Warehouse barcode scanning can increase your team's pick accuracy, increase order fulfillment tracking, simplify warehouse location navigation for all of your staff, plus much more. If you're looking to implement barcode scanning your warehouse, there are a few things to consider first.
If you want to learn more, please visit our website Barcode Scanners for Warehouse.
Why use barcode scanning in your warehouse? The key benefit of scanning barcodes in a warehouse is 100% confirmation that you have the right product from the right location. This may be to scan incoming freight into your system, record freight movement within your warehouse, or when picking items for orders. At each step, with barcode scanning, you have complete accuracy.
A common issue in paper-based warehousing is making a picking mistake when you have two different products that look very similar — and may even be named very similarly. Without barcode scanning to ensure you have the correct pick location and item, mistakes are often made.
Before you choose a warehouse scanning system to use, make sure you consider these 5 questions, to ensure the system will suit your warehouse's operations.
A few years ago, many warehouse scanning systems were expensive to roll out, requiring a lot of technical infrastructure and training. These days the bulk of processes can be done in the cloud — and for small and medium-sized warehouses, this has more benefits than simple implementation. Cloud-based WMS software allows you to remove paper-based processes, increase accuracy, streamline data capture and automate timely tasks like rate card calculations, invoicing, and stock reporting.
With a cloud-based WMS and barcode scanning, you can ensure accuracy, while seamlessly capturing, tracking and recording all of your inventory data in one place, available to your customers at the click of a button.
You should consider the functionality you will be using barcode scanning form and ensure the system you choose supports this.
For example, barcode scanning incoming and outgoing freight for cross-docking, recording stock movement within your warehouse with scan-move, assigning inventory to a warehouse location by scanning the warehouse location barcode, providing return to sender functions, or allocating inventory to pick bins for faster pick and pack — all require barcode scanning to capture and manage inventory movement, storage and charges.
This is a very important consideration since many software systems aren't run by those who have worked in the warehousing industry before. CartonCloud's WMS is built for the logistics industry, by logistics people, making it easy-to-use, and fit for purpose.
If you're covering warehouse and transportation, or if you have a 3PL warehouse offering freight forwarding/ courier management for dispatch, you will need to ensure your Warehouse Management System can talk to your Transport Management System.
This integration allows seamless data flow between the two systems in real-time; giving you oversight of incoming and outgoing stock, and order tracking. It also simplifies invoicing, allowing you to capture and automatically calculate chargeable rates across warehouses and transport. By implementing barcode scanning within an integrated WMS/TMS, you can ensure seamless accuracy across both systems,
CartonCloud is a fully integrated WMS/TMS, providing easy-to-manage, seamless data flow across both aspects of your business.
The purchase of RF scanners adds additional outlay that you'll need to weigh up, however, you might not need a RF scanner to achieve the functions you want. Going back to point 1, if you select a cloud-based system, you may be able to pair your device with a Bluetooth scanner to start barcode scanning instantly. CartonCloud's mobile application can be downloaded and run on Android or iPhone operating systems, simply paired to a bluetooth scanner (which can be purchased for around $100), to begin scanning immediately.
The savings in inventory accuracy, and data management will cover the initial Bluetooth scanner costs, and have you increasing profits in no time.
The final consideration to ensure you select the right system for your operation; is to have simplified onboarding, great customer support, and an affordable payment plan.
At CartonCloud, we take onboarding seriously. We know that the right set-up and initial understanding of the software is essential to ensuring you get the most from your account. This is why our onboarding team are industry experts, with years of experience in logistics operations. We know the industry, and can help you tailor your set-up to suit your exact business needs. Our local support teams are based in Australia and North America, ensuring you have someone who is just a phonecall away when needed. Our payment plans are also flexible, designed to only pay for what you need. Grow your plan as your business grows, and as you bring on new customers requiring new features.
Ask our team about implementing barcode scanning in your warehouse, or what considerations you need to consider before you can start warehouse barcode scanning.
Find out how TNS Logistics implemented CartonCloud to build their small warehouse project into a thriving 3PL.
If you'd like to discuss the individual characteristics of your warehouse such as its size, growth prospects, and type of SKUs, our experienced team at CartonCloud can help you find the right system and barcode scanning implementation for your operations. Reach out to us today for a free demo, to see our software in action, and look at features specific to your operations.
Asset tracking systems lay the foundation for successful inventory control, maintenance management, resource utilization, and a variety of other benefits that streamline processes and contribute to a healthy bottom line. But even the best asset tracking systems lose effectiveness if they’re not paired with the right automatic data capture tools, such as handheld barcode scanners. This guide will help you identify the features and capabilities to meet your application requirements.
Today’s handheld barcode scanners offer greater functionality and durability than early models, not to mention convenience offered through Bluetooth connectivity, cordless functionality, and other benefits that make it possible to manage assets in-house, in the field, and even in harsh environments.
In this guide, you’ll find information about the typical uses and applications for handheld barcode scanners, key questions to ask in selecting the right handheld scanner for your company’s needs, a general glossary of terms and various classifications used to describe the types of barcode scanners and their functionality, key features, general cost ranges for various types of handheld scanners, and individual handheld barcode scanner reviews. Jump to a specific section by clicking links in the table of contents below.
Handheld barcode scanners have a variety of use cases. In fact, these devices are used in practically every industry, but for applications ranging from point-of-sale scanning to standard asset management in office environments and to monitor equipment maintenance and repair programs in industrial settings.
The following industries commonly rely on handheld scanners for asset management, inventory control, maintenance and repair, or other scanning requirements:
There are several considerations that help identify the best handheld barcode scanner for your application:
Barcode scanners are commonly categorized by scanning capabilities, such as laser barcode scanners and imagers, but you may also find barcode scanners grouped according to class, such as POS (point-of-sale), industrial, and other types, or by function, such as handheld, wireless, and portable. Here are a few common terms used to define and categories barcode scanners.
The company is the world’s best Handheld Scanner Barcode supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.
Handheld Barcode Scanner – This broad term refers to barcode scanners that are portable and easily used with one-hand operation. These scanners typically use a trigger-like mechanism with point-and-scan functionality. Handheld barcode scanners may be corded or cordless, capable of scanning any combination of 1D, 2D, and postal codes, and capture barcodes using a laser or imaging technology.
Laser Barcode Scanners – Laser barcode scanners, typically, are compatible with 1D barcodes only. These scanners rely on a laser beam light source, which is scanned back and forth across the bar code. The bar code is decoded using a photo diode which measures the light intensity reflected back from the laser, and a decoder interprets the waveforms produced as a result. The barcode reader then sends the information to your computing source in a more traditional data format.
Image Barcode Scanners – An imager, or image barcode scanner, relies on image capture rather than a laser to read and interpret barcodes. Barcode labels are decoded using sophisticated digital image processing functionality.
Wireless or Cordless Handheld Barcode Scanners – Wireless, or cordless barcode scanners, rely on a rechargeable power source to provide cord-free operation. These barcode scanners may be laser or image scanners. A key consideration in choosing this type of barcode scanner is how long a full battery charge lasts, on average, under typical use. If your scanning needs require staff to be in the field, away from a charging source, for many hours, you’ll want a barcode scanner with a long battery life.
Industrial Barcode Scanners – Some handheld barcode scanners are called industrial barcode scanners. This typically indicates that the scanner is constructed with durable plastics and other materials that allow it to function in less-than-ideal or harsh environments. These scanners are also tested and sometimes classified with an IP rating (Ingress Protection Rating), an international rating system that classifies electronics based on resistance to environmental hazards such as dust, moisture, and other conditions.
Omni-Directional Barcode Scanners – Omni-directional barcode scanners rely on a laser, but a complex and interwoven series of lasers creating a mixed-grid pattern, rather than a single, straight-line laser. Omni-directional barcode scanners are laser scanners, but the omni-directional functionality enables these scanners to decode 2D barcodes in addition to 1D barcodes.
Now that you have an idea of your application’s requirements, you can begin to narrow down the handheld scanner models that meet your specifications. There are several primary features and characteristics that can help you determine the best handheld scanner for your needs.
Corded vs. Cordless Scanners – If your application requires outdoor, on-floor, or cross-facility use, and your staff won’t always be near a power source, a cordless scanner will better meet your needs.
Durability – If your application requires a handheld scanner that functions well under harsh conditions, look for a handheld barcode scanner with an IP rating of IP54 or IP65, indicating that the device will withstand dust, water spray, or water jets in multiple directions. For the harshest environments, you’ll want to consider a specialty handheld scanner designed for use in your typical environment.
Connectivity – Some handheld barcode scanners are Bluetooth-enabled, meaning they can connect to your network wirelessly and transmit data to a Computerized Maintenance Management System (CMMS) or other database or application.
Scanning Capabilities – Know what symbologies your company works with, and choose a handheld barcode scanner capable of decoding 1D, 2D, and Postal symbologies as required.
Laser vs. Imager Scanning Functionality – Imaging scanners are more advanced than laser scanners, and they generally offer the most scanning capabilities.
Omni-Directional Scanning – If you do opt for a laser scanner, choose a model with omni-directional scanning functionality. This means, in most cases, that your scanner is capable of decoding 2D barcodes.
Operating Systems and Software Compatibility – Some handheld barcode scanners operate on common mobile platforms, such as Android. Some have built-in software, and some enable companies to develop custom applications for scanners using an SDK (Software Development Kit). Some handheld scanners are compatible out-of-the-box with Microsoft Windows or iOS, but others require the download of a specific driver for full compatibility.
Scanning Distance – Scanning distance defines the distance at which a barcode scanner is capable of decoding various types of barcodes, and the scanning distance often varies based on the type of symbology. For instance, a barcode scanner may be able to decode a 1D barcode at a distance of 10 to 12 inches, while it may require a closer distance for PDF417 or Postal symbologies.
Scanner Networking – If your application requires the use of multiple barcode scanners, look for scanners that enable several handheld scanning devices to interface with a single base. This streamlines device management and cuts down on implementation costs.
Environmental Conditions – While the IP rating defines durability, handheld scanners also have other ideal usage specifications for ambient lighting, usage temperature, and storage temperature. This is a consideration if your scanning needs demand use in dim lighting or bright sunlight, or in higher or lower than normal average temperatures.
Scanning Speed – For large-scale scanning requirements, look for a handheld barcode scanner with rapid, continuous scanning capabilities. Some barcode scanners can scan 60 to 120 images per second, enabling ongoing use with minimal downtime.
Warranty – Handheld scanners generally offer warranties between one and five years. Longer warranties are advantageous if your environment is less-than-ideal.
Costs for handheld barcode scanners vary as widely as the functionality and capabilities they offer. Generally, image-capture scanners are more expensive than laser scanners, with omni-directional scanners costing more than straight-line laser scanners.
This corresponds to scanning capabilities, as omni-directional scanners and image-capture scanners capable of decoding both 1D and 2D barcodes, whereas straight-line laser scanners can decode 1D barcodes only. General-purpose scanners generally cost between $200 and $600, although pricing varies widely.
Additionally, durability plays a key role in costs. The most rugged handheld scanners designed for use in the field and in harsh environments are among the most expensive barcode scanners, although their functionality and rugged durability is a worthy investment for harsh applications. These handheld scanners can cost up to $2,500 or more. A few less-rugged, but still durable, models are available in the range of $500 to $1,200.
For more details and specifications on many popular and specialty handheld barcode scanners, click here for a detailed comparison chart or click through to read a detailed review for any model in the list below.
To make comparing the different handheld scanners we’ve reviewed above easier, we’ve created a handy barcode scanner comparison chart. The chart includes quick checklists of all the feautures and capabilities for each scanner, so you can do side-by-side comparison for the different models and manufacturers.
Click on the image below to view the full chart.
View Chart
For more Wireless Handheld Scannersinformation, please contact us. We will provide professional answers.