Product Categories

Fingerprint Module Parts

[17]

Contact Now

Hangzhou Grow Technology Co., Ltd.

City:hangzhou

Province/State:zhejiang

Country/Region:china

Contact Person:MsWinni Wu

View Contact Details

Contact Now

China Global Multi Code Barcode Scanner Module Arduino Qr Reader Module wholesale

Global Multi Code Barcode Scanner Module Arduino Qr Reader Module

Ask Latest Price

Video Channel

Certification :CE

Place of Origin :China

MOQ :1

Payment Terms :T/T, PayPal

Supply Ability :5000

Delivery Time :Peak Season Lead Time: within 15 workdays Off Season Lead Time: within 15 workdays

Packaging Details :Carton

Model NO. :GM78

Operating Current :180mA

Interface :USB/Uart

Resolution :0.10mm (4mil)

Transport Package :Standard Export Carton Package

Specification :Black

Trademark :GROW

Origin :China

HS Code :8473309000

Package Size :13.00cm * 8.00cm * 9.00cm

Package Gross Weight :0.200kg

Interface Type :Uart, USB

Scan Element Type :CMOS

Operating Voltage :5V

Samples :US$ 21/Piece 1 Piece(Min.Order) |

Customization :Available | Customized Request

Shipping Cost :about shipping cost and estimated delivery time.

Payment Method :Initial Payment Full Payment

Currency :US$

Return&refunds :You can apply for a refund up to 30 days after receipt of the products.

Contact Now

Add to Cart

View Product Description

GM78 Global Multi-Code 1d 2D DC5V USB Uart Barcode Scanner Module

Description

1. USB wired barcode scanner to capture 1D, 2D code on labels, paper, mobile phone or computer.

2. High-efficiency recognization and high upload speed for improving your working efficiency.

3. With buzzer for reminding you that the scanning successfully or not.

4. Compatible with USB and UART interface.

5. Over 180 configurable options

6. Macro support replace a string in the bar code with another

7. Programmable preamble postamble and termination strings

8.Superior reading performance utilizing advanced decoding algorithms

9. Global multi-code reading.

Specifications

Scanning Performance	Scan Mode		640*480 CMOS
	Lighting		White LED
	Ambient light		Soft White LED
	Read Code Type	2D	QR Code, Data Matrix, PDF417,Aztec,Micro QR,Micro PDF417
		1D	EAN,UPC,Code 39,Code 93,Code 128,UCC/EAN 128, Codabar,
			Interleaved 2 of 5, ITF-6,ITF-14,ISBN,ISSN, MSI-Plessey
			GS1 Databar ,Code 11,Industrial 25,
			Standard 25,Plessey, Matrix 2 of 5
	Accuracy of reading		≥4mil
	Depth of Field	EAN-13	50mm-200mm (13mil)
		Code 39	40mm-90mm (5mil 10 bytes)
		QR Code	25mm-200mm (20mil 16 bytes)
		Data Marix	50mm-90mm (10mil 20 bytes)
		PDF417	30mm-130mm (6.67mil 7 bytes)
	Contrast		≥25%
	Scanning angle		Intersection angle 360°,Elevation ± 55° Deflection angle ± 55°
	Viewing Angle		Horizontal:47° Vertical:36°
Mechanical/ Electrical Parameters	Interface		TTL-232 , USB (HID-KBW, Virtual serial port)
	Dimension		48(W)27.5(D)14(H)mm
	Operating Voltage		DC 5 V
	Operating Current		180mA
	Standby Current		USB:50mA; TTL:10mA
Environmental Parameters	Operating Temperature		-20ºC~+50ºC
	Storage Temperature		-40ºC~+70ºC
	Operating Humidity		5%~95%(Non-Condensing)
	Environmental Light		0~100000LUX

Files

·Provide User Manual

Unveiling the Operation of Scanning Modules

Imagine that the scanning module is like a super eye, and its workflow is like this:

Firstly, it uses a light source (such as a laser or LED light) to illuminate the item you want to scan, and this light source will be selected according to different scanning needs. This process is like turning on a flashlight in the dark, illuminating the road ahead.

When light touches an object, it will reflect back and be captured by the lens in the scanning module. This lens is like a small magnifying glass, focusing the reflected light into a clear image. The quality of an image depends on the quality of the lens and its focal length setting.

Next, a magical component called an image sensor appeared. It's like a translator, converting images into electrical signals. This sensor may be a charge-coupled device (CCD) or a complementary metal oxide semiconductor (CMOS), both of which are highly skilled at converting optical signals into electrical signals.

The electrical signal is then sent to the decoding chip for further processing. The decoding chip is like a sound engineer, it amplifies the electrical signal, removes noise, and then converts it into a digital signal. In this way, the data becomes both clear and reliable.

These digital signals are then sent to the main control board, which acts as the brain of the scanning module, responsible for processing data while controlling other parts of the module. The main control board can be connected to computers or other devices through various interfaces to transmit processed data.

Before the data is transmitted, the main control board will also undergo a "physical examination", which is data verification. It will use various methods such as parity check or CRC to ensure the accuracy of data. If any errors are found, they will be corrected immediately.

Finally, the data that has been filtered and processed layer by layer can be outputted. They are usually transmitted to computers or other devices through interfaces for further analysis, identification, storage, or other applications.

Simply put, the scanning module converts the image of an object into a digital signal through optical equipment, then performs a series of processing and applications, and finally outputs the result. This process can be controlled and controlled through computers or other devices, making scanning work more automated and intelligent.

Inquiry Cart 0