5.2 Inch PCAP Touch Panel | Wide Temp -30~80°C

Typical Applications of 5.2 Inch PCAP Touch Panel

This 5.2 inch projected capacitive (PCAP) touch panel is suitable for compact devices that require reliable touch input, durable glass construction, and stable performance in demanding environments.

Industrial Control Equipment

Used in handheld controllers, compact HMI panels, machine interfaces, and portable testing devices where responsive multi-touch operation is needed.

Medical Devices

Suitable for diagnostic instruments, portable monitors, analyzers, and healthcare control terminals that require smooth touch interaction and easy-to-clean glass surfaces.

Smart Home & Building Control

Can be integrated into thermostats, access panels, room controllers, elevator interfaces, and security systems with modern touch UI design.

Portable Commercial Devices

Ideal for POS terminals, payment devices, self-service handheld units, inventory scanners, and field service equipment.

Outdoor & Semi-Outdoor Systems

With wide operating temperature support, it can be used in charging stations, outdoor access control panels, parking systems, and transportation terminals (with proper enclosure design).

Consumer Electronics Upgrades

Applicable to smart controllers, home appliances, media controllers, and custom embedded touch products requiring a 5.2 inch touch interface.

Automotive & Mobility Devices

Suitable for secondary control panels, smart docking systems, fleet terminals, and in-vehicle embedded interfaces depending on project requirements.

Applicable in portable diagnostic equipment and wearable-adjacent devices, where compact size, stable touch, and clear display performance are required.

Automotive	Payment Systems	Transportation	E-bike
Outdoor	Industrial Panels	Medical Equipment	Fitness Equipment
Engineering Plant	Motorbike	Vending Machine	Home Application

Customizations

To support different integration requirements across industrial, medical, and embedded systems, FANNAL provides flexible customization services for display, touch, and optical bonding.

Custom Touchscreen Options

Touch Sensor

• Available sizes: up to 65 inches

• Sensor structures: G+G / G+F+F

• Designed for industrial and automotive environments

Supported touch features:

• Multi-touch

• Waterproof touch

• Glove touch

• Passive stylus

• Gesture control

• Palm rejection

Operating temperature options:

• Industrial: –20°C ~ 70°C

• Automotive: –30°C ~ 85°C

Touch Controller (IC)

• Supported IC partners: EETI, ILITEK, Goodix, FocalTech, Cypress, Microchip

• FANNAL in-house firmware tuning and touch optimisation

• Excellent anti-interference capability

• Designed for long-term industrial stability

• EMC engineering support for EMI/RFI compliance

Cover Lens

Material options:

• Glass: 0.55 – 10.0 mm

• PMMA: 0.5 – 3.0 mm

• PC: 0.1 – 1.0 mm

Custom cover design:

• CNC processing

• Hot bending

• 2.5D / 3D cover glass

• Ceramic printing

• PMMA integrated structures

Surface treatments available:

• AG / AR / AF (3A optical treatments)

• Anti-microbial coating

• Anti-explosion reinforcement

3. Optical Bonding Options

FANNAL provides multiple optical bonding technologies to improve display readability, durability, and environmental reliability.

Optical bonding helps:

• Improve sunlight readability

• Reduce internal reflection

• Increase impact resistance

• Enhance long-term reliability

About FANNAL

FANNAL, founded in 2011, is a specialist in touch display solutions, delivering high-quality products and technical services worldwide. We design and manufacture in-house custom Displays, PCAP touch screens, and optical bonding. Our solutions serve industrial, outdoor, medical, automotive and other applications.

We are a fast-growing high-tech company financially backed by SECO, a European leader in electronic devices and embedded computing. We hold ISO 9001, ISO 14001, ISO 45001, ISO 13485, and IATF 16949 certifications. Our products are REACH and RoHS compliant, with test reports or declarations available upon request.

With stable quality and engineering support, FANNAL helps customers stay competitive and differentiate their products globally.

Well-Experienced: 15 years of experience in TFT Displays, AMOLED Displays, Touch Displays, Capacitive Touchscreens, and Touch Monitors manufacturing.

One-Stop Solution: Full in-house process for touch screen, display, and optical bonding

Global Service: Italy, Germany, France, Spain, India, Japan, Singapore, and more —  timely local support.

Strong Background: Financially backed by SECO, a top European leader in embedded and display solutions.

Reliable Supply: Our long-term supplier network ensures you receive consistent quality and reliable delivery, even in high-demand seasons.

Quality Assurance: ISO 9001, ISO 14001, ISO 45001, ISO 13485 & IATF 16949 certified; REACH & RoHS compliant.

FAQ

1. Can this 5.2 inch touch panel work with gloves?

Yes, glove touch support can usually be optimized through controller firmware tuning and sensor sensitivity adjustment. Actual performance depends on glove material, thickness, and the final enclosure design.

2. Is waterproof touch available for this panel?

Yes. Water rejection and moisture-resistant touch performance can be supported through controller parameter tuning. For outdoor or humid environments, full system sealing and grounding design are also important.

3. Can the cover glass be customized with logo, color, or printing?

Yes. Custom cover glass options commonly include silk printing, logo printing, black borders, transparent windows, AG/AR/AF coatings, and decorative finishes to match product ID design.

4. Can this touch panel be bonded to an LCD?

Yes. It can be supplied for air bonding or optical bonding depending on the display structure. Optical bonding is often preferred when better sunlight readability, lower reflection, or higher durability is required.

5. What interface can be used with the controller board?

The final interface depends on the controller solution and host system. Common outputs include I2C or USB. Driver support should be confirmed based on the operating system and mainboard platform.

6. How can EMI or unstable touch issues be reduced in the final device?

Stable grounding, proper shielding, clean power supply design, cable routing, and enclosure structure all affect touch performance. Early integration review is recommended to reduce later debugging time.