through Capacitors 1206 22pF 100V C0G 20% 3-TERM C FILTER |
1812Y1000183MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000473MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000683MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000273MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000333MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000822MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000153MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000103MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000123MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000124MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000154MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y1000184MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |
1812Y0250824MXTE03 | Dielectric Laboratories / Knowles | 3,000 | Feed Through Capacitors |