The N8600 series is the right choice for pharmacy, industry automation, banking and other applications that require scanning single or multiple high-density barcodes. N8600 series engines are available with wide angle and document reading versions suitable for capturing multiple high-density barcodes and decoding them with one simple scan.
Featuring Adaptus Imaging Technology 6.0, the N5600 series imaging engines are specifically designed for barcode and OCR font reading. They feature the industrys first color imaging option and a new decoding software architecture for reading challenging barcodes.
From a leading provider of OEM scanning solutions, the N4300 series offers high levels of performance and reliability for OEM customers and end users.The N4300 series achieves the highest reading accuracy among available laser scanning engines. And it's the only laser engine that includes built-in object detection for hands-free applications.
Compact, lightweight and durable, these image scan engines are just the fit for most general-purpose data collection applications. The series combines the latest CMOS industrial-grade image sensor technology, illumination and optics. Choose from the 5000 LED Aimer, 5100 High Visibility LED Aimer and 5300 Laser Aimer.
This series combines a compact, lightweight optical module and decoder board plus the latest CMOS industrial-grade image sensor technology, illumination and optics. Its an easy-to-integrate decoding subsystem thats ideal for most data capture applications. Choose from the 5080 LED Aimer, 5180 High Visibility LED Aimer and 5380 Laser Aimer.
IS4800 Series of Minature Laser Scan Engines
Honeywell's IS4800 series of miniature single-line laser scan engines is designed for easy integration into OEM devices. These compact OEM scanners deliver aggressive scan performance, built-in flexibility and unmatched value, resulting in reduced ownership costs and integration efforts. Both software and hardware decoding options are available to meet host system requirements and provide optimum performance.