Flat Flex Ribbon Jumpers, Cables

Part Number	Description / PDF	Quantity
100R12-102B Parlex Corp.	CABLE FFC 12POS 1.00MM 4"	282
686715152001 Würth Elektronik Midcom	CABLE FFC 15POS 1.00MM 5.98"	901
0151670449 Woodhead - Molex	CABLE FFC 28POS 1.00MM 4"	1000
0150180075 Woodhead - Molex	PREMO-FD19 0.50 JMPR LGT 51 TYPE	0
0152681033 Woodhead - Molex	CABLE FFC 33POS 1.25MM 2"	0
0150201030 Woodhead - Molex	CABLE FFC 33POS 0.50MM 1.18"	0
0150180260 Woodhead - Molex	PREMO-FD19 0.50 JMPR LGT 152 TYP	0
0982660152 Woodhead - Molex	CABLE FFC 14POS 0.50MM 7"	0
0150180269 Woodhead - Molex	PREMO-FD19 0.50 JMPR LGT 305 TYP	0
0150180245 Woodhead - Molex	PREMO-FD19 0.50 JMPR LGT 254 TYP	0
687728152002 Würth Elektronik Midcom	CABLE FFC 28POS 0.50MM 5.98"	50
0152660436 Woodhead - Molex	CABLE FFC 40POS 0.50MM 6"	390
0150180148 Woodhead - Molex	PREMO-FD19 0.50 JMPR LGT 127 TYP	0
0151660127 Woodhead - Molex	CABLE FFC 12POS 0.50MM 6"	522
0150200239 Woodhead - Molex	CABLE FFC 22POS 0.50MM 7"	0
AFFC-050-08-127-11 ASSMANN WSW Components	CABLE FFC 8POS 0.50MM 5"	0
0150150645 Woodhead - Molex	CABLE FFC 45POS 0.30MM 6"	6
0982670417 Woodhead - Molex	CABLE FFC 24POS 1.00MM 10"	0
050R22-51B Parlex Corp.	CABLE FFC 22POS 0.50MM 2"	839
0150180440 Woodhead - Molex	PREMO-FD19 0.50 JMPR LGT 203 TYP	0

Flat Flex Ribbon Jumpers, Cables

1. Overview

Flat Flex Ribbon Jumpers (FFRJ) and Cables are specialized electrical interconnect solutions characterized by their flat, ribbon-like structure. They consist of multiple conductors arranged in parallel on a flexible dielectric substrate, enabling high-density signal/power transmission in compact spaces. These components are critical in modern electronics for their ability to reduce assembly complexity, improve signal integrity, and support miniaturization in devices ranging from consumer electronics to industrial automation systems.

2. Main Types & Functional Classification

Type	Functional Features	Application Examples
Single-layer FFRJ	Simplex conductor arrangement, cost-effective	Internal PCB connections in laptops
Dual-layer FFRJ	Double-sided conductors with cross-connect capability	High-density backplane interfaces
Stripline FFRJ	Controlled impedance with embedded ground planes	Radar systems and RF modules
Shielded Ribbon Cables	EMI/RFI protection with braided shielding	Medical imaging equipment

3. Structure & Composition

A typical FFRJ/cable assembly comprises:

Conductors: Annealed copper or aluminum alloys (0.05-0.5mm ), with tin/silver plating
Dielectric: Polyimide (PI) or polyester (PET) films (0.025-0.2mm thickness)
Termination: ZIF (Zero Insertion Force) contacts or stamped headers
Protective Layer: Optional PVC or TPE overmolding for mechanical strain relief

4. Key Technical Parameters

Parameter	Typical Range	Importance
Conductor Cross-section	0.035 - 0.8mm	Determines current carrying capacity
Insulation Resistance	>100M @500VDC	Ensures electrical safety
Operating Temperature	-40 C to +125 C	Defines environmental robustness
Flex Life	10,000 - 100,000 cycles	Indicates mechanical durability
Impedance Control	50 - 100	Crucial for high-speed signals

5. Application Fields

Consumer Electronics: Foldable smartphones, wearable devices
Medical Equipment: MRI scanners, endoscopic cameras
Industrial Automation: Robotic arm cabling systems
Telecommunications: 5G base station internal wiring

6. Leading Manufacturers & Products

Manufacturer	Representative Product	Key Specification
TE Connectivity	FFRJ-26D-127	26AWG, 127 m pitch, 10Gbps data rate
Molex	SL Series Ribbon Cable	UL94-V0 rated, 28AWG x 40 conductors
Amphenol ICC	ZIF-CL-104899	0.8mm pitch, 1000 mating cycles

7. Selection Guidelines

Key considerations:

Calculate current load using I = K T A (where K=material constant, T=temp rise, A=conductor area)
Evaluate bend radius requirements: Minimum R 10 cable height
Verify signal integrity for frequencies >1GHz using S-parameter analysis
Select flame-retardant materials (e.g., LSZH jackets) for industrial applications

Case Study: In automotive ADAS systems, shielded 34AWG FFRJ with -40 C to +150 C rating was selected to ensure reliability in engine bay environments.

8. Industry Trends

Emerging developments include:

Sub-0.5mm pitch connectors enabling 8K display interfaces
Integration of graphene-coated conductors for 50% weight reduction
Smart cables with embedded temperature/signal sensors (IoT applications)
Adoption of halogen-free materials meeting IEC 62576 standards